Commit 86759140 authored by neis@chromium.org's avatar neis@chromium.org

Extend some operations to range types.

This is a reland of 22934, which failed to build on Windows due to a missing include, and on ARM due to a name clash with some predefined constants.

R=rossberg@chromium.org
BUG=

Review URL: https://codereview.chromium.org/444023002

git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@22945 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
parent 29539012
...@@ -2,6 +2,8 @@ ...@@ -2,6 +2,8 @@
// Use of this source code is governed by a BSD-style license that can be // Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file. // found in the LICENSE file.
#include <math.h>
#include "src/types.h" #include "src/types.h"
#include "src/ostreams.h" #include "src/ostreams.h"
...@@ -10,6 +12,21 @@ ...@@ -10,6 +12,21 @@
namespace v8 { namespace v8 {
namespace internal { namespace internal {
// -----------------------------------------------------------------------------
// Range-related custom order on doubles.
// We want -0 to be less than +0.
static bool dle(double x, double y) {
return x <= y && copysign(1, x) <= copysign(1, y);
}
static bool deq(double x, double y) {
return dle(x, y) && dle(y, x);
}
// ----------------------------------------------------------------------------- // -----------------------------------------------------------------------------
// Glb and lub computation. // Glb and lub computation.
...@@ -48,6 +65,8 @@ int TypeImpl<Config>::BitsetType::Lub(TypeImpl* type) { ...@@ -48,6 +65,8 @@ int TypeImpl<Config>::BitsetType::Lub(TypeImpl* type) {
type->AsClass()->Bound(NULL)->AsBitset(); type->AsClass()->Bound(NULL)->AsBitset();
} else if (type->IsConstant()) { } else if (type->IsConstant()) {
return type->AsConstant()->Bound()->AsBitset(); return type->AsConstant()->Bound()->AsBitset();
} else if (type->IsRange()) {
return type->AsRange()->Bound()->AsBitset();
} else if (type->IsContext()) { } else if (type->IsContext()) {
return type->AsContext()->Bound()->AsBitset(); return type->AsContext()->Bound()->AsBitset();
} else if (type->IsArray()) { } else if (type->IsArray()) {
...@@ -78,6 +97,8 @@ int TypeImpl<Config>::BitsetType::InherentLub(TypeImpl* type) { ...@@ -78,6 +97,8 @@ int TypeImpl<Config>::BitsetType::InherentLub(TypeImpl* type) {
return Lub(*type->AsClass()->Map()); return Lub(*type->AsClass()->Map());
} else if (type->IsConstant()) { } else if (type->IsConstant()) {
return Lub(*type->AsConstant()->Value()); return Lub(*type->AsConstant()->Value());
} else if (type->IsRange()) {
return Lub(type->AsRange()->Min(), type->AsRange()->Max());
} else if (type->IsContext()) { } else if (type->IsContext()) {
return kInternal & kTaggedPtr; return kInternal & kTaggedPtr;
} else if (type->IsArray()) { } else if (type->IsArray()) {
...@@ -112,6 +133,18 @@ int TypeImpl<Config>::BitsetType::Lub(double value) { ...@@ -112,6 +133,18 @@ int TypeImpl<Config>::BitsetType::Lub(double value) {
} }
template<class Config>
int TypeImpl<Config>::BitsetType::Lub(double min, double max) {
DisallowHeapAllocation no_allocation;
DCHECK(dle(min, max));
if (deq(min, max)) return BitsetType::Lub(min); // Singleton range.
int bitset = BitsetType::kNumber ^ SEMANTIC(BitsetType::kNaN);
if (dle(0, min) || max < 0) bitset ^= SEMANTIC(BitsetType::kMinusZero);
return bitset;
// TODO(neis): Could refine this further by doing more checks on min/max.
