vgmstream/src/coding/circus_decoder_lzxpcm.h

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
/* Decompresses Circus's custom LZ used in XPCM as a machine state for streaming,
* that may break during any step. Original code decompress at once the full thing
* into memory so it's simpler. */
#define LZXPCM_OK 0
#define LZXPCM_ERROR -1
#define LZXPCM_WINDOW_SIZE (1 << 16)
typedef enum {
READ_FLAGS,
COPY_LITERAL,
READ_TOKEN,
PARSE_TOKEN,
SET_MATCH,
COPY_MATCH
} lzxpcm_state_t;
typedef struct {
lzxpcm_state_t state;
uint32_t flags;
uint8_t token;
int values_pos;
int offset_pos;
int match_len;
int match_pos;
int window_pos;
uint8_t window[LZXPCM_WINDOW_SIZE];
} lzxpcm_context_t;
typedef struct {
lzxpcm_context_t ctx;
uint8_t *next_out; /* next bytes to write (reassign when avail is 0) */
int avail_out; /* bytes available at next_out */
int total_out; /* written bytes, for reference (set to 0 per call if needed) */
const uint8_t *next_in; /* next bytes to read (reassign when avail is 0) */
int avail_in; /* bytes available at next_in */
int total_in; /* read bytes, for reference (set to 0 per call if needed) */
} lzxpcm_stream_t;
static void lzxpcm_reset(lzxpcm_stream_t* strm) {
memset(strm, 0, sizeof(lzxpcm_stream_t));
}
/* Decompress src into dst, returning a code and number of bytes used. Caller must handle
* stop (when no more input data or all data has been decompressed) as LZXPCM has no end marker. */
static int lzxpcm_decompress(lzxpcm_stream_t* strm) {
lzxpcm_context_t* ctx = &strm->ctx;
uint8_t* dst = strm->next_out;
const uint8_t* src = strm->next_in;
int dst_size = strm->avail_out;
int src_size = strm->avail_in;
int dst_pos = 0;
int src_pos = 0;
uint8_t next_val;
while (1) {
/* mostly linear state machine, but it may break anytime when reaching dst or src
* end, and resume from same state in next call */
switch(ctx->state) {
case READ_FLAGS:
if (src_pos >= src_size)
goto buffer_end;
ctx->flags >>= 1;
if ((ctx->flags & 0x0100) == 0) {
ctx->flags = 0xFF00 | src[src_pos++];
}
if (ctx->flags & 1)
ctx->state = COPY_LITERAL;
else
ctx->state = READ_TOKEN;
break;
case COPY_LITERAL:
if (src_pos >= src_size || dst_pos >= dst_size)
goto buffer_end;
next_val = src[src_pos++];
dst[dst_pos++] = next_val;
ctx->window[ctx->window_pos++] = next_val;
if (ctx->window_pos == LZXPCM_WINDOW_SIZE)
ctx->window_pos = 0;
ctx->state = READ_FLAGS;
break;
case READ_TOKEN:
if (src_pos >= src_size)
goto buffer_end;
ctx->token = src[src_pos++];
ctx->values_pos = 0;
ctx->state = PARSE_TOKEN;
break;
case PARSE_TOKEN:
if (ctx->token >= 0xC0) {
ctx->match_len = ((ctx->token >> 2) & 0x0F) + 4; /* 6b */
if (src_pos >= src_size)
goto buffer_end;
ctx->offset_pos = src[src_pos++]; /* upper 2b + lower 8b */
ctx->offset_pos |= ((ctx->token & 3) << 8);
}
else if (ctx->token >= 0x80) {
ctx->match_len = ((ctx->token >> 5) & 3) + 2; /* 2b */
ctx->offset_pos = ctx->token & 0x1F; /* 5b */
if (ctx->offset_pos == 0) {
if (src_pos >= src_size)
goto buffer_end;
ctx->offset_pos = src[src_pos++];
}
}
else if (ctx->token == 0x7F) {
