3b45da47cd
This change is very mechanical: own<Foo*> → own<Foo> vec<Foo*> → ownvec<Foo> As usual, everything in third_party/ is straight-up copied from upstream. Change-Id: If5fabda99e2b281da6f2e71ce23a2f5b68aaac86 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1760815 Commit-Queue: Jakob Kummerow <jkummerow@chromium.org> Reviewed-by: Andreas Haas <ahaas@chromium.org> Cr-Commit-Position: refs/heads/master@{#63263}
227 lines
7.9 KiB
C++
227 lines
7.9 KiB
C++
// Copyright 2019 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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#include "test/wasm-api-tests/wasm-api-test.h"
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#include "src/execution/isolate.h"
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#include "src/heap/heap.h"
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#include "src/wasm/c-api.h"
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namespace v8 {
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namespace internal {
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namespace wasm {
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namespace {
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own<Trap> Stage2(void* env, const Val args[], Val results[]) {
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printf("Stage2...\n");
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WasmCapiTest* self = reinterpret_cast<WasmCapiTest*>(env);
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Func* stage3 = self->GetExportedFunction(1);
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own<Trap> trap = stage3->call(args, results);
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if (trap) {
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printf("Stage2: got exception: %s\n", trap->message().get());
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} else {
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printf("Stage2: call successful\n");
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}
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return trap;
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}
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own<Trap> Stage4_GC(void* env, const Val args[], Val results[]) {
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printf("Stage4...\n");
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i::Isolate* isolate = reinterpret_cast<i::Isolate*>(env);
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isolate->heap()->PreciseCollectAllGarbage(
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i::Heap::kNoGCFlags, i::GarbageCollectionReason::kTesting,
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v8::kGCCallbackFlagForced);
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results[0] = Val::i32(args[0].i32() + 1);
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return nullptr;
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}
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class WasmCapiCallbacksTest : public WasmCapiTest {
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public:
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WasmCapiCallbacksTest() : WasmCapiTest() {
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// Build the following function:
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// int32 stage1(int32 arg0) { return stage2(arg0); }
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uint32_t stage2_index =
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builder()->AddImport(CStrVector("stage2"), wasm_i_i_sig());
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byte code[] = {WASM_CALL_FUNCTION(stage2_index, WASM_GET_LOCAL(0))};
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AddExportedFunction(CStrVector("stage1"), code, sizeof(code));
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stage2_ = Func::make(store(), cpp_i_i_sig(), Stage2, this);
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}
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Func* stage2() { return stage2_.get(); }
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void AddExportedFunction(Vector<const char> name, byte code[],
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size_t code_size) {
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WasmCapiTest::AddExportedFunction(name, code, code_size, wasm_i_i_sig());
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}
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private:
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own<Func> stage2_;
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};
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} // namespace
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TEST_F(WasmCapiCallbacksTest, Trap) {
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// Build the following function:
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// int32 stage3_trap(int32 arg0) { unreachable(); }
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byte code[] = {WASM_UNREACHABLE};
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AddExportedFunction(CStrVector("stage3_trap"), code, sizeof(code));
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Extern* imports[] = {stage2()};
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Instantiate(imports);
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Val args[] = {Val::i32(42)};
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Val results[1];
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own<Trap> trap = GetExportedFunction(0)->call(args, results);
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EXPECT_NE(trap, nullptr);
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printf("Stage0: Got trap as expected: %s\n", trap->message().get());
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}
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TEST_F(WasmCapiCallbacksTest, GC) {
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// Build the following function:
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// int32 stage3_to4(int32 arg0) { return stage4(arg0); }
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uint32_t stage4_index =
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builder()->AddImport(CStrVector("stage4"), wasm_i_i_sig());
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byte code[] = {WASM_CALL_FUNCTION(stage4_index, WASM_GET_LOCAL(0))};
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AddExportedFunction(CStrVector("stage3_to4"), code, sizeof(code));
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i::Isolate* isolate =
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reinterpret_cast<::wasm::StoreImpl*>(store())->i_isolate();
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own<Func> stage4 = Func::make(store(), cpp_i_i_sig(), Stage4_GC, isolate);
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EXPECT_EQ(cpp_i_i_sig()->params().size(), stage4->type()->params().size());
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EXPECT_EQ(cpp_i_i_sig()->results().size(), stage4->type()->results().size());
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Extern* imports[] = {stage2(), stage4.get()};
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Instantiate(imports);
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Val args[] = {Val::i32(42)};
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Val results[1];
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own<Trap> trap = GetExportedFunction(0)->call(args, results);
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EXPECT_EQ(trap, nullptr);
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EXPECT_EQ(43, results[0].i32());
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}
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namespace {
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own<Trap> FibonacciC(void* env, const Val args[], Val results[]) {
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int32_t x = args[0].i32();
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if (x == 0 || x == 1) {
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results[0] = Val::i32(x);
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return nullptr;
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}
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WasmCapiTest* self = reinterpret_cast<WasmCapiTest*>(env);
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Func* fibo_wasm = self->GetExportedFunction(0);
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// Aggressively re-use existing arrays. That's maybe not great coding
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// style, but this test intentionally ensures that it works if someone
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// insists on doing it.
