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wxWidgets/src/msw/dc.cpp
Catalin a92baffcec Removed obsolete symbols from comments.
2016-02-21 20:12:14 +02:00

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/////////////////////////////////////////////////////////////////////////////
// Name: src/msw/dc.cpp
// Purpose: wxDC class for MSW port
// Author: Julian Smart
// Modified by:
// Created: 01/02/97
// Copyright: (c) Julian Smart
// Licence: wxWindows licence
/////////////////////////////////////////////////////////////////////////////
// ===========================================================================
// declarations
// ===========================================================================
// ---------------------------------------------------------------------------
// headers
// ---------------------------------------------------------------------------
// For compilers that support precompilation, includes "wx.h".
#include "wx/wxprec.h"
#ifdef __BORLANDC__
#pragma hdrstop
#endif
#ifndef WX_PRECOMP
#include "wx/msw/wrapcdlg.h"
#include "wx/image.h"
#include "wx/window.h"
#include "wx/utils.h"
#include "wx/dialog.h"
#include "wx/app.h"
#include "wx/bitmap.h"
#include "wx/dcmemory.h"
#include "wx/log.h"
#include "wx/math.h"
#include "wx/icon.h"
#include "wx/dcprint.h"
#include "wx/module.h"
#endif
#include "wx/msw/dc.h"
#include "wx/sysopt.h"
#ifdef wxHAS_RAW_BITMAP
#include "wx/rawbmp.h"
#endif
#include <string.h>
#include "wx/msw/private/dc.h"
#include "wx/private/textmeasure.h"
#ifdef _MSC_VER
// In the previous versions of wxWidgets, AlphaBlend() was dynamically
// loaded from msimg32.dll during the run-time, so we didn't need to link
// with this library. Now that we use the function statically, we do need
// to link with it and we do it implicitly from here for MSVC users to
// avoid breaking the build of the existing projects which didn't link with
// this library before.
#pragma comment(lib, "msimg32")
// Indicate that we should just use the functions from gdi32.dll and
// msimg32.dll directly.
#define USE_STATIC_GDI_FUNCS
#else // !_MSC_VER
// In other compilers, e.g. MinGW, we don't have anything similar to
// #pragma comment(lib) used above, so we continue loading AlphaBlend()
// dynamically, if possible.
//
// We also load some GDI functions not present in MinGW libraries
// dynamically.
#if wxUSE_DYNLIB_CLASS
#include "wx/dynlib.h"
#define USE_DYNAMIC_GDI_FUNCS
#endif
#endif // _MSC_VER/!_MSC_VER
using namespace wxMSWImpl;
#ifndef AC_SRC_ALPHA
#define AC_SRC_ALPHA 1
#endif
#ifndef LAYOUT_RTL
#define LAYOUT_RTL 1
#endif
/* Quaternary raster codes */
#ifndef MAKEROP4
#define MAKEROP4(fore,back) (DWORD)((((back) << 8) & 0xFF000000) | (fore))
#endif
wxIMPLEMENT_ABSTRACT_CLASS(wxMSWDCImpl, wxDCImpl);
// ---------------------------------------------------------------------------
// constants
// ---------------------------------------------------------------------------
// The device space in Win32 GDI measures 2^27*2^27 , so we use 2^27-1 as the
// maximal possible view port extent.
static const int VIEWPORT_EXTENT = 134217727;
// ROPs which don't have standard names (see "Ternary Raster Operations" in the
// MSDN docs for how this and other numbers in wxDC::Blit() are obtained)
#define DSTCOPY 0x00AA0029 // a.k.a. NOP operation
// ----------------------------------------------------------------------------
// macros for logical <-> device coords conversion
// ----------------------------------------------------------------------------
/*
We currently let Windows do all the translations itself so these macros are
not really needed (any more) but keep them to enhance readability of the
code by allowing to see where are the logical and where are the device
coordinates used.
*/
#define XLOG2DEV(x) (x)
#define YLOG2DEV(y) (y)
#define XDEV2LOG(x) (x)
#define YDEV2LOG(y) (y)
// ---------------------------------------------------------------------------
// private functions
// ---------------------------------------------------------------------------
#ifdef USE_DYNAMIC_GDI_FUNCS
namespace wxMSWImpl
{
// helper class to cache dynamically loaded libraries and not attempt reloading
// them if it fails
class wxOnceOnlyDLLLoader
{
public:
// ctor argument must be a literal string as we don't make a copy of it!
wxOnceOnlyDLLLoader(const wxChar *dllName)
: m_dllName(dllName)
{
}
// return the symbol with the given name or NULL if the DLL not loaded
// or symbol not present
void *GetSymbol(const wxChar *name)
{
// we're prepared to handle errors here
wxLogNull noLog;
if ( m_dllName )
{
m_dll.Load(m_dllName);
// reset the name whether we succeeded or failed so that we don't
// try again the next time
m_dllName = NULL;
}
return m_dll.IsLoaded() ? m_dll.GetSymbol(name) : NULL;
}
void Unload()
{
if ( m_dll.IsLoaded() )
{
m_dll.Unload();
}
}
private:
wxDynamicLibrary m_dll;
const wxChar *m_dllName;
};
static wxOnceOnlyDLLLoader wxMSIMG32DLL(wxT("msimg32"));
static wxOnceOnlyDLLLoader wxGDI32DLL(wxT("gdi32.dll"));
// Note that originally these function pointers were local static members within
// functions, but we can't do that, because wxWidgets may be initialized,
// uninitialized, and reinitialized within the same program, and our dynamically
// loaded dll's may be unloaded and reloaded as part of that, almost certainly
// ending up at different base addresses due to address space layout
// randomization.
#ifdef USE_DYNAMIC_GDI_FUNCS
typedef BOOL (WINAPI *AlphaBlend_t)(HDC,int,int,int,int,
HDC,int,int,int,int,
BLENDFUNCTION);
static AlphaBlend_t gs_pfnAlphaBlend = NULL;
static bool gs_triedToLoadAlphaBlend = false;
typedef BOOL (WINAPI *GradientFill_t)(HDC, PTRIVERTEX, ULONG, PVOID, ULONG, ULONG);
static GradientFill_t gs_pfnGradientFill = NULL;
static bool gs_triedToLoadGradientFill = false;
typedef DWORD (WINAPI *GetLayout_t)(HDC);
static GetLayout_t gs_pfnGetLayout = NULL;
static bool gs_triedToLoadGetLayout = false;
typedef DWORD (WINAPI *SetLayout_t)(HDC, DWORD);
static SetLayout_t gs_pfnSetLayout = NULL;
static bool gs_triedToLoadSetLayout = false;
#endif // USE_DYNAMIC_GDI_FUNCS
// we must ensure that DLLs are unloaded before the static objects cleanup time
// because we may hit the notorious DllMain() dead lock in this case if wx is
// used as a DLL (attempting to unload another DLL from inside DllMain() hangs
// under Windows because it tries to reacquire the same lock)
class wxGDIDLLsCleanupModule : public wxModule
{
public:
virtual bool OnInit() { return true; }
virtual void OnExit()
{
wxMSIMG32DLL.Unload();
wxGDI32DLL.Unload();
#ifdef USE_DYNAMIC_GDI_FUNCS
gs_pfnGetLayout = NULL;
gs_triedToLoadGetLayout = false;
gs_pfnSetLayout = NULL;
gs_triedToLoadSetLayout = false;
gs_pfnAlphaBlend = NULL;
gs_triedToLoadAlphaBlend = false;
gs_pfnGradientFill = NULL;
gs_triedToLoadGradientFill = false;
#endif // USE_DYNAMIC_GDI_FUNCS
}
private:
wxDECLARE_DYNAMIC_CLASS(wxGDIDLLsCleanupModule);
};
wxIMPLEMENT_DYNAMIC_CLASS(wxGDIDLLsCleanupModule, wxModule);
} // namespace wxMSWImpl
#endif // USE_DYNAMIC_GDI_FUNCS
// Namespace for the wrapper functions, hopefully one day we'll be able to get
// rid of all of them and then it will be easy to find all occurrences of their
// use by just searching for this namespace name.
//
// All of the functions in this namespace must work *exactly* like the standard
// functions with the same name and just return an error if dynamically loading
// them failed.
namespace wxDynLoadWrappers
{
#ifdef USE_DYNAMIC_GDI_FUNCS
// This is unfortunately necessary because GetLayout() is missing in MinGW
// libgdi32.a import library (at least up to w32api 4.0.3).
DWORD GetLayout(HDC hdc)
{
if ( !gs_triedToLoadGetLayout )
{
gs_pfnGetLayout = (GetLayout_t)wxGDI32DLL.GetSymbol(wxT("GetLayout"));
gs_triedToLoadGetLayout = true;
}
return gs_pfnGetLayout ? gs_pfnGetLayout(hdc) : GDI_ERROR;
}
// SetLayout is present in newer w32api versions but in older one (e.g. the one
// used by mingw32 4.2 Debian package), so load it dynamically too while we're
// at it.
DWORD SetLayout(HDC hdc, DWORD dwLayout)
{
if ( !gs_triedToLoadSetLayout )
{
gs_pfnSetLayout = (SetLayout_t)wxGDI32DLL.GetSymbol(wxT("SetLayout"));
gs_triedToLoadSetLayout = true;
}
return gs_pfnSetLayout ? gs_pfnSetLayout(hdc, dwLayout) : GDI_ERROR;
}
// AlphaBlend() requires linking with libmsimg32.a and we want to avoid this as
// it would break all the existing make/project files.
BOOL AlphaBlend(HDC hdcDest, int xDest, int yDest, int wDest, int hDest,
HDC hdcSrc, int xSrc, int ySrc, int wSrc, int hSrc,
BLENDFUNCTION bf)
{
if ( !gs_triedToLoadAlphaBlend )
{
gs_pfnAlphaBlend = (AlphaBlend_t)wxMSIMG32DLL.GetSymbol(wxT("AlphaBlend"));
gs_triedToLoadAlphaBlend = true;
}
if ( !gs_pfnAlphaBlend )
return FALSE;
return gs_pfnAlphaBlend(hdcDest, xDest, yDest, wDest, hDest,
hdcSrc, xSrc, ySrc, wSrc, hSrc,
bf);
}
// Just as AlphaBlend(), this one lives in msimg32.dll.
