Пример #1
0
STATIC void procOverlayBlock( clicks_t tick, samp_data * data )
/*************************************************************/
{
    overlay_data *  new_ovl;

    new_ovl = ProfCAlloc( sizeof(overlay_data) );
    new_ovl->tick = tick;
    new_ovl->section = data->ovl.req_section;
    if( new_ovl->section & OVL_RETURN ) {
        new_ovl->overlay_return = true;
        new_ovl->section &= ~OVL_RETURN;
    } else {
        new_ovl->overlay_return = false;
    }
    /* make sure to handle overlay resolution */
    new_ovl->req_addr.mach.segment = data->ovl.addr.segment;
    new_ovl->req_addr.mach.offset = data->ovl.addr.offset;
    if( CurrSIOData->ovl_loads == NULL ) {
        new_ovl->next = new_ovl;
    } else {
        new_ovl->next = CurrSIOData->ovl_loads->next;
        CurrSIOData->ovl_loads->next = new_ovl;
    }
    CurrSIOData->ovl_loads = new_ovl;
}
Пример #2
0
STATIC void procRemapBlock( clicks_t tick, uint_16 total_len,
                                             samp_data *data )
/************************************************************/
{
    remap_data      *new_remap;
    int             count;
    int             index;

    index = 0;
    total_len -= offsetof( samp_block, d.remap );
    count = total_len / sizeof( remapping );
    while( count-- > 0 ) {
        new_remap = ProfCAlloc( sizeof(remap_data) );
        if( CurrSIOData->remaps == NULL ) {
            new_remap->next = new_remap;
        } else {
            new_remap->next = CurrSIOData->remaps->next;
            CurrSIOData->remaps->next = new_remap;
        }
        CurrSIOData->remaps = new_remap;
        new_remap->tick = tick;
        new_remap->section = data->remap.data[index].section;
        new_remap->segment = data->remap.data[index].segment;
        index++;
    }
}
Пример #3
0
STATIC void initRoutineInfo( file_info *curr_file )
/*************************************************/
{
    rtn_info        *new_rtn;
    int             name_len;

    ClearRoutineInfo( curr_file );
    name_len = strlen( LIT( Unknown_Routine ) ) + 1;
    new_rtn = ProfCAlloc( sizeof( rtn_info ) + name_len );
    memcpy( new_rtn->name, LIT( Unknown_Routine ), name_len );
    new_rtn->unknown_routine = true;
    curr_file->routine = ProfCAlloc( 2 * sizeof( pointer ) );
    curr_file->routine[0] = new_rtn;
    name_len = strlen( LIT( Gathered_Routines ) ) + 1;
    new_rtn = ProfCAlloc( sizeof( rtn_info ) + name_len );
    memcpy( new_rtn->name, LIT( Gathered_Routines ), name_len );
    new_rtn->ignore_gather = true;
    new_rtn->gather_routine = true;
    curr_file->routine[1] = new_rtn;
    curr_file->rtn_count = 2;
}
Пример #4
0
STATIC void initModuleInfo( image_info *curr_image )
/**************************************************/
{
    mod_info        *new_mod;
    int             name_len;

    ClearModuleInfo( curr_image );
    name_len = strlen( LIT( Unknown_Module ) ) + 1;
    new_mod = ProfCAlloc( sizeof( mod_info ) + name_len );
    memcpy( new_mod->name, LIT( Unknown_Module ), name_len );
    new_mod->unknown_module = true;
    initFileInfo( new_mod );
    curr_image->module = ProfCAlloc( 2 * sizeof( pointer ) );
    curr_image->module[0] = new_mod;
    name_len = strlen( LIT( Gathered_Modules ) ) + 1;
    new_mod = ProfCAlloc( sizeof( mod_info ) + name_len );
    memcpy( new_mod->name, LIT( Gathered_Modules ), name_len );
    new_mod->ignore_gather = true;
    new_mod->gather_module = true;
    initFileInfo( new_mod );
    curr_image->module[1] = new_mod;
    curr_image->mod_count = 2;
}
Пример #5
0
STATIC void initFileInfo( mod_info *curr_mod )
/********************************************/
{
    file_info       *new_file;
    int             file_len;

