/** \file print.c * Printing functions using GTK's print API */ /* XTrkCad - Model Railroad CAD * Copyright (C) 2015 Martin Fischer * * 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, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include #ifdef HAVE_MALLOC_H #include #endif #include #include #define GTK_DISABLE_SINGLE_INCLUDES #define GDK_DISABLE_DEPRECATED #define GTK_DISABLE_DEPRECATED #define GSEAL_ENABLE #define PRODUCT "XTRKCAD" #include #include #include "gtkint.h" #include #include "wlib.h" #include "i18n.h" extern wDrawColor wDrawColorWhite; extern wDrawColor wDrawColorBlack; /***************************************************************************** * * MACROS * */ #define PRINT_PORTRAIT (0) #define PRINT_LANDSCAPE (1) #define PPI (72.0) #define P2I( P ) ((P)/PPI) #define CENTERMARK_LENGTH (60) /**< size of cross marking center of circles */ #define DASH_LENGTH (8.0) /**< length of single dash */ #define PAGESETTINGS "xtrkcad.page" /**< filename for page settings */ #define PRINTSETTINGS "xtrkcad.printer" /**< filename for printer settings */ /***************************************************************************** * * VARIABLES * */ static GtkPrintSettings *settings = NULL; /**< current printer settings */ static GtkPageSetup *page_setup; /**< current paper settings */ static GtkPrinter *selPrinter = NULL; /**< printer selected by user */ static GtkPrintJob *curPrintJob; /**< currently active print job */ extern struct wDraw_t psPrint_d; static wBool_t printContinue; /**< control print job, FALSE for cancelling */ static wIndex_t pageCount; /**< unused, could be used for progress indicator */ //static wIndex_t totalPageCount; /**< unused, could be used for progress indicator */ static double paperWidth; /**< physical paper width */ static double paperHeight; /**< physical paper height */ static double tBorder; /**< top margin */ static double rBorder; /**< right margin */ static double lBorder; /**< left margin */ static double bBorder; /**< bottom margin */ static double scale_adjust = 1.0; static double scale_text = 1.0; //static long printFormat = PRINT_LANDSCAPE; /***************************************************************************** * * FUNCTIONS * */ static void WlibGetPaperSize(void); /** * Initialize printer und paper selection using the saved settings * * \param op IN print operation to initialize. If NULL only the global * settings are loaded. */ void WlibApplySettings(GtkPrintOperation *op) { gchar *filename; GError *err = NULL; GtkWidget *dialog; filename = g_build_filename(wGetAppWorkDir(), PRINTSETTINGS, NULL); if (!(settings = gtk_print_settings_new_from_file(filename, &err))) { if (err->code != G_FILE_ERROR_NOENT) { // ignore file not found error as defaults will be used dialog = gtk_message_dialog_new(GTK_WINDOW(gtkMainW->gtkwin), GTK_DIALOG_DESTROY_WITH_PARENT, GTK_MESSAGE_ERROR, GTK_BUTTONS_CLOSE, "%s",err->message); gtk_dialog_run(GTK_DIALOG(dialog)); gtk_widget_destroy(dialog); } else { // create default print settings settings = gtk_print_settings_new(); } g_error_free(err); } g_free(filename); if (settings && op) { gtk_print_operation_set_print_settings(op, settings); } err = NULL; filename = g_build_filename(wGetAppWorkDir(), PAGESETTINGS, NULL); if (!