/* FluidSynth - A Software Synthesizer
 *
 * Copyright (C) 2003  Peter Hanappe and others.
 *
 * SoundFont file loading code borrowed from Smurf SoundFont Editor
 * Copyright (C) 1999-2001 Josh Green
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Library General Public License
 * as published by the Free Software Foundation; either version 2 of
 * the License, or (at your option) any later version.
 *
 * This library 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
 * Library General Public License for more details.
 *
 * You should have received a copy of the GNU Library General Public
 * License along with this library; if not, write to the Free
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
 * 02111-1307, USA
 */
 
#include "sfont.h"
#include "fluid.h"
#include "voice.h"
 
// #define DEBUG_SFONT
 
#include "libmscore/xml.h"
 
static bool debugMode = false;
 
namespace FluidS {
 
//---------------------------------------------------------
//   SFVersion
//---------------------------------------------------------
 
SFVersion::SFVersion()
      {
      major = 0;
      minor = 0;
      }
 
//---------------------------------------------------------
//   SFont
//---------------------------------------------------------
 
SFont::SFont(Fluid* f)
      {
      synth       = f;
      samplepos   = 0;
      samplesize  = 0;
      _bankOffset = 0;
      }
 
SFont::~SFont()
      {
      foreach(Sample* s, sample)
            delete s;
      foreach(Preset* p, presets)
            delete p;
      foreach(unsigned char* p, infos)
            delete[] p;
      foreach(Instrument* i, instruments) {
//            foreach(Zone* z, i->zones)
//                  delete z;
            delete i;
            }
      }
 
//---------------------------------------------------------
//   read
//---------------------------------------------------------
 
bool SFont::read(const QString& s)
      {
      f.setFileName(s);
      if (!load())
            return false;
 
      foreach(Instrument* i, instruments) {
            if (!i->import_sfont())
                  return false;
            }
 
      foreach(Preset* p, presets) {
            if (!p->importSfont())
                  return false;
            }
      return true;
      }
 
//---------------------------------------------------------
//   get_preset
//---------------------------------------------------------
 
Preset* SFont::get_preset(int bank, int num)
      {
      bank -= _bankOffset;
      for (Preset* p : presets) {
            if ((p->get_banknum() == bank) && (p->get_num() == num))
                  return p;
            }
      return 0;
      }
 
//---------------------------------------------------------
//   Preset
//---------------------------------------------------------
 
Preset::Preset(SFont* s)
      {
      sfont        = s;
      bank         = 0;
      num          = 0;
      _global_zone = 0;
      }
 
//---------------------------------------------------------
//   Preset
//---------------------------------------------------------
 
Preset::~Preset()
      {
      delete _global_zone;
      foreach(Zone* z, zones)
            delete z;
      }
 
//---------------------------------------------------------
//   loadSamples
//    this is called if the preset is associated with a
//    channel
//---------------------------------------------------------
 
void Preset::loadSamples()
      {
//      sfont->synth->mutex.lock();
      if (_global_zone && _global_zone->instrument) {
            Instrument* i = _global_zone->instrument;
            if (i->global_zone && i->global_zone->sample)
                  i->global_zone->sample->load();
            foreach(Zone* iz, i->zones)
                  iz->sample->load();
            }
 
      foreach(Zone* z, zones) {
            Instrument* i = z->instrument;
            if (i->global_zone && i->global_zone->sample)
                  i->global_zone->sample->load();
            foreach(Zone* iz, i->zones)
                  iz->sample->load();
            }
//      sfont->synth->mutex.unlock();
      }
 
//---------------------------------------------------------
//   noteon
//---------------------------------------------------------
 
bool Preset::noteon(Fluid* synth, unsigned id, int chan, int key, int vel, double nt)
      {
      Mod* mod;
      Mod* mod_list[FLUID_NUM_MOD]; /* list for 'sorting' preset modulators */
 
      Zone* global_preset_zone = global_zone();
 
      /* run thru all the zones of this preset */
      foreach (Zone* preset_zone, zones) {
            /* check if the note falls into the key and velocity range of this
               preset */
            if (preset_zone->inside_range(key, vel)) {
 
                  Instrument* inst = preset_zone->get_inst();
                  Zone* global_inst_zone = inst->get_global_zone();
 
                  /* run thru all the zones of this instrument */
                  foreach(Zone* inst_zone, inst->get_zone()) {
                        /* make sure this instrument zone has a valid sample */
                        Sample* sample = inst_zone->get_sample();
                        if (sample == 0 || sample->inRom())
                              continue;
                        /* check if the note falls into the key and velocity range of this
                           instrument */
                        if (inst_zone->inside_range(key, vel) && (sample != 0)) {
 
                              /* this is a good zone. allocate a new synthesis process and
                                 initialize it */
 
                              Voice* voice = synth->alloc_voice(id, sample, chan, key, vel, nt);
                              if (voice == 0)
                                    return false;
 
                              /* Instrumentrument level, generators */
 
                              for (int i = 0; i < GEN_LAST; i++) {
                  	            /* SF 2.01 section 9.4 'bullet' 4:
                  	             *
                  	             * A generator in a local instrument zone supersedes a
                  	             * global instrument zone generator.  Both cases supersede
                  	             * the default generator -> voice_gen_set */
 
	                              if (inst_zone->genlist[i].flags)
                                          voice->gen_set(i, inst_zone->genlist[i].val);
                                    else if ((global_inst_zone != 0) && (global_inst_zone->genlist[i].flags))
                                          voice->gen_set(i, global_inst_zone->genlist[i].val);
                                    else {
                                          /* The generator has not been defined in this instrument.
                                           * Do nothing, leave it at the default.
                                           */
                                          }
 
                                    } /* for all generators */
 
                              /* global instrument zone, modulators: Put them all into a
                                 * list. */
 
                              int mod_list_count = 0;
 
                              if (global_inst_zone){
                                    foreach(Mod* mod, global_inst_zone->modlist)
                                          mod_list[mod_list_count++] = mod;
                                    }
 
                              /* local instrument zone, modulators.
                               * Replace modulators with the same definition in the list:
                               * SF 2.01 page 69, 'bullet' 8
                               */
                              foreach(Mod* mod, inst_zone->modlist) {
	                              /* 'Identical' modulators will be deleted by setting their
	                               *  list entry to 0.  The list length is known, 0
	                               *  entries will be ignored later.  SF2.01 section 9.5.1
                                     *  page 69, 'bullet' 3 defines 'identical'.  */
 
                                    for (int i = 0; i < mod_list_count; i++){
                                          if (mod_list[i] && test_identity(mod, mod_list[i])){
                                                mod_list[i] = 0;
	                                          }
	                                    }
 
                                    /* Finally add the new modulator to to the list. */
                                    mod_list[mod_list_count++] = mod;
                                    }
 
