ref: dc593372bfc4224c6cf91d2031d0ad0aeadaddfe
dir: /sys/src/cmd/audio/libogg/bitwise.c/
/******************************************************************** * * * THIS FILE IS PART OF THE Ogg CONTAINER SOURCE CODE. * * USE, DISTRIBUTION AND REPRODUCTION OF THIS LIBRARY SOURCE IS * * GOVERNED BY A BSD-STYLE SOURCE LICENSE INCLUDED WITH THIS SOURCE * * IN 'COPYING'. PLEASE READ THESE TERMS BEFORE DISTRIBUTING. * * * * THE OggVorbis SOURCE CODE IS (C) COPYRIGHT 1994-2014 * * by the Xiph.Org Foundation http://www.xiph.org/ * * * ******************************************************************** function: packing variable sized words into an octet stream last mod: $Id$ ********************************************************************/ /* We're 'LSb' endian; if we write a word but read individual bits, then we'll read the lsb first */ #include <string.h> #include <stdlib.h> #include <limits.h> #include <ogg/ogg.h> #define BUFFER_INCREMENT 256 static const unsigned long mask[]= {0x00000000,0x00000001,0x00000003,0x00000007,0x0000000f, 0x0000001f,0x0000003f,0x0000007f,0x000000ff,0x000001ff, 0x000003ff,0x000007ff,0x00000fff,0x00001fff,0x00003fff, 0x00007fff,0x0000ffff,0x0001ffff,0x0003ffff,0x0007ffff, 0x000fffff,0x001fffff,0x003fffff,0x007fffff,0x00ffffff, 0x01ffffff,0x03ffffff,0x07ffffff,0x0fffffff,0x1fffffff, 0x3fffffff,0x7fffffff,0xffffffff }; static const unsigned int mask8B[]= {0x00,0x80,0xc0,0xe0,0xf0,0xf8,0xfc,0xfe,0xff}; void oggpack_writeinit(oggpack_buffer *b){ memset(b,0,sizeof(*b)); b->ptr=b->buffer=_ogg_malloc(BUFFER_INCREMENT); b->buffer[0]='\0'; b->storage=BUFFER_INCREMENT; } void oggpackB_writeinit(oggpack_buffer *b){ oggpack_writeinit(b); } int oggpack_writecheck(oggpack_buffer *b){ if(!b->ptr || !b->storage)return -1; return 0; } int oggpackB_writecheck(oggpack_buffer *b){ return oggpack_writecheck(b); } void oggpack_writetrunc(oggpack_buffer *b,long bits){ long bytes=bits>>3; if(b->ptr){ bits-=bytes*8; b->ptr=b->buffer+bytes; b->endbit=bits; b->endbyte=bytes; *b->ptr&=mask[bits]; } } void oggpackB_writetrunc(oggpack_buffer *b,long bits){ long bytes=bits>>3; if(b->ptr){ bits-=bytes*8; b->ptr=b->buffer+bytes; b->endbit=bits; b->endbyte=bytes; *b->ptr&=mask8B[bits]; } } /* Takes only up to 32 bits. */ void oggpack_write(oggpack_buffer *b,unsigned long value,int bits){ if(bits<0 || bits>32) goto err; if(b->endbyte>=b->storage-4){ void *ret; if(!b->ptr)return; if(b->storage>LONG_MAX-BUFFER_INCREMENT) goto err; ret=_ogg_realloc(b->buffer,b->storage+BUFFER_INCREMENT); if(!ret) goto err; b->buffer=ret; b->storage+=BUFFER_INCREMENT; b->ptr=b->buffer+b->endbyte; } value&=mask[bits]; bits+=b->endbit; b->ptr[0]|=value<<b->endbit; if(bits>=8){ b->ptr[1]=(unsigned char)(value>>(8-b->endbit)); if(bits>=16){ b->ptr[2]=(unsigned char)(value>>(16-b->endbit)); if(bits>=24){ b->ptr[3]=(unsigned char)(value>>(24-b->endbit)); if(bits>=32){ if(b->endbit) b->ptr[4]=(unsigned char)(value>>(32-b->endbit)); else b->ptr[4]=0; } } } } b->endbyte+=bits/8; b->ptr+=bits/8; b->endbit=bits&7; return; err: oggpack_writeclear(b); } /* Takes only up to 32 bits. */ void oggpackB_write(oggpack_buffer *b,unsigned long value,int bits){ if(bits<0 || bits>32) goto err; if(b->endbyte>=b->storage-4){ void *ret; if(!b->ptr)return; if(b->storage>LONG_MAX-BUFFER_INCREMENT) goto