def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode("#include <wx/textdlg.h>")
module.find('wxGetTextFromUserPromptStr').ignore()
module.find('wxGetPasswordFromUserPromptStr').ignore()
c = module.find('wxTextEntryDialog')
assert isinstance(c, etgtools.ClassDef)
tools.fixTopLevelWindowClass(c)
# We don't wrap wxTextValidator
for m in c.find('SetTextValidator').all():
m.ignore()
module.addGlobalStr('wxGetTextFromUserPromptStr', c)
module.addGlobalStr('wxGetPasswordFromUserPromptStr', c)
c = module.find('wxPasswordEntryDialog')
tools.fixTopLevelWindowClass(c)
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxHtmlDCRenderer')
assert isinstance(c, etgtools.ClassDef)
c.addPrivateCopyCtor()
tools.fixHtmlSetFonts(c)
c.find('Render.from').name = 'from_'
c.find('Render.to').name = 'to_'
c = module.find('wxHtmlEasyPrinting')
c.addPrivateCopyCtor()
c = module.find('wxHtmlPrintout')
c.addPrivateCopyCtor()
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxRichTextHeaderFooterData')
assert isinstance(c, etgtools.ClassDef)
tools.ignoreAllOperators(c)
c = module.find('wxRichTextPrintout')
assert isinstance(c, etgtools.ClassDef)
c.find('GetPageInfo.minPage').out = True
c.find('GetPageInfo.maxPage').out = True
c.find('GetPageInfo.selPageFrom').out = True
c.find('GetPageInfo.selPageTo').out = True
c = module.find('wxRichTextPrinting')
assert isinstance(c, etgtools.ClassDef)
c.addPrivateCopyCtor()
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.find('wxPG_LABEL').ignore()
module.find('wxPG_LABEL_STRING').ignore()
module.find('wxPG_NULL_BITMAP').ignore()
module.find('wxPG_COLOUR_BLACK').ignore()
module.find('wxPG_COLOUR').ignore()
module.find('wxPG_DEFAULT_IMAGE_SIZE').ignore()
module.find('wxPGSortCallback').ignore()
module.addPyCode(
code="""\
PG_LABEL = "@!"
PG_LABEL_STRING = PG_LABEL
PG_NULL_BITMAP = wx.NullBitmap
PG_COLOUR_BLACK = wx.BLACK
PG_DEFAULT_IMAGE_SIZE = wx.Size(-1, -1)
""",
order=15)
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxPopupWindow')
assert isinstance(c, etgtools.ClassDef)
tools.fixWindowClass(c)
c.find('Position').isVirtual = True
c = module.find('wxPopupTransientWindow')
tools.fixWindowClass(c)
c.find('Dismiss').isVirtual = True
c.find('ProcessLeftDown').isVirtual = True
c.find('OnDismiss').ignore(False)
c.find('OnDismiss').isVirtual = True
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxMDIClientWindow')
assert isinstance(c, etgtools.ClassDef)
tools.fixWindowClass(c)
c.find('CreateClient').isVirtual = True
c = module.find('wxMDIParentFrame')
tools.fixTopLevelWindowClass(c)
c.find('OnCreateClient').isVirtual = True
m = c.find('GetClientWindow')
assert isinstance(m, etgtools.MethodDef)
m.type = 'wxMDIClientWindow *'
m.setCppCode("return static_cast<wxMDIClientWindow*>(self->GetClientWindow());")
c = module.find('wxMDIChildFrame')
tools.fixTopLevelWindowClass(c)
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def parseAndTweakModule():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING, False)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxTextEntry')
assert isinstance(c, etgtools.ClassDef)
c.abstract = True
tools.removeVirtuals(c)
c.find('GetSelection.from').out = True
c.find('GetSelection.to').out = True
c.find('GetRange.from').name = 'from_'
c.find('GetRange.to').name = 'to_'
c.find('Remove.from').name = 'from_'
c.find('Remove.to').name = 'to_'
c.find('Replace.from').name = 'from_'
c.find('Replace.to').name = 'to_'
c.find('SetSelection.from').name = 'from_'
c.find('SetSelection.to').name = 'to_'
c.find('AutoComplete').findOverload('wxTextCompleter').find('completer').transfer = True
return module
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxHtmlHelpController')
assert isinstance(c, etgtools.ClassDef)
c.addPrivateCopyCtor()
c.find('CreateHelpDialog').ignore(False)
c.find('CreateHelpFrame').ignore(False)
c.addItem(etgtools.WigCode("""\
// Add implementations for the pure virtuals in the base class
virtual bool DisplayBlock(long blockNo);
virtual bool DisplaySection(int sectionNo);
virtual bool LoadFile(const wxString& file = wxEmptyString);
virtual bool Quit();
"""))
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxCheckBox')
assert isinstance(c, etgtools.ClassDef)
c.find('wxCheckBox.label').default = 'wxEmptyString'
c.find('Create.label').default = 'wxEmptyString'
module.addGlobalStr('wxCheckBoxNameStr', c)
# Workaround warning for the property name starting with a digit
c.find('Get3StateValue').ignore()
c.addAutoProperties()
c.find('Get3StateValue').ignore(False)
c.addProperty('ThreeStateValue Get3StateValue Set3StateValue')
tools.fixWindowClass(c)
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode("#include <wx/dcbuffer.h>")
c = module.find('wxBufferedDC')
c.addPrivateCopyCtor()
for m in c.find('wxBufferedDC').all() + c.find('Init').all():
if m.findItem('dc'):
m.findItem('dc').keepReference = True
if m.findItem('buffer'):
m.findItem('buffer').keepReference = True
c = module.find('wxBufferedPaintDC')
c.addPrivateCopyCtor()
c.find('wxBufferedPaintDC').findOverload('wxBitmap').find('buffer').keepReference = True
c = module.find('wxAutoBufferedPaintDC')
c.addPrivateCopyCtor()
module.find('wxAutoBufferedPaintDCFactory').factory = True
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode("#include <wx/datectrl.h>")
dpc = module.find('wxDatePickerCtrl')
assert isinstance(dpc, etgtools.ClassDef)
# Make a copy and call it wxDatePickerCtrlGeneric so we can generate
# wrappers for both classes
gdpc = tools.copyClassDef(dpc, 'wxDatePickerCtrlGeneric')
assert isinstance(gdpc, etgtools.ClassDef)
module.insertItemAfter(dpc, gdpc)
# and give it a new Python name to match Classic
gdpc.pyName = 'GenericDatePickerCtrl'
# now back to our regular tweaking
for c in [dpc, gdpc]:
tools.fixWindowClass(c)
c.find('GetRange.dt1').out = True
c.find('GetRange.dt2').out = True
gdpc.addHeaderCode("#include <wx/generic/datectrl.h>")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxNativeFontInfo')
assert isinstance(c, etgtools.ClassDef)
c.addCppMethod('wxString*', '__str__', '()', """\
return new wxString(self->ToString());
""")
# linker errors on all but MSW...
c.find('GetPixelSize').ignore()
c.find('SetPixelSize').ignore()
c.addAutoProperties()
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode('#include <wx/timectrl.h>')
c = module.find('wxTimePickerCtrl')
assert isinstance(c, etgtools.ClassDef)
tools.fixWindowClass(c)
# ignore the return value and set the parameters to be outputs
c.find('GetTime').type = 'void'
c.find('GetTime.hour').out = True
c.find('GetTime.min').out = True
c.find('GetTime.sec').out = True
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxFindDialogEvent')
assert isinstance(c, etgtools.ClassDef)
tools.fixEventClass(c)
module.addPyCode("""\
EVT_FIND = wx.PyEventBinder( wxEVT_FIND, 1 )
EVT_FIND_NEXT = wx.PyEventBinder( wxEVT_FIND_NEXT, 1 )
EVT_FIND_REPLACE = wx.PyEventBinder( wxEVT_FIND_REPLACE, 1 )
EVT_FIND_REPLACE_ALL = wx.PyEventBinder( wxEVT_FIND_REPLACE_ALL, 1 )
EVT_FIND_CLOSE = wx.PyEventBinder( wxEVT_FIND_CLOSE, 1 )
# deprecated wxEVT aliases
wxEVT_COMMAND_FIND = wxEVT_FIND
wxEVT_COMMAND_FIND_NEXT = wxEVT_FIND_NEXT
wxEVT_COMMAND_FIND_REPLACE = wxEVT_FIND_REPLACE
wxEVT_COMMAND_FIND_REPLACE_ALL = wxEVT_FIND_REPLACE_ALL
wxEVT_COMMAND_FIND_CLOSE = wxEVT_FIND_CLOSE
""")
c = module.find('wxFindReplaceDialog')
tools.fixTopLevelWindowClass(c)
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode('#include <wx/ribbon/control.h>')
# Not sure why these are showing up in this module as they are in core, so
# let's just turn them off here...
module.find('wxEllipsizeFlags').ignore()
module.find('wxEllipsizeMode').ignore()
c = module.find('wxRibbonControl')
assert isinstance(c, etgtools.ClassDef)
c.find('DoGetNextSmallerSize').ignore(False)
c.find('DoGetNextLargerSize').ignore(False)
tools.fixWindowClass(c)
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxWizardPage')
assert isinstance(c, etgtools.ClassDef)
tools.fixWindowClass(c, False)
module.addPyCode("PyWizardPage = wx.deprecated(WizardPage, 'Use WizardPage instead.')")
c = module.find('wxWizardPageSimple')
tools.fixWindowClass(c, False)
c.addItem(etgtools.WigCode("""\
virtual wxWizardPage* GetNext() const;
virtual wxWizardPage* GetPrev() const;
"""))
c = module.find('wxWizard')
tools.fixWindowClass(c, False)
# ShowPage is undocumented and labeled "implementation only" but it seems
# too useful to ignore, so add a MethodDef for it here.
m = MethodDef(name='ShowPage', type='bool', isVirtual=True,
briefDoc="Show the given wizard page.",
detailedDoc=["""\
Calls TransferDataFromWindow on the current page first, and
returns false without changing the page if it returned false.
Returns True/False to indicate if the page was actually
changed."""],
items=[ParamDef(name='page', type='wxWizardPage*'),
ParamDef(name='goingForward', type='bool', default='true')])
c.addItem(m)
# Same for IsRunning
m = MethodDef(name='IsRunning', type='bool', isConst=True)
c.addItem(m)
c = module.find('wxWizardEvent')
tools.fixEventClass(c)
module.addPyCode("""\
EVT_WIZARD_BEFORE_PAGE_CHANGED = wx.PyEventBinder( wxEVT_WIZARD_BEFORE_PAGE_CHANGED, 1)
EVT_WIZARD_PAGE_CHANGED = wx.PyEventBinder( wxEVT_WIZARD_PAGE_CHANGED, 1)
EVT_WIZARD_PAGE_CHANGING = wx.PyEventBinder( wxEVT_WIZARD_PAGE_CHANGING, 1)
EVT_WIZARD_CANCEL = wx.PyEventBinder( wxEVT_WIZARD_CANCEL, 1)
EVT_WIZARD_HELP = wx.PyEventBinder( wxEVT_WIZARD_HELP, 1)
EVT_WIZARD_FINISHED = wx.PyEventBinder( wxEVT_WIZARD_FINISHED, 1)
EVT_WIZARD_PAGE_SHOWN = wx.PyEventBinder( wxEVT_WIZARD_PAGE_SHOWN, 1)
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxTimer')
assert isinstance(c, etgtools.ClassDef)
c = module.find('wxTimerRunner')
c.addPrivateCopyCtor()
module.addPyCode('EVT_TIMER = wx.PyEventBinder( wxEVT_TIMER )')
module.addPyCode("""\
class PyTimer(Timer):
'''This timer class is passed the callable object to be called when the timer expires.'''
def __init__(self, notify):
Timer.__init__(self)
self.notify = notify
def Notify(self):
if self.notify:
self.notify()
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxAuiMDIParentFrame')
assert isinstance(c, etgtools.ClassDef)
tools.fixTopLevelWindowClass(c)
c.find('SetMenuBar.menuBar').transfer = True
c.find('SetArtProvider.provider').transfer = True
c = module.find('wxAuiMDIChildFrame')
tools.fixTopLevelWindowClass(c)
tools.fixSetStatusWidths(c.find('SetStatusWidths'))
c.find('SetMenuBar.menuBar').transfer = True
c.find('Show').isVirtual = True
c = module.find('wxAuiMDIClientWindow')
tools.fixWindowClass(c)
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode("#include <wx/rawbmp.h>")
addPixelDataBaseClass(module)
addPixelDataClass(module, 'wxNativePixelData', 'wxBitmap', bpp=24,
doc="""\
A class providing direct access to a :class:`wx.Bitmap`'s
internal data without alpha channel (RGB).
""")
addPixelDataClass(module, 'wxAlphaPixelData', 'wxBitmap', bpp=32,
doc="""\
A class providing direct access to a :class:`wx.Bitmap`'s
internal data including the alpha channel (RGBA).
""")
#addPixelDataClass(module, 'wxImagePixelData', 'wxImage', bpp=32,
# doc="""\
# ImagePixelData: A class providing direct access to a wx.Image's
# internal data usign the same api as the other PixelData classes.
# """)
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxAppTraits')
assert isinstance(c, etgtools.ClassDef)
c.abstract = True
# TODO: Enable these as etg scripts for their return types are added
for name in [ 'CreateFontMapper',
'CreateMessageOutput',
'CreateRenderer',
]:
c.find(name).ignore()
for name in [ 'CreateConfig',
'CreateEventLoop',
'CreateLogTarget',
#'GetStandardPaths',
]:
c.find(name).factory = True
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxNotificationMessage')
assert isinstance(c, etgtools.ClassDef)
# take care of some methods only available on MSW
c.find('UseTaskBarIcon').setCppCode("""\
#ifdef __WXMSW__
return wxNotificationMessage::UseTaskBarIcon(icon);
#else
wxPyRaiseNotImplemented();
return NULL;
#endif
""")
c.find('MSWUseToasts').setCppCode("""\
#ifdef __WXMSW__
return wxNotificationMessage::MSWUseToasts(*shortcutPath, *appId);
#else
wxPyRaiseNotImplemented();
return false;
#endif
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addItem(
tools.wxArrayWrapperTemplate('wxHtmlBookRecArray', 'wxHtmlBookRecord', module))
module.addItem(
tools.wxArrayWrapperTemplate('wxHtmlHelpDataItems', 'wxHtmlHelpDataItem', module))
c = module.find('wxHtmlHelpData')
assert isinstance(c, etgtools.ClassDef)
c.addPrivateCopyCtor()
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxPlatformInfo')
assert isinstance(c, etgtools.ClassDef)
# to avoid conflicts with wxPython's wx.PlatformInfo
c.renameClass('PlatformInformation')
c.find('GetEndianness').findOverload('end').ignore()
c.find('GetArchName').findOverload('arch').ignore()
c.find('GetOperatingSystemId').findOverload('name').ignore()
c.find('GetPortId').findOverload('portname').ignore()
c.find('GetEndiannessName').findOverload('end').ignore()
c.find('GetOperatingSystemIdName').findOverload('os').ignore()
c.find('GetOperatingSystemFamilyName').findOverload('os').ignore()
c.find('GetPortIdName').findOverload('port').ignore()
c.find('GetPortIdShortName').findOverload('port').ignore()
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING,
check4unittest=False # wxEventLoop is well tested in
# myYield used by other tests...
)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxEventLoopBase')
assert isinstance(c, etgtools.ClassDef)
c.abstract = True
c.find('Yield').releaseGIL()
c.find('YieldFor').releaseGIL()
c.find('OnExit').ignore(False)
c = module.find('wxEventLoopActivator')
c.addPrivateAssignOp()
c.addPrivateCopyCtor()
# context manager methods
c.addPyMethod('__enter__', '(self)', 'return self')
c.addPyMethod('__exit__', '(self, exc_type, exc_val, exc_tb)', 'return False')
c = module.find('wxGUIEventLoop')
c.addPrivateCopyCtor()
# Add declaration of the base class pure virtuals so sip knows they have
# implementations here
c.addItem(etgtools.WigCode("""\
public:
virtual int Run();
virtual void Exit(int rc = 0);
virtual bool Pending() const;
virtual bool Dispatch();
virtual int DispatchTimeout(unsigned long timeout);
virtual void WakeUp();
virtual bool ProcessIdle();
"""))
module.addPyCode("""\
@wx.deprecatedMsg('Use GUIEventLoop instead.')
class EventLoop(GUIEventLoop):
'''Class using the old name for compatibility.'''
def __init__(self):
GUIEventLoop.__init__(self)
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode('#include <wx/laywin.h>')
c = module.find('wxSashLayoutWindow')
assert isinstance(c, etgtools.ClassDef)
tools.fixWindowClass(c)
c = module.find('wxQueryLayoutInfoEvent')
tools.fixEventClass(c)
c = module.find('wxCalculateLayoutEvent')
tools.fixEventClass(c)
module.addPyCode("""\
EVT_QUERY_LAYOUT_INFO = wx.PyEventBinder( wxEVT_QUERY_LAYOUT_INFO )
EVT_CALCULATE_LAYOUT = wx.PyEventBinder( wxEVT_CALCULATE_LAYOUT )
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING,
check4unittest = False)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode('#include <wxPython/wxpy_api.h>')
module.addImport('_core')
module.addPyCode("import wx", order=10)
module.addImport('_xml')
module.addImport('_html')
module.addImport('_adv')
module.addInclude(INCLUDES)
# Redo the initialization of wxModules in the case where this extension
# module is not imported until *after* the wx.App has been created.
module.addInitializerCode("""\
wxPyReinitializeModules();
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode('#include <wx/unichar.h>')
c = module.find('wxUniChar')
assert isinstance(c, etgtools.ClassDef)
m = c.find('wxUniChar').findOverload('long int')
m.find('c').type = 'long'
m = c.find('wxUniChar').findOverload('unsigned long int')
m.find('c').type = 'unsigned long'
for m in c.find('wxUniChar').all():
p = m.find('c')
if 'long' not in p.type:
m.ignore()
tools.ignoreAllOperators(c)
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode("#include <wx/dateevt.h>")
c = module.find('wxDateEvent')
assert isinstance(c, etgtools.ClassDef)
tools.fixEventClass(c)
c.addPyCode("""\
EVT_DATE_CHANGED = wx.PyEventBinder( wxEVT_DATE_CHANGED, 1 )
EVT_TIME_CHANGED = wx.PyEventBinder( wxEVT_TIME_CHANGED, 1 )
""")
c.addPyCode("""\
DateEvent.PyGetDate = wx.deprecated(DateEvent.GetDate, 'Use GetDate instead.')
DateEvent.PySetDate = wx.deprecated(DateEvent.SetDate, 'Use SetDate instead.')
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
module.check4unittest = False
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode('#include <wxpy_api.h>')
module.addImport('_core')
module.addPyCode("import wx", order=10)
module.addInclude(INCLUDES)
module.addCppCode("""\
#include <wx/html/htmlwin.h>
#include <wx/html/htmprint.h>
#include <wx/html/helpctrl.h>
#include <wx/html/helpwnd.h>
#include <wx/html/helpfrm.h>
#include <wx/html/helpdlg.h>
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxMessageDialog')
assert isinstance(c, etgtools.ClassDef)
module.addGlobalStr('wxMessageBoxCaptionStr', c)
# Several of the wxMessageDIalog methods take a
# wxMessageDialog::ButtonLabel parameter, which enables either a string or
# a Stock ID to be passed. To facilitate this same ability for Python the
# SIP types are changed to a custom type which is a MappedType which
# handles converting from the two types for us. See msgdlg_btnlabel.sip
c.find('ButtonLabel').ignore()
for item in c.allItems():
if isinstance(item, ParamDef) and item.type == 'const ButtonLabel &':
item.type = 'const wxMessageDialogButtonLabel &'
tools.fixTopLevelWindowClass(c)
# Make a copy of wxMessageDialog so we can generate code for
# wxGenericMessageDialog too.
gmd = copy.deepcopy(c)
assert isinstance(gmd, etgtools.ClassDef)
gmd.name = 'wxGenericMessageDialog'
gmd.find('wxMessageDialog').name = 'wxGenericMessageDialog' # the ctor
m = gmd.addItem(etgtools.MethodDef(
protection='protected', type='void', name='AddMessageDialogCheckBox',
briefDoc="Can be overridden to provide more contents for the dialog",
className=gmd.name))
m.addItem(etgtools.ParamDef(type='wxSizer*', name='sizer'))
m = gmd.addItem(etgtools.MethodDef(
protection='protected', type='void', name='AddMessageDialogDetails',
briefDoc="Can be overridden to provide more contents for the dialog",
className=gmd.name))
m.addItem(etgtools.ParamDef(type='wxSizer*', name='sizer'))
module.addItem(gmd)
module.find('wxMessageBox').releaseGIL()
c = module.find('wxMessageBox')
c.mustHaveApp()
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxComboBox')
assert isinstance(c, etgtools.ClassDef)
tools.fixWindowClass(c)
tools.fixTextClipboardMethods(c)
c.find('wxComboBox').findOverload('wxString choices').ignore()
c.find('wxComboBox').findOverload('wxArrayString').find(
'choices').default = 'wxArrayString()'
c.find('wxComboBox').findOverload('wxArrayString').find(
'value').default = 'wxEmptyString'
c.find('Create').findOverload('wxString choices').ignore()
c.find('Create').findOverload('wxArrayString').find(
'choices').default = 'wxArrayString()'
c.find('Create').findOverload('wxArrayString').find(
'value').default = 'wxEmptyString'
# When the from,to are set as output parameters the overloaded methods
# will be ambiguous, so let's give this one a new name.
m = c.find('GetSelection').renameOverload('long *from, long *to',
'GetTextSelection')
m.find('from').out = True
m.find('to').out = True
# For SetSelection we want to keep the existing method since it is
# inherited from base classes and has no ambiguities, so just add a new
# method for SetTextSelection instead of renaming.
orig = c.find('SetSelection').findOverload('from')
orig.find('from').name = 'from_'
orig.find('to').name = 'to_'
m = etgtools.CppMethodDef.FromMethod(orig)
m.overloads = []
m.name = 'SetTextSelection'
m.argsString = '(long from_, long to_)'
m.body = "self->SetSelection(from_, to_);"
c.insertItemAfter(c.find('SetSelection'), m)
# The docs say to not use this one.
c.find('IsEmpty').ignore()
c.addPyCode(
"ComboBox.SetMark = wx.deprecated(ComboBox.SetTextSelection, 'Use SetTextSelection instead.')"
)
c.addPyCode(
"ComboBox.GetMark = wx.deprecated(ComboBox.GetTextSelection, 'Use GetTextSelection instead.')"
