void CPVRGUIChannelNavigator::SelectChannel(const CPVRChannelPtr channel, ChannelSwitchMode eSwitchMode)
{
CServiceBroker::GetGUI()->GetInfoManager().SetCurrentItem(CFileItem(channel));
CSingleLock lock(m_critSection);
m_currentChannel = channel;
ShowInfo(false);
if (IsPreview() && eSwitchMode == ChannelSwitchMode::INSTANT_OR_DELAYED_SWITCH)
{
int iTimeout = CServiceBroker::GetSettings().GetInt(CSettings::SETTING_PVRPLAYBACK_CHANNELENTRYTIMEOUT);
if (iTimeout > 0)
{
// delayed switch
if (m_iChannelEntryJobId >= 0)
CJobManager::GetInstance().CancelJob(m_iChannelEntryJobId);
CPVRChannelEntryTimeoutJob *job = new CPVRChannelEntryTimeoutJob(iTimeout);
m_iChannelEntryJobId = CJobManager::GetInstance().AddJob(job, dynamic_cast<IJobCallback*>(job));
}
else
{
// instant switch
SwitchToCurrentChannel();
}
}
}
void BOARD_PRINTOUT_CONTROLLER::DrawPage()
{
wxPoint offset;
double userscale;
EDA_RECT boardBoundingBox;
EDA_RECT drawRect;
wxDC* dc = GetDC();
BASE_SCREEN* screen = m_Parent->GetScreen();
bool printMirror = m_PrintParams.m_PrintMirror;
wxSize pageSizeIU = m_Parent->GetPageSizeIU();
wxBusyCursor dummy;
#if defined (PCBNEW)
BOARD * brd = ((PCB_BASE_FRAME*) m_Parent)->GetBoard();
boardBoundingBox = brd->ComputeBoundingBox();
wxString titleblockFilename = brd->GetFileName();
#elif defined (GERBVIEW)
boardBoundingBox = ((GERBVIEW_FRAME*) m_Parent)->GetGerberLayoutBoundingBox();
wxString titleblockFilename; // TODO see if we uses the gerber file name
#else
#error BOARD_PRINTOUT_CONTROLLER::DrawPage() works only for PCBNEW or GERBVIEW
#endif
// Use the page size as the drawing area when the board is shown or the user scale
// is less than 1.
if( m_PrintParams.PrintBorderAndTitleBlock() )
boardBoundingBox = EDA_RECT( wxPoint( 0, 0 ), pageSizeIU );
wxLogTrace( tracePrinting, wxT( "Drawing bounding box: x=%d, y=%d, w=%d, h=%d" ),
boardBoundingBox.GetX(), boardBoundingBox.GetY(),
boardBoundingBox.GetWidth(), boardBoundingBox.GetHeight() );
// Compute the PCB size in internal units
userscale = m_PrintParams.m_PrintScale;
if( m_PrintParams.m_PrintScale == 0 ) // fit in page option
{
if(boardBoundingBox.GetWidth() && boardBoundingBox.GetHeight())
{
int margin = Millimeter2iu( 10.0 ); // add a margin around the drawings
double scaleX = (double)(pageSizeIU.x - (2 * margin)) /
boardBoundingBox.GetWidth();
double scaleY = (double)(pageSizeIU.y - (2 * margin)) /
boardBoundingBox.GetHeight();
userscale = (scaleX < scaleY) ? scaleX : scaleY;
}
else
userscale = 1.0;
}
wxSize scaledPageSize = pageSizeIU;
drawRect.SetSize( scaledPageSize );
scaledPageSize.x = wxRound( scaledPageSize.x / userscale );
scaledPageSize.y = wxRound( scaledPageSize.y / userscale );
if( m_PrintParams.m_PageSetupData )
{
wxLogTrace( tracePrinting, wxT( "Fit size to page margins: x=%d, y=%d" ),
scaledPageSize.x, scaledPageSize.y );
// Always scale to the size of the paper.
FitThisSizeToPageMargins( scaledPageSize, *m_PrintParams.m_PageSetupData );
}
// Compute Accurate scale 1
if( m_PrintParams.m_PrintScale == 1.0 )
{
// We want a 1:1 scale, regardless the page setup
// like page size, margin ...