err; ret=_ogg_realloc(b->buffer,b->storage+BUFFER_INCREMENT); if(!ret) goto err; b->buffer=ret; b->storage+=BUFFER_INCREMENT; b->ptr=b->buffer+b->endbyte; } value=(value&mask[bits])<<(32-bits); bits+=b->endbit; b->ptr[0]|=value>>(24+b->endbit); if(bits>=8){ b->ptr[1]=(unsigned char)(value>>(16+b->endbit)); if(bits>=16){ b->ptr[2]=(unsigned char)(value>>(8+b->endbit)); if(bits>=24){ b->ptr[3]=(unsigned char)(value>>(b->endbit)); if(bits>=32){ if(b->endbit) b->ptr[4]=(unsigned char)(value<<(8-b->endbit)); else b->ptr[4]=0; } } } } b->endbyte+=bits/8; b->ptr+=bits/8; b->endbit=bits&7; return; err: oggpack_writeclear(b); } void oggpack_writealign(oggpack_buffer *b){ int bits=8-b->endbit; if(bits<8) oggpack_write(b,0,bits); } void oggpackB_writealign(oggpack_buffer *b){ int bits=8-b->endbit; if(bits<8) oggpackB_write(b,0,bits); } static void oggpack_writecopy_helper(oggpack_buffer *b, void *source, long bits, void (*w)(oggpack_buffer *, unsigned long, int), int msb){ unsigned char *ptr=(unsigned char *)source; long bytes=bits/8; long pbytes=(b->endbit+bits)/8; bits-=bytes*8; /* expand storage up-front */ if(b->endbyte+pbytes>=b->storage){ void *ret; if(!b->ptr) goto err; if(b->storage>b->endbyte+pbytes+BUFFER_INCREMENT) goto err; b->storage=b->endbyte+pbytes+BUFFER_INCREMENT; ret=_ogg_realloc(b->buffer,b->storage); if(!ret) goto err; b->buffer=ret; b->ptr=b->buffer+b->endbyte; } /* copy whole octets */ if(b->endbit){ int i; /* unaligned copy. Do it the hard way. */ for(i=0;i<bytes;i++) w(b,(unsigned long)(ptr[i]),8); }else{ /* aligned block copy */ memmove(b->ptr,source,bytes); b->ptr+=bytes; b->endbyte+=bytes; *b->ptr=0; } /* copy trailing bits */ if(bits){ if(msb) w(b,(unsigned long)(ptr[bytes]>>(8-bits)),bits); else w(b,(unsigned long)(ptr[bytes]),bits); } return; err: oggpack_writeclear(b); } void oggpack_writecopy(oggpack_buffer *b,void *source,long bits){ oggpack_writecopy_helper(b,source,bits,oggpack_write,0); } void oggpackB_writecopy(oggpack_buffer *b,void *source,long bits){ oggpack_writecopy_helper(b,source,bits,oggpackB_write,1); } void oggpack_reset(oggpack_buffer *b){ if(!b->ptr)return; b->ptr=b->buffer; b->buffer[0]=0; b->endbit=b->endbyte=0; } void oggpackB_reset(oggpack_buffer *b){ oggpack_reset(b); } void oggpack_writeclear(oggpack_buffer *b){ if(b->buffer)_ogg_free(b->buffer); memset(b,0,sizeof(*b)); } void oggpackB_writeclear(oggpack_buffer *b){ oggpack_writeclear(b); } void oggpack_readinit(oggpack_buffer *b,unsigned char *buf,int bytes){ memset(b,0,sizeof(*b)); b->buffer=b->ptr=buf; b->storage=bytes; } void oggpackB_readinit(oggpack_buffer *b,unsigned char *buf,int bytes){ oggpack_readinit(b,buf,bytes); } /* Read in bits without advancing the bitptr; bits <= 32 */ long oggpack_look(oggpack_buffer *b,int bits){ unsigned long ret; unsigned long m; if(bits<0 || bits>32) return -1; m=mask[bits]; bits+=b->endbit; if(b->endbyte >= b->storage-4){ /* not the main path */ if(b->endbyte > b->storage-((bits+7)>>3)) return -1; /* special case to avoid reading b->ptr[0], which might be past the end of the buffer; also skips some useless accounting */ else if(!bits)return(0L); } ret=b->ptr[0]>>b->endbit; if(bits>8){ ret|=b->ptr[1]<<(8-b->endbit); if(bits>16){ ret|=b->ptr[2]<<(16-b->endbit); if(bits>24){ ret|=b->ptr[3]<<(24-b->endbit); if(bits>32 && b->endbit) ret|=b->ptr[4]<<(32-b->endbit); } } } return(m&ret); } /* Read