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724 lines
31 KiB
724 lines
31 KiB
// AsmJit - Machine code generation for C++
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//
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// * Official AsmJit Home Page: https://asmjit.com
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// * Official Github Repository: https://github.com/asmjit/asmjit
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//
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// Copyright (c) 2008-2020 The AsmJit Authors
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//
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// This software is provided 'as-is', without any express or implied
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// warranty. In no event will the authors be held liable for any damages
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// arising from the use of this software.
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//
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// Permission is granted to anyone to use this software for any purpose,
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// including commercial applications, and to alter it and redistribute it
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// freely, subject to the following restrictions:
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//
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// 1. The origin of this software must not be misrepresented; you must not
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// claim that you wrote the original software. If you use this software
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// in a product, an acknowledgment in the product documentation would be
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// appreciated but is not required.
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// 2. Altered source versions must be plainly marked as such, and must not be
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// misrepresented as being the original software.
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// 3. This notice may not be removed or altered from any source distribution.
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#ifndef ASMJIT_CORE_EMITTER_H_INCLUDED
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#define ASMJIT_CORE_EMITTER_H_INCLUDED
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#include "../core/archtraits.h"
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#include "../core/codeholder.h"
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#include "../core/inst.h"
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#include "../core/operand.h"
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#include "../core/type.h"
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ASMJIT_BEGIN_NAMESPACE
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//! \addtogroup asmjit_core
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//! \{
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// ============================================================================
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// [Forward Declarations]
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// ============================================================================
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class ConstPool;
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class FuncFrame;
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class FuncArgsAssignment;
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// ============================================================================
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// [asmjit::BaseEmitter]
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// ============================================================================
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//! Provides a base foundation to emit code - specialized by `Assembler` and
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//! `BaseBuilder`.
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class ASMJIT_VIRTAPI BaseEmitter {
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public:
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ASMJIT_BASE_CLASS(BaseEmitter)
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//! See \ref EmitterType.
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uint8_t _emitterType = 0;
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//! See \ref BaseEmitter::EmitterFlags.
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uint8_t _emitterFlags = 0;
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//! Validation flags in case validation is used, see \ref InstAPI::ValidationFlags.
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//!
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//! \note Validation flags are specific to the emitter and they are setup at
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//! construction time and then never changed.
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uint8_t _validationFlags = 0;
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//! Validation options, see \ref ValidationOptions.
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uint8_t _validationOptions = 0;
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//! Encoding options, see \ref EncodingOptions.
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uint32_t _encodingOptions = 0;
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//! Forced instruction options, combined with \ref _instOptions by \ref emit().
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uint32_t _forcedInstOptions = BaseInst::kOptionReserved;
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//! Internal private data used freely by any emitter.
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uint32_t _privateData = 0;
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//! CodeHolder the emitter is attached to.
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CodeHolder* _code = nullptr;
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//! Attached \ref Logger.
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Logger* _logger = nullptr;
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//! Attached \ref ErrorHandler.
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ErrorHandler* _errorHandler = nullptr;
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//! Describes the target environment, matches \ref CodeHolder::environment().
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Environment _environment {};
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//! Native GP register signature and signature related information.
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RegInfo _gpRegInfo {};
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//! Next instruction options (affects the next instruction).
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uint32_t _instOptions = 0;
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//! Extra register (op-mask {k} on AVX-512) (affects the next instruction).
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RegOnly _extraReg {};
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//! Inline comment of the next instruction (affects the next instruction).
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const char* _inlineComment = nullptr;
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//! Emitter type.
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enum EmitterType : uint32_t {
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//! Unknown or uninitialized.
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kTypeNone = 0,
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//! Emitter inherits from \ref BaseAssembler.
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kTypeAssembler = 1,
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//! Emitter inherits from \ref BaseBuilder.
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kTypeBuilder = 2,
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//! Emitter inherits from \ref BaseCompiler.
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kTypeCompiler = 3,
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//! Count of emitter types.
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kTypeCount = 4
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};
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//! Emitter flags.
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enum EmitterFlags : uint32_t {
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//! Emitter is attached to CodeHolder.
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kFlagAttached = 0x01u,
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//! The emitter must emit comments.
