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dart / sdk.git / refs/tags/0.5.14.1 / . / runtime / lib / integers.cc
blob: ff6cd81e01cde639ba800dd3bc014b2eac2b0c8c [file] [log] [blame]
// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#include "vm/bootstrap_natives.h"
#include "vm/bigint_operations.h"
#include "vm/dart_entry.h"
#include "vm/exceptions.h"
#include "vm/native_entry.h"
#include "vm/object.h"
#include "vm/symbols.h"
namespace dart {
DEFINE_FLAG(bool, trace_intrinsified_natives, false,
"Report if any of the intrinsified natives are called");
// Smi natives.
// Returns false if integer is in wrong representation, e.g., as is a Bigint
// when it could have been a Smi.
static bool CheckInteger(const Integer& i) {
if (i.IsBigint()) {
const Bigint& bigint = Bigint::Cast(i);
return !BigintOperations::FitsIntoSmi(bigint) &&
!BigintOperations::FitsIntoInt64(bigint);
}
if (i.IsMint()) {
const Mint& mint = Mint::Cast(i);
return !Smi::IsValid64(mint.value());
}
return true;
}
DEFINE_NATIVE_ENTRY(Integer_bitAndFromInteger, 2) {
const Integer& right = Integer::CheckedHandle(arguments->NativeArgAt(0));
GET_NON_NULL_NATIVE_ARGUMENT(Integer, left, arguments->NativeArgAt(1));
ASSERT(CheckInteger(right));
ASSERT(CheckInteger(left));
if (FLAG_trace_intrinsified_natives) {
OS::Print("Integer_bitAndFromInteger %s & %s\n",
right.ToCString(), left.ToCString());
}
const Integer& result =
Integer::Handle(left.BitOp(Token::kBIT_AND, right));
return result.AsValidInteger();
}
DEFINE_NATIVE_ENTRY(Integer_bitOrFromInteger, 2) {
const Integer& right = Integer::CheckedHandle(arguments->NativeArgAt(0));
GET_NON_NULL_NATIVE_ARGUMENT(Integer, left, arguments->NativeArgAt(1));
ASSERT(CheckInteger(right));
ASSERT(CheckInteger(left));
if (FLAG_trace_intrinsified_natives) {
OS::Print("Integer_bitOrFromInteger %s | %s\n",
left.ToCString(), right.ToCString());
}
const Integer& result =
Integer::Handle(left.BitOp(Token::kBIT_OR, right));
return result.AsValidInteger();
}
DEFINE_NATIVE_ENTRY(Integer_bitXorFromInteger, 2) {
const Integer& right = Integer::CheckedHandle(arguments->NativeArgAt(0));
GET_NON_NULL_NATIVE_ARGUMENT(Integer, left, arguments->NativeArgAt(1));
ASSERT(CheckInteger(right));
ASSERT(CheckInteger(left));
if (FLAG_trace_intrinsified_natives) {
OS::Print("Integer_bitXorFromInteger %s ^ %s\n",
left.ToCString(), right.ToCString());
}
const Integer& result =
Integer::Handle(left.BitOp(Token::kBIT_XOR, right));
return result.AsValidInteger();
}
DEFINE_NATIVE_ENTRY(Integer_addFromInteger, 2) {
const Integer& right_int = Integer::CheckedHandle(arguments->NativeArgAt(0));
GET_NON_NULL_NATIVE_ARGUMENT(Integer, left_int, arguments->NativeArgAt(1));
ASSERT(CheckInteger(right_int));
ASSERT(CheckInteger(left_int));
if (FLAG_trace_intrinsified_natives) {
OS::Print("Integer_addFromInteger %s + %s\n",
left_int.ToCString(), right_int.ToCString());
}
const Integer& result =
Integer::Handle(left_int.ArithmeticOp(Token::kADD, right_int));
return result.AsValidInteger();
}
DEFINE_NATIVE_ENTRY(Integer_subFromInteger, 2) {
