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/**
 * @file libavcodec/vorbis_dec.c
 * Vorbis I decoder
 * @author Denes Balatoni  ( dbalatoni programozo hu )

 * This file is part of FFmpeg.
 *
 * FFmpeg is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * FFmpeg is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with FFmpeg; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
 */

#undef V_DEBUG
//#define V_DEBUG
//#define AV_DEBUG(...) av_log(NULL, AV_LOG_INFO, __VA_ARGS__)

#include <math.h>

#define ALT_BITSTREAM_READER_LE
#include "avcodec.h"
#include "bitstream.h"
#include "dsputil.h"

#include "vorbis.h"
#include "xiph.h"

#define V_NB_BITS 8
#define V_NB_BITS2 11
#define V_MAX_VLCS (1<<16)

#ifndef V_DEBUG
#define AV_DEBUG(...)
#endif

#undef NDEBUG
#include <assert.h>

typedef struct {
    uint_fast8_t dimensions;
    uint_fast8_t lookup_type;
    uint_fast8_t maxdepth;
    VLC vlc;
    float *codevectors;
    unsigned int nb_bits;
} vorbis_codebook;

typedef union vorbis_floor_u vorbis_floor_data;
typedef struct vorbis_floor0_s vorbis_floor0;
typedef struct vorbis_floor1_s vorbis_floor1;
struct vorbis_context_s;
typedef
uint_fast8_t (* vorbis_floor_decode_func)
             (struct vorbis_context_s *, vorbis_floor_data *, float *);
typedef struct {
    uint_fast8_t floor_type;
    vorbis_floor_decode_func decode;
    union vorbis_floor_u
    {
        struct vorbis_floor0_s
        {
            uint_fast8_t order;
            uint_fast16_t rate;
            uint_fast16_t bark_map_size;
            int_fast32_t * map[2];
            uint_fast32_t map_size[2];
            uint_fast8_t amplitude_bits;
            uint_fast8_t amplitude_offset;
            uint_fast8_t num_books;
            uint_fast8_t * book_list;
            float * lsp;
        } t0;
        struct vorbis_floor1_s
        {
            uint_fast8_t partitions;
            uint_fast8_t maximum_class;
            uint_fast8_t partition_class[32];
            uint_fast8_t class_dimensions[16];
            uint_fast8_t class_subclasses[16];
            uint_fast8_t class_masterbook[16];
            int_fast16_t subclass_books[16][8];
            uint_fast8_t multiplier;
            uint_fast16_t x_list_dim;
            vorbis_floor1_entry * list;
        } t1;
    } data;
} vorbis_floor;

typedef struct {
    uint_fast16_t type;
    uint_fast32_t begin;
    uint_fast32_t end;
    uint_fast32_t partition_size;
    uint_fast8_t classifications;
    uint_fast8_t classbook;
    int_fast16_t books[64][8];
    uint_fast8_t maxpass;
} vorbis_residue;

typedef struct {
    uint_fast8_t submaps;
    uint_fast16_t coupling_steps;
    uint_fast8_t *magnitude;
    uint_fast8_t *angle;
    uint_fast8_t *mux;
    uint_fast8_t submap_floor[16];
    uint_fast8_t submap_residue[16];
} vorbis_mapping;

typedef struct {
    uint_fast8_t blockflag;
    uint_fast16_t windowtype;
    uint_fast16_t transformtype;
    uint_fast8_t mapping;
} vorbis_mode;

typedef struct vorbis_context_s {
    AVCodecContext *avccontext;
    GetBitContext gb;
    DSPContext dsp;

    MDCTContext mdct[2];
    uint_fast8_t first_frame;
    uint_fast32_t version;
    uint_fast8_t audio_channels;
    uint_fast32_t audio_samplerate;
    uint_fast32_t bitrate_maximum;
    uint_fast32_t bitrate_nominal;
    uint_fast32_t bitrate_minimum;
    uint_fast32_t blocksize[2];
    const float * win[2];
    uint_fast16_t codebook_count;
    vorbis_codebook *codebooks;
    uint_fast8_t floor_count;
    vorbis_floor *floors;
    uint_fast8_t residue_count;
    vorbis_residue *residues;
    uint_fast8_t mapping_count;
    vorbis_mapping *mappings;
    uint_fast8_t mode_count;
    vorbis_mode *modes;
    uint_fast8_t mode_number; // mode number for the current packet
    uint_fast8_t previous_window;
    float *channel_residues;
    float *channel_floors;
    float *saved;
    uint_fast32_t add_bias; // for float->int conversion
    uint_fast32_t exp_bias;
} vorbis_context;

/* Helper functions */

#define BARK(x) \
    (13.1f*atan(0.00074f*(x))+2.24f*atan(1.85e-8f*(x)*(x))+1e-4f*(x))

static float vorbisfloat2float(uint_fast32_t val) {
    double mant=val&0x1fffff;
    long exp=(val&0x7fe00000L)>>21;
    if (val&0x80000000) mant=-mant;
    return ldexp(mant, exp - 20 - 768);
}


// Free all allocated memory -----------------------------------------

static void vorbis_free(vorbis_context *vc) {
    int_fast16_t i;

    av_freep(&vc->channel_residues);
    av_freep(&vc->channel_floors);
    av_freep(&vc->saved);

    av_freep(&vc->residues);
    av_freep(&vc->modes);

    ff_mdct_end(&vc->mdct[0]);
    ff_mdct_end(&vc->mdct[1]);

    for(i=0;i<vc->codebook_count;++i) {
        av_free(vc->codebooks[i].codevectors);
        free_vlc(&vc->codebooks[i].vlc);
    }
    av_freep(&vc->codebooks);

    for(i=0;i<vc->floor_count;++i) {
        if(vc->floors[i].floor_type==0) {
            av_free(vc->floors[i].data.t0.map[0]);
            av_free(vc->floors[i].data.t0.map[1]);
            av_free(vc->floors[i].data.t0.book_list);
            av_free(vc->floors[i].data.t0.lsp);
        }
        else {
            av_free(vc->floors[i].data.t1.list);
        }
    }
    av_freep(&vc->floors);

    for(i=0;i<vc->mapping_count;++i) {
        av_free(vc->mappings[i].magnitude);
        av_free(vc->mappings[i].angle);
        av_free(vc->mappings[i].mux);
    }
    av_freep(&vc->mappings);

    if(vc->exp_bias){
        av_freep(&vc->win[0]);
        av_freep(&vc->win[1]);
    }
}

// Parse setup header -------------------------------------------------

// Process codebooks part

static int vorbis_parse_setup_hdr_codebooks(vorbis_context *vc) {
    uint_fast16_t cb;
    uint8_t *tmp_vlc_bits;
    uint32_t *tmp_vlc_codes;
    GetBitContext *gb=&vc->gb;

    vc->codebook_count=get_bits(gb,8)+1;

    AV_DEBUG(" Codebooks: %d \n", vc->codebook_count);

    vc->codebooks=av_mallocz(vc->codebook_count * sizeof(vorbis_codebook));
    tmp_vlc_bits =av_mallocz(V_MAX_VLCS * sizeof(uint8_t));
    tmp_vlc_codes=av_mallocz(V_MAX_VLCS * sizeof(uint32_t));

    for(cb=0;cb<vc->codebook_count;++cb) {
        vorbis_codebook *codebook_setup=&vc->codebooks[cb];
        uint_fast8_t ordered;
        uint_fast32_t t, used_entries=0;
        uint_fast32_t entries;

        AV_DEBUG(" %d. Codebook \n", cb);

        if (get_bits(gb, 24)!=0x564342) {
            av_log(vc->avccontext, AV_LOG_ERROR, " %"PRIdFAST16". Codebook setup data corrupt. \n", cb);
            goto error;
        }

        codebook_setup->dimensions=get_bits(gb, 16);
        if (codebook_setup->dimensions>16) {
            av_log(vc->avccontext, AV_LOG_ERROR, " %"PRIdFAST16". Codebook's dimension is too large (%d). \n", cb, codebook_setup->dimensions);
            goto error;
        }
        entries=get_bits(gb, 24);
        if (entries>V_MAX_VLCS) {
            av_log(vc->avccontext, AV_LOG_ERROR, " %"PRIdFAST16". Codebook has too many entries (%"PRIdFAST32"). \n", cb, entries);
            goto error;
        }

        ordered=get_bits1(gb);

