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/// @file include-private/xed3-phash-vv1.h
// This file was automatically generated.
// Do not edit this file.
#if !defined(INCLUDE_PRIVATE_XED3_PHASH_VV1_H)
# define INCLUDE_PRIVATE_XED3_PHASH_VV1_H
/*BEGIN_LEGAL
Copyright (c) 2021 Intel Corporation
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
END_LEGAL */
#include "xed-internal-header.h"
#include "xed3-operand-lu.h"
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x0_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x1_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x4_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x5_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x6_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x7_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x8_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xa_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xb_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xc_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xd_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xe_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xf_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x13_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x16_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x17_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x18_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x19_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x1a_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x1c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x1d_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x1e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x20_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x21_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x22_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x23_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x24_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x25_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x28_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x29_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2a_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2b_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2d_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2f_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x30_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x31_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x32_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x33_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x34_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x35_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x36_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x37_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x38_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x39_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3a_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3b_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3d_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3f_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x40_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x41_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x45_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x46_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x47_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x49_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x4b_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x50_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x51_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x52_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x53_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x58_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x59_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x5a_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x5c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x5e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x78_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x79_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x8c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x8e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x90_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x91_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x92_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x93_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x96_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x97_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x98_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x99_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9a_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9b_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9d_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9f_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xa6_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xa7_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xa8_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xa9_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xaa_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xab_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xac_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xad_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xae_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xaf_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xb6_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xb7_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xb8_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xb9_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xba_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xbb_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xbc_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xbd_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xbe_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xbf_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xcf_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xdb_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xdc_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xdd_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xde_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xdf_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xf2_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xf3_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xf5_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xf6_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xf7_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x0_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x1_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x2_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x4_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x5_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x8_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x9_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xa_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xb_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xc_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xd_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xe_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xf_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x14_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x15_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x16_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x17_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x18_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x19_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x1d_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x20_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x21_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x22_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x30_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x31_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x32_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x33_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x38_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x39_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x40_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x41_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x42_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x44_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x46_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x48_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x49_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x4a_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x4b_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x4c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x5c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x5d_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x5e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x5f_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x60_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x61_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x62_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x63_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x68_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x69_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6a_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6b_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6d_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6f_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x78_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x79_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x7a_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x7b_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x7c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x7d_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x7e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x7f_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xce_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xcf_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xdf_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xf0_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x10_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x11_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x12_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x13_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x14_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x15_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x16_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x17_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x28_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x29_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x2a_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x2b_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x2c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x2d_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x2e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x2f_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x41_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x42_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x44_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x45_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x46_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x47_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x4a_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x4b_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x50_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x51_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x52_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x53_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x54_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x55_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x56_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x57_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x58_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x59_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x5a_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x5b_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x5c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x5d_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x5e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x5f_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x60_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x61_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x62_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x63_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x64_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x65_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x66_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x67_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x68_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x69_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x6a_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x6b_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x6c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x6d_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x6e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x6f_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x70_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x71_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x72_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x73_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x74_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x75_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x76_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x77_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x7c_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x7d_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x7e_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x7f_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x90_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x91_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x92_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x93_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x98_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x99_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xae_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xc2_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xc4_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xc5_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xc6_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd0_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd1_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd2_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd3_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd4_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd5_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd6_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd7_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd8_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd9_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xda_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xdb_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xdc_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xdd_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xde_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xdf_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe0_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe1_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe2_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe3_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe4_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe5_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe6_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe7_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe8_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe9_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xea_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xeb_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xec_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xed_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xee_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xef_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf0_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf1_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf2_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf3_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf4_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf5_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf6_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf7_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf8_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf9_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xfa_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xfb_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xfc_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xfd_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xfe_vv1(const xed_decoded_inst_t* d);
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x0_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x00 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3073},
/*h(2)=1 VV1 0x00 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3071},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x00 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3074},
/*h(3)=4 VV1 0x00 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3072}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x1_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x01 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3017},
/*h(2)=1 VV1 0x01 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3015},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x01 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3018},
/*h(3)=4 VV1 0x01 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3016}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x02 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3021},
/*h(2)=1 VV1 0x02 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3019},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x02 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3022},
/*h(3)=4 VV1 0x02 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3020}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x03 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3025},
/*h(2)=1 VV1 0x03 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3023},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x03 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3026},
/*h(3)=4 VV1 0x03 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3024}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x4_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x04 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3303},
/*h(2)=1 VV1 0x04 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3301},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x04 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3304},
/*h(3)=4 VV1 0x04 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3302}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x5_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x05 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3029},
/*h(2)=1 VV1 0x05 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3027},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x05 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3030},
/*h(3)=4 VV1 0x05 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3028}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x6_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x06 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3033},
/*h(2)=1 VV1 0x06 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3031},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x06 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3034},
/*h(3)=4 VV1 0x06 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3032}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x7_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x07 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3037},
/*h(2)=1 VV1 0x07 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3035},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x07 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3038},
/*h(3)=4 VV1 0x07 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3036}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x8_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x08 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3077},
/*h(2)=1 VV1 0x08 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3075},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x08 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3078},
/*h(3)=4 VV1 0x08 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3076}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x09 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3081},
/*h(2)=1 VV1 0x09 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3079},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x09 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3082},
/*h(3)=4 VV1 0x09 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3080}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xa_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x0A VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3085},
/*h(2)=1 VV1 0x0A VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3083},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x0A VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3086},
/*h(3)=4 VV1 0x0A VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3084}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xb_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x0B VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3045},
/*h(2)=1 VV1 0x0B VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3043},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x0B VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3046},
/*h(3)=4 VV1 0x0B VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3044}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xc_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(5)=0 VV1 0x0C VL128 V66 V0F38 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 2711},
/*h(20)=1 VV1 0x0C VL256 V66 V0F38 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 2712},
/*h(4)=2 VV1 0x0C VL128 V66 V0F38 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2710},
/*empty slot1 */ {0,0},
/*h(21)=4 VV1 0x0C VL256 V66 V0F38 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 2713}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xd_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(5)=0 VV1 0x0D VL128 V66 V0F38 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 2703},
/*h(20)=1 VV1 0x0D VL256 V66 V0F38 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 2704},
/*h(4)=2 VV1 0x0D VL128 V66 V0F38 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2702},
/*empty slot1 */ {0,0},
/*h(21)=4 VV1 0x0D VL256 V66 V0F38 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 2705}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xe_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=2 VV1 0x0E VL128 V66 V0F38 norexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 2745},
/*h(93)=3 VV1 0x0E VL256 V66 V0F38 norexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 2748},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=6 VV1 0x0E VL256 V66 V0F38 norexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {92, 2747},
/*h(29)=7 VV1 0x0E VL128 V66 V0F38 norexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 2746}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xf_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=2 VV1 0x0F VL128 V66 V0F38 norexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 2749},
/*h(93)=3 VV1 0x0F VL256 V66 V0F38 norexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 2752},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=6 VV1 0x0F VL256 V66 V0F38 norexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {92, 2751},
/*h(29)=7 VV1 0x0F VL128 V66 V0F38 norexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 2750}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x13_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=2 VV1 0x13 VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() W0*/ {28, 3503},
/*h(93)=3 VV1 0x13 VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] W0*/ {93, 3506},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=6 VV1 0x13 VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() W0*/ {92, 3505},
/*h(29)=7 VV1 0x13 VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] W0*/ {29, 3504}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x16_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(20)=0 VV1 0x16 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3739},
/*h(21)=1 VV1 0x16 VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3740}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = key - 20;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x17_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x17 VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 2744},
/*h(15)=1 VV1 0x17 VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2742},
/*h(46)=2 VV1 0x17 VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 2743},
/*h(14)=3 VV1 0x17 VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2741},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x18_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=2 VV1 0x18 norexw_prefix VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 2720},
/*h(93)=3 VV1 0x18 VL256 V66 V0F38 W0 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 2723},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=6 VV1 0x18 norexw_prefix VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {92, 2721},
/*h(29)=7 VV1 0x18 VL128 V66 V0F38 W0 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 2722}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x19_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(92)=0 VV1 0x19 norexw_prefix VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2724},
/*h(93)=1 VV1 0x19 VL256 V66 V0F38 W0 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {2725}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 92;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x1a_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[1] = {
/*h(92)=0 VV1 0x1A norexw_prefix VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2726}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 92;
if(hidx == 0) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x1c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x1C VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 2856},
/*h(15)=1 VV1 0x1C V66 V0F38 VL128 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2854},
/*h(46)=2 VV1 0x1C VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 2855},
/*h(14)=3 VV1 0x1C V66 V0F38 VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2853},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x1d_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x1D VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 2860},
/*h(15)=1 VV1 0x1D V66 V0F38 VL128 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2858},
/*h(46)=2 VV1 0x1D VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 2859},
/*h(14)=3 VV1 0x1D V66 V0F38 VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2857},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x1e_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x1E VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 2864},
/*h(15)=1 VV1 0x1E V66 V0F38 VL128 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2862},
/*h(46)=2 VV1 0x1E VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 2863},
/*h(14)=3 VV1 0x1E V66 V0F38 VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2861},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x20_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x20 VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3369},
/*h(15)=1 VV1 0x20 VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3367},
/*h(46)=2 VV1 0x20 VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3370},
/*h(14)=3 VV1 0x20 VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3368},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x21_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x21 VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3373},
/*h(15)=1 VV1 0x21 VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3371},
/*h(46)=2 VV1 0x21 VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3374},
/*h(14)=3 VV1 0x21 VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3372},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x22_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x22 VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3377},
/*h(15)=1 VV1 0x22 VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3375},
/*h(46)=2 VV1 0x22 VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3378},
/*h(14)=3 VV1 0x22 VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3376},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x23_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x23 VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3381},
/*h(15)=1 VV1 0x23 VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3379},
/*h(46)=2 VV1 0x23 VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3382},
/*h(14)=3 VV1 0x23 VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3380},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x24_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x24 VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3385},
/*h(15)=1 VV1 0x24 VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3383},
/*h(46)=2 VV1 0x24 VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3386},
/*h(14)=3 VV1 0x24 VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3384},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x25_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x25 VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3389},
/*h(15)=1 VV1 0x25 VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3387},
/*h(46)=2 VV1 0x25 VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3390},
/*h(14)=3 VV1 0x25 VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3388},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x28_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x28 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3065},
/*h(2)=1 VV1 0x28 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3063},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x28 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3066},
/*h(3)=4 VV1 0x28 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3064}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x29_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x29 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2997},
/*h(2)=1 VV1 0x29 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2995},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x29 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2998},
/*h(3)=4 VV1 0x29 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2996}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2a_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(46)=0 VV1 0x2A V66 V0F38 VL256 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3472},
/*h(14)=1 VV1 0x2A V66 V0F38 VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3471}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-1));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2b_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x2B V66 V0F38 VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2893},
/*h(2)=1 VV1 0x2B V66 V0F38 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2891},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x2B V66 V0F38 VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2894},
/*h(3)=4 VV1 0x2B V66 V0F38 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2892}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(20)=0 VV1 0x2C V66 VL256 V0F38 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 2734},
