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VideoCore: Convert x64 shader JIT to use Xbyak for assembly
This commit is contained in:
parent
17fccb8c5d
commit
f4e98ecf3f
6 changed files with 461 additions and 223 deletions
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@ -71,9 +71,15 @@ if(ARCHITECTURE_x86_64)
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set(HEADERS ${HEADERS}
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x64/abi.h
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x64/cpu_detect.h
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x64/emitter.h)
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x64/emitter.h
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x64/xbyak_abi.h
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x64/xbyak_util.h
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)
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endif()
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create_directory_groups(${SRCS} ${HEADERS})
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add_library(common STATIC ${SRCS} ${HEADERS})
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if (ARCHITECTURE_x86_64)
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target_link_libraries(common xbyak)
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endif()
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178
src/common/x64/xbyak_abi.h
Normal file
178
src/common/x64/xbyak_abi.h
Normal file
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@ -0,0 +1,178 @@
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// Copyright 2016 Citra Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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#pragma once
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#include <initializer_list>
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#include <xbyak.h>
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#include "common/assert.h"
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#include "common/bit_set.h"
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namespace Common {
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namespace X64 {
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int RegToIndex(const Xbyak::Reg& reg) {
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using Kind = Xbyak::Reg::Kind;
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ASSERT_MSG((reg.getKind() & (Kind::REG | Kind::XMM)) != 0,
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"RegSet only support GPRs and XMM registers.");
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ASSERT_MSG(reg.getIdx() < 16, "RegSet only supports XXM0-15.");
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return reg.getIdx() + (reg.getKind() == Kind::REG ? 0 : 16);
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}
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inline Xbyak::Reg64 IndexToReg64(int reg_index) {
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ASSERT(reg_index < 16);
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return Xbyak::Reg64(reg_index);
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}
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inline Xbyak::Xmm IndexToXmm(int reg_index) {
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ASSERT(reg_index >= 16 && reg_index < 32);
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return Xbyak::Xmm(reg_index - 16);
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}
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inline Xbyak::Reg IndexToReg(int reg_index) {
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if (reg_index < 16) {
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return IndexToReg64(reg_index);
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} else {
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return IndexToXmm(reg_index);
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}
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}
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inline BitSet32 BuildRegSet(std::initializer_list<Xbyak::Reg> regs) {
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BitSet32 bits;
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for (const Xbyak::Reg& reg : regs) {
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bits[RegToIndex(reg)] = true;
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}
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return bits;
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}
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const BitSet32 ABI_ALL_GPRS(0x0000FFFF);
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const BitSet32 ABI_ALL_XMMS(0xFFFF0000);
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#ifdef _WIN32
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// Microsoft x64 ABI
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const Xbyak::Reg ABI_RETURN = Xbyak::util::rax;
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const Xbyak::Reg ABI_PARAM1 = Xbyak::util::rcx;
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const Xbyak::Reg ABI_PARAM2 = Xbyak::util::rdx;
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const Xbyak::Reg ABI_PARAM3 = Xbyak::util::r8;
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const Xbyak::Reg ABI_PARAM4 = Xbyak::util::r9;
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const BitSet32 ABI_ALL_CALLER_SAVED = BuildRegSet({
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// GPRs
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Xbyak::util::rcx, Xbyak::util::rdx, Xbyak::util::r8, Xbyak::util::r9, Xbyak::util::r10,
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Xbyak::util::r11,
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// XMMs
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Xbyak::util::xmm0, Xbyak::util::xmm1, Xbyak::util::xmm2, Xbyak::util::xmm3, Xbyak::util::xmm4,
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Xbyak::util::xmm5,
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});
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const BitSet32 ABI_ALL_CALLEE_SAVED = BuildRegSet({
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// GPRs
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Xbyak::util::rbx, Xbyak::util::rsi, Xbyak::util::rdi, Xbyak::util::rbp, Xbyak::util::r12,
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Xbyak::util::r13, Xbyak::util::r14, Xbyak::util::r15,
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// XMMs
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Xbyak::util::xmm6, Xbyak::util::xmm7, Xbyak::util::xmm8, Xbyak::util::xmm9, Xbyak::util::xmm10,
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Xbyak::util::xmm11, Xbyak::util::xmm12, Xbyak::util::xmm13, Xbyak::util::xmm14,
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Xbyak::util::xmm15,
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});
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constexpr size_t ABI_SHADOW_SPACE = 0x20;
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#else
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// System V x86-64 ABI
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const Xbyak::Reg ABI_RETURN = Xbyak::util::rax;
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const Xbyak::Reg ABI_PARAM1 = Xbyak::util::rdi;
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const Xbyak::Reg ABI_PARAM2 = Xbyak::util::rsi;
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const Xbyak::Reg ABI_PARAM3 = Xbyak::util::rdx;
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const Xbyak::Reg ABI_PARAM4 = Xbyak::util::rcx;
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const BitSet32 ABI_ALL_CALLER_SAVED = BuildRegSet({
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// GPRs
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Xbyak::util::rcx, Xbyak::util::rdx, Xbyak::util::rdi, Xbyak::util::rsi, Xbyak::util::r8,
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Xbyak::util::r9, Xbyak::util::r10, Xbyak::util::r11,
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// XMMs
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Xbyak::util::xmm0, Xbyak::util::xmm1, Xbyak::util::xmm2, Xbyak::util::xmm3, Xbyak::util::xmm4,
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Xbyak::util::xmm5, Xbyak::util::xmm6, Xbyak::util::xmm7, Xbyak::util::xmm8, Xbyak::util::xmm9,
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Xbyak::util::xmm10, Xbyak::util::xmm11, Xbyak::util::xmm12, Xbyak::util::xmm13,
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Xbyak::util::xmm14, Xbyak::util::xmm15,
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});
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const BitSet32 ABI_ALL_CALLEE_SAVED = BuildRegSet({
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// GPRs
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Xbyak::util::rbx, Xbyak::util::rbp, Xbyak::util::r12, Xbyak::util::r13, Xbyak::util::r14,
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Xbyak::util::r15,
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});
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constexpr size_t ABI_SHADOW_SPACE = 0;
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#endif
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void ABI_CalculateFrameSize(BitSet32 regs, size_t rsp_alignment, size_t needed_frame_size,
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s32* out_subtraction, s32* out_xmm_offset) {
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int count = (regs & ABI_ALL_GPRS).Count();
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rsp_alignment -= count * 8;
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size_t subtraction = 0;
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int xmm_count = (regs & ABI_ALL_XMMS).Count();
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if (xmm_count) {
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// If we have any XMMs to save, we must align the stack here.
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subtraction = rsp_alignment & 0xF;
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}
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subtraction += 0x10 * xmm_count;
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size_t xmm_base_subtraction = subtraction;
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subtraction += needed_frame_size;
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subtraction += ABI_SHADOW_SPACE;
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// Final alignment.