                              /* Add instrument modulators (global / local) to the voice. */
                              for (int i = 0; i < mod_list_count; i++){
                                    mod = mod_list[i];
                                    if (mod) {  // disabled modulators CANNOT be skipped.
                                          /* Instrumentrument modulators -supersede- existing (default)
	                                     * modulators.  SF 2.01 page 69, 'bullet' 6 */
                                          voice->add_mod(mod, FLUID_VOICE_OVERWRITE);
                                          }
                                    }
 
                              /* Preset level, generators */
 
                              for (int i = 0; i < GEN_LAST; i++) {
                                    /* SF 2.01 section 8.5 page 58: If some generators are
                                     * encountered at preset level, they should be ignored */
                                    if ((i != GEN_STARTADDROFS)
                                       && (i != GEN_ENDADDROFS)
                                       && (i != GEN_STARTLOOPADDROFS)
                                       && (i != GEN_ENDLOOPADDROFS)
                                       && (i != GEN_STARTADDRCOARSEOFS)
                                       && (i != GEN_ENDADDRCOARSEOFS)
                                       && (i != GEN_STARTLOOPADDRCOARSEOFS)
                                       && (i != GEN_KEYNUM)
                                       && (i != GEN_VELOCITY)
                                       && (i != GEN_ENDLOOPADDRCOARSEOFS)
                                       && (i != GEN_SAMPLEMODE)
                                       && (i != GEN_EXCLUSIVECLASS)
                                       && (i != GEN_OVERRIDEROOTKEY)) {
 
                                          /* SF 2.01 section 9.4 'bullet' 9: A generator in a
	                                     * local preset zone supersedes a global preset zone
	                                     * generator.  The effect is -added- to the destination
	                                     * summing node -> voice_gen_incr */
 
                                          if (preset_zone->genlist[i].flags) {
                                                voice->gen_incr(i, preset_zone->genlist[i].val);
                                                }
                                          else if ((global_preset_zone != 0) && global_preset_zone->genlist[i].flags) {
                                                voice->gen_incr(i, global_preset_zone->genlist[i].val);
                                                }
                                          else {
                                                /* The generator has not been defined in this preset
                                                 * Do nothing, leave it unchanged.
                                                 */
                                                }
                                          } /* if available at preset level */
                                    } /* for all generators */
 
 
                              /* Global preset zone, modulators: put them all into a
                               * list. */
                              mod_list_count = 0;
                              if (global_preset_zone){
                                    foreach(Mod* mod, global_preset_zone->modlist)
                                          mod_list[mod_list_count++] = mod;
                                    }
 
                              /* Process the modulators of the local preset zone.  Kick
                               * out all identical modulators from the global preset zone
                               * (SF 2.01 page 69, second-last bullet) */
 
                              foreach(Mod* mod, preset_zone->modlist) {
                                    for (int i = 0; i < mod_list_count; i++) {
                                          if (mod_list[i] && test_identity(mod,mod_list[i]))
                                                mod_list[i] = 0;
                                          }
                                    /* Finally add the new modulator to the list. */
                                    mod_list[mod_list_count++] = mod;
                                    }
 
                              /* Add preset modulators (global / local) to the voice. */
                              for (int i = 0; i < mod_list_count; i++){
                                    mod = mod_list[i];
                                    if ((mod != 0) && (mod->amount != 0)) { /* disabled modulators can be skipped. */
                                          /* Preset modulators -add- to existing instrument /
	                                     * default modulators.  SF2.01 page 70 first bullet on
	                                     * page */
                                          voice->add_mod(mod, FLUID_VOICE_ADD);
                                          }
                                    }
 
	                        /* add the synthesis process to the synthesis loop. */
	                        synth->start_voice(voice);
 
                              /* Store the ID of the first voice that was created by this noteon event.
                               * Exclusive class may only terminate older voices.
                               * That avoids killing voices, which have just been created.
                               * (a noteon event can create several voice processes with the same exclusive
                               * class - for example when using stereo samples)
                               */
                              }
                        }
                  }
            }
      return true;
      }
 
//---------------------------------------------------------
//   importSfont
//---------------------------------------------------------
 
bool Preset::importSfont()
      {
      if (name.isEmpty())
            name = QString("Bank%1,Preset%2").arg(bank).arg(num);
 
      int idx = 0;
      foreach(Zone* zone, zones) {
            // zone->name = QString("%1/%2").arg(name).arg(idx);
            if (!zone->importZone())
                  return false;
            if ((idx == 0) && (zone->get_inst() == 0))
                  setGlobalZone(zones.takeAt(0));
            ++idx;
            }
      return true;
      }
 
//---------------------------------------------------------
//   import_sfont
//---------------------------------------------------------
 
bool Instrument::import_sfont()
      {
      int idx = 0;
      foreach(Zone* zone, zones) {
            if (!zone->importZone())
                  return false;
            if ((idx == 0) && (zone->get_sample() == 0))
                  global_zone = zones.takeAt(0);
            idx++;
            }
      return true;
      }
 
//---------------------------------------------------------
//   Zone
//---------------------------------------------------------
 
Zone::Zone()
      {
      instrument = 0;
      sample     = 0;
      sampIdx    = 0;
      instIdx    = 0;
      keylo      = 0;
      keyhi      = 128;
      vello      = 0;
      velhi      = 128;
 
      /* Flag all generators as unused (default, they will be set when they are found
       * in the sound font).
       * This also sets the generator values to default, but that is of no concern here.*/
 
      fluid_gen_set_default_values(&genlist[0]);
      }
 
Zone::~Zone()
      {
      foreach(Mod* m, modlist)
            delete m;
      foreach(SFGen* p, gen)
            delete p;
      foreach(SFMod* p, mod)
            delete p;
      }
 
//---------------------------------------------------------
//   inside_range
//---------------------------------------------------------
 
bool Zone::inside_range(int key, int vel) const
      {
      return ((keylo <= key) && (keyhi >= key) && (vello <= vel) && (velhi >= vel));
      }
 
//---------------------------------------------------------
//   Instrument
//---------------------------------------------------------
 
Instrument::Instrument()
      {
      global_zone = 0;
      }
 
Instrument::~Instrument()
      {
      delete global_zone;
      foreach(Zone* z, zones)
            delete z;
      }
 
//---------------------------------------------------------
//   importZone
//---------------------------------------------------------
 
bool Zone::importZone()
      {
      foreach (SFGen* sfgen, gen) {
            switch (sfgen->id) {
                  case GEN_KEYRANGE:
                        keylo = sfgen->amount.range.lo;
                        keyhi = sfgen->amount.range.hi;
                        break;
                  case GEN_VELRANGE:
                        vello = sfgen->amount.range.lo;
                        velhi = sfgen->amount.range.hi;
                        break;
                  default:
                        /* FIXME: some generators have an unsigned word amount value but i don't know which ones
                         */
                        genlist[sfgen->id].val   = (float) sfgen->amount.sword;
                        genlist[sfgen->id].flags = GEN_SET;
                        break;
                  }
            }
 