/*h(4)=1 VV1 0x2C V66 VL128 V0F38 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2733}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = ((4*key % 3) % 2);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2d_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(20)=0 VV1 0x2D V66 VL256 V0F38 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 2738},
/*h(4)=1 VV1 0x2D V66 VL128 V0F38 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2737}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = ((4*key % 3) % 2);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2e_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(20)=0 VV1 0x2E V66 V0F38 VL256 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 2736},
/*h(4)=1 VV1 0x2E V66 V0F38 VL128 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2735}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = ((4*key % 3) % 2);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x2f_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(20)=0 VV1 0x2F V66 V0F38 VL256 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 2740},
/*h(4)=1 VV1 0x2F V66 V0F38 VL128 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2739}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = ((4*key % 3) % 2);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x30_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x30 VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3393},
/*h(15)=1 VV1 0x30 VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3391},
/*h(46)=2 VV1 0x30 VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3394},
/*h(14)=3 VV1 0x30 VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3392},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x31_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x31 VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3397},
/*h(15)=1 VV1 0x31 VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3395},
/*h(46)=2 VV1 0x31 VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3398},
/*h(14)=3 VV1 0x31 VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3396},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x32_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x32 V66 V0F38 VL256 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3401},
/*h(15)=1 VV1 0x32 V66 V0F38 VL128 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3399},
/*h(46)=2 VV1 0x32 V66 V0F38 VL256 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3402},
/*h(14)=3 VV1 0x32 V66 V0F38 VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3400},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x33_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x33 V66 V0F38 VL256 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3405},
/*h(15)=1 VV1 0x33 V66 V0F38 VL128 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3403},
/*h(46)=2 VV1 0x33 V66 V0F38 VL256 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3406},
/*h(14)=3 VV1 0x33 V66 V0F38 VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3404},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x34_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x34 VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3409},
/*h(15)=1 VV1 0x34 VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3407},
/*h(46)=2 VV1 0x34 VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3410},
/*h(14)=3 VV1 0x34 VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3408},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x35_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x35 VL256 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3413},
/*h(15)=1 VV1 0x35 VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3411},
/*h(46)=2 VV1 0x35 VL256 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3414},
/*h(14)=3 VV1 0x35 VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3412},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x36_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(20)=0 VV1 0x36 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256 W0*/ {3737},
/*h(21)=1 VV1 0x36 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {3738}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = key - 20;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x37_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x37 V66 V0F38 VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3013},
/*h(2)=1 VV1 0x37 V66 V0F38 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3011},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x37 V66 V0F38 VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3014},
/*h(3)=4 VV1 0x37 V66 V0F38 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3012}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x38_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x38 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3275},
/*h(2)=1 VV1 0x38 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3273},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x38 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3276},
/*h(3)=4 VV1 0x38 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3274}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x39_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x39 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3283},
/*h(2)=1 VV1 0x39 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3281},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x39 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3284},
/*h(3)=4 VV1 0x39 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3282}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3a_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x3A V66 V0F38 VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3291},
/*h(2)=1 VV1 0x3A V66 V0F38 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3289},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x3A V66 V0F38 VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3292},
/*h(3)=4 VV1 0x3A V66 V0F38 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3290}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3b_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x3B V66 V0F38 VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3295},
/*h(2)=1 VV1 0x3B V66 V0F38 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3293},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x3B V66 V0F38 VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3296},
/*h(3)=4 VV1 0x3B V66 V0F38 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3294}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x3C VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3251},
/*h(2)=1 VV1 0x3C VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3249},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x3C VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3252},
/*h(3)=4 VV1 0x3C VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3250}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3d_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x3D VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3259},
/*h(2)=1 VV1 0x3D VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3257},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x3D VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3260},
/*h(3)=4 VV1 0x3D VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3258}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3e_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x3E VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3267},
/*h(2)=1 VV1 0x3E VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3265},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x3E VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3268},
/*h(3)=4 VV1 0x3E VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3266}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x3f_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x3F VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3271},
/*h(2)=1 VV1 0x3F VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3269},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x3F VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3272},
/*h(3)=4 VV1 0x3F VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3270}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x40_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x40 VL256 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3057},
/*h(2)=1 VV1 0x40 VL128 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3055},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x40 VL256 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3058},
/*h(3)=4 VV1 0x40 VL128 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3056}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x41_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(14)=0 VV1 0x41 V66 V0F38 VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2865},
/*h(15)=1 VV1 0x41 V66 V0F38 VL128 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {2866}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 14;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x45_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x45 VL128 V0F38 V66 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3771},
/*h(23)=1 VV1 0x45 VL256 V0F38 V66 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3777},
/*h(7)=2 VV1 0x45 VL128 V0F38 V66 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3775},
/*h(20)=3 VV1 0x45 VL256 V0F38 V66 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3772},
/*h(4)=4 VV1 0x45 VL128 V0F38 V66 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3770},
/*h(22)=5 VV1 0x45 VL256 V0F38 V66 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3776},
/*h(6)=6 VV1 0x45 VL128 V0F38 V66 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3774},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x45 VL256 V0F38 V66 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3773}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x46_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(5)=0 VV1 0x46 V0F38 V66 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0*/ {5, 3779},
/*h(20)=1 VV1 0x46 V0F38 V66 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256 W0*/ {20, 3780},
/*h(4)=2 VV1 0x46 V0F38 V66 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W0*/ {4, 3778},
/*empty slot1 */ {0,0},
/*h(21)=4 VV1 0x46 V0F38 V66 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3781}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x47_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x47 VL128 V0F38 V66 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3763},
/*h(23)=1 VV1 0x47 VL256 V0F38 V66 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3769},
/*h(7)=2 VV1 0x47 VL128 V0F38 V66 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3767},
/*h(20)=3 VV1 0x47 VL256 V0F38 V66 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3764},
/*h(4)=4 VV1 0x47 VL128 V0F38 V66 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3762},
/*h(22)=5 VV1 0x47 VL256 V0F38 V66 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3768},
/*h(6)=6 VV1 0x47 VL128 V0F38 V66 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3766},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x47 VL256 V0F38 V66 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3765}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x49_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[50] = {
/*h(3204)=0 VV1 0x49 VNP V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {3204, 3957},
/*h(11317)=1 VV1 0x49 VF2 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[0b000] VL128 W0 mode64 NOVSR*/ {11317, 3968},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(7428)=4 VV1 0x49 V66 V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {7428, 3958},
/*h(3076)=5 VV1 0x49 VNP V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {3076, 3957},
/*empty slot1 */ {0,0},
/*h(11277)=7 VV1 0x49 VF2 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[0b000] VL128 W0 mode64 NOVSR*/ {11277, 3968},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11309)=10 VV1 0x49 VF2 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[0b000] VL128 W0 mode64 NOVSR*/ {11309, 3968},
/*empty slot1 */ {0,0},
/*h(7940)=12 VV1 0x49 V66 V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {7940, 3958},
/*h(3588)=13 VV1 0x49 VNP V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {3588, 3957},
/*empty slot1 */ {0,0},
/*h(3077)=15 VV1 0x49 VNP V0F38 MOD[0b11] MOD=3 REG[0b000] RM[0b000] VL128 W0 mode64 NOVSR*/ {3077, 3966},
/*h(11269)=16 VV1 0x49 VF2 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[0b000] VL128 W0 mode64 NOVSR*/ {11269, 3968},
/*h(7812)=17 VV1 0x49 V66 V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {7812, 3958},
/*h(3460)=18 VV1 0x49 VNP V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {3460, 3957},
/*h(11301)=19 VV1 0x49 VF2 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[0b000] VL128 W0 mode64 NOVSR*/ {11301, 3968},
/*h(7300)=20 VV1 0x49 V66 V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {7300, 3958},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(7172)=25 VV1 0x49 V66 V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {7172, 3958},
/*h(3972)=26 VV1 0x49 VNP V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {3972, 3957},
/*empty slot1 */ {0,0},
/*h(11293)=28 VV1 0x49 VF2 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[0b000] VL128 W0 mode64 NOVSR*/ {11293, 3968},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(3844)=31 VV1 0x49 VNP V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {3844, 3957},
/*empty slot1 */ {0,0},
/*h(7684)=33 VV1 0x49 V66 V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {7684, 3958},
/*h(3332)=34 VV1 0x49 VNP V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {3332, 3957},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11285)=37 VV1 0x49 VF2 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[0b000] VL128 W0 mode64 NOVSR*/ {11285, 3968},
/*h(7556)=38 VV1 0x49 V66 V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {7556, 3958},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11325)=42 VV1 0x49 VF2 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[0b000] VL128 W0 mode64 NOVSR*/ {11325, 3968},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(8068)=46 VV1 0x49 V66 V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {8068, 3958},
/*h(3716)=47 VV1 0x49 VNP V0F38 MOD[mm] MOD!=3 REG[0b000] RM[nnn] MODRM() VL128 W0 mode64 NOVSR*/ {3716, 3957},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REG_REXW_RM_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = ((10*key % 89) % 50);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x4b_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[6] = {
/*h(500)=0 VV1 0x4B VF3 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[0b100] MODRM() VL128 W0 mode64 NOVSR*/ {500, 3967},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(244)=4 VV1 0x4B V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[0b100] MODRM() VL128 W0 mode64 NOVSR*/ {244, 3965},
/*h(372)=5 VV1 0x4B VF2 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[0b100] MODRM() VL128 W0 mode64 NOVSR*/ {372, 3964}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_RM4_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 6ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x50_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(5)=0 VV1 0x50 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0*/ {5, 3941},
/*h(20)=1 VV1 0x50 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256 W0*/ {20, 3944},
/*h(4)=2 VV1 0x50 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W0*/ {4, 3942},
/*empty slot1 */ {0,0},
/*h(21)=4 VV1 0x50 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3943}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x51_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(5)=0 VV1 0x51 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0*/ {5, 3945},
/*h(20)=1 VV1 0x51 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256 W0*/ {20, 3948},
/*h(4)=2 VV1 0x51 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W0*/ {4, 3946},
/*empty slot1 */ {0,0},
/*h(21)=4 VV1 0x51 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3947}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x52_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(5)=0 VV1 0x52 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0*/ {5, 3949},
/*h(20)=1 VV1 0x52 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256 W0*/ {20, 3952},
/*h(4)=2 VV1 0x52 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W0*/ {4, 3950},
/*empty slot1 */ {0,0},
/*h(21)=4 VV1 0x52 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3951}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x53_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(5)=0 VV1 0x53 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0*/ {5, 3953},
/*h(20)=1 VV1 0x53 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256 W0*/ {20, 3956},
/*h(4)=2 VV1 0x53 V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W0*/ {4, 3954},
/*empty slot1 */ {0,0},
/*h(21)=4 VV1 0x53 V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3955}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x58_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=2 VV1 0x58 VL128 V66 V0F38 W0 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 3753},
/*h(93)=3 VV1 0x58 VL256 V66 V0F38 W0 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 3756},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=6 VV1 0x58 VL256 V66 V0F38 W0 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {92, 3755},
/*h(29)=7 VV1 0x58 VL128 V66 V0F38 W0 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 3754}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x59_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=2 VV1 0x59 VL128 V66 V0F38 W0 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 3757},
/*h(93)=3 VV1 0x59 VL256 V66 V0F38 W0 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 3760},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=6 VV1 0x59 VL256 V66 V0F38 W0 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {92, 3759},
/*h(29)=7 VV1 0x59 VL128 V66 V0F38 W0 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 3758}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x5a_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[1] = {
/*h(92)=0 VV1 0x5A VL256 V66 V0F38 W0 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3761}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 92;
if(hidx == 0) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x5c_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[1] = {
/*h(53)=0 VV1 0x5C VF3 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 mode64*/ {3959}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEX_PREFIX_VL(d);
hidx = key - 53;
if(hidx == 0) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x5e_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(5)=0 VV1 0x5E VNP V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 mode64*/ {5, 3963},
/*h(21)=1 VV1 0x5E V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 mode64*/ {21, 3962},
/*h(37)=2 VV1 0x5E VF2 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 mode64*/ {37, 3960},
/*h(53)=3 VV1 0x5E VF3 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 mode64*/ {53, 3961}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEX_PREFIX_VL(d);
hidx = ((6*key % 5) % 4);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x78_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=2 VV1 0x78 VL128 V66 V0F38 W0 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 3745},
/*h(93)=3 VV1 0x78 VL256 V66 V0F38 W0 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 3748},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=6 VV1 0x78 VL256 V66 V0F38 W0 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {92, 3747},
/*h(29)=7 VV1 0x78 VL128 V66 V0F38 W0 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 3746}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x79_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=2 VV1 0x79 VL128 V66 V0F38 W0 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 3749},
/*h(93)=3 VV1 0x79 VL256 V66 V0F38 W0 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 3752},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=6 VV1 0x79 VL256 V66 V0F38 W0 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {92, 3751},
/*h(29)=7 VV1 0x79 VL128 V66 V0F38 W0 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 3750}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x8c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(20)=2 VV1 0x8C VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3724},
/*h(4)=3 VV1 0x8C VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3723},
/*h(22)=4 VV1 0x8C VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3728},
/*h(6)=5 VV1 0x8C VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3727},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x8e_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(20)=2 VV1 0x8E VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3726},
/*h(4)=3 VV1 0x8E VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3725},
/*h(22)=4 VV1 0x8E VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3730},
/*h(6)=5 VV1 0x8E VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3729},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x90_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[15] = {
/*h(178)=0 VV1 0x90 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_YMM() eanot16*/ {178, 3713},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(59)=6 VV1 0x90 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {59, 3712},
/*h(51)=7 VV1 0x90 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {51, 3714},
/*h(187)=8 VV1 0x90 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {187, 3711},
/*h(179)=9 VV1 0x90 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_YMM() eanot16*/ {179, 3713},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(58)=12 VV1 0x90 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {58, 3712},
/*h(50)=13 VV1 0x90 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {50, 3714},
/*h(186)=14 VV1 0x90 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {186, 3711}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_ASZ_NONTERM_EASZ_MOD3_REXW_RM4_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 15ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x91_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[15] = {
/*h(178)=0 VV1 0x91 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_YMM() eanot16*/ {178, 3717},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(59)=6 VV1 0x91 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {59, 3716},
/*h(51)=7 VV1 0x91 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {51, 3718},
/*h(187)=8 VV1 0x91 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_YMM() eanot16*/ {187, 3715},
/*h(179)=9 VV1 0x91 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_YMM() eanot16*/ {179, 3717},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(58)=12 VV1 0x91 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {58, 3716},
/*h(50)=13 VV1 0x91 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {50, 3718},
/*h(186)=14 VV1 0x91 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_YMM() eanot16*/ {186, 3715}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_ASZ_NONTERM_EASZ_MOD3_REXW_RM4_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 15ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x92_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[15] = {
/*h(178)=0 VV1 0x92 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_YMM() eanot16*/ {178, 3705},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(59)=6 VV1 0x92 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {59, 3704},
/*h(51)=7 VV1 0x92 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {51, 3706},
/*h(187)=8 VV1 0x92 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {187, 3703},
/*h(179)=9 VV1 0x92 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_YMM() eanot16*/ {179, 3705},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(58)=12 VV1 0x92 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {58, 3704},
/*h(50)=13 VV1 0x92 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {50, 3706},
/*h(186)=14 VV1 0x92 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {186, 3703}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_ASZ_NONTERM_EASZ_MOD3_REXW_RM4_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 15ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x93_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[15] = {
/*h(178)=0 VV1 0x93 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_YMM() eanot16*/ {178, 3709},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(59)=6 VV1 0x93 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {59, 3708},
/*h(51)=7 VV1 0x93 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {51, 3710},
/*h(187)=8 VV1 0x93 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_YMM() eanot16*/ {187, 3707},
/*h(179)=9 VV1 0x93 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_YMM() eanot16*/ {179, 3709},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(58)=12 VV1 0x93 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {58, 3708},
/*h(50)=13 VV1 0x93 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_XMM() eanot16*/ {50, 3710},
/*h(186)=14 VV1 0x93 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] RM=4 VMODRM_YMM() eanot16*/ {186, 3707}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_ASZ_NONTERM_EASZ_MOD3_REXW_RM4_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 15ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x96_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x96 VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3560},
/*h(23)=1 VV1 0x96 VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3550},
/*h(7)=2 VV1 0x96 VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3548},
/*h(20)=3 VV1 0x96 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3561},
/*h(4)=4 VV1 0x96 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3559},
/*h(22)=5 VV1 0x96 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3549},
/*h(6)=6 VV1 0x96 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3547},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x96 VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3562}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x97_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x97 VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3584},
/*h(23)=1 VV1 0x97 VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3574},
/*h(7)=2 VV1 0x97 VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3572},
/*h(20)=3 VV1 0x97 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3585},
/*h(4)=4 VV1 0x97 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3583},
/*h(22)=5 VV1 0x97 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3573},
/*h(6)=6 VV1 0x97 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3571},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x97 VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3586}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x98_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x98 VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3516},
/*h(23)=1 VV1 0x98 VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3514},
/*h(7)=2 VV1 0x98 VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3512},
/*h(20)=3 VV1 0x98 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3517},
/*h(4)=4 VV1 0x98 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3515},
/*h(22)=5 VV1 0x98 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3513},
/*h(6)=6 VV1 0x98 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3511},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x98 VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3518}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x99_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0x99 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3521},
/*h(5)=1 VV1 0x99 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3522},
/*h(6)=2 VV1 0x99 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3519},
/*h(7)=3 VV1 0x99 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3520}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9a_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x9A VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3600},
/*h(23)=1 VV1 0x9A VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3598},
/*h(7)=2 VV1 0x9A VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3596},
/*h(20)=3 VV1 0x9A VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3601},
/*h(4)=4 VV1 0x9A VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3599},
/*h(22)=5 VV1 0x9A VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3597},
/*h(6)=6 VV1 0x9A VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3595},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x9A VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3602}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9b_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0x9B V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3605},
/*h(5)=1 VV1 0x9B V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3606},
/*h(6)=2 VV1 0x9B V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3603},
/*h(7)=3 VV1 0x9B V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3604}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x9C VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3636},
/*h(23)=1 VV1 0x9C VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3634},
/*h(7)=2 VV1 0x9C VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3632},
/*h(20)=3 VV1 0x9C VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3637},
/*h(4)=4 VV1 0x9C VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3635},
/*h(22)=5 VV1 0x9C VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3633},
/*h(6)=6 VV1 0x9C VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3631},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x9C VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3638}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9d_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0x9D V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3641},
/*h(5)=1 VV1 0x9D V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3642},
/*h(6)=2 VV1 0x9D V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3639},
/*h(7)=3 VV1 0x9D V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3640}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9e_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x9E VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3672},
/*h(23)=1 VV1 0x9E VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3670},
/*h(7)=2 VV1 0x9E VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3668},
/*h(20)=3 VV1 0x9E VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3673},
/*h(4)=4 VV1 0x9E VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3671},
/*h(22)=5 VV1 0x9E VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3669},
/*h(6)=6 VV1 0x9E VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3667},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x9E VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3674}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0x9f_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0x9F V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3677},
/*h(5)=1 VV1 0x9F V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3678},
/*h(6)=2 VV1 0x9F V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3675},
/*h(7)=3 VV1 0x9F V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3676}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xa6_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0xA6 VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3564},
/*h(23)=1 VV1 0xA6 VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3554},
/*h(7)=2 VV1 0xA6 VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3552},
/*h(20)=3 VV1 0xA6 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3565},
/*h(4)=4 VV1 0xA6 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3563},
/*h(22)=5 VV1 0xA6 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3553},
/*h(6)=6 VV1 0xA6 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3551},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0xA6 VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3566}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xa7_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0xA7 VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3588},