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rsp_alignment -= subtraction;
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subtraction += rsp_alignment & 0xF;
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*out_subtraction = (s32)subtraction;
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*out_xmm_offset = (s32)(subtraction - xmm_base_subtraction);
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}
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size_t ABI_PushRegistersAndAdjustStack(Xbyak::CodeGenerator& code, BitSet32 regs,
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size_t rsp_alignment, size_t needed_frame_size = 0) {
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s32 subtraction, xmm_offset;
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ABI_CalculateFrameSize(regs, rsp_alignment, needed_frame_size, &subtraction, &xmm_offset);
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for (int reg_index : (regs & ABI_ALL_GPRS)) {
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code.push(IndexToReg64(reg_index));
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}
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if (subtraction != 0) {
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code.sub(code.rsp, subtraction);
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}
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for (int reg_index : (regs & ABI_ALL_XMMS)) {
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code.movaps(code.xword[code.rsp + xmm_offset], IndexToXmm(reg_index));
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xmm_offset += 0x10;
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}
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return ABI_SHADOW_SPACE;
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}
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void ABI_PopRegistersAndAdjustStack(Xbyak::CodeGenerator& code, BitSet32 regs, size_t rsp_alignment,
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size_t needed_frame_size = 0) {
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s32 subtraction, xmm_offset;
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ABI_CalculateFrameSize(regs, rsp_alignment, needed_frame_size, &subtraction, &xmm_offset);
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for (int reg_index : (regs & ABI_ALL_XMMS)) {
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code.movaps(IndexToXmm(reg_index), code.xword[code.rsp + xmm_offset]);
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xmm_offset += 0x10;
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}
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if (subtraction != 0) {
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code.add(code.rsp, subtraction);
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}
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// GPRs need to be popped in reverse order
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for (int reg_index = 15; reg_index >= 0; reg_index--) {
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if (regs[reg_index]) {
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code.pop(IndexToReg64(reg_index));
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}
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}
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}
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} // namespace X64
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} // namespace Common
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49
src/common/x64/xbyak_util.h
Normal file
49
src/common/x64/xbyak_util.h
Normal file
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@ -0,0 +1,49 @@
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// Copyright 2016 Citra Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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#pragma once
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#include <type_traits>
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#include <xbyak.h>
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#include "common/x64/xbyak_abi.h"
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namespace Common {
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namespace X64 {
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// Constants for use with cmpps/cmpss
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enum {
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CMP_EQ = 0,
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CMP_LT = 1,
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CMP_LE = 2,
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CMP_UNORD = 3,
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CMP_NEQ = 4,
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CMP_NLT = 5,
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CMP_NLE = 6,
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CMP_ORD = 7,
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};
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inline bool IsWithin2G(uintptr_t ref, uintptr_t target) {
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u64 distance = target - (ref + 5);
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return !(distance >= 0x8000'0000ULL && distance <= ~0x8000'0000ULL);
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}
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inline bool IsWithin2G(const Xbyak::CodeGenerator& code, uintptr_t target) {
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return IsWithin2G(reinterpret_cast<uintptr_t>(code.getCurr()), target);
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}
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template <typename T>
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inline void CallFarFunction(Xbyak::CodeGenerator& code, const T f) {
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static_assert(std::is_pointer<T>(), "Argument must be a (function) pointer.");
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size_t addr = reinterpret_cast<size_t>(f);
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if (IsWithin2G(code, addr)) {
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code.call(f);
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} else {
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// ABI_RETURN is a safe temp register to use before a call
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code.mov(ABI_RETURN, addr);
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code.call(ABI_RETURN);
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}
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}
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} // namespace X64
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} // namespace Common
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@ -59,6 +59,9 @@ create_directory_groups(${SRCS} ${HEADERS})
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add_library(video_core STATIC ${SRCS} ${HEADERS})
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target_link_libraries(video_core glad)
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if (ARCHITECTURE_x86_64)
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target_link_libraries(video_core xbyak)
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endif()
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if (PNG_FOUND)
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target_link_libraries(video_core ${PNG_LIBRARIES})
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@ -6,24 +6,30 @@
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#include <cmath>
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#include <cstdint>
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#include <nihstro/shader_bytecode.h>
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#include <smmintrin.h>
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#include <xmmintrin.h>
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#include "common/assert.h"
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#include "common/logging/log.h"
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#include "common/vector_math.h"
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#include "common/x64/abi.h"
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#include "common/x64/cpu_detect.h"
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#include "common/x64/emitter.h"
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#include "shader.h"