      // Import the modulators (only SF2.1 and higher)
      foreach(SFMod* mod_src, mod) {
            Mod* mod_dest = new Mod;
            int type;
            // mod_dest->next = 0; /* pointer to next modulator, this is the end of the list now.*/
 
            /* *** Amount *** */
            mod_dest->amount = mod_src->amount;
 
            /* *** Source *** */
            mod_dest->src1 = mod_src->src & 127; /* index of source 1, seven-bit value, SF2.01 section 8.2, page 50 */
            mod_dest->flags1 = 0;
 
            /* Bit 7: CC flag SF 2.01 section 8.2.1 page 50*/
            if (mod_src->src & (1<<7))
                  mod_dest->flags1 |= FLUID_MOD_CC;
            else
                  mod_dest->flags1 |= FLUID_MOD_GC;
 
            /* Bit 8: D flag SF 2.01 section 8.2.2 page 51*/
            if (mod_src->src & (1<<8))
                  mod_dest->flags1 |= FLUID_MOD_NEGATIVE;
            else
                  mod_dest->flags1 |= FLUID_MOD_POSITIVE;
 
            /* Bit 9: P flag SF 2.01 section 8.2.3 page 51*/
            if (mod_src->src & (1<<9))
                  mod_dest->flags1 |= FLUID_MOD_BIPOLAR;
            else
                  mod_dest->flags1 |= FLUID_MOD_UNIPOLAR;
 
            /* modulator source types: SF2.01 section 8.2.1 page 52 */
            type = (mod_src->src) >> 10;
            type &= 63; /* type is a 6-bit value */
            if (type == 0)
                  mod_dest->flags1 |= FLUID_MOD_LINEAR;
            else if (type == 1)
                  mod_dest->flags1 |= FLUID_MOD_CONCAVE;
            else if (type == 2)
                  mod_dest->flags1 |= FLUID_MOD_CONVEX;
            else if (type == 3)
                  mod_dest->flags1 |= FLUID_MOD_SWITCH;
            else {
                  /* This shouldn't happen - unknown type!
                   * Deactivate the modulator by setting the amount to 0.
                   */
                  mod_dest->amount=0;
                  }
 
            /* *** Dest *** */
            mod_dest->dest = mod_src->dest; /* index of controlled generator */
 
            /* *** Amount source *** */
            mod_dest->src2 = mod_src->amtsrc & 127; /* index of source 2, seven-bit value, SF2.01 section 8.2, p.50 */
            mod_dest->flags2 = 0;
 
            /* Bit 7: CC flag SF 2.01 section 8.2.1 page 50*/
            if (mod_src->amtsrc & (1<<7))
                  mod_dest->flags2 |= FLUID_MOD_CC;
            else
                  mod_dest->flags2 |= FLUID_MOD_GC;
 
            /* Bit 8: D flag SF 2.01 section 8.2.2 page 51*/
            if (mod_src->amtsrc & (1<<8))
                  mod_dest->flags2 |= FLUID_MOD_NEGATIVE;
            else
                  mod_dest->flags2 |= FLUID_MOD_POSITIVE;
 
            /* Bit 9: P flag SF 2.01 section 8.2.3 page 51*/
            if (mod_src->amtsrc & (1<<9))
                  mod_dest->flags2 |= FLUID_MOD_BIPOLAR;
            else
                  mod_dest->flags2 |= FLUID_MOD_UNIPOLAR;
 
            /* modulator source types: SF2.01 section 8.2.1 page 52 */
            type = (mod_src->amtsrc) >> 10;
            type &= 63; /* type is a 6-bit value */
            if (type == 0)
                  mod_dest->flags2 |= FLUID_MOD_LINEAR;
            else if (type == 1)
                  mod_dest->flags2 |= FLUID_MOD_CONCAVE;
            else if (type == 2)
                  mod_dest->flags2 |= FLUID_MOD_CONVEX;
            else if (type == 3)
                  mod_dest->flags2 |= FLUID_MOD_SWITCH;
            else {
                  /* This shouldn't happen - unknown type!
                   * Deactivate the modulator by setting the amount to 0. */
                  mod_dest->amount=0;
                  }
 
            /* *** Transform *** */
            /* SF2.01 only uses the 'linear' transform (0).
             * Deactivate the modulator by setting the amount to 0 in any other case.
             */
            if (mod_src->trans !=0)
                  mod_dest->amount = 0;
 
            /* Store the new modulator in the zone The order of modulators
             * will make a difference, at least in an instrument context: The
             * second modulator overwrites the first one, if they only differ
             * in amount.
             */
            modlist.append(mod_dest);
            }
      return true;
      }
 
//---------------------------------------------------------
//   Sample
//---------------------------------------------------------
 
Sample::Sample(SFont* s)
      {
      sf          = s;
      _valid      = false;
      start       = 0;
      end         = 0;
      loopstart   = 0;
      loopend     = 0;
      samplerate  = 0;
      origpitch   = 0;
      pitchadj    = 0;
      sampletype  = 0;
      data        = 0;
      amplitude_that_reaches_noise_floor_is_valid = false;
      amplitude_that_reaches_noise_floor = 0.0;
      }
 
//---------------------------------------------------------
//   Sample
//---------------------------------------------------------
 
Sample::~Sample()
      {
      delete[] data;
      }
 
//---------------------------------------------------------
//   load
//---------------------------------------------------------
 
void Sample::load()
      {
      if (!_valid || data)
            return;
      QFile fd(sf->get_name());
      if (!fd.open(QIODevice::ReadOnly))
            return;
      if (sampletype & FLUID_SAMPLETYPE_OGG_VORBIS) {
            if (!fd.seek(sf->samplePos() + start))
                  return;
            }
      else {
            if (!fd.seek(sf->samplePos() + start * sizeof(short)))
                  return;
            }
      unsigned int size = end - start;
 
      if (sampletype & FLUID_SAMPLETYPE_OGG_VORBIS) {
#ifdef SOUNDFONT3
            char* p = new char[size];
            if (fd.read(p, size) != size) {
                  printf("  read %d failed\n", size);
                  delete[] p;
                  return;
                  }
            decompressOggVorbis(p, size);
            delete[] p;
#endif
            }
      else {
            data = new short[size];
            size *= sizeof(short);
 
            if (fd.read((char*)data, size) != size)
                  return;
 
            if (QSysInfo::ByteOrder == QSysInfo::BigEndian) {
                  unsigned char hi, lo;
                  unsigned int i, j;
                  short s;
                  uchar* cbuf = (uchar*) data;
                  for (i = 0, j = 0; j < size; i++) {
                        lo = cbuf[j++];
                        hi = cbuf[j++];
                        s = (hi << 8) | lo;
                        data[i] = s;
                        }
                  }
            end       -= (start + 1);       // marks last sample, contrary to SF spec.
            loopstart -= start;
            loopend   -= start;
            start      = 0;
            }
      optimize();
      }
 
