mirror of
https://github.com/RPCS3/rpcs3.git
synced 2024-11-18 02:11:28 +00:00
a9437d69ab
Fix resetting vmask in reduce() step. Fix AVX-512 loads in vec_load_unaligned(). Fix bzhi reg size in build_look().
552 lines
13 KiB
C++
552 lines
13 KiB
C++
#pragma once
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#include "util/types.hpp"
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// Include asmjit with warnings ignored
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#define ASMJIT_EMBED
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#define ASMJIT_STATIC
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#define ASMJIT_BUILD_DEBUG
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#undef Bool
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#ifdef _MSC_VER
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#pragma warning(push, 0)
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#include <asmjit/asmjit.h>
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#pragma warning(pop)
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#else
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#pragma GCC diagnostic push
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#pragma GCC diagnostic ignored "-Wall"
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#pragma GCC diagnostic ignored "-Wextra"
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#pragma GCC diagnostic ignored "-Wold-style-cast"
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#pragma GCC diagnostic ignored "-Wunused-parameter"
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#pragma GCC diagnostic ignored "-Wstrict-aliasing"
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#pragma GCC diagnostic ignored "-Wredundant-decls"
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#pragma GCC diagnostic ignored "-Wnon-virtual-dtor"
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#pragma GCC diagnostic ignored "-Weffc++"
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#ifdef __clang__
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#pragma GCC diagnostic ignored "-Wdeprecated-anon-enum-enum-conversion"
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#pragma GCC diagnostic ignored "-Wcast-qual"
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#else
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#pragma GCC diagnostic ignored "-Wduplicated-branches"
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#pragma GCC diagnostic ignored "-Wdeprecated-enum-enum-conversion"
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#endif
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#include <asmjit/asmjit.h>
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#if defined(ARCH_ARM64)
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#include <asmjit/a64.h>
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#endif
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#pragma GCC diagnostic pop
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#endif
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#include <array>
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#include <functional>
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#include <memory>
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#include <string>
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#include <string_view>
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#include <unordered_map>
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#include <util/v128.hpp>
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#if defined(ARCH_X64)
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using native_asm = asmjit::x86::Assembler;
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using native_args = std::array<asmjit::x86::Gp, 4>;
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#elif defined(ARCH_ARM64)
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using native_asm = asmjit::a64::Assembler;
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using native_args = std::array<asmjit::a64::Gp, 4>;
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#endif
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void jit_announce(uptr func, usz size, std::string_view name);
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void jit_announce(auto* func, usz size, std::string_view name)
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{
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jit_announce(uptr(func), size, name);
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}
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enum class jit_class
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{
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ppu_code,
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ppu_data,
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spu_code,
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spu_data,
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};
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struct jit_runtime_base
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{
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jit_runtime_base() noexcept = default;
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virtual ~jit_runtime_base() = default;
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jit_runtime_base(const jit_runtime_base&) = delete;
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jit_runtime_base& operator=(const jit_runtime_base&) = delete;
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const asmjit::Environment& environment() const noexcept;
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void* _add(asmjit::CodeHolder* code) noexcept;
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virtual uchar* _alloc(usz size, usz align) noexcept = 0;
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};
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// ASMJIT runtime for emitting code in a single 2G region
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struct jit_runtime final : jit_runtime_base
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{
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jit_runtime();
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~jit_runtime() override;
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// Allocate executable memory
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uchar* _alloc(usz size, usz align) noexcept override;
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// Allocate memory
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static u8* alloc(usz size, uint align, bool exec = true) noexcept;
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// Should be called at least once after global initialization
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static void initialize();
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// Deallocate all memory
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static void finalize() noexcept;
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};
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namespace asmjit
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{
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// Should only be used to build global functions
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jit_runtime_base& get_global_runtime();
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// Don't use directly
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class inline_runtime : public jit_runtime_base
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{
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uchar* m_data;
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usz m_size;
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public:
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inline_runtime(uchar* data, usz size);
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~inline_runtime();
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uchar* _alloc(usz size, usz align) noexcept override;
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};
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// Emit xbegin and adjacent loop, return label at xbegin (don't use xabort please)
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template <typename F>
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[[nodiscard]] inline asmjit::Label build_transaction_enter(asmjit::x86::Assembler& c, asmjit::Label fallback, F func)
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{
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Label fall = c.newLabel();
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Label begin = c.newLabel();
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c.jmp(begin);
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c.bind(fall);
