Exemplo n.º 1
0
void Envelope::MoveDraggedPoint( wxMouseEvent & event, wxRect & r,
                               double WXUNUSED(h), double pps, bool dB,
                               float zoomMin, float zoomMax)
{
   int clip_y = event.m_y - r.y;
   if(clip_y < 0) clip_y = 0;
   if(clip_y > r.height) clip_y = r.height;
   double newVal = ValueOfPixel(clip_y, r.height, mUpper, dB,
                                zoomMin, zoomMax);

   wxASSERT( pps > 0 );
   // We no longer tolerate multiple envelope points at the same t.
   // epsilon is less than the time offset of a single sample
   // TODO: However because mTrackEpsilon assumes 200KHz this use
   // of epsilon is a tad bogus.  What we need to do instead is delete
   // a duplicated point on a mouse up.
   double newWhen = mInitialWhen + (event.m_x - mInitialX) / pps;

   // We'll limit the drag point time to be between those of the preceding
   // and next envelope point.
   double limitLo = 0.0;
   double limitHi = mTrackLen;

   if (mDragPoint > 0)
      limitLo = mEnv[mDragPoint - 1]->GetT() + mTrackEpsilon;
   if (mDragPoint < (int)mEnv.Count() - 1 )
      limitHi = mEnv[mDragPoint + 1]->GetT() - mTrackEpsilon;

   newWhen = Limit( limitLo, newWhen, limitHi );
   newWhen = Limit( mTrackEpsilon, newWhen, mTrackLen - mTrackEpsilon);

   mEnv[mDragPoint]->SetT(newWhen);
   mEnv[mDragPoint]->SetVal(newVal);

}
Exemplo n.º 2
0
bool Envelope::HandleDragging( wxMouseEvent & event, wxRect & r,
                               double h, double pps, bool dB,
                               float zoomMin, float zoomMax )
{
   int clip_y = event.m_y - r.y;
   if(clip_y < 0) clip_y = 0;
   if(clip_y > r.height) clip_y = r.height;

   mDirty = true;

   wxRect larger = r;
   larger.Inflate(10, 10);

   if (!mIsDeleting &&
       !larger.Inside(event.m_x, event.m_y)){
      
      if( mEnv.Count()> 1) {
         
         if(mDragPoint > 0){
            mEnv[mDragPoint]->t = mEnv[mDragPoint - 1]->t;
            mEnv[mDragPoint]->val = mEnv[mDragPoint - 1]->val;
         }
         else{
            mEnv[mDragPoint]->t = mEnv[mDragPoint + 1]->t;
            mEnv[mDragPoint]->val = mEnv[mDragPoint + 1]->val;
         }
         
      }
      else {
         // temporary state when dragging only! 
         mEnv[mDragPoint]->t = -1000000.0;
         mEnv[mDragPoint]->val = mDefaultValue;
      }

      mIsDeleting = true;
      
      return true;
   }

   if (larger.Inside(event.m_x, event.m_y))
      mIsDeleting = false;

   if (mIsDeleting)
      return false;


   double newVal = ValueOfPixel(clip_y, r.height, mUpper, dB,
                                zoomMin, zoomMax);   

   //float MaxAmplify = ( mContourOffset ) ? 1.4 : 1.0;
   float MaxAmplify = 2.0;

   if (newVal > MaxAmplify)
      newVal = MaxAmplify;

   // We no longer tolerate multiple envelope points at the same t.
   // epsilon is less than the time offset of a single sample
   double newWhen = mInitialWhen + (event.m_x - mInitialX) / pps;

   if (mDragPoint > 0 && 
       newWhen - mTrackEpsilon < mEnv[mDragPoint - 1]->t)
      newWhen = mEnv[mDragPoint - 1]->t + mTrackEpsilon;
   
   if (mDragPoint < (int)mEnv.Count() - 1 && 
       newWhen + mTrackEpsilon > (double)mEnv[mDragPoint + 1]->t)
      newWhen = mEnv[mDragPoint + 1]->t - mTrackEpsilon;
   
   if(newWhen < 0.0)
      newWhen = 0.0;
   
   if(newWhen > mTrackLen)
      newWhen = mTrackLen;
   
   mEnv[mDragPoint]->t = newWhen;
   mEnv[mDragPoint]->val = newVal;

   return true;
}
Exemplo n.º 3
0
bool Envelope::HandleMouseButtonDown(wxMouseEvent & event, wxRect & r,
                                     double h, double pps, bool dB,
                                     float zoomMin, float zoomMax)
{
   bool upper;
   int ctr = (int)(r.height * zoomMax / (zoomMax - zoomMin));
   upper = (event.m_y - r.y < ctr);
   
   int clip_y = event.m_y - r.y;
   if(clip_y < 0) clip_y = 0;
   if(clip_y > r.height) clip_y = r.height;
   
   mIsDeleting = false;
   double tleft = h - mOffset;
   double tright = tleft + (r.width / pps);
   int bestNum = -1;
   int bestDist = 10; // Must be within 10 pixel radius.
   
