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420 lines
14 KiB
420 lines
14 KiB
// Copyright 2015 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 <stdlib.h>
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#include "src/v8.h"
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#include "src/ast/ast.h"
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#include "src/ast/ast-expression-visitor.h"
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#include "src/ast/scopes.h"
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#include "src/parsing/parser.h"
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#include "src/parsing/rewriter.h"
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#include "test/cctest/cctest.h"
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#include "test/cctest/expression-type-collector.h"
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#include "test/cctest/expression-type-collector-macros.h"
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using namespace v8::internal;
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namespace {
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static void CollectTypes(HandleAndZoneScope* handles, const char* source,
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ZoneVector<ExpressionTypeEntry>* dst) {
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i::Isolate* isolate = CcTest::i_isolate();
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i::Factory* factory = isolate->factory();
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i::Handle<i::String> source_code =
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factory->NewStringFromUtf8(i::CStrVector(source)).ToHandleChecked();
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i::Handle<i::Script> script = factory->NewScript(source_code);
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i::ParseInfo info(handles->main_zone(), script);
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i::Parser parser(&info);
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parser.set_allow_harmony_sloppy(true);
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info.set_global();
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info.set_lazy(false);
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info.set_allow_lazy_parsing(false);
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info.set_toplevel(true);
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CHECK(i::Compiler::ParseAndAnalyze(&info));
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ExpressionTypeCollector(
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isolate,
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info.scope()->declarations()->at(0)->AsFunctionDeclaration()->fun(), dst)
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.Run();
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}
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} // namespace
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TEST(VisitExpressions) {
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v8::V8::Initialize();
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HandleAndZoneScope handles;
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ZoneVector<ExpressionTypeEntry> types(handles.main_zone());
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const char test_function[] =
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"function GeometricMean(stdlib, foreign, buffer) {\n"
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" \"use asm\";\n"
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"\n"
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" var exp = stdlib.Math.exp;\n"
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" var log = stdlib.Math.log;\n"
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" var values = new stdlib.Float64Array(buffer);\n"
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"\n"
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" function logSum(start, end) {\n"
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" start = start|0;\n"
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" end = end|0;\n"
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"\n"
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" var sum = 0.0, p = 0, q = 0;\n"
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"\n"
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" // asm.js forces byte addressing of the heap by requiring shifting "
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"by 3\n"
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" for (p = start << 3, q = end << 3; (p|0) < (q|0); p = (p + 8)|0) {\n"
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" sum = sum + +log(values[p>>3]);\n"
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" }\n"
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"\n"
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" return +sum;\n"
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" }\n"
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"\n"
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" function geometricMean(start, end) {\n"
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" start = start|0;\n"
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" end = end|0;\n"
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"\n"
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" return +exp(+logSum(start, end) / +((end - start)|0));\n"
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" }\n"
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"\n"
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" return { geometricMean: geometricMean };\n"
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"}\n";
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CollectTypes(&handles, test_function, &types);
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CHECK_TYPES_BEGIN {
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// function logSum
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CHECK_EXPR(FunctionLiteral, Bounds::Unbounded()) {
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CHECK_EXPR(FunctionLiteral, Bounds::Unbounded()) {
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(start, Bounds::Unbounded());
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(start, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(end, Bounds::Unbounded());
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(end, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(sum, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(p, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(q, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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// for (p = start << 3, q = end << 3;
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(p, Bounds::Unbounded());
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(start, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(q, Bounds::Unbounded());
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(end, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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}
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// (p|0) < (q|0);
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CHECK_EXPR(CompareOperation, Bounds::Unbounded()) {
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(p, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(q, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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// p = (p + 8)|0) {\n"
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(p, Bounds::Unbounded());
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(p, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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// sum = sum + +log(values[p>>3]);
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(sum, Bounds::Unbounded());
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(sum, Bounds::Unbounded());
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_EXPR(Call, Bounds::Unbounded()) {
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CHECK_VAR(log, Bounds::Unbounded());
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CHECK_EXPR(Property, Bounds::Unbounded()) {
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CHECK_VAR(values, Bounds::Unbounded());
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(p, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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}
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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}
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// return +sum;
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(sum, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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// function geometricMean
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CHECK_EXPR(FunctionLiteral, Bounds::Unbounded()) {
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(start, Bounds::Unbounded());
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(start, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(end, Bounds::Unbounded());
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(end, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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// return +exp(+logSum(start, end) / +((end - start)|0));
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_EXPR(Call, Bounds::Unbounded()) {
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CHECK_VAR(exp, Bounds::Unbounded());
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_EXPR(Call, Bounds::Unbounded()) {
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CHECK_VAR(logSum, Bounds::Unbounded());
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CHECK_VAR(start, Bounds::Unbounded());
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CHECK_VAR(end, Bounds::Unbounded());
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}
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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CHECK_VAR(end, Bounds::Unbounded());
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CHECK_VAR(start, Bounds::Unbounded());
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}
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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}
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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// "use asm";
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CHECK_EXPR(Literal, Bounds::Unbounded());
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// var exp = stdlib.Math.exp;
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(exp, Bounds::Unbounded());
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CHECK_EXPR(Property, Bounds::Unbounded()) {
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CHECK_EXPR(Property, Bounds::Unbounded()) {
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CHECK_VAR(stdlib, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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// var log = stdlib.Math.log;
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(log, Bounds::Unbounded());
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CHECK_EXPR(Property, Bounds::Unbounded()) {
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CHECK_EXPR(Property, Bounds::Unbounded()) {
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CHECK_VAR(stdlib, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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// var values = new stdlib.Float64Array(buffer);
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(values, Bounds::Unbounded());
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CHECK_EXPR(CallNew, Bounds::Unbounded()) {
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CHECK_EXPR(Property, Bounds::Unbounded()) {
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CHECK_VAR(stdlib, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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CHECK_VAR(buffer, Bounds::Unbounded());
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}
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}
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// return { geometricMean: geometricMean };
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CHECK_EXPR(ObjectLiteral, Bounds::Unbounded()) {
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CHECK_VAR(geometricMean, Bounds::Unbounded());
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}
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}
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}
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CHECK_TYPES_END
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}
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TEST(VisitConditional) {
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v8::V8::Initialize();
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HandleAndZoneScope handles;
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ZoneVector<ExpressionTypeEntry> types(handles.main_zone());
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// Check that traversing the ternary operator works.