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#include "shader_jit_x64.h"
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#include "common/x64/xbyak_abi.h"
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#include "common/x64/xbyak_util.h"
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#include "video_core/pica_state.h"
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#include "video_core/pica_types.h"
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#include "video_core/shader/shader.h"
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#include "video_core/shader/shader_jit_x64.h"
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using namespace Common::X64;
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using namespace Xbyak::util;
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using Xbyak::Label;
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using Xbyak::Reg32;
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using Xbyak::Reg64;
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using Xbyak::Xmm;
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namespace Pica {
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namespace Shader {
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using namespace Gen;
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typedef void (JitShader::*JitFunction)(Instruction instr);
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const JitFunction instr_table[64] = {
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// purposes, as documented below:
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/// Pointer to the uniform memory
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static const X64Reg SETUP = R9;
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static const Reg64 SETUP = r9;
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/// The two 32-bit VS address offset registers set by the MOVA instruction
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static const X64Reg ADDROFFS_REG_0 = R10;
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static const X64Reg ADDROFFS_REG_1 = R11;
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static const Reg64 ADDROFFS_REG_0 = r10;
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static const Reg64 ADDROFFS_REG_1 = r11;
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/// VS loop count register (Multiplied by 16)
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static const X64Reg LOOPCOUNT_REG = R12;
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static const Reg64 LOOPCOUNT_REG = r12;
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/// Current VS loop iteration number (we could probably use LOOPCOUNT_REG, but this quicker)
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static const X64Reg LOOPCOUNT = RSI;
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static const Reg64 LOOPCOUNT = rsi;
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/// Number to increment LOOPCOUNT_REG by on each loop iteration (Multiplied by 16)
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static const X64Reg LOOPINC = RDI;
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static const Reg64 LOOPINC = rdi;
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/// Result of the previous CMP instruction for the X-component comparison
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static const X64Reg COND0 = R13;
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static const Reg64 COND0 = r13;
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/// Result of the previous CMP instruction for the Y-component comparison
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static const X64Reg COND1 = R14;
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static const Reg64 COND1 = r14;
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/// Pointer to the UnitState instance for the current VS unit
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static const X64Reg STATE = R15;
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static const Reg64 STATE = r15;
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/// SIMD scratch register
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static const X64Reg SCRATCH = XMM0;
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static const Xmm SCRATCH = xmm0;
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/// Loaded with the first swizzled source register, otherwise can be used as a scratch register
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static const X64Reg SRC1 = XMM1;
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static const Xmm SRC1 = xmm1;
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/// Loaded with the second swizzled source register, otherwise can be used as a scratch register
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static const X64Reg SRC2 = XMM2;
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static const Xmm SRC2 = xmm2;
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/// Loaded with the third swizzled source register, otherwise can be used as a scratch register
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static const X64Reg SRC3 = XMM3;
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static const Xmm SRC3 = xmm3;
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/// Additional scratch register
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static const X64Reg SCRATCH2 = XMM4;
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static const Xmm SCRATCH2 = xmm4;
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/// Constant vector of [1.0f, 1.0f, 1.0f, 1.0f], used to efficiently set a vector to one
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static const X64Reg ONE = XMM14;
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static const Xmm ONE = xmm14;
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/// Constant vector of [-0.f, -0.f, -0.f, -0.f], used to efficiently negate a vector with XOR
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static const X64Reg NEGBIT = XMM15;
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static const Xmm NEGBIT = xmm15;
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// State registers that must not be modified by external functions calls
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// Scratch registers, e.g., SRC1 and SCRATCH, have to be saved on the side if needed
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static const BitSet32 persistent_regs = {
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SETUP, STATE, // Pointers to register blocks
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ADDROFFS_REG_0, ADDROFFS_REG_1, LOOPCOUNT_REG, COND0, COND1, // Cached registers
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ONE + 16, NEGBIT + 16, // Constants
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};
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static const BitSet32 persistent_regs = BuildRegSet({
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// Pointers to register blocks
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SETUP, STATE,
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// Cached registers
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ADDROFFS_REG_0, ADDROFFS_REG_1, LOOPCOUNT_REG, COND0, COND1,
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// Constants
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ONE, NEGBIT,
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});
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/// Raw constant for the source register selector that indicates no swizzling is performed
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static const u8 NO_SRC_REG_SWIZZLE = 0x1b;
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void JitShader::Compile_Assert(bool condition, const char* msg) {
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if (!condition) {
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ABI_CallFunctionP(reinterpret_cast<const void*>(LogCritical), const_cast<char*>(msg));
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mov(ABI_PARAM1, reinterpret_cast<size_t>(msg));
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CallFarFunction(*this, LogCritical);
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}
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}
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@ -169,8 +179,8 @@ void JitShader::Compile_Assert(bool condition, const char* msg) {