)
module.addGlobalStr('wxComboBoxNameStr', c)
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
# These are duplicates, ignore the ones in this module
module.find('wxPG_PROPERTYVALUES_FLAGS').ignore()
module.find('wxPG_LABEL').ignore()
module.find('wxPG_LABEL_STRING').ignore()
module.find('wxPG_COLOUR_BLACK').ignore()
module.find('wxPG_COLOUR').ignore()
module.find('wxPG_DEFAULT_IMAGE_SIZE').ignore()
#----------------------------------------------------------
c = module.find('wxPGPropArgCls')
assert isinstance(c, etgtools.ClassDef)
c.find('wxPGPropArgCls').findOverload('wxString &').ignore()
c.find('wxPGPropArgCls').findOverload('char *').ignore()
c.find('wxPGPropArgCls').findOverload('wchar_t *').ignore()
c.find('wxPGPropArgCls').findOverload('int').ignore()
c.find('wxPGPropArgCls').findOverload('deallocPtr').ignore()
# Make a string ctor that uses the wxPython-specific version of
# the C++ class' ctor
newCtor = c.addCppCtor('(const wxString& str)',
doc="Creates a PGPropArgCls from a string.",
body="""\
wxString* name = new wxString(*str);
return new wxPGPropArgCls(name, true);
""")
# Make it be the first overload instead of the last
ctor = c.find('wxPGPropArgCls')
overloads = list(ctor.overloads)
del overloads[overloads.index(newCtor)]
overloads.insert(0, newCtor)
ctor.overloads = overloads
c.find('GetPtr').overloads[0].ignore()
c.convertFromPyObject = """\
// Code to test a PyObject for compatibility with wxPGPropArgCls
if (!sipIsErr) {
if (sipCanConvertToType(sipPy, sipType_wxPGPropArgCls, SIP_NO_CONVERTORS))
return TRUE;
if (PyBytes_Check(sipPy) || PyUnicode_Check(sipPy))
return TRUE;
if (sipPy == Py_None)
return TRUE;
if (sipCanConvertToType(sipPy, sipType_wxPGProperty, SIP_NO_CONVERTORS))
return TRUE;
return FALSE;
}
// Code to convert a compatible PyObject to a wxPGPropArgCls
if (PyBytes_Check(sipPy) || PyUnicode_Check(sipPy)) {
wxString* name = new wxString(Py2wxString(sipPy));
*sipCppPtr = new wxPGPropArgCls(name, true);
return sipGetState(sipTransferObj);
}
else if (sipCanConvertToType(sipPy, sipType_wxPGProperty, SIP_NO_CONVERTORS)) {
int state = 0;
wxPGProperty* prop = reinterpret_cast<wxPGProperty*>(
sipConvertToType(sipPy, sipType_wxPGProperty, sipTransferObj, SIP_NO_CONVERTORS, &state, sipIsErr));
*sipCppPtr = new wxPGPropArgCls(prop);
sipReleaseType(prop, sipType_wxPGProperty, state);
return sipGetState(sipTransferObj);
}
else if (sipPy == Py_None) {
*sipCppPtr = new wxPGPropArgCls(static_cast< wxPGProperty * >(NULL));
return sipGetState(sipTransferObj);
}
else {
// It's already a wxPGPropArgCls, just fetch the pointer and return
*sipCppPtr = reinterpret_cast<wxPGPropArgCls*>(sipConvertToType(
sipPy, sipType_wxPGPropArgCls, sipTransferObj,
SIP_NO_CONVERTORS, 0, sipIsErr));
return 0; // not a new instance
}
"""
#----------------------------------------------------------
c = module.find('wxPropertyGridInterface')
c.abstract = True
for m in c.findAll('GetIterator'):
if m.type == 'wxPropertyGridConstIterator':
m.ignore()
tools.ignoreConstOverloads(c)
spv = c.find('SetPropertyValue')
spv.findOverload('int value').ignore()
spv.findOverload('wxLongLong value').ignore()
spv.findOverload('wxLongLong_t value').ignore()
spv.findOverload('wxULongLong value').ignore()
spv.findOverload('wxULongLong_t value').ignore()
spv.findOverload('wxObject *value').ignore()
spv.findOverload('wchar_t *value').ignore()
spv.findOverload('char *value').ignore()
# Reorder SetPropertyValue overloads so the one taking a long int is not
# first. Mark others that could be auto-converted from int as
# "constrained" so they will only be used for that specific type. This
# should result in SetPropertyValue(id, double) only used for floats and
# not ints, or other things that can convert to int.
spv.findOverload('bool value').find('value').constrained = True
spv.findOverload('double value').find('value').constrained = True
spv_long = spv.findOverload('long value')
spv_long.ignore()
spv.reorderOverloads() # Ensures an ignored item is not first,
spv_long.ignore(False) # and then we can unignore it.
c.find('Append.property').transfer = True
c.find('AppendIn.newProperty').transfer = True
for m in c.find('Insert').all():
m.find('newProperty').transfer = True
# Fix some syntax that sip doesn't like
p = c.find('GetPropertiesWithFlag.iterFlags')
if p.default.startswith('('):
p.default = p.default[1:-1]
# Tons of Python method implementations ported from Classic...
module.addPyCode("""\
_type2property = None
_vt2getter = None
""")
c.addPyMethod('MapType',
'(self, class_, factory)',
doc="""\
Registers Python type/class to property mapping.
:param `factory`: Property builder function/class.
""",
body="""\
global _type2property
if _type2property is None:
raise AssertionError("call only after a propertygrid or "
"manager instance constructed")
_type2property[class_] = factory
""")
c.addPyMethod('DoDefaultTypeMappings',
'(self)',
doc="Add built-in properties to the map.",
body="""\
import sys
global _type2property
if _type2property is not None:
return
_type2property = dict()
_type2property[str] = StringProperty
if sys.version_info.major < 2:
_type2property[unicode] = StringProperty
_type2property[int] = IntProperty
_type2property[float] = FloatProperty
_type2property[bool] = BoolProperty
_type2property[list] = ArrayStringProperty
_type2property[tuple] = ArrayStringProperty
_type2property[wx.Font] = FontProperty
_type2property[wx.Colour] = ColourProperty
#_type2property[wx.Size] = SizeProperty
#_type2property[wx.Point] = PointProperty
#_type2property[wx.FontData] = FontDataProperty
""")
# TODO: is this still needed?
c.addPyMethod('DoDefaultValueTypeMappings',
'(self)',
doc="Map pg value type ids to getter methods.",
body="""\
global _vt2getter
if _vt2getter is not None:
return
_vt2getter = dict()
""")
c.find('GetPropertyValues').ignore()
c.addPyMethod('GetPropertyValues',
'(self, dict_=None, as_strings=False, inc_attributes=False)',
doc="""\
Returns all property values in the grid.\n
:param `dict_`: A to fill with the property values. If not given,
then a new one is created. The dict_ can be an object as well,
in which case it's __dict__ is used.
:param `as_strings`: if True, then string representations of values
are fetched instead of native types. Useful for config and such.
:param `inc_attributes`: if True, then property attributes are added
in the form of "@<propname>@<attr>".
:returns: A dictionary with values. It is always a dictionary,
so if dict_ was and object with __dict__ attribute, then that
attribute is returned.
""",
body="""\
if dict_ is None:
dict_ = {}
elif hasattr(dict_,'__dict__'):
dict_ = dict_.__dict__
getter = self.GetPropertyValue if not as_strings else self.GetPropertyValueAsString
it = self.GetVIterator(PG_ITERATE_PROPERTIES)
while not it.AtEnd():
p = it.GetProperty()
name = p.GetName()
dict_[name] = getter(p)
if inc_attributes:
attrs = p.GetAttributes()
if attrs and len(attrs):
dict_['@%s@attr'%name] = attrs
it.Next()
return dict_
""")
for m in c.find('SetPropertyValues').all():
m.ignore()
c.addPyMethod('SetPropertyValues',
'(self, dict_, autofill=False)',
doc="""\
Sets property values from a dictionary.\n
:param `dict_`: the source of the property values to set, which can be
either a dictionary or an object with a __dict__ attribute.
:param `autofill`: If true, keys with not relevant properties are
auto-created. For more info, see :method:`AutoFill`.
:note:
* Keys starting with underscore are ignored.
* Attributes can be set with entries named like "@<propname>@<attr>".
""",
body="""\
if dict_ is None:
dict_ = {}
elif hasattr(dict_,'__dict__'):
dict_ = dict_.__dict__
attr_dicts = []
def set_sub_obj(k0, dict_):
for k,v in dict_.items():
if k[0] != '_':
if k.endswith('@attr'):
attr_dicts.append((k[1:-5],v))
else:
try:
self.SetPropertyValue(k,v)
except:
try:
if autofill:
self._AutoFillOne(k0,k,v)
continue
except:
if isinstance(v,dict):
set_sub_obj(k,v)
elif hasattr(v,'__dict__'):
set_sub_obj(k,v.__dict__)
for k,v in attr_dicts:
p = self.GetPropertyByName(k)
if not p:
raise AssertionError("No such property: '%s'"%k)
for an,av in v.items():
p.SetAttribute(an, av)
cur_page = False
is_manager = isinstance(self, PropertyGridManager)
try:
set_sub_obj(self.GetGrid().GetRoot(), dict_)
except:
import traceback
traceback.print_exc()
self.Refresh()
""")
# TODO: should these be marked as deprecated?
module.addPyCode("""\
PropertyGridInterface.GetValues = PropertyGridInterface.GetPropertyValues
PropertyGridInterface.SetValues = PropertyGridInterface.SetPropertyValues
""")
c.addPyMethod('_AutoFillMany',
'(self,cat,dict_)',
body="""\
for k,v in dict_.items():
self._AutoFillOne(cat,k,v)
""")
c.addPyMethod('_AutoFillOne',
'(self,cat,k,v)',
body="""\
global _type2property
factory = _type2property.get(v.__class__,None)
if factory:
self.AppendIn(cat, factory(k,k,v))
elif hasattr(v,'__dict__'):
cat2 = self.AppendIn(cat, PropertyCategory(k))
self._AutoFillMany(cat2, v.__dict__)
elif isinstance(v, dict):
cat2 = self.AppendIn(cat, PropertyCategory(k))
self._AutoFillMany(cat2, v)
elif not k.startswith('_'):
raise AssertionError("member '%s' is of unregistered type/"
"class '%s'"%(k,v.__class__))
""")
c.addPyMethod('AutoFill',
'(self, obj, parent=None)',
doc="""\
"Clears properties and re-fills to match members and values of
the given object or dictionary obj.
""",
body="""\
self.edited_objects[parent] = obj
cur_page = False
is_manager = isinstance(self, PropertyGridManager)
if not parent:
if is_manager:
page = self.GetCurrentPage()
page.Clear()
parent = page.GetRoot()
else:
self.Clear()
parent = self.GetGrid().GetRoot()
else:
it = self.GetIterator(PG_ITERATE_PROPERTIES, parent)
it.Next() # Skip the parent
while not it.AtEnd():
p = it.GetProperty()
if not p.IsSomeParent(parent):
break
self.DeleteProperty(p)
name = p.GetName()
it.Next()
if not is_manager or page == self.GetCurrentPage():
self.Freeze()
cur_page = True
try:
self._AutoFillMany(parent,obj.__dict__)
except:
import traceback
traceback.print_exc()
if cur_page:
self.Thaw()
""")
c.addPyMethod('RegisterEditor',
'(self, editor, editorName=None)',
doc="Register a new editor, either an instance or a class.",
body="""\
if not isinstance(editor, PGEditor):
editor = editor()
if not editorName:
editorName = editor.__class__.__name__
try:
self._editor_instances.append(editor)
except:
self._editor_instances = [editor]
return PropertyGrid.DoRegisterEditorClass(editor, editorName)
""")
c.find('GetPropertyClientData').ignore()
c.addPyMethod('GetPropertyClientData',
'(self, p)',
body="""\
if isinstance(p, str):
p = self.GetPropertyByName(p)
return p.GetClientData()
""")
c.find('SetPropertyClientData').ignore()
c.addPyMethod('SetPropertyClientData',
'(self, p, data)',
body="""\
if isinstance(p, str):
p = self.GetPropertyByName(p)
return p.SetClientData(data)
""")
c.addPyMethod('GetPyIterator',
'(self, flags=PG_ITERATE_DEFAULT, firstProperty=None)',
doc="""\
Returns a pythonic property iterator for a single :ref:`PropertyGrid`
or page in :ref:`PropertyGridManager`. Arguments are same as for
:ref:`GetIterator`.
The following example demonstrates iterating absolutely all items in
a single grid::
iterator = propGrid.GetPyIterator(wx.propgrid.PG_ITERATE_ALL)
for prop in iterator:
print(prop)
:see: `wx.propgrid.PropertyGridInterface.Properties`
`wx.propgrid.PropertyGridInterface.Items`
""",
body="""\
it = self.GetIterator(flags, firstProperty)
while not it.AtEnd():
yield it.GetProperty()
it.Next()
""")
c.addPyMethod('GetPyVIterator',
'(self, flags=PG_ITERATE_DEFAULT)',
doc="""\
Similar to :ref:`GetVIterator` but returns a pythonic iterator.
""",
body="""\
it = self.GetVIterator(flags)
while not it.AtEnd():
yield it.GetProperty()
it.Next()
""")
c.addPyMethod('_Properties',
'(self)',
doc="""\
This attribute is a pythonic iterator over all properties in
this `PropertyGrid` property container. It will only skip
categories and private child properties. Usage is simple::
for prop in propGrid.Properties:
print(prop)
:see: `wx.propgrid.PropertyGridInterface.Items`
`wx.propgrid.PropertyGridInterface.GetPyIterator`
""",
body="""\
it = self.GetIterator(PG_ITERATE_NORMAL)
while not it.AtEnd():
yield it.GetProperty()
it.Next()
""")
c.addPyProperty('Properties', '_Properties')
c.addPyMethod('_Items',
'(self)',
doc="""\
This attribute is a pythonic iterator over all items in this
`PropertyGrid` property container, excluding only private child
properties. Usage is simple::
for prop in propGrid.Items:
print(prop)
:see: `wx.propgrid.PropertyGridInterface.Properties`
`wx.propgrid.PropertyGridInterface.GetPyVIterator`
""",
body="""\
it = self.GetVIterator(PG_ITERATE_NORMAL | PG_ITERATE_CATEGORIES)
while not it.AtEnd():
yield it.GetProperty()
it.Next()
""")
c.addPyProperty('Items', '_Items')
#----------------------------------------------------------
module.addItem(
tools.wxArrayPtrWrapperTemplate('wxArrayPGProperty', 'wxPGProperty',
module))
# wxPGPropArg is a typedef for "const wxPGPropArgCls&" so having the
# wrappers treat it as a normal type can be problematic. ("new cannot be
# applied to a reference type", etc.) Let's just ignore it and replace it
# everywhere for the real type.
module.find('wxPGPropArg').ignore()
for item in module.allItems():
if hasattr(item, 'type') and item.type == 'wxPGPropArg':
item.type = 'const wxPGPropArgCls &'
# Switch all wxVariant types to wxPGVariant, so the propgrid-specific
# version of the MappedType will be used for converting to/from Python
# objects.
for item in module.allItems():
if hasattr(item, 'type') and 'wxVariant' in item.type:
item.type = item.type.replace('wxVariant', 'wxPGVariant')
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
# Compatibility alias
module.addPyCode("""\
ListItemAttr = wx.deprecated(ItemAttr, 'Use ItemAttr instead')
""")
#-------------------------------------------------------
c = module.find('wxListItem')
assert isinstance(c, etgtools.ClassDef)
c.find('SetData').findOverload('void *').ignore()
c.find('GetData').type = 'long'
#-------------------------------------------------------
c = module.find('wxListCtrl')
tools.fixWindowClass(c)
module.addGlobalStr('wxListCtrlNameStr', before=c)
# Unignore some protected virtual methods that we want to allow to be
# overridden in derived classes
for name in [
'OnGetItemAttr',
#'OnGetItemColumnAttr', # MSW only?
'OnGetItemColumnImage',
'OnGetItemImage',
'OnGetItemText',
'OnGetItemIsChecked',
]:
c.find(name).ignore(False)
c.find(name).isVirtual = True
tools.addEnableSystemTheme(c, 'wx.ListCtrl')
# Tweaks to allow passing and using a Python callable object for the sort
# compare function. First provide a sort callback function that can call the
# Python function.
c.addCppCode("""\
static int wxCALLBACK wxPyListCtrl_SortItems(wxIntPtr item1, wxIntPtr item2, wxIntPtr funcPtr)
{
int retval = 0;
PyObject* func = (PyObject*)funcPtr;
wxPyThreadBlocker blocker;
#if SIZEOF_LONG >= SIZEOF_VOID_P
PyObject* args = Py_BuildValue("(ll)", item1, item2);
#else
PyObject* args = Py_BuildValue("(LL)", item1, item2);
#endif
PyObject* result = PyEval_CallObject(func, args);
Py_DECREF(args);
if (result) {
retval = wxPyInt_AsLong(result);
Py_DECREF(result);
}
return retval;
}
""")
# Next, provide an alternate implementation of SortItems that will use that callback.
sim = c.find('SortItems')
assert isinstance(sim, etgtools.MethodDef)
sim.find('fnSortCallBack').type = 'PyObject*'
sim.find('data').ignore(
) # we will be using it to pass the python callback function
sim.argsString = sim.argsString.replace('wxListCtrlCompare', 'PyObject*')
sim.setCppCode("""\
if (!PyCallable_Check(fnSortCallBack))
return false;
return self->SortItems((wxListCtrlCompare)wxPyListCtrl_SortItems,
(wxIntPtr)fnSortCallBack);
""")
# SetItemData takes a long, so lets return that type from GetItemData too,
# instead of a wxUIntPtr.
c.find('GetItemData').type = 'long'
c.find('SetItemPtrData').ignore()
# Change the semantics of GetColumn to return the item as the return
# value instead of through a parameter.
# bool GetColumn(int col, wxListItem& item) const;
c.find('GetColumn').ignore()
c.addCppMethod(
'wxListItem*',
'GetColumn',
'(int col)',
doc=
'Gets information about this column. See SetItem() for more information.',
factory=True,
body="""\
wxListItem item;
item.SetMask( wxLIST_MASK_STATE |
wxLIST_MASK_TEXT |
wxLIST_MASK_IMAGE |
wxLIST_MASK_DATA |
wxLIST_SET_ITEM |
wxLIST_MASK_WIDTH |
wxLIST_MASK_FORMAT
);
if (self->GetColumn(col, item))
return new wxListItem(item);
else
return NULL;
""")
# Do the same for GetItem
# bool GetItem(wxListItem& info) const;
c.find('GetItem').ignore()
c.addCppMethod(
'wxListItem*',
'GetItem',
'(int itemIdx, int col=0)',
doc=
'Gets information about the item. See SetItem() for more information.',
factory=True,
body="""\
wxListItem* info = new wxListItem;
info->m_itemId = itemIdx;
info->m_col = col;
info->m_mask = 0xFFFF;
info->m_stateMask = 0xFFFF;
self->GetItem(*info);
return info;
""")
# bool GetItemPosition(long item, wxPoint& pos) const;
c.find('GetItemPosition').ignore()
c.addCppMethod(
'wxPoint*',
'GetItemPosition',
'(long item)',
doc='Returns the position of the item, in icon or small icon view.',
factory=True,
body="""\
wxPoint* pos = new wxPoint;
self->GetItemPosition(item, *pos);
return pos;
""")
# bool GetItemRect(long item, wxRect& rect, int code = wxLIST_RECT_BOUNDS) const;
c.find('GetItemRect').ignore()
c.addCppMethod('wxRect*',
'GetItemRect',
'(long item, int code = wxLIST_RECT_BOUNDS)',
doc="""\
Returns the rectangle representing the item's size and position, in physical coordinates.
code is one of wx.LIST_RECT_BOUNDS, wx.LIST_RECT_ICON, wx.LIST_RECT_LABEL.""",
factory=True,
body="""\
wxRect* rect = new wxRect;
self->GetItemRect(item, *rect, code);
return rect;
""")
c.find('EditLabel.textControlClass').ignore()
c.find('EndEditLabel').ignore()
c.find('AssignImageList.imageList').transfer = True
c.find('HitTest.flags').out = True
c.find('HitTest.ptrSubItem').ignore()
c.addCppMethod(
'PyObject*',
'HitTestSubItem',
'(const wxPoint& point)',
pyArgsString="HitTestSubItem(point) -> (item, flags, subitem)",
doc=
"Determines which item (if any) is at the specified point, giving details in flags.",
body="""\
long item, subitem;
int flags;
item = self->HitTest(*point, flags, &subitem);
wxPyThreadBlocker blocker;
PyObject* rv = PyTuple_New(3);
PyTuple_SetItem(rv, 0, wxPyInt_FromLong(item));
PyTuple_SetItem(rv, 1, wxPyInt_FromLong(flags));
PyTuple_SetItem(rv, 2, wxPyInt_FromLong(subitem));
return rv;
""")
# Some deprecated aliases for Classic renames
c.addPyCode(
'ListCtrl.FindItemData = wx.deprecated(ListCtrl.FindItem, "Use FindItem instead.")'
)
c.addPyCode(
'ListCtrl.FindItemAtPos = wx.deprecated(ListCtrl.FindItem, "Use FindItem instead.")'
)
c.addPyCode(
'ListCtrl.InsertStringItem = wx.deprecated(ListCtrl.InsertItem, "Use InsertItem instead.")'
)
c.addPyCode(
'ListCtrl.InsertImageItem = wx.deprecated(ListCtrl.InsertItem, "Use InsertItem instead.")'
)
c.addPyCode(
'ListCtrl.InsertImageStringItem = wx.deprecated(ListCtrl.InsertItem, "Use InsertItem instead.")'
)
c.addPyCode(
'ListCtrl.SetStringItem = wx.deprecated(ListCtrl.SetItem, "Use SetItem instead.")'
