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Unverified Commit cc7018ea authored by Peter Eastman's avatar Peter Eastman Committed by GitHub
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JIT compilation on ARM processors (#3517) 

* Upgraded to new version of asmjit

* JIT compilation for ARM

* Updated CMake script
parent 0644f054
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CMakeLists.txt
View file @ cc7018ea
...@@ -247,8 +247,8 @@ IF(X86) ...@@ -247,8 +247,8 @@ IF(X86)
ELSE() ELSE()
SET_SOURCE_FILES_PROPERTIES(${CMAKE_SOURCE_DIR}/libraries/sfmt/src/SFMT.cpp PROPERTIES COMPILE_FLAGS "-UHAVE_SSE2") SET_SOURCE_FILES_PROPERTIES(${CMAKE_SOURCE_DIR}/libraries/sfmt/src/SFMT.cpp PROPERTIES COMPILE_FLAGS "-UHAVE_SSE2")
ENDIF() ENDIF()
IF(X86 AND NOT (WIN32 AND OPENMM_BUILD_STATIC_LIB)) IF((X86 OR ARM) AND NOT (WIN32 AND OPENMM_BUILD_STATIC_LIB))
FILE(GLOB src_files ${CMAKE_CURRENT_SOURCE_DIR}/libraries/asmjit/*/*.cpp) FILE(GLOB src_files ${CMAKE_CURRENT_SOURCE_DIR}/libraries/asmjit/asmjit/*/*.cpp)
FILE(GLOB incl_files ${CMAKE_CURRENT_SOURCE_DIR}/libraries/asmjit/*.h) FILE(GLOB incl_files ${CMAKE_CURRENT_SOURCE_DIR}/libraries/asmjit/*.h)
SET(SOURCE_FILES ${SOURCE_FILES} ${src_files}) SET(SOURCE_FILES ${SOURCE_FILES} ${src_files})
SET(SOURCE_INCLUDE_FILES ${SOURCE_INCLUDE_FILES} ${incl_files}) SET(SOURCE_INCLUDE_FILES ${SOURCE_INCLUDE_FILES} ${incl_files})
......
libraries/asmjit/arm.h deleted 100755 → 0
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// [AsmJit]
// Complete x86/x64 JIT and Remote Assembler for C++.
//
// [License]
// Zlib - See LICENSE.md file in the package.
// [Guard]
#ifndef _ASMJIT_ARM_H
#define _ASMJIT_ARM_H
// [Dependencies]
#include "./base.h"
#include "./arm/armassembler.h"
#include "./arm/armbuilder.h"
#include "./arm/armcompiler.h"
#include "./arm/arminst.h"
#include "./arm/armoperand.h"
// [Guard]
#endif // _ASMJIT_ARM_H
libraries/asmjit/asmjit.h deleted 100755 → 0
View file @ 0644f054
// [AsmJit]
// Complete x86/x64 JIT and Remote Assembler for C++.
//
// [License]
// Zlib - See LICENSE.md file in the package.
// [Guard]
#ifndef _ASMJIT_ASMJIT_H
#define _ASMJIT_ASMJIT_H
// ============================================================================
// [asmjit_mainpage]
// ============================================================================
//! \mainpage
//!
//! AsmJit - Complete x86/x64 JIT and Remote Assembler for C++.
//!
//! Introduction provided by the project page at https://github.com/asmjit/asmjit.
//! \defgroup asmjit_base AsmJit Base API (architecture independent)
//!
//! \brief Backend Neutral API.
//! \defgroup asmjit_x86 AsmJit X86/X64 API
//!
//! \brief X86/X64 Backend API.
//! \defgroup asmjit_arm AsmJit ARM32/ARM64 API
//!
//! \brief ARM32/ARM64 Backend API.
// [Dependencies]
#include "./base.h"
// [X86/X64]
#if defined(ASMJIT_BUILD_X86)
#include "./x86.h"
#endif // ASMJIT_BUILD_X86
// [ARM32/ARM64]
#if defined(ASMJIT_BUILD_ARM)
#include "./arm.h"
#endif // ASMJIT_BUILD_ARM
// [Guard]
#endif // _ASMJIT_ASMJIT_H
libraries/asmjit/LICENSE.md libraries/asmjit/asmjit/LICENSE.md 100755 → 100644
View file @ cc7018ea
Copyright (c) 2008-2017, Petr Kobalicek Copyright (c) 2008-2020 The AsmJit Authors
This software is provided 'as-is', without any express or implied This software is provided 'as-is', without any express or implied
warranty. In no event will the authors be held liable for any damages warranty. In no event will the authors be held liable for any damages
......
libraries/asmjit/asmjit/a64.h 0 → 100644
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// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#ifndef ASMJIT_A64_H_INCLUDED
#define ASMJIT_A64_H_INCLUDED
//! \addtogroup asmjit_a64
//!
//! ### Emitters
//!
//! - \ref a64::Assembler - AArch64 assembler (must read, provides examples).
//! - \ref a64::Builder - AArch64 builder.
//! - \ref a64::Compiler - AArch64 compiler.
//! - \ref a64::Emitter - AArch64 emitter (abstract).
//!
//! ### Supported Instructions
//!
//! - Emitters:
//! - \ref a64::EmitterExplicitT - Provides all instructions that use explicit
//! operands, provides also utility functions. The member functions provided
//! are part of all ARM/AArch64 emitters.
//!
//! - Instruction representation:
//! - \ref a64::Inst::Id - instruction identifiers.
//!
//! ### Register Operands
//!
//! - \ref arm::Reg - Base class for any AArch32/AArch64 register.
//! - \ref arm::Gp - General purpose register:
//! - \ref arm::GpW - 32-bit register.
//! - \ref arm::GpX - 64-bit register.
//! - \ref arm::Vec - Vector (SIMD) register:
//! - \ref arm::VecB - 8-bit SIMD register (AArch64 only).
//! - \ref arm::VecH - 16-bit SIMD register (AArch64 only).
//! - \ref arm::VecS - 32-bit SIMD register.
//! - \ref arm::VecD - 64-bit SIMD register.
//! - \ref arm::VecV - 128-bit SIMD register.
//!
//! ### Memory Operands
//!
//! - \ref arm::Mem - AArch32/AArch64 memory operand that provides support for all ARM addressing features
//! including base, index, pre/post increment, and ARM-specific shift addressing and index extending.
//!
//! ### Other
//!
//! - \ref arm::Shift - Shift operation and value.
//! - \ref a64::Utils - Utilities that can help during code generation for AArch64.
#include "./arm.h"
#include "./arm/a64assembler.h"
#include "./arm/a64builder.h"
#include "./arm/a64compiler.h"
#include "./arm/a64emitter.h"
#include "./arm/a64globals.h"
#include "./arm/a64instdb.h"
#include "./arm/a64operand.h"
#include "./arm/a64utils.h"
#endif // ASMJIT_A64_H_INCLUDED
libraries/asmjit/asmjit/arm.h 0 → 100644
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// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#ifndef ASMJIT_ARM_H_INCLUDED
#define ASMJIT_ARM_H_INCLUDED
//! \addtogroup asmjit_arm
//!
//! ### Namespaces
//!
//! - \ref arm - arm namespace provides common functionality for both AArch32 and AArch64 backends.
//! - \ref a64 - a64 namespace provides support for AArch64 architecture. In addition it includes
//! \ref arm namespace, so you can only use a single namespace when targeting AArch64 architecture.
//!
//! ### Emitters
//!
//! - AArch64
//! - \ref a64::Assembler - AArch64 assembler (must read, provides examples).
//! - \ref a64::Builder - AArch64 builder.
//! - \ref a64::Compiler - AArch64 compiler.
//! - \ref a64::Emitter - AArch64 emitter (abstract).
//!
//! ### Supported Instructions
//!
//! - AArch64:
//! - Emitters:
//! - \ref a64::EmitterExplicitT - Provides all instructions that use explicit operands, provides also
//! utility functions. The member functions provided are part of all AArch64 emitters.
//! - Instruction representation:
//! - \ref a64::Inst::Id - instruction identifiers.
//!
//! ### Register Operands
//!
//! - \ref arm::Reg - Base class for any AArch32/AArch64 register.
//! - \ref arm::Gp - General purpose register:
//! - \ref arm::GpW - 32-bit register.