const Integer& right_int = Integer::CheckedHandle(arguments->NativeArgAt(0));
GET_NON_NULL_NATIVE_ARGUMENT(Integer, left_int, arguments->NativeArgAt(1));
ASSERT(CheckInteger(right_int));
ASSERT(CheckInteger(left_int));
if (FLAG_trace_intrinsified_natives) {
OS::Print("Integer_subFromInteger %s - %s\n",
left_int.ToCString(), right_int.ToCString());
}
const Integer& result =
Integer::Handle(left_int.ArithmeticOp(Token::kSUB, right_int));
return result.AsValidInteger();
}
DEFINE_NATIVE_ENTRY(Integer_mulFromInteger, 2) {
const Integer& right_int = Integer::CheckedHandle(arguments->NativeArgAt(0));
GET_NON_NULL_NATIVE_ARGUMENT(Integer, left_int, arguments->NativeArgAt(1));
ASSERT(CheckInteger(right_int));
ASSERT(CheckInteger(left_int));
if (FLAG_trace_intrinsified_natives) {
OS::Print("Integer_mulFromInteger %s * %s\n",
left_int.ToCString(), right_int.ToCString());
}
const Integer& result =
Integer::Handle(left_int.ArithmeticOp(Token::kMUL, right_int));
return result.AsValidInteger();
}
DEFINE_NATIVE_ENTRY(Integer_truncDivFromInteger, 2) {
const Integer& right_int = Integer::CheckedHandle(arguments->NativeArgAt(0));
GET_NON_NULL_NATIVE_ARGUMENT(Integer, left_int, arguments->NativeArgAt(1));
ASSERT(CheckInteger(right_int));
ASSERT(CheckInteger(left_int));
ASSERT(!right_int.IsZero());
const Integer& result =
Integer::Handle(left_int.ArithmeticOp(Token::kTRUNCDIV, right_int));
return result.AsValidInteger();
}
DEFINE_NATIVE_ENTRY(Integer_moduloFromInteger, 2) {
const Integer& right_int = Integer::CheckedHandle(arguments->NativeArgAt(0));
GET_NON_NULL_NATIVE_ARGUMENT(Integer, left_int, arguments->NativeArgAt(1));
ASSERT(CheckInteger(right_int));
ASSERT(CheckInteger(right_int));
if (FLAG_trace_intrinsified_natives) {
OS::Print("Integer_moduloFromInteger %s mod %s\n",
left_int.ToCString(), right_int.ToCString());
}
if (right_int.IsZero()) {
// Should have been caught before calling into runtime.
UNIMPLEMENTED();
}
const Integer& result =
Integer::Handle(left_int.ArithmeticOp(Token::kMOD, right_int));
return result.AsValidInteger();
}
DEFINE_NATIVE_ENTRY(Integer_greaterThanFromInteger, 2) {
const Integer& right = Integer::CheckedHandle(arguments->NativeArgAt(0));
GET_NON_NULL_NATIVE_ARGUMENT(Integer, left, arguments->NativeArgAt(1));
ASSERT(CheckInteger(right));
ASSERT(CheckInteger(left));
if (FLAG_trace_intrinsified_natives) {
OS::Print("Integer_greaterThanFromInteger %s > %s\n",
left.ToCString(), right.ToCString());
}
return Bool::Get(left.CompareWith(right) == 1);
}
DEFINE_NATIVE_ENTRY(Integer_equalToInteger, 2) {
const Integer& left = Integer::CheckedHandle(arguments->NativeArgAt(0));
GET_NON_NULL_NATIVE_ARGUMENT(Integer, right, arguments->NativeArgAt(1));
ASSERT(CheckInteger(left));
ASSERT(CheckInteger(right));
if (FLAG_trace_intrinsified_natives) {
OS::Print("Integer_equalToInteger %s == %s\n",
left.ToCString(), right.ToCString());
}
return Bool::Get(left.CompareWith(right) == 0);
}
DEFINE_NATIVE_ENTRY(Integer_parse, 1) {
GET_NON_NULL_NATIVE_ARGUMENT(String, value, arguments->NativeArgAt(0));
if (value.IsOneByteString()) {
// Quick conversion for unpadded integers in strings.
