mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
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492 lines
19 KiB
Python
Executable file
492 lines
19 KiB
Python
Executable file
#----------------------------------------------------------------------
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# Name: wx.lib.wxcairo
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# Purpose: Glue code to allow the pycairo package to be used
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# with a wx.DC as the cairo surface.
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#
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# Author: Robin Dunn
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#
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# Created: 3-Sept-2008
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# Copyright: (c) 2008 by Total Control Software
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# Licence: wxWindows license
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#
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# Tags: phoenix-port, py3-port
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#----------------------------------------------------------------------
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"""
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This module provides some glue code that allows the pycairo package to
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be used for drawing direclty on wx.DCs. In cairo terms, the DC is the
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drawing surface. The `CairoContextFromDC` function in this module
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will return an instance of the pycairo Context class that is ready for
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drawing, using the native cairo surface type for the current platform.
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This module requires the pycairo package, and makes use of ctypes for
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fetching the pycairo C API and also for digging into the cairo library
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itself.
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To use Cairo with wxPython you will need to have a few dependencies
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installed. On Linux and other unix-like systems you may already have
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them, or can easily get them with your system's package manager. Just
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check if libcairo and pycairo are installed.
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On Mac you can get Cairo from MacPorts or Fink. If you are also using
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MacPorts or Fink for your Python installation then you should be able
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to get pycairo the same way. Otherwise it's real easy to build and
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install pycairo for the Python framework installation. Just get the
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source tarball from http://pypi.python.org/pypi/pycairo and do the
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normal 'python setup.py install' dance.
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On Windows you can get a Cairo DLL from here:
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http://www.gtk.org/download/win32.php
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You'll also want to get the zlib and libpng binaries from the same
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page. Once you get those files extract the DLLs from each of the zip
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files and copy them to some place on your PATH. Finally, there is an
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installer for the pycairo pacakge here:
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http://wxpython.org/cairo/
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"""
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# TODO: Support printer surfaces?
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import wx
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from wx.lib.six import PY3
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import cairo
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import ctypes
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import ctypes.util
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#----------------------------------------------------------------------------
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# A reference to the cairo shared lib via ctypes.CDLL
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cairoLib = None
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# A reference to the pycairo C API structure
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pycairoAPI = None
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# a convenience function, just to save a bit of typing below
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def voidp(ptr):
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"""Convert a SIP void* type to a ctypes c_void_p"""
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if PY3:
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return ctypes.c_void_p(int(ptr))
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else:
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return ctypes.c_void_p(long(ptr))
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#----------------------------------------------------------------------------
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def ContextFromDC(dc):
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"""
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Creates and returns a Cairo context object using the wxDC as the
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surface. (Only window, client, paint and memory DC's are allowed
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at this time.)
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"""
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if not isinstance(dc, wx.WindowDC) and not isinstance(dc, wx.MemoryDC):
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raise TypeError("Only window and memory DC's are supported at this time.")
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if 'wxMac' in wx.PlatformInfo:
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width, height = dc.GetSize()
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# use the CGContextRef of the DC to make the cairo surface
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cgc = dc.GetHandle()
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assert cgc is not None, "Unable to get CGContext from DC."
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cgref = voidp( cgc )
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surfaceptr = voidp(surface_create(cgref, width, height))
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# create a cairo context for that surface
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ctxptr = voidp(cairo_create(surfaceptr))
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# Turn it into a pycairo context object
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ctx = pycairoAPI.Context_FromContext(ctxptr, pycairoAPI.Context_Type, None)
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# The context keeps its own reference to the surface
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cairoLib.cairo_surface_destroy(surfaceptr)
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elif 'wxMSW' in wx.PlatformInfo:
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# This one is easy, just fetch the HDC and use PyCairo to make
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# the surface and context.
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hdc = dc.GetHandle()
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# Ensure the pointer value is clampped into the range of a C signed long
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hdc = ctypes.c_long(hdc)
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surface = cairo.Win32Surface(hdc.value)
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ctx = cairo.Context(surface)
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elif 'wxGTK' in wx.PlatformInfo:
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# Get the GdkDrawable from the dc
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drawable = voidp( dc.GetHandle() )
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# Call a GDK API to create a cairo context
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ctxptr = gdkLib.gdk_cairo_create(drawable)
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# Turn it into a pycairo context object
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ctx = pycairoAPI.Context_FromContext(ctxptr, pycairoAPI.Context_Type, None)
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else:
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raise NotImplementedError("Help me, I'm lost...")
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return ctx
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#----------------------------------------------------------------------------
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def FontFaceFromFont(font):
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"""
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Creates and returns a cairo.FontFace object from the native
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information in a wx.Font.