//! - \ref arm::GpX - 64-bit register.
//! - \ref arm::Vec - Vector (SIMD) register:
//! - \ref arm::VecB - 8-bit SIMD register (AArch64 only).
//! - \ref arm::VecH - 16-bit SIMD register (AArch64 only).
//! - \ref arm::VecS - 32-bit SIMD register.
//! - \ref arm::VecD - 64-bit SIMD register.
//! - \ref arm::VecV - 128-bit SIMD register.
//!
//! ### Memory Operands
//!
//! - \ref arm::Mem - AArch32/AArch64 memory operand that provides support for all ARM addressing features
//! including base, index, pre/post increment, and ARM-specific shift addressing and index extending.
//!
//! ### Other
//!
//! - \ref arm::Shift - Shift operation and value (both AArch32 and AArch64).
//! - \ref arm::DataType - Data type that is part of an instruction in AArch32 mode.
//! - \ref a64::Utils - Utilities that can help during code generation for AArch64.
#include "./core.h"
#include "./arm/armglobals.h"
#include "./arm/armoperand.h"
#endif // ASMJIT_ARM_H_INCLUDED
libraries/asmjit/asmjit/arm/a64archtraits_p.h 0 → 100644
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// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#ifndef ASMJIT_ARM_A64ARCHTRAITS_P_H_INCLUDED
#define ASMJIT_ARM_A64ARCHTRAITS_P_H_INCLUDED
#include "../core/archtraits.h"
#include "../core/misc_p.h"
#include "../core/type.h"
#include "../arm/a64operand.h"
ASMJIT_BEGIN_SUB_NAMESPACE(a64)
//! \cond INTERNAL
//! \addtogroup asmjit_a64
//! \{
static const constexpr ArchTraits a64ArchTraits = {
// SP/FP/LR/PC.
Gp::kIdSp, Gp::kIdFp, Gp::kIdLr, 0xFF,
// Reserved.
{ 0, 0, 0 },
// HW stack alignment (AArch64 requires stack aligned to 64 bytes).
16,
// Min/max stack offset - byte addressing is the worst, VecQ addressing the best.
4095, 65520,
// Instruction hints [Gp, Vec, ExtraVirt2, ExtraVirt3].
{{
InstHints::kPushPop,
InstHints::kPushPop,
InstHints::kNoHints,
InstHints::kNoHints
}},
// RegInfo.
#define V(index) OperandSignature{arm::RegTraits<RegType(index)>::kSignature}
{{ ASMJIT_LOOKUP_TABLE_32(V, 0) }},
#undef V
// RegTypeToTypeId.
#define V(index) TypeId(arm::RegTraits<RegType(index)>::kTypeId)
{{ ASMJIT_LOOKUP_TABLE_32(V, 0) }},
#undef V
// TypeIdToRegType.
#define V(index) (index + uint32_t(TypeId::_kBaseStart) == uint32_t(TypeId::kInt8) ? RegType::kARM_GpW : \
index + uint32_t(TypeId::_kBaseStart) == uint32_t(TypeId::kUInt8) ? RegType::kARM_GpW : \
index + uint32_t(TypeId::_kBaseStart) == uint32_t(TypeId::kInt16) ? RegType::kARM_GpW : \
index + uint32_t(TypeId::_kBaseStart) == uint32_t(TypeId::kUInt16) ? RegType::kARM_GpW : \
index + uint32_t(TypeId::_kBaseStart) == uint32_t(TypeId::kInt32) ? RegType::kARM_GpW : \
index + uint32_t(TypeId::_kBaseStart) == uint32_t(TypeId::kUInt32) ? RegType::kARM_GpW : \
index + uint32_t(TypeId::_kBaseStart) == uint32_t(TypeId::kInt64) ? RegType::kARM_GpX : \
index + uint32_t(TypeId::_kBaseStart) == uint32_t(TypeId::kUInt64) ? RegType::kARM_GpX : \
index + uint32_t(TypeId::_kBaseStart) == uint32_t(TypeId::kIntPtr) ? RegType::kARM_GpX : \
index + uint32_t(TypeId::_kBaseStart) == uint32_t(TypeId::kUIntPtr) ? RegType::kARM_GpX : \
index + uint32_t(TypeId::_kBaseStart) == uint32_t(TypeId::kFloat32) ? RegType::kARM_VecS : \
index + uint32_t(TypeId::_kBaseStart) == uint32_t(TypeId::kFloat64) ? RegType::kARM_VecD : RegType::kNone)
{{ ASMJIT_LOOKUP_TABLE_32(V, 0) }},
#undef V
// Word names of 8-bit, 16-bit, 32-bit, and 64-bit quantities.
{
ArchTypeNameId::kByte,
ArchTypeNameId::kHWord,
ArchTypeNameId::kWord,
ArchTypeNameId::kXWord
}
};
//! \}
//! \endcond
ASMJIT_END_SUB_NAMESPACE
#endif // ASMJIT_ARM_A64ARCHTRAITS_P_H_INCLUDED
libraries/asmjit/asmjit/arm/a64assembler.cpp 0 → 100644
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libraries/asmjit/asmjit/arm/a64assembler.h 0 → 100644
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// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#ifndef ASMJIT_ARM_A64ASSEMBLER_H_INCLUDED
#define ASMJIT_ARM_A64ASSEMBLER_H_INCLUDED
#include "../core/assembler.h"
#include "../arm/a64emitter.h"
#include "../arm/a64operand.h"
ASMJIT_BEGIN_SUB_NAMESPACE(a64)
//! \addtogroup asmjit_a64
//! \{
//! AArch64 assembler implementation.
class ASMJIT_VIRTAPI Assembler
: public BaseAssembler,
public EmitterExplicitT<Assembler> {
public:
typedef BaseAssembler Base;
//! \name Construction / Destruction
//! \{
ASMJIT_API Assembler(CodeHolder* code = nullptr) noexcept;
ASMJIT_API virtual ~Assembler() noexcept;
//! \}
//! \name Accessors
//! \{
//! Gets whether the current ARM mode is THUMB (alternative to 32-bit ARM encoding).
inline bool isInThumbMode() const noexcept { return _environment.isArchThumb(); }
//! Gets the current code alignment of the current mode (ARM vs THUMB).
inline uint32_t codeAlignment() const noexcept { return isInThumbMode() ? 2 : 4; }
//! \}
//! \name Emit
//! \{
ASMJIT_API Error _emit(InstId instId, const Operand_& o0, const Operand_& o1, const Operand_& o2, const Operand_* opExt) override;
//! \}
//! \name Align
//! \{
ASMJIT_API Error align(AlignMode alignMode, uint32_t alignment) override;
//! \}
//! \name Events
//! \{
ASMJIT_API Error onAttach(CodeHolder* code) noexcept override;
ASMJIT_API Error onDetach(CodeHolder* code) noexcept override;
//! \}
};
//! \}
ASMJIT_END_SUB_NAMESPACE
#endif // ASMJIT_ARM_A64ASSEMBLER_H_INCLUDED
libraries/asmjit/asmjit/arm/a64builder.cpp 0 → 100644
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// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#include "../core/api-build_p.h"
#if !defined(ASMJIT_NO_AARCH64) && !defined(ASMJIT_NO_BUILDER)
#include "../arm/a64assembler.h"
#include "../arm/a64builder.h"
#include "../arm/a64emithelper_p.h"
ASMJIT_BEGIN_SUB_NAMESPACE(a64)
// a64::Builder - Construction & Destruction
// =========================================
Builder::Builder(CodeHolder* code) noexcept : BaseBuilder() {
_archMask = uint64_t(1) << uint32_t(Arch::kAArch64);
assignEmitterFuncs(this);
if (code)
code->attach(this);
}
Builder::~Builder() noexcept {}
// a64::Builder - Events
// =====================
Error Builder::onAttach(CodeHolder* code) noexcept {
return Base::onAttach(code);
}
Error Builder::onDetach(CodeHolder* code) noexcept {
return Base::onDetach(code);
}
// a64::Builder - Finalize
// =======================
Error Builder::finalize() {
ASMJIT_PROPAGATE(runPasses());
Assembler a(_code);
a.addEncodingOptions(encodingOptions());
a.addDiagnosticOptions(diagnosticOptions());
return serializeTo(&a);
}
ASMJIT_END_SUB_NAMESPACE
#endif // !ASMJIT_NO_AARCH64 && !ASMJIT_NO_BUILDER
libraries/asmjit/asmjit/arm/a64builder.h 0 → 100644
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// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#ifndef ASMJIT_ARM_A64BUILDER_H_INCLUDED
#define ASMJIT_ARM_A64BUILDER_H_INCLUDED
#include "../core/api-config.h"
#ifndef ASMJIT_NO_BUILDER
#include "../core/builder.h"
#include "../arm/a64emitter.h"
ASMJIT_BEGIN_SUB_NAMESPACE(a64)
//! \addtogroup asmjit_a64
//! \{
//! AArch64 builder implementation.
