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764 lines
28 KiB
764 lines
28 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_COMPILER_H_INCLUDED
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#define ASMJIT_CORE_COMPILER_H_INCLUDED
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#include "../core/api-config.h"
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#ifndef ASMJIT_NO_COMPILER
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#include "../core/assembler.h"
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#include "../core/builder.h"
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#include "../core/constpool.h"
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#include "../core/compilerdefs.h"
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#include "../core/func.h"
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#include "../core/inst.h"
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#include "../core/operand.h"
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#include "../core/support.h"
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#include "../core/zone.h"
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#include "../core/zonevector.h"
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ASMJIT_BEGIN_NAMESPACE
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// ============================================================================
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// [Forward Declarations]
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// ============================================================================
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class JumpAnnotation;
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class JumpNode;
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class FuncNode;
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class FuncRetNode;
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class InvokeNode;
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//! \addtogroup asmjit_compiler
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//! \{
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// ============================================================================
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// [asmjit::BaseCompiler]
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// ============================================================================
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//! Code emitter that uses virtual registers and performs register allocation.
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//!
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//! Compiler is a high-level code-generation tool that provides register
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//! allocation and automatic handling of function calling conventions. It was
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//! primarily designed for merging multiple parts of code into a function
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//! without worrying about registers and function calling conventions.
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//!
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//! BaseCompiler can be used, with a minimum effort, to handle 32-bit and
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//! 64-bit code generation within a single code base.
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//!
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//! BaseCompiler is based on BaseBuilder and contains all the features it
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//! provides. It means that the code it stores can be modified (removed, added,
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//! injected) and analyzed. When the code is finalized the compiler can emit
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//! the code into an Assembler to translate the abstract representation into a
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//! machine code.
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//!
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//! Check out architecture specific compilers for more details and examples:
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//!
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//! - \ref x86::Compiler - X86/X64 compiler implementation.
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class ASMJIT_VIRTAPI BaseCompiler : public BaseBuilder {
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public:
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ASMJIT_NONCOPYABLE(BaseCompiler)
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typedef BaseBuilder Base;
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//! Current function.
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FuncNode* _func;
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//! Allocates `VirtReg` objects.
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Zone _vRegZone;
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//! Stores array of `VirtReg` pointers.
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ZoneVector<VirtReg*> _vRegArray;
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//! Stores jump annotations.
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ZoneVector<JumpAnnotation*> _jumpAnnotations;
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//! Local constant pool, flushed at the end of each function.
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ConstPoolNode* _localConstPool;
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//! Global constant pool, flushed by `finalize()`.
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ConstPoolNode* _globalConstPool;
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//! \name Construction & Destruction
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//! \{
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//! Creates a new `BaseCompiler` instance.
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ASMJIT_API BaseCompiler() noexcept;
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//! Destroys the `BaseCompiler` instance.
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ASMJIT_API virtual ~BaseCompiler() noexcept;
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//! \}
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//! \name Function Management
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//! \{
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//! Returns the current function.
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inline FuncNode* func() const noexcept { return _func; }
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//! Creates a new \ref FuncNode.
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ASMJIT_API Error _newFuncNode(FuncNode** out, const FuncSignature& signature);
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//! Creates a new \ref FuncNode adds it to the compiler.
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ASMJIT_API Error _addFuncNode(FuncNode** out, const FuncSignature& signature);
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//! Creates a new \ref FuncRetNode.
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ASMJIT_API Error _newRetNode(FuncRetNode** out, const Operand_& o0, const Operand_& o1);
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//! Creates a new \ref FuncRetNode and adds it to the compiler.
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ASMJIT_API Error _addRetNode(FuncRetNode** out, const Operand_& o0, const Operand_& o1);
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//! Creates a new \ref FuncNode with the given `signature` and returns it.
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inline FuncNode* newFunc(const FuncSignature& signature) {
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FuncNode* node;
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_newFuncNode(&node, signature);
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return node;
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}
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//! Creates a new \ref FuncNode with the given `signature`, adds it to the
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//! compiler by using the \ref addFunc(FuncNode*) overload, and returns it.
