// Copyright 2008 Google Inc.
// Author: Lincoln Smith
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef OPEN_VCDIFF_DECODETABLE_H_
#define OPEN_VCDIFF_DECODETABLE_H_
#include <config.h>
#include <stddef.h> // NULL
#include <stdint.h> // int32_t
#include <memory> // auto_ptr
#include "codetable.h" // VCDiffInstructi...
#include "logging.h"
namespace open_vcdiff {
// This class is used by the decoder. It can use a standard or
// non-standard code table, and will translate the opcodes in the code table
// into delta instructions.
//
// NOT threadsafe.
//
class VCDiffCodeTableReader {
public:
// When constructed, the object will be set up to use the default code table.
// If a non-default code table is to be used, then UseCodeTable()
// should be called after the VCDiffCodeTableReader has been constructed.
// In any case, the Init() method must be called before GetNextInstruction()
// may be used.
//
VCDiffCodeTableReader();
// Sets up a non-standard code table. The caller
// may free the memory occupied by the argument code table after
// passing it to this method, because the argument code table
// allocates space to store a copy of it.
// UseCodeTable() may be called either before or after calling Init().
// Returns true if the code table was accepted, or false if the
// argument did not appear to be a valid code table.
//
bool UseCodeTable(const VCDiffCodeTableData& code_table_data,
unsigned char max_mode);
// Defines the buffer containing the instructions and sizes.
// This method must be called before GetNextInstruction() may be used.
// Init() may be called any number of times to reset the state of
// the object.
//
void Init(const char** instructions_and_sizes,
const char* instructions_and_sizes_end) {
instructions_and_sizes_ = instructions_and_sizes;
instructions_and_sizes_end_ = instructions_and_sizes_end;
last_instruction_start_ = NULL;
pending_second_instruction_ = kNoOpcode;
last_pending_second_instruction_ = kNoOpcode;
}
// Updates the pointers to the buffer containing the instructions and sizes,
// but leaves the rest of the reader state intact, so that (for example)
// any pending second instruction or unread instruction will still be
// read when requested. NOTE: UnGetInstruction() will not work immediately
// after using UpdatePointers(); GetNextInstruction() must be called first.
//
void UpdatePointers(const char** instructions_and_sizes,
const char* instructions_and_sizes_end) {
instructions_and_sizes_ = instructions_and_sizes;
instructions_and_sizes_end_ = instructions_and_sizes_end;
last_instruction_start_ = *instructions_and_sizes;
// pending_second_instruction_ is unchanged
last_pending_second_instruction_ = pending_second_instruction_;
}
// Returns the next instruction from the stream of opcodes,
// or VCD_INSTRUCTION_END_OF_DATA if the end of the opcode stream is reached,
// or VCD_INSTRUCTION_ERROR if an error occurred.
// In the first of these cases, increments *instructions_and_sizes_
// past the values it reads, and populates *size
// with the corresponding size for the returned instruction;
// otherwise, the value of *size is undefined, and is not
// guaranteed to be preserved.
// If the instruction returned is VCD_COPY, *mode will
// be populated with the copy mode; otherwise, the value of *mode
// is undefined, and is not guaranteed to be preserved.
// Any occurrences of VCD_NOOP in the opcode stream
// are skipped over and ignored, not returned.
// If Init() was not called before calling this method, then
// VCD_INSTRUCTION_ERROR will be returned.
//
VCDiffInstructionType GetNextInstruction(int32_t* size, unsigned char* mode);
// Puts a single instruction back onto the front of the
// instruction stream. The next call to GetNextInstruction()
// will return the same value that was returned by the last
// call. Calling UnGetInstruction() more than once before calling
// GetNextInstruction() will have no additional effect; you can
// only rewind one instruction.
//
void UnGetInstruction() {
if (last_instruction_start_) {
if (last_instruction_start_ > *instructions_and_sizes_) {
LOG(DFATAL) << "Internal error: last_instruction_start past end of "
"instructions_and_sizes in UnGetInstruction" << LOG_ENDL;
}
*instructions_and_sizes_ = last_instruction_start_;
if ((pending_second_instruction_ != kNoOpcode) &&
(last_pending_second_instruction_ != kNoOpcode)) {
LOG(DFATAL) << "Internal error: two pending instructions in a row "
"in UnGetInstruction" << LOG_ENDL;
}
pending_second_instruction_ = last_pending_second_instruction_;
}
}
private:
// A pointer to the code table. This is the object that will be used
// to interpret opcodes in GetNextInstruction().
const VCDiffCodeTableData* code_table_data_;
// If the default code table is not being used, then space for the
// code table data will be allocated using this pointer and freed
// when the VCDiffCodeTableReader is destroyed. This will keep the
// code that uses the object from having to worry about memory
// management for the non-standard code table, whose contents have
// been read as part of the encoded data file/stream.
//
std::auto_ptr<VCDiffCodeTableData> non_default_code_table_data_;
const char** instructions_and_sizes_;
const char* instructions_and_sizes_end_;
const char* last_instruction_start_;
OpcodeOrNone pending_second_instruction_;
OpcodeOrNone last_pending_second_instruction_;
// Making these private avoids implicit copy constructor & assignment operator
VCDiffCodeTableReader(const VCDiffCodeTableReader&);
void operator=(const VCDiffCodeTableReader&);
};
}; // namespace open_vcdiff
#endif // OPEN_VCDIFF_DECODETABLE_H_