        AV_DEBUG(" codebook_dimensions %d, codebook_entries %d \n", codebook_setup->dimensions, entries);

        if (!ordered) {
            uint_fast16_t ce;
            uint_fast8_t flag;
            uint_fast8_t sparse=get_bits1(gb);

            AV_DEBUG(" not ordered \n");

            if (sparse) {
                AV_DEBUG(" sparse \n");

                used_entries=0;
                for(ce=0;ce<entries;++ce) {
                    flag=get_bits1(gb);
                    if (flag) {
                        tmp_vlc_bits[ce]=get_bits(gb, 5)+1;
                        ++used_entries;
                    }
                    else tmp_vlc_bits[ce]=0;
                }
            } else {
                AV_DEBUG(" not sparse \n");

                used_entries=entries;
                for(ce=0;ce<entries;++ce) {
                    tmp_vlc_bits[ce]=get_bits(gb, 5)+1;
                }
            }
        } else {
            uint_fast16_t current_entry=0;
            uint_fast8_t current_length=get_bits(gb, 5)+1;

            AV_DEBUG(" ordered, current length: %d \n", current_length);  //FIXME

            used_entries=entries;
            for(;current_entry<used_entries;++current_length) {
                uint_fast16_t i, number;

                AV_DEBUG(" number bits: %d ", ilog(entries - current_entry));

                number=get_bits(gb, ilog(entries - current_entry));

                AV_DEBUG(" number: %d \n", number);

                for(i=current_entry;i<number+current_entry;++i) {
                    if (i<used_entries) tmp_vlc_bits[i]=current_length;
                }

                current_entry+=number;
            }
            if (current_entry>used_entries) {
                av_log(vc->avccontext, AV_LOG_ERROR, " More codelengths than codes in codebook. \n");
                goto error;
            }
        }

        codebook_setup->lookup_type=get_bits(gb, 4);

        AV_DEBUG(" lookup type: %d : %s \n", codebook_setup->lookup_type, codebook_setup->lookup_type ? "vq" : "no lookup" );

// If the codebook is used for (inverse) VQ, calculate codevectors.

        if (codebook_setup->lookup_type==1) {
            uint_fast16_t i, j, k;
            uint_fast16_t codebook_lookup_values=ff_vorbis_nth_root(entries, codebook_setup->dimensions);
            uint_fast16_t codebook_multiplicands[codebook_lookup_values];

            float codebook_minimum_value=vorbisfloat2float(get_bits_long(gb, 32));
            float codebook_delta_value=vorbisfloat2float(get_bits_long(gb, 32));
            uint_fast8_t codebook_value_bits=get_bits(gb, 4)+1;
            uint_fast8_t codebook_sequence_p=get_bits1(gb);

            AV_DEBUG(" We expect %d numbers for building the codevectors. \n", codebook_lookup_values);
            AV_DEBUG("  delta %f minmum %f \n", codebook_delta_value, codebook_minimum_value);

            for(i=0;i<codebook_lookup_values;++i) {
                codebook_multiplicands[i]=get_bits(gb, codebook_value_bits);

                AV_DEBUG(" multiplicands*delta+minmum : %e \n", (float)codebook_multiplicands[i]*codebook_delta_value+codebook_minimum_value);
                AV_DEBUG(" multiplicand %d \n", codebook_multiplicands[i]);
            }

// Weed out unused vlcs and build codevector vector
            codebook_setup->codevectors=used_entries ? av_mallocz(used_entries*codebook_setup->dimensions * sizeof(float)) : NULL;
            for(j=0, i=0;i<entries;++i) {
                uint_fast8_t dim=codebook_setup->dimensions;

                if (tmp_vlc_bits[i]) {
                    float last=0.0;
                    uint_fast32_t lookup_offset=i;

#ifdef V_DEBUG
                    av_log(vc->avccontext, AV_LOG_INFO, "Lookup offset %d ,", i);
#endif

                    for(k=0;k<dim;++k) {
                        uint_fast32_t multiplicand_offset = lookup_offset % codebook_lookup_values;
                        codebook_setup->codevectors[j*dim+k]=codebook_multiplicands[multiplicand_offset]*codebook_delta_value+codebook_minimum_value+last;
                        if (codebook_sequence_p) {
                            last=codebook_setup->codevectors[j*dim+k];
                        }
                        lookup_offset/=codebook_lookup_values;
                    }
                    tmp_vlc_bits[j]=tmp_vlc_bits[i];

#ifdef V_DEBUG
                    av_log(vc->avccontext, AV_LOG_INFO, "real lookup offset %d, vector: ", j);
                    for(k=0;k<dim;++k) {
                        av_log(vc->avccontext, AV_LOG_INFO, " %f ", codebook_setup->codevectors[j*dim+k]);
                    }
                    av_log(vc->avccontext, AV_LOG_INFO, "\n");
#endif

                    ++j;
                }
            }
            if (j!=used_entries) {
                av_log(vc->avccontext, AV_LOG_ERROR, "Bug in codevector vector building code. \n");
                goto error;
            }
            entries=used_entries;
        }
        else if (codebook_setup->lookup_type>=2) {
            av_log(vc->avccontext, AV_LOG_ERROR, "Codebook lookup type not supported. \n");
            goto error;
        }

// Initialize VLC table
        if (ff_vorbis_len2vlc(tmp_vlc_bits, tmp_vlc_codes, entries)) {
            av_log(vc->avccontext, AV_LOG_ERROR, " Invalid code lengths while generating vlcs. \n");
            goto error;
        }
        codebook_setup->maxdepth=0;
        for(t=0;t<entries;++t)
            if (tmp_vlc_bits[t]>=codebook_setup->maxdepth) codebook_setup->maxdepth=tmp_vlc_bits[t];

        if(codebook_setup->maxdepth > 3*V_NB_BITS) codebook_setup->nb_bits=V_NB_BITS2;
        else                                       codebook_setup->nb_bits=V_NB_BITS;

        codebook_setup->maxdepth=(codebook_setup->maxdepth+codebook_setup->nb_bits-1)/codebook_setup->nb_bits;

        if (init_vlc(&codebook_setup->vlc, codebook_setup->nb_bits, entries, tmp_vlc_bits, sizeof(*tmp_vlc_bits), sizeof(*tmp_vlc_bits), tmp_vlc_codes, sizeof(*tmp_vlc_codes), sizeof(*tmp_vlc_codes), INIT_VLC_LE)) {
            av_log(vc->avccontext, AV_LOG_ERROR, " Error generating vlc tables. \n");
            goto error;
        }
    }

    av_free(tmp_vlc_bits);
    av_free(tmp_vlc_codes);
    return 0;

// Error:
error:
    av_free(tmp_vlc_bits);
    av_free(tmp_vlc_codes);
    return 1;
}

// Process time domain transforms part (unused in Vorbis I)

static int vorbis_parse_setup_hdr_tdtransforms(vorbis_context *vc) {
    GetBitContext *gb=&vc->gb;
    uint_fast8_t i;
    uint_fast8_t vorbis_time_count=get_bits(gb, 6)+1;

    for(i=0;i<vorbis_time_count;++i) {
        uint_fast16_t vorbis_tdtransform=get_bits(gb, 16);

        AV_DEBUG(" Vorbis time domain transform %d: %d \n", vorbis_time_count, vorbis_tdtransform);

        if (vorbis_tdtransform) {
            av_log(vc->avccontext, AV_LOG_ERROR, "Vorbis time domain transform data nonzero. \n");
            return 1;
        }
    }
    return 0;
}