)
# Provide a way to determine if column ordering is possible
c.addCppMethod(
'bool', 'HasColumnOrderSupport', '()', """\
#ifdef wxHAS_LISTCTRL_COLUMN_ORDER
return true;
#else
return false;
#endif
""")
# And provide implementation of those methods that will work whether or
# not wx has column ordering support
c.find('GetColumnOrder').setCppCode("""\
#ifdef wxHAS_LISTCTRL_COLUMN_ORDER
return self->GetColumnOrder(col);
#else
wxPyRaiseNotImplemented();
return 0;
#endif
""")
c.find('GetColumnIndexFromOrder').setCppCode("""\
#ifdef wxHAS_LISTCTRL_COLUMN_ORDER
return self->GetColumnIndexFromOrder(pos);
#else
wxPyRaiseNotImplemented();
return 0;
#endif
""")
c.find('GetColumnsOrder').type = 'wxArrayInt*'
c.find('GetColumnsOrder').factory = True
c.find('GetColumnsOrder').setCppCode("""\
#ifdef wxHAS_LISTCTRL_COLUMN_ORDER
return new wxArrayInt(self->GetColumnsOrder());
#else
wxPyRaiseNotImplemented();
return new wxArrayInt();
#endif
""")
c.find('SetColumnsOrder').setCppCode("""\
#ifdef wxHAS_LISTCTRL_COLUMN_ORDER
return self->SetColumnsOrder(*orders);
#else
wxPyRaiseNotImplemented();
return false;
#endif
""")
# Add some Python helper methods
c.addPyMethod('Select',
'(self, idx, on=1)',
doc='Selects/deselects an item.',
body="""\
if on: state = wx.LIST_STATE_SELECTED
else: state = 0
self.SetItemState(idx, state, wx.LIST_STATE_SELECTED)
""")
c.addPyMethod('Focus',
'(self, idx)',
doc='Focus and show the given item.',
body="""\
self.SetItemState(idx, wx.LIST_STATE_FOCUSED, wx.LIST_STATE_FOCUSED)
self.EnsureVisible(idx)
""")
c.addPyMethod(
'GetFocusedItem',
'(self)',
doc='Gets the currently focused item or -1 if none is focused.',
body=
'return self.GetNextItem(-1, wx.LIST_NEXT_ALL, wx.LIST_STATE_FOCUSED)')
c.addPyMethod(
'GetFirstSelected',
'(self, *args)',
doc='Returns the first selected item, or -1 when none is selected.',
body="return self.GetNextSelected(-1)")
c.addPyMethod(
'GetNextSelected',
'(self, item)',
doc=
'Returns subsequent selected items, or -1 when no more are selected.',
body=
"return self.GetNextItem(item, wx.LIST_NEXT_ALL, wx.LIST_STATE_SELECTED)"
)
c.addPyMethod(
'IsSelected',
'(self, idx)',
doc='Returns ``True`` if the item is selected.',
body=
"return (self.GetItemState(idx, wx.LIST_STATE_SELECTED) & wx.LIST_STATE_SELECTED) != 0"
)
c.addPyMethod('SetColumnImage',
'(self, col, image)',
body="""\
item = self.GetColumn(col)
# preserve all other attributes too
item.SetMask( wx.LIST_MASK_STATE |
wx.LIST_MASK_TEXT |
wx.LIST_MASK_IMAGE |
wx.LIST_MASK_DATA |
wx.LIST_SET_ITEM |
wx.LIST_MASK_WIDTH |
wx.LIST_MASK_FORMAT )
item.SetImage(image)
self.SetColumn(col, item)
""")
c.addPyMethod('ClearColumnImage',
'(self, col)',
body="self.SetColumnImage(col, -1)")
c.addPyMethod('Append',
'(self, entry)',
doc='''\
Append an item to the list control. The `entry` parameter should be a
sequence with an item for each column''',
body="""\
if len(entry):
from six import text_type
pos = self.InsertItem(self.GetItemCount(), text_type(entry[0]))
for i in range(1, len(entry)):
self.SetItem(pos, i, text_type(entry[i]))
return pos
""")
c.addCppMethod('wxWindow*',
'GetMainWindow',
'()',
body="""\
#if defined(__WXMSW__) || defined(__WXMAC__)
return self;
#else
return (wxWindow*)self->m_mainWin;
#endif
""")
#-------------------------------------------------------
c = module.find('wxListView')
tools.fixWindowClass(c)
#-------------------------------------------------------
c = module.find('wxListEvent')
tools.fixEventClass(c)
module.addPyCode("""\
EVT_LIST_BEGIN_DRAG = PyEventBinder(wxEVT_LIST_BEGIN_DRAG , 1)
EVT_LIST_BEGIN_RDRAG = PyEventBinder(wxEVT_LIST_BEGIN_RDRAG , 1)
EVT_LIST_BEGIN_LABEL_EDIT = PyEventBinder(wxEVT_LIST_BEGIN_LABEL_EDIT , 1)
EVT_LIST_END_LABEL_EDIT = PyEventBinder(wxEVT_LIST_END_LABEL_EDIT , 1)
EVT_LIST_DELETE_ITEM = PyEventBinder(wxEVT_LIST_DELETE_ITEM , 1)
EVT_LIST_DELETE_ALL_ITEMS = PyEventBinder(wxEVT_LIST_DELETE_ALL_ITEMS , 1)
EVT_LIST_ITEM_SELECTED = PyEventBinder(wxEVT_LIST_ITEM_SELECTED , 1)
EVT_LIST_ITEM_DESELECTED = PyEventBinder(wxEVT_LIST_ITEM_DESELECTED , 1)
EVT_LIST_KEY_DOWN = PyEventBinder(wxEVT_LIST_KEY_DOWN , 1)
EVT_LIST_INSERT_ITEM = PyEventBinder(wxEVT_LIST_INSERT_ITEM , 1)
EVT_LIST_COL_CLICK = PyEventBinder(wxEVT_LIST_COL_CLICK , 1)
EVT_LIST_ITEM_RIGHT_CLICK = PyEventBinder(wxEVT_LIST_ITEM_RIGHT_CLICK , 1)
EVT_LIST_ITEM_MIDDLE_CLICK = PyEventBinder(wxEVT_LIST_ITEM_MIDDLE_CLICK, 1)
EVT_LIST_ITEM_ACTIVATED = PyEventBinder(wxEVT_LIST_ITEM_ACTIVATED , 1)
EVT_LIST_CACHE_HINT = PyEventBinder(wxEVT_LIST_CACHE_HINT , 1)
EVT_LIST_COL_RIGHT_CLICK = PyEventBinder(wxEVT_LIST_COL_RIGHT_CLICK , 1)
EVT_LIST_COL_BEGIN_DRAG = PyEventBinder(wxEVT_LIST_COL_BEGIN_DRAG , 1)
EVT_LIST_COL_DRAGGING = PyEventBinder(wxEVT_LIST_COL_DRAGGING , 1)
EVT_LIST_COL_END_DRAG = PyEventBinder(wxEVT_LIST_COL_END_DRAG , 1)
EVT_LIST_ITEM_FOCUSED = PyEventBinder(wxEVT_LIST_ITEM_FOCUSED , 1)
EVT_LIST_ITEM_CHECKED = PyEventBinder(wxEVT_LIST_ITEM_CHECKED , 1)
EVT_LIST_ITEM_UNCHECKED = PyEventBinder(wxEVT_LIST_ITEM_UNCHECKED , 1)
# deprecated wxEVT aliases
wxEVT_COMMAND_LIST_BEGIN_DRAG = wxEVT_LIST_BEGIN_DRAG
wxEVT_COMMAND_LIST_BEGIN_RDRAG = wxEVT_LIST_BEGIN_RDRAG
wxEVT_COMMAND_LIST_BEGIN_LABEL_EDIT = wxEVT_LIST_BEGIN_LABEL_EDIT
wxEVT_COMMAND_LIST_END_LABEL_EDIT = wxEVT_LIST_END_LABEL_EDIT
wxEVT_COMMAND_LIST_DELETE_ITEM = wxEVT_LIST_DELETE_ITEM
wxEVT_COMMAND_LIST_DELETE_ALL_ITEMS = wxEVT_LIST_DELETE_ALL_ITEMS
wxEVT_COMMAND_LIST_ITEM_SELECTED = wxEVT_LIST_ITEM_SELECTED
wxEVT_COMMAND_LIST_ITEM_DESELECTED = wxEVT_LIST_ITEM_DESELECTED
wxEVT_COMMAND_LIST_KEY_DOWN = wxEVT_LIST_KEY_DOWN
wxEVT_COMMAND_LIST_INSERT_ITEM = wxEVT_LIST_INSERT_ITEM
wxEVT_COMMAND_LIST_COL_CLICK = wxEVT_LIST_COL_CLICK
wxEVT_COMMAND_LIST_ITEM_RIGHT_CLICK = wxEVT_LIST_ITEM_RIGHT_CLICK
wxEVT_COMMAND_LIST_ITEM_MIDDLE_CLICK = wxEVT_LIST_ITEM_MIDDLE_CLICK
wxEVT_COMMAND_LIST_ITEM_ACTIVATED = wxEVT_LIST_ITEM_ACTIVATED
wxEVT_COMMAND_LIST_CACHE_HINT = wxEVT_LIST_CACHE_HINT
wxEVT_COMMAND_LIST_COL_RIGHT_CLICK = wxEVT_LIST_COL_RIGHT_CLICK
wxEVT_COMMAND_LIST_COL_BEGIN_DRAG = wxEVT_LIST_COL_BEGIN_DRAG
wxEVT_COMMAND_LIST_COL_DRAGGING = wxEVT_LIST_COL_DRAGGING
wxEVT_COMMAND_LIST_COL_END_DRAG = wxEVT_LIST_COL_END_DRAG
wxEVT_COMMAND_LIST_ITEM_FOCUSED = wxEVT_LIST_ITEM_FOCUSED
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addGlobalStr('wxGridNameStr', module.items[0])
module.addPyCode("""\
GRID_VALUE_STRING = "string"
GRID_VALUE_BOOL = "bool"
GRID_VALUE_NUMBER = "long"
GRID_VALUE_FLOAT = "double"
GRID_VALUE_CHOICE = "choice"
GRID_VALUE_TEXT = "string"
GRID_VALUE_LONG = "long"
GRID_VALUE_CHOICEINT = "choiceint"
GRID_VALUE_DATETIME = "datetime"
""")
#-----------------------------------------------------------------
c = module.find('wxGridCellCoords')
assert isinstance(c, etgtools.ClassDef)
tools.addAutoProperties(c)
c.find('operator!').ignore()
c.find('operator=').ignore()
# Add a typemap for 2 element sequences
c.convertFromPyObject = tools.convertTwoIntegersTemplate('wxGridCellCoords')
c.addCppMethod('PyObject*', 'Get', '()', """\
wxPyThreadBlocker blocker;
return sipBuildResult(0, "(ii)", self->GetRow(), self->GetCol());
""",
pyArgsString="() -> (row,col)",
briefDoc="Return the row and col properties as a tuple.")
tools.addGetIMMethodTemplate(module, c, ['Row', 'Col'])
# Add sequence protocol methods and other goodies
c.addPyMethod('__str__', '(self)', 'return str(self.Get())')
c.addPyMethod('__repr__', '(self)', 'return "GridCellCoords"+str(self.Get())')
c.addPyMethod('__len__', '(self)', 'return len(self.Get())')
c.addPyMethod('__nonzero__', '(self)', 'return self.Get() != (0,0)')
c.addPyMethod('__reduce__', '(self)', 'return (GridCellCoords, self.Get())')
c.addPyMethod('__getitem__', '(self, idx)', 'return self.Get()[idx]')
c.addPyMethod('__setitem__', '(self, idx, val)',
"""\
if idx == 0: self.Row = val
elif idx == 1: self.Col = val
else: raise IndexError
""")
c.addPyCode('GridCellCoords.__safe_for_unpickling__ = True')
module.addItem(
tools.wxArrayWrapperTemplate('wxGridCellCoordsArray', 'wxGridCellCoords', module))
#-----------------------------------------------------------------
c = module.find('wxGridSizesInfo')
c.find('m_customSizes').ignore() # TODO: Add support for wxUnsignedToIntHashMap??
#-----------------------------------------------------------------
def fixRendererClass(name):
klass = module.find(name)
assert isinstance(klass, etgtools.ClassDef)
tools.addAutoProperties(klass)
methods = [
('Clone', "virtual wxGridCellRenderer* Clone() const /Factory/;"),
('Draw', "virtual void Draw(wxGrid& grid, wxGridCellAttr& attr, wxDC& dc, "
" const wxRect& rect, int row, int col, bool isSelected);"),
('GetBestSize', "virtual wxSize GetBestSize(wxGrid& grid, wxGridCellAttr& attr, "
" wxDC& dc, int row, int col);"),
]
for method, code in methods:
if not klass.findItem(method):
klass.addItem(etgtools.WigCode(code))
c = module.find('wxGridCellRenderer')
c.addPrivateCopyCtor()
c.find('~wxGridCellRenderer').ignore(False)
c.find('Clone').factory = True
for name in ITEMS:
if 'Cell' in name and 'Renderer' in name:
fixRendererClass(name)
module.addPyCode("PyGridCellRenderer = wx.deprecated(GridCellRenderer, 'Use GridCellRenderer instead.')")
#-----------------------------------------------------------------
def fixEditorClass(name):
klass = module.find(name)
assert isinstance(klass, etgtools.ClassDef)
tools.addAutoProperties(klass)
methods = [
('BeginEdit', "virtual void BeginEdit(int row, int col, wxGrid* grid);"),
('Clone', "virtual wxGridCellEditor* Clone() const /Factory/;"),
('Create', "virtual void Create(wxWindow* parent, wxWindowID id, wxEvtHandler* evtHandler);"),
#('EndEdit', "virtual bool EndEdit(int row, int col, const wxGrid* grid, const wxString& oldval, wxString* newval);"),
('ApplyEdit', "virtual void ApplyEdit(int row, int col, wxGrid* grid);"),
('Reset', "virtual void Reset();"),
('GetValue', "virtual wxString GetValue() const;"),
]
for method, code in methods:
if not klass.findItem(method):
klass.addItem(etgtools.WigCode(code))
# Fix up EndEdit so it returns newval on success or None on failure
pureVirtual = False
if klass.findItem('EndEdit'):
klass.find('EndEdit').ignore()
pureVirtual = True
# The Python version of EndEdit has a different signature than the
# C++ version, so we need to take care of mapping between them so the
# C++ compiler still recognizes this as a match for the virtual
# method in the base class.
klass.addCppMethod('PyObject*', 'EndEdit', '(int row, int col, const wxGrid* grid, const wxString& oldval)',
cppSignature='bool (int row, int col, const wxGrid* grid, const wxString& oldval, wxString* newval)',
pyArgsString='(row, col, grid, oldval)',
isVirtual=True,
isPureVirtual=pureVirtual,
doc="""\
End editing the cell.
This function must check if the current value of the editing cell
is valid and different from the original value in its string
form. If not then simply return None. If it has changed then
this method should save the new value so that ApplyEdit can
apply it later and the string representation of the new value
should be returned.
Notice that this method shoiuld not modify the grid as the
change could still be vetoed.
""",
# Code for Python --> C++ calls. Make it return newval or None.
body="""\
bool rv;
wxString newval;
rv = self->EndEdit(row, col, grid, *oldval, &newval);
if (rv) {
return wx2PyString(newval);
}
else {
Py_INCREF(Py_None);
return Py_None;
}
""",
# Code for C++ --> Python calls. This is used when a C++ method
# call needs to be reflected to a call to the overridden Python
# method, so we need to translate between the real C++ signature
# and the Python signature.
virtualCatcherCode="""\
// VirtualCatcherCode for wx.grid.GridCellEditor.EndEdit
PyObject *result;
result = sipCallMethod(0, sipMethod, "iiDN", row, col,
const_cast<wxGrid *>(grid),sipType_wxGrid,NULL,
new wxString(oldval),sipType_wxString,NULL);
if (result == Py_None) {
sipRes = false;
}
else {
sipRes = true;
*newval = Py2wxString(result);
}
Py_DECREF(result);
""" if pureVirtual else "", # only used with the base class
)
c = module.find('wxGridCellEditor')
c.addPrivateCopyCtor()
c.find('~wxGridCellEditor').ignore(False)
c.find('Clone').factory = True
c = module.find('wxGridCellChoiceEditor')
c.find('wxGridCellChoiceEditor').findOverload('count').ignore()
for name in ITEMS:
if 'Cell' in name and 'Editor' in name:
fixEditorClass(name)
module.addPyCode("PyGridCellEditor = wx.deprecated(GridCellEditor, 'Use GridCellEditor instead.')")
#-----------------------------------------------------------------
c = module.find('wxGridCellAttr')
c.addPrivateCopyCtor()
c.find('~wxGridCellAttr').ignore(False)
c.find('Clone').factory = True
c.find('GetAlignment.hAlign').out = True
c.find('GetAlignment.vAlign').out = True
c.find('GetNonDefaultAlignment.hAlign').out = True
c.find('GetNonDefaultAlignment.vAlign').out = True
c.find('GetSize.num_rows').out = True
c.find('GetSize.num_cols').out = True
c.find('SetEditor.editor').transfer = True
c.find('SetRenderer.renderer').transfer = True
#-----------------------------------------------------------------
# The instanceCode attribute is code that is used to make a default
# instance of the class. We can't create them using the same class in
# this case because they are abstract.
c = module.find('wxGridCornerHeaderRenderer')
c.instanceCode = 'sipCpp = new wxGridCornerHeaderRendererDefault;'
c = module.find('wxGridRowHeaderRenderer')
c.instanceCode = 'sipCpp = new wxGridRowHeaderRendererDefault;'
c = module.find('wxGridColumnHeaderRenderer')
c.instanceCode = 'sipCpp = new wxGridColumnHeaderRendererDefault;'
#-----------------------------------------------------------------
c = module.find('wxGridCellAttrProvider')
c.addPrivateCopyCtor()
c.find('SetAttr.attr').transfer = True
c.find('SetRowAttr.attr').transfer = True
c.find('SetColAttr.attr').transfer = True
module.addPyCode("PyGridCellAttrProvider = wx.deprecated(GridCellAttrProvider, 'Use GridCellAttrProvider instead.')")
#-----------------------------------------------------------------
c = module.find('wxGridTableBase')
c.addPrivateCopyCtor()
c.find('SetAttr.attr').transfer = True
c.find('SetRowAttr.attr').transfer = True
c.find('SetColAttr.attr').transfer = True
module.addPyCode("PyGridTableBase = wx.deprecated(GridTableBase, 'Use GridTableBase instead.')")
# Make the GetValue methods easier to use from Python. For example,
# instead of needing to always return a string, the GetValue in the derived
# class can return any type (as long as the renderer and editor knows how
# to deal with it, and the value can be converted to a string for display).
m = c.find('GetValue')
m.type = 'PyObject*'
m.cppSignature = 'wxString (int row, int col)'
m.setCppCode("return wx2PyString(self->GetValue(row, col));")
m.virtualCatcherCode = """\
// virtualCatcherCode for GridTableBase.GetValue
PyObject *result = sipCallMethod(&sipIsErr, sipMethod, "ii", row, col);
if (result == Py_None) {
sipRes = "";
}
else {
if (!PyBytes_Check(result) && !PyUnicode_Check(result)) {
PyObject* old = result;
result = PyObject_Str(result);
Py_DECREF(old);
}
sipRes = Py2wxString(result);
}
Py_XDECREF(result);
"""
# SetValue is okay as-is...
# Replace these virtuals in the base class with Python methods, they just
# need to call GetValue or SetValue directly since they must already be
# implemented in the derived Python class because they are pure virtual.
c.addPyMethod('GetValueAsLong', '(self, row, col)',
body="""\
val = self.GetValue(row, col)
try:
return int(val)
except ValueError:
return 0
""", docsIgnored=True)
c.addPyMethod('GetValueAsDouble', '(self, row, col)',
body="""\
val = self.GetValue(row, col)
try:
return float(val)
except ValueError:
return 0.0
""", docsIgnored=True)
c.addPyMethod('GetValueAsBool', '(self, row, col)',
body="""\
val = self.GetValue(row, col)
try:
return bool(val)
except ValueError:
return False
""", docsIgnored=True)
c.addPyMethod('SetValueAsLong', '(self, row, col, value)',
body="self.SetValue(row, col, int(value))", docsIgnored=True)
c.addPyMethod('SetValueAsDouble', '(self, row, col, value)',
body="self.SetValue(row, col, float(value))", docsIgnored=True)
c.addPyMethod('SetValueAsBool', '(self, row, col, value)',
body="self.SetValue(row, col, bool(value))", docsIgnored=True)
# Should we add support for using generic PyObjects in the *AsCustom
# methods? I don't think it is necessary due to the GetValue
# modifications above, so for now, at least, let.s just ignore them.
c.find('GetValueAsCustom').ignore()
c.find('SetValueAsCustom').ignore()
#-----------------------------------------------------------------
c = module.find('wxGridTableMessage')
c.addPrivateCopyCtor()
#-----------------------------------------------------------------
c = module.find('wxGrid')
tools.fixWindowClass(c, ignoreProtected=False)
c.bases = ['wxScrolledWindow']
c.find('GetColLabelAlignment.horiz').out = True
c.find('GetColLabelAlignment.vert').out = True
c.find('GetRowLabelAlignment.horiz').out = True
c.find('GetRowLabelAlignment.vert').out = True
c.find('GetCellAlignment.horiz').out = True
c.find('GetCellAlignment.vert').out = True
c.find('GetDefaultCellAlignment.horiz').out = True
c.find('GetDefaultCellAlignment.vert').out = True
c.find('RegisterDataType.renderer').transfer = True
c.find('RegisterDataType.editor').transfer = True
c.find('SetRowAttr.attr').transfer = True
c.find('SetColAttr.attr').transfer = True
c.find('SetCellEditor.editor').transfer = True
c.find('SetCellRenderer.renderer').transfer = True
# This overload is deprecated, so don't generate code for it.
c.find('SetCellValue').findOverload('wxString &val').ignore()
c.find('SetDefaultEditor.editor').transfer = True
c.find('SetDefaultRenderer.renderer').transfer = True
for n in ['GetColGridLinePen', 'GetDefaultGridLinePen', 'GetRowGridLinePen']:
c.find(n).isVirtual = True
# The SetTable method can optionally pass ownership of the table
# object to the grid, so we need to optionally update the
# ownership of the Python proxy object to match.
c.find('SetTable').pyName = '_SetTable'
c.addPyMethod('SetTable', '(self, table, takeOwnership=False, selmode=Grid.GridSelectCells)',
piArgsString='(self, table, takeOwnership=False, selmode=GridSelectCells)',
doc="Set the Grid Table to be used by this grid.",
body="""\
val = self._SetTable(table, takeOwnership, selmode)
if takeOwnership:
import wx.siplib
wx.siplib.transferto(table, self)
return val
""")