//---------------------------------------------------------
//   inRom
//---------------------------------------------------------
 
bool Sample::inRom() const
      {
      return sampletype & FLUID_SAMPLETYPE_ROM;
      }
 
static const char idlist[] = {
      "RIFFLISTsfbkINFOsdtapdtaifilisngINAMiromiverICRDIENGIPRD"
      "ICOPICMTISFTsnamsmplphdrpbagpmodpgeninstibagimodigenshdr"
      };
 
//---------------------------------------------------------
//   chunkid
//---------------------------------------------------------
 
static int chunkid (unsigned int id)
      {
      unsigned int* p = (unsigned int *) & idlist;
      for (unsigned i = 0; i < sizeof (idlist) / sizeof (int); i++, p++) {
            if (*p == id)
                  return (i + 1);
            }
      return UNKN_ID;
      }
 
//---------------------------------------------------------
//   preset_compare
//---------------------------------------------------------
 
static bool preset_compare (Preset* a, Preset* b)
      {
      int aval = (a->bank) << 16 | a->num;
      int bval = (b->bank) << 16 | b->num;
      return aval < bval;
      }
 
//---------------------------------------------------------
//   readchunk
//---------------------------------------------------------
 
void SFont::readchunk(SFChunk* var)
      {
	safe_fread(var, 8);
	if (QSysInfo::ByteOrder == QSysInfo::BigEndian)
		var->size = GUINT32_FROM_BE(var->size);
      else
            var->size = GUINT32_FROM_LE(var->size);
      }
 
//---------------------------------------------------------
//   load
//    return true on success
//---------------------------------------------------------
 
bool SFont::load()
      {
      if (!f.open(QIODevice::ReadOnly)) {
            qCritical("Unable to open file \"%s\"", qPrintable(f.fileName()));
            return false;
            }
      SFChunk chunk;
 
      try {
            readchunk(&chunk);
            if (chunkid(chunk.id) != RIFF_ID)
                  throw(QString("Not a RIFF file"));
 
            safe_fread(&chunk.id, 4);
            if (chunkid (chunk.id) != SFBK_ID)        /* error if not SFBK_ID */
                  throw(QString("Not a sound font file"));
            if (chunk.size != f.size() - 8)
                  throw(QString("Sound font file size mismatch %1 %2").arg(chunk.size).arg(f.size() - 8));
 
            /* Process INFO block */
            read_listchunk(&chunk);
            if (chunkid(chunk.id) != INFO_ID)
                  throw(QString("Invalid ID found when expecting INFO chunk"));
            process_info(chunk.size);
 
            /* Process sample chunk */
            read_listchunk(&chunk);
            if (chunkid (chunk.id) != SDTA_ID)
                  throw(QString("Invalid ID found when expecting SAMPLE chunk"));
            process_sdta(chunk.size);
 
            /* process HYDRA chunk */
            read_listchunk(&chunk);
            if (chunkid (chunk.id) != PDTA_ID)
                  throw(QString("Invalid ID found when expecting HYDRA chunk"));
            process_pdta (chunk.size);
 
            fixup_pgen();
            fixup_igen();
            }
      catch (QString s) {
            qDebug("fluid: error loading sound font: %s", qPrintable(s));
            f.close();
            return false;
            }
      f.close();
      /* sort preset list by bank, preset # */
      qSort(presets.begin(), presets.end(), preset_compare);
      return true;
      }
 
//---------------------------------------------------------
//   READW
//---------------------------------------------------------
 
unsigned short SFont::READW()
      {
	unsigned short _temp;
	safe_fread(&_temp, 2);
      if (QSysInfo::ByteOrder == QSysInfo::BigEndian)
		return GINT16_FROM_BE(_temp);
      else
	      return GINT16_FROM_LE(_temp);
      }
 
//---------------------------------------------------------
//   READD
//---------------------------------------------------------
 
void SFont::READD(unsigned int& var)
      {
      unsigned int _temp;
	safe_fread(&_temp, 4);
	if (QSysInfo::ByteOrder == QSysInfo::BigEndian)
		var = GINT32_FROM_BE(_temp);
      else
	      var = GINT32_FROM_LE(_temp);
      }
 
//---------------------------------------------------------
//   READB
//---------------------------------------------------------
 
unsigned char SFont::READB()
      {
      unsigned char var;
      safe_fread(&var, 1);
      return var;
      }
 
//---------------------------------------------------------
//   READC
//---------------------------------------------------------
 
char SFont::READC()
      {
      char var;
      safe_fread(&var, 1);
      return var;
      }
 
//---------------------------------------------------------
//   FSKIPW
//---------------------------------------------------------
 
void SFont::FSKIPW()
      {
      safe_fseek(2);
      }
 
void SFont::READSTR(char* name)
      {
      safe_fread(name, 20);
      name[20] = '\0';
      }
 
//---------------------------------------------------------
//   read_listchunk
//---------------------------------------------------------
 
void SFont::read_listchunk (SFChunk* chunk)
      {
      readchunk (chunk);
      if (chunkid (chunk->id) != LIST_ID)
            throw(QString("Invalid chunk id in level 0 parse"));
      safe_fread(&chunk->id, 4);
      chunk->size -= 4;
      }
 
//---------------------------------------------------------
//   process_info
//---------------------------------------------------------
 
void SFont::process_info(int size)
      {
      while (size > 0) {
            SFChunk chunk;
            readchunk (&chunk);
            size -= 8;
 
            unsigned char id = chunkid (chunk.id);
 
            if (id == IFIL_ID) {    // sound font version chunk?
                  if (chunk.size != 4)
                        throw(QString("Sound font version info chunk has invalid size"));
 
                  _version.major = READW();
                  _version.minor = READW();
 
                  if (_version.major < 2 || _version.major > 3)
                        throw(QString("Bad Sound font version %1.%2").arg(_version.major).arg(_version.minor));
                  }
            else if (id == IVER_ID) {   /* ROM version chunk? */
                  if (chunk.size != 4)
                        throw(QString("ROM version info chunk has invalid size"));
                  romver.major = READW();
                  romver.minor = READW();
                  }
            else if (id != UNKN_ID) {
                  if ((id != ICMT_ID && chunk.size > 256) || (chunk.size > 65536) || (chunk.size % 2))
                        throw(QString("INFO sub chunk has invalid chunk size"));
 
                  /* alloc for chunk id and da chunk */
                  unsigned char* item = new unsigned char[chunk.size + 1];
 
                  *(unsigned char *) item = id;
                  safe_fread (&item[1], chunk.size);
 
                  /* force terminate info item (don't forget uint8 info ID) */
                  *(item + chunk.size) = '\0';
                  infos.append(item);
                  }
            else
                  throw(QString("Invalid chunk id in INFO chunk"));
            size -= chunk.size;
            }
      if (size < 0)
            throw(QString("INFO chunk size mismatch"));
      }
 
//---------------------------------------------------------
//   process_sdta
//    return true on success
//---------------------------------------------------------
 
void SFont::process_sdta (unsigned int size)
      {
      if (size == 0)
            return;		// no sample data?
 