/*h(23)=1 VV1 0xA7 VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3578},
/*h(7)=2 VV1 0xA7 VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3576},
/*h(20)=3 VV1 0xA7 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3589},
/*h(4)=4 VV1 0xA7 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3587},
/*h(22)=5 VV1 0xA7 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3577},
/*h(6)=6 VV1 0xA7 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3575},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0xA7 VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3590}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xa8_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0xA8 VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3528},
/*h(23)=1 VV1 0xA8 VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3526},
/*h(7)=2 VV1 0xA8 VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3524},
/*h(20)=3 VV1 0xA8 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3529},
/*h(4)=4 VV1 0xA8 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3527},
/*h(22)=5 VV1 0xA8 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3525},
/*h(6)=6 VV1 0xA8 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3523},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0xA8 VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3530}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xa9_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0xA9 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3533},
/*h(5)=1 VV1 0xA9 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3534},
/*h(6)=2 VV1 0xA9 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3531},
/*h(7)=3 VV1 0xA9 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3532}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xaa_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0xAA VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3612},
/*h(23)=1 VV1 0xAA VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3610},
/*h(7)=2 VV1 0xAA VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3608},
/*h(20)=3 VV1 0xAA VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3613},
/*h(4)=4 VV1 0xAA VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3611},
/*h(22)=5 VV1 0xAA VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3609},
/*h(6)=6 VV1 0xAA VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3607},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0xAA VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3614}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xab_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0xAB V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3617},
/*h(5)=1 VV1 0xAB V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3618},
/*h(6)=2 VV1 0xAB V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3615},
/*h(7)=3 VV1 0xAB V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3616}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xac_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0xAC VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3648},
/*h(23)=1 VV1 0xAC VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3646},
/*h(7)=2 VV1 0xAC VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3644},
/*h(20)=3 VV1 0xAC VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3649},
/*h(4)=4 VV1 0xAC VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3647},
/*h(22)=5 VV1 0xAC VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3645},
/*h(6)=6 VV1 0xAC VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3643},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0xAC VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3650}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xad_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0xAD V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3653},
/*h(5)=1 VV1 0xAD V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3654},
/*h(6)=2 VV1 0xAD V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3651},
/*h(7)=3 VV1 0xAD V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3652}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xae_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0xAE VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3684},
/*h(23)=1 VV1 0xAE VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3682},
/*h(7)=2 VV1 0xAE VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3680},
/*h(20)=3 VV1 0xAE VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3685},
/*h(4)=4 VV1 0xAE VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3683},
/*h(22)=5 VV1 0xAE VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3681},
/*h(6)=6 VV1 0xAE VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3679},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0xAE VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3686}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xaf_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0xAF V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3689},
/*h(5)=1 VV1 0xAF V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3690},
/*h(6)=2 VV1 0xAF V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3687},
/*h(7)=3 VV1 0xAF V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3688}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xb6_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0xB6 VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3568},
/*h(23)=1 VV1 0xB6 VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3558},
/*h(7)=2 VV1 0xB6 VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3556},
/*h(20)=3 VV1 0xB6 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3569},
/*h(4)=4 VV1 0xB6 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3567},
/*h(22)=5 VV1 0xB6 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3557},
/*h(6)=6 VV1 0xB6 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3555},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0xB6 VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3570}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xb7_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0xB7 VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3592},
/*h(23)=1 VV1 0xB7 VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3582},
/*h(7)=2 VV1 0xB7 VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3580},
/*h(20)=3 VV1 0xB7 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3593},
/*h(4)=4 VV1 0xB7 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3591},
/*h(22)=5 VV1 0xB7 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3581},
/*h(6)=6 VV1 0xB7 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3579},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0xB7 VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3594}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xb8_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0xB8 VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3540},
/*h(23)=1 VV1 0xB8 VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3538},
/*h(7)=2 VV1 0xB8 VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3536},
/*h(20)=3 VV1 0xB8 VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3541},
/*h(4)=4 VV1 0xB8 VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3539},
/*h(22)=5 VV1 0xB8 VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3537},
/*h(6)=6 VV1 0xB8 VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3535},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0xB8 VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3542}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xb9_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0xB9 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3545},
/*h(5)=1 VV1 0xB9 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3546},
/*h(6)=2 VV1 0xB9 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3543},
/*h(7)=3 VV1 0xB9 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3544}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xba_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0xBA VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3624},
/*h(23)=1 VV1 0xBA VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3622},
/*h(7)=2 VV1 0xBA VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3620},
/*h(20)=3 VV1 0xBA VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3625},
/*h(4)=4 VV1 0xBA VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3623},
/*h(22)=5 VV1 0xBA VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3621},
/*h(6)=6 VV1 0xBA VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3619},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0xBA VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3626}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xbb_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0xBB V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3629},
/*h(5)=1 VV1 0xBB V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3630},
/*h(6)=2 VV1 0xBB V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3627},
/*h(7)=3 VV1 0xBB V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3628}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xbc_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0xBC VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3660},
/*h(23)=1 VV1 0xBC VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3658},
/*h(7)=2 VV1 0xBC VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3656},
/*h(20)=3 VV1 0xBC VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3661},
/*h(4)=4 VV1 0xBC VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3659},
/*h(22)=5 VV1 0xBC VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3657},
/*h(6)=6 VV1 0xBC VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3655},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0xBC VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3662}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xbd_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0xBD V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3665},
/*h(5)=1 VV1 0xBD V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3666},
/*h(6)=2 VV1 0xBD V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3663},
/*h(7)=3 VV1 0xBD V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3664}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xbe_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0xBE VL128 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3696},
/*h(23)=1 VV1 0xBE VL256 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3694},
/*h(7)=2 VV1 0xBE VL128 V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3692},
/*h(20)=3 VV1 0xBE VL256 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3697},
/*h(4)=4 VV1 0xBE VL128 V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3695},
/*h(22)=5 VV1 0xBE VL256 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3693},
/*h(6)=6 VV1 0xBE VL128 V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3691},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0xBE VL256 V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3698}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xbf_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0xBF V66 V0F38 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3701},
/*h(5)=1 VV1 0xBF V66 V0F38 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3702},
/*h(6)=2 VV1 0xBF V66 V0F38 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3699},
/*h(7)=3 VV1 0xBF V66 V0F38 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3700}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xcf_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(5)=0 VV1 0xCF V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0*/ {5, 3937},
/*h(20)=1 VV1 0xCF V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256 W0*/ {20, 3940},
/*h(4)=2 VV1 0xCF V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W0*/ {4, 3938},
/*empty slot1 */ {0,0},
/*h(21)=4 VV1 0xCF V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3939}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xdb_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(14)=0 VV1 0xDB VL128 V66 V0F38 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {3498},
/*h(15)=1 VV1 0xDB VL128 V66 V0F38 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3497}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 14;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xdc_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xDC V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256*/ {10, 3484},
/*h(2)=1 VV1 0xDC V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128*/ {2, 3482},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xDC V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256*/ {11, 3483},
/*h(3)=4 VV1 0xDC V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128*/ {3, 3481}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xdd_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xDD V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256*/ {10, 3488},
/*h(2)=1 VV1 0xDD V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128*/ {2, 3486},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xDD V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256*/ {11, 3487},
/*h(3)=4 VV1 0xDD V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128*/ {3, 3485}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xde_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xDE V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256*/ {10, 3492},
/*h(2)=1 VV1 0xDE V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128*/ {2, 3490},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xDE V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256*/ {11, 3491},
/*h(3)=4 VV1 0xDE V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128*/ {3, 3489}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xdf_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xDF V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256*/ {10, 3496},
/*h(2)=1 VV1 0xDF V66 V0F38 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128*/ {2, 3494},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xDF V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256*/ {11, 3495},
/*h(3)=4 VV1 0xDF V66 V0F38 MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128*/ {3, 3493}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xf2_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[12] = {
/*h(0)=0 VV1 0xF2 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 3794},
/*h(8)=1 VV1 0xF2 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 3794},
/*h(5)=2 VV1 0xF2 V0F38 VNP W0 mode64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3797},
/*h(13)=3 VV1 0xF2 V0F38 VNP W1 VL128 mode64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {13, 3799},
/*h(4)=4 VV1 0xF2 V0F38 VNP W0 mode64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3795},
/*h(12)=5 VV1 0xF2 V0F38 VNP W1 VL128 mode64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 3798},
/*h(3)=6 VV1 0xF2 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3796},
/*h(11)=7 VV1 0xF2 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3796},
/*h(2)=8 VV1 0xF2 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3794},
/*h(10)=9 VV1 0xF2 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3794},
/*h(1)=10 VV1 0xF2 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 3796},
/*h(9)=11 VV1 0xF2 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 3796}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEX_PREFIX_VL(d);
hidx = ((10*key % 67) % 12);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xf3_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[72] = {
/*h(89)=0 VV1 0xF3 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[0b011] RM[nnn]*/ {89, 3814},
/*h(18)=1 VV1 0xF3 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[0b010] RM[nnn] MODRM()*/ {18, 3806},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(72)=4 VV1 0xF3 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[0b001] RM[nnn] MODRM()*/ {72, 3800},
/*h(90)=5 VV1 0xF3 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[0b011] RM[nnn] MODRM()*/ {90, 3812},
/*h(19)=6 VV1 0xF3 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[0b010] RM[nnn]*/ {19, 3808},
/*empty slot1 */ {0,0},
/*h(16)=8 VV1 0xF3 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[0b010] RM[nnn] MODRM()*/ {16, 3806},
/*h(73)=9 VV1 0xF3 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[0b001] RM[nnn]*/ {73, 3802},
/*h(91)=10 VV1 0xF3 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[0b011] RM[nnn]*/ {91, 3814},
/*h(20)=11 VV1 0xF3 V0F38 VNP W0 mode64 VL128 MOD[mm] MOD!=3 REG[0b010] RM[nnn] MODRM()*/ {20, 3807},
/*h(88)=12 VV1 0xF3 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[0b011] RM[nnn] MODRM()*/ {88, 3812},
/*h(17)=13 VV1 0xF3 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[0b010] RM[nnn]*/ {17, 3808},
/*h(74)=14 VV1 0xF3 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[0b001] RM[nnn] MODRM()*/ {74, 3800},
/*h(92)=15 VV1 0xF3 V0F38 VNP W1 VL128 mode64 MOD[mm] MOD!=3 REG[0b011] RM[nnn] MODRM()*/ {92, 3816},
/*h(21)=16 VV1 0xF3 V0F38 VNP W0 mode64 VL128 MOD[0b11] MOD=3 REG[0b010] RM[nnn]*/ {21, 3809},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(75)=19 VV1 0xF3 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[0b001] RM[nnn]*/ {75, 3802},
/*h(93)=20 VV1 0xF3 V0F38 VNP W1 VL128 mode64 MOD[0b11] MOD=3 REG[0b011] RM[nnn]*/ {93, 3817},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(76)=24 VV1 0xF3 V0F38 VNP W1 VL128 mode64 MOD[mm] MOD!=3 REG[0b001] RM[nnn] MODRM()*/ {76, 3804},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(77)=29 VV1 0xF3 V0F38 VNP W1 VL128 mode64 MOD[0b11] MOD=3 REG[0b001] RM[nnn]*/ {77, 3805},
/*empty slot1 */ {0,0},
/*h(24)=31 VV1 0xF3 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[0b011] RM[nnn] MODRM()*/ {24, 3812},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(25)=36 VV1 0xF3 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[0b011] RM[nnn]*/ {25, 3814},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(8)=40 VV1 0xF3 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[0b001] RM[nnn] MODRM()*/ {8, 3800},
/*h(26)=41 VV1 0xF3 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[0b011] RM[nnn] MODRM()*/ {26, 3812},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(80)=44 VV1 0xF3 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[0b010] RM[nnn] MODRM()*/ {80, 3806},
/*h(9)=45 VV1 0xF3 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[0b001] RM[nnn]*/ {9, 3802},
/*h(27)=46 VV1 0xF3 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[0b011] RM[nnn]*/ {27, 3814},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(81)=49 VV1 0xF3 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[0b010] RM[nnn]*/ {81, 3808},
/*h(10)=50 VV1 0xF3 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[0b001] RM[nnn] MODRM()*/ {10, 3800},
/*h(28)=51 VV1 0xF3 V0F38 VNP W0 mode64 VL128 MOD[mm] MOD!=3 REG[0b011] RM[nnn] MODRM()*/ {28, 3813},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(82)=54 VV1 0xF3 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[0b010] RM[nnn] MODRM()*/ {82, 3806},
/*h(11)=55 VV1 0xF3 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[0b001] RM[nnn]*/ {11, 3802},
/*h(29)=56 VV1 0xF3 V0F38 VNP W0 mode64 VL128 MOD[0b11] MOD=3 REG[0b011] RM[nnn]*/ {29, 3815},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(83)=59 VV1 0xF3 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[0b010] RM[nnn]*/ {83, 3808},
/*h(12)=60 VV1 0xF3 V0F38 VNP W0 mode64 VL128 MOD[mm] MOD!=3 REG[0b001] RM[nnn] MODRM()*/ {12, 3801},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(84)=64 VV1 0xF3 V0F38 VNP W1 VL128 mode64 MOD[mm] MOD!=3 REG[0b010] RM[nnn] MODRM()*/ {84, 3810},
/*h(13)=65 VV1 0xF3 V0F38 VNP W0 mode64 VL128 MOD[0b11] MOD=3 REG[0b001] RM[nnn]*/ {13, 3803},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(85)=69 VV1 0xF3 V0F38 VNP W1 VL128 mode64 MOD[0b11] MOD=3 REG[0b010] RM[nnn]*/ {85, 3811},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REG_REXW_VEX_PREFIX_VL(d);
hidx = ((5*key % 89) % 72);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xf5_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[67] = {
/*h(0)=0 VV1 0xF5 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 3818},
/*h(45)=1 VV1 0xF5 V0F38 VF2 W1 VL128 mode64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {45, 3787},
/*empty slot1 */ {0,0},
/*h(1)=3 VV1 0xF5 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 3820},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(2)=6 VV1 0xF5 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3818},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(3)=9 VV1 0xF5 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3820},
/*h(48)=10 VV1 0xF5 V0F38 VF3 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {48, 3788},
/*empty slot1 */ {0,0},
/*h(4)=12 VV1 0xF5 V0F38 VNP W0 mode64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3819},
/*h(49)=13 VV1 0xF5 V0F38 VF3 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {49, 3790},
/*empty slot1 */ {0,0},
/*h(5)=15 VV1 0xF5 V0F38 VNP W0 mode64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3821},
/*h(50)=16 VV1 0xF5 V0F38 VF3 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {50, 3788},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(51)=19 VV1 0xF5 V0F38 VF3 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {51, 3790},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(52)=22 VV1 0xF5 V0F38 VF3 W0 mode64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {52, 3789},
/*empty slot1 */ {0,0},
/*h(8)=24 VV1 0xF5 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 3818},
/*h(53)=25 VV1 0xF5 V0F38 VF3 W0 mode64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {53, 3791},
/*empty slot1 */ {0,0},
/*h(9)=27 VV1 0xF5 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 3820},
/*empty slot1 */ {0,0},
/*h(32)=29 VV1 0xF5 V0F38 VF2 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {32, 3782},
/*h(10)=30 VV1 0xF5 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3818},
/*empty slot1 */ {0,0},
/*h(33)=32 VV1 0xF5 V0F38 VF2 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {33, 3784},
/*h(11)=33 VV1 0xF5 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3820},
/*h(56)=34 VV1 0xF5 V0F38 VF3 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {56, 3788},
/*h(34)=35 VV1 0xF5 V0F38 VF2 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {34, 3782},
/*h(12)=36 VV1 0xF5 V0F38 VNP W1 VL128 mode64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 3822},
/*h(57)=37 VV1 0xF5 V0F38 VF3 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {57, 3790},
/*h(35)=38 VV1 0xF5 V0F38 VF2 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {35, 3784},
/*h(13)=39 VV1 0xF5 V0F38 VNP W1 VL128 mode64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {13, 3823},
/*h(58)=40 VV1 0xF5 V0F38 VF3 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {58, 3788},
/*h(36)=41 VV1 0xF5 V0F38 VF2 W0 mode64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {36, 3783},
/*empty slot1 */ {0,0},
/*h(59)=43 VV1 0xF5 V0F38 VF3 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {59, 3790},
/*h(37)=44 VV1 0xF5 V0F38 VF2 W0 mode64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {37, 3785},
/*empty slot1 */ {0,0},
/*h(60)=46 VV1 0xF5 V0F38 VF3 W1 VL128 mode64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {60, 3792},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(61)=49 VV1 0xF5 V0F38 VF3 W1 VL128 mode64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {61, 3793},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(40)=53 VV1 0xF5 V0F38 VF2 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {40, 3782},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(41)=56 VV1 0xF5 V0F38 VF2 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {41, 3784},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(42)=59 VV1 0xF5 V0F38 VF2 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {42, 3782},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(43)=62 VV1 0xF5 V0F38 VF2 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {43, 3784},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(44)=65 VV1 0xF5 V0F38 VF2 W1 VL128 mode64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {44, 3786},
/*empty slot1 */ {0,0}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEX_PREFIX_VL(d);
hidx = (3*key % 67);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xf6_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[18] = {
/*h(34)=0 VV1 0xF6 VF2 V0F38 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {34, 3850},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(44)=3 VV1 0xF6 VF2 V0F38 W1 VL128 mode64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {44, 3853},
/*h(36)=4 VV1 0xF6 VF2 V0F38 W0 mode64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {36, 3851},
/*empty slot1 */ {0,0},
/*h(41)=6 VV1 0xF6 VF2 V0F38 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {41, 3848},
/*h(33)=7 VV1 0xF6 VF2 V0F38 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {33, 3848},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(43)=10 VV1 0xF6 VF2 V0F38 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {43, 3848},
/*h(35)=11 VV1 0xF6 VF2 V0F38 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {35, 3848},
/*h(40)=12 VV1 0xF6 VF2 V0F38 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {40, 3850},
/*h(32)=13 VV1 0xF6 VF2 V0F38 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {32, 3850},
/*h(45)=14 VV1 0xF6 VF2 V0F38 W1 VL128 mode64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {45, 3852},
/*h(37)=15 VV1 0xF6 VF2 V0F38 W0 mode64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {37, 3849},
/*empty slot1 */ {0,0},
/*h(42)=17 VV1 0xF6 VF2 V0F38 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {42, 3850}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 18ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map2_opcode0xf7_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[67] = {
/*h(0)=0 VV1 0xF7 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 3824},
/*h(45)=1 VV1 0xF7 V0F38 VF2 W1 VL128 mode64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {45, 3847},
/*empty slot1 */ {0,0},
/*h(1)=3 VV1 0xF7 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 3826},
/*empty slot1 */ {0,0},
/*h(24)=5 VV1 0xF7 V0F38 V66 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {24, 3830},
/*h(2)=6 VV1 0xF7 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3824},
/*empty slot1 */ {0,0},
/*h(25)=8 VV1 0xF7 V0F38 V66 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {25, 3832},
/*h(3)=9 VV1 0xF7 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3826},
/*h(48)=10 VV1 0xF7 V0F38 VF3 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {48, 3836},
/*h(26)=11 VV1 0xF7 V0F38 V66 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {26, 3830},
/*h(4)=12 VV1 0xF7 V0F38 VNP W0 mode64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3825},
/*h(49)=13 VV1 0xF7 V0F38 VF3 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {49, 3838},
/*h(27)=14 VV1 0xF7 V0F38 V66 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {27, 3832},
/*h(5)=15 VV1 0xF7 V0F38 VNP W0 mode64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3827},
/*h(50)=16 VV1 0xF7 V0F38 VF3 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {50, 3836},
/*h(28)=17 VV1 0xF7 V0F38 V66 W1 VL128 mode64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 3834},
/*empty slot1 */ {0,0},
/*h(51)=19 VV1 0xF7 V0F38 VF3 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {51, 3838},
/*h(29)=20 VV1 0xF7 V0F38 V66 W1 VL128 mode64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 3835},
/*empty slot1 */ {0,0},
/*h(52)=22 VV1 0xF7 V0F38 VF3 W0 mode64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {52, 3837},
/*empty slot1 */ {0,0},
/*h(8)=24 VV1 0xF7 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 3824},
/*h(53)=25 VV1 0xF7 V0F38 VF3 W0 mode64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {53, 3839},
/*empty slot1 */ {0,0},
/*h(9)=27 VV1 0xF7 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 3826},
/*empty slot1 */ {0,0},
/*h(32)=29 VV1 0xF7 V0F38 VF2 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {32, 3842},
/*h(10)=30 VV1 0xF7 V0F38 VNP not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3824},
/*empty slot1 */ {0,0},
/*h(33)=32 VV1 0xF7 V0F38 VF2 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {33, 3844},
/*h(11)=33 VV1 0xF7 V0F38 VNP not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3826},
/*h(56)=34 VV1 0xF7 V0F38 VF3 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {56, 3836},
/*h(34)=35 VV1 0xF7 V0F38 VF2 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {34, 3842},
/*h(12)=36 VV1 0xF7 V0F38 VNP W1 VL128 mode64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 3828},
/*h(57)=37 VV1 0xF7 V0F38 VF3 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {57, 3838},
/*h(35)=38 VV1 0xF7 V0F38 VF2 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {35, 3844},
/*h(13)=39 VV1 0xF7 V0F38 VNP W1 VL128 mode64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {13, 3829},
/*h(58)=40 VV1 0xF7 V0F38 VF3 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {58, 3836},
/*h(36)=41 VV1 0xF7 V0F38 VF2 W0 mode64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {36, 3843},
/*empty slot1 */ {0,0},
/*h(59)=43 VV1 0xF7 V0F38 VF3 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {59, 3838},
/*h(37)=44 VV1 0xF7 V0F38 VF2 W0 mode64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {37, 3845},
/*empty slot1 */ {0,0},
/*h(60)=46 VV1 0xF7 V0F38 VF3 W1 VL128 mode64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {60, 3840},
/*empty slot1 */ {0,0},
/*h(16)=48 VV1 0xF7 V0F38 V66 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {16, 3830},
/*h(61)=49 VV1 0xF7 V0F38 VF3 W1 VL128 mode64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {61, 3841},
/*empty slot1 */ {0,0},
/*h(17)=51 VV1 0xF7 V0F38 V66 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {17, 3832},
/*empty slot1 */ {0,0},
/*h(40)=53 VV1 0xF7 V0F38 VF2 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {40, 3842},
/*h(18)=54 VV1 0xF7 V0F38 V66 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {18, 3830},
/*empty slot1 */ {0,0},
/*h(41)=56 VV1 0xF7 V0F38 VF2 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {41, 3844},
/*h(19)=57 VV1 0xF7 V0F38 V66 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {19, 3832},
/*empty slot1 */ {0,0},
/*h(42)=59 VV1 0xF7 V0F38 VF2 not64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {42, 3842},
/*h(20)=60 VV1 0xF7 V0F38 V66 W0 mode64 VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3831},
/*empty slot1 */ {0,0},
/*h(43)=62 VV1 0xF7 V0F38 VF2 not64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {43, 3844},
/*h(21)=63 VV1 0xF7 V0F38 V66 W0 mode64 VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3833},
/*empty slot1 */ {0,0},
/*h(44)=65 VV1 0xF7 V0F38 VF2 W1 VL128 mode64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {44, 3846},
/*empty slot1 */ {0,0}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEX_PREFIX_VL(d);
hidx = (3*key % 67);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x0_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(94)=0 VV1 0x00 VL256 V0F3A V66 W1 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3733},
/*h(95)=1 VV1 0x00 VL256 V0F3A V66 W1 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3734}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 94;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x1_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(94)=0 VV1 0x01 VL256 V0F3A V66 W1 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3735},
/*h(95)=1 VV1 0x01 VL256 V0F3A V66 W1 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3736}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 94;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x2_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(5)=0 VV1 0x02 VL128 V66 V0F3A W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {5, 3742},
/*h(20)=1 VV1 0x02 VL256 V66 V0F3A W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {20, 3743},
/*h(4)=2 VV1 0x02 VL128 V66 V0F3A W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {4, 3741},
/*empty slot1 */ {0,0},
/*h(21)=4 VV1 0x02 VL256 V66 V0F3A W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {21, 3744}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x4_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=2 VV1 0x04 VL128 V66 V0F3A norexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {28, 2714},
