/* * This program source code file is part of KICAD, a free EDA CAD application. * * Copyright (C) 1992-2010 jean-pierre.charras * Copyright (C) 1992-2021 KiCad Developers, see AUTHORS.txt for contributors. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, you may find one here: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include "bitmap2cmp_gui.h" #include "bitmap2component.h" #include #include #include #include #include // for KiROUND #include #include #include #include #include #include #include #include #include #include #include "bitmap2cmp_gui_base.h" #define DEFAULT_DPI 300 // the image DPI used in formats that do not define a DPI IMAGE_SIZE::IMAGE_SIZE() { m_outputSize = 0.0; m_originalDPI = DEFAULT_DPI; m_originalSizePixels = 0; m_unit = EDA_UNITS::MILLIMETRES; } void IMAGE_SIZE::SetOutputSizeFromInitialImageSize() { // Safety-check to guarantee no divide-by-zero m_originalDPI = std::max( 1, m_originalDPI ); // Set the m_outputSize value from the m_originalSizePixels and the selected unit if( m_unit == EDA_UNITS::MILLIMETRES ) { m_outputSize = (double)GetOriginalSizePixels() / m_originalDPI * 25.4; } else if( m_unit == EDA_UNITS::INCHES ) { m_outputSize = (double)GetOriginalSizePixels() / m_originalDPI; } else { m_outputSize = m_originalDPI; } } int IMAGE_SIZE::GetOutputDPI() { int outputDPI; if( m_unit == EDA_UNITS::MILLIMETRES ) { outputDPI = GetOriginalSizePixels() / ( m_outputSize / 25.4 ); } else if( m_unit == EDA_UNITS::INCHES ) { outputDPI = GetOriginalSizePixels() / m_outputSize; } else { outputDPI = KiROUND( m_outputSize ); } // Zero is not a DPI, and may cause divide-by-zero errors... outputDPI = std::max( 1, outputDPI ); return outputDPI; } void IMAGE_SIZE::SetUnit( EDA_UNITS aUnit ) { // Set the unit used for m_outputSize, and convert the old m_outputSize value // to the value in new unit if( aUnit == m_unit ) return; // Convert m_outputSize to mm: double size_mm; if( m_unit == EDA_UNITS::MILLIMETRES ) { size_mm = m_outputSize; } else if( m_unit == EDA_UNITS::INCHES ) { size_mm = m_outputSize * 25.4; } else { // m_outputSize is the DPI, not an image size // the image size is m_originalSizePixels / m_outputSize (in inches) if( m_outputSize ) size_mm = m_originalSizePixels / m_outputSize * 25.4; else size_mm = 0; } // Convert m_outputSize to new value: if( aUnit == EDA_UNITS::MILLIMETRES ) { m_outputSize = size_mm; } else if( aUnit == EDA_UNITS::INCHES ) { m_outputSize = size_mm / 25.4; } else { if( size_mm ) m_outputSize = m_originalSizePixels / size_mm * 25.4; else m_outputSize = 0; } m_unit = aUnit; } BM2CMP_FRAME::BM2CMP_FRAME( KIWAY* aKiway, wxWindow* aParent ) : BM2CMP_FRAME_BASE( aParent ) { SetKiway( this, aKiway ); for( wxString unit : { _( "mm" ), _( "Inch" ), _( "DPI" ) } ) m_PixelUnit->Append( unit ); LoadSettings( config() ); m_outputSizeX.SetUnit( getUnitFromSelection() ); m_outputSizeY.SetUnit( getUnitFromSelection() ); m_outputSizeX.SetOutputSize( 0, getUnitFromSelection() ); m_outputSizeY.SetOutputSize( 