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kFlagLogComments = 0x08u,
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//! The emitter has its own \ref Logger (not propagated from \ref CodeHolder).
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kFlagOwnLogger = 0x10u,
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//! The emitter has its own \ref ErrorHandler (not propagated from \ref CodeHolder).
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kFlagOwnErrorHandler = 0x20u,
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//! The emitter was finalized.
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kFlagFinalized = 0x40u,
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//! The emitter was destroyed.
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kFlagDestroyed = 0x80u
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};
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//! Encoding options.
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enum EncodingOptions : uint32_t {
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//! Emit instructions that are optimized for size, if possible.
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//!
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//! Default: false.
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//!
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//! X86 Specific
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//! ------------
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//!
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//! When this option is set it the assembler will try to fix instructions
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//! if possible into operation equivalent instructions that take less bytes
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//! by taking advantage of implicit zero extension. For example instruction
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//! like `mov r64, imm` and `and r64, imm` can be translated to `mov r32, imm`
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//! and `and r32, imm` when the immediate constant is lesser than `2^31`.
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kEncodingOptionOptimizeForSize = 0x00000001u,
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//! Emit optimized code-alignment sequences.
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//!
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//! Default: false.
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//!
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//! X86 Specific
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//! ------------
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//!
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//! Default align sequence used by X86 architecture is one-byte (0x90)
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//! opcode that is often shown by disassemblers as NOP. However there are
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//! more optimized align sequences for 2-11 bytes that may execute faster
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//! on certain CPUs. If this feature is enabled AsmJit will generate
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//! specialized sequences for alignment between 2 to 11 bytes.
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kEncodingOptionOptimizedAlign = 0x00000002u,
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//! Emit jump-prediction hints.
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//!
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//! Default: false.
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//!
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//! X86 Specific
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//! ------------
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//!
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//! Jump prediction is usually based on the direction of the jump. If the
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//! jump is backward it is usually predicted as taken; and if the jump is
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//! forward it is usually predicted as not-taken. The reason is that loops
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//! generally use backward jumps and conditions usually use forward jumps.
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//! However this behavior can be overridden by using instruction prefixes.
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//! If this option is enabled these hints will be emitted.
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//!
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//! This feature is disabled by default, because the only processor that
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//! used to take into consideration prediction hints was P4. Newer processors
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//! implement heuristics for branch prediction and ignore static hints. This
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//! means that this feature can be only used for annotation purposes.
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kEncodingOptionPredictedJumps = 0x00000010u
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};
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#ifndef ASMJIT_NO_DEPRECATED
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enum EmitterOptions : uint32_t {
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kOptionOptimizedForSize = kEncodingOptionOptimizeForSize,
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kOptionOptimizedAlign = kEncodingOptionOptimizedAlign,
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kOptionPredictedJumps = kEncodingOptionPredictedJumps
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};
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#endif
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//! Validation options are used to tell emitters to perform strict validation
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//! of instructions passed to \ref emit().
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//!
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//! \ref BaseAssembler implementation perform by default only basic checks
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//! that are necessary to identify all variations of an instruction so the
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//! correct encoding can be selected. This is fine for production-ready code
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//! as the assembler doesn't have to perform checks that would slow it down.
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//! However, sometimes these checks are beneficial especially when the project
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//! that uses AsmJit is in a development phase, in which mistakes happen often.
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//! To make the experience of using AsmJit seamless it offers validation
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//! features that can be controlled by `ValidationOptions`.
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enum ValidationOptions : uint32_t {
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//! Perform strict validation in \ref BaseAssembler::emit() implementations.
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//!
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//! This flag ensures that each instruction is checked before it's encoded
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//! into a binary representation. This flag is only relevant for \ref
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//! BaseAssembler implementations, but can be set in any other emitter type,
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//! in that case if that emitter needs to create an assembler on its own,
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//! for the purpose of \ref finalize() it would propagate this flag to such
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//! assembler so all instructions passed to it are explicitly validated.
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//!
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//! Default: false.
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kValidationOptionAssembler = 0x00000001u,
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//! Perform strict validation in \ref BaseBuilder::emit() and \ref
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//! BaseCompiler::emit() implementations.
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//!
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//! This flag ensures that each instruction is checked before an \ref
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//! InstNode representing the instruction is created by Builder or Compiler.