   double dBr = gPrefs->Read("/GUI/EnvdBRange", ENV_DB_RANGE);
   
   mContourOffset = false;
   
   //   wxLogDebug("Y:%i Height:%i Offset:%i", y, height, mContourOffset );
   
   int len = mEnv.Count();
   for (int i = 0; i < len; i++) {
      if (mEnv[i]->t >= tleft && mEnv[i]->t <= tright) {
         
         int x = int ((mEnv[i]->t + mOffset - h) * pps) + r.x;
         int y[4];
         int numControlPoints;

         // Outer control points
         y[0] = GetWaveYPosNew( mEnv[i]->val, zoomMin, zoomMax, r.height,
                                dB, true, dBr, false);
         y[1] = GetWaveYPosNew( -mEnv[i]->val, zoomMin, zoomMax, r.height,
                                dB, true, dBr, false);

         // Inner control points(contour)
         y[2] = GetWaveYPosNew( mEnv[i]->val, zoomMin, zoomMax, r.height,
                                dB, false, dBr, false);
         y[3] = GetWaveYPosNew( -mEnv[i]->val-.00000001, zoomMin, zoomMax, 
                                r.height, dB, false, dBr, false);

         numControlPoints = 4;

         if (y[2] > y[3])
            numControlPoints = 2;

         if (!mMirror)
            numControlPoints = 1;
         
         for(int j=0; j<numControlPoints; j++){
            
            int d = (int)(sqrt((double)(SQR(x-event.m_x) + SQR(y[j]-(event.m_y-r.y)))) + 0.5);
            if (d < bestDist) {
               bestNum = i;
               bestDist = d;
               mContourOffset = (bool)(j > 1);
            }
         }
      }
   }

   if (bestNum >= 0) {
      mDragPoint = bestNum;
   }
   else {
      // Create new point
      double when = h + (event.m_x - r.x) / pps - mOffset;
      
      //      if (when <= 0 || when >= mTrackLen)
      //         return false;
      
      double v = GetValueAtX( event.m_x, r, h, pps );
      
      int ct = GetWaveYPosNew( v, zoomMin, zoomMax, r.height, dB, 
                               false, dBr, false) ;
      int cb = GetWaveYPosNew( -v-.000000001, zoomMin, zoomMax, r.height, dB, 
                               false, dBr, false) ;
      if( ct <= cb || !mMirror ){
         int t = GetWaveYPosNew( v, zoomMin, zoomMax, r.height, dB, 
                                 true, dBr, false) ;
         int b = GetWaveYPosNew( -v, zoomMin, zoomMax, r.height, dB, 
                                 true, dBr, false) ;
         
         ct = (t + ct) / 2;
         cb = (b + cb) / 2;
         
         if(mMirror &&
            (event.m_y - r.y) > ct &&
            ((event.m_y - r.y) < cb))
            mContourOffset = true;
         else
            mContourOffset = false;
      }
      
      double newVal = ValueOfPixel(clip_y, r.height, upper, dB,
                                   zoomMin, zoomMax);
      
      //float MaxAmplify = ( mContourOffset ) ? 1.4 : 1.0;
      float MaxAmplify = 2.0;
      
      if (newVal > MaxAmplify)
         newVal = MaxAmplify;
      
      mDragPoint = Insert(when, newVal);
      mDirty = true;
   }

   mUpper = upper;

   mInitialWhen = mEnv[mDragPoint]->t;
   mInitialVal = mEnv[mDragPoint]->val;

   mInitialX = event.m_x;
   mInitialY = event.m_y+mContourOffset;

