// Gmsh - Copyright (C) 1997-2019 C. Geuzaine, J.-F. Remacle // // See the LICENSE.txt file for license information. Please report all // issues on https://gitlab.onelab.info/gmsh/gmsh/issues. #include "GmshConfig.h" #include "GmshMessage.h" #include "GModel.h" #include "GmshDefines.h" #include "StringUtils.h" #include "Context.h" #include "Options.h" #include "OpenFile.h" #include "CreateFile.h" #include "OS.h" #if defined(HAVE_OPENGL) #include "drawContext.h" #endif #if defined(HAVE_FLTK) #include "FlGui.h" #include "graphicWindow.h" #include "openglWindow.h" #include "gl2ps.h" #include "gl2gif.h" #include "gl2jpeg.h" #include "gl2png.h" #include "gl2ppm.h" #include "gl2yuv.h" #include "gl2pgf.h" #endif int GetFileFormatFromExtension(const std::string &ext, double *version) { if(ext == ".geo_unrolled") return FORMAT_GEO; else if(ext == ".auto") return FORMAT_AUTO; else if(ext == ".msh") return FORMAT_MSH; else if(ext == ".msh1") { if(version) *version = 1.0; return FORMAT_MSH; } else if(ext == ".msh2") { if(version) *version = 2.2; return FORMAT_MSH; } else if(ext == ".msh22") { if(version) *version = 2.2; return FORMAT_MSH; } else if(ext == ".msh3") { if(version) *version = 3.0; return FORMAT_MSH; } else if(ext == ".msh4") { if(version) *version = 4.1; return FORMAT_MSH; } else if(ext == ".msh40") { if(version) *version = 4.0; return FORMAT_MSH; } else if(ext == ".msh41") { if(version) *version = 4.1; return FORMAT_MSH; } else if(ext == ".x3d") return FORMAT_X3D; else if(ext == ".pos") return FORMAT_POS; else if(ext == ".pvtu") return FORMAT_PVTU; else if(ext == ".opt") return FORMAT_OPT; else if(ext == ".unv") return FORMAT_UNV; else if(ext == ".vtk") return FORMAT_VTK; else if(ext == ".m") return FORMAT_MATLAB; else if(ext == ".dat") return FORMAT_TOCHNOG; else if(ext == ".txt") return FORMAT_TXT; else if(ext == ".stl") return FORMAT_STL; else if(ext == ".cgns") return FORMAT_CGNS; else if(ext == ".med") return FORMAT_MED; else if(ext == ".rmed") return FORMAT_RMED; else if(ext == ".ir3") return FORMAT_IR3; else if(ext == ".mesh") return FORMAT_MESH; else if(ext == ".mail") return FORMAT_MAIL; else if(ext == ".bdf") return FORMAT_BDF; else if(ext == ".diff") return FORMAT_DIFF; else if(ext == ".inp") return FORMAT_INP; else if(ext == ".key") return FORMAT_KEY; else if(ext == ".celum") return FORMAT_CELUM; else if(ext == ".su2") return FORMAT_SU2; else if(ext == ".nas") return FORMAT_BDF; else if(ext == ".p3d") return FORMAT_P3D; else if(ext == ".wrl") return FORMAT_VRML; else if(ext == ".vrml") return FORMAT_VRML; else if(ext == ".ply2") return FORMAT_PLY2; else if(ext == ".gif") return FORMAT_GIF; else if(ext == ".jpg") return FORMAT_JPEG; else if(ext == ".jpeg") return FORMAT_JPEG; else if(ext == ".mpg") return FORMAT_MPEG; else if(ext == ".mpeg") return FORMAT_MPEG; else if(ext == ".png") return FORMAT_PNG; else if(ext == ".pgf") return FORMAT_PGF; else if(ext == ".ps") return FORMAT_PS; else if(ext == ".eps") return FORMAT_EPS; else if(ext == ".pdf") return FORMAT_PDF; else if(ext == ".tex") return FORMAT_TEX; else if(ext == ".svg") return FORMAT_SVG; else if(ext == ".tikz") return FORMAT_TIKZ; else if(ext == ".ppm") return FORMAT_PPM; else if(ext == ".yuv") return FORMAT_YUV; else if(ext == ".brep") return