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"""
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if 'wxMac' in wx.PlatformInfo:
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fontfaceptr = font_face_create(voidp(font.OSXGetCGFont()))
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fontface = pycairoAPI.FontFace_FromFontFace(fontfaceptr)
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elif 'wxMSW' in wx.PlatformInfo:
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fontfaceptr = voidp( cairoLib.cairo_win32_font_face_create_for_hfont(
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ctypes.c_ulong(font.GetHFONT())) )
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fontface = pycairoAPI.FontFace_FromFontFace(fontfaceptr)
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elif 'wxGTK' in wx.PlatformInfo:
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# wow, this is a hell of a lot of steps...
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desc = voidp( font.GetPangoFontDescription() )
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pcfm = voidp(pcLib.pango_cairo_font_map_get_default())
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pctx = voidp(gdkLib.gdk_pango_context_get())
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pfnt = voidp( pcLib.pango_font_map_load_font(pcfm, pctx, desc) )
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scaledfontptr = voidp( pcLib.pango_cairo_font_get_scaled_font(pfnt) )
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fontfaceptr = voidp(cairoLib.cairo_scaled_font_get_font_face(scaledfontptr))
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cairoLib.cairo_font_face_reference(fontfaceptr)
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fontface = pycairoAPI.FontFace_FromFontFace(fontfaceptr)
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gdkLib.g_object_unref(pctx)
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else:
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raise NotImplementedError("Help me, I'm lost...")
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return fontface
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#----------------------------------------------------------------------------
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# wxBitmap <--> ImageSurface
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def BitmapFromImageSurface(surface):
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"""
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Create a wx.Bitmap from a Cairo ImageSurface.
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"""
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format = surface.get_format()
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if format not in [cairo.FORMAT_ARGB32, cairo.FORMAT_RGB24]:
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raise TypeError("Unsupported format")
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width = surface.get_width()
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height = surface.get_height()
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stride = surface.get_stride()
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data = surface.get_data()
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if format == cairo.FORMAT_ARGB32:
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fmt = wx.BitmapBufferFormat_ARGB32
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else:
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fmt = wx.BitmapBufferFormat_RGB32
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bmp = wx.Bitmap(width, height, 32)
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bmp.CopyFromBuffer(data, fmt, stride)
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return bmp
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def ImageSurfaceFromBitmap(bitmap):
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"""
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Create an ImageSurface from a wx.Bitmap
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"""
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width, height = bitmap.GetSize()
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if bitmap.ConvertToImage().HasAlpha():
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format = cairo.FORMAT_ARGB32
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fmt = wx.BitmapBufferFormat_ARGB32
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else:
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format = cairo.FORMAT_RGB24
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fmt = wx.BitmapBufferFormat_RGB32
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try:
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stride = cairo.ImageSurface.format_stride_for_width(format, width)
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except AttributeError:
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stride = width * 4
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surface = cairo.ImageSurface(format, width, height)
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bitmap.CopyToBuffer(surface.get_data(), fmt, stride)
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surface.mark_dirty()
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return surface
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#----------------------------------------------------------------------------
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# Only implementation helpers after this point
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#----------------------------------------------------------------------------
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def _findCairoLib():
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"""
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Try to locate the Cairo shared library and make a CDLL for it.
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"""
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global cairoLib
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if cairoLib is not None:
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return
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names = ['cairo', 'cairo-2', 'libcairo', 'libcairo-2']
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# first look using just the base name
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for name in names:
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try:
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cairoLib = ctypes.CDLL(name)
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return
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except:
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pass
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# if that didn't work then use the ctypes util to search the paths
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# appropriate for the system
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for name in names:
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location = ctypes.util.find_library(name)
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if location:
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try:
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cairoLib = ctypes.CDLL(location)
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return
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except:
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pass
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# If the above didn't find it on OS X then we still have a
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# trick up our sleeve...
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if 'wxMac' in wx.PlatformInfo:
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# look at the libs linked to by the pycairo extension module
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import macholib.MachO
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m = macholib.MachO.MachO(cairo._cairo.__file__)
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for h in m.headers:
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for idx, name, path in h.walkRelocatables():
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if 'libcairo' in path:
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try:
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cairoLib = ctypes.CDLL(path)
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return
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except:
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pass
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if not cairoLib:
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raise RuntimeError("Unable to find the Cairo shared library")
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#----------------------------------------------------------------------------
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# For other DLLs we'll just use a dictionary to track them, as there
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# probably isn't any need to use them outside of this module.