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// Don't repeat on zero status (may indicate syscall or interrupt)
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c.test(x86::eax, x86::eax);
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c.jz(fallback);
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// First invoked after failure (can fallback to proceed, or jump anywhere else)
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func();
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// Other bad statuses are ignored regardless of repeat flag (TODO)
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c.align(AlignMode::kCode, 16);
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c.bind(begin);
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return fall;
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// xbegin should be issued manually, allows to add more check before entering transaction
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}
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// Helper to spill RDX (EDX) register for RDTSC
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inline void build_swap_rdx_with(asmjit::x86::Assembler& c, std::array<x86::Gp, 4>& args, const asmjit::x86::Gp& with)
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{
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#ifdef _WIN32
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c.xchg(args[1], with);
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args[1] = with;
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#else
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c.xchg(args[2], with);
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args[2] = with;
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#endif
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}
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// Get full RDTSC value into chosen register (clobbers rax/rdx or saves only rax with other target)
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inline void build_get_tsc(asmjit::x86::Assembler& c, const asmjit::x86::Gp& to = asmjit::x86::rax)
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{
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if (&to != &x86::rax && &to != &x86::rdx)
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{
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// Swap to save its contents
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c.xchg(x86::rax, to);
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}
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c.rdtsc();
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c.shl(x86::rdx, 32);
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if (&to == &x86::rax)
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{
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c.or_(x86::rax, x86::rdx);
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}
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else if (&to == &x86::rdx)
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{
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c.or_(x86::rdx, x86::rax);
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}
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else
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{
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// Swap back, maybe there is more effective way to do it
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c.xchg(x86::rax, to);
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c.mov(to.r32(), to.r32());
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c.or_(to.r64(), x86::rdx);
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}
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}
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inline void build_init_args_from_ghc(native_asm& c, native_args& args)
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{
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#if defined(ARCH_X64)
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// TODO: handle case when args don't overlap with r13/rbp/r12/rbx
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c.mov(args[0], x86::r13);
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c.mov(args[1], x86::rbp);
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c.mov(args[2], x86::r12);
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c.mov(args[3], x86::rbx);
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#else
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static_cast<void>(c);
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static_cast<void>(args);
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#endif
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}
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inline void build_init_ghc_args(native_asm& c, native_args& args)
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{
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#if defined(ARCH_X64)
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// TODO: handle case when args don't overlap with r13/rbp/r12/rbx
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c.mov(x86::r13, args[0]);
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c.mov(x86::rbp, args[1]);
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c.mov(x86::r12, args[2]);
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c.mov(x86::rbx, args[3]);
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#else
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static_cast<void>(c);
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static_cast<void>(args);
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#endif
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}
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#if defined(ARCH_X64)
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struct simd_builder : native_asm
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{
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std::unordered_map<v128, Label> consts;
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Operand v0, v1, v2, v3, v4, v5;
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uint vsize = 16;
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uint vmask = 0;
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simd_builder(CodeHolder* ch) noexcept;
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~simd_builder();
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void operator()() noexcept;
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void _init(uint new_vsize = 0);
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void vec_cleanup_ret();
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void vec_set_all_zeros(const Operand& v);
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void vec_set_all_ones(const Operand& v);
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void vec_set_const(const Operand& v, const v128& value);
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void vec_clobbering_test(u32 esize, const Operand& v, const Operand& rhs);
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void vec_broadcast_gpr(u32 esize, const Operand& v, const x86::Gp& r);
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// return x86::ptr(base, ctr, X, 0) where X is set for esize accordingly
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x86::Mem ptr_scale_for_vec(u32 esize, const x86::Gp& base, const x86::Gp& index);
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void vec_load_unaligned(u32 esize, const Operand& v, const x86::Mem& src);
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void vec_store_unaligned(u32 esize, const Operand& v, const x86::Mem& dst);
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void vec_partial_move(u32 esize, const Operand& dst, const Operand& src);
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void _vec_binary_op(x86::Inst::Id sse_op, x86::Inst::Id vex_op, x86::Inst::Id evex_op, const Operand& dst, const Operand& lhs, const Operand& rhs);
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void vec_shuffle_xi8(const Operand& dst, const Operand& lhs, const Operand& rhs)
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{
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using enum x86::Inst::Id;
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_vec_binary_op(kIdPshufb, kIdVpshufb, kIdVpshufb, dst, lhs, rhs);
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}
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void vec_xor(u32, const Operand& dst, const Operand& lhs, const Operand& rhs)
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{
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using enum x86::Inst::Id;