class ASMJIT_VIRTAPI Builder
: public BaseBuilder,
public EmitterExplicitT<Builder> {
public:
ASMJIT_NONCOPYABLE(Builder)
typedef BaseBuilder Base;
//! \name Construction & Destruction
//! \{
ASMJIT_API explicit Builder(CodeHolder* code = nullptr) noexcept;
ASMJIT_API virtual ~Builder() noexcept;
//! \}
//! \name Events
//! \{
ASMJIT_API Error onAttach(CodeHolder* code) noexcept override;
ASMJIT_API Error onDetach(CodeHolder* code) noexcept override;
//! \}
//! \name Finalize
//! \{
ASMJIT_API Error finalize() override;
//! \}
};
//! \}
ASMJIT_END_SUB_NAMESPACE
#endif // !ASMJIT_NO_BUILDER
#endif // ASMJIT_ARM_A64BUILDER_H_INCLUDED
libraries/asmjit/asmjit/arm/a64compiler.cpp 0 → 100644
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// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#include "../core/api-build_p.h"
#if !defined(ASMJIT_NO_AARCH64) && !defined(ASMJIT_NO_COMPILER)
#include "../arm/a64assembler.h"
#include "../arm/a64compiler.h"
#include "../arm/a64emithelper_p.h"
#include "../arm/a64rapass_p.h"
ASMJIT_BEGIN_SUB_NAMESPACE(a64)
// a64::Compiler - Construction & Destruction
// ==========================================
Compiler::Compiler(CodeHolder* code) noexcept : BaseCompiler() {
_archMask = uint64_t(1) << uint32_t(Arch::kAArch64);
assignEmitterFuncs(this);
if (code)
code->attach(this);
}
Compiler::~Compiler() noexcept {}
// a64::Compiler - Events
// ======================
Error Compiler::onAttach(CodeHolder* code) noexcept {
ASMJIT_PROPAGATE(Base::onAttach(code));
Error err = addPassT<ARMRAPass>();
if (ASMJIT_UNLIKELY(err)) {
onDetach(code);
return err;
}
return kErrorOk;
}
Error Compiler::onDetach(CodeHolder* code) noexcept {
return Base::onDetach(code);
}
// a64::Compiler - Finalize
// ========================
Error Compiler::finalize() {
ASMJIT_PROPAGATE(runPasses());
Assembler a(_code);
a.addEncodingOptions(encodingOptions());
a.addDiagnosticOptions(diagnosticOptions());
return serializeTo(&a);
}
ASMJIT_END_SUB_NAMESPACE
#endif // !ASMJIT_NO_AARCH64 && !ASMJIT_NO_COMPILER
libraries/asmjit/asmjit/arm/a64compiler.h 0 → 100644
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// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#ifndef ASMJIT_ARM_ARMCOMPILER_H_INCLUDED
#define ASMJIT_ARM_ARMCOMPILER_H_INCLUDED
#include "../core/api-config.h"
#ifndef ASMJIT_NO_COMPILER
#include "../core/compiler.h"
#include "../core/type.h"
#include "../arm/a64emitter.h"
ASMJIT_BEGIN_SUB_NAMESPACE(a64)
//! \addtogroup asmjit_a64
//! \{
//! AArch64 compiler implementation.
class ASMJIT_VIRTAPI Compiler
: public BaseCompiler,
public EmitterExplicitT<Compiler> {
public:
ASMJIT_NONCOPYABLE(Compiler)
typedef BaseCompiler Base;
//! \name Construction & Destruction
//! \{
ASMJIT_API explicit Compiler(CodeHolder* code = nullptr) noexcept;
ASMJIT_API virtual ~Compiler() noexcept;
//! \}
//! \name Virtual Registers
//! \{
//! \cond INTERNAL
template<typename RegT, typename Type>
inline RegT _newRegInternal(const Type& type) {
RegT reg(Globals::NoInit);
_newReg(&reg, type, nullptr);
return reg;
}
template<typename RegT, typename Type, typename... Args>
inline RegT _newRegInternal(const Type& type, const char* s, Args&&... args) {
#ifndef ASMJIT_NO_LOGGING
RegT reg(Globals::NoInit);
if (sizeof...(Args) == 0)
_newReg(&reg, type, s);
else
_newRegFmt(&reg, type, s, std::forward<Args>(args)...);
return reg;
#else
DebugUtils::unused(std::forward<Args>(args)...);
RegT reg(Globals::NoInit);
_newReg(&reg, type, nullptr);
return reg;
#endif
}
//! \endcond
template<typename RegT, typename... Args>
inline RegT newSimilarReg(const RegT& ref, Args&&... args) {
return _newRegInternal<RegT>(ref, std::forward<Args>(args)...);
}
template<typename... Args>
inline Reg newReg(TypeId typeId, Args&&... args) { return _newRegInternal<Reg>(typeId, std::forward<Args>(args)...); }
template<typename... Args>
inline Gp newGp(TypeId typeId, Args&&... args) { return _newRegInternal<Gp>(typeId, std::forward<Args>(args)...); }
template<typename... Args>
inline Vec newVec(TypeId typeId, Args&&... args) { return _newRegInternal<Vec>(typeId, std::forward<Args>(args)...); }
template<typename... Args>
inline Gp newInt32(Args&&... args) { return _newRegInternal<Gp>(TypeId::kInt32, std::forward<Args>(args)...); }
template<typename... Args>
inline Gp newUInt32(Args&&... args) { return _newRegInternal<Gp>(TypeId::kUInt32, std::forward<Args>(args)...); }
template<typename... Args>
inline Gp newInt64(Args&&... args) { return _newRegInternal<Gp>(TypeId::kInt64, std::forward<Args>(args)...); }
template<typename... Args>
inline Gp newUInt64(Args&&... args) { return _newRegInternal<Gp>(TypeId::kUInt64, std::forward<Args>(args)...); }
template<typename... Args>
inline Gp newIntPtr(Args&&... args) { return _newRegInternal<Gp>(TypeId::kIntPtr, std::forward<Args>(args)...); }
template<typename... Args>
inline Gp newUIntPtr(Args&&... args) { return _newRegInternal<Gp>(TypeId::kUIntPtr, std::forward<Args>(args)...); }
template<typename... Args>
inline Gp newGpw(Args&&... args) { return _newRegInternal<Gp>(TypeId::kUInt32, std::forward<Args>(args)...); }
template<typename... Args>
inline Gp newGpx(Args&&... args) { return _newRegInternal<Gp>(TypeId::kUInt64, std::forward<Args>(args)...); }
template<typename... Args>
inline Gp newGpz(Args&&... args) { return _newRegInternal<Gp>(TypeId::kUIntPtr, std::forward<Args>(args)...); }
template<typename... Args>
inline Vec newVecS(Args&&... args) { return _newRegInternal<Vec>(TypeId::kFloat32, std::forward<Args>(args)...); }
template<typename... Args>
inline Vec newVecD(Args&&... args) { return _newRegInternal<Vec>(TypeId::kFloat64, std::forward<Args>(args)...); }
template<typename... Args>
inline Vec newVecQ(Args&&... args) { return _newRegInternal<Vec>(TypeId::kUInt8x16, std::forward<Args>(args)...); }
//! \}
//! \name Stack
//! \{
//! Creates a new memory chunk allocated on the current function's stack.
inline Mem newStack(uint32_t size, uint32_t alignment, const char* name = nullptr) {
Mem m(Globals::NoInit);
_newStack(&m, size, alignment, name);
return m;
}
//! \}
//! \name Constants
//! \{
//! Put data to a constant-pool and get a memory reference to it.