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//!
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//! Default: false.
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kValidationOptionIntermediate = 0x00000002u
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};
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//! \name Construction & Destruction
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//! \{
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ASMJIT_API explicit BaseEmitter(uint32_t emitterType) noexcept;
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ASMJIT_API virtual ~BaseEmitter() noexcept;
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//! \}
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//! \name Cast
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//! \{
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template<typename T>
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inline T* as() noexcept { return reinterpret_cast<T*>(this); }
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template<typename T>
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inline const T* as() const noexcept { return reinterpret_cast<const T*>(this); }
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//! \}
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//! \name Emitter Type & Flags
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//! \{
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//! Returns the type of this emitter, see `EmitterType`.
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inline uint32_t emitterType() const noexcept { return _emitterType; }
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//! Returns emitter flags , see `Flags`.
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inline uint32_t emitterFlags() const noexcept { return _emitterFlags; }
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//! Tests whether the emitter inherits from `BaseAssembler`.
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inline bool isAssembler() const noexcept { return _emitterType == kTypeAssembler; }
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//! Tests whether the emitter inherits from `BaseBuilder`.
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//!
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//! \note Both Builder and Compiler emitters would return `true`.
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inline bool isBuilder() const noexcept { return _emitterType >= kTypeBuilder; }
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//! Tests whether the emitter inherits from `BaseCompiler`.
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inline bool isCompiler() const noexcept { return _emitterType == kTypeCompiler; }
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//! Tests whether the emitter has the given `flag` enabled.
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inline bool hasEmitterFlag(uint32_t flag) const noexcept { return (_emitterFlags & flag) != 0; }
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//! Tests whether the emitter is finalized.
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inline bool isFinalized() const noexcept { return hasEmitterFlag(kFlagFinalized); }
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//! Tests whether the emitter is destroyed (only used during destruction).
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inline bool isDestroyed() const noexcept { return hasEmitterFlag(kFlagDestroyed); }
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inline void _addEmitterFlags(uint32_t flags) noexcept { _emitterFlags = uint8_t(_emitterFlags | flags); }
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inline void _clearEmitterFlags(uint32_t flags) noexcept { _emitterFlags = uint8_t(_emitterFlags & ~flags); }
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//! \}
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//! \name Target Information
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//! \{
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//! Returns the CodeHolder this emitter is attached to.
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inline CodeHolder* code() const noexcept { return _code; }
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//! Returns the target environment, see \ref Environment.
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//!
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//! The returned \ref Environment reference matches \ref CodeHolder::environment().
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inline const Environment& environment() const noexcept { return _environment; }
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//! Tests whether the target architecture is 32-bit.
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inline bool is32Bit() const noexcept { return environment().is32Bit(); }
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//! Tests whether the target architecture is 64-bit.
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inline bool is64Bit() const noexcept { return environment().is64Bit(); }
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//! Returns the target architecture type.
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inline uint32_t arch() const noexcept { return environment().arch(); }
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//! Returns the target architecture sub-type.
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inline uint32_t subArch() const noexcept { return environment().subArch(); }
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//! Returns the target architecture's GP register size (4 or 8 bytes).
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inline uint32_t registerSize() const noexcept { return environment().registerSize(); }
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//! \}
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//! \name Initialization & Finalization
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//! \{
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//! Tests whether the emitter is initialized (i.e. attached to \ref CodeHolder).
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inline bool isInitialized() const noexcept { return _code != nullptr; }
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//! Finalizes this emitter.
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//!
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//! Materializes the content of the emitter by serializing it to the attached
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//! \ref CodeHolder through an architecture specific \ref BaseAssembler. This
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//! function won't do anything if the emitter inherits from \ref BaseAssembler
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//! as assemblers emit directly to a \ref CodeBuffer held by \ref CodeHolder.
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//! However, if this is an emitter that inherits from \ref BaseBuilder or \ref
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//! BaseCompiler then these emitters need the materialization phase as they
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//! store their content in a representation not visible to \ref CodeHolder.
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ASMJIT_API virtual Error finalize();
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//! \}
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//! \name Logging
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//! \{
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//! Tests whether the emitter has a logger.
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inline bool hasLogger() const noexcept { return _logger != nullptr; }
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//! Tests whether the emitter has its own logger.