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_vec_binary_op(kIdPxor, kIdVpxor, kIdVpxord, dst, lhs, rhs);
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}
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void vec_or(u32, const Operand& dst, const Operand& lhs, const Operand& rhs)
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{
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using enum x86::Inst::Id;
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_vec_binary_op(kIdPor, kIdVpor, kIdVpord, dst, lhs, rhs);
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}
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void vec_andn(u32, const Operand& dst, const Operand& lhs, const Operand& rhs)
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{
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using enum x86::Inst::Id;
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_vec_binary_op(kIdPandn, kIdVpandn, kIdVpandnd, dst, lhs, rhs);
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}
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void vec_umin(u32 esize, const Operand& dst, const Operand& lhs, const Operand& rhs);
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void vec_umax(u32 esize, const Operand& dst, const Operand& lhs, const Operand& rhs);
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void vec_cmp_eq(u32 esize, const Operand& dst, const Operand& lhs, const Operand& rhs);
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void vec_extract_high(u32 esize, const Operand& dst, const Operand& src);
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void vec_extract_gpr(u32 esize, const x86::Gp& dst, const Operand& src);
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simd_builder& keep_if_not_masked()
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{
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if (vmask && vmask < 8)
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{
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this->k(x86::KReg(vmask));
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}
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return *this;
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}
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simd_builder& zero_if_not_masked()
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{
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if (vmask && vmask < 8)
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{
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this->k(x86::KReg(vmask));
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this->z();
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}
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return *this;
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}
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void build_loop(u32 esize, const x86::Gp& reg_ctr, const x86::Gp& reg_cnt, auto&& build, auto&& reduce)
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{
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ensure((esize & (esize - 1)) == 0);
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ensure(esize <= vsize);
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Label body = this->newLabel();
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Label next = this->newLabel();
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Label exit = this->newLabel();
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const u32 step = vsize / esize;
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this->xor_(reg_ctr.r32(), reg_ctr.r32()); // Reset counter reg
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this->cmp(reg_cnt, step);
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this->jb(next); // If count < step, skip main loop body
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this->align(AlignMode::kCode, 16);
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this->bind(body);
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this->sub(reg_cnt, step);
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build();
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this->add(reg_ctr, step);
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this->cmp(reg_cnt, step);
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this->jae(body);
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this->bind(next);
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if (vmask)
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{
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// Build single last iteration (masked)
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this->test(reg_cnt, reg_cnt);
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this->jz(exit);
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if (esize == 1 && vsize == 64)
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{
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this->bzhi(reg_cnt.r64(), x86::Mem(consts[~u128()], 0), reg_cnt.r64());
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this->kmovq(x86::k7, reg_cnt.r64());
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}
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else
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{
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this->bzhi(reg_cnt.r32(), x86::Mem(consts[~u128()], 0), reg_cnt.r32());
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this->kmovd(x86::k7, reg_cnt.r32());
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}
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vmask = 7;
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build();
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// Rollout reduction step
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this->bind(exit);
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while (true)
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{
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vsize /= 2;
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if (vsize < esize)
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break;
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this->_init(vsize);
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reduce();
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}
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}
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else
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{
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// Build unrolled loop tail (reduced vector width)
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while (true)
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{
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vsize /= 2;
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if (vsize < esize)
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break;
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// Shall not clobber flags
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this->_init(vsize);
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reduce();
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if (vsize == esize)
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{
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// Last "iteration"
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this->test(reg_cnt, reg_cnt);
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this->jz(exit);
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build();
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}
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else
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{
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const u32 step = vsize / esize;
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Label next = this->newLabel();
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this->cmp(reg_cnt, step);
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this->jb(next);
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build();
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this->add(reg_ctr, step);
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this->sub(reg_cnt, step);
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this->bind(next);
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}
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}
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this->bind(exit);
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}
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this->_init(0);
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}
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};
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// for (; count > 0; ctr++, count--)