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* @param dest Destination XMM register to store the loaded, swizzled source register
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*/
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void JitShader::Compile_SwizzleSrc(Instruction instr, unsigned src_num, SourceRegister src_reg,
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X64Reg dest) {
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X64Reg src_ptr;
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Xmm dest) {
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Reg64 src_ptr;
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size_t src_offset;
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if (src_reg.GetRegisterType() == RegisterType::FloatUniform) {
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@ -206,13 +216,13 @@ void JitShader::Compile_SwizzleSrc(Instruction instr, unsigned src_num, SourceRe
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if (src_num == offset_src && address_register_index != 0) {
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switch (address_register_index) {
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case 1: // address offset 1
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MOVAPS(dest, MComplex(src_ptr, ADDROFFS_REG_0, SCALE_1, src_offset_disp));
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movaps(dest, xword[src_ptr + ADDROFFS_REG_0 + src_offset_disp]);
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break;
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case 2: // address offset 2
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MOVAPS(dest, MComplex(src_ptr, ADDROFFS_REG_1, SCALE_1, src_offset_disp));
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movaps(dest, xword[src_ptr + ADDROFFS_REG_1 + src_offset_disp]);
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break;
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case 3: // address offset 3
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MOVAPS(dest, MComplex(src_ptr, LOOPCOUNT_REG, SCALE_1, src_offset_disp));
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movaps(dest, xword[src_ptr + LOOPCOUNT_REG + src_offset_disp]);
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break;
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default:
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UNREACHABLE();
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@ -220,7 +230,7 @@ void JitShader::Compile_SwizzleSrc(Instruction instr, unsigned src_num, SourceRe
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}
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} else {
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// Load the source
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MOVAPS(dest, MDisp(src_ptr, src_offset_disp));
|
||||
movaps(dest, xword[src_ptr + src_offset_disp]);
|
||||
}
|
||||
|
||||
SwizzlePattern swiz = {g_state.vs.swizzle_data[operand_desc_id]};
|
||||
|
@ -232,17 +242,17 @@ void JitShader::Compile_SwizzleSrc(Instruction instr, unsigned src_num, SourceRe
|
|||
sel = ((sel & 0xc0) >> 6) | ((sel & 3) << 6) | ((sel & 0xc) << 2) | ((sel & 0x30) >> 2);
|
||||
|
||||
// Shuffle inputs for swizzle
|
||||
SHUFPS(dest, R(dest), sel);
|
||||
shufps(dest, dest, sel);
|
||||
}
|
||||
|
||||
// If the source register should be negated, flip the negative bit using XOR
|
||||
const bool negate[] = {swiz.negate_src1, swiz.negate_src2, swiz.negate_src3};
|
||||
if (negate[src_num - 1]) {
|
||||
XORPS(dest, R(NEGBIT));
|
||||
xorps(dest, NEGBIT);
|
||||
}
|
||||
}
|
||||
|
||||
void JitShader::Compile_DestEnable(Instruction instr, X64Reg src) {
|
||||
void JitShader::Compile_DestEnable(Instruction instr, Xmm src) {
|
||||
DestRegister dest;
|
||||
unsigned operand_desc_id;
|
||||
if (instr.opcode.Value().EffectiveOpCode() == OpCode::Id::MAD ||
|
||||
|
@ -263,21 +273,21 @@ void JitShader::Compile_DestEnable(Instruction instr, X64Reg src) {
|
|||
// If all components are enabled, write the result to the destination register
|
||||
if (swiz.dest_mask == NO_DEST_REG_MASK) {
|
||||
// Store dest back to memory
|
||||
MOVAPS(MDisp(STATE, dest_offset_disp), src);
|
||||
movaps(xword[STATE + dest_offset_disp], src);
|
||||
|
||||
} else {
|
||||
// Not all components are enabled, so mask the result when storing to the destination
|
||||
// register...
|
||||
MOVAPS(SCRATCH, MDisp(STATE, dest_offset_disp));
|
||||
movaps(SCRATCH, xword[STATE + dest_offset_disp]);
|
||||
|
||||
if (Common::GetCPUCaps().sse4_1) {
|
||||
u8 mask = ((swiz.dest_mask & 1) << 3) | ((swiz.dest_mask & 8) >> 3) |
|
||||
((swiz.dest_mask & 2) << 1) | ((swiz.dest_mask & 4) >> 1);
|
||||
BLENDPS(SCRATCH, R(src), mask);
|
||||
blendps(SCRATCH, src, mask);
|
||||
} else {
|
||||
MOVAPS(SCRATCH2, R(src));
|
||||
UNPCKHPS(SCRATCH2, R(SCRATCH)); // Unpack X/Y components of source and destination
|
||||
UNPCKLPS(SCRATCH, R(src)); // Unpack Z/W components of source and destination
|
||||
movaps(SCRATCH2, src);
|
||||
unpckhps(SCRATCH2, SCRATCH); // Unpack X/Y components of source and destination
|
||||
unpcklps(SCRATCH, src); // Unpack Z/W components of source and destination
|
||||
|
||||
// Compute selector to selectively copy source components to destination for SHUFPS
|
||||
// instruction
|
||||
|
@ -285,62 +295,62 @@ void JitShader::Compile_DestEnable(Instruction instr, X64Reg src) {
|
|||
((swiz.DestComponentEnabled(1) ? 3 : 2) << 2) |
|
||||
((swiz.DestComponentEnabled(2) ? 0 : 1) << 4) |
|
||||
((swiz.DestComponentEnabled(3) ? 2 : 3) << 6);
|
||||
SHUFPS(SCRATCH, R(SCRATCH2), sel);
|
||||
shufps(SCRATCH, SCRATCH2, sel);
|
||||
}
|
||||
|
||||
// Store dest back to memory
|
||||
MOVAPS(MDisp(STATE, dest_offset_disp), SCRATCH);
|
||||
movaps(xword[STATE + dest_offset_disp], SCRATCH);
|
||||
}
|
||||
}
|
||||
|
||||
void JitShader::Compile_SanitizedMul(Gen::X64Reg src1, Gen::X64Reg src2, Gen::X64Reg scratch) {
|
||||
MOVAPS(scratch, R(src1));
|
||||
CMPPS(scratch, R(src2), CMP_ORD);
|
||||
void JitShader::Compile_SanitizedMul(Xmm src1, Xmm src2, Xmm scratch) {
|
||||
movaps(scratch, src1);
|
||||
cmpordps(scratch, src2);
|
||||
|
||||
MULPS(src1, R(src2));
|
||||
mulps(src1, src2);
|
||||
|
||||
MOVAPS(src2, R(src1));
|
||||
CMPPS(src2, R(src2), CMP_UNORD);
|
||||
movaps(src2, src1);
|
||||
cmpunordps(src2, src2);
|
||||
|
||||
XORPS(scratch, R(src2));
|
||||
ANDPS(src1, R(scratch));
|
||||
xorps(scratch, src2);
|
||||
andps(src1, scratch);
|
||||
}
|
||||
|
||||
void JitShader::Compile_EvaluateCondition(Instruction instr) {
|
||||
// Note: NXOR is used below to check for equality
|
||||
switch (instr.flow_control.op) {
|
||||
case Instruction::FlowControlType::Or:
|
||||
MOV(32, R(RAX), R(COND0));
|
||||
MOV(32, R(RBX), R(COND1));
|
||||
XOR(32, R(RAX), Imm32(instr.flow_control.refx.Value() ^ 1));
|
||||
XOR(32, R(RBX), Imm32(instr.flow_control.refy.Value() ^ 1));
|
||||
OR(32, R(RAX), R(RBX));
|
||||
mov(eax, COND0);
|
||||
mov(ebx, COND1);
|
||||
xor(eax, (instr.flow_control.refx.Value() ^ 1));
|
||||
xor(ebx, (instr.flow_control.refy.Value() ^ 1));
|
||||
or (eax, ebx);
|
||||
break;
|
||||
|
||||
case Instruction::FlowControlType::And:
|
||||
MOV(32, R(RAX), R(COND0));
|
||||
MOV(32, R(RBX), R(COND1));
|
||||
XOR(32, R(RAX), Imm32(instr.flow_control.refx.Value() ^ 1));
|
||||
XOR(32, R(RBX), Imm32(instr.flow_control.refy.Value() ^ 1));
|
||||
AND(32, R(RAX), R(RBX));
|
||||
mov(eax, COND0);
|
||||
mov(ebx, COND1);
|
||||
xor(eax, (instr.flow_control.refx.Value() ^ 1));
|
||||
xor(ebx, (instr.flow_control.refy.Value() ^ 1));
|
||||
and(eax, ebx);
|
||||
break;
|
||||
|
||||
case Instruction::FlowControlType::JustX:
|
||||
MOV(32, R(RAX), R(COND0));
|
||||
XOR(32, R(RAX), Imm32(instr.flow_control.refx.Value() ^ 1));
|
||||
mov(eax, COND0);
|
||||
xor(eax, (instr.flow_control.refx.Value() ^ 1));
|
||||
break;
|
||||
|
||||
case Instruction::FlowControlType::JustY:
|
||||
MOV(32, R(RAX), R(COND1));
|
||||
XOR(32, R(RAX), Imm32(instr.flow_control.refy.Value() ^ 1));
|
||||
mov(eax, COND1);
|
||||
xor(eax, (instr.flow_control.refy.Value() ^ 1));
|
||||
break;
|
||||
}
|
||||
}
|
||||
|
||||
void JitShader::Compile_UniformCondition(Instruction instr) {
|
||||
int offset =
|
||||
size_t offset =
|
||||
ShaderSetup::UniformOffset(RegisterType::BoolUniform, instr.flow_control.bool_uniform_id);
|
||||
CMP(sizeof(bool) * 8, MDisp(SETUP, offset), Imm8(0));
|
||||
cmp(byte[SETUP + offset], 0);
|
||||
}
|
||||
|
||||
BitSet32 JitShader::PersistentCallerSavedRegs() {
|
||||
|
@ -350,7 +360,7 @@ BitSet32 JitShader::PersistentCallerSavedRegs() {
