/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_extensions.hxx" #include #include #include // for M_LN10 and M_E #define _USE_MATH_DEFINES #include #undef _USE_MATH_DEFINES #include // for ::std::sort #include ResId SaneResId( sal_uInt32 ); /*********************************************************************** * * GridWindow * ***********************************************************************/ // --------------------------------------------------------------------- GridWindow::GridWindow(double* pXValues, double* pYValues, int nValues, Window* pParent, sal_Bool bCutValues ) : ModalDialog( pParent, SaneResId( GRID_DIALOG ) ), m_aGridArea( 50, 15, 100, 100 ), m_pXValues( pXValues ), m_pOrigYValues( pYValues ), m_nValues( nValues ), m_pNewYValues( NULL ), m_bCutValues( bCutValues ), m_aHandles(), m_nDragIndex( 0xffffffff ), m_aMarkerBitmap( Bitmap( SaneResId( GRID_DIALOG_HANDLE_BMP ) ), Color( 255, 255, 255 ) ), m_aOKButton( this, SaneResId( GRID_DIALOG_OK_BTN ) ), m_aCancelButton( this, SaneResId( GRID_DIALOG_CANCEL_BTN ) ), m_aResetTypeBox( this, SaneResId( GRID_DIALOG_TYPE_BOX ) ), m_aResetButton( this, SaneResId( GRID_DIALOG_RESET_BTN ) ) { sal_uInt16 nPos = m_aResetTypeBox.InsertEntry( String( SaneResId( RESET_TYPE_LINEAR_ASCENDING ) ) ); m_aResetTypeBox.SetEntryData( nPos, (void *)RESET_TYPE_LINEAR_ASCENDING ); nPos = m_aResetTypeBox.InsertEntry( String( SaneResId( RESET_TYPE_LINEAR_DESCENDING ) ) ); m_aResetTypeBox.SetEntryData( nPos, (void *)RESET_TYPE_LINEAR_DESCENDING ); nPos = m_aResetTypeBox.InsertEntry( String( SaneResId( RESET_TYPE_RESET ) ) ); m_aResetTypeBox.SetEntryData( nPos, (void *)RESET_TYPE_RESET ); nPos = m_aResetTypeBox.InsertEntry( String( SaneResId( RESET_TYPE_EXPONENTIAL ) ) ); m_aResetTypeBox.SetEntryData( nPos, (void *)RESET_TYPE_EXPONENTIAL ); m_aResetTypeBox.SelectEntryPos( 0 ); m_aResetButton.SetClickHdl( LINK( this, GridWindow, ClickButtonHdl ) ); SetMapMode( MapMode( MAP_PIXEL ) ); Size aSize = GetOutputSizePixel(); Size aBtnSize = m_aOKButton.GetOutputSizePixel(); m_aGridArea.setWidth( aSize.Width() - aBtnSize.Width() - 80 ); m_aGridArea.setHeight( aSize.Height() - 40 ); if( m_pOrigYValues && m_nValues ) { m_pNewYValues = new double[ m_nValues ]; memcpy( m_pNewYValues, m_pOrigYValues, sizeof( double ) * m_nValues ); } setBoundings( 0, 0, 1023, 1023 ); computeExtremes(); // create left and right marker as first and last entry m_BmOffX = sal_uInt16(m_aMarkerBitmap.GetSizePixel().Width() >> 1); m_BmOffY = sal_uInt16(m_aMarkerBitmap.GetSizePixel().Height() >> 1); m_aHandles.push_back(impHandle(transform(findMinX(), findMinY()), m_BmOffX, m_BmOffY)); m_aHandles.push_back(impHandle(transform(findMaxX(), findMaxY()), m_BmOffX, m_BmOffY)); FreeResource(); } // --------------------------------------------------------------------- GridWindow::~GridWindow() { if( m_pNewYValues ) delete [] m_pNewYValues; } // --------------------------------------------------------------------- double GridWindow::findMinX() { if( ! m_pXValues ) return 0.0; double fMin = m_pXValues[0]; for( int i = 1; i < m_nValues; i++ ) if( m_pXValues[ i ] < fMin ) fMin = m_pXValues[ i ]; return fMin; } // --------------------------------------------------------------------- double GridWindow::findMinY() { if( ! m_pNewYValues ) return 0.0; double fMin = m_pNewYValues[0]; for( int i = 1; i < m_nValues; i++ ) if( m_pNewYValues[ i ] < fMin ) fMin = m_pNewYValues[ i ]; return fMin; } // --------------------------------------------------------------------- double GridWindow::findMaxX() { if( ! m_pXValues ) return 0.0; double fMax = m_pXValues[0]; for( int i = 1; i < m_nValues; i++ ) if( m_pXValues[ i ] > fMax ) fMax = m_pXValues[ i ]; return fMax; } // --------------------------------------------------------------------- double GridWindow::findMaxY() { if( ! m_pNewYValues ) return 0.0; double fMax = m_pNewYValues[0]; for( int i = 1; i < m_nValues; i++ ) if( m_pNewYValues[ i ] > fMax ) fMax = m_pNewYValues[ i ]; return fMax; } // --------------------------------------------------------------------- void GridWindow::computeExtremes() { if( m_nValues && m_pXValues && m_pOrigYValues ) { m_fMaxX = m_fMinX = m_pXValues[0]; m_fMaxY = m_fMinY = m_pOrigYValues[0]; for( int i = 1; i < m_nValues; i++ ) { if( m_pXValues[ i ] > m_fMaxX ) m_fMaxX = m_pXValues[ i ]; else if( m_pXValues[ i ] < m_fMinX ) m_fMinX = m_pXValues[ i ]; if( m_pOrigYValues[ i ] > m_fMaxY ) m_fMaxY = m_pOrigYValues[ i ]; else if( m_pOrigYValues[ i ] < m_fMinY ) m_fMinY = m_pOrigYValues[ i ]; } setBoundings( m_fMinX, m_fMinY, m_fMaxX, m_fMaxY ); } } // --------------------------------------------------------------------- Point GridWindow::transform( double x, double y ) { Point aRet; aRet.X() = (long)( ( x - m_fMinX ) * (double)m_aGridArea.GetWidth() / ( m_fMaxX - m_fMinX ) + m_aGridArea.Left() ); aRet.Y() = (long)( m_aGridArea.Bottom() - ( y - m_fMinY ) * (double)m_aGridArea.GetHeight() / ( m_fMaxY - m_fMinY ) ); return aRet; } // --------------------------------------------------------------------- void GridWindow::transform( const Point& rOriginal, double& x, double& y ) { x = ( rOriginal.X() - m_aGridArea.Left() ) * (m_fMaxX - m_fMinX) / (double)m_aGridArea.GetWidth() + m_fMinX; y = ( m_aGridArea.Bottom() - rOriginal.Y() ) * (m_fMaxY - m_fMinY) / (double)m_aGridArea.GetHeight() + m_fMinY; } // --------------------------------------------------------------------- void GridWindow::drawLine( double x1, double y1, double x2, double y2 ) { DrawLine( transform( x1, y1 ), transform( x2, y2 ) ); } // --------------------------------------------------------------------- void GridWindow::computeChunk( double fMin, double fMax, double& fChunkOut, double& fMinChunkOut ) { // get a nice chunk size like 10, 100, 25 or such fChunkOut = ( fMax - fMin ) / 6.0; int logchunk = (int)std::log10( fChunkOut ); int nChunk = (int)( fChunkOut / std::exp( (double)(logchunk-1) * M_LN10 ) ); if( nChunk >= 75 ) nChunk = 100; else if( nChunk >= 35 ) nChunk = 50; else if ( nChunk > 20 ) nChunk = 25; else if ( nChunk >= 13 ) nChunk = 20; else if( nChunk > 5 ) nChunk = 10; else nChunk = 5; fChunkOut = (double) nChunk * exp( (double)(logchunk-1) * M_LN10 ); // compute whole chunks fitting into fMin nChunk = (int)( fMin / fChunkOut ); fMinChunkOut = (double)nChunk * fChunkOut; while( fMinChunkOut < fMin ) fMinChunkOut += fChunkOut; } // --------------------------------------------------------------------- void GridWindow::computeNew() { if(2L == m_aHandles.size()) { // special case: only left and right markers double xleft, yleft; double xright, yright; transform(m_aHandles[0L].maPos, xleft, yleft); transform(m_aHandles[1L].maPos, xright, yright ); double factor = (yright-yleft)/(xright-xleft); for( int i = 0; i < m_nValues; i++ ) { m_pNewYValues[ i ] = yleft + ( m_pXValues[ i ] - xleft )*factor; } } else { // sort markers std::sort(m_aHandles.begin(), m_aHandles.end()); const int nSorted = m_aHandles.size(); int i; // get node arrays double* nodex = new double[ nSorted ]; double* nodey = new double[ nSorted ]; for( i = 0L; i < nSorted; i++ ) transform( m_aHandles[i].maPos, nodex[ i ], nodey[ i ] ); for( i = 0; i < m_nValues; i++ ) { double x = m_pXValues[ i ]; m_pNewYValues[ i ] = interpolate( x, nodex, nodey, nSorted ); if( m_bCutValues ) { if( m_pNewYValues[ i ] > m_fMaxY ) m_pNewYValues[ i ] = m_fMaxY; else if( m_pNewYValues[ i ] < m_fMinY ) m_pNewYValues[ i ] = m_fMinY; } } delete [] nodex; delete [] nodey; } } // --------------------------------------------------------------------- double GridWindow::interpolate( double x, double* pNodeX, double* pNodeY, int nNodes ) { // compute Lagrange interpolation double ret = 0; for( int i = 0; i < nNodes; i++ ) { double sum = pNodeY[ i ]; for( int n = 0; n < nNodes; n++ ) { if( n != i ) { sum *= x - pNodeX[ n ]; sum /= pNodeX[ i ] - pNodeX[ n ]; } } ret += sum; } return ret; } // --------------------------------------------------------------------- void GridWindow::setBoundings( double fMinX, double fMinY, double fMaxX, double fMaxY ) { m_fMinX = fMinX; m_fMinY = fMinY; m_fMaxX = fMaxX; m_fMaxY = fMaxY; computeChunk( m_fMinX, m_fMaxX, m_fChunkX, m_fMinChunkX ); computeChunk( m_fMinY, m_fMaxY, m_fChunkY, m_fMinChunkY ); } // --------------------------------------------------------------------- void GridWindow::drawGrid() { char pBuf[256]; SetLineColor( Color( COL_BLACK ) ); // draw vertical lines for( double fX = m_fMinChunkX; fX < m_fMaxX; fX += m_fChunkX ) { drawLine( fX, m_fMinY, fX, m_fMaxY ); // draw tickmarks Point aPt = transform( fX, m_fMinY ); std::sprintf( pBuf, "%g", fX ); String aMark( pBuf, gsl_getSystemTextEncoding() ); Size aTextSize( GetTextWidth( aMark ), GetTextHeight() ); aPt.X() -= aTextSize.Width()/2; aPt.Y() += aTextSize.Height()/2; DrawText( aPt, aMark ); } // draw horizontal lines for( double fY = m_fMinChunkY; fY < m_fMaxY; fY += m_fChunkY ) { drawLine( m_fMinX, fY, m_fMaxX, fY ); // draw tickmarks Point aPt = transform( m_fMinX, fY ); std::sprintf( pBuf, "%g", fY ); String aMark( pBuf, gsl_getSystemTextEncoding() ); Size aTextSize( GetTextWidth( aMark ), GetTextHeight() ); aPt.X() -= aTextSize.Width() + 2; aPt.Y() -= aTextSize.Height()/2; DrawText( aPt, aMark ); } // draw boundings drawLine( m_fMinX, m_fMinY, m_fMaxX, m_fMinY ); drawLine( m_fMinX, m_fMaxY, m_fMaxX, m_fMaxY ); drawLine( m_fMinX, m_fMinY, m_fMinX, m_fMaxY ); drawLine( m_fMaxX, m_fMinY, m_fMaxX, m_fMaxY ); } // --------------------------------------------------------------------- void GridWindow::drawOriginal() { if( m_nValues && m_pXValues && m_pOrigYValues ) { SetLineColor( Color( COL_RED ) ); for( int i = 0; i < m_nValues-1; i++ ) { drawLine( m_pXValues[ i ], m_pOrigYValues[ i ], m_pXValues[ i+1 ], m_pOrigYValues[ i+1 ] ); } } } // --------------------------------------------------------------------- void GridWindow::drawNew() { if( m_nValues && m_pXValues && m_pNewYValues ) { SetClipRegion( m_aGridArea ); SetLineColor( Color( COL_YELLOW ) ); for( int i = 0; i < m_nValues-1; i++ ) { drawLine( m_pXValues[ i ], m_pNewYValues[ i ], m_pXValues[ i+1 ], m_pNewYValues[ i+1 ] ); } SetClipRegion(); } } // --------------------------------------------------------------------- void GridWindow::drawHandles() { for(sal_uInt32 i(0L); i < m_aHandles.size(); i++) { m_aHandles[i].draw(*this, m_aMarkerBitmap); } } // --------------------------------------------------------------------- void GridWindow::Paint( const Rectangle& rRect ) { ModalDialog::Paint( rRect ); drawGrid(); drawOriginal(); drawNew(); drawHandles(); } // --------------------------------------------------------------------- void GridWindow::MouseMove( const MouseEvent& rEvt ) { if( rEvt.GetButtons() == MOUSE_LEFT && m_nDragIndex != 0xffffffff ) { Point aPoint( rEvt.GetPosPixel() ); if( m_nDragIndex == 0L || m_nDragIndex == m_aHandles.size() - 1L) { aPoint.X() = m_aHandles[m_nDragIndex].maPos.X(); } else { if(aPoint.X() < m_aGridArea.Left()) aPoint.X() = m_aGridArea.Left(); else if(aPoint.X() > m_aGridArea.Right()) aPoint.X() = m_aGridArea.Right(); } if( aPoint.Y() < m_aGridArea.Top() ) aPoint.Y() = m_aGridArea.Top(); else if( aPoint.Y() > m_aGridArea.Bottom() ) aPoint.Y() = m_aGridArea.Bottom(); if( aPoint != m_aHandles[m_nDragIndex].maPos ) { m_aHandles[m_nDragIndex].maPos = aPoint; Invalidate( m_aGridArea ); } } ModalDialog::MouseMove( rEvt ); } // --------------------------------------------------------------------- void GridWindow::MouseButtonUp( const MouseEvent& rEvt ) { if( rEvt.GetButtons() == MOUSE_LEFT ) { if( m_nDragIndex != 0xffffffff ) { m_nDragIndex = 0xffffffff; computeNew(); Invalidate( m_aGridArea ); Paint( m_aGridArea ); } } ModalDialog::MouseButtonUp( rEvt ); } // --------------------------------------------------------------------- void GridWindow::MouseButtonDown( const MouseEvent& rEvt ) { Point aPoint( rEvt.GetPosPixel() ); sal_uInt32 nMarkerIndex = 0xffffffff; for(sal_uInt32 a(0L); nMarkerIndex == 0xffffffff && a < m_aHandles.size(); a++) { if(m_aHandles[a].isHit(*this, aPoint)) { nMarkerIndex = a; } } if( rEvt.GetButtons() == MOUSE_LEFT ) { // user wants to drag a button if( nMarkerIndex != 0xffffffff ) { m_nDragIndex = nMarkerIndex; } } else if( rEvt.GetButtons() == MOUSE_RIGHT ) { // user wants to add/delete a button if( nMarkerIndex != 0xffffffff ) { if( nMarkerIndex != 0L && nMarkerIndex != m_aHandles.size() - 1L) { // delete marker under mouse if( m_nDragIndex == nMarkerIndex ) m_nDragIndex = 0xffffffff; m_aHandles.erase(m_aHandles.begin() + nMarkerIndex); } } else { m_BmOffX = sal_uInt16(m_aMarkerBitmap.GetSizePixel().Width() >> 1); m_BmOffY = sal_uInt16(m_aMarkerBitmap.GetSizePixel().Height() >> 1); m_aHandles.push_back(impHandle(aPoint, m_BmOffX, m_BmOffY)); } computeNew(); Invalidate( m_aGridArea ); Paint( m_aGridArea ); } ModalDialog::MouseButtonDown( rEvt ); } // --------------------------------------------------------------------- IMPL_LINK( GridWindow, ClickButtonHdl, Button*, pButton ) { if( pButton == &m_aResetButton ) { int nType = (int)(sal_IntPtr)m_aResetTypeBox.GetEntryData( m_aResetTypeBox.GetSelectEntryPos() ); switch( nType ) { case RESET_TYPE_LINEAR_ASCENDING: { for( int i = 0; i < m_nValues; i++ ) { m_pNewYValues[ i ] = m_fMinY + (m_fMaxY-m_fMinY)/(m_fMaxX-m_fMinX)*(m_pXValues[i]-m_fMinX); } } break; case RESET_TYPE_LINEAR_DESCENDING: { for( int i = 0; i < m_nValues; i++ ) { m_pNewYValues[ i ] = m_fMaxY - (m_fMaxY-m_fMinY)/(m_fMaxX-m_fMinX)*(m_pXValues[i]-m_fMinX); } } break; case RESET_TYPE_RESET: { if( m_pOrigYValues && m_pNewYValues && m_nValues ) memcpy( m_pNewYValues, m_pOrigYValues, m_nValues*sizeof(double) ); } break; case RESET_TYPE_EXPONENTIAL: { for( int i = 0; i < m_nValues; i++ ) { m_pNewYValues[ i ] = m_fMinY + (m_fMaxY-m_fMinY)*(std::exp((m_pXValues[i]-m_fMinX)/(m_fMaxX-m_fMinX))-1.0)/(M_E-1.0); } } break; default: break; } for(sal_uInt32 i(0L); i < m_aHandles.size(); i++) { // find nearest xvalue double x, y; transform( m_aHandles[i].maPos, x, y ); int nIndex = 0; double delta = std::fabs( x-m_pXValues[0] ); for( int n = 1; n < m_nValues; n++ ) { if( delta > std::fabs( x - m_pXValues[ n ] ) ) { delta = std::fabs( x - m_pXValues[ n ] ); nIndex = n; } } if( 0 == i ) m_aHandles[i].maPos = transform( m_fMinX, m_pNewYValues[ nIndex ] ); else if( m_aHandles.size() - 1L == i ) m_aHandles[i].maPos = transform( m_fMaxX, m_pNewYValues[ nIndex ] ); else m_aHandles[i].maPos = transform( m_pXValues[ nIndex ], m_pNewYValues[ nIndex ] ); } Invalidate( m_aGridArea ); Paint(Rectangle()); } return 0; }