// in the graph. In the current implementation, we are
// increasing the limits to the closest power of two.
Type* Typer::Visitor::Weaken(Type* current_type, Type* previous_type) {
- if (current_type->IsRange() && previous_type->IsRange()) {
- Type::RangeType* previous = previous_type->AsRange();
- Type::RangeType* current = current_type->AsRange();
-
+ Type::RangeType* previous = previous_type->GetRange();
+ Type::RangeType* current = current_type->GetRange();
+ if (previous != NULL && current != NULL) {
double current_min = current->Min()->Number();
Handle<Object> new_min = current->Min();
}
}
- return Type::Range(new_min, new_max, typer_->zone());
+ return Type::Union(current_type,
+ Type::Range(new_min, new_max, typer_->zone()),
+ typer_->zone());
}
return current_type;
}
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
+#include <iomanip>
+
#include "src/types.h"
#include "src/ostreams.h"
} else if (this->IsConstant()) {
os << "Constant(" << Brief(*this->AsConstant()->Value()) << ")";
} else if (this->IsRange()) {
+ std::ostream::fmtflags saved_flags = os.setf(std::ios::fixed);
+ std::streamsize saved_precision = os.precision(0);
os << "Range(" << this->AsRange()->Min()->Number() << ", "
<< this->AsRange()->Max()->Number() << ")";
+ os.flags(saved_flags);
+ os.precision(saved_precision);
} else if (this->IsContext()) {
os << "Context(";
this->AsContext()->Outer()->PrintTo(os, dim);
double Min();
double Max();
+ // Extracts a range from the type. If the type is a range, it just
+ // returns it; if it is a union, it returns the range component.
+ // Note that it does not contain range for constants.
+ RangeType* GetRange();
+
int NumClasses();
int NumConstants();
static bool Contains(RangeType* lhs, RangeType* rhs);
static bool Contains(RangeType* range, i::Object* val);
- RangeType* GetRange();
static int UpdateRange(
RangeHandle type, UnionHandle result, int size, Region* region);
*/
}
+ void GetRange() {
+ // GetRange(Range(a, b)) = Range(a, b).
+ for (TypeIterator it1 = T.types.begin(); it1 != T.types.end(); ++it1) {
+ TypeHandle type1 = *it1;
+ if (type1->IsRange()) {
+ typename Type::RangeType* range = type1->GetRange();
+ CHECK(type1->Min() == range->Min()->Number());
+ CHECK(type1->Max() == range->Max()->Number());
+ }
+ }
+
+ // GetRange(Union(Constant(x), Range(min,max))) == Range(min, max).
+ for (TypeIterator it1 = T.types.begin(); it1 != T.types.end(); ++it1) {
+ for (TypeIterator it2 = T.types.begin(); it2 != T.types.end(); ++it2) {
+ TypeHandle type1 = *it1;
+ TypeHandle type2 = *it2;
+ if (type1->IsConstant() && type2->IsRange()) {
+ TypeHandle u = T.Union(type1, type2);
+
+ CHECK(type2->Min() == u->GetRange()->Min()->Number());
+ CHECK(type2->Max() == u->GetRange()->Max()->Number());
+ }
+ }
+ }
+ }
+
template<class Type2, class TypeHandle2, class Region2, class Rep2>
void Convert() {
Types<Type2, TypeHandle2, Region2> T2(
}
+TEST(GetRange) {
+ CcTest::InitializeVM();
+ ZoneTests().GetRange();
+ HeapTests().GetRange();
+}
+
+
TEST(Convert) {
CcTest::InitializeVM();
ZoneTests().Convert<HeapType, Handle<HeapType>, Isolate, HeapRep>();
--- /dev/null
+// 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.
+
+function f() {
+ for (var j = 1; j < 1; j *= -8) {
+ }
+ for (var i = 1; i < 1; j += 2) {
+ j * -1;
+ }
+}
+f();