/[svn]/linuxsampler/trunk/src/engines/sfz/sfz.cpp

Diff of /linuxsampler/trunk/src/engines/sfz/sfz.cpp

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-revision 2229 by iliev,
Thu Aug  4 19:02:36 2011 UTC
+revision 2233 by iliev,
Mon Aug  8 18:46:19 2011 UTC
 Line 198 
 namespace sfz
          this->name = name;
          this->pSampleManager = pSampleManager ? pSampleManager : this;
          pLookupTable = 0;
+         // The first 6 curves are defined internally (actually 7 with the one at index 0)
+         Curve c;
+         for (int i = 0; i < 128; i++) c.v[i] = i / 127.0f;
+         curves.add(c); curves.add(c); curves.add(c); curves.add(c);
+         curves.add(c); curves.add(c); curves.add(c);
+         ///////
      }
      Instrument::~Instrument()
-Line 315 
 namespace sfz
+Line 322 
 namespace sfz
          // amplifier
          volume = 0;
+         volume_oncc.clear();
+         volume_curvecc.clear();
+         volume_smoothcc.clear();
          pan = 0;
          width = 100;
          position = 0;
-Line 441 
 namespace sfz
+Line 451 
 namespace sfz
          cutoff_cc = 0;
          eg.clear();
+         lfos.clear();
          // deprecated
          ampeg_delay    = 0;
-Line 457 
 namespace sfz
+Line 468 
 namespace sfz
          ampeg_vel2decay   = 0;
          ampeg_vel2sustain = 0;
          ampeg_vel2release = 0;
+         ampeg_delaycc.clear();
+         ampeg_startcc.clear();
+         ampeg_attackcc.clear();
+         ampeg_holdcc.clear();
+         ampeg_decaycc.clear();
+         ampeg_sustaincc.clear();
+         ampeg_releasecc.clear();
          fileg_delay    = 0;
          fileg_start    = 0; //in percentage
-Line 494 
 namespace sfz
+Line 513 
 namespace sfz
          amplfo_fade      = 0;
          amplfo_freq      = -1; /* -1 is used to determine whether the LFO was initialized */
          amplfo_depth     = 0;
+         amplfo_depthcc.clear();
+         amplfo_freqcc.clear();
          fillfo_delay     = 0;
          fillfo_fade      = 0;
          fillfo_freq      = -1; /* -1 is used to determine whether the LFO was initialized */
          fillfo_depth     = 0;
+         fillfo_depthcc.clear();
+         fillfo_freqcc.clear();
          pitchlfo_delay   = 0;
          pitchlfo_fade    = 0;
          pitchlfo_freq    = -1; /* -1 is used to determine whether the LFO was initialized */
          pitchlfo_depth   = 0;
+         pitchlfo_freqcc.clear();
      }
      Region*
-Line 583 
 namespace sfz
+Line 607 
 namespace sfz
          // amplifier
          region->volume = volume;
+         region->volume_oncc = volume_oncc;
+         region->volume_curvecc = volume_curvecc;
+         region->volume_smoothcc = volume_smoothcc;
          region->pan = pan;
          region->width = width;
          region->position = position;
-Line 748 
 namespace sfz
+Line 775 
 namespace sfz
          region->amplfo_freq      = amplfo_freq;
          region->amplfo_depth     = amplfo_depth;
+         region->amplfo_depthcc   = amplfo_depthcc;
          region->amplfo_freqcc    = amplfo_freqcc;
          region->fillfo_delay     = fillfo_delay;
-Line 755 
 namespace sfz
+Line 783 
 namespace sfz
          region->fillfo_freq      = fillfo_freq;
          region->fillfo_depth     = fillfo_depth;
+         region->fillfo_depthcc   = fillfo_depthcc;
          region->fillfo_freqcc    = fillfo_freqcc;
          region->pitchlfo_delay   = pitchlfo_delay;
-Line 939 
 namespace sfz
+Line 968 
