2023-12-06 17:43:39 -05:00
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// 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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#include <asmjit/core.h>
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2024-06-17 19:04:36 -04:00
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static void printInfo() noexcept {
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printf("AsmJit Emitters Test-Suite v%u.%u.%u\n",
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unsigned((ASMJIT_LIBRARY_VERSION >> 16) ),
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unsigned((ASMJIT_LIBRARY_VERSION >> 8) & 0xFF),
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unsigned((ASMJIT_LIBRARY_VERSION ) & 0xFF));
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}
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#if !defined(ASMJIT_NO_JIT) && ( \
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(ASMJIT_ARCH_X86 != 0 && !defined(ASMJIT_NO_X86 )) || \
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(ASMJIT_ARCH_ARM == 64 && !defined(ASMJIT_NO_AARCH64)) )
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#if ASMJIT_ARCH_X86 != 0
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#include <asmjit/x86.h>
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#endif
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#if ASMJIT_ARCH_ARM == 64
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#include <asmjit/a64.h>
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#endif
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2023-12-06 17:43:39 -05:00
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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using namespace asmjit;
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// Signature of the generated function.
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typedef void (*SumIntsFunc)(int* dst, const int* a, const int* b);
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// X86 Backend
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// -----------
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#if ASMJIT_ARCH_X86 != 0
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// This function works with both x86::Assembler and x86::Builder. It shows how
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// `x86::Emitter` can be used to make your code more generic.
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static void generateFuncWithEmitter(x86::Emitter* emitter) noexcept {
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// Decide which registers will be mapped to function arguments. Try changing
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// registers of `dst`, `src_a`, and `src_b` and see what happens in function's
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// prolog and epilog.
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x86::Gp dst = emitter->zax();
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x86::Gp src_a = emitter->zcx();
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x86::Gp src_b = emitter->zdx();
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// Decide which vector registers to use. We use these to keep the code generic,
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// you can switch to any other registers when needed.
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x86::Xmm vec0 = x86::xmm0;
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x86::Xmm vec1 = x86::xmm1;
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// Create and initialize `FuncDetail` and `FuncFrame`.
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FuncDetail func;
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func.init(FuncSignature::build<void, int*, const int*, const int*>(), emitter->environment());
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FuncFrame frame;
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frame.init(func);
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// Make or registers dirty.
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frame.addDirtyRegs(vec0, vec1);
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FuncArgsAssignment args(&func); // Create arguments assignment context.
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args.assignAll(dst, src_a, src_b); // Assign our registers to arguments.
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args.updateFuncFrame(frame); // Reflect our args in FuncFrame.
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frame.finalize();
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// Emit prolog and allocate arguments to registers.
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emitter->emitProlog(frame);
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emitter->emitArgsAssignment(frame, args);
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emitter->movdqu(vec0, x86::ptr(src_a)); // Load 4 ints from [src_a] to XMM0.
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emitter->movdqu(vec1, x86::ptr(src_b)); // Load 4 ints from [src_b] to XMM1.
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emitter->paddd(vec0, vec1); // Add 4 ints in XMM1 to XMM0.
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emitter->movdqu(x86::ptr(dst), vec0); // Store the result to [dst].
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// Emit epilog and return.
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emitter->emitEpilog(frame);
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}
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#ifndef ASMJIT_NO_COMPILER
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// This function works with x86::Compiler, provided for comparison.