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//!
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//! Own logger means that it overrides the possible logger that may be used
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//! by \ref CodeHolder this emitter is attached to.
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inline bool hasOwnLogger() const noexcept { return hasEmitterFlag(kFlagOwnLogger); }
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//! Returns the logger this emitter uses.
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//!
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//! The returned logger is either the emitter's own logger or it's logger
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//! used by \ref CodeHolder this emitter is attached to.
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inline Logger* logger() const noexcept { return _logger; }
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//! Sets or resets the logger of the emitter.
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//!
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//! If the `logger` argument is non-null then the logger will be considered
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//! emitter's own logger, see \ref hasOwnLogger() for more details. If the
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//! given `logger` is null then the emitter will automatically use logger
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//! that is attached to the \ref CodeHolder this emitter is attached to.
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ASMJIT_API void setLogger(Logger* logger) noexcept;
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//! Resets the logger of this emitter.
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//!
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//! The emitter will bail to using a logger attached to \ref CodeHolder this
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//! emitter is attached to, or no logger at all if \ref CodeHolder doesn't
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//! have one.
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inline void resetLogger() noexcept { return setLogger(nullptr); }
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//! \}
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//! \name Error Handling
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//! \{
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//! Tests whether the emitter has an error handler attached.
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inline bool hasErrorHandler() const noexcept { return _errorHandler != nullptr; }
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//! Tests whether the emitter has its own error handler.
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//!
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//! Own error handler means that it overrides the possible error handler that
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//! may be used by \ref CodeHolder this emitter is attached to.
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inline bool hasOwnErrorHandler() const noexcept { return hasEmitterFlag(kFlagOwnErrorHandler); }
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//! Returns the error handler this emitter uses.
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//!
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//! The returned error handler is either the emitter's own error handler or
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//! it's error handler used by \ref CodeHolder this emitter is attached to.
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inline ErrorHandler* errorHandler() const noexcept { return _errorHandler; }
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//! Sets or resets the error handler of the emitter.
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ASMJIT_API void setErrorHandler(ErrorHandler* errorHandler) noexcept;
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//! Resets the error handler.
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inline void resetErrorHandler() noexcept { setErrorHandler(nullptr); }
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//! Handles the given error in the following way:
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//! 1. If the emitter has \ref ErrorHandler attached, it calls its
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//! \ref ErrorHandler::handleError() member function first, and
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//! then returns the error. The `handleError()` function may throw.
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//! 2. if the emitter doesn't have \ref ErrorHandler, the error is
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//! simply returned.
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ASMJIT_API Error reportError(Error err, const char* message = nullptr);
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//! \}
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//! \name Encoding Options
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//! \{
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//! Returns encoding options, see \ref EncodingOptions.
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inline uint32_t encodingOptions() const noexcept { return _encodingOptions; }
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//! Tests whether the encoding `option` is set.
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inline bool hasEncodingOption(uint32_t option) const noexcept { return (_encodingOptions & option) != 0; }
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//! Enables the given encoding `options`, see \ref EncodingOptions.
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inline void addEncodingOptions(uint32_t options) noexcept { _encodingOptions |= options; }
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//! Disables the given encoding `options`, see \ref EncodingOptions.
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inline void clearEncodingOptions(uint32_t options) noexcept { _encodingOptions &= ~options; }
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//! \}
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//! \name Validation Options
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//! \{
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//! Returns the emitter's validation options, see \ref ValidationOptions.
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inline uint32_t validationOptions() const noexcept {
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return _validationOptions;
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}
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//! Tests whether the given `option` is present in validation options.
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inline bool hasValidationOption(uint32_t option) const noexcept {
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return (_validationOptions & option) != 0;
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}
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//! Activates the given validation `options`, see \ref ValidationOptions.
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//!
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//! This function is used to activate explicit validation options that will
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//! be then used by all emitter implementations. There are in general two
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//! possibilities:
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//!
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//! - Architecture specific assembler is used. In this case a
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//! \ref kValidationOptionAssembler can be used to turn on explicit
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//! validation that will be used before an instruction is emitted.
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//! This means that internally an extra step will be performed to
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//! make sure that the instruction is correct. This is needed, because
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//! by default assemblers prefer speed over strictness.