/*h(93)=3 VV1 0x04 VL256 V66 V0F3A norexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {93, 2717},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=6 VV1 0x04 VL256 V66 V0F3A norexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {92, 2716},
/*h(29)=7 VV1 0x04 VL128 V66 V0F3A norexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {29, 2715}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x5_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=2 VV1 0x05 VL128 V66 V0F3A norexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {28, 2706},
/*h(93)=3 VV1 0x05 VL256 V66 V0F3A norexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {93, 2709},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=6 VV1 0x05 VL256 V66 V0F3A norexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {92, 2708},
/*h(29)=7 VV1 0x05 VL128 V66 V0F3A norexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {29, 2707}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(20)=0 VV1 0x06 VL256 V66 V0F3A norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2718},
/*h(21)=1 VV1 0x06 VL256 V66 V0F3A norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {2719}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = key - 20;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x8_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x08 VL256 V66 V0F3A NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {47, 3172},
/*h(15)=1 VV1 0x08 VL128 V66 V0F3A NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {15, 3170},
/*h(46)=2 VV1 0x08 VL256 V66 V0F3A NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {46, 3171},
/*h(14)=3 VV1 0x08 VL128 V66 V0F3A NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {14, 3169},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x9_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(47)=0 VV1 0x09 VL256 V66 V0F3A NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {47, 3168},
/*h(15)=1 VV1 0x09 VL128 V66 V0F3A NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {15, 3166},
/*h(46)=2 VV1 0x09 VL256 V66 V0F3A NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {46, 3167},
/*h(14)=3 VV1 0x09 VL128 V66 V0F3A NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {14, 3165},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xa_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(2)=0 VV1 0x0A V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3175},
/*h(3)=1 VV1 0x0A V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3176}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX(d);
hidx = key - 2;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xb_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(2)=0 VV1 0x0B V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3173},
/*h(3)=1 VV1 0x0B V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3174}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX(d);
hidx = key - 2;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xc_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x0C VL256 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {10, 2572},
/*h(2)=1 VV1 0x0C VL128 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2, 2570},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x0C VL256 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {11, 2573},
/*h(3)=4 VV1 0x0C VL128 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3, 2571}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xd_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x0D VL256 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {10, 2568},
/*h(2)=1 VV1 0x0D VL128 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2, 2566},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x0D VL256 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {11, 2569},
/*h(3)=4 VV1 0x0D VL128 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3, 2567}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xe_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x0E VL256 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {10, 3163},
/*h(2)=1 VV1 0x0E VL128 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2, 3161},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x0E VL256 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {11, 3164},
/*h(3)=4 VV1 0x0E VL128 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3, 3162}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xf_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x0F VL256 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {10, 3159},
/*h(2)=1 VV1 0x0F VL128 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2, 3157},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x0F VL256 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {11, 3160},
/*h(3)=4 VV1 0x0F VL128 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3, 3158}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x14_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(14)=0 VV1 0x14 VL128 V66 V0F3A NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3415},
/*h(15)=1 VV1 0x14 VL128 V66 V0F3A NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3416}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 14;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x15_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(14)=0 VV1 0x15 VL128 V66 V0F3A NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3417},
/*h(15)=1 VV1 0x15 VL128 V66 V0F3A NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3418}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 14;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x16_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[17] = {
/*h(123)=0 VV1 0x16 VL128 V66 V0F3A not64 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {123, 3425},
/*h(115)=1 VV1 0x16 VL128 V66 V0F3A not64 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {115, 3425},
/*h(120)=2 VV1 0x16 VL128 V66 V0F3A not64 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {120, 3424},
/*h(112)=3 VV1 0x16 VL128 V66 V0F3A not64 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {112, 3424},
/*h(125)=4 VV1 0x16 VL128 V66 V0F3A mode64 rexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {125, 3421},
/*h(117)=5 VV1 0x16 VL128 V66 V0F3A mode64 norexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {117, 3423},
/*h(122)=6 VV1 0x16 VL128 V66 V0F3A not64 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {122, 3424},
/*h(114)=7 VV1 0x16 VL128 V66 V0F3A not64 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {114, 3424},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(124)=10 VV1 0x16 VL128 V66 V0F3A mode64 rexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {124, 3420},
/*h(116)=11 VV1 0x16 VL128 V66 V0F3A mode64 norexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {116, 3422},
/*empty slot1 */ {0,0},
/*h(121)=13 VV1 0x16 VL128 V66 V0F3A not64 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {121, 3425},
/*h(113)=14 VV1 0x16 VL128 V66 V0F3A not64 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {113, 3425},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 17ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x17_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(14)=0 VV1 0x17 VL128 V66 V0F3A NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2682},
/*h(15)=1 VV1 0x17 VL128 V66 V0F3A NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {2683}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 14;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x18_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(20)=0 VV1 0x18 norexw_prefix VL256 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2727},
/*h(21)=1 VV1 0x18 norexw_prefix VL256 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {2728}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = key - 20;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x19_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(92)=0 VV1 0x19 norexw_prefix VL256 V66 V0F3A NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2674},
/*h(93)=1 VV1 0x19 norexw_prefix VL256 V66 V0F3A NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {2675}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 92;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x1d_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=2 VV1 0x1D VL128 V66 V0F3A NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8() W0*/ {28, 3507},
/*h(93)=3 VV1 0x1D VL256 V66 V0F3A NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8() W0*/ {93, 3510},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=6 VV1 0x1D VL256 V66 V0F3A NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8() W0*/ {92, 3509},
/*h(29)=7 VV1 0x1D VL128 V66 V0F3A NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8() W0*/ {29, 3508}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x20_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(2)=0 VV1 0x20 VL128 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3426},
/*h(3)=1 VV1 0x20 VL128 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3427}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = key - 2;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x21_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(2)=0 VV1 0x21 VL128 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2729},
/*h(3)=1 VV1 0x21 VL128 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {2730}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = key - 2;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x22_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[18] = {
/*empty slot1 */ {0,0},
/*h(26)=1 VV1 0x22 VL128 V66 V0F3A not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {26, 3432},
/*h(18)=2 VV1 0x22 VL128 V66 V0F3A not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {18, 3432},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=5 VV1 0x22 VL128 V66 V0F3A mode64 rexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {28, 3434},
/*h(20)=6 VV1 0x22 VL128 V66 V0F3A mode64 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {20, 3430},
/*empty slot1 */ {0,0},
/*h(25)=8 VV1 0x22 VL128 V66 V0F3A not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {25, 3433},
/*h(17)=9 VV1 0x22 VL128 V66 V0F3A not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {17, 3433},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(27)=12 VV1 0x22 VL128 V66 V0F3A not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {27, 3433},
/*h(19)=13 VV1 0x22 VL128 V66 V0F3A not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {19, 3433},
/*h(24)=14 VV1 0x22 VL128 V66 V0F3A not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {24, 3432},
/*h(16)=15 VV1 0x22 VL128 V66 V0F3A not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {16, 3432},
/*h(29)=16 VV1 0x22 VL128 V66 V0F3A mode64 rexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {29, 3435},
/*h(21)=17 VV1 0x22 VL128 V66 V0F3A mode64 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {21, 3431}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 18ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x30_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(31)=0 VV1 0x30 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 NOVSR UIMM8()*/ {31, 3871},
/*h(29)=1 VV1 0x30 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR UIMM8()*/ {29, 3914}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-1));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x31_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(31)=0 VV1 0x31 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 NOVSR UIMM8()*/ {31, 3916},
/*h(29)=1 VV1 0x31 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR UIMM8()*/ {29, 3915}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-1));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x32_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(31)=0 VV1 0x32 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 NOVSR UIMM8()*/ {31, 3870},
/*h(29)=1 VV1 0x32 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR UIMM8()*/ {29, 3911}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-1));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x33_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(31)=0 VV1 0x33 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 NOVSR UIMM8()*/ {31, 3913},
/*h(29)=1 VV1 0x33 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR UIMM8()*/ {29, 3912}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-1));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x38_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(20)=0 VV1 0x38 VL256 V66 V0F3A W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3719},
/*h(21)=1 VV1 0x38 VL256 V66 V0F3A W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3720}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = key - 20;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x39_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(92)=0 VV1 0x39 VL256 V66 V0F3A W0 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3721},
/*h(93)=1 VV1 0x39 VL256 V66 V0F3A W0 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3722}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 92;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x40_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x40 VL256 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {10, 2680},
/*h(2)=1 VV1 0x40 VL128 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2, 2678},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x40 VL256 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {11, 2681},
/*h(3)=4 VV1 0x40 VL128 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3, 2679}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x41_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(2)=0 VV1 0x41 VL128 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2676},
/*h(3)=1 VV1 0x41 VL128 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {2677}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = key - 2;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x42_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x42 VL256 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {10, 3307},
/*h(2)=1 VV1 0x42 VL128 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2, 3305},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x42 VL256 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {11, 3308},
/*h(3)=4 VV1 0x42 VL128 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3, 3306}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x44_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x44 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256 UIMM8()*/ {10, 3502},
/*h(2)=1 VV1 0x44 V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 UIMM8()*/ {2, 3500},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x44 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 UIMM8()*/ {11, 3501},
/*h(3)=4 VV1 0x44 V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 UIMM8()*/ {3, 3499}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x46_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(20)=0 VV1 0x46 VL256 V66 V0F3A W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3731},
/*h(21)=1 VV1 0x46 VL256 V66 V0F3A W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3732}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = key - 20;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x48_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x48 VL128 V66 V0F3A W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2515},
/*h(23)=1 VV1 0x48 VL256 V66 V0F3A W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2521},
/*h(7)=2 VV1 0x48 VL128 V66 V0F3A W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2519},
/*h(20)=3 VV1 0x48 VL256 V66 V0F3A W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2516},
/*h(4)=4 VV1 0x48 VL128 V66 V0F3A W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2514},
/*h(22)=5 VV1 0x48 VL256 V66 V0F3A W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2520},
/*h(6)=6 VV1 0x48 VL128 V66 V0F3A W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2518},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x48 VL256 V66 V0F3A W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2517}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x49_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x49 VL128 V66 V0F3A W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2523},
/*h(23)=1 VV1 0x49 VL256 V66 V0F3A W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2529},
/*h(7)=2 VV1 0x49 VL128 V66 V0F3A W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2527},
/*h(20)=3 VV1 0x49 VL256 V66 V0F3A W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2524},
/*h(4)=4 VV1 0x49 VL128 V66 V0F3A W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2522},
/*h(22)=5 VV1 0x49 VL256 V66 V0F3A W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2528},
/*h(6)=6 VV1 0x49 VL128 V66 V0F3A W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2526},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x49 VL256 V66 V0F3A W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2525}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x4a_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(5)=0 VV1 0x4A V66 V0F3A VL128 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 3468},
/*h(20)=1 VV1 0x4A V66 V0F3A VL256 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 3469},
/*h(4)=2 VV1 0x4A V66 V0F3A VL128 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 3467},
/*empty slot1 */ {0,0},
/*h(21)=4 VV1 0x4A V66 V0F3A VL256 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 3470}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x4b_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(5)=0 VV1 0x4B V66 V0F3A VL128 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 3464},
/*h(20)=1 VV1 0x4B V66 V0F3A VL256 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 3465},
/*h(4)=2 VV1 0x4B V66 V0F3A VL128 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 3463},
/*empty slot1 */ {0,0},
/*h(21)=4 VV1 0x4B V66 V0F3A VL256 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 3466}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x4c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(5)=0 VV1 0x4C VL128 V66 V0F3A norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 3460},
/*h(20)=1 VV1 0x4C VL256 V66 V0F3A norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 3461},
/*h(4)=2 VV1 0x4C VL128 V66 V0F3A norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 3459},
/*empty slot1 */ {0,0},
/*h(21)=4 VV1 0x4C VL256 V66 V0F3A norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 3462}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x5c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x5C V66 W0 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2387},
/*h(23)=1 VV1 0x5C V66 W1 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2393},
/*h(7)=2 VV1 0x5C V66 W1 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2389},
/*h(20)=3 VV1 0x5C V66 W0 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2390},
/*h(4)=4 VV1 0x5C V66 W0 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2386},
/*h(22)=5 VV1 0x5C V66 W1 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2392},
/*h(6)=6 VV1 0x5C V66 W1 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2388},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x5C V66 W0 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2391}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x5d_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x5D V66 W0 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2395},
/*h(23)=1 VV1 0x5D V66 W1 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2401},
/*h(7)=2 VV1 0x5D V66 W1 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2397},
/*h(20)=3 VV1 0x5D V66 W0 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2398},
/*h(4)=4 VV1 0x5D V66 W0 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2394},
/*h(22)=5 VV1 0x5D V66 W1 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2400},
/*h(6)=6 VV1 0x5D V66 W1 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2396},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x5D V66 W0 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2399}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x5e_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x5E V66 W0 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2403},
/*h(23)=1 VV1 0x5E V66 W1 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2409},
/*h(7)=2 VV1 0x5E V66 W1 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2405},
/*h(20)=3 VV1 0x5E V66 W0 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2406},
/*h(4)=4 VV1 0x5E V66 W0 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2402},
/*h(22)=5 VV1 0x5E V66 W1 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2408},
/*h(6)=6 VV1 0x5E V66 W1 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2404},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x5E V66 W0 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2407}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x5f_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x5F V66 W0 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2411},
/*h(23)=1 VV1 0x5F V66 W1 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2417},
/*h(7)=2 VV1 0x5F V66 W1 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2413},
/*h(20)=3 VV1 0x5F V66 W0 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2414},
/*h(4)=4 VV1 0x5F V66 W0 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2410},
/*h(22)=5 VV1 0x5F V66 W1 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2416},
/*h(6)=6 VV1 0x5F V66 W1 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2412},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x5F V66 W0 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2415}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x60_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[17] = {
/*h(123)=0 VV1 0x60 VL128 V66 V0F3A NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {123, 3449},
/*h(115)=1 VV1 0x60 VL128 V66 V0F3A NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {115, 3449},
/*h(120)=2 VV1 0x60 VL128 V66 V0F3A NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {120, 3448},
/*h(112)=3 VV1 0x60 VL128 V66 V0F3A NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {112, 3448},
/*h(125)=4 VV1 0x60 VL128 V66 V0F3A NOVSR mode64 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {125, 3453},
/*h(117)=5 VV1 0x60 VL128 V66 V0F3A NOVSR mode64 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {117, 3451},
/*h(122)=6 VV1 0x60 VL128 V66 V0F3A NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {122, 3448},
/*h(114)=7 VV1 0x60 VL128 V66 V0F3A NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {114, 3448},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(124)=10 VV1 0x60 VL128 V66 V0F3A NOVSR mode64 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {124, 3452},
/*h(116)=11 VV1 0x60 VL128 V66 V0F3A NOVSR mode64 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {116, 3450},
/*empty slot1 */ {0,0},
/*h(121)=13 VV1 0x60 VL128 V66 V0F3A NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {121, 3449},
/*h(113)=14 VV1 0x60 VL128 V66 V0F3A NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {113, 3449},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 17ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x61_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[17] = {
/*h(123)=0 VV1 0x61 VL128 V66 V0F3A NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {123, 3437},
/*h(115)=1 VV1 0x61 VL128 V66 V0F3A NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {115, 3437},
/*h(120)=2 VV1 0x61 VL128 V66 V0F3A NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {120, 3436},
/*h(112)=3 VV1 0x61 VL128 V66 V0F3A NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {112, 3436},
/*h(125)=4 VV1 0x61 VL128 V66 V0F3A NOVSR mode64 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {125, 3441},
/*h(117)=5 VV1 0x61 VL128 V66 V0F3A NOVSR mode64 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {117, 3439},
/*h(122)=6 VV1 0x61 VL128 V66 V0F3A NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {122, 3436},
/*h(114)=7 VV1 0x61 VL128 V66 V0F3A NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {114, 3436},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(124)=10 VV1 0x61 VL128 V66 V0F3A NOVSR mode64 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {124, 3440},
/*h(116)=11 VV1 0x61 VL128 V66 V0F3A NOVSR mode64 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {116, 3438},
/*empty slot1 */ {0,0},
/*h(121)=13 VV1 0x61 VL128 V66 V0F3A NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {121, 3437},
/*h(113)=14 VV1 0x61 VL128 V66 V0F3A NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {113, 3437},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 17ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x62_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(14)=0 VV1 0x62 VL128 V66 V0F3A NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3454},
/*h(15)=1 VV1 0x62 VL128 V66 V0F3A NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3455}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 14;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x63_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[17] = {
/*h(123)=0 VV1 0x63 VL128 V66 V0F3A NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {123, 3443},
/*h(115)=1 VV1 0x63 VL128 V66 V0F3A NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {115, 3443},
/*h(120)=2 VV1 0x63 VL128 V66 V0F3A NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {120, 3442},
/*h(112)=3 VV1 0x63 VL128 V66 V0F3A NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {112, 3442},
/*h(125)=4 VV1 0x63 VL128 V66 V0F3A NOVSR mode64 W1 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {125, 3447},
/*h(117)=5 VV1 0x63 VL128 V66 V0F3A NOVSR mode64 W0 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {117, 3445},
/*h(122)=6 VV1 0x63 VL128 V66 V0F3A NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {122, 3442},
/*h(114)=7 VV1 0x63 VL128 V66 V0F3A NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {114, 3442},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(124)=10 VV1 0x63 VL128 V66 V0F3A NOVSR mode64 W1 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {124, 3446},
/*h(116)=11 VV1 0x63 VL128 V66 V0F3A NOVSR mode64 W0 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {116, 3444},
/*empty slot1 */ {0,0},
/*h(121)=13 VV1 0x63 VL128 V66 V0F3A NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {121, 3443},
/*h(113)=14 VV1 0x63 VL128 V66 V0F3A NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {113, 3443},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 17ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x68_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x68 V66 W0 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2419},
/*h(23)=1 VV1 0x68 V66 W1 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2425},
/*h(7)=2 VV1 0x68 V66 W1 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2421},
/*h(20)=3 VV1 0x68 V66 W0 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2422},
/*h(4)=4 VV1 0x68 V66 W0 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2418},
/*h(22)=5 VV1 0x68 V66 W1 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2424},
/*h(6)=6 VV1 0x68 V66 W1 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2420},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x68 V66 W0 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2423}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x69_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x69 V66 W0 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2427},
/*h(23)=1 VV1 0x69 V66 W1 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2433},
/*h(7)=2 VV1 0x69 V66 W1 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2429},
/*h(20)=3 VV1 0x69 V66 W0 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2430},
/*h(4)=4 VV1 0x69 V66 W0 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2426},
/*h(22)=5 VV1 0x69 V66 W1 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2432},
/*h(6)=6 VV1 0x69 V66 W1 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2428},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x69 V66 W0 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2431}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6a_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0x6A V66 W0 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2434},
/*h(5)=1 VV1 0x6A V66 W0 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2435},
/*h(6)=2 VV1 0x6A V66 W1 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2436},
/*h(7)=3 VV1 0x6A V66 W1 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2437}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6b_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0x6B V66 W0 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2438},
/*h(5)=1 VV1 0x6B V66 W0 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2439},
/*h(6)=2 VV1 0x6B V66 W1 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2440},
/*h(7)=3 VV1 0x6B V66 W1 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2441}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x6C V66 W0 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2443},
/*h(23)=1 VV1 0x6C V66 W1 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2449},
/*h(7)=2 VV1 0x6C V66 W1 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2445},
/*h(20)=3 VV1 0x6C V66 W0 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2446},
/*h(4)=4 VV1 0x6C V66 W0 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2442},
/*h(22)=5 VV1 0x6C V66 W1 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2448},
/*h(6)=6 VV1 0x6C V66 W1 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2444},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x6C V66 W0 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2447}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6d_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x6D V66 W0 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2451},
/*h(23)=1 VV1 0x6D V66 W1 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2457},
/*h(7)=2 VV1 0x6D V66 W1 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2453},
/*h(20)=3 VV1 0x6D V66 W0 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2454},
/*h(4)=4 VV1 0x6D V66 W0 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2450},
/*h(22)=5 VV1 0x6D V66 W1 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2456},
/*h(6)=6 VV1 0x6D V66 W1 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2452},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x6D V66 W0 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2455}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6e_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0x6E V66 W0 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2458},
/*h(5)=1 VV1 0x6E V66 W0 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2459},
/*h(6)=2 VV1 0x6E V66 W1 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2460},
/*h(7)=3 VV1 0x6E V66 W1 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2461}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x6f_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0x6F V66 W0 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2462},
/*h(5)=1 VV1 0x6F V66 W0 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2463},
/*h(6)=2 VV1 0x6F V66 W1 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2464},
/*h(7)=3 VV1 0x6F V66 W1 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2465}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x78_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x78 V66 W0 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2467},
/*h(23)=1 VV1 0x78 V66 W1 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2473},
/*h(7)=2 VV1 0x78 V66 W1 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2469},
/*h(20)=3 VV1 0x78 V66 W0 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2470},
/*h(4)=4 VV1 0x78 V66 W0 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2466},
/*h(22)=5 VV1 0x78 V66 W1 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2472},
/*h(6)=6 VV1 0x78 V66 W1 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2468},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x78 V66 W0 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2471}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x79_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x79 V66 W0 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2475},