inline Mem newConst(ConstPoolScope scope, const void* data, size_t size) {
Mem m(Globals::NoInit);
_newConst(&m, scope, data, size);
return m;
}
//! Put a BYTE `val` to a constant-pool (8 bits).
inline Mem newByteConst(ConstPoolScope scope, uint8_t val) noexcept { return newConst(scope, &val, 1); }
//! Put a HWORD `val` to a constant-pool (16 bits).
inline Mem newHWordConst(ConstPoolScope scope, uint16_t val) noexcept { return newConst(scope, &val, 2); }
//! Put a WORD `val` to a constant-pool (32 bits).
inline Mem newWordConst(ConstPoolScope scope, uint32_t val) noexcept { return newConst(scope, &val, 4); }
//! Put a DWORD `val` to a constant-pool (64 bits).
inline Mem newDWordConst(ConstPoolScope scope, uint64_t val) noexcept { return newConst(scope, &val, 8); }
//! Put a WORD `val` to a constant-pool.
inline Mem newInt16Const(ConstPoolScope scope, int16_t val) noexcept { return newConst(scope, &val, 2); }
//! Put a WORD `val` to a constant-pool.
inline Mem newUInt16Const(ConstPoolScope scope, uint16_t val) noexcept { return newConst(scope, &val, 2); }
//! Put a DWORD `val` to a constant-pool.
inline Mem newInt32Const(ConstPoolScope scope, int32_t val) noexcept { return newConst(scope, &val, 4); }
//! Put a DWORD `val` to a constant-pool.
inline Mem newUInt32Const(ConstPoolScope scope, uint32_t val) noexcept { return newConst(scope, &val, 4); }
//! Put a QWORD `val` to a constant-pool.
inline Mem newInt64Const(ConstPoolScope scope, int64_t val) noexcept { return newConst(scope, &val, 8); }
//! Put a QWORD `val` to a constant-pool.
inline Mem newUInt64Const(ConstPoolScope scope, uint64_t val) noexcept { return newConst(scope, &val, 8); }
//! Put a SP-FP `val` to a constant-pool.
inline Mem newFloatConst(ConstPoolScope scope, float val) noexcept { return newConst(scope, &val, 4); }
//! Put a DP-FP `val` to a constant-pool.
inline Mem newDoubleConst(ConstPoolScope scope, double val) noexcept { return newConst(scope, &val, 8); }
//! \}
//! \name Instruction Options
//! \{
//! Force the compiler to not follow the conditional or unconditional jump.
inline Compiler& unfollow() noexcept { _instOptions |= InstOptions::kUnfollow; return *this; }
//! \}
//! \name Function Call & Ret Intrinsics
//! \{
//! Invoke a function call without `target` type enforcement.
inline Error invoke_(InvokeNode** out, const Operand_& target, const FuncSignature& signature) {
return addInvokeNode(out, Inst::kIdBlr, target, signature);
}
//! Invoke a function call of the given `target` and `signature` and store the added node to `out`.
//!
//! Creates a new \ref InvokeNode, initializes all the necessary members to match the given function `signature`,
//! adds the node to the compiler, and stores its pointer to `out`. The operation is atomic, if anything fails
//! nullptr is stored in `out` and error code is returned.
inline Error invoke(InvokeNode** out, const Gp& target, const FuncSignature& signature) { return invoke_(out, target, signature); }
//! \overload
inline Error invoke(InvokeNode** out, const Mem& target, const FuncSignature& signature) { return invoke_(out, target, signature); }
//! \overload
inline Error invoke(InvokeNode** out, const Label& target, const FuncSignature& signature) { return invoke_(out, target, signature); }
//! \overload
inline Error invoke(InvokeNode** out, const Imm& target, const FuncSignature& signature) { return invoke_(out, target, signature); }
//! \overload
inline Error invoke(InvokeNode** out, uint64_t target, const FuncSignature& signature) { return invoke_(out, Imm(int64_t(target)), signature); }
//! Return.
inline Error ret() { return addRet(Operand(), Operand()); }
//! \overload
inline Error ret(const BaseReg& o0) { return addRet(o0, Operand()); }
//! \overload
inline Error ret(const BaseReg& o0, const BaseReg& o1) { return addRet(o0, o1); }
//! \}
//! \name Jump Tables Support
//! \{
using EmitterExplicitT<Compiler>::br;
//! Adds a jump to the given `target` with the provided jump `annotation`.
inline Error br(const BaseReg& target, JumpAnnotation* annotation) { return emitAnnotatedJump(Inst::kIdBr, target, annotation); }
//! \}
//! \name Events
//! \{
ASMJIT_API Error onAttach(CodeHolder* code) noexcept override;
ASMJIT_API Error onDetach(CodeHolder* code) noexcept override;
//! \}
//! \name Finalize
//! \{
ASMJIT_API Error finalize() override;
//! \}
};
//! \}
ASMJIT_END_SUB_NAMESPACE
#endif // !ASMJIT_NO_COMPILER
#endif // ASMJIT_ARM_ARMCOMPILER_H_INCLUDED
libraries/asmjit/asmjit/arm/a64emithelper.cpp 0 → 100644
View file @ cc7018ea
// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#include "../core/api-build_p.h"
#if !defined(ASMJIT_NO_AARCH64)
#include "../core/formatter.h"
#include "../core/funcargscontext_p.h"
#include "../core/string.h"
#include "../core/support.h"
#include "../core/type.h"
#include "../arm/a64emithelper_p.h"
#include "../arm/a64formatter_p.h"
#include "../arm/a64instapi_p.h"
#include "../arm/a64operand.h"
ASMJIT_BEGIN_SUB_NAMESPACE(a64)
// a64::EmitHelper - Emit Operations
// =================================
ASMJIT_FAVOR_SIZE Error EmitHelper::emitRegMove(
const Operand_& dst_,
const Operand_& src_, TypeId typeId, const char* comment) {
Emitter* emitter = _emitter->as<Emitter>();
// Invalid or abstract TypeIds are not allowed.
ASMJIT_ASSERT(TypeUtils::isValid(typeId) && !TypeUtils::isAbstract(typeId));
emitter->setInlineComment(comment);
if (dst_.isReg() && src_.isMem()) {
Reg dst(dst_.as<Reg>());
Mem src(src_.as<Mem>());
switch (typeId) {
case TypeId::kInt8:
case TypeId::kUInt8:
return emitter->ldrb(dst.as<Gp>(), src);
case TypeId::kInt16:
case TypeId::kUInt16:
return emitter->ldrh(dst.as<Gp>(), src);
case TypeId::kInt32:
case TypeId::kUInt32:
return emitter->ldr(dst.as<Gp>().w(), src);
case TypeId::kInt64:
case TypeId::kUInt64:
return emitter->ldr(dst.as<Gp>().x(), src);
default: {
if (TypeUtils::isFloat32(typeId) || TypeUtils::isVec32(typeId))
return emitter->ldr(dst.as<Vec>().s(), src);
if (TypeUtils::isFloat64(typeId) || TypeUtils::isVec64(typeId))
return emitter->ldr(dst.as<Vec>().d(), src);
if (TypeUtils::isVec128(typeId))
return emitter->ldr(dst.as<Vec>().q(), src);
break;
}
}
}
if (dst_.isMem() && src_.isReg()) {
Mem dst(dst_.as<Mem>());
Reg src(src_.as<Reg>());
switch (typeId) {
case TypeId::kInt8:
case TypeId::kUInt8:
return emitter->strb(src.as<Gp>(), dst);
case TypeId::kInt16:
case TypeId::kUInt16:
return emitter->strh(src.as<Gp>(), dst);
case TypeId::kInt32:
case TypeId::kUInt32:
return emitter->str(src.as<Gp>().w(), dst);
case TypeId::kInt64:
case TypeId::kUInt64:
return emitter->str(src.as<Gp>().x(), dst);
default: {
if (TypeUtils::isFloat32(typeId) || TypeUtils::isVec32(typeId))
return emitter->str(src.as<Vec>().s(), dst);
if (TypeUtils::isFloat64(typeId) || TypeUtils::isVec64(typeId))
return emitter->str(src.as<Vec>().d(), dst);
if (TypeUtils::isVec128(typeId))
return emitter->str(src.as<Vec>().q(), dst);
break;
}
}
}
if (dst_.isReg() && src_.isReg()) {
Reg dst(dst_.as<Reg>());
Reg src(src_.as<Reg>());
switch (typeId) {
case TypeId::kInt8:
case TypeId::kUInt8:
case TypeId::kInt16:
case TypeId::kUInt16:
case TypeId::kInt32:
case TypeId::kUInt32:
case TypeId::kInt64:
case TypeId::kUInt64:
return emitter->mov(src.as<Gp>().x(), dst.as<Gp>().x());
default: {
if (TypeUtils::isFloat32(typeId) || TypeUtils::isVec32(typeId))
return emitter->fmov(dst.as<Vec>().s(), src.as<Vec>().s());
if (TypeUtils::isFloat64(typeId) || TypeUtils::isVec64(typeId))
return emitter->mov(dst.as<Vec>().b8(), src.as<Vec>().b8());
if (TypeUtils::isVec128(typeId))
return emitter->mov(dst.as<Vec>().b16(), src.as<Vec>().b16());
break;
}
}
}
emitter->setInlineComment(nullptr);
return DebugUtils::errored(kErrorInvalidState);
}
Error EmitHelper::emitRegSwap(
const BaseReg& a,
const BaseReg& b, const char* comment) {
DebugUtils::unused(a, b, comment);
return DebugUtils::errored(kErrorInvalidState);
}
// TODO: [ARM] EmitArgMove is unfinished.