in bits without advancing the bitptr; bits <= 32 */ long oggpackB_look(oggpack_buffer *b,int bits){ unsigned long ret; int m=32-bits; if(m<0 || m>32) return -1; bits+=b->endbit; if(b->endbyte >= b->storage-4){ /* not the main path */ if(b->endbyte > b->storage-((bits+7)>>3)) return -1; /* special case to avoid reading b->ptr[0], which might be past the end of the buffer; also skips some useless accounting */ else if(!bits)return(0L); } ret=b->ptr[0]<<(24+b->endbit); if(bits>8){ ret|=b->ptr[1]<<(16+b->endbit); if(bits>16){ ret|=b->ptr[2]<<(8+b->endbit); if(bits>24){ ret|=b->ptr[3]<<(b->endbit); if(bits>32 && b->endbit) ret|=b->ptr[4]>>(8-b->endbit); } } } return ((ret&0xffffffff)>>(m>>1))>>((m+1)>>1); } long oggpack_look1(oggpack_buffer *b){ if(b->endbyte>=b->storage)return(-1); return((b->ptr[0]>>b->endbit)&1); } long oggpackB_look1(oggpack_buffer *b){ if(b->endbyte>=b->storage)return(-1); return((b->ptr[0]>>(7-b->endbit))&1); } void oggpack_adv(oggpack_buffer *b,int bits){ bits+=b->endbit; if(b->endbyte > b->storage-((bits+7)>>3)) goto overflow; b->ptr+=bits/8; b->endbyte+=bits/8; b->endbit=bits&7; return; overflow: b->ptr=NULL; b->endbyte=b->storage; b->endbit=1; } void oggpackB_adv(oggpack_buffer *b,int bits){ oggpack_adv(b,bits); } void oggpack_adv1(oggpack_buffer *b){ if(++(b->endbit)>7){ b->endbit=0; b->ptr++; b->endbyte++; } } void oggpackB_adv1(oggpack_buffer *b){ oggpack_adv1(b); } /* bits <= 32 */ long oggpack_read(oggpack_buffer *b,int bits){ long ret; unsigned long m; if(bits<0 || bits>32) goto err; m=mask[bits]; bits+=b->endbit; if(b->endbyte >= b->storage-4){ /* not the main path */ if(b->endbyte > b->storage-((bits+7)>>3)) goto overflow; /* special case to avoid reading b->ptr[0], which might be past the end of the buffer; also skips some useless accounting */ else if(!bits)return(0L); } ret=b->ptr[0]>>b->endbit; if(bits>8){ ret|=b->ptr[1]<<(8-b->endbit); if(bits>16){ ret|=b->ptr[2]<<(16-b->endbit); if(bits>24){ ret|=b->ptr[3]<<(24-b->endbit); if(bits>32 && b->endbit){ ret|=b->ptr[4]<<(32-b->endbit); } } } } ret&=m; b->ptr+=bits/8; b->endbyte+=bits/8; b->endbit=bits&7; return ret; overflow: err: b->ptr=NULL; b->endbyte=b->storage; b->endbit=1; return -1L; } /* bits <= 32 */ long oggpackB_read(oggpack_buffer *b,int bits){ long ret; long m=32-bits; if(m<0 || m>32) goto err; bits+=b->endbit; if(b->endbyte+4>=b->storage){ /* not the main path */ if(b->endbyte > b->storage-((bits+7)>>3)) goto overflow; /* special case to avoid reading b->ptr[0], which might be past the end of the buffer; also skips some useless accounting */ else if(!bits)return(0L); } ret=b->ptr[0]<<(24+b->endbit); if(bits>8){ ret|=b->ptr[1]<<(16+b->endbit); if(bits>16){ ret|=b->ptr[2]<<(8+b->endbit); if(bits>24){ ret|=b->ptr[3]<<(b->endbit); if(bits>32 && b->endbit) ret|=b->ptr[4]>>(8-b->endbit); } } } ret=((ret&0xffffffffUL)>>(m>>1))>>((m+1)>>1); b->ptr+=bits/8; b->endbyte+=bits/8; b->endbit=bits&7; return ret; overflow: err: b->ptr=NULL; b->endbyte=b->storage; b->endbit=1; return -1L; } long oggpack_read1(oggpack_buffer *b){ long ret; if(b->endbyte >= b->storage) goto overflow; ret=(b->ptr[0]>>b->endbit)&1; b->endbit++; if(b->endbit>7){ b->endbit=0; b->ptr++; b->endbyte++; } return ret; overflow: b->ptr=NULL; b->endbyte=b->storage; b->endbit=1; return -1L; } long oggpackB_read1(oggpack_buffer *b){ long ret; if(b->endbyte >= b->storage) goto overflow; ret=(b->ptr[0]>>(7-b->endbit))&1; b->endbit++; if(b->endbit>7){ b->endbit=0; b->ptr++; b->endbyte++; } return ret; overflow: b->ptr=NULL; b->endbyte=b->storage; b->endbit=1; return -1L; } long oggpack_bytes(oggpack_buffer *b){ return(b->endbyte+(b->endbit+7)/8); } long oggpack_bits(oggpack_buffer *b){ return(b->endbyte*8+b->endbit); } long oggpackB_bytes(oggpack_buffer *b){ return oggpack_bytes(b); } long oggpackB_bits(oggpack_buffer *b){ return oggpack_bits(b); } unsigned char *oggpack_get_buffer(oggpack_buffer *b){ return(b->buffer); } unsigned char *oggpackB_get_buffer(oggpack_buffer *b){ return oggpack_get_buffer(b); } /* Self test of the bitwise routines; everything else is based on them, so they damned well better be solid. */ #ifdef _V_SELFTEST #include <stdio.h> static int ilog(unsigned int v){ int ret=0; while(v){ ret++; v>>=1; } return(ret); } oggpack_buffer o; oggpack_buffer r; void report(char *in){ fprintf(stderr,"%s",in); exit(1); } void cliptest(unsigned long *b,int vals,int bits,int *comp,int compsize){ long bytes,i; unsigned char *buffer; oggpack_reset(&o); for(i=0;i<vals;i++) oggpack_write(&o,b[i],bits?bits:ilog(b[i])); buffer=oggpack_get_buffer(&o); bytes=oggpack_bytes(&o); if(bytes!=compsize)report("wrong number of bytes!\n"); for(i=0;i<bytes;i++)if(buffer[i]!=comp[i]){ for(i=0;i<bytes;i++)fprintf(stderr,"%x %x\n",(int)buffer[i],(int)comp[i]); report("wrote incorrect value!\n"); } oggpack_readinit(&r,buffer,bytes); for(i=0;i<vals;i++){ int tbit=bits?bits:ilog(b[i]); if(oggpack_look(&r,tbit)==-1) report("out of data!\n"); if(oggpack_look(&r,tbit)!=(b[i]&mask[tbit])) report("looked at incorrect value!\n"); if(tbit==1) if(oggpack_look1(&r)!=(b[i]&mask[tbit])) report("looked at single bit incorrect value!\n"); if(tbit==1){ if(oggpack_read1(&r)!=(b[i]&mask[tbit])) report("read incorrect single bit value!\n"); }else{ if(oggpack_read(&r,tbit)!=(b[i]&mask[tbit])) report("read incorrect value!\n"); } } if(oggpack_bytes(&r)!=bytes)report("leftover bytes after read!\n"); } void cliptestB(unsigned long *b,int vals,int bits,int *comp,int compsize){ long bytes,i; unsigned char *buffer; oggpackB_reset(&o); for(i=0;i<vals;i++) oggpackB_write(&o,b[i],bits?bits:ilog(b[i])); buffer=oggpackB_get_buffer(&o); bytes=oggpackB_bytes(&o); if(bytes!=compsize)report("wrong number of bytes!\n"); for(i=0;i<bytes;i++)if(buffer[i]!=comp[i]){ for(i=0;i<bytes;i++)fprintf(stderr,"%x %x\n",(int)buffer[i],(int)comp[i]); report("wrote incorrect value!\n"); } oggpackB_readinit(&r,buffer,bytes); for(i=0;i<vals;i++){ int tbit=bits?bits:ilog(b[i]); if(oggpackB_look(&r,tbit)==-1) report("out of data!\n"); if(oggpackB_look(&r,tbit)!=(b[i]&mask[tbit])) report("looked at incorrect value!\n"); if(tbit==1) if(oggpackB_look1(&r)!=(b[i]&mask[tbit])) report("looked at single bit incorrect value!\n"); if(tbit==1){ if(oggpackB_read1(&r)!=(b[i]&mask[tbit])) report("read incorrect single bit value!\n"); }else{ if(oggpackB_read(&r,tbit)!=(b[i]&mask[tbit])) report("read incorrect value!\n"); } } if(oggpackB_bytes(&r)!=bytes)report("leftover bytes after read!