BOOL GradientFill(HDC hdc, PTRIVERTEX pVert, ULONG numVert,
PVOID pMesh, ULONG numMesh, ULONG mode)
{
if ( !gs_triedToLoadGradientFill )
{
gs_pfnGradientFill = (GradientFill_t)wxMSIMG32DLL.GetSymbol(wxT("GradientFill"));
gs_triedToLoadGradientFill = true;
}
if ( !gs_pfnGradientFill )
return FALSE;
return gs_pfnGradientFill(hdc, pVert, numVert, pMesh, numMesh, mode);
}
#elif defined(USE_STATIC_GDI_FUNCS)
inline
DWORD GetLayout(HDC hdc)
{
return ::GetLayout(hdc);
}
inline
DWORD SetLayout(HDC hdc, DWORD dwLayout)
{
return ::SetLayout(hdc, dwLayout);
}
inline
BOOL AlphaBlend(HDC hdcDest, int xDest, int yDest, int wDest, int hDest,
HDC hdcSrc, int xSrc, int ySrc, int wSrc, int hSrc,
BLENDFUNCTION bf)
{
return ::AlphaBlend(hdcDest, xDest, yDest, wDest, hDest,
hdcSrc, xSrc, ySrc, wSrc, hSrc,
bf);
}
inline
BOOL GradientFill(HDC hdc, PTRIVERTEX pVert, ULONG numVert,
PVOID pMesh, ULONG numMesh, ULONG mode)
{
return ::GradientFill(hdc, pVert, numVert, pMesh, numMesh, mode);
}
#else // Can't use the functions neither statically nor dynamically.
inline
DWORD GetLayout(HDC WXUNUSED(hdc))
{
return GDI_ERROR;
}
inline
DWORD SetLayout(HDC WXUNUSED(hdc), DWORD WXUNUSED(dwLayout))
{
return GDI_ERROR;
}
inline
BOOL AlphaBlend(HDC,int,int,int,int,
HDC,int,int,int,int,
BLENDFUNCTION)
{
return FALSE;
}
inline
BOOL GradientFill(HDC, PTRIVERTEX, ULONG, PVOID, ULONG, ULONG)
{
return FALSE;
}
#endif // USE_DYNAMIC_GDI_FUNCS/USE_STATIC_GDI_FUNCS
} // namespace wxDynLoadWrappers
// call AlphaBlend() to blit contents of hdcSrc to dcDst using alpha
//
// NB: bmpSrc is the bitmap selected in hdcSrc, it is not really needed
// to pass it to this function but as we already have it at the point
// of call anyhow we do
//
// return true if we could draw the bitmap in one way or the other, false
// otherwise
static bool AlphaBlt(wxMSWDCImpl* dcSrc,
int x, int y, int dstWidth, int dstHeight,
int srcX, int srcY,
int srcWidth, int srcHeight,
HDC hdcSrc,
const wxBitmap& bmpSrc);
namespace wxMSWImpl
{
// Create a compatible HDC and copy the layout of the source DC to it. This is
// necessary in order to draw bitmaps (which are usually blitted from a
// temporary compatible memory DC to the real target DC) using the same layout.
HDC CreateCompatibleDCWithLayout(HDC hdc);
} // namespace wxMSWImpl
// ----------------------------------------------------------------------------
// private classes
// ----------------------------------------------------------------------------
// instead of duplicating the same code which sets and then restores text
// colours in each wxDC method working with wxSTIPPLE_MASK_OPAQUE brushes,
// encapsulate this in a small helper class
// wxBrushAttrsSetter: changes the text colours in the ctor if required and
// restores them in the dtor
class wxBrushAttrsSetter : private wxBkModeChanger,
private wxTextColoursChanger
{
public:
wxBrushAttrsSetter(wxMSWDCImpl& dc);
private:
wxDECLARE_NO_COPY_CLASS(wxBrushAttrsSetter);
};
// this class sets the stretch blit mode to COLORONCOLOR during its lifetime
class StretchBltModeChanger
{
public:
StretchBltModeChanger(HDC hdc)
: m_hdc(hdc)
{
m_modeOld = ::SetStretchBltMode(m_hdc, COLORONCOLOR);
if ( !m_modeOld )
{
wxLogLastError(wxT("SetStretchBltMode"));
}
}
~StretchBltModeChanger()
{
if ( !::SetStretchBltMode(m_hdc, m_modeOld) )
{
wxLogLastError(wxT("SetStretchBltMode"));
}
}
private:
const HDC m_hdc;
int m_modeOld;
wxDECLARE_NO_COPY_CLASS(StretchBltModeChanger);
};
// ===========================================================================
// implementation
// ===========================================================================
// ----------------------------------------------------------------------------
// wxBrushAttrsSetter
// ----------------------------------------------------------------------------
wxBrushAttrsSetter::wxBrushAttrsSetter(wxMSWDCImpl& dc)
: wxBkModeChanger(GetHdcOf(dc)),
wxTextColoursChanger(GetHdcOf(dc))
{
const wxBrush& brush = dc.GetBrush();
if ( brush.IsOk() && brush.GetStyle() == wxBRUSHSTYLE_STIPPLE_MASK_OPAQUE )
{
// note that Windows convention is opposite to wxWidgets one, this is
// why text colour becomes the background one and vice versa
wxTextColoursChanger::Change(dc.GetTextBackground(),
dc.GetTextForeground());
wxBkModeChanger::Change(dc.GetBackgroundMode());
}
}
// ----------------------------------------------------------------------------
// wxDC MSW-specific methods
// ----------------------------------------------------------------------------
WXHDC wxDC::GetHDC() const
{
wxMSWDCImpl * const impl = wxDynamicCast(GetImpl(), wxMSWDCImpl);
return impl ? impl->GetHDC() : 0;
}
// ---------------------------------------------------------------------------
// wxMSWDCImpl
// ---------------------------------------------------------------------------
wxMSWDCImpl::wxMSWDCImpl( wxDC *owner, WXHDC hDC ) :
wxDCImpl( owner )
{
Init();
m_hDC = hDC;
}
wxMSWDCImpl::~wxMSWDCImpl()
{
if ( m_hDC != 0 )
{
SelectOldObjects(m_hDC);
// if we own the HDC, we delete it, otherwise we just release it
if ( m_bOwnsDC )
{
::DeleteDC(GetHdc());
}
else // we don't own our HDC
{
if (m_window)
{
::ReleaseDC(GetHwndOf(m_window), GetHdc());
}
else
{
// Must have been a wxScreenDC
::ReleaseDC((HWND) NULL, GetHdc());
}
}
}
}
// This will select current objects out of the DC,
// which is what you have to do before deleting the
// DC.
void wxMSWDCImpl::SelectOldObjects(WXHDC dc)
{
if (dc)
{
if (m_oldBitmap)
{
::SelectObject((HDC) dc, (HBITMAP) m_oldBitmap);
if (m_selectedBitmap.IsOk())
{
m_selectedBitmap.SetSelectedInto(NULL);
}
}
m_oldBitmap = 0;
if (m_oldPen)
{
::SelectObject((HDC) dc, (HPEN) m_oldPen);
}
m_oldPen = 0;
if (m_oldBrush)
{
::SelectObject((HDC) dc, (HBRUSH) m_oldBrush);
}
m_oldBrush = 0;
if (m_oldFont)
{
::SelectObject((HDC) dc, (HFONT) m_oldFont);
}
m_oldFont = 0;
#if wxUSE_PALETTE
if (m_oldPalette)
{
::SelectPalette((HDC) dc, (HPALETTE) m_oldPalette, FALSE);
}
m_oldPalette = 0;
#endif // wxUSE_PALETTE
}
m_brush = wxNullBrush;
m_pen = wxNullPen;
#if wxUSE_PALETTE
m_palette = wxNullPalette;
#endif // wxUSE_PALETTE
m_font = wxNullFont;
m_backgroundBrush = wxNullBrush;
m_selectedBitmap = wxNullBitmap;
}
// ---------------------------------------------------------------------------
// clipping
// ---------------------------------------------------------------------------
void wxMSWDCImpl::UpdateClipBox()
{
RECT rect;
::GetClipBox(GetHdc(), &rect);
m_clipX1 = (wxCoord) XDEV2LOG(rect.left);
m_clipY1 = (wxCoord) YDEV2LOG(rect.top);
m_clipX2 = (wxCoord) XDEV2LOG(rect.right);
m_clipY2 = (wxCoord) YDEV2LOG(rect.bottom);
}
void
wxMSWDCImpl::DoGetClippingBox(wxCoord *x, wxCoord *y, wxCoord *w, wxCoord *h) const
{
// check if we should try to retrieve the clipping region possibly not set
// by our SetClippingRegion() but preset by Windows:this can only happen
// when we're associated with an existing HDC usign SetHDC(), see there
if ( m_clipping && !m_clipX1 && !m_clipX2 )
{
wxMSWDCImpl *self = wxConstCast(this, wxMSWDCImpl);
self->UpdateClipBox();
if ( !m_clipX1 && !m_clipX2 )
self->m_clipping = false;
}
wxDCImpl::DoGetClippingBox(x, y, w, h);
}
// common part of DoSetClippingRegion() and DoSetDeviceClippingRegion()
void wxMSWDCImpl::SetClippingHrgn(WXHRGN hrgn)
{
wxCHECK_RET( hrgn, wxT("invalid clipping region") );
// note that we combine the new clipping region with the existing one: this
// is compatible with what the other ports do and is the documented
// behaviour now (starting with 2.3.3)
if ( ::ExtSelectClipRgn(GetHdc(), (HRGN)hrgn, RGN_AND) == ERROR )
{
wxLogLastError(wxT("ExtSelectClipRgn"));
return;
}
m_clipping = true;
UpdateClipBox();
}
void wxMSWDCImpl::DoSetClippingRegion(wxCoord x, wxCoord y, wxCoord w, wxCoord h)
{
// the region coords are always the device ones, so do the translation
// manually
//
// FIXME: possible +/-1 error here, to check!
HRGN hrgn = ::CreateRectRgn(LogicalToDeviceX(x),
LogicalToDeviceY(y),
LogicalToDeviceX(x + w),
LogicalToDeviceY(y + h));
if ( !hrgn )
{
wxLogLastError(wxT("CreateRectRgn"));
}
else
{
SetClippingHrgn((WXHRGN)hrgn);
::DeleteObject(hrgn);
}
}
void wxMSWDCImpl::DoSetDeviceClippingRegion(const wxRegion& region)
{
SetClippingHrgn(region.GetHRGN());
}
void wxMSWDCImpl::DestroyClippingRegion()
{
if (m_clipping && m_hDC)
{
#if 1
// On a PocketPC device (not necessarily emulator), resetting
// the clip region as per the old method causes bad display
// problems. In fact setting a null region is probably OK
// on desktop WIN32 also, since the WIN32 docs imply that the user
// clipping region is independent from the paint clipping region.
::SelectClipRgn(GetHdc(), 0);
#else
// TODO: this should restore the previous clipping region,
// so that OnPaint processing works correctly, and the update
// clipping region doesn't get destroyed after the first
// DestroyClippingRegion.
HRGN rgn = CreateRectRgn(0, 0, 32000, 32000);
::SelectClipRgn(GetHdc(), rgn);
::DeleteObject(rgn);
#endif
}
wxDCImpl::DestroyClippingRegion();
}
// ---------------------------------------------------------------------------
// query capabilities
// ---------------------------------------------------------------------------
bool wxMSWDCImpl::CanDrawBitmap() const
{
return true;
}
bool wxMSWDCImpl::CanGetTextExtent() const
{
// What sort of display is it?
int technology = ::GetDeviceCaps(GetHdc(), TECHNOLOGY);
return (technology == DT_RASDISPLAY) || (technology == DT_RASPRINTER);
}
int wxMSWDCImpl::GetDepth() const
{
return (int)::GetDeviceCaps(GetHdc(), BITSPIXEL);
}
// ---------------------------------------------------------------------------
// drawing
// ---------------------------------------------------------------------------
void wxMSWDCImpl::Clear()
{
RECT rect;
if (m_window)
{
GetClientRect((HWND) m_window->GetHWND(), &rect);
}
else
{
// No, I think we should simply ignore this if printing on e.g.
// a printer DC.
