Refactor VisitProperty, add starting point for SIMD.js support.
SIMD.js potentially adds to the standard library passed into asm.js modules. Splitting off the point where the SIMD object would be referenced to allow work on SIMD typing to occur orthogonally. Adding VariableInfo to allow tracking of simd constructors / check functions. Using this for fround. BUG= https://code.google.com/p/v8/issues/detail?id=4203 TEST=test-asm-validator R=titzer@chromium.org,aseemgarg@chromium.org LOG=N Looking at simd.js Review URL: https://codereview.chromium.org/1473513004 Cr-Commit-Position: refs/heads/master@{#32431}
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@ -38,16 +38,22 @@ namespace internal {
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AsmTyper::AsmTyper(Isolate* isolate, Zone* zone, Script* script,
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FunctionLiteral* root)
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: zone_(zone),
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isolate_(isolate),
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script_(script),
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root_(root),
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valid_(true),
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allow_simd_(false),
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intish_(0),
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stdlib_types_(zone),
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stdlib_heap_types_(zone),
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stdlib_math_types_(zone),
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global_variable_type_(HashMap::PointersMatch,
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ZoneHashMap::kDefaultHashMapCapacity,
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ZoneAllocationPolicy(zone)),
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#define V(NAME, Name, name, lane_count, lane_type) \
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stdlib_simd_##name##_types_(zone),
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SIMD128_TYPES(V)
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#undef V
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global_variable_type_(HashMap::PointersMatch,
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ZoneHashMap::kDefaultHashMapCapacity,
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ZoneAllocationPolicy(zone)),
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local_variable_type_(HashMap::PointersMatch,
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ZoneHashMap::kDefaultHashMapCapacity,
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ZoneAllocationPolicy(zone)),
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@ -93,6 +99,10 @@ void AsmTyper::VisitAsmModule(FunctionLiteral* fun) {
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RECURSE(VisitFunctionAnnotation(decl->fun()));
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Variable* var = decl->proxy()->var();
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DCHECK(GetType(var) == NULL);
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if (property_info_ != NULL) {
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SetVariableInfo(var, property_info_);
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property_info_ = NULL;
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}
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SetType(var, computed_type_);
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DCHECK(GetType(var) != NULL);
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}
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@ -181,6 +191,10 @@ void AsmTyper::VisitFunctionAnnotation(FunctionLiteral* fun) {
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if (var->location() != VariableLocation::PARAMETER || var->index() != i)
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break;
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RECURSE(VisitExpressionAnnotation(expr->value(), var, false));
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if (property_info_ != NULL) {
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SetVariableInfo(var, property_info_);
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property_info_ = NULL;
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}
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SetType(var, computed_type_);
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type->InitParameter(i, computed_type_);
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good = true;
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@ -197,12 +211,12 @@ void AsmTyper::VisitExpressionAnnotation(Expression* expr, Variable* var,
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BinaryOperation* bin = expr->AsBinaryOperation();
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if (bin != NULL) {
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if (var != NULL) {
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VariableProxy* left = bin->left()->AsVariableProxy();
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if (!left) {
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FAIL(expr, "variable name expected in type annotation");
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VariableProxy* proxy = bin->left()->AsVariableProxy();
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if (proxy == NULL) {
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FAIL(bin->left(), "expected variable for type annotation");
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}
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if (left->var() != var) {
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FAIL(left, "variable type annotation references other variable");
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if (proxy->var() != var) {
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FAIL(proxy, "annotation source doesn't match destination");
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}
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}
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Literal* right = bin->right()->AsLiteral();
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@ -241,19 +255,28 @@ void AsmTyper::VisitExpressionAnnotation(Expression* expr, Variable* var,
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Call* call = expr->AsCall();
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if (call != NULL) {
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if (call->expression()->IsVariableProxy()) {
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RECURSE(VisitWithExpectation(
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call->expression(), Type::Any(zone()),
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"only fround allowed on expression annotations"));
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if (!computed_type_->Is(
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Type::Function(cache_.kAsmFloat, Type::Number(zone()), zone()))) {
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FAIL(call->expression(),
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"only fround allowed on expression annotations");
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VariableProxy* proxy = call->expression()->AsVariableProxy();
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if (proxy != NULL) {
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VariableInfo* info = GetVariableInfo(proxy->var(), false);
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if (!info ||
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(!info->is_check_function && !info->is_constructor_function)) {
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if (allow_simd_) {
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FAIL(call->expression(),
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"only fround/SIMD.checks allowed on expression annotations");
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} else {
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FAIL(call->expression(),
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"only fround allowed on expression annotations");
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}
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}
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if (call->arguments()->length() != 1) {