// Process floors part

static uint_fast8_t vorbis_floor0_decode(vorbis_context *vc,
                                         vorbis_floor_data *vfu, float *vec);
static void create_map( vorbis_context * vc, uint_fast8_t floor_number );
static uint_fast8_t vorbis_floor1_decode(vorbis_context *vc,
                                         vorbis_floor_data *vfu, float *vec);
static int vorbis_parse_setup_hdr_floors(vorbis_context *vc) {
    GetBitContext *gb=&vc->gb;
    uint_fast16_t i,j,k;

    vc->floor_count=get_bits(gb, 6)+1;

    vc->floors=av_mallocz(vc->floor_count * sizeof(vorbis_floor));

    for (i=0;i<vc->floor_count;++i) {
        vorbis_floor *floor_setup=&vc->floors[i];

        floor_setup->floor_type=get_bits(gb, 16);

        AV_DEBUG(" %d. floor type %d \n", i, floor_setup->floor_type);

        if (floor_setup->floor_type==1) {
            uint_fast8_t maximum_class=0;
            uint_fast8_t rangebits;
            uint_fast16_t floor1_values=2;

            floor_setup->decode=vorbis_floor1_decode;

            floor_setup->data.t1.partitions=get_bits(gb, 5);

            AV_DEBUG(" %d.floor: %d partitions \n", i, floor_setup->data.t1.partitions);

            for(j=0;j<floor_setup->data.t1.partitions;++j) {
                floor_setup->data.t1.partition_class[j]=get_bits(gb, 4);
                if (floor_setup->data.t1.partition_class[j]>maximum_class) maximum_class=floor_setup->data.t1.partition_class[j];

                AV_DEBUG(" %d. floor %d partition class %d \n", i, j, floor_setup->data.t1.partition_class[j]);

            }

            AV_DEBUG(" maximum class %d \n", maximum_class);

            floor_setup->data.t1.maximum_class=maximum_class;

            for(j=0;j<=maximum_class;++j) {
                floor_setup->data.t1.class_dimensions[j]=get_bits(gb, 3)+1;
                floor_setup->data.t1.class_subclasses[j]=get_bits(gb, 2);

                AV_DEBUG(" %d floor %d class dim: %d subclasses %d \n", i, j, floor_setup->data.t1.class_dimensions[j], floor_setup->data.t1.class_subclasses[j]);

                if (floor_setup->data.t1.class_subclasses[j]) {
                    floor_setup->data.t1.class_masterbook[j]=get_bits(gb, 8);

                    AV_DEBUG("   masterbook: %d \n", floor_setup->data.t1.class_masterbook[j]);
                }

                for(k=0;k<(1<<floor_setup->data.t1.class_subclasses[j]);++k) {
                    floor_setup->data.t1.subclass_books[j][k]=(int16_t)get_bits(gb, 8)-1;

                    AV_DEBUG("    book %d. : %d \n", k, floor_setup->data.t1.subclass_books[j][k]);
                }
            }

            floor_setup->data.t1.multiplier=get_bits(gb, 2)+1;
            floor_setup->data.t1.x_list_dim=2;

            for(j=0;j<floor_setup->data.t1.partitions;++j) {
                floor_setup->data.t1.x_list_dim+=floor_setup->data.t1.class_dimensions[floor_setup->data.t1.partition_class[j]];
            }

            floor_setup->data.t1.list=av_mallocz(floor_setup->data.t1.x_list_dim * sizeof(vorbis_floor1_entry));


            rangebits=get_bits(gb, 4);
            floor_setup->data.t1.list[0].x = 0;
            floor_setup->data.t1.list[1].x = (1<<rangebits);

            for(j=0;j<floor_setup->data.t1.partitions;++j) {
                for(k=0;k<floor_setup->data.t1.class_dimensions[floor_setup->data.t1.partition_class[j]];++k,++floor1_values) {
                    floor_setup->data.t1.list[floor1_values].x=get_bits(gb, rangebits);

                    AV_DEBUG(" %d. floor1 Y coord. %d \n", floor1_values, floor_setup->data.t1.list[floor1_values].x);
                }
            }

// Precalculate order of x coordinates - needed for decode
            ff_vorbis_ready_floor1_list(floor_setup->data.t1.list, floor_setup->data.t1.x_list_dim);
        }
        else if(floor_setup->floor_type==0) {
            uint_fast8_t max_codebook_dim=0;

            floor_setup->decode=vorbis_floor0_decode;

            floor_setup->data.t0.order=get_bits(gb, 8);
            floor_setup->data.t0.rate=get_bits(gb, 16);
            floor_setup->data.t0.bark_map_size=get_bits(gb, 16);
            floor_setup->data.t0.amplitude_bits=get_bits(gb, 6);
            /* zero would result in a div by zero later *
             * 2^0 - 1 == 0                             */
            if (floor_setup->data.t0.amplitude_bits == 0) {
              av_log(vc->avccontext, AV_LOG_ERROR,
                     "Floor 0 amplitude bits is 0.\n");
              return 1;
            }
            floor_setup->data.t0.amplitude_offset=get_bits(gb, 8);
            floor_setup->data.t0.num_books=get_bits(gb, 4)+1;

            /* allocate mem for booklist */
            floor_setup->data.t0.book_list=
                av_malloc(floor_setup->data.t0.num_books);
            if(!floor_setup->data.t0.book_list) { return 1; }
            /* read book indexes */
            {
                int idx;
                uint_fast8_t book_idx;
                for (idx=0;idx<floor_setup->data.t0.num_books;++idx) {
                    book_idx=get_bits(gb, 8);
                    floor_setup->data.t0.book_list[idx]=book_idx;
                    if (vc->codebooks[book_idx].dimensions > max_codebook_dim)
                        max_codebook_dim=vc->codebooks[book_idx].dimensions;

                    if (floor_setup->data.t0.book_list[idx]>vc->codebook_count)
                        return 1;
                }
            }

            create_map( vc, i );

            /* allocate mem for lsp coefficients */
            {
                /* codebook dim is for padding if codebook dim doesn't *
                 * divide order+1 then we need to read more data       */
                floor_setup->data.t0.lsp=
                    av_malloc((floor_setup->data.t0.order+1 + max_codebook_dim)
                              * sizeof(float));
                if(!floor_setup->data.t0.lsp) { return 1; }
            }

#ifdef V_DEBUG /* debug output parsed headers */
            AV_DEBUG("floor0 order: %u\n", floor_setup->data.t0.order);
            AV_DEBUG("floor0 rate: %u\n", floor_setup->data.t0.rate);
            AV_DEBUG("floor0 bark map size: %u\n",
              floor_setup->data.t0.bark_map_size);
            AV_DEBUG("floor0 amplitude bits: %u\n",
              floor_setup->data.t0.amplitude_bits);
            AV_DEBUG("floor0 amplitude offset: %u\n",
              floor_setup->data.t0.amplitude_offset);
            AV_DEBUG("floor0 number of books: %u\n",
              floor_setup->data.t0.num_books);
            AV_DEBUG("floor0 book list pointer: %p\n",
              floor_setup->data.t0.book_list);
            {
              int idx;
              for (idx=0;idx<floor_setup->data.t0.num_books;++idx) {
                AV_DEBUG( "  Book %d: %u\n",
                  idx+1,
                  floor_setup->data.t0.book_list[idx] );
              }
            }
#endif
        }
        else {
            av_log(vc->avccontext, AV_LOG_ERROR, "Invalid floor type!\n");
            return 1;
        }
    }
    return 0;
}

// Process residues part

static int vorbis_parse_setup_hdr_residues(vorbis_context *vc){
    GetBitContext *gb=&vc->gb;
    uint_fast8_t i, j, k;

    vc->residue_count=get_bits(gb, 6)+1;
    vc->residues=av_mallocz(vc->residue_count * sizeof(vorbis_residue));

    AV_DEBUG(" There are %d residues. \n", vc->residue_count);

    for(i=0;i<vc->residue_count;++i) {
        vorbis_residue *res_setup=&vc->residues[i];
        uint_fast8_t cascade[64];
        uint_fast8_t high_bits;
        uint_fast8_t low_bits;

        res_setup->type=get_bits(gb, 16);