    ClearFileInfo( curr_mod );
    file_len = strlen( LIT( Unknown_File ) ) + 1;
    new_file = ProfCAlloc( sizeof( file_info ) + file_len );
    memcpy( new_file->name, LIT( Unknown_File ), file_len );
    new_file->unknown_file = true;
    initRoutineInfo( new_file );
    curr_mod->mod_file = ProfCAlloc( 2 * sizeof( pointer ) );
    curr_mod->mod_file[0] = new_file;
    file_len = strlen( LIT( Gathered_Files ) ) + 1;
    new_file = ProfCAlloc( sizeof( file_info )+file_len );
    memcpy( new_file->name, LIT( Gathered_Files ), file_len );
    new_file->ignore_gather = true;
    new_file->gather_file = true;
    initRoutineInfo( new_file );
    curr_mod->mod_file[1] = new_file;
    curr_mod->file_count = 2;
}
Пример #6
0
extern wp_srcfile * WPSourceOpen( sio_data * curr_sio, bint quiet )
/*****************************************************************/
{
    file_info *         curr_file;
    rtn_info *          curr_rtn;
    wp_srcfile *        wpsrc_file;
    void *              src_file;
    mod_info *          curr_mod;
    cue_handle *        ch;
    location_list       ll;
    int                 line;

    curr_mod = curr_sio->curr_mod;
    curr_file = curr_sio->curr_file;
    curr_rtn = curr_sio->curr_rtn;
    if( curr_file->unknown_file ) {
        src_file = NULL;
    } else {
        src_file = FOpenSource( curr_file->name, curr_mod->mh, curr_file->fid );
    }
    if( src_file == NULL ) {
        curr_sio->src_file = NULL;
        if( !quiet ) {
            if( curr_file->unknown_file ) {
                ErrorMsg( LIT( Src_File_Not_Known ) );
            } else {
                ErrorMsg( LIT( Src_File_Not_Found ), curr_file->name );
            }
        }
        return( NULL );
    }
    wpsrc_file = ProfCAlloc( sizeof( wp_srcfile ) );
    wpsrc_file->src_file = src_file;
    curr_sio->src_file = wpsrc_file;
    if( SymLocation( curr_rtn->sh, NULL, &ll ) == DS_OK ) {
        ch = alloca( DIPHandleSize( HK_CUE ) );
        AddrCue( curr_mod->mh, ll.e[0].u.addr, ch );
        wpsrc_file->rtn_line = CueLine( ch );
    }
    setSrcLineData( wpsrc_file, curr_sio, curr_mod, curr_file, curr_rtn );
    line = 1;
    for( ;; ) {
        WPSourceGetLine( curr_sio->sample_window, line );
        if( wpsrc_file->src_eof ) break;
        line++;
    }
    wpsrc_file->src_rows = line - 1;
    return( wpsrc_file );
}
Пример #7
0
STATIC bool initCurrSIO( void )
/*****************************/
{
    image_info      *new_image;
    file_handle     fh;
    int             name_len;

    fh = open( SamplePath, O_RDONLY | O_BINARY, S_IREAD );
    if( fh == (file_handle) -1 ) {
        ErrorMsg( LIT( Cannot_Open_Smp_File ), SamplePath );
        return( false );
    }
    CurrSIOData = ProfCAlloc( sizeof(sio_data) );
    CurrSIOData->fh = fh;
    name_len = strlen( SamplePath ) + 1;
    CurrSIOData->samp_file_name = ProfAlloc( name_len );
    memcpy( CurrSIOData->samp_file_name, SamplePath, name_len );
    CurrSIOData->images = ProfAlloc( 2*sizeof(pointer) );
    new_image = ProfCAlloc( sizeof(image_info) );
    name_len = strlen( LIT( Unknown_Image ) ) + 1;
    new_image->name = ProfAlloc( name_len );
    memcpy( new_image->name, LIT( Unknown_Image ), name_len );
    new_image->unknown_image = true;
    CurrSIOData->images[0] = new_image;
    CurrSIOData->curr_image = new_image;
    new_image = ProfCAlloc( sizeof(image_info) );
    name_len = strlen( LIT( Gathered_Images ) ) + 1;
    new_image->name = ProfAlloc( name_len );
    memcpy( new_image->name, LIT( Gathered_Images ), name_len );
    new_image->ignore_gather = true;
    new_image->gather_image = true;
    CurrSIOData->images[1] = new_image;
    CurrSIOData->image_count = 2;
    CurrSIOData->curr_display_row = -WND_MAX_ROW;
    return( true );
}
Пример #8
0
STATIC walk_result loadModuleInfo( mod_handle mh, void *_curr_image )
/*******************************************************************/
{
    image_info      *curr_image = _curr_image;
    mod_info        *new_mod;
    int             mod_count;
    int             name_len;

