ref: 1ba73f225c0aac97cb35fbf7f2c191e5396f3a4f
dir: /tools/lz/main.c/
#include "proto.h" int main (int argc, char ** argv) { struct options options = get_options(argc, argv); unsigned short size; unsigned char * file_buffer = read_file_into_buffer(options.input, &size); struct command * commands; if (options.mode & 2) { unsigned short original_size = size, remainder; commands = get_commands_from_file(file_buffer, &size, &remainder); if (!commands) error_exit(1, "invalid command stream"); if (options.mode == 2) { unsigned char * uncompressed = get_uncompressed_data(commands, file_buffer, &size); if (!uncompressed) error_exit(1, "output data is too large"); write_raw_data_to_file(options.output, uncompressed, size); free(uncompressed); } else write_commands_and_padding_to_textfile(options.output, commands, size, file_buffer, original_size - remainder, remainder); } else { commands = compress(file_buffer, &size, options.method); (options.mode ? write_commands_to_textfile : write_commands_to_file)(options.output, commands, size, file_buffer, options.alignment); } free(file_buffer); free(commands); return 0; } struct command * compress (const unsigned char * data, unsigned short * size, unsigned method) { unsigned char * bitflipped = malloc(*size); unsigned current; for (current = 0; current < *size; current ++) bitflipped[current] = bit_flipping_table[data[current]]; const struct compressor * compressor = compressors; struct command * result; if (method < COMPRESSION_METHODS) { while (method >= compressor -> methods) method -= (compressor ++) -> methods; result = compressor -> function(data, bitflipped, size, method); } else { struct command * compressed_sequences[COMPRESSION_METHODS]; unsigned short lengths[COMPRESSION_METHODS]; unsigned flags = 0; for (current = 0; current < COMPRESSION_METHODS; current ++) { lengths[current] = *size; if (flags == compressor -> methods) { flags = 0; compressor ++; } compressed_sequences[current] = compressor -> function(data, bitflipped, lengths + current, flags ++); } result = select_optimal_sequence(compressed_sequences, lengths, size); for (current = 0; current < COMPRESSION_METHODS; current ++) free(compressed_sequences[current]); } free(bitflipped); return result; }