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_dlls = dict()
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def _findHelper(names, key, msg):
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dll = _dlls.get(key, None)
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if dll is not None:
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return dll
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location = None
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for name in names:
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location = ctypes.util.find_library(name)
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if location:
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break
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if not location:
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raise RuntimeError(msg)
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dll = ctypes.CDLL(location)
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_dlls[key] = dll
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return dll
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def _findGDKLib():
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return _findHelper(['gdk-x11-2.0'], 'gdk',
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"Unable to find the GDK shared library")
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def _findPangoCairoLib():
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return _findHelper(['pangocairo-1.0'], 'pangocairo',
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"Unable to find the pangocairo shared library")
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def _findAppSvcLib():
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return _findHelper(['ApplicationServices'], 'appsvc',
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"Unable to find the ApplicationServices Framework")
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#----------------------------------------------------------------------------
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# Pycairo exports a C API in a structure via a PyCObject. Using
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# ctypes will let us use that API from Python too. We'll use it to
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# convert a C pointer value to pycairo objects. The information about
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# this API structure is gleaned from pycairo.h.
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class Pycairo_CAPI(ctypes.Structure):
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if cairo.version_info < (1,8): # This structure is known good with pycairo 1.6.4
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_fields_ = [
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('Context_Type', ctypes.py_object),
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('Context_FromContext', ctypes.PYFUNCTYPE(ctypes.py_object,
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ctypes.c_void_p,
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ctypes.py_object,
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ctypes.py_object)),
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('FontFace_Type', ctypes.py_object),
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('FontFace_FromFontFace', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('FontOptions_Type', ctypes.py_object),
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('FontOptions_FromFontOptions', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('Matrix_Type', ctypes.py_object),
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('Matrix_FromMatrix', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('Path_Type', ctypes.py_object),
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('Path_FromPath', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('Pattern_Type', ctypes.py_object),
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('SolidPattern_Type', ctypes.py_object),
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('SurfacePattern_Type', ctypes.py_object),
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('Gradient_Type', ctypes.py_object),
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('LinearGradient_Type', ctypes.py_object),
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('RadialGradient_Type', ctypes.py_object),
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('Pattern_FromPattern', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('ScaledFont_Type', ctypes.py_object),
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('ScaledFont_FromScaledFont', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('Surface_Type', ctypes.py_object),
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('ImageSurface_Type', ctypes.py_object),
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('PDFSurface_Type', ctypes.py_object),
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('PSSurface_Type', ctypes.py_object),
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('SVGSurface_Type', ctypes.py_object),
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('Win32Surface_Type', ctypes.py_object),
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('XlibSurface_Type', ctypes.py_object),
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('Surface_FromSurface', ctypes.PYFUNCTYPE(ctypes.py_object,
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ctypes.c_void_p,
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ctypes.py_object)),
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('Check_Status', ctypes.PYFUNCTYPE(ctypes.c_int, ctypes.c_int))]
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# This structure is known good with pycairo 1.8.4.
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# We have to also test for (1,10,8) because pycairo 1.8.10 has an
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# incorrect version_info value
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elif cairo.version_info < (1,9) or cairo.version_info == (1,10,8):
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_fields_ = [
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('Context_Type', ctypes.py_object),
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('Context_FromContext', ctypes.PYFUNCTYPE(ctypes.py_object,
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ctypes.c_void_p,
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ctypes.py_object,
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ctypes.py_object)),
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('FontFace_Type', ctypes.py_object),
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('ToyFontFace_Type', ctypes.py_object), #** new in 1.8.4
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('FontFace_FromFontFace', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('FontOptions_Type', ctypes.py_object),
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('FontOptions_FromFontOptions', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('Matrix_Type', ctypes.py_object),
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('Matrix_FromMatrix', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('Path_Type', ctypes.py_object),
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('Path_FromPath', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('Pattern_Type', ctypes.py_object),
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('SolidPattern_Type', ctypes.py_object),
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('SurfacePattern_Type', ctypes.py_object),
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('Gradient_Type', ctypes.py_object),
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('LinearGradient_Type', ctypes.py_object),
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('RadialGradient_Type', ctypes.py_object),
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('Pattern_FromPattern', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p,
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ctypes.py_object)), #** changed in 1.8.4
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('ScaledFont_Type', ctypes.py_object),
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('ScaledFont_FromScaledFont', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('Surface_Type', ctypes.py_object),
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('ImageSurface_Type', ctypes.py_object),
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('PDFSurface_Type', ctypes.py_object),
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('PSSurface_Type', ctypes.py_object),
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('SVGSurface_Type', ctypes.py_object),
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('Win32Surface_Type', ctypes.py_object),
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('XlibSurface_Type', ctypes.py_object),
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('Surface_FromSurface', ctypes.PYFUNCTYPE(ctypes.py_object,
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ctypes.c_void_p,
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ctypes.py_object)),
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('Check_Status', ctypes.PYFUNCTYPE(ctypes.c_int, ctypes.c_int))]
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# This structure is known good with pycairo 1.10.0. They keep adding stuff
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# to the middle of the structure instead of only adding to the end!