        AV_DEBUG(" %d. residue type %d \n", i, res_setup->type);

        res_setup->begin=get_bits(gb, 24);
        res_setup->end=get_bits(gb, 24);
        res_setup->partition_size=get_bits(gb, 24)+1;
        res_setup->classifications=get_bits(gb, 6)+1;
        res_setup->classbook=get_bits(gb, 8);

        AV_DEBUG("    begin %d end %d part.size %d classif.s %d classbook %d \n", res_setup->begin, res_setup->end, res_setup->partition_size,
          res_setup->classifications, res_setup->classbook);

        for(j=0;j<res_setup->classifications;++j) {
            high_bits=0;
            low_bits=get_bits(gb, 3);
            if (get_bits1(gb)) {
                high_bits=get_bits(gb, 5);
            }
            cascade[j]=(high_bits<<3)+low_bits;

            AV_DEBUG("     %d class casscade depth: %d \n", j, ilog(cascade[j]));
        }

        res_setup->maxpass=0;
        for(j=0;j<res_setup->classifications;++j) {
            for(k=0;k<8;++k) {
                if (cascade[j]&(1<<k)) {
                        res_setup->books[j][k]=get_bits(gb, 8);

                    AV_DEBUG("     %d class casscade depth %d book: %d \n", j, k, res_setup->books[j][k]);

                    if (k>res_setup->maxpass) {
                        res_setup->maxpass=k;
                    }
                } else {
                    res_setup->books[j][k]=-1;
                }
            }
        }
    }
    return 0;
}

// Process mappings part

static int vorbis_parse_setup_hdr_mappings(vorbis_context *vc) {
    GetBitContext *gb=&vc->gb;
    uint_fast8_t i, j;

    vc->mapping_count=get_bits(gb, 6)+1;
    vc->mappings=av_mallocz(vc->mapping_count * sizeof(vorbis_mapping));

    AV_DEBUG(" There are %d mappings. \n", vc->mapping_count);

    for(i=0;i<vc->mapping_count;++i) {
        vorbis_mapping *mapping_setup=&vc->mappings[i];

        if (get_bits(gb, 16)) {
            av_log(vc->avccontext, AV_LOG_ERROR, "Other mappings than type 0 are not compliant with the Vorbis I specification. \n");
            return 1;
        }
        if (get_bits1(gb)) {
            mapping_setup->submaps=get_bits(gb, 4)+1;
        } else {
            mapping_setup->submaps=1;
        }

        if (get_bits1(gb)) {
            mapping_setup->coupling_steps=get_bits(gb, 8)+1;
            mapping_setup->magnitude=av_mallocz(mapping_setup->coupling_steps * sizeof(uint_fast8_t));
            mapping_setup->angle    =av_mallocz(mapping_setup->coupling_steps * sizeof(uint_fast8_t));
            for(j=0;j<mapping_setup->coupling_steps;++j) {
                mapping_setup->magnitude[j]=get_bits(gb, ilog(vc->audio_channels-1));
                mapping_setup->angle[j]=get_bits(gb, ilog(vc->audio_channels-1));
                // FIXME: sanity checks
            }
        } else {
            mapping_setup->coupling_steps=0;
        }

        AV_DEBUG("   %d mapping coupling steps: %d \n", i, mapping_setup->coupling_steps);

        if(get_bits(gb, 2)) {
            av_log(vc->avccontext, AV_LOG_ERROR, "%d. mapping setup data invalid. \n", i);
            return 1; // following spec.
        }

        if (mapping_setup->submaps>1) {
            mapping_setup->mux=av_mallocz(vc->audio_channels * sizeof(uint_fast8_t));
            for(j=0;j<vc->audio_channels;++j) {
                mapping_setup->mux[j]=get_bits(gb, 4);
            }
        }

        for(j=0;j<mapping_setup->submaps;++j) {
            skip_bits(gb, 8); // FIXME check?
            mapping_setup->submap_floor[j]=get_bits(gb, 8);
            mapping_setup->submap_residue[j]=get_bits(gb, 8);

            AV_DEBUG("   %d mapping %d submap : floor %d, residue %d \n", i, j, mapping_setup->submap_floor[j], mapping_setup->submap_residue[j]);
        }
    }
    return 0;
}

// Process modes part

static void create_map( vorbis_context * vc, uint_fast8_t floor_number )
{
    vorbis_floor * floors=vc->floors;
    vorbis_floor0 * vf;
    int idx;
    int_fast8_t blockflag;
    int_fast32_t * map;
    int_fast32_t n; //TODO: could theoretically be smaller?

    for (blockflag=0;blockflag<2;++blockflag)
    {
    n=vc->blocksize[blockflag]/2;
    floors[floor_number].data.t0.map[blockflag]=
        av_malloc((n+1) * sizeof(int_fast32_t)); // n+sentinel

    map=floors[floor_number].data.t0.map[blockflag];
    vf=&floors[floor_number].data.t0;

    for (idx=0; idx<n;++idx) {
        map[idx]=floor( BARK((vf->rate*idx)/(2.0f*n)) *
                              ((vf->bark_map_size)/
                               BARK(vf->rate/2.0f )) );
        if (vf->bark_map_size-1 < map[idx]) {
            map[idx]=vf->bark_map_size-1;
        }
    }
    map[n]=-1;
    vf->map_size[blockflag]=n;
    }

#   ifdef V_DEBUG
    for(idx=0;idx<=n;++idx) {
        AV_DEBUG("floor0 map: map at pos %d is %d\n",
                 idx, map[idx]);
    }
#   endif
}

static int vorbis_parse_setup_hdr_modes(vorbis_context *vc) {
    GetBitContext *gb=&vc->gb;
    uint_fast8_t i;

    vc->mode_count=get_bits(gb, 6)+1;
    vc->modes=av_mallocz(vc->mode_count * sizeof(vorbis_mode));

    AV_DEBUG(" There are %d modes.\n", vc->mode_count);

    for(i=0;i<vc->mode_count;++i) {
        vorbis_mode *mode_setup=&vc->modes[i];

        mode_setup->blockflag=get_bits1(gb);
        mode_setup->windowtype=get_bits(gb, 16); //FIXME check
        mode_setup->transformtype=get_bits(gb, 16); //FIXME check
        mode_setup->mapping=get_bits(gb, 8); //FIXME check

        AV_DEBUG(" %d mode: blockflag %d, windowtype %d, transformtype %d, mapping %d \n", i, mode_setup->blockflag, mode_setup->windowtype, mode_setup->transformtype, mode_setup->mapping);
    }
    return 0;
}

// Process the whole setup header using the functions above

static int vorbis_parse_setup_hdr(vorbis_context *vc) {
    GetBitContext *gb=&vc->gb;

    if ((get_bits(gb, 8)!='v') || (get_bits(gb, 8)!='o') ||
    (get_bits(gb, 8)!='r') || (get_bits(gb, 8)!='b') ||
    (get_bits(gb, 8)!='i') || (get_bits(gb, 8)!='s')) {
        av_log(vc->avccontext, AV_LOG_ERROR, " Vorbis setup header packet corrupt (no vorbis signature). \n");
        return 1;
    }

    if (vorbis_parse_setup_hdr_codebooks(vc)) {
        av_log(vc->avccontext, AV_LOG_ERROR, " Vorbis setup header packet corrupt (codebooks). \n");
        return 2;
    }
    if (vorbis_parse_setup_hdr_tdtransforms(vc)) {
        av_log(vc->avccontext, AV_LOG_ERROR, " Vorbis setup header packet corrupt (time domain transforms). \n");
        return 3;
    }
    if (vorbis_parse_setup_hdr_floors(vc)) {
        av_log(vc->avccontext, AV_LOG_ERROR, " Vorbis setup header packet corrupt (floors). \n");
        return 4;
    }
    if (vorbis_parse_setup_hdr_residues(vc)) {
        av_log(vc->avccontext, AV_LOG_ERROR, " Vorbis setup header packet corrupt (residues). \n");
        return 5;
    }
    if (vorbis_parse_setup_hdr_mappings(vc)) {
        av_log(vc->avccontext, AV_LOG_ERROR, " Vorbis setup header packet corrupt (mappings). \n");
        return 6;
    }
    if (vorbis_parse_setup_hdr_modes(vc)) {
        av_log(vc->avccontext, AV_LOG_ERROR, " Vorbis setup header packet corrupt (modes). \n");
        return 7;
    }
    if (!get_bits1(gb)) {
        av_log(vc->avccontext, AV_LOG_ERROR, " Vorbis setup header packet corrupt (framing flag). \n");
        return 8; // framing flag bit unset error
    }

