#include #include #include "lz.h" enum { MinMatchLength = 4 }; int uxn_lz_compress(void *output, int output_size, const void *input, int input_size) { int dict_len, match_len, i, string_len, match_ctl; unsigned char *out = output, *combine = 0; const unsigned char *dict, *dict_best = 0, *in = input, *start = in, *end = in + input_size; while(in != end) { dict_len = (int)(in - start); /* Get available dictionary size (history of original output) */ if(dict_len > 256) dict_len = 256; /* Limit history lookback to 256 bytes */ dict = in - dict_len; /* Start of dictionary */ string_len = (int)(end - in); /* Size of the string to search for */ if(string_len > 0x3FFF + MinMatchLength) string_len = 0x3FFF + MinMatchLength; /* ^ Limit string length to what we can fit in 14 bits, plus the minimum * match length */ match_len = 0; /* This will hold the length of our best match */ for(; dict_len; dict += 1, dict_len -= 1) /* Iterate through the dictionary */ { for(i = 0;; i++) /* Find common prefix length with the string */ { if(i == string_len) { match_len = i; dict_best = dict; goto done_search; } /* ^ If we reach the end of the string, this is the best possible match. * End. */ if(in[i] != dict[i % dict_len]) break; /* Dictionary repeats if we hit the end */ } if(i > match_len) { match_len = i; dict_best = dict; } } done_search: if(match_len >= MinMatchLength) /* Long enough? Use dictionary match */ { if((output_size -= 2) < 0) goto overflow; match_ctl = match_len - MinMatchLength; /* More numeric range: treat 0 as 4, 1 as 5, etc. */ if(match_ctl > 0x3F) /* Match is long enough to use 2 bytes for the size */ { if((output_size -= 1) < 0) goto overflow; *out++ = match_ctl >> 8 | 0x40 | 0x80; /* High byte of the size, with both flags set */ *out++ = match_ctl; /* Low byte of the size */ } else /* Use 1 byte for the size */ { *out++ = match_ctl | 0x80; /* Set the "dictionary" flag */ } *out++ = in - dict_best - 1; /* Write offset into history. (0 is -1, 1 is -2, ...) */ in += match_len; /* Advance input by size of the match */ combine = 0; /* Disable combining previous literal, if any */ continue; } if(combine) /* Combine with previous literal */ { if((output_size -= 1) < 0) goto overflow; if(++*combine == 127) combine = 0; /* If the literal hits its size limit, terminate it. */ } else /* Start a new literal */ { if((output_size -= 2) < 0) goto overflow; combine = out++; /* Store this address, and later use it to increment the literal size. */ *combine = 0; /* The 0 here means literal of length 1. */ } *out++ = *in++; /* Write 1 literal byte from the input to the output. */ } return (int)(out - (unsigned char *)output); overflow: return -1; } int uxn_lz_expand(void *output, int output_size, const void *input, int input_size) { int num, offset, written = 0; unsigned char *out = output; const unsigned char *from, *in = input; while(input_size) { num = *in++; if(num > 127) /* Dictionary */ { if((input_size -= 1) < 0) goto malformed; num &= 0x7F; if(num & 0x40) { if((input_size -= 1) < 0) goto malformed; num = *in++ | num << 8 & 0x3FFF; } num += MinMatchLength; offset = *in++ + 1; if(offset > written) goto malformed; from = out + written - offset; } else /* Literal */ { input_size -= ++num; if(input_size < 0) goto malformed; from = in, in += num; } if(written + num > output_size) goto overflow; while(num--) out[written++] = *from++; } return written; overflow: malformed: return -1; } int uxn_lz_expand_stream(struct uxn_lz_expand_t *a) { /* Copy struct to stack variables for compiler optimizations */ unsigned char *next_in = a->next_in, *next_out = a->next_out; int avail_in = a->avail_in, avail_out = a->avail_out; int dict_len = a->dict_len, copy_num = a->copy_num; unsigned char dict_read_pos = a->dict_read_pos, dict_write_pos = a->dict_write_pos, *dict = a->dict; int result = 0; switch(a->state) { case 0: for(; avail_in;) { copy_num = *next_in++; avail_in--; if(copy_num > 127) /* Dictionary */ { copy_num &= 0x7F; if(copy_num & 0x40) { case 1: if(!avail_in) { a->state = 1; goto need_more; } avail_in--; copy_num = *next_in++ | copy_num << 8 & 0x3FFF; } copy_num += MinMatchLength; case 2: if(!avail_in) { a->state = 2; goto need_more; } avail_in--; dict_read_pos = *next_in++ + 1; if(dict_read_pos > dict_len) { a->state = 5; result = -1; goto flush; } /* Malformed */ dict_read_pos = dict_write_pos - dict_read_pos; if((dict_len += copy_num) > 256) dict_len = 256; case 3: do { if(!avail_out) { a->state = 3; goto need_more; } *next_out++ = dict[dict_write_pos++] = dict[dict_read_pos++]; avail_out--; } while(--copy_num); } else /* Literal */ { copy_num++; if((dict_len += copy_num) > 256) dict_len = 256; case 4: do { if(!avail_in || !avail_out) { a->state = 4; goto need_more; } *next_out++ = dict[dict_write_pos++] = *next_in++; avail_in--, avail_out--; } while(--copy_num); } } a->state = 0; case 5:; } need_more: flush: /* Flush stack variables back to struct */ a->next_in = next_in, a->next_out = next_out; a->avail_in = avail_in, a->avail_out = avail_out; a->dict_len = dict_len, a->copy_num = copy_num; a->dict_read_pos = dict_read_pos, a->dict_write_pos = dict_write_pos; return result; } unsigned int uxn_checksum(unsigned int seed, void *bytes, unsigned int bytes_size) { unsigned int x = seed >> 16, y = seed, c; unsigned char *in = bytes, *end = in + bytes_size; for(; in != end; in++) { c = *in << 8 | *in; x = x * 0x2443 + c; y = y * 0x118d + c; } return x << 16 | (y & 0xFFFF); } // cc lz_main.c -o main && ./main int main(int argc, char *argv[]) { int enc; char *s; char *my_byte_buffer = malloc(1000000); FILE *fp = fopen("example.txt", "rb"); char buffer[1000000]; size_t i; for(i = 0; i < 1000000; ++i) { int c = getc(fp); if(c == EOF) { buffer[i] = 0x00; break; } buffer[i] = c; } int res = uxn_lz_compress(my_byte_buffer, 1000000, &buffer, i); if(res < 0) printf("ERROR\n"); printf("!!!%d -> %d\n", i, res); FILE *out_file; out_file = fopen("compressed.bin", "wb"); fwrite(my_byte_buffer, 1, res, out_file); fclose(out_file); // Other way char *output2 = malloc(1000000); int res2 = uxn_lz_expand(output2, 1000000, &buffer, i); printf("!!!%d -> %d\n", res, res2); // return 0; }