MapScreenSizeToPaper(); // set best scale and offset (scale is not used)
int w, h;
GetPPIPrinter( &w, &h );
double accurate_Xscale = (double) w / (IU_PER_MILS*1000);
double accurate_Yscale = (double) h / (IU_PER_MILS*1000);
if( IsPreview() ) // Scale must take in account the DC size in Preview
{
// Get the size of the DC in pixels
wxSize PlotAreaSize;
dc->GetSize( &PlotAreaSize.x, &PlotAreaSize.y );
GetPageSizePixels( &w, &h );
accurate_Xscale *= (double)PlotAreaSize.x / w;
accurate_Yscale *= (double)PlotAreaSize.y / h;
}
// Fine scale adjust
accurate_Xscale *= m_PrintParams.m_XScaleAdjust;
accurate_Yscale *= m_PrintParams.m_YScaleAdjust;
// Set print scale for 1:1 exact scale
dc->SetUserScale( accurate_Xscale, accurate_Yscale );
}
// Get the final size of the DC in pixels
wxSize PlotAreaSizeInPixels;
dc->GetSize( &PlotAreaSizeInPixels.x, &PlotAreaSizeInPixels.y );
wxLogTrace( tracePrinting, wxT( "Plot area in pixels: x=%d, y=%d" ),
PlotAreaSizeInPixels.x, PlotAreaSizeInPixels.y );
double scalex, scaley;
dc->GetUserScale( &scalex, &scaley );
wxLogTrace( tracePrinting, wxT( "DC user scale: x=%g, y=%g" ),
scalex, scaley );
wxSize PlotAreaSizeInUserUnits;
PlotAreaSizeInUserUnits.x = KiROUND( PlotAreaSizeInPixels.x / scalex );
PlotAreaSizeInUserUnits.y = KiROUND( PlotAreaSizeInPixels.y / scaley );
wxLogTrace( tracePrinting, wxT( "Scaled plot area in user units: x=%d, y=%d" ),
PlotAreaSizeInUserUnits.x, PlotAreaSizeInUserUnits.y );
// In module editor, the module is located at 0,0 but for printing
// it is moved to pageSizeIU.x/2, pageSizeIU.y/2.
// So the equivalent board must be moved to the center of the page:
if( m_Parent->IsType( MODULE_EDITOR_FRAME_TYPE ) )
{
boardBoundingBox.Move( wxPoint( pageSizeIU.x/2, pageSizeIU.y/2 ) );
}
// In some cases the plot origin is the centre of the board outline rather than the center
// of the selected paper size.
if( m_PrintParams.CenterOnBoardOutline() )
{
// Here we are only drawing the board and it's contents.
drawRect = boardBoundingBox;
offset.x += wxRound( (double) -scaledPageSize.x / 2.0 );
offset.y += wxRound( (double) -scaledPageSize.y / 2.0 );
wxPoint center = boardBoundingBox.Centre();
if( printMirror )
{
// Calculate the mirrored center of the board.
center.x = m_Parent->GetPageSizeIU().x - boardBoundingBox.Centre().x;
}
offset += center;
}
GRResetPenAndBrush( dc );
EDA_DRAW_PANEL* panel = m_Parent->GetCanvas();
EDA_RECT tmp = *panel->GetClipBox();
// Set clip box to the max size
#define MAX_VALUE (INT_MAX/2) // MAX_VALUE is the max we can use in an integer
// and that allows calculations without overflow
panel->SetClipBox( EDA_RECT( wxPoint( 0, 0 ), wxSize( MAX_VALUE, MAX_VALUE ) ) );
screen->m_IsPrinting = true;
EDA_COLOR_T bg_color = g_DrawBgColor;
// Print frame reference, if reqquested, before
if( m_PrintParams.m_Print_Black_and_White )
GRForceBlackPen( true );
if( m_PrintParams.PrintBorderAndTitleBlock() )
m_Parent->DrawWorkSheet( dc, screen, m_PrintParams.m_PenDefaultSize,
IU_PER_MILS, titleblockFilename );
if( printMirror )
{
// To plot mirror, we reverse the x axis, and modify the plot x origin
dc->SetAxisOrientation( false, false);
/* Plot offset x is moved by the x plot area size in order to have
* the old draw area in the new draw area, because the draw origin has not moved
* (this is the upper left corner) but the X axis is reversed, therefore the plotting area
* is the x coordinate values from - PlotAreaSize.x to 0 */
int x_dc_offset = PlotAreaSizeInPixels.x;
x_dc_offset = KiROUND( x_dc_offset * userscale );
dc->SetDeviceOrigin( x_dc_offset, 0 );
wxLogTrace( tracePrinting, wxT( "Device origin: x=%d, y=%d" ),
x_dc_offset, 0 );
panel->SetClipBox( EDA_RECT( wxPoint( -MAX_VALUE/2, -MAX_VALUE/2 ),
panel->GetClipBox()->GetSize() ) );
}
// screen->m_DrawOrg = offset;
dc->SetLogicalOrigin( offset.x, offset.y );
wxLogTrace( tracePrinting, wxT( "Logical origin: x=%d, y=%d" ),
offset.x, offset.y );
#if defined(wxUSE_LOG_TRACE) && defined( DEBUG )
wxRect paperRect = GetPaperRectPixels();