    name_len = DIPModName( mh, NULL, 0 );
    new_mod = ProfCAlloc( sizeof( mod_info ) + name_len );
    DIPModName( mh, new_mod->name, name_len + 1 );
    new_mod->mh = mh;
    mod_count = curr_image->mod_count;
    curr_image->mod_count++;
    curr_image->module = ProfRealloc( curr_image->module, curr_image->mod_count * sizeof( pointer ) );
    curr_image->module[mod_count] = new_mod;
    initFileInfo( new_mod );
    DIPWalkSymList( SS_MODULE, &mh, &loadRoutineInfo, new_mod );
    return( WR_CONTINUE );
}
Пример #9
0
STATIC file_info  *loadFileInfo( mod_info *curr_mod, sym_handle *sym )
/********************************************************************/
{
    file_info       *sym_file;
    cue_handle      *ch;
    cue_fileid      fid;
    int             file_count;
    int             count;
    location_list   ll;

    if( SymLocation( sym, NULL, &ll ) != DS_OK ) {
        return( curr_mod->mod_file[0] );
    }
    ch = alloca( DIPHandleSize( HK_CUE ) );
    switch( AddrCue( curr_mod->mh, ll.e[0].u.addr, ch ) ) {
    case    SR_NONE:
    case    SR_FAIL:
        return( curr_mod->mod_file[0] );
    }
    fid = CueFileId( ch );
    file_count = curr_mod->file_count;
    count = 0;
    while( count < file_count ) {
        sym_file = curr_mod->mod_file[count];
        if( sym_file->fid == fid ) {
            return( sym_file );
        }
        count++;
    }
    curr_mod->file_count++;
    curr_mod->mod_file = ProfRealloc( curr_mod->mod_file,
                             curr_mod->file_count * sizeof( pointer ) );
    count = CueFile( ch, NULL, 0 ) + 1;
    sym_file = ProfCAlloc( sizeof( file_info ) + count );
    sym_file->fid = fid;
    CueFile( ch, sym_file->name, count );
    initRoutineInfo( sym_file );
    curr_mod->mod_file[file_count] = sym_file;
    return( sym_file );
}
Пример #10
0
STATIC walk_result loadRoutineInfo( sym_walk_info swi, sym_handle *sym,
                                                      void *_new_mod )
/*********************************************************************/
{
    mod_info        *new_mod = _new_mod;
    sym_info        sinfo;
    file_info       *sym_file;
    rtn_info        *new_rtn;
    int             rtn_count;
    int             name_len;
    int             sym_size;
    int             demangle_type;

    if( swi != SWI_SYMBOL ) {
        return( WR_CONTINUE );
    }
    SymInfo( sym, NULL, &sinfo );
    if( sinfo.kind != SK_CODE && sinfo.kind != SK_PROCEDURE ) {
        return( WR_CONTINUE );
    }
    sym_file = loadFileInfo( new_mod, sym );
    name_len = SymName( sym, NULL, SN_DEMANGLED, NULL, 0 );
    if( name_len == 0 ) {
        name_len = SymName( sym, NULL, SN_SOURCE, NULL, 0 );
        demangle_type = SN_SOURCE;
    } else {
        demangle_type = SN_DEMANGLED;
    }
    new_rtn = ProfCAlloc( sizeof( rtn_info ) + name_len );
    SymName( sym, NULL, demangle_type, new_rtn->name, name_len + 1 );
    sym_size = DIPHandleSize( HK_SYM );
    new_rtn->sh = ProfAlloc( sym_size );
    memcpy( new_rtn->sh, sym, sym_size );
    rtn_count = sym_file->rtn_count;
    sym_file->rtn_count++;
    sym_file->routine = ProfRealloc( sym_file->routine, sym_file->rtn_count * sizeof( pointer ) );
    sym_file->routine[rtn_count] = new_rtn;
    return( WR_CONTINUE );
}
Пример #11
0
STATIC void procImageBlock( samp_data *data, bool main_exe )
/**********************************************************/
{
    image_info      *new_image;
    int             name_len;
    int             image_index;

