mirror of
https://github.com/FIX94/hbc.git
synced 2024-11-25 20:16:56 +01:00
4cf05be0ff
-added wiiu gamepad compatibility when booting from wii vc with patched fw.img using libwiidrc -removed upper file limit from wiiload (useful when used with wiiu homebrew launcher)
355 lines
7.4 KiB
C
355 lines
7.4 KiB
C
#include <stdio.h>
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#include <stdint.h>
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#include <string.h>
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#include <stdlib.h>
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#include <math.h>
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#if 0
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uint16_t deftbl[16] = {
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2048, 0,
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4096, -2048,
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0, 0,
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1536, 512,
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1920, 0,
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2176, 0,
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3680, -1664,
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3136, -1856
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};
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#endif
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#if 0
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int16_t deftbl[16] = {
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2048, 0,
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0,0,
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0,0,
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0,0,
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0,0,
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0,0,
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0,0,
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0,0,
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};
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#endif
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int16_t deftbl[16] = {
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674,1040,
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3598,-1738,
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2270,-583,
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3967,-1969,
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1516,381,
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3453, -1468,
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2606, -617,
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3795, -1759,
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};
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typedef struct {
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uint32_t fourcc;
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uint32_t unk;
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uint32_t filesize;
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uint16_t unk1,unk2;
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uint32_t infooff;
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uint32_t infosize;
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uint32_t dataoff;
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uint32_t datasize;
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} bnshdr;
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typedef struct {
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uint32_t fourcc;
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uint32_t size;
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uint16_t looped;
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uint16_t unk2;
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uint16_t srate;
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uint16_t unk3;
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uint32_t looppoint;
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uint32_t samples;
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uint32_t unknown1[6];
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uint32_t start1;
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uint32_t start2;
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uint32_t unknown2[2];
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int16_t tbl1[16];
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uint16_t unka1[8];
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int16_t tbl2[16];
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uint16_t unka2[8];
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} bnsinfo;
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float tables[2][16];
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typedef struct {
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uint32_t fourcc;
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uint32_t size;
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} bnsdatahdr;
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#define SWAB16(x) ((((x)>>8)&0xFF) | (((x)&0xFF)<<8))
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#define SWAB32(x) ((SWAB16((x)&0xFFFF)<<16)|(SWAB16(((x)>>16)&0xFFFF)))
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#define ISWAB16(x) x=SWAB16(x)
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#define ISWAB32(x) x=SWAB32(x)
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typedef struct {
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int16_t l;
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int16_t r;
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} sample;
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int16_t lsamps[2][2] = {{0,0},{0,0}};
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int16_t rlsamps[2][2] = {{0,0},{0,0}};
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#define CLAMP(a,min,max) (((a)>(max))?(max):(((a)<(min))?(min):(a)))
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void unpack_adpcm(int idx, int16_t *table, uint8_t *data, int16_t *outbuf)
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{
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int32_t index = (data[0] >> 4) & 0x7; //highest bit of byte is ignored
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uint32_t exponent = 28 - (data[0] & 0xf);
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int32_t factor1 = table[2*index];
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int32_t factor2 = table[2*index + 1];
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int i;
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int32_t sample;
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for(i=0;i<14;i++) {
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sample = data[1+(i/2)];
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if(!(i&1)) {
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sample = (sample&0xf0)<<24;
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} else {
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sample = (sample)<<28;
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}
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sample = ((lsamps[idx][1]*factor1 + lsamps[idx][0]*factor2)>>11) + (sample>>exponent);
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if(sample>32767) sample=32767;
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if(sample<-32768) sample=-32768;
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if(abs(sample)>20000) printf("dammit %d\n",sample);
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outbuf[i] = sample;
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lsamps[idx][0] = lsamps[idx][1];
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lsamps[idx][1] = outbuf[i];