    return 0;
}

// Process the identification header

static int vorbis_parse_id_hdr(vorbis_context *vc){
    GetBitContext *gb=&vc->gb;
    uint_fast8_t bl0, bl1;

    if ((get_bits(gb, 8)!='v') || (get_bits(gb, 8)!='o') ||
    (get_bits(gb, 8)!='r') || (get_bits(gb, 8)!='b') ||
    (get_bits(gb, 8)!='i') || (get_bits(gb, 8)!='s')) {
        av_log(vc->avccontext, AV_LOG_ERROR, " Vorbis id header packet corrupt (no vorbis signature). \n");
        return 1;
    }

    vc->version=get_bits_long(gb, 32);    //FIXME check 0
    vc->audio_channels=get_bits(gb, 8);   //FIXME check >0
    vc->audio_samplerate=get_bits_long(gb, 32);   //FIXME check >0
    vc->bitrate_maximum=get_bits_long(gb, 32);
    vc->bitrate_nominal=get_bits_long(gb, 32);
    vc->bitrate_minimum=get_bits_long(gb, 32);
    bl0=get_bits(gb, 4);
    bl1=get_bits(gb, 4);
    vc->blocksize[0]=(1<<bl0);
    vc->blocksize[1]=(1<<bl1);
    if (bl0>13 || bl0<6 || bl1>13 || bl1<6 || bl1<bl0) {
        av_log(vc->avccontext, AV_LOG_ERROR, " Vorbis id header packet corrupt (illegal blocksize). \n");
        return 3;
    }
    // output format int16
    if (vc->blocksize[1]/2 * vc->audio_channels * 2 >
                                             AVCODEC_MAX_AUDIO_FRAME_SIZE) {
        av_log(vc->avccontext, AV_LOG_ERROR, "Vorbis channel count makes "
               "output packets too large.\n");
        return 4;
    }
    vc->win[0]=ff_vorbis_vwin[bl0-6];
    vc->win[1]=ff_vorbis_vwin[bl1-6];

    if(vc->exp_bias){
        int i, j;
        for(j=0; j<2; j++){
            float *win = av_malloc(vc->blocksize[j]/2 * sizeof(float));
            for(i=0; i<vc->blocksize[j]/2; i++)
                win[i] = vc->win[j][i] * (1<<15);
            vc->win[j] = win;
        }
    }

    if ((get_bits1(gb)) == 0) {
        av_log(vc->avccontext, AV_LOG_ERROR, " Vorbis id header packet corrupt (framing flag not set). \n");
        return 2;
    }

    vc->channel_residues= av_malloc((vc->blocksize[1]/2)*vc->audio_channels * sizeof(float));
    vc->channel_floors  = av_malloc((vc->blocksize[1]/2)*vc->audio_channels * sizeof(float));
    vc->saved           = av_mallocz((vc->blocksize[1]/4)*vc->audio_channels * sizeof(float));
    vc->previous_window=0;

    ff_mdct_init(&vc->mdct[0], bl0, 1);
    ff_mdct_init(&vc->mdct[1], bl1, 1);

    AV_DEBUG(" vorbis version %d \n audio_channels %d \n audio_samplerate %d \n bitrate_max %d \n bitrate_nom %d \n bitrate_min %d \n blk_0 %d blk_1 %d \n ",
            vc->version, vc->audio_channels, vc->audio_samplerate, vc->bitrate_maximum, vc->bitrate_nominal, vc->bitrate_minimum, vc->blocksize[0], vc->blocksize[1]);

/*
    BLK=vc->blocksize[0];
    for(i=0;i<BLK/2;++i) {
        vc->win[0][i]=sin(0.5*3.14159265358*(sin(((float)i+0.5)/(float)BLK*3.14159265358))*(sin(((float)i+0.5)/(float)BLK*3.14159265358)));
    }
*/

    return 0;
}

// Process the extradata using the functions above (identification header, setup header)

static av_cold int vorbis_decode_init(AVCodecContext *avccontext) {
    vorbis_context *vc = avccontext->priv_data ;
    uint8_t *headers = avccontext->extradata;
    int headers_len=avccontext->extradata_size;
    uint8_t *header_start[3];
    int header_len[3];
    GetBitContext *gb = &(vc->gb);
    int hdr_type;

    vc->avccontext = avccontext;
    dsputil_init(&vc->dsp, avccontext);

    if(vc->dsp.float_to_int16_interleave == ff_float_to_int16_interleave_c) {
        vc->add_bias = 385;
        vc->exp_bias = 0;
    } else {
        vc->add_bias = 0;
        vc->exp_bias = 15<<23;
    }

    if (!headers_len) {
        av_log(avccontext, AV_LOG_ERROR, "Extradata corrupt.\n");
        return -1;
    }

    if (ff_split_xiph_headers(headers, headers_len, 30, header_start, header_len) < 0) {
        av_log(avccontext, AV_LOG_ERROR, "Extradata corrupt.\n");
        return -1;
    }

    init_get_bits(gb, header_start[0], header_len[0]*8);
    hdr_type=get_bits(gb, 8);
    if (hdr_type!=1) {
        av_log(avccontext, AV_LOG_ERROR, "First header is not the id header.\n");
        return -1;
    }
    if (vorbis_parse_id_hdr(vc)) {
        av_log(avccontext, AV_LOG_ERROR, "Id header corrupt.\n");
        vorbis_free(vc);
        return -1;
    }

    init_get_bits(gb, header_start[2], header_len[2]*8);
    hdr_type=get_bits(gb, 8);
    if (hdr_type!=5) {
        av_log(avccontext, AV_LOG_ERROR, "Third header is not the setup header.\n");
        vorbis_free(vc);
        return -1;
    }
    if (vorbis_parse_setup_hdr(vc)) {
        av_log(avccontext, AV_LOG_ERROR, "Setup header corrupt.\n");
        vorbis_free(vc);
        return -1;
    }

    avccontext->channels = vc->audio_channels;
    avccontext->sample_rate = vc->audio_samplerate;
    avccontext->frame_size  = FFMIN(vc->blocksize[0], vc->blocksize[1])>>2;
    avccontext->sample_fmt = SAMPLE_FMT_S16;

    return 0 ;
}

// Decode audiopackets -------------------------------------------------

// Read and decode floor

static uint_fast8_t vorbis_floor0_decode(vorbis_context *vc,
                                         vorbis_floor_data *vfu, float *vec) {
    vorbis_floor0 * vf=&vfu->t0;
    float * lsp=vf->lsp;
    uint_fast32_t amplitude;
    uint_fast32_t book_idx;
    uint_fast8_t blockflag=vc->modes[vc->mode_number].blockflag;

    amplitude=get_bits(&vc->gb, vf->amplitude_bits);
    if (amplitude>0) {
        float last = 0;
        uint_fast16_t lsp_len = 0;
        uint_fast16_t idx;
        vorbis_codebook codebook;

        book_idx=get_bits(&vc->gb, ilog(vf->num_books));
        if ( book_idx >= vf->num_books ) {
            av_log( vc->avccontext, AV_LOG_ERROR,
                    "floor0 dec: booknumber too high!\n" );
            book_idx= 0;
            //FIXME: look above
        }
        AV_DEBUG( "floor0 dec: booknumber: %u\n", book_idx );
        codebook=vc->codebooks[vf->book_list[book_idx]];

        while (lsp_len<vf->order) {
            int vec_off;