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static void generateFuncWithCompiler(x86::Compiler* cc) noexcept {
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x86::Gp dst = cc->newIntPtr("dst");
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x86::Gp src_a = cc->newIntPtr("src_a");
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x86::Gp src_b = cc->newIntPtr("src_b");
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x86::Xmm vec0 = cc->newXmm("vec0");
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x86::Xmm vec1 = cc->newXmm("vec1");
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FuncNode* funcNode = cc->addFunc(FuncSignature::build<void, int*, const int*, const int*>());
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funcNode->setArg(0, dst);
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funcNode->setArg(1, src_a);
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funcNode->setArg(2, src_b);
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cc->movdqu(vec0, x86::ptr(src_a));
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cc->movdqu(vec1, x86::ptr(src_b));
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cc->paddd(vec0, vec1);
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cc->movdqu(x86::ptr(dst), vec0);
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cc->endFunc();
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}
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#endif
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static Error generateFunc(CodeHolder& code, EmitterType emitterType) noexcept {
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switch (emitterType) {
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case EmitterType::kAssembler: {
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printf("Using x86::Assembler:\n");
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x86::Assembler a(&code);
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generateFuncWithEmitter(a.as<x86::Emitter>());
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return kErrorOk;
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}
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#ifndef ASMJIT_NO_BUILDER
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case EmitterType::kBuilder: {
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printf("Using x86::Builder:\n");
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x86::Builder cb(&code);
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generateFuncWithEmitter(cb.as<x86::Emitter>());
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return cb.finalize();
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}
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#endif
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#ifndef ASMJIT_NO_COMPILER
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case EmitterType::kCompiler: {
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printf("Using x86::Compiler:\n");
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x86::Compiler cc(&code);
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generateFuncWithCompiler(&cc);
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return cc.finalize();
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}
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#endif
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default: {
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printf("** FAILURE: No emitter to use **\n");
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exit(1);
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}
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}
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}
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#endif
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// AArch64 Backend
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// ---------------
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#if ASMJIT_ARCH_ARM == 64
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// This function works with both a64::Assembler and a64::Builder. It shows how
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// `a64::Emitter` can be used to make your code more generic.
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static void generateFuncWithEmitter(a64::Emitter* emitter) noexcept {
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// Decide which registers will be mapped to function arguments. Try changing
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// registers of `dst`, `src_a`, and `src_b` and see what happens in function's
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// prolog and epilog.
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a64::Gp dst = a64::x0;
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a64::Gp src_a = a64::x1;
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a64::Gp src_b = a64::x2;
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// Decide which vector registers to use. We use these to keep the code generic,
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// you can switch to any other registers when needed.
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a64::Vec vec0 = a64::v0;
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a64::Vec vec1 = a64::v1;
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a64::Vec vec2 = a64::v2;
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// Create and initialize `FuncDetail` and `FuncFrame`.
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FuncDetail func;
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func.init(FuncSignature::build<void, int*, const int*, const int*>(), emitter->environment());
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FuncFrame frame;
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frame.init(func);
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// Make XMM0 and XMM1 dirty. VEC group includes XMM|YMM|ZMM registers.
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frame.addDirtyRegs(vec0, vec1, vec2);
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FuncArgsAssignment args(&func); // Create arguments assignment context.
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args.assignAll(dst, src_a, src_b); // Assign our registers to arguments.
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args.updateFuncFrame(frame); // Reflect our args in FuncFrame.
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frame.finalize();
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// Emit prolog and allocate arguments to registers.
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emitter->emitProlog(frame);
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emitter->emitArgsAssignment(frame, args);
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emitter->ld1(vec0.b16(), a64::ptr(src_a)); // Load 4 ints from [src_a] to vec0.
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emitter->ld1(vec1.b16(), a64::ptr(src_b)); // Load 4 ints from [src_b] to vec1.
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emitter->add(vec2.s4(), vec0.s4(), vec1.s4()); // Add 4 ints of vec0 and vec1 and store to vec2.
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emitter->st1(vec2.b16(), a64::ptr(dst)); // Store the result (vec2) to [dst].
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// Emit epilog and return.
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emitter->emitEpilog(frame);
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}
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#ifndef ASMJIT_NO_COMPILER
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// This function works with x86::Compiler, provided for comparison.
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static void generateFuncWithCompiler(a64::Compiler* cc) noexcept {
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a64::Gp dst = cc->newIntPtr("dst");
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a64::Gp src_a = cc->newIntPtr("src_a");
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a64::Gp src_b = cc->newIntPtr("src_b");
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a64::Vec vec0 = cc->newVecQ("vec0");
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a64::Vec vec1 = cc->newVecQ("vec1");
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a64::Vec vec2 = cc->newVecQ("vec2");
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FuncNode* funcNode = cc->addFunc(FuncSignature::build<void, int*, const int*, const int*>());
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funcNode->setArg(0, dst);
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funcNode->setArg(1, src_a);
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funcNode->setArg(2, src_b);
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cc->ld1(vec0.b16(), a64::ptr(src_a)); // Load 4 ints from [src_a] to vec0.
