#include <stdio.h>
#include <stdlib.h>

/* cc ulzenc.c -o ulzenc && ./ulzenc a.bin b.ulz */

static int
error(const char *name, const char *msg)
{
	fprintf(stderr, "%s: %s\n", name, msg);
	return 0;
}

enum { MinMatchLength = 4 };

unsigned char *raw, *mem;

int
uxn_lz_compress(const void *input, int input_size)
{
	int i, dict_len, match_len, string_len, match_ctl;
	unsigned char *output_ptr = mem, *combine = 0;
	const unsigned char *dict, *dict_best = 0;
	const unsigned char *in = input, *start = in, *end = in + input_size;
	while(in != end) {
		/* Get available dictionary size (history of original output) */
		dict_len = (int)(in - start);
		if(dict_len > 256)
			dict_len = 256;
		/* Size of the string to search for */
		/* Limit string length to what we can fit in 14 bits, plus the minimum match length */
		string_len = (int)(end - in);
		if(string_len > 0x3FFF + MinMatchLength)
			string_len = 0x3FFF + MinMatchLength;
		/* Iterate through the dictionary */
		match_len = 0;
		dict = in - dict_len;
		for(; dict_len; dict++, dict_len--) {
			/* Find common prefix length with the string */
			/* If we reach the end of the string, this is the best possible match. End. */
			for(i = 0;; i++) {
				if(i == string_len) {
					match_len = i;
					dict_best = dict;
					goto done_search;
				}
				/* Dictionary repeats if we hit the end */
				if(in[i] != dict[i % dict_len])
					break;
			}
			if(i > match_len) {
				match_len = i;
				dict_best = dict;
			}
		}
	done_search:
		/* CPY */
		if(match_len >= MinMatchLength) {
			/* More numeric range: treat 0 as 4, 1 as 5, etc. */
			match_ctl = match_len - MinMatchLength;
			/* CPY2 */
			if(match_ctl > 0x3F) {
				*output_ptr++ = match_ctl >> 8 | 0xc0; /* High byte of the length, with both flags set */
				*output_ptr++ = match_ctl;             /* Low byte of the length */						
			} else
				*output_ptr++ = match_ctl | 0x80;
			/* offset(0 is -1, 1 is -2, ...) */
			*output_ptr++ = in - dict_best - 1;
			in += match_len; /* Advance input by size of the match */
			combine = 0;     /* Disable combining previous literal, if any */
		}
		/* LIT */
		else{
			/* Combine with previous literal */
			if(combine) {
				if(++*combine == 127)
					combine = 0;
			}
			/* Start a new literal */
			else {
				/* Store this address, and later use it to increment the literal size. */
				combine = output_ptr++;
				/* The 0 here means literal of length 1. */
				*combine = 0;
			}
			
			/* Write 1 literal byte from the input to the output. */
			*output_ptr++ = *in++;
		}
	}
	return (int)(output_ptr - mem);
}

int
encode_ulz(FILE *src)
{
	int length = 0;
	mem = malloc(0x10000), raw = malloc(0x10000);
	while(fread(raw + length, 1, 1, src)) ++length;
	return uxn_lz_compress(raw, length);
}

int
main(int argc, char *argv[])
{
	int res;
	FILE *src, *dst;
	if(argv[1][0] == '-' && argv[1][1] == 'v')
		return !fprintf(stdout, "Ulzenc - ULZ Encoder, 15 Nov 2023.\n");
	if(argc != 3)
		return error("usage", "ulzenc [-v] a.bin b.ulz ");
	if(!(src = fopen(argv[1], "rb")))
		return !error("Invalid input file", argv[1]);
	res = encode_ulz(src);
	if(!(dst = fopen(argv[2], "wb")))
		return !error("Invalid output file", argv[1]);
	fwrite(mem, res, 1, dst);
	printf("Compressed %s -> %s(%d bytes).\n", argv[1], argv[2], res);
	return 0;
}