Mercurial > hg > aimc
view src/Modules/Output/Graphics/Devices/GraphicsOutputDeviceCairo.cc @ 232:af531fc3f280
- Massive refactoring to make module tree stuff work. In theory we now support configuration files again. The graphics stuff is untested as yet.
| author | tomwalters |
|---|---|
| date | Mon, 18 Oct 2010 04:42:28 +0000 |
| parents | 2aa72aa8a0d4 |
| children | 4fb328f81012 |
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// Copyright 2007, Thomas Walters // // AIM-C: A C++ implementation of the Auditory Image Model // http://www.acousticscale.org/AIMC // // Licensed 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. /*! * \file * \brief Output device for output to a graphics file using cairo (LGPL) * * \author Tom Walters <tom@acousticscale.org> and Willem van Engen <cnbh@willem.engen.nl> * \date created 2007/09/17 * \version \$Header: $ */ #include "Support/Common.h" #include <sys/types.h> #include <sys/stat.h> #include <string.h> #include <stdio.h> #include <math.h> #include "Modules/Output/Graphics/Devices/GraphicsOutputDeviceCairo.h" namespace aimc { GraphicsOutputDeviceCairo::GraphicsOutputDeviceCairo(Parameters *pParam) : GraphicsOutputDevice(pParam) { m_bOutputFile = false; m_iFileNumber = 0; m_iVertexType = VertexTypeNone; m_bUseMemoryBuffer=false; } bool GraphicsOutputDeviceCairo::Initialize(const char *sDir) { Init(); //! \todo Output to file if sDir is a file, to directory with //! multiple images if it's a directory. strncpy(m_sDir, sDir, sizeof(m_sDir)/sizeof(m_sDir[0])); /* Try to open an image to see if everything is allright. We want to avoid * errors in the main Process()ing loop. */ if ( !OpenFile(0) ) { //! \todo Better error message that is more specific about the cause. LOG_ERROR(_T("Could not open output directory '%s' using graphics format '%s'."), m_sDir, m_pParam->GetString("output.img.format") ); return false; } CloseFile(); return true; } bool GraphicsOutputDeviceCairo::Initialize() { Init(); m_bUseMemoryBuffer = true; return(true); } void GraphicsOutputDeviceCairo::Init() { AIM_ASSERT(m_pParam); /* * Set parameters */ m_pParam->GetString("output.img.color.background"); m_bInvertColors = m_pParam->GetBool("output.img.color.invert"); // Output size! m_iWidth = m_pParam->GetUInt("output.img.width"); m_iHeight = m_pParam->GetUInt("output.img.height"); } unsigned char* GraphicsOutputDeviceCairo::GetBuffer() { if(m_bUseMemoryBuffer) return (cairo_image_surface_get_data (m_cSurface)); else return NULL; } bool GraphicsOutputDeviceCairo::OpenFile(unsigned int index) { const char *strPlottype = m_pParam->GetString("output.img.format"); if (!m_bUseMemoryBuffer) { struct stat fileinfo; // Get filename without trailing slash strncpy(m_sFilename, m_sDir, sizeof(m_sFilename)/sizeof(m_sFilename[0])); #ifdef _WINDOWS if (m_sFilename[strlen(m_sFilename)-1]=='\\') { m_sFilename[strlen(m_sFilename)-1]='\0'; } #else if (m_sFilename[strlen(m_sFilename)-1]=='/') { m_sFilename[strlen(m_sFilename)-1]='\0'; } #endif // Enumerate files it m_sDir is a directory. if (stat(m_sFilename, &fileinfo) == 0 && (fileinfo.st_mode & S_IFDIR)) { // We have a directory: enumerate with index snprintf(m_sFilename, sizeof(m_sFilename)/sizeof(m_sFilename[0]),"%s%06d.