pokecrystal-board/tools/lz/spcomp.c

#include "proto.h"

/*
   Single-pass compressor: attempts to compress the data in a single pass, selecting the best command at each
                           position within some constraints.
   Methods defined: 72
   Flags values:
     Bit fields (will trigger alternate behavior if set):
     1: prefer repetition commands over copy commands of equal count
     2: don't emit a copy or repetition with a count equal to its size when the previous command is a literal (0) that
        is not at maximum size (32 or 1024)
     4: don't emit long copy commands
     Selector values (pick one from each group and add them to the bit fields):
     - Scan delay: number of bytes that are forced into literal (0) commands after each non-literal command:
       0: 0 bytes
       8: 1 byte
       16: 2 bytes
     - Copy command preference (when the command counts are tied), in order from most to least:
       0: normal (4), reversed (6), flipped (5)
       24: reversed (6), flipped (5), normal (4)
       48: flipped (5), reversed (6), normal (4)
*/

struct command * try_compress_single_pass (const unsigned char * data, const unsigned char * bitflipped, unsigned short * length, unsigned flags) {
  struct command * commands = malloc(sizeof(struct command) * *length);
  memset(commands, -1, sizeof(struct command) * *length);
  struct command * current_command = commands;
  unsigned short position = 0, previous_data = 0;
  unsigned char scan_delay = 0, scan_delay_flag = (flags >> 3) % 3;
  struct command copy, repetition;
  while (position < *length) {
    copy = find_best_copy(data, position, *length, bitflipped, flags);
    repetition = find_best_repetition(data, position, *length);
    if (flags & 1)
      *current_command = pick_best_command(2, repetition, copy);
    else
      *current_command = pick_best_command(2, copy, repetition);
    *current_command = pick_best_command(2, (struct command) {.command = 0, .count = 1, .value = position}, *current_command);
    if ((flags & 2) && (command_size(*current_command) == current_command -> count))
      if (previous_data && (previous_data != SHORT_COMMAND_COUNT) && (previous_data != MAX_COMMAND_COUNT))
        *current_command = (struct command) {.command = 0, .count = 1, .value = position};
    if (scan_delay_flag) {
      if (scan_delay >= scan_delay_flag)
        scan_delay = 0;
      else if (current_command -> command) {
        scan_delay ++;
        *current_command = (struct command) {.command = 0, .count = 1, .value = position};
      }
    }
    if (current_command -> command)
      previous_data = 0;
    else
      previous_data += current_command -> count;
    position += (current_command ++) -> count;
  }
  optimize(commands, current_command - commands);
  repack(&commands, length);
  return commands;
}

struct command find_best_copy (const unsigned char * data, unsigned short position, unsigned short length, const unsigned char * bitflipped, unsigned flags) {
  struct command simple = {.command = 7};
  struct command flipped = simple, backwards = simple;
  short count, offset;
  if ((count = scan_forwards(data + position, length - position, data, position, &offset)))
    simple = (struct command) {.command = 4, .count = count, .value = offset};
  if ((count = scan_forwards(data + position, length - position, bitflipped, position, &offset)))
    flipped = (struct command) {.command = 5, .count = count, .value = offset};
  if ((count = scan_backwards(data, length - position, position, &offset)))
    backwards = (struct command) {.command = 6, .count = count, .value = offset};
  struct command command;
  switch (flags / 24) {
    case 0: command = pick_best_command(3, simple, backwards, flipped); break;
    case 1: command = pick_best_command(3, backwards, flipped, simple); break;
    case 2: command = pick_best_command(3, flipped, backwards, simple);
  }
  if ((flags & 4) && (command.count > SHORT_COMMAND_COUNT)) command.count = SHORT_COMMAND_COUNT;
  return command;
}

unsigned short scan_forwards (const unsigned char * target, unsigned short limit, const unsigned char * source, unsigned short real_position, short * offset) {
  unsigned short best_match, best_length = 0;
  unsigned short current_length;
  unsigned short position;
  for (position = 0; position < real_position; position ++) {
    if (source[position] != *target) continue;
    for (current_length = 0; (current_length < limit) && (source[position + current_length] == target[current_length]); current_length ++);
    if (current_length > MAX_COMMAND_COUNT) current_length = MAX_COMMAND_COUNT;
    if (current_length < best_length) continue;
    best_match = position;
    best_length = current_length;
  }
  if (!best_length) return 0;
  if ((best_match + LOOKBACK_LIMIT) >= real_position)
    *offset = best_match - real_position;
  else
    *offset = best_match;
  return best_length;
}