Error EmitHelper::emitArgMove(
const BaseReg& dst_, TypeId dstTypeId,
const Operand_& src_, TypeId srcTypeId, const char* comment) {
// Deduce optional `dstTypeId`, which may be `TypeId::kVoid` in some cases.
if (dstTypeId == TypeId::kVoid) {
const ArchTraits& archTraits = ArchTraits::byArch(_emitter->arch());
dstTypeId = archTraits.regTypeToTypeId(dst_.type());
}
// Invalid or abstract TypeIds are not allowed.
ASMJIT_ASSERT(TypeUtils::isValid(dstTypeId) && !TypeUtils::isAbstract(dstTypeId));
ASMJIT_ASSERT(TypeUtils::isValid(srcTypeId) && !TypeUtils::isAbstract(srcTypeId));
Reg dst(dst_.as<Reg>());
Operand src(src_);
uint32_t dstSize = TypeUtils::sizeOf(dstTypeId);
uint32_t srcSize = TypeUtils::sizeOf(srcTypeId);
if (TypeUtils::isInt(dstTypeId)) {
if (TypeUtils::isInt(srcTypeId)) {
uint32_t x = dstSize == 8;
dst.setSignature(OperandSignature{x ? uint32_t(GpX::kSignature) : uint32_t(GpW::kSignature)});
_emitter->setInlineComment(comment);
if (src.isReg()) {
src.setSignature(dst.signature());
return _emitter->emit(Inst::kIdMov, dst, src);
}
else if (src.isMem()) {
InstId instId = Inst::kIdNone;
switch (srcTypeId) {
case TypeId::kInt8: instId = Inst::kIdLdrsb; break;
case TypeId::kUInt8: instId = Inst::kIdLdrb; break;
case TypeId::kInt16: instId = Inst::kIdLdrsh; break;
case TypeId::kUInt16: instId = Inst::kIdLdrh; break;
case TypeId::kInt32: instId = x ? Inst::kIdLdrsw : Inst::kIdLdr; break;
case TypeId::kUInt32: instId = Inst::kIdLdr; x = 0; break;
case TypeId::kInt64: instId = Inst::kIdLdr; break;
case TypeId::kUInt64: instId = Inst::kIdLdr; break;
default:
return DebugUtils::errored(kErrorInvalidState);
}
return _emitter->emit(instId, dst, src);
}
}
}
if (TypeUtils::isFloat(dstTypeId) || TypeUtils::isVec(dstTypeId)) {
if (TypeUtils::isFloat(srcTypeId) || TypeUtils::isVec(srcTypeId)) {
switch (srcSize) {
case 2: dst.as<Vec>().setSignature(OperandSignature{VecH::kSignature}); break;
case 4: dst.as<Vec>().setSignature(OperandSignature{VecS::kSignature}); break;
case 8: dst.as<Vec>().setSignature(OperandSignature{VecD::kSignature}); break;
case 16: dst.as<Vec>().setSignature(OperandSignature{VecV::kSignature}); break;
default:
return DebugUtils::errored(kErrorInvalidState);
}
_emitter->setInlineComment(comment);
if (src.isReg()) {
InstId instId = srcSize <= 4 ? Inst::kIdFmov_v : Inst::kIdMov_v;
src.setSignature(dst.signature());
return _emitter->emit(instId, dst, src);
}
else if (src.isMem()) {
return _emitter->emit(Inst::kIdLdr_v, dst, src);
}
}
}
return DebugUtils::errored(kErrorInvalidState);
}
// a64::EmitHelper - Emit Prolog & Epilog
// ======================================
struct LoadStoreInstructions {
InstId singleInstId;
InstId pairInstId;
};
struct PrologEpilogInfo {
struct RegPair {
uint8_t ids[2];
uint16_t offset;
};
struct GroupData {
RegPair pairs[16];
uint32_t pairCount;
};
Support::Array<GroupData, 2> groups;
uint32_t sizeTotal;
Error init(const FuncFrame& frame) noexcept {
uint32_t offset = 0;
for (RegGroup group : Support::EnumValues<RegGroup, RegGroup::kGp, RegGroup::kVec>{}) {
GroupData& data = groups[group];
uint32_t n = 0;
uint32_t pairCount = 0;
RegPair* pairs = data.pairs;
uint32_t slotSize = frame.saveRestoreRegSize(group);
uint32_t savedRegs = frame.savedRegs(group);
if (group == RegGroup::kGp && frame.hasPreservedFP()) {
// Must be at the beginning of the push/pop sequence.
ASMJIT_ASSERT(pairCount == 0);
pairs[0].offset = uint16_t(offset);
pairs[0].ids[0] = Gp::kIdFp;
pairs[0].ids[1] = Gp::kIdLr;
offset += slotSize * 2;
pairCount++;
savedRegs &= ~Support::bitMask(Gp::kIdFp, Gp::kIdLr);
}
Support::BitWordIterator<uint32_t> it(savedRegs);
while (it.hasNext()) {
pairs[pairCount].ids[n] = uint8_t(it.next());
if (++n == 2) {
pairs[pairCount].offset = uint16_t(offset);
offset += slotSize * 2;
n = 0;
pairCount++;
}
}
if (n == 1) {
pairs[pairCount].ids[1] = uint8_t(BaseReg::kIdBad);
pairs[pairCount].offset = uint16_t(offset);
offset += slotSize * 2;
pairCount++;
}
data.pairCount = pairCount;
}
sizeTotal = offset;
return kErrorOk;
}
};
ASMJIT_FAVOR_SIZE Error EmitHelper::emitProlog(const FuncFrame& frame) {
Emitter* emitter = _emitter->as<Emitter>();
PrologEpilogInfo pei;
ASMJIT_PROPAGATE(pei.init(frame));
static const Support::Array<Reg, 2> groupRegs = {{ x0, d0 }};
static const Support::Array<LoadStoreInstructions, 2> groupInsts = {{
{ Inst::kIdStr , Inst::kIdStp },
{ Inst::kIdStr_v, Inst::kIdStp_v }
}};
uint32_t adjustInitialOffset = pei.sizeTotal;
for (RegGroup group : Support::EnumValues<RegGroup, RegGroup::kGp, RegGroup::kVec>{}) {
const PrologEpilogInfo::GroupData& data = pei.groups[group];
uint32_t pairCount = data.pairCount;
Reg regs[2] = { groupRegs[group], groupRegs[group] };
Mem mem = ptr(sp);
const LoadStoreInstructions& insts = groupInsts[group];
for (uint32_t i = 0; i < pairCount; i++) {
const PrologEpilogInfo::RegPair& pair = data.pairs[i];
regs[0].setId(pair.ids[0]);
regs[1].setId(pair.ids[1]);
mem.setOffsetLo32(pair.offset);
if (pair.offset == 0 && adjustInitialOffset) {
mem.setOffset(-int(adjustInitialOffset));
mem.makePreIndex();
}
if (pair.ids[1] == BaseReg::kIdBad)
ASMJIT_PROPAGATE(emitter->emit(insts.singleInstId, regs[0], mem));
else
ASMJIT_PROPAGATE(emitter->emit(insts.pairInstId, regs[0], regs[1], mem));
mem.resetToFixedOffset();
if (i == 0 && frame.hasPreservedFP()) {
ASMJIT_PROPAGATE(emitter->mov(x29, sp));
}
}
}
if (frame.hasStackAdjustment()) {
uint32_t adj = frame.stackAdjustment();
if (adj <= 0xFFFu) {
ASMJIT_PROPAGATE(emitter->sub(sp, sp, adj));
}
else if (adj <= 0xFFFFFFu) {
// TODO: [ARM] Prolog - we must touch the pages otherwise it's undefined.