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}
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}
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uint8_t findexp(float residual, uint8_t *nybble)
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{
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uint8_t exp = 0;
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while((residual > 7.5f) || (residual < -8.5f)) {
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exp++;
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residual /= 2;
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}
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if(nybble)
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*nybble = CLAMP((int16_t)floor(residual),-8,7);
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return exp;
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}
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uint8_t determine_std_exponent(int idx, int16_t *table, int index, int16_t *inbuf)
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{
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int32_t maxres = 0;
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int32_t factor1 = table[2*index];
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int32_t factor2 = table[2*index + 1];
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int32_t predictor;
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int32_t residual;
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int i;
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int16_t elsamps[2];
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memcpy(elsamps,rlsamps[idx],sizeof(int16_t)*2);
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for(i=0;i<14;i++) {
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predictor = (elsamps[1]*factor1 + elsamps[0]*factor2)/2048;
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residual = inbuf[i] - predictor;
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if(residual > maxres) maxres = residual;
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elsamps[0] = elsamps[1];
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elsamps[1] = inbuf[i];
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}
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return findexp(maxres,NULL);
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}
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float compress_adpcm(int idx, int16_t *table, uint8_t tblidx, uint8_t *data, int16_t *inbuf, int16_t *lsamps) {
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int32_t factor1 = table[2*tblidx];
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int32_t factor2 = table[2*tblidx + 1];
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int32_t predictor;
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int32_t residual;
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uint8_t exp;
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int8_t nybble;
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int i;
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float error = 0;
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exp = determine_std_exponent(idx, table, tblidx, inbuf);
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while(exp<=15) {
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memcpy(lsamps,rlsamps[idx],sizeof(int16_t)*2);
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data[0] = exp | tblidx<<4;
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error = 0;
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for(i=0;i<14;i++) {
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predictor = (lsamps[1]*factor1 + lsamps[0]*factor2)>>11;
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residual = inbuf[i] - predictor;
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residual = residual>>exp;
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if((residual > 7) || (residual < -8)) {
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exp++;
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break;
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}
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nybble = CLAMP(residual,-8,7);
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if(i&1) {
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data[i/2+1] |= nybble&0xf;
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} else {
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data[i/2+1] = nybble<<4;
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}
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predictor += nybble<<exp;
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lsamps[0] = lsamps[1];
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lsamps[1] = CLAMP(predictor,-32768,32767);
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error += powf(lsamps[1] - inbuf[i],2.0f);
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}
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if(i == 14) break;
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}
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return error;
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}
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void repack_adpcm(int idx, int16_t *table, uint8_t *data, int16_t *inbuf)
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{
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uint8_t tblidx;
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uint8_t testdata[8];
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int16_t tlsamps[2];
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int16_t blsamps[2];
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blsamps[0] = 0, blsamps[1] = 0;
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float error;
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float besterror = 99999999.0f;
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for(tblidx = 0; tblidx < 8; tblidx++) {
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error = compress_adpcm(idx, table, tblidx, testdata, inbuf, tlsamps);
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if(error < besterror) {
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besterror = error;
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memcpy(data, testdata, 8);
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memcpy(blsamps, tlsamps, sizeof(int16_t)*2);
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}
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}
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memcpy(rlsamps[idx], blsamps, sizeof(int16_t)*2);
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}
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int main(int argc, char **argv)
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{
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FILE *f;
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FILE *f2 = NULL;
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FILE *fo;
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int i,j;
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int16_t sampbuf[14];
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bnshdr hdr;
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bnsinfo info;
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bnsdatahdr datahdr;
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uint8_t *databuf;
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uint8_t *data1;
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uint8_t *data2;
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sample *datain;
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int samples;