/*h(23)=1 VV1 0x79 V66 W1 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2481},
/*h(7)=2 VV1 0x79 V66 W1 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2477},
/*h(20)=3 VV1 0x79 V66 W0 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2478},
/*h(4)=4 VV1 0x79 V66 W0 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2474},
/*h(22)=5 VV1 0x79 V66 W1 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2480},
/*h(6)=6 VV1 0x79 V66 W1 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2476},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x79 V66 W0 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2479}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x7a_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0x7A V66 W0 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2482},
/*h(5)=1 VV1 0x7A V66 W0 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2483},
/*h(6)=2 VV1 0x7A V66 W1 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2484},
/*h(7)=3 VV1 0x7A V66 W1 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2485}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x7b_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0x7B V66 W0 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2486},
/*h(5)=1 VV1 0x7B V66 W0 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2487},
/*h(6)=2 VV1 0x7B V66 W1 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2488},
/*h(7)=3 VV1 0x7B V66 W1 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2489}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x7c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x7C V66 W0 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2491},
/*h(23)=1 VV1 0x7C V66 W1 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2497},
/*h(7)=2 VV1 0x7C V66 W1 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2493},
/*h(20)=3 VV1 0x7C V66 W0 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2494},
/*h(4)=4 VV1 0x7C V66 W0 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2490},
/*h(22)=5 VV1 0x7C V66 W1 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2496},
/*h(6)=6 VV1 0x7C V66 W1 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2492},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x7C V66 W0 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2495}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x7d_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[9] = {
/*h(5)=0 VV1 0x7D V66 W0 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {5, 2499},
/*h(23)=1 VV1 0x7D V66 W1 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {23, 2505},
/*h(7)=2 VV1 0x7D V66 W1 VL128 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {7, 2501},
/*h(20)=3 VV1 0x7D V66 W0 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {20, 2502},
/*h(4)=4 VV1 0x7D V66 W0 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {4, 2498},
/*h(22)=5 VV1 0x7D V66 W1 VL256 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {22, 2504},
/*h(6)=6 VV1 0x7D V66 W1 VL128 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {6, 2500},
/*empty slot1 */ {0,0},
/*h(21)=8 VV1 0x7D V66 W0 VL256 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {21, 2503}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 9ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x7e_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0x7E V66 W0 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2506},
/*h(5)=1 VV1 0x7E V66 W0 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2507},
/*h(6)=2 VV1 0x7E V66 W1 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2508},
/*h(7)=3 VV1 0x7E V66 W1 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2509}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0x7f_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(4)=0 VV1 0x7F V66 W0 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2510},
/*h(5)=1 VV1 0x7F V66 W0 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2511},
/*h(6)=2 VV1 0x7F V66 W1 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() SE_IMM8()*/ {2512},
/*h(7)=3 VV1 0x7F V66 W1 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] SE_IMM8()*/ {2513}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX(d);
hidx = key - 4;
if(hidx <= 3) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xce_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*h(23)=1 VV1 0xCE V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1 UIMM8()*/ {23, 3935},
/*h(7)=2 VV1 0xCE V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 UIMM8()*/ {7, 3933},
/*empty slot1 */ {0,0},
/*h(22)=4 VV1 0xCE V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256 W1 UIMM8()*/ {22, 3936},
/*h(6)=5 VV1 0xCE V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W1 UIMM8()*/ {6, 3934},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xcf_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*h(23)=1 VV1 0xCF V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1 UIMM8()*/ {23, 3931},
/*h(7)=2 VV1 0xCF V66 V0F3A MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 UIMM8()*/ {7, 3929},
/*empty slot1 */ {0,0},
/*h(22)=4 VV1 0xCF V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL256 W1 UIMM8()*/ {22, 3932},
/*h(6)=5 VV1 0xCF V66 V0F3A MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W1 UIMM8()*/ {6, 3930},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xdf_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(14)=0 VV1 0xDF VL128 V66 V0F3A NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3480},
/*h(15)=1 VV1 0xDF VL128 V66 V0F3A NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3479}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 14;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map3_opcode0xf0_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[18] = {
/*h(178)=0 VV1 0xF0 VF2 V0F3A not64 VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {178, 3856},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(188)=3 VV1 0xF0 VF2 V0F3A W1 VL128 NOVSR mode64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {188, 3859},
/*h(180)=4 VV1 0xF0 VF2 V0F3A W0 mode64 VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {180, 3857},
/*empty slot1 */ {0,0},
/*h(185)=6 VV1 0xF0 VF2 V0F3A not64 VL128 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {185, 3854},
/*h(177)=7 VV1 0xF0 VF2 V0F3A not64 VL128 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {177, 3854},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(187)=10 VV1 0xF0 VF2 V0F3A not64 VL128 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {187, 3854},
/*h(179)=11 VV1 0xF0 VF2 V0F3A not64 VL128 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {179, 3854},
/*h(184)=12 VV1 0xF0 VF2 V0F3A not64 VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {184, 3856},
/*h(176)=13 VV1 0xF0 VF2 V0F3A not64 VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {176, 3856},
/*h(189)=14 VV1 0xF0 VF2 V0F3A W1 VL128 NOVSR mode64 MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {189, 3858},
/*h(181)=15 VV1 0xF0 VF2 V0F3A W0 mode64 VL128 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {181, 3855},
/*empty slot1 */ {0,0},
/*h(186)=17 VV1 0xF0 VF2 V0F3A not64 VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {186, 3856}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 18ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x10_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[96] = {
/*h(125)=0 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {125, 3330},
/*h(93)=1 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 3330},
/*h(61)=2 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {61, 3330},
/*h(29)=3 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 3330},
/*empty slot1 */ {0,0},
/*h(118)=5 VV1 0x10 VF2 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {118, 3333},
/*h(86)=6 VV1 0x10 VF2 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {86, 3333},
/*h(54)=7 VV1 0x10 VF2 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {54, 3333},
/*h(22)=8 VV1 0x10 VF2 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {22, 3333},
/*h(115)=9 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {115, 3334},
/*h(83)=10 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {83, 3334},
/*h(51)=11 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {51, 3334},
/*h(19)=12 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {19, 3334},
/*h(126)=13 VV1 0x10 VF3 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {126, 3329},
/*h(94)=14 VV1 0x10 VF3 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {94, 3329},
/*h(62)=15 VV1 0x10 VF3 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {62, 3329},
/*h(30)=16 VV1 0x10 VF3 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {30, 3329},
/*empty slot1 */ {0,0},
/*h(119)=18 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {119, 3334},
/*h(87)=19 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {87, 3334},
/*h(55)=20 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {55, 3334},
/*h(23)=21 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3334},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(127)=26 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {127, 3330},
/*h(95)=27 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {95, 3330},
/*h(63)=28 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {63, 3330},
/*h(31)=29 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 3330},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(117)=35 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {117, 3334},
/*h(85)=36 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {85, 3334},
/*h(53)=37 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {53, 3334},
/*h(21)=38 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3334},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(46)=42 VV1 0x10 V66 VL256 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3341},
/*h(14)=43 VV1 0x10 V66 VL128 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3337},
/*h(121)=44 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {121, 3330},
/*h(89)=45 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {89, 3330},
/*h(57)=46 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {57, 3330},
/*h(25)=47 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {25, 3330},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(47)=55 VV1 0x10 V66 VL256 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3342},
/*h(15)=56 VV1 0x10 V66 VL128 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3338},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(123)=70 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {123, 3330},
/*h(91)=71 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {91, 3330},
/*h(59)=72 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {59, 3330},
/*h(27)=73 VV1 0x10 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {27, 3330},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(38)=77 VV1 0x10 VNP VL256 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {38, 3349},
/*h(6)=78 VV1 0x10 VNP VL128 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3345},
/*h(113)=79 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {113, 3334},
/*h(81)=80 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {81, 3334},
/*h(49)=81 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {49, 3334},
/*h(17)=82 VV1 0x10 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {17, 3334},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(39)=90 VV1 0x10 VNP VL256 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {39, 3350},
/*h(7)=91 VV1 0x10 VNP VL128 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3346},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = ((13*key % 139) % 96);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x11_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[96] = {
/*h(125)=0 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {125, 3332},
/*h(93)=1 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 3332},
/*h(61)=2 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {61, 3332},
/*h(29)=3 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 3332},
/*empty slot1 */ {0,0},
/*h(118)=5 VV1 0x11 VF2 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {118, 3335},
/*h(86)=6 VV1 0x11 VF2 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {86, 3335},
/*h(54)=7 VV1 0x11 VF2 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {54, 3335},
/*h(22)=8 VV1 0x11 VF2 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {22, 3335},
/*h(115)=9 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {115, 3336},
/*h(83)=10 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {83, 3336},
/*h(51)=11 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {51, 3336},
/*h(19)=12 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {19, 3336},
/*h(126)=13 VV1 0x11 VF3 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {126, 3331},
/*h(94)=14 VV1 0x11 VF3 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {94, 3331},
/*h(62)=15 VV1 0x11 VF3 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {62, 3331},
/*h(30)=16 VV1 0x11 VF3 V0F MOD[mm] MOD!=3 NOVSR REG[rrr] RM[nnn] MODRM()*/ {30, 3331},
/*empty slot1 */ {0,0},
/*h(119)=18 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {119, 3336},
/*h(87)=19 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {87, 3336},
/*h(55)=20 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {55, 3336},
/*h(23)=21 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3336},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(127)=26 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {127, 3332},
/*h(95)=27 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {95, 3332},
/*h(63)=28 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {63, 3332},
/*h(31)=29 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 3332},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(117)=35 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {117, 3336},
/*h(85)=36 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {85, 3336},
/*h(53)=37 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {53, 3336},
/*h(21)=38 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3336},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(46)=42 VV1 0x11 V66 VL256 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3343},
/*h(14)=43 VV1 0x11 V66 VL128 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3339},
/*h(121)=44 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {121, 3332},
/*h(89)=45 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {89, 3332},
/*h(57)=46 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {57, 3332},
/*h(25)=47 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {25, 3332},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(47)=55 VV1 0x11 V66 VL256 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3344},
/*h(15)=56 VV1 0x11 V66 VL128 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3340},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(123)=70 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {123, 3332},
/*h(91)=71 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {91, 3332},
/*h(59)=72 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {59, 3332},
/*h(27)=73 VV1 0x11 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {27, 3332},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(38)=77 VV1 0x11 VNP VL256 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {38, 3351},
/*h(6)=78 VV1 0x11 VNP VL128 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3347},
/*h(113)=79 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {113, 3336},
/*h(81)=80 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {81, 3336},
/*h(49)=81 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {49, 3336},
/*h(17)=82 VV1 0x11 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {17, 3336},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(39)=90 VV1 0x11 VNP VL256 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {39, 3352},
/*h(7)=91 VV1 0x11 VNP VL128 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3348},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = ((13*key % 139) % 96);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x12_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[34] = {
/*h(0)=0 VV1 0x12 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 3355},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(5)=3 VV1 0x12 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3156},
/*empty slot1 */ {0,0},
/*h(31)=5 VV1 0x12 VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 2834},
/*h(10)=6 VV1 0x12 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3353},
/*h(23)=7 VV1 0x12 VL128 VF2 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 2810},
/*h(2)=8 VV1 0x12 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3355},
/*empty slot1 */ {0,0},
/*h(62)=10 VV1 0x12 VL256 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {62, 2835},
/*h(7)=11 VV1 0x12 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3156},
/*h(54)=12 VV1 0x12 VL256 VF2 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {54, 2811},
/*empty slot1 */ {0,0},
/*h(12)=14 VV1 0x12 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 3353},
/*empty slot1 */ {0,0},
/*h(4)=16 VV1 0x12 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3355},
/*empty slot1 */ {0,0},
/*h(30)=18 VV1 0x12 VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 2833},
/*empty slot1 */ {0,0},
/*h(22)=20 VV1 0x12 VL128 VF2 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 2809},
/*h(1)=21 VV1 0x12 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 3156},
/*h(14)=22 VV1 0x12 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3353},
/*empty slot1 */ {0,0},
/*h(6)=24 VV1 0x12 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3355},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(3)=29 VV1 0x12 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3156},
/*empty slot1 */ {0,0},
/*h(63)=31 VV1 0x12 VL256 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {63, 2836},
/*h(8)=32 VV1 0x12 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 3353},
/*h(55)=33 VV1 0x12 VL256 VF2 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {55, 2812}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 34ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x13_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[3] = {
/*empty slot1 */ {0,0},
/*h(14)=1 VV1 0x13 VL128 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3354},
/*h(6)=2 VV1 0x13 VL128 VNP V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3356}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 3ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x14_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[10] = {
/*h(0)=0 VV1 0x14 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 3317},
/*h(10)=1 VV1 0x14 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3315},
/*h(2)=2 VV1 0x14 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3313},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(9)=5 VV1 0x14 VL256 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 3320},
/*h(1)=6 VV1 0x14 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 3318},
/*h(11)=7 VV1 0x14 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3316},
/*h(3)=8 VV1 0x14 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3314},
/*h(8)=9 VV1 0x14 VL256 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 3319}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 10ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x15_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[10] = {
/*h(0)=0 VV1 0x15 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 3213},
/*h(10)=1 VV1 0x15 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3211},
/*h(2)=2 VV1 0x15 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3209},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(9)=5 VV1 0x15 VL256 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 3216},
/*h(1)=6 VV1 0x15 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 3214},
/*h(11)=7 VV1 0x15 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3212},
/*h(3)=8 VV1 0x15 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3210},
/*h(8)=9 VV1 0x15 VL256 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 3215}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 10ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x16_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[32] = {
/*h(0)=0 VV1 0x16 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 3359},
/*h(3)=1 VV1 0x16 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3155},
/*h(30)=2 VV1 0x16 VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 2829},
/*h(7)=3 VV1 0x16 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3155},
/*h(10)=4 VV1 0x16 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3357},
/*empty slot1 */ {0,0},
/*h(14)=6 VV1 0x16 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3357},
/*h(4)=7 VV1 0x16 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3359},
/*h(31)=8 VV1 0x16 VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 2830},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(1)=11 VV1 0x16 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 3155},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(8)=14 VV1 0x16 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 3357},
/*empty slot1 */ {0,0},
/*h(62)=16 VV1 0x16 VL256 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {62, 2831},
/*empty slot1 */ {0,0},
/*h(5)=18 VV1 0x16 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3155},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(12)=21 VV1 0x16 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 3357},
/*h(2)=22 VV1 0x16 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3359},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(63)=27 VV1 0x16 VL256 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {63, 2832},
/*empty slot1 */ {0,0},
/*h(6)=29 VV1 0x16 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3359},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = ((11*key % 37) % 32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x17_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[3] = {
/*empty slot1 */ {0,0},
/*h(14)=1 VV1 0x17 VL128 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3358},
/*h(6)=2 VV1 0x17 VL128 VNP V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3360}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 3ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x28_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[13] = {
/*h(47)=0 VV1 0x28 VL256 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 2782},
/*h(39)=1 VV1 0x28 VL256 VNP V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {39, 2790},
/*empty slot1 */ {0,0},
/*h(15)=3 VV1 0x28 VL128 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2778},
/*h(7)=4 VV1 0x28 VL128 VNP V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 2786},
/*h(46)=5 VV1 0x28 VL256 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 2781},
/*h(38)=6 VV1 0x28 VL256 VNP V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {38, 2789},
/*empty slot1 */ {0,0},
/*h(14)=8 VV1 0x28 VL128 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2777},
/*h(6)=9 VV1 0x28 VL128 VNP V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 2785},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 13ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x29_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[13] = {
/*h(47)=0 VV1 0x29 VL256 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 2784},
/*h(39)=1 VV1 0x29 VL256 VNP V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {39, 2792},
/*empty slot1 */ {0,0},
/*h(15)=3 VV1 0x29 VL128 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2780},
/*h(7)=4 VV1 0x29 VL128 VNP V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 2788},
/*h(46)=5 VV1 0x29 VL256 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 2783},
/*h(38)=6 VV1 0x29 VL256 VNP V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {38, 2791},
/*empty slot1 */ {0,0},
/*h(14)=8 VV1 0x29 VL128 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2779},
/*h(6)=9 VV1 0x29 VL128 VNP V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 2787},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 13ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x2a_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[34] = {
/*h(34)=0 VV1 0x2A VF2 V0F not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {34, 2648},
/*empty slot1 */ {0,0},
/*h(60)=2 VV1 0x2A VF3 V0F mode64 rexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {60, 2658},
/*empty slot1 */ {0,0},
/*h(52)=4 VV1 0x2A VF3 V0F mode64 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {52, 2656},
/*empty slot1 */ {0,0},
/*h(44)=6 VV1 0x2A VF2 V0F mode64 rexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {44, 2652},
/*h(57)=7 VV1 0x2A VF3 V0F not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {57, 2655},
/*h(36)=8 VV1 0x2A VF2 V0F mode64 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {36, 2650},
/*h(49)=9 VV1 0x2A VF3 V0F not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {49, 2655},
/*empty slot1 */ {0,0},
/*h(41)=11 VV1 0x2A VF2 V0F not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {41, 2649},
/*empty slot1 */ {0,0},
/*h(33)=13 VV1 0x2A VF2 V0F not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {33, 2649},
/*empty slot1 */ {0,0},
/*h(59)=15 VV1 0x2A VF3 V0F not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {59, 2655},
/*empty slot1 */ {0,0},
/*h(51)=17 VV1 0x2A VF3 V0F not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {51, 2655},
/*empty slot1 */ {0,0},
/*h(43)=19 VV1 0x2A VF2 V0F not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {43, 2649},
/*h(56)=20 VV1 0x2A VF3 V0F not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {56, 2654},
/*h(35)=21 VV1 0x2A VF2 V0F not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {35, 2649},
/*h(48)=22 VV1 0x2A VF3 V0F not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {48, 2654},
/*h(61)=23 VV1 0x2A VF3 V0F mode64 rexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {61, 2659},
/*h(40)=24 VV1 0x2A VF2 V0F not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {40, 2648},
/*h(53)=25 VV1 0x2A VF3 V0F mode64 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {53, 2657},
/*h(32)=26 VV1 0x2A VF2 V0F not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {32, 2648},
/*h(45)=27 VV1 0x2A VF2 V0F mode64 rexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {45, 2653},
/*h(58)=28 VV1 0x2A VF3 V0F not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {58, 2654},
/*h(37)=29 VV1 0x2A VF2 V0F mode64 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {37, 2651},
/*h(50)=30 VV1 0x2A VF3 V0F not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {50, 2654},
/*empty slot1 */ {0,0},
/*h(42)=32 VV1 0x2A VF2 V0F not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {42, 2648},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEX_PREFIX(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 34ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x2b_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(14)=0 VV1 0x2B V66 V0F VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3475},
/*h(38)=1 VV1 0x2B VNP V0F VL256 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {38, 3478},
/*h(46)=2 VV1 0x2B V66 V0F VL256 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3476},
/*h(6)=3 VV1 0x2B VNP V0F VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3477}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = ((4*key % 7) % 4);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x2c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[24] = {
/*h(178)=0 VV1 0x2C VF2 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {178, 2628},
/*h(189)=1 VV1 0x2C VF2 V0F NOVSR mode64 rexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {189, 2633},
/*h(243)=2 VV1 0x2C VF3 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {243, 2641},
/*h(248)=3 VV1 0x2C VF3 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {248, 2640},
/*h(179)=4 VV1 0x2C VF2 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {179, 2629},
/*h(184)=5 VV1 0x2C VF2 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {184, 2628},
/*h(244)=6 VV1 0x2C VF3 V0F NOVSR mode64 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {244, 2642},
/*h(249)=7 VV1 0x2C VF3 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {249, 2641},
/*h(180)=8 VV1 0x2C VF2 V0F NOVSR mode64 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {180, 2630},
/*h(185)=9 VV1 0x2C VF2 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {185, 2629},
/*h(245)=10 VV1 0x2C VF3 V0F NOVSR mode64 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {245, 2643},
/*h(250)=11 VV1 0x2C VF3 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {250, 2640},
/*h(181)=12 VV1 0x2C VF2 V0F NOVSR mode64 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {181, 2631},
/*h(186)=13 VV1 0x2C VF2 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {186, 2628},
/*h(240)=14 VV1 0x2C VF3 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {240, 2640},
/*h(251)=15 VV1 0x2C VF3 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {251, 2641},
/*h(176)=16 VV1 0x2C VF2 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {176, 2628},
/*h(187)=17 VV1 0x2C VF2 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {187, 2629},
/*h(241)=18 VV1 0x2C VF3 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {241, 2641},
/*h(252)=19 VV1 0x2C VF3 V0F NOVSR mode64 rexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {252, 2644},
/*h(177)=20 VV1 0x2C VF2 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {177, 2629},
/*h(188)=21 VV1 0x2C VF2 V0F NOVSR mode64 rexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {188, 2632},
/*h(242)=22 VV1 0x2C VF3 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {242, 2640},
/*h(253)=23 VV1 0x2C VF3 V0F NOVSR mode64 rexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {253, 2645}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX(d);
hidx = ((4*key % 43) % 24);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x2d_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[24] = {
/*h(178)=0 VV1 0x2D VF2 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {178, 2622},
/*h(189)=1 VV1 0x2D VF2 V0F NOVSR mode64 rexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {189, 2627},
/*h(243)=2 VV1 0x2D VF3 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {243, 2635},
/*h(248)=3 VV1 0x2D VF3 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {248, 2634},
/*h(179)=4 VV1 0x2D VF2 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {179, 2623},
/*h(184)=5 VV1 0x2D VF2 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {184, 2622},
/*h(244)=6 VV1 0x2D VF3 V0F NOVSR mode64 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {244, 2636},
/*h(249)=7 VV1 0x2D VF3 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {249, 2635},
/*h(180)=8 VV1 0x2D VF2 V0F NOVSR mode64 norexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {180, 2624},
/*h(185)=9 VV1 0x2D VF2 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {185, 2623},
/*h(245)=10 VV1 0x2D VF3 V0F NOVSR mode64 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {245, 2637},
/*h(250)=11 VV1 0x2D VF3 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {250, 2634},
/*h(181)=12 VV1 0x2D VF2 V0F NOVSR mode64 norexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {181, 2625},
/*h(186)=13 VV1 0x2D VF2 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {186, 2622},
/*h(240)=14 VV1 0x2D VF3 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {240, 2634},
/*h(251)=15 VV1 0x2D VF3 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {251, 2635},
/*h(176)=16 VV1 0x2D VF2 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {176, 2622},
/*h(187)=17 VV1 0x2D VF2 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {187, 2623},
/*h(241)=18 VV1 0x2D VF3 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {241, 2635},
/*h(252)=19 VV1 0x2D VF3 V0F NOVSR mode64 rexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {252, 2638},
/*h(177)=20 VV1 0x2D VF2 V0F NOVSR not64 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {177, 2623},
/*h(188)=21 VV1 0x2D VF2 V0F NOVSR mode64 rexw_prefix MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {188, 2626},
/*h(242)=22 VV1 0x2D VF3 V0F NOVSR not64 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {242, 2634},
/*h(253)=23 VV1 0x2D VF3 V0F NOVSR mode64 rexw_prefix MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {253, 2639}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX(d);
