v8/test/cctest/compiler/test-loop-assignment-analysis.cc
Wiktor Garbacz 80752a29b6 Make isolate explicit param of parsing:: functions
A step towards removing isolate from ParseInfo.
Removing isolate from ParseInfo will make it easier to create and
execute parse tasks on background threads.

BUG=v8:6093

Change-Id: I0a3546618d01b9232014da94cf8d0f72427a0d1d
Reviewed-on: https://chromium-review.googlesource.com/458006
Commit-Queue: Wiktor Garbacz <wiktorg@google.com>
Reviewed-by: Ulan Degenbaev <ulan@chromium.org>
Reviewed-by: Daniel Vogelheim <vogelheim@chromium.org>
Reviewed-by: Marja Hölttä <marja@chromium.org>
Cr-Commit-Position: refs/heads/master@{#44176}
2017-03-28 08:20:56 +00:00

287 lines
7.1 KiB
C++

// Copyright 2014 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/ast/scopes.h"
#include "src/compilation-info.h"
#include "src/compiler/ast-loop-assignment-analyzer.h"
#include "src/objects-inl.h"
#include "src/parsing/parse-info.h"
#include "src/parsing/parsing.h"
#include "src/parsing/rewriter.h"
#include "test/cctest/cctest.h"
namespace v8 {
namespace internal {
namespace compiler {
namespace {
const int kBufferSize = 1024;
struct TestHelper : public HandleAndZoneScope {
Handle<JSFunction> function;
LoopAssignmentAnalysis* result;
explicit TestHelper(const char* body)
: function(Handle<JSFunction>::null()), result(NULL) {
ScopedVector<char> program(kBufferSize);
SNPrintF(program, "function f(a,b,c) { %s; } f;", body);
v8::Local<v8::Value> v = CompileRun(program.start());
Handle<Object> obj = v8::Utils::OpenHandle(*v);
function = Handle<JSFunction>::cast(obj);
}
void CheckLoopAssignedCount(int expected, const char* var_name) {
// TODO(titzer): don't scope analyze every single time.
ParseInfo parse_info(handle(function->shared()));
CompilationInfo info(parse_info.zone(), &parse_info, function->GetIsolate(),
function);
CHECK(parsing::ParseFunction(&parse_info, info.isolate()));
CHECK(Rewriter::Rewrite(&parse_info, function->GetIsolate()));
DeclarationScope::Analyze(&parse_info, info.isolate(),
AnalyzeMode::kRegular);
DeclarationScope* scope = info.literal()->scope();
AstValueFactory* factory = parse_info.ast_value_factory();
CHECK(scope);
if (result == NULL) {
AstLoopAssignmentAnalyzer analyzer(main_zone(), &info);
result = analyzer.Analyze();
CHECK(result);
}
const i::AstRawString* name = factory->GetOneByteString(var_name);
i::Variable* var = scope->Lookup(name);
CHECK(var);
if (var->location() == VariableLocation::UNALLOCATED) {
CHECK_EQ(0, expected);
} else {
CHECK(var->IsStackAllocated());
CHECK_EQ(expected, result->GetAssignmentCountForTesting(scope, var));
}
}
};
} // namespace
TEST(SimpleLoop1) {
TestHelper f("var x = 0; while (x) ;");
f.CheckLoopAssignedCount(0, "x");
}
TEST(ForIn1) {
const char* loops[] = {"for(x in 0) { }"};
for (size_t i = 0; i < arraysize(loops); i++) {
TestHelper f(loops[i]);
f.CheckLoopAssignedCount(0, "x");
}
}
TEST(Param1) {
TestHelper f("while (1) a = 0;");
f.CheckLoopAssignedCount(1, "a");
f.CheckLoopAssignedCount(0, "b");
f.CheckLoopAssignedCount(0, "c");
}
TEST(Param2) {
TestHelper f("for (;;) b = 0;");
f.CheckLoopAssignedCount(0, "a");
f.CheckLoopAssignedCount(1, "b");
f.CheckLoopAssignedCount(0, "c");
}
TEST(Param2b) {
TestHelper f("a; b; c; for (;;) b = 0;");
f.CheckLoopAssignedCount(0, "a");
f.CheckLoopAssignedCount(1, "b");
f.CheckLoopAssignedCount(0, "c");
}
TEST(Param3) {
TestHelper f("for(x in 0) c = 0;");
f.CheckLoopAssignedCount(0, "a");
f.CheckLoopAssignedCount(0, "b");
