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6eb9e02b00
v8/src/regexp-macro-assembler.cc
dcarney@chromium.org d208d048ac remove most Isolate::Current asserts 
R=svenpanne@chromium.org
BUG=

Review URL: https://codereview.chromium.org/23493019

git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@16552 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2013-09-05 11:27:22 +00:00

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// Copyright 2012 the V8 project authors. All rights reserved.
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "v8.h"
#include "ast.h"
#include "assembler.h"
#include "regexp-stack.h"
#include "regexp-macro-assembler.h"
#include "simulator.h"
namespace v8 {
namespace internal {
RegExpMacroAssembler::RegExpMacroAssembler(Zone* zone)
: slow_safe_compiler_(false),
global_mode_(NOT_GLOBAL),
zone_(zone) {
}
RegExpMacroAssembler::~RegExpMacroAssembler() {
}
bool RegExpMacroAssembler::CanReadUnaligned() {
#ifdef V8_HOST_CAN_READ_UNALIGNED
return true;
#else
return false;
#endif
}
#ifndef V8_INTERPRETED_REGEXP // Avoid unused code, e.g., on ARM.
NativeRegExpMacroAssembler::NativeRegExpMacroAssembler(Zone* zone)
: RegExpMacroAssembler(zone) {
}
NativeRegExpMacroAssembler::~NativeRegExpMacroAssembler() {
}
bool NativeRegExpMacroAssembler::CanReadUnaligned() {
return FLAG_enable_unaligned_accesses && !slow_safe();
}
const byte* NativeRegExpMacroAssembler::StringCharacterPosition(
String* subject,
int start_index) {
// Not just flat, but ultra flat.
ASSERT(subject->IsExternalString() || subject->IsSeqString());
ASSERT(start_index >= 0);
ASSERT(start_index <= subject->length());
if (subject->IsOneByteRepresentation()) {
const byte* address;
if (StringShape(subject).IsExternal()) {
const uint8_t* data = ExternalAsciiString::cast(subject)->GetChars();
address = reinterpret_cast<const byte*>(data);
} else {
ASSERT(subject->IsSeqOneByteString());
const uint8_t* data = SeqOneByteString::cast(subject)->GetChars();
address = reinterpret_cast<const byte*>(data);
}
return address + start_index;
}
const uc16* data;
if (StringShape(subject).IsExternal()) {
data = ExternalTwoByteString::cast(subject)->GetChars();
} else {
ASSERT(subject->IsSeqTwoByteString());
data = SeqTwoByteString::cast(subject)->GetChars();
}
return reinterpret_cast<const byte*>(data + start_index);
}
NativeRegExpMacroAssembler::Result NativeRegExpMacroAssembler::Match(
Handle<Code> regexp_code,
Handle<String> subject,
int* offsets_vector,
int offsets_vector_length,
int previous_index,
Isolate* isolate) {
ASSERT(subject->IsFlat());
ASSERT(previous_index >= 0);
ASSERT(previous_index <= subject->length());
// No allocations before calling the regexp, but we can't use
// DisallowHeapAllocation, since regexps might be preempted, and another
// thread might do allocation anyway.
String* subject_ptr = *subject;
// Character offsets into string.
int start_offset = previous_index;
int char_length = subject_ptr->length() - start_offset;
int slice_offset = 0;
// The string has been flattened, so if it is a cons string it contains the
// full string in the first part.
if (StringShape(subject_ptr).IsCons()) {
ASSERT_EQ(0, ConsString::cast(subject_ptr)->second()->length());
subject_ptr = ConsString::cast(subject_ptr)->first();
} else if (StringShape(subject_ptr).IsSliced()) {
SlicedString* slice = SlicedString::cast(subject_ptr);
subject_ptr = slice->parent();
slice_offset = slice->offset();
}
// Ensure that an underlying string has the same ASCII-ness.
bool is_ascii = subject_ptr->IsOneByteRepresentation();
ASSERT(subject_ptr->IsExternalString() || subject_ptr->IsSeqString());
// String is now either Sequential or External
int char_size_shift = is_ascii ? 0 : 1;
const byte* input_start =
