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Theodosius/Examples/Theodosius-Usermode/asmjit/core/funcargscontext_p.h

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// AsmJit - Machine code generation for C++
//
// * Official AsmJit Home Page: https://asmjit.com
// * Official Github Repository: https://github.com/asmjit/asmjit
//
// Copyright (c) 2008-2020 The AsmJit Authors
//
// This software is provided 'as-is', without any express or implied
// warranty. In no event will the authors be held liable for any damages
// arising from the use of this software.
//
// Permission is granted to anyone to use this software for any purpose,
// including commercial applications, and to alter it and redistribute it
// freely, subject to the following restrictions:
//
// 1. The origin of this software must not be misrepresented; you must not
// claim that you wrote the original software. If you use this software
// in a product, an acknowledgment in the product documentation would be
// appreciated but is not required.
// 2. Altered source versions must be plainly marked as such, and must not be
// misrepresented as being the original software.
// 3. This notice may not be removed or altered from any source distribution.
#ifndef ASMJIT_CORE_FUNCARGSCONTEXT_P_H_INCLUDED
#define ASMJIT_CORE_FUNCARGSCONTEXT_P_H_INCLUDED
#include "../core/archtraits.h"
#include "../core/environment.h"
#include "../core/func.h"
#include "../core/operand.h"
#include "../core/radefs_p.h"
#include "../core/support.h"
ASMJIT_BEGIN_NAMESPACE
//! \cond INTERNAL
//! \addtogroup asmjit_core
//! \{
// ============================================================================
// [TODO: Place somewhere else]
// ============================================================================
static inline RegInfo getSuitableRegForMemToMemMove(uint32_t arch, uint32_t dstTypeId, uint32_t srcTypeId) noexcept {
const ArchTraits& archTraits = ArchTraits::byArch(arch);
uint32_t dstSize = Type::sizeOf(dstTypeId);
uint32_t srcSize = Type::sizeOf(srcTypeId);
uint32_t maxSize = Support::max<uint32_t>(dstSize, srcSize);
uint32_t regSize = Environment::registerSizeFromArch(arch);
uint32_t signature = 0;
if (maxSize <= regSize || (Type::isInt(dstTypeId) && Type::isInt(srcTypeId)))
signature = maxSize <= 4 ? archTraits.regTypeToSignature(BaseReg::kTypeGp32)
: archTraits.regTypeToSignature(BaseReg::kTypeGp64);
else if (maxSize <= 8 && archTraits.hasRegType(BaseReg::kTypeVec64))
signature = archTraits.regTypeToSignature(BaseReg::kTypeVec64);
else if (maxSize <= 16 && archTraits.hasRegType(BaseReg::kTypeVec128))
signature = archTraits.regTypeToSignature(BaseReg::kTypeVec128);
else if (maxSize <= 32 && archTraits.hasRegType(BaseReg::kTypeVec256))
signature = archTraits.regTypeToSignature(BaseReg::kTypeVec256);
else if (maxSize <= 64 && archTraits.hasRegType(BaseReg::kTypeVec512))
signature = archTraits.regTypeToSignature(BaseReg::kTypeVec512);
return RegInfo { signature };
}
// ============================================================================
// [asmjit::FuncArgsContext]
// ============================================================================
class FuncArgsContext {
public:
enum VarId : uint32_t {
kVarIdNone = 0xFF
};
//! Contains information about a single argument or SA register that may need shuffling.
struct Var {
FuncValue cur;
FuncValue out;
inline void init(const FuncValue& cur_, const FuncValue& out_) noexcept {
cur = cur_;
out = out_;
}
//! Reset the value to its unassigned state.
inline void reset() noexcept {
cur.reset();
out.reset();
}
inline bool isDone() const noexcept { return cur.isDone(); }
inline void markDone() noexcept { cur.addFlags(FuncValue::kFlagIsDone); }
};
struct WorkData {
//! All allocable registers provided by the architecture.
uint32_t _archRegs;
//! All registers that can be used by the shuffler.
uint32_t _workRegs;
//! Registers used by the shuffler (all).
uint32_t _usedRegs;
//! Assigned registers.
uint32_t _assignedRegs;
//! Destination registers assigned to arguments or SA.
uint32_t _dstRegs;
//! Destination registers that require shuffling.
uint32_t _dstShuf;
//! Number of register swaps.
uint8_t _numSwaps;
//! Number of stack loads.
uint8_t _numStackArgs;
//! Reserved (only used as padding).
uint8_t _reserved[6];
//! Physical ID to variable ID mapping.