ASMJIT_PROPAGATE(emitter->sub(sp, sp, adj & 0x000FFFu));
ASMJIT_PROPAGATE(emitter->sub(sp, sp, adj & 0xFFF000u));
}
else {
return DebugUtils::errored(kErrorInvalidState);
}
}
return kErrorOk;
}
// TODO: [ARM] Emit epilog.
ASMJIT_FAVOR_SIZE Error EmitHelper::emitEpilog(const FuncFrame& frame) {
Emitter* emitter = _emitter->as<Emitter>();
PrologEpilogInfo pei;
ASMJIT_PROPAGATE(pei.init(frame));
static const Support::Array<Reg, 2> groupRegs = {{ x0, d0 }};
static const Support::Array<LoadStoreInstructions, 2> groupInsts = {{
{ Inst::kIdLdr , Inst::kIdLdp },
{ Inst::kIdLdr_v, Inst::kIdLdp_v }
}};
uint32_t adjustInitialOffset = pei.sizeTotal;
if (frame.hasStackAdjustment()) {
uint32_t adj = frame.stackAdjustment();
if (adj <= 0xFFFu) {
ASMJIT_PROPAGATE(emitter->add(sp, sp, adj));
}
else if (adj <= 0xFFFFFFu) {
ASMJIT_PROPAGATE(emitter->add(sp, sp, adj & 0x000FFFu));
ASMJIT_PROPAGATE(emitter->add(sp, sp, adj & 0xFFF000u));
}
else {
return DebugUtils::errored(kErrorInvalidState);
}
}
for (int g = 1; g >= 0; g--) {
RegGroup group = RegGroup(g);
const PrologEpilogInfo::GroupData& data = pei.groups[group];
uint32_t pairCount = data.pairCount;
Reg regs[2] = { groupRegs[group], groupRegs[group] };
Mem mem = ptr(sp);
const LoadStoreInstructions& insts = groupInsts[group];
for (int i = int(pairCount) - 1; i >= 0; i--) {
const PrologEpilogInfo::RegPair& pair = data.pairs[i];
regs[0].setId(pair.ids[0]);
regs[1].setId(pair.ids[1]);
mem.setOffsetLo32(pair.offset);
if (pair.offset == 0 && adjustInitialOffset) {
mem.setOffset(int(adjustInitialOffset));
mem.makePostIndex();
}
if (pair.ids[1] == BaseReg::kIdBad)
ASMJIT_PROPAGATE(emitter->emit(insts.singleInstId, regs[0], mem));
else
ASMJIT_PROPAGATE(emitter->emit(insts.pairInstId, regs[0], regs[1], mem));
mem.resetToFixedOffset();
}
}
ASMJIT_PROPAGATE(emitter->ret(x30));
return kErrorOk;
}
static Error ASMJIT_CDECL Emitter_emitProlog(BaseEmitter* emitter, const FuncFrame& frame) {
EmitHelper emitHelper(emitter);
return emitHelper.emitProlog(frame);
}
static Error ASMJIT_CDECL Emitter_emitEpilog(BaseEmitter* emitter, const FuncFrame& frame) {
EmitHelper emitHelper(emitter);
return emitHelper.emitEpilog(frame);
}
static Error ASMJIT_CDECL Emitter_emitArgsAssignment(BaseEmitter* emitter, const FuncFrame& frame, const FuncArgsAssignment& args) {
EmitHelper emitHelper(emitter);
return emitHelper.emitArgsAssignment(frame, args);
}
void assignEmitterFuncs(BaseEmitter* emitter) {
emitter->_funcs.emitProlog = Emitter_emitProlog;
emitter->_funcs.emitEpilog = Emitter_emitEpilog;
emitter->_funcs.emitArgsAssignment = Emitter_emitArgsAssignment;
#ifndef ASMJIT_NO_LOGGING
emitter->_funcs.formatInstruction = FormatterInternal::formatInstruction;
#endif
#ifndef ASMJIT_NO_VALIDATION
emitter->_funcs.validate = InstInternal::validate;
#endif
}
ASMJIT_END_SUB_NAMESPACE
#endif // !ASMJIT_NO_AARCH64
libraries/asmjit/asmjit/arm/a64emithelper_p.h 0 → 100644
View file @ cc7018ea
// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#ifndef ASMJIT_ARM_ARMEMITHELPER_P_H_INCLUDED
#define ASMJIT_ARM_ARMEMITHELPER_P_H_INCLUDED
#include "../core/api-config.h"
#include "../core/emithelper_p.h"
#include "../core/func.h"
#include "../arm/a64emitter.h"
#include "../arm/a64operand.h"
ASMJIT_BEGIN_SUB_NAMESPACE(a64)
//! \cond INTERNAL
//! \addtogroup asmjit_a64
//! \{
class EmitHelper : public BaseEmitHelper {
public:
inline explicit EmitHelper(BaseEmitter* emitter = nullptr) noexcept
: BaseEmitHelper(emitter) {}
Error emitRegMove(
const Operand_& dst_,
const Operand_& src_, TypeId typeId, const char* comment = nullptr) override;
Error emitRegSwap(
const BaseReg& a,
const BaseReg& b, const char* comment = nullptr) override;
Error emitArgMove(
const BaseReg& dst_, TypeId dstTypeId,
const Operand_& src_, TypeId srcTypeId, const char* comment = nullptr) override;
Error emitProlog(const FuncFrame& frame);
Error emitEpilog(const FuncFrame& frame);
};
void assignEmitterFuncs(BaseEmitter* emitter);
//! \}
//! \endcond
ASMJIT_END_SUB_NAMESPACE
#endif // ASMJIT_ARM_ARMEMITHELPER_P_H_INCLUDED
libraries/asmjit/asmjit/arm/a64emitter.h 0 → 100644
View file @ cc7018ea
This diff is collapsed.