# SIP will normally try to add support for overriding this method since
# it is inherited from super classes, but in this case we want it to be
# ignored (because IRL it is private in one of the intermediate classes)
# so we'll tell SIP that it is private here instead.
c.addItem(etgtools.WigCode("""\
wxSize GetSizeAvailableForScrollTarget(const wxSize& size);
""", protection='private'))
#-----------------------------------------------------------------
c = module.find('wxGridUpdateLocker')
c.addPrivateCopyCtor()
# context manager methods
c.addPyMethod('__enter__', '(self)', 'return self')
c.addPyMethod('__exit__', '(self, exc_type, exc_val, exc_tb)', 'return False')
#-----------------------------------------------------------------
for name in ['wxGridSizeEvent',
'wxGridRangeSelectEvent',
'wxGridEditorCreatedEvent',
'wxGridEvent'
]:
c = module.find(name)
tools.fixEventClass(c)
c.addPyCode("""\
EVT_GRID_CELL_LEFT_CLICK = wx.PyEventBinder( wxEVT_GRID_CELL_LEFT_CLICK )
EVT_GRID_CELL_RIGHT_CLICK = wx.PyEventBinder( wxEVT_GRID_CELL_RIGHT_CLICK )
EVT_GRID_CELL_LEFT_DCLICK = wx.PyEventBinder( wxEVT_GRID_CELL_LEFT_DCLICK )
EVT_GRID_CELL_RIGHT_DCLICK = wx.PyEventBinder( wxEVT_GRID_CELL_RIGHT_DCLICK )
EVT_GRID_LABEL_LEFT_CLICK = wx.PyEventBinder( wxEVT_GRID_LABEL_LEFT_CLICK )
EVT_GRID_LABEL_RIGHT_CLICK = wx.PyEventBinder( wxEVT_GRID_LABEL_RIGHT_CLICK )
EVT_GRID_LABEL_LEFT_DCLICK = wx.PyEventBinder( wxEVT_GRID_LABEL_LEFT_DCLICK )
EVT_GRID_LABEL_RIGHT_DCLICK = wx.PyEventBinder( wxEVT_GRID_LABEL_RIGHT_DCLICK )
EVT_GRID_ROW_SIZE = wx.PyEventBinder( wxEVT_GRID_ROW_SIZE )
EVT_GRID_COL_SIZE = wx.PyEventBinder( wxEVT_GRID_COL_SIZE )
EVT_GRID_RANGE_SELECT = wx.PyEventBinder( wxEVT_GRID_RANGE_SELECT )
EVT_GRID_CELL_CHANGING = wx.PyEventBinder( wxEVT_GRID_CELL_CHANGING )
EVT_GRID_CELL_CHANGED = wx.PyEventBinder( wxEVT_GRID_CELL_CHANGED )
EVT_GRID_SELECT_CELL = wx.PyEventBinder( wxEVT_GRID_SELECT_CELL )
EVT_GRID_EDITOR_SHOWN = wx.PyEventBinder( wxEVT_GRID_EDITOR_SHOWN )
EVT_GRID_EDITOR_HIDDEN = wx.PyEventBinder( wxEVT_GRID_EDITOR_HIDDEN )
EVT_GRID_EDITOR_CREATED = wx.PyEventBinder( wxEVT_GRID_EDITOR_CREATED )
EVT_GRID_CELL_BEGIN_DRAG = wx.PyEventBinder( wxEVT_GRID_CELL_BEGIN_DRAG )
EVT_GRID_COL_MOVE = wx.PyEventBinder( wxEVT_GRID_COL_MOVE )
EVT_GRID_COL_SORT = wx.PyEventBinder( wxEVT_GRID_COL_SORT )
EVT_GRID_TABBING = wx.PyEventBinder( wxEVT_GRID_TABBING )
# The same as above but with the ability to specify an identifier
EVT_GRID_CMD_CELL_LEFT_CLICK = wx.PyEventBinder( wxEVT_GRID_CELL_LEFT_CLICK, 1 )
EVT_GRID_CMD_CELL_RIGHT_CLICK = wx.PyEventBinder( wxEVT_GRID_CELL_RIGHT_CLICK, 1 )
EVT_GRID_CMD_CELL_LEFT_DCLICK = wx.PyEventBinder( wxEVT_GRID_CELL_LEFT_DCLICK, 1 )
EVT_GRID_CMD_CELL_RIGHT_DCLICK = wx.PyEventBinder( wxEVT_GRID_CELL_RIGHT_DCLICK, 1 )
EVT_GRID_CMD_LABEL_LEFT_CLICK = wx.PyEventBinder( wxEVT_GRID_LABEL_LEFT_CLICK, 1 )
EVT_GRID_CMD_LABEL_RIGHT_CLICK = wx.PyEventBinder( wxEVT_GRID_LABEL_RIGHT_CLICK, 1 )
EVT_GRID_CMD_LABEL_LEFT_DCLICK = wx.PyEventBinder( wxEVT_GRID_LABEL_LEFT_DCLICK, 1 )
EVT_GRID_CMD_LABEL_RIGHT_DCLICK = wx.PyEventBinder( wxEVT_GRID_LABEL_RIGHT_DCLICK, 1 )
EVT_GRID_CMD_ROW_SIZE = wx.PyEventBinder( wxEVT_GRID_ROW_SIZE, 1 )
EVT_GRID_CMD_COL_SIZE = wx.PyEventBinder( wxEVT_GRID_COL_SIZE, 1 )
EVT_GRID_CMD_RANGE_SELECT = wx.PyEventBinder( wxEVT_GRID_RANGE_SELECT, 1 )
EVT_GRID_CMD_CELL_CHANGING = wx.PyEventBinder( wxEVT_GRID_CELL_CHANGING, 1 )
EVT_GRID_CMD_CELL_CHANGED = wx.PyEventBinder( wxEVT_GRID_CELL_CHANGED, 1 )
EVT_GRID_CMD_SELECT_CELL = wx.PyEventBinder( wxEVT_GRID_SELECT_CELL, 1 )
EVT_GRID_CMD_EDITOR_SHOWN = wx.PyEventBinder( wxEVT_GRID_EDITOR_SHOWN, 1 )
EVT_GRID_CMD_EDITOR_HIDDEN = wx.PyEventBinder( wxEVT_GRID_EDITOR_HIDDEN, 1 )
EVT_GRID_CMD_EDITOR_CREATED = wx.PyEventBinder( wxEVT_GRID_EDITOR_CREATED, 1 )
EVT_GRID_CMD_CELL_BEGIN_DRAG = wx.PyEventBinder( wxEVT_GRID_CELL_BEGIN_DRAG, 1 )
EVT_GRID_CMD_COL_MOVE = wx.PyEventBinder( wxEVT_GRID_COL_MOVE, 1 )
EVT_GRID_CMD_COL_SORT = wx.PyEventBinder( wxEVT_GRID_COL_SORT, 1 )
EVT_GRID_CMD_TABBING = wx.PyEventBinder( wxEVT_GRID_TABBING, 1 )
""")
#-----------------------------------------------------------------
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxHtmlWinTagHandler')
assert isinstance(c, etgtools.ClassDef)
c.addCppMethod('wxHtmlWinParser*', 'GetParser', '()',
body="return (wxHtmlWinParser*)self->GetParser();")
c.addPrivateCopyCtor()
c = module.find('wxHtmlWinParser')
c.find('GetEncodingConverter').ignore()
c.find('GetInputEncoding').ignore()
c.find('GetOutputEncoding').ignore()
c.find('SetInputEncoding').ignore()
tools.fixHtmlSetFonts(c)
c.find('AddModule').ignore()
c.addItem(etgtools.WigCode("""\
virtual wxObject* GetProduct();
"""))
module.addCppCode("""\
class wxPyHtmlTagsModule : public wxHtmlTagsModule {
public:
wxPyHtmlTagsModule(PyObject* thc) : wxHtmlTagsModule() {
m_tagHandlerClass = thc;
wxPyThreadBlocker blocker;
Py_INCREF(m_tagHandlerClass);
RegisterModule(this);
wxHtmlWinParser::AddModule(this);
}
void OnExit() {
wxPyThreadBlocker blocker;
Py_DECREF(m_tagHandlerClass);
m_tagHandlerClass = NULL;
for (size_t x=0; x < m_objArray.GetCount(); x++) {
PyObject* obj = (PyObject*)m_objArray.Item(x);
Py_DECREF(obj);
}
}
void FillHandlersTable(wxHtmlWinParser *parser) {
wxPyThreadBlocker blocker;
wxHtmlWinTagHandler* thPtr = 0;
// First, make a new instance of the tag handler
PyObject* arg = PyTuple_New(0);
PyObject* obj = PyObject_CallObject(m_tagHandlerClass, arg);
Py_DECREF(arg);
// Make sure it succeeded
if (!obj) {
PyErr_Print();
return;
}
// now figure out where it's C++ object is...
if (! wxPyConvertWrappedPtr(obj, (void **)&thPtr, wxT("wxHtmlWinTagHandler"))) {
return;
}
// add it,
parser->AddTagHandler(thPtr);
// and track it.
m_objArray.Add(obj);
}
private:
PyObject* m_tagHandlerClass;
wxArrayPtrVoid m_objArray;
};
""")
module.addCppFunction('void', 'HtmlWinParser_AddTagHandler', '(PyObject* tagHandlerClass)',
body="""\
// Dynamically create a new wxModule. Refcounts tagHandlerClass
// and adds itself to the wxModules list and to the wxHtmlWinParser.
new wxPyHtmlTagsModule(tagHandlerClass);
wxModule::InitializeModules();
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxPickerBase')
assert isinstance(c, etgtools.ClassDef)
c.find('CreateBase.id').default = 'wxID_ANY'
c.find('GetTextCtrlStyle').ignore(False)
c.find('GetPickerStyle').ignore(False)
c.find('PostCreation').ignore(False)
#-----------------------------------------------------------------
module.addHeaderCode('#include <wx/clrpicker.h>')
c = module.find('wxColourPickerCtrl')
tools.fixWindowClass(c)
module.addGlobalStr('wxColourPickerWidgetNameStr', c)
module.addGlobalStr('wxColourPickerCtrlNameStr', c)
c.addItem(
etgtools.WigCode("""\
virtual void UpdatePickerFromTextCtrl();
virtual void UpdateTextCtrlFromPicker();
"""))
c = module.find('wxColourPickerEvent')
tools.fixEventClass(c)
c.addPyCode("""\
EVT_COLOURPICKER_CHANGED = wx.PyEventBinder( wxEVT_COLOURPICKER_CHANGED, 1 )
# deprecated wxEVT alias
wxEVT_COMMAND_COLOURPICKER_CHANGED = wxEVT_COLOURPICKER_CHANGED
""")
#-----------------------------------------------------------------
module.addHeaderCode('#include <wx/filepicker.h>')
c = module.find('wxFilePickerCtrl')
tools.fixWindowClass(c)
module.addGlobalStr('wxFilePickerWidgetLabel', c)
module.addGlobalStr('wxFilePickerWidgetNameStr', c)
module.addGlobalStr('wxFilePickerCtrlNameStr', c)
module.addGlobalStr('wxFileSelectorPromptStr', c)
module.addGlobalStr('wxFileSelectorDefaultWildcardStr', c)
c.addItem(
etgtools.WigCode("""\
virtual void UpdatePickerFromTextCtrl();
virtual void UpdateTextCtrlFromPicker();
"""))
# we'll use the [G|S]etPath methods instead so we don't have to mess with wxFileName
c.find('GetFileName').ignore()
c.find('SetFileName').ignore()
c = module.find('wxDirPickerCtrl')
tools.fixWindowClass(c)
module.addGlobalStr('wxDirPickerWidgetLabel', c)
module.addGlobalStr('wxDirPickerWidgetNameStr', c)
module.addGlobalStr('wxDirPickerCtrlNameStr', c)
module.addGlobalStr('wxDirSelectorPromptStr', c)
c.addItem(
etgtools.WigCode("""\
virtual void UpdatePickerFromTextCtrl();
virtual void UpdateTextCtrlFromPicker();
"""))
# we'll use the [G|S]etPath methods instead so we don't have to mess with wxFileName
c.find('GetDirName').ignore()
c.find('SetDirName').ignore()
c = module.find('wxFileDirPickerEvent')
tools.fixEventClass(c)
c.addPyCode("""\
EVT_FILEPICKER_CHANGED = wx.PyEventBinder( wxEVT_FILEPICKER_CHANGED, 1 )
EVT_DIRPICKER_CHANGED = wx.PyEventBinder( wxEVT_DIRPICKER_CHANGED, 1 )
# deprecated wxEVT aliases
wxEVT_COMMAND_FILEPICKER_CHANGED = wxEVT_FILEPICKER_CHANGED
wxEVT_COMMAND_DIRPICKER_CHANGED = wxEVT_DIRPICKER_CHANGED
""")
#-----------------------------------------------------------------
module.addHeaderCode('#include <wx/fontpicker.h>')
c = module.find('wxFontPickerCtrl')
tools.fixWindowClass(c)
module.addGlobalStr('wxFontPickerWidgetNameStr', c)
module.addGlobalStr('wxFontPickerCtrlNameStr', c)
c.addItem(
etgtools.WigCode("""\
virtual void UpdatePickerFromTextCtrl();
virtual void UpdateTextCtrlFromPicker();
"""))
c = module.find('wxFontPickerEvent')
tools.fixEventClass(c)
c.addPyCode("""\
EVT_FONTPICKER_CHANGED = wx.PyEventBinder( wxEVT_FONTPICKER_CHANGED, 1 )
# deprecated wxEVT alias
wxEVT_COMMAND_FONTPICKER_CHANGED = wxEVT_FONTPICKER_CHANGED
""")
#-----------------------------------------------------------------
# The C++ wxColourPickerCtrl uses a wx.Button for the implementation,
# but that looks and works very badly on Mac because the native
# button can't change color. So for the Mac we'll implement our own
# picker using a wx.BitmapButton instead.
module.addPyCode("""\
if 'wxMac' in wx.PlatformInfo:
class ColourPickerCtrl(PickerBase):
'''
This control allows the user to select a colour. The
implementation varies by platform but is usually a button which
brings up a `wx.ColourDialog` when clicked.
Window Styles
-------------
====================== ============================================
wx.CLRP_DEFAULT Default style.
wx.CLRP_USE_TEXTCTRL Creates a text control to the left of the
picker button which is completely managed
by the `wx.ColourPickerCtrl` and which can
be used by the user to specify a colour.
The text control is automatically synchronized
with the button's value. Use functions defined in
`wx.PickerBase` to modify the text control.
wx.CLRP_SHOW_LABEL Shows the colour in HTML form (AABBCC) as the
colour button label (instead of no label at all).
====================== ============================================
Events
------
======================== ==========================================
EVT_COLOURPICKER_CHANGED The user changed the colour selected in the
control either using the button or using the
text control (see wx.CLRP_USE_TEXTCTRL; note
that in this case the event is fired only if
the user's input is valid, i.e. recognizable).
======================== ==========================================
'''
# ColourData object to be shared by all colour pickers, so they can
# share the custom colours
_colourData = None
#--------------------------------------------------
class ColourPickerButton(BitmapButton):
def __init__(self, parent, id=-1, colour=wx.BLACK,
pos=wx.DefaultPosition, size=wx.DefaultSize,
style = CLRP_DEFAULT_STYLE,
validator = wx.DefaultValidator,
name = "colourpickerwidget"):
wx.BitmapButton.__init__(self, parent, id, wx.Bitmap(1,1),
pos, size, style, validator, name)
self.SetColour(colour)
self.InvalidateBestSize()
self.SetInitialSize(size)
self.Bind(wx.EVT_BUTTON, self.OnButtonClick)
if ColourPickerCtrl._colourData is None:
ColourPickerCtrl._colourData = wx.ColourData()
ColourPickerCtrl._colourData.SetChooseFull(True)
grey = 0
for i in range(16):
c = wx.Colour(grey, grey, grey)
ColourPickerCtrl._colourData.SetCustomColour(i, c)
grey += 16
def SetColour(self, colour):
# force a copy, in case the _colorData is shared
self.colour = wx.Colour(colour)
bmp = self._makeBitmap()
self.SetBitmapLabel(bmp)
def GetColour(self):
return self.colour
def OnButtonClick(self, evt):
ColourPickerCtrl._colourData.SetColour(self.colour)
dlg = wx.ColourDialog(self, ColourPickerCtrl._colourData)
if dlg.ShowModal() == wx.ID_OK:
ColourPickerCtrl._colourData = dlg.GetColourData()
self.SetColour(ColourPickerCtrl._colourData.GetColour())
evt = wx.ColourPickerEvent(self, self.GetId(), self.GetColour())
self.GetEventHandler().ProcessEvent(evt)
def _makeBitmap(self):
width = height = 24
bg = self.GetColour()
if self.HasFlag(CLRP_SHOW_LABEL):
w, h = self.GetTextExtent(bg.GetAsString(wx.C2S_HTML_SYNTAX))
width += w
bmp = wx.Bitmap(width, height)
dc = wx.MemoryDC(bmp)
dc.SetBackground(wx.Brush(self.colour))
dc.Clear()
if self.HasFlag(CLRP_SHOW_LABEL):
from wx.lib.colourutils import BestLabelColour
fg = BestLabelColour(bg)
dc.SetTextForeground(fg)
dc.DrawText(bg.GetAsString(wx.C2S_HTML_SYNTAX),
(width - w)/2, (height - h)/2)
return bmp
#--------------------------------------------------
def __init__(self, parent, id=-1, colour=wx.BLACK,
pos=wx.DefaultPosition, size=wx.DefaultSize,
style = CLRP_DEFAULT_STYLE,
validator = wx.DefaultValidator,
name = "colourpicker"):
if type(colour) != wx.Colour:
colour = wx.Colour(colour)
wx.PickerBase.__init__(self)
self.CreateBase(parent, id, colour.GetAsString(),
pos, size, style, validator, name)
widget = ColourPickerCtrl.ColourPickerButton(
self, -1, colour, style=self.GetPickerStyle(style))
self.SetPickerCtrl(widget)
widget.Bind(wx.EVT_COLOURPICKER_CHANGED, self.OnColourChange)
self.PostCreation()
def GetColour(self):
'''Set the displayed colour.'''
return self.GetPickerCtrl().GetColour()
def SetColour(self, colour):
'''Returns the currently selected colour.'''
self.GetPickerCtrl().SetColour(colour)
self.UpdateTextCtrlFromPicker()
Colour = property(GetColour, SetColour)
def UpdatePickerFromTextCtrl(self):
col = wx.Colour(self.GetTextCtrl().GetValue())
if not col.IsOk():
return
if self.GetColour() != col:
self.GetPickerCtrl().SetColour(col)
evt = wx.ColourPickerEvent(self, self.GetId(), self.GetColour())
self.GetEventHandler().ProcessEvent(evt)
def UpdateTextCtrlFromPicker(self):
if not self.GetTextCtrl():
return
self.GetTextCtrl().SetValue(self.GetColour().GetAsString())
def GetPickerStyle(self, style):
return style & CLRP_SHOW_LABEL
def OnColourChange(self, evt):
self.UpdateTextCtrlFromPicker()
evt = wx.ColourPickerEvent(self, self.GetId(), self.GetColour())
self.GetEventHandler().ProcessEvent(evt)
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
# Add a ctor/factory for the Mac that can use the theme brush
module.addCppCode("""\
#ifdef __WXMAC__
#include <wx/osx/private.h>
#endif
""")
module.addCppFunction('wxColour*',
'MacThemeColour',
'(int themeBrushID)',
"""\
#ifdef __WXMAC__
return new wxColour(wxMacCreateCGColorFromHITheme(themeBrushID));
#else
wxPyRaiseNotImplemented();
return NULL;
#endif
""",
factory=True)
# Change this macro into a value so we wont have problems when SIP takes its
# address
module.addCppCode("""\
#undef wxTransparentColour
wxColour wxTransparentColour(0, 0, 0, wxALPHA_TRANSPARENT);
""")
module.find('wxFromString').ignore()
module.find('wxToString').ignore()
module.find('wxALPHA_TRANSPARENT').type = 'const int'
module.find('wxALPHA_OPAQUE').type = 'const int'
c = module.find('wxColour')
assert isinstance(c, etgtools.ClassDef)
tools.removeVirtuals(c)
# Just set mustHaveApp for the copy ctor as it may need to use the colour
# database to look up color names.
c.find('wxColour').findOverload('const wxColour &').mustHaveApp()
# Hide the string ctor so our typemap will be invoked for the copy ctor instead.
c.find('wxColour').findOverload('wxString').ignore()
c.addProperty('Pixel GetPixel')
c.addProperty('RGB GetRGB SetRGB')
c.addProperty('RGBA GetRGBA SetRGBA')
c.addProperty('red Red')
c.addProperty('green Green')
c.addProperty('blue Blue')
c.addProperty('alpha Alpha')
c.find('GetPixel').ignore() # We need to add a typcast
c.addCppMethod(
'wxIntPtr*', 'GetPixel', '()', """\
#ifdef __WXGTK3__
return new wxIntPtr(0);
#else
return new wxIntPtr((wxIntPtr)self->GetPixel());
#endif
""")
# Set a flag on the return value and parameter types that are 'unsigned char'
# such that they will be treated as an integer instead of a string.
for item in c.allItems():
if hasattr(item, 'type') and item.type == 'unsigned char':
item.pyInt = True
c.find('ChangeLightness.r').inOut = True
c.find('ChangeLightness.g').inOut = True
c.find('ChangeLightness.b').inOut = True
c.find('MakeDisabled.r').inOut = True
c.find('MakeDisabled.g').inOut = True
c.find('MakeDisabled.b').inOut = True
c.find('MakeGrey.r').inOut = True
c.find('MakeGrey.g').inOut = True
c.find('MakeGrey.b').inOut = True
c.find('MakeGrey').findOverload('double').find('r').inOut = True
c.find('MakeGrey').findOverload('double').find('g').inOut = True
c.find('MakeGrey').findOverload('double').find('b').inOut = True
c.find('MakeMono.r').out = True
c.find('MakeMono.g').out = True
c.find('MakeMono.b').out = True
# The stock Colour items are documented as simple pointers, but in
# reality they are macros that evaluate to a function call that returns a
# Colour pointer, and that is only valid *after* the wx.App object has
# been created. That messes up the code that SIP generates for them. So
# instead we will just create uninitialized colours in a block of Python
# code, that will then be initialized later when the wx.App is created.
c.addCppMethod('void',
'_copyFrom',
'(const wxColour* other)',
"*self = *other;",
briefDoc="For internal use only.") # ??
pycode = '# These stock colours will be initialized when the wx.App object is created.\n'
for name in [
'wxBLACK',
'wxBLUE',
'wxCYAN',
'wxGREEN',
'wxYELLOW',
'wxLIGHT_GREY',
'wxRED',
'wxWHITE',
]:
item = module.find(name)
item.ignore()
pycode += '%s = Colour()\n' % tools.removeWxPrefix(item.name)
module.addPyCode(pycode)
c.addCppMethod('PyObject*',
'Get',
'(bool includeAlpha=true)',
"""\
int red = -1;
int green = -1;
int blue = -1;
int alpha = wxALPHA_OPAQUE;
if (self->IsOk()) {
red = self->Red();
green = self->Green();
blue = self->Blue();
alpha = self->Alpha();
}
if (includeAlpha)
return sipBuildResult(0, "(iiii)", red, green, blue, alpha);
else
return sipBuildResult(0, "(iii)", red, green, blue);
""",
pyArgsString="(includeAlpha=True) -> (r,g,b) or (r,g,b,a)",
briefDoc="""\
Returns the RGB intensity values as a tuple, optionally the alpha value as well."""
)
tools.addGetIMMethodTemplate(module, c, ['red', 'green', 'blue', 'alpha'])
# Add sequence protocol methods and other goodies
c.addPyMethod('__str__', '(self)', 'return str(self.Get())')
c.addPyMethod('__repr__', '(self)', 'return "wx.Colour"+str(self.Get())')
c.addPyMethod('__len__', '(self)', 'return len(self.Get())')
c.addPyMethod('__nonzero__', '(self)', 'return self.IsOk()')
c.addPyMethod('__reduce__', '(self)', 'return (Colour, self.Get())')
c.addPyMethod('__getitem__', '(self, idx)', 'return self.Get()[idx]')
c.addPyMethod(
'__setitem__', '(self, idx, val)', """\
if idx == 0: self.red = val
elif idx == 1: self.green = val
elif idx == 2: self.blue = val
elif idx == 3: self.alpha = val
else: raise IndexError
""")
c.addPyCode('Colour.__safe_for_unpickling__ = True')
# Types that can be converted to wx.Colour:
# wxColour (duh)
# Sequence with 3 or 4 integers
# String with color name or #RRGGBB or #RRGGBBAA format
# None (converts to wxNullColour)
c.allowNone = True
c.convertFromPyObject = """\
// is it just a typecheck?
if (!sipIsErr) {
if (sipPy == Py_None)
return 1;
if (sipCanConvertToType(sipPy, sipType_wxColour, SIP_NO_CONVERTORS))
return 1;
if (PyBytes_Check(sipPy) || PyUnicode_Check(sipPy))
return 1;
if (wxPyNumberSequenceCheck(sipPy, 4) || wxPyNumberSequenceCheck(sipPy, 3)) {
return 1;
}
return 0;
}
// otherwise do the conversion
// is it None?
if (sipPy == Py_None) {
*sipCppPtr = new wxColour(wxNullColour);
return sipGetState(sipTransferObj);
}
// Is it a string?
else if (PyBytes_Check(sipPy) || PyUnicode_Check(sipPy)) {
wxString spec = Py2wxString(sipPy);
if (!spec.empty()
&& spec.GetChar(0) == '#'
&& (spec.length() == 7 || spec.length() == 9)) { // It's #RRGGBB[AA]
long red, green, blue;
red = green = blue = 0;
spec.Mid(1,2).ToLong(&red, 16);
spec.Mid(3,2).ToLong(&green, 16);
spec.Mid(5,2).ToLong(&blue, 16);
if (spec.length() == 7) // no alpha
*sipCppPtr = new wxColour(red, green, blue);
else { // yes alpha
long alpha;
spec.Mid(7,2).ToLong(&alpha, 16);
*sipCppPtr = new wxColour(red, green, blue, alpha);
}
return sipGetState(sipTransferObj);
}
else { // assume it's a colour name
// check if alpha is there too
int pos;
if (((pos = spec.Find(':', true)) != wxNOT_FOUND) && (pos == spec.length()-3)) {
long alpha;
spec.Right(2).ToLong(&alpha, 16);
wxColour c = wxColour(spec.Left(spec.length()-3));
*sipCppPtr = new wxColour(c.Red(), c.Green(), c.Blue(), alpha);
}
else
*sipCppPtr = new wxColour(spec);
return sipGetState(sipTransferObj);
}
}
// Is it a sequence? (if so then length was checked above)
else if (wxPyNumberSequenceCheck(sipPy)) {
size_t len = PySequence_Size(sipPy);
PyObject* o1 = PySequence_ITEM(sipPy, 0);
PyObject* o2 = PySequence_ITEM(sipPy, 1);
PyObject* o3 = PySequence_ITEM(sipPy, 2);
if (len == 3)
*sipCppPtr = new wxColour(wxPyInt_AsLong(o1), wxPyInt_AsLong(o2), wxPyInt_AsLong(o3));
else {
PyObject* o4 = PySequence_ITEM(sipPy, 3);
*sipCppPtr = new wxColour(wxPyInt_AsLong(o1), wxPyInt_AsLong(o2), wxPyInt_AsLong(o3),
wxPyInt_AsLong(o4));
Py_DECREF(o4);
}
Py_DECREF(o1);
Py_DECREF(o2);
Py_DECREF(o3);
return sipGetState(sipTransferObj);
}
// if we get this far then it must already be a wxColour instance
*sipCppPtr = reinterpret_cast<wxColour*>(sipConvertToType(
sipPy, sipType_wxColour, sipTransferObj, SIP_NO_CONVERTORS, 0, sipIsErr));
return 0; // not a new instance
"""
module.addPyCode(
'NamedColour = wx.deprecated(Colour, "Use Colour instead.")')