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inline FuncNode* addFunc(const FuncSignature& signature) {
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FuncNode* node;
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_addFuncNode(&node, signature);
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return node;
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}
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//! Adds a function `node` to the instruction stream.
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ASMJIT_API FuncNode* addFunc(FuncNode* func);
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//! Emits a sentinel that marks the end of the current function.
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ASMJIT_API Error endFunc();
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ASMJIT_API Error _setArg(size_t argIndex, size_t valueIndex, const BaseReg& reg);
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//! Sets a function argument at `argIndex` to `reg`.
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inline Error setArg(size_t argIndex, const BaseReg& reg) { return _setArg(argIndex, 0, reg); }
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//! Sets a function argument at `argIndex` at `valueIndex` to `reg`.
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inline Error setArg(size_t argIndex, size_t valueIndex, const BaseReg& reg) { return _setArg(argIndex, valueIndex, reg); }
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inline FuncRetNode* newRet(const Operand_& o0, const Operand_& o1) {
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FuncRetNode* node;
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_newRetNode(&node, o0, o1);
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return node;
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}
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inline FuncRetNode* addRet(const Operand_& o0, const Operand_& o1) {
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FuncRetNode* node;
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_addRetNode(&node, o0, o1);
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return node;
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}
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//! \}
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//! \name Function Invocation
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//! \{
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//! Creates a new \ref InvokeNode.
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ASMJIT_API Error _newInvokeNode(InvokeNode** out, uint32_t instId, const Operand_& o0, const FuncSignature& signature);
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//! Creates a new \ref InvokeNode and adds it to Compiler.
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ASMJIT_API Error _addInvokeNode(InvokeNode** out, uint32_t instId, const Operand_& o0, const FuncSignature& signature);
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//! Creates a new `InvokeNode`.
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inline InvokeNode* newCall(uint32_t instId, const Operand_& o0, const FuncSignature& signature) {
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InvokeNode* node;
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_newInvokeNode(&node, instId, o0, signature);
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return node;
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}
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//! Adds a new `InvokeNode`.
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inline InvokeNode* addCall(uint32_t instId, const Operand_& o0, const FuncSignature& signature) {
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InvokeNode* node;
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_addInvokeNode(&node, instId, o0, signature);
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return node;
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}
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//! \}
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//! \name Virtual Registers
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//! \{
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//! Creates a new virtual register representing the given `typeId` and `signature`.
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//!
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//! \note This function is public, but it's not generally recommended to be used
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//! by AsmJit users, use architecture-specific `newReg()` functionality instead
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//! or functions like \ref _newReg() and \ref _newRegFmt().
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ASMJIT_API Error newVirtReg(VirtReg** out, uint32_t typeId, uint32_t signature, const char* name);
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//! Creates a new virtual register of the given `typeId` and stores it to `out` operand.
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ASMJIT_API Error _newReg(BaseReg* out, uint32_t typeId, const char* name = nullptr);
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//! Creates a new virtual register of the given `typeId` and stores it to `out` operand.
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//!
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//! \note This version accepts a snprintf() format `fmt` followed by a variadic arguments.
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ASMJIT_API Error _newRegFmt(BaseReg* out, uint32_t typeId, const char* fmt, ...);
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//! Creates a new virtual register compatible with the provided reference register `ref`.
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ASMJIT_API Error _newReg(BaseReg* out, const BaseReg& ref, const char* name = nullptr);
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//! Creates a new virtual register compatible with the provided reference register `ref`.
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//!
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//! \note This version accepts a snprintf() format `fmt` followed by a variadic arguments.
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ASMJIT_API Error _newRegFmt(BaseReg* out, const BaseReg& ref, const char* fmt, ...);
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//! Tests whether the given `id` is a valid virtual register id.