|
|||
void JitShader::Compile_ADD(Instruction instr) {
|
||||
Compile_SwizzleSrc(instr, 1, instr.common.src1, SRC1);
|
||||
Compile_SwizzleSrc(instr, 2, instr.common.src2, SRC2);
|
||||
ADDPS(SRC1, R(SRC2));
|
||||
addps(SRC1, SRC2);
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
}
|
||||
|
||||
|
@ -360,15 +370,15 @@ void JitShader::Compile_DP3(Instruction instr) {
|
|||
|
||||
Compile_SanitizedMul(SRC1, SRC2, SCRATCH);
|
||||
|
||||
MOVAPS(SRC2, R(SRC1));
|
||||
SHUFPS(SRC2, R(SRC2), _MM_SHUFFLE(1, 1, 1, 1));
|
||||
movaps(SRC2, SRC1);
|
||||
shufps(SRC2, SRC2, _MM_SHUFFLE(1, 1, 1, 1));
|
||||
|
||||
MOVAPS(SRC3, R(SRC1));
|
||||
SHUFPS(SRC3, R(SRC3), _MM_SHUFFLE(2, 2, 2, 2));
|
||||
movaps(SRC3, SRC1);
|
||||
shufps(SRC3, SRC3, _MM_SHUFFLE(2, 2, 2, 2));
|
||||
|
||||
SHUFPS(SRC1, R(SRC1), _MM_SHUFFLE(0, 0, 0, 0));
|
||||
ADDPS(SRC1, R(SRC2));
|
||||
ADDPS(SRC1, R(SRC3));
|
||||
shufps(SRC1, SRC1, _MM_SHUFFLE(0, 0, 0, 0));
|
||||
addps(SRC1, SRC2);
|
||||
addps(SRC1, SRC3);
|
||||
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
}
|
||||
|
@ -379,13 +389,13 @@ void JitShader::Compile_DP4(Instruction instr) {
|
|||
|
||||
Compile_SanitizedMul(SRC1, SRC2, SCRATCH);
|
||||
|
||||
MOVAPS(SRC2, R(SRC1));
|
||||
SHUFPS(SRC1, R(SRC1), _MM_SHUFFLE(2, 3, 0, 1)); // XYZW -> ZWXY
|
||||
ADDPS(SRC1, R(SRC2));
|
||||
movaps(SRC2, SRC1);
|
||||
shufps(SRC1, SRC1, _MM_SHUFFLE(2, 3, 0, 1)); // XYZW -> ZWXY
|
||||
addps(SRC1, SRC2);
|
||||
|
||||
MOVAPS(SRC2, R(SRC1));
|
||||
SHUFPS(SRC1, R(SRC1), _MM_SHUFFLE(0, 1, 2, 3)); // XYZW -> WZYX
|
||||
ADDPS(SRC1, R(SRC2));
|
||||
movaps(SRC2, SRC1);
|
||||
shufps(SRC1, SRC1, _MM_SHUFFLE(0, 1, 2, 3)); // XYZW -> WZYX
|
||||
addps(SRC1, SRC2);
|
||||
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
}
|
||||
|
@ -401,50 +411,50 @@ void JitShader::Compile_DPH(Instruction instr) {
|
|||
|
||||
if (Common::GetCPUCaps().sse4_1) {
|
||||
// Set 4th component to 1.0
|
||||
BLENDPS(SRC1, R(ONE), 0x8); // 0b1000
|
||||
blendps(SRC1, ONE, 0b1000);
|
||||
} else {
|
||||
// Set 4th component to 1.0
|
||||
MOVAPS(SCRATCH, R(SRC1));
|
||||
UNPCKHPS(SCRATCH, R(ONE)); // XYZW, 1111 -> Z1__
|
||||
UNPCKLPD(SRC1, R(SCRATCH)); // XYZW, Z1__ -> XYZ1
|
||||
movaps(SCRATCH, SRC1);
|
||||
unpckhps(SCRATCH, ONE); // XYZW, 1111 -> Z1__
|
||||
unpcklpd(SRC1, SCRATCH); // XYZW, Z1__ -> XYZ1
|
||||
}
|
||||
|
||||
Compile_SanitizedMul(SRC1, SRC2, SCRATCH);
|
||||
|
||||
MOVAPS(SRC2, R(SRC1));
|
||||
SHUFPS(SRC1, R(SRC1), _MM_SHUFFLE(2, 3, 0, 1)); // XYZW -> ZWXY
|
||||
ADDPS(SRC1, R(SRC2));
|
||||
movaps(SRC2, SRC1);
|
||||
shufps(SRC1, SRC1, _MM_SHUFFLE(2, 3, 0, 1)); // XYZW -> ZWXY
|
||||
addps(SRC1, SRC2);
|
||||
|
||||
MOVAPS(SRC2, R(SRC1));
|
||||
SHUFPS(SRC1, R(SRC1), _MM_SHUFFLE(0, 1, 2, 3)); // XYZW -> WZYX
|
||||
ADDPS(SRC1, R(SRC2));
|
||||
movaps(SRC2, SRC1);
|
||||
shufps(SRC1, SRC1, _MM_SHUFFLE(0, 1, 2, 3)); // XYZW -> WZYX
|
||||
addps(SRC1, SRC2);
|
||||
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
}
|
||||
|
||||
void JitShader::Compile_EX2(Instruction instr) {
|
||||
Compile_SwizzleSrc(instr, 1, instr.common.src1, SRC1);
|
||||
MOVSS(XMM0, R(SRC1));
|
||||
movss(xmm0, SRC1); // ABI_PARAM1
|
||||
|
||||
ABI_PushRegistersAndAdjustStack(PersistentCallerSavedRegs(), 0);
|
||||
ABI_CallFunction(reinterpret_cast<const void*>(exp2f));
|
||||
ABI_PopRegistersAndAdjustStack(PersistentCallerSavedRegs(), 0);
|
||||
ABI_PushRegistersAndAdjustStack(*this, PersistentCallerSavedRegs(), 0);
|
||||
CallFarFunction(*this, exp2f);
|
||||
ABI_PopRegistersAndAdjustStack(*this, PersistentCallerSavedRegs(), 0);
|
||||
|
||||
SHUFPS(XMM0, R(XMM0), _MM_SHUFFLE(0, 0, 0, 0));
|
||||
MOVAPS(SRC1, R(XMM0));
|
||||
shufps(xmm0, xmm0, _MM_SHUFFLE(0, 0, 0, 0)); // ABI_RETURN
|
||||
movaps(SRC1, xmm0);
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
}
|
||||
|
||||
void JitShader::Compile_LG2(Instruction instr) {
|
||||
Compile_SwizzleSrc(instr, 1, instr.common.src1, SRC1);
|
||||
MOVSS(XMM0, R(SRC1));
|
||||
movss(xmm0, SRC1); // ABI_PARAM1
|
||||
|
||||
ABI_PushRegistersAndAdjustStack(PersistentCallerSavedRegs(), 0);
|
||||
ABI_CallFunction(reinterpret_cast<const void*>(log2f));
|
||||
ABI_PopRegistersAndAdjustStack(PersistentCallerSavedRegs(), 0);
|
||||
ABI_PushRegistersAndAdjustStack(*this, PersistentCallerSavedRegs(), 0);
|
||||
CallFarFunction(*this, log2f);
|
||||
ABI_PopRegistersAndAdjustStack(*this, PersistentCallerSavedRegs(), 0);
|
||||
|
||||
SHUFPS(XMM0, R(XMM0), _MM_SHUFFLE(0, 0, 0, 0));
|
||||
MOVAPS(SRC1, R(XMM0));
|
||||
shufps(xmm0, xmm0, _MM_SHUFFLE(0, 0, 0, 0)); // ABI_RETURN
|
||||
movaps(SRC1, xmm0);
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
}
|
||||
|
||||
|
@ -464,8 +474,8 @@ void JitShader::Compile_SGE(Instruction instr) {
|
|||
Compile_SwizzleSrc(instr, 2, instr.common.src2, SRC2);
|
||||
}
|
||||
|
||||
CMPPS(SRC2, R(SRC1), CMP_LE);
|
||||
ANDPS(SRC2, R(ONE));
|
||||
cmpleps(SRC2, SRC1);
|
||||
andps(SRC2, ONE);
|
||||
|
||||
Compile_DestEnable(instr, SRC2);
|
||||
}
|
||||
|
@ -479,8 +489,8 @@ void JitShader::Compile_SLT(Instruction instr) {
|
|||
Compile_SwizzleSrc(instr, 2, instr.common.src2, SRC2);
|
||||
}
|
||||
|
||||
CMPPS(SRC1, R(SRC2), CMP_LT);
|
||||
ANDPS(SRC1, R(ONE));
|
||||
cmpltps(SRC1, SRC2);
|
||||
andps(SRC1, ONE);
|
||||
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
}
|
||||
|
@ -489,10 +499,10 @@ void JitShader::Compile_FLR(Instruction instr) {
|
|||
Compile_SwizzleSrc(instr, 1, instr.common.src1, SRC1);
|
||||
|
||||
if (Common::GetCPUCaps().sse4_1) {
|
||||
ROUNDFLOORPS(SRC1, R(SRC1));
|
||||
roundps(SRC1, SRC1, _MM_FROUND_FLOOR);
|
||||
} else {
|
||||
CVTTPS2DQ(SRC1, R(SRC1));
|
||||
CVTDQ2PS(SRC1, R(SRC1));
|
||||
cvttps2dq(SRC1, SRC1);
|
||||
cvtdq2ps(SRC1, SRC1);
|
||||
}
|
||||
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
|
@ -502,7 +512,7 @@ void JitShader::Compile_MAX(Instruction instr) {
|
|||
Compile_SwizzleSrc(instr, 1, instr.common.src1, SRC1);
|
||||
Compile_SwizzleSrc(instr, 2, instr.common.src2, SRC2);
|
||||
// SSE semantics match PICA200 ones: In case of NaN, SRC2 is returned.
|
||||
MAXPS(SRC1, R(SRC2));
|
||||
maxps(SRC1, SRC2);
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
}
|
||||
|
||||
|
@ -510,7 +520,7 @@ void JitShader::Compile_MIN(Instruction instr) {
|
|||
Compile_SwizzleSrc(instr, 1, instr.common.src1, SRC1);
|
||||
Compile_SwizzleSrc(instr, 2, instr.common.src2, SRC2);
|
||||
// SSE semantics match PICA200 ones: In case of NaN, SRC2 is returned.
|
||||
MINPS(SRC1, R(SRC2));
|
||||
minps(SRC1, SRC2);
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
}
|
||||
|
||||
|
@ -524,37 +534,37 @@ void JitShader::Compile_MOVA(Instruction instr) {
|
|||
Compile_SwizzleSrc(instr, 1, instr.common.src1, SRC1);
|
||||
|
||||
// Convert floats to integers using truncation (only care about X and Y components)
|
||||
CVTTPS2DQ(SRC1, R(SRC1));
|
||||
cvttps2dq(SRC1, SRC1);
|
||||
|
||||
// Get result
|
||||
MOVQ_xmm(R(RAX), SRC1);
|
||||
movq(rax, SRC1);
|
||||
|
||||
// Handle destination enable
|
||||
if (swiz.DestComponentEnabled(0) && swiz.DestComponentEnabled(1)) {
|
||||
// Move and sign-extend low 32 bits
|
||||
MOVSX(64, 32, ADDROFFS_REG_0, R(RAX));
|
||||
movsxd(ADDROFFS_REG_0, eax);
|
||||
|
||||
// Move and sign-extend high 32 bits
|
||||
SHR(64, R(RAX), Imm8(32));
|
||||
MOVSX(64, 32, ADDROFFS_REG_1, R(RAX));
|
||||
shr(rax, 32);
|
||||
movsxd(ADDROFFS_REG_1, eax);
|
||||
|
||||
// Multiply by 16 to be used as an offset later
|
||||
SHL(64, R(ADDROFFS_REG_0), Imm8(4));
|
||||
SHL(64, R(ADDROFFS_REG_1), Imm8(4));
|
||||
shl(ADDROFFS_REG_0, 4);
|
||||
shl(ADDROFFS_REG_1, 4);
|
||||
} else {
|
||||
if (swiz.DestComponentEnabled(0)) {
|
||||
// Move and sign-extend low 32 bits
|
||||
MOVSX(64, 32, ADDROFFS_REG_0, R(RAX));
|
||||
movsxd(ADDROFFS_REG_0, eax);
|
||||
|
||||
// Multiply by 16 to be used as an offset later
|
||||
SHL(64, R(ADDROFFS_REG_0), Imm8(4));
|
||||
shl(ADDROFFS_REG_0, 4);
|
||||
} else if (swiz.DestComponentEnabled(1)) {
|
||||
// Move and sign-extend high 32 bits
|
||||
SHR(64, R(RAX), Imm8(32));
|
||||
MOVSX(64, 32, ADDROFFS_REG_1, R(RAX));
|
||||
shr(rax, 32);
|
||||
movsxd(ADDROFFS_REG_1, eax);
|
||||
|
||||
// Multiply by 16 to be used as an offset later
|
||||
SHL(64, R(ADDROFFS_REG_1), Imm8(4));
|
||||
shl(ADDROFFS_REG_1, 4);
|
||||
}
|
||||
}
|
||||
}
|
||||
|
@ -569,8 +579,8 @@ void JitShader::Compile_RCP(Instruction instr) {
|
|||
|
||||
// TODO(bunnei): RCPSS is a pretty rough approximation, this might cause problems if Pica
|
||||
// performs this operation more accurately. This should be checked on hardware.