            AV_DEBUG( "floor0 dec: book dimension: %d\n", codebook.dimensions );
            AV_DEBUG( "floor0 dec: maximum depth: %d\n", codebook.maxdepth );
            /* read temp vector */
            vec_off=get_vlc2(&vc->gb,
                             codebook.vlc.table,
                             codebook.nb_bits,
                             codebook.maxdepth ) *
                             codebook.dimensions;
            AV_DEBUG( "floor0 dec: vector offset: %d\n", vec_off );
            /* copy each vector component and add last to it */
            for (idx=0; idx<codebook.dimensions; ++idx) {
                lsp[lsp_len+idx]=codebook.codevectors[vec_off+idx]+last;
            }
            last=lsp[lsp_len+idx-1]; /* set last to last vector component */

            lsp_len += codebook.dimensions;
        }
#ifdef V_DEBUG
        /* DEBUG: output lsp coeffs */
        {
            int idx;
            for ( idx = 0; idx < lsp_len; ++idx )
                AV_DEBUG("floor0 dec: coeff at %d is %f\n", idx, lsp[idx] );
        }
#endif

        /* synthesize floor output vector */
        {
            int i;
            int order=vf->order;
            float wstep=M_PI/vf->bark_map_size;

            for(i=0;i<order;i++) { lsp[i]=2.0f*cos(lsp[i]); }

            AV_DEBUG("floor0 synth: map_size=%d; m=%d; wstep=%f\n",
                     vf->map_size, order, wstep);

            i=0;
            while(i<vf->map_size[blockflag]) {
                int j, iter_cond=vf->map[blockflag][i];
                float p=0.5f;
                float q=0.5f;
                float two_cos_w=2.0f*cos(wstep*iter_cond); // needed all times

                /* similar part for the q and p products */
                for(j=0;j<order;j+=2) {
                    q *= lsp[j]  -two_cos_w;
                    p *= lsp[j+1]-two_cos_w;
                }
                if(j==order) { // even order
                    p *= p*(2.0f-two_cos_w);
                    q *= q*(2.0f+two_cos_w);
                }
                else { // odd order
                    q *= two_cos_w-lsp[j]; // one more time for q

                    /* final step and square */
                    p *= p*(4.f-two_cos_w*two_cos_w);
                    q *= q;
                }

                /* calculate linear floor value */
                {
                    q=exp( (
                             ( (amplitude*vf->amplitude_offset)/
                               (((1<<vf->amplitude_bits)-1) * sqrt(p+q)) )
                             - vf->amplitude_offset ) * .11512925f
                         );
                }

                /* fill vector */
                do { vec[i]=q; ++i; }while(vf->map[blockflag][i]==iter_cond);
            }
        }
    }
    else {
        /* this channel is unused */
        return 1;
    }

    AV_DEBUG(" Floor0 decoded\n");

    return 0;
}

static uint_fast8_t vorbis_floor1_decode(vorbis_context *vc, vorbis_floor_data *vfu, float *vec) {
    vorbis_floor1 * vf=&vfu->t1;
    GetBitContext *gb=&vc->gb;
    uint_fast16_t range_v[4]={ 256, 128, 86, 64 };
    uint_fast16_t range=range_v[vf->multiplier-1];
    uint_fast16_t floor1_Y[vf->x_list_dim];
    uint_fast16_t floor1_Y_final[vf->x_list_dim];
    int floor1_flag[vf->x_list_dim];
    uint_fast8_t class_;
    uint_fast8_t cdim;
    uint_fast8_t cbits;
    uint_fast8_t csub;
    uint_fast8_t cval;
    int_fast16_t book;
    uint_fast16_t offset;
    uint_fast16_t i,j;
    /*u*/int_fast16_t adx, ady, off, predicted; // WTF ? dy/adx= (unsigned)dy/adx ?
    int_fast16_t dy, err;


    if (!get_bits1(gb)) return 1; // silence

// Read values (or differences) for the floor's points

    floor1_Y[0]=get_bits(gb, ilog(range-1));
    floor1_Y[1]=get_bits(gb, ilog(range-1));

    AV_DEBUG("floor 0 Y %d floor 1 Y %d \n", floor1_Y[0], floor1_Y[1]);

    offset=2;
    for(i=0;i<vf->partitions;++i) {
        class_=vf->partition_class[i];
        cdim=vf->class_dimensions[class_];
        cbits=vf->class_subclasses[class_];
        csub=(1<<cbits)-1;
        cval=0;

        AV_DEBUG("Cbits %d \n", cbits);

        if (cbits) { // this reads all subclasses for this partition's class
            cval=get_vlc2(gb, vc->codebooks[vf->class_masterbook[class_]].vlc.table,
            vc->codebooks[vf->class_masterbook[class_]].nb_bits, 3);
        }

        for(j=0;j<cdim;++j) {
            book=vf->subclass_books[class_][cval & csub];

            AV_DEBUG("book %d Cbits %d cval %d  bits:%d \n", book, cbits, cval, get_bits_count(gb));

            cval=cval>>cbits;
            if (book>-1) {
                floor1_Y[offset+j]=get_vlc2(gb, vc->codebooks[book].vlc.table,
                vc->codebooks[book].nb_bits, 3);
            } else {
                floor1_Y[offset+j]=0;
            }

            AV_DEBUG(" floor(%d) = %d \n", vf->list[offset+j].x, floor1_Y[offset+j]);
        }
        offset+=cdim;
    }

// Amplitude calculation from the differences

    floor1_flag[0]=1;
    floor1_flag[1]=1;
    floor1_Y_final[0]=floor1_Y[0];
    floor1_Y_final[1]=floor1_Y[1];

    for(i=2;i<vf->x_list_dim;++i) {
        uint_fast16_t val, highroom, lowroom, room;
        uint_fast16_t high_neigh_offs;
        uint_fast16_t low_neigh_offs;

        low_neigh_offs=vf->list[i].low;
        high_neigh_offs=vf->list[i].high;
        dy=floor1_Y_final[high_neigh_offs]-floor1_Y_final[low_neigh_offs];  // render_point begin
        adx=vf->list[high_neigh_offs].x-vf->list[low_neigh_offs].x;
        ady= FFABS(dy);
        err=ady*(vf->list[i].x-vf->list[low_neigh_offs].x);
        off=(int16_t)err/(int16_t)adx;
        if (dy<0) {
            predicted=floor1_Y_final[low_neigh_offs]-off;
        } else {
            predicted=floor1_Y_final[low_neigh_offs]+off;
        } // render_point end

        val=floor1_Y[i];
        highroom=range-predicted;
        lowroom=predicted;
        if (highroom < lowroom) {
            room=highroom*2;
        } else {
            room=lowroom*2;   // SPEC mispelling
        }
        if (val) {
            floor1_flag[low_neigh_offs]=1;
            floor1_flag[high_neigh_offs]=1;
            floor1_flag[i]=1;
            if (val>=room) {
                if (highroom > lowroom) {
                    floor1_Y_final[i]=val-lowroom+predicted;
                } else {
                    floor1_Y_final[i]=predicted-val+highroom-1;
                }
            } else {
                if (val & 1) {
                    floor1_Y_final[i]=predicted-(val+1)/2;
                } else {
                    floor1_Y_final[i]=predicted+val/2;
                }
            }
        } else {
            floor1_flag[i]=0;
            floor1_Y_final[i]=predicted;
        }

        AV_DEBUG(" Decoded floor(%d) = %d / val %d \n", vf->list[i].x, floor1_Y_final[i], val);
    }

// Curve synth - connect the calculated dots and convert from dB scale FIXME optimize ?

    ff_vorbis_floor1_render_list(vf->list, vf->x_list_dim, floor1_Y_final, floor1_flag, vf->multiplier, vec, vf->list[1].x);