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inline bool isVirtIdValid(uint32_t id) const noexcept {
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uint32_t index = Operand::virtIdToIndex(id);
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return index < _vRegArray.size();
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}
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//! Tests whether the given `reg` is a virtual register having a valid id.
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inline bool isVirtRegValid(const BaseReg& reg) const noexcept {
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return isVirtIdValid(reg.id());
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}
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//! Returns \ref VirtReg associated with the given `id`.
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inline VirtReg* virtRegById(uint32_t id) const noexcept {
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ASMJIT_ASSERT(isVirtIdValid(id));
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return _vRegArray[Operand::virtIdToIndex(id)];
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}
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//! Returns \ref VirtReg associated with the given `reg`.
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inline VirtReg* virtRegByReg(const BaseReg& reg) const noexcept { return virtRegById(reg.id()); }
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//! Returns \ref VirtReg associated with the given virtual register `index`.
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//!
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//! \note This is not the same as virtual register id. The conversion between
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//! id and its index is implemented by \ref Operand_::virtIdToIndex() and \ref
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//! Operand_::indexToVirtId() functions.
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inline VirtReg* virtRegByIndex(uint32_t index) const noexcept { return _vRegArray[index]; }
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//! Returns an array of all virtual registers managed by the Compiler.
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inline const ZoneVector<VirtReg*>& virtRegs() const noexcept { return _vRegArray; }
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//! \name Stack
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//! \{
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//! Creates a new stack of the given `size` and `alignment` and stores it to `out`.
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//!
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//! \note `name` can be used to give the stack a name, for debugging purposes.
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ASMJIT_API Error _newStack(BaseMem* out, uint32_t size, uint32_t alignment, const char* name = nullptr);
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//! Updates the stack size of a stack created by `_newStack()` by its `virtId`.
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ASMJIT_API Error setStackSize(uint32_t virtId, uint32_t newSize, uint32_t newAlignment = 0);
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//! Updates the stack size of a stack created by `_newStack()`.
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inline Error setStackSize(const BaseMem& mem, uint32_t newSize, uint32_t newAlignment = 0) {
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return setStackSize(mem.id(), newSize, newAlignment);
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}
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//! \}
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//! \name Constants
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//! \{
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//! Creates a new constant of the given `scope` (see \ref ConstPool::Scope).
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//!
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//! This function adds a constant of the given `size` to the built-in \ref
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//! ConstPool and stores the reference to that constant to the `out` operand.
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ASMJIT_API Error _newConst(BaseMem* out, uint32_t scope, const void* data, size_t size);
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//! \}
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//! \name Miscellaneous
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//! \{
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//! Rename the given virtual register `reg` to a formatted string `fmt`.
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ASMJIT_API void rename(const BaseReg& reg, const char* fmt, ...);
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//! \}
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//! \name Jump Annotations
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//! \{
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inline const ZoneVector<JumpAnnotation*>& jumpAnnotations() const noexcept {
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return _jumpAnnotations;
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}
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ASMJIT_API Error newJumpNode(JumpNode** out, uint32_t instId, uint32_t instOptions, const Operand_& o0, JumpAnnotation* annotation);
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ASMJIT_API Error emitAnnotatedJump(uint32_t instId, const Operand_& o0, JumpAnnotation* annotation);
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//! Returns a new `JumpAnnotation` instance, which can be used to aggregate
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//! possible targets of a jump where the target is not a label, for example
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//! to implement jump tables.
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ASMJIT_API JumpAnnotation* newJumpAnnotation();
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//! \}
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#ifndef ASMJIT_NO_DEPRECATED
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ASMJIT_DEPRECATED("alloc() has no effect, it will be removed in the future")
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inline void alloc(BaseReg&) {}
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ASMJIT_DEPRECATED("spill() has no effect, it will be removed in the future")
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inline void spill(BaseReg&) {}
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#endif // !ASMJIT_NO_DEPRECATED
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//! \name Events
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//! \{
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ASMJIT_API Error onAttach(CodeHolder* code) noexcept override;
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ASMJIT_API Error onDetach(CodeHolder* code) noexcept override;
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//! \}
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};
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// ============================================================================
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// [asmjit::JumpAnnotation]
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// ============================================================================
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//! Jump annotation used to annotate jumps.