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//!
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//! This option should be used in debug builds as it's pretty expensive.
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//!
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//! - Architecture specific builder or compiler is used. In this case
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//! the user can turn on \ref kValidationOptionIntermediate option
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//! that adds explicit validation step before the Builder or Compiler
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//! creates an \ref InstNode to represent an emitted instruction. Error
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//! will be returned if the instruction is ill-formed. In addition,
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//! also \ref kValidationOptionAssembler can be used, which would not be
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//! consumed by Builder / Compiler directly, but it would be propagated
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//! to an architecture specific \ref BaseAssembler implementation it
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//! creates during \ref BaseEmitter::finalize().
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ASMJIT_API void addValidationOptions(uint32_t options) noexcept;
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//! Deactivates the given validation `options`.
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//!
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//! See \ref addValidationOptions() and \ref ValidationOptions for more details.
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ASMJIT_API void clearValidationOptions(uint32_t options) noexcept;
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//! \}
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//! \name Instruction Options
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//! \{
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//! Returns forced instruction options.
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//!
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//! Forced instruction options are merged with next instruction options before
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//! the instruction is encoded. These options have some bits reserved that are
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//! used by error handling, logging, and instruction validation purposes. Other
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//! options are globals that affect each instruction.
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inline uint32_t forcedInstOptions() const noexcept { return _forcedInstOptions; }
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//! Returns options of the next instruction.
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inline uint32_t instOptions() const noexcept { return _instOptions; }
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//! Returns options of the next instruction.
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inline void setInstOptions(uint32_t options) noexcept { _instOptions = options; }
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//! Adds options of the next instruction.
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inline void addInstOptions(uint32_t options) noexcept { _instOptions |= options; }
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//! Resets options of the next instruction.
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inline void resetInstOptions() noexcept { _instOptions = 0; }
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//! Tests whether the extra register operand is valid.
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inline bool hasExtraReg() const noexcept { return _extraReg.isReg(); }
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//! Returns an extra operand that will be used by the next instruction (architecture specific).
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inline const RegOnly& extraReg() const noexcept { return _extraReg; }
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//! Sets an extra operand that will be used by the next instruction (architecture specific).
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inline void setExtraReg(const BaseReg& reg) noexcept { _extraReg.init(reg); }
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//! Sets an extra operand that will be used by the next instruction (architecture specific).
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inline void setExtraReg(const RegOnly& reg) noexcept { _extraReg.init(reg); }
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//! Resets an extra operand that will be used by the next instruction (architecture specific).
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inline void resetExtraReg() noexcept { _extraReg.reset(); }
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//! Returns comment/annotation of the next instruction.
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inline const char* inlineComment() const noexcept { return _inlineComment; }
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//! Sets comment/annotation of the next instruction.
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//!
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//! \note This string is set back to null by `_emit()`, but until that it has
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//! to remain valid as the Emitter is not required to make a copy of it (and
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//! it would be slow to do that for each instruction).
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inline void setInlineComment(const char* s) noexcept { _inlineComment = s; }
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//! Resets the comment/annotation to nullptr.
|
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inline void resetInlineComment() noexcept { _inlineComment = nullptr; }
|
|
|
|
//! \}
|
|
|
|
//! \name Sections
|
|
//! \{
|
|
|
|
virtual Error section(Section* section) = 0;
|
|
|
|
//! \}
|
|
|
|
//! \name Labels
|
|
//! \{
|
|
|
|
//! Creates a new label.
|
|
virtual Label newLabel() = 0;
|
|
//! Creates a new named label.
|
|
virtual Label newNamedLabel(const char* name, size_t nameSize = SIZE_MAX, uint32_t type = Label::kTypeGlobal, uint32_t parentId = Globals::kInvalidId) = 0;
|
|
|
|
//! Creates a new external label.
|
|
inline Label newExternalLabel(const char* name, size_t nameSize = SIZE_MAX) {
|
|
return newNamedLabel(name, nameSize, Label::kTypeExternal);
|
|
}
|
|
|
|
//! Returns `Label` by `name`.
|
|
//!
|
|
//! Returns invalid Label in case that the name is invalid or label was not found.
|
|
//!
|
|
//! \note This function doesn't trigger ErrorHandler in case the name is invalid
|
|
//! or no such label exist. You must always check the validity of the `Label` returned.