      /* read sub chunk */
      SFChunk chunk;
      readchunk (&chunk);
      size -= 8;
 
      if (chunkid (chunk.id) != SMPL_ID)
            throw(QString("Expected SMPL chunk found invalid id instead"));
 
      /* SDTA chunk may also contain sm24 chunk for 24 bit samples
      * (not yet supported), only an error if SMPL chunk size is
      * greater than SDTA. */
      if (chunk.size > size)
            throw(QString("SDTA chunk size mismatch %1 != %2").arg(size).arg(chunk.size));
      /* sample data follows */
      setSamplepos(f.pos());
      setSamplesize(chunk.size);
      FSKIP(size);
      }
 
//---------------------------------------------------------
//   pdtahelper
//---------------------------------------------------------
 
void SFont::pdtahelper (unsigned expid, unsigned reclen, SFChunk* chunk, int* size)
      {
      const char* expstr = CHNKIDSTR (expid);
 
      readchunk (chunk);
      *size -= 8;
 
      unsigned id = chunkid(chunk->id);
      if (id != expid)
            throw(QString("Expected PDTA sub-chunk %1 found invalid id instead").arg(expstr));
 
      if (chunk->size % reclen)	/* valid chunk size? */
            throw(QString("chunk size is not a multiple of %1 bytes").arg(reclen));
      if ((*size -= chunk->size) < 0)
            throw(QString("%1 chunk size exceeds remaining PDTA chunk size").arg(expstr));
      }
 
//---------------------------------------------------------
//   process_pdta
//---------------------------------------------------------
 
void SFont::process_pdta (int size)
      {
      static const unsigned id[] = {
            PHDR_ID, PBAG_ID, PMOD_ID, PGEN_ID, IHDR_ID, IBAG_ID, IMOD_ID, IGEN_ID, SHDR_ID
            };
      static const unsigned len[] = {
            SFPHDRSIZE, SFBAGSIZE, SFMODSIZE, SFGENSIZE, SFIHDRSIZE,
            SFBAGSIZE, SFMODSIZE, SFGENSIZE, SFSHDRSIZE
            };
      typedef void (SFont::*LoadFunc)(int);
      static const LoadFunc funcArray[] = {
            &SFont::load_phdr, &SFont::load_pbag, &SFont::load_pmod, &SFont::load_pgen,
            &SFont::load_ihdr, &SFont::load_ibag, &SFont::load_imod, &SFont::load_igen,
            &SFont::load_shdr
            };
      SFChunk chunk;
      for (int i = 0; i < 9; ++i) {
            pdtahelper(id[i], len[i], &chunk, &size);
            (this->*funcArray[i])(chunk.size);
            }
      }
 
/* preset header loader */
void SFont::load_phdr (int size)
      {
      Preset* pr = 0;	/* ptr to current & previous preset */
      unsigned short zndx, pzndx = 0;
 
      if (size % SFPHDRSIZE || size == 0)
            throw(QString("Preset header chunk size is invalid"));
 
      int i = size / SFPHDRSIZE - 1;
      if (i == 0) {				/* at least one preset + term record */
            qWarning("File contains no presets");
            FSKIP (SFPHDRSIZE);
            return;
            }
      for (; i > 0; i--) {				/* load all preset headers */
            Preset* p = new Preset(this);
            presets.append(p);
            char str[21];
            READSTR (str);
            p->name   = QString::fromLatin1(str);
 
            p->num  = READW();
            p->bank = READW();
            zndx    = READW();
            unsigned int tmp;
            READD (tmp);
            READD (tmp);
            READD (tmp);
 
            if (pr) {			/* not first preset? */
                  if (zndx < pzndx)
                        throw(QString("Preset header indices not monotonic"));
                  int i2 = zndx - pzndx;
                  while (i2--)
                        pr->zones.prepend(0);
                  }
            else if (zndx > 0)      /* 1st preset, warn if ofs >0 */
                  qWarning("%d preset zones not referenced, discarding", zndx);
            pr = p;			/* update preset ptr */
            pzndx = zndx;
            }
      FSKIP (24);
      zndx = READW();		/* Read terminal generator index */
      FSKIP (12);
      if (zndx < pzndx)
            throw(QString("Preset header indices not monotonic"));
      int i2 = zndx - pzndx;
      while (i2--)
            pr->zones.prepend(0);
      }
 
/* preset bag loader */
void SFont::load_pbag (int size)
      {
      Zone *z, *pz = 0;
      unsigned short genndx, modndx;
      unsigned short pgenndx = 0, pmodndx = 0;
 
      if (size % SFBAGSIZE || size == 0)	/* size is multiple of SFBAGSIZE? */
            throw(QString("Preset bag chunk size is invalid"));
 
      foreach(Preset* p, presets) {
            for (int i = 0; i < p->zones.size(); ++i) {
	            if ((size -= SFBAGSIZE) < 0)
	                  throw(QString("1:Preset bag chunk size mismatch"));
	            z      = new Zone;
	            genndx = READW();	/* possible read failure ^ */
	            modndx = READW();
	            z->sample = 0;
 
                  if (pz) {			/* if not first zone */
                        if (genndx < pgenndx)
                              throw(QString("Preset bag generator indices not monotonic"));
                        if (modndx < pmodndx)
                              throw(QString("Preset bag modulator indices not monotonic"));
                        int ii = genndx - pgenndx;
                        while (ii--)
                              pz->gen.prepend(0);
                        ii = modndx - pmodndx;
                        while (ii--)
                              pz->mod.prepend(0);
                        }
                  pz           = z;		/* update previous zone ptr */
                  pgenndx      = genndx;	/* update previous zone gen index */
                  pmodndx      = modndx;	/* update previous zone mod index */
	            p->zones[i]  = z;
                  }
            }
      size -= SFBAGSIZE;
      if (size != 0)
            throw(QString("2:Preset bag chunk size mismatch"));
 
      genndx = READW();
      modndx = READW();
 
      if (!pz) {
            if (genndx > 0)
                  qWarning("No preset generators and terminal index not 0");
            if (modndx > 0)
                  qWarning("No preset modulators and terminal index not 0");
            return;
            }
      if (genndx < pgenndx)
            throw(QString("Preset bag generator indices not monotonic"));
      if (modndx < pmodndx)
            throw(QString("Preset bag modulator indices not monotonic"));
      int i = genndx - pgenndx;
      while (i--)
            pz->gen.prepend(0);
      i = modndx - pmodndx;
      while (i--)
            pz->mod.prepend(0);
      }
 
