// Copyright 2008-2009 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 "bytecodes-irregexp.h" #include "regexp-macro-assembler.h" #include "regexp-macro-assembler-irregexp.h" #include "regexp-macro-assembler-irregexp-inl.h" namespace v8 { namespace internal { #ifdef V8_INTERPRETED_REGEXP RegExpMacroAssemblerIrregexp::RegExpMacroAssemblerIrregexp(Vector buffer, Zone* zone) : RegExpMacroAssembler(zone), buffer_(buffer), pc_(0), own_buffer_(false), advance_current_end_(kInvalidPC) { } RegExpMacroAssemblerIrregexp::~RegExpMacroAssemblerIrregexp() { if (backtrack_.is_linked()) backtrack_.Unuse(); if (own_buffer_) buffer_.Dispose(); } RegExpMacroAssemblerIrregexp::IrregexpImplementation RegExpMacroAssemblerIrregexp::Implementation() { return kBytecodeImplementation; } void RegExpMacroAssemblerIrregexp::Bind(Label* l) { advance_current_end_ = kInvalidPC; ASSERT(!l->is_bound()); if (l->is_linked()) { int pos = l->pos(); while (pos != 0) { int fixup = pos; pos = *reinterpret_cast(buffer_.start() + fixup); *reinterpret_cast(buffer_.start() + fixup) = pc_; } } l->bind_to(pc_); } void RegExpMacroAssemblerIrregexp::EmitOrLink(Label* l) { if (l == NULL) l = &backtrack_; if (l->is_bound()) { Emit32(l->pos()); } else { int pos = 0; if (l->is_linked()) { pos = l->pos(); } l->link_to(pc_); Emit32(pos); } } void RegExpMacroAssemblerIrregexp::PopRegister(int register_index) { ASSERT(register_index >= 0); ASSERT(register_index <= kMaxRegister); Emit(BC_POP_REGISTER, register_index); } void RegExpMacroAssemblerIrregexp::PushRegister( int register_index, StackCheckFlag check_stack_limit) { ASSERT(register_index >= 0); ASSERT(register_index <= kMaxRegister); Emit(BC_PUSH_REGISTER, register_index); } void RegExpMacroAssemblerIrregexp::WriteCurrentPositionToRegister( int register_index, int cp_offset) { ASSERT(register_index >= 0); ASSERT(register_index <= kMaxRegister); Emit(BC_SET_REGISTER_TO_CP, register_index); Emit32(cp_offset); // Current position offset. } void RegExpMacroAssemblerIrregexp::ClearRegisters(int reg_from, int reg_to) { ASSERT(reg_from <= reg_to); for (int reg = reg_from; reg <= reg_to; reg++) { SetRegister(reg, -1); } } void RegExpMacroAssemblerIrregexp::ReadCurrentPositionFromRegister( int register_index) { ASSERT(register_index >= 0); ASSERT(register_index <= kMaxRegister); Emit(BC_SET_CP_TO_REGISTER, register_index); } void RegExpMacroAssemblerIrregexp::WriteStackPointerToRegister( int register_index) { ASSERT(register_index >= 0); ASSERT(register_index <= kMaxRegister); Emit(BC_SET_REGISTER_TO_SP, register_index); } void RegExpMacroAssemblerIrregexp::ReadStackPointerFromRegister( int register_index) { ASSERT(register_index >= 0); ASSERT(register_index <= kMaxRegister); Emit(BC_SET_SP_TO_REGISTER, register_index); } void RegExpMacroAssemblerIrregexp::SetCurrentPositionFromEnd(int by) { ASSERT(is_uint24(by)); Emit(BC_SET_CURRENT_POSITION_FROM_END, by); } void RegExpMacroAssemblerIrregexp::SetRegister(int register_index, int to) { ASSERT(register_index >= 0); ASSERT(register_index <= kMaxRegister); Emit(BC_SET_REGISTER, register_index); Emit32(to); } void RegExpMacroAssemblerIrregexp::AdvanceRegister(int register_index, int by) { ASSERT(register_index >= 0); ASSERT(register_index <= kMaxRegister); Emit(BC_ADVANCE_REGISTER, register_index); Emit32(by); } void RegExpMacroAssemblerIrregexp::PopCurrentPosition() { Emit(BC_POP_CP, 0); } void