if (ctx->values_pos == 0) {
if (src_pos >= src_size)
goto buffer_end;
ctx->match_len = (src[src_pos++] << 0u);
ctx->values_pos++;
}
if (ctx->values_pos == 1) {
if (src_pos >= src_size)
goto buffer_end;
ctx->match_len |= (src[src_pos++] << 8u);
ctx->match_len += 2;
ctx->values_pos++;
}
if (ctx->values_pos == 2) {
if (src_pos >= src_size)
goto buffer_end;
ctx->offset_pos = (src[src_pos++] << 0u);
ctx->values_pos++;
}
if (ctx->values_pos == 3) {
if (src_pos >= src_size)
goto buffer_end;
ctx->offset_pos |= (src[src_pos++] << 8u);
ctx->values_pos++;
}
}
else {
ctx->match_len = ctx->token + 4;
if (ctx->values_pos == 0) {
if (src_pos >= src_size)
goto buffer_end;
ctx->offset_pos = (src[src_pos++] << 0u);
ctx->values_pos++;
}
if (ctx->values_pos == 1) {
if (src_pos >= src_size)
goto buffer_end;
ctx->offset_pos |= (src[src_pos++] << 8u);
ctx->values_pos++;
}
}
ctx->state = SET_MATCH;
break;
case SET_MATCH:
ctx->match_pos = ctx->window_pos - ctx->offset_pos;
if (ctx->match_pos < 0) /* circular buffer so negative is from window end */
ctx->match_pos = LZXPCM_WINDOW_SIZE + ctx->match_pos;
ctx->state = COPY_MATCH;
break;
case COPY_MATCH:
while (ctx->match_len > 0) {
if (dst_pos >= dst_size)
goto buffer_end;
next_val = ctx->window[ctx->match_pos++];
if (ctx->match_pos == LZXPCM_WINDOW_SIZE)
ctx->match_pos = 0;
dst[dst_pos++] = next_val;
ctx->window[ctx->window_pos++] = next_val;
if (ctx->window_pos == LZXPCM_WINDOW_SIZE)
ctx->window_pos = 0;
ctx->match_len--;
};
ctx->state = READ_FLAGS;
break;
default:
goto fail;
}
}
buffer_end:
strm->next_out += dst_pos;
strm->next_in += src_pos;
strm->avail_out -= dst_pos;
strm->avail_in -= src_pos;
strm->total_out += dst_pos;
strm->total_in += src_pos;
return LZXPCM_OK;
fail:
return LZXPCM_ERROR;
}
#if 0
/* non-streamed form that XPCM originally uses, assumes buffers are big enough */
static int lzxpcm_decompress_full(uint8_t* dst, size_t dst_size, const uint8_t* src, size_t src_size) {
int src_pos = 0;
int dst_pos = 0;
uint32_t flags = 0;
while (src_pos < src_size && dst_pos < dst_size) {
flags >>= 1;
if ((flags & 0x0100) == 0) {
flags = 0xFF00 | src[src_pos++];
}
if (flags & 1) {
/* uncompressed byte per bit */
dst[dst_pos++] = src[src_pos++];
}
else {
/* compressed data */
uint32_t length;
uint32_t offset;
const uint32_t token = src[src_pos++];
if (token >= 0xC0) {
length = ((token >> 2) & 0x0F) + 4; /* 6b */
offset = ((token & 3) << 8) | src[src_pos++]; /* upper 2b + lower 8b */
}
else if (token >= 0x80) {
length = ((token >> 5) & 3) + 2; /* 2b */
offset = token & 0x1F; /* 5b */
if (offset == 0) {
offset = src[src_pos++];
}
}
else if (token == 0x7F) {
length = (uint16_t)(src[src_pos] | src[src_pos+1] << 8u) + 2;
src_pos += 2;
offset = (uint16_t)(src[src_pos] | src[src_pos+1] << 8u);
src_pos += 2;
}
else {
length = token + 4;
offset = (uint16_t)(src[src_pos] | src[src_pos+1] << 8u);
src_pos += 2;
}
if (dst_pos + length > dst_size) {
length = dst_size - dst_pos;
}
for (int i = 0; i < length; i++) {
dst[dst_pos] = dst[dst_pos - offset];
dst_pos++;
}
}
}
return 0;
}
#endif