unsigned short scan_backwards (const unsigned char * data, unsigned short limit, unsigned short real_position, short * offset) {
  if (real_position < limit) limit = real_position;
  unsigned short best_match, best_length = 0;
  unsigned short current_length;
  unsigned short position;
  for (position = 0; position < real_position; position ++) {
    if (data[position] != data[real_position]) continue;
    for (current_length = 0; (current_length <= position) && (current_length < limit) &&
                             (data[position - current_length] == data[real_position + current_length]); current_length ++);
    if (current_length > MAX_COMMAND_COUNT) current_length = MAX_COMMAND_COUNT;
    if (current_length < best_length) continue;
    best_match = position;
    best_length = current_length;
  }
  if (!best_length) return 0;
  if ((best_match + LOOKBACK_LIMIT) >= real_position)
    *offset = best_match - real_position;
  else
    *offset = best_match;
  return best_length;
}

struct command find_best_repetition (const unsigned char * data, unsigned short position, unsigned short length) {
  if ((position + 1) >= length) return data[position] ? ((struct command) {.command = 7}) : ((struct command) {.command = 3, .count = 1});
  unsigned char value[2] = {data[position], data[position + 1]};
  unsigned repcount, limit = length - position;
  if (limit > MAX_COMMAND_COUNT) limit = MAX_COMMAND_COUNT;
  for (repcount = 2; (repcount < limit) && (data[position + repcount] == value[repcount & 1]); repcount ++);
  struct command result;
  result.count = repcount;
  if (*value != value[1]) {
    if (!*value && (repcount < 3)) return (struct command) {.command = 3, .count = 1};
    result.command = 2;
    result.value = ((unsigned) (*value)) | (((unsigned) (value[1])) << 8);
  } else if (*value) {
    result.command = 1;
    result.value = *value;
  } else
    result.command = 3;
  return result;
}
Match LZ compressed files (#724) Replace lzcomp with new version and match all LZ compressed files 2020-05-23 10:30:04 -07:00			`#include "proto.h"`

			`/*`
			`Single-pass compressor: attempts to compress the data in a single pass, selecting the best command at each`
			`position within some constraints.`
			`Methods defined: 72`
			`Flags values:`
			`Bit fields (will trigger alternate behavior if set):`
			`1: prefer repetition commands over copy commands of equal count`
			`2: don't emit a copy or repetition with a count equal to its size when the previous command is a literal (0) that`
			`is not at maximum size (32 or 1024)`
			`4: don't emit long copy commands`
			`Selector values (pick one from each group and add them to the bit fields):`
			`- Scan delay: number of bytes that are forced into literal (0) commands after each non-literal command:`
			`0: 0 bytes`
			`8: 1 byte`
			`16: 2 bytes`
			`- Copy command preference (when the command counts are tied), in order from most to least:`
			`0: normal (4), reversed (6), flipped (5)`
			`24: reversed (6), flipped (5), normal (4)`
			`48: flipped (5), reversed (6), normal (4)`
			`*/`

			`struct command * try_compress_single_pass (const unsigned char * data, const unsigned char * bitflipped, unsigned short * length, unsigned flags) {`
			`struct command * commands = malloc(sizeof(struct command) * *length);`
			`memset(commands, -1, sizeof(struct command) * *length);`
			`struct command * current_command = commands;`
			`unsigned short position = 0, previous_data = 0;`
			`unsigned char scan_delay = 0, scan_delay_flag = (flags >> 3) % 3;`
			`struct command copy, repetition;`
			`while (position < *length) {`
			`copy = find_best_copy(data, position, *length, bitflipped, flags);`
			`repetition = find_best_repetition(data, position, *length);`
			`if (flags & 1)`
			`*current_command = pick_best_command(2, repetition, copy);`
			`else`
			`*current_command = pick_best_command(2, copy, repetition);`
			`current_command = pick_best_command(2, (struct command) {.command = 0, .count = 1, .value = position}, current_command);`
			`if ((flags & 2) && (command_size(*current_command) == current_command -> count))`
			`if (previous_data && (previous_data != SHORT_COMMAND_COUNT) && (previous_data != MAX_COMMAND_COUNT))`
			`*current_command = (struct command) {.command = 0, .count = 1, .value = position};`
			`if (scan_delay_flag) {`
			`if (scan_delay >= scan_delay_flag)`
			`scan_delay = 0;`
			`else if (current_command -> command) {`
			`scan_delay ++;`
			`*current_command = (struct command) {.command = 0, .count = 1, .value = position};`
			`}`
			`}`
			`if (current_command -> command)`
			`previous_data = 0;`
			`else`
			`previous_data += current_command -> count;`
			`position += (current_command ++) -> count;`
			`}`
			`optimize(commands, current_command - commands);`
			`repack(&commands, length);`
			`return commands;`
			`}`