(page_setup = gtk_page_setup_new_from_file(filename, &err))) { // ignore file not found error as defaults will be used if (err->code != G_FILE_ERROR_NOENT) { dialog = gtk_message_dialog_new(GTK_WINDOW(gtkMainW->gtkwin), GTK_DIALOG_DESTROY_WITH_PARENT, GTK_MESSAGE_ERROR, GTK_BUTTONS_CLOSE, "%s",err->message); gtk_dialog_run(GTK_DIALOG(dialog)); gtk_widget_destroy(dialog); } else { page_setup = gtk_page_setup_new(); } g_error_free(err); } else { // on success get the paper dimensions WlibGetPaperSize(); } g_free(filename); if (page_setup && op) { gtk_print_operation_set_default_page_setup(op, page_setup); } } /** * Save the printer settings. If op is not NULL the settings are retrieved * from the print operation. Otherwise the state of the globals is saved. * * \param op IN printer operation. If NULL the glabal variables are used */ void WlibSaveSettings(GtkPrintOperation *op) { GError *err = NULL; gchar *filename; GtkWidget *dialog; if (op) { if (settings != NULL) { g_object_unref(settings); } settings = g_object_ref(gtk_print_operation_get_print_settings(op)); } filename = g_build_filename(wGetAppWorkDir(), PRINTSETTINGS, NULL); if (!gtk_print_settings_to_file(settings, filename, &err)) { dialog = gtk_message_dialog_new(GTK_WINDOW(gtkMainW->gtkwin), GTK_DIALOG_DESTROY_WITH_PARENT, GTK_MESSAGE_ERROR, GTK_BUTTONS_CLOSE, "%s",err->message); g_error_free(err); gtk_dialog_run(GTK_DIALOG(dialog)); gtk_widget_destroy(dialog); } g_free(filename); if (op) { if (page_setup != NULL) { g_object_unref(page_setup); } page_setup = g_object_ref(gtk_print_operation_get_default_page_setup(op)); } filename = g_build_filename(wGetAppWorkDir(), PAGESETTINGS, NULL); if (!gtk_page_setup_to_file(page_setup, filename, &err)) { dialog = gtk_message_dialog_new(GTK_WINDOW(gtkMainW->gtkwin), GTK_DIALOG_DESTROY_WITH_PARENT, GTK_MESSAGE_ERROR, GTK_BUTTONS_CLOSE, "%s",err->message); g_error_free(err); gtk_dialog_run(GTK_DIALOG(dialog)); gtk_widget_destroy(dialog); } g_free(filename); } /** * Page setup function. Previous settings are loaded and the setup * dialog is shown. The settings are saved after the dialog ends. * * \param callback IN unused */ void wPrintSetup(wPrintSetupCallBack_p callback) { GtkPageSetup *new_page_setup; // gchar *filename; // GError *err; // GtkWidget *dialog; if ( !settings ) { WlibApplySettings(NULL); } new_page_setup = gtk_print_run_page_setup_dialog(GTK_WINDOW(gtkMainW->gtkwin), page_setup, settings); if (page_setup && (page_setup != new_page_setup)) { //Can be the same if no mods... g_object_unref(page_setup); } page_setup = new_page_setup; WlibGetPaperSize(); WlibSaveSettings(NULL); } /***************************************************************************** * * * */ static GtkPrinter * pDefaultPrinter = NULL; gboolean isDefaultPrinter( GtkPrinter * printer, gpointer data ) { //const char * pPrinterName = gtk_printer_get_name( printer ); if ( gtk_printer_is_default( printer ) ) { pDefaultPrinter = printer; return TRUE; } return FALSE; } static void getDefaultPrinter() { pDefaultPrinter = NULL; gtk_enumerate_printers( isDefaultPrinter, NULL, NULL, TRUE ); } const char * wPrintGetName() { static char sPrinterName[100]; WlibApplySettings( NULL ); const char * pPrinterName = gtk_print_settings_get( settings, "format-for-printer" ); if ( pPrinterName == NULL ) { getDefaultPrinter(); if ( pDefaultPrinter ) { pPrinterName = gtk_printer_get_name( pDefaultPrinter ); } } if ( pPrinterName == NULL ) { pPrinterName = ""; } strncpy (sPrinterName, pPrinterName, sizeof sPrinterName - 1 ); sPrinterName[ sizeof sPrinterName - 1 ] = '\0'; for ( char * cp = sPrinterName; *cp; cp++ ) if ( *cp == ':' ) { *cp = '-'; } return sPrinterName; } /***************************************************************************** * * BASIC PRINTING * */ /** * set the current line type for printing operations * * \param lineWidth IN new line width * \param lineType IN flag for line type (dashed or full) * \param opts IN unused * \return */ static void setLineType( double lineWidth, wDrawLineType_e lineType, wDrawOpts