//---------------------------------------------------------
//   load_pmod
//    preset modulator loader
//---------------------------------------------------------
 
void SFont::load_pmod (int size)
      {
      foreach (Preset* p, presets) {
            foreach(Zone* p2, p->zones) {
                  for (int i = 0; i < p2->mod.size(); ++i) {
	                  if ((size -= SFMODSIZE) < 0)
		                  throw(QString("Preset modulator chunk size mismatch"));
	                  SFMod* m  = new SFMod;
	                  m->src    = READW();
	                  m->dest   = READW();
	                  m->amount = READW();
	                  m->amtsrc = READW();
	                  m->trans  = READW();
	                  p2->mod[i] = m;
	                  }
                  }
            }
 
  /*
     If there isn't even a terminal record
     Hmmm, the specs say there should be one, but..
   */
      if (size == 0)
            return;
 
      size -= SFMODSIZE;
      if (size != 0)
            throw(QString("Preset modulator chunk size mismatch"));
      FSKIP (SFMODSIZE);	/* terminal mod */
      }
 
static const unsigned short badgen[] = {
      Gen_Unused1, Gen_Unused2, Gen_Unused3, Gen_Unused4,
      Gen_Reserved1, Gen_Reserved2, Gen_Reserved3, 0
      };
 
static const unsigned short badpgen[] = {
      Gen_StartAddrOfs, Gen_EndAddrOfs, Gen_StartLoopAddrOfs,
      Gen_EndLoopAddrOfs, Gen_StartAddrCoarseOfs, Gen_EndAddrCoarseOfs,
      Gen_StartLoopAddrCoarseOfs, Gen_Keynum, Gen_Velocity,
      Gen_EndLoopAddrCoarseOfs, Gen_SampleModes, Gen_ExclusiveClass,
      Gen_OverrideRootKey, 0
      };
 
/* check validity of instrument generator */
static int gen_valid (int gen)
      {				/* is generator id valid? */
      int i = 0;
 
      if (gen > Gen_MaxValid)
            return false;
      while (badgen[i] && badgen[i] != gen)
            i++;
      return (badgen[i] == 0);
      }
 
/* check validity of preset generator */
static int gen_validp (int gen)
      {				/* is preset generator valid? */
      int i = 0;
 
      if (!gen_valid (gen))
            return false;
      while (badpgen[i] && badpgen[i] != (unsigned short) gen)
            i++;
      return (badpgen[i] == 0);
      }
 
//---------------------------------------------------------
//   gen_inlist
//    Find generator in gen list
//---------------------------------------------------------
 
static SFGen* gen_inlist (int gen, const QList<SFGen*>& genlist)
      {
      foreach(SFGen* p, genlist) {
            if (p == 0)
                  break;
            if (gen == p->id)
	            return p;
            }
      return 0;
      }
 
/* delete zone from zone list */
static void sfont_zone_delete (QList<Zone*>* l, Zone * zone)
      {
      l->removeOne(zone);
      delete zone;
      }
 
/* -------------------------------------------------------------------
 * preset generator loader
 * generator (per preset) loading rules:
 * Zones with no generators or modulators shall be annihilated
 * Global zone must be 1st zone, discard additional ones (instrumentless zones)
 *
 * generator (per zone) loading rules (in order of decreasing precedence):
 * KeyRange is 1st in list (if exists), else discard
 * if a VelRange exists only preceded by a KeyRange, else discard
 * if a generator follows an instrument discard it
 * if a duplicate generator exists replace previous one
 * ------------------------------------------------------------------- */
 
void SFont::load_pgen (int size)
      {
      foreach(Preset* p, presets) {
            bool gzone          = false;
            bool discarded      = false;
 
            QList<Zone*>& zl = p->zones;
            for (int k = 0; k < zl.size(); ++k) {
	            int level = 0;
                  Zone* z = zl[k];
                  int i = 0;
                  for (; i < z->gen.size();) {
	                  SFGen* dup = 0;
	                  bool skip = false;
	                  bool drop = false;
	                  if ((size -= SFGENSIZE) < 0)
		                  throw(QString("1:Preset generator chunk size mismatch"));
 
	                  unsigned short genid = READW();
                        SFGenAmount genval;
	                  if (genid == Gen_KeyRange) {  /* nothing precedes */
		                  if (level == 0) {
		                        level = 1;
		                        genval.range.lo = READB();
		                        genval.range.hi = READB();
		                        }
		                  else
		                        skip = true;
		                  }
	                  else if (genid == Gen_VelRange) {   // only KeyRange precedes
		                  if (level <= 1) {
		                        level = 2;
		                        genval.range.lo = READB();
		                        genval.range.hi = READB();
		                        }
		                  else
		                        skip = true;
		                  }
	                  else if (genid == Gen_Instrument) { /* inst is last gen */
		                  level = 3;
		                  genval.uword = READW();
		                  z->instIdx  = genval.uword + 1;
		                  break;	/* break out of generator loop */
		                  }
	                  else {
		                  level = 2;
		                  if (gen_validp (genid)) {     /* generator valid? */
		                        genval.sword = READW();
		                        dup = gen_inlist (genid, z->gen);
		                        }
		                  else
		                        skip = true;
		                  }
	                  if (!skip) {
                              SFGen *g;
		                  if (!dup) {		/* if gen ! dup alloc new */
		                        g = new SFGen;
		                        g->id = genid;
                                    z->gen[i] = g;
		                        }
		                  else {
		                        g    = dup;	// ptr to orig gen
		                        drop = true;
		                        }
		                  g->amount = genval;
		                  }
	                  else {		/* Skip this generator */
		                  discarded = true;
		                  drop = true;
		                  FSKIPW ();
		                  }
	                  if (!drop)
		                  ++i;
	                  else {
		                  z->gen.removeAt(i);     // drop place holder
                              }
	                  }
                  if (level == 3)
                        z->gen.removeAt(i);     // drop place holder
	            else {			// congratulations its a global zone
	                  if (!gzone) {	// Prior global zones?
		                  gzone = true;
 