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//!
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//! \ref BaseCompiler allows to emit jumps where the target is either register
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//! or memory operand. Such jumps cannot be trivially inspected, so instead of
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//! doing heuristics AsmJit allows to annotate such jumps with possible targets.
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//! Register allocator then use the annotation to construct control-flow, which
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//! is then used by liveness analysis and other tools to prepare ground for
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//! register allocation.
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class JumpAnnotation {
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public:
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ASMJIT_NONCOPYABLE(JumpAnnotation)
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//! Compiler that owns this JumpAnnotation.
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BaseCompiler* _compiler;
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//! Annotation identifier.
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uint32_t _annotationId;
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//! Vector of label identifiers, see \ref labelIds().
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ZoneVector<uint32_t> _labelIds;
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inline JumpAnnotation(BaseCompiler* compiler, uint32_t annotationId) noexcept
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: _compiler(compiler),
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_annotationId(annotationId) {}
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//! Returns the compiler that owns this JumpAnnotation.
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inline BaseCompiler* compiler() const noexcept { return _compiler; }
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//! Returns the annotation id.
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inline uint32_t annotationId() const noexcept { return _annotationId; }
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//! Returns a vector of label identifiers that lists all targets of the jump.
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const ZoneVector<uint32_t>& labelIds() const noexcept { return _labelIds; }
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//! Tests whether the given `label` is a target of this JumpAnnotation.
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inline bool hasLabel(const Label& label) const noexcept { return hasLabelId(label.id()); }
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//! Tests whether the given `labelId` is a target of this JumpAnnotation.
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inline bool hasLabelId(uint32_t labelId) const noexcept { return _labelIds.contains(labelId); }
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//! Adds the `label` to the list of targets of this JumpAnnotation.
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inline Error addLabel(const Label& label) noexcept { return addLabelId(label.id()); }
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//! Adds the `labelId` to the list of targets of this JumpAnnotation.
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inline Error addLabelId(uint32_t labelId) noexcept { return _labelIds.append(&_compiler->_allocator, labelId); }
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};
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// ============================================================================
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// [asmjit::JumpNode]
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// ============================================================================
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//! Jump instruction with \ref JumpAnnotation.
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//!
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//! \note This node should be only used to represent jump where the jump target
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//! cannot be deduced by examining instruction operands. For example if the jump
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//! target is register or memory location. This pattern is often used to perform
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//! indirect jumps that use jump table, e.g. to implement `switch{}` statement.
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class JumpNode : public InstNode {
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public:
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ASMJIT_NONCOPYABLE(JumpNode)
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JumpAnnotation* _annotation;
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//! \name Construction & Destruction
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//! \{
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ASMJIT_INLINE JumpNode(BaseCompiler* cc, uint32_t instId, uint32_t options, uint32_t opCount, JumpAnnotation* annotation) noexcept
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: InstNode(cc, instId, options, opCount, kBaseOpCapacity),
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_annotation(annotation) {
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setType(kNodeJump);
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}
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//! \}
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//! \name Accessors
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//! \{
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//! Tests whether this JumpNode has associated a \ref JumpAnnotation.
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inline bool hasAnnotation() const noexcept { return _annotation != nullptr; }
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//! Returns the \ref JumpAnnotation associated with this jump, or `nullptr`.
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inline JumpAnnotation* annotation() const noexcept { return _annotation; }
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//! Sets the \ref JumpAnnotation associated with this jump to `annotation`.
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inline void setAnnotation(JumpAnnotation* annotation) noexcept { _annotation = annotation; }
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//! \}
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};
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// ============================================================================
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// [asmjit::FuncNode]
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// ============================================================================
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//! Function node represents a function used by \ref BaseCompiler.
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//!
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//! A function is composed of the following:
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//!