FORMAT_BREP; else if(ext == ".step") return FORMAT_STEP; else if(ext == ".stp") return FORMAT_STEP; else if(ext == ".iges") return FORMAT_IGES; else if(ext == ".igs") return FORMAT_IGES; else if(ext == ".neu") return FORMAT_NEU; else return -1; } int GuessFileFormatFromFileName(const std::string &fileName, double *version) { std::string ext = SplitFileName(fileName)[2]; return GetFileFormatFromExtension(ext, version); } std::string GetDefaultFileExtension(int format, bool onlyMeshFormats) { std::string name; bool mesh = false; switch(format){ case FORMAT_GEO: name = ".geo_unrolled"; break; case FORMAT_MSH: name = ".msh"; mesh = true; break; case FORMAT_POS: name = ".pos"; break; case FORMAT_X3D: name = ".x3d"; mesh = true; break; case FORMAT_PVTU: name = ".pvtu"; break; case FORMAT_OPT: name = ".opt"; break; case FORMAT_UNV: name = ".unv"; mesh = true; break; case FORMAT_VTK: name = ".vtk"; mesh = true; break; case FORMAT_MATLAB: name = ".m"; mesh = true; break; case FORMAT_TOCHNOG: name = ".dat"; mesh = true; break; case FORMAT_STL: name = ".stl"; mesh = true; break; case FORMAT_CGNS: name = ".cgns"; mesh = true; break; case FORMAT_MED: name = ".med"; mesh = true; break; case FORMAT_RMED: name = ".rmed"; break; case FORMAT_IR3: name = ".ir3"; mesh = true; break; case FORMAT_MESH: name = ".mesh"; mesh = true; break; case FORMAT_MAIL: name = ".mail"; mesh = true; break; case FORMAT_BDF: name = ".bdf"; mesh = true; break; case FORMAT_DIFF: name = ".diff"; mesh = true; break; case FORMAT_INP: name = ".inp"; mesh = true; break; case FORMAT_KEY: name = ".key"; mesh = true; break; case FORMAT_CELUM: name = ".celum"; mesh = true; break; case FORMAT_SU2: name = ".su2"; mesh = true; break; case FORMAT_P3D: name = ".p3d"; mesh = true; break; case FORMAT_VRML: name = ".wrl"; mesh = true; break; case FORMAT_PLY2: name = ".ply2"; mesh = true; break; case FORMAT_GIF: name = ".gif"; break; case FORMAT_JPEG: name = ".jpg"; break; case FORMAT_MPEG: name = ".mpg"; break; case FORMAT_PNG: name = ".png"; break; case FORMAT_PGF: name = ".pgf"; break; case FORMAT_PS: name = ".ps"; break; case FORMAT_EPS: name = ".eps"; break; case FORMAT_PDF: name = ".pdf"; break; case FORMAT_TEX: name = ".tex"; break; case FORMAT_SVG: name = ".svg"; break; case FORMAT_TIKZ: name = ".tikz"; break; case FORMAT_PPM: name = ".ppm"; break; case FORMAT_YUV: name = ".yuv"; break; case FORMAT_BREP: name = ".brep"; break; case FORMAT_IGES: name = ".iges"; break; case FORMAT_STEP: name = ".step"; break; case FORMAT_NEU: name = ".neu"; mesh = true; break; default: name = ""; break; } if(onlyMeshFormats && !mesh) return ""; return name; } std::string GetDefaultFileName(int format) { std::vector split = SplitFileName(GModel::current()->getFileName()); std::string name = split[0] + split[1]; std::string ext = GetDefaultFileExtension(format); return name + ext; } std::string GetKnownFileFormats(bool onlyMeshFormats) { std::string all = "auto, msh1, msh2, msh22, msh3, msh4, msh40, msh41"; for(int i = 1; i < 1000; i++){ std::string ext = GetDefaultFileExtension(i, onlyMeshFormats); if(ext.size() > 1){ all += ", " + ext.substr(1); } } return all; } #if defined(HAVE_FLTK) static PixelBuffer *GetCompositePixelBuffer(GLenum format, GLenum type) { openglWindow *newg = 0; if(CTX::instance()->print.width > 0 || CTX::instance()->print.height > 0){ GLint width = FlGui::instance()->getCurrentOpenglWindow()->pixel_w(); GLint height = FlGui::instance()->getCurrentOpenglWindow()->pixel_h(); if(CTX::instance()->print.width <= 0){ double w = width * CTX::instance()->print.height / (double)height; width = (int)w; height = CTX::instance()->print.height; } else if(CTX::instance()->print.height <= 0){ double h = height * CTX::instance()->print.width / (double)width; height = (int)h; width = CTX::instance()->print.width; } else{ width = CTX::instance()->print.width; height = CTX::instance()->print.height; } newg = new openglWindow(100, 100, width, height); int mode = FL_RGB | FL_DEPTH | (CTX::instance()->db ? FL_DOUBLE : FL_SINGLE); if(CTX::instance()->antialiasing) mode |= FL_MULTISAMPLE; newg->mode(mode); newg->end(); newg->getDrawContext()->copyViewAttributes (FlGui::instance()->getCurrentOpenglWindow()->getDrawContext()); newg->show(); openglWindow::setLastHandled(newg); // waiting for the OS to really make the window visible and to call the // draw() function on (some ?) linux; if we do not wait here, the window is // not ready and the picture cannot be generated while(!newg->valid()) Fl::wait(); } PixelBuffer *buffer; if(newg || !CTX::instance()->print.compositeWindows){ GLint width = FlGui::instance()->getCurrentOpenglWindow()->pixel_w(); GLint height = FlGui::instance()->getCurrentOpenglWindow()->pixel_h(); buffer = new PixelBuffer(width, height, format, type); buffer->fill(CTX::instance()->batch); } else{ graphicWindow *g = FlGui::instance()->graph[0]; for(std::size_t i = 1; i < FlGui::instance()->graph.size(); i++){ for(std::size_t j = 0; j < FlGui::instance()->graph[i]->gl.size(); j++){ if(FlGui::instance()->graph[i]->gl[j] == FlGui::instance()->getCurrentOpenglWindow()){ g = FlGui::instance()->graph[i]; break; } } } int ww = 0, hh = 0; std::vector buffers; for(std::size_t i = 0; i < g->gl.size(); i++){ openglWindow::setLastHandled(g->gl[i]); buffer = new PixelBuffer(g->gl[i]->pixel_w(), g->gl[i]->pixel_h(), format, type); buffer->fill(CTX::instance()->batch); buffers.push_back(buffer); ww = std::max(ww, g->gl[i]->x() + g->gl[i]->pixel_w()); hh = std::max(hh, g->gl[i]->y() + g->gl[i]->pixel_h()); } buffer = new PixelBuffer(ww, hh, format, type); for(std::size_t i = 0; i < g->gl.size(); i++){ buffer->copyPixels(g->gl[i]->x(), hh - g->gl[i]->h() - g->gl[i]->y(), buffers[i]); delete buffers[i]; } } if(newg){ openglWindow::setLastHandled(0); newg->hide(); delete newg; } return buffer; } #endif void change_print_parameter(int frame) { double first = CTX::instance()->print.parameterFirst; double last = CTX::instance()->print.parameterLast; double steps = CTX::instance()->print.parameterSteps - 1; if(steps <= 0) steps = 1; double step = (last - first) / steps; double v = first + frame * step * CTX::instance()->post.animStep; Msg::Info("Setting Print.Parameter = %g", v); opt_print_parameter(0, GMSH_SET | GMSH_GUI, v); ParseString(CTX::instance()->print.parameterCommand, true); } void CreateOutputFile(const std::string &fileName, int format, bool status, bool redraw) { std::string name = fileName; if(name.empty()) name = GetDefaultFileName(format); int oldFormat = CTX::instance()->print.fileFormat; CTX::instance()->print.fileFormat = format; CTX::instance()->printing = 1; bool error = false; if(status) Msg::StatusBar(true, "Writing '%s'...", name.c_str()); switch (format) { case FORMAT_AUTO: { double version = 0.; int format = GuessFileFormatFromFileName(name, &version); if(format == FORMAT_MSH && version > 0.) CTX::instance()->mesh.mshFileVersion = version; CreateOutputFile(name, format, false, false); } break; case FORMAT_OPT: PrintOptions(0, GMSH_FULLRC, 1, 1, name.c_str()); break; case FORMAT_MSH: if(GModel::current()->getNumPartitions() && CTX::instance()->mesh.partitionSplitMeshFiles){ std::vector splitName = SplitFileName(name); splitName[0] += splitName[1]; GModel::current()->writePartitionedMSH (splitName[0], CTX::instance()->mesh.mshFileVersion, CTX::instance()->mesh.binary, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.saveParametric, CTX::instance()->mesh.scalingFactor); } else{ GModel::current()->writeMSH (name, CTX::instance()->mesh.mshFileVersion, CTX::instance()->mesh.binary, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.saveParametric, CTX::instance()->mesh.scalingFactor); } if(GModel::current()->getNumPartitions() && CTX::instance()->mesh.partitionSaveTopologyFile){ std::vector splitName = SplitFileName(name); splitName[0] += splitName[1] + "_topology.pro"; GModel::current()->writePartitionedTopology(splitName[0]); } break; case FORMAT_STL: GModel::current()->writeSTL (name, CTX::instance()->mesh.binary, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor, CTX::instance()->mesh.stlOneSolidPerSurface); break; case FORMAT_VRML: GModel::current()->writeVRML (name, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_PLY2: GModel::current()->writePLY2(name); break; case FORMAT_UNV: GModel::current()->writeUNV (name, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.saveGroupsOfNodes, CTX::instance()->mesh.scalingFactor); break; case FORMAT_TOCHNOG: GModel::current()->writeTOCHNOG (name, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_VTK: GModel::current()->writeVTK (name, CTX::instance()->mesh.binary, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor, CTX::instance()->bigEndian); break; case FORMAT_MATLAB: GModel::current()->writeMATLAB (name, CTX::instance()->mesh.binary, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_MESH: GModel::current()->writeMESH (name, CTX::instance()->mesh.saveElementTagType, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_MAIL: GModel::current()->writeMAIL (name, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_IR3: GModel::current()->writeIR3 (name, CTX::instance()->mesh.saveElementTagType, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_BDF: GModel::current()->writeBDF (name, CTX::instance()->mesh.bdfFieldFormat, CTX::instance()->mesh.saveElementTagType, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_DIFF: GModel::current()->writeDIFF (name, CTX::instance()->mesh.binary, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_INP: GModel::current()->writeINP (name, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.saveGroupsOfNodes, CTX::instance()->mesh.scalingFactor); break; case FORMAT_KEY: GModel::current()->writeKEY (name, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.saveGroupsOfNodes, CTX::instance()->mesh.scalingFactor); break; case