wxLogTrace( tracePrinting, wxT( "Paper rectangle: left=%d, top=%d, "
"right=%d, bottom=%d" ),
paperRect.GetLeft(), paperRect.GetTop(), paperRect.GetRight(),
paperRect.GetBottom() );
int devLeft = dc->LogicalToDeviceX( drawRect.GetX() );
int devTop = dc->LogicalToDeviceY( drawRect.GetY() );
int devRight = dc->LogicalToDeviceX( drawRect.GetRight() );
int devBottom = dc->LogicalToDeviceY( drawRect.GetBottom() );
wxLogTrace( tracePrinting, wxT( "Final device rectangle: left=%d, top=%d, "
"right=%d, bottom=%d\n" ),
devLeft, devTop, devRight, devBottom );
#endif
g_DrawBgColor = WHITE;
/* when printing in color mode, we use the graphic OR mode that gives the same look as
* the screen but because the background is white when printing, we must use a trick:
* In order to plot on a white background in OR mode we must:
* 1 - Plot all items in black, this creates a local black background
* 2 - Plot in OR mode on black "local" background
*/
if( !m_PrintParams.m_Print_Black_and_White )
{
// Creates a "local" black background
GRForceBlackPen( true );
m_Parent->PrintPage( dc, m_PrintParams.m_PrintMaskLayer,
printMirror, &m_PrintParams );
GRForceBlackPen( false );
}
else
GRForceBlackPen( true );
#if defined (GERBVIEW)
// In B&W mode, do not force black pen for Gerbview
// because negative objects need a white pen, not a black pen
// B&W mode is handled in print page
GRForceBlackPen( false );
#endif
m_Parent->PrintPage( dc, m_PrintParams.m_PrintMaskLayer, printMirror,
&m_PrintParams );
g_DrawBgColor = bg_color;
screen->m_IsPrinting = false;
panel->SetClipBox( tmp );
GRForceBlackPen( false );
}
/// Calculate scaling and rectangles, setting the device context scaling
void wxRichTextPrintout::CalculateScaling(wxDC* dc, wxRect& textRect, wxRect& headerRect, wxRect& footerRect)
{
// Get the logical pixels per inch of screen and printer
int ppiScreenX, ppiScreenY;
GetPPIScreen(&ppiScreenX, &ppiScreenY);
int ppiPrinterX, ppiPrinterY;
GetPPIPrinter(&ppiPrinterX, &ppiPrinterY);
// This scales the DC so that the printout roughly represents the
// the screen scaling.
float scale = (float)((float)ppiPrinterX/(float)ppiScreenX);
// Now we have to check in case our real page size is reduced
// (e.g. because we're drawing to a print preview memory DC)
int pageWidth, pageHeight;
int w, h;
dc->GetSize(&w, &h);
GetPageSizePixels(&pageWidth, &pageHeight);
// If printer pageWidth == current DC width, then this doesn't
// change. But w might be the preview bitmap width, so scale down.
float previewScale = (float)(w/(float)pageWidth);
float overallScale = scale * previewScale;
// The dimensions used for indentation etc. have to be unscaled
// during printing to be correct when scaling is applied.
if (!IsPreview())
m_richTextBuffer->SetScale(scale);
// Calculate margins
int marginLeft = wxRichTextObject::ConvertTenthsMMToPixels(ppiPrinterX, m_marginLeft);
int marginTop = wxRichTextObject::ConvertTenthsMMToPixels(ppiPrinterX, m_marginTop);
int marginRight = wxRichTextObject::ConvertTenthsMMToPixels(ppiPrinterX, m_marginRight);
int marginBottom = wxRichTextObject::ConvertTenthsMMToPixels(ppiPrinterX, m_marginBottom);
// Header and footer margins
int headerMargin = wxRichTextObject::ConvertTenthsMMToPixels(ppiPrinterX, m_headerFooterData.GetHeaderMargin());
int footerMargin = wxRichTextObject::ConvertTenthsMMToPixels(ppiPrinterX, m_headerFooterData.GetFooterMargin());
dc->SetUserScale(overallScale, overallScale);
wxRect rect((int) (marginLeft/scale), (int) (marginTop/scale),
(int) ((pageWidth - marginLeft - marginRight)/scale), (int)((pageHeight - marginTop - marginBottom)/scale));
headerRect = wxRect(0, 0, 0, 0);
if (!m_headerFooterData.GetHeaderText(wxRICHTEXT_PAGE_ODD, wxRICHTEXT_PAGE_LEFT).IsEmpty() ||
!m_headerFooterData.GetHeaderText(wxRICHTEXT_PAGE_ODD, wxRICHTEXT_PAGE_CENTRE).IsEmpty() ||
!m_headerFooterData.GetHeaderText(wxRICHTEXT_PAGE_ODD, wxRICHTEXT_PAGE_RIGHT).IsEmpty() ||
!m_headerFooterData.GetHeaderText(wxRICHTEXT_PAGE_EVEN, wxRICHTEXT_PAGE_LEFT).IsEmpty() ||
!m_headerFooterData.GetHeaderText(wxRICHTEXT_PAGE_EVEN, wxRICHTEXT_PAGE_CENTRE).IsEmpty() ||