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FAIL(call, "invalid argument count calling fround");
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Type* type = info->type;
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DCHECK(type->IsFunction());
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if (info->is_check_function) {
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DCHECK(type->AsFunction()->Arity() == 1);
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}
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SetResult(expr, cache_.kAsmFloat);
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if (call->arguments()->length() != type->AsFunction()->Arity()) {
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FAIL(call, "invalid argument count calling function");
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}
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SetResult(expr, type->AsFunction()->Result());
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return;
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}
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}
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@ -499,10 +522,15 @@ void AsmTyper::VisitConditional(Conditional* expr) {
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void AsmTyper::VisitVariableProxy(VariableProxy* expr) {
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Variable* var = expr->var();
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if (GetType(var) == NULL) {
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VariableInfo* info = GetVariableInfo(var, false);
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if (info == NULL || info->type == NULL) {
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FAIL(expr, "unbound variable");
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}
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Type* type = Type::Intersect(GetType(var), expected_type_, zone());
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if (property_info_ != NULL) {
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SetVariableInfo(var, property_info_);
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property_info_ = NULL;
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}
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Type* type = Type::Intersect(info->type, expected_type_, zone());
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if (type->Is(cache_.kAsmInt)) {
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type = cache_.kAsmInt;
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}
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@ -739,35 +767,83 @@ void AsmTyper::VisitHeapAccess(Property* expr, bool assigning,
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}
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bool AsmTyper::IsStdlibObject(Expression* expr) {
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VariableProxy* proxy = expr->AsVariableProxy();
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if (proxy == NULL) {
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return false;
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}
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Variable* var = proxy->var();
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VariableInfo* info = GetVariableInfo(var, false);
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if (info) {
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if (info->is_stdlib_object) return info->is_stdlib_object;
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}
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if (var->location() != VariableLocation::PARAMETER || var->index() != 0) {
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return false;
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}
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info = GetVariableInfo(var, true);
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info->type = Type::Object();
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info->is_stdlib_object = true;
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return true;
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}
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Expression* AsmTyper::GetReceiverOfPropertyAccess(Expression* expr,
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const char* name) {
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Property* property = expr->AsProperty();
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if (property == NULL) {
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return NULL;
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}
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Literal* key = property->key()->AsLiteral();
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if (key == NULL || !key->IsPropertyName() ||
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!key->AsPropertyName()->IsUtf8EqualTo(CStrVector(name))) {
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return NULL;
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}
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return property->obj();
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}
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bool AsmTyper::IsMathObject(Expression* expr) {
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Expression* obj = GetReceiverOfPropertyAccess(expr, "Math");
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return obj && IsStdlibObject(obj);
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}
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bool AsmTyper::IsSIMDObject(Expression* expr) {
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Expression* obj = GetReceiverOfPropertyAccess(expr, "SIMD");
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return obj && IsStdlibObject(obj);
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}
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bool AsmTyper::IsSIMDTypeObject(Expression* expr, const char* name) {
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Expression* obj = GetReceiverOfPropertyAccess(expr, name);
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return obj && IsSIMDObject(obj);
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}
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void AsmTyper::VisitProperty(Property* expr) {
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// stdlib.Math.x
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Property* inner_prop = expr->obj()->AsProperty();
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if (inner_prop != NULL) {
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// Get property name.
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Literal* key = expr->key()->AsLiteral();
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if (key == NULL || !key->IsPropertyName())
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FAIL(expr, "invalid type annotation on property 2");
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Handle<String> name = key->AsPropertyName();
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// Check that inner property name is "Math".
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Literal* math_key = inner_prop->key()->AsLiteral();
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if (math_key == NULL || !math_key->IsPropertyName() ||
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!math_key->AsPropertyName()->IsUtf8EqualTo(CStrVector("Math")))
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FAIL(expr, "invalid type annotation on stdlib (a1)");
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// Check that object is stdlib.
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VariableProxy* proxy = inner_prop->obj()->AsVariableProxy();
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if (proxy == NULL) FAIL(expr, "invalid type annotation on stdlib (a2)");
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Variable* var = proxy->var();
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if (var->location() != VariableLocation::PARAMETER || var->index() != 0)
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FAIL(expr, "invalid type annotation on stdlib (a3)");
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// Look up library type.
