496697df4e
This utility will be used to simplify Linkage and fix representation inference to work with graphs where parameters and return values are something other than tagged. It will also make testing representation inference a lot easier, since we can then exactly nail down the machine types of parameters and returns. This CL also adds c-signature.h, which demonstrates how to convert C function signatures into MachineSignatures. The CSignatures will be used in tests to make it easier and simpler to codegen tests. R=jarin@chromium.org BUG= Review URL: https://codereview.chromium.org/515173002 git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@23490 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
364 lines
11 KiB
C++
364 lines
11 KiB
C++
// Copyright 2014 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef V8_CCTEST_COMPILER_CODEGEN_TESTER_H_
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#define V8_CCTEST_COMPILER_CODEGEN_TESTER_H_
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#include "src/v8.h"
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#include "src/compiler/pipeline.h"
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#include "src/compiler/raw-machine-assembler.h"
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#include "src/compiler/structured-machine-assembler.h"
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#include "src/simulator.h"
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#include "test/cctest/compiler/call-tester.h"
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namespace v8 {
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namespace internal {
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namespace compiler {
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template <typename MachineAssembler>
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class MachineAssemblerTester : public HandleAndZoneScope,
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public CallHelper,
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public MachineAssembler {
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public:
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MachineAssemblerTester(MachineType return_type, MachineType p0,
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MachineType p1, MachineType p2, MachineType p3,
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MachineType p4)
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: HandleAndZoneScope(),
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CallHelper(main_isolate()),
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MachineAssembler(new (main_zone()) Graph(main_zone()),
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ToCallDescriptorBuilder(main_zone(), return_type, p0,
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p1, p2, p3, p4),
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kMachPtr) {}
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Node* LoadFromPointer(void* address, MachineType rep, int32_t offset = 0) {
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return this->Load(rep, this->PointerConstant(address),
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this->Int32Constant(offset));
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}
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void StoreToPointer(void* address, MachineType rep, Node* node) {
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this->Store(rep, this->PointerConstant(address), node);
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}
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Node* StringConstant(const char* string) {
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return this->HeapConstant(
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this->isolate()->factory()->InternalizeUtf8String(string));
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}
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void CheckNumber(double expected, Object* number) {
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CHECK(this->isolate()->factory()->NewNumber(expected)->SameValue(number));
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}
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void CheckString(const char* expected, Object* string) {
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CHECK(
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this->isolate()->factory()->InternalizeUtf8String(expected)->SameValue(
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string));
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}
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void GenerateCode() { Generate(); }
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protected:
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virtual void VerifyParameters(int parameter_count,
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MachineType* parameter_types) {
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CHECK_EQ(this->parameter_count(), parameter_count);
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const MachineType* expected_types = this->parameter_types();
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for (int i = 0; i < parameter_count; i++) {
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CHECK_EQ(expected_types[i], parameter_types[i]);
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}
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}
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virtual byte* Generate() {
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if (code_.is_null()) {
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Schedule* schedule = this->Export();
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CallDescriptor* call_descriptor = this->call_descriptor();
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Graph* graph = this->graph();
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CompilationInfo info(graph->zone()->isolate(), graph->zone());
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Linkage linkage(&info, call_descriptor);
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Pipeline pipeline(&info);
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code_ = pipeline.GenerateCodeForMachineGraph(&linkage, graph, schedule);
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}
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return this->code_.ToHandleChecked()->entry();
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}
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private:
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MaybeHandle<Code> code_;
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};
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template <typename ReturnType>
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class RawMachineAssemblerTester
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: public MachineAssemblerTester<RawMachineAssembler>,
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public CallHelper2<ReturnType, RawMachineAssemblerTester<ReturnType> > {
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public:
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RawMachineAssemblerTester(MachineType p0 = kMachNone,
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MachineType p1 = kMachNone,
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MachineType p2 = kMachNone,
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MachineType p3 = kMachNone,
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MachineType p4 = kMachNone)
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: MachineAssemblerTester<RawMachineAssembler>(
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ReturnValueTraits<ReturnType>::Representation(), p0, p1, p2, p3,
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p4) {}
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template <typename Ci, typename Fn>
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void Run(const Ci& ci, const Fn& fn) {
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typename Ci::const_iterator i;
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for (i = ci.begin(); i != ci.end(); ++i) {
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CHECK_EQ(fn(*i), this->Call(*i));
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}
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}
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template <typename Ci, typename Cj, typename Fn>
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void Run(const Ci& ci, const Cj& cj, const Fn& fn) {
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typename Ci::const_iterator i;
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typename Cj::const_iterator j;
