258 lines
6.3 KiB
C++
258 lines
6.3 KiB
C++
// This file is part of AsmJit project <https://asmjit.com>
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//
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// See asmjit.h or LICENSE.md for license and copyright information
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// SPDX-License-Identifier: Zlib
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#ifndef ASMJIT_TEST_MISC_H_INCLUDED
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#define ASMJIT_TEST_MISC_H_INCLUDED
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#include <asmjit/x86.h>
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namespace asmtest {
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using namespace asmjit;
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// Generates a typical alpha blend function that uses SSE2 instruction set.
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// This function combines emitting instructions with control flow constructs
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// like binding Labels and jumping to them. This should be pretty representative.
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template<typename Emitter>
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static void generateSseAlphaBlendInternal(
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Emitter& cc,
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const x86::Gp& dst, const x86::Gp& src, const x86::Gp& n,
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const x86::Gp& gp0,
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const x86::Xmm& simd0, const x86::Xmm& simd1, const x86::Xmm& simd2, const x86::Xmm& simd3,
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const x86::Xmm& simd4, const x86::Xmm& simd5, const x86::Xmm& simd6, const x86::Xmm& simd7) {
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x86::Gp i = n;
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x86::Gp j = gp0;
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x86::Xmm vzero = simd0;
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x86::Xmm v0080 = simd1;
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x86::Xmm v0101 = simd2;
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Label L_SmallLoop = cc.newLabel();
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Label L_SmallEnd = cc.newLabel();
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Label L_LargeLoop = cc.newLabel();
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Label L_LargeEnd = cc.newLabel();
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Label L_Done = cc.newLabel();
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// Load SIMD Constants.
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cc.xorps(vzero, vzero);
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cc.mov(gp0.r32(), 0x00800080);
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cc.movd(v0080, gp0.r32());
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cc.mov(gp0.r32(), 0x01010101);
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cc.movd(v0101, gp0.r32());
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cc.pshufd(v0080, v0080, x86::shuffleImm(0, 0, 0, 0));
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cc.pshufd(v0101, v0101, x86::shuffleImm(0, 0, 0, 0));
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// How many pixels have to be processed to make the loop aligned.
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cc.xor_(j, j);
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cc.sub(j, dst);
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cc.and_(j, 15);
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cc.shr(j, 2);
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cc.jz(L_SmallEnd);
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cc.cmp(j, i);
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cc.cmovg(j, i); // j = min(i, j)
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cc.sub(i, j); // i -= j
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// Small loop.
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cc.bind(L_SmallLoop);
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{
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x86::Xmm x0 = simd3;
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x86::Xmm y0 = simd4;
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x86::Xmm a0 = simd5;
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cc.movd(y0, x86::ptr(src));
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cc.movd(x0, x86::ptr(dst));
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cc.pcmpeqb(a0, a0);
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cc.pxor(a0, y0);
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cc.psrlw(a0, 8);
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cc.punpcklbw(x0, vzero);
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cc.pshuflw(a0, a0, x86::shuffleImm(1, 1, 1, 1));
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cc.punpcklbw(y0, vzero);
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cc.pmullw(x0, a0);
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cc.paddsw(x0, v0080);
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cc.pmulhuw(x0, v0101);
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cc.paddw(x0, y0);
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cc.packuswb(x0, x0);
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cc.movd(x86::ptr(dst), x0);
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cc.add(dst, 4);
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cc.add(src, 4);
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cc.dec(j);
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cc.jnz(L_SmallLoop);
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}
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// Second section, prepare for an aligned loop.
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cc.bind(L_SmallEnd);
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cc.test(i, i);
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cc.mov(j, i);
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cc.jz(L_Done);
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cc.and_(j, 3);
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cc.shr(i, 2);
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cc.jz(L_LargeEnd);
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// Aligned loop.