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Type* type = LibType(stdlib_math_types_, name);
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if (type == NULL) FAIL(expr, "unknown standard function 3 ");
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SetResult(expr, type);
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if (IsMathObject(expr->obj())) {
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VisitLibraryAccess(&stdlib_math_types_, expr);
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return;
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}
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#define V(NAME, Name, name, lane_count, lane_type) \
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if (IsSIMDTypeObject(expr->obj(), #Name)) { \
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VisitLibraryAccess(&stdlib_simd_##name##_types_, expr); \
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return; \
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} \
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if (IsSIMDTypeObject(expr, #Name)) { \
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VariableInfo* info = stdlib_simd_##name##_constructor_type_; \
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SetResult(expr, info->type); \
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property_info_ = info; \
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return; \
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}
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SIMD128_TYPES(V)
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#undef V
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if (IsStdlibObject(expr->obj())) {
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VisitLibraryAccess(&stdlib_types_, expr);
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return;
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}
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property_info_ = NULL;
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// Only recurse at this point so that we avoid needing
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// stdlib.Math to have a real type.
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@ -779,35 +855,14 @@ void AsmTyper::VisitProperty(Property* expr) {
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return;
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}
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// Get property name.
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Literal* key = expr->key()->AsLiteral();
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if (key == NULL || !key->IsPropertyName())
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FAIL(expr, "invalid type annotation on property 3");
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Handle<String> name = key->AsPropertyName();
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// stdlib.x or foreign.x
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VariableProxy* proxy = expr->obj()->AsVariableProxy();
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if (proxy != NULL) {
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Variable* var = proxy->var();
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if (var->location() != VariableLocation::PARAMETER) {
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FAIL(expr, "invalid type annotation on variable");
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}
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switch (var->index()) {
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case 0: {
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// Object is stdlib, look up library type.
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Type* type = LibType(stdlib_types_, name);
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if (type == NULL) {
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FAIL(expr, "unknown standard function 4");
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}
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SetResult(expr, type);
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return;
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}
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case 1:
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// Object is foreign lib.
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SetResult(expr, expected_type_);
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return;
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default:
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FAIL(expr, "invalid type annotation on parameter");
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if (var->location() == VariableLocation::PARAMETER && var->index() == 1) {
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// foreign.x is ok.
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SetResult(expr, expected_type_);
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return;
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}
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}
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@ -1143,7 +1198,26 @@ void AsmTyper::VisitSuperCallReference(SuperCallReference* expr) {
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}
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void AsmTyper::InitializeStdlibSIMD() {
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#define V(NAME, Name, name, lane_count, lane_type) \
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{ \
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Type* type = Type::Function(Type::Name(isolate_, zone()), Type::Any(), \
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lane_count, zone()); \
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for (int i = 0; i < lane_count; ++i) { \
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type->AsFunction()->InitParameter(i, Type::Number()); \
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} \
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stdlib_simd_##name##_constructor_type_ = new (zone()) VariableInfo(type); \
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stdlib_simd_##name##_constructor_type_->is_constructor_function = true; \
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}
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SIMD128_TYPES(V)
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#undef V
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}
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void AsmTyper::InitializeStdlib() {
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if (allow_simd_) {
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InitializeStdlibSIMD();
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}
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Type* number_type = Type::Number(zone());
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Type* double_type = cache_.kAsmDouble;
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Type* double_fn1_type = Type::Function(double_type, double_type, zone());
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@ -1177,30 +1251,44 @@ void AsmTyper::InitializeStdlib() {
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{"acos", double_fn1_type}, {"asin", double_fn1_type},
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{"atan", double_fn1_type}, {"atan2", double_fn2_type}};
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for (unsigned i = 0; i < arraysize(math); ++i) {
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stdlib_math_types_[math[i].name] = math[i].type;
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stdlib_math_types_[math[i].name] = new (zone()) VariableInfo(math[i].type);
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}
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stdlib_math_types_["fround"]->is_check_function = true;
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stdlib_types_["Infinity"] = double_type;
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stdlib_types_["NaN"] = double_type;
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stdlib_types_["Infinity"] = new (zone()) VariableInfo(double_type);
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stdlib_types_["NaN"] = new (zone()) VariableInfo(double_type);
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Type* buffer_type = Type::Any(zone());
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#define TYPED_ARRAY(TypeName, type_name, TYPE_NAME, ctype, size) \
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stdlib_types_[#TypeName "Array"] = \
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Type::Function(cache_.k##TypeName##Array, buffer_type, zone());
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stdlib_types_[#TypeName "Array"] = new (zone()) VariableInfo( \
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Type::Function(cache_.k##TypeName##Array, buffer_type, zone()));
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TYPED_ARRAYS(TYPED_ARRAY)
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#undef TYPED_ARRAY
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#define TYPED_ARRAY(TypeName, type_name, TYPE_NAME, ctype, size) \
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stdlib_heap_types_[#TypeName "Array"] = \