hidx = ((4*key % 43) % 24);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x2e_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(15)=0 VV1 0x2E V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3310},
/*h(7)=1 VV1 0x2E VNP V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3312},
/*h(14)=2 VV1 0x2E V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3309},
/*h(6)=3 VV1 0x2E VNP V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3311}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX(d);
hidx = ((3*key % 5) % 4);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x2f_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(15)=0 VV1 0x2F V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2587},
/*h(7)=1 VV1 0x2F VNP V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 2589},
/*h(14)=2 VV1 0x2F V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2586},
/*h(6)=3 VV1 0x2F VNP V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 2588}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX(d);
hidx = ((3*key % 5) % 4);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x41_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*empty slot1 */ {0,0},
/*h(23)=1 VV1 0x41 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {23, 3880},
/*h(17)=2 VV1 0x41 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {17, 3861},
/*h(19)=3 VV1 0x41 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {19, 3884},
/*h(21)=4 VV1 0x41 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3879}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x42_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*empty slot1 */ {0,0},
/*h(23)=1 VV1 0x42 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {23, 3882},
/*h(17)=2 VV1 0x42 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {17, 3860},
/*h(19)=3 VV1 0x42 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {19, 3883},
/*h(21)=4 VV1 0x42 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3881}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x44_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*h(13)=0 VV1 0x44 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {13, 3867},
/*h(31)=1 VV1 0x44 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 NOVSR*/ {31, 3903},
/*h(15)=2 VV1 0x44 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 NOVSR*/ {15, 3904},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(29)=7 VV1 0x44 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {29, 3902}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x45_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*empty slot1 */ {0,0},
/*h(23)=1 VV1 0x45 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {23, 3906},
/*h(17)=2 VV1 0x45 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {17, 3869},
/*h(19)=3 VV1 0x45 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {19, 3907},
/*h(21)=4 VV1 0x45 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3905}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x46_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*empty slot1 */ {0,0},
/*h(23)=1 VV1 0x46 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {23, 3924},
/*h(17)=2 VV1 0x46 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {17, 3873},
/*h(19)=3 VV1 0x46 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {19, 3925},
/*h(21)=4 VV1 0x46 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3923}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x47_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*empty slot1 */ {0,0},
/*h(23)=1 VV1 0x47 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {23, 3927},
/*h(17)=2 VV1 0x47 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {17, 3874},
/*h(19)=3 VV1 0x47 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {19, 3928},
/*h(21)=4 VV1 0x47 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3926}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x4a_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*empty slot1 */ {0,0},
/*h(23)=1 VV1 0x4A V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {23, 3876},
/*h(17)=2 VV1 0x4A VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {17, 3878},
/*h(19)=3 VV1 0x4A VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {19, 3877},
/*h(21)=4 VV1 0x4A V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3875}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x4b_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(17)=2 VV1 0x4B VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {17, 3922},
/*h(19)=3 VV1 0x4B VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W1*/ {19, 3921},
/*h(21)=4 VV1 0x4B V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL256 W0*/ {21, 3872}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x50_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(7)=0 VV1 0x50 VL128 VNP V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3363},
/*h(39)=1 VV1 0x50 VL256 VNP V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {39, 3364},
/*h(15)=2 VV1 0x50 VL128 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3361},
/*h(47)=3 VV1 0x50 VL256 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3362}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = ((9*key % 7) % 4);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x51_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[144] = {
/*h(89)=0 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {89, 3208},
/*empty slot1 */ {0,0},
/*h(123)=2 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {123, 3208},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(47)=6 VV1 0x51 VL256 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3200},
/*empty slot1 */ {0,0},
/*h(81)=8 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {81, 3206},
/*h(26)=9 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {26, 3207},
/*h(115)=10 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {115, 3206},
/*h(60)=11 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {60, 3207},
/*empty slot1 */ {0,0},
/*h(94)=13 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {94, 3207},
/*h(39)=14 VV1 0x51 VL256 VNP NOVSR V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {39, 3204},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(18)=17 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {18, 3205},
/*empty slot1 */ {0,0},
/*h(52)=19 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {52, 3205},
/*empty slot1 */ {0,0},
/*h(86)=21 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {86, 3205},
/*h(31)=22 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 3208},
/*h(120)=23 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {120, 3207},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(23)=30 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3206},
/*h(112)=31 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {112, 3205},
/*h(57)=32 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {57, 3208},
/*empty slot1 */ {0,0},
/*h(91)=34 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {91, 3208},
/*empty slot1 */ {0,0},
/*h(125)=36 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {125, 3208},
/*empty slot1 */ {0,0},
/*h(15)=38 VV1 0x51 VL128 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3198},
/*empty slot1 */ {0,0},
/*h(49)=40 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {49, 3206},
/*empty slot1 */ {0,0},
/*h(83)=42 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {83, 3206},
/*h(28)=43 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 3207},
/*h(117)=44 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {117, 3206},
/*h(62)=45 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {62, 3207},
/*h(7)=46 VV1 0x51 VL128 VNP NOVSR V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3202},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(20)=51 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3205},
/*empty slot1 */ {0,0},
/*h(54)=53 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {54, 3205},
/*empty slot1 */ {0,0},
/*h(88)=55 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {88, 3207},
/*empty slot1 */ {0,0},
/*h(122)=57 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {122, 3207},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(46)=61 VV1 0x51 VL256 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3199},
/*empty slot1 */ {0,0},
/*h(80)=63 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {80, 3205},
/*h(25)=64 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {25, 3208},
/*h(114)=65 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {114, 3205},
/*h(59)=66 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {59, 3208},
/*empty slot1 */ {0,0},
/*h(93)=68 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 3208},
/*h(38)=69 VV1 0x51 VL256 VNP NOVSR V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {38, 3203},
/*h(127)=70 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {127, 3208},
/*empty slot1 */ {0,0},
/*h(17)=72 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {17, 3206},
/*empty slot1 */ {0,0},
/*h(51)=74 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {51, 3206},
/*empty slot1 */ {0,0},
/*h(85)=76 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {85, 3206},
/*h(30)=77 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 3207},
/*h(119)=78 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {119, 3206},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(22)=85 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3205},
/*empty slot1 */ {0,0},
/*h(56)=87 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {56, 3207},
/*empty slot1 */ {0,0},
/*h(90)=89 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {90, 3207},
/*empty slot1 */ {0,0},
/*h(124)=91 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {124, 3207},
/*empty slot1 */ {0,0},
/*h(14)=93 VV1 0x51 VL128 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3197},
/*empty slot1 */ {0,0},
/*h(48)=95 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {48, 3205},
/*empty slot1 */ {0,0},
/*h(82)=97 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {82, 3205},
/*h(27)=98 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {27, 3208},
/*h(116)=99 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {116, 3205},
/*h(61)=100 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {61, 3208},
/*h(6)=101 VV1 0x51 VL128 VNP NOVSR V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3201},
/*h(95)=102 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {95, 3208},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(19)=106 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {19, 3206},
/*empty slot1 */ {0,0},
/*h(53)=108 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {53, 3206},
/*empty slot1 */ {0,0},
/*h(87)=110 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {87, 3206},
/*empty slot1 */ {0,0},
/*h(121)=112 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {121, 3208},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(24)=119 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {24, 3207},
/*h(113)=120 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {113, 3206},
/*h(58)=121 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {58, 3207},
/*empty slot1 */ {0,0},
/*h(92)=123 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {92, 3207},
/*empty slot1 */ {0,0},
/*h(126)=125 VV1 0x51 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {126, 3207},
/*empty slot1 */ {0,0},
/*h(16)=127 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {16, 3205},
/*empty slot1 */ {0,0},
/*h(50)=129 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {50, 3205},
/*empty slot1 */ {0,0},
/*h(84)=131 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {84, 3205},
/*h(29)=132 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 3208},
/*h(118)=133 VV1 0x51 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {118, 3205},
/*h(63)=134 VV1 0x51 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {63, 3208},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(21)=140 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3206},
/*empty slot1 */ {0,0},
/*h(55)=142 VV1 0x51 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {55, 3206},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 144ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x52_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[72] = {
/*h(24)=0 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {24, 3195},
/*h(122)=1 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {122, 3195},
/*h(25)=2 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {25, 3196},
/*empty slot1 */ {0,0},
/*h(123)=4 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {123, 3196},
/*h(26)=5 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {26, 3195},
/*empty slot1 */ {0,0},
/*h(124)=7 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {124, 3195},
/*h(27)=8 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {27, 3196},
/*empty slot1 */ {0,0},
/*h(125)=10 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {125, 3196},
/*h(28)=11 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 3195},
/*empty slot1 */ {0,0},
/*h(126)=13 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {126, 3195},
/*h(29)=14 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 3196},
/*empty slot1 */ {0,0},
/*h(127)=16 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {127, 3196},
/*h(30)=17 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 3195},
/*h(6)=18 VV1 0x52 VNP VL128 NOVSR V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3191},
/*empty slot1 */ {0,0},
/*h(31)=20 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 3196},
/*h(7)=21 VV1 0x52 VNP VL128 NOVSR V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3192},
/*h(56)=22 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {56, 3195},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(57)=25 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {57, 3196},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(58)=28 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {58, 3195},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(59)=31 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {59, 3196},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(60)=34 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {60, 3195},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(61)=37 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {61, 3196},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(62)=40 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {62, 3195},
/*h(38)=41 VV1 0x52 VNP VL256 NOVSR V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {38, 3193},
/*empty slot1 */ {0,0},
/*h(63)=43 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {63, 3196},
/*h(39)=44 VV1 0x52 VNP VL256 NOVSR V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {39, 3194},
/*h(88)=45 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {88, 3195},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(89)=48 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {89, 3196},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(90)=51 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {90, 3195},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(91)=54 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {91, 3196},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=57 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {92, 3195},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(93)=60 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 3196},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(94)=63 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {94, 3195},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(95)=66 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {95, 3196},
/*empty slot1 */ {0,0},
/*h(120)=68 VV1 0x52 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {120, 3195},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(121)=71 VV1 0x52 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {121, 3196}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = ((3*key % 73) % 72);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x53_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[72] = {
/*h(24)=0 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {24, 3189},
/*h(122)=1 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {122, 3189},
/*h(25)=2 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {25, 3190},
/*empty slot1 */ {0,0},
/*h(123)=4 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {123, 3190},
/*h(26)=5 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {26, 3189},
/*empty slot1 */ {0,0},
/*h(124)=7 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {124, 3189},
/*h(27)=8 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {27, 3190},
/*empty slot1 */ {0,0},
/*h(125)=10 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {125, 3190},
/*h(28)=11 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 3189},
/*empty slot1 */ {0,0},
/*h(126)=13 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {126, 3189},
/*h(29)=14 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 3190},
/*empty slot1 */ {0,0},
/*h(127)=16 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {127, 3190},
/*h(30)=17 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 3189},
/*h(6)=18 VV1 0x53 VNP VL128 NOVSR V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3185},
/*empty slot1 */ {0,0},
/*h(31)=20 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 3190},
/*h(7)=21 VV1 0x53 VNP VL128 NOVSR V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3186},
/*h(56)=22 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {56, 3189},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(57)=25 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {57, 3190},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(58)=28 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {58, 3189},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(59)=31 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {59, 3190},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(60)=34 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {60, 3189},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(61)=37 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {61, 3190},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(62)=40 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {62, 3189},
/*h(38)=41 VV1 0x53 VNP VL256 NOVSR V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {38, 3187},
/*empty slot1 */ {0,0},
/*h(63)=43 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {63, 3190},
/*h(39)=44 VV1 0x53 VNP VL256 NOVSR V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {39, 3188},
/*h(88)=45 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {88, 3189},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(89)=48 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {89, 3190},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(90)=51 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {90, 3189},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(91)=54 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {91, 3190},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(92)=57 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {92, 3189},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(93)=60 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 3190},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(94)=63 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {94, 3189},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(95)=66 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {95, 3190},
/*empty slot1 */ {0,0},
/*h(120)=68 VV1 0x53 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {120, 3189},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(121)=71 VV1 0x53 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {121, 3190}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = ((3*key % 73) % 72);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x54_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[10] = {
/*h(0)=0 VV1 0x54 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 2554},
/*h(10)=1 VV1 0x54 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2552},
/*h(2)=2 VV1 0x54 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2550},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(9)=5 VV1 0x54 VL256 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 2557},
/*h(1)=6 VV1 0x54 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 2555},
/*h(11)=7 VV1 0x54 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2553},
/*h(3)=8 VV1 0x54 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2551},
/*h(8)=9 VV1 0x54 VL256 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 2556}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 10ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x55_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[10] = {
/*h(0)=0 VV1 0x55 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 2562},
/*h(10)=1 VV1 0x55 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2560},
/*h(2)=2 VV1 0x55 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2558},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(9)=5 VV1 0x55 VL256 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 2565},
/*h(1)=6 VV1 0x55 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 2563},
/*h(11)=7 VV1 0x55 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2561},
/*h(3)=8 VV1 0x55 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2559},
/*h(8)=9 VV1 0x55 VL256 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 2564}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 10ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x56_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[10] = {
/*h(0)=0 VV1 0x56 VNP V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 3245},
/*h(10)=1 VV1 0x56 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3243},
/*h(2)=2 VV1 0x56 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3241},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(9)=5 VV1 0x56 VNP V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 3248},
/*h(1)=6 VV1 0x56 VNP V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 3246},
/*h(11)=7 VV1 0x56 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3244},
/*h(3)=8 VV1 0x56 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3242},
/*h(8)=9 VV1 0x56 VNP V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 3247}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 10ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x57_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[10] = {
/*h(0)=0 VV1 0x57 VNP V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 3325},
/*h(10)=1 VV1 0x57 V66 V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3323},
/*h(2)=2 VV1 0x57 V66 V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3321},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(9)=5 VV1 0x57 VNP V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 3328},
/*h(1)=6 VV1 0x57 VNP V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 3326},
/*h(11)=7 VV1 0x57 V66 V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3324},
/*h(3)=8 VV1 0x57 V66 V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3322},
/*h(8)=9 VV1 0x57 VNP V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 3327}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 10ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x58_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[34] = {
/*h(0)=0 VV1 0x58 VNP VL128 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 2534},
/*h(13)=1 VV1 0x58 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {13, 2539},
/*empty slot1 */ {0,0},
/*h(5)=3 VV1 0x58 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 2539},
/*empty slot1 */ {0,0},
/*h(31)=5 VV1 0x58 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 2541},
/*h(10)=6 VV1 0x58 V66 VL256 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2532},
/*h(23)=7 VV1 0x58 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 2541},
/*h(2)=8 VV1 0x58 V66 VL128 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2530},
/*h(15)=9 VV1 0x58 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2541},
/*h(28)=10 VV1 0x58 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 2538},
/*h(7)=11 VV1 0x58 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 2541},
/*h(20)=12 VV1 0x58 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 2538},
/*empty slot1 */ {0,0},
/*h(12)=14 VV1 0x58 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 2538},
/*empty slot1 */ {0,0},
/*h(4)=16 VV1 0x58 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2538},
/*empty slot1 */ {0,0},
/*h(30)=18 VV1 0x58 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 2540},
/*h(9)=19 VV1 0x58 VNP VL256 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 2537},
/*h(22)=20 VV1 0x58 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 2540},
/*h(1)=21 VV1 0x58 VNP VL128 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 2535},
/*h(14)=22 VV1 0x58 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2540},
/*empty slot1 */ {0,0},
/*h(6)=24 VV1 0x58 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 2540},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11)=27 VV1 0x58 V66 VL256 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2533},
/*empty slot1 */ {0,0},
/*h(3)=29 VV1 0x58 V66 VL128 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2531},
/*empty slot1 */ {0,0},
/*h(29)=31 VV1 0x58 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 2539},
/*h(8)=32 VV1 0x58 VNP VL256 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 2536},
/*h(21)=33 VV1 0x58 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 2539}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 34ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x59_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[34] = {
/*h(0)=0 VV1 0x59 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 3233},
/*h(13)=1 VV1 0x59 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {13, 3238},
/*empty slot1 */ {0,0},
/*h(5)=3 VV1 0x59 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3238},
/*empty slot1 */ {0,0},
/*h(31)=5 VV1 0x59 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 3240},
/*h(10)=6 VV1 0x59 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3231},
/*h(23)=7 VV1 0x59 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3240},
/*h(2)=8 VV1 0x59 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3229},
/*h(15)=9 VV1 0x59 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3240},
/*h(28)=10 VV1 0x59 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 3237},
/*h(7)=11 VV1 0x59 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3240},
/*h(20)=12 VV1 0x59 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3237},
/*empty slot1 */ {0,0},
/*h(12)=14 VV1 0x59 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 3237},
/*empty slot1 */ {0,0},
/*h(4)=16 VV1 0x59 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3237},
/*empty slot1 */ {0,0},
/*h(30)=18 VV1 0x59 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 3239},
/*h(9)=19 VV1 0x59 VL256 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 3236},
/*h(22)=20 VV1 0x59 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3239},
/*h(1)=21 VV1 0x59 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 3234},
/*h(14)=22 VV1 0x59 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3239},
/*empty slot1 */ {0,0},
/*h(6)=24 VV1 0x59 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3239},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11)=27 VV1 0x59 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3232},
/*empty slot1 */ {0,0},
/*h(3)=29 VV1 0x59 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3230},
/*empty slot1 */ {0,0},
/*h(29)=31 VV1 0x59 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 3238},
/*h(8)=32 VV1 0x59 VL256 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 3235},
/*h(21)=33 VV1 0x59 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3238}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 34ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x5a_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[144] = {
/*h(89)=0 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {89, 2661},
/*empty slot1 */ {0,0},
/*h(123)=2 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {123, 2661},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(47)=6 VV1 0x5A V66 VL256 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 2609},
/*empty slot1 */ {0,0},
/*h(81)=8 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {81, 2647},
/*h(26)=9 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {26, 2660},
/*h(115)=10 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {115, 2647},
/*h(60)=11 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {60, 2660},
/*empty slot1 */ {0,0},
/*h(94)=13 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {94, 2660},
/*h(39)=14 VV1 0x5A VNP VL256 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {39, 2621},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(18)=17 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {18, 2646},
/*empty slot1 */ {0,0},
/*h(52)=19 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {52, 2646},
/*empty slot1 */ {0,0},
/*h(86)=21 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {86, 2646},
/*h(31)=22 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 2661},
/*h(120)=23 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {120, 2660},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(23)=30 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 2647},
/*h(112)=31 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {112, 2646},
/*h(57)=32 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {57, 2661},
/*empty slot1 */ {0,0},
/*h(91)=34 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {91, 2661},
/*empty slot1 */ {0,0},
/*h(125)=36 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {125, 2661},
/*empty slot1 */ {0,0},
/*h(15)=38 VV1 0x5A V66 VL128 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2607},
/*empty slot1 */ {0,0},
/*h(49)=40 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {49, 2647},
/*empty slot1 */ {0,0},
/*h(83)=42 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {83, 2647},
/*h(28)=43 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 2660},
/*h(117)=44 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {117, 2647},
/*h(62)=45 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {62, 2660},
/*h(7)=46 VV1 0x5A VNP VL128 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 2619},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(20)=51 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 2646},
/*empty slot1 */ {0,0},
/*h(54)=53 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {54, 2646},
/*empty slot1 */ {0,0},
/*h(88)=55 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {88, 2660},
/*empty slot1 */ {0,0},
/*h(122)=57 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {122, 2660},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(46)=61 VV1 0x5A V66 VL256 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 2608},
/*empty slot1 */ {0,0},
/*h(80)=63 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {80, 2646},
/*h(25)=64 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {25, 2661},
/*h(114)=65 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {114, 2646},
/*h(59)=66 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {59, 2661},
/*empty slot1 */ {0,0},
/*h(93)=68 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {93, 2661},
/*h(38)=69 VV1 0x5A VNP VL256 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {38, 2620},
/*h(127)=70 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {127, 2661},
/*empty slot1 */ {0,0},
/*h(17)=72 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {17, 2647},
/*empty slot1 */ {0,0},
/*h(51)=74 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {51, 2647},
/*empty slot1 */ {0,0},
/*h(85)=76 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {85, 2647},
/*h(30)=77 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 2660},
/*h(119)=78 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {119, 2647},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(22)=85 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 2646},
/*empty slot1 */ {0,0},
/*h(56)=87 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {56, 2660},
/*empty slot1 */ {0,0},
/*h(90)=89 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {90, 2660},
/*empty slot1 */ {0,0},