# Just for TESTING, remove it later
module.addCppCode("""\
wxColour testColourTypeMap(const wxColour& c)
{
return c;
}
""")
module.addItem(
etgtools.WigCode("""\
wxColour testColourTypeMap(const wxColour& c);
"""))
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode('#include <wx/treelist.h>')
module.find('wxTreeListEventHandler').ignore()
module.find('wxTreeListItems').ignore()
#-----------------------------------------------------------------
c = module.find('wxTreeListItem')
assert isinstance(c, etgtools.ClassDef)
c.addCppMethod('int', '__nonzero__', '()', """\
return self->IsOk();
""")
#-----------------------------------------------------------------
c = module.find('wxTreeListItemComparator')
c.addPrivateCopyCtor()
#-----------------------------------------------------------------
c = module.find('wxTreeListCtrl')
tools.fixWindowClass(c)
module.addGlobalStr('wxTreeListCtrlNameStr', c)
# Change NO_IMAGE default arg values to just -1, as the pi code has
# problems when using the class name before the class is fully defined.
for item in c.allItems():
if isinstance(item, etgtools.ParamDef) and item.default == 'NO_IMAGE':
item.default = '-1'
# transfer ownership of some parameters
c.find('AssignImageList.imageList').transfer = True
c.find('SetItemData.data').transfer = True
c.find('AppendItem.data').transfer = True
c.find('InsertItem.data').transfer = True
c.find('PrependItem.data').transfer = True
# Replace GetSelections with an implementation that returns a Python list
c.find('GetSelections').ignore()
c.addCppMethod('PyObject*',
'GetSelections',
'()',
doc="""\
Returns a list of all selected items. This method can be used in
both single and multi-selection case.""",
body="""\
unsigned count;
wxTreeListItems items;
count = self->GetSelections(items);
wxPyThreadBlocker blocker;
PyObject* list = PyList_New(count);
for (size_t i=0; i<count; i++) {
wxTreeListItem* item = new wxTreeListItem(items[i]);
PyObject* obj = wxPyConstructObject((void*)item, wxT("wxTreeListItem"), true);
PyList_SET_ITEM(list, i, obj); // PyList_SET_ITEM steals a reference
}
return list;
""")
# Set output parameter flags
c.find('GetSortColumn.col').out = True
c.find('GetSortColumn.ascendingOrder').out = True
# Replace NO_IMAGE with wxTreeListCtrl::NO_IMAGE in parameter default values
for item in c.allItems():
if isinstance(item, etgtools.ParamDef) and item.default == 'NO_IMAGE':
item.default = 'wxTreeListCtrl::NO_IMAGE'
#-----------------------------------------------------------------
c = module.find('wxTreeListEvent')
tools.fixEventClass(c)
c.addPyCode("""\
EVT_TREELIST_SELECTION_CHANGED = wx.PyEventBinder( wxEVT_TREELIST_SELECTION_CHANGED )
EVT_TREELIST_ITEM_EXPANDING = wx.PyEventBinder( wxEVT_TREELIST_ITEM_EXPANDING )
EVT_TREELIST_ITEM_EXPANDED = wx.PyEventBinder( wxEVT_TREELIST_ITEM_EXPANDED )
EVT_TREELIST_ITEM_CHECKED = wx.PyEventBinder( wxEVT_TREELIST_ITEM_CHECKED )
EVT_TREELIST_ITEM_ACTIVATED = wx.PyEventBinder( wxEVT_TREELIST_ITEM_ACTIVATED )
EVT_TREELIST_ITEM_CONTEXT_MENU = wx.PyEventBinder( wxEVT_TREELIST_ITEM_CONTEXT_MENU )
EVT_TREELIST_COLUMN_SORTED = wx.PyEventBinder( wxEVT_TREELIST_COLUMN_SORTED )
# deprecated wxEVT aliases
wxEVT_COMMAND_TREELIST_SELECTION_CHANGED = wxEVT_TREELIST_SELECTION_CHANGED
wxEVT_COMMAND_TREELIST_ITEM_EXPANDING = wxEVT_TREELIST_ITEM_EXPANDING
wxEVT_COMMAND_TREELIST_ITEM_EXPANDED = wxEVT_TREELIST_ITEM_EXPANDED
wxEVT_COMMAND_TREELIST_ITEM_CHECKED = wxEVT_TREELIST_ITEM_CHECKED
wxEVT_COMMAND_TREELIST_ITEM_ACTIVATED = wxEVT_TREELIST_ITEM_ACTIVATED
wxEVT_COMMAND_TREELIST_ITEM_CONTEXT_MENU = wxEVT_TREELIST_ITEM_CONTEXT_MENU
wxEVT_COMMAND_TREELIST_COLUMN_SORTED = wxEVT_TREELIST_COLUMN_SORTED
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
# These enums are declared in files that we will not be using because
# wxPython does not need the classes that are in those files. So just
# inject the enums here instead.
from etgtools import EnumDef, EnumValueDef
e = EnumDef(name='wxStreamError')
e.items.extend([
EnumValueDef(name='wxSTREAM_NO_ERROR'),
EnumValueDef(name='wxSTREAM_EOF'),
EnumValueDef(name='wxSTREAM_WRITE_ERROR'),
EnumValueDef(name='wxSTREAM_READ_ERROR'),
])
module.insertItem(0, e)
e = EnumDef(name='wxSeekMode')
e.items.extend([
EnumValueDef(name='wxFromStart'),
EnumValueDef(name='wxFromCurrent'),
EnumValueDef(name='wxFromEnd'),
])
module.insertItem(1, e)
#-----------------------------------------------------------------
c = module.find('wxStreamBase')
assert isinstance(c, etgtools.ClassDef)
c.abstract = True
tools.removeVirtuals(c)
c.find('operator!').ignore()
#-----------------------------------------------------------------
c = module.find('wxInputStream')
c.abstract = True
tools.removeVirtuals(c)
# Include a C++ class that can wrap a Python file-like object so it can
# be used as a wxInputStream
c.includeCppCode('src/stream_input.cpp')
# Use that class for the convert code
c.convertFromPyObject = """\
// is it just a typecheck?
if (!sipIsErr) {
if (wxPyInputStream::Check(sipPy))
return 1;
return 0;
}
// otherwise do the conversion
*sipCppPtr = new wxPyInputStream(sipPy);
return sipGetState(sipTransferObj);
"""
# Add Python file-like methods so a wx.InputStream can be used as if it
# was any other Python file object.
c.addCppMethod(
'void', 'seek', '(wxFileOffset offset, int whence=0)', """\
self->SeekI(offset, (wxSeekMode)whence);
""")
c.addCppMethod('wxFileOffset', 'tell', '()', """\
return self->TellI();
""")
c.addCppMethod('void', 'close', '()', """\
// ignored for now
""")
c.addCppMethod('void', 'flush', '()', """\
// ignored for now
""")
c.addCppMethod('bool', 'eof', '()', """\
return self->Eof();
""")
c.addCppCode("""\
// helper used by the read and readline methods to make a PyObject
static PyObject* _makeReadBufObj(wxInputStream* self, wxMemoryBuffer& buf) {
PyObject* obj = NULL;
wxPyThreadBlocker blocker;
wxStreamError err = self->GetLastError(); // error check
if (err != wxSTREAM_NO_ERROR && err != wxSTREAM_EOF) {
PyErr_SetString(PyExc_IOError,"IOError in wxInputStream");
}
else {
// Return the data as a string object. TODO: Py3
obj = PyBytes_FromStringAndSize(buf, buf.GetDataLen());
}
return obj;
}
""")
c.addCppMethod(
'PyObject*', 'read', '()', """\
wxMemoryBuffer buf;
const ulong BUFSIZE = 1024;
// read while bytes are available on the stream
while ( self->CanRead() ) {
self->Read(buf.GetAppendBuf(BUFSIZE), BUFSIZE);
buf.UngetAppendBuf(self->LastRead());
}
return _makeReadBufObj(self, buf);
""")
c.addCppMethod(
'PyObject*', 'read', '(ulong size)', """\
wxMemoryBuffer buf;
// Read only size number of characters
self->Read(buf.GetWriteBuf(size), size);
buf.UngetWriteBuf(self->LastRead());
return _makeReadBufObj(self, buf);
""")
c.addCppMethod(
'PyObject*', 'readline', '()', """\
wxMemoryBuffer buf;
char ch = 0;
// read until \\n
while ((ch != '\\n') && (self->CanRead())) {
ch = self->GetC();
buf.AppendByte(ch);
}
return _makeReadBufObj(self, buf);
""")
c.addCppMethod(
'PyObject*', 'readline', '(ulong size)', """\
wxMemoryBuffer buf;
int i;
char ch;
// read until \\n or byte limit reached
for (i=ch=0; (ch != '\\n') && (self->CanRead()) && (i < size); i++) {
ch = self->GetC();
buf.AppendByte(ch);
}
return _makeReadBufObj(self, buf);
""")
c.addCppCode("""\
PyObject* _wxInputStream_readline(wxInputStream* self);
// This does the real work of the readlines methods
static PyObject* _readlinesHelper(wxInputStream* self,
bool useSizeHint=false, ulong sizehint=0) {
PyObject* pylist;
// init list
{
wxPyThreadBlocker blocker;
pylist = PyList_New(0);
if (!pylist) {
PyErr_NoMemory();
return NULL;
}
}
// read sizehint bytes or until EOF
ulong i;
for (i=0; (self->CanRead()) && (useSizeHint || (i < sizehint));) {
PyObject* s = _wxInputStream_readline(self);
if (s == NULL) {
wxPyThreadBlocker blocker;
Py_DECREF(pylist);
return NULL;
}
wxPyThreadBlocker blocker;
PyList_Append(pylist, s);
i += PyBytes_Size(s);
}
// error check
wxStreamError err = self->GetLastError();
if (err != wxSTREAM_NO_ERROR && err != wxSTREAM_EOF) {
wxPyThreadBlocker blocker;
Py_DECREF(pylist);
PyErr_SetString(PyExc_IOError,"IOError in wxInputStream");
return NULL;
}
return pylist;
}
""")
c.addCppMethod('PyObject*', 'readlines', '()', """\
return _readlinesHelper(self);
""")
c.addCppMethod(
'PyObject*', 'readlines', '(ulong sizehint)', """\
return _readlinesHelper(self, true, sizehint);
""")
#-----------------------------------------------------------------
c = module.find('wxOutputStream')
c.abstract = True
tools.removeVirtuals(c)
# Include a C++ class that can wrap a Python file-like object so it can
# be used as a wxOutputStream
c.includeCppCode('src/stream_output.cpp')
# Use that class for the convert code
c.convertFromPyObject = """\
// is it just a typecheck?
if (!sipIsErr) {
if (wxPyOutputStream::Check(sipPy))
return 1;
return 0;
}
// otherwise do the conversion
*sipCppPtr = new wxPyOutputStream(sipPy);
return sipGetState(sipTransferObj);
"""
# Add Python file-like methods so a wx.OutputStream can be used as if it
# was any other Python file object.
c.addCppMethod(
'void', 'seek', '(wxFileOffset offset, int whence=0)', """\
self->SeekO(offset, (wxSeekMode)whence);
""")
c.addCppMethod('wxFileOffset', 'tell', '()', """\
return self->TellO();
""")
c.addCppMethod('void', 'close', '()', """\
self->Close();
""")
c.addCppMethod('void', 'flush', '()', """\
self->Sync();
""")
c.addCppMethod('bool', 'eof', '()', """\
return false; //self->Eof();
""")
c.addCppMethod(
'PyObject*', 'write', '(PyObject* data)', """\
// We use only bytes objects (strings in 2.7) for the streams, never unicode
wxPyThreadBlocker blocker;
if (!PyBytes_Check(data)) {
PyErr_SetString(PyExc_TypeError, "Bytes object expected");
return NULL;
}
self->Write(PyBytes_AS_STRING(data), PyBytes_GET_SIZE(data));
RETURN_NONE();
""")
# TODO: Add a writelines(sequence) method
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxWizardPage')
assert isinstance(c, etgtools.ClassDef)
tools.fixWindowClass(c, False)
module.addPyCode(
"PyWizardPage = wx.deprecated(WizardPage, 'Use WizardPage instead.')")
c = module.find('wxWizardPageSimple')
tools.fixWindowClass(c, False)
c.addItem(
etgtools.WigCode("""\
virtual wxWizardPage* GetNext() const;
virtual wxWizardPage* GetPrev() const;
"""))
c = module.find('wxWizard')
tools.fixWindowClass(c, False)
# ShowPage is undocumented and labeled "implementation only" but it seems
# too useful to ignore, so add a MethodDef for it here.
m = MethodDef(name='ShowPage',
type='bool',
isVirtual=True,
briefDoc="Show the given wizard page.",
detailedDoc=[
"""\
Calls TransferDataFromWindow on the current page first, and
returns false without changing the page if it returned false.
Returns True/False to indicate if the page was actually
changed."""
],
items=[
ParamDef(name='page', type='wxWizardPage*'),
ParamDef(name='goingForward',
type='bool',
default='true')
])
c.addItem(m)
# Same for IsRunning
m = MethodDef(name='IsRunning', type='bool', isConst=True)
c.addItem(m)
c = module.find('wxWizardEvent')
tools.fixEventClass(c)
module.addPyCode("""\
EVT_WIZARD_BEFORE_PAGE_CHANGED = wx.PyEventBinder( wxEVT_WIZARD_BEFORE_PAGE_CHANGED, 1)
EVT_WIZARD_PAGE_CHANGED = wx.PyEventBinder( wxEVT_WIZARD_PAGE_CHANGED, 1)
EVT_WIZARD_PAGE_CHANGING = wx.PyEventBinder( wxEVT_WIZARD_PAGE_CHANGING, 1)
EVT_WIZARD_CANCEL = wx.PyEventBinder( wxEVT_WIZARD_CANCEL, 1)
EVT_WIZARD_HELP = wx.PyEventBinder( wxEVT_WIZARD_HELP, 1)
EVT_WIZARD_FINISHED = wx.PyEventBinder( wxEVT_WIZARD_FINISHED, 1)
EVT_WIZARD_PAGE_SHOWN = wx.PyEventBinder( wxEVT_WIZARD_PAGE_SHOWN, 1)
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
module.check4unittest = False
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode('#include <wxpy_api.h>')
module.addImport('_core')
module.addPyCode('import wx', order=10)
module.addInclude(INCLUDES)
#-----------------------------------------------------------------
module.addHeaderCode('#include <wx/glcanvas.h>')
c = module.find('wxGLContext')
assert isinstance(c, etgtools.ClassDef)
c.mustHaveApp()
c.addPrivateCopyCtor()
c = module.find('wxGLCanvas')
tools.fixWindowClass(c)
# We already have a MappedType for wxArrayInt, so just tweak the
# interfaces to use that instead of a const int pointer.
c.find('wxGLCanvas').ignore()
m = c.addCppCtor_sip(
argsString="""(
wxWindow* parent, wxWindowID id=wxID_ANY, wxArrayInt* attribList=NULL,
const wxPoint& pos=wxDefaultPosition, const wxSize& size=wxDefaultSize,
long style=0, const wxString& name="GLCanvas",
const wxPalette& palette=wxNullPalette)""",
cppSignature="""(
wxWindow* parent, wxWindowID id=wxID_ANY, const int* attribList=NULL,
const wxPoint& pos=wxDefaultPosition, const wxSize& size=wxDefaultSize,
long style=0, const wxString& name="GLCanvas",
const wxPalette& palette=wxNullPalette)""",
pyArgsString=
"(parent, id=wx.ID_ANY, attribList=None, pos=wx.DefaultPosition, size=wx.DefaultSize, style=0, name='GLCanvas', palette=wx.NullPalette)",
body="""\
const int* attribPtr = NULL;
if (attribList) {
attribList->push_back(0); // ensure it is zero-terminated
attribPtr = &attribList->front();
}
sipCpp = new sipwxGLCanvas(parent, id, attribPtr, *pos, *size, style, *name, *palette);
""",
noDerivedCtor=False,
)
m = c.find('IsDisplaySupported')
m.find('attribList').type = 'wxArrayInt*'
m.setCppCode_sip("""\
const int* attribPtr = NULL;
if (attribList) {
attribList->push_back(0); // ensure it is zero-terminated
attribPtr = &attribList->front();
}
sipRes = wxGLCanvas::IsDisplaySupported(attribPtr);
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
module.check4unittest = False
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode('#include <wxpy_api.h>')
module.addImport('_core')
module.addPyCode('''\
import wx
ID_ANY = wx.ID_ANY # Needed for some parameter defaults in this module
''',
order=10)
module.addInclude(INCLUDES)
#-----------------------------------------------------------------
module.addHeaderCode('#include <wx/stc/stc.h>')
module.addHeaderCode('#include "wxpybuffer.h"')
c = module.find('wxStyledTextCtrl')
assert isinstance(c, etgtools.ClassDef)
c.bases = ['wxControl'] # wxTextCtrlIface is also a base...
c.piBases = ['wx.Control', 'wx.TextEntry']
tools.fixWindowClass(c, False)
module.addGlobalStr('wxSTCNameStr', c)
c.find('GetCurLine.linePos').out = True
c.find('GetCurLineRaw.linePos').out = True
for name in ['Remove', 'Replace', 'SetSelection', 'GetSelection']:
m = c.find(name)
m.find('from').name = 'from_'
m.find('to').name = 'to_'
c.find('GetSelection.from_').out = True
c.find('GetSelection.to_').out = True
c.find('PositionToXY.x').out = True
c.find('PositionToXY.y').out = True
# Split the HitTest overloads into separately named methods since once
# the output parameters are applied they will have the same function
# signature.
ht1 = c.find('HitTest')
ht2 = ht1.overloads[0]
ht1.overloads = []
c.insertItemAfter(ht1, ht2)
ht1.pyName = 'HitTestPos'
ht1.find('pos').out = True
ht2.find('row').out = True
ht2.find('col').out = True
# Replace the *Pointer methods with ones that return a memoryview object instead.
c.find('GetCharacterPointer').ignore()
c.addCppMethod('PyObject*',
'GetCharacterPointer',
'()',
doc="""\
Compact the document buffer and return a read-only memoryview
object of the characters in the document.""",
body="""
const char* ptr = self->GetCharacterPointer();
Py_ssize_t len = self->GetLength();
PyObject* rv;
wxPyBLOCK_THREADS( rv = wxPyMakeBuffer((void*)ptr, len, true) );
return rv;
""")
c.find('GetRangePointer').ignore()
c.addCppMethod('PyObject*',
'GetRangePointer',
'(int position, int rangeLength)',
doc="""\
Return a read-only pointer to a range of characters in the
document. May move the gap so that the range is contiguous,
but will only move up to rangeLength bytes.""",
body="""
const char* ptr = self->GetRangePointer(position, rangeLength);
Py_ssize_t len = rangeLength;
PyObject* rv;
wxPyBLOCK_THREADS( rv = wxPyMakeBuffer((void*)ptr, len, true) );
return rv;
""")
# Generate the code for this differently because it needs to be
# forcibly mashed into an int in the C code
module.find('wxSTC_MASK_FOLDERS').forcedInt = True
# Make sure that all the methods from wxTextEntry and wxTextCtrl are
# included. This is needed because we are pretending that this class only
# derives from wxControl but the real C++ class also derives from
# wxTextCtrlIface which derives from wxTextEntryBase.
import textentry
mod = textentry.parseAndTweakModule()
klass = mod.find('wxTextEntry')
items = [
item for item in klass.items if isinstance(item, etgtools.MethodDef)
and not item.isCtor and not item.isDtor and not c.findItem(item.name)
]
c.items.extend(items)
import textctrl
mod = textctrl.parseAndTweakModule()
klass = mod.find('wxTextCtrl')
items = [
item for item in klass.items if isinstance(item, etgtools.MethodDef)
and not item.isCtor and not item.isDtor and not c.findItem(item.name)
]
c.items.extend(items)
c.find('EmulateKeyPress').ignore()
c.find('IsMultiLine').ignore()
c.find('IsSingleLine').ignore()
c.find('MacCheckSpelling').ignore()
c.find('ShowNativeCaret').ignore()
c.find('HideNativeCaret').ignore()
# Change the *RGBAImage methods to accept any buffer object
c.find('MarkerDefineRGBAImage').ignore()
c.addCppMethod('void',
'MarkerDefineRGBAImage',
'(int markerNumber, wxPyBuffer* pixels)',
doc="""\
Define a marker from RGBA data.\n
It has the width and height from RGBAImageSetWidth/Height. You must
ensure that the buffer is at least width*height*4 bytes long.
""",
body="""\
self->MarkerDefineRGBAImage(markerNumber, (unsigned char*)pixels->m_ptr);
""")
c.find('RegisterRGBAImage').ignore()
c.addCppMethod('void',
'RegisterRGBAImage',
'(int type, wxPyBuffer* pixels)',
doc="""\
Register an RGBA image for use in autocompletion lists.\n
It has the width and height from RGBAImageSetWidth/Height. You must
ensure that the buffer is at least width*height*4 bytes long.