!m_headerFooterData.GetHeaderText(wxRICHTEXT_PAGE_EVEN, wxRICHTEXT_PAGE_RIGHT).IsEmpty())
{
if (m_headerFooterData.GetFont().Ok())
dc->SetFont(m_headerFooterData.GetFont());
else
dc->SetFont(*wxNORMAL_FONT);
int charHeight = dc->GetCharHeight();
int headerHeight = (int) (charHeight + headerMargin/scale);
headerRect = wxRect(rect.x, rect.y, rect.width, headerHeight);
rect.y += headerHeight;
rect.height -= headerHeight;
}
footerRect = wxRect(0, 0, 0, 0);
if (!m_headerFooterData.GetFooterText(wxRICHTEXT_PAGE_ODD, wxRICHTEXT_PAGE_LEFT).IsEmpty() ||
!m_headerFooterData.GetFooterText(wxRICHTEXT_PAGE_ODD, wxRICHTEXT_PAGE_CENTRE).IsEmpty() ||
!m_headerFooterData.GetFooterText(wxRICHTEXT_PAGE_ODD, wxRICHTEXT_PAGE_RIGHT).IsEmpty() ||
!m_headerFooterData.GetFooterText(wxRICHTEXT_PAGE_EVEN, wxRICHTEXT_PAGE_LEFT).IsEmpty() ||
!m_headerFooterData.GetFooterText(wxRICHTEXT_PAGE_EVEN, wxRICHTEXT_PAGE_CENTRE).IsEmpty() ||
!m_headerFooterData.GetFooterText(wxRICHTEXT_PAGE_EVEN, wxRICHTEXT_PAGE_RIGHT).IsEmpty())
{
if (m_headerFooterData.GetFont().Ok())
dc->SetFont(m_headerFooterData.GetFont());
else
dc->SetFont(*wxNORMAL_FONT);
int charHeight = dc->GetCharHeight();
int footerHeight = (int) (charHeight + footerMargin/scale);
footerRect = wxRect(rect.x, rect.y + rect.height, rect.width, footerHeight);
rect.height -= footerHeight;
}
textRect = rect;
}
void
MyPrintout::LayoutPages()
{
// Disable windows while laying out the page
wxWindowDisabler disableAll;
wxBusyInfo wait(_T("Please wait. Laying out page..."));
// Suppress drawing
m_isDrawing = false;
// Make the borders bigger if we're actually printing, because the DPI of the printer
// is way higher.
if (IsPreview())
m_drawer.SetBorderSize(1);
else
m_drawer.SetBorderSize(3);
// Try successive column scales (1/x) after the font gets too small.
// Grid scale will be the entire page less the column scale.
// e.g. column scale of 4 = 1/4; the grid will take up 3/4 of the page
double colScales[] = { 4, 5, 6, 3 };
int i = 0;
const int startingFontSize = m_clueFont.GetPointSize();
// Measure the grid and text. If the text doesn't fit, catch the exception that should
// be thrown, and try a smaller font size or a different grid size.
for (;;)
{
try
{
// Measure the grid
m_gridScale = 1 - (1. / colScales[i]);
LayoutGrid(m_gridScale);
DrawText();
break;
}
catch (FontSizeError&)
{
wxTheApp->Yield();
// If we're at the smallest good looking font size, try the next grid size.
if (m_clueFont.GetPointSize() == MIN_GOOD_POINT_SIZE && i < 2)
{
wxLogDebug(_T("Hit min *good* font size"));
wxLogDebug(_T("Trying again with a different grid size"));
++i; // Next grid size in the list
m_clueFont.SetPointSize(startingFontSize);
SetupFonts();
}
else if (m_clueFont.GetPointSize() <= MIN_POINT_SIZE)
{
wxLogDebug(_T("Ran out of size options!"));
return;
}
else
{
wxLogDebug(_T("Trying again with font size: %d"), m_clueFont.GetPointSize());
m_clueFont.SetPointSize(m_clueFont.GetPointSize() - 1);
SetupFonts();
}
}
}
wxLogDebug(_T("Done with layout"));
}
/*
* This is the real print function: print the active screen
*/
void BOARD_PRINTOUT_CONTROLER::DrawPage()
{
int tmpzoom;
wxPoint tmp_startvisu;
wxPoint old_org;
wxPoint DrawOffset; // Offset de trace
double userscale;
double DrawZoom = 1;
wxDC* dc = GetDC();
PCB_SCREEN* screen = (PCB_SCREEN*) m_Parent->GetScreen();
bool printMirror = m_PrintParams.m_PrintMirror;
wxBusyCursor dummy;
// Save old draw scale and draw offset
tmp_startvisu = screen->m_StartVisu;
tmpzoom = screen->GetZoom();
old_org = screen->m_DrawOrg;
// Change draw scale and offset to draw the whole page
screen->SetScalingFactor( DrawZoom );
screen->m_DrawOrg.x = screen->m_DrawOrg.y = 0;
screen->m_StartVisu.x = screen->m_StartVisu.y = 0;
PCB_BASE_FRAME* pcbframe = (PCB_BASE_FRAME*) m_Parent;
wxSize pageSizeIU = pcbframe->GetPageSizeIU(); // internal units
EDA_RECT bbbox = pcbframe->GetBoard()->ComputeBoundingBox();
// In module editor, the module is located at 0,0 but for printing
// it is moved to pageSizeIU.x/2, pageSizeIU.y/2.