\n"); } void copytest(int prefill, int copy){ oggpack_buffer source_write; oggpack_buffer dest_write; oggpack_buffer source_read; oggpack_buffer dest_read; unsigned char *source; unsigned char *dest; long source_bytes,dest_bytes; int i; oggpack_writeinit(&source_write); oggpack_writeinit(&dest_write); for(i=0;i<(prefill+copy+7)/8;i++) oggpack_write(&source_write,(i^0x5a)&0xff,8); source=oggpack_get_buffer(&source_write); source_bytes=oggpack_bytes(&source_write); /* prefill */ oggpack_writecopy(&dest_write,source,prefill); /* check buffers; verify end byte masking */ dest=oggpack_get_buffer(&dest_write); dest_bytes=oggpack_bytes(&dest_write); if(dest_bytes!=(prefill+7)/8){ fprintf(stderr,"wrong number of bytes after prefill! %ld!=%d\n",dest_bytes,(prefill+7)/8); exit(1); } oggpack_readinit(&source_read,source,source_bytes); oggpack_readinit(&dest_read,dest,dest_bytes); for(i=0;i<prefill;i+=8){ int s=oggpack_read(&source_read,prefill-i<8?prefill-i:8); int d=oggpack_read(&dest_read,prefill-i<8?prefill-i:8); if(s!=d){ fprintf(stderr,"prefill=%d mismatch! byte %d, %x!=%x\n",prefill,i/8,s,d); exit(1); } } if(prefill<dest_bytes){ if(oggpack_read(&dest_read,dest_bytes-prefill)!=0){ fprintf(stderr,"prefill=%d mismatch! trailing bits not zero\n",prefill); exit(1); } } /* second copy */ oggpack_writecopy(&dest_write,source,copy); /* check buffers; verify end byte masking */ dest=oggpack_get_buffer(&dest_write); dest_bytes=oggpack_bytes(&dest_write); if(dest_bytes!=(copy+prefill+7)/8){ fprintf(stderr,"wrong number of bytes after prefill+copy! %ld!=%d\n",dest_bytes,(copy+prefill+7)/8); exit(1); } oggpack_readinit(&source_read,source,source_bytes); oggpack_readinit(&dest_read,dest,dest_bytes); for(i=0;i<prefill;i+=8){ int s=oggpack_read(&source_read,prefill-i<8?prefill-i:8); int d=oggpack_read(&dest_read,prefill-i<8?prefill-i:8); if(s!=d){ fprintf(stderr,"prefill=%d mismatch! byte %d, %x!=%x\n",prefill,i/8,s,d); exit(1); } } oggpack_readinit(&source_read,source,source_bytes); for(i=0;i<copy;i+=8){ int s=oggpack_read(&source_read,copy-i<8?copy-i:8); int d=oggpack_read(&dest_read,copy-i<8?copy-i:8); if(s!=d){ fprintf(stderr,"prefill=%d copy=%d mismatch! byte %d, %x!=%x\n",prefill,copy,i/8,s,d); exit(1); } } if(copy+prefill<dest_bytes){ if(oggpack_read(&dest_read,dest_bytes-copy-prefill)!=0){ fprintf(stderr,"prefill=%d copy=%d mismatch! trailing bits not zero\n",prefill,copy); exit(1); } } oggpack_writeclear(&source_write); oggpack_writeclear(&dest_write); } void copytestB(int prefill, int copy){ oggpack_buffer source_write; oggpack_buffer dest_write; oggpack_buffer source_read; oggpack_buffer dest_read; unsigned char *source; unsigned char *dest; long source_bytes,dest_bytes; int i; oggpackB_writeinit(&source_write); oggpackB_writeinit(&dest_write); for(i=0;i<(prefill+copy+7)/8;i++) oggpackB_write(&source_write,(i^0x5a)&0xff,8); source=oggpackB_get_buffer(&source_write); source_bytes=oggpackB_bytes(&source_write); /* prefill */ oggpackB_writecopy(&dest_write,source,prefill); /* check buffers; verify end byte masking */ dest=oggpackB_get_buffer(&dest_write); dest_bytes=oggpackB_bytes(&dest_write); if(dest_bytes!=(prefill+7)/8){ fprintf(stderr,"wrong number of bytes after prefill! %ld!=%d\n",dest_bytes,(prefill+7)/8); exit(1); } oggpackB_readinit(&source_read,source,source_bytes); oggpackB_readinit(&dest_read,dest,dest_bytes); for(i=0;i<prefill;i+=8){ int s=oggpackB_read(&source_read,prefill-i<8?prefill-i:8); int d=oggpackB_read(&dest_read,prefill-i<8?prefill-i:8); if(s!