FORMAT_CELUM: GModel::current()->writeCELUM (name, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_SU2: GModel::current()->writeSU2 (name, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_P3D: GModel::current()->writeP3D (name, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_CGNS: GModel::current()->writeCGNS (name, CTX::instance()->mesh.zoneDefinition, CTX::instance()->cgnsOptions, CTX::instance()->mesh.scalingFactor); break; case FORMAT_MED: GModel::current()->writeMED (name, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_POS: GModel::current()->writePOS (name, CTX::instance()->print.posElementary, CTX::instance()->print.posElement, CTX::instance()->print.posSICN, CTX::instance()->print.posSIGE, CTX::instance()->print.posGamma, CTX::instance()->print.posDisto, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; case FORMAT_GEO: GModel::current()->writeGEO(name, CTX::instance()->print.geoLabels, CTX::instance()->print.geoOnlyPhysicals); break; case FORMAT_BREP: GModel::current()->writeOCCBREP(name); break; case FORMAT_STEP: GModel::current()->writeOCCSTEP(name); break; case FORMAT_NEU: GModel::current()->writeNEU (name, CTX::instance()->mesh.saveAll, CTX::instance()->mesh.scalingFactor); break; #if defined(HAVE_FLTK) case FORMAT_PPM: case FORMAT_YUV: case FORMAT_GIF: case FORMAT_JPEG: case FORMAT_PNG: { if(!FlGui::available()){ Msg::Error("Creating '%s' requires a graphical interface context", name.c_str()); break; } FILE *fp = Fopen(name.c_str(), "wb"); if(!fp){ Msg::Error("Unable to open file '%s'", name.c_str()); error = true; break; } PixelBuffer *buffer = GetCompositePixelBuffer(GL_RGB, GL_UNSIGNED_BYTE); if(format == FORMAT_PPM) create_ppm(fp, buffer); else if(format == FORMAT_YUV) create_yuv(fp, buffer); else if(format == FORMAT_GIF) create_gif(fp, buffer, CTX::instance()->print.gifDither, CTX::instance()->print.gifSort, CTX::instance()->print.gifInterlace, CTX::instance()->print.gifTransparent); else if(format == FORMAT_JPEG) create_jpeg(fp, buffer, CTX::instance()->print.jpegQuality, CTX::instance()->print.jpegSmoothing); else create_png(fp, buffer, 100); delete buffer; fclose(fp); } break; case FORMAT_PS: case FORMAT_EPS: case FORMAT_PDF: case FORMAT_SVG: case FORMAT_TIKZ: { if(!FlGui::available()){ Msg::Error("Creating '%s' requires a graphical interface context", name.c_str()); break; } FILE *fp = Fopen(name.c_str(), "wb"); if(!fp){ Msg::Error("Unable to open file '%s'", name.c_str()); error = true; break; } std::string base = SplitFileName(name)[1]; GLint width = FlGui::instance()->getCurrentOpenglWindow()->pixel_w(); GLint height = FlGui::instance()->getCurrentOpenglWindow()->pixel_h(); GLint pixel_viewport[4] = {0, 0, width, height}; PixelBuffer buffer(width, height, GL_RGB, GL_FLOAT); if(CTX::instance()->print.epsQuality == 0) buffer.fill(CTX::instance()->batch); int psformat = (format == FORMAT_PDF) ? GL2PS_PDF : (format == FORMAT_PS) ? GL2PS_PS : (format == FORMAT_SVG) ? GL2PS_SVG : (format == FORMAT_TIKZ) ? GL2PS_PGF : GL2PS_EPS; int pssort = (CTX::instance()->print.epsQuality == 3) ? GL2PS_NO_SORT : (CTX::instance()->print.epsQuality == 2) ? GL2PS_BSP_SORT : GL2PS_SIMPLE_SORT; int psoptions = GL2PS_SIMPLE_LINE_OFFSET | GL2PS_SILENT | (CTX::instance()->print.epsOcclusionCulling ? GL2PS_OCCLUSION_CULL : 0) | (CTX::instance()->print.epsBestRoot ? GL2PS_BEST_ROOT : 0) | (CTX::instance()->print.background ? GL2PS_DRAW_BACKGROUND : 0) | (CTX::instance()->print.epsCompress ? GL2PS_COMPRESS : 0) | (CTX::instance()->print.epsPS3Shading ? 