0, getUnitFromSelection() ); m_UnitSizeX->ChangeValue( FormatOutputSize( m_outputSizeX.GetOutputSize() ) ); m_UnitSizeY->ChangeValue( FormatOutputSize( m_outputSizeY.GetOutputSize() ) ); //Set icon for aspect ratio m_AspectRatioLocked = true; m_AspectRatio = 1; m_AspectRatioLockButton->SetBitmap( KiBitmap( BITMAPS::locked ) ); // Give an icon wxIcon icon; wxIconBundle icon_bundle; icon.CopyFromBitmap( KiBitmap( BITMAPS::icon_bitmap2component ) ); icon_bundle.AddIcon( icon ); icon.CopyFromBitmap( KiBitmap( BITMAPS::icon_bitmap2component_32 ) ); icon_bundle.AddIcon( icon ); icon.CopyFromBitmap( KiBitmap( BITMAPS::icon_bitmap2component_16 ) ); icon_bundle.AddIcon( icon ); SetIcons( icon_bundle ); GetSizer()->SetSizeHints( this ); m_buttonExportFile->Enable( false ); m_buttonExportClipboard->Enable( false ); SetSize( m_framePos.x, m_framePos.y, m_frameSize.x, m_frameSize.y ); if ( m_framePos == wxDefaultPosition ) Centre(); } BM2CMP_FRAME::~BM2CMP_FRAME() { SaveSettings( config() ); /* * This needed for OSX: avoids further OnDraw processing after this * destructor and before the native window is destroyed */ Freeze(); } wxWindow* BM2CMP_FRAME::GetToolCanvas() const { return m_Notebook->GetCurrentPage(); } void BM2CMP_FRAME::LoadSettings( APP_SETTINGS_BASE* aCfg ) { EDA_BASE_FRAME::LoadSettings( aCfg ); auto cfg = static_cast( aCfg ); m_BitmapFileName = cfg->m_BitmapFileName; m_ConvertedFileName = cfg->m_ConvertedFileName; int u_select = cfg->m_Units; if( u_select < 0 || u_select > 2 ) // Validity control u_select = 0; m_PixelUnit->SetSelection( u_select ); m_sliderThreshold->SetValue( cfg->m_Threshold ); m_Negative = cfg->m_Negative; m_checkNegative->SetValue( cfg->m_Negative ); m_exportToClipboard = false; m_AspectRatioLocked = false; int format = cfg->m_LastFormat; if( format < 0 || format > FINAL_FMT ) format = PCBNEW_KICAD_MOD; m_rbOutputFormat->SetSelection( format ); if( format == PCBNEW_KICAD_MOD ) m_rbPCBLayer->Enable( true ); else m_rbPCBLayer->Enable( false ); int last_layer = cfg->m_LastModLayer; if( last_layer > static_cast( MOD_LYR_FINAL ) ) // Out of range m_rbPCBLayer->SetSelection( MOD_LYR_FSILKS ); else m_rbPCBLayer->SetSelection( last_layer ); } void BM2CMP_FRAME::SaveSettings( APP_SETTINGS_BASE* aCfg ) { EDA_BASE_FRAME::SaveSettings( aCfg ); auto cfg = static_cast( aCfg ); cfg->m_BitmapFileName = m_BitmapFileName; cfg->m_ConvertedFileName = m_ConvertedFileName; cfg->m_Threshold = m_sliderThreshold->GetValue(); cfg->m_Negative = m_checkNegative->IsChecked(); cfg->m_LastFormat = m_rbOutputFormat->GetSelection(); cfg->m_LastModLayer = m_rbPCBLayer->GetSelection(); cfg->m_Units = m_PixelUnit->GetSelection(); } void BM2CMP_FRAME::OnPaintInit( wxPaintEvent& event ) { #ifdef __WXMAC__ // Otherwise fails due: using wxPaintDC without being in a native paint event wxClientDC pict_dc( m_InitialPicturePanel ); #else wxPaintDC pict_dc( m_InitialPicturePanel ); #endif m_InitialPicturePanel->PrepareDC( pict_dc ); // OSX