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for (i = ci.begin(); i != ci.end(); ++i) {
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for (j = cj.begin(); j != cj.end(); ++j) {
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CHECK_EQ(fn(*i, *j), this->Call(*i, *j));
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}
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}
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}
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};
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template <typename ReturnType>
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class StructuredMachineAssemblerTester
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: public MachineAssemblerTester<StructuredMachineAssembler>,
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public CallHelper2<ReturnType,
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StructuredMachineAssemblerTester<ReturnType> > {
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public:
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StructuredMachineAssemblerTester(MachineType p0 = kMachNone,
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MachineType p1 = kMachNone,
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MachineType p2 = kMachNone,
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MachineType p3 = kMachNone,
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MachineType p4 = kMachNone)
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: MachineAssemblerTester<StructuredMachineAssembler>(
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ReturnValueTraits<ReturnType>::Representation(), p0, p1, p2, p3,
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p4) {}
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};
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static const bool USE_RESULT_BUFFER = true;
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static const bool USE_RETURN_REGISTER = false;
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static const int32_t CHECK_VALUE = 0x99BEEDCE;
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// TODO(titzer): use the C-style calling convention, or any register-based
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// calling convention for binop tests.
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template <typename CType, MachineType rep, bool use_result_buffer>
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class BinopTester {
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public:
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explicit BinopTester(RawMachineAssemblerTester<int32_t>* tester)
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: T(tester),
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param0(T->LoadFromPointer(&p0, rep)),
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param1(T->LoadFromPointer(&p1, rep)),
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p0(static_cast<CType>(0)),
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p1(static_cast<CType>(0)),
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result(static_cast<CType>(0)) {}
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RawMachineAssemblerTester<int32_t>* T;
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Node* param0;
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Node* param1;
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CType call(CType a0, CType a1) {
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p0 = a0;
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p1 = a1;
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if (use_result_buffer) {
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CHECK_EQ(CHECK_VALUE, T->Call());
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return result;
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} else {
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return T->Call();
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}
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}
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void AddReturn(Node* val) {
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if (use_result_buffer) {
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T->Store(rep, T->PointerConstant(&result), T->Int32Constant(0), val);
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T->Return(T->Int32Constant(CHECK_VALUE));
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} else {
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T->Return(val);
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}
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}
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template <typename Ci, typename Cj, typename Fn>
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void Run(const Ci& ci, const Cj& cj, const Fn& fn) {
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typename Ci::const_iterator i;
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typename Cj::const_iterator j;
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for (i = ci.begin(); i != ci.end(); ++i) {
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for (j = cj.begin(); j != cj.end(); ++j) {
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CHECK_EQ(fn(*i, *j), this->call(*i, *j));
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}
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}
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}
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protected:
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CType p0;
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CType p1;
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CType result;
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};
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// A helper class for testing code sequences that take two int parameters and
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// return an int value.
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class Int32BinopTester
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: public BinopTester<int32_t, kMachInt32, USE_RETURN_REGISTER> {
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public:
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explicit Int32BinopTester(RawMachineAssemblerTester<int32_t>* tester)
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: BinopTester<int32_t, kMachInt32, USE_RETURN_REGISTER>(tester) {}
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};
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// A helper class for testing code sequences that take two uint parameters and
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// return an uint value.
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class Uint32BinopTester
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: public BinopTester<uint32_t, kMachUint32, USE_RETURN_REGISTER> {
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public:
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explicit Uint32BinopTester(RawMachineAssemblerTester<int32_t>* tester)
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: BinopTester<uint32_t, kMachUint32, USE_RETURN_REGISTER>(tester) {}
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uint32_t call(uint32_t a0, uint32_t a1) {
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p0 = a0;
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p1 = a1;
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return static_cast<uint32_t>(T->Call());
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}
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};
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// A helper class for testing code sequences that take two double parameters and
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// return a double value.
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// TODO(titzer): figure out how to return doubles correctly on ia32.
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class Float64BinopTester
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: public BinopTester<double, kMachFloat64, USE_RESULT_BUFFER> {
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public:
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explicit Float64BinopTester(RawMachineAssemblerTester<int32_t>* tester)
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: BinopTester<double, kMachFloat64, USE_RESULT_BUFFER>(tester) {}
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};
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// A helper class for testing code sequences that take two pointer parameters
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// and return a pointer value.