// So the equivalent board must be moved:
if( m_Parent->IsType( MODULE_EDITOR_FRAME ) )
{
bbbox.Move( wxPoint( pageSizeIU.x/2, pageSizeIU.y/2 ) );
}
// Compute the PCB size in internal units
userscale = m_PrintParams.m_PrintScale;
if( userscale == 0 ) // fit in page
{
// Margin = 0.4 inch
#if defined(KICAD_NANOMETRE)
int extra_margin = int( 0.4 * 25400 ); // nanometers
#else
int extra_margin = int( 0.4 * 1000 ); // deci-mils
#endif
pageSizeIU.x = bbbox.GetWidth() + extra_margin * 2;
pageSizeIU.y = bbbox.GetHeight() + extra_margin * 2;
userscale = 0.99;
}
if( (m_PrintParams.m_PrintScale > 1.0) // scale > 1 -> Recadrage
|| (m_PrintParams.m_PrintScale == 0) ) // fit in page
{
DrawOffset += bbbox.Centre();
}
if( m_PrintParams.m_PageSetupData )
{
wxSize pagesize;
pagesize.x = int( pageSizeIU.x / userscale );
pagesize.y = int( pageSizeIU.y / userscale );
FitThisSizeToPageMargins( pagesize, *m_PrintParams.m_PageSetupData );
}
// Compute Accurate scale 1
if( userscale == 1.0 )
{
// We want a 1:1 scale and margins for printing
MapScreenSizeToPaper();
int w, h;
GetPPIPrinter( &w, &h );
double accurate_Xscale = ( (double) ( DrawZoom * w ) ) / (double) PCB_INTERNAL_UNIT;
double accurate_Yscale = ( (double) ( DrawZoom * h ) ) / (double) PCB_INTERNAL_UNIT;
if( IsPreview() ) // Scale must take in account the DC size in Preview
{
// Get the size of the DC in pixels
wxSize PlotAreaSize;
dc->GetSize( &PlotAreaSize.x, &PlotAreaSize.y );
GetPageSizePixels( &w, &h );
accurate_Xscale *= PlotAreaSize.x;
accurate_Xscale /= (double) w;
accurate_Yscale *= PlotAreaSize.y;
accurate_Yscale /= (double) h;
}
accurate_Xscale *= m_PrintParams.m_XScaleAdjust;
accurate_Yscale *= m_PrintParams.m_YScaleAdjust;
// Fine scale adjust
dc->SetUserScale( accurate_Xscale, accurate_Yscale );
}
// Get the final size of the DC in pixels
wxSize PlotAreaSizeInPixels;
dc->GetSize( &PlotAreaSizeInPixels.x, &PlotAreaSizeInPixels.y );
double scalex, scaley;
dc->GetUserScale(&scalex, &scaley);
wxSize PlotAreaSizeInUserUnits;
PlotAreaSizeInUserUnits.x = (int) (PlotAreaSizeInPixels.x/scalex);
PlotAreaSizeInUserUnits.y = (int) (PlotAreaSizeInPixels.y/scaley);
/* In some cases the plot origin is the centre of the page
* when:
* - Asked
* - scale > 1
* - fit in page
*/
if( m_PrintParams.m_ForceCentered
|| (m_PrintParams.m_PrintScale > 1.0) // scale > 1
|| (m_PrintParams.m_PrintScale == 0) ) // fit in page
{
DrawOffset.x -= PlotAreaSizeInUserUnits.x / 2;
DrawOffset.y -= PlotAreaSizeInUserUnits.y / 2;
}
screen->m_DrawOrg = DrawOffset;
GRResetPenAndBrush( dc );
if( m_PrintParams.m_Print_Black_and_White )
GRForceBlackPen( true );
EDA_DRAW_PANEL* panel = m_Parent->GetCanvas();
EDA_RECT tmp = *panel->GetClipBox();
// Set clip box to the max size
#define MAX_VALUE (INT_MAX/2) // MAX_VALUE is the max we can use in an integer
// and that allows calculations without overflow
panel->SetClipBox( EDA_RECT( wxPoint( 0, 0 ), wxSize( MAX_VALUE, MAX_VALUE ) ) );
m_Parent->GetScreen()->m_IsPrinting = true;
int bg_color = g_DrawBgColor;
if( m_PrintParams.m_Print_Sheet_Ref )
m_Parent->TraceWorkSheet( dc, screen, m_PrintParams.m_PenDefaultSize );
if( printMirror )
{
// To plot mirror, we reverse the y axis, and modify the plot y origin
dc->SetAxisOrientation( true, true );
if( userscale < 1.0 )
scaley /= userscale;
/* Plot offset y is moved by the y plot area size in order to have
* the old draw area in the new draw area, because the draw origin has not moved
* (this is the upper left corner) but the Y axis is reversed, therefore the plotting area
* is the y coordinate values from - PlotAreaSize.y to 0 */
int y_dc_offset = PlotAreaSizeInPixels.y;
y_dc_offset = (int) ( ( double ) y_dc_offset * userscale );
dc->SetDeviceOrigin( 0, y_dc_offset );
int ysize = (int) ( PlotAreaSizeInPixels.y / scaley );
DrawOffset.y += ysize;
/* in order to keep the board position in the sheet
* (when user scale <= 1) the y offset in moved by the distance between
* the middle of the page and the middle of the board
* This is equivalent to put the mirror axis to the board centre
* for scales > 1, the DrawOffset was already computed to have the board centre
* to the middle of the page.