}
template<class Config> template<class Config>
int TypeImpl<Config>::BitsetType::Lub(int32_t value) { int TypeImpl<Config>::BitsetType::Lub(int32_t value) {
if (value >= 0x40000000) { if (value >= 0x40000000) {
...@@ -256,6 +289,12 @@ bool TypeImpl<Config>::SlowIs(TypeImpl* that) { ...@@ -256,6 +289,12 @@ bool TypeImpl<Config>::SlowIs(TypeImpl* that) {
&& *this->AsConstant()->Value() == *that->AsConstant()->Value() && *this->AsConstant()->Value() == *that->AsConstant()->Value()
&& this->AsConstant()->Bound()->Is(that->AsConstant()->Bound()); && this->AsConstant()->Bound()->Is(that->AsConstant()->Bound());
} }
if (that->IsRange()) {
return this->IsRange()
&& this->AsRange()->Bound()->Is(that->AsRange()->Bound())
&& dle(that->AsRange()->Min(), this->AsRange()->Min())
&& dle(this->AsRange()->Max(), that->AsRange()->Max());
}
if (that->IsContext()) { if (that->IsContext()) {
return this->IsContext() return this->IsContext()
&& this->AsContext()->Outer()->Equals(that->AsContext()->Outer()); && this->AsContext()->Outer()->Equals(that->AsContext()->Outer());
...@@ -388,6 +427,12 @@ bool TypeImpl<Config>::Maybe(TypeImpl* that) { ...@@ -388,6 +427,12 @@ bool TypeImpl<Config>::Maybe(TypeImpl* that) {
template<class Config> template<class Config>
bool TypeImpl<Config>::Contains(i::Object* value) { bool TypeImpl<Config>::Contains(i::Object* value) {
DisallowHeapAllocation no_allocation; DisallowHeapAllocation no_allocation;
if (this->IsRange()) {
return value->IsNumber() &&
dle(this->AsRange()->Min(), value->Number()) &&
dle(value->Number(), this->AsRange()->Max()) &&
BitsetType::Is(BitsetType::Lub(value), this->BitsetLub());
}
for (Iterator<i::Object> it = this->Constants(); !it.Done(); it.Advance()) { for (Iterator<i::Object> it = this->Constants(); !it.Done(); it.Advance()) {
if (*it.Current() == value) return true; if (*it.Current() == value) return true;
} }
...@@ -420,6 +465,9 @@ typename TypeImpl<Config>::TypeHandle TypeImpl<Config>::Rebound( ...@@ -420,6 +465,9 @@ typename TypeImpl<Config>::TypeHandle TypeImpl<Config>::Rebound(
return ClassType::New(this->AsClass()->Map(), bound, region); return ClassType::New(this->AsClass()->Map(), bound, region);
} else if (this->IsConstant()) { } else if (this->IsConstant()) {
return ConstantType::New(this->AsConstant()->Value(), bound, region); return ConstantType::New(this->AsConstant()->Value(), bound, region);
} else if (this->IsRange()) {
return RangeType::New(
this->AsRange()->Min(), this->AsRange()->Max(), bound, region);
} else if (this->IsContext()) { } else if (this->IsContext()) {
return ContextType::New(this->AsContext()->Outer(), bound, region); return ContextType::New(this->AsContext()->Outer(), bound, region);
} else if (this->IsArray()) { } else if (this->IsArray()) {
...@@ -508,8 +556,8 @@ int TypeImpl<Config>::ExtendUnion( ...@@ -508,8 +556,8 @@ int TypeImpl<Config>::ExtendUnion(
} }
} }
} else if (!type->IsBitset()) { } else if (!type->IsBitset()) {
DCHECK(type->IsClass() || type->IsConstant() || DCHECK(type->IsClass() || type->IsConstant() || type->IsRange() ||
type->IsArray() || type->IsFunction() || type->IsContext()); type->IsContext() || type->IsArray() || type->IsFunction());
int inherent_bound = type->InherentBitsetLub(); int inherent_bound = type->InherentBitsetLub();
int old_bound = type->BitsetLub(); int old_bound = type->BitsetLub();
int other_bound = type->BoundBy(other->unhandle()) & inherent_bound; int other_bound = type->BoundBy(other->unhandle()) & inherent_bound;
...@@ -752,6 +800,10 @@ typename TypeImpl<Config>::TypeHandle TypeImpl<Config>::Convert( ...@@ -752,6 +800,10 @@ typename TypeImpl<Config>::TypeHandle TypeImpl<Config>::Convert(
} else if (type->IsConstant()) { } else if (type->IsConstant()) {
TypeHandle bound = Convert<OtherType>(type->AsConstant()->Bound(), region); TypeHandle bound = Convert<OtherType>(type->AsConstant()->Bound(), region);
return ConstantType::New(type->AsConstant()->Value(), bound, region); return ConstantType::New(type->AsConstant()->Value(), bound, region);
} else if (type->IsRange()) {
TypeHandle bound = Convert<OtherType>(type->AsRange()->Bound(), region);
return RangeType::New(
type->AsRange()->Min(), type->AsRange()->Max(), bound, region);
} else if (type->IsContext()) { } else if (type->IsContext()) {
TypeHandle bound = Convert<OtherType>(type->AsContext()->Bound(), region); TypeHandle bound = Convert<OtherType>(type->AsContext()->Bound(), region);
TypeHandle outer = Convert<OtherType>(type->AsContext()->Outer(), region); TypeHandle outer = Convert<OtherType>(type->AsContext()->Outer(), region);
......