f.CheckLoopAssignedCount(1, "c");
}
TEST(Param3b) {
TestHelper f("a; b; c; for(x in 0) c = 0;");
f.CheckLoopAssignedCount(0, "a");
f.CheckLoopAssignedCount(0, "b");
f.CheckLoopAssignedCount(1, "c");
}
TEST(NestedLoop1) {
TestHelper f("while (x) { while (x) { var x = 0; } }");
f.CheckLoopAssignedCount(2, "x");
}
TEST(NestedLoop2) {
TestHelper f("while (0) { while (0) { var x = 0; } }");
f.CheckLoopAssignedCount(2, "x");
}
TEST(NestedLoop3) {
TestHelper f("while (0) { var y = 1; while (0) { var x = 0; } }");
f.CheckLoopAssignedCount(2, "x");
f.CheckLoopAssignedCount(1, "y");
}
TEST(NestedInc1) {
const char* loops[] = {
"while (1) a(b++);",
"while (1) a(0, b++);",
"while (1) a(0, 0, b++);",
"while (1) a(b++, 1, 1);",
"while (1) a(++b);",
"while (1) a + (b++);",
"while (1) (b++) + a;",
"while (1) a + c(b++);",
"while (1) throw b++;",
"while (1) switch (b++) {} ;",
"while (1) switch (a) {case (b++): 0; } ;",
"while (1) switch (a) {case b: b++; } ;",
"while (1) a == (b++);",
"while (1) a === (b++);",
"while (1) +(b++);",
"while (1) ~(b++);",
"while (1) new a(b++);",
"while (1) (b++).f;",
"while (1) a[b++];",
"while (1) (b++)();",
"while (1) [b++];",
"while (1) [0,b++];",
"while (1) var y = [11,b++,12];",
"while (1) var y = {f:11,g:(b++),h:12};",
"while (1) try {b++;} finally {};",
"while (1) try {} finally {b++};",
"while (1) try {b++;} catch (e) {};",
"while (1) try {} catch (e) {b++};",
"while (1) return b++;",
"while (1) (b++) ? b : b;",
"while (1) b ? (b++) : b;",
"while (1) b ? b : (b++);",
};
for (size_t i = 0; i < arraysize(loops); i++) {
TestHelper f(loops[i]);
f.CheckLoopAssignedCount(1, "b");
}
}
TEST(NestedAssign1) {
const char* loops[] = {
"while (1) a(b=1);",
"while (1) a(0, b=1);",
"while (1) a(0, 0, b=1);",
"while (1) a(b=1, 1, 1);",
"while (1) a + (b=1);",
"while (1) (b=1) + a;",
"while (1) a + c(b=1);",
"while (1) throw b=1;",
"while (1) switch (b=1) {} ;",
"while (1) switch (a) {case b=1: 0; } ;",
"while (1) switch (a) {case b: b=1; } ;",
"while (1) a == (b=1);",
"while (1) a === (b=1);",
"while (1) +(b=1);",
"while (1) ~(b=1);",
"while (1) new a(b=1);",
"while (1) (b=1).f;",
"while (1) a[b=1];",
"while (1) (b=1)();",
"while (1) [b=1];",
"while (1) [0,b=1];",
"while (1) var z = [11,b=1,12];",
"while (1) var y = {f:11,g:(b=1),h:12};",
"while (1) try {b=1;} finally {};",
"while (1) try {} finally {b=1};",
"while (1) try {b=1;} catch (e) {};",
"while (1) try {} catch (e) {b=1};",
"while (1) return b=1;",
"while (1) (b=1) ? b : b;",
"while (1) b ? (b=1) : b;",
"while (1) b ? b : (b=1);",
};
for (size_t i = 0; i < arraysize(loops); i++) {
TestHelper f(loops[i]);
f.CheckLoopAssignedCount(1, "b");
}
}
TEST(NestedLoops3) {
TestHelper f("var x, y, z, w; while (x++) while (y++) while (z++) ; w;");
f.CheckLoopAssignedCount(1, "x");
f.CheckLoopAssignedCount(2, "y");
f.CheckLoopAssignedCount(3, "z");
f.CheckLoopAssignedCount(0, "w");
}
TEST(NestedLoops3b) {
TestHelper f(
"var x, y, z, w;"
"while (1) { x=1; while (1) { y=1; while (1) z=1; } }"
"w;");
f.CheckLoopAssignedCount(1, "x");
f.CheckLoopAssignedCount(2, "y");
f.CheckLoopAssignedCount(3, "z");
f.CheckLoopAssignedCount(0, "w");
}
TEST(NestedLoops3c) {
TestHelper f(
"var x, y, z, w;"
"while (1) {"
" x++;"
" while (1) {"
" y++;"
" while (1) z++;"
" }"
" while (1) {"
" y++;"
" while (1) z++;"
" }"
"}"
"w;");
f.CheckLoopAssignedCount(1, "x");
f.CheckLoopAssignedCount(3, "y");
f.CheckLoopAssignedCount(5, "z");
f.CheckLoopAssignedCount(0, "w");
}
} // namespace compiler
} // namespace internal
} // namespace v8