		                  // if global zone is not 1st zone, relocate
		                  if (k != 0) {
		                        Zone* save = zl.takeAt(k);
		                        qDebug("Preset \"%s\": Global zone is not first zone", qPrintable(p->name));
		                        zl.prepend(save);
		                        continue;
		                        }
		                  }
	                  else {      // previous global zone exists, discard
		                  qDebug("Preset \"%s\": Discarding invalid global zone", qPrintable(p->name));
		                  sfont_zone_delete(&zl, z);
		                  }
	                  }
                  for (; i < z->gen.size();) {
	                  discarded = true;
	                  if ((size -= SFGENSIZE) < 0)
		                  throw(QString("2:Preset generator chunk size mismatch"));
	                  FSKIP (SFGENSIZE);
                        z->gen.removeAt(i);
	                  }
	            }
            if (discarded)
	            qDebug("Preset \"%s\": Some invalid generators were discarded", qPrintable(p->name));
            }
      /* in case there isn't a terminal record */
      if (size == 0)
            return;
 
      size -= SFGENSIZE;
      if (size != 0)
            throw(QString("3:Preset generator chunk size mismatch"));
      FSKIP (SFGENSIZE);	/* terminal gen */
      }
 
/* instrument header loader */
void SFont::load_ihdr(int size)
      {
      Instrument *p, *pr = 0;	/* ptr to current & previous instrument */
      unsigned short zndx, pzndx = 0;
 
      if (size % SFIHDRSIZE || size == 0)	/* chunk size is valid? */
            throw(QString("Instrumentrument header has invalid size"));
 
      size = size / SFIHDRSIZE - 1;
      if (size == 0) {  /* at least one preset + term record */
            qWarning("File contains no instruments");
            FSKIP (SFIHDRSIZE);
            return;
            }
      for (int i = 0; i < size; i++) {  /* load all instrument headers */
            p = new Instrument;
            instruments.append(p);
            char buffer[21];
            READSTR (buffer);	/* Possible read failure ^ */
            zndx = READW();
 
            if (pr) {   /* not first instrument? */
	            if (zndx < pzndx)
                        throw(QString("Instrument header indices not monotonic"));
	            int i2 = zndx - pzndx;
	            while (i2--)
                        pr->zones.prepend(0);
                  }
            else if (zndx > 0) {	/* 1st inst, warn if ofs >0 */
	            qWarning("%d instrument zones not referenced, discarding", zndx);
                  }
            pzndx = zndx;
            pr = p;			/* update instrument ptr */
            }
 
      FSKIP (20);
      zndx = READW();
 
      if (zndx < pzndx)
            throw(QString("Instrumentrument header indices not monotonic"));
      int i2 = zndx - pzndx;
      while (i2--)
            pr->zones.prepend(0);
      }
 
/* instrument bag loader */
void SFont::load_ibag(int size)
      {
      Zone *z, *pz = 0;
      unsigned short genndx, modndx, pgenndx = 0, pmodndx = 0;
 
      if (size % SFBAGSIZE || size == 0)	/* size is multiple of SFBAGSIZE? */
            throw(QString("Instrumentrument bag chunk size is invalid"));
 
      foreach(Instrument* in, instruments) {
            int n = in->zones.size();
            for (int i = 0; i < n; ++i) {
	            if ((size -= SFBAGSIZE) < 0) {
	                  throw(QString("Instrument bag chunk size mismatch"));
                        }
	            z             = new Zone;
                  in->zones[i]  = z;
	            genndx        = READW();
	            modndx        = READW();
	            z->sample     = 0;
 
	            if (pz) {			/* if not first zone */
	                  if (genndx < pgenndx)
		                  throw(QString("Instrumentrument generator indices not monotonic"));
	                  if (modndx < pmodndx)
		                  throw(QString("Instrumentrument modulator indices not monotonic"));
	                  int i2 = genndx - pgenndx;
	                  while (i2--)
		                  pz->gen.prepend(0);
	                  i2 = modndx - pmodndx;
	                  while (i2--)
		                  pz->mod.prepend(0);
	                  }
	            pz = z;		/* update previous zone ptr */
	            pgenndx = genndx;
	            pmodndx = modndx;
	            }
            }
      size -= SFBAGSIZE;
      if (size != 0)
            throw(QString("Instrumentrument chunk size mismatch"));
 
      genndx = READW();
      modndx = READW();
 
      if (!pz) {  /* in case that all are no zoners */
            if (genndx > 0)
	            qWarning("No instrument generators and terminal index not 0");
            if (modndx > 0)
                  qWarning("No instrument modulators and terminal index not 0");
            return;
            }
      if (genndx < pgenndx)
            throw(QString("Instrumentrument generator indices not monotonic"));
      if (modndx < pmodndx)
            throw(QString("Instrumentrument modulator indices not monotonic"));
      int i = genndx - pgenndx;
      while (i--)
            pz->gen.prepend(0);
      i = modndx - pmodndx;
      while (i--)
            pz->mod.prepend(0);
      }
 
/* instrument modulator loader */
void SFont::load_imod(int size)
      {
      foreach(Instrument* i, instruments) {
            foreach(Zone* p2, i->zones) {
                  for (int k = 0; k < p2->mod.size(); ++k) {
                        if ((size -= SFMODSIZE) < 0)
                              throw(QString("Instrumentrument modulator chunk size mismatch"));
                        SFMod* m  = new SFMod;
	                  m->src    = READW();
	                  m->dest   = READW();
	                  m->amount = READW();
	                  m->amtsrc = READW();
	                  m->trans  = READW();
                        p2->mod[k] = m;
	                  }
	            }
            }
      /*
        If there isn't even a terminal record
        Hmmm, the specs say there should be one, but..
      */
      if (size == 0)
            return;
      size -= SFMODSIZE;
      if (size != 0)
            throw(QString("Instrumentrument modulator chunk size mismatch"));
      FSKIP (SFMODSIZE);	/* terminal mod */
      }
 
//---------------------------------------------------------
//   load_igen
//    load instrument generators
//    (see load_pgen for loading rules)
//---------------------------------------------------------
 
void SFont::load_igen (int size)
      {
      foreach(Instrument* instr, instruments) {
            bool gzone     = false;
            bool discarded = false;
 
            QList<Zone*> zl = instr->zones;
 
            for (int k = 0; k < zl.size(); ++k) {
                  int level = 0;
                  Zone* z = zl[k];
 
                  int i = 0;
                  for (; i < z->gen.size();) {
                        SFGenAmount genval;
                        SFGen* dup = 0;
                        bool skip = false;
                        bool drop = false;
                        if ((size -= SFGENSIZE) < 0)
                              throw(QString("IGEN chunk size mismatch"));
 
                        unsigned short genid = READW();
 