0 : GL2PS_NO_PS3_SHADING); GLint buffsize = 0; int res = GL2PS_OVERFLOW; while(res == GL2PS_OVERFLOW) { buffsize += 2048 * 2048; gl2psBeginPage(base.c_str(), "Gmsh", pixel_viewport, psformat, pssort, psoptions, GL_RGBA, 0, NULL, 15, 20, 10, buffsize, fp, base.c_str()); if(CTX::instance()->print.epsQuality == 0){ double modelview[16], projection[16]; glGetDoublev(GL_PROJECTION_MATRIX, projection); glGetDoublev(GL_MODELVIEW_MATRIX, modelview); glMatrixMode(GL_PROJECTION); glLoadIdentity(); glOrtho((double)pixel_viewport[0], (double)pixel_viewport[2], (double)pixel_viewport[1], (double)pixel_viewport[3], -1., 1.); glMatrixMode(GL_MODELVIEW); glLoadIdentity(); glRasterPos2d(0, 0); gl2psDrawPixels(width, height, 0, 0, GL_RGB, GL_FLOAT, buffer.getPixels()); glMatrixMode(GL_PROJECTION); glLoadMatrixd(projection); glMatrixMode(GL_MODELVIEW); glLoadMatrixd(modelview); } else{ drawContext::global()->drawCurrentOpenglWindow(true); } res = gl2psEndPage(); } fclose(fp); } break; case FORMAT_TEX: { if(!FlGui::available()){ Msg::Error("Creating '%s' requires a graphical interface context", name.c_str()); break; } FILE *fp = Fopen(name.c_str(), "w"); if(!fp){ Msg::Error("Unable to open file '%s'", name.c_str()); error = true; break; } std::string base = SplitFileName(name)[1]; GLint width = FlGui::instance()->getCurrentOpenglWindow()->pixel_w(); GLint height = FlGui::instance()->getCurrentOpenglWindow()->pixel_h(); GLint pixel_viewport[4] = {0, 0, width, height}; GLint buffsize = 0; int res = GL2PS_OVERFLOW; while(res == GL2PS_OVERFLOW) { buffsize += 2048 * 2048; gl2psBeginPage(base.c_str(), "Gmsh", pixel_viewport, GL2PS_TEX, GL2PS_NO_SORT, GL2PS_NONE, GL_RGBA, 0, NULL, 0, 0, 0, buffsize, fp, base.c_str()); int oldtext = CTX::instance()->print.text; CTX::instance()->print.text = 1; drawContext::global()->drawCurrentOpenglWindow(true); CTX::instance()->print.text = oldtext; res = gl2psEndPage(); } fclose(fp); } break; case FORMAT_PGF: { if(!FlGui::available()){ Msg::Error("Creating '%s' requires a graphical interface context", name.c_str()); break; } // fill pixel buffer without colorbar and axes int restoreGeneralAxis = (int) opt_general_axes(0, GMSH_GET, 0); int restoreSmallAxis = (int) opt_general_small_axes(0, GMSH_GET, 0); opt_general_axes(0, GMSH_SET, 0); opt_general_small_axes(0, GMSH_SET, 0); int num = -1; // id of the post view int cnt = 0; // no of scales/colorbars active for(std::size_t i = 0; i < opt_post_nb_views(0,GMSH_GET,0); i++) { if(opt_view_visible(i, GMSH_GET, 0)) { if (opt_view_show_scale(i, GMSH_GET, 0)) { opt_view_show_scale(i, GMSH_SET, 0); num = i; cnt++; } } } PixelBuffer *buffer = GetCompositePixelBuffer(GL_RGB, GL_UNSIGNED_BYTE); drawContext *ctx = FlGui::instance()->getCurrentOpenglWindow()->getDrawContext(); GLint width = FlGui::instance()->getCurrentOpenglWindow()->pixel_w(); GLint height = FlGui::instance()->getCurrentOpenglWindow()->pixel_h(); GLint pixel_viewport[4] = {0, 