libraries/asmjit/asmjit/arm/a64formatter.cpp 0 → 100644
View file @ cc7018ea
// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#include "../core/api-build_p.h"
#ifndef ASMJIT_NO_LOGGING
#include "../core/misc_p.h"
#include "../core/support.h"
#include "../arm/a64formatter_p.h"
#include "../arm/a64instapi_p.h"
#include "../arm/a64instdb_p.h"
#include "../arm/a64operand.h"
#ifndef ASMJIT_NO_COMPILER
#include "../core/compiler.h"
#endif
ASMJIT_BEGIN_SUB_NAMESPACE(a64)
// a64::FormatterInternal - Format Register
// ========================================
ASMJIT_FAVOR_SIZE Error FormatterInternal::formatRegister(
String& sb,
FormatFlags flags,
const BaseEmitter* emitter,
Arch arch,
RegType regType,
uint32_t rId,
uint32_t elementType,
uint32_t elementIndex) noexcept {
DebugUtils::unused(flags);
DebugUtils::unused(arch);
static const char bhsdq[] = "bhsdq";
bool virtRegFormatted = false;
#ifndef ASMJIT_NO_COMPILER
if (Operand::isVirtId(rId)) {
if (emitter && emitter->isCompiler()) {
const BaseCompiler* cc = static_cast<const BaseCompiler*>(emitter);
if (cc->isVirtIdValid(rId)) {
VirtReg* vReg = cc->virtRegById(rId);
ASMJIT_ASSERT(vReg != nullptr);
const char* name = vReg->name();
if (name && name[0] != '\0')
ASMJIT_PROPAGATE(sb.append(name));
else
ASMJIT_PROPAGATE(sb.appendFormat("%%%u", unsigned(Operand::virtIdToIndex(rId))));
virtRegFormatted = true;
}
}
}
#else
DebugUtils::unused(emitter, flags);
#endif
if (!virtRegFormatted) {
char letter = '\0';
switch (regType) {
case RegType::kARM_GpW:
if (rId == Gp::kIdZr)
return sb.append("wzr");
if (rId == Gp::kIdSp)
return sb.append("wsp");
letter = 'w';
break;
case RegType::kARM_GpX:
if (rId == Gp::kIdZr)
return sb.append("xzr");
if (rId == Gp::kIdSp)
return sb.append("sp");
letter = 'x';
break;
case RegType::kARM_VecB:
case RegType::kARM_VecH:
case RegType::kARM_VecS:
case RegType::kARM_VecD:
case RegType::kARM_VecV:
letter = bhsdq[uint32_t(regType) - uint32_t(RegType::kARM_VecB)];
if (elementType)
letter = 'v';
break;
default:
ASMJIT_PROPAGATE(sb.appendFormat("<Reg-%u>?$u", uint32_t(regType), rId));
break;
}
if (letter)
ASMJIT_PROPAGATE(sb.appendFormat("%c%u", letter, rId));
}
if (elementType) {
char elementLetter = '\0';
uint32_t elementCount = 0;
switch (elementType) {
case Vec::kElementTypeB:
elementLetter = 'b';
elementCount = 16;
break;
case Vec::kElementTypeH:
elementLetter = 'h';
elementCount = 8;
break;
case Vec::kElementTypeS:
elementLetter = 's';
elementCount = 4;
break;
case Vec::kElementTypeD:
elementLetter = 'd';
elementCount = 2;
break;
default:
return sb.append(".<Unknown>");
}
if (elementLetter) {
if (elementIndex == 0xFFFFFFFFu) {
if (regType == RegType::kARM_VecD)
elementCount /= 2u;
ASMJIT_PROPAGATE(sb.appendFormat(".%u%c", elementCount, elementLetter));
}
else {
ASMJIT_PROPAGATE(sb.appendFormat(".%c[%u]", elementLetter, elementIndex));
}
}
}
return kErrorOk;
}
// a64::FormatterInternal - Format Operand
// =======================================
ASMJIT_FAVOR_SIZE Error FormatterInternal::formatOperand(
String& sb,
FormatFlags flags,
const BaseEmitter* emitter,
Arch arch,
const Operand_& op) noexcept {
if (op.isReg()) {
const BaseReg& reg = op.as<BaseReg>();
uint32_t elementType = op.as<Vec>().elementType();
uint32_t elementIndex = op.as<Vec>().elementIndex();
if (!op.as<Vec>().hasElementIndex())
elementIndex = 0xFFFFFFFFu;
return formatRegister(sb, flags, emitter, arch, reg.type(), reg.id(), elementType, elementIndex);
}
if (op.isMem()) {
const Mem& m = op.as<Mem>();
ASMJIT_PROPAGATE(sb.append('['));
if (m.hasBase()) {
if (m.hasBaseLabel()) {
ASMJIT_PROPAGATE(Formatter::formatLabel(sb, flags, emitter, m.baseId()));
}
else {
FormatFlags modifiedFlags = flags;
if (m.isRegHome()) {
ASMJIT_PROPAGATE(sb.append('&'));
modifiedFlags &= ~FormatFlags::kRegCasts;
}
ASMJIT_PROPAGATE(formatRegister(sb, modifiedFlags, emitter, arch, m.baseType(), m.baseId()));
}
}
else {
// ARM really requires base.
if (m.hasIndex() || m.hasOffset()) {
ASMJIT_PROPAGATE(sb.append("<None>"));
}
}
// The post index makes it look like there was another operand, but it's
// still the part of AsmJit's `arm::Mem` operand so it's consistent with
// other architectures.
if (m.isPostIndex())
ASMJIT_PROPAGATE(sb.append(']'));
if (m.hasIndex()) {
ASMJIT_PROPAGATE(sb.append(", "));
ASMJIT_PROPAGATE(formatRegister(sb, flags, emitter, arch, m.indexType(), m.indexId()));
}
if (m.hasOffset()) {
ASMJIT_PROPAGATE(sb.append(", "));
int64_t off = int64_t(m.offset());
uint32_t base = 10;
if (Support::test(flags, FormatFlags::kHexOffsets) && uint64_t(off) > 9)
base = 16;
if (base == 10) {
ASMJIT_PROPAGATE(sb.appendInt(off, base));
}
else {
ASMJIT_PROPAGATE(sb.append("0x"));
ASMJIT_PROPAGATE(sb.appendUInt(uint64_t(off), base));
}
}
if (m.hasShift()) {
ASMJIT_PROPAGATE(sb.append(' '));
if (!m.isPreOrPost())
ASMJIT_PROPAGATE(formatShiftOp(sb, (ShiftOp)m.predicate()));
ASMJIT_PROPAGATE(sb.appendFormat(" %u", m.shift()));
}
if (!m.isPostIndex())
ASMJIT_PROPAGATE(sb.append(']'));
if (m.isPreIndex())
ASMJIT_PROPAGATE(sb.append('!'));
return kErrorOk;
}
if (op.isImm()) {
const Imm& i = op.as<Imm>();
int64_t val = i.value();
if (Support::test(flags, FormatFlags::kHexImms) && uint64_t(val) > 9) {
ASMJIT_PROPAGATE(sb.append("0x"));
return sb.appendUInt(uint64_t(val), 16);
}
else {
return sb.appendInt(val, 10);
}
}
if (op.isLabel()) {
return Formatter::formatLabel(sb, flags, emitter, op.id());
}
return sb.append("<None>");
}
// a64::FormatterInternal - Format Instruction
// ===========================================
ASMJIT_FAVOR_SIZE Error FormatterInternal::formatInstruction(
String& sb,
FormatFlags flags,
const BaseEmitter* emitter,
Arch arch,
const BaseInst& inst, const Operand_* operands, size_t opCount) noexcept {
DebugUtils::unused(arch);
// Format instruction options and instruction mnemonic.