""",
body="""\
self->RegisterRGBAImage(type, (unsigned char*)pixels->m_ptr);
""")
# TODO: Add the UTF8 PyMethods from classic (see _stc_utf8_methods.py)
#-----------------------------------------------------------------
c = module.find('wxStyledTextEvent')
tools.fixEventClass(c)
module.addPyCode("""\
EVT_STC_CHANGE = wx.PyEventBinder( wxEVT_STC_CHANGE, 1 )
EVT_STC_STYLENEEDED = wx.PyEventBinder( wxEVT_STC_STYLENEEDED, 1 )
EVT_STC_CHARADDED = wx.PyEventBinder( wxEVT_STC_CHARADDED, 1 )
EVT_STC_SAVEPOINTREACHED = wx.PyEventBinder( wxEVT_STC_SAVEPOINTREACHED, 1 )
EVT_STC_SAVEPOINTLEFT = wx.PyEventBinder( wxEVT_STC_SAVEPOINTLEFT, 1 )
EVT_STC_ROMODIFYATTEMPT = wx.PyEventBinder( wxEVT_STC_ROMODIFYATTEMPT, 1 )
EVT_STC_KEY = wx.PyEventBinder( wxEVT_STC_KEY, 1 )
EVT_STC_DOUBLECLICK = wx.PyEventBinder( wxEVT_STC_DOUBLECLICK, 1 )
EVT_STC_UPDATEUI = wx.PyEventBinder( wxEVT_STC_UPDATEUI, 1 )
EVT_STC_MODIFIED = wx.PyEventBinder( wxEVT_STC_MODIFIED, 1 )
EVT_STC_MACRORECORD = wx.PyEventBinder( wxEVT_STC_MACRORECORD, 1 )
EVT_STC_MARGINCLICK = wx.PyEventBinder( wxEVT_STC_MARGINCLICK, 1 )
EVT_STC_NEEDSHOWN = wx.PyEventBinder( wxEVT_STC_NEEDSHOWN, 1 )
EVT_STC_PAINTED = wx.PyEventBinder( wxEVT_STC_PAINTED, 1 )
EVT_STC_USERLISTSELECTION = wx.PyEventBinder( wxEVT_STC_USERLISTSELECTION, 1 )
EVT_STC_URIDROPPED = wx.PyEventBinder( wxEVT_STC_URIDROPPED, 1 )
EVT_STC_DWELLSTART = wx.PyEventBinder( wxEVT_STC_DWELLSTART, 1 )
EVT_STC_DWELLEND = wx.PyEventBinder( wxEVT_STC_DWELLEND, 1 )
EVT_STC_START_DRAG = wx.PyEventBinder( wxEVT_STC_START_DRAG, 1 )
EVT_STC_DRAG_OVER = wx.PyEventBinder( wxEVT_STC_DRAG_OVER, 1 )
EVT_STC_DO_DROP = wx.PyEventBinder( wxEVT_STC_DO_DROP, 1 )
EVT_STC_ZOOM = wx.PyEventBinder( wxEVT_STC_ZOOM, 1 )
EVT_STC_HOTSPOT_CLICK = wx.PyEventBinder( wxEVT_STC_HOTSPOT_CLICK, 1 )
EVT_STC_HOTSPOT_DCLICK = wx.PyEventBinder( wxEVT_STC_HOTSPOT_DCLICK, 1 )
EVT_STC_HOTSPOT_RELEASE_CLICK = wx.PyEventBinder( wxEVT_STC_HOTSPOT_RELEASE_CLICK, 1 )
EVT_STC_CALLTIP_CLICK = wx.PyEventBinder( wxEVT_STC_CALLTIP_CLICK, 1 )
EVT_STC_AUTOCOMP_SELECTION = wx.PyEventBinder( wxEVT_STC_AUTOCOMP_SELECTION, 1 )
EVT_STC_INDICATOR_CLICK = wx.PyEventBinder( wxEVT_STC_INDICATOR_CLICK, 1 )
EVT_STC_INDICATOR_RELEASE = wx.PyEventBinder( wxEVT_STC_INDICATOR_RELEASE, 1 )
EVT_STC_AUTOCOMP_CANCELLED = wx.PyEventBinder( wxEVT_STC_AUTOCOMP_CANCELLED, 1 )
EVT_STC_AUTOCOMP_CHAR_DELETED = wx.PyEventBinder( wxEVT_STC_AUTOCOMP_CHAR_DELETED, 1 )
EVT_STC_CLIPBOARD_COPY = wx.PyEventBinder( wxEVT_STC_CLIPBOARD_COPY, 1)
EVT_STC_CLIPBOARD_PASTE = wx.PyEventBinder( wxEVT_STC_CLIPBOARD_PASTE, 1)
EVT_STC_AUTOCOMP_COMPLETED = wx.PyEventBinder( wxEVT_STC_AUTOCOMP_COMPLETED, 1)
EVT_STC_MARGIN_RIGHT_CLICK = wx.PyEventBinder( wxEVT_STC_MARGIN_RIGHT_CLICK, 1)
""")
#-----------------------------------------------------------------
# Keep some of the old names
module.addPyCode("""\
# compatibility aliases
STC_SCMOD_NORM = STC_KEYMOD_NORM
STC_SCMOD_SHIFT = STC_KEYMOD_SHIFT
STC_SCMOD_CTRL = STC_KEYMOD_CTRL
STC_SCMOD_ALT = STC_KEYMOD_ALT
STC_SCMOD_SUPER = STC_KEYMOD_SUPER
STC_SCMOD_META = STC_KEYMOD_META
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(
PACKAGE, MODULE, NAME, DOCSTRING,
check4unittest=False) # all classes abstract, no unitests needed
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxItemContainerImmutable')
c.abstract = True
c = module.find('wxItemContainer')
assert isinstance(c, etgtools.ClassDef)
c.abstract = True
# Ignore the Append and Insert method overloads that we don't want to
# support. This will keep the ones that take a wxString or an
# wxArrayString, and wxClientData.
def pickOverloads(m):
assert isinstance(m, etgtools.MethodDef)
if 'void *' in m.argsString or \
'wxClientData **' in m.argsString or \
'wxString *' in m.argsString or \
'std::vector' in m.argsString:
m.ignore()
for m in c.findAll('Append'):
pickOverloads(m)
for m in c.findAll('Insert'):
pickOverloads(m)
for m in c.findAll('Set'):
pickOverloads(m)
# The [G|S]etClientData methods deal with untyped void* values, which we
# don't support. The [G|S]etClientObject methods use wxClientData instaces
# which we have a MappedType for, so make the ClientData methods just be
# aliases for ClientObjects. From the Python programmer's perspective they
# would be virtually the same anyway.
c.find('SetClientObject.data').transfer = True
c.find('GetClientData').ignore()
c.find('SetClientData').ignore()
c.find('GetClientObject').pyName = 'GetClientData'
c.find('SetClientObject').pyName = 'SetClientData'
c.addPyMethod('GetClientObject',
'(self, n)',
doc="Alias for :meth:`GetClientData`",
body="return self.GetClientData(n)")
c.addPyMethod('SetClientObject',
'(self, n, data)',
doc="Alias for :meth:`SetClientData`",
body="self.SetClientData(n, data)")
# Deal with transfering ownership of wxClientData objects
c.find('DetachClientObject').transfer = True
c.find('SetClientObject.data').transfer = True
c.find('Append').findOverload('clientData').find(
'clientData').transfer = True
c.find('Insert').findOverload('clientData').find(
'clientData').transfer = True
# for compatibility, should they be deprecated?
c.addPyMethod('AppendItems', '(self, items)', 'self.Append(items)')
c.addPyMethod('GetItems', '(self)', 'return self.GetStrings()')
c.addPyMethod('SetItems', '(self, items)', 'self.Set(items)')
c = module.find('wxControlWithItems')
c.abstract = True
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
#-------------------------------------------------------
c = module.find('wxTreeItemId')
assert isinstance(c, etgtools.ClassDef)
c.addCppMethod('int', '__nonzero__', '()', """\
return self->IsOk();
""")
td = etgtools.TypedefDef(name='wxTreeItemIdValue', type='void*')
module.insertItemBefore(c, td)
#-------------------------------------------------------
module.addPyCode("""\
def TreeItemData(data):
return data
TreeItemData = deprecated(TreeItemData, "The TreeItemData class no longer exists, just pass your object directly to the tree instead.")
""")
#-------------------------------------------------------
c = module.find('wxTreeCtrl')
tools.fixWindowClass(c)
module.addGlobalStr('wxTreeCtrlNameStr', before=c)
# Set all wxTreeItemData parameters to transfer ownership. Is this still needed with MappedTypes?
for item in c.allItems():
if hasattr(item, 'type') and item.type == 'wxTreeItemData *' and \
isinstance(item, etgtools.ParamDef):
item.transfer = True
c.addPyCode("""\
TreeCtrl.GetItemPyData = wx.deprecated(TreeCtrl.GetItemData, 'Use GetItemData instead.')
TreeCtrl.SetItemPyData = wx.deprecated(TreeCtrl.SetItemData, 'Use SetItemData instead.')
TreeCtrl.GetPyData = wx.deprecated(TreeCtrl.GetItemData, 'Use GetItemData instead.')
TreeCtrl.SetPyData = wx.deprecated(TreeCtrl.SetItemData, 'Use SetItemData instead.')
""")
# We can't use wxClassInfo
c.find('EditLabel.textCtrlClass').ignore()
# Replace GetSelections with a method that returns a Python list
# size_t GetSelections(wxArrayTreeItemIds& selection) const;
c.find('GetSelections').ignore()
c.addCppMethod(
'PyObject*',
'GetSelections',
'()',
doc=
'Returns a list of currently selected items in the tree. This function '
'can be called only if the control has the wx.TR_MULTIPLE style.',
body="""\
wxPyThreadBlocker blocker;
PyObject* rval = PyList_New(0);
wxArrayTreeItemIds array;
size_t num, x;
num = self->GetSelections(array);
for (x=0; x < num; x++) {
wxTreeItemId *tii = new wxTreeItemId(array.Item(x));
PyObject* item = wxPyConstructObject((void*)tii, wxT("wxTreeItemId"), true);
PyList_Append(rval, item);
Py_DECREF(item);
}
return rval;
""")
# Change GetBoundingRect to return the rectangle instead of modifying the parameter.
#bool GetBoundingRect(const wxTreeItemId& item, wxRect& rect, bool textOnly = false) const;
c.find('GetBoundingRect').ignore()
c.addCppMethod('PyObject*',
'GetBoundingRect',
'(const wxTreeItemId& item, bool textOnly=false)',
doc="""\
Returns the rectangle bounding the item. If textOnly is true,
only the rectangle around the item's label will be returned, otherwise
the item's image is also taken into account. The return value may be None
if the rectangle was not successfully retrieved, such as if the item is
currently not visible.
""",
isFactory=True,
body="""\
wxRect rect;
if (self->GetBoundingRect(*item, rect, textOnly)) {
wxPyThreadBlocker blocker;
wxRect* r = new wxRect(rect);
PyObject* val = wxPyConstructObject((void*)r, wxT("wxRect"), true);
return val;
}
else
RETURN_NONE();
""")
# switch the virtualness back on for those methods that need to have it.
c.find('OnCompareItems').isVirtual = True
# transfer imagelist ownership
c.find('AssignImageList.imageList').transfer = True
c.find('AssignStateImageList.imageList').transfer = True
c.find('AssignButtonsImageList.imageList').transfer = True
# Make the cookie values be returned, instead of setting it through the parameter
c.find('GetFirstChild.cookie').out = True
c.find('GetNextChild.cookie').inOut = True
# TODO: These don't exist on MSW, Are they important enough that we
# should provide them for the other platforms anyway?
c.find('AssignButtonsImageList').ignore()
c.find('GetButtonsImageList').ignore()
c.find('SetButtonsImageList').ignore()
#-------------------------------------------------------
c = module.find('wxTreeEvent')
tools.fixEventClass(c)
c.addPyCode("""\
EVT_TREE_BEGIN_DRAG = PyEventBinder(wxEVT_TREE_BEGIN_DRAG , 1)
EVT_TREE_BEGIN_RDRAG = PyEventBinder(wxEVT_TREE_BEGIN_RDRAG , 1)
EVT_TREE_BEGIN_LABEL_EDIT = PyEventBinder(wxEVT_TREE_BEGIN_LABEL_EDIT , 1)
EVT_TREE_END_LABEL_EDIT = PyEventBinder(wxEVT_TREE_END_LABEL_EDIT , 1)
EVT_TREE_DELETE_ITEM = PyEventBinder(wxEVT_TREE_DELETE_ITEM , 1)
EVT_TREE_GET_INFO = PyEventBinder(wxEVT_TREE_GET_INFO , 1)
EVT_TREE_SET_INFO = PyEventBinder(wxEVT_TREE_SET_INFO , 1)
EVT_TREE_ITEM_EXPANDED = PyEventBinder(wxEVT_TREE_ITEM_EXPANDED , 1)
EVT_TREE_ITEM_EXPANDING = PyEventBinder(wxEVT_TREE_ITEM_EXPANDING , 1)
EVT_TREE_ITEM_COLLAPSED = PyEventBinder(wxEVT_TREE_ITEM_COLLAPSED , 1)
EVT_TREE_ITEM_COLLAPSING = PyEventBinder(wxEVT_TREE_ITEM_COLLAPSING , 1)
EVT_TREE_SEL_CHANGED = PyEventBinder(wxEVT_TREE_SEL_CHANGED , 1)
EVT_TREE_SEL_CHANGING = PyEventBinder(wxEVT_TREE_SEL_CHANGING , 1)
EVT_TREE_KEY_DOWN = PyEventBinder(wxEVT_TREE_KEY_DOWN , 1)
EVT_TREE_ITEM_ACTIVATED = PyEventBinder(wxEVT_TREE_ITEM_ACTIVATED , 1)
EVT_TREE_ITEM_RIGHT_CLICK = PyEventBinder(wxEVT_TREE_ITEM_RIGHT_CLICK , 1)
EVT_TREE_ITEM_MIDDLE_CLICK = PyEventBinder(wxEVT_TREE_ITEM_MIDDLE_CLICK, 1)
EVT_TREE_END_DRAG = PyEventBinder(wxEVT_TREE_END_DRAG , 1)
EVT_TREE_STATE_IMAGE_CLICK = PyEventBinder(wxEVT_TREE_STATE_IMAGE_CLICK, 1)
EVT_TREE_ITEM_GETTOOLTIP = PyEventBinder(wxEVT_TREE_ITEM_GETTOOLTIP, 1)
EVT_TREE_ITEM_MENU = PyEventBinder(wxEVT_TREE_ITEM_MENU, 1)
# deprecated wxEVT aliases
wxEVT_COMMAND_TREE_BEGIN_DRAG = wxEVT_TREE_BEGIN_DRAG
wxEVT_COMMAND_TREE_BEGIN_RDRAG = wxEVT_TREE_BEGIN_RDRAG
wxEVT_COMMAND_TREE_BEGIN_LABEL_EDIT = wxEVT_TREE_BEGIN_LABEL_EDIT
wxEVT_COMMAND_TREE_END_LABEL_EDIT = wxEVT_TREE_END_LABEL_EDIT
wxEVT_COMMAND_TREE_DELETE_ITEM = wxEVT_TREE_DELETE_ITEM
wxEVT_COMMAND_TREE_GET_INFO = wxEVT_TREE_GET_INFO
wxEVT_COMMAND_TREE_SET_INFO = wxEVT_TREE_SET_INFO
wxEVT_COMMAND_TREE_ITEM_EXPANDED = wxEVT_TREE_ITEM_EXPANDED
wxEVT_COMMAND_TREE_ITEM_EXPANDING = wxEVT_TREE_ITEM_EXPANDING
wxEVT_COMMAND_TREE_ITEM_COLLAPSED = wxEVT_TREE_ITEM_COLLAPSED
wxEVT_COMMAND_TREE_ITEM_COLLAPSING = wxEVT_TREE_ITEM_COLLAPSING
wxEVT_COMMAND_TREE_SEL_CHANGED = wxEVT_TREE_SEL_CHANGED
wxEVT_COMMAND_TREE_SEL_CHANGING = wxEVT_TREE_SEL_CHANGING
wxEVT_COMMAND_TREE_KEY_DOWN = wxEVT_TREE_KEY_DOWN
wxEVT_COMMAND_TREE_ITEM_ACTIVATED = wxEVT_TREE_ITEM_ACTIVATED
wxEVT_COMMAND_TREE_ITEM_RIGHT_CLICK = wxEVT_TREE_ITEM_RIGHT_CLICK
wxEVT_COMMAND_TREE_ITEM_MIDDLE_CLICK = wxEVT_TREE_ITEM_MIDDLE_CLICK
wxEVT_COMMAND_TREE_END_DRAG = wxEVT_TREE_END_DRAG
wxEVT_COMMAND_TREE_STATE_IMAGE_CLICK = wxEVT_TREE_STATE_IMAGE_CLICK
wxEVT_COMMAND_TREE_ITEM_GETTOOLTIP = wxEVT_TREE_ITEM_GETTOOLTIP
wxEVT_COMMAND_TREE_ITEM_MENU = wxEVT_TREE_ITEM_MENU
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxSizerItem')
assert isinstance(c, etgtools.ClassDef)
tools.removeVirtuals(c)
# ctors taking a sizer transfer ownership
for m in c.find('wxSizerItem').all():
if m.findItem('sizer'):
m.find('sizer').transfer = True
c.find('AssignSizer.sizer').transfer = True
# userData args transfer ownership too, and we'll use wxPyUserData
# instead of any wxObject
for m in c.allItems():
if isinstance(m, etgtools.MethodDef) and m.findItem('userData'):
m.find('userData').transfer = True
m.find('userData').type = 'wxPyUserData*'
gud = c.find('GetUserData')
gud.type = 'wxPyUserData*'
gud.setCppCode('return dynamic_cast<wxPyUserData*>(self->GetUserData());')
# these have been deprecated for a while so go ahead and get rid of them
c.find('SetWindow').ignore()
c.find('SetSizer').ignore()
c.find('SetSpacer').ignore()
c.addPrivateCopyCtor()
#---------------------------------------------
c = module.find('wxSizer')
assert isinstance(c, etgtools.ClassDef)
tools.fixSizerClass(c)
c.addPrivateCopyCtor()
c.addPrivateAssignOp()
for func in c.findAll('Add') + c.findAll('Insert') + c.findAll('Prepend'):
if func.findItem('sizer'):
func.find('sizer').transfer = True
if func.findItem('userData'):
func.find('userData').transfer = True
func.find('userData').type = 'wxPyUserData*'
if func.findItem('item'):
func.find('item').transfer = True
c.find('GetChildren').overloads = []
c.find('GetChildren').noCopy = True
# Needs wxWin 2.6 compatibility
c.find('Remove').findOverload('(wxWindow *window)').ignore()
# deprecated and removed
c.find('SetVirtualSizeHints').ignore()
c.addPyMethod('AddMany',
'(self, items)',
doc="""\
:meth:`AddMany` is a convenience method for adding several items to a sizer
at one time. Simply pass it a list of tuples, where each tuple
consists of the parameters that you would normally pass to the :meth:`Add`
method.
""",
body="""\
for item in items:
if not isinstance(item, (tuple, list)):
item = (item, )
self.Add(*item)
""")
c.addCppMethod(
'wxSizerItem*',
'Add', '(const wxSize& size, int proportion=0, int flag=0, '
'int border=0, wxPyUserData* userData /Transfer/ = NULL)',
doc="Add a spacer using a :class:`Size` object.",
body=
"return self->Add(size->x, size->y, proportion, flag, border, userData);"
)
c.addCppMethod(
'wxSizerItem*',
'Prepend', '(const wxSize& size, int proportion=0, int flag=0, '
'int border=0, wxPyUserData* userData /Transfer/ = NULL)',
doc="Prepend a spacer using a :class:`Size` object.",
body=
"return self->Prepend(size->x, size->y, proportion, flag, border, userData);"
)
c.addCppMethod(
'wxSizerItem*',
'Insert',
'(ulong index, const wxSize& size, int proportion=0, int flag=0, '
'int border=0, wxPyUserData* userData /Transfer/ = NULL)',
doc="Insert a spacer using a :class:`Size` object.",
body=
"return self->Insert(index, size->x, size->y, proportion, flag, border, userData);"
)
c.addCppMethod('wxSizerItem*',
'Add',
'(const wxSize& size, const wxSizerFlags& flags)',
doc="Add a spacer using a :class:`Size` object.",
body="return self->Add(size->x, size->y, *flags);")
c.addCppMethod('wxSizerItem*',
'Prepend',
'(const wxSize& size, const wxSizerFlags& flags)',
doc="Prepend a spacer using a :class:`Size` object.",
body="return self->Prepend(size->x, size->y, *flags);")
c.addCppMethod(
'wxSizerItem*',
'Insert',
'(ulong index, const wxSize& size, const wxSizerFlags& flags)',
doc="Insert a spacer using a :class:`Size` object.",
body="return self->Insert(index, size->x, size->y, *flags);")
c.addPyMethod(
'__nonzero__',
'(self)',
doc=
"Can be used to test if the C++ part of the sizer still exists, with \n"
"code like this::\n\n"
" if theSizer:\n"
" doSomething()",
body="""\
import wx.siplib
return not wx.siplib.isdeleted(self)
""")
c.addPyMethod(
'__iter__',
'(self)',
doc=
"A Py convenience method that allows Sizers to act as iterables that will yield their wx.SizerItems.",
body="for item in self.GetChildren(): yield item")
c.addPyCode('Sizer.__bool__ = Sizer.__nonzero__') # For Python 3
#---------------------------------------------
c = module.find('wxBoxSizer')
tools.fixSizerClass(c)
c.find('wxBoxSizer.orient').default = 'wxHORIZONTAL'
#---------------------------------------------
c = module.find('wxStaticBoxSizer')
tools.fixSizerClass(c)
c.find('wxStaticBoxSizer.orient').default = 'wxHORIZONTAL'
#---------------------------------------------
c = module.find('wxGridSizer')
tools.fixSizerClass(c)
c.addPyMethod('CalcRowsCols',
'(self)',
doc="""\
CalcRowsCols() -> (rows, cols)
Calculates how many rows and columns will be in the sizer based
on the current number of items and also the rows, cols specified
in the constructor.
""",
body="""\
nitems = len(self.GetChildren())
rows = self.GetRows()
cols = self.GetCols()
assert rows != 0 or cols != 0, "Grid sizer must have either rows or columns fixed"
if cols != 0:
rows = (nitems + cols - 1) / cols
elif rows != 0:
cols = (nitems + rows - 1) / rows
return (rows, cols)
""")
#---------------------------------------------
c = module.find('wxFlexGridSizer')
tools.fixSizerClass(c)
#---------------------------------------------
c = module.find('wxStdDialogButtonSizer')
tools.fixSizerClass(c)
module.addPyCode("PySizer = wx.deprecated(Sizer, 'Use Sizer instead.')")
module.addItem(
tools.wxListWrapperTemplate('wxSizerItemList', 'wxSizerItem', module))
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxPalette')
tools.removeVirtuals(c)
# Add a helper function for use with the Create method and the Ctor
# accepting RGB data.
c.addCppCode("""\
// a helper function to be used in the Create method and one of the Ctors
bool _paletteCreateHelper(wxPalette* self,
PyObject* red, PyObject* green, PyObject* blue) {
bool rval = false;
wxPyThreadBlocker blocker;
char* errMsg = "Expected a sequence of integer objects";
if (!PySequence_Check(red) || !PySequence_Check(green) || !PySequence_Check(blue)) {
PyErr_SetString(PyExc_TypeError, errMsg);
return rval;
}
Py_ssize_t count = PySequence_Size(red);
if (PySequence_Size(green) != count || PySequence_Size(blue) != count) {
PyErr_SetString(PyExc_ValueError, "Sequence lengths must be equal");
return rval;
}
unsigned char* redArray = new unsigned char[count];
unsigned char* greenArray = new unsigned char[count];
unsigned char* blueArray = new unsigned char[count];
for (Py_ssize_t i = 0; i < count; i++) {
PyObject* redItem = PySequence_ITEM(red, i);
PyObject* greenItem = PySequence_ITEM(green, i);
PyObject* blueItem = PySequence_ITEM(blue, i);
if (!wxPyInt_Check(redItem) || !wxPyInt_Check(greenItem) || !wxPyInt_Check(blueItem)) {
PyErr_SetString(PyExc_TypeError, errMsg);
goto pch_exit;
}
long redLong = wxPyInt_AsLong(redItem);
long greenLong = wxPyInt_AsLong(greenItem);
long blueLong = wxPyInt_AsLong(blueItem);
Py_DECREF(redItem);
Py_DECREF(greenItem);
Py_DECREF(blueItem);
if (redLong < 0 || redLong > 255 || greenLong < 0 || greenLong > 255 || blueLong < 0 || blueLong > 255) {
PyErr_SetString(PyExc_ValueError, "Sequence values must be in the 0..255 range");
goto pch_exit;
}
redArray[i] = redLong;
greenArray[i] = greenLong;
blueArray[i] = blueLong;
}
rval = self->Create(count, redArray, greenArray, blueArray);
pch_exit:
delete[] redArray;
delete[] greenArray;
delete[] blueArray;
return rval;
}
""")
#-----------------------------------------------------------------
# Replace the constructor accepting the arrays of RGB values with one that
# understands any Python sequence.
c.find('wxPalette').findOverload('red').ignore()
c.addCppCtor('(PyObject* red, PyObject* green, PyObject* blue)',
doc=dedent("""\
Creates a palette from a set of sequences of integers,
one for each red, green and blue color components.