                        if (genid == Gen_KeyRange) {  /* nothing precedes */
                              if (level == 0) {
                                    level = 1;
		                        genval.range.lo = READB();
		                        genval.range.hi = READB();
		                        }
		                  else
		                        skip = true;
		                  }
	                  else if (genid == Gen_VelRange) {   // only KeyRange precedes
		                  if (level <= 1) {
		                        level = 2;
		                        genval.range.lo = READB();
		                        genval.range.hi = READB();
		                        }
		                  else
		                        skip = true;
		                  }
	                  else if (genid == Gen_SampleId) {   // sample is last gen
		                  level = 3;
		                  genval.uword = READW();
		                  z->sampIdx  = genval.uword + 1;
		                  break;	/* break out of generator loop */
		                  }
	                  else {
		                  level = 2;
		                  if (gen_valid (genid)) {      // gen valid?
		                        genval.sword = READW();
		                        dup = gen_inlist (genid, z->gen);
		                        }
		                  else
		                        skip = true;
		                  }
                        if (!skip) {
                              SFGen* g;
		                  if (!dup) {   /* if gen ! dup alloc new */
		                        g = new SFGen;
		                        g->id = genid;
                                    z->gen[i] = g;
		                        }
		                  else {
		                        g = dup;
		                        drop = true;
		                        }
		                  g->amount = genval;
		                  }
	                  else {		/* skip this generator */
		                  discarded = true;
		                  drop = true;
		                  FSKIPW ();
		                  }
	                  if (!drop)
		                  ++i;
	                  else
		                  z->gen.removeAt(i);
	                  }
                  if (level == 3)
                        z->gen.removeAt(i);
	            else {      /* its a global zone */
	                  if (!gzone) {
		                  gzone = true;
 
		                  /* if global zone is not 1st zone, relocate */
      		            if (k != 0) {
	      	                  Zone* save = zl.takeAt(k);
	      	                  zl.prepend(save);
		                        continue;
		                        }
      		            }
	                  else {      /* previous global zone exists, discard */
		                  sfont_zone_delete (&zl, z);
		                  }
      	            }
 
                  for (; i < z->gen.size();) {
	                  discarded = true;
      	            if ((size -= SFGENSIZE) < 0)
	      	            throw(QString("Instrumentrument generator chunk size mismatch"));
      	            FSKIP (SFGENSIZE);
                        z->gen.removeAt(i);
	                  }
                  }
            if (discarded && debugMode)
                  qWarning("Instrument: Some invalid generators were discarded");
            }
      /* for those non-terminal record cases, grr! */
      if (size == 0)
            return;
 
      size -= SFGENSIZE;
      if (size != 0)
            throw(QString("IGEN chunk size mismatch"));
      FSKIP (SFGENSIZE);	/* terminal gen */
      }
 
//---------------------------------------------------------
//   load_shdr
//    sample header loader
//---------------------------------------------------------
 
void SFont::load_shdr (int size)
      {
      if (size % SFSHDRSIZE || size == 0)	/* size is multiple of SHDR size? */
            throw(QString("Sample header has invalid size"));
 
      size = size / SFSHDRSIZE - 1;
      if (size == 0) {        // at least one sample + term record?
            qWarning("File contains no samples");
            FSKIP (SFSHDRSIZE);
            return;
            }
 
      /* load all sample headers */
      for (int i = 0; i < size; i++) {
            Sample* p = new Sample(this);
            sample.append(p);
            char buffer[21];
            READSTR (buffer);
            // READSTR (p->name);
            READD (p->start);
            READD (p->end);	      /* - end, loopstart and loopend */
            READD (p->loopstart);	/* - will be checked and turned into */
            READD (p->loopend);
            READD (p->samplerate);
            p->origpitch = READB();
            p->pitchadj  = READC();
            FSKIPW ();		      // skip sample link
            p->sampletype = READW();
            if (p->sampletype & FLUID_SAMPLETYPE_ROM) {
                  p->setValid(false);
                  continue;
                  }
            if ((p->end > getSamplesize()) || (p->start > (p->end - 4))) {
                  qWarning("Sample start/end file positions are invalid, disabling");
                  p->setValid(false);
                  continue;
                  }
            p->setValid(true);
            if (p->sampletype & FLUID_SAMPLETYPE_OGG_VORBIS) {
                  }
            else {
                  // loop is fowled?? (cluck cluck :)
                  if (p->loopend > p->end || p->loopstart >= p->loopend || p->loopstart <= p->start) {
                        /* can pad loop by 8 samples and ensure at least 4 for loop (2*8+4) */
                        if ((p->end - p->start) >= 20) {
                              p->loopstart = p->start + 8;
                              p->loopend   = p->end - 8;
                              }
                        else {      // loop is fowled, sample is tiny (can't pad 8 samples)
                              p->loopstart = p->start + 1;
                              p->loopend   = p->end - 1;
                              }
                        }
                  if ((p->end - p->start) < 8)
                        p->setValid(false);
                  }
            }
      FSKIP (SFSHDRSIZE);	/* skip terminal shdr */
      }
 
//---------------------------------------------------------
//   fixup_pgen
//    "fixup" (inst # -> inst ptr) instrument references
//    in preset list
//---------------------------------------------------------
 
void SFont::fixup_pgen()
      {
      foreach(Preset* p, presets) {
            foreach(Zone* z, p->zones) {
                  if (z->instIdx) {        // load instrument #
                        z->instrument = instruments[z->instIdx-1];
                        if (!z->instrument)
                              throw(QString("Preset %1 %2: Invalid instrument reference").arg(p->bank).arg(p->num));
                        }
                  }
            }
      }
 
/* "fixup" (sample # -> sample ptr) sample references in instrument list */
void SFont::fixup_igen()
      {
      foreach(Instrument* p, instruments) {
            foreach(Zone* z, p->zones) {
                  if (z->sampIdx) {
                        z->sample = sample[z->sampIdx - 1];
                        if (!z->sample)
                              throw(QString("Instrument: Invalid sample reference"));
                              // throw(QString("Instrument <%1>: Invalid sample reference").arg(p->name));
                        }
                  }
            }
      }
 
//---------------------------------------------------------
//   safe_fread
//---------------------------------------------------------
 
void SFont::safe_fread(void* buf, int count)
      {
      if (f.read((char*)buf, count) != count) {
            if (f.atEnd())
                  throw(QString("EOF while attemping to read %1 bytes").arg(count));
            else
                  throw(QString("File read failed"));
            }
      }
 
//---------------------------------------------------------
//   safe_fseek
//---------------------------------------------------------
 
void SFont::safe_fseek(long ofs)
      {
      qint64 newpos = ofs + f.pos();
      if (!f.seek(newpos))
            throw(QString("File seek failed with offset = %1").arg(ofs));
      }
}
 

V560 A part of conditional expression is always true: (sample != 0).

V641 The size of the '& idlist' buffer is not a multiple of the element size of the type 'unsigned int'.

V570 The 'var->size' variable is assigned to itself.

V773 The exception was thrown without releasing the 'z' pointer. A memory leak is possible.

V730 Not all members of a class are initialized inside the constructor. Consider inspecting: _id.