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int loop_pt = 0;
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int blocks;
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int separated_loop = 0;
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if(argc > 4 && (atoi(argv[3]) == 1))
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separated_loop = 1;
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f = fopen(argv[1],"rb");
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fo = fopen(argv[2],"wb");
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fseek(f,0,SEEK_END);
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samples = ftell(f)/(sizeof(uint16_t)*2);
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if(separated_loop) {
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f2 = fopen(argv[4],"rb");
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fseek(f2,0,SEEK_END);
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loop_pt = samples;
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samples += ftell(f2)/(sizeof(uint16_t)*2);
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}
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blocks = (samples+13)/14;
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memset(&hdr,0,sizeof(hdr));
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memset(&info,0,sizeof(info));
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memset(&datahdr,0,sizeof(datahdr));
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hdr.fourcc = 0x20534e42;
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hdr.unk = SWAB32(0xfeff0100);
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hdr.filesize = SWAB32(blocks * 16 + sizeof(hdr) + sizeof(info) + sizeof(datahdr));
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hdr.unk1 = SWAB16(32);
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hdr.unk2 = SWAB16(2);
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hdr.infooff = SWAB32(sizeof(hdr));
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hdr.infosize = SWAB32(sizeof(info));
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hdr.dataoff = SWAB32(sizeof(hdr) + sizeof(info));
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hdr.datasize = SWAB32(sizeof(datahdr) + blocks * 16);
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info.fourcc = 0x4f464e49;
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info.size = SWAB32(sizeof(info));
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info.srate = SWAB16(32000);
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if(argc > 3 && (atoi(argv[3]) == 1))
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info.looped = SWAB16(1);
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info.unk2 = SWAB16(0x200);
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info.looppoint = SWAB32(loop_pt);
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info.samples = SWAB32(samples);
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info.unknown1[0] = SWAB32(0x18);
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info.unknown1[1] = SWAB32(0x00);
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info.unknown1[2] = SWAB32(0x20);
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info.unknown1[3] = SWAB32(0x2c);
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info.unknown1[4] = SWAB32(0x00);
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info.unknown1[5] = SWAB32(0x38);
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info.unknown2[0] = SWAB32(0x68);
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info.unknown2[1] = SWAB32(0x00);
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info.start1 = SWAB32(0);
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info.start2 = SWAB32(blocks * 8);
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for(i=0;i<16;i++) {
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info.tbl1[i] = SWAB16((int16_t)(deftbl[i]));
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info.tbl2[i] = SWAB16((int16_t)(deftbl[i]));
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}
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datahdr.fourcc = 0x41544144;
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datahdr.size = SWAB32(blocks * 16);
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fwrite(&hdr,sizeof(hdr),1,fo);
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fwrite(&info,sizeof(info),1,fo);
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fwrite(&datahdr,sizeof(datahdr),1,fo);
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datain = malloc(sizeof(uint16_t)*2*blocks*14);
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memset(datain,0,sizeof(uint16_t)*2*blocks*14);
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databuf = malloc(blocks * 16);
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data1 = databuf;
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data2 = databuf + blocks * 8;
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if(separated_loop) {
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fseek(f,0,SEEK_SET);
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fread(datain,sizeof(uint16_t)*2,loop_pt,f);
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fseek(f2,0,SEEK_SET);
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fread(&datain[loop_pt],sizeof(uint16_t)*2,samples-loop_pt,f2);
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fclose(f);
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fclose(f2);
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} else {
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fseek(f,0,SEEK_SET);
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fread(datain,sizeof(uint16_t)*2,samples,f);
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fclose(f);
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}
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printf("Samples: 0x%x\n",samples);
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printf("Blocks: 0x%x Size ADPCM: 0x%x Size PCM: 0x%x\n",blocks,blocks*8,blocks*14);
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if(separated_loop)
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printf("Loop point: 0x%x samples\n",loop_pt);
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for(i=0;i<blocks;i++) {
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//printf("Block %d\n",i);
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for(j=0;j<14;j++) {
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sampbuf[j] = datain[i*14+j].l;
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}
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repack_adpcm(0,deftbl,data1,sampbuf);
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//unpack_adpcm(0,deftbl,data1,sampbuf);
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for(j=0;j<14;j++) {
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sampbuf[j] = datain[i*14+j].r;
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}
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repack_adpcm(1,deftbl,data2,sampbuf);
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//unpack_adpcm(1,deftbl,data2,sampbuf);
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data1 += 8;
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data2 += 8;
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}
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fwrite(databuf, blocks*16, 1, fo);
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fclose(fo);
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free(datain); free(databuf);
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return 0;
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}
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