uint8_t _physToVarId[32];
inline void reset() noexcept {
_archRegs = 0;
_workRegs = 0;
_usedRegs = 0;
_assignedRegs = 0;
_dstRegs = 0;
_dstShuf = 0;
_numSwaps = 0;
_numStackArgs = 0;
memset(_reserved, 0, sizeof(_reserved));
memset(_physToVarId, kVarIdNone, 32);
}
inline bool isAssigned(uint32_t regId) const noexcept {
ASMJIT_ASSERT(regId < 32);
return Support::bitTest(_assignedRegs, regId);
}
inline void assign(uint32_t varId, uint32_t regId) noexcept {
ASMJIT_ASSERT(!isAssigned(regId));
ASMJIT_ASSERT(_physToVarId[regId] == kVarIdNone);
_physToVarId[regId] = uint8_t(varId);
_assignedRegs ^= Support::bitMask(regId);
}
inline void reassign(uint32_t varId, uint32_t newId, uint32_t oldId) noexcept {
ASMJIT_ASSERT( isAssigned(oldId));
ASMJIT_ASSERT(!isAssigned(newId));
ASMJIT_ASSERT(_physToVarId[oldId] == varId);
ASMJIT_ASSERT(_physToVarId[newId] == kVarIdNone);
_physToVarId[oldId] = uint8_t(kVarIdNone);
_physToVarId[newId] = uint8_t(varId);
_assignedRegs ^= Support::bitMask(newId) ^ Support::bitMask(oldId);
}
inline void swap(uint32_t aVarId, uint32_t aRegId, uint32_t bVarId, uint32_t bRegId) noexcept {
ASMJIT_ASSERT(isAssigned(aRegId));
ASMJIT_ASSERT(isAssigned(bRegId));
ASMJIT_ASSERT(_physToVarId[aRegId] == aVarId);
ASMJIT_ASSERT(_physToVarId[bRegId] == bVarId);
_physToVarId[aRegId] = uint8_t(bVarId);
_physToVarId[bRegId] = uint8_t(aVarId);
}
inline void unassign(uint32_t varId, uint32_t regId) noexcept {
ASMJIT_ASSERT(isAssigned(regId));
ASMJIT_ASSERT(_physToVarId[regId] == varId);
DebugUtils::unused(varId);
_physToVarId[regId] = uint8_t(kVarIdNone);
_assignedRegs ^= Support::bitMask(regId);
}
inline uint32_t archRegs() const noexcept { return _archRegs; }
inline uint32_t workRegs() const noexcept { return _workRegs; }
inline uint32_t usedRegs() const noexcept { return _usedRegs; }
inline uint32_t assignedRegs() const noexcept { return _assignedRegs; }
inline uint32_t dstRegs() const noexcept { return _dstRegs; }
inline uint32_t availableRegs() const noexcept { return _workRegs & ~_assignedRegs; }
};
//! Architecture traits.
const ArchTraits* _archTraits = nullptr;
const RAConstraints* _constraints = nullptr;
//! Architecture identifier.
uint8_t _arch = 0;
//! Has arguments passed via stack (SRC).
bool _hasStackSrc = false;
//! Has preserved frame-pointer (FP).
bool _hasPreservedFP = false;
//! Has arguments assigned to stack (DST).
uint8_t _stackDstMask = 0;
//! Register swap groups (bit-mask).
uint8_t _regSwapsMask = 0;
uint8_t _saVarId = kVarIdNone;
uint32_t _varCount = 0;
WorkData _workData[BaseReg::kGroupVirt];
Var _vars[Globals::kMaxFuncArgs * Globals::kMaxValuePack + 1];
FuncArgsContext() noexcept;
inline const ArchTraits& archTraits() const noexcept { return *_archTraits; }
inline uint32_t arch() const noexcept { return _arch; }
inline uint32_t varCount() const noexcept { return _varCount; }
inline size_t indexOf(const Var* var) const noexcept { return (size_t)(var - _vars); }
inline Var& var(size_t varId) noexcept { return _vars[varId]; }
inline const Var& var(size_t varId) const noexcept { return _vars[varId]; }
Error initWorkData(const FuncFrame& frame, const FuncArgsAssignment& args, const RAConstraints* constraints) noexcept;
Error markScratchRegs(FuncFrame& frame) noexcept;
Error markDstRegsDirty(FuncFrame& frame) noexcept;
Error markStackArgsReg(FuncFrame& frame) noexcept;
};
//! \}
//! \endcond
ASMJIT_END_NAMESPACE
#endif // ASMJIT_CORE_FUNCARGSCONTEXT_P_H_INCLUDED
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