...@@ -286,7 +286,7 @@ class TypeImpl : public Config::Base { ...@@ -286,7 +286,7 @@ class TypeImpl : public Config::Base {
return ClassType::New(map, region); return ClassType::New(map, region);
} }
static TypeHandle Constant(i::Handle<i::Object> value, Region* region) { static TypeHandle Constant(i::Handle<i::Object> value, Region* region) {
// TODO(neis): return RangeType for numerical values // TODO(neis): Return RangeType for numerical values.
return ConstantType::New(value, region); return ConstantType::New(value, region);
} }
static TypeHandle Range(double min, double max, Region* region) { static TypeHandle Range(double min, double max, Region* region) {
...@@ -518,6 +518,7 @@ class TypeImpl<Config>::BitsetType : public TypeImpl<Config> { ...@@ -518,6 +518,7 @@ class TypeImpl<Config>::BitsetType : public TypeImpl<Config> {
static int Lub(int32_t value); static int Lub(int32_t value);
static int Lub(uint32_t value); static int Lub(uint32_t value);
static int Lub(i::Map* map); static int Lub(i::Map* map);
static int Lub(double min, double max);
static int InherentLub(TypeImpl* type); static int InherentLub(TypeImpl* type);
static const char* Name(int bitset); static const char* Name(int bitset);
...@@ -690,8 +691,7 @@ class TypeImpl<Config>::RangeType : public StructuralType { ...@@ -690,8 +691,7 @@ class TypeImpl<Config>::RangeType : public StructuralType {
static RangeHandle New( static RangeHandle New(
double min, double max, TypeHandle bound, Region* region) { double min, double max, TypeHandle bound, Region* region) {
DCHECK(BitsetType::Is(bound->AsBitset(), BitsetType::kNumber)); DCHECK(BitsetType::Is(bound->AsBitset(), BitsetType::Lub(min, max)));
DCHECK(!std::isnan(min) && !std::isnan(max) && min <= max);
RangeHandle type = Config::template cast<RangeType>( RangeHandle type = Config::template cast<RangeType>(
StructuralType::New(StructuralType::kRangeTag, 3, region)); StructuralType::New(StructuralType::kRangeTag, 3, region));
type->Set(0, bound); type->Set(0, bound);
...@@ -704,7 +704,7 @@ class TypeImpl<Config>::RangeType : public StructuralType { ...@@ -704,7 +704,7 @@ class TypeImpl<Config>::RangeType : public StructuralType {
} }
static RangeHandle New(double min, double max, Region* region) { static RangeHandle New(double min, double max, Region* region) {
TypeHandle bound = BitsetType::New(BitsetType::kNumber, region); TypeHandle bound = BitsetType::New(BitsetType::Lub(min, max), region);
return New(min, max, bound, region); return New(min, max, bound, region);
} }
......
...@@ -2,6 +2,7 @@ ...@@ -2,6 +2,7 @@
// Use of this source code is governed by a BSD-style license that can be // Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file. // found in the LICENSE file.
#include <math.h>
#include <vector> #include <vector>
#include "src/hydrogen-types.h" #include "src/hydrogen-types.h"
...@@ -139,7 +140,7 @@ class Types { ...@@ -139,7 +140,7 @@ class Types {
NumberFunction2 = Type::Function(Number, Number, Number, region); NumberFunction2 = Type::Function(Number, Number, Number, region);
MethodFunction = Type::Function(String, Object, 0, region); MethodFunction = Type::Function(String, Object, 0, region);
for (int i = 0; i < 40; ++i) { for (int i = 0; i < 30; ++i) {
types.push_back(Fuzz()); types.push_back(Fuzz());
} }
} }
...@@ -189,6 +190,21 @@ class Types { ...@@ -189,6 +190,21 @@ class Types {
ValueVector values; ValueVector values;
DoubleVector doubles; // Some floating-point values, excluding NaN. DoubleVector doubles; // Some floating-point values, excluding NaN.