=d){ fprintf(stderr,"prefill=%d mismatch! byte %d, %x!=%x\n",prefill,i/8,s,d); exit(1); } } if(prefill<dest_bytes){ if(oggpackB_read(&dest_read,dest_bytes-prefill)!=0){ fprintf(stderr,"prefill=%d mismatch! trailing bits not zero\n",prefill); exit(1); } } /* second copy */ oggpackB_writecopy(&dest_write,source,copy); /* check buffers; verify end byte masking */ dest=oggpackB_get_buffer(&dest_write); dest_bytes=oggpackB_bytes(&dest_write); if(dest_bytes!=(copy+prefill+7)/8){ fprintf(stderr,"wrong number of bytes after prefill+copy! %ld!=%d\n",dest_bytes,(copy+prefill+7)/8); exit(1); } oggpackB_readinit(&source_read,source,source_bytes); oggpackB_readinit(&dest_read,dest,dest_bytes); for(i=0;i<prefill;i+=8){ int s=oggpackB_read(&source_read,prefill-i<8?prefill-i:8); int d=oggpackB_read(&dest_read,prefill-i<8?prefill-i:8); if(s!=d){ fprintf(stderr,"prefill=%d mismatch! byte %d, %x!=%x\n",prefill,i/8,s,d); exit(1); } } oggpackB_readinit(&source_read,source,source_bytes); for(i=0;i<copy;i+=8){ int s=oggpackB_read(&source_read,copy-i<8?copy-i:8); int d=oggpackB_read(&dest_read,copy-i<8?copy-i:8); if(s!=d){ fprintf(stderr,"prefill=%d copy=%d mismatch! byte %d, %x!=%x\n",prefill,copy,i/8,s,d); exit(1); } } if(copy+prefill<dest_bytes){ if(oggpackB_read(&dest_read,dest_bytes-copy-prefill)!=0){ fprintf(stderr,"prefill=%d copy=%d mismatch! trailing bits not zero\n",prefill,copy); exit(1); } } oggpackB_writeclear(&source_write); oggpackB_writeclear(&dest_write); } int main(void){ unsigned char *buffer; long bytes,i,j; static unsigned long testbuffer1[]= {18,12,103948,4325,543,76,432,52,3,65,4,56,32,42,34,21,1,23,32,546,456,7, 567,56,8,8,55,3,52,342,341,4,265,7,67,86,2199,21,7,1,5,1,4}; int test1size=43; static unsigned long testbuffer2[]= {216531625L,1237861823,56732452,131,3212421,12325343,34547562,12313212, 1233432,534,5,346435231,14436467,7869299,76326614,167548585, 85525151,0,12321,1,349528352}; int test2size=21; static unsigned long testbuffer3[]= {1,0,14,0,1,0,12,0,1,0,0,0,1,1,0,1,0,1,0,1,0,1,0,1,0,1,0,0,1,1,1,1,1,0,0,1, 0,1,30,1,1,1,0,0,1,0,0,0,12,0,11,0,1,0,0,1}; int test3size=56; static unsigned long large[]= {2136531625L,2137861823,56732452,131,3212421,12325343,34547562,12313212, 1233432,534,5,2146435231,14436467,7869299,76326614,167548585, 85525151,0,12321,1,2146528352}; int onesize=33; static int one[33]={146,25,44,151,195,15,153,176,233,131,196,65,85,172,47,40, 34,242,223,136,35,222,211,86,171,50,225,135,214,75,172, 223,4}; static int oneB[33]={150,101,131,33,203,15,204,216,105,193,156,65,84,85,222, 8,139,145,227,126,34,55,244,171,85,100,39,195,173,18, 245,251,128}; int twosize=6; static int two[6]={61,255,255,251,231,29}; static int twoB[6]={247,63,255,253,249,120}; int threesize=54; static int three[54]={169,2,232,252,91,132,156,36,89,13,123,176,144,32,254, 142,224,85,59,121,144,79,124,23,67,90,90,216,79,23,83, 58,135,196,61,55,129,183,54,101,100,170,37,127,126,10, 100,52,4,14,18,86,77,1}; static int threeB[54]={206,128,42,153,57,8,183,251,13,89,36,30,32,144,183, 130,59,240,121,59,85,223,19,228,180,134,33,107,74,98, 233,253,196,135,63,2,110,114,50,155,90,127,37,170,104, 200,20,254,4,58,106,176,144,0}; int foursize=38; static int four[38]={18,6,163,252,97,194,104,131,32,1,7,82,137,42,129,11,72, 132,60,220,112,8,196,109,64,179,86,9,137,195,208,122,169, 