*/
wxPoint pcb_centre = bbbox.Centre();
if( userscale <= 1.0 )
DrawOffset.y += pcb_centre.y - (ysize / 2);
dc->SetLogicalOrigin( screen->m_DrawOrg.x, screen->m_DrawOrg.y );
panel->SetClipBox( EDA_RECT( wxPoint( -MAX_VALUE/2, -MAX_VALUE/2 ),
panel->GetClipBox()->GetSize() ) );
}
g_DrawBgColor = WHITE;
/* when printing in color mode, we use the graphic OR mode that gives the same look as the screen
* But because the background is white when printing, we must use a trick:
* In order to plot on a white background in OR mode we must:
* 1 - Plot all items in black, this creates a local black backgroud
* 2 - Plot in OR mode on black "local" background
*/
if( !m_PrintParams.m_Print_Black_and_White )
{ // Creates a "local" black background
GRForceBlackPen( true );
m_Parent->PrintPage( dc, m_PrintParams.m_PrintMaskLayer, printMirror, &m_PrintParams );
GRForceBlackPen( false );
}
m_Parent->PrintPage( dc, m_PrintParams.m_PrintMaskLayer, printMirror, &m_PrintParams );
g_DrawBgColor = bg_color;
m_Parent->GetScreen()->m_IsPrinting = false;
panel->SetClipBox( tmp );
GRForceBlackPen( false );
screen->m_StartVisu = tmp_startvisu;
screen->m_DrawOrg = old_org;
screen->SetZoom( tmpzoom );
}
void EDA_Printout::DrawPage(void)
/********************************/
/*
This is the real print function: print the active screen
*/
{
int tmpzoom;
wxPoint tmp_startvisu;
wxSize PageSize_in_mm;
wxSize SheetSize; // Sheet size in internal units
wxSize PlotAreaSize; // Taille de la surface utile de trace (pixels)
double scaleX, scaleY, scale;
wxPoint old_org;
wxPoint DrawOffset; // Offset de trace
double userscale;
wxDC * dc = GetDC();
int DrawZoom = 1;
wxBusyCursor dummy;
GetPageSizeMM(&PageSize_in_mm.x, &PageSize_in_mm.y);
/* Save old draw scale and draw offset */
tmp_startvisu = ActiveScreen->m_StartVisu;
tmpzoom = ActiveScreen->GetZoom();
old_org = ActiveScreen->m_DrawOrg;
/* Change draw scale and offset to draw the whole page*/
ActiveScreen->SetZoom(DrawZoom);
ActiveScreen->m_DrawOrg.x = ActiveScreen->m_DrawOrg.y = 0;
ActiveScreen->m_StartVisu.x = ActiveScreen->m_StartVisu.y = 0;
SheetSize = ActiveScreen->m_CurrentSheet->m_Size; // size in 1/1000 inch
SheetSize.x *= m_Parent->m_InternalUnits / 1000;
SheetSize.y *= m_Parent->m_InternalUnits / 1000; // size in pixels
// Get the size of the DC in pixels
dc->GetSize(&PlotAreaSize.x, &PlotAreaSize.y);
#ifdef PCBNEW
WinEDA_BasePcbFrame * pcbframe = (WinEDA_BasePcbFrame*) m_Parent;
pcbframe->m_Pcb->ComputeBoundaryBox();
/* calcul des dimensions du PCB */
if (s_ScaleList[s_Scale_Select] == 0) // fit in page
{
int extra_margin = 8000; // Margin = 8000/2 units pcb = 0,4 inch
SheetSize.x = pcbframe->m_Pcb->m_BoundaryBox.GetWidth() + extra_margin;
SheetSize.y = pcbframe->m_Pcb->m_BoundaryBox.GetHeight() + extra_margin;
userscale = 0.99;
}
else userscale = s_ScaleList[s_Scale_Select];
if ( (s_ScaleList[s_Scale_Select] > 1.0) || // scale > 1 -> Recadrage
(s_ScaleList[s_Scale_Select] == 0) ) // fit in page
{
DrawOffset.x += pcbframe->m_Pcb->m_BoundaryBox.Centre().x;
DrawOffset.y += pcbframe->m_Pcb->m_BoundaryBox.Centre().y;
}
#endif
// Calculate a suitable scaling factor
scaleX = (double)SheetSize.x / PlotAreaSize.x;
scaleY = (double)SheetSize.y / PlotAreaSize.y;
scale = wxMax(scaleX,scaleY) / userscale; // Use x or y scaling factor, whichever fits on the DC
// ajust the real draw scale
#ifdef PCBNEW
double accurate_Xscale, accurate_Yscale;
dc->SetUserScale(DrawZoom / scale * m_PrintFrame->m_XScaleAdjust,
DrawZoom / scale * m_PrintFrame->m_YScaleAdjust);
// Compute Accurate scale 1
{
int w, h;
GetPPIPrinter(&w, &h);
accurate_Xscale = ((double)(DrawZoom * w))/ PCB_INTERNAL_UNIT;