    name_len = strlen( data->code.name ) + 1;
    new_image = ProfCAlloc( sizeof(image_info) );
    image_index = CurrSIOData->image_count;
    CurrSIOData->image_count++;
    CurrSIOData->images = ProfRealloc( CurrSIOData->images,
                                     CurrSIOData->image_count*sizeof(pointer));
    CurrSIOData->images[image_index] = new_image;
    CurrSIOData->curr_image = new_image;
    new_image->name = ProfAlloc( name_len );
    memcpy( new_image->name, data->code.name, name_len );
    new_image->overlay_table.mach.segment = data->code.ovl_tab.segment;
    new_image->overlay_table.mach.offset = data->code.ovl_tab.offset;
    new_image->time_stamp = data->code.time_stamp;
    new_image->main_load = main_exe;
}
Пример #12
0
STATIC void procMarkBlock( clicks_t tick, samp_data *data )
/*********************************************************/
{
    mark_data       *new_mark;
    int             name_len;

    name_len = strlen( data->mark.mark_string );
    new_mark = ProfCAlloc( sizeof(mark_data)+name_len );
    new_mark->tick = tick;
    new_mark->thread = data->mark.thread_id;
    /* make sure to handle overlay resolution */
    new_mark->addr.mach.segment = data->mark.addr.segment;
    new_mark->addr.mach.offset = data->mark.addr.offset;
    memcpy( new_mark->name, data->mark.mark_string, name_len );
    if( CurrSIOData->marks == NULL ) {
        new_mark->next = new_mark;
    } else {
        new_mark->next = CurrSIOData->marks->next;
        CurrSIOData->marks->next = new_mark;
    }
    CurrSIOData->marks = new_mark;
}
Пример #13
0
STATIC void calcAggregates( void )
/********************************/
{
    unsigned            index;
    unsigned            index2;
    int                 cmp_result;
    unsigned            *sorted_idx;
    address             ***sorted_vect;
    massgd_sample_addr  **massgd_data;
//    unsigned            mbuckets;
    unsigned            curr_mbucket;
    unsigned            curr_midx;
    thread_data         *thd;
    unsigned            buckets;
    unsigned            base;
    unsigned            best;
    unsigned            end;
    massgd_sample_addr  *curr;

    ClearMassaged( CurrSIOData );
    buckets = 0;
    for( thd = CurrSIOData->samples; thd != NULL; thd = thd->next ) {
        buckets += RAW_BUCKET_IDX( thd->end_time - thd->start_time ) + 1;
    }
    sorted_idx = ProfCAlloc( buckets * sizeof( *sorted_idx ) );
    sorted_vect = ProfAlloc( buckets * sizeof(*thd->raw_bucket) );
    base = 0;
    for( thd = CurrSIOData->samples; thd != NULL; thd = thd->next ) {
        end = RAW_BUCKET_IDX( thd->end_time - thd->start_time ) + 1;
        for( index = 0; index < end; ++index, ++base ) {
            sorted_vect[base] = ProfAlloc( MAX_RAW_BUCKET_INDEX * sizeof( **sorted_vect ) );
            for( index2 = 0; index2 < MAX_RAW_BUCKET_INDEX; ++index2 ) {
                sorted_vect[base][index2]
                    = &thd->raw_bucket[index][index2];
            }
            qsort( sorted_vect[base], MAX_RAW_BUCKET_INDEX, sizeof(**sorted_vect), rawSampCmp );
        }
    }
    /* skip over all the 0:0 samples */
    for( index = 0; index < buckets; ++index ) {
        index2 = 0;
        for( ;; ) {
            if( index2 >= MAX_RAW_BUCKET_INDEX ) break;
            if( !(sorted_vect[index][index2]->mach.segment == 0
             && sorted_vect[index][index2]->mach.offset == 0) ) break;
            ++index2;
        }
        sorted_idx[index] = index2;
    }
    curr = NULL;
    curr_mbucket = 0;
    curr_midx = -1;
//    mbuckets = 1;
    massgd_data = ProfAlloc( sizeof( *massgd_data ) );
    massgd_data[0] = ProfCAlloc( MAX_MASSGD_BUCKET_SIZE );
    for( ;; ) {
        best = -1U;
        for( index = 0; index < buckets; ++index ) {
            index2 = sorted_idx[index];
            if( index2 >= MAX_RAW_BUCKET_INDEX ) continue;
            if( best == -1U ) best = index;
            cmp_result = AddrCmp( sorted_vect[index][index2],
                                  sorted_vect[best][sorted_idx[best]] );
            if( cmp_result < 0 ) best = index;
        }
        if( best == -1U ) break;
        if( curr == NULL || AddrCmp( sorted_vect[best][sorted_idx[best]], curr->raw ) != 0 ) {
            if( ++curr_midx >= MAX_MASSGD_BUCKET_INDEX ) {
                ++curr_mbucket;
                massgd_data = ProfRealloc( massgd_data, (curr_mbucket+1) * sizeof(*massgd_data) );
                massgd_data[curr_mbucket] = ProfCAlloc( MAX_MASSGD_BUCKET_SIZE );
                curr_midx = 0;
            }
            curr = &massgd_data[curr_mbucket][curr_midx];
            curr->raw = sorted_vect[best][sorted_idx[best]];
        }
        curr->hits++;
        sorted_idx[best]++;
    }