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Type::Function(cache_.k##TypeName##Array, buffer_type, zone());
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#define TYPED_ARRAY(TypeName, type_name, TYPE_NAME, ctype, size) \
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stdlib_heap_types_[#TypeName "Array"] = new (zone()) VariableInfo( \
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Type::Function(cache_.k##TypeName##Array, buffer_type, zone()));
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TYPED_ARRAYS(TYPED_ARRAY)
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#undef TYPED_ARRAY
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}
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Type* AsmTyper::LibType(ObjectTypeMap map, Handle<String> name) {
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void AsmTyper::VisitLibraryAccess(ObjectTypeMap* map, Property* expr) {
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Literal* key = expr->key()->AsLiteral();
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if (key == NULL || !key->IsPropertyName())
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FAIL(expr, "invalid key used on stdlib member");
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Handle<String> name = key->AsPropertyName();
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VariableInfo* info = LibType(map, name);
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if (info == NULL || info->type == NULL) FAIL(expr, "unknown stdlib function");
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SetResult(expr, info->type);
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property_info_ = info;
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}
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AsmTyper::VariableInfo* AsmTyper::LibType(ObjectTypeMap* map,
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Handle<String> name) {
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base::SmartArrayPointer<char> aname = name->ToCString();
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ObjectTypeMap::iterator i = map.find(std::string(aname.get()));
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if (i == map.end()) {
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ObjectTypeMap::iterator i = map->find(std::string(aname.get()));
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if (i == map->end()) {
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return NULL;
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}
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return i->second;
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@ -1208,32 +1296,52 @@ Type* AsmTyper::LibType(ObjectTypeMap map, Handle<String> name) {
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void AsmTyper::SetType(Variable* variable, Type* type) {
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ZoneHashMap::Entry* entry;
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if (in_function_) {
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entry = local_variable_type_.LookupOrInsert(
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variable, ComputePointerHash(variable), ZoneAllocationPolicy(zone()));
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} else {
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entry = global_variable_type_.LookupOrInsert(
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variable, ComputePointerHash(variable), ZoneAllocationPolicy(zone()));
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}
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entry->value = reinterpret_cast<void*>(type);
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VariableInfo* info = GetVariableInfo(variable, true);
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info->type = type;
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}
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Type* AsmTyper::GetType(Variable* variable) {
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i::ZoneHashMap::Entry* entry = NULL;
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VariableInfo* info = GetVariableInfo(variable, false);
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if (!info) return NULL;
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return info->type;
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}
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AsmTyper::VariableInfo* AsmTyper::GetVariableInfo(Variable* variable,
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bool setting) {
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ZoneHashMap::Entry* entry;
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ZoneHashMap* map;
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if (in_function_) {
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entry = local_variable_type_.Lookup(variable, ComputePointerHash(variable));
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}
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if (entry == NULL) {
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entry =
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global_variable_type_.Lookup(variable, ComputePointerHash(variable));
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}
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if (entry == NULL) {
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return NULL;
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map = &local_variable_type_;
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} else {
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return reinterpret_cast<Type*>(entry->value);
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map = &global_variable_type_;
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}
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if (setting) {
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entry = map->LookupOrInsert(variable, ComputePointerHash(variable),
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ZoneAllocationPolicy(zone()));
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} else {
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entry = map->Lookup(variable, ComputePointerHash(variable));
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if (!entry && in_function_) {
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entry =
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global_variable_type_.Lookup(variable, ComputePointerHash(variable));
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}
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}
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if (!entry) return NULL;
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if (!entry->value) {
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if (!setting) return NULL;
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entry->value = new (zone()) VariableInfo;
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}
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return reinterpret_cast<VariableInfo*>(entry->value);
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}
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void AsmTyper::SetVariableInfo(Variable* variable, const VariableInfo* info) {
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VariableInfo* dest = GetVariableInfo(variable, true);
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dest->type = info->type;
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dest->is_stdlib_object = info->is_stdlib_object;
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dest->is_check_function = info->is_check_function;
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dest->is_constructor_function = info->is_constructor_function;
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}
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@ -22,28 +22,52 @@ class AsmTyper : public AstVisitor {
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explicit AsmTyper(Isolate* isolate, Zone* zone, Script* script,
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FunctionLiteral* root);
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bool Validate();
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void set_allow_simd(bool simd);
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const char* error_message() { return error_message_; }
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DEFINE_AST_VISITOR_SUBCLASS_MEMBERS();
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private:
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Zone* zone_;
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Isolate* isolate_;
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Script* script_;
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FunctionLiteral* root_;
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bool valid_;
|
||||
bool allow_simd_;
|
||||
|
||||
struct VariableInfo : public ZoneObject {
|
||||
Type* type;
|
||||
bool is_stdlib_object;
|
||||
bool is_check_function;
|
||||
bool is_constructor_function;
|
||||
|
||||
VariableInfo()
|
||||
: type(NULL),
|
||||
is_stdlib_object(false),
|
||||
is_check_function(false),
|
||||
is_constructor_function(false) {}
|
||||
explicit VariableInfo(Type* t)
|
||||
: type(t), is_check_function(false), is_constructor_function(false) {}
|
||||
};
|
||||
|
||||
// Information for bi-directional typing with a cap on nesting depth.