// wxCHECK_RET( m_selectedBitmap.IsOk(), wxT("this DC can't be cleared") );
if (!m_selectedBitmap.IsOk())
return;
rect.left = rect.top = 0;
rect.right = m_selectedBitmap.GetWidth();
rect.bottom = m_selectedBitmap.GetHeight();
}
::OffsetRect(&rect, -m_deviceOriginX, -m_deviceOriginY);
(void) ::SetMapMode(GetHdc(), MM_TEXT);
DWORD colour = ::GetBkColor(GetHdc());
HBRUSH brush = ::CreateSolidBrush(colour);
::FillRect(GetHdc(), &rect, brush);
::DeleteObject(brush);
RealizeScaleAndOrigin();
}
bool wxMSWDCImpl::DoFloodFill(wxCoord x,
wxCoord y,
const wxColour& col,
wxFloodFillStyle style)
{
bool success = (0 != ::ExtFloodFill(GetHdc(), XLOG2DEV(x), YLOG2DEV(y),
col.GetPixel(),
style == wxFLOOD_SURFACE ? FLOODFILLSURFACE
: FLOODFILLBORDER) ) ;
if (!success)
{
// quoting from the MSDN docs:
//
// Following are some of the reasons this function might fail:
//
// * The filling could not be completed.
// * The specified point has the boundary color specified by the
// crColor parameter (if FLOODFILLBORDER was requested).
// * The specified point does not have the color specified by
// crColor (if FLOODFILLSURFACE was requested)
// * The point is outside the clipping region that is, it is not
// visible on the device.
//
wxLogLastError(wxT("ExtFloodFill"));
}
CalcBoundingBox(x, y);
return success;
}
bool wxMSWDCImpl::DoGetPixel(wxCoord x, wxCoord y, wxColour *col) const
{
wxCHECK_MSG( col, false, wxT("NULL colour parameter in wxMSWDCImpl::GetPixel") );
// get the color of the pixel
COLORREF pixelcolor = ::GetPixel(GetHdc(), XLOG2DEV(x), YLOG2DEV(y));
wxRGBToColour(*col, pixelcolor);
return true;
}
void wxMSWDCImpl::DoCrossHair(wxCoord x, wxCoord y)
{
wxCoord x1 = x-VIEWPORT_EXTENT;
wxCoord y1 = y-VIEWPORT_EXTENT;
wxCoord x2 = x+VIEWPORT_EXTENT;
wxCoord y2 = y+VIEWPORT_EXTENT;
wxDrawLine(GetHdc(), XLOG2DEV(x1), YLOG2DEV(y), XLOG2DEV(x2), YLOG2DEV(y));
wxDrawLine(GetHdc(), XLOG2DEV(x), YLOG2DEV(y1), XLOG2DEV(x), YLOG2DEV(y2));
CalcBoundingBox(x1, y1);
CalcBoundingBox(x2, y2);
}
void wxMSWDCImpl::DoDrawLine(wxCoord x1, wxCoord y1, wxCoord x2, wxCoord y2)
{
wxDrawLine(GetHdc(), XLOG2DEV(x1), YLOG2DEV(y1), XLOG2DEV(x2), YLOG2DEV(y2));
CalcBoundingBox(x1, y1);
CalcBoundingBox(x2, y2);
}
// Draws an arc of a circle, centred on (xc, yc), with starting point (x1, y1)
// and ending at (x2, y2)
void wxMSWDCImpl::DoDrawArc(wxCoord x1, wxCoord y1,
wxCoord x2, wxCoord y2,
wxCoord xc, wxCoord yc)
{
double dx = xc - x1;
double dy = yc - y1;
wxCoord r = (wxCoord)sqrt(dx*dx + dy*dy);
wxBrushAttrsSetter cc(*this); // needed for wxSTIPPLE_MASK_OPAQUE handling
// treat the special case of full circle separately
if ( x1 == x2 && y1 == y2 )
{
GetOwner()->DrawEllipse(xc - r, yc - r, 2*r, 2*r);
return;
}
wxCoord xx1 = XLOG2DEV(x1);
wxCoord yy1 = YLOG2DEV(y1);
wxCoord xx2 = XLOG2DEV(x2);
wxCoord yy2 = YLOG2DEV(y2);
wxCoord xxc = XLOG2DEV(xc);
wxCoord yyc = YLOG2DEV(yc);
dx = xxc - xx1;
dy = yyc - yy1;
wxCoord ray = (wxCoord)sqrt(dx*dx + dy*dy);
wxCoord xxx1 = (wxCoord) (xxc-ray);
wxCoord yyy1 = (wxCoord) (yyc-ray);
wxCoord xxx2 = (wxCoord) (xxc+ray);
wxCoord yyy2 = (wxCoord) (yyc+ray);
if ( m_brush.IsNonTransparent() )
{
// Have to add 1 to bottom-right corner of rectangle
// to make semi-circles look right (crooked line otherwise).
// Unfortunately this is not a reliable method, depends
// on the size of shape.
// TODO: figure out why this happens!
Pie(GetHdc(),xxx1,yyy1,xxx2+1,yyy2+1, xx1,yy1,xx2,yy2);
}
else
{
Arc(GetHdc(),xxx1,yyy1,xxx2,yyy2, xx1,yy1,xx2,yy2);
}
CalcBoundingBox(xc - r, yc - r);
CalcBoundingBox(xc + r, yc + r);
}
void wxMSWDCImpl::DoDrawCheckMark(wxCoord x1, wxCoord y1,
wxCoord width, wxCoord height)
{
wxCoord x2 = x1 + width,
y2 = y1 + height;
RECT rect;
rect.left = x1;
rect.top = y1;
rect.right = x2;
rect.bottom = y2;
DrawFrameControl(GetHdc(), &rect, DFC_MENU, DFCS_MENUCHECK);
CalcBoundingBox(x1, y1);
CalcBoundingBox(x2, y2);
}
void wxMSWDCImpl::DoDrawPoint(wxCoord x, wxCoord y)
{
COLORREF color = 0x00ffffff;
if (m_pen.IsOk())
{
color = m_pen.GetColour().GetPixel();
}
SetPixel(GetHdc(), XLOG2DEV(x), YLOG2DEV(y), color);
CalcBoundingBox(x, y);
}
void wxMSWDCImpl::DoDrawPolygon(int n,
const wxPoint points[],
wxCoord xoffset,
wxCoord yoffset,
wxPolygonFillMode fillStyle)
{
wxBrushAttrsSetter cc(*this); // needed for wxSTIPPLE_MASK_OPAQUE handling
// Do things less efficiently if we have offsets
if (xoffset != 0 || yoffset != 0)
{
POINT *cpoints = new POINT[n];
int i;
for (i = 0; i < n; i++)
{
cpoints[i].x = (int)(points[i].x + xoffset);
cpoints[i].y = (int)(points[i].y + yoffset);
CalcBoundingBox(cpoints[i].x, cpoints[i].y);
}
int prev = SetPolyFillMode(GetHdc(),fillStyle==wxODDEVEN_RULE?ALTERNATE:WINDING);
(void)Polygon(GetHdc(), cpoints, n);
SetPolyFillMode(GetHdc(),prev);
delete[] cpoints;
}
else
{
int i;
for (i = 0; i < n; i++)
CalcBoundingBox(points[i].x, points[i].y);
int prev = SetPolyFillMode(GetHdc(),fillStyle==wxODDEVEN_RULE?ALTERNATE:WINDING);
(void)Polygon(GetHdc(), (POINT*) points, n);
SetPolyFillMode(GetHdc(),prev);
}
}
void
wxMSWDCImpl::DoDrawPolyPolygon(int n,
const int count[],
const wxPoint points[],
wxCoord xoffset,
wxCoord yoffset,
wxPolygonFillMode fillStyle)
{
wxBrushAttrsSetter cc(*this); // needed for wxSTIPPLE_MASK_OPAQUE handling
int i, cnt;
for (i = cnt = 0; i < n; i++)
cnt += count[i];
// Do things less efficiently if we have offsets
if (xoffset != 0 || yoffset != 0)
{
POINT *cpoints = new POINT[cnt];
for (i = 0; i < cnt; i++)
{
cpoints[i].x = (int)(points[i].x + xoffset);
cpoints[i].y = (int)(points[i].y + yoffset);
CalcBoundingBox(cpoints[i].x, cpoints[i].y);
}
int prev = SetPolyFillMode(GetHdc(),fillStyle==wxODDEVEN_RULE?ALTERNATE:WINDING);
(void)PolyPolygon(GetHdc(), cpoints, count, n);
SetPolyFillMode(GetHdc(),prev);
delete[] cpoints;
}
else
{
for (i = 0; i < cnt; i++)
CalcBoundingBox(points[i].x, points[i].y);
int prev = SetPolyFillMode(GetHdc(),fillStyle==wxODDEVEN_RULE?ALTERNATE:WINDING);
(void)PolyPolygon(GetHdc(), (POINT*) points, count, n);
SetPolyFillMode(GetHdc(),prev);
}
}
void wxMSWDCImpl::DoDrawLines(int n, const wxPoint points[], wxCoord xoffset, wxCoord yoffset)
{
// Do things less efficiently if we have offsets
if (xoffset != 0 || yoffset != 0)
{
POINT *cpoints = new POINT[n];
int i;
for (i = 0; i < n; i++)
{
cpoints[i].x = (int)(points[i].x + xoffset);
cpoints[i].y = (int)(points[i].y + yoffset);
CalcBoundingBox(cpoints[i].x, cpoints[i].y);
}
(void)Polyline(GetHdc(), cpoints, n);
delete[] cpoints;
}
else
{
int i;
for (i = 0; i < n; i++)
CalcBoundingBox(points[i].x, points[i].y);
(void)Polyline(GetHdc(), (POINT*) points, n);
}
}
void wxMSWDCImpl::DoDrawRectangle(wxCoord x, wxCoord y, wxCoord width, wxCoord height)
{
wxBrushAttrsSetter cc(*this); // needed for wxSTIPPLE_MASK_OPAQUE handling
wxCoord x2 = x + width;
wxCoord y2 = y + height;
wxCoord x1dev = XLOG2DEV(x),
y1dev = YLOG2DEV(y),
x2dev = XLOG2DEV(x2),
y2dev = YLOG2DEV(y2);
// Windows draws the filled rectangles without outline
// (i.e. drawn with a transparent pen) one pixel smaller in both directions
// and we want them to have the same size regardless of which pen is used
if ( m_pen.IsTransparent() )
{
// Right edge to be extended is "displayed right edge"
// and hence its device coordinates depend
// on layout direction and can be either x1 or x2.
if ( GetLayoutDirection() == wxLayout_RightToLeft )
x1dev--;
else
x2dev++;
y2dev++;
}
(void)Rectangle(GetHdc(), x1dev, y1dev, x2dev, y2dev);
CalcBoundingBox(x, y);
CalcBoundingBox(x2, y2);
}
void wxMSWDCImpl::DoDrawRoundedRectangle(wxCoord x, wxCoord y, wxCoord width, wxCoord height, double radius)
{
wxBrushAttrsSetter cc(*this); // needed for wxSTIPPLE_MASK_OPAQUE handling
// Now, a negative radius value is interpreted to mean
// 'the proportion of the smallest X or Y dimension'
if (radius < 0.0)
{
double smallest = (width < height) ? width : height;
radius = (- radius * smallest);
}
wxCoord x2 = (x+width);
wxCoord y2 = (y+height);
// Windows draws the filled rectangles without outline (i.e. drawn with a
// transparent pen) one pixel smaller in both directions and we want them
// to have the same size regardless of which pen is used - adjust
if ( m_pen.IsTransparent() )
{
x2++;
y2++;
}
(void)RoundRect(GetHdc(), XLOG2DEV(x), YLOG2DEV(y), XLOG2DEV(x2),
YLOG2DEV(y2), (int) (2*XLOG2DEV(radius)), (int)( 2*YLOG2DEV(radius)));
CalcBoundingBox(x, y);
CalcBoundingBox(x2, y2);
}
void wxMSWDCImpl::DoDrawEllipse(wxCoord x, wxCoord y, wxCoord width, wxCoord height)
{
wxBrushAttrsSetter cc(*this); // needed for wxSTIPPLE_MASK_OPAQUE handling
// +1 below makes the ellipse more similar to other platforms.