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inline void build_loop(native_asm& c, auto ctr, auto count, auto&& build)
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{
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asmjit::Label body = c.newLabel();
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asmjit::Label exit = c.newLabel();
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c.test(count, count);
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c.jz(exit);
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c.align(asmjit::AlignMode::kCode, 16);
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c.bind(body);
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build();
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c.inc(ctr);
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c.sub(count, 1);
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c.ja(body);
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c.bind(exit);
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}
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inline void maybe_flush_lbr(native_asm& c, uint count = 2)
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{
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// Workaround for bad LBR callstacks which happen in some situations (mainly TSX) - execute additional RETs
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Label next = c.newLabel();
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c.lea(x86::rcx, x86::qword_ptr(next));
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for (u32 i = 0; i < count; i++)
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{
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c.push(x86::rcx);
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c.sub(x86::rcx, 16);
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}
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for (u32 i = 0; i < count; i++)
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{
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c.ret();
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c.align(asmjit::AlignMode::kCode, 16);
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}
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c.bind(next);
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}
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#endif
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}
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// Build runtime function with asmjit::X86Assembler
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template <typename FT, typename Asm = native_asm, typename F>
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inline FT build_function_asm(std::string_view name, F&& builder, ::jit_runtime* custom_runtime = nullptr)
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{
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#ifdef __APPLE__
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pthread_jit_write_protect_np(false);
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#endif
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using namespace asmjit;
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auto& rt = custom_runtime ? *custom_runtime : get_global_runtime();
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CodeHolder code;
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code.init(rt.environment());
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#if defined(ARCH_X64)
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native_args args;
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#ifdef _WIN32
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args[0] = x86::rcx;
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args[1] = x86::rdx;
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args[2] = x86::r8;
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args[3] = x86::r9;
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#else
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args[0] = x86::rdi;
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args[1] = x86::rsi;
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args[2] = x86::rdx;
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args[3] = x86::rcx;
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#endif
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#elif defined(ARCH_ARM64)
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native_args args;
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args[0] = a64::x0;
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args[1] = a64::x1;
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args[2] = a64::x2;
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args[3] = a64::x3;
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#endif
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Asm compiler(&code);
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compiler.addEncodingOptions(EncodingOptions::kOptimizedAlign);
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if constexpr (std::is_invocable_r_v<bool, F, Asm&, native_args&>)
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{
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if (!builder(compiler, args))
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return nullptr;
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}
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else
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{
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builder(compiler, args);
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}
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if constexpr (std::is_invocable_r_v<void, Asm>)
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{
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// Finalization
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compiler();
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}
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const auto result = rt._add(&code);
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jit_announce(result, code.codeSize(), name);
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return reinterpret_cast<FT>(uptr(result));
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}
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#ifdef LLVM_AVAILABLE
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namespace llvm
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{
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class LLVMContext;
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class ExecutionEngine;
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class Module;
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}
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// Temporary compiler interface
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class jit_compiler final
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{
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// Local LLVM context
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std::unique_ptr<llvm::LLVMContext> m_context{};
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// Execution instance
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std::unique_ptr<llvm::ExecutionEngine> m_engine{};
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// Arch
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std::string m_cpu{};
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public:
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jit_compiler(const std::unordered_map<std::string, u64>& _link, const std::string& _cpu, u32 flags = 0);
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~jit_compiler();
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// Get LLVM context
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auto& get_context()
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{
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return *m_context;
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}
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|
auto& get_engine() const
|
|
{
|
|
return *m_engine;
|
|
}
|
|
|
|
// Add module (path to obj cache dir)
|
|
void add(std::unique_ptr<llvm::Module> _module, const std::string& path);
|
|
|
|
// Add module (not cached)
|
|
void add(std::unique_ptr<llvm::Module> _module);
|
|
|
|
// Add object (path to obj file)
|
|
void add(const std::string& path);
|
|
|
|
// Update global mapping for a single value
|
|
void update_global_mapping(const std::string& name, u64 addr);
|
|
|
|
// Check object file
|
|
static bool check(const std::string& path);
|
|
|
|
// Finalize
|
|
void fin();
|
|
|
|
// Get compiled function address
|
|
u64 get(const std::string& name);
|
|
|
|
// Get CPU info
|
|
static std::string cpu(const std::string& _cpu);
|
|
};
|
|
|
|
#endif
|