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//! - Function entry, \ref FuncNode acts as a label, so the entry is implicit.
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//! To get the entry, simply use \ref FuncNode::label(), which is the same
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//! as \ref LabelNode::label().
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//!
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//! - Function exit, which is represented by \ref FuncNode::exitNode(). A
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//! helper function \ref FuncNode::exitLabel() exists and returns an exit
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//! label instead of node.
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//!
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//! - Function \ref FuncNode::endNode() sentinel. This node marks the end of
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//! a function - there should be no code that belongs to the function after
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//! this node, but the Compiler doesn't enforce that at the moment.
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//!
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//! - Function detail, see \ref FuncNode::detail().
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//!
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//! - Function frame, see \ref FuncNode::frame().
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//!
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//! - Function arguments mapped to virtual registers, see \ref FuncNode::args().
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//!
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//! In a node list, the function and its body looks like the following:
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//!
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//! \code{.unparsed}
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//! [...] - Anything before the function.
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//!
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//! [FuncNode] - Entry point of the function, acts as a label as well.
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//! <Prolog> - Prolog inserted by the register allocator.
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//! {...} - Function body - user code basically.
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//! [ExitLabel] - Exit label
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//! <Epilog> - Epilog inserted by the register allocator.
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//! <Return> - Return inserted by the register allocator.
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//! {...} - Can contain data or user code (error handling, special cases, ...).
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//! [FuncEnd] - End sentinel
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//!
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//! [...] - Anything after the function.
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//! \endcode
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//!
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//! When a function is added to the compiler by \ref BaseCompiler::addFunc() it
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//! actually inserts 3 nodes (FuncNode, ExitLabel, and FuncEnd) and sets the
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//! current cursor to be FuncNode. When \ref BaseCompiler::endFunc() is called
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//! the cursor is set to FuncEnd. This guarantees that user can use ExitLabel
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//! as a marker after additional code or data can be placed, and it's a common
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//! practice.
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class FuncNode : public LabelNode {
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public:
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ASMJIT_NONCOPYABLE(FuncNode)
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//! Arguments pack.
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struct ArgPack {
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VirtReg* _data[Globals::kMaxValuePack];
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inline void reset() noexcept {
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for (size_t valueIndex = 0; valueIndex < Globals::kMaxValuePack; valueIndex++)
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_data[valueIndex] = nullptr;
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}
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inline VirtReg*& operator[](size_t valueIndex) noexcept { return _data[valueIndex]; }
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inline VirtReg* const& operator[](size_t valueIndex) const noexcept { return _data[valueIndex]; }
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};
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//! Function detail.
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FuncDetail _funcDetail;
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//! Function frame.
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FuncFrame _frame;
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//! Function exit label.
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LabelNode* _exitNode;
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//! Function end (sentinel).
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SentinelNode* _end;
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|
|
|
//! Argument packs.
|
|
ArgPack* _args;
|
|
|
|
//! \name Construction & Destruction
|
|
//! \{
|
|
|
|
//! Creates a new `FuncNode` instance.
|
|
//!
|
|
//! Always use `BaseCompiler::addFunc()` to create `FuncNode`.
|
|
ASMJIT_INLINE FuncNode(BaseBuilder* cb) noexcept
|
|
: LabelNode(cb),
|
|
_funcDetail(),
|
|
_frame(),
|
|
_exitNode(nullptr),
|
|
_end(nullptr),
|
|
_args(nullptr) {
|
|
setType(kNodeFunc);
|
|
}
|
|
|
|
//! \}
|
|
|
|
//! \{
|
|
//! \name Accessors
|
|
|
|
//! Returns function exit `LabelNode`.
|
|
inline LabelNode* exitNode() const noexcept { return _exitNode; }
|
|
//! Returns function exit label.
|
|
inline Label exitLabel() const noexcept { return _exitNode->label(); }
|
|
|
|
//! Returns "End of Func" sentinel.