// In particular, DoDrawEllipse(x,y,1,1) should draw one point.
wxCoord x2 = x + width + 1;
wxCoord y2 = y + height + 1;
// Problem: Windows GDI Ellipse() with x2-x == y2-y == 3 and transparent
// pen doesn't draw anything. Should we provide a workaround?
::Ellipse(GetHdc(), XLOG2DEV(x), YLOG2DEV(y), XLOG2DEV(x2), YLOG2DEV(y2));
CalcBoundingBox(x, y);
CalcBoundingBox(x2, y2);
}
#if wxUSE_SPLINES
void wxMSWDCImpl::DoDrawSpline(const wxPointList *points)
{
// quadratic b-spline to cubic bezier spline conversion
//
// quadratic spline with control points P0,P1,P2
// P(s) = P0*(1-s)^2 + P1*2*(1-s)*s + P2*s^2
//
// bezier spline with control points B0,B1,B2,B3
// B(s) = B0*(1-s)^3 + B1*3*(1-s)^2*s + B2*3*(1-s)*s^2 + B3*s^3
//
// control points of bezier spline calculated from b-spline
// B0 = P0
// B1 = (2*P1 + P0)/3
// B2 = (2*P1 + P2)/3
// B3 = P2
wxASSERT_MSG( points, wxT("NULL pointer to spline points?") );
const size_t n_points = points->GetCount();
wxASSERT_MSG( n_points > 2 , wxT("incomplete list of spline points?") );
const size_t n_bezier_points = n_points * 3 + 1;
POINT *lppt = (POINT *)malloc(n_bezier_points*sizeof(POINT));
size_t bezier_pos = 0;
wxCoord x1, y1, x2, y2, cx1, cy1, cx4, cy4;
wxPointList::compatibility_iterator node = points->GetFirst();
wxPoint *p = node->GetData();
lppt[ bezier_pos ].x = x1 = p->x;
lppt[ bezier_pos ].y = y1 = p->y;
bezier_pos++;
lppt[ bezier_pos ] = lppt[ bezier_pos-1 ];
bezier_pos++;
node = node->GetNext();
p = node->GetData();
x2 = p->x;
y2 = p->y;
cx1 = ( x1 + x2 ) / 2;
cy1 = ( y1 + y2 ) / 2;
lppt[ bezier_pos ].x = XLOG2DEV(cx1);
lppt[ bezier_pos ].y = YLOG2DEV(cy1);
bezier_pos++;
lppt[ bezier_pos ] = lppt[ bezier_pos-1 ];
bezier_pos++;
#if !wxUSE_STD_CONTAINERS
while ((node = node->GetNext()) != NULL)
#else
while ((node = node->GetNext()))
#endif // !wxUSE_STD_CONTAINERS
{
p = (wxPoint *)node->GetData();
x1 = x2;
y1 = y2;
x2 = p->x;
y2 = p->y;
cx4 = (x1 + x2) / 2;
cy4 = (y1 + y2) / 2;
// B0 is B3 of previous segment
// B1:
lppt[ bezier_pos ].x = XLOG2DEV((x1*2+cx1)/3);
lppt[ bezier_pos ].y = YLOG2DEV((y1*2+cy1)/3);
bezier_pos++;
// B2:
lppt[ bezier_pos ].x = XLOG2DEV((x1*2+cx4)/3);
lppt[ bezier_pos ].y = YLOG2DEV((y1*2+cy4)/3);
bezier_pos++;
// B3:
lppt[ bezier_pos ].x = XLOG2DEV(cx4);
lppt[ bezier_pos ].y = YLOG2DEV(cy4);
bezier_pos++;
cx1 = cx4;
cy1 = cy4;
}
lppt[ bezier_pos ] = lppt[ bezier_pos-1 ];
bezier_pos++;
lppt[ bezier_pos ].x = XLOG2DEV(x2);
lppt[ bezier_pos ].y = YLOG2DEV(y2);
bezier_pos++;
lppt[ bezier_pos ] = lppt[ bezier_pos-1 ];
bezier_pos++;
::PolyBezier( GetHdc(), lppt, bezier_pos );
free(lppt);
}
#endif // wxUSE_SPLINES
// Chris Breeze 20/5/98: first implementation of DrawEllipticArc on Windows
void wxMSWDCImpl::DoDrawEllipticArc(wxCoord x,wxCoord y,wxCoord w,wxCoord h,double sa,double ea)
{
wxBrushAttrsSetter cc(*this); // needed for wxSTIPPLE_MASK_OPAQUE handling
wxCoord x2 = x + w;
wxCoord y2 = y + h;
int rx1 = XLOG2DEV(x+w/2);
int ry1 = YLOG2DEV(y+h/2);
int rx2 = rx1;
int ry2 = ry1;
sa = wxDegToRad(sa);
ea = wxDegToRad(ea);
rx1 += (int)(100.0 * abs(w) * cos(sa));
ry1 -= (int)(100.0 * abs(h) * m_signY * sin(sa));
rx2 += (int)(100.0 * abs(w) * cos(ea));
ry2 -= (int)(100.0 * abs(h) * m_signY * sin(ea));
// draw pie with NULL_PEN first and then outline otherwise a line is
// drawn from the start and end points to the centre
HPEN hpenOld = (HPEN) ::SelectObject(GetHdc(), (HPEN) ::GetStockObject(NULL_PEN));
if (m_signY > 0)
{
(void)Pie(GetHdc(), XLOG2DEV(x), YLOG2DEV(y), XLOG2DEV(x2)+1, YLOG2DEV(y2)+1,
rx1, ry1, rx2, ry2);
}
else
{
(void)Pie(GetHdc(), XLOG2DEV(x), YLOG2DEV(y)-1, XLOG2DEV(x2)+1, YLOG2DEV(y2),
rx1, ry1-1, rx2, ry2-1);
}
::SelectObject(GetHdc(), hpenOld);
(void)Arc(GetHdc(), XLOG2DEV(x), YLOG2DEV(y), XLOG2DEV(x2), YLOG2DEV(y2),
rx1, ry1, rx2, ry2);
CalcBoundingBox(x, y);
CalcBoundingBox(x2, y2);
}
void wxMSWDCImpl::DoDrawIcon(const wxIcon& icon, wxCoord x, wxCoord y)
{
wxCHECK_RET( icon.IsOk(), wxT("invalid icon in DrawIcon") );
// Check if we are printing: notice that it's not enough to just check for
// DT_RASPRINTER as this is also the kind of print preview HDC, but its
// type is OBJ_ENHMETADC while the type of the "real" printer DC is OBJ_DC.
if ( ::GetDeviceCaps(GetHdc(), TECHNOLOGY) == DT_RASPRINTER &&
::GetObjectType(GetHdc()) == OBJ_DC )
{
// DrawIcon API doesn't work for printer DCs (printer DC is write-only
// and DrawIcon requires DC supporting SRCINVERT ROP).
// We need to convert icon to bitmap and use alternative API calls.
wxBitmap bmp(icon);
DoDrawBitmap(bmp, x, y, !bmp.HasAlpha() /* use mask */);
}
else
{
::DrawIconEx(GetHdc(), XLOG2DEV(x), YLOG2DEV(y), GetHiconOf(icon), icon.GetWidth(), icon.GetHeight(), 0, NULL, DI_NORMAL);
}
CalcBoundingBox(x, y);
CalcBoundingBox(x + icon.GetWidth(), y + icon.GetHeight());
}
void wxMSWDCImpl::DoDrawBitmap( const wxBitmap &bmp, wxCoord x, wxCoord y, bool useMask )
{
wxCHECK_RET( bmp.IsOk(), wxT("invalid bitmap in wxMSWDCImpl::DrawBitmap") );
int width = bmp.GetWidth(),
height = bmp.GetHeight();
HBITMAP hbmpMask = 0;
#if wxUSE_PALETTE
HPALETTE oldPal = 0;
#endif // wxUSE_PALETTE
if ( bmp.HasAlpha() )
{
MemoryHDC hdcMem;
SelectInHDC select(hdcMem, GetHbitmapOf(bmp));
if ( AlphaBlt(this, x, y, width, height, 0, 0, width, height, hdcMem, bmp) )
{
CalcBoundingBox(x, y);
CalcBoundingBox(x + bmp.GetWidth(), y + bmp.GetHeight());
return;
}
}
StretchBltModeChanger stretchModeChanger(GetHdc());
if ( useMask )
{
wxMask *mask = bmp.GetMask();
if ( mask )
hbmpMask = (HBITMAP)mask->GetMaskBitmap();
if ( !hbmpMask )
{
// don't give assert here because this would break existing
// programs - just silently ignore useMask parameter
useMask = false;
}
}
if ( useMask )
{
// use MaskBlt() with ROP which doesn't do anything to dst in the mask
// points
bool ok = false;
#if wxUSE_SYSTEM_OPTIONS
// On some systems, MaskBlt succeeds yet is much much slower
// than the wxWidgets fall-back implementation. So we need
// to be able to switch this on and off at runtime.
//
// NB: don't query the value of the option every time but do it only
// once as otherwise it can have real (and bad) performance
// implications (see #11172)
static bool
s_maskBltAllowed = wxSystemOptions::GetOptionInt("no-maskblt") == 0;
if ( s_maskBltAllowed )
#endif // wxUSE_SYSTEM_OPTIONS
{
HDC cdc = GetHdc();
HDC hdcMem = wxMSWImpl::CreateCompatibleDCWithLayout(cdc);
HGDIOBJ hOldBitmap = ::SelectObject(hdcMem, GetHbitmapOf(bmp));
#if wxUSE_PALETTE
wxPalette *pal = bmp.GetPalette();
if ( pal && ::GetDeviceCaps(cdc,BITSPIXEL) <= 8 )
{
oldPal = ::SelectPalette(hdcMem, GetHpaletteOf(*pal), FALSE);
::RealizePalette(hdcMem);
}
#endif // wxUSE_PALETTE
ok = ::MaskBlt(cdc, x, y, width, height,
hdcMem, 0, 0,
hbmpMask, 0, 0,
MAKEROP4(SRCCOPY, DSTCOPY)) != 0;
#if wxUSE_PALETTE
if (oldPal)
::SelectPalette(hdcMem, oldPal, FALSE);
#endif // wxUSE_PALETTE
::SelectObject(hdcMem, hOldBitmap);
::DeleteDC(hdcMem);
}
if ( !ok )
{
// Rather than reproduce wxMSWDCImpl::Blit, let's do it at the wxWin API
// level
wxMemoryDC memDC;
memDC.SetLayoutDirection(GetLayoutDirection());
memDC.SelectObjectAsSource(bmp);
GetOwner()->Blit(x, y, width, height, &memDC, 0, 0, wxCOPY, useMask);
}
}
else // no mask, just use BitBlt()
{
HDC cdc = GetHdc();
HDC memdc = wxMSWImpl::CreateCompatibleDCWithLayout( cdc );
HBITMAP hbitmap = (HBITMAP) bmp.GetHBITMAP( );
wxASSERT_MSG( hbitmap, wxT("bitmap is ok but HBITMAP is NULL?") );
wxTextColoursChanger textCol(GetHdc(), *this);
#if wxUSE_PALETTE
wxPalette *pal = bmp.GetPalette();
if ( pal && ::GetDeviceCaps(cdc,BITSPIXEL) <= 8 )
{
oldPal = ::SelectPalette(memdc, GetHpaletteOf(*pal), FALSE);
::RealizePalette(memdc);
}
#endif // wxUSE_PALETTE
HGDIOBJ hOldBitmap = ::SelectObject( memdc, hbitmap );
::BitBlt( cdc, x, y, width, height, memdc, 0, 0, SRCCOPY);
#if wxUSE_PALETTE
if (oldPal)
::SelectPalette(memdc, oldPal, FALSE);
#endif // wxUSE_PALETTE
::SelectObject( memdc, hOldBitmap );
::DeleteDC( memdc );
}
CalcBoundingBox(x, y);
CalcBoundingBox(x + bmp.GetWidth(), y + bmp.GetHeight());
}
void wxMSWDCImpl::DoDrawText(const wxString& text, wxCoord x, wxCoord y)
{
// For compatibility with other ports (notably wxGTK) and because it's
// genuinely useful, we allow passing multiline strings to DrawText().