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elif cairo.version_info < (1,11):
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_fields_ = [
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('Context_Type', ctypes.py_object),
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('Context_FromContext', ctypes.PYFUNCTYPE(ctypes.py_object,
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ctypes.c_void_p,
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ctypes.py_object,
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ctypes.py_object)),
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('FontFace_Type', ctypes.py_object),
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('ToyFontFace_Type', ctypes.py_object),
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('FontFace_FromFontFace', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('FontOptions_Type', ctypes.py_object),
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('FontOptions_FromFontOptions', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('Matrix_Type', ctypes.py_object),
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('Matrix_FromMatrix', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('Path_Type', ctypes.py_object),
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('Path_FromPath', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('Pattern_Type', ctypes.py_object),
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('SolidPattern_Type', ctypes.py_object),
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('SurfacePattern_Type', ctypes.py_object),
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('Gradient_Type', ctypes.py_object),
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('LinearGradient_Type', ctypes.py_object),
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('RadialGradient_Type', ctypes.py_object),
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('Pattern_FromPattern', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p,
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ctypes.py_object)), #** changed in 1.8.4
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('ScaledFont_Type', ctypes.py_object),
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('ScaledFont_FromScaledFont', ctypes.PYFUNCTYPE(ctypes.py_object, ctypes.c_void_p)),
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('Surface_Type', ctypes.py_object),
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('ImageSurface_Type', ctypes.py_object),
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('PDFSurface_Type', ctypes.py_object),
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('PSSurface_Type', ctypes.py_object),
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('SVGSurface_Type', ctypes.py_object),
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('Win32Surface_Type', ctypes.py_object),
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('Win32PrintingSurface_Type', ctypes.py_object), #** new
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('XCBSurface_Type', ctypes.py_object), #** new
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('XlibSurface_Type', ctypes.py_object),
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('Surface_FromSurface', ctypes.PYFUNCTYPE(ctypes.py_object,
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ctypes.c_void_p,
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ctypes.py_object)),
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('Check_Status', ctypes.PYFUNCTYPE(ctypes.c_int, ctypes.c_int))]
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def _loadPycairoAPI():
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global pycairoAPI
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if pycairoAPI is not None:
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return
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if PY3:
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PyCapsule_GetPointer = ctypes.pythonapi.PyCapsule_GetPointer
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PyCapsule_GetPointer.argtypes = [ctypes.py_object, ctypes.c_char_p]
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PyCapsule_GetPointer.restype = ctypes.c_void_p
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ptr = PyCapsule_GetPointer(cairo.CAPI, b'cairo.CAPI')
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else:
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PyCObject_AsVoidPtr = ctypes.pythonapi.PyCObject_AsVoidPtr
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PyCObject_AsVoidPtr.argtypes = [ctypes.py_object]
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PyCObject_AsVoidPtr.restype = ctypes.c_void_p
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ptr = PyCObject_AsVoidPtr(cairo.CAPI)
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pycairoAPI = ctypes.cast(ptr, ctypes.POINTER(Pycairo_CAPI)).contents
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#----------------------------------------------------------------------------
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# Load these at import time. That seems a bit better than doing it at
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# first use...
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_findCairoLib()
|
|
_loadPycairoAPI()
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|
|
if 'wxMac' in wx.PlatformInfo:
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|
surface_create = cairoLib.cairo_quartz_surface_create_for_cg_context
|
|
surface_create.argtypes = [ctypes.c_void_p, ctypes.c_int, ctypes.c_int]
|
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surface_create.restype = ctypes.c_void_p
|
|
|
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cairo_create = cairoLib.cairo_create
|
|
cairo_create.argtypes = [ctypes.c_void_p]
|
|
cairo_create.restype = ctypes.c_void_p
|
|
|
|
font_face_create = cairoLib.cairo_quartz_font_face_create_for_cgfont
|
|
font_face_create.argtypes = [ctypes.c_void_p]
|
|
font_face_create.restype = ctypes.c_void_p
|
|
|
|
elif 'wxMSW' in wx.PlatformInfo:
|
|
cairoLib.cairo_win32_font_face_create_for_hfont.restype = ctypes.c_void_p
|
|
|
|
elif 'wxGTK' in wx.PlatformInfo:
|
|
gdkLib = _findGDKLib()
|
|
pcLib = _findPangoCairoLib()
|
|
|
|
gdkLib.gdk_cairo_create.restype = ctypes.c_void_p
|
|
pcLib.pango_cairo_font_map_get_default.restype = ctypes.c_void_p
|
|
gdkLib.gdk_pango_context_get.restype = ctypes.c_void_p
|
|
pcLib.pango_font_map_load_font.restype = ctypes.c_void_p
|
|
pcLib.pango_cairo_font_get_scaled_font.restype = ctypes.c_void_p
|
|
cairoLib.cairo_scaled_font_get_font_face.restype = ctypes.c_void_p
|
|
#----------------------------------------------------------------------------
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