const intptr_t len = value.Length();
if (len > 0) {
const char* cstr = value.ToCString();
ASSERT(cstr != NULL);
char* p_end = NULL;
const int64_t int_value = strtoll(cstr, &p_end, 10);
if (p_end == (cstr + len)) {
if ((int_value != LLONG_MIN) && (int_value != LLONG_MAX)) {
return Integer::New(int_value);
}
}
}
}
Scanner scanner(value, Symbols::Empty());
const Scanner::GrowableTokenStream& tokens = scanner.GetStream();
String* int_string;
bool is_positive;
if (Scanner::IsValidLiteral(tokens,
Token::kINTEGER,
&is_positive,
&int_string)) {
if (is_positive) {
return Integer::New(*int_string);
}
String& temp = String::Handle();
temp = String::Concat(Symbols::Dash(), *int_string);
return Integer::New(temp);
}
const Array& args = Array::Handle(Array::New(1));
args.SetAt(0, value);
Exceptions::ThrowByType(Exceptions::kFormat, args);
return Object::null();
}
static RawInteger* ShiftOperationHelper(Token::Kind kind,
const Integer& value,
const Smi& amount) {
if (amount.Value() < 0) {
const Array& args = Array::Handle(Array::New(1));
args.SetAt(0, amount);
Exceptions::ThrowByType(Exceptions::kArgument, args);
}
if (value.IsSmi()) {
const Smi& smi_value = Smi::Cast(value);
return smi_value.ShiftOp(kind, amount);
}
Bigint& big_value = Bigint::Handle();
if (value.IsMint()) {
const int64_t mint_value = value.AsInt64Value();
const int count = Utils::HighestBit(mint_value);
if ((count + amount.Value()) < Mint::kBits) {
switch (kind) {
case Token::kSHL:
return Integer::New(mint_value << amount.Value());
case Token::kSHR:
return Integer::New(mint_value >> amount.Value());
default:
UNIMPLEMENTED();
}
} else {
// Overflow in shift, use Bigints
big_value = BigintOperations::NewFromInt64(mint_value);
}
} else {
ASSERT(value.IsBigint());
big_value = Bigint::Cast(value).raw();
}
switch (kind) {
case Token::kSHL:
return BigintOperations::ShiftLeft(big_value, amount.Value());
case Token::kSHR:
return BigintOperations::ShiftRight(big_value, amount.Value());
default:
UNIMPLEMENTED();
}
return Integer::null();
}
DEFINE_NATIVE_ENTRY(Smi_shrFromInt, 2) {
const Smi& amount = Smi::CheckedHandle(arguments->NativeArgAt(0));
GET_NON_NULL_NATIVE_ARGUMENT(Integer, value, arguments->NativeArgAt(1));
ASSERT(CheckInteger(amount));
ASSERT(CheckInteger(value));
const Integer& result = Integer::Handle(
ShiftOperationHelper(Token::kSHR, value, amount));
return result.AsValidInteger();
}
DEFINE_NATIVE_ENTRY(Smi_shlFromInt, 2) {
const Smi& amount = Smi::CheckedHandle(arguments->NativeArgAt(0));
GET_NON_NULL_NATIVE_ARGUMENT(Integer, value, arguments->NativeArgAt(1));
ASSERT(CheckInteger(amount));
ASSERT(CheckInteger(value));
if (FLAG_trace_intrinsified_natives) {
OS::Print("Smi_shlFromInt: %s << %s\n",
value.ToCString(), amount.ToCString());
}
const Integer& result = Integer::Handle(
ShiftOperationHelper(Token::kSHL, value, amount));
return result.AsValidInteger();
}
DEFINE_NATIVE_ENTRY(Smi_bitNegate, 1) {
const Smi& operand = Smi::CheckedHandle(arguments->NativeArgAt(0));
if (FLAG_trace_intrinsified_natives) {
OS::Print("Smi_bitNegate: %s\n", operand.ToCString());
}
intptr_t result = ~operand.Value();
ASSERT(Smi::IsValid(result));
return Smi::New(result);
}
// Mint natives.
DEFINE_NATIVE_ENTRY(Mint_bitNegate, 1) {
const Mint& operand = Mint::CheckedHandle(arguments->NativeArgAt(0));
ASSERT(CheckInteger(operand));
if (FLAG_trace_intrinsified_natives) {
OS::Print("Mint_bitNegate: %s\n", operand.ToCString());
}
int64_t result = ~operand.value();
return Integer::New(result);
}
// Bigint natives.
DEFINE_NATIVE_ENTRY(Bigint_bitNegate, 1) {
const Bigint& value = Bigint::CheckedHandle(arguments->NativeArgAt(0));
const Bigint& result = Bigint::Handle(BigintOperations::BitNot(value));
ASSERT(CheckInteger(value));
ASSERT(CheckInteger(result));
return result.AsValidInteger();
}
} // namespace dart