%s", m_sDir, index, strPlottype); // If type is 'auto', fallback to 'png' if (strcmp(strPlottype, "auto")==0) strPlottype = "png"; } else { // We have a (probably non-existant) file. Auto-detect type by extension if requested strncpy(m_sFilename, m_sDir, sizeof(m_sFilename)/sizeof(m_sFilename[0])); char *pDot = strrchr(m_sFilename, '.'); if (!pDot) { LOG_ERROR(_T("Please supply extension on filename when using 'auto' format: '%s'"), m_sFilename); return false; } strPlottype = &pDot[1]; } m_bOutputFile= true; //! \todo Should check that it's possible to write to the file } // Cairo's RGB24 format has 32-bit pixels with the upper 8 bits unused. // This is not the same as the plotutils PNG format. This information is transferred by the // function GetPixelFormat. The pixel format is dealt with by the reciever. m_cSurface = cairo_image_surface_create (CAIRO_FORMAT_RGB24, m_iWidth, m_iHeight); m_cCr = cairo_create (m_cSurface); cairo_scale(m_cCr, (float)m_iWidth, (float)m_iHeight); // Now setup things for this plotter. cairo_select_font_face(m_cCr, m_pParam->GetString("output.img.fontname"), CAIRO_FONT_SLANT_NORMAL, CAIRO_FONT_WEIGHT_BOLD); cairo_set_font_size (m_cCr, 0.015); return true; } void GraphicsOutputDeviceCairo::CloseFile() { // Plotting library if (m_iPlotHandle>0) { cairo_destroy(m_cCr); m_iPlotHandle = 0; } // And the output file if (m_bOutputFile) { cairo_surface_write_to_png(m_cSurface, m_sFilename); m_bOutputFile = false; } cairo_surface_destroy(m_cSurface); } GraphicsOutputDeviceCairo::~GraphicsOutputDeviceCairo() { AIM_ASSERT(!m_iPlotHandle); CloseFile(); } void GraphicsOutputDeviceCairo::gGrab() { // Open file. if (!OpenFile(m_iFileNumber)) { return; } // Setup plotting area. cairo_set_line_width (m_cCr, 0.001f); gColor3f (0.0f, 0.0f, 0.0f); cairo_paint (m_cCr); gColor3f(1.0f, 1.0f, 0.0f); } int GraphicsOutputDeviceCairo::GetPixelFormat() { return AIM_PIX_FMT_RGB24_32; } void GraphicsOutputDeviceCairo::gBeginLineStrip() { m_bIsFirstVertex = true; m_iVertexType = VertexTypeLine; //! \todo Make line width user-settable cairo_set_line_width (m_cCr, 0.001f); } void GraphicsOutputDeviceCairo::gBeginQuadStrip() { m_bIsFirstVertex = true; m_iVertexType = VertexTypeQuad; m_iPrevVertexCount = 0; cairo_set_line_width (m_cCr, 0.001f); } void GraphicsOutputDeviceCairo::gColor3f(float r, float g, float b) { if (m_bInvertColors) { r = 1-r; g = 1-g; b = 1-b; } cairo_set_source_rgb (m_cCr, r, g, b); } void GraphicsOutputDeviceCairo::gVertex3f(float x, float y, float z) { switch(m_iVertexType) { case VertexTypeLine: if (m_bIsFirstVertex) { m_bIsFirstVertex = false; //pl_fmove(x, y); cairo_move_to(m_cCr, x, 1-y); } else { //pl_fcont(x, y); cairo_line_to(m_cCr, x, 1-y); } break; case VertexTypeQuad: /* Store vertices until we got four in a row. * The order of vertices when processing quads is: * 1-----3-----5 * | | | * 0-----2-----4 */ if (m_iPrevVertexCount >= 3) { // Plot this quad cairo_move_to(m_cCr, m_aPrevX[0], 1-m_aPrevY[0]); cairo_line_to(m_cCr, m_aPrevX[1], 1-m_aPrevY[1]); cairo_line_to(m_cCr, x, y); cairo_line_to(m_cCr, m_aPrevX[2], 1-m_aPrevY[2]); cairo_close_path (m_cCr); // Last vertices of this quad are the first of the next m_aPrevX[0] = m_aPrevX[2]; m_aPrevY[0] = m_aPrevY[2]; m_aPrevX[1] = x; m_aPrevY[1] = y; m_iPrevVertexCount = 2; } else { // Not at the fourth, keep storing m_aPrevX[m_iPrevVertexCount] = x; m_aPrevY[m_iPrevVertexCount] = y; m_iPrevVertexCount++; } break; default: // Should not happen AIM_ASSERT(0); } } void GraphicsOutputDeviceCairo::gEnd() { if(m_iVertexType==VertexTypeLine) cairo_stroke (m_cCr); else cairo_fill (m_cCr); m_iVertexType = VertexTypeNone; } void GraphicsOutputDeviceCairo::gText3f(float x, float y, float z, const char *sStr, bool bRotated) { //cairo_text_extents_t te; if (bRotated) { cairo_rotate(m_cCr, M_PI/2); cairo_move_to(m_cCr, x ,1-y); cairo_show_text(m_cCr, sStr); //cairo_identity_matrix(m_cCr); cairo_rotate(m_cCr, -M_PI/2); } else { cairo_move_to(m_cCr, x ,1-y); cairo_show_text(m_cCr, sStr); } } void GraphicsOutputDeviceCairo::gRelease() { AIM_ASSERT(m_iPlotHandle>0); CloseFile(); // Finished this one, up to the next! m_iFileNumber++; } } // namespace aimc