// However there is no native MSW function to draw them directly so we
// instead reuse the generic DrawLabel() method to render them. Of course,
// DrawLabel() itself will call back to us but with single line strings
// only so there won't be any infinite recursion here.
if ( text.find('\n') != wxString::npos )
{
GetOwner()->DrawLabel(text, wxRect(x, y, 0, 0));
return;
}
// prepare for drawing the text
wxTextColoursChanger textCol(GetHdc(), *this);
wxBkModeChanger bkMode(GetHdc(), m_backgroundMode);
DrawAnyText(text, x, y);
// update the bounding box
CalcBoundingBox(x, y);
wxCoord w, h;
GetOwner()->GetTextExtent(text, &w, &h);
CalcBoundingBox(x + w, y + h);
}
void wxMSWDCImpl::DrawAnyText(const wxString& text, wxCoord x, wxCoord y)
{
if ( ::ExtTextOut(GetHdc(), XLOG2DEV(x), YLOG2DEV(y), 0, NULL,
text.c_str(), text.length(), NULL) == 0 )
{
wxLogLastError(wxT("TextOut"));
}
}
void wxMSWDCImpl::DoDrawRotatedText(const wxString& text,
wxCoord x, wxCoord y,
double angle)
{
// we test that we have some font because otherwise we should still use the
// "else" part below to avoid that DrawRotatedText(angle = 180) and
// DrawRotatedText(angle = 0) use different fonts (we can't use the default
// font for drawing rotated fonts unfortunately)
if ( (angle == 0.0) && m_font.IsOk() )
{
DoDrawText(text, x, y);
// Bounding box already updated by DoDrawText(), no need to do it again.
return;
}
// NB: don't take DEFAULT_GUI_FONT (a.k.a. wxSYS_DEFAULT_GUI_FONT)
// because it's not TrueType and so can't have non zero
// orientation/escapement
wxFont font = m_font.IsOk() ? m_font : *wxSWISS_FONT;
LOGFONT lf;
if ( ::GetObject(GetHfontOf(font), sizeof(lf), &lf) == 0 )
{
wxLogLastError(wxT("GetObject(hfont)"));
}
// GDI wants the angle in tenth of degree
long angle10 = (long)(angle * 10);
lf.lfEscapement = angle10;
lf.lfOrientation = angle10;
AutoHFONT hfont(lf);
if ( !hfont )
{
wxLogLastError(wxT("CreateFont"));
return;
}
SelectInHDC selRotatedFont(GetHdc(), hfont);
// Get extent of whole text.
wxCoord w, h, heightLine;
GetOwner()->GetMultiLineTextExtent(text, &w, &h, &heightLine);
// Prepare for drawing the text
wxTextColoursChanger textCol(GetHdc(), *this);
wxBkModeChanger bkMode(GetHdc(), m_backgroundMode);
// Compute the shift for the origin of the next line.
const double rad = wxDegToRad(angle);
const double dx = heightLine * sin(rad);
const double dy = heightLine * cos(rad);
// Draw all text line by line
const wxArrayString lines = wxSplit(text, '\n', '\0');
for ( size_t lineNum = 0; lineNum < lines.size(); lineNum++ )
{
// Calculate origin for each line to avoid accumulation of
// rounding errors.
DrawAnyText(lines[lineNum],
x + wxRound(lineNum*dx),
y + wxRound(lineNum*dy));
}
// call the bounding box by adding all four vertices of the rectangle
// containing the text to it (simpler and probably not slower than
// determining which of them is really topmost/leftmost/...)
// "upper left" and "upper right"
CalcBoundingBox(x, y);
CalcBoundingBox(x + wxCoord(w*cos(rad)), y - wxCoord(w*sin(rad)));
// "bottom left" and "bottom right"
x += (wxCoord)(h*sin(rad));
y += (wxCoord)(h*cos(rad));
CalcBoundingBox(x, y);
CalcBoundingBox(x + wxCoord(w*cos(rad)), y - wxCoord(w*sin(rad)));
}
// ---------------------------------------------------------------------------
// set GDI objects
// ---------------------------------------------------------------------------
#if wxUSE_PALETTE
void wxMSWDCImpl::DoSelectPalette(bool realize)
{
// Set the old object temporarily, in case the assignment deletes an object
// that's not yet selected out.
if (m_oldPalette)
{
::SelectPalette(GetHdc(), (HPALETTE) m_oldPalette, FALSE);
m_oldPalette = 0;
}
if ( m_palette.IsOk() )
{
HPALETTE oldPal = ::SelectPalette(GetHdc(),
GetHpaletteOf(m_palette),
false);
if (!m_oldPalette)
m_oldPalette = (WXHPALETTE) oldPal;
if (realize)
::RealizePalette(GetHdc());
}
}
void wxMSWDCImpl::SetPalette(const wxPalette& palette)
{
if ( palette.IsOk() )
{
m_palette = palette;
DoSelectPalette(true);
}
}
void wxMSWDCImpl::InitializePalette()
{
if ( wxDisplayDepth() <= 8 )
{
// look for any window or parent that has a custom palette. If any has
// one then we need to use it in drawing operations
wxWindow *win = m_window->GetAncestorWithCustomPalette();
m_hasCustomPalette = win && win->HasCustomPalette();
if ( m_hasCustomPalette )
{
m_palette = win->GetPalette();
// turn on MSW translation for this palette
DoSelectPalette();
}
}
}
#endif // wxUSE_PALETTE
void wxMSWDCImpl::SetFont(const wxFont& font)
{
if ( font == m_font )
return;
if ( font.IsOk() )
{
HGDIOBJ hfont = ::SelectObject(GetHdc(), GetHfontOf(font));
if ( hfont == HGDI_ERROR )
{
wxLogLastError(wxT("SelectObject(font)"));
}
else // selected ok
{
if ( !m_oldFont )
m_oldFont = (WXHFONT)hfont;
m_font = font;
}
}
else // invalid font, reset the current font
{
if ( m_oldFont )
{
if ( ::SelectObject(GetHdc(), (HPEN) m_oldFont) == HGDI_ERROR )
{
wxLogLastError(wxT("SelectObject(old font)"));
}
m_oldFont = 0;
}
m_font = wxNullFont;
}
}
void wxMSWDCImpl::SetPen(const wxPen& pen)
{
if ( pen == m_pen )
return;
if ( pen.IsOk() )
{
HGDIOBJ hpen = ::SelectObject(GetHdc(), GetHpenOf(pen));
if ( hpen == HGDI_ERROR )
{
wxLogLastError(wxT("SelectObject(pen)"));
}
else // selected ok
{
if ( !m_oldPen )
m_oldPen = (WXHPEN)hpen;
m_pen = pen;
}
}
else // invalid pen, reset the current pen
{
if ( m_oldPen )
{
if ( ::SelectObject(GetHdc(), (HPEN) m_oldPen) == HGDI_ERROR )
{
wxLogLastError(wxT("SelectObject(old pen)"));
}
m_oldPen = 0;
}
m_pen = wxNullPen;
}
}
void wxMSWDCImpl::SetBrush(const wxBrush& brush)
{
if ( brush == m_brush )
return;
if ( brush.IsOk() )
{
// we must make sure the brush is aligned with the logical coordinates
// before selecting it or using the same brush for the background of
// different windows would result in discontinuities
wxSize sizeBrushBitmap = wxDefaultSize;
wxBitmap *stipple = brush.GetStipple();
if ( stipple && stipple->IsOk() )
sizeBrushBitmap = stipple->GetSize();
else if ( brush.IsHatch() )
sizeBrushBitmap = wxSize(8, 8);
if ( sizeBrushBitmap.IsFullySpecified() )
{
if ( !::SetBrushOrgEx
(
GetHdc(),
m_deviceOriginX % sizeBrushBitmap.x,
m_deviceOriginY % sizeBrushBitmap.y,
NULL // [out] previous brush origin
) )
{
wxLogLastError(wxT("SetBrushOrgEx()"));
}
}
HGDIOBJ hbrush = ::SelectObject(GetHdc(), GetHbrushOf(brush));
if ( hbrush == HGDI_ERROR )
{
wxLogLastError(wxT("SelectObject(brush)"));
}
else // selected ok
{
if ( !m_oldBrush )
m_oldBrush = (WXHBRUSH)hbrush;
m_brush = brush;
}
}
else // invalid brush, reset the current brush
{
if ( m_oldBrush )
{
if ( ::SelectObject(GetHdc(), (HPEN) m_oldBrush) == HGDI_ERROR )
{
wxLogLastError(wxT("SelectObject(old brush)"));
}
m_oldBrush = 0;
}
m_brush = wxNullBrush;
}
}
void wxMSWDCImpl::SetBackground(const wxBrush& brush)
{
m_backgroundBrush = brush;
if ( m_backgroundBrush.IsOk() )
{
(void)SetBkColor(GetHdc(), m_backgroundBrush.GetColour().GetPixel());
}
}
void wxMSWDCImpl::SetBackgroundMode(int mode)
{
m_backgroundMode = mode;
// SetBackgroundColour now only refers to text background
// and m_backgroundMode is used there
}
void wxMSWDCImpl::SetLogicalFunction(wxRasterOperationMode function)
{
m_logicalFunction = function;
SetRop(m_hDC);
}
void wxMSWDCImpl::SetRop(WXHDC dc)
{
if ( !dc || m_logicalFunction < 0 )
return;
int rop;
switch (m_logicalFunction)
{
case wxCLEAR: rop = R2_BLACK; break;
case wxXOR: rop = R2_XORPEN; break;
case wxINVERT: rop = R2_NOT; break;
case wxOR_REVERSE: rop = R2_MERGEPENNOT; break;
case wxAND_REVERSE: rop = R2_MASKPENNOT; break;
case wxCOPY: rop = R2_COPYPEN; break;
case wxAND: rop = R2_MASKPEN; break;
case wxAND_INVERT: rop = R2_MASKNOTPEN; break;
case wxNO_OP: rop = R2_NOP; break;
case wxNOR: rop = R2_NOTMERGEPEN; break;
case wxEQUIV: rop = R2_NOTXORPEN; break;
case wxSRC_INVERT: rop = R2_NOTCOPYPEN; break;
case wxOR_INVERT: rop = R2_MERGENOTPEN; break;
case wxNAND: rop = R2_NOTMASKPEN; break;
case wxOR: rop = R2_MERGEPEN; break;
case wxSET: rop = R2_WHITE; break;
default:
wxFAIL_MSG( wxS("unknown logical function") );
return;
}
SetROP2(GetHdc(), rop);
}
bool wxMSWDCImpl::StartDoc(const wxString& WXUNUSED(message))
{
// We might be previewing, so return true to let it continue.