opts) { cairo_t *cr = psPrint_d.printContext; // double dashes[] = { DASH_LENGTH, 3 }; //Reduce gap in between dashes // static int len_dashes = sizeof(dashes) / sizeof(dashes[0]); if (lineWidth < 0.0) { lineWidth = P2I(-lineWidth)*2.0/scale_adjust; } // make sure that there is a minimum line width used if (lineWidth <= 0.09) { lineWidth = 0.1/scale_adjust; } cairo_set_line_width(cr, lineWidth); switch(lineType) { case wDrawLineDot: { double dashes[] = { 1, 2, 1, 2}; static int len_dashes = sizeof(dashes) / sizeof(dashes[0]); cairo_set_dash(cr, dashes, len_dashes, 0.0); break; } case wDrawLineDash: { double dashes[] = { DASH_LENGTH, 3 }; //Reduce gap in between dashes static int len_dashes = sizeof(dashes) / sizeof(dashes[0]); cairo_set_dash(cr, dashes, len_dashes, 0.0); break; } case wDrawLineDashDot: { double dashes[] = { 3, 2, 1, 2}; static int len_dashes = sizeof(dashes) / sizeof(dashes[0]); cairo_set_dash(cr, dashes, len_dashes, 0.0); break; } case wDrawLineDashDotDot: { double dashes[] = { 3, 2, 1, 2, 1, 2}; static int len_dashes = sizeof(dashes) / sizeof(dashes[0]); cairo_set_dash(cr, dashes, len_dashes, 0.0); break; } case wDrawLineCenter: { double dashes[] = { 1.5*DASH_LENGTH, 3, DASH_LENGTH, 3}; static int len_dashes = sizeof(dashes) / sizeof(dashes[0]); cairo_set_dash(cr, dashes, len_dashes, 0.0); break; } case wDrawLinePhantom: { double dashes[] = { 1.5*DASH_LENGTH, 3, DASH_LENGTH, 3, DASH_LENGTH, 3}; static int len_dashes = sizeof(dashes) / sizeof(dashes[0]); cairo_set_dash(cr, dashes, len_dashes, 0.0); break; } default: cairo_set_dash(cr, NULL, 0, 0.0); } } /** * set the color for the following print operations * * \param color IN the new color * \return */ static void psSetColor( wDrawColor color) { cairo_t *cr = psPrint_d.printContext; GdkColor* const gcolor = wlibGetColor(color, TRUE); cairo_set_source_rgb(cr, gcolor->red / 65535.0, gcolor->green / 65535.0, gcolor->blue / 65535.0); } /** * Print a straight line * * \param x0, y0 IN starting point in pixels * \param x1, y1 IN ending point in pixels * \param width line width * \param lineType * \param color color * \param opts ? */ void psPrintLine( wDrawPix_t x0, wDrawPix_t y0, wDrawPix_t x1, wDrawPix_t y1, wDrawWidth width, wDrawLineType_e lineType, wDrawColor color, wDrawOpts opts) { if (color == wDrawColorWhite) { return; } if (opts&wDrawOptTemp) { return; } psSetColor(color); setLineType(width, lineType, opts); cairo_move_to(psPrint_d.printContext, x0, y0); cairo_line_to(psPrint_d.printContext, x1, y1); cairo_stroke(psPrint_d.printContext); } /** * Print an arc around a specified center * * \param x0, y0 IN center of arc * \param r IN radius * \param angle0, angle1 IN start and end angle * \param drawCenter draw marking for center * \param width line width * \param lineType * \param color color * \param opts ? */ void psPrintArc( wDrawPix_t x0, wDrawPix_t y0, wDrawPix_t r, double angle0, double angle1, wBool_t drawCenter, wDrawWidth width, wDrawLineType_e lineType, wDrawColor color, wDrawOpts opts) { cairo_t *cr = psPrint_d.printContext; if (color == wDrawColorWhite) { return; } if (opts&wDrawOptTemp) { return; } psSetColor(color); setLineType(width, lineType, opts); if (angle1 >= 360.0) { angle1 = 359.999; } angle1 = 90.0-(angle0+angle1); while (angle1 < 0.0) { angle1 += 360.0; } while (angle1 >= 360.0) { angle1 -= 360.0; } angle0 = 90.0-angle0; while (angle0 < 0.0) { angle0 += 360.0; } while (angle0 >= 360.0) { angle0 -= 360.0; } // draw the curve cairo_arc(cr, x0, y0, r, angle1 * M_PI / 180.0, angle0 * M_PI / 180.0); if (drawCenter) { // draw crosshair for center of curve cairo_move_to(cr, x0 - CENTERMARK_LENGTH / 2, y0); cairo_line_to(cr, x0 + CENTERMARK_LENGTH / 2, y0); cairo_move_to(cr, x0, y0 - CENTERMARK_LENGTH / 2); cairo_line_to(cr, x0, y0 + CENTERMARK_LENGTH / 2); } cairo_stroke(psPrint_d.printContext); } /** * Print a filled rectangle * * \param x0, y0 IN top left corner * \param x1, y1 IN bottom right corner * \param color IN fill color * \param opts IN options * \return */ void psPrintFillRectangle( wDrawPix_t x0, wDrawPix_t y0, wDrawPix_t x1, wDrawPix_t y1, wDrawColor color, wDrawOpts opts) { cairo_t *cr = psPrint_d.printContext; double width = x0 - x1; double height = y0 - y1; if (color == wDrawColorWhite) { return; } if (opts&wDrawOptTemp) { return; } psSetColor(color); cairo_rectangle(cr, x0, y0, width, height); cairo_fill(cr); } /** * Print a filled polygon * * \param p IN a list of x and y coordinates * \param cnt IN the number of points * \param color IN fill color * \param opts IN options * \paran fill IN Fill or not * \return */ void psPrintFillPolygon( wDrawPix_t p[][2], wPolyLine_e type[], int cnt, wDrawColor color, wDrawOpts opts, int fill, int open ) { int inx; cairo_t *cr = psPrint_d.printContext; if (color == wDrawColorWhite) { return; } if (opts&wDrawOptTemp) { return; } psSetColor(color); wDrawPix_t mid0[2], mid1[2], /*mid2[2],*/ mid3[2], mid4[2]; for (inx=0; inx cnt-1) { k = 0; } double len0, len1; double d0x = (p[inx][0]-p[j][0]); double d0y = (p[inx][1]-p[j][1]); double d1x = (p[k][0]-p[inx][0]); double d1y = (p[k][1]-p[inx][1]); len0 = (d0x*d0x+d0y*d0y); len1 = (d1x*d1x+d1y*d1y); mid0[0] = (d0x/2)+p[j][0]; mid0[1] = (d0y/2)+p[j][1]; mid1[0] = (d1x/2)+p[inx][0]; mid1[1] = (d1y/2)+p[inx][1]; if (type && (type[inx] == wPolyLineRound) && (len1>0) && (len0>0)) { double ratio = sqrt(len0/len1); if (len0 < len1) { mid1[0] = ((d1x*ratio)/2)+p[inx][0]; mid1[1] = ((d1y*ratio)/2)+p[inx][1]; } else { mid0[0] = p[inx][0]-(d0x/(2*ratio)); mid0[1] = p[inx][1]-(d0y/(2*ratio)); } } mid3[0] = (p[inx][0]-mid0[0])/2+mid0[0]; mid3[1] = (p[inx][1]-mid0[1])/2+mid0[1]; mid4[0] = (mid1[0]-p[inx][0])/2+p[inx][0]; mid4[1] = (mid1[1]-p[inx][1])/2+p[inx][1]; wDrawPix_t save[2]; if (inx==0) { if (!type || (type && type[0] == wPolyLineStraight) || open) { cairo_move_to(cr, p[ 0 ][ 0 ], p[ 0 ][ 1 ]); save[0] = p[0][0]; save[1] = p[0][1]; } else { cairo_move_to(cr, mid0[0], mid0[1]); if (type[inx] == wPolyLineSmooth) { cairo_curve_to(cr, p[inx][0], p[inx][1], p[inx][0], p[inx][1], mid1[0], mid1[1]); } else { cairo_curve_to(cr, mid3[0], mid3[1], mid4[0], mid4[1], mid1[0], mid1[1]); } save[0] = mid0[0]; save[1] = mid0[1]; } } else if (!type || (type && type[inx] == wPolyLineStraight) || (open && (inx==cnt-1)) ) { cairo_line_to(cr, p[ inx ][ 0 ], p[ inx ][ 1 ]); } else { cairo_line_to(cr, mid0[ 0 ], mid0[ 1 ]); if (type && type[inx] == wPolyLineSmooth) { cairo_curve_to(cr, p[inx][0],p[inx][1],p[inx][0],p[inx][1],mid1[0],mid1[1]); } else { cairo_curve_to(cr, mid3[0],mid3[1],mid4[0],mid4[1],mid1[0],mid1[1]); } } if ((inx==cnt-1) && !open) { cairo_line_to(cr, save[0], save[1]); } } if (fill && !open) { cairo_fill(cr); } else { cairo_stroke(cr); } } /** * Print a filled circle * * \param x0, y0 IN coordinates of center (in pixels ) * \param r IN radius * \param color IN fill color * \param opts IN options * \return */ void psPrintFillCircle( wDrawPix_t x0, wDrawPix_t y0, wDrawPix_t r, wDrawColor color, wDrawOpts opts) { if (color == wDrawColorWhite) { return; } if (opts&wDrawOptTemp) { return; } psSetColor(color); cairo_arc(psPrint_d.printContext, x0, y0, r, 0.0, 2 * M_PI); cairo_fill(psPrint_d.printContext); } /** * Print a string at the given position using specified font and text size. * The orientation of the y-axis in XTrackCAD is wrong