 namespace sfz
          for (int i = 0 ; i < 128 ; i++) {
              _instrument->pLookupTableCC[i] = new LookupTable(_instrument, i);
          }
+         for (int i = 0; i < _instrument->regions.size(); i++) {
+             Region* r = _instrument->regions[i];
+             copyCurves(r->volume_curvecc, r->volume_oncc);
+             r->volume_curvecc.clear();
+             copySmoothValues(r->volume_smoothcc, r->volume_oncc);
+             r->volume_smoothcc.clear();
+             for (int j = 0; j < r->lfos.size(); j++) {
+                 copySmoothValues(r->lfos[j].volume_smoothcc, r->lfos[j].volume_oncc);
+                 r->lfos[j].volume_smoothcc.clear();
+                 copySmoothValues(r->lfos[j].freq_smoothcc, r->lfos[j].freq_oncc);
+                 r->lfos[j].freq_smoothcc.clear();
+                 copySmoothValues(r->lfos[j].pitch_smoothcc, r->lfos[j].pitch_oncc);
+                 r->lfos[j].pitch_smoothcc.clear();
+                 copySmoothValues(r->lfos[j].pan_smoothcc, r->lfos[j].pan_oncc);
+                 r->lfos[j].pan_smoothcc.clear();
+                 copySmoothValues(r->lfos[j].cutoff_smoothcc, r->lfos[j].cutoff_oncc);
+                 r->lfos[j].cutoff_smoothcc.clear();
+                 copySmoothValues(r->lfos[j].resonance_smoothcc, r->lfos[j].resonance_oncc);
+                 r->lfos[j].resonance_smoothcc.clear();
+             }
+         }
      }
      File::~File()
-Line 952 
 namespace sfz
+Line 1011 
 namespace sfz
      {
          return _instrument;
      }
+     void File::copyCurves(LinuxSampler::ArrayList<CC>& curves, LinuxSampler::ArrayList<CC>& dest) {
+         for (int i = 0; i < curves.size(); i++) {
+             for (int j = 0; j < dest.size(); j++) {
+                 if (curves[i].Controller == dest[j].Controller) {
+                     dest[j].Curve = curves[i].Curve;
+                 }
+             }
+         }
+     }
+     void File::copySmoothValues(LinuxSampler::ArrayList<CC>& smooths, LinuxSampler::ArrayList<CC>& dest) {
+         for (int i = 0; i < smooths.size(); i++) {
+             for (int j = 0; j < dest.size(); j++) {
+                 if (smooths[i].Controller == dest[j].Controller) {
+                     dest[j].Smooth = smooths[i].Smooth;
+                 }
+             }
+         }
+     }
      void
      File::push_header(std::string token)
-Line 977 
 namespace sfz
+Line 1056 
 namespace sfz
              octave_offset = 0;
              note_offset = 0;
          }
+         else if (token == "<curve>")
+         {
+             _current_section = CURVE;
+             _instrument->curves.add(Curve());
+             _current_curve = &_instrument->curves[_instrument->curves.size() - 1];
+         }
          else
          {
              _current_section = UNKNOWN;
-Line 994 
 namespace sfz
+Line 1079 
 namespace sfz
          std::string key = token.substr(0, delimiter_index);
          std::string value = token.substr(delimiter_index + 1);
          int x, y, z;
+         if (_current_section == CURVE) {
+             if (sscanf(key.c_str(), "v%d", &x)) {
+                 if (x < 0 || x > 127) {
+                     std::cerr << "Invalid curve index: " << x << std::endl;
+                 }
+                 _current_curve->v[x] = check(key, 0.0f, 1.0f, ToFloat(value));
+             } else {
+                 std::cerr << "The opcode '" << key << "' in section <curve> is unsupported by libsfz!" << std::endl;
+             }