/*h(124)=91 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {124, 2660},
/*empty slot1 */ {0,0},
/*h(14)=93 VV1 0x5A V66 VL128 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2606},
/*empty slot1 */ {0,0},
/*h(48)=95 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {48, 2646},
/*empty slot1 */ {0,0},
/*h(82)=97 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {82, 2646},
/*h(27)=98 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {27, 2661},
/*h(116)=99 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {116, 2646},
/*h(61)=100 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {61, 2661},
/*h(6)=101 VV1 0x5A VNP VL128 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 2618},
/*h(95)=102 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {95, 2661},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(19)=106 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {19, 2647},
/*empty slot1 */ {0,0},
/*h(53)=108 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {53, 2647},
/*empty slot1 */ {0,0},
/*h(87)=110 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {87, 2647},
/*empty slot1 */ {0,0},
/*h(121)=112 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {121, 2661},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(24)=119 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {24, 2660},
/*h(113)=120 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {113, 2647},
/*h(58)=121 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {58, 2660},
/*empty slot1 */ {0,0},
/*h(92)=123 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {92, 2660},
/*empty slot1 */ {0,0},
/*h(126)=125 VV1 0x5A VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {126, 2660},
/*empty slot1 */ {0,0},
/*h(16)=127 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {16, 2646},
/*empty slot1 */ {0,0},
/*h(50)=129 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {50, 2646},
/*empty slot1 */ {0,0},
/*h(84)=131 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {84, 2646},
/*h(29)=132 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 2661},
/*h(118)=133 VV1 0x5A VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {118, 2646},
/*h(63)=134 VV1 0x5A VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {63, 2661},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(21)=140 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 2647},
/*empty slot1 */ {0,0},
/*h(55)=142 VV1 0x5A VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {55, 2647},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 144ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x5b_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[22] = {
/*empty slot1 */ {0,0},
/*h(47)=1 VV1 0x5B VL256 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 2613},
/*h(39)=2 VV1 0x5B VL256 VNP V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {39, 2597},
/*h(31)=3 VV1 0x5B VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 2615},
/*empty slot1 */ {0,0},
/*h(15)=5 VV1 0x5B VL128 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2611},
/*h(62)=6 VV1 0x5B VL256 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {62, 2616},
/*h(7)=7 VV1 0x5B VL128 VNP V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 2595},
/*empty slot1 */ {0,0},
/*h(46)=9 VV1 0x5B VL256 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 2612},
/*h(38)=10 VV1 0x5B VL256 VNP V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {38, 2596},
/*h(30)=11 VV1 0x5B VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 2614},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(14)=14 VV1 0x5B VL128 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2610},
/*h(6)=15 VV1 0x5B VL128 VNP V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 2594},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(63)=20 VV1 0x5B VL256 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {63, 2617},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 22ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x5c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[34] = {
/*h(0)=0 VV1 0x5C VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 3221},
/*h(13)=1 VV1 0x5C VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {13, 3226},
/*empty slot1 */ {0,0},
/*h(5)=3 VV1 0x5C VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 3226},
/*empty slot1 */ {0,0},
/*h(31)=5 VV1 0x5C VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 3228},
/*h(10)=6 VV1 0x5C V66 V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3219},
/*h(23)=7 VV1 0x5C VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 3228},
/*h(2)=8 VV1 0x5C V66 V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3217},
/*h(15)=9 VV1 0x5C VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3228},
/*h(28)=10 VV1 0x5C VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 3225},
/*h(7)=11 VV1 0x5C VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 3228},
/*h(20)=12 VV1 0x5C VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 3225},
/*empty slot1 */ {0,0},
/*h(12)=14 VV1 0x5C VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 3225},
/*empty slot1 */ {0,0},
/*h(4)=16 VV1 0x5C VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 3225},
/*empty slot1 */ {0,0},
/*h(30)=18 VV1 0x5C VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 3227},
/*h(9)=19 VV1 0x5C VL256 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 3224},
/*h(22)=20 VV1 0x5C VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 3227},
/*h(1)=21 VV1 0x5C VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 3222},
/*h(14)=22 VV1 0x5C VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3227},
/*empty slot1 */ {0,0},
/*h(6)=24 VV1 0x5C VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 3227},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11)=27 VV1 0x5C V66 V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3220},
/*empty slot1 */ {0,0},
/*h(3)=29 VV1 0x5C V66 V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3218},
/*empty slot1 */ {0,0},
/*h(29)=31 VV1 0x5C VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 3226},
/*h(8)=32 VV1 0x5C VL256 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 3223},
/*h(21)=33 VV1 0x5C VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 3226}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 34ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x5d_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[34] = {
/*h(0)=0 VV1 0x5D VNP V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 2769},
/*h(13)=1 VV1 0x5D VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {13, 2774},
/*empty slot1 */ {0,0},
/*h(5)=3 VV1 0x5D VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 2774},
/*empty slot1 */ {0,0},
/*h(31)=5 VV1 0x5D VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 2776},
/*h(10)=6 VV1 0x5D V66 V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2767},
/*h(23)=7 VV1 0x5D VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 2776},
/*h(2)=8 VV1 0x5D V66 V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2765},
/*h(15)=9 VV1 0x5D VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2776},
/*h(28)=10 VV1 0x5D VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 2773},
/*h(7)=11 VV1 0x5D VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 2776},
/*h(20)=12 VV1 0x5D VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 2773},
/*empty slot1 */ {0,0},
/*h(12)=14 VV1 0x5D VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 2773},
/*empty slot1 */ {0,0},
/*h(4)=16 VV1 0x5D VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2773},
/*empty slot1 */ {0,0},
/*h(30)=18 VV1 0x5D VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 2775},
/*h(9)=19 VV1 0x5D VNP V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 2772},
/*h(22)=20 VV1 0x5D VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 2775},
/*h(1)=21 VV1 0x5D VNP V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 2770},
/*h(14)=22 VV1 0x5D VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2775},
/*empty slot1 */ {0,0},
/*h(6)=24 VV1 0x5D VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 2775},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11)=27 VV1 0x5D V66 V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2768},
/*empty slot1 */ {0,0},
/*h(3)=29 VV1 0x5D V66 V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2766},
/*empty slot1 */ {0,0},
/*h(29)=31 VV1 0x5D VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 2774},
/*h(8)=32 VV1 0x5D VNP V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 2771},
/*h(21)=33 VV1 0x5D VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 2774}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 34ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x5e_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[34] = {
/*h(0)=0 VV1 0x5E VNP V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 2666},
/*h(13)=1 VV1 0x5E VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {13, 2671},
/*empty slot1 */ {0,0},
/*h(5)=3 VV1 0x5E VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 2671},
/*empty slot1 */ {0,0},
/*h(31)=5 VV1 0x5E VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 2673},
/*h(10)=6 VV1 0x5E V66 V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2664},
/*h(23)=7 VV1 0x5E VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 2673},
/*h(2)=8 VV1 0x5E V66 V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2662},
/*h(15)=9 VV1 0x5E VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2673},
/*h(28)=10 VV1 0x5E VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 2670},
/*h(7)=11 VV1 0x5E VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 2673},
/*h(20)=12 VV1 0x5E VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 2670},
/*empty slot1 */ {0,0},
/*h(12)=14 VV1 0x5E VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 2670},
/*empty slot1 */ {0,0},
/*h(4)=16 VV1 0x5E VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2670},
/*empty slot1 */ {0,0},
/*h(30)=18 VV1 0x5E VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 2672},
/*h(9)=19 VV1 0x5E VNP V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 2669},
/*h(22)=20 VV1 0x5E VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 2672},
/*h(1)=21 VV1 0x5E VNP V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 2667},
/*h(14)=22 VV1 0x5E VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2672},
/*empty slot1 */ {0,0},
/*h(6)=24 VV1 0x5E VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 2672},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11)=27 VV1 0x5E V66 V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2665},
/*empty slot1 */ {0,0},
/*h(3)=29 VV1 0x5E V66 V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2663},
/*empty slot1 */ {0,0},
/*h(29)=31 VV1 0x5E VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 2671},
/*h(8)=32 VV1 0x5E VNP V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 2668},
/*h(21)=33 VV1 0x5E VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 2671}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 34ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x5f_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[34] = {
/*h(0)=0 VV1 0x5F VNP V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {0, 2757},
/*h(13)=1 VV1 0x5F VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {13, 2762},
/*empty slot1 */ {0,0},
/*h(5)=3 VV1 0x5F VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 2762},
/*empty slot1 */ {0,0},
/*h(31)=5 VV1 0x5F VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 2764},
/*h(10)=6 VV1 0x5F V66 V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2755},
/*h(23)=7 VV1 0x5F VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 2764},
/*h(2)=8 VV1 0x5F V66 V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2753},
/*h(15)=9 VV1 0x5F VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2764},
/*h(28)=10 VV1 0x5F VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {28, 2761},
/*h(7)=11 VV1 0x5F VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {7, 2764},
/*h(20)=12 VV1 0x5F VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {20, 2761},
/*empty slot1 */ {0,0},
/*h(12)=14 VV1 0x5F VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 2761},
/*empty slot1 */ {0,0},
/*h(4)=16 VV1 0x5F VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2761},
/*empty slot1 */ {0,0},
/*h(30)=18 VV1 0x5F VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 2763},
/*h(9)=19 VV1 0x5F VNP V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {9, 2760},
/*h(22)=20 VV1 0x5F VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 2763},
/*h(1)=21 VV1 0x5F VNP V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {1, 2758},
/*h(14)=22 VV1 0x5F VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2763},
/*empty slot1 */ {0,0},
/*h(6)=24 VV1 0x5F VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {6, 2763},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11)=27 VV1 0x5F V66 V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2756},
/*empty slot1 */ {0,0},
/*h(3)=29 VV1 0x5F V66 V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2754},
/*empty slot1 */ {0,0},
/*h(29)=31 VV1 0x5F VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {29, 2762},
/*h(8)=32 VV1 0x5F VNP V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {8, 2759},
/*h(21)=33 VV1 0x5F VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {21, 2762}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 34ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x60_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x60 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3137},
/*h(2)=1 VV1 0x60 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3135},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x60 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3138},
/*h(3)=4 VV1 0x60 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3136}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x61_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x61 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3141},
/*h(2)=1 VV1 0x61 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3139},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x61 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3142},
/*h(3)=4 VV1 0x61 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3140}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x62_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x62 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3145},
/*h(2)=1 VV1 0x62 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3143},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x62 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3146},
/*h(3)=4 VV1 0x62 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3144}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x63_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x63 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2881},
/*h(2)=1 VV1 0x63 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2879},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x63 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2882},
/*h(3)=4 VV1 0x63 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2880}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x64_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x64 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3001},
/*h(2)=1 VV1 0x64 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2999},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x64 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3002},
/*h(3)=4 VV1 0x64 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3000}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x65_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x65 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3005},
/*h(2)=1 VV1 0x65 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3003},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x65 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3006},
/*h(3)=4 VV1 0x65 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3004}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x66_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x66 V66 V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3009},
/*h(2)=1 VV1 0x66 V66 V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3007},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x66 V66 V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3010},
/*h(3)=4 VV1 0x66 V66 V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3008}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x67_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x67 V66 V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2889},
/*h(2)=1 VV1 0x67 V66 V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2887},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x67 V66 V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2890},
/*h(3)=4 VV1 0x67 V66 V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2888}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x68_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x68 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3121},
/*h(2)=1 VV1 0x68 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3119},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x68 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3122},
/*h(3)=4 VV1 0x68 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3120}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x69_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x69 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3125},
/*h(2)=1 VV1 0x69 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3123},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x69 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3126},
/*h(3)=4 VV1 0x69 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3124}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x6a_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x6A VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3129},
/*h(2)=1 VV1 0x6A VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3127},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x6A VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3130},
/*h(3)=4 VV1 0x6A VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3128}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x6b_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x6B VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2885},
/*h(2)=1 VV1 0x6B VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2883},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x6B VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2886},
/*h(3)=4 VV1 0x6B VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2884}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x6c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x6C VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3149},
/*h(2)=1 VV1 0x6C VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3147},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x6C VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3150},
/*h(3)=4 VV1 0x6C VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3148}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x6d_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x6D VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3133},
/*h(2)=1 VV1 0x6D VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3131},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x6D VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3134},
/*h(3)=4 VV1 0x6D VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3132}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x6e_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[17] = {
/*h(123)=0 VV1 0x6E VL128 V66 V0F not64 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {123, 2794},
/*h(115)=1 VV1 0x6E VL128 V66 V0F not64 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {115, 2794},
/*h(120)=2 VV1 0x6E VL128 V66 V0F not64 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {120, 2793},
/*h(112)=3 VV1 0x6E VL128 V66 V0F not64 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {112, 2793},
/*h(125)=4 VV1 0x6E VL128 V66 V0F mode64 rexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {125, 2802},
/*h(117)=5 VV1 0x6E VL128 V66 V0F mode64 norexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {117, 2798},
/*h(122)=6 VV1 0x6E VL128 V66 V0F not64 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {122, 2793},
/*h(114)=7 VV1 0x6E VL128 V66 V0F not64 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {114, 2793},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(124)=10 VV1 0x6E VL128 V66 V0F mode64 rexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {124, 2801},
/*h(116)=11 VV1 0x6E VL128 V66 V0F mode64 norexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {116, 2797},
/*empty slot1 */ {0,0},
/*h(121)=13 VV1 0x6E VL128 V66 V0F not64 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {121, 2794},
/*h(113)=14 VV1 0x6E VL128 V66 V0F not64 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {113, 2794},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 17ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x6f_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[10] = {
/*h(47)=0 VV1 0x6F VL256 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 2818},
/*h(31)=1 VV1 0x6F VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 2822},
/*h(15)=2 VV1 0x6F VL128 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2814},
/*h(62)=3 VV1 0x6F VL256 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {62, 2823},
/*h(46)=4 VV1 0x6F VL256 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 2817},
/*h(30)=5 VV1 0x6F VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 2821},
/*h(14)=6 VV1 0x6F VL128 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2813},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(63)=9 VV1 0x6F VL256 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {63, 2824}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 10ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x70_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[17] = {
/*h(47)=0 VV1 0x70 VL256 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {47, 2870},
/*empty slot1 */ {0,0},
/*h(31)=2 VV1 0x70 VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {31, 2872},
/*h(23)=3 VV1 0x70 VL128 VF2 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {23, 2876},
/*h(15)=4 VV1 0x70 VL128 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {15, 2868},
/*h(62)=5 VV1 0x70 VL256 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {62, 2873},
/*h(54)=6 VV1 0x70 VL256 VF2 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {54, 2877},
/*h(46)=7 VV1 0x70 VL256 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {46, 2869},
/*empty slot1 */ {0,0},
/*h(30)=9 VV1 0x70 VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {30, 2871},
/*h(22)=10 VV1 0x70 VL128 VF2 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {22, 2875},
/*h(14)=11 VV1 0x70 VL128 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {14, 2867},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(63)=15 VV1 0x70 VL256 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {63, 2874},
/*h(55)=16 VV1 0x70 VL256 VF2 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {55, 2878}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 17ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x71_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[6] = {
/*h(21)=0 VV1 0x71 VL128 V66 V0F MOD[0b11] MOD=3 REG[0b010] RM[nnn] UIMM8()*/ {21, 2915},
/*h(85)=1 VV1 0x71 VL256 V66 V0F MOD[0b11] MOD=3 REG[0b010] RM[nnn] UIMM8()*/ {85, 2918},
/*h(29)=2 VV1 0x71 VL128 V66 V0F MOD[0b11] MOD=3 REG[0b110] RM[nnn] UIMM8()*/ {29, 2897},
/*h(93)=3 VV1 0x71 VL256 V66 V0F MOD[0b11] MOD=3 REG[0b110] RM[nnn] UIMM8()*/ {93, 2900},
/*h(25)=4 VV1 0x71 VL128 V66 V0F MOD[0b11] MOD=3 REG[0b100] RM[nnn] UIMM8()*/ {25, 2933},
/*h(89)=5 VV1 0x71 VL256 V66 V0F MOD[0b11] MOD=3 REG[0b100] RM[nnn] UIMM8()*/ {89, 2936}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REG_VEX_PREFIX_VL(d);
hidx = ((5*key % 11) % 6);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x72_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[6] = {
/*h(21)=0 VV1 0x72 VL128 V66 V0F MOD[0b11] MOD=3 REG[0b010] RM[nnn] UIMM8()*/ {21, 2921},
/*h(85)=1 VV1 0x72 VL256 V66 V0F MOD[0b11] MOD=3 REG[0b010] RM[nnn] UIMM8()*/ {85, 2924},
/*h(29)=2 VV1 0x72 VL128 V66 V0F MOD[0b11] MOD=3 REG[0b110] RM[nnn] UIMM8()*/ {29, 2903},
/*h(93)=3 VV1 0x72 VL256 V66 V0F MOD[0b11] MOD=3 REG[0b110] RM[nnn] UIMM8()*/ {93, 2906},
/*h(25)=4 VV1 0x72 VL128 V66 V0F MOD[0b11] MOD=3 REG[0b100] RM[nnn] UIMM8()*/ {25, 2939},
/*h(89)=5 VV1 0x72 VL256 V66 V0F MOD[0b11] MOD=3 REG[0b100] RM[nnn] UIMM8()*/ {89, 2942}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REG_VEX_PREFIX_VL(d);
hidx = ((5*key % 11) % 6);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x73_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[14] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(31)=2 VV1 0x73 VL128 V66 V0F MOD[0b11] MOD=3 REG[0b111] RM[nnn] UIMM8()*/ {31, 3153},
/*h(23)=3 VV1 0x73 VL128 V66 V0F MOD[0b11] MOD=3 REG[0b011] RM[nnn] UIMM8()*/ {23, 3151},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(93)=6 VV1 0x73 VL256 V66 V0F MOD[0b11] MOD=3 REG[0b110] RM[nnn] UIMM8()*/ {93, 2912},
/*h(85)=7 VV1 0x73 VL256 V66 V0F MOD[0b11] MOD=3 REG[0b010] RM[nnn] UIMM8()*/ {85, 2930},
/*empty slot1 */ {0,0},
/*h(95)=9 VV1 0x73 VL256 V66 V0F MOD[0b11] MOD=3 REG[0b111] RM[nnn] UIMM8()*/ {95, 3154},
/*h(87)=10 VV1 0x73 VL256 V66 V0F MOD[0b11] MOD=3 REG[0b011] RM[nnn] UIMM8()*/ {87, 3152},
/*empty slot1 */ {0,0},
/*h(29)=12 VV1 0x73 VL128 V66 V0F MOD[0b11] MOD=3 REG[0b110] RM[nnn] UIMM8()*/ {29, 2909},
/*h(21)=13 VV1 0x73 VL128 V66 V0F MOD[0b11] MOD=3 REG[0b010] RM[nnn] UIMM8()*/ {21, 2927}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REG_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 14ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x74_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x74 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2985},
/*h(2)=1 VV1 0x74 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2983},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x74 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2986},
/*h(3)=4 VV1 0x74 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2984}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x75_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x75 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2989},
/*h(2)=1 VV1 0x75 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2987},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x75 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2990},
/*h(3)=4 VV1 0x75 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2988}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x76_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0x76 V66 V0F VL256 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2993},
/*h(2)=1 VV1 0x76 V66 V0F VL128 MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2991},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0x76 V66 V0F VL256 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2994},
/*h(3)=4 VV1 0x76 V66 V0F VL128 MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2992}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x77_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(19)=2 VV1 0x77 VNP V0F VL256 NOVSR*/ {19, 2684},
/*h(3)=3 VV1 0x77 VNP V0F VL128 NOVSR*/ {3, 2685}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-2));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x7c_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[13] = {
/*h(13)=0 VV1 0x7C VL256 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {13, 2693},
/*h(5)=1 VV1 0x7C VL128 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 2691},
/*h(10)=2 VV1 0x7C VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2688},
/*h(2)=3 VV1 0x7C VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2686},
/*empty slot1 */ {0,0},
/*h(12)=5 VV1 0x7C VL256 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 2692},
/*h(4)=6 VV1 0x7C VL128 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2690},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11)=10 VV1 0x7C VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2689},
/*h(3)=11 VV1 0x7C VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2687},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 13ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x7d_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[13] = {
/*h(13)=0 VV1 0x7D VL256 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {13, 2701},
/*h(5)=1 VV1 0x7D VL128 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 2699},
/*h(10)=2 VV1 0x7D VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2696},
/*h(2)=3 VV1 0x7D VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2694},
/*empty slot1 */ {0,0},
/*h(12)=5 VV1 0x7D VL256 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 2700},
/*h(4)=6 VV1 0x7D VL128 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2698},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11)=10 VV1 0x7D VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2697},
/*h(3)=11 VV1 0x7D VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2695},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 13ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x7e_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[34] = {
/*h(123)=0 VV1 0x7E VL128 V66 V0F not64 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {123, 2796},
/*empty slot1 */ {0,0},
/*h(115)=2 VV1 0x7E VL128 V66 V0F not64 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {115, 2796},
/*empty slot1 */ {0,0},
/*h(251)=4 VV1 0x7E VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {251, 2806},
/*h(120)=5 VV1 0x7E VL128 V66 V0F not64 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {120, 2795},
/*h(243)=6 VV1 0x7E VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {243, 2806},
/*h(112)=7 VV1 0x7E VL128 V66 V0F not64 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {112, 2795},
/*h(125)=8 VV1 0x7E VL128 V66 V0F mode64 rexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {125, 2804},
/*h(248)=9 VV1 0x7E VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {248, 2805},
/*h(117)=10 VV1 0x7E VL128 V66 V0F mode64 norexw_prefix NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {117, 2800},
/*h(240)=11 VV1 0x7E VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {240, 2805},
/*h(253)=12 VV1 0x7E VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {253, 2806},
/*h(122)=13 VV1 0x7E VL128 V66 V0F not64 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {122, 2795},
/*h(245)=14 VV1 0x7E VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {245, 2806},
/*h(114)=15 VV1 0x7E VL128 V66 V0F not64 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {114, 2795},
/*empty slot1 */ {0,0},
/*h(250)=17 VV1 0x7E VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {250, 2805},
/*empty slot1 */ {0,0},
/*h(242)=19 VV1 0x7E VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {242, 2805},
/*empty slot1 */ {0,0},
/*h(124)=21 VV1 0x7E VL128 V66 V0F mode64 rexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {124, 2803},
/*empty slot1 */ {0,0},
/*h(116)=23 VV1 0x7E VL128 V66 V0F mode64 norexw_prefix NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {116, 2799},
/*empty slot1 */ {0,0},
/*h(252)=25 VV1 0x7E VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {252, 2805},
/*h(121)=26 VV1 0x7E VL128 V66 V0F not64 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {121, 2796},
/*h(244)=27 VV1 0x7E VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {244, 2805},
/*h(113)=28 VV1 0x7E VL128 V66 V0F not64 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {113, 2796},
/*empty slot1 */ {0,0},
/*h(249)=30 VV1 0x7E VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {249, 2806},
/*empty slot1 */ {0,0},
/*h(241)=32 VV1 0x7E VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {241, 2806},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 34ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x7f_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[10] = {
/*h(47)=0 VV1 0x7F VL256 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 2820},
/*h(31)=1 VV1 0x7F VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 2826},
/*h(15)=2 VV1 0x7F VL128 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2816},
/*h(62)=3 VV1 0x7F VL256 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {62, 2827},