28,2,133,0,1}; static int fourB[38]={36,48,102,83,243,24,52,7,4,35,132,10,145,21,2,93,2,41, 1,219,184,16,33,184,54,149,170,132,18,30,29,98,229,67, 129,10,4,32}; int fivesize=45; static int five[45]={169,2,126,139,144,172,30,4,80,72,240,59,130,218,73,62, 241,24,210,44,4,20,0,248,116,49,135,100,110,130,181,169, 84,75,159,2,1,0,132,192,8,0,0,18,22}; static int fiveB[45]={1,84,145,111,245,100,128,8,56,36,40,71,126,78,213,226, 124,105,12,0,133,128,0,162,233,242,67,152,77,205,77, 172,150,169,129,79,128,0,6,4,32,0,27,9,0}; int sixsize=7; static int six[7]={17,177,170,242,169,19,148}; static int sixB[7]={136,141,85,79,149,200,41}; /* Test read/write together */ /* Later we test against pregenerated bitstreams */ oggpack_writeinit(&o); fprintf(stderr,"\nSmall preclipped packing (LSb): "); cliptest(testbuffer1,test1size,0,one,onesize); fprintf(stderr,"ok."); fprintf(stderr,"\nNull bit call (LSb): "); cliptest(testbuffer3,test3size,0,two,twosize); fprintf(stderr,"ok."); fprintf(stderr,"\nLarge preclipped packing (LSb): "); cliptest(testbuffer2,test2size,0,three,threesize); fprintf(stderr,"ok."); fprintf(stderr,"\n32 bit preclipped packing (LSb): "); oggpack_reset(&o); for(i=0;i<test2size;i++) oggpack_write(&o,large[i],32); buffer=oggpack_get_buffer(&o); bytes=oggpack_bytes(&o); oggpack_readinit(&r,buffer,bytes); for(i=0;i<test2size;i++){ if(oggpack_look(&r,32)==-1)report("out of data. failed!"); if(oggpack_look(&r,32)!=large[i]){ fprintf(stderr,"%ld != %ld (%lx!=%lx):",oggpack_look(&r,32),large[i], oggpack_look(&r,32),large[i]); report("read incorrect value!\n"); } oggpack_adv(&r,32); } if(oggpack_bytes(&r)!=bytes)report("leftover bytes after read!\n"); fprintf(stderr,"ok."); fprintf(stderr,"\nSmall unclipped packing (LSb): "); cliptest(testbuffer1,test1size,7,four,foursize); fprintf(stderr,"ok."); fprintf(stderr,"\nLarge unclipped packing (LSb): "); cliptest(testbuffer2,test2size,17,five,fivesize); fprintf(stderr,"ok."); fprintf(stderr,"\nSingle bit unclipped packing (LSb): "); cliptest(testbuffer3,test3size,1,six,sixsize); fprintf(stderr,"ok."); fprintf(stderr,"\nTesting read past end (LSb): "); oggpack_readinit(&r,(unsigned char *)"\0\0\0\0\0\0\0\0",8); for(i=0;i<64;i++){ if(oggpack_read(&r,1)!=0){ fprintf(stderr,"failed; got -1 prematurely.\n"); exit(1); } } if(oggpack_look(&r,1)!=-1 || oggpack_read(&r,1)!=-1){ fprintf(stderr,"failed; read past end without -1.\n"); exit(1); } oggpack_readinit(&r,(unsigned char *)"\0\0\0\0\0\0\0\0",8); if(oggpack_read(&r,30)!=0 || oggpack_read(&r,16)!=0){ fprintf(stderr,"failed 2; got -1 prematurely.\n"); exit(1); } if(oggpack_look(&r,18)!=0 || oggpack_look(&r,18)!=0){ fprintf(stderr,"failed 3; got -1 prematurely.\n"); exit(1); } if(oggpack_look(&r,19)!=-1 || oggpack_look(&r,19)!=-1){ fprintf(stderr,"failed; read past end without -1.\n"); exit(1); } if(oggpack_look(&r,32)!=-1 || oggpack_look(&r,32)!=-1){ fprintf(stderr,"failed; read past end without -1.