0, width, height}; print_pgf(name, num, cnt, buffer, ctx->r, pixel_viewport, ctx->proj, ctx->model); delete buffer; // restore view if(restoreGeneralAxis) opt_general_axes(0, GMSH_SET| GMSH_GUI, 1); if(restoreSmallAxis) opt_general_small_axes(0, GMSH_SET | GMSH_GUI, 1); if(cnt > 0) opt_view_show_scale(num, GMSH_SET, 1); } break; #if defined(HAVE_MPEG_ENCODE) case FORMAT_MPEG: case FORMAT_MPEG_PREVIEW: { if(!FlGui::available()){ Msg::Error("Creating '%s' requires a graphical interface context", name.c_str()); break; } std::string parFileName = CTX::instance()->homeDir + ".gmsh-mpeg_encode.par"; FILE *fp = 0; if(format != FORMAT_MPEG_PREVIEW){ fp = Fopen(parFileName.c_str(), "w"); if(!fp){ Msg::Error("Unable to open file '%s'", parFileName.c_str()); error = true; break; } } int numViews = (int)opt_post_nb_views(0, GMSH_GET, 0); int numSteps = 0; int cycle = CTX::instance()->post.animCycle; if(cycle == 0){ for(int i = 0; i < numViews; i++){ if(opt_view_visible(i, GMSH_GET, 0)) numSteps = std::max(numSteps, (int)opt_view_nb_non_empty_timestep(i, GMSH_GET, 0)); } } else if(cycle == 1){ numSteps = numViews; } else{ numSteps = CTX::instance()->print.parameterSteps; } std::vector frames; for(int i = 0; i < numSteps; i += CTX::instance()->post.animStep){ char tmp[256]; sprintf(tmp, ".gmsh-%06d.ppm", (int)frames.size()); frames.push_back(tmp); } if(cycle != 2) status_play_manual(!cycle, 0, false); for(std::size_t i = 0; i < frames.size(); i++){ if(cycle == 2) change_print_parameter(i); if(fp) CreateOutputFile(CTX::instance()->homeDir + frames[i], FORMAT_PPM, false, false); else{ drawContext::global()->draw(); SleepInSeconds(CTX::instance()->post.animDelay); } if(cycle != 2) status_play_manual(!cycle, CTX::instance()->post.animStep, false); } if(fp){ int repeat = (int)(CTX::instance()->post.animDelay * 30); if(repeat < 1) repeat = 1; std::string pattern("I"); // including P frames would lead to smaller files, but the quality // degradation is perceptible: // for(int i = 1; i < repeat; i++) pattern += "P"; fprintf(fp, "PATTERN %s\nBASE_FILE_FORMAT PPM\nGOP_SIZE %d\n" "SLICES_PER_FRAME 1\nPIXEL FULL\nRANGE 10\n" "PSEARCH_ALG EXHAUSTIVE\nBSEARCH_ALG CROSS2\n" "IQSCALE 1\nPQSCALE 1\nBQSCALE 25\nREFERENCE_FRAME DECODED\n" "OUTPUT %s\nINPUT_CONVERT *\nINPUT_DIR %s\nINPUT\n", pattern.c_str(), repeat, name.c_str(), CTX::instance()->homeDir.c_str()); for(std::size_t i = 0; i < frames.size(); i++){ fprintf(fp, "%s", frames[i].c_str()); if(repeat > 1) fprintf(fp, " [1-%d]", repeat); fprintf(fp, "\n"); } fprintf(fp, "END_INPUT\n"); fclose(fp); extern int mpeg_encode_main(int, char**); char *args[] = {(char*)"gmsh", (char*)parFileName.c_str()}; try{ mpeg_encode_main(2, args); } catch (const char *msg){ Msg::Error("%s", msg); error = true; } if(opt_print_delete_tmp_files(0, GMSH_GET, 0)){ UnlinkFile(parFileName); for(std::size_t i = 0; i < frames.size(); i++) UnlinkFile(CTX::instance()->homeDir + frames[i]); } } } break; #endif #endif default: Msg::Error("Unknown output file format"); error = true; break; } CTX::instance()->print.fileFormat = oldFormat; CTX::instance()->printing = 0; if(status && !error) Msg::StatusBar(true, "Done writing '%s'", name.c_str()); #if defined(HAVE_OPENGL) if(redraw) drawContext::global()->draw(); #endif }