for cairo. So for * all other print primitives a flip operation is done. As this would * also affect the string orientation, printing a string has to be * treated differently. The starting point is transformed, then the * string is rotated and scaled as needed. Finally the string position * translated to the starting point calculated previously. The same * solution would have to be applied to a bitmap should printing * bitmaps ever be implemented. * * \param x IN x position in pixels * \param y IN y position in pixels * \param a IN angle of baseline in degrees. Positive is clockwise, 0 is direction of positive x axis * \param s IN string to print * \param fp IN font * \param fs IN font size * \param color IN text color * \param opts IN ??? * \return */ void psPrintString( wDrawPix_t x, wDrawPix_t y, double a, char * s, wFont_p fp, double fs, wDrawColor color, wDrawOpts opts) { // char * cp; double x0 = (double)x, y0 = (double)y; int text_height, text_width; // double ascent; cairo_t *cr; cairo_matrix_t matrix; PangoLayout *layout; PangoFontDescription *desc; // PangoFontMetrics *metrics; PangoContext *pcontext; if (color == wDrawColorWhite) { return; } cr = psPrint_d.printContext; // get the current transformation matrix and transform the starting // point of the string cairo_save(cr); cairo_get_matrix(cr, &matrix); cairo_matrix_transform_point(&matrix, &x0, &y0); cairo_identity_matrix(cr); layout = pango_cairo_create_layout(cr); // set the correct font and size /** \todo use a getter function instead of double conversion */ desc = pango_font_description_from_string(wlibFontTranslate(fp)); pango_font_description_set_size(desc, fs * PANGO_SCALE * scale_text); // render the string to a Pango layout pango_layout_set_font_description(layout, desc); gchar *utf8 = wlibConvertInput(s); pango_layout_set_text(layout, utf8, -1); pango_layout_set_width(layout, -1); pango_layout_set_alignment(layout, PANGO_ALIGN_LEFT); pango_layout_get_size(layout, &text_width, &text_height); text_width = text_width / PANGO_SCALE; text_height = text_height / PANGO_SCALE; // get the height of the string pcontext = pango_cairo_create_context(cr); // metrics = pango_context_get_metrics(pcontext, desc, // pango_context_get_language(pcontext)); // ascent = pango_font_metrics_get_ascent(metrics) / PANGO_SCALE; int baseline = pango_layout_get_baseline(layout) / PANGO_SCALE; cairo_translate(cr, x0, y0 ); cairo_rotate(cr, -a * M_PI / 180.0); cairo_translate( cr, 0, -baseline ); cairo_move_to(cr,0,0); pango_cairo_update_layout(cr, layout); // set the color psSetColor(color); // and show the string if(!(opts & wDrawOutlineFont)) { pango_cairo_show_layout(cr, layout); cairo_stroke( cr ); } else { PangoLayoutLine *line; line = pango_layout_get_line_readonly (layout, 0); setLineType( wDrawLineSolid, 0, 0 ); pango_cairo_layout_line_path (cr, line); cairo_stroke( cr ); } // free unused objects g_object_unref(layout); g_object_unref(pcontext); cairo_restore(cr); } /** * Create clipping rectangle. * * \param x, y IN starting position * \param w, h IN width and height of rectangle * \return */ void wPrintClip(wDrawPix_t x, wDrawPix_t y, wDrawPix_t w, wDrawPix_t h) { cairo_move_to(psPrint_d.printContext, x, y); cairo_rel_line_to(psPrint_d.printContext, w, 0); cairo_rel_line_to(psPrint_d.printContext, 0, h); cairo_rel_line_to(psPrint_d.printContext, -w, 0); cairo_close_path(psPrint_d.printContext); cairo_clip(psPrint_d.printContext); } /***************************************************************************** * * PAGE FUNCTIONS * */ /** * Get the paper dimensions and margins and setup the internal variables * \return */ static void