:param red: A sequence of integer values in the range 0..255 inclusive.
:param green: A sequence of integer values in the range 0..255 inclusive.
:param blue: A sequence of integer values in the range 0..255 inclusive.
.. note:: All sequences must be the same length.
"""),
body="""\
wxPalette* pal = new wxPalette;
_paletteCreateHelper(pal, red, green, blue);
if (PyErr_Occurred()) {
delete pal;
return NULL;
}
return pal;
""")
c.find('GetPixel.red').pyInt = True
c.find('GetPixel.green').pyInt = True
c.find('GetPixel.blue').pyInt = True
c.find('GetRGB').ignore()
c.addCppMethod('PyObject*', 'GetRGB', '(int pixel)',
pyArgsString="(pixel) -> (red, green, blue)",
doc="Returns RGB values for a given palette index.",
body="""\
unsigned char red;
unsigned char green;
unsigned char blue;
wxPyThreadBlocker blocker;
if (!self->GetRGB(pixel, &red, &green, &blue)) {
PyErr_SetString(PyExc_IndexError, "Pixel out of range");
return NULL;
}
PyObject* rv = PyTuple_New(3);
PyTuple_SetItem(rv, 0, wxPyInt_FromLong(red));
PyTuple_SetItem(rv, 1, wxPyInt_FromLong(green));
PyTuple_SetItem(rv, 2, wxPyInt_FromLong(blue));
return rv;
""")
# Replace the Create method with one that understands any kind of Python sequence
c.find('Create').ignore()
c.addCppMethod('PyObject*', 'Create', '(PyObject* red, PyObject* green, PyObject* blue)',
pyArgsString="(red, green, blue) -> bool",
doc=dedent("""\
Creates a palette from 3 sequences of integers, one for each red, blue or green component.
:param red: A sequence of integer values in the range 0..255 inclusive.
:param green: A sequence of integer values in the range 0..255 inclusive.
:param blue: A sequence of integer values in the range 0..255 inclusive.
.. note:: All sequences must be the same length.
"""),
body="""\
bool rval = _paletteCreateHelper(self, red, green, blue);
wxPyThreadBlocker blocker;
if (PyErr_Occurred())
return NULL;
if (rval)
Py_RETURN_TRUE;
else
Py_RETURN_FALSE;
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxBrush')
assert isinstance(c, etgtools.ClassDef)
tools.removeVirtuals(c)
# Set mustHaveApp on all ctors except the default ctor
for ctor in c.find('wxBrush').all():
if ctor.isCtor and ctor.argsString != '()':
ctor.mustHaveApp()
c.addCppMethod('int', '__nonzero__', '()', "return self->IsOk();")
c.addCppMethod('int', '__bool__', '()', "return self->IsOk();")
c.addCppCode("""\
#ifdef __WXMAC__
#include <wx/osx/private.h>
#endif
""")
c.addCppMethod(
'void', 'MacSetTheme', '(int macThemeBrushID)', """\
#ifdef __WXMAC__
self->SetColour(wxColour(wxMacCreateCGColorFromHITheme(macThemeBrushID)));
#else
wxPyRaiseNotImplemented();
#endif
""")
c.addAutoProperties()
# The stock Brush items are documented as simple pointers, but in reality
# they are macros that evaluate to a function call that returns a brush
# pointer, and that is only valid *after* the wx.App object has been
# created. That messes up the code that SIP generates for them, so we need
# to come up with another solution. So instead we will just create
# uninitialized brush in a block of Python code, that will then be
# initialized later when the wx.App is created.
c.addCppMethod('void',
'_copyFrom',
'(const wxBrush* other)',
"*self = *other;",
briefDoc="For internal use only.") # ??
pycode = '# These stock brushes will be initialized when the wx.App object is created.\n'
for item in module:
if '_BRUSH' in item.name:
item.ignore()
pycode += '%s = Brush()\n' % tools.removeWxPrefix(item.name)
module.addPyCode(pycode)
# it is delay-initialized, see stockgdi.sip
module.find('wxTheBrushList').ignore()
# Some aliases that should be phased out eventually, (sooner rather than
# later.) They are already gone (or wrapped by an #if) in the C++ code,
# and so are not found in the documentation...
module.addPyCode("""\
wx.STIPPLE_MASK_OPAQUE = int(wx.BRUSHSTYLE_STIPPLE_MASK_OPAQUE)
wx.STIPPLE_MASK = int(wx.BRUSHSTYLE_STIPPLE_MASK)
wx.STIPPLE = int(wx.BRUSHSTYLE_STIPPLE)
wx.BDIAGONAL_HATCH = int(wx.BRUSHSTYLE_BDIAGONAL_HATCH)
wx.CROSSDIAG_HATCH = int(wx.BRUSHSTYLE_CROSSDIAG_HATCH)
wx.FDIAGONAL_HATCH = int(wx.BRUSHSTYLE_FDIAGONAL_HATCH)
wx.CROSS_HATCH = int(wx.BRUSHSTYLE_CROSS_HATCH)
wx.HORIZONTAL_HATCH = int(wx.BRUSHSTYLE_HORIZONTAL_HATCH)
wx.VERTICAL_HATCH = int(wx.BRUSHSTYLE_VERTICAL_HATCH)
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode('#include <wx/wx.h>')
#---------------------------------------
# wxPoint2D and wxRect2D tweaks
c = module.find('wxPoint2DDouble')
c.renameClass('Point2D')
c.find('wxPoint2DDouble').findOverload('wxPoint2DInt').ignore()
c.find('m_x').pyName = 'x'
c.find('m_y').pyName = 'y'
c.find('GetFloor.x').out = True
c.find('GetFloor.y').out = True
c.find('GetRounded.x').out = True
c.find('GetRounded.y').out = True
# these have link errors
c.find('operator/=').findOverload('wxDouble').ignore()
c.find('operator*=').findOverload('wxDouble').ignore()
c.convertFromPyObject = tools.convertTwoDoublesTemplate('wxPoint2DDouble')
c.addCppMethod('PyObject*',
'Get',
'()',
"""\
wxPyThreadBlocker blocker;
return sipBuildResult(0, "(dd)", self->m_x, self->m_y);
""",
briefDoc="""\
Get() -> (x,y)\n
Return the x and y properties as a tuple.""")
tools.addGetIMMethodTemplate(module, c, ['x', 'y'])
# Add sequence protocol methods and other goodies
c.addPyMethod('__str__', '(self)', 'return str(self.Get())')
c.addPyMethod('__repr__', '(self)', 'return "wx.Point2D"+str(self.Get())')
c.addPyMethod('__len__', '(self)', 'return len(self.Get())')
c.addPyMethod('__nonzero__', '(self)', 'return self.Get() != (0,0)')
c.addPyMethod('__reduce__', '(self)', 'return (Point2D, self.Get())')
c.addPyMethod('__getitem__', '(self, idx)', 'return self.Get()[idx]')
c.addPyMethod(
'__setitem__', '(self, idx, val)', """\
if idx == 0: self.x = val
elif idx == 1: self.y = val
else: raise IndexError
""")
c.addPyCode('Point2D.__safe_for_unpickling__ = True')
# ignore these operator methods, since we are not wrapping the Int version
c.find('operator*=').findOverload('wxInt32').ignore()
c.find('operator/=').findOverload('wxInt32').ignore()
# ignore all the global operators too, there is no equivallent in Python
for item in module:
if isinstance(
item,
etgtools.FunctionDef) and item.name.startswith('operator'):
for f in item.all():
f.ignore()
c = module.find('wxRect2DDouble')
c.renameClass('Rect2D')
c.find('m_x').pyName = 'x'
c.find('m_y').pyName = 'y'
c.find('m_width').pyName = 'width'
c.find('m_height').pyName = 'height'
c.convertFromPyObject = tools.convertFourDoublesTemplate('wxRect2DDouble')
c.addCppMethod('PyObject*',
'Get',
'()',
"""\
wxPyThreadBlocker blocker;
return sipBuildResult(0, "(dddd)",
self->m_x, self->m_y, self->m_width, self->m_height);
""",
briefDoc="""\
Get() -> (x, y, width, height)\n
Return the rectangle's properties as a tuple.""")
tools.addGetIMMethodTemplate(module, c, ['x', 'y', 'width', 'height'])
# Add sequence protocol methods and other goodies
c.addPyMethod('__str__', '(self)', 'return str(self.Get())')
c.addPyMethod('__repr__', '(self)', 'return "wx.Rect2D"+str(self.Get())')
c.addPyMethod('__len__', '(self)', 'return len(self.Get())')
c.addPyMethod('__nonzero__', '(self)', 'return self.Get() != (0,0,0,0)')
c.addPyMethod('__reduce__', '(self)', 'return (Rect2D, self.Get())')
c.addPyMethod('__getitem__', '(self, idx)', 'return self.Get()[idx]')
c.addPyMethod(
'__setitem__', '(self, idx, val)', """\
if idx == 0: self.x = val
elif idx == 1: self.y = val
elif idx == 2: self.width = val
elif idx == 3: self.height = val
else: raise IndexError
""")
c.addPyCode('Rect2D.__safe_for_unpickling__ = True')
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxDC')
assert isinstance(c, etgtools.ClassDef)
c.mustHaveApp()
c.addPrivateCopyCtor()
c.addPublic()
tools.removeVirtuals(c)
# Keep only the wxSize overloads of these
c.find('GetSize').findOverload('wxCoord').ignore()
c.find('GetSizeMM').findOverload('wxCoord').ignore()
# TODO: needs wxAffineMatrix2D support.
#c.find('GetTransformMatrix').ignore()
#c.find('SetTransformMatrix').ignore()
# remove wxPoint* overloads, we use the wxPointList ones
c.find('DrawLines').findOverload('wxPoint points').ignore()
c.find('DrawPolygon').findOverload('wxPoint points').ignore()
c.find('DrawSpline').findOverload('wxPoint points').ignore()
# TODO: we'll need a custom method implementation for this since there
# are multiple array parameters involved...
c.find('DrawPolyPolygon').ignore()
# Add output param annotations so the generated docstrings will be correct
c.find('GetUserScale.x').out = True
c.find('GetUserScale.y').out = True
c.find('GetLogicalScale.x').out = True
c.find('GetLogicalScale.y').out = True
c.find('GetLogicalOrigin').overloads = []
c.find('GetLogicalOrigin.x').out = True
c.find('GetLogicalOrigin.y').out = True
c.find('GetClippingBox.x').out = True
c.find('GetClippingBox.y').out = True
c.find('GetClippingBox.width').out = True
c.find('GetClippingBox.height').out = True
c.addPyMethod(
'GetClippingRect',
'(self)',
doc="Gets the rectangle surrounding the current clipping region",
body="return wx.Rect(*self.GetClippingBox())")
# Deal with the text-extent methods. In Classic we renamed one overloaded
# method with a "Full" name, and the simpler one was left with the
# original name. I think a simpler approach here will be to remove the
# simple version, rename the Full version as before, and then add a
# CppMethod to reimplement the simple version.
for name in ['GetTextExtent', 'GetMultiLineTextExtent']:
m = c.find(name)
# if these fail then double-check order of parsed methods, etc.
assert len(m.overloads) == 1
assert 'wxCoord' not in m.overloads[0].argsString
m.overloads = []
c.find('GetTextExtent').pyName = 'GetFullTextExtent'
c.find('GetMultiLineTextExtent').pyName = 'GetFullMultiLineTextExtent'
# Set output parameters
c.find('GetTextExtent.w').out = True
c.find('GetTextExtent.h').out = True
c.find('GetTextExtent.descent').out = True
c.find('GetTextExtent.externalLeading').out = True
c.find('GetMultiLineTextExtent.w').out = True
c.find('GetMultiLineTextExtent.h').out = True
c.find('GetMultiLineTextExtent.heightLine').out = True
# Update the docs to remove references to overloading, pointer values, etc.
m = c.find('GetTextExtent')
m.briefDoc = "Gets the dimensions of the string as it would be drawn."
m.detailedDoc = [
dedent("""\
The ``string`` parameter is the string to measure. The return value
is a tuple of integer values consisting of ``widget``, ``height``,
``decent`` and ``externalLeading``. The ``descent`` is the dimension
from the baseline of the font to the bottom of the descender, and
``externalLeading`` is any extra vertical space added to the font by the
font designer (usually is zero).
If the optional parameter ``font`` is specified and valid, then it is
used for the text extent calculation. Otherwise the currently selected
font is.
.. seealso:: :class:`wx.Font`, :meth:`~wx.DC.SetFont`,
:meth:`~wx.DC.GetPartialTextExtents, :meth:`~wx.DC.GetMultiLineTextExtent`
""")
]
m = c.find('GetMultiLineTextExtent')
m.briefDoc = "Gets the dimensions of the string as it would be drawn."
m.detailedDoc = [
dedent("""\
The ``string`` parameter is the string to measure. The return value
is a tuple of integer values consisting of ``widget``, ``height`` and
``heightLine``. The ``heightLine`` is the the height of a single line.
If the optional parameter ``font`` is specified and valid, then it is
used for the text extent calculation. Otherwise the currently selected
font is.
.. note:: This function works with both single-line and multi-line strings.
.. seealso:: :class:`wx.Font`, :meth:`~wx.DC.SetFont`,
:meth:`~wx.DC.GetPartialTextExtents, :meth:`~wx.DC.GetTextExtent`
""")
]
# Now add the simpler versions of the extent methods
c.addCppMethod('wxSize*',
'GetTextExtent',
'(const wxString& st)',
isConst=True,
doc=dedent("""\
Return the dimensions of the given string's text extent using the
currently selected font.
:param st: The string to be measured
.. seealso:: :meth:`~wx.DC.GetFullTextExtent`
"""),
body="""\
return new wxSize(self->GetTextExtent(*st));
""",
overloadOkay=False,
factory=True)
c.addCppMethod('wxSize*',
'GetMultiLineTextExtent',
'(const wxString& st)',
isConst=True,
doc=dedent("""\
Return the dimensions of the given string's text extent using the
currently selected font, taking into account multiple lines if
present in the string.
:param st: The string to be measured
.. seealso:: :meth:`~wx.DC.GetFullMultiLineTextExtent`
"""),
body="""\
return new wxSize(self->GetMultiLineTextExtent(*st));
""",
overloadOkay=False,
factory=True)
# Add some alternate implementations for other DC methods, in order to
# avoid using parameters as return values, etc. as well as Classic
# compatibility.
c.find('GetPixel').ignore()
c.addCppMethod('wxColour*',
'GetPixel',
'(wxCoord x, wxCoord y)',
doc="Gets the colour at the specified location on the DC.",
body="""\
wxColour* col = new wxColour;
self->GetPixel(x, y, col);
return col;
""",
factory=True)
# Return the rect instead of using an output parameter
m = c.find('DrawLabel').findOverload('rectBounding')
m.type = 'wxRect*'
m.find('rectBounding').ignore()
m.factory = True # a new instance of wxRect is being created
m.setCppCode("""\
wxRect rv;
self->DrawLabel(*text, *bitmap, *rect, alignment, indexAccel, &rv);
return new wxRect(rv);
""")
c.addPyCode(
'DC.DrawImageLabel = wx.deprecated(DC.DrawLabel, "Use DrawLabel instead.")'
)
# Return the array instead of using an output parameter
m = c.find('GetPartialTextExtents')
m.type = 'wxArrayInt*'
m.find('widths').ignore()
m.factory = True # a new instance is being created
m.setCppCode("""\
wxArrayInt rval;
self->GetPartialTextExtents(*text, rval);
return new wxArrayInt(rval);
""")
c.addCppMethod('int', '__nonzero__', '()', """\
return self->IsOk();
""")
c.addPyMethod(
'GetBoundingBox',
'(self)',
doc="""\
GetBoundingBox() -> (x1,y1, x2,y2)\n
Returns the min and max points used in drawing commands so far.""",
body="return (self.MinX(), self.MinY(), self.MaxX(), self.MaxY())")
c.addCppMethod(
'long', 'GetHDC', '()', """\
#ifdef __WXMSW__
return (long)self->GetHandle();
#else
wxPyRaiseNotImplemented();
return 0;
#endif""")
c.addCppMethod(
'void*', 'GetCGContext', '()', """\
#ifdef __WXMAC__
return self->GetHandle();
#else
wxPyRaiseNotImplemented();
return NULL;
#endif""")
c.addCppMethod(
'void*', 'GetGdkDrawable', '()', """\
#ifdef __WXGTK__
return self->GetHandle();
#else
wxPyRaiseNotImplemented();
return NULL;
#endif""")
c.addPyCode(
'DC.GetHDC = wx.deprecated(DC.GetHDC, "Use GetHandle instead.")')
c.addPyCode(
'DC.GetCGContext = wx.deprecated(DC.GetCGContext, "Use GetHandle instead.")'
)
c.addPyCode(
'DC.GetGdkDrawable = wx.deprecated(DC.GetGdkDrawable, "Use GetHandle instead.")'
)
# This file contains implementations of functions for quickly drawing
# lists of items on the DC. They are called from the CppMethods defined
# below, which in turn are called from the PyMethods below that.
c.includeCppCode('src/dc_ex.cpp')
c.addCppMethod(
'PyObject*',
'_DrawPointList',
'(PyObject* pyCoords, PyObject* pyPens, PyObject* pyBrushes)',
body=
"return wxPyDrawXXXList(*self, wxPyDrawXXXPoint, pyCoords, pyPens, pyBrushes);"
)
c.addCppMethod(
'PyObject*',
'_DrawLineList',
'(PyObject* pyCoords, PyObject* pyPens, PyObject* pyBrushes)',
body=
"return wxPyDrawXXXList(*self, wxPyDrawXXXLine, pyCoords, pyPens, pyBrushes);"
)
c.addCppMethod(
'PyObject*',
'_DrawRectangleList',
'(PyObject* pyCoords, PyObject* pyPens, PyObject* pyBrushes)',
body=
"return wxPyDrawXXXList(*self, wxPyDrawXXXRectangle, pyCoords, pyPens, pyBrushes);"
)
c.addCppMethod(
'PyObject*',
'_DrawEllipseList',
'(PyObject* pyCoords, PyObject* pyPens, PyObject* pyBrushes)',
body=
"return wxPyDrawXXXList(*self, wxPyDrawXXXEllipse, pyCoords, pyPens, pyBrushes);"
)
c.addCppMethod(
'PyObject*',
'_DrawPolygonList',
'(PyObject* pyCoords, PyObject* pyPens, PyObject* pyBrushes)',
body=
"return wxPyDrawXXXList(*self, wxPyDrawXXXPolygon, pyCoords, pyPens, pyBrushes);"
)
c.addCppMethod(
'PyObject*',
'_DrawTextList',
'(PyObject* textList, PyObject* pyPoints, PyObject* foregroundList, PyObject* backgroundList)',
body=
"return wxPyDrawTextList(*self, textList, pyPoints, foregroundList, backgroundList);"
)
c.addPyMethod('DrawPointList',
'(self, points, pens=None)',
doc="""\
Draw a list of points as quickly as possible.
:param points: A sequence of 2-element sequences representing
each point to draw, (x,y).
:param pens: If None, then the current pen is used. If a single
pen then it will be used for all points. If a list of
pens then there should be one for each point in points.
""",
body="""\
if pens is None:
pens = []
elif isinstance(pens, wx.Pen):
pens = [pens]
elif len(pens) != len(points):
raise ValueError('points and pens must have same length')
return self._DrawPointList(points, pens, [])
""")
c.addPyMethod('DrawLineList',
'(self, lines, pens=None)',
doc="""\
Draw a list of lines as quickly as possible.
:param lines: A sequence of 4-element sequences representing
each line to draw, (x1,y1, x2,y2).
:param pens: If None, then the current pen is used. If a
single pen then it will be used for all lines. If
a list of pens then there should be one for each line
in lines.
""",
body="""\
if pens is None:
pens = []
elif isinstance(pens, wx.Pen):
pens = [pens]
elif len(pens) != len(lines):
raise ValueError('lines and pens must have same length')
return self._DrawLineList(lines, pens, [])
""")
c.addPyMethod('DrawRectangleList',
'(self, rectangles, pens=None, brushes=None)',
doc="""\
Draw a list of rectangles as quickly as possible.
:param rectangles: A sequence of 4-element sequences representing
each rectangle to draw, (x,y, w,h).
:param pens: If None, then the current pen is used. If a
single pen then it will be used for all rectangles.
If a list of pens then there should be one for each
rectangle in rectangles.
:param brushes: A brush or brushes to be used to fill the rectagles,
with similar semantics as the pens parameter.
""",
body="""\
if pens is None:
pens = []
elif isinstance(pens, wx.Pen):
pens = [pens]
elif len(pens) != len(rectangles):
raise ValueError('rectangles and pens must have same length')
if brushes is None:
brushes = []
elif isinstance(brushes, wx.Brush):
brushes = [brushes]
elif len(brushes) != len(rectangles):
raise ValueError('rectangles and brushes must have same length')
return self._DrawRectangleList(rectangles, pens, brushes)
""")
c.addPyMethod('DrawEllipseList',
'(self, ellipses, pens=None, brushes=None)',
doc="""\
Draw a list of ellipses as quickly as possible.
:param ellipses: A sequence of 4-element sequences representing
each ellipse to draw, (x,y, w,h).
:param pens: If None, then the current pen is used. If a
single pen then it will be used for all ellipses.
If a list of pens then there should be one for each
ellipse in ellipses.
:param brushes: A brush or brushes to be used to fill the ellipses,
with similar semantics as the pens parameter.
""",
body="""\
if pens is None:
pens = []
elif isinstance(pens, wx.Pen):
pens = [pens]
elif len(pens) != len(ellipses):
raise ValueError('ellipses and pens must have same length')
if brushes is None:
brushes = []
elif isinstance(brushes, wx.Brush):
brushes = [brushes]
elif len(brushes) != len(ellipses):
raise ValueError('ellipses and brushes must have same length')
return self._DrawEllipseList(ellipses, pens, brushes)
""")
c.addPyMethod('DrawPolygonList',
'(self, polygons, pens=None, brushes=None)',
doc="""\
Draw a list of polygons, each of which is a list of points.