crashes with empty bitmaps (on initial refreshes) if( m_Pict_Bitmap.IsOk() ) pict_dc.DrawBitmap( m_Pict_Bitmap, 0, 0, !!m_Pict_Bitmap.GetMask() ); event.Skip(); } void BM2CMP_FRAME::OnPaintGreyscale( wxPaintEvent& event ) { #ifdef __WXMAC__ // Otherwise fails due: using wxPaintDC without being in a native paint event wxClientDC greyscale_dc( m_GreyscalePicturePanel ); #else wxPaintDC greyscale_dc( m_GreyscalePicturePanel ); #endif m_GreyscalePicturePanel->PrepareDC( greyscale_dc ); // OSX crashes with empty bitmaps (on initial refreshes) if( m_Greyscale_Bitmap.IsOk() ) greyscale_dc.DrawBitmap( m_Greyscale_Bitmap, 0, 0, !!m_Greyscale_Bitmap.GetMask() ); event.Skip(); } void BM2CMP_FRAME::OnPaintBW( wxPaintEvent& event ) { #ifdef __WXMAC__ // Otherwise fails due: using wxPaintDC without being in a native paint event wxClientDC nb_dc( m_BNPicturePanel ); #else wxPaintDC nb_dc( m_BNPicturePanel ); #endif m_BNPicturePanel->PrepareDC( nb_dc ); if( m_BN_Bitmap.IsOk() ) nb_dc.DrawBitmap( m_BN_Bitmap, 0, 0, !!m_BN_Bitmap.GetMask() ); event.Skip(); } void BM2CMP_FRAME::OnLoadFile( wxCommandEvent& event ) { wxFileName fn( m_BitmapFileName ); wxString path = fn.GetPath(); if( path.IsEmpty() || !wxDirExists( path ) ) path = m_mruPath; wxFileDialog fileDlg( this, _( "Choose Image" ), path, wxEmptyString, _( "Image Files" ) + wxS( " " )+ wxImage::GetImageExtWildcard(), wxFD_OPEN | wxFD_FILE_MUST_EXIST ); int diag = fileDlg.ShowModal(); if( diag != wxID_OK ) return; wxString fullFilename = fileDlg.GetPath(); if( !OpenProjectFiles( std::vector( 1, fullFilename ) ) ) return; fn = fullFilename; m_mruPath = fn.GetPath(); SetStatusText( fullFilename ); Refresh(); } bool BM2CMP_FRAME::OpenProjectFiles( const std::vector& aFileSet, int aCtl ) { m_Pict_Image.Destroy(); m_BitmapFileName = aFileSet[0]; if( !m_Pict_Image.LoadFile( m_BitmapFileName ) ) { // LoadFile has its own UI, no need for further failure notification here return false; } m_Pict_Bitmap = wxBitmap( m_Pict_Image ); // Determine image resolution in DPI (does not existing in all formats). // the resolution can be given in bit per inches or bit per cm in file int imageDPIx = m_Pict_Image.GetOptionInt( wxIMAGE_OPTION_RESOLUTIONX ); int imageDPIy = m_Pict_Image.GetOptionInt( wxIMAGE_OPTION_RESOLUTIONY ); if( imageDPIx > 1 && imageDPIy > 1 ) { if( m_Pict_Image.GetOptionInt( wxIMAGE_OPTION_RESOLUTIONUNIT ) == wxIMAGE_RESOLUTION_CM ) { imageDPIx = KiROUND( imageDPIx * 2.54 ); imageDPIy = KiROUND( imageDPIy * 2.54 ); } } else // fallback to a default value (DEFAULT_DPI) { imageDPIx = imageDPIy = DEFAULT_DPI; } m_InputXValueDPI->SetLabel( wxString::Format( wxT( "%d" ), imageDPIx ) ); m_InputYValueDPI->SetLabel( wxString::Format( wxT( "%d" ), imageDPIy ) ); int h = m_Pict_Bitmap.GetHeight(); int w = m_Pict_Bitmap.GetWidth(); m_AspectRatio = (double) w / h; m_outputSizeX.SetOriginalDPI( imageDPIx ); m_outputSizeX.SetOriginalSizePixels( w ); m_outputSizeY.SetOriginalDPI( imageDPIy ); m_outputSizeY.SetOriginalSizePixels( h ); // Update display to keep aspect ratio auto fakeEvent = wxCommandEvent(); OnSizeChangeX( fakeEvent ); updateImageInfo(); m_InitialPicturePanel->SetVirtualSize( w, h ); m_GreyscalePicturePanel->SetVirtualSize( w, h ); m_BNPicturePanel->SetVirtualSize( w, h ); m_Greyscale_Image.Destroy(); m_Greyscale_Image = m_Pict_Image.ConvertToGreyscale( ); if( m_Pict_Bitmap.GetMask() ) { for( int x = 0; x < m_Pict_Bitmap.GetWidth(); x++ ) { for( int y = 0; y < m_Pict_Bitmap.GetHeight(); y++ ) { if( m_Pict_Image.GetRed( x, y ) == m_Pict_Image.GetMaskRed() && m_Pict_Image.GetGreen( x, y ) == m_Pict_Image.GetMaskGreen() && m_Pict_Image.GetBlue( x, y ) == m_Pict_Image.GetMaskBlue() ) { m_Greyscale_Image.SetRGB( x, y, 255, 255, 255 ); } } } } if( m_Negative ) NegateGreyscaleImage( ); m_Greyscale_Bitmap = wxBitmap( m_Greyscale_Image ); m_NB_Image = m_Greyscale_Image; Binarize( (double) m_sliderThreshold->GetValue() / m_sliderThreshold->GetMax() ); m_buttonExportFile->Enable( true ); m_buttonExportClipboard->Enable( true ); m_outputSizeX.SetOutputSizeFromInitialImageSize(); m_UnitSizeX->ChangeValue( FormatOutputSize( m_outputSizeX.GetOutputSize() ) ); m_outputSizeY.SetOutputSizeFromInitialImageSize(); m_UnitSizeY->ChangeValue( FormatOutputSize( m_outputSizeY.GetOutputSize() ) ); return true; } // return a string giving the output size, according to the selected unit wxString BM2CMP_FRAME::FormatOutputSize( double aSize ) { wxString text; if( getUnitFromSelection() == EDA_UNITS::MILLIMETRES ) { text.Printf( "%.1f", aSize ); } else if( getUnitFromSelection() == EDA_UNITS::INCHES ) { text.Printf( "%.2f", aSize ); } else { text.Printf( "%d", KiROUND( aSize ) ); } return text; } void BM2CMP_FRAME::updateImageInfo() { // Note: the image resolution text controls are not modified // here, to avoid a race between text change when entered by user and // a text change if it is modified here. if( m_Pict_Bitmap.IsOk() ) { int h = m_Pict_Bitmap.GetHeight(); int w = m_Pict_Bitmap.GetWidth(); int nb = m_Pict_Bitmap.GetDepth(); m_SizeXValue->SetLabel( wxString::Format( wxT( "%d" ), w ) ); m_SizeYValue->SetLabel( wxString::Format( wxT( "%d" ), h ) ); m_BPPValue->SetLabel( wxString::Format( wxT( "%d" ), nb ) ); } } EDA_UNITS BM2CMP_FRAME::getUnitFromSelection() { // return the EDA_UNITS from the m_PixelUnit choice switch( m_PixelUnit->GetSelection() ) { case 1: return EDA_UNITS::INCHES; case 2: return EDA_UNITS::UNSCALED; case 0: default: break; } return EDA_UNITS::MILLIMETRES; } void BM2CMP_FRAME::OnSizeChangeX( wxCommandEvent& event ) { double new_size; if( m_UnitSizeX->GetValue().ToDouble( &new_size ) ) { if( m_AspectRatioLocked ) { double calculatedY = new_size / m_AspectRatio; if( getUnitFromSelection() == EDA_UNITS::UNSCALED ) { // for units in DPI, keeping aspect ratio cannot use m_AspectRatioLocked. // just re-scale the other dpi double ratio = new_size / m_outputSizeX.GetOutputSize(); calculatedY = m_outputSizeY.GetOutputSize() * ratio; } m_outputSizeY.SetOutputSize( calculatedY, getUnitFromSelection() ); m_UnitSizeY->ChangeValue( FormatOutputSize( m_outputSizeY.GetOutputSize() ) ); } m_outputSizeX.SetOutputSize( new_size, getUnitFromSelection() ); } updateImageInfo(); } void BM2CMP_FRAME::OnSizeChangeY( wxCommandEvent& event ) { double new_size; if( m_UnitSizeY->GetValue().ToDouble( &new_size ) ) { if( m_AspectRatioLocked ) { double calculatedX = new_size * m_AspectRatio; if( getUnitFromSelection() == EDA_UNITS::UNSCALED ) { // for units in DPI, keeping aspect ratio cannot use m_AspectRatioLocked. // just re-scale the other dpi double ratio = new_size / m_outputSizeX.GetOutputSize(); calculatedX = m_outputSizeX.GetOutputSize() * ratio; } m_outputSizeX.SetOutputSize( calculatedX, getUnitFromSelection() ); m_UnitSizeX->ChangeValue( FormatOutputSize( m_outputSizeX.GetOutputSize() ) ); } m_outputSizeY.SetOutputSize( new_size, getUnitFromSelection() ); } updateImageInfo(); } void BM2CMP_FRAME::OnSizeUnitChange( wxCommandEvent& event ) { m_outputSizeX.SetUnit( getUnitFromSelection() ); m_outputSizeY.SetUnit( getUnitFromSelection() ); updateImageInfo(); m_UnitSizeX->ChangeValue( FormatOutputSize( m_outputSizeX.GetOutputSize() ) ); m_UnitSizeY->ChangeValue( FormatOutputSize( m_outputSizeY.GetOutputSize() ) ); } void BM2CMP_FRAME::ToggleAspectRatioLock( wxCommandEvent& event ) { m_AspectRatioLocked = !m_AspectRatioLocked; if( m_AspectRatioLocked ) { m_AspectRatioLockButton->SetBitmap( KiBitmap( BITMAPS::locked ) ); //Force display update when aspect ratio is locked auto fakeEvent = wxCommandEvent(); OnSizeChangeX( fakeEvent ); } else { m_AspectRatioLockButton->SetBitmap( KiBitmap( BITMAPS::unlocked ) ); } } void BM2CMP_FRAME::Binarize( double aThreshold ) { int h = m_Greyscale_Image.GetHeight(); int w = m_Greyscale_Image.GetWidth(); unsigned char threshold = aThreshold * 255; unsigned char alpha_thresh = 0.7 * threshold; for( int y = 0; y < h; y++ ) for( int x = 0; x < w; x++ ) { unsigned char pixout; auto pixin = m_Greyscale_Image.GetGreen( x, y ); auto alpha = m_Greyscale_Image.HasAlpha() ? m_Greyscale_Image.GetAlpha( x, y ) : wxALPHA_OPAQUE; if( pixin < threshold && alpha > alpha_thresh ) pixout = 0; else pixout = 255; m_NB_Image.SetRGB( x, y, pixout, pixout, pixout ); } m_BN_Bitmap = wxBitmap( m_NB_Image ); } void BM2CMP_FRAME::NegateGreyscaleImage( ) { unsigned char pix; int h = m_Greyscale_Image.GetHeight(); int w = m_Greyscale_Image.GetWidth(); for( int y = 0; y < h; y++ ) for( int x = 0; x < w; x++ ) { pix = m_Greyscale_Image.GetGreen( x, y ); pix = ~pix; m_Greyscale_Image.SetRGB( x, y, pix, pix, pix ); } } void BM2CMP_FRAME::OnNegativeClicked( wxCommandEvent& ) { if( m_checkNegative->GetValue() != m_Negative ) { NegateGreyscaleImage(); m_Greyscale_Bitmap = wxBitmap( m_Greyscale_Image ); Binarize( (double)m_sliderThreshold->GetValue()/m_sliderThreshold->GetMax() ); m_Negative = m_checkNegative->GetValue(); Refresh(); } } void BM2CMP_FRAME::OnThresholdChange( wxScrollEvent& event ) { Binarize( (double)m_sliderThreshold->GetValue()/m_sliderThreshold->GetMax() ); Refresh(); } void BM2CMP_FRAME::OnExportToFile( wxCommandEvent& event ) { m_exportToClipboard = false; // choices of m_rbOutputFormat are expected to be in same order as // OUTPUT_FMT_ID. See bitmap2component.h OUTPUT_FMT_ID format = (OUTPUT_FMT_ID) m_rbOutputFormat->GetSelection(); exportBitmap( format ); } void BM2CMP_FRAME::OnExportToClipboard( wxCommandEvent& event ) { m_exportToClipboard = true; // choices of m_rbOutputFormat are expected to be in same order as // OUTPUT_FMT_ID. See bitmap2component.h OUTPUT_FMT_ID format = (OUTPUT_FMT_ID) m_rbOutputFormat->GetSelection(); std::string buffer; ExportToBuffer( buffer, format ); wxLogNull doNotLog; // disable logging of failed clipboard actions // Write buffer to the clipboard if( wxTheClipboard->Open() ) { // This data objects are held by the clipboard, // so do not delete them in the app. wxTheClipboard->SetData( new wxTextDataObject( buffer.c_str() ) ); wxTheClipboard->Flush(); // Allow data to be available after closing KiCad wxTheClipboard->Close(); } else { wxMessageBox( _( "Unable to export to the Clipboard") ); } } void BM2CMP_FRAME::exportBitmap( OUTPUT_FMT_ID aFormat ) { switch( aFormat ) { case EESCHEMA_FMT: exportEeschemaFormat(); break; case PCBNEW_KICAD_MOD: exportPcbnewFormat(); break; case POSTSCRIPT_FMT: exportPostScriptFormat(); break; case KICAD_LOGO: OnExportLogo(); break; } } void BM2CMP_FRAME::OnExportLogo() { wxFileName fn( m_ConvertedFileName ); wxString path = fn.GetPath(); if( path.IsEmpty() || !wxDirExists(path) ) path = ::wxGetCwd(); wxFileDialog fileDlg( this, _( "Create Logo File" ), path, wxEmptyString, DrawingSheetFileWildcard(), wxFD_SAVE | wxFD_OVERWRITE_PROMPT ); int diag = fileDlg.ShowModal(); if( diag != wxID_OK ) return; fn = fileDlg.GetPath(); fn.SetExt( DrawingSheetFileExtension ); m_ConvertedFileName = fn.GetFullPath(); FILE* outfile; outfile = wxFopen( m_ConvertedFileName, wxT( "w" ) ); if( outfile == nullptr ) { wxString msg; msg.Printf( _( "File '%s' could not be created." ), m_ConvertedFileName ); wxMessageBox( msg ); return; } std::string buffer; ExportToBuffer( buffer, KICAD_LOGO ); fputs( buffer.c_str(), outfile ); fclose( outfile ); } void BM2CMP_FRAME::exportPostScriptFormat() { wxFileName fn( m_ConvertedFileName ); wxString path = fn.GetPath(); if( path.IsEmpty() || !wxDirExists( path ) ) path = ::wxGetCwd(); wxFileDialog fileDlg( this, _( "Create PostScript File" ), path, wxEmptyString, PSFileWildcard(), wxFD_SAVE | wxFD_OVERWRITE_PROMPT ); int diag = fileDlg.ShowModal(); if( diag != wxID_OK ) return; fn = fileDlg.GetPath(); fn.SetExt( wxT( "ps" ) ); m_ConvertedFileName = fn.GetFullPath(); FILE* outfile; outfile = wxFopen( m_ConvertedFileName, wxT( "w" ) ); if( outfile == nullptr ) { wxString msg; msg.Printf( _( "File '%s' could not be created." ), m_ConvertedFileName ); wxMessageBox( msg ); return; } std::string buffer; ExportToBuffer( buffer, POSTSCRIPT_FMT ); fputs( buffer.c_str(), outfile ); fclose( outfile ); } void BM2CMP_FRAME::exportEeschemaFormat() { wxFileName fn( m_ConvertedFileName ); wxString path = fn.GetPath(); if( path.IsEmpty() || !wxDirExists(path) ) path = ::wxGetCwd(); wxFileDialog fileDlg( this, _( "Create Symbol Library" ), path, wxEmptyString, LegacySymbolLibFileWildcard(), wxFD_SAVE | wxFD_OVERWRITE_PROMPT ); int diag = fileDlg.ShowModal(); if( diag != wxID_OK ) return; fn = fileDlg.GetPath(); fn.SetExt( LegacySymbolLibFileExtension ); m_ConvertedFileName = fn.GetFullPath(); FILE* outfile = wxFopen( m_ConvertedFileName, wxT( "w" ) ); if( outfile == nullptr ) { wxString msg; msg.Printf( _( "File '%s' could not be created." ), m_ConvertedFileName ); wxMessageBox( msg ); return; } std::string buffer; ExportToBuffer( buffer, EESCHEMA_FMT ); fputs( buffer.c_str(), outfile ); fclose( outfile ); } void BM2CMP_FRAME::exportPcbnewFormat() { wxFileName fn( m_ConvertedFileName ); wxString path = fn.GetPath(); if( path.IsEmpty() || !wxDirExists( path ) ) path = m_mruPath; wxFileDialog fileDlg( this, _( "Create Footprint Library" ), path, wxEmptyString, KiCadFootprintLibFileWildcard(), wxFD_SAVE | wxFD_OVERWRITE_PROMPT ); int diag = fileDlg.ShowModal(); if( diag != wxID_OK ) return; fn = fileDlg.GetPath(); fn.SetExt( KiCadFootprintFileExtension ); m_ConvertedFileName = fn.GetFullPath(); FILE* outfile = wxFopen( m_ConvertedFileName, wxT( "w" ) ); if( outfile == nullptr ) { wxString msg; msg.Printf( _( "File '%s' could not be created." ), m_ConvertedFileName ); wxMessageBox( msg ); return; } std::string buffer; ExportToBuffer( buffer, PCBNEW_KICAD_MOD ); fputs( buffer.c_str(), outfile ); fclose( outfile ); m_mruPath = fn.GetPath(); } void BM2CMP_FRAME::ExportToBuffer( std::string& aOutput, OUTPUT_FMT_ID aFormat ) { // Create a potrace bitmap int h = m_NB_Image.GetHeight(); int w = m_NB_Image.GetWidth(); potrace_bitmap_t* potrace_bitmap = bm_new( w, h ); if( !potrace_bitmap ) { wxString msg; msg.Printf( _( "Error allocating memory for potrace bitmap" ) ); wxMessageBox( msg ); return; } /* fill the bitmap with data */ for( int y = 0; y < h; y++ ) { for( int x = 0; x < w; x++ ) { auto pix = m_NB_Image.GetGreen( x, y ); BM_PUT( potrace_bitmap, x, y, pix ? 0 : 1 ); } } // choices of m_rbPCBLayer are expected to be in same order as // BMP2CMP_MOD_LAYER. See bitmap2component.h BMP2CMP_MOD_LAYER modLayer = MOD_LYR_FSILKS; if( aFormat == PCBNEW_KICAD_MOD ) modLayer = (BMP2CMP_MOD_LAYER) m_rbPCBLayer->GetSelection(); BITMAPCONV_INFO converter( aOutput ); converter.ConvertBitmap( potrace_bitmap, aFormat, m_outputSizeX.GetOutputDPI(), m_outputSizeY.GetOutputDPI(), modLayer ); if( !converter.GetErrorMessages().empty() ) wxMessageBox( converter.GetErrorMessages().c_str(), _( "Errors" ) ); } void BM2CMP_FRAME::OnFormatChange( wxCommandEvent& event ) { if( m_rbOutputFormat->GetSelection() == PCBNEW_KICAD_MOD ) m_rbPCBLayer->Enable( true ); else m_rbPCBLayer->Enable( false ); }