\n"); exit(1); } oggpack_writeclear(&o); fprintf(stderr,"ok."); /* this is partly glassbox; we're mostly concerned about the allocation boundaries */ fprintf(stderr,"\nTesting aligned writecopies (LSb): "); for(i=0;i<71;i++) for(j=0;j<5;j++) copytest(j*8,i); for(i=BUFFER_INCREMENT*8-71;i<BUFFER_INCREMENT*8+71;i++) for(j=0;j<5;j++) copytest(j*8,i); fprintf(stderr,"ok. "); fprintf(stderr,"\nTesting unaligned writecopies (LSb): "); for(i=0;i<71;i++) for(j=1;j<40;j++) if(j&0x7) copytest(j,i); for(i=BUFFER_INCREMENT*8-71;i<BUFFER_INCREMENT*8+71;i++) for(j=1;j<40;j++) if(j&0x7) copytest(j,i); fprintf(stderr,"ok. \n"); /********** lazy, cut-n-paste retest with MSb packing ***********/ /* Test read/write together */ /* Later we test against pregenerated bitstreams */ oggpackB_writeinit(&o); fprintf(stderr,"\nSmall preclipped packing (MSb): "); cliptestB(testbuffer1,test1size,0,oneB,onesize); fprintf(stderr,"ok."); fprintf(stderr,"\nNull bit call (MSb): "); cliptestB(testbuffer3,test3size,0,twoB,twosize); fprintf(stderr,"ok."); fprintf(stderr,"\nLarge preclipped packing (MSb): "); cliptestB(testbuffer2,test2size,0,threeB,threesize); fprintf(stderr,"ok."); fprintf(stderr,"\n32 bit preclipped packing (MSb): "); oggpackB_reset(&o); for(i=0;i<test2size;i++) oggpackB_write(&o,large[i],32); buffer=oggpackB_get_buffer(&o); bytes=oggpackB_bytes(&o); oggpackB_readinit(&r,buffer,bytes); for(i=0;i<test2size;i++){ if(oggpackB_look(&r,32)==-1)report("out of data. failed!"); if(oggpackB_look(&r,32)!=large[i]){ fprintf(stderr,"%ld != %ld (%lx!=%lx):",oggpackB_look(&r,32),large[i], oggpackB_look(&r,32),large[i]); report("read incorrect value!\n"); } oggpackB_adv(&r,32); } if(oggpackB_bytes(&r)!=bytes)report("leftover bytes after read!\n"); fprintf(stderr,"ok."); fprintf(stderr,"\nSmall unclipped packing (MSb): "); cliptestB(testbuffer1,test1size,7,fourB,foursize); fprintf(stderr,"ok."); fprintf(stderr,"\nLarge unclipped packing (MSb): "); cliptestB(testbuffer2,test2size,17,fiveB,fivesize); fprintf(stderr,"ok."); fprintf(stderr,"\nSingle bit unclipped packing (MSb): "); cliptestB(testbuffer3,test3size,1,sixB,sixsize); fprintf(stderr,"ok."); fprintf(stderr,"\nTesting read past end (MSb): "); oggpackB_readinit(&r,(unsigned char *)"\0\0\0\0\0\0\0\0",8); for(i=0;i<64;i++){ if(oggpackB_read(&r,1)!=0){ fprintf(stderr,"failed; got -1 prematurely.\n"); exit(1); } } if(oggpackB_look(&r,1)!=-1 || oggpackB_read(&r,1)!=-1){ fprintf(stderr,"failed; read past end without -1.\n"); exit(1); } oggpackB_readinit(&r,(unsigned char *)"\0\0\0\0\0\0\0\0",8); if(oggpackB_read(&r,30)!=0 || oggpackB_read(&r,16)!=0){ fprintf(stderr,"failed 2; got -1 prematurely.\n"); exit(1); } if(oggpackB_look(&r,18)!=0 || oggpackB_look(&r,18)!=0){ fprintf(stderr,"failed 3; got -1 prematurely.\n"); exit(1); } if(oggpackB_look(&r,19)!=-1 || oggpackB_look(&r,19)!=-1){ fprintf(stderr,"failed; read past end without -1.\n"); exit(1); } if(oggpackB_look(&r,32)!=-1 || oggpackB_look(&r,32)!=-1){ fprintf(stderr,"failed; read past end without -1.\n"); exit(1); } fprintf(stderr,"ok."); oggpackB_writeclear(&o); /* this is partly glassbox; we're mostly concerned about the allocation boundaries */ fprintf(stderr,"\nTesting aligned writecopies (MSb): "); for(i=0;i<71;i++) for(j=0;j<5;j++) copytestB(j*8,i); for(i=BUFFER_INCREMENT*8-71;i<BUFFER_INCREMENT*8+71;i++) for(j=0;j<5;j++) copytestB(j*8,i); fprintf(stderr,"ok. "); fprintf(stderr,"\nTesting unaligned writecopies (MSb): "); for(i=0;i<71;i++) for(j=1;j<40;j++) if(j&0x7) copytestB(j,i); for(i=BUFFER_INCREMENT*8-71;i<BUFFER_INCREMENT*8+71;i++) for(j=1;j<40;j++) if(j&0x7) copytestB(j,i); fprintf(stderr,"ok. \n\n"); return(0); } #endif /* _V_SELFTEST */ #undef BUFFER_INCREMENT