// // "$Id$" // // Support for WIN32 printing for the Fast Light Tool Kit (FLTK). // // Copyright 2010 by Bill Spitzak and others. // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Library General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library 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 // Library General Public License for more details. // // You should have received a copy of the GNU Library General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 // USA. // // Please report all bugs and problems on the following page: // // http://www.fltk.org/str.php // #ifdef WIN32 #include #include #include extern HWND fl_window; Fl_System_Printer::Fl_System_Printer(void) : Fl_Paged_Device() { hPr = NULL; driver(Fl_Display_Device::display_device()->driver()); } Fl_System_Printer::~Fl_System_Printer(void) { if (hPr) end_job(); } static void WIN_SetupPrinterDeviceContext(HDC prHDC) { if ( !prHDC ) return; fl_window = 0; fl_gc = prHDC; SetGraphicsMode(prHDC, GM_ADVANCED); // to allow for rotations SetMapMode(prHDC, MM_ANISOTROPIC); SetTextAlign(prHDC, TA_BASELINE|TA_LEFT); SetBkMode(prHDC, TRANSPARENT); // this matches 720 logical units to the number of device units in 10 inches of paper // thus the logical unit is the point (= 1/72 inch) SetWindowExtEx(prHDC, 720, 720, NULL); SetViewportExtEx(prHDC, 10*GetDeviceCaps(prHDC, LOGPIXELSX), 10*GetDeviceCaps(prHDC, LOGPIXELSY), NULL); } int Fl_System_Printer::start_job (int pagecount, int *frompage, int *topage) // returns 0 iff OK { DWORD commdlgerr; DOCINFO di; char docName [256]; int err = 0; abortPrint = FALSE; memset (&pd, 0, sizeof (PRINTDLG)); pd.lStructSize = sizeof (PRINTDLG); pd.hwndOwner = GetForegroundWindow(); pd.Flags = PD_RETURNDC | PD_USEDEVMODECOPIESANDCOLLATE | PD_NOSELECTION; pd.nMinPage = 1; pd.nMaxPage = pagecount; if (PrintDlg (&pd) != 0) { hPr = pd.hDC; if (hPr != NULL) { strcpy (docName, "FLTK"); memset(&di, 0, sizeof(DOCINFO)); di.cbSize = sizeof (DOCINFO); di.lpszDocName = (LPCSTR) docName; prerr = StartDoc (hPr, &di); if (prerr < 1) { abortPrint = TRUE; //fl_alert ("StartDoc error %d", prerr); err = 1; } } else { commdlgerr = CommDlgExtendedError (); fl_alert ("Unable to create print context, error %lu", (unsigned long) commdlgerr); err = 1; } } else { err = 1; } if(!err) { if((pd.Flags & PD_PAGENUMS) != 0 ) { if (frompage) *frompage = pd.nFromPage; if (topage) *topage = pd.nToPage; } else { if (frompage) *frompage = 1; if (topage) *topage = pagecount; } x_offset = 0; y_offset = 0; WIN_SetupPrinterDeviceContext (hPr); gc = (void *)fl_gc; this->set_current(); } return err; } void Fl_System_Printer::end_job (void) { Fl_Display_Device::display_device()->set_current(); if (hPr != NULL) { if (! abortPrint) { prerr = EndDoc (hPr); if (prerr < 0) { fl_alert ("EndDoc error %d", prerr); } } DeleteDC (hPr); if (pd.hDevMode != NULL) { GlobalFree (pd.hDevMode); } if (pd.hDevNames != NULL) { GlobalFree (pd.hDevNames); } } hPr = NULL; } void Fl_System_Printer::absolute_printable_rect(int *x, int *y, int *w, int *h) { POINT physPageSize; POINT pixelsPerInch; if (hPr == NULL) return; SetWindowOrgEx(fl_gc, 0, 0, NULL); physPageSize.x = GetDeviceCaps(hPr, HORZRES); physPageSize.y = GetDeviceCaps(hPr, VERTRES); DPtoLP(hPr, &physPageSize, 1); *w = physPageSize.x + 1; *h = physPageSize.y + 1; pixelsPerInch.x = GetDeviceCaps(hPr, LOGPIXELSX); pixelsPerInch.y = GetDeviceCaps(hPr, LOGPIXELSY); DPtoLP(hPr, &pixelsPerInch, 1); left_margin = (pixelsPerInch.x / 4); *w -= (pixelsPerInch.x / 2); top_margin = (pixelsPerInch.y / 4); *h -= (pixelsPerInch.y / 2); *x = left_margin; *y = top_margin; origin(x_offset, y_offset); } void Fl_System_Printer::margins(int *left, int *top, int *right, int *bottom) { int x, y, w, h; absolute_printable_rect(&x, &y, &w, &h); if (left) *left = x; if (top) *top = y; if (right) *right = x; if (bottom) *bottom = y; } int Fl_System_Printer::printable_rect(int *w, int *h) { int x, y; absolute_printable_rect(&x, &y, w, h); return 0; } int Fl_System_Printer::start_page (void) { int rsult, w, h; rsult = 0; if (hPr != NULL) { WIN_SetupPrinterDeviceContext (hPr); prerr = StartPage (hPr); if (prerr < 0) { fl_alert ("StartPage error %d", prerr); rsult = 1; } printable_rect(&w, &h); origin(0, 0); fl_clip_region(0); gc = (void *)fl_gc; } return rsult; } void Fl_System_Printer::origin (int deltax, int deltay) { SetWindowOrgEx(fl_gc, - left_margin - deltax, - top_margin - deltay, NULL); x_offset = deltax; y_offset = deltay; } void Fl_System_Printer::scale (float scalex, float scaley) { if (scaley == 0.) scaley = scalex; int w, h; SetWindowExtEx(fl_gc, (int)(720 / scalex + 0.5), (int)(720 / scaley + 0.5), NULL); printable_rect(&w, &h); origin(0, 0); } void Fl_System_Printer::rotate (float rot_angle) { XFORM mat; float angle; angle = - rot_angle * M_PI / 180.; mat.eM11 = cos(angle); mat.eM12 = sin(angle); mat.eM21 = - mat.eM12; mat.eM22 = mat.eM11; mat.eDx = mat.eDy = 0; SetWorldTransform(fl_gc, &mat); } int Fl_System_Printer::end_page (void) { int rsult; rsult = 0; if (hPr != NULL) { prerr = EndPage (hPr); if (prerr < 0) { abortPrint = TRUE; fl_alert ("EndPage error %d", prerr); rsult = 1; } } gc = NULL; return rsult; } static int translate_stack_depth = 0; const int translate_stack_max = 5; static int translate_stack_x[translate_stack_max]; static int translate_stack_y[translate_stack_max]; static void do_translate(int x, int y) { XFORM tr; tr.eM11 = tr.eM22 = 1; tr.eM12 = tr.eM21 = 0; tr.eDx = x; tr.eDy = y; ModifyWorldTransform(fl_gc, &tr, MWT_LEFTMULTIPLY); } void Fl_System_Printer::translate (int x, int y) { do_translate(x, y); if (translate_stack_depth < translate_stack_max) { translate_stack_x[translate_stack_depth] = x; translate_stack_y[translate_stack_depth] = y; translate_stack_depth++; } } void Fl_System_Printer::untranslate (void) { if (translate_stack_depth > 0) { translate_stack_depth--; do_translate( - translate_stack_x[translate_stack_depth], - translate_stack_y[translate_stack_depth] ); } } #endif // WIN32 // // End of "$Id$". //