return true;
}
void wxMSWDCImpl::EndDoc()
{
}
void wxMSWDCImpl::StartPage()
{
}
void wxMSWDCImpl::EndPage()
{
}
// ---------------------------------------------------------------------------
// text metrics
// ---------------------------------------------------------------------------
wxCoord wxMSWDCImpl::GetCharHeight() const
{
TEXTMETRIC lpTextMetric;
GetTextMetrics(GetHdc(), &lpTextMetric);
return lpTextMetric.tmHeight;
}
wxCoord wxMSWDCImpl::GetCharWidth() const
{
TEXTMETRIC lpTextMetric;
GetTextMetrics(GetHdc(), &lpTextMetric);
return lpTextMetric.tmAveCharWidth;
}
void wxMSWDCImpl::DoGetFontMetrics(int *height,
int *ascent,
int *descent,
int *internalLeading,
int *externalLeading,
int *averageWidth) const
{
TEXTMETRIC tm;
GetTextMetrics(GetHdc(), &tm);
if ( height )
*height = tm.tmHeight;
if ( ascent )
*ascent = tm.tmAscent;
if ( descent )
*descent = tm.tmDescent;
if ( internalLeading )
*internalLeading = tm.tmInternalLeading;
if ( externalLeading )
*externalLeading = tm.tmExternalLeading;
if ( averageWidth )
*averageWidth = tm.tmAveCharWidth;
}
void wxMSWDCImpl::DoGetTextExtent(const wxString& string, wxCoord *x, wxCoord *y,
wxCoord *descent, wxCoord *externalLeading,
const wxFont *font) const
{
wxASSERT_MSG( !font || font->IsOk(), wxT("invalid font in wxMSWDCImpl::GetTextExtent") );
wxTextMeasure txm(GetOwner(), font);
txm.GetTextExtent(string, x, y, descent, externalLeading);
}
bool wxMSWDCImpl::DoGetPartialTextExtents(const wxString& text, wxArrayInt& widths) const
{
wxTextMeasure txm(GetOwner(), NULL); // don't change the font
return txm.GetPartialTextExtents(text, widths, 1.0);
}
namespace
{
void ApplyEffectiveScale(double scale, int sign, int *device, int *logical)
{
// To reduce rounding errors as much as possible, we try to use the largest
// possible extent (2^27-1) for the device space but we must also avoid
// overflowing the int range i.e. ensure that logical extents are less than
// 2^31 in magnitude. So the minimal scale we can use is 1/16 as for
// anything smaller VIEWPORT_EXTENT/scale would overflow the int range.
static const double MIN_LOGICAL_SCALE = 1./16;
double physExtent = VIEWPORT_EXTENT;
if ( scale < MIN_LOGICAL_SCALE )
{
physExtent *= scale/MIN_LOGICAL_SCALE;
scale = MIN_LOGICAL_SCALE;
}
*device = wxRound(physExtent);
*logical = sign*wxRound(VIEWPORT_EXTENT/scale);
}
} // anonymous namespace
void wxMSWDCImpl::RealizeScaleAndOrigin()
{
// although it may seem wasteful to always use MM_ANISOTROPIC here instead
// of using MM_TEXT if there is no scaling, benchmarking doesn't detect any
// noticeable difference between these mapping modes
::SetMapMode(GetHdc(), MM_ANISOTROPIC);
// wxWidgets API assumes that the coordinate space is "infinite" (i.e. only
// limited by 2^32 range of the integer coordinates) but in MSW API we must
// actually specify the extents that we use so compute them here.
int devExtX, devExtY, // Viewport, i.e. device space, extents.
logExtX, logExtY; // Window, i.e. logical coordinate space, extents.
ApplyEffectiveScale(m_scaleX, m_signX, &devExtX, &logExtX);
ApplyEffectiveScale(m_scaleY, m_signY, &devExtY, &logExtY);
// In GDI anisotropic mode only devExt/logExt ratio is important
// so we can reduce the fractions to avoid large numbers
// which could cause arithmetic overflows inside Win API.
int gcd = wxGCD(abs(devExtX), abs(logExtX));
devExtX /= gcd;
logExtX /= gcd;
gcd = wxGCD(abs(devExtY), abs(logExtY));
devExtY /= gcd;
logExtY /= gcd;
::SetViewportExtEx(GetHdc(), devExtX, devExtY, NULL);
::SetWindowExtEx(GetHdc(), logExtX, logExtY, NULL);
::SetViewportOrgEx(GetHdc(), m_deviceOriginX, m_deviceOriginY, NULL);
::SetWindowOrgEx(GetHdc(), m_logicalOriginX, m_logicalOriginY, NULL);
}
void wxMSWDCImpl::SetMapMode(wxMappingMode mode)
{
m_mappingMode = mode;
if ( mode == wxMM_TEXT )
{
m_logicalScaleX =
m_logicalScaleY = 1.0;
}
else // need to do some calculations
{
int pixel_width = ::GetDeviceCaps(GetHdc(), HORZRES),
pixel_height = ::GetDeviceCaps(GetHdc(), VERTRES),
mm_width = ::GetDeviceCaps(GetHdc(), HORZSIZE),
mm_height = ::GetDeviceCaps(GetHdc(), VERTSIZE);
if ( (mm_width == 0) || (mm_height == 0) )
{
// we can't calculate mm2pixels[XY] then!
return;
}
double mm2pixelsX = (double)pixel_width / mm_width,
mm2pixelsY = (double)pixel_height / mm_height;
switch (mode)
{
case wxMM_TWIPS:
m_logicalScaleX = twips2mm * mm2pixelsX;
m_logicalScaleY = twips2mm * mm2pixelsY;
break;
case wxMM_POINTS:
m_logicalScaleX = pt2mm * mm2pixelsX;
m_logicalScaleY = pt2mm * mm2pixelsY;
break;
case wxMM_METRIC:
m_logicalScaleX = mm2pixelsX;
m_logicalScaleY = mm2pixelsY;
break;
case wxMM_LOMETRIC:
m_logicalScaleX = mm2pixelsX / 10.0;
m_logicalScaleY = mm2pixelsY / 10.0;
break;
default:
wxFAIL_MSG( wxT("unknown mapping mode in SetMapMode") );
}
}
ComputeScaleAndOrigin();
RealizeScaleAndOrigin();
}
void wxMSWDCImpl::SetUserScale(double x, double y)
{
if ( x == m_userScaleX && y == m_userScaleY )
return;
wxDCImpl::SetUserScale(x,y);
RealizeScaleAndOrigin();
}
void wxMSWDCImpl::SetAxisOrientation(bool xLeftRight,
bool yBottomUp)
{
int signX = xLeftRight ? 1 : -1,
signY = yBottomUp ? -1 : 1;
if (signX == m_signX && signY == m_signY)
return;
wxDCImpl::SetAxisOrientation( xLeftRight, yBottomUp );
RealizeScaleAndOrigin();
}
void wxMSWDCImpl::SetLogicalOrigin(wxCoord x, wxCoord y)
{
if ( x == m_logicalOriginX && y == m_logicalOriginY )
return;
wxDCImpl::SetLogicalOrigin( x, y );
RealizeScaleAndOrigin();
}
// For use by wxWidgets only, unless custom units are required.
void wxMSWDCImpl::SetLogicalScale(double x, double y)
{
wxDCImpl::SetLogicalScale(x,y);
RealizeScaleAndOrigin();
}
void wxMSWDCImpl::SetDeviceOrigin(wxCoord x, wxCoord y)
{
if ( x == m_deviceOriginX && y == m_deviceOriginY )
return;
wxDCImpl::SetDeviceOrigin( x, y );
::SetViewportOrgEx(GetHdc(), (int)m_deviceOriginX, (int)m_deviceOriginY, NULL);
}
// ----------------------------------------------------------------------------
// Transform matrix
// ----------------------------------------------------------------------------
#if wxUSE_DC_TRANSFORM_MATRIX
bool wxMSWDCImpl::CanUseTransformMatrix() const
{
return true;
}
bool wxMSWDCImpl::SetTransformMatrix(const wxAffineMatrix2D &matrix)
{
if ( matrix.IsIdentity() )
{
ResetTransformMatrix();
return true;
}
if ( !::SetGraphicsMode(GetHdc(), GM_ADVANCED) )
{
wxLogLastError(wxT("SetGraphicsMode"));
return false;
}
wxMatrix2D mat;
wxPoint2DDouble tr;
matrix.Get(&mat, &tr);
XFORM xform;
xform.eM11 = mat.m_11;
xform.eM12 = mat.m_12;
xform.eM21 = mat.m_21;
xform.eM22 = mat.m_22;
xform.eDx = tr.m_x;
xform.eDy = tr.m_y;
if ( !::SetWorldTransform(GetHdc(), &xform) )
{
wxLogLastError(wxT("SetWorldTransform"));
return false;
}
return true;
}
wxAffineMatrix2D wxMSWDCImpl::GetTransformMatrix() const
{
wxAffineMatrix2D transform;
XFORM xform;
if ( !::GetWorldTransform(GetHdc(), &xform) )
{
wxLogLastError(wxT("GetWorldTransform"));
return transform;
}
wxMatrix2D m(xform.eM11, xform.eM12, xform.eM21, xform.eM22);
wxPoint2DDouble p(xform.eDx, xform.eDy);
transform.Set(m, p);
return transform;
}
void wxMSWDCImpl::ResetTransformMatrix()
{
::ModifyWorldTransform(GetHdc(), NULL, MWT_IDENTITY);
::SetGraphicsMode(GetHdc(), GM_COMPATIBLE);
}
#endif // wxUSE_DC_TRANSFORM_MATRIX
// ---------------------------------------------------------------------------
// bit blit
// ---------------------------------------------------------------------------
bool wxMSWDCImpl::DoBlit(wxCoord dstX, wxCoord dstY,
wxCoord dstWidth, wxCoord dstHeight,
wxDC *source,
wxCoord srcX, wxCoord srcY,
wxRasterOperationMode rop, bool useMask,
wxCoord srcMaskX, wxCoord srcMaskY)
{
return DoStretchBlit(dstX, dstY, dstWidth, dstHeight, source, srcX, srcY, dstWidth, dstHeight, rop, useMask, srcMaskX, srcMaskY);
}
bool wxMSWDCImpl::DoStretchBlit(wxCoord xdest, wxCoord ydest,
wxCoord dstWidth, wxCoord dstHeight,
wxDC *source,
wxCoord xsrc, wxCoord ysrc,
wxCoord srcWidth, wxCoord srcHeight,
wxRasterOperationMode rop, bool useMask,
wxCoord xsrcMask, wxCoord ysrcMask)
{
wxCHECK_MSG( source, false, wxT("wxMSWDCImpl::Blit(): NULL wxDC pointer") );
wxMSWDCImpl *implSrc = wxDynamicCast( source->GetImpl(), wxMSWDCImpl );
if ( !implSrc )
{
// TODO: Do we want to be able to blit from other DCs too?