|
|
inline SentinelNode* endNode() const noexcept { return _end; }
|
|
|
|
//! Returns function declaration.
|
|
inline FuncDetail& detail() noexcept { return _funcDetail; }
|
|
//! Returns function declaration.
|
|
inline const FuncDetail& detail() const noexcept { return _funcDetail; }
|
|
|
|
//! Returns function frame.
|
|
inline FuncFrame& frame() noexcept { return _frame; }
|
|
//! Returns function frame.
|
|
inline const FuncFrame& frame() const noexcept { return _frame; }
|
|
|
|
//! Tests whether the function has a return value.
|
|
inline bool hasRet() const noexcept { return _funcDetail.hasRet(); }
|
|
//! Returns arguments count.
|
|
inline uint32_t argCount() const noexcept { return _funcDetail.argCount(); }
|
|
|
|
//! Returns argument packs.
|
|
inline ArgPack* argPacks() const noexcept { return _args; }
|
|
|
|
//! Returns argument pack at `argIndex`.
|
|
inline ArgPack& argPack(size_t argIndex) const noexcept {
|
|
ASMJIT_ASSERT(argIndex < argCount());
|
|
return _args[argIndex];
|
|
}
|
|
|
|
//! Sets argument at `argIndex`.
|
|
inline void setArg(size_t argIndex, VirtReg* vReg) noexcept {
|
|
ASMJIT_ASSERT(argIndex < argCount());
|
|
_args[argIndex][0] = vReg;
|
|
}
|
|
|
|
//! Sets argument at `argIndex` and `valueIndex`.
|
|
inline void setArg(size_t argIndex, size_t valueIndex, VirtReg* vReg) noexcept {
|
|
ASMJIT_ASSERT(argIndex < argCount());
|
|
_args[argIndex][valueIndex] = vReg;
|
|
}
|
|
|
|
//! Resets argument pack at `argIndex`.
|
|
inline void resetArg(size_t argIndex) noexcept {
|
|
ASMJIT_ASSERT(argIndex < argCount());
|
|
_args[argIndex].reset();
|
|
}
|
|
|
|
//! Resets argument pack at `argIndex`.
|
|
inline void resetArg(size_t argIndex, size_t valueIndex) noexcept {
|
|
ASMJIT_ASSERT(argIndex < argCount());
|
|
_args[argIndex][valueIndex] = nullptr;
|
|
}
|
|
|
|
//! Returns function attributes.
|
|
inline uint32_t attributes() const noexcept { return _frame.attributes(); }
|
|
//! Adds `attrs` to the function attributes.
|
|
inline void addAttributes(uint32_t attrs) noexcept { _frame.addAttributes(attrs); }
|
|
|
|
//! \}
|
|
};
|
|
|
|
// ============================================================================
|
|
// [asmjit::FuncRetNode]
|
|
// ============================================================================
|
|
|
|
//! Function return, used by \ref BaseCompiler.
|
|
class FuncRetNode : public InstNode {
|
|
public:
|
|
ASMJIT_NONCOPYABLE(FuncRetNode)
|
|
|
|
//! \name Construction & Destruction
|
|
//! \{
|
|
|
|
//! Creates a new `FuncRetNode` instance.
|
|
inline FuncRetNode(BaseBuilder* cb) noexcept : InstNode(cb, BaseInst::kIdAbstract, 0, 0) {
|
|
_any._nodeType = kNodeFuncRet;
|
|
}
|
|
|
|
//! \}
|
|
};
|
|
|
|
// ============================================================================
|
|
// [asmjit::InvokeNode]
|
|
// ============================================================================
|
|
|
|
//! Function invocation, used by \ref BaseCompiler.
|
|
class InvokeNode : public InstNode {
|
|
public:
|
|
ASMJIT_NONCOPYABLE(InvokeNode)
|
|
|
|
//! Operand pack provides multiple operands that can be associated with a
|
|
//! single return value of function argument. Sometims this is necessary to
|
|
//! express an argument or return value that requires multiple registers, for
|
|
//! example 64-bit value in 32-bit mode or passing / returning homogenous data
|
|
//! structures.