    AV_DEBUG(" Floor decoded\n");

    return 0;
}

// Read and decode residue

static av_always_inline int vorbis_residue_decode_internal(vorbis_context *vc, vorbis_residue *vr, uint_fast8_t ch, uint_fast8_t *do_not_decode, float *vec, uint_fast16_t vlen, int vr_type) {
    GetBitContext *gb=&vc->gb;
    uint_fast8_t c_p_c=vc->codebooks[vr->classbook].dimensions;
    uint_fast16_t n_to_read=vr->end-vr->begin;
    uint_fast16_t ptns_to_read=n_to_read/vr->partition_size;
    uint_fast8_t classifs[ptns_to_read*vc->audio_channels];
    uint_fast8_t pass;
    uint_fast8_t ch_used;
    uint_fast8_t i,j,l;
    uint_fast16_t k;

    if (vr_type==2) {
        for(j=1;j<ch;++j) {
                do_not_decode[0]&=do_not_decode[j];  // FIXME - clobbering input
        }
        if (do_not_decode[0]) return 0;
        ch_used=1;
    } else {
        ch_used=ch;
    }

    AV_DEBUG(" residue type 0/1/2 decode begin, ch: %d  cpc %d  \n", ch, c_p_c);

    for(pass=0;pass<=vr->maxpass;++pass) { // FIXME OPTIMIZE?
        uint_fast16_t voffset;
        uint_fast16_t partition_count;
        uint_fast16_t j_times_ptns_to_read;

        voffset=vr->begin;
        for(partition_count=0;partition_count<ptns_to_read;) {  // SPEC        error
            if (!pass) {
                uint_fast32_t inverse_class = ff_inverse[vr->classifications];
                for(j_times_ptns_to_read=0, j=0;j<ch_used;++j) {
                    if (!do_not_decode[j]) {
                        uint_fast32_t temp=get_vlc2(gb, vc->codebooks[vr->classbook].vlc.table,
                        vc->codebooks[vr->classbook].nb_bits, 3);

                        AV_DEBUG("Classword: %d \n", temp);

                        assert(vr->classifications > 1 && temp<=65536); //needed for inverse[]
                        for(i=0;i<c_p_c;++i) {
                            uint_fast32_t temp2;

                            temp2=(((uint_fast64_t)temp) * inverse_class)>>32;
                            if (partition_count+c_p_c-1-i < ptns_to_read) {
                                classifs[j_times_ptns_to_read+partition_count+c_p_c-1-i]=temp-temp2*vr->classifications;
                            }
                            temp=temp2;
                        }
                    }
                    j_times_ptns_to_read+=ptns_to_read;
                }
            }
            for(i=0;(i<c_p_c) && (partition_count<ptns_to_read);++i) {
                for(j_times_ptns_to_read=0, j=0;j<ch_used;++j) {
                    uint_fast16_t voffs;

                    if (!do_not_decode[j]) {
                        uint_fast8_t vqclass=classifs[j_times_ptns_to_read+partition_count];
                        int_fast16_t vqbook=vr->books[vqclass][pass];

                        if (vqbook>=0 && vc->codebooks[vqbook].codevectors) {
                            uint_fast16_t coffs;
                            unsigned dim= vc->codebooks[vqbook].dimensions; // not uint_fast8_t: 64bit is slower here on amd64
                            uint_fast16_t step= dim==1 ? vr->partition_size
                                              : FASTDIV(vr->partition_size, dim);
                            vorbis_codebook codebook= vc->codebooks[vqbook];

                            if (vr_type==0) {

                                voffs=voffset+j*vlen;
                                for(k=0;k<step;++k) {
                                    coffs=get_vlc2(gb, codebook.vlc.table, codebook.nb_bits, 3) * dim;
                                    for(l=0;l<dim;++l) {
                                        vec[voffs+k+l*step]+=codebook.codevectors[coffs+l];  // FPMATH
                                    }
                                }
                            }
                            else if (vr_type==1) {
                                voffs=voffset+j*vlen;
                                for(k=0;k<step;++k) {
                                    coffs=get_vlc2(gb, codebook.vlc.table, codebook.nb_bits, 3) * dim;
                                    for(l=0;l<dim;++l, ++voffs) {
                                        vec[voffs]+=codebook.codevectors[coffs+l];  // FPMATH

                                        AV_DEBUG(" pass %d offs: %d curr: %f change: %f cv offs.: %d  \n", pass, voffs, vec[voffs], codebook.codevectors[coffs+l], coffs);
                                    }
                                }
                            }
                            else if (vr_type==2 && ch==2 && (voffset&1)==0 && (dim&1)==0) { // most frequent case optimized
                                voffs=voffset>>1;

                                if(dim==2) {
                                    for(k=0;k<step;++k) {
                                        coffs=get_vlc2(gb, codebook.vlc.table, codebook.nb_bits, 3) * 2;
                                        vec[voffs+k     ]+=codebook.codevectors[coffs  ];  // FPMATH
                                        vec[voffs+k+vlen]+=codebook.codevectors[coffs+1];  // FPMATH
                                    }
                                } else if(dim==4) {
                                    for(k=0;k<step;++k, voffs+=2) {
                                        coffs=get_vlc2(gb, codebook.vlc.table, codebook.nb_bits, 3) * 4;
                                        vec[voffs       ]+=codebook.codevectors[coffs  ];  // FPMATH
                                        vec[voffs+1     ]+=codebook.codevectors[coffs+2];  // FPMATH
                                        vec[voffs+vlen  ]+=codebook.codevectors[coffs+1];  // FPMATH
                                        vec[voffs+vlen+1]+=codebook.codevectors[coffs+3];  // FPMATH
                                    }
                                } else
                                for(k=0;k<step;++k) {
                                    coffs=get_vlc2(gb, codebook.vlc.table, codebook.nb_bits, 3) * dim;
                                    for(l=0;l<dim;l+=2, voffs++) {
                                        vec[voffs     ]+=codebook.codevectors[coffs+l  ];  // FPMATH
                                        vec[voffs+vlen]+=codebook.codevectors[coffs+l+1];  // FPMATH

                                        AV_DEBUG(" pass %d offs: %d curr: %f change: %f cv offs.: %d+%d  \n", pass, voffset/ch+(voffs%ch)*vlen, vec[voffset/ch+(voffs%ch)*vlen], codebook.codevectors[coffs+l], coffs, l);
                                    }
                                }

                            }
                            else if (vr_type==2) {
                                voffs=voffset;

                                for(k=0;k<step;++k) {
                                    coffs=get_vlc2(gb, codebook.vlc.table, codebook.nb_bits, 3) * dim;
                                    for(l=0;l<dim;++l, ++voffs) {
                                        vec[voffs/ch+(voffs%ch)*vlen]+=codebook.codevectors[coffs+l];  // FPMATH FIXME use if and counter instead of / and %

                                        AV_DEBUG(" pass %d offs: %d curr: %f change: %f cv offs.: %d+%d  \n", pass, voffset/ch+(voffs%ch)*vlen, vec[voffset/ch+(voffs%ch)*vlen], codebook.codevectors[coffs+l], coffs, l);
                                    }
                                }
                            }
                        }
                    }
                    j_times_ptns_to_read+=ptns_to_read;
                }
                ++partition_count;
                voffset+=vr->partition_size;
            }
        }
    }
    return 0;
}

static inline int vorbis_residue_decode(vorbis_context *vc, vorbis_residue *vr, uint_fast8_t ch, uint_fast8_t *do_not_decode, float *vec, uint_fast16_t vlen)
{
    if (vr->type==2)
        return vorbis_residue_decode_internal(vc, vr, ch, do_not_decode, vec, vlen, 2);
    else if (vr->type==1)
        return vorbis_residue_decode_internal(vc, vr, ch, do_not_decode, vec, vlen, 1);
    else if (vr->type==0)
        return vorbis_residue_decode_internal(vc, vr, ch, do_not_decode, vec, vlen, 0);
    else {
        av_log(vc->avccontext, AV_LOG_ERROR, " Invalid residue type while residue decode?! \n");
        return 1;
    }
}

void vorbis_inverse_coupling(float *mag, float *ang, int blocksize)
{
    int i;
    for(i=0; i<blocksize; i++)
    {
        if (mag[i]>0.0) {
            if (ang[i]>0.0) {
                ang[i]=mag[i]-ang[i];
            } else {
                float temp=ang[i];
                ang[i]=mag[i];
                mag[i]+=temp;
            }
        } else {
            if (ang[i]>0.0) {
                ang[i]+=mag[i];
            } else {
                float temp=ang[i];
                ang[i]=mag[i];
                mag[i]-=temp;
            }
        }
    }
}

static void copy_normalize(float *dst, float *src, int len, int exp_bias, float add_bias)
{
    int i;
    if(exp_bias) {
        for(i=0; i<len; i++)
            ((uint32_t*)dst)[i] = ((uint32_t*)src)[i] + exp_bias; // dst[k]=src[i]*(1<<bias)
    } else {
        for(i=0; i<len; i++)
            dst[i] = src[i] + add_bias;
    }
}