return false;
}
HDC hdcSrc = GetHdcOf(*implSrc);
// if either the source or destination has alpha channel, we must use
// AlphaBlt() as other function don't handle it correctly
const wxBitmap& bmpSrc = implSrc->GetSelectedBitmap();
if ( bmpSrc.IsOk() && (bmpSrc.HasAlpha() ||
(m_selectedBitmap.IsOk() && m_selectedBitmap.HasAlpha())) )
{
if ( AlphaBlt(this, xdest, ydest, dstWidth, dstHeight,
xsrc, ysrc, srcWidth, srcHeight, hdcSrc, bmpSrc) )
{
CalcBoundingBox(xdest, ydest);
CalcBoundingBox(xdest + dstWidth, ydest + dstHeight);
return true;
}
}
wxMask *mask = NULL;
if ( useMask )
{
mask = bmpSrc.GetMask();
if ( !(bmpSrc.IsOk() && mask && mask->GetMaskBitmap()) )
{
// don't give assert here because this would break existing
// programs - just silently ignore useMask parameter
useMask = false;
}
}
if (xsrcMask == -1 && ysrcMask == -1)
{
xsrcMask = xsrc; ysrcMask = ysrc;
}
wxTextColoursChanger textCol(GetHdc(), *this);
DWORD dwRop;
switch (rop)
{
case wxXOR: dwRop = SRCINVERT; break;
case wxINVERT: dwRop = DSTINVERT; break;
case wxOR_REVERSE: dwRop = 0x00DD0228; break;
case wxAND_REVERSE: dwRop = SRCERASE; break;
case wxCLEAR: dwRop = BLACKNESS; break;
case wxSET: dwRop = WHITENESS; break;
case wxOR_INVERT: dwRop = MERGEPAINT; break;
case wxAND: dwRop = SRCAND; break;
case wxOR: dwRop = SRCPAINT; break;
case wxEQUIV: dwRop = 0x00990066; break;
case wxNAND: dwRop = 0x007700E6; break;
case wxAND_INVERT: dwRop = 0x00220326; break;
case wxCOPY: dwRop = SRCCOPY; break;
case wxNO_OP: dwRop = DSTCOPY; break;
case wxSRC_INVERT: dwRop = NOTSRCCOPY; break;
case wxNOR: dwRop = NOTSRCCOPY; break;
default:
wxFAIL_MSG( wxT("unsupported logical function") );
return false;
}
// Most of the operations involve the source or the pattern, but a few of
// them (and only those few, no other are possible) only use destination
// HDC. For them we must not give a valid source HDC to MaskBlt() as it
// still uses it, somehow, and the result is garbage.
if ( dwRop == BLACKNESS || dwRop == WHITENESS ||
dwRop == DSTINVERT || dwRop == DSTCOPY )
{
hdcSrc = NULL;
}
bool success = false;
if (useMask)
{
// we want the part of the image corresponding to the mask to be
// transparent, so use "DSTCOPY" ROP for the mask points (the usual
// meaning of fg and bg is inverted which corresponds to wxWin notion
// of the mask which is also contrary to the Windows one)
// On some systems, MaskBlt succeeds yet is much much slower
// than the wxWidgets fall-back implementation. So we need
// to be able to switch this on and off at runtime.
#if wxUSE_SYSTEM_OPTIONS
static bool s_maskBltAllowed = wxSystemOptions::GetOptionInt("no-maskblt") == 0;
if ( s_maskBltAllowed )
#endif
{
if ( dstWidth == srcWidth && dstHeight == srcHeight )
{
success = ::MaskBlt
(
GetHdc(),
xdest, ydest, dstWidth, dstHeight,
hdcSrc,
xsrc, ysrc,
(HBITMAP)mask->GetMaskBitmap(),
xsrcMask, ysrcMask,
MAKEROP4(dwRop, DSTCOPY)
) != 0;
}
}
if ( !success )
{
// Blit bitmap with mask
HDC dc_mask ;
HDC dc_buffer ;
HBITMAP buffer_bmap ;
#if wxUSE_DC_CACHEING
// create a temp buffer bitmap and DCs to access it and the mask
wxDCCacheEntry* dcCacheEntry1 = FindDCInCache(NULL, hdcSrc);
dc_mask = (HDC) dcCacheEntry1->m_dc;
wxDCCacheEntry* dcCacheEntry2 = FindDCInCache(dcCacheEntry1, GetHDC());
dc_buffer = (HDC) dcCacheEntry2->m_dc;
wxDCCacheEntry* bitmapCacheEntry = FindBitmapInCache(GetHDC(),
dstWidth, dstHeight);
buffer_bmap = (HBITMAP) bitmapCacheEntry->m_bitmap;
#else // !wxUSE_DC_CACHEING
// create a temp buffer bitmap and DCs to access it and the mask
dc_mask = wxMSWImpl::CreateCompatibleDCWithLayout(hdcSrc);
dc_buffer = wxMSWImpl::CreateCompatibleDCWithLayout(GetHdc());
buffer_bmap = ::CreateCompatibleBitmap(GetHdc(), dstWidth, dstHeight);
#endif // wxUSE_DC_CACHEING/!wxUSE_DC_CACHEING
HGDIOBJ hOldMaskBitmap = ::SelectObject(dc_mask, (HBITMAP) mask->GetMaskBitmap());
HGDIOBJ hOldBufferBitmap = ::SelectObject(dc_buffer, buffer_bmap);
// copy dest to buffer
if ( !::BitBlt(dc_buffer, 0, 0, dstWidth, dstHeight,
GetHdc(), xdest, ydest, SRCCOPY) )
{
wxLogLastError(wxT("BitBlt"));
}
StretchBltModeChanger stretchModeChanger(GetHdc());
// copy src to buffer using selected raster op
if ( !::StretchBlt(dc_buffer, 0, 0, dstWidth, dstHeight,
hdcSrc, xsrc, ysrc, srcWidth, srcHeight, dwRop) )
{
wxLogLastError(wxT("StretchBlt"));
}
// set masked area in buffer to BLACK
{
wxTextColoursChanger textCol2(GetHdc(), *wxBLACK, *wxWHITE);
if ( !::StretchBlt(dc_buffer, 0, 0, dstWidth, dstHeight,
dc_mask, xsrcMask, ysrcMask,
srcWidth, srcHeight, SRCAND) )
{
wxLogLastError(wxT("StretchBlt"));
}
// set unmasked area in dest to BLACK
::SetBkColor(GetHdc(), RGB(0, 0, 0));
::SetTextColor(GetHdc(), RGB(255, 255, 255));
if ( !::StretchBlt(GetHdc(), xdest, ydest, dstWidth, dstHeight,
dc_mask, xsrcMask, ysrcMask,
srcWidth, srcHeight, SRCAND) )
{
wxLogLastError(wxT("StretchBlt"));
}
} // restore the original text and background colours
// OR buffer to dest
success = ::BitBlt(GetHdc(), xdest, ydest, dstWidth, dstHeight,
dc_buffer, 0, 0, SRCPAINT) != 0;
if ( !success )
{
wxLogLastError(wxT("BitBlt"));
}
// tidy up temporary DCs and bitmap
::SelectObject(dc_mask, hOldMaskBitmap);
::SelectObject(dc_buffer, hOldBufferBitmap);
#if !wxUSE_DC_CACHEING
{
::DeleteDC(dc_mask);
::DeleteDC(dc_buffer);
::DeleteObject(buffer_bmap);
}
#endif
}
}
else // no mask, just BitBlt() it
{
// if we already have a DIB, draw it using StretchDIBits(), otherwise
// use StretchBlt() if available and finally fall back to BitBlt()
const int caps = ::GetDeviceCaps(GetHdc(), RASTERCAPS);
if ( bmpSrc.IsOk() && (caps & RC_STRETCHDIB) )
{
DIBSECTION ds;
wxZeroMemory(ds);
if ( ::GetObject(GetHbitmapOf(bmpSrc),
sizeof(ds),
&ds) == sizeof(ds) )
{
StretchBltModeChanger stretchModeChanger(GetHdc());
// Unlike all the other functions used here (i.e. AlphaBlt(),
// MaskBlt(), BitBlt() and StretchBlt()), StretchDIBits() does
// not take into account the source DC logical coordinates
// automatically as it doesn't even work with the source HDC.
// So do this manually to ensure that the coordinates are
// interpreted in the same way here as in all the other cases.
xsrc = source->LogicalToDeviceX(xsrc);
ysrc = source->LogicalToDeviceY(ysrc);
srcWidth = source->LogicalToDeviceXRel(srcWidth);
srcHeight = source->LogicalToDeviceYRel(srcHeight);
// Figure out what co-ordinate system we're supposed to specify
// ysrc in.
const LONG hDIB = ds.dsBmih.biHeight;
if ( hDIB > 0 )
{
// reflect ysrc
ysrc = hDIB - (ysrc + srcHeight);
}
if ( ::StretchDIBits(GetHdc(),
xdest, ydest,
dstWidth, dstHeight,
xsrc, ysrc,
srcWidth, srcHeight,
ds.dsBm.bmBits,
(LPBITMAPINFO)&ds.dsBmih,
DIB_RGB_COLORS,
dwRop
) == (int)GDI_ERROR )
{
// On Win9x this API fails most (all?) of the time, so
// logging it becomes quite distracting. Since it falls
// back to the code below this is not really serious, so
// don't log it.