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// TODO(titzer): pick word size of pointers based on V8_TARGET.
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template <typename Type>
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class PointerBinopTester
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: public BinopTester<Type*, kMachPtr, USE_RETURN_REGISTER> {
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public:
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explicit PointerBinopTester(RawMachineAssemblerTester<int32_t>* tester)
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: BinopTester<Type*, kMachPtr, USE_RETURN_REGISTER>(tester) {}
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};
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// A helper class for testing code sequences that take two tagged parameters and
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// return a tagged value.
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template <typename Type>
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class TaggedBinopTester
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: public BinopTester<Type*, kMachAnyTagged, USE_RETURN_REGISTER> {
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public:
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explicit TaggedBinopTester(RawMachineAssemblerTester<int32_t>* tester)
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: BinopTester<Type*, kMachAnyTagged, USE_RETURN_REGISTER>(tester) {}
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};
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// A helper class for testing compares. Wraps a machine opcode and provides
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// evaluation routines and the operators.
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class CompareWrapper {
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public:
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explicit CompareWrapper(IrOpcode::Value op) : opcode(op) {}
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Node* MakeNode(RawMachineAssemblerTester<int32_t>* m, Node* a, Node* b) {
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return m->NewNode(op(m->machine()), a, b);
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}
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Operator* op(MachineOperatorBuilder* machine) {
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switch (opcode) {
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case IrOpcode::kWord32Equal:
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return machine->Word32Equal();
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case IrOpcode::kInt32LessThan:
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return machine->Int32LessThan();
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case IrOpcode::kInt32LessThanOrEqual:
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return machine->Int32LessThanOrEqual();
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case IrOpcode::kUint32LessThan:
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return machine->Uint32LessThan();
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case IrOpcode::kUint32LessThanOrEqual:
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return machine->Uint32LessThanOrEqual();
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case IrOpcode::kFloat64Equal:
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return machine->Float64Equal();
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case IrOpcode::kFloat64LessThan:
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return machine->Float64LessThan();
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case IrOpcode::kFloat64LessThanOrEqual:
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return machine->Float64LessThanOrEqual();
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default:
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UNREACHABLE();
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}
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return NULL;
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}
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bool Int32Compare(int32_t a, int32_t b) {
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switch (opcode) {
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case IrOpcode::kWord32Equal:
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return a == b;
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case IrOpcode::kInt32LessThan:
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return a < b;
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case IrOpcode::kInt32LessThanOrEqual:
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return a <= b;
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case IrOpcode::kUint32LessThan:
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return static_cast<uint32_t>(a) < static_cast<uint32_t>(b);
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case IrOpcode::kUint32LessThanOrEqual:
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return static_cast<uint32_t>(a) <= static_cast<uint32_t>(b);
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default:
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UNREACHABLE();
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}
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return false;
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}
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bool Float64Compare(double a, double b) {
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switch (opcode) {
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case IrOpcode::kFloat64Equal:
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return a == b;
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case IrOpcode::kFloat64LessThan:
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return a < b;
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case IrOpcode::kFloat64LessThanOrEqual:
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return a <= b;
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default:
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UNREACHABLE();
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}
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return false;
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}
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IrOpcode::Value opcode;
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};
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// A small closure class to generate code for a function of two inputs that
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// produces a single output so that it can be used in many different contexts.
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// The {expected()} method should compute the expected output for a given
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// pair of inputs.
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template <typename T>
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class BinopGen {
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public:
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virtual void gen(RawMachineAssemblerTester<int32_t>* m, Node* a, Node* b) = 0;
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virtual T expected(T a, T b) = 0;
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virtual ~BinopGen() {}
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};
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// A helper class to generate various combination of input shape combinations
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// and run the generated code to ensure it produces the correct results.
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class Int32BinopInputShapeTester {
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public:
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explicit Int32BinopInputShapeTester(BinopGen<int32_t>* g) : gen(g) {}
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void TestAllInputShapes();
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private:
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BinopGen<int32_t>* gen;
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int32_t input_a;
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int32_t input_b;
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void Run(RawMachineAssemblerTester<int32_t>* m);
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void RunLeft(RawMachineAssemblerTester<int32_t>* m);
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void RunRight(RawMachineAssemblerTester<int32_t>* m);
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};
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} // namespace compiler
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} // namespace internal
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} // namespace v8
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#endif // V8_CCTEST_COMPILER_CODEGEN_TESTER_H_
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