RegExpMacroAssemblerIrregexp::PushCurrentPosition() { Emit(BC_PUSH_CP, 0); } void RegExpMacroAssemblerIrregexp::Backtrack() { Emit(BC_POP_BT, 0); } void RegExpMacroAssemblerIrregexp::GoTo(Label* l) { if (advance_current_end_ == pc_) { // Combine advance current and goto. pc_ = advance_current_start_; Emit(BC_ADVANCE_CP_AND_GOTO, advance_current_offset_); EmitOrLink(l); advance_current_end_ = kInvalidPC; } else { // Regular goto. Emit(BC_GOTO, 0); EmitOrLink(l); } } void RegExpMacroAssemblerIrregexp::PushBacktrack(Label* l) { Emit(BC_PUSH_BT, 0); EmitOrLink(l); } bool RegExpMacroAssemblerIrregexp::Succeed() { Emit(BC_SUCCEED, 0); return false; // Restart matching for global regexp not supported. } void RegExpMacroAssemblerIrregexp::Fail() { Emit(BC_FAIL, 0); } void RegExpMacroAssemblerIrregexp::AdvanceCurrentPosition(int by) { ASSERT(by >= kMinCPOffset); ASSERT(by <= kMaxCPOffset); advance_current_start_ = pc_; advance_current_offset_ = by; Emit(BC_ADVANCE_CP, by); advance_current_end_ = pc_; } void RegExpMacroAssemblerIrregexp::CheckGreedyLoop( Label* on_tos_equals_current_position) { Emit(BC_CHECK_GREEDY, 0); EmitOrLink(on_tos_equals_current_position); } void RegExpMacroAssemblerIrregexp::LoadCurrentCharacter(int cp_offset, Label* on_failure, bool check_bounds, int characters) { ASSERT(cp_offset >= kMinCPOffset); ASSERT(cp_offset <= kMaxCPOffset); int bytecode; if (check_bounds) { if (characters == 4) { bytecode = BC_LOAD_4_CURRENT_CHARS; } else if (characters == 2) { bytecode = BC_LOAD_2_CURRENT_CHARS; } else { ASSERT(characters == 1); bytecode = BC_LOAD_CURRENT_CHAR; } } else { if (characters == 4) { bytecode = BC_LOAD_4_CURRENT_CHARS_UNCHECKED; } else if (characters == 2) { bytecode = BC_LOAD_2_CURRENT_CHARS_UNCHECKED; } else { ASSERT(characters == 1); bytecode = BC_LOAD_CURRENT_CHAR_UNCHECKED; } } Emit(bytecode, cp_offset); if (check_bounds) EmitOrLink(on_failure); } void RegExpMacroAssemblerIrregexp::CheckCharacterLT(uc16 limit, Label* on_less) { Emit(BC_CHECK_LT, limit); EmitOrLink(on_less); } void RegExpMacroAssemblerIrregexp::CheckCharacterGT(uc16 limit, Label* on_greater) { Emit(BC_CHECK_GT, limit); EmitOrLink(on_greater); } void RegExpMacroAssemblerIrregexp::CheckCharacter(uint32_t c, Label* on_equal) { if (c > MAX_FIRST_ARG) { Emit(BC_CHECK_4_CHARS, 0); Emit32(c); } else { Emit(BC_CHECK_CHAR, c); } EmitOrLink(on_equal); } void RegExpMacroAssemblerIrregexp::CheckAtStart(Label* on_at_start) { Emit(BC_CHECK_AT_START, 0); EmitOrLink(on_at_start); } void RegExpMacroAssemblerIrregexp::CheckNotAtStart(Label* on_not_at_start) { Emit(BC_CHECK_NOT_AT_START, 0); EmitOrLink(on_not_at_start); } void RegExpMacroAssemblerIrregexp::CheckNotCharacter(uint32_t c, Label* on_not_equal) { if (c > MAX_FIRST_ARG) { Emit(BC_CHECK_NOT_4_CHARS, 0); Emit32(c); } else { Emit(BC_CHECK_NOT_CHAR, c); } EmitOrLink(on_not_equal); } void RegExpMacroAssemblerIrregexp::CheckCharacterAfterAnd( uint32_t c, uint32_t mask, Label* on_equal) { if (c > MAX_FIRST_ARG) { Emit(BC_AND_CHECK_4_CHARS, 0); Emit32(c); } else { Emit(BC_AND_CHECK_CHAR, c); } Emit32(mask); EmitOrLink(on_equal); } void RegExpMacroAssemblerIrregexp::CheckNotCharacterAfterAnd( uint32_t c, uint32_t mask, Label* on_not_equal) { if (c > MAX_FIRST_ARG) { Emit(BC_AND_CHECK_NOT_4_CHARS, 0); Emit32(c); } else { Emit(BC_AND_CHECK_NOT_CHAR, c); } Emit32(mask); EmitOrLink(on_not_equal); } void RegExpMacroAssemblerIrregexp::CheckNotCharacterAfterMinusAnd( uc16 