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cc->ld1(vec1.b16(), a64::ptr(src_b)); // Load 4 ints from [src_b] to vec1.
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cc->add(vec2.s4(), vec0.s4(), vec1.s4()); // Add 4 ints of vec0 and vec1 and store to vec2.
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cc->st1(vec2.b16(), a64::ptr(dst)); // Store the result (vec2) to [dst].
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cc->endFunc();
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}
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#endif
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static Error generateFunc(CodeHolder& code, EmitterType emitterType) noexcept {
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switch (emitterType) {
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case EmitterType::kAssembler: {
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printf("Using a64::Assembler:\n");
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a64::Assembler a(&code);
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generateFuncWithEmitter(a.as<a64::Emitter>());
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return kErrorOk;
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}
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#ifndef ASMJIT_NO_BUILDER
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case EmitterType::kBuilder: {
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printf("Using a64::Builder:\n");
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a64::Builder cb(&code);
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generateFuncWithEmitter(cb.as<a64::Emitter>());
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return cb.finalize();
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}
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#endif
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#ifndef ASMJIT_NO_COMPILER
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case EmitterType::kCompiler: {
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printf("Using a64::Compiler:\n");
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a64::Compiler cc(&code);
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generateFuncWithCompiler(&cc);
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return cc.finalize();
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}
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#endif
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default: {
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printf("** FAILURE: No emitter to use **\n");
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exit(1);
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}
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}
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}
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#endif
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// Testing
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// -------
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static uint32_t testFunc(JitRuntime& rt, EmitterType emitterType) noexcept {
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#ifndef ASMJIT_NO_LOGGING
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FileLogger logger(stdout);
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logger.setIndentation(FormatIndentationGroup::kCode, 2);
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#endif
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CodeHolder code;
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code.init(rt.environment(), rt.cpuFeatures());
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#ifndef ASMJIT_NO_LOGGING
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code.setLogger(&logger);
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#endif
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Error err = generateFunc(code, emitterType);
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if (err) {
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printf("** FAILURE: Failed to generate a function: %s **\n", DebugUtils::errorAsString(err));
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return 1;
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}
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// Add the code generated to the runtime.
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SumIntsFunc fn;
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err = rt.add(&fn, &code);
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if (err) {
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printf("** FAILURE: JitRuntime::add() failed: %s **\n", DebugUtils::errorAsString(err));
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return 1;
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}
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// Execute the generated function.
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static const int inA[4] = { 4, 3, 2, 1 };
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static const int inB[4] = { 1, 5, 2, 8 };
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int out[4] {};
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fn(out, inA, inB);
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// Should print {5 8 4 9}.
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printf("Result = { %d %d %d %d }\n\n", out[0], out[1], out[2], out[3]);
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rt.release(fn);
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return out[0] == 5 && out[1] == 8 && out[2] == 4 && out[3] == 9;
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}
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int main() {
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printInfo();
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printf("\n");
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JitRuntime rt;
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unsigned nFailed = 0;
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nFailed += !testFunc(rt, EmitterType::kAssembler);
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#ifndef ASMJIT_NO_BUILDER
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nFailed += !testFunc(rt, EmitterType::kBuilder);
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#endif
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#ifndef ASMJIT_NO_COMPILER
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nFailed += !testFunc(rt, EmitterType::kCompiler);
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#endif
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if (!nFailed)
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printf("** SUCCESS **\n");
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else
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printf("** FAILURE - %u %s failed ** \n", nFailed, nFailed == 1 ? "test" : "tests");
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return nFailed ? 1 : 0;
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}
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#else
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int main() {
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printInfo();
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printf("\nThis test is currently disabled - no JIT or no support for the target architecture\n");
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return 0;
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}
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#endif // ASMJIT_ARCH_X86 && !ASMJIT_NO_X86 && !ASMJIT_NO_JIT
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