   return true;
}
Exemplo n.º 4
0
/// HandleMouseButtonDown either finds an existing control point or adds a new one
/// which is then recorded as the point to drag.
/// This is slightly complicated by there possibly being four control points for
/// a given time value:
/// We have an upper and lower envelope line.
/// Also we may be showing an inner envelope (at 0.5 the range).
bool Envelope::HandleMouseButtonDown(wxMouseEvent & event, wxRect & r,
                                     double h, double pps, bool dB,
                                     float zoomMin, float zoomMax)
{
   int ctr = (int)(r.height * zoomMax / (zoomMax - zoomMin));
   bool upper = !mMirror || (zoomMin >= 0.0) || (event.m_y - r.y < ctr);

   int clip_y = event.m_y - r.y;
   if(clip_y < 0) clip_y = 0; //keeps point in rect r, even if mouse isn't
   if(clip_y > r.GetBottom()) clip_y = r.GetBottom();

   double tleft = h - mOffset;
   double tright = tleft + (r.width / pps);
   int bestNum = -1;
   int bestDist = 10; // Must be within 10 pixel radius.

   // TODO: Cache the gPrefs value.  Reading it every time is inefficient.
   double dBr = gPrefs->Read(wxT("/GUI/EnvdBRange"), ENV_DB_RANGE);

   // Member variables hold state that will be needed in dragging.
   mButton        = event.GetButton();
   mIsDeleting    = false;
   mContourOffset = false;

   //   wxLogDebug(wxT("Y:%i Height:%i Offset:%i"), y, height, mContourOffset );
   int len = mEnv.Count();

   // TODO: extract this into a function FindNearestControlPoint()
   // TODO: also fix it so that we can drag the last point on an envelope.
   for (int i = 0; i < len; i++) { //search for control point nearest click
      if (mEnv[i]->GetT() >= tleft && mEnv[i]->GetT() <= tright) {

         int x = int ((mEnv[i]->GetT() + mOffset - h) * pps) + r.x;
         int y[4];
         int numControlPoints;

         // Outer control points
         y[0] = GetWaveYPos( mEnv[i]->GetVal(), zoomMin, zoomMax, r.height,
                                dB, true, dBr, false);
         y[1] = GetWaveYPos( -mEnv[i]->GetVal(), zoomMin, zoomMax, r.height,
                                dB, true, dBr, false);

         // Inner control points(contour)
         y[2] = GetWaveYPos( mEnv[i]->GetVal(), zoomMin, zoomMax, r.height,
                                dB, false, dBr, false);
         y[3] = GetWaveYPos( -mEnv[i]->GetVal()-.00000001, zoomMin, zoomMax,
                                r.height, dB, false, dBr, false);

         numControlPoints = 4;

         if (y[2] > y[3])
            numControlPoints = 2;

         if (!mMirror)
            numControlPoints = 1;

         for(int j=0; j<numControlPoints; j++){

            int d = (int)(sqrt((double)(SQR(x-event.m_x) + SQR(y[j]-(event.m_y-r.y)))) + 0.5);
            if (d < bestDist) {
               bestNum = i;
               bestDist = d;
               mContourOffset = (bool)(j > 1);
            }
         }
      }
   }

   if (bestNum >= 0) {
      mDragPoint = bestNum;
   }
   else {
      // TODO: Extract this into a function CreateNewPoint
      double when = h + (event.m_x - r.x) / pps - mOffset;

      //      if (when <= 0 || when >= mTrackLen)
      //         return false;

      double v = GetValueAtX( event.m_x, r, h, pps );

      int ct = GetWaveYPos( v, zoomMin, zoomMax, r.height, dB,
                               false, dBr, false) ;
      int cb = GetWaveYPos( -v-.000000001, zoomMin, zoomMax, r.height, dB,
                               false, dBr, false) ;
      if( ct <= cb || !mMirror ){
         int t = GetWaveYPos( v, zoomMin, zoomMax, r.height, dB,
                                 true, dBr, false) ;
         int b = GetWaveYPos( -v, zoomMin, zoomMax, r.height, dB,
                                 true, dBr, false) ;

         ct = (t + ct) / 2;
         cb = (b + cb) / 2;

         if(mMirror &&
            (event.m_y - r.y) > ct &&
            ((event.m_y - r.y) < cb))
            mContourOffset = true;
         else
            mContourOffset = false;
      }

      double newVal = ValueOfPixel(clip_y, r.height, upper, dB,
                                   zoomMin, zoomMax);

      mDragPoint = Insert(when, newVal);
      mDirty = true;
   }

   mUpper = upper;

   mInitialWhen = mEnv[mDragPoint]->GetT();
   mInitialVal = mEnv[mDragPoint]->GetVal();

   mInitialX = event.m_x;
   mInitialY = event.m_y+mContourOffset;

   return true;
}