X-Git-Url: https://git.saurik.com/wxWidgets.git/blobdiff_plain/cac7ac30cb21a3108a3c1de58e7de15ad01ed1cf..6ba5438dda164146bf36ca729f8328332fae36b7:/samples/printing/printing.cpp diff --git a/samples/printing/printing.cpp b/samples/printing/printing.cpp index a2af01db75..3240955a5b 100644 --- a/samples/printing/printing.cpp +++ b/samples/printing/printing.cpp @@ -50,6 +50,12 @@ #include "mondrian.xpm" #endif +#if wxUSE_LIBGNOMEPRINT +#include "wx/html/forcelnk.h" +FORCE_LINK(gnome_print) +#endif + + // Declare a frame MyFrame *frame = (MyFrame *) NULL; // int orientation = wxPORTRAIT; @@ -278,13 +284,13 @@ void MyFrame::OnPrintAbout(wxCommandEvent& WXUNUSED(event)) _T("About wxWidgets printing demo"), wxOK|wxCENTRE); } -void MyFrame::OnAngleUp(wxCommandEvent& event) +void MyFrame::OnAngleUp(wxCommandEvent& WXUNUSED(event)) { m_angle += 5; canvas->Refresh(); } -void MyFrame::OnAngleDown(wxCommandEvent& event) +void MyFrame::OnAngleDown(wxCommandEvent& WXUNUSED(event)) { m_angle -= 5; canvas->Refresh(); @@ -301,9 +307,9 @@ void MyFrame::Draw(wxDC& dc) dc.SetBrush(*wxCYAN_BRUSH); dc.SetPen(*wxRED_PEN); - dc.DrawRectangle(0, 30, 200, 100); + dc.DrawRoundedRectangle(0, 20, 200, 80, 20); - dc.DrawText( wxT("Rectangle 200 by 100"), 40, 40); + dc.DrawText( wxT("Rectangle 200 by 80"), 40, 40); dc.SetPen( wxPen(*wxBLACK,0,wxDOT_DASH) ); dc.DrawEllipse(50, 140, 100, 50); @@ -311,12 +317,41 @@ void MyFrame::Draw(wxDC& dc) dc.DrawText( wxT("Test message: this is in 10 point text"), 10, 180); + #if wxUSE_UNICODE char *test = "Hebrew שלום -- Japanese (日本語)"; wxString tmp = wxConvUTF8.cMB2WC( test ); dc.DrawText( tmp, 10, 200 ); #endif + wxPoint points[5]; + points[0].x = 0; + points[0].y = 0; + points[1].x = 20; + points[1].y = 0; + points[2].x = 20; + points[2].y = 20; + points[3].x = 10; + points[3].y = 20; + points[4].x = 10; + points[4].y = -20; + dc.DrawPolygon( 5, points, 20, 250, wxODDEVEN_RULE ); + dc.DrawPolygon( 5, points, 50, 250, wxWINDING_RULE ); + + dc.DrawEllipticArc( 80, 250, 60, 30, 0.0, 270.0 ); + + points[0].x = 150; + points[0].y = 250; + points[1].x = 180; + points[1].y = 250; + points[2].x = 180; + points[2].y = 220; + points[3].x = 200; + points[3].y = 220; + dc.DrawSpline( 4, points ); + + dc.DrawArc( 20,10, 10,10, 25,40 ); + wxString str; int i = 0; str.Printf( wxT("---- Text at angle %d ----"), i ); @@ -333,7 +368,7 @@ void MyFrame::Draw(wxDC& dc) wxIcon my_icon = wxICON(mondrian) ; dc.DrawIcon( my_icon, 100, 100); - + if (m_bitmap.Ok()) dc.DrawBitmap( m_bitmap, 10, 10 ); } @@ -481,21 +516,21 @@ void MyPrintout::DrawPageTwo(wxDC *dc) // Calculate conversion factor for converting millimetres into // logical units. - // There are approx. 25.1 mm to the inch. There are ppi + // There are approx. 25.4 mm to the inch. There are ppi // device units to the inch. Therefore 1 mm corresponds to - // ppi/25.1 device units. We also divide by the + // ppi/25.4 device units. We also divide by the // screen-to-printer scaling factor, because we need to // unscale to pass logical units to DrawLine. // Draw 50 mm by 50 mm L shape - float logUnitsFactor = (float)(ppiPrinterX/(scale*25.1)); + float logUnitsFactor = (float)(ppiPrinterX/(scale*25.4)); float logUnits = (float)(50*logUnitsFactor); dc->SetPen(* wxBLACK_PEN); dc->DrawLine(50, 250, (long)(50.0 + logUnits), 250); dc->DrawLine(50, 250, 50, (long)(250.0 + logUnits)); dc->SetBackgroundMode(wxTRANSPARENT); - + dc->SetBrush(*wxTRANSPARENT_BRUSH); { // GetTextExtent demo: wxString words[7] = {_T("This "), _T("is "), _T("GetTextExtent "), _T("testing "), _T("string. "), _T("Enjoy "), _T("it!")};