StringCharacterPosition(subject_ptr, start_offset + slice_offset);
int byte_length = char_length << char_size_shift;
const byte* input_end = input_start + byte_length;
Result res = Execute(*regexp_code,
*subject,
start_offset,
input_start,
input_end,
offsets_vector,
offsets_vector_length,
isolate);
return res;
}
NativeRegExpMacroAssembler::Result NativeRegExpMacroAssembler::Execute(
Code* code,
String* input, // This needs to be the unpacked (sliced, cons) string.
int start_offset,
const byte* input_start,
const byte* input_end,
int* output,
int output_size,
Isolate* isolate) {
// Ensure that the minimum stack has been allocated.
RegExpStackScope stack_scope(isolate);
Address stack_base = stack_scope.stack()->stack_base();
int direct_call = 0;
int result = CALL_GENERATED_REGEXP_CODE(code->entry(),
input,
start_offset,
input_start,
input_end,
output,
output_size,
stack_base,
direct_call,
isolate);
ASSERT(result >= RETRY);
if (result == EXCEPTION && !isolate->has_pending_exception()) {
// We detected a stack overflow (on the backtrack stack) in RegExp code,
// but haven't created the exception yet.
isolate->StackOverflow();
}
return static_cast<Result>(result);
}
const byte NativeRegExpMacroAssembler::word_character_map[] = {
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, // '0' - '7'
0xffu, 0xffu, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, // '8' - '9'
0x00u, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, // 'A' - 'G'
0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, // 'H' - 'O'
0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, // 'P' - 'W'
0xffu, 0xffu, 0xffu, 0x00u, 0x00u, 0x00u, 0x00u, 0xffu, // 'X' - 'Z', '_'
0x00u, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, // 'a' - 'g'
0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, // 'h' - 'o'
0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, 0xffu, // 'p' - 'w'
0xffu, 0xffu, 0xffu, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, // 'x' - 'z'
// Latin-1 range
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u, 0x00u,
};
int NativeRegExpMacroAssembler::CaseInsensitiveCompareUC16(
Address byte_offset1,
Address byte_offset2,
size_t byte_length,
Isolate* isolate) {
unibrow::Mapping<unibrow::Ecma262Canonicalize>* canonicalize =
isolate->regexp_macro_assembler_canonicalize();
// This function is not allowed to cause a garbage collection.
// A GC might move the calling generated code and invalidate the
// return address on the stack.
ASSERT(byte_length % 2 == 0);
uc16* substring1 = reinterpret_cast<uc16*>(byte_offset1);
uc16* substring2 = reinterpret_cast<uc16*>(byte_offset2);
size_t length = byte_length >> 1;
for (size_t i = 0; i < length; i++) {
unibrow::uchar c1 = substring1[i];
unibrow::uchar c2 = substring2[i];
if (c1 != c2) {
unibrow::uchar s1[1] = { c1 };
canonicalize->get(c1, '\0', s1);
if (s1[0] != c2) {
unibrow::uchar s2[1] = { c2 };
canonicalize->get(c2, '\0', s2);
if (s1[0] != s2[0]) {
return 0;
}
}
}
}
return 1;
}
Address NativeRegExpMacroAssembler::GrowStack(Address stack_pointer,
Address* stack_base,
Isolate* isolate) {
RegExpStack* regexp_stack = isolate->regexp_stack();
size_t size = regexp_stack->stack_capacity();
Address old_stack_base = regexp_stack->stack_base();
ASSERT(old_stack_base == *stack_base);
ASSERT(stack_pointer <= old_stack_base);
ASSERT(static_cast<size_t>(old_stack_base - stack_pointer) <= size);
Address new_stack_base = regexp_stack->EnsureCapacity(size * 2);
if (new_stack_base == NULL) {
return NULL;
}
*stack_base = new_stack_base;
intptr_t stack_content_size = old_stack_base - stack_pointer;
return new_stack_base - stack_content_size;
}
#endif // V8_INTERPRETED_REGEXP
} } // namespace v8::internal
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