|
|
ASMJIT_API Label labelByName(const char* name, size_t nameSize = SIZE_MAX, uint32_t parentId = Globals::kInvalidId) noexcept;
|
|
|
|
//! Binds the `label` to the current position of the current section.
|
|
//!
|
|
//! \note Attempt to bind the same label multiple times will return an error.
|
|
virtual Error bind(const Label& label) = 0;
|
|
|
|
//! Tests whether the label `id` is valid (i.e. registered).
|
|
ASMJIT_API bool isLabelValid(uint32_t labelId) const noexcept;
|
|
//! Tests whether the `label` is valid (i.e. registered).
|
|
inline bool isLabelValid(const Label& label) const noexcept { return isLabelValid(label.id()); }
|
|
|
|
//! \}
|
|
|
|
//! \name Emit
|
|
//! \{
|
|
|
|
// NOTE: These `emit()` helpers are designed to address a code-bloat generated
|
|
// by C++ compilers to call a function having many arguments. Each parameter to
|
|
// `_emit()` requires some code to pass it, which means that if we default to
|
|
// 5 arguments in `_emit()` and instId the C++ compiler would have to generate
|
|
// a virtual function call having 5 parameters and additional `this` argument,
|
|
// which is quite a lot. Since by default most instructions have 2 to 3 operands
|
|
// it's better to introduce helpers that pass from 0 to 6 operands that help to
|
|
// reduce the size of emit(...) function call.
|
|
|
|
//! Emits an instruction (internal).
|
|
ASMJIT_API Error _emitI(uint32_t instId);
|
|
//! \overload
|
|
ASMJIT_API Error _emitI(uint32_t instId, const Operand_& o0);
|
|
//! \overload
|
|
ASMJIT_API Error _emitI(uint32_t instId, const Operand_& o0, const Operand_& o1);
|
|
//! \overload
|
|
ASMJIT_API Error _emitI(uint32_t instId, const Operand_& o0, const Operand_& o1, const Operand_& o2);
|
|
//! \overload
|
|
ASMJIT_API Error _emitI(uint32_t instId, const Operand_& o0, const Operand_& o1, const Operand_& o2, const Operand_& o3);
|
|
//! \overload
|
|
ASMJIT_API Error _emitI(uint32_t instId, const Operand_& o0, const Operand_& o1, const Operand_& o2, const Operand_& o3, const Operand_& o4);
|
|
//! \overload
|
|
ASMJIT_API Error _emitI(uint32_t instId, const Operand_& o0, const Operand_& o1, const Operand_& o2, const Operand_& o3, const Operand_& o4, const Operand_& o5);
|
|
|
|
//! Emits an instruction `instId` with the given `operands`.
|
|
template<typename... Args>
|
|
ASMJIT_INLINE Error emit(uint32_t instId, Args&&... operands) {
|
|
return _emitI(instId, Support::ForwardOp<Args>::forward(operands)...);
|
|
}
|
|
|
|
inline Error emitOpArray(uint32_t instId, const Operand_* operands, size_t opCount) {
|
|
return _emitOpArray(instId, operands, opCount);
|
|
}
|
|
|
|
inline Error emitInst(const BaseInst& inst, const Operand_* operands, size_t opCount) {
|
|
setInstOptions(inst.options());
|
|
setExtraReg(inst.extraReg());
|
|
return _emitOpArray(inst.id(), operands, opCount);
|
|
}
|
|
|
|
//! \cond INTERNAL
|
|
//! Emits an instruction - all 6 operands must be defined.
|
|
virtual Error _emit(uint32_t instId, const Operand_& o0, const Operand_& o1, const Operand_& o2, const Operand_* oExt) = 0;
|
|
//! Emits instruction having operands stored in array.
|
|
ASMJIT_API virtual Error _emitOpArray(uint32_t instId, const Operand_* operands, size_t opCount);
|
|
//! \endcond
|
|
|
|
//! \}
|
|
|
|
//! \name Emit Utilities
|
|
//! \{
|
|
|
|
ASMJIT_API Error emitProlog(const FuncFrame& frame);
|
|
ASMJIT_API Error emitEpilog(const FuncFrame& frame);
|
|
ASMJIT_API Error emitArgsAssignment(const FuncFrame& frame, const FuncArgsAssignment& args);
|
|
|
|
//! \}
|
|
|
|
//! \name Align
|
|
//! \{
|
|
|
|
//! Aligns the current CodeBuffer position to the `alignment` specified.