			`struct command find_best_copy (const unsigned char * data, unsigned short position, unsigned short length, const unsigned char * bitflipped, unsigned flags) {`
			`struct command simple = {.command = 7};`
			`struct command flipped = simple, backwards = simple;`
			`short count, offset;`
			`if ((count = scan_forwards(data + position, length - position, data, position, &offset)))`
			`simple = (struct command) {.command = 4, .count = count, .value = offset};`
			`if ((count = scan_forwards(data + position, length - position, bitflipped, position, &offset)))`
			`flipped = (struct command) {.command = 5, .count = count, .value = offset};`
			`if ((count = scan_backwards(data, length - position, position, &offset)))`
			`backwards = (struct command) {.command = 6, .count = count, .value = offset};`
			`struct command command;`
			`switch (flags / 24) {`
			`case 0: command = pick_best_command(3, simple, backwards, flipped); break;`
			`case 1: command = pick_best_command(3, backwards, flipped, simple); break;`
			`case 2: command = pick_best_command(3, flipped, backwards, simple);`
			`}`
			`if ((flags & 4) && (command.count > SHORT_COMMAND_COUNT)) command.count = SHORT_COMMAND_COUNT;`
			`return command;`
			`}`

			`unsigned short scan_forwards (const unsigned char * target, unsigned short limit, const unsigned char * source, unsigned short real_position, short * offset) {`
			`unsigned short best_match, best_length = 0;`
			`unsigned short current_length;`
			`unsigned short position;`
			`for (position = 0; position < real_position; position ++) {`
			`if (source[position] != *target) continue;`
			`for (current_length = 0; (current_length < limit) && (source[position + current_length] == target[current_length]); current_length ++);`
			`if (current_length > MAX_COMMAND_COUNT) current_length = MAX_COMMAND_COUNT;`
			`if (current_length < best_length) continue;`
			`best_match = position;`
			`best_length = current_length;`
			`}`
			`if (!best_length) return 0;`
			`if ((best_match + LOOKBACK_LIMIT) >= real_position)`
			`*offset = best_match - real_position;`
			`else`
			`*offset = best_match;`
			`return best_length;`
			`}`

			`unsigned short scan_backwards (const unsigned char * data, unsigned short limit, unsigned short real_position, short * offset) {`
			`if (real_position < limit) limit = real_position;`
			`unsigned short best_match, best_length = 0;`
			`unsigned short current_length;`
			`unsigned short position;`
			`for (position = 0; position < real_position; position ++) {`
			`if (data[position] != data[real_position]) continue;`
			`for (current_length = 0; (current_length <= position) && (current_length < limit) &&`
			`(data[position - current_length] == data[real_position + current_length]); current_length ++);`
			`if (current_length > MAX_COMMAND_COUNT) current_length = MAX_COMMAND_COUNT;`
			`if (current_length < best_length) continue;`
			`best_match = position;`
			`best_length = current_length;`
			`}`
			`if (!best_length) return 0;`
			`if ((best_match + LOOKBACK_LIMIT) >= real_position)`
			`*offset = best_match - real_position;`
			`else`
			`*offset = best_match;`
			`return best_length;`
			`}`

			`struct command find_best_repetition (const unsigned char * data, unsigned short position, unsigned short length) {`
			`if ((position + 1) >= length) return data[position] ? ((struct command) {.command = 7}) : ((struct command) {.command = 3, .count = 1});`
			`unsigned char value[2] = {data[position], data[position + 1]};`
			`unsigned repcount, limit = length - position;`
			`if (limit > MAX_COMMAND_COUNT) limit = MAX_COMMAND_COUNT;`
			`for (repcount = 2; (repcount < limit) && (data[position + repcount] == value[repcount & 1]); repcount ++);`
			`struct command result;`
			`result.count = repcount;`
			`if (*value != value[1]) {`
			`if (!*value && (repcount < 3)) return (struct command) {.command = 3, .count = 1};`
			`result.command = 2;`
			`result.value = ((unsigned) (*value)) \| (((unsigned) (value[1])) << 8);`
			`} else if (*value) {`
			`result.command = 1;`
			`result.value = *value;`
			`} else`
			`result.command = 3;`
			`return result;`
			`}`