//wxLogLastError(wxT("StretchDIBits"));
}
else
{
success = true;
}
}
}
if ( !success && (caps & RC_STRETCHBLT) )
{
StretchBltModeChanger stretchModeChanger(GetHdc());
if ( !::StretchBlt
(
GetHdc(),
xdest, ydest, dstWidth, dstHeight,
hdcSrc,
xsrc, ysrc, srcWidth, srcHeight,
dwRop
) )
{
wxLogLastError(wxT("StretchBlt"));
}
else
{
success = true;
}
}
if ( !success )
{
if ( !::BitBlt(GetHdc(), xdest, ydest, dstWidth, dstHeight,
hdcSrc, xsrc, ysrc, dwRop) )
{
wxLogLastError(wxT("BitBlt"));
}
else
{
success = true;
}
}
}
if ( success )
{
CalcBoundingBox(xdest, ydest);
CalcBoundingBox(xdest + dstWidth, ydest + dstHeight);
}
return success;
}
void wxMSWDCImpl::GetDeviceSize(int *width, int *height) const
{
if ( width )
*width = ::GetDeviceCaps(GetHdc(), HORZRES);
if ( height )
*height = ::GetDeviceCaps(GetHdc(), VERTRES);
}
void wxMSWDCImpl::DoGetSizeMM(int *w, int *h) const
{
// if we implement it in terms of DoGetSize() instead of directly using the
// results returned by GetDeviceCaps(HORZ/VERTSIZE) as was done before, it
// will also work for wxWindowDC and wxClientDC even though their size is
// not the same as the total size of the screen
int wPixels, hPixels;
DoGetSize(&wPixels, &hPixels);
if ( w )
{
int wTotal = ::GetDeviceCaps(GetHdc(), HORZRES);
wxCHECK_RET( wTotal, wxT("0 width device?") );
*w = (wPixels * ::GetDeviceCaps(GetHdc(), HORZSIZE)) / wTotal;
}
if ( h )
{
int hTotal = ::GetDeviceCaps(GetHdc(), VERTRES);
wxCHECK_RET( hTotal, wxT("0 height device?") );
*h = (hPixels * ::GetDeviceCaps(GetHdc(), VERTSIZE)) / hTotal;
}
}
wxSize wxMSWDCImpl::GetPPI() const
{
int x = ::GetDeviceCaps(GetHdc(), LOGPIXELSX);
int y = ::GetDeviceCaps(GetHdc(), LOGPIXELSY);
return wxSize(x, y);
}
// ----------------------------------------------------------------------------
// DC caching
// ----------------------------------------------------------------------------
#if wxUSE_DC_CACHEING
/*
* This implementation is a bit ugly and uses the old-fashioned wxList class, so I will
* improve it in due course, either using arrays, or simply storing pointers to one
* entry for the bitmap, and two for the DCs. -- JACS
*/
wxObjectList wxMSWDCImpl::sm_bitmapCache;
wxObjectList wxMSWDCImpl::sm_dcCache;
wxDCCacheEntry::wxDCCacheEntry(WXHBITMAP hBitmap, int w, int h, int depth)
{
m_bitmap = hBitmap;
m_dc = 0;
m_width = w;
m_height = h;
m_depth = depth;
}
wxDCCacheEntry::wxDCCacheEntry(WXHDC hDC, int depth)
{
m_bitmap = 0;
m_dc = hDC;
m_width = 0;
m_height = 0;
m_depth = depth;
}
wxDCCacheEntry::~wxDCCacheEntry()
{
if (m_bitmap)
::DeleteObject((HBITMAP) m_bitmap);
if (m_dc)
::DeleteDC((HDC) m_dc);
}
wxDCCacheEntry* wxMSWDCImpl::FindBitmapInCache(WXHDC dc, int w, int h)
{
int depth = ::GetDeviceCaps((HDC) dc, PLANES) * ::GetDeviceCaps((HDC) dc, BITSPIXEL);
wxList::compatibility_iterator node = sm_bitmapCache.GetFirst();
while (node)
{
wxDCCacheEntry* entry = (wxDCCacheEntry*) node->GetData();
if (entry->m_depth == depth)
{
if (entry->m_width < w || entry->m_height < h)
{
::DeleteObject((HBITMAP) entry->m_bitmap);
entry->m_bitmap = (WXHBITMAP) ::CreateCompatibleBitmap((HDC) dc, w, h);
if ( !entry->m_bitmap)
{
wxLogLastError(wxT("CreateCompatibleBitmap"));
}
entry->m_width = w; entry->m_height = h;
return entry;
}
return entry;
}
node = node->GetNext();
}
WXHBITMAP hBitmap = (WXHBITMAP) ::CreateCompatibleBitmap((HDC) dc, w, h);
if ( !hBitmap)
{
wxLogLastError(wxT("CreateCompatibleBitmap"));
}
wxDCCacheEntry* entry = new wxDCCacheEntry(hBitmap, w, h, depth);
AddToBitmapCache(entry);
return entry;
}
wxDCCacheEntry* wxMSWDCImpl::FindDCInCache(wxDCCacheEntry* notThis, WXHDC dc)
{
int depth = ::GetDeviceCaps((HDC) dc, PLANES) * ::GetDeviceCaps((HDC) dc, BITSPIXEL);
wxList::compatibility_iterator node = sm_dcCache.GetFirst();
while (node)
{
wxDCCacheEntry* entry = (wxDCCacheEntry*) node->GetData();
// Don't return the same one as we already have
if (!notThis || (notThis != entry))
{
if (entry->m_depth == depth)
{
return entry;
}
}
node = node->GetNext();
}
WXHDC hDC = (WXHDC) wxMSWImpl::CreateCompatibleDCWithLayout((HDC) dc);
if ( !hDC)
{
wxLogLastError(wxT("CreateCompatibleDC"));
}
wxDCCacheEntry* entry = new wxDCCacheEntry(hDC, depth);
AddToDCCache(entry);
return entry;
}
void wxMSWDCImpl::AddToBitmapCache(wxDCCacheEntry* entry)
{
sm_bitmapCache.Append(entry);
}
void wxMSWDCImpl::AddToDCCache(wxDCCacheEntry* entry)
{
sm_dcCache.Append(entry);
}
void wxMSWDCImpl::ClearCache()
{
WX_CLEAR_LIST(wxList, sm_dcCache);
WX_CLEAR_LIST(wxList, sm_bitmapCache);
}
// Clean up cache at app exit
class wxDCModule : public wxModule
{
public:
virtual bool OnInit() { return true; }
virtual void OnExit() { wxMSWDCImpl::ClearCache(); }
private:
wxDECLARE_DYNAMIC_CLASS(wxDCModule);
};
wxIMPLEMENT_DYNAMIC_CLASS(wxDCModule, wxModule);
#endif // wxUSE_DC_CACHEING
// ----------------------------------------------------------------------------
// alpha channel support
// ----------------------------------------------------------------------------
static bool AlphaBlt(wxMSWDCImpl* dcDst,
int x, int y, int dstWidth, int dstHeight,
int srcX, int srcY,
int srcWidth, int srcHeight,
HDC hdcSrc,
const wxBitmap& WXUNUSED_UNLESS_DEBUG(bmpSrc))
{
wxASSERT_MSG( bmpSrc.IsOk() && bmpSrc.HasAlpha(),
wxT("AlphaBlt(): invalid bitmap") );
wxASSERT_MSG( dcDst && hdcSrc, wxT("AlphaBlt(): invalid HDC") );
BLENDFUNCTION bf;
bf.BlendOp = AC_SRC_OVER;
bf.BlendFlags = 0;
bf.SourceConstantAlpha = 0xff;
bf.AlphaFormat = AC_SRC_ALPHA;
if ( !wxDynLoadWrappers::AlphaBlend
(
GetHdcOf(*dcDst), x, y, dstWidth, dstHeight,
hdcSrc, srcX, srcY, srcWidth, srcHeight,
bf
) )
{
wxLogLastError(wxT("AlphaBlend"));
return false;
}
// There is an extra complication with drawing bitmaps with alpha
// on bitmaps without alpha: AlphaBlt() modifies the alpha
// component of the destination bitmap even if it hadn't had it
// before which is not only unexpected but corrupts the bitmap as
// all its pixels outside of the (x, y, dstWidth, dstHeight) area
// are now fully transparent: they already had 0 value of alpha
// before but it didn't count as long as all other pixels had 0
// alpha as well, but now that some of them are not transparent any
// more, the rest of pixels with 0 alpha is transparent. So undo
// this to avoid "losing" the existing bitmap contents outside of
// the area affected by AlphaBlt(), see #14403.
#ifdef wxHAS_RAW_BITMAP
const wxBitmap& bmpDst = dcDst->GetSelectedBitmap();
if ( bmpDst.IsOk() && !bmpDst.HasAlpha() && bmpDst.GetDepth() == 32 )
{
// We need to deselect the bitmap from the memory DC it is
// currently selected into before modifying it.
wxBitmap bmpOld = bmpDst;
dcDst->DoSelect(wxNullBitmap);
// Notice the extra block: we must destroy wxAlphaPixelData
// before selecting the bitmap into the DC again.
{
// Since drawn bitmap can only partially overlap
// with destination bitmap we need to calculate
// efective drawing area location.
const wxRect rectDst(bmpOld.GetSize());
const wxRect rectDrawn(x, y, dstWidth, dstHeight);
const wxRect r = rectDrawn.Intersect(rectDst);
wxAlphaPixelData data(bmpOld);
if ( data )
{
wxAlphaPixelData::Iterator p(data);
p.Offset(data, r.GetLeft(), r.GetTop());
for ( int old_y = 0; old_y < r.GetHeight(); old_y++ )
{
wxAlphaPixelData::Iterator rowStart = p;
for ( int old_x = 0; old_x < r.GetWidth(); old_x++ )
{
// We choose to use wxALPHA_TRANSPARENT instead
// of perhaps more logical wxALPHA_OPAQUE here
// to ensure that the bitmap remains the same
// as before, i.e. without any alpha at all.
p.Alpha() = wxALPHA_TRANSPARENT;
++p;
}
p = rowStart;
p.OffsetY(data, 1);
}
}
}
// Using wxAlphaPixelData sets the internal "has alpha" flag
// which is usually what we need, but in this particular case
// we use it to get rid of alpha, not set it, so reset it back.
bmpOld.ResetAlpha();
dcDst->DoSelect(bmpOld);
}
#endif // wxHAS_RAW_BITMAP
return true;
}
void wxMSWDCImpl::DoGradientFillLinear (const wxRect& rect,
const wxColour& initialColour,
const wxColour& destColour,
wxDirection nDirection)
{
GRADIENT_RECT grect;
grect.UpperLeft = 0;
grect.LowerRight = 1;
// invert colours direction if not filling from left-to-right or
// top-to-bottom
int firstVertex = nDirection == wxNORTH || nDirection == wxWEST ? 1 : 0;
// one vertex for upper left and one for upper-right
TRIVERTEX vertices[2];
vertices[0].x = rect.GetLeft();
vertices[0].y = rect.GetTop();
vertices[1].x = rect.GetRight()+1;
vertices[1].y = rect.GetBottom()+1;
vertices[firstVertex].Red = (COLOR16)(initialColour.Red() << 8);
vertices[firstVertex].Green = (COLOR16)(initialColour.Green() << 8);
vertices[firstVertex].Blue = (COLOR16)(initialColour.Blue() << 8);
vertices[firstVertex].Alpha = 0;
vertices[1 - firstVertex].Red = (COLOR16)(destColour.Red() << 8);
vertices[1 - firstVertex].Green = (COLOR16)(destColour.Green() << 8);
vertices[1 - firstVertex].Blue = (COLOR16)(destColour.Blue() << 8);
vertices[1 - firstVertex].Alpha = 0;
if ( wxDynLoadWrappers::GradientFill
(
GetHdc(),
vertices,
WXSIZEOF(vertices),
&grect,
1,
nDirection == wxWEST || nDirection == wxEAST
? GRADIENT_FILL_RECT_H
: GRADIENT_FILL_RECT_V
) )
{
CalcBoundingBox(rect.GetLeft(), rect.GetBottom());
CalcBoundingBox(rect.GetRight(), rect.GetTop());
}
else
{
wxLogLastError(wxT("GradientFill"));
}
}
namespace wxMSWImpl
{
HDC CreateCompatibleDCWithLayout(HDC hdc)
{
HDC hdcNew = ::CreateCompatibleDC(hdc);
if ( hdcNew )
{
DWORD dwLayout = wxDynLoadWrappers::GetLayout(hdc);
if ( dwLayout != GDI_ERROR )
wxDynLoadWrappers::SetLayout(hdcNew, dwLayout);
}
return hdcNew;
}
} // namespace wxMSWImpl
wxLayoutDirection wxMSWDCImpl::GetLayoutDirection() const
{
DWORD layout = wxDynLoadWrappers::GetLayout(GetHdc());
if ( layout == GDI_ERROR )
return wxLayout_Default;
return layout & LAYOUT_RTL ? wxLayout_RightToLeft : wxLayout_LeftToRight;
}
void wxMSWDCImpl::SetLayoutDirection(wxLayoutDirection dir)
{
if ( dir == wxLayout_Default )
{
dir = wxApp::MSWGetDefaultLayout(GetWindow());
if ( dir == wxLayout_Default )
return;
}
DWORD layout = wxDynLoadWrappers::GetLayout(GetHdc());
if ( layout == GDI_ERROR )
return;
if ( dir == wxLayout_RightToLeft )
layout |= LAYOUT_RTL;
else
layout &= ~LAYOUT_RTL;
wxDynLoadWrappers::SetLayout(GetHdc(), layout);
}
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