accurate_Yscale = ((double)(DrawZoom * h))/ PCB_INTERNAL_UNIT;
if ( IsPreview() ) // Scale must take in account the DC size in Preview
{
// Get the size of the DC in pixels
dc->GetSize(&PlotAreaSize.x, &PlotAreaSize.y);
GetPageSizePixels(&w, &h);
accurate_Xscale *= PlotAreaSize.x; accurate_Xscale /= w;
accurate_Yscale *= PlotAreaSize.y; accurate_Yscale /= h;
}
accurate_Xscale *= m_PrintFrame->m_XScaleAdjust;
accurate_Yscale *= m_PrintFrame->m_YScaleAdjust;
}
#else
dc->SetUserScale(DrawZoom / scale, DrawZoom / scale);
#endif
#ifdef PCBNEW
if ( (s_ScaleList[s_Scale_Select] > 1.0) || // scale > 1 -> Recadrage
(s_ScaleList[s_Scale_Select] == 0) ) // fit in page
{
DrawOffset.x -= (int)( (PlotAreaSize.x/2) * scale);
DrawOffset.y -= (int)( (PlotAreaSize.y/2) * scale );
}
DrawOffset.x += (int)( (SheetSize.x/2) * (m_PrintFrame->m_XScaleAdjust -1.0));
DrawOffset.y += (int)( (SheetSize.y/2) * (m_PrintFrame->m_YScaleAdjust -1.0));
#endif
ActiveScreen->m_DrawOrg = DrawOffset;
GRResetPenAndBrush(dc);
if( s_Print_Black_and_White ) GRForceBlackPen(TRUE);
#ifdef EESCHEMA
/* set Pen min width */
float ftmp;
// PenMinWidth est donné en 1/100 mm, a convertir en pixels
ftmp = (float)PenMinWidth / 100; // ftmp est en mm
ftmp *= (float)PlotAreaSize.x / PageSize_in_mm.x; /* ftmp est en pixels */
SetPenMinWidth((int)ftmp);
#else
SetPenMinWidth(1);
#endif
WinEDA_DrawPanel * panel = m_Parent->DrawPanel;
EDA_Rect tmp = panel->m_ClipBox;
panel->m_ClipBox.SetOrigin(wxPoint(0,0));
panel->m_ClipBox.SetSize(wxSize(0x7FFFFF0, 0x7FFFFF0));
g_IsPrinting = TRUE;
#ifdef EESCHEMA
if( s_Print_Black_and_White )
g_PrintFillMask = FILLED_WITH_BG_BODYCOLOR;
#endif
#ifdef PCBNEW
if ( userscale == 1.0 ) // Draw the Sheet refs at optimum scale, and board at 1.0 scale
{
if ( m_Print_Sheet_Ref )
m_Parent->TraceWorkSheet( dc, ActiveScreen);
m_Print_Sheet_Ref = FALSE;
dc->SetUserScale( accurate_Yscale, accurate_Yscale);
}
#endif
panel->PrintPage(dc, m_Print_Sheet_Ref, s_PrintMaskLayer);
#ifdef EESCHEMA
g_PrintFillMask = 0;
#endif
g_IsPrinting = FALSE;
panel->m_ClipBox = tmp;
SetPenMinWidth(1);
GRForceBlackPen(FALSE);
ActiveScreen->m_StartVisu = tmp_startvisu;
ActiveScreen->m_DrawOrg = old_org;
ActiveScreen->SetZoom(tmpzoom);
}
void BOARD_PRINTOUT_CONTROLLER::DrawPage()
{
wxPoint offset;
double userscale;
EDA_RECT boardBoundingBox;
EDA_RECT drawRect;
wxDC* dc = GetDC();
BASE_SCREEN* screen = m_Parent->GetScreen();
bool printMirror = m_PrintParams.m_PrintMirror;
wxSize pageSizeIU = m_Parent->GetPageSizeIU();
wxBusyCursor dummy;
boardBoundingBox = ((GERBVIEW_FRAME*) m_Parent)->GetGerberLayoutBoundingBox();
wxString titleblockFilename; // TODO see if we uses the gerber file name
// Use the page size as the drawing area when the board is shown or the user scale
// is less than 1.
if( m_PrintParams.PrintBorderAndTitleBlock() )
boardBoundingBox = EDA_RECT( wxPoint( 0, 0 ), pageSizeIU );
// Compute the PCB size in internal units
userscale = m_PrintParams.m_PrintScale;
if( m_PrintParams.m_PrintScale == 0 ) // fit in page option
{
if(boardBoundingBox.GetWidth() && boardBoundingBox.GetHeight())
{
int margin = Millimeter2iu( 10.0 ); // add a margin around the drawings
double scaleX = (double)(pageSizeIU.x - (2 * margin)) /
boardBoundingBox.GetWidth();
double scaleY = (double)(pageSizeIU.y - (2 * margin)) /
boardBoundingBox.GetHeight();
userscale = (scaleX < scaleY) ? scaleX : scaleY;
}
else
userscale = 1.0;
}
wxSize scaledPageSize = pageSizeIU;
drawRect.SetSize( scaledPageSize );
scaledPageSize.x = wxRound( scaledPageSize.x / userscale );
scaledPageSize.y = wxRound( scaledPageSize.y / userscale );
if( m_PrintParams.m_PageSetupData )
{
// Always scale to the size of the paper.