    CurrSIOData->massaged_sample = massgd_data;
    CurrSIOData->number_massaged = 1 + curr_midx
                + (curr_mbucket * (unsigned long)MAX_MASSGD_BUCKET_INDEX);
    CurrSIOData->massaged_mapped = true;
    for( index = 0; index < buckets; ++index ) {
        ProfFree( sorted_vect[index] );
    }
    ProfFree( sorted_vect );
    ProfFree( sorted_idx );
}
Пример #14
0
STATIC bool procSampleBlock( clicks_t tick, uint_16 total_len,
                                              samp_data *data )
/*************************************************************/
{
    thread_id   thread;
    unsigned    data_index;
    unsigned    index;
    unsigned    index2;
    unsigned    count;
    unsigned    buckets;
    clicks_t    end_tick;
    ldiv_t      div_result;
    thread_data *thd;
    thread_data **owner;
    address     *samp;

    thread = data->sample.thread_id;
    total_len -= offsetof( samp_block, d.sample );
    count = total_len / sizeof( samp_address );
    CurrSIOData->total_samples += count;
    end_tick = tick + count;
    owner = &CurrSIOData->samples;
    for( ;; ) {
        thd = *owner;
        if( thd == NULL ) {
            thd = ProfAlloc( sizeof( *thd ) );
            *owner = thd;
            thd->next = NULL;
            thd->thread = thread;
            thd->start_time = tick;
            thd->end_time = end_tick;
            buckets = RAW_BUCKET_IDX( count ) + 1;
            thd->raw_bucket = ProfAlloc( buckets * sizeof( *thd->raw_bucket ) );
            for( index = 0; index < buckets; ++index ) {
                thd->raw_bucket[index] = ProfCAlloc( MAX_RAW_BUCKET_SIZE );
            }
            break;

        }
        if( thd->thread == thread )
            break;
        owner = &thd->next;
    }
    if( end_tick > thd->end_time ) {
        index = RAW_BUCKET_IDX( thd->end_time - thd->start_time ) + 1;
        buckets = RAW_BUCKET_IDX( end_tick - thd->start_time ) + 1;
        if( buckets > index ) {
            thd->raw_bucket = ProfRealloc( thd->raw_bucket, buckets * sizeof( *thd->raw_bucket ) );
            for( ; index < buckets; ++index ) {
                thd->raw_bucket[index] = ProfCAlloc( MAX_RAW_BUCKET_SIZE );
            }
        }
        thd->end_time = end_tick;
    }


    div_result = ldiv( tick - thd->start_time, MAX_RAW_BUCKET_INDEX );
    index = div_result.quot;
    index2 = div_result.rem;
    data_index = 0;
    while( count > 0 ) {
        samp = &thd->raw_bucket[index][index2];
        samp->mach.segment = data->sample.sample[data_index].segment;
        samp->mach.offset  = data->sample.sample[data_index].offset;
        if( ++index2 >= MAX_RAW_BUCKET_INDEX ) {
            index2 = 0;
            ++index;
        }
        ++data_index;
        --count;
    }
    return( true );
}
Пример #15
0
wp_asmfile *WPAsmOpen( sio_data * curr_sio, int src_row, bool quiet )
/*******************************************************************/
{
    wp_asmfile *        wpasm_file;
    cue_handle *        ch;
    cue_handle *        ch2;
    mod_info *          curr_mod;
    file_info *         curr_file;
    massgd_sample_addr * samp_data;
    wp_asmline *        asm_line;
    mod_handle          mh;
    file_handle         fh;
    address             addr;
    cue_fileid          fid;
    search_result       cue_find;
    int                 rows;
    int                 asm_group;
    int                 asm_row;
    int                 file_index;
    int                 addr_cmp;
    clicks_t            addr_tick_index;