WlibGetPaperSize(void) { double temp; bBorder = gtk_page_setup_get_bottom_margin(page_setup, GTK_UNIT_INCH); tBorder = gtk_page_setup_get_top_margin(page_setup, GTK_UNIT_INCH); lBorder = gtk_page_setup_get_left_margin(page_setup, GTK_UNIT_INCH); rBorder = gtk_page_setup_get_right_margin(page_setup, GTK_UNIT_INCH); paperHeight = gtk_page_setup_get_paper_height(page_setup, GTK_UNIT_INCH); paperWidth = gtk_page_setup_get_paper_width(page_setup, GTK_UNIT_INCH); // XTrackCAD does page orientation itself. Basic assumption is that the // paper is always oriented in portrait mode. Ignore settings by user if (paperHeight < paperWidth) { temp = paperHeight; paperHeight = paperWidth; paperWidth = temp; } } /** * Get the paper size. The size returned is the printable area of the * currently selected paper, ie. the physical size minus the margins. * \param w OUT printable width of the paper in inches * \param h OUT printable height of the paper in inches * \return */ void wPrintGetMargins( double * tMargin, double * rMargin, double * bMargin, double * lMargin ) { if ( tMargin ) { *tMargin = tBorder; } if ( rMargin ) { *rMargin = rBorder; } if ( bMargin ) { *bMargin = bBorder; } if ( lMargin ) { *lMargin = lBorder; } } /** * Get the paper size. The size returned is the physical size of the * currently selected paper. * \param w OUT physical width of the paper in inches * \param h OUT physical height of the paper in inches * \return */ void wPrintGetPageSize( double * w, double * h) { // if necessary load the settings if (!settings) { WlibApplySettings(NULL); } WlibGetPaperSize(); *w = paperWidth; *h = paperHeight; } /** * Cancel the current print job. This function is preserved here for * reference in case the function should be implemented again. * \param context IN unused * \return */ //static void printAbort(void * context) //{ // printContinue = FALSE; // wWinShow( printAbortW, FALSE ); //} /** * Initialize new page. * The cairo_save() / cairo_restore() cycle was added to solve problems * with a multi page print operation. This might actually be a bug in * cairo but I didn't examine that any further. * * \return print context for the print operation */ wDraw_p wPrintPageStart(void) { pageCount++; cairo_save(psPrint_d.printContext); return &psPrint_d; } /** * End of page. This function returns the contents of printContinue. The * caller continues printing as long as TRUE is returned. Setting * printContinue to FALSE in an asynchronous handler therefore cleanly * terminates a print job at the end of the page. * * \param p IN ignored * \return always printContinue */ wBool_t wPrintPageEnd(wDraw_p p) { cairo_show_page(psPrint_d.printContext); cairo_restore(psPrint_d.printContext); return printContinue; } /***************************************************************************** * * PRINT START/END * */ /** * Start a new document * * \param title IN title of document ( name of layout ) * \param fTotalPageCount IN number of pages to print (unused) * \param copiesP OUT ??? * \return TRUE if successful, FALSE if cancelled by user */ wBool_t wPrintDocStart(const char * title, int fTotalPageCount, int * copiesP) { GtkWidget *printDialog; gint res; // cairo_surface_type_t surface_type; // cairo_matrix_t matrix; printDialog = gtk_print_unix_dialog_new(title, GTK_WINDOW(gtkMainW->gtkwin)); // load the settings WlibApplySettings(NULL); // and apply them to the printer dialog gtk_print_unix_dialog_set_settings((GtkPrintUnixDialog *)printDialog, settings); gtk_print_unix_dialog_set_page_setup((GtkPrintUnixDialog *)printDialog, page_setup); res = gtk_dialog_run((GtkDialog *)printDialog); if (res == GTK_RESPONSE_OK) { selPrinter = gtk_print_unix_dialog_get_selected_printer(( GtkPrintUnixDialog *)printDialog); if (settings) { g_object_unref(settings); } settings = gtk_print_unix_dialog_get_settings((GtkPrintUnixDialog *) printDialog); if (page_setup) { g_object_unref(page_setup); } page_setup = gtk_print_unix_dialog_get_page_setup((GtkPrintUnixDialog *) printDialog); curPrintJob = gtk_print_job_new(title, selPrinter, settings, page_setup); psPrint_d.curPrintSurface = gtk_print_job_get_surface(curPrintJob, NULL); psPrint_d.printContext = cairo_create(psPrint_d.curPrintSurface); WlibApplySettings( NULL ); //update the paper dimensions WlibGetPaperSize(); /* for all surfaces including files the resolution is always 72 ppi (as all GTK uses PDF) */ /*surface_type = */cairo_surface_get_type(psPrint_d.curPrintSurface); /* * Override up-scaling for some printer drivers/Linux systems that don't support the latest CUPS * - the user either sets preferences or the environment variable XTRKCADPRINTSCALE to a value * and we just let the dpi default to 72ppi and set scaling to that value. * And for PangoText we allow an override via preferences or variable XTRKCADPRINTTEXTSCALE * Note - doing this will introduce differing artifacts. * */ char * sEnvScale = PRODUCT "PRINTSCALE"; char * sEnvTextScale = PRODUCT "PRINTTEXTSCALE"; scale_text = 1.0; scale_adjust = 1.0; double printScale,printTextScale; wPrefGetFloat(PREFSECTION, PRINTSCALE, &printScale, -1.0); wPrefGetFloat(PREFSECTION, PRINTTEXTSCALE, &printTextScale, -1.0); //If the preferences are not set, look at environmental variables if (printScale < 0.0 ) { if (getenv(sEnvScale) && (atof(getenv(sEnvScale)) > 0.0)) { printScale = atof(getenv(sEnvScale)); } } if (printTextScale < 0.0 ) { if (getenv(sEnvTextScale) && (atof(getenv(sEnvTextScale)) > 0.0)) { printTextScale = atof(getenv(sEnvTextScale)); } } const char * sPrinterName = gtk_printer_get_name( selPrinter ); if ((strcmp(sPrinterName,"Print to File") == 0) || printScale < 0.0) { double p_def = 600; cairo_surface_set_fallback_resolution(psPrint_d.curPrintSurface, p_def, p_def); psPrint_d.dpi = p_def; scale_adjust = 72/p_def; } else { if (printTextScale > 0.0) { scale_text = printTextScale; } if (printScale > 0.0) { scale_adjust = printScale; } psPrint_d.dpi = 72; } // in XTrackCAD 0,0 is top left, in cairo bottom left. This is // corrected via the following transformations. // also the translate makes sure that the drawing is rendered // within the paper margin cairo_translate(psPrint_d.printContext, lBorder*72, (paperHeight-bBorder)*72 ); cairo_scale(psPrint_d.printContext, 1.0 * scale_adjust, -1.0 * scale_adjust); //cairo_translate(psPrint_d.printContext, 0, -paperHeight* psPrint_d.dpi); WlibSaveSettings(NULL); } gtk_widget_destroy(printDialog); if (copiesP) { *copiesP = 1; } printContinue = TRUE; if (res != GTK_RESPONSE_OK) { return FALSE; } else { return TRUE; } } /** * Callback for job finished event. Destroys the cairo context. * * \param job IN unused * \param data IN unused * \param err IN if != NULL, an error dialog ist displayed * \return */ void doPrintJobFinished(GtkPrintJob *job, void *data, GError *err) { // GtkWidget *dialog; cairo_destroy(psPrint_d.printContext); if (err) { /*dialog = */gtk_message_dialog_new(GTK_WINDOW(gtkMainW->gtkwin), GTK_DIALOG_DESTROY_WITH_PARENT, GTK_MESSAGE_ERROR, GTK_BUTTONS_CLOSE, "%s",err->message); } } /** * Finish the print operation * \return */ void wPrintDocEnd(void) { cairo_surface_finish(psPrint_d.curPrintSurface); gtk_print_job_send(curPrintJob, doPrintJobFinished, NULL, NULL); // wWinShow( printAbortW, FALSE ); } wBool_t wPrintQuit(void) { return FALSE; } wBool_t wPrintInit(void) { return TRUE; }