FitThisSizeToPageMargins( scaledPageSize, *m_PrintParams.m_PageSetupData );
}
// Compute Accurate scale 1
if( m_PrintParams.m_PrintScale == 1.0 )
{
// We want a 1:1 scale, regardless the page setup
// like page size, margin ...
MapScreenSizeToPaper(); // set best scale and offset (scale is not used)
int w, h;
GetPPIPrinter( &w, &h );
double accurate_Xscale = (double) w / (IU_PER_MILS*1000);
double accurate_Yscale = (double) h / (IU_PER_MILS*1000);
if( IsPreview() ) // Scale must take in account the DC size in Preview
{
// Get the size of the DC in pixels
wxSize PlotAreaSize;
dc->GetSize( &PlotAreaSize.x, &PlotAreaSize.y );
GetPageSizePixels( &w, &h );
accurate_Xscale *= (double)PlotAreaSize.x / w;
accurate_Yscale *= (double)PlotAreaSize.y / h;
}
// Fine scale adjust
accurate_Xscale *= m_PrintParams.m_XScaleAdjust;
accurate_Yscale *= m_PrintParams.m_YScaleAdjust;
// Set print scale for 1:1 exact scale
dc->SetUserScale( accurate_Xscale, accurate_Yscale );
}
// Get the final size of the DC in pixels
wxSize PlotAreaSizeInPixels;
dc->GetSize( &PlotAreaSizeInPixels.x, &PlotAreaSizeInPixels.y );
double scalex, scaley;
dc->GetUserScale( &scalex, &scaley );
// In some cases the plot origin is the centre of the board outline rather than the center
// of the selected paper size.
if( m_PrintParams.CenterOnBoardOutline() )
{
// Here we are only drawing the board and it's contents.
drawRect = boardBoundingBox;
offset.x += wxRound( (double) -scaledPageSize.x / 2.0 );
offset.y += wxRound( (double) -scaledPageSize.y / 2.0 );
wxPoint center = boardBoundingBox.Centre();
if( printMirror )
{
// Calculate the mirrored center of the board.
center.x = m_Parent->GetPageSizeIU().x - boardBoundingBox.Centre().x;
}
offset += center;
}
GRResetPenAndBrush( dc );
EDA_DRAW_PANEL* panel = m_Parent->GetCanvas();
EDA_RECT tmp = *panel->GetClipBox();
// Set clip box to the max size
#define MAX_VALUE (INT_MAX/2) // MAX_VALUE is the max we can use in an integer
// and that allows calculations without overflow
panel->SetClipBox( EDA_RECT( wxPoint( 0, 0 ), wxSize( MAX_VALUE, MAX_VALUE ) ) );
screen->m_IsPrinting = true;
EDA_COLOR_T bg_color = m_Parent->GetDrawBgColor();
// Print frame reference, if requested, before printing draw layers
if( m_PrintParams.m_Print_Black_and_White )
GRForceBlackPen( true );
if( m_PrintParams.PrintBorderAndTitleBlock() )
m_Parent->DrawWorkSheet( dc, screen, m_PrintParams.m_PenDefaultSize,
IU_PER_MILS, titleblockFilename );
if( printMirror )
{
// To plot mirror, we reverse the x axis, and modify the plot x origin
dc->SetAxisOrientation( false, false );
/* Change plot offset in order to have the draw area at the same location.
* The plot origin X is just moved from 0 to PlotAreaSizeInPixels.x.
* just set offset x at PlotAreaSizeInPixels.x.
*/
int x_dc_offset = PlotAreaSizeInPixels.x;
x_dc_offset = KiROUND( x_dc_offset * userscale );
dc->SetDeviceOrigin( x_dc_offset, 0 );
panel->SetClipBox( EDA_RECT( wxPoint( -MAX_VALUE / 2, -MAX_VALUE / 2 ),
panel->GetClipBox()->GetSize() ) );
}
// screen->m_DrawOrg = offset;
dc->SetLogicalOrigin( offset.x, offset.y );
m_Parent->SetDrawBgColor( WHITE );
// Never force black pen to print draw layers
// because negative objects need a white pen, not a black pen
// B&W mode is handled in print page function
GRForceBlackPen( false );
m_Parent->PrintPage( dc, m_PrintParams.m_PrintMaskLayer, printMirror, &m_PrintParams );
m_Parent->SetDrawBgColor( bg_color );
screen->m_IsPrinting = false;
panel->SetClipBox( tmp );
}
bool CPVRGUIChannelNavigator::IsPreviewAndShowInfo() const
{
return IsPreview() && CServiceBroker::GetGUI()->GetInfoManager().GetInfoProviders().GetPlayerInfoProvider().GetShowInfo();
}