|
|
struct OperandPack {
|
|
//! Operands.
|
|
Operand_ _data[Globals::kMaxValuePack];
|
|
|
|
//! Reset the pack by resetting all operands in the pack.
|
|
inline void reset() noexcept {
|
|
for (size_t valueIndex = 0; valueIndex < Globals::kMaxValuePack; valueIndex++)
|
|
_data[valueIndex].reset();
|
|
}
|
|
|
|
//! Returns an operand at the given `valueIndex`.
|
|
inline Operand& operator[](size_t valueIndex) noexcept {
|
|
ASMJIT_ASSERT(valueIndex < Globals::kMaxValuePack);
|
|
return _data[valueIndex].as<Operand>();
|
|
}
|
|
|
|
//! Returns an operand at the given `valueIndex` (const).
|
|
const inline Operand& operator[](size_t valueIndex) const noexcept {
|
|
ASMJIT_ASSERT(valueIndex < Globals::kMaxValuePack);
|
|
return _data[valueIndex].as<Operand>();
|
|
}
|
|
};
|
|
|
|
//! Function detail.
|
|
FuncDetail _funcDetail;
|
|
//! Function return value(s).
|
|
OperandPack _rets;
|
|
//! Function arguments.
|
|
OperandPack* _args;
|
|
|
|
//! \name Construction & Destruction
|
|
//! \{
|
|
|
|
//! Creates a new `InvokeNode` instance.
|
|
inline InvokeNode(BaseBuilder* cb, uint32_t instId, uint32_t options) noexcept
|
|
: InstNode(cb, instId, options, kBaseOpCapacity),
|
|
_funcDetail(),
|
|
_args(nullptr) {
|
|
setType(kNodeInvoke);
|
|
_resetOps();
|
|
_rets.reset();
|
|
addFlags(kFlagIsRemovable);
|
|
}
|
|
|
|
//! \}
|
|
|
|
//! \name Accessors
|
|
//! \{
|
|
|
|
//! Sets the function signature.
|
|
inline Error init(const FuncSignature& signature, const Environment& environment) noexcept {
|
|
return _funcDetail.init(signature, environment);
|
|
}
|
|
|
|
//! Returns the function detail.
|
|
inline FuncDetail& detail() noexcept { return _funcDetail; }
|
|
//! Returns the function detail.
|
|
inline const FuncDetail& detail() const noexcept { return _funcDetail; }
|
|
|
|
//! Returns the target operand.
|
|
inline Operand& target() noexcept { return _opArray[0].as<Operand>(); }
|
|
//! \overload
|
|
inline const Operand& target() const noexcept { return _opArray[0].as<Operand>(); }
|
|
|
|
//! Returns the number of function return values.
|
|
inline bool hasRet() const noexcept { return _funcDetail.hasRet(); }
|
|
//! Returns the number of function arguments.
|
|
inline uint32_t argCount() const noexcept { return _funcDetail.argCount(); }
|
|
|
|
//! Returns operand pack representing function return value(s).
|
|
inline OperandPack& retPack() noexcept { return _rets; }
|
|
//! Returns operand pack representing function return value(s).
|
|
inline const OperandPack& retPack() const noexcept { return _rets; }
|
|
|
|
//! Returns the return value at the given `valueIndex`.
|
|
inline Operand& ret(size_t valueIndex = 0) noexcept { return _rets[valueIndex]; }
|
|
//! \overload
|
|
inline const Operand& ret(size_t valueIndex = 0) const noexcept { return _rets[valueIndex]; }
|
|
|
|
//! Returns operand pack representing function return value(s).
|
|
inline OperandPack& argPack(size_t argIndex) noexcept {
|
|
ASMJIT_ASSERT(argIndex < argCount());
|
|
return _args[argIndex];
|
|
}
|
|
//! \overload
|
|
inline const OperandPack& argPack(size_t argIndex) const noexcept {
|
|
ASMJIT_ASSERT(argIndex < argCount());
|
|
return _args[argIndex];
|
|
}
|
|
|
|
//! Returns a function argument at the given `argIndex`.