// Decode the audio packet using the functions above

static int vorbis_parse_audio_packet(vorbis_context *vc) {
    GetBitContext *gb=&vc->gb;

    uint_fast8_t previous_window=vc->previous_window;
    uint_fast8_t mode_number;
    uint_fast8_t blockflag;
    uint_fast16_t blocksize;
    int_fast32_t i,j;
    uint_fast8_t no_residue[vc->audio_channels];
    uint_fast8_t do_not_decode[vc->audio_channels];
    vorbis_mapping *mapping;
    float *ch_res_ptr=vc->channel_residues;
    float *ch_floor_ptr=vc->channel_floors;
    uint_fast8_t res_chan[vc->audio_channels];
    uint_fast8_t res_num=0;
    int_fast16_t retlen=0;
    float fadd_bias = vc->add_bias;

    if (get_bits1(gb)) {
        av_log(vc->avccontext, AV_LOG_ERROR, "Not a Vorbis I audio packet.\n");
        return -1; // packet type not audio
    }

    if (vc->mode_count==1) {
        mode_number=0;
    } else {
        mode_number=get_bits(gb, ilog(vc->mode_count-1));
    }
    vc->mode_number=mode_number;
    mapping=&vc->mappings[vc->modes[mode_number].mapping];

    AV_DEBUG(" Mode number: %d , mapping: %d , blocktype %d \n", mode_number, vc->modes[mode_number].mapping, vc->modes[mode_number].blockflag);

    blockflag=vc->modes[mode_number].blockflag;
    blocksize=vc->blocksize[blockflag];
    if (blockflag) {
        skip_bits(gb, 2); // previous_window, next_window
    }

    memset(ch_res_ptr, 0, sizeof(float)*vc->audio_channels*blocksize/2); //FIXME can this be removed ?
    memset(ch_floor_ptr, 0, sizeof(float)*vc->audio_channels*blocksize/2); //FIXME can this be removed ?

// Decode floor

    for(i=0;i<vc->audio_channels;++i) {
        vorbis_floor *floor;
        if (mapping->submaps>1) {
            floor=&vc->floors[mapping->submap_floor[mapping->mux[i]]];
        } else {
            floor=&vc->floors[mapping->submap_floor[0]];
        }

        no_residue[i]=floor->decode(vc, &floor->data, ch_floor_ptr);
        ch_floor_ptr+=blocksize/2;
    }

// Nonzero vector propagate

    for(i=mapping->coupling_steps-1;i>=0;--i) {
        if (!(no_residue[mapping->magnitude[i]] & no_residue[mapping->angle[i]])) {
            no_residue[mapping->magnitude[i]]=0;
            no_residue[mapping->angle[i]]=0;
        }
    }

// Decode residue

    for(i=0;i<mapping->submaps;++i) {
        vorbis_residue *residue;
        uint_fast8_t ch=0;

        for(j=0;j<vc->audio_channels;++j) {
            if ((mapping->submaps==1) || (i=mapping->mux[j])) {
                res_chan[j]=res_num;
                if (no_residue[j]) {
                    do_not_decode[ch]=1;
                } else {
                    do_not_decode[ch]=0;
                }
                ++ch;
                ++res_num;
            }
        }
        residue=&vc->residues[mapping->submap_residue[i]];
        vorbis_residue_decode(vc, residue, ch, do_not_decode, ch_res_ptr, blocksize/2);

        ch_res_ptr+=ch*blocksize/2;
    }

// Inverse coupling

    for(i=mapping->coupling_steps-1;i>=0;--i) { //warning: i has to be signed
        float *mag, *ang;

        mag=vc->channel_residues+res_chan[mapping->magnitude[i]]*blocksize/2;
        ang=vc->channel_residues+res_chan[mapping->angle[i]]*blocksize/2;
        vc->dsp.vorbis_inverse_coupling(mag, ang, blocksize/2);
    }

// Dotproduct, MDCT

    for(j=vc->audio_channels-1;j>=0;j--) {
        ch_floor_ptr=vc->channel_floors+j*blocksize/2;
        ch_res_ptr=vc->channel_residues+res_chan[j]*blocksize/2;
        vc->dsp.vector_fmul(ch_floor_ptr, ch_res_ptr, blocksize/2);
        ff_imdct_half(&vc->mdct[blockflag], ch_res_ptr, ch_floor_ptr);
    }

// Overlap/add, save data for next overlapping  FPMATH

    retlen = (blocksize + vc->blocksize[previous_window])/4;
    for(j=0;j<vc->audio_channels;j++) {
        uint_fast16_t bs0=vc->blocksize[0];
        uint_fast16_t bs1=vc->blocksize[1];
        float *residue=vc->channel_residues+res_chan[j]*blocksize/2;
        float *saved=vc->saved+j*bs1/4;
        float *ret=vc->channel_floors+j*retlen;
        float *buf=residue;
        const float *win=vc->win[blockflag&previous_window];

        if(blockflag == previous_window) {
            vc->dsp.vector_fmul_window(ret, saved, buf, win, fadd_bias, blocksize/4);
        } else if(blockflag > previous_window) {
            vc->dsp.vector_fmul_window(ret, saved, buf, win, fadd_bias, bs0/4);
            copy_normalize(ret+bs0/2, buf+bs0/4, (bs1-bs0)/4, vc->exp_bias, fadd_bias);
        } else {
            copy_normalize(ret, saved, (bs1-bs0)/4, vc->exp_bias, fadd_bias);
            vc->dsp.vector_fmul_window(ret+(bs1-bs0)/4, saved+(bs1-bs0)/4, buf, win, fadd_bias, bs0/4);
        }
        memcpy(saved, buf+blocksize/4, blocksize/4*sizeof(float));
    }

    vc->previous_window = blockflag;
    return retlen;
}

// Return the decoded audio packet through the standard api

static int vorbis_decode_frame(AVCodecContext *avccontext,
                        void *data, int *data_size,
                        const uint8_t *buf, int buf_size)
{
    vorbis_context *vc = avccontext->priv_data ;
    GetBitContext *gb = &(vc->gb);
    const float *channel_ptrs[vc->audio_channels];
    int i;

    int_fast16_t len;

    if(!buf_size){
        return 0;
    }

    AV_DEBUG("packet length %d \n", buf_size);

    init_get_bits(gb, buf, buf_size*8);

    len=vorbis_parse_audio_packet(vc);

    if (len<=0) {
        *data_size=0;
        return buf_size;
    }

    if (!vc->first_frame) {
        vc->first_frame=1;
        *data_size=0;
        return buf_size ;
    }

    AV_DEBUG("parsed %d bytes %d bits, returned %d samples (*ch*bits) \n", get_bits_count(gb)/8, get_bits_count(gb)%8, len);

    for(i=0; i<vc->audio_channels; i++)
        channel_ptrs[i] = vc->channel_floors+i*len;
    vc->dsp.float_to_int16_interleave(data, channel_ptrs, len, vc->audio_channels);
    *data_size=len*2*vc->audio_channels;

    return buf_size ;
}

// Close decoder

static av_cold int vorbis_decode_close(AVCodecContext *avccontext) {
    vorbis_context *vc = avccontext->priv_data;

    vorbis_free(vc);

    return 0 ;
}

AVCodec vorbis_decoder = {
    "vorbis",
    CODEC_TYPE_AUDIO,
    CODEC_ID_VORBIS,
    sizeof(vorbis_context),
    vorbis_decode_init,
    NULL,
    vorbis_decode_close,
    vorbis_decode_frame,
    .long_name = NULL_IF_CONFIG_SMALL("Vorbis"),
};