|
||||
RCPSS(SRC1, R(SRC1));
|
||||
SHUFPS(SRC1, R(SRC1), _MM_SHUFFLE(0, 0, 0, 0)); // XYWZ -> XXXX
|
||||
rcpss(SRC1, SRC1);
|
||||
shufps(SRC1, SRC1, _MM_SHUFFLE(0, 0, 0, 0)); // XYWZ -> XXXX
|
||||
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
}
|
||||
|
@ -580,8 +590,8 @@ void JitShader::Compile_RSQ(Instruction instr) {
|
|||
|
||||
// TODO(bunnei): RSQRTSS is a pretty rough approximation, this might cause problems if Pica
|
||||
// performs this operation more accurately. This should be checked on hardware.
|
||||
RSQRTSS(SRC1, R(SRC1));
|
||||
SHUFPS(SRC1, R(SRC1), _MM_SHUFFLE(0, 0, 0, 0)); // XYWZ -> XXXX
|
||||
rsqrtss(SRC1, SRC1);
|
||||
shufps(SRC1, SRC1, _MM_SHUFFLE(0, 0, 0, 0)); // XYWZ -> XXXX
|
||||
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
}
|
||||
|
@ -589,34 +599,35 @@ void JitShader::Compile_RSQ(Instruction instr) {
|
|||
void JitShader::Compile_NOP(Instruction instr) {}
|
||||
|
||||
void JitShader::Compile_END(Instruction instr) {
|
||||
ABI_PopRegistersAndAdjustStack(ABI_ALL_CALLEE_SAVED, 8);
|
||||
RET();
|
||||
ABI_PopRegistersAndAdjustStack(*this, ABI_ALL_CALLEE_SAVED, 8);
|
||||
ret();
|
||||
}
|
||||
|
||||
void JitShader::Compile_CALL(Instruction instr) {
|
||||
// Push offset of the return
|
||||
PUSH(64, Imm32(instr.flow_control.dest_offset + instr.flow_control.num_instructions));
|
||||
push(qword, (instr.flow_control.dest_offset + instr.flow_control.num_instructions));
|
||||
|
||||
// Call the subroutine
|
||||
FixupBranch b = CALL();
|
||||
fixup_branches.push_back({b, instr.flow_control.dest_offset});
|
||||
call(instruction_labels[instr.flow_control.dest_offset]);
|
||||
|
||||
// Skip over the return offset that's on the stack
|
||||
ADD(64, R(RSP), Imm32(8));
|
||||
add(rsp, 8);
|
||||
}
|
||||
|
||||
void JitShader::Compile_CALLC(Instruction instr) {
|
||||
Compile_EvaluateCondition(instr);
|
||||
FixupBranch b = J_CC(CC_Z, true);
|
||||
Label b;
|
||||
jz(b);
|
||||
Compile_CALL(instr);
|
||||
SetJumpTarget(b);
|
||||
L(b);
|
||||
}
|
||||
|
||||
void JitShader::Compile_CALLU(Instruction instr) {
|
||||
Compile_UniformCondition(instr);
|
||||
FixupBranch b = J_CC(CC_Z, true);
|
||||
Label b;
|
||||
jz(b);
|
||||
Compile_CALL(instr);
|
||||
SetJumpTarget(b);
|
||||
L(b);
|
||||
}
|
||||
|
||||
void JitShader::Compile_CMP(Instruction instr) {
|
||||
|
@ -633,33 +644,33 @@ void JitShader::Compile_CMP(Instruction instr) {
|
|||
static const u8 cmp[] = {CMP_EQ, CMP_NEQ, CMP_LT, CMP_LE, CMP_LT, CMP_LE};
|
||||
|
||||
bool invert_op_x = (op_x == Op::GreaterThan || op_x == Op::GreaterEqual);
|
||||
Gen::X64Reg lhs_x = invert_op_x ? SRC2 : SRC1;
|
||||
Gen::X64Reg rhs_x = invert_op_x ? SRC1 : SRC2;
|
||||
Xmm lhs_x = invert_op_x ? SRC2 : SRC1;
|
||||
Xmm rhs_x = invert_op_x ? SRC1 : SRC2;
|
||||
|
||||
if (op_x == op_y) {
|
||||
// Compare X-component and Y-component together
|
||||
CMPPS(lhs_x, R(rhs_x), cmp[op_x]);
|
||||
MOVQ_xmm(R(COND0), lhs_x);
|
||||
cmpps(lhs_x, rhs_x, cmp[op_x]);
|
||||
movq(COND0, lhs_x);
|
||||
|
||||
MOV(64, R(COND1), R(COND0));
|
||||
mov(COND1, COND0);
|
||||
} else {
|
||||
bool invert_op_y = (op_y == Op::GreaterThan || op_y == Op::GreaterEqual);
|
||||
Gen::X64Reg lhs_y = invert_op_y ? SRC2 : SRC1;
|
||||
Gen::X64Reg rhs_y = invert_op_y ? SRC1 : SRC2;
|
||||
Xmm lhs_y = invert_op_y ? SRC2 : SRC1;
|
||||
Xmm rhs_y = invert_op_y ? SRC1 : SRC2;
|
||||
|
||||
// Compare X-component
|
||||
MOVAPS(SCRATCH, R(lhs_x));
|
||||
CMPSS(SCRATCH, R(rhs_x), cmp[op_x]);
|
||||
movaps(SCRATCH, lhs_x);
|
||||
cmpss(SCRATCH, rhs_x, cmp[op_x]);
|
||||
|
||||
// Compare Y-component
|
||||
CMPPS(lhs_y, R(rhs_y), cmp[op_y]);
|
||||
cmpps(lhs_y, rhs_y, cmp[op_y]);
|
||||
|
||||
MOVQ_xmm(R(COND0), SCRATCH);
|
||||
MOVQ_xmm(R(COND1), lhs_y);
|
||||
movq(COND0, SCRATCH);
|
||||
movq(COND1, lhs_y);
|
||||
}
|
||||
|
||||
SHR(32, R(COND0), Imm8(31));
|
||||
SHR(64, R(COND1), Imm8(63));
|
||||
shr(COND0.cvt32(), 31); // ignores upper 32 bits in source
|
||||
shr(COND1, 63);
|
||||
}
|
||||
|
||||
void JitShader::Compile_MAD(Instruction instr) {
|
||||
|
@ -674,7 +685,7 @@ void JitShader::Compile_MAD(Instruction instr) {
|
|||
}
|
||||
|
||||
Compile_SanitizedMul(SRC1, SRC2, SCRATCH);
|
||||
ADDPS(SRC1, R(SRC3));
|
||||
addps(SRC1, SRC3);
|
||||
|
||||
Compile_DestEnable(instr, SRC1);
|
||||
}
|
||||
|
@ -682,6 +693,7 @@ void JitShader::Compile_MAD(Instruction instr) {
|
|||
void JitShader::Compile_IF(Instruction instr) {
|
||||
Compile_Assert(instr.flow_control.dest_offset >= program_counter,
|
||||
"Backwards if-statements not supported");
|
||||
Label l_else, l_endif;
|
||||
|
||||
// Evaluate the "IF" condition
|
||||
if (instr.opcode.Value() == OpCode::Id::IFU) {
|
||||
|
@ -689,26 +701,25 @@ void JitShader::Compile_IF(Instruction instr) {
|
|||
} else if (instr.opcode.Value() == OpCode::Id::IFC) {
|
||||
Compile_EvaluateCondition(instr);
|
||||
}
|
||||
FixupBranch b = J_CC(CC_Z, true);
|
||||
jz(l_else, T_NEAR);
|
||||
|
||||
// Compile the code that corresponds to the condition evaluating as true
|
||||
Compile_Block(instr.flow_control.dest_offset);
|
||||
|
||||
// If there isn't an "ELSE" condition, we are done here
|
||||
if (instr.flow_control.num_instructions == 0) {
|
||||
SetJumpTarget(b);
|
||||
L(l_else);
|
||||
return;
|
||||
}
|
||||
|
||||
FixupBranch b2 = J(true);
|
||||
|
||||
SetJumpTarget(b);
|
||||
jmp(l_endif, T_NEAR);
|
||||
|
||||
L(l_else);
|
||||
// This code corresponds to the "ELSE" condition
|
||||
// Comple the code that corresponds to the condition evaluating as false
|
||||
Compile_Block(instr.flow_control.dest_offset + instr.flow_control.num_instructions);
|
||||
|
||||
SetJumpTarget(b2);
|
||||
L(l_endif);
|
||||
}
|
||||
|
||||
void JitShader::Compile_LOOP(Instruction instr) {
|
||||
|
@ -721,25 +732,26 @@ void JitShader::Compile_LOOP(Instruction instr) {
|
|||
// This decodes the fields from the integer uniform at index instr.flow_control.int_uniform_id.