|
||||
Type* expected_type_;
|
||||
Type* computed_type_;
|
||||
VariableInfo* property_info_;
|
||||
int intish_; // How many ops we've gone without a x|0.
|
||||
|
||||
Type* return_type_; // Return type of last function.
|
||||
size_t array_size_; // Array size of last ArrayLiteral.
|
||||
|
||||
typedef ZoneMap<std::string, Type*> ObjectTypeMap;
|
||||
typedef ZoneMap<std::string, VariableInfo*> ObjectTypeMap;
|
||||
ObjectTypeMap stdlib_types_;
|
||||
ObjectTypeMap stdlib_heap_types_;
|
||||
ObjectTypeMap stdlib_math_types_;
|
||||
#define V(NAME, Name, name, lane_count, lane_type) \
|
||||
ObjectTypeMap stdlib_simd_##name##_types_; \
|
||||
VariableInfo* stdlib_simd_##name##_constructor_type_;
|
||||
SIMD128_TYPES(V)
|
||||
#undef V
|
||||
|
||||
// Map from Variable* to global/local variable Type*.
|
||||
ZoneHashMap global_variable_type_;
|
||||
@ -61,6 +85,7 @@ class AsmTyper : public AstVisitor {
|
||||
static const int kMaxUncombinedMultiplicativeSteps = 1;
|
||||
|
||||
void InitializeStdlib();
|
||||
void InitializeStdlibSIMD();
|
||||
|
||||
void VisitDeclarations(ZoneList<Declaration*>* d) override;
|
||||
void VisitStatements(ZoneList<Statement*>* s) override;
|
||||
@ -71,13 +96,24 @@ class AsmTyper : public AstVisitor {
|
||||
|
||||
void VisitHeapAccess(Property* expr, bool assigning, Type* assignment_type);
|
||||
|
||||
Expression* GetReceiverOfPropertyAccess(Expression* expr, const char* name);
|
||||
bool IsMathObject(Expression* expr);
|
||||
bool IsSIMDObject(Expression* expr);
|
||||
bool IsSIMDTypeObject(Expression* expr, const char* name);
|
||||
bool IsStdlibObject(Expression* expr);
|
||||
|
||||
void VisitSIMDProperty(Property* expr);
|
||||
|
||||
int ElementShiftSize(Type* type);
|
||||
Type* StorageType(Type* type);
|
||||
|
||||
void SetType(Variable* variable, Type* type);
|
||||
Type* GetType(Variable* variable);
|
||||
VariableInfo* GetVariableInfo(Variable* variable, bool setting);
|
||||
void SetVariableInfo(Variable* variable, const VariableInfo* info);
|
||||
|
||||
Type* LibType(ObjectTypeMap map, Handle<String> name);
|
||||
VariableInfo* LibType(ObjectTypeMap* map, Handle<String> name);
|
||||
void VisitLibraryAccess(ObjectTypeMap* map, Property* expr);
|
||||
|
||||
void SetResult(Expression* expr, Type* type);
|
||||
void IntersectResult(Expression* expr, Type* type);
|
||||
|
@ -1530,7 +1530,7 @@ TEST(InvalidArgumentCount) {
|
||||
CHECK_FUNC_ERROR(
|
||||
"function bar(x) { return fround(4, 5); }\n"
|
||||
"function foo() { bar(); }",
|
||||
"asm: line 39: invalid argument count calling fround\n");
|
||||
"asm: line 39: invalid argument count calling function\n");
|
||||
}
|
||||
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user