|
|
//!
|
|
//! The sequence that is used to fill the gap between the aligned location
|
|
//! and the current location depends on the align `mode`, see \ref AlignMode.
|
|
virtual Error align(uint32_t alignMode, uint32_t alignment) = 0;
|
|
|
|
//! \}
|
|
|
|
//! \name Embed
|
|
//! \{
|
|
|
|
//! Embeds raw data into the \ref CodeBuffer.
|
|
virtual Error embed(const void* data, size_t dataSize) = 0;
|
|
|
|
//! Embeds a typed data array.
|
|
//!
|
|
//! This is the most flexible function for embedding data as it allows to:
|
|
//! - Assign a `typeId` to the data, so the emitter knows the type of
|
|
//! items stored in `data`. Binary data should use \ref Type::kIdU8.
|
|
//! - Repeat the given data `repeatCount` times, so the data can be used
|
|
//! as a fill pattern for example, or as a pattern used by SIMD instructions.
|
|
virtual Error embedDataArray(uint32_t typeId, const void* data, size_t itemCount, size_t repeatCount = 1) = 0;
|
|
|
|
//! Embeds int8_t `value` repeated by `repeatCount`.
|
|
inline Error embedInt8(int8_t value, size_t repeatCount = 1) { return embedDataArray(Type::kIdI8, &value, 1, repeatCount); }
|
|
//! Embeds uint8_t `value` repeated by `repeatCount`.
|
|
inline Error embedUInt8(uint8_t value, size_t repeatCount = 1) { return embedDataArray(Type::kIdU8, &value, 1, repeatCount); }
|
|
//! Embeds int16_t `value` repeated by `repeatCount`.
|
|
inline Error embedInt16(int16_t value, size_t repeatCount = 1) { return embedDataArray(Type::kIdI16, &value, 1, repeatCount); }
|
|
//! Embeds uint16_t `value` repeated by `repeatCount`.
|
|
inline Error embedUInt16(uint16_t value, size_t repeatCount = 1) { return embedDataArray(Type::kIdU16, &value, 1, repeatCount); }
|
|
//! Embeds int32_t `value` repeated by `repeatCount`.
|
|
inline Error embedInt32(int32_t value, size_t repeatCount = 1) { return embedDataArray(Type::kIdI32, &value, 1, repeatCount); }
|
|
//! Embeds uint32_t `value` repeated by `repeatCount`.
|
|
inline Error embedUInt32(uint32_t value, size_t repeatCount = 1) { return embedDataArray(Type::kIdU32, &value, 1, repeatCount); }
|
|
//! Embeds int64_t `value` repeated by `repeatCount`.
|
|
inline Error embedInt64(int64_t value, size_t repeatCount = 1) { return embedDataArray(Type::kIdI64, &value, 1, repeatCount); }
|
|
//! Embeds uint64_t `value` repeated by `repeatCount`.
|
|
inline Error embedUInt64(uint64_t value, size_t repeatCount = 1) { return embedDataArray(Type::kIdU64, &value, 1, repeatCount); }
|
|
//! Embeds a floating point `value` repeated by `repeatCount`.
|
|
inline Error embedFloat(float value, size_t repeatCount = 1) { return embedDataArray(Type::kIdF32, &value, 1, repeatCount); }
|
|
//! Embeds a floating point `value` repeated by `repeatCount`.
|
|
inline Error embedDouble(double value, size_t repeatCount = 1) { return embedDataArray(Type::IdOfT<double>::kTypeId, &value, 1, repeatCount); }
|
|
|
|
//! Embeds a constant pool at the current offset by performing the following:
|
|
//! 1. Aligns by using kAlignData to the minimum `pool` alignment.
|
|
//! 2. Binds the ConstPool label so it's bound to an aligned location.
|
|
//! 3. Emits ConstPool content.
|
|
virtual Error embedConstPool(const Label& label, const ConstPool& pool) = 0;
|
|
|
|
//! Embeds an absolute `label` address as data.