|
||||
// The Y (LOOPCOUNT_REG) and Z (LOOPINC) component are kept multiplied by 16 (Left shifted by
|
||||
// 4 bits) to be used as an offset into the 16-byte vector registers later
|
||||
int offset =
|
||||
size_t offset =
|
||||
ShaderSetup::UniformOffset(RegisterType::IntUniform, instr.flow_control.int_uniform_id);
|
||||
MOV(32, R(LOOPCOUNT), MDisp(SETUP, offset));
|
||||
MOV(32, R(LOOPCOUNT_REG), R(LOOPCOUNT));
|
||||
SHR(32, R(LOOPCOUNT_REG), Imm8(4));
|
||||
AND(32, R(LOOPCOUNT_REG), Imm32(0xFF0)); // Y-component is the start
|
||||
MOV(32, R(LOOPINC), R(LOOPCOUNT));
|
||||
SHR(32, R(LOOPINC), Imm8(12));
|
||||
AND(32, R(LOOPINC), Imm32(0xFF0)); // Z-component is the incrementer
|
||||
MOVZX(32, 8, LOOPCOUNT, R(LOOPCOUNT)); // X-component is iteration count
|
||||
ADD(32, R(LOOPCOUNT), Imm8(1)); // Iteration count is X-component + 1
|
||||
mov(LOOPCOUNT.cvt32(), dword[SETUP + offset]);
|
||||
mov(LOOPCOUNT_REG.cvt32(), LOOPCOUNT.cvt32());
|
||||
shr(LOOPCOUNT_REG.cvt32(), 4);
|
||||
and(LOOPCOUNT_REG.cvt32(), 0xFF0); // Y-component is the start
|
||||
mov(LOOPINC.cvt32(), LOOPCOUNT.cvt32());
|
||||
shr(LOOPINC.cvt32(), 12);
|
||||
and(LOOPINC.cvt32(), 0xFF0); // Z-component is the incrementer
|
||||
movzx(LOOPCOUNT.cvt32(), LOOPCOUNT.cvt8()); // X-component is iteration count
|
||||
add(LOOPCOUNT.cvt32(), 1); // Iteration count is X-component + 1
|
||||
|
||||
auto loop_start = GetCodePtr();
|
||||
Label l_loop_start;
|
||||
L(l_loop_start);
|
||||
|
||||
Compile_Block(instr.flow_control.dest_offset + 1);
|
||||
|
||||
ADD(32, R(LOOPCOUNT_REG), R(LOOPINC)); // Increment LOOPCOUNT_REG by Z-component
|
||||
SUB(32, R(LOOPCOUNT), Imm8(1)); // Increment loop count by 1
|
||||
J_CC(CC_NZ, loop_start); // Loop if not equal
|
||||
add(LOOPCOUNT_REG.cvt32(), LOOPINC.cvt32()); // Increment LOOPCOUNT_REG by Z-component
|
||||
sub(LOOPCOUNT.cvt32(), 1); // Increment loop count by 1
|
||||
jnz(l_loop_start); // Loop if not equal
|
||||
|
||||
looping = false;
|
||||
}
|
||||
|
@ -755,8 +767,12 @@ void JitShader::Compile_JMP(Instruction instr) {
|
|||
bool inverted_condition =
|
||||
(instr.opcode.Value() == OpCode::Id::JMPU) && (instr.flow_control.num_instructions & 1);
|
||||
|
||||
FixupBranch b = J_CC(inverted_condition ? CC_Z : CC_NZ, true);
|
||||
fixup_branches.push_back({b, instr.flow_control.dest_offset});
|
||||
Label& b = instruction_labels[instr.flow_control.dest_offset];
|
||||
if (inverted_condition) {
|
||||
jz(b, T_NEAR);
|
||||
} else {
|
||||
jnz(b, T_NEAR);
|
||||
}
|
||||
}
|
||||
|
||||
void JitShader::Compile_Block(unsigned end) {
|
||||
|
@ -767,13 +783,14 @@ void JitShader::Compile_Block(unsigned end) {
|
|||
|
||||
void JitShader::Compile_Return() {
|
||||
// Peek return offset on the stack and check if we're at that offset
|
||||
MOV(64, R(RAX), MDisp(RSP, 8));
|
||||
CMP(32, R(RAX), Imm32(program_counter));
|
||||
mov(rax, qword[rsp + 8]);
|
||||
cmp(eax, (program_counter));
|
||||
|
||||
// If so, jump back to before CALL
|
||||
FixupBranch b = J_CC(CC_NZ, true);
|
||||
RET();
|
||||
SetJumpTarget(b);
|
||||
Label b;
|
||||
jnz(b);
|
||||
ret();
|
||||
L(b);
|
||||
}
|
||||
|
||||
void JitShader::Compile_NextInstr() {
|
||||
|
@ -781,9 +798,7 @@ void JitShader::Compile_NextInstr() {
|
|||
Compile_Return();
|
||||
}
|
||||
|
||||
ASSERT_MSG(code_ptr[program_counter] == nullptr,
|
||||
"Tried to compile already compiled shader location!");
|
||||
code_ptr[program_counter] = GetCodePtr();
|
||||
L(instruction_labels[program_counter]);
|
||||
|
||||
Instruction instr = GetVertexShaderInstruction(program_counter++);
|
||||
|
||||
|
@ -824,64 +839,53 @@ void JitShader::FindReturnOffsets() {
|
|||
|
||||
void JitShader::Compile() {
|
||||
// Reset flow control state
|
||||
program = (CompiledShader*)GetCodePtr();
|
||||
program = (CompiledShader*)getCurr();
|
||||
program_counter = 0;
|
||||
looping = false;
|
||||
code_ptr.fill(nullptr);
|
||||
fixup_branches.clear();
|
||||
instruction_labels.fill(Xbyak::Label());
|
||||
|
||||
// Find all `CALL` instructions and identify return locations
|
||||
FindReturnOffsets();
|
||||
|
||||
// The stack pointer is 8 modulo 16 at the entry of a procedure
|
||||
ABI_PushRegistersAndAdjustStack(ABI_ALL_CALLEE_SAVED, 8);
|
||||
ABI_PushRegistersAndAdjustStack(*this, ABI_ALL_CALLEE_SAVED, 8);
|
||||
|
||||
MOV(PTRBITS, R(SETUP), R(ABI_PARAM1));
|
||||
MOV(PTRBITS, R(STATE), R(ABI_PARAM2));
|
||||
mov(SETUP, ABI_PARAM1);
|
||||
mov(STATE, ABI_PARAM2);
|
||||
|
||||
// Zero address/loop registers
|
||||
XOR(64, R(ADDROFFS_REG_0), R(ADDROFFS_REG_0));
|
||||
XOR(64, R(ADDROFFS_REG_1), R(ADDROFFS_REG_1));
|
||||
XOR(64, R(LOOPCOUNT_REG), R(LOOPCOUNT_REG));