|
|
inline Operand& arg(size_t argIndex, size_t valueIndex) noexcept {
|
|
ASMJIT_ASSERT(argIndex < argCount());
|
|
return _args[argIndex][valueIndex];
|
|
}
|
|
//! \overload
|
|
inline const Operand& arg(size_t argIndex, size_t valueIndex) const noexcept {
|
|
ASMJIT_ASSERT(argIndex < argCount());
|
|
return _args[argIndex][valueIndex];
|
|
}
|
|
|
|
//! Sets the function return value at `i` to `op`.
|
|
inline void _setRet(size_t valueIndex, const Operand_& op) noexcept { _rets[valueIndex] = op; }
|
|
//! Sets the function argument at `i` to `op`.
|
|
inline void _setArg(size_t argIndex, size_t valueIndex, const Operand_& op) noexcept {
|
|
ASMJIT_ASSERT(argIndex < argCount());
|
|
_args[argIndex][valueIndex] = op;
|
|
}
|
|
|
|
//! Sets the function return value at `valueIndex` to `reg`.
|
|
inline void setRet(size_t valueIndex, const BaseReg& reg) noexcept { _setRet(valueIndex, reg); }
|
|
|
|
//! Sets the first function argument in a value-pack at `argIndex` to `reg`.
|
|
inline void setArg(size_t argIndex, const BaseReg& reg) noexcept { _setArg(argIndex, 0, reg); }
|
|
//! Sets the first function argument in a value-pack at `argIndex` to `imm`.
|
|
inline void setArg(size_t argIndex, const Imm& imm) noexcept { _setArg(argIndex, 0, imm); }
|
|
|
|
//! Sets the function argument at `argIndex` and `valueIndex` to `reg`.
|
|
inline void setArg(size_t argIndex, size_t valueIndex, const BaseReg& reg) noexcept { _setArg(argIndex, valueIndex, reg); }
|
|
//! Sets the function argument at `argIndex` and `valueIndex` to `imm`.
|
|
inline void setArg(size_t argIndex, size_t valueIndex, const Imm& imm) noexcept { _setArg(argIndex, valueIndex, imm); }
|
|
|
|
//! \}
|
|
};
|
|
|
|
// ============================================================================
|
|
// [asmjit::FuncPass]
|
|
// ============================================================================
|
|
|
|
//! Function pass extends \ref Pass with \ref FuncPass::runOnFunction().
|
|
class ASMJIT_VIRTAPI FuncPass : public Pass {
|
|
public:
|
|
ASMJIT_NONCOPYABLE(FuncPass)
|
|
typedef Pass Base;
|
|
|
|
//! \name Construction & Destruction
|
|
//! \{
|
|
|
|
ASMJIT_API FuncPass(const char* name) noexcept;
|
|
|
|
//! \}
|
|
|
|
//! \name Accessors
|
|
//! \{
|
|
|
|
//! Returns the associated `BaseCompiler`.
|
|
inline BaseCompiler* cc() const noexcept { return static_cast<BaseCompiler*>(_cb); }
|
|
|
|
//! \}
|
|
|
|
//! \name Run
|
|
//! \{
|
|
|
|
//! Calls `runOnFunction()` on each `FuncNode` node found.
|
|
ASMJIT_API Error run(Zone* zone, Logger* logger) override;
|
|
|
|
//! Called once per `FuncNode`.
|
|
virtual Error runOnFunction(Zone* zone, Logger* logger, FuncNode* func) = 0;
|
|
|
|
//! \}
|
|
};
|
|
|
|
//! \}
|
|
|
|
ASMJIT_END_NAMESPACE
|
|
|
|
#endif // !ASMJIT_NO_COMPILER
|
|
#endif // ASMJIT_CORE_COMPILER_H_INCLUDED
|