InstId instId = inst.realId();
if (instId < Inst::_kIdCount)
ASMJIT_PROPAGATE(InstInternal::instIdToString(arch, instId, sb));
else
ASMJIT_PROPAGATE(sb.appendFormat("[InstId=#%u]", unsigned(instId)));
CondCode cc = inst.armCondCode();
if (cc != CondCode::kAL) {
ASMJIT_PROPAGATE(sb.append('.'));
ASMJIT_PROPAGATE(formatCondCode(sb, cc));
}
for (uint32_t i = 0; i < opCount; i++) {
const Operand_& op = operands[i];
if (op.isNone())
break;
ASMJIT_PROPAGATE(sb.append(i == 0 ? " " : ", "));
ASMJIT_PROPAGATE(formatOperand(sb, flags, emitter, arch, op));
}
return kErrorOk;
}
ASMJIT_END_SUB_NAMESPACE
#endif // !ASMJIT_NO_LOGGING
libraries/asmjit/asmjit/arm/a64formatter_p.h 0 → 100644
View file @ cc7018ea
// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#ifndef ASMJIT_ARM_A64FORMATTER_P_H_INCLUDED
#define ASMJIT_ARM_A64FORMATTER_P_H_INCLUDED
#include "../core/api-config.h"
#ifndef ASMJIT_NO_LOGGING
#include "../core/formatter.h"
#include "../core/string.h"
#include "../arm/armformatter_p.h"
#include "../arm/a64globals.h"
ASMJIT_BEGIN_SUB_NAMESPACE(a64)
//! \cond INTERNAL
//! \addtogroup asmjit_a64
//! \{
namespace FormatterInternal {
using namespace arm::FormatterInternal;
Error ASMJIT_CDECL formatRegister(
String& sb,
FormatFlags flags,
const BaseEmitter* emitter,
Arch arch,
RegType regType,
uint32_t regId,
uint32_t elementType = 0,
uint32_t elementIndex = 0xFFFFFFFFu) noexcept;
Error ASMJIT_CDECL formatOperand(
String& sb,
FormatFlags flags,
const BaseEmitter* emitter,
Arch arch,
const Operand_& op) noexcept;
Error ASMJIT_CDECL formatInstruction(
String& sb,
FormatFlags flags,
const BaseEmitter* emitter,
Arch arch,
const BaseInst& inst, const Operand_* operands, size_t opCount) noexcept;
} // {FormatterInternal}
//! \}
//! \endcond
ASMJIT_END_SUB_NAMESPACE
#endif // !ASMJIT_NO_LOGGING
#endif // ASMJIT_ARM_A64FORMATTER_P_H_INCLUDED
libraries/asmjit/asmjit/arm/a64func.cpp 0 → 100644
View file @ cc7018ea
// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#include "../core/api-build_p.h"
#if !defined(ASMJIT_NO_AARCH64)
#include "../arm/a64func_p.h"
#include "../arm/a64operand.h"
ASMJIT_BEGIN_SUB_NAMESPACE(a64)
namespace FuncInternal {
static inline bool shouldThreatAsCDecl(CallConvId ccId) noexcept {
return ccId == CallConvId::kCDecl ||
ccId == CallConvId::kStdCall ||
ccId == CallConvId::kFastCall ||
ccId == CallConvId::kVectorCall ||
ccId == CallConvId::kThisCall ||
ccId == CallConvId::kRegParm1 ||
ccId == CallConvId::kRegParm2 ||
ccId == CallConvId::kRegParm3;
}
static RegType regTypeFromFpOrVecTypeId(TypeId typeId) noexcept {
if (typeId == TypeId::kFloat32)
return RegType::kARM_VecS;
else if (typeId == TypeId::kFloat64)
return RegType::kARM_VecD;
else if (TypeUtils::isVec32(typeId))
return RegType::kARM_VecS;
else if (TypeUtils::isVec64(typeId))
return RegType::kARM_VecD;
else if (TypeUtils::isVec128(typeId))
return RegType::kARM_VecV;
else
return RegType::kNone;
}
ASMJIT_FAVOR_SIZE Error initCallConv(CallConv& cc, CallConvId ccId, const Environment& environment) noexcept {
cc.setArch(environment.arch());
cc.setSaveRestoreRegSize(RegGroup::kGp, 8);
cc.setSaveRestoreRegSize(RegGroup::kVec, 8);
cc.setSaveRestoreAlignment(RegGroup::kGp, 16);
cc.setSaveRestoreAlignment(RegGroup::kVec, 16);
cc.setSaveRestoreAlignment(RegGroup::kExtraVirt2, 1);
cc.setSaveRestoreAlignment(RegGroup::kExtraVirt3, 1);
cc.setPassedOrder(RegGroup::kGp, 0, 1, 2, 3, 4, 5, 6, 7);
cc.setPassedOrder(RegGroup::kVec, 0, 1, 2, 3, 4, 5, 6, 7);
cc.setNaturalStackAlignment(16);
if (shouldThreatAsCDecl(ccId)) {
// ARM doesn't have that many calling conventions as we can find in X86 world, treat most conventions as __cdecl.
cc.setId(CallConvId::kCDecl);
cc.setPreservedRegs(RegGroup::kGp, Support::bitMask(Gp::kIdOs, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30));
cc.setPreservedRegs(RegGroup::kVec, Support::bitMask(8, 9, 10, 11, 12, 13, 14, 15));
}
else {
cc.setId(ccId);
cc.setSaveRestoreRegSize(RegGroup::kVec, 16);
cc.setPreservedRegs(RegGroup::kGp, Support::bitMask(4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30));
cc.setPreservedRegs(RegGroup::kVec, Support::bitMask(4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31));
}
return kErrorOk;
}
ASMJIT_FAVOR_SIZE Error initFuncDetail(FuncDetail& func, const FuncSignature& signature, uint32_t registerSize) noexcept {
DebugUtils::unused(signature);
const CallConv& cc = func.callConv();
uint32_t stackOffset = 0;
uint32_t i;
uint32_t argCount = func.argCount();
if (func.hasRet()) {
for (uint32_t valueIndex = 0; valueIndex < Globals::kMaxValuePack; valueIndex++) {
TypeId typeId = func._rets[valueIndex].typeId();
// Terminate at the first void type (end of the pack).
if (typeId == TypeId::kVoid)
break;
switch (typeId) {
case TypeId::kInt8:
case TypeId::kInt16:
case TypeId::kInt32: {
func._rets[valueIndex].initReg(RegType::kARM_GpW, valueIndex, TypeId::kInt32);
break;
}
case TypeId::kUInt8:
case TypeId::kUInt16:
case TypeId::kUInt32: {
func._rets[valueIndex].initReg(RegType::kARM_GpW, valueIndex, TypeId::kUInt32);
break;
}
case TypeId::kInt64:
case TypeId::kUInt64: {
func._rets[valueIndex].initReg(RegType::kARM_GpX, valueIndex, typeId);
break;
}
default: {
RegType regType = regTypeFromFpOrVecTypeId(typeId);
if (regType == RegType::kNone)
return DebugUtils::errored(kErrorInvalidRegType);
func._rets[valueIndex].initReg(regType, valueIndex, typeId);
break;
}
}
}
}
switch (cc.strategy()) {
case CallConvStrategy::kDefault: {
uint32_t gpzPos = 0;
uint32_t vecPos = 0;
for (i = 0; i < argCount; i++) {
FuncValue& arg = func._args[i][0];
TypeId typeId = arg.typeId();
if (TypeUtils::isInt(typeId)) {
uint32_t regId = BaseReg::kIdBad;
if (gpzPos < CallConv::kMaxRegArgsPerGroup)
regId = cc._passedOrder[RegGroup::kGp].id[gpzPos];
if (regId != BaseReg::kIdBad) {
RegType regType = typeId <= TypeId::kUInt32 ? RegType::kARM_GpW : RegType::kARM_GpX;
arg.assignRegData(regType, regId);
func.addUsedRegs(RegGroup::kGp, Support::bitMask(regId));
gpzPos++;
}
else {
uint32_t size = Support::max<uint32_t>(TypeUtils::sizeOf(typeId), registerSize);
arg.assignStackOffset(int32_t(stackOffset));
stackOffset += size;
}
continue;
}
if (TypeUtils::isFloat(typeId) || TypeUtils::isVec(typeId)) {
uint32_t regId = BaseReg::kIdBad;
if (vecPos < CallConv::kMaxRegArgsPerGroup)
regId = cc._passedOrder[RegGroup::kVec].id[vecPos];
if (regId != BaseReg::kIdBad) {
RegType regType = regTypeFromFpOrVecTypeId(typeId);
if (regType == RegType::kNone)
return DebugUtils::errored(kErrorInvalidRegType);
arg.initTypeId(typeId);
arg.assignRegData(regType, regId);
func.addUsedRegs(RegGroup::kVec, Support::bitMask(regId));
vecPos++;
}
else {
uint32_t size = TypeUtils::sizeOf(typeId);
arg.assignStackOffset(int32_t(stackOffset));
stackOffset += size;
}
continue;
}
}
break;
}
default:
return DebugUtils::errored(kErrorInvalidState);
}
func._argStackSize = stackOffset;
return kErrorOk;
}
} // {FuncInternal}
ASMJIT_END_SUB_NAMESPACE
#endif // !ASMJIT_NO_AARCH64
libraries/asmjit/asmjit/arm/a64func_p.h 0 → 100644
View file @ cc7018ea
// This file is part of AsmJit project <https://asmjit.com>
//
// See asmjit.h or LICENSE.md for license and copyright information
// SPDX-License-Identifier: Zlib
#ifndef ASMJIT_ARM_A64FUNC_P_H_INCLUDED
#define ASMJIT_ARM_A64FUNC_P_H_INCLUDED
#include "../core/func.h"
ASMJIT_BEGIN_SUB_NAMESPACE(a64)
//! \cond INTERNAL
//! \addtogroup asmjit_a64
//! \{
//! AArch64-specific function API (calling conventions and other utilities).
namespace FuncInternal {
//! Initialize `CallConv` structure (AArch64 specific).
Error initCallConv(CallConv& cc, CallConvId ccId, const Environment& environment) noexcept;
//! Initialize `FuncDetail` (AArch64 specific).
Error initFuncDetail(FuncDetail& func, const FuncSignature& signature, uint32_t registerSize) noexcept;
} // {FuncInternal}
//! \}
//! \endcond
ASMJIT_END_SUB_NAMESPACE
#endif // ASMJIT_ARM_A64FUNC_P_H_INCLUDED
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