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cc.bind(L_LargeLoop);
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{
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x86::Xmm x0 = simd3;
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x86::Xmm x1 = simd4;
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x86::Xmm y0 = simd5;
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x86::Xmm a0 = simd6;
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x86::Xmm a1 = simd7;
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cc.movups(y0, x86::ptr(src));
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cc.movaps(x0, x86::ptr(dst));
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cc.pcmpeqb(a0, a0);
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cc.xorps(a0, y0);
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cc.movaps(x1, x0);
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cc.psrlw(a0, 8);
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cc.punpcklbw(x0, vzero);
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cc.movaps(a1, a0);
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cc.punpcklwd(a0, a0);
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cc.punpckhbw(x1, vzero);
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cc.punpckhwd(a1, a1);
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cc.pshufd(a0, a0, x86::shuffleImm(3, 3, 1, 1));
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cc.pshufd(a1, a1, x86::shuffleImm(3, 3, 1, 1));
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cc.pmullw(x0, a0);
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cc.pmullw(x1, a1);
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cc.paddsw(x0, v0080);
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cc.paddsw(x1, v0080);
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cc.pmulhuw(x0, v0101);
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cc.pmulhuw(x1, v0101);
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cc.add(src, 16);
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cc.packuswb(x0, x1);
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cc.paddw(x0, y0);
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cc.movaps(x86::ptr(dst), x0);
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cc.add(dst, 16);
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cc.dec(i);
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cc.jnz(L_LargeLoop);
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}
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cc.bind(L_LargeEnd);
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cc.test(j, j);
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cc.jnz(L_SmallLoop);
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cc.bind(L_Done);
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}
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static void generateSseAlphaBlend(asmjit::BaseEmitter& emitter, bool emitPrologEpilog) {
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using namespace asmjit::x86;
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if (emitter.isAssembler()) {
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Assembler& cc = *emitter.as<Assembler>();
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x86::Gp dst = cc.zax();
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x86::Gp src = cc.zcx();
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x86::Gp i = cc.zdx();
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x86::Gp j = cc.zdi();
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if (emitPrologEpilog) {
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FuncDetail func;
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func.init(FuncSignatureT<void, void*, const void*, size_t>(CallConvId::kHost), cc.environment());
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FuncFrame frame;
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frame.init(func);
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frame.addDirtyRegs(dst, src, i, j);
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frame.addDirtyRegs(xmm0, xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7);
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FuncArgsAssignment args(&func);
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args.assignAll(dst, src, i);
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args.updateFuncFrame(frame);
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frame.finalize();
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cc.emitProlog(frame);
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cc.emitArgsAssignment(frame, args);
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generateSseAlphaBlendInternal(cc, dst, src, i, j, xmm0, xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7);
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cc.emitEpilog(frame);
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}
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else {
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generateSseAlphaBlendInternal(cc, dst, src, i, j, xmm0, xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7);
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}
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}
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#ifndef ASMJIT_NO_BUILDER
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else if (emitter.isBuilder()) {
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Builder& cc = *emitter.as<Builder>();
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x86::Gp dst = cc.zax();
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x86::Gp src = cc.zcx();
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x86::Gp i = cc.zdx();
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x86::Gp j = cc.zdi();
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if (emitPrologEpilog) {
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FuncDetail func;
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func.init(FuncSignatureT<void, void*, const void*, size_t>(CallConvId::kHost), cc.environment());
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FuncFrame frame;
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frame.init(func);
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frame.addDirtyRegs(dst, src, i, j);
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frame.addDirtyRegs(xmm0, xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7);
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FuncArgsAssignment args(&func);
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args.assignAll(dst, src, i);
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args.updateFuncFrame(frame);
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frame.finalize();
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cc.emitProlog(frame);
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cc.emitArgsAssignment(frame, args);
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generateSseAlphaBlendInternal(cc, dst, src, i, j, xmm0, xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7);
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cc.emitEpilog(frame);
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}
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else {
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generateSseAlphaBlendInternal(cc, dst, src, i, j, xmm0, xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7);
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}
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}
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#endif
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#ifndef ASMJIT_NO_COMPILER
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else if (emitter.isCompiler()) {
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Compiler& cc = *emitter.as<Compiler>();
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Gp dst = cc.newIntPtr("dst");
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Gp src = cc.newIntPtr("src");
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Gp i = cc.newIntPtr("i");
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Gp j = cc.newIntPtr("j");
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Xmm v0 = cc.newXmm("v0");
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Xmm v1 = cc.newXmm("v1");
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Xmm v2 = cc.newXmm("v2");
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Xmm v3 = cc.newXmm("v3");
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Xmm v4 = cc.newXmm("v4");
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Xmm v5 = cc.newXmm("v5");
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Xmm v6 = cc.newXmm("v6");
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Xmm v7 = cc.newXmm("v7");
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FuncNode* funcNode = cc.addFunc(FuncSignatureT<void, void*, const void*, size_t>(CallConvId::kHost));
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funcNode->setArg(0, dst);
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funcNode->setArg(1, src);
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funcNode->setArg(2, i);
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generateSseAlphaBlendInternal(cc, dst, src, i, j, v0, v1, v2, v3, v4, v5, v6, v7);
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cc.endFunc();
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}
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#endif
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}
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} // {asmtest}
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#endif // ASMJIT_TEST_MISC_H_INCLUDED
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