    quiet=quiet;
    ch = alloca( DIPHandleSize( HK_CUE ) );
    ch2 = alloca( DIPHandleSize( HK_CUE ) );
    curr_file = curr_sio->curr_file;
    curr_mod = curr_sio->curr_mod;
    if( curr_file->fid == 0 || LineCue( curr_mod->mh, curr_sio->curr_file->fid,
                                        src_row, 0, ch2 ) == SR_NONE ) {
        ch2 = NULL;
    }
    fh = ExeOpen( curr_sio->curr_image->name );
    if( fh == -1 ) {
        ErrorMsg( LIT( Exe_Not_Found ), curr_sio->curr_image->name );
        return( NULL );
    }
    wpasm_file = ProfCAlloc( sizeof(wp_asmfile) );
    curr_sio->asm_file = wpasm_file;
    wpasm_file->asm_buff = ProfAlloc( MAX_ASM_BUFF_LEN );
    wpasm_file->asm_buff_len = MAX_ASM_BUFF_LEN;
    SetNumBytes( 0 );
    SetExeFile( fh, false );
    wpasm_file->fh = fh;
    addr = ModAddr( curr_mod->mh );
    SetExeOffset( addr );
    wpasm_file->max_time = 0;
    addr_tick_index = curr_mod->first_tick_index - 1;
    samp_data = WPGetMassgdSampData( curr_sio, addr_tick_index++ );
    wpasm_file->asm_data = ProfAlloc( sizeof(wp_asm_groups) );
    wpasm_file->asm_data[0].asm_lines = ProfAlloc( MAX_ASM_LINE_SIZE );
    wpasm_file->asm_groups = 0;
    rows = 0;
    for( ;; ) {
        mh = curr_mod->mh;
        if( EndOfSegment()
            || AddrMod( addr, &mh ) == SR_NONE || mh != curr_mod->mh ) break;
        cue_find = (AddrCue( curr_mod->mh, addr, ch ) == SR_EXACT);
        if( ch2 != NULL && CueCmp( ch, ch2 ) == 0 ) {
            wpasm_file->entry_line = rows;
            ch2 = NULL;
        }
        asm_line = WPGetAsmLoc( wpasm_file, rows, &asm_group, &asm_row );
        if( cue_find ) {
            asm_line->source_line = true;
            asm_line->u.src.line = CueLine( ch );
            asm_line->u.src.src_file = NULL;
            if( !curr_file->unknown_file ) {
                fid = CueFileId( ch );
                file_index = 0;
                while( file_index < curr_mod->file_count ) {
                    curr_file = curr_mod->mod_file[file_index];
                    if( curr_file->fid == fid ) {
                        asm_line->u.src.src_file =
                                FOpenSource( curr_file->name, mh, fid );
                        break;
                    }
                    file_index++;
                }
            }
            rows++;
            asm_line = WPGetAsmLoc( wpasm_file, rows, &asm_group, &asm_row );
        }
        asm_line = &wpasm_file->asm_data[asm_group].asm_lines[asm_row];
        asm_line->source_line = false;
        asm_line->u.asm_line.addr = addr;
        asm_line->u.asm_line.tick_count = 0;
        for( ;; ) {
            if( samp_data == NULL ) break;
            addr_cmp = AddrCmp( &addr, samp_data->raw );
            if( addr_cmp < 0 ) break;
            if( addr_cmp == 0 ) {
                asm_line->u.asm_line.tick_count = samp_data->hits;
                if( asm_line->u.asm_line.tick_count > wpasm_file->max_time ) {
                    wpasm_file->max_time = asm_line->u.asm_line.tick_count;
                }
            }
            samp_data = WPGetMassgdSampData( curr_sio, addr_tick_index++ );
        }
        rows++;
        CodeAdvance( &addr );
    }
    WPGetAsmLoc( wpasm_file, rows, &asm_group, &asm_row );
    wpasm_file->asm_data[asm_group].asm_lines =
            ProfRealloc( wpasm_file->asm_data[asm_group].asm_lines,
                         sizeof(wp_asmline)*(asm_row+1) );
    wpasm_file->asm_rows = rows;
    return( wpasm_file );
}