|
||||
xor(ADDROFFS_REG_0.cvt32(), ADDROFFS_REG_0.cvt32());
|
||||
xor(ADDROFFS_REG_1.cvt32(), ADDROFFS_REG_1.cvt32());
|
||||
xor(LOOPCOUNT_REG.cvt32(), LOOPCOUNT_REG.cvt32());
|
||||
|
||||
// Used to set a register to one
|
||||
static const __m128 one = {1.f, 1.f, 1.f, 1.f};
|
||||
MOV(PTRBITS, R(RAX), ImmPtr(&one));
|
||||
MOVAPS(ONE, MatR(RAX));
|
||||
mov(rax, reinterpret_cast<size_t>(&one));
|
||||
movaps(ONE, xword[rax]);
|
||||
|
||||
// Used to negate registers
|
||||
static const __m128 neg = {-0.f, -0.f, -0.f, -0.f};
|
||||
MOV(PTRBITS, R(RAX), ImmPtr(&neg));
|
||||
MOVAPS(NEGBIT, MatR(RAX));
|
||||
mov(rax, reinterpret_cast<size_t>(&neg));
|
||||
movaps(NEGBIT, xword[rax]);
|
||||
|
||||
// Jump to start of the shader program
|
||||
JMPptr(R(ABI_PARAM3));
|
||||
jmp(ABI_PARAM3);
|
||||
|
||||
// Compile entire program
|
||||
Compile_Block(static_cast<unsigned>(g_state.vs.program_code.size()));
|
||||
|
||||
// Set the target for any incomplete branches now that the entire shader program has been
|
||||
// emitted
|
||||
for (const auto& branch : fixup_branches) {
|
||||
SetJumpTarget(branch.first, code_ptr[branch.second]);
|
||||
}
|
||||
|
||||
// Free memory that's no longer needed
|
||||
return_offsets.clear();
|
||||
return_offsets.shrink_to_fit();
|
||||
fixup_branches.clear();
|
||||
fixup_branches.shrink_to_fit();
|
||||
|
||||
uintptr_t size =
|
||||
reinterpret_cast<uintptr_t>(GetCodePtr()) - reinterpret_cast<uintptr_t>(program);
|
||||
ready();
|
||||
|
||||
uintptr_t size = reinterpret_cast<uintptr_t>(getCurr()) - reinterpret_cast<uintptr_t>(program);
|
||||
ASSERT_MSG(size <= MAX_SHADER_SIZE, "Compiled a shader that exceeds the allocated size!");
|
||||
|
||||
LOG_DEBUG(HW_GPU, "Compiled shader size=%lu", size);
|
||||
}
|
||||
|
||||
JitShader::JitShader() {
|
||||
AllocCodeSpace(MAX_SHADER_SIZE);
|
||||
}
|
||||
JitShader::JitShader() : Xbyak::CodeGenerator(MAX_SHADER_SIZE) {}
|
||||
|
||||
} // namespace Shader
|
||||
|
||||
|
|
|
@ -9,6 +9,7 @@
|
|||
#include <utility>
|
||||
#include <vector>
|
||||
#include <nihstro/shader_bytecode.h>
|
||||
#include <xbyak.h>
|
||||
#include "common/bit_set.h"
|
||||
#include "common/common_types.h"
|
||||
#include "common/x64/emitter.h"
|
||||
|
@ -29,12 +30,12 @@ constexpr size_t MAX_SHADER_SIZE = 1024 * 64;
|
|||
* This class implements the shader JIT compiler. It recompiles a Pica shader program into x86_64
|
||||
* code that can be executed on the host machine directly.
|
||||
*/
|
||||
class JitShader : public Gen::XCodeBlock {
|
||||
class JitShader : public Xbyak::CodeGenerator {
|
||||
public:
|
||||
JitShader();
|
||||
|
||||
void Run(const ShaderSetup& setup, UnitState<false>& state, unsigned offset) const {
|
||||
program(&setup, &state, code_ptr[offset]);
|
||||
program(&setup, &state, instruction_labels[offset].getAddress());
|
||||
}
|
||||
|
||||
void Compile();
|
||||
|
@ -71,14 +72,14 @@ private:
|
|||
void Compile_NextInstr();
|
||||
|
||||
void Compile_SwizzleSrc(Instruction instr, unsigned src_num, SourceRegister src_reg,
|
||||
Gen::X64Reg dest);
|
||||
void Compile_DestEnable(Instruction instr, Gen::X64Reg dest);
|
||||
Xbyak::Xmm dest);
|
||||
void Compile_DestEnable(Instruction instr, Xbyak::Xmm dest);
|
||||
|
||||
/**
|
||||
* Compiles a `MUL src1, src2` operation, properly handling the PICA semantics when multiplying
|
||||
* zero by inf. Clobbers `src2` and `scratch`.
|
||||
*/
|
||||
void Compile_SanitizedMul(Gen::X64Reg src1, Gen::X64Reg src2, Gen::X64Reg scratch);
|
||||
void Compile_SanitizedMul(Xbyak::Xmm src1, Xbyak::Xmm src2, Xbyak::Xmm scratch);
|
||||
|
||||
void Compile_EvaluateCondition(Instruction instr);
|
||||
void Compile_UniformCondition(Instruction instr);
|
||||
|
@ -103,7 +104,7 @@ private:
|
|||
void FindReturnOffsets();
|
||||
|
||||
/// Mapping of Pica VS instructions to pointers in the emitted code
|
||||
std::array<const u8*, 1024> code_ptr;
|
||||
std::array<Xbyak::Label, 1024> instruction_labels;
|
||||
|
||||
/// Offsets in code where a return needs to be inserted
|
||||
std::vector<unsigned> return_offsets;
|
||||
|
@ -111,9 +112,6 @@ private:
|
|||
unsigned program_counter = 0; ///< Offset of the next instruction to decode
|
||||
bool looping = false; ///< True if compiling a loop, used to check for nested loops
|
||||
|
||||
/// Branches that need to be fixed up once the entire shader program is compiled
|
||||
std::vector<std::pair<Gen::FixupBranch, unsigned>> fixup_branches;
|
||||
|
||||
using CompiledShader = void(const void* setup, void* state, const u8* start_addr);
|
||||
CompiledShader* program = nullptr;
|
||||
};
|
||||
|
|
Loading…
Reference in a new issue