c, uc16 minus, uc16 mask, Label* on_not_equal) { Emit(BC_MINUS_AND_CHECK_NOT_CHAR, c); Emit16(minus); Emit16(mask); EmitOrLink(on_not_equal); } void RegExpMacroAssemblerIrregexp::CheckCharacterInRange( uc16 from, uc16 to, Label* on_in_range) { Emit(BC_CHECK_CHAR_IN_RANGE, 0); Emit16(from); Emit16(to); EmitOrLink(on_in_range); } void RegExpMacroAssemblerIrregexp::CheckCharacterNotInRange( uc16 from, uc16 to, Label* on_not_in_range) { Emit(BC_CHECK_CHAR_NOT_IN_RANGE, 0); Emit16(from); Emit16(to); EmitOrLink(on_not_in_range); } void RegExpMacroAssemblerIrregexp::CheckBitInTable( Handle table, Label* on_bit_set) { Emit(BC_CHECK_BIT_IN_TABLE, 0); EmitOrLink(on_bit_set); for (int i = 0; i < kTableSize; i += kBitsPerByte) { int byte = 0; for (int j = 0; j < kBitsPerByte; j++) { if (table->get(i + j) != 0) byte |= 1 << j; } Emit8(byte); } } void RegExpMacroAssemblerIrregexp::CheckNotBackReference(int start_reg, Label* on_not_equal) { ASSERT(start_reg >= 0); ASSERT(start_reg <= kMaxRegister); Emit(BC_CHECK_NOT_BACK_REF, start_reg); EmitOrLink(on_not_equal); } void RegExpMacroAssemblerIrregexp::CheckNotBackReferenceIgnoreCase( int start_reg, Label* on_not_equal) { ASSERT(start_reg >= 0); ASSERT(start_reg <= kMaxRegister); Emit(BC_CHECK_NOT_BACK_REF_NO_CASE, start_reg); EmitOrLink(on_not_equal); } void RegExpMacroAssemblerIrregexp::CheckCharacters( Vector str, int cp_offset, Label* on_failure, bool check_end_of_string) { ASSERT(cp_offset >= kMinCPOffset); ASSERT(cp_offset + str.length() - 1 <= kMaxCPOffset); // It is vital that this loop is backwards due to the unchecked character // load below. for (int i = str.length() - 1; i >= 0; i--) { if (check_end_of_string && i == str.length() - 1) { Emit(BC_LOAD_CURRENT_CHAR, cp_offset + i); EmitOrLink(on_failure); } else { Emit(BC_LOAD_CURRENT_CHAR_UNCHECKED, cp_offset + i); } Emit(BC_CHECK_NOT_CHAR, str[i]); EmitOrLink(on_failure); } } void RegExpMacroAssemblerIrregexp::IfRegisterLT(int register_index, int comparand, Label* on_less_than) { ASSERT(register_index >= 0); ASSERT(register_index <= kMaxRegister); Emit(BC_CHECK_REGISTER_LT, register_index); Emit32(comparand); EmitOrLink(on_less_than); } void RegExpMacroAssemblerIrregexp::IfRegisterGE(int register_index, int comparand, Label* on_greater_or_equal) { ASSERT(register_index >= 0); ASSERT(register_index <= kMaxRegister); Emit(BC_CHECK_REGISTER_GE, register_index); Emit32(comparand); EmitOrLink(on_greater_or_equal); } void RegExpMacroAssemblerIrregexp::IfRegisterEqPos(int register_index, Label* on_eq) { ASSERT(register_index >= 0); ASSERT(register_index <= kMaxRegister); Emit(BC_CHECK_REGISTER_EQ_POS, register_index); EmitOrLink(on_eq); } Handle RegExpMacroAssemblerIrregexp::GetCode( Handle source) { Bind(&backtrack_); Emit(BC_POP_BT, 0); Handle array = FACTORY->NewByteArray(length()); Copy(array->GetDataStartAddress()); return array; } int RegExpMacroAssemblerIrregexp::length() { return pc_; } void RegExpMacroAssemblerIrregexp::Copy(Address a) { memcpy(a, buffer_.start(), length()); } void RegExpMacroAssemblerIrregexp::Expand() { bool old_buffer_was_our_own = own_buffer_; Vector old_buffer = buffer_; buffer_ = Vector::New(old_buffer.length() * 2); own_buffer_ = true; memcpy(buffer_.start(), old_buffer.start(), old_buffer.length()); if (old_buffer_was_our_own) { old_buffer.Dispose(); } } #endif // V8_INTERPRETED_REGEXP } } // namespace v8::internal