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const char test_function[] =
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"function foo() {\n"
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" var a, b, c;\n"
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" var x = a ? b : c;\n"
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"}\n";
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CollectTypes(&handles, test_function, &types);
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CHECK_TYPES_BEGIN {
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CHECK_EXPR(FunctionLiteral, Bounds::Unbounded()) {
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(x, Bounds::Unbounded());
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CHECK_EXPR(Conditional, Bounds::Unbounded()) {
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CHECK_VAR(a, Bounds::Unbounded());
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CHECK_VAR(b, Bounds::Unbounded());
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CHECK_VAR(c, Bounds::Unbounded());
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}
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}
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}
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}
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CHECK_TYPES_END
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}
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TEST(VisitEmptyForStatment) {
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v8::V8::Initialize();
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HandleAndZoneScope handles;
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ZoneVector<ExpressionTypeEntry> types(handles.main_zone());
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// Check that traversing an empty for statement works.
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const char test_function[] =
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"function foo() {\n"
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" for (;;) {}\n"
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"}\n";
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CollectTypes(&handles, test_function, &types);
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CHECK_TYPES_BEGIN {
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CHECK_EXPR(FunctionLiteral, Bounds::Unbounded()) {}
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}
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CHECK_TYPES_END
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}
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TEST(VisitSwitchStatment) {
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v8::V8::Initialize();
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HandleAndZoneScope handles;
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ZoneVector<ExpressionTypeEntry> types(handles.main_zone());
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// Check that traversing a switch with a default works.
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const char test_function[] =
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"function foo() {\n"
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" switch (0) { case 1: break; default: break; }\n"
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"}\n";
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CollectTypes(&handles, test_function, &types);
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CHECK_TYPES_BEGIN {
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CHECK_EXPR(FunctionLiteral, Bounds::Unbounded()) {
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(.switch_tag, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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CHECK_EXPR(Literal, Bounds::Unbounded());
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CHECK_VAR(.switch_tag, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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CHECK_TYPES_END
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}
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TEST(VisitThrow) {
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v8::V8::Initialize();
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HandleAndZoneScope handles;
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ZoneVector<ExpressionTypeEntry> types(handles.main_zone());
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const char test_function[] =
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"function foo() {\n"
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" throw 123;\n"
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"}\n";
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CollectTypes(&handles, test_function, &types);
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CHECK_TYPES_BEGIN {
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CHECK_EXPR(FunctionLiteral, Bounds::Unbounded()) {
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CHECK_EXPR(Throw, Bounds::Unbounded()) {
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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}
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CHECK_TYPES_END
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}
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TEST(VisitYield) {
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v8::V8::Initialize();
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HandleAndZoneScope handles;
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ZoneVector<ExpressionTypeEntry> types(handles.main_zone());
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const char test_function[] =
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"function* foo() {\n"
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" yield 123;\n"
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"}\n";
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CollectTypes(&handles, test_function, &types);
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CHECK_TYPES_BEGIN {
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CHECK_EXPR(FunctionLiteral, Bounds::Unbounded()) {
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// Implicit initial yield
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CHECK_EXPR(Yield, Bounds::Unbounded()) {
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CHECK_VAR(.generator_object, Bounds::Unbounded());
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CHECK_EXPR(Assignment, Bounds::Unbounded()) {
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CHECK_VAR(.generator_object, Bounds::Unbounded());
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CHECK_EXPR(CallRuntime, Bounds::Unbounded());
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}
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}
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// Explicit yield
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CHECK_EXPR(Yield, Bounds::Unbounded()) {
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CHECK_VAR(.generator_object, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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// Implicit final yield
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CHECK_EXPR(Yield, Bounds::Unbounded()) {
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CHECK_VAR(.generator_object, Bounds::Unbounded());
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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// Implicit finally clause
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CHECK_EXPR(CallRuntime, Bounds::Unbounded()) {
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CHECK_VAR(.generator_object, Bounds::Unbounded());
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}
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}
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}
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CHECK_TYPES_END
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}
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TEST(VisitSkipping) {
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v8::V8::Initialize();
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HandleAndZoneScope handles;
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ZoneVector<ExpressionTypeEntry> types(handles.main_zone());
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const char test_function[] =
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"function foo(x) {\n"
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" return (x + x) + 1;\n"
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"}\n";
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CollectTypes(&handles, test_function, &types);
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CHECK_TYPES_BEGIN {
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CHECK_EXPR(FunctionLiteral, Bounds::Unbounded()) {
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CHECK_EXPR(BinaryOperation, Bounds::Unbounded()) {
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// Skip x + x
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CHECK_SKIP();
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CHECK_EXPR(Literal, Bounds::Unbounded());
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}
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}
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}
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CHECK_TYPES_END
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}
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