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Val recursive_args[] = {Val::i32(x - 1)};
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own<Trap> trap = fibo_wasm->call(recursive_args, results);
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DCHECK_NULL(trap);
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int32_t x1 = results[0].i32();
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recursive_args[0] = Val::i32(x - 2);
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trap = fibo_wasm->call(recursive_args, results);
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DCHECK_NULL(trap);
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int32_t x2 = results[0].i32();
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results[0] = Val::i32(x1 + x2);
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return nullptr;
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}
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} // namespace
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TEST_F(WasmCapiTest, Recursion) {
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// Build the following function:
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// int32 fibonacci_wasm(int32 arg0) {
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// if (arg0 == 0) return 0;
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// if (arg0 == 1) return 1;
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// return fibonacci_c(arg0 - 1) + fibonacci_c(arg0 - 2);
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// }
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uint32_t fibo_c_index =
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builder()->AddImport(CStrVector("fibonacci_c"), wasm_i_i_sig());
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byte code_fibo[] = {
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WASM_IF(WASM_I32_EQ(WASM_GET_LOCAL(0), WASM_ZERO),
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WASM_RETURN1(WASM_ZERO)),
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WASM_IF(WASM_I32_EQ(WASM_GET_LOCAL(0), WASM_ONE), WASM_RETURN1(WASM_ONE)),
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// Muck with the parameter to ensure callers don't depend on its value.
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WASM_SET_LOCAL(0, WASM_I32_SUB(WASM_GET_LOCAL(0), WASM_ONE)),
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WASM_RETURN1(WASM_I32_ADD(
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WASM_CALL_FUNCTION(fibo_c_index, WASM_GET_LOCAL(0)),
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WASM_CALL_FUNCTION(fibo_c_index,
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WASM_I32_SUB(WASM_GET_LOCAL(0), WASM_ONE))))};
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AddExportedFunction(CStrVector("fibonacci_wasm"), code_fibo,
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sizeof(code_fibo), wasm_i_i_sig());
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own<Func> fibonacci = Func::make(store(), cpp_i_i_sig(), FibonacciC, this);
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Extern* imports[] = {fibonacci.get()};
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Instantiate(imports);
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// Enough iterations to make it interesting, few enough to keep it fast.
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Val args[] = {Val::i32(15)};
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Val results[1];
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own<Trap> result = GetExportedFunction(0)->call(args, results);
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EXPECT_EQ(result, nullptr);
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EXPECT_EQ(610, results[0].i32());
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}
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namespace {
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own<Trap> PlusOne(const Val args[], Val results[]) {
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int32_t a0 = args[0].i32();
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results[0] = Val::i32(a0 + 1);
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int64_t a1 = args[1].i64();
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results[1] = Val::i64(a1 + 1);
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float a2 = args[2].f32();
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results[2] = Val::f32(a2 + 1);
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double a3 = args[3].f64();
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results[3] = Val::f64(a3 + 1);
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results[4] = Val::ref(args[4].ref()->copy()); // No +1 for Refs.
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return nullptr;
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}
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} // namespace
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TEST_F(WasmCapiTest, DirectCallCapiFunction) {
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own<FuncType> cpp_sig =
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FuncType::make(ownvec<ValType>::make(
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ValType::make(::wasm::I32), ValType::make(::wasm::I64),
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ValType::make(::wasm::F32), ValType::make(::wasm::F64),
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ValType::make(::wasm::ANYREF)),
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ownvec<ValType>::make(
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ValType::make(::wasm::I32), ValType::make(::wasm::I64),
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ValType::make(::wasm::F32), ValType::make(::wasm::F64),
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ValType::make(::wasm::ANYREF)));
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own<Func> func = Func::make(store(), cpp_sig.get(), PlusOne);
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Extern* imports[] = {func.get()};
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ValueType wasm_types[] = {kWasmI32, kWasmI64, kWasmF32, kWasmF64,
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kWasmAnyRef, kWasmI32, kWasmI64, kWasmF32,
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kWasmF64, kWasmAnyRef};
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FunctionSig wasm_sig(5, 5, wasm_types);
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int func_index = builder()->AddImport(CStrVector("func"), &wasm_sig);
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builder()->ExportImportedFunction(CStrVector("func"), func_index);
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Instantiate(imports);
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int32_t a0 = 42;
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int64_t a1 = 0x1234c0ffee;
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float a2 = 1234.5;
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double a3 = 123.45;
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Val args[] = {Val::i32(a0), Val::i64(a1), Val::f32(a2), Val::f64(a3),
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Val::ref(func->copy())};
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Val results[5];
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// Test that {func} can be called directly.
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own<Trap> trap = func->call(args, results);
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EXPECT_EQ(nullptr, trap);
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EXPECT_EQ(a0 + 1, results[0].i32());
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EXPECT_EQ(a1 + 1, results[1].i64());
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EXPECT_EQ(a2 + 1, results[2].f32());
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EXPECT_EQ(a3 + 1, results[3].f64());
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EXPECT_TRUE(func->same(results[4].ref()));
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// Test that {func} can be called after import/export round-tripping.
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trap = GetExportedFunction(0)->call(args, results);
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EXPECT_EQ(nullptr, trap);
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EXPECT_EQ(a0 + 1, results[0].i32());
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EXPECT_EQ(a1 + 1, results[1].i64());
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EXPECT_EQ(a2 + 1, results[2].f32());
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EXPECT_EQ(a3 + 1, results[3].f64());
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EXPECT_TRUE(func->same(results[4].ref()));
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}
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} // namespace wasm
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} // namespace internal
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} // namespace v8
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