/* * Copyright (c) 2010 The VP8 project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ /* Arithmetic bool coder with largish probability range. Timothy S Murphy 6 August 2004 */ #include #include #include "bool_coder.h" #if tim_vp8 extern "C" { # include "VP8cx/treewriter.h" } #endif int_types::~int_types() {} void bool_coder_spec::check_prec() const { assert( w && (r==Up || w > 1) && w < 24 && (ebias || w < 17)); } bool bool_coder_spec::float_init( uint Ebits, uint Mbits) { uint b = (ebits = Ebits) + (mbits = Mbits); if( b) { assert( ebits < 6 && w + mbits < 31); assert( ebits + mbits < sizeof(Index) * 8); ebias = (1 << ebits) + 1 + mbits; mmask = (1 << mbits) - 1; max_index = ( ( half_index = 1 << b ) << 1) - 1; } else { ebias = 0; max_index = 255; half_index = 128; } check_prec(); return b? 1:0; } void bool_coder_spec::cost_init() { static cdouble c = -(1 << 20)/log( 2.); FILE *f = fopen( "costs.txt", "w"); assert( f); assert( sizeof(int) >= 4); /* for C interface */ assert( max_index <= 255); /* size of Ctbl */ uint i = 0; do { cdouble p = ( *this)( (Index) i); Ctbl[i] = (uint32) ( log( p) * c); fprintf( f, "cost( %d -> %10.7f) = %10d = %12.5f bits\n", i, p, Ctbl[i], (double) Ctbl[i] / (1<<20) ); } while( ++i <= max_index); fclose( f); } bool_coder_spec_explicit_table::bool_coder_spec_explicit_table( cuint16 tbl[256], Rounding rr, uint prec ) : bool_coder_spec( prec, rr) { check_prec(); uint i = 0; if( tbl) do { Ptbl[i] = tbl[i];} while( ++i < 256); else do { Ptbl[i] = i << 8;} while( ++i < 256); cost_init(); } bool_coder_spec_exponential_table::bool_coder_spec_exponential_table( uint x, Rounding rr, uint prec ) : bool_coder_spec( prec, rr) { assert( x > 1 && x <= 16); check_prec(); Ptbl[128] = 32768u; Ptbl[0] = (uint16) pow( 2., 16. - x); --x; int i=1; do { cdouble d = pow( .5, 1. + (1. - i/128.)*x) * 65536.; uint16 v = (uint16) d; if( v < i) v = i; Ptbl[256-i] = (uint16) ( 65536U - (Ptbl[i] = v)); } while( ++i < 128); cost_init(); } bool_coder_spec::bool_coder_spec( FILE *fp) { fscanf( fp, "%d", &w); int v; fscanf( fp, "%d", &v); assert( 0 <= v && v <= 2); r = (Rounding) v; fscanf( fp, "%d", &ebits); fscanf( fp, "%d", &mbits); if( float_init( ebits, mbits)) return; int i=0; do { uint v; fscanf( fp, "%d", &v); assert( 0 <=v && v <= 65535U); Ptbl[i] = v; } while( ++i < 256); cost_init(); } void bool_coder_spec::dump( FILE *fp) const { fprintf( fp, "%d %d %d %d\n", w, (int) r, ebits, mbits); if( ebits || mbits) return; int i=0; do { fprintf( fp, "%d\n", Ptbl[i]);} while( ++i < 256); } vp8bc_index_t bool_coder_spec::operator()( double p) const { if( p <= 0.) return 0; if( p >= 1.) return max_index; if( ebias) { if( p > .5) return max_index - ( *this)( 1. - p); int e; uint m = (uint) ldexp( frexp( p, &e), mbits + 2); uint x = 1 << (mbits + 1); assert( x <= m && m < x<<1); if( (m = (m >> 1) + (m & 1)) >= x) { m = x >> 1; ++e; } int y = 1 << ebits; if( (e += y) >= y) return half_index - 1; if( e < 0) return 0; return (Index) ( (e << mbits) + (m & mmask)); } cuint16 v = (uint16) (p * 65536.); int i = 128; int j = 128; uint16 w; while( w = Ptbl[i], j >>= 1) { if( w < v) i += j; else if( w == v) return (uchar) i; else i -= j; } if( w > v) { cuint16 x = Ptbl[i-1]; if( v <= x || w - v > v - x) --i; } else if( w < v && i < 255) { cuint16 x = Ptbl[i+1]; if( x <= v || x - v < v - w) ++i; } return (Index) i; } double bool_coder_spec::operator()( Index i) const { if( !ebias) return Ptbl[i]/65536.; if( i >= half_index) return 1. - ( *this)( (Index) (max_index - i)); return ldexp( (double)mantissa( i), - (int) exponent( i)); } void bool_writer::carry() { uchar *p = B; assert( p > Bstart); while( *--p == 255) { assert( p > Bstart); *p = 0;} ++*p; } bool_writer::bool_writer( c_spec& s, uchar *Dest, size_t Len) : bool_coder( s), Bstart( Dest), Bend( Len? Dest+Len : 0), B( Dest) { assert( Dest); reset(); } bool_writer::~bool_writer() { flush();} #if 1 extern "C" { int bc_v = 0;} #else # define bc_v 0 #endif void bool_writer::raw( bool value, uint32 s) { uint32 L = Low; assert( Range >= min_range && Range <= spec.max_range()); assert( !is_toast && s && s < Range); if( bc_v) printf( "Writing a %d, B %x Low %x Range %x s %x blag %d ...\n", value? 1:0, B-Bstart, Low, Range, s, bit_lag ); if( value) { L += s; s = Range - s; } else s -= rinc; if( s < min_range) { int ct = bit_lag; do { if( !--ct) { ct = 8; if( L & (1 << 31)) carry(); assert( !Bend || B < Bend); *B++ = (uchar) (L >> 23); L &= (1<<23) - 1; } } while( L += L, (s += s + rinc) < min_range); bit_lag = ct; } Low = L; Range = s; if( bc_v) printf( "...done, B %x Low %x Range %x blag %d \n", B-Bstart, Low, Range, bit_lag ); } bool_writer& bool_writer::flush() { if( is_toast) return *this; int b = bit_lag; uint32 L = Low; assert( b); if( L & (1 << (32 - b))) carry(); L <<= b & 7; b >>= 3; while( --b >= 0) L <<= 8; b = 4; assert( !Bend || B + 4 <= Bend); do { *B++ = (uchar) (L >> 24); L <<= 8; } while( --b); is_toast = 1; return *this; } bool_reader::bool_reader( c_spec& s, cuchar *src, size_t Len) : bool_coder( s), Bstart( src), B( src), Bend( Len? src+Len : 0), shf( 32 - s.w), bct( 8) { int i = 4; do { Low <<= 8; Low |= *B++;} while( --i); } bool bool_reader::raw( uint32 s) { bool val = 0; uint32 L = Low; cuint32 S = s << shf; assert( Range >= min_range && Range <= spec.max_range()); assert( s && s < Range && (L >> shf) < Range); if( bc_v) printf( "Reading, B %x Low %x Range %x s %x bct %d ...\n", B-Bstart, Low, Range, s, bct ); if( L >= S) { L -= S; s = Range - s; assert( L < (s << shf)); val = 1; } else s -= rinc; if( s < min_range) { int ct = bct; do { assert( ~L & (1 << 31)); L += L; if( !--ct) { ct = 8; if( !Bend || B < Bend) L |= *B++; } } while( (s += s + rinc) < min_range); bct = ct; } Low = L; Range = s; if( bc_v) printf( "...done, val %d B %x Low %x Range %x bct %d\n", val? 1:0, B-Bstart, Low, Range, bct ); return val; } /* C interfaces */ // spec interface struct NS : bool_coder_namespace { static Rounding r( vp8bc_c_prec *p, Rounding rr =down_full) { return p? (Rounding) p->r : rr; } }; bool_coder_spec *vp8bc_vp6spec() { return new bool_coder_spec_explicit_table( 0, bool_coder_namespace::Down, 8); } bool_coder_spec *vp8bc_float_spec( unsigned int Ebits, unsigned int Mbits, vp8bc_c_prec *p ) { return new bool_coder_spec_float( Ebits, Mbits, NS::r( p), p? p->prec : 12); } bool_coder_spec *vp8bc_literal_spec( const unsigned short m[256], vp8bc_c_prec *p ) { return new bool_coder_spec_explicit_table( m, NS::r( p), p? p->prec : 16); } bool_coder_spec *vp8bc_exponential_spec( unsigned int x, vp8bc_c_prec *p) { return new bool_coder_spec_exponential_table( x, NS::r( p), p? p->prec : 16); } bool_coder_spec *vp8bc_spec_from_file( FILE *fp) { return new bool_coder_spec( fp); } void vp8bc_destroy_spec( c_bool_coder_spec *p) { delete p;} void vp8bc_spec_to_file( c_bool_coder_spec *p, FILE *fp) { p->dump( fp);} vp8bc_index_t vp8bc_index( c_bool_coder_spec *p, double x) { return ( *p)( x); } vp8bc_index_t vp8bc_index_from_counts( c_bool_coder_spec *p, unsigned int L, unsigned int R ) { return ( *p)( (R += L)? (double) L/R : .5); } double vp8bc_probability( c_bool_coder_spec *p, vp8bc_index_t i) { return ( *p)( i); } vp8bc_index_t vp8bc_complement( c_bool_coder_spec *p, vp8bc_index_t i) { return p->complement( i); } unsigned int vp8bc_cost_zero( c_bool_coder_spec *p, vp8bc_index_t i) { return p->cost_zero( i); } unsigned int vp8bc_cost_one( c_bool_coder_spec *p, vp8bc_index_t i) { return p->cost_one( i); } unsigned int vp8bc_cost_bit( c_bool_coder_spec *p, vp8bc_index_t i, int v) { return p->cost_bit( i, v); } #if tim_vp8 extern "C" int tok_verbose; # define dbg_l 1000000 static vp8bc_index_t dbg_i [dbg_l]; static char dbg_v [dbg_l]; static size_t dbg_w = 0, dbg_r = 0; #endif // writer interface bool_writer *vp8bc_create_writer( c_bool_coder_spec *p, unsigned char *D, size_t L ) { return new bool_writer( *p, D, L); } size_t vp8bc_destroy_writer( bool_writer *p) { const size_t s = p->flush().bytes_written(); delete p; return s; } void vp8bc_write_bool( bool_writer *p, int v, vp8bc_index_t i) { # if tim_vp8 // bc_v = dbg_w < 10; if( bc_v = tok_verbose) printf( " writing %d at prob %d\n", v? 1:0, i); accum_entropy_bc( &p->Spec(), i, v); ( *p)( i, (bool) v); if( dbg_w < dbg_l) { dbg_i [dbg_w] = i; dbg_v [dbg_w++] = v? 1:0; } # else ( *p)( i, (bool) v); # endif } void vp8bc_write_bits( bool_writer *p, unsigned int v, int n) { # if tim_vp8 { c_bool_coder_spec * const s = & p->Spec(); const vp8bc_index_t i = s->half_index(); int m = n; while( --m >= 0) accum_entropy_bc( s, i, (v>>m) & 1); } # endif p->write_bits( n, v); } c_bool_coder_spec *vp8bc_writer_spec( c_bool_writer *w) { return & w->Spec();} // reader interface bool_reader *vp8bc_create_reader( c_bool_coder_spec *p, const unsigned char *S, size_t L ) { return new bool_reader( *p, S, L); } void vp8bc_destroy_reader( bool_reader * p) { delete p;} int vp8bc_read_bool( bool_reader *p, vp8bc_index_t i) { # if tim_vp8 // bc_v = dbg_r < 10; bc_v = tok_verbose; const int v = ( *p)( i)? 1:0; if( tok_verbose) printf( " reading %d at prob %d\n", v, i); if( dbg_r < dbg_l) { assert( dbg_r <= dbg_w); if( i != dbg_i[dbg_r] || v != dbg_v[dbg_r]) { printf( "Position %d: INCORRECTLY READING %d prob %d, wrote %d prob %d\n", dbg_r, v, i, dbg_v[dbg_r], dbg_i[dbg_r] ); } ++dbg_r; } return v; # else return ( *p)( i)? 1:0; # endif } unsigned int vp8bc_read_bits( bool_reader *p, int n) { return p->read_bits( n);} c_bool_coder_spec *vp8bc_reader_spec( c_bool_reader *r) { return & r->Spec();} #undef bc_v