// Range type helper functions, partially copied from types.cc.
// Note: dle(dmin(x,y), dmax(x,y)) holds iff neither x nor y is NaN.
bool dle(double x, double y) {
return x <= y && copysign(1, x) <= copysign(1, y);
}
bool deq(double x, double y) {
return dle(x, y) && dle(y, x);
}
double dmin(double x, double y) {
return dle(x, y) ? x : y;
}
double dmax(double x, double y) {
return dle(x, y) ? y : x;
}
TypeHandle Of(Handle<i::Object> value) { TypeHandle Of(Handle<i::Object> value) {
return Type::Of(value, region_); return Type::Of(value, region_);
} }
...@@ -549,8 +565,8 @@ struct Tests : Rep { ...@@ -549,8 +565,8 @@ struct Tests : Rep {
// Constructor // Constructor
for (DoubleIterator i = T.doubles.begin(); i != T.doubles.end(); ++i) { for (DoubleIterator i = T.doubles.begin(); i != T.doubles.end(); ++i) {
for (DoubleIterator j = T.doubles.begin(); j != T.doubles.end(); ++j) { for (DoubleIterator j = T.doubles.begin(); j != T.doubles.end(); ++j) {
double min = std::min(*i, *j); double min = T.dmin(*i, *j);
double max = std::max(*i, *j); double max = T.dmax(*i, *j);
TypeHandle type = T.Range(min, max); TypeHandle type = T.Range(min, max);
CHECK(type->IsRange()); CHECK(type->IsRange());
} }
...@@ -559,8 +575,8 @@ struct Tests : Rep { ...@@ -559,8 +575,8 @@ struct Tests : Rep {
// Range attributes // Range attributes
for (DoubleIterator i = T.doubles.begin(); i != T.doubles.end(); ++i) { for (DoubleIterator i = T.doubles.begin(); i != T.doubles.end(); ++i) {
for (DoubleIterator j = T.doubles.begin(); j != T.doubles.end(); ++j) { for (DoubleIterator j = T.doubles.begin(); j != T.doubles.end(); ++j) {
double min = std::min(*i, *j); double min = T.dmin(*i, *j);
double max = std::max(*i, *j); double max = T.dmax(*i, *j);
printf("RangeType: min, max = %f, %f\n", min, max); printf("RangeType: min, max = %f, %f\n", min, max);
TypeHandle type = T.Range(min, max); TypeHandle type = T.Range(min, max);
printf("RangeType: Min, Max = %f, %f\n", printf("RangeType: Min, Max = %f, %f\n",
...@@ -579,13 +595,14 @@ struct Tests : Rep { ...@@ -579,13 +595,14 @@ struct Tests : Rep {
// i2 != T.doubles.end(); ++i2) { // i2 != T.doubles.end(); ++i2) {
// for (DoubleIterator j2 = T.doubles.begin(); // for (DoubleIterator j2 = T.doubles.begin();
// j2 != T.doubles.end(); ++j2) { // j2 != T.doubles.end(); ++j2) {
// double min1 = std::min(*i1, *j1); // double min1 = T.dmin(*i1, *j1);
// double max1 = std::max(*i1, *j1); // double max1 = T.dmax(*i1, *j1);
// double min2 = std::min(*i2, *j2); // double min2 = T.dmin(*i2, *j2);
// double max2 = std::max(*i2, *j2); // double max2 = T.dmax(*i2, *j2);
// TypeHandle type1 = T.Range(min1, max1); // TypeHandle type1 = T.Range(min1, max1);
// TypeHandle type2 = T.Range(min2, max2); // TypeHandle type2 = T.Range(min2, max2);
// CHECK(Equal(type1, type2) == (min1 == min2 && max1 == max2)); // CHECK(Equal(type1, type2) ==
// (T.deq(min1, min2) && T.deq(max1, max2)));
// } // }
// } // }
// } // }
......
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