|
|
//!
|
|
//! The `dataSize` is an optional argument that can be used to specify the
|
|
//! size of the address data. If it's zero (default) the address size is
|
|
//! deduced from the target architecture (either 4 or 8 bytes).
|
|
virtual Error embedLabel(const Label& label, size_t dataSize = 0) = 0;
|
|
|
|
//! Embeds a delta (distance) between the `label` and `base` calculating it
|
|
//! as `label - base`. This function was designed to make it easier to embed
|
|
//! lookup tables where each index is a relative distance of two labels.
|
|
virtual Error embedLabelDelta(const Label& label, const Label& base, size_t dataSize = 0) = 0;
|
|
|
|
//! \}
|
|
|
|
//! \name Comment
|
|
//! \{
|
|
|
|
//! Emits a comment stored in `data` with an optional `size` parameter.
|
|
virtual Error comment(const char* data, size_t size = SIZE_MAX) = 0;
|
|
|
|
//! Emits a formatted comment specified by `fmt` and variable number of arguments.
|
|
ASMJIT_API Error commentf(const char* fmt, ...);
|
|
//! Emits a formatted comment specified by `fmt` and `ap`.
|
|
ASMJIT_API Error commentv(const char* fmt, va_list ap);
|
|
|
|
//! \}
|
|
|
|
//! \name Events
|
|
//! \{
|
|
|
|
//! Called after the emitter was attached to `CodeHolder`.
|
|
virtual Error onAttach(CodeHolder* code) noexcept = 0;
|
|
//! Called after the emitter was detached from `CodeHolder`.
|
|
virtual Error onDetach(CodeHolder* code) noexcept = 0;
|
|
|
|
//! Called when \ref CodeHolder has updated an important setting, which
|
|
//! involves the following:
|
|
//!
|
|
//! - \ref Logger has been changed (\ref CodeHolder::setLogger() has been
|
|
//! called).
|
|
//! - \ref ErrorHandler has been changed (\ref CodeHolder::setErrorHandler()
|
|
//! has been called).
|
|
//!
|
|
//! This function ensures that the settings are properly propagated from
|
|
//! \ref CodeHolder to the emitter.
|
|
//!
|
|
//! \note This function is virtual and can be overridden, however, if you
|
|
//! do so, always call \ref BaseEmitter::onSettingsUpdated() within your
|
|
//! own implementation to ensure that the emitter is in a consisten state.
|
|
ASMJIT_API virtual void onSettingsUpdated() noexcept;
|
|
|
|
//! \}
|
|
|
|
#ifndef ASMJIT_NO_DEPRECATED
|
|
ASMJIT_DEPRECATED("Use environment() instead")
|
|
inline CodeInfo codeInfo() const noexcept {
|
|
return CodeInfo(_environment, _code ? _code->baseAddress() : Globals::kNoBaseAddress);
|
|
}
|
|
|
|
ASMJIT_DEPRECATED("Use arch() instead")
|
|
inline uint32_t archId() const noexcept { return arch(); }
|
|
|
|
ASMJIT_DEPRECATED("Use registerSize() instead")
|
|
inline uint32_t gpSize() const noexcept { return registerSize(); }
|
|
|
|
ASMJIT_DEPRECATED("Use encodingOptions() instead")
|
|
inline uint32_t emitterOptions() const noexcept { return encodingOptions(); }
|
|
|
|
ASMJIT_DEPRECATED("Use addEncodingOptions() instead")
|
|
inline void addEmitterOptions(uint32_t options) noexcept { addEncodingOptions(options); }
|
|
|
|
ASMJIT_DEPRECATED("Use clearEncodingOptions() instead")
|
|
inline void clearEmitterOptions(uint32_t options) noexcept { clearEncodingOptions(options); }
|
|
|
|
ASMJIT_DEPRECATED("Use forcedInstOptions() instead")
|
|
inline uint32_t globalInstOptions() const noexcept { return forcedInstOptions(); }
|
|
#endif // !ASMJIT_NO_DEPRECATED
|
|
};
|
|
|
|
//! \}
|
|
|
|
ASMJIT_END_NAMESPACE
|
|
|
|
#endif // ASMJIT_CORE_EMITTER_H_INCLUDED
|