/*h(46)=4 VV1 0x7F VL256 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 2819},
/*h(30)=5 VV1 0x7F VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 2825},
/*h(14)=6 VV1 0x7F VL128 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2815},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(63)=9 VV1 0x7F VL256 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {63, 2828}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 10ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x90_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[10] = {
/*h(13)=0 VV1 0x90 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {13, 3862},
/*h(31)=1 VV1 0x90 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 NOVSR*/ {31, 3890},
/*h(15)=2 VV1 0x90 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 NOVSR*/ {15, 3897},
/*h(28)=3 VV1 0x90 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W0 NOVSR*/ {28, 3886},
/*h(12)=4 VV1 0x90 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W0 NOVSR*/ {12, 3863},
/*h(30)=5 VV1 0x90 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W1 NOVSR*/ {30, 3891},
/*h(14)=6 VV1 0x90 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W1 NOVSR*/ {14, 3898},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(29)=9 VV1 0x90 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {29, 3885}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 10ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x91_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(28)=2 VV1 0x91 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W0 NOVSR*/ {28, 3887},
/*h(12)=3 VV1 0x91 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W0 NOVSR*/ {12, 3864},
/*h(30)=4 VV1 0x91 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W1 NOVSR*/ {30, 3892},
/*h(14)=5 VV1 0x91 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() VL128 W1 NOVSR*/ {14, 3899},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x92_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[21] = {
/*empty slot1 */ {0,0},
/*h(115)=1 VV1 0x92 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {115, 3888},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(49)=5 VV1 0x92 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {49, 3865},
/*h(117)=6 VV1 0x92 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {117, 3888},
/*h(185)=7 VV1 0x92 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 not64 NOVSR*/ {185, 3894},
/*h(177)=8 VV1 0x92 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 not64 NOVSR*/ {177, 3894},
/*empty slot1 */ {0,0},
/*h(51)=10 VV1 0x92 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {51, 3865},
/*empty slot1 */ {0,0},
/*h(187)=12 VV1 0x92 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 not64 NOVSR*/ {187, 3894},
/*h(179)=13 VV1 0x92 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 not64 NOVSR*/ {179, 3894},
/*empty slot1 */ {0,0},
/*h(53)=15 VV1 0x92 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {53, 3865},
/*h(189)=16 VV1 0x92 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 mode64 NOVSR*/ {189, 3900},
/*h(113)=17 VV1 0x92 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {113, 3888},
/*h(181)=18 VV1 0x92 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 mode64 NOVSR*/ {181, 3893},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 21ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x93_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[21] = {
/*empty slot1 */ {0,0},
/*h(115)=1 VV1 0x93 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {115, 3889},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(49)=5 VV1 0x93 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {49, 3866},
/*h(117)=6 VV1 0x93 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {117, 3889},
/*h(185)=7 VV1 0x93 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 not64 NOVSR*/ {185, 3896},
/*h(177)=8 VV1 0x93 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 not64 NOVSR*/ {177, 3896},
/*empty slot1 */ {0,0},
/*h(51)=10 VV1 0x93 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {51, 3866},
/*empty slot1 */ {0,0},
/*h(187)=12 VV1 0x93 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 not64 NOVSR*/ {187, 3896},
/*h(179)=13 VV1 0x93 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 not64 NOVSR*/ {179, 3896},
/*empty slot1 */ {0,0},
/*h(53)=15 VV1 0x93 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {53, 3866},
/*h(189)=16 VV1 0x93 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 mode64 NOVSR*/ {189, 3901},
/*h(113)=17 VV1 0x93 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {113, 3889},
/*h(181)=18 VV1 0x93 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 mode64 NOVSR*/ {181, 3895},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_MODE_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 21ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x98_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*h(13)=0 VV1 0x98 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {13, 3868},
/*h(31)=1 VV1 0x98 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 NOVSR*/ {31, 3909},
/*h(15)=2 VV1 0x98 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 NOVSR*/ {15, 3910},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(29)=7 VV1 0x98 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {29, 3908}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0x99_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[8] = {
/*h(13)=0 VV1 0x99 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {13, 3920},
/*h(31)=1 VV1 0x99 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 NOVSR*/ {31, 3918},
/*h(15)=2 VV1 0x99 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W1 NOVSR*/ {15, 3919},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(29)=7 VV1 0x99 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] VL128 W0 NOVSR*/ {29, 3917}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REXW_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-3));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xae_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[3] = {
/*h(52)=0 VV1 0xAE VL128 VNP V0F NOVSR MOD[mm] MOD!=3 REG[0b010] RM[nnn] MODRM()*/ {52, 3457},
/*h(54)=1 VV1 0xAE VL128 VNP V0F NOVSR MOD[mm] MOD!=3 REG[0b011] RM[nnn] MODRM()*/ {54, 3458},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_REG_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 3ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xc2_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[34] = {
/*h(0)=0 VV1 0xC2 VNP VL128 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {0, 2578},
/*h(13)=1 VV1 0xC2 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {13, 2583},
/*empty slot1 */ {0,0},
/*h(5)=3 VV1 0xC2 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {5, 2583},
/*empty slot1 */ {0,0},
/*h(31)=5 VV1 0xC2 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {31, 2585},
/*h(10)=6 VV1 0xC2 V66 VL256 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {10, 2576},
/*h(23)=7 VV1 0xC2 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {23, 2585},
/*h(2)=8 VV1 0xC2 V66 VL128 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2, 2574},
/*h(15)=9 VV1 0xC2 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {15, 2585},
/*h(28)=10 VV1 0xC2 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {28, 2582},
/*h(7)=11 VV1 0xC2 VF3 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {7, 2585},
/*h(20)=12 VV1 0xC2 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {20, 2582},
/*empty slot1 */ {0,0},
/*h(12)=14 VV1 0xC2 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {12, 2582},
/*empty slot1 */ {0,0},
/*h(4)=16 VV1 0xC2 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {4, 2582},
/*empty slot1 */ {0,0},
/*h(30)=18 VV1 0xC2 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {30, 2584},
/*h(9)=19 VV1 0xC2 VNP VL256 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {9, 2581},
/*h(22)=20 VV1 0xC2 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {22, 2584},
/*h(1)=21 VV1 0xC2 VNP VL128 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {1, 2579},
/*h(14)=22 VV1 0xC2 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {14, 2584},
/*empty slot1 */ {0,0},
/*h(6)=24 VV1 0xC2 VF3 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {6, 2584},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11)=27 VV1 0xC2 V66 VL256 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {11, 2577},
/*empty slot1 */ {0,0},
/*h(3)=29 VV1 0xC2 V66 VL128 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3, 2575},
/*empty slot1 */ {0,0},
/*h(29)=31 VV1 0xC2 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {29, 2583},
/*h(8)=32 VV1 0xC2 VNP VL256 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {8, 2580},
/*h(21)=33 VV1 0xC2 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {21, 2583}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 34ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xc4_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(2)=0 VV1 0xC4 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {3428},
/*h(3)=1 VV1 0xC4 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3429}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = key - 2;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xc5_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[1] = {
/*h(15)=0 VV1 0xC5 VL128 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3419}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 15;
if(hidx == 0) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xc6_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[10] = {
/*h(0)=0 VV1 0xC6 VL128 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {0, 3181},
/*h(10)=1 VV1 0xC6 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {10, 3179},
/*h(2)=2 VV1 0xC6 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {2, 3177},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(9)=5 VV1 0xC6 VL256 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {9, 3184},
/*h(1)=6 VV1 0xC6 VL128 VNP V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {1, 3182},
/*h(11)=7 VV1 0xC6 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {11, 3180},
/*h(3)=8 VV1 0xC6 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn] UIMM8()*/ {3, 3178},
/*h(8)=9 VV1 0xC6 VL256 VNP V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM() UIMM8()*/ {8, 3183}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 10ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd0_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[13] = {
/*h(13)=0 VV1 0xD0 VL256 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {13, 2549},
/*h(5)=1 VV1 0xD0 VL128 VF2 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {5, 2547},
/*h(10)=2 VV1 0xD0 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2544},
/*h(2)=3 VV1 0xD0 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2542},
/*empty slot1 */ {0,0},
/*h(12)=5 VV1 0xD0 VL256 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {12, 2548},
/*h(4)=6 VV1 0xD0 VL128 VF2 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {4, 2546},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(11)=10 VV1 0xD0 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2545},
/*h(3)=11 VV1 0xD0 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2543},
/*empty slot1 */ {0,0}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 13ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd1_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xD1 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2916},
/*h(2)=1 VV1 0xD1 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2913},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xD1 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2917},
/*h(3)=4 VV1 0xD1 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2914}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd2_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xD2 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2922},
/*h(2)=1 VV1 0xD2 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2919},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xD2 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2923},
/*h(3)=4 VV1 0xD2 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2920}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd3_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xD3 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2928},
/*h(2)=1 VV1 0xD3 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2925},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xD3 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2929},
/*h(3)=4 VV1 0xD3 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2926}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd4_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xD4 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2957},
/*h(2)=1 VV1 0xD4 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2955},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xD4 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2958},
/*h(3)=4 VV1 0xD4 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2956}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd5_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xD5 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3053},
/*h(2)=1 VV1 0xD5 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3051},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xD5 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3054},
/*h(3)=4 VV1 0xD5 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3052}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd6_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(14)=0 VV1 0xD6 VL128 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2807},
/*h(15)=1 VV1 0xD6 VL128 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {2808}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 14;
if(hidx <= 1) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd7_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[4] = {
/*h(47)=0 VV1 0xD7 VL256 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 3366},
/*h(15)=1 VV1 0xD7 VL128 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 3365},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-2));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd8_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xD8 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3097},
/*h(2)=1 VV1 0xD8 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3095},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xD8 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3098},
/*h(3)=4 VV1 0xD8 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3096}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xd9_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xD9 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3101},
/*h(2)=1 VV1 0xD9 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3099},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xD9 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3102},
/*h(3)=4 VV1 0xD9 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3100}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xda_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xDA VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3287},
/*h(2)=1 VV1 0xDA VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3285},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xDA VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3288},
/*h(3)=4 VV1 0xDA VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3286}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xdb_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xDB VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2843},
/*h(2)=1 VV1 0xDB VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2841},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xDB VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2844},
/*h(3)=4 VV1 0xDB VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2842}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xdc_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xDC VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2969},
/*h(2)=1 VV1 0xDC VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2967},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xDC VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2970},
/*h(3)=4 VV1 0xDC VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2968}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xdd_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xDD VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2973},
/*h(2)=1 VV1 0xDD VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2971},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xDD VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2974},
/*h(3)=4 VV1 0xDD VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2972}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xde_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xDE VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3263},
/*h(2)=1 VV1 0xDE VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3261},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xDE VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3264},
/*h(3)=4 VV1 0xDE VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3262}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xdf_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xDF VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2847},
/*h(2)=1 VV1 0xDF VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2845},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xDF VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2848},
/*h(3)=4 VV1 0xDF VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2846}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe0_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xE0 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2977},
/*h(2)=1 VV1 0xE0 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2975},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xE0 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2978},
/*h(3)=4 VV1 0xE0 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2976}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe1_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xE1 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2934},
/*h(2)=1 VV1 0xE1 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2931},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xE1 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2935},
/*h(3)=4 VV1 0xE1 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2932}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe2_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xE2 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2940},
/*h(2)=1 VV1 0xE2 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2937},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xE2 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2941},
/*h(3)=4 VV1 0xE2 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2938}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe3_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xE3 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2981},
/*h(2)=1 VV1 0xE3 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2979},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xE3 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2982},
/*h(3)=4 VV1 0xE3 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2980}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe4_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xE4 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3041},
/*h(2)=1 VV1 0xE4 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3039},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xE4 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3042},
/*h(3)=4 VV1 0xE4 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3040}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe5_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xE5 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3049},
/*h(2)=1 VV1 0xE5 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3047},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xE5 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3050},
/*h(3)=4 VV1 0xE5 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3048}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe6_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[17] = {
/*h(47)=0 VV1 0xE6 VL256 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {47, 2605},
/*empty slot1 */ {0,0},
/*h(31)=2 VV1 0xE6 VL128 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {31, 2591},
/*h(23)=3 VV1 0xE6 VL128 VF2 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {23, 2599},
/*h(15)=4 VV1 0xE6 VL128 V66 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {15, 2603},
/*h(62)=5 VV1 0xE6 VL256 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {62, 2592},
/*h(54)=6 VV1 0xE6 VL256 VF2 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {54, 2600},
/*h(46)=7 VV1 0xE6 VL256 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 2604},
/*empty slot1 */ {0,0},
/*h(30)=9 VV1 0xE6 VL128 VF3 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {30, 2590},
/*h(22)=10 VV1 0xE6 VL128 VF2 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 2598},
/*h(14)=11 VV1 0xE6 VL128 V66 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 2602},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*empty slot1 */ {0,0},
/*h(63)=15 VV1 0xE6 VL256 VF3 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {63, 2593},
/*h(55)=16 VV1 0xE6 VL256 VF2 V0F NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {55, 2601}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 17ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe7_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(46)=0 VV1 0xE7 V66 V0F VL256 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {46, 3474},
/*h(14)=1 VV1 0xE7 V66 V0F VL128 NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {14, 3473}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-1));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe8_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xE8 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3089},
/*h(2)=1 VV1 0xE8 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3087},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xE8 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3090},
/*h(3)=4 VV1 0xE8 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3088}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xe9_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xE9 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3093},
/*h(2)=1 VV1 0xE9 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3091},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xE9 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3094},
/*h(3)=4 VV1 0xE9 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3092}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xea_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xEA VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3279},
/*h(2)=1 VV1 0xEA VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3277},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xEA VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3280},
/*h(3)=4 VV1 0xEA VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3278}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xeb_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xEB VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2839},
/*h(2)=1 VV1 0xEB VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2837},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xEB VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2840},
/*h(3)=4 VV1 0xEB VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2838}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xec_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xEC VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2961},
/*h(2)=1 VV1 0xEC VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2959},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xEC VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2962},
/*h(3)=4 VV1 0xEC VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2960}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xed_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xED VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2965},
/*h(2)=1 VV1 0xED VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2963},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xED VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2966},
/*h(3)=4 VV1 0xED VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2964}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xee_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xEE VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3255},
/*h(2)=1 VV1 0xEE VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3253},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xEE VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3256},
/*h(3)=4 VV1 0xEE VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3254}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xef_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xEF VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2851},
/*h(2)=1 VV1 0xEF VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2849},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xEF VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2852},
/*h(3)=4 VV1 0xEF VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2850}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf0_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[2] = {
/*h(54)=0 VV1 0xF0 VL256 VF2 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {54, 2732},
/*h(22)=1 VV1 0xF0 VL128 VF2 V0F NOVSR MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {22, 2731}
};
xed_union64_t t;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, t.s.lo32 >> (32-1));
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf1_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xF1 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2898},
/*h(2)=1 VV1 0xF1 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2895},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xF1 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2899},
/*h(3)=4 VV1 0xF1 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2896}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf2_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xF2 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2904},
/*h(2)=1 VV1 0xF2 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2901},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xF2 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2905},
/*h(3)=4 VV1 0xF2 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2902}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf3_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xF3 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2910},
/*h(2)=1 VV1 0xF3 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2907},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xF3 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2911},
/*h(3)=4 VV1 0xF3 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2908}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf4_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xF4 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3061},
/*h(2)=1 VV1 0xF4 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3059},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xF4 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3062},
/*h(3)=4 VV1 0xF4 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3060}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf5_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xF5 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3299},
/*h(2)=1 VV1 0xF5 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3297},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xF5 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3300},
/*h(3)=4 VV1 0xF5 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3298}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf6_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xF6 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3069},
/*h(2)=1 VV1 0xF6 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3067},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xF6 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3070},
/*h(3)=4 VV1 0xF6 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3068}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf7_vv1(const xed_decoded_inst_t* d)
{
typedef struct { xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[1] = {
/*h(15)=0 VV1 0xF7 V0F V66 VL128 NOVSR MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3456}
};
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEXDEST210_7_VEXDEST3_VEX_PREFIX_VL(d);
hidx = key - 15;
if(hidx == 0) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf8_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xF8 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3105},
/*h(2)=1 VV1 0xF8 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3103},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xF8 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3106},
/*h(3)=4 VV1 0xF8 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3104}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xf9_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xF9 VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3109},
/*h(2)=1 VV1 0xF9 VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3107},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xF9 VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3110},
/*h(3)=4 VV1 0xF9 VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3108}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xfa_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xFA VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3113},
/*h(2)=1 VV1 0xFA VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3111},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xFA VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3114},
/*h(3)=4 VV1 0xFA VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3112}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xfb_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xFB VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 3117},
/*h(2)=1 VV1 0xFB VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 3115},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xFB VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 3118},
/*h(3)=4 VV1 0xFB VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 3116}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xfc_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xFC VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2945},
/*h(2)=1 VV1 0xFC VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2943},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xFC VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2946},
/*h(3)=4 VV1 0xFC VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2944}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xfd_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xFD VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2949},
/*h(2)=1 VV1 0xFD VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2947},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xFD VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2950},
/*h(3)=4 VV1 0xFD VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2948}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
static xed_uint32_t xed3_phash_find_mapvex_map1_opcode0xfe_vv1(const xed_decoded_inst_t* d)
{
typedef struct {xed_uint32_t key; xed_uint32_t value;} lu_entry_t;
static const lu_entry_t lu_table[5] = {
/*h(10)=0 VV1 0xFE VL256 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {10, 2953},
/*h(2)=1 VV1 0xFE VL128 V66 V0F MOD[mm] MOD!=3 REG[rrr] RM[nnn] MODRM()*/ {2, 2951},
/*empty slot1 */ {0,0},
/*h(11)=3 VV1 0xFE VL256 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {11, 2954},
/*h(3)=4 VV1 0xFE VL128 V66 V0F MOD[0b11] MOD=3 REG[rrr] RM[nnn]*/ {3, 2952}
};
xed_union64_t t, u;
xed_uint64_t key = 0;
xed_uint64_t hidx = 0;
key = xed_dec_lu_MOD3_VEX_PREFIX_VL(d);
hidx = (t.u64 = 2654435769 * key, u.u64 = t.s.lo32 * 5ULL, u.s.hi32);
if(lu_table[hidx].key == key) {
return lu_table[hidx].value;
}
else{
return 0;
}
}
#endif