+             return;
+         }
          // sample definition
          if ("sample" == key)
-Line 1318 
 namespace sfz
+Line 1416 
 namespace sfz
              const char* s = key.c_str() + y;
              if (strcmp(s, "_freq") == 0) lfo(x).freq = check(key, 0.0f, 20.0f, ToFloat(value));
              else if (sscanf(s, "_freq_oncc%d", &y)) lfo(x).freq_oncc.add( CC(y, check(key, 0.0f, 20.0f, ToFloat(value))) );
+             else if (sscanf(s, "_freq_smoothcc%d", &y)) lfo(x).freq_smoothcc.add( CC(y, 0, -1, check(key, 0, 100000 /* max? */, ToInt(value))) );
              else if (strcmp(s, "_wave") == 0) lfo(x).wave = ToInt(value);
              else if (strcmp(s, "_delay") == 0) lfo(x).delay = check(key, 0.0f, 100.0f, ToFloat(value));
+             else if (sscanf(s, "_delay_oncc%d", &y)) lfo(x).delay_oncc.add( CC(y, check(key, 0.0f, 100.0f, ToFloat(value))) );
              else if (strcmp(s, "_fade") == 0) lfo(x).fade = check(key, 0.0f, 100.0f, ToFloat(value));
              else if (sscanf(s, "_fade_oncc%d", &y)) lfo(x).fade_oncc.add( CC(y, check(key, 0.0f, 100.0f, ToFloat(value))) );
              else if (strcmp(s, "_phase") == 0) lfo(x).phase = check(key, 0.0f, 360.0f, ToFloat(value));
              else if (sscanf(s, "_phase_oncc%d", &y)) lfo(x).phase_oncc.add( CC(y, check(key, 0.0f, 360.0f, ToFloat(value))) );
              else if (strcmp(s, "_volume") == 0) lfo(x).volume = check(key, -144.0f, 6.0f, ToFloat(value));
+             else if (sscanf(s, "_volume_oncc%d", &y)) lfo(x).volume_oncc.add( CC(y, check(key, -144.0f, 6.0f, ToFloat(value))) );
+             else if (sscanf(s, "_volume_smoothcc%d", &y)) lfo(x).volume_smoothcc.add( CC(y, 0, -1, check(key, 0, 100000 /* max? */, ToInt(value))) );
              else if (strcmp(s, "_pitch") == 0) lfo(x).pitch = check(key, -9600, 9600, ToInt(value));
              else if (sscanf(s, "_pitch_oncc%d", &y)) lfo(x).pitch_oncc.add( CC(y, check(key, -9600, 9600, ToInt(value))) );
+             else if (sscanf(s, "_pitch_smoothcc%d", &y)) lfo(x).pitch_smoothcc.add( CC(y, 0, -1, check(key, 0, 100000 /* max? */, ToInt(value))) );
              else if (strcmp(s, "_cutoff") == 0) lfo(x).cutoff = check(key, -9600, 9600, ToInt(value));
+             else if (sscanf(s, "_cutoff_oncc%d", &y)) lfo(x).cutoff_oncc.add( CC(y, check(key, -9600, 9600, ToInt(value))) );
+             else if (sscanf(s, "_cutoff_smoothcc%d", &y)) lfo(x).cutoff_smoothcc.add( CC(y, 0, -1, check(key, 0, 100000 /* max? */, ToInt(value))) );
              else if (strcmp(s, "_resonance") == 0) lfo(x).resonance = check(key, 0.0f, 40.0f, ToFloat(value));
+             else if (sscanf(s, "_resonance_oncc%d", &y)) lfo(x).resonance_oncc.add( CC(y, check(key, 0.0f, 40.0f, ToFloat(value))) );
+             else if (sscanf(s, "_resonance_smoothcc%d", &y)) lfo(x).resonance_smoothcc.add( CC(y, 0, -1, check(key, 0, 100000 /* max? */, ToInt(value))) );
              else if (strcmp(s, "_pan") == 0) lfo(x).pan = check(key, -100.0f, 100.0f, ToFloat(value));
+             else if (sscanf(s, "_pan_oncc%d", &y)) lfo(x).pan_oncc.add( CC(y, check(key, -100.0f, 100.0f, ToFloat(value))) );
+             else if (sscanf(s, "_pan_smoothcc%d", &y)) lfo(x).pan_smoothcc.add( CC(y, 0, -1, check(key, 0, 100000 /* max? */, ToInt(value))) );
              else std::cerr << "The opcode '" << key << "' is unsupported by libsfz!" << std::endl;
          }
          // CCs
          else if (key.find("cc") != std::string::npos)
          {
-Line 1403 
 namespace sfz
+Line 1512 
 namespace sfz
              else if ("pitchlfo_depth" == key_cc) pCurDef->pitchlfo_depthcc.set(num_cc, ToInt(value));
              else if ("pitchlfo_freq" == key_cc) pCurDef->pitchlfo_freqcc.add( CC(num_cc, check(key, -200.0f, 200.0f, ToFloat(value))) );
+             else if ("fillfo_depth" == key_cc) pCurDef->fillfo_depthcc.add( CC(num_cc, check(key, -1200, 1200, ToInt(value))) );
              else if ("fillfo_freq" == key_cc) pCurDef->fillfo_freqcc.add( CC(num_cc, check(key, -200.0f, 200.0f, ToFloat(value))) );
+             else if ("amplfo_depth" == key_cc) pCurDef->amplfo_depthcc.add( CC(num_cc, check(key, -10.0f, 10.0f, ToFloat(value))) );
              else if ("amplfo_freq" == key_cc) pCurDef->amplfo_freqcc.add( CC(num_cc, check(key, -200.0f, 200.0f, ToFloat(value))) );
+             else if ("volume_on" == key_cc) pCurDef->volume_oncc.add( CC(num_cc, check(key, -100.0f, 100.0f, ToFloat(value))) );
+             else if ("volume_curve" == key_cc) pCurDef->volume_curvecc.add( CC(num_cc, 0, check(key, 0, 30000, ToInt(value))) );
+             else if ("volume_smooth" == key_cc) pCurDef->volume_smoothcc.add( CC(num_cc, 0, -1, check(key, 0.0f, 100000.0f /* max? */, ToFloat(value))) );
              else std::cerr << "The opcode '" << key << "' is unsupported by libsfz!" << std::endl;
          }
-Line 1475 
 namespace sfz
+Line 1589 
 namespace sfz
          cutoff     = eg.cutoff;
          node       = eg.node;
      }
-     EG& File::eg(int x) {
-         while (pCurDef->eg.size() <= x) {
-             pCurDef->eg.add(EG());
-         }
-         return pCurDef->eg[x];
-     }
-     EGNode& File::egnode(int x, int y) {
-         EG& e = eg(x);
-         while (e.node.size() <= y) {
-             e.node.add(EGNode());
-         }
-         return e.node[y];
-     }
      LFO::LFO(): freq (-1),/* -1 is used to determine whether the LFO was initialized */
                  fade(0), phase(0), wave(0), delay(0), pitch(0), cutoff(0), resonance(0), pan(0) {
-Line 1507 
 namespace sfz
+Line 1606 
 namespace sfz
          cutoff     = lfo.cutoff;
          resonance  = lfo.resonance;
          pan        = lfo.pan;
-         freq_oncc  = lfo.freq_oncc;
-         fade_oncc  = lfo.fade_oncc;
+         delay_oncc      = lfo.delay_oncc;
-         phase_oncc = lfo.phase_oncc;
+         freq_oncc       = lfo.freq_oncc;
-         pitch_oncc = lfo.pitch_oncc;
+         freq_smoothcc   = lfo.freq_smoothcc;
+         fade_oncc       = lfo.fade_oncc;
+         phase_oncc      = lfo.phase_oncc;
+         pitch_oncc      = lfo.pitch_oncc;
+         pitch_smoothcc  = lfo.pitch_smoothcc;
+         volume_oncc     = lfo.volume_oncc;
+         volume_smoothcc = lfo.volume_smoothcc;
+         pan_oncc        = lfo.pan_oncc;
+         pan_smoothcc    = lfo.pan_smoothcc;
+         cutoff_oncc     = lfo.cutoff_oncc;
+         cutoff_smoothcc = lfo.cutoff_smoothcc;
+         resonance_oncc     = lfo.resonance_oncc;
+         resonance_smoothcc = lfo.resonance_smoothcc;
+     }
+     EG& File::eg(int x) {
+         while (pCurDef->eg.size() <= x) {
+             pCurDef->eg.add(EG());
+         }
+         return pCurDef->eg[x];
+     }
+     EGNode& File::egnode(int x, int y) {
+         EG& e = eg(x);
+         while (e.node.size() <= y) {
+             e.node.add(EGNode());
+         }
+         return e.node[y];
      }
      LFO& File::lfo(int x) {

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