:param polygons: A sequence of sequences of sequences.
[[(x1,y1),(x2,y2),(x3,y3)...], [(x1,y1),(x2,y2),(x3,y3)...]]
:param pens: If None, then the current pen is used. If a
single pen then it will be used for all polygons.
If a list of pens then there should be one for each
polygon.
:param brushes: A brush or brushes to be used to fill the polygons,
with similar semantics as the pens parameter.
""",
body="""\
if pens is None:
pens = []
elif isinstance(pens, wx.Pen):
pens = [pens]
elif len(pens) != len(polygons):
raise ValueError('polygons and pens must have same length')
if brushes is None:
brushes = []
elif isinstance(brushes, wx.Brush):
brushes = [brushes]
elif len(brushes) != len(polygons):
raise ValueError('polygons and brushes must have same length')
return self._DrawPolygonList(polygons, pens, brushes)
""")
c.addPyMethod(
'DrawTextList',
'(self, textList, coords, foregrounds=None, backgrounds=None)',
doc="""\
Draw a list of strings using a list of coordinants for positioning each string.
:param textList: A list of strings
:param coords: A list of (x,y) positions
:param foregrounds: A list of `wx.Colour` objects to use for the
foregrounds of the strings.
:param backgrounds: A list of `wx.Colour` objects to use for the
backgrounds of the strings.
NOTE: Make sure you set background mode to wx.Solid (DC.SetBackgroundMode)
If you want backgrounds to do anything.
""",
body="""\
if type(textList) == type(''):
textList = [textList]
elif len(textList) != len(coords):
raise ValueError('textlist and coords must have same length')
if foregrounds is None:
foregrounds = []
elif isinstance(foregrounds, wx.Colour):
foregrounds = [foregrounds]
elif len(foregrounds) != len(coords):
raise ValueError('foregrounds and coords must have same length')
if backgrounds is None:
backgrounds = []
elif isinstance(backgrounds, wx.Colour):
backgrounds = [backgrounds]
elif len(backgrounds) != len(coords):
raise ValueError('backgrounds and coords must have same length')
return self._DrawTextList(textList, coords, foregrounds, backgrounds)
""")
#-----------------------------------------------------------------
c = module.find('wxDCClipper')
assert isinstance(c, etgtools.ClassDef)
c.addPrivateCopyCtor()
# context manager methods
c.addPyMethod('__enter__', '(self)', 'return self')
c.addPyMethod('__exit__', '(self, exc_type, exc_val, exc_tb)',
'return False')
#-----------------------------------------------------------------
c = module.find('wxDCBrushChanger')
assert isinstance(c, etgtools.ClassDef)
c.addPrivateCopyCtor()
# context manager methods
c.addPyMethod('__enter__', '(self)', 'return self')
c.addPyMethod('__exit__', '(self, exc_type, exc_val, exc_tb)',
'return False')
#-----------------------------------------------------------------
c = module.find('wxDCPenChanger')
assert isinstance(c, etgtools.ClassDef)
c.addPrivateCopyCtor()
# context manager methods
c.addPyMethod('__enter__', '(self)', 'return self')
c.addPyMethod('__exit__', '(self, exc_type, exc_val, exc_tb)',
'return False')
#-----------------------------------------------------------------
c = module.find('wxDCTextColourChanger')
assert isinstance(c, etgtools.ClassDef)
c.addPrivateCopyCtor()
# context manager methods
c.addPyMethod('__enter__', '(self)', 'return self')
c.addPyMethod('__exit__', '(self, exc_type, exc_val, exc_tb)',
'return False')
#-----------------------------------------------------------------
c = module.find('wxDCFontChanger')
assert isinstance(c, etgtools.ClassDef)
c.addPrivateCopyCtor()
# context manager methods
c.addPyMethod('__enter__', '(self)', 'return self')
c.addPyMethod('__exit__', '(self, exc_type, exc_val, exc_tb)',
'return False')
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode("#include <wx/dataview.h>")
for item in module.allItems():
if hasattr(item, 'type') and 'wxVariant' in item.type:
item.type = item.type.replace('wxVariant', 'wxDVCVariant')
#-----------------------------------------------------------------
c = module.find('wxDataViewItem')
assert isinstance(c, etgtools.ClassDef)
c.addCppMethod('int', '__nonzero__', '()', """\
return self->IsOk();
""")
c.addCppMethod('long', '__hash__', '()', """\
return (long)self->GetID();
""")
c.addCppMethod('bool', '__eq__', '(wxDataViewItem* other)',
"return (self->GetID() == other->GetID());")
c.addCppMethod('bool', '__ne__', '(wxDataViewItem* other)',
"return (self->GetID() != other->GetID());")
c.addAutoProperties()
module.addItem(
tools.wxArrayWrapperTemplate('wxDataViewItemArray', 'wxDataViewItem',
module))
module.addPyCode("NullDataViewItem = DataViewItem()")
#-----------------------------------------------------------------
c = module.find('wxDataViewModel')
c.addAutoProperties()
tools.fixRefCountedClass(c)
c.find('~wxDataViewModel').ignore(False)
c.find('AddNotifier.notifier').transfer = True
c.find('RemoveNotifier.notifier').transferBack = True
# Change the GetValue method to return the value instead of passing it
# through a parameter for modification.
c.find('GetValue.variant').out = True
# The DataViewItemObjectMapper class helps map from data items to Python
# objects, and is used as a base class of PyDataViewModel as a
# convenience.
module.addPyClass(
'DataViewItemObjectMapper', ['object'],
doc="""\
This class provides a mechanism for mapping between Python objects and the
:class:`DataViewItem` objects used by the :class:`DataViewModel` for tracking the items in
the view. The ID used for the item is the id() of the Python object. Use
:meth:`ObjectToItem` to create a :class:`DataViewItem` using a Python object as its ID,
and use :meth:`ItemToObject` to fetch that Python object again later for a given
:class:`DataViewItem`.
By default a regular dictionary is used to implement the ID to object
mapping. Optionally a WeakValueDictionary can be useful when there will be
a high turnover of objects and mantaining an extra reference to the
objects would be unwise. If weak references are used then the objects
associated with data items must be weak-referenceable. (Things like
stock lists and dictionaries are not.) See :meth:`UseWeakRefs`.
This class is used in :class:`PyDataViewModel` as a mixin for convenience.
""",
items=[
PyFunctionDef('__init__',
'(self)',
body="""\
self.mapper = dict()
self.usingWeakRefs = False
"""),
PyFunctionDef(
'ObjectToItem',
'(self, obj)',
doc=
"Create a :class:`DataViewItem` for the object, and remember the ID-->obj mapping.",
body="""\
import sys
oid = id(obj)
while oid > sys.maxsize:
# risk of conflict here... May need some more thought.
oid -= sys.maxsize
self.mapper[oid] = obj
return DataViewItem(oid)
"""),
PyFunctionDef(
'ItemToObject',
'(self, item)',
doc="Retrieve the object that was used to create an item.",
body="""\
oid = int(item.GetID())
return self.mapper[oid]
"""),
PyFunctionDef('UseWeakRefs',
'(self, flag)',
doc="""\
Switch to or from using a weak value dictionary for keeping the ID to
object map.""",
body="""\
if flag == self.usingWeakRefs:
return
if flag:
import weakref
newmap = weakref.WeakValueDictionary()
else:
newmap = dict()
newmap.update(self.mapper)
self.mapper = newmap
self.usingWeakRefs = flag
"""),
])
module.addPyClass(
'PyDataViewModel', ['DataViewModel', 'DataViewItemObjectMapper'],
doc=
"A convenience class that is a :class:`DataViewModel` combined with an object mapper.",
items=[
PyFunctionDef('__init__',
'(self)',
body="""\
DataViewModel.__init__(self)
DataViewItemObjectMapper.__init__(self)
""")
])
#-----------------------------------------------------------------
c = module.find('wxDataViewListModel')
c.addAutoProperties()
tools.fixRefCountedClass(c)
# Change the GetValueByRow method to return the value instead of passing
# it through a parameter for modification.
c.find('GetValueByRow.variant').out = True
# declare implementations for base class virtuals
c.addItem(
etgtools.WigCode("""\
virtual wxDataViewItem GetParent( const wxDataViewItem &item ) const;
virtual bool IsContainer( const wxDataViewItem &item ) const;
virtual void GetValue( wxDVCVariant &variant /Out/, const wxDataViewItem &item, unsigned int col ) const [void ( wxDVCVariant &variant, const wxDataViewItem &item, unsigned int col )];
virtual bool SetValue( const wxDVCVariant &variant, const wxDataViewItem &item, unsigned int col );
virtual bool GetAttr(const wxDataViewItem &item, unsigned int col, wxDataViewItemAttr &attr) const;
virtual bool IsEnabled(const wxDataViewItem &item, unsigned int col) const;
virtual bool IsListModel() const;
"""))
# Add some of the pure virtuals since there are undocumented
# implementations of them in these classes. The others will need to be
# implemented in Python classes derived from these.
for name in ['wxDataViewIndexListModel', 'wxDataViewVirtualListModel']:
c = module.find(name)
c.addItem(
etgtools.WigCode("""\
virtual unsigned int GetRow(const wxDataViewItem& item) const;
virtual unsigned int GetCount() const;
virtual unsigned int GetChildren( const wxDataViewItem &item, wxDataViewItemArray &children ) const;
"""))
# compatibility aliases
module.addPyCode("""\
PyDataViewIndexListModel = wx.deprecated(DataViewIndexListModel)
PyDataViewVirtualListModel = wx.deprecated(DataViewVirtualListModel)
""")
#-----------------------------------------------------------------
def _fixupBoolGetters(method, sig):
method.type = 'void'
method.find('value').out = True
method.find('value').type = 'wxDVCVariant&'
method.cppSignature = sig
c = module.find('wxDataViewRenderer')
c.addPrivateCopyCtor()
c.abstract = True
c.addAutoProperties()
c.find('GetView').ignore(False)
# Change variant getters to return the value
for name, sig in [
('GetValue', 'bool (wxVariant& value)'),
('GetValueFromEditorCtrl',
'bool (wxWindow * editor, wxVariant& value)'),
]:
_fixupBoolGetters(c.find(name), sig)
m = c.find('SetValue')
m.find('value').type = 'wxDVCVariant&'
m.cppSignature = 'bool (const wxVariant& value)'
c = module.find('wxDataViewCustomRenderer')
m = c.find('GetValueFromEditorCtrl')
_fixupBoolGetters(m, 'bool (wxWindow * editor, wxVariant& value)')
# Change the virtual method handler code to follow the same pattern as the
# tweaked public API, namely that the value is the return value instead of
# an out parameter.
m.virtualCatcherCode = """\
PyObject *sipResObj = sipCallMethod(&sipIsErr, sipMethod, "D", editor, sipType_wxWindow, NULL);
if (sipResObj == Py_None) {
sipRes = false;
} else {
sipRes = true;
sipParseResult(&sipIsErr, sipMethod, sipResObj, "H5", sipType_wxDVCVariant, &value);
}
"""
c.find('GetTextExtent').ignore(False)
module.addPyCode("""\
PyDataViewCustomRenderer = wx.deprecated(DataViewCustomRenderer,
"Use DataViewCustomRenderer instead")"""
)
# Add the pure virtuals since there are undocumented implementations of
# them in all these classes
for name in [
'wxDataViewTextRenderer',
'wxDataViewIconTextRenderer',
'wxDataViewProgressRenderer',
'wxDataViewSpinRenderer',
'wxDataViewToggleRenderer',
'wxDataViewChoiceRenderer',
#'wxDataViewChoiceByIndexRenderer',
'wxDataViewDateRenderer',
'wxDataViewBitmapRenderer',
]:
c = module.find(name)
c.addAutoProperties()
c.addItem(
etgtools.WigCode("""\
virtual bool SetValue( const wxDVCVariant &value ) [bool (const wxVariant& value)];
virtual void GetValue( wxDVCVariant &value /Out/ ) const [bool (wxVariant& value)];
%Property(name=Value, get=GetValue, set=SetValue)
""",
protection='public'))
# The SpinRenderer has a few additional pure virtuals that need to be declared
# since it derives from DataViewCustomRenderer
c = module.find('wxDataViewSpinRenderer')
c.addItem(
etgtools.WigCode("""\
virtual wxSize GetSize() const;
virtual bool Render(wxRect cell, wxDC* dc, int state);
""",
protection='public'))
#-----------------------------------------------------------------
c = module.find('wxDataViewColumn')
for m in c.find('wxDataViewColumn').all():
m.find('renderer').transfer = True
# declare the virtuals from wxSettableHeaderColumn
c.addItem(
etgtools.WigCode("""\
virtual void SetTitle(const wxString& title);
virtual wxString GetTitle() const;
virtual void SetBitmap(const wxBitmap& bitmap);
virtual wxBitmap GetBitmap() const;
virtual void SetWidth(int width);
virtual int GetWidth() const;
virtual void SetMinWidth(int minWidth);
virtual int GetMinWidth() const;
virtual void SetAlignment(wxAlignment align);
virtual wxAlignment GetAlignment() const;
virtual void SetFlags(int flags);
virtual int GetFlags() const;
virtual bool IsSortKey() const;
virtual void SetSortOrder(bool ascending);
virtual bool IsSortOrderAscending() const;
virtual void SetResizeable(bool resizable);
virtual void SetSortable(bool sortable);
virtual void SetReorderable(bool reorderable);
virtual void SetHidden(bool hidden);
"""))
c.addAutoProperties()
c.addProperty('Title', 'GetTitle', 'SetTitle')
c.addProperty('Bitmap', 'GetBitmap', 'SetBitmap')
c.addProperty('Width', 'GetWidth', 'SetWidth')
c.addProperty('MinWidth', 'GetMinWidth', 'SetMinWidth')
c.addProperty('Alignment', 'GetAlignment', 'SetAlignment')
c.addProperty('Flags', 'GetFlags', 'SetFlags')
c.addProperty('SortOrder', 'IsSortOrderAscending', 'SetSortOrder')
#-----------------------------------------------------------------
c = module.find('wxDataViewCtrl')
tools.fixWindowClass(c)
module.addGlobalStr('wxDataViewCtrlNameStr', c)
c.find('AssociateModel.model').transfer = True
c.find('AssociateModel').pyName = '_AssociateModel'
c.addPyMethod('AssociateModel',
'(self, model)',
doc="""\
Associates a :class:`DataViewModel` with the control.
Ownership of the model object is passed to C++, however it
is reference counted so it can be shared with other views.
""",
body="""\
import wx.siplib
wasPyOwned = wx.siplib.ispyowned(model)
self._AssociateModel(model)
# Ownership of the python object has just been transferred to
# C++, so DecRef the C++ instance associated with this python
# reference.
if wasPyOwned:
model.DecRef()
""")
c.find('PrependColumn.col').transfer = True
c.find('InsertColumn.col').transfer = True
c.find('AppendColumn.col').transfer = True
c.addPyMethod(
'GetColumns',
'(self)',
doc="Returns a list of column objects.",
body="return [self.GetColumn(i) for i in range(self.GetColumnCount())]"
)
c.find('GetSelections').ignore()
c.addCppMethod('wxDataViewItemArray*',
'GetSelections',
'()',
isConst=True,
factory=True,
doc="Returns a list of the currently selected items.",
body="""\
wxDataViewItemArray* selections = new wxDataViewItemArray;
self->GetSelections(*selections);
return selections;
""")
# Pythonize HitTest
c.find('HitTest').ignore()
c.addCppMethod('PyObject*',
'HitTest',
'(const wxPoint& point)',
isConst=True,
doc="""\
HitTest(point) -> (item, col)\n
Returns the item and column located at point, as a 2 element tuple.
""",
body="""\
wxDataViewItem* item = new wxDataViewItem();;
wxDataViewColumn* col = NULL;
self->HitTest(*point, *item, col);
wxPyThreadBlocker blocker;
PyObject* value = PyTuple_New(2);
PyObject* item_obj =
wxPyConstructObject((void*)item, wxT("wxDataViewItem"), 1); // owned
PyObject* col_obj;
if (col) {
col_obj = wxPyConstructObject((void*)col, wxT("wxDataViewColumn"), 0); // not owned
} else {
col_obj = Py_None;
Py_INCREF(Py_None);
}
PyTuple_SET_ITEM(value, 0, item_obj);
PyTuple_SET_ITEM(value, 1, col_obj);
// PyTuple steals a reference, so we don't need to decref the items here
return value;
""")
#-----------------------------------------------------------------
c = module.find('wxDataViewEvent')
tools.fixEventClass(c)
c.addProperty('EditCancelled', 'IsEditCancelled', 'SetEditCanceled')
c.find('SetCache.from').name = 'from_'
c.find('SetCache.to').name = 'to_'
c.find('GetDataBuffer').ignore()
c.addCppMethod('PyObject*',
'GetDataBuffer',
'()',
isConst=True,
doc="Gets the data buffer for a drop data transfer",
body="""\
wxPyThreadBlocker blocker;
return wxPyMakeBuffer(self->GetDataBuffer(), self->GetDataSize(), true);
""")
# TODO: SetDataBuffer
c.find('SetDataObject.obj').transfer = True
module.addPyCode("""\
EVT_DATAVIEW_SELECTION_CHANGED = wx.PyEventBinder( wxEVT_DATAVIEW_SELECTION_CHANGED, 1)
EVT_DATAVIEW_ITEM_ACTIVATED = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_ACTIVATED, 1)
EVT_DATAVIEW_ITEM_COLLAPSED = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_COLLAPSED, 1)
EVT_DATAVIEW_ITEM_EXPANDED = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_EXPANDED, 1)
EVT_DATAVIEW_ITEM_COLLAPSING = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_COLLAPSING, 1)
EVT_DATAVIEW_ITEM_EXPANDING = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_EXPANDING, 1)
EVT_DATAVIEW_ITEM_START_EDITING = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_START_EDITING, 1)
EVT_DATAVIEW_ITEM_EDITING_STARTED = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_EDITING_STARTED, 1)
EVT_DATAVIEW_ITEM_EDITING_DONE = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_EDITING_DONE, 1)
EVT_DATAVIEW_ITEM_VALUE_CHANGED = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_VALUE_CHANGED, 1)
EVT_DATAVIEW_ITEM_CONTEXT_MENU = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_CONTEXT_MENU, 1)
EVT_DATAVIEW_COLUMN_HEADER_CLICK = wx.PyEventBinder( wxEVT_DATAVIEW_COLUMN_HEADER_CLICK, 1)
EVT_DATAVIEW_COLUMN_HEADER_RIGHT_CLICK = wx.PyEventBinder( wxEVT_DATAVIEW_COLUMN_HEADER_RIGHT_CLICK, 1)
EVT_DATAVIEW_COLUMN_SORTED = wx.PyEventBinder( wxEVT_DATAVIEW_COLUMN_SORTED, 1)
EVT_DATAVIEW_COLUMN_REORDERED = wx.PyEventBinder( wxEVT_DATAVIEW_COLUMN_REORDERED, 1)
EVT_DATAVIEW_ITEM_BEGIN_DRAG = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_BEGIN_DRAG, 1)
EVT_DATAVIEW_ITEM_DROP_POSSIBLE = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_DROP_POSSIBLE, 1)
EVT_DATAVIEW_ITEM_DROP = wx.PyEventBinder( wxEVT_DATAVIEW_ITEM_DROP, 1)
EVT_DATAVIEW_CACHE_HINT = wx.PyEventBinder( wxEVT_DATAVIEW_CACHE_HINT, 1 )
# deprecated wxEVT aliases
wxEVT_COMMAND_DATAVIEW_SELECTION_CHANGED = wxEVT_DATAVIEW_SELECTION_CHANGED
wxEVT_COMMAND_DATAVIEW_ITEM_ACTIVATED = wxEVT_DATAVIEW_ITEM_ACTIVATED
wxEVT_COMMAND_DATAVIEW_ITEM_COLLAPSED = wxEVT_DATAVIEW_ITEM_COLLAPSED
wxEVT_COMMAND_DATAVIEW_ITEM_EXPANDED = wxEVT_DATAVIEW_ITEM_EXPANDED
wxEVT_COMMAND_DATAVIEW_ITEM_COLLAPSING = wxEVT_DATAVIEW_ITEM_COLLAPSING
wxEVT_COMMAND_DATAVIEW_ITEM_EXPANDING = wxEVT_DATAVIEW_ITEM_EXPANDING
wxEVT_COMMAND_DATAVIEW_ITEM_START_EDITING = wxEVT_DATAVIEW_ITEM_START_EDITING
wxEVT_COMMAND_DATAVIEW_ITEM_EDITING_STARTED = wxEVT_DATAVIEW_ITEM_EDITING_STARTED
wxEVT_COMMAND_DATAVIEW_ITEM_EDITING_DONE = wxEVT_DATAVIEW_ITEM_EDITING_DONE
wxEVT_COMMAND_DATAVIEW_ITEM_VALUE_CHANGED = wxEVT_DATAVIEW_ITEM_VALUE_CHANGED
wxEVT_COMMAND_DATAVIEW_ITEM_CONTEXT_MENU = wxEVT_DATAVIEW_ITEM_CONTEXT_MENU
wxEVT_COMMAND_DATAVIEW_COLUMN_HEADER_CLICK = wxEVT_DATAVIEW_COLUMN_HEADER_CLICK
wxEVT_COMMAND_DATAVIEW_COLUMN_HEADER_RIGHT_CLICK = wxEVT_DATAVIEW_COLUMN_HEADER_RIGHT_CLICK
wxEVT_COMMAND_DATAVIEW_COLUMN_SORTED = wxEVT_DATAVIEW_COLUMN_SORTED
wxEVT_COMMAND_DATAVIEW_COLUMN_REORDERED = wxEVT_DATAVIEW_COLUMN_REORDERED
wxEVT_COMMAND_DATAVIEW_CACHE_HINT = wxEVT_DATAVIEW_CACHE_HINT
wxEVT_COMMAND_DATAVIEW_ITEM_BEGIN_DRAG = wxEVT_DATAVIEW_ITEM_BEGIN_DRAG
wxEVT_COMMAND_DATAVIEW_ITEM_DROP_POSSIBLE = wxEVT_DATAVIEW_ITEM_DROP_POSSIBLE
wxEVT_COMMAND_DATAVIEW_ITEM_DROP = wxEVT_DATAVIEW_ITEM_DROP
""")
#-----------------------------------------------------------------
c = module.find('wxDataViewListCtrl')
tools.fixWindowClass(c)
c.find('GetStore').overloads = []
c.find('AppendItem.values').type = 'const wxVariantVector&'
c.find('PrependItem.values').type = 'const wxVariantVector&'
c.find('InsertItem.values').type = 'const wxVariantVector&'
c.find('GetValue.value').out = True
for name in 'AppendColumn InsertColumn PrependColumn'.split():
for m in c.find(name).all():
m.find('column').transfer = True
c = module.find('wxDataViewListStore')
c.find('AppendItem.values').type = 'const wxVariantVector&'
c.find('PrependItem.values').type = 'const wxVariantVector&'
c.find('InsertItem.values').type = 'const wxVariantVector&'
c.find('GetValueByRow.value').out = True
c.addAutoProperties()
#-----------------------------------------------------------------
c = module.find('wxDataViewTreeCtrl')
tools.fixWindowClass(c)
c.find('GetStore').overloads = []
c = module.find('wxDataViewTreeStore')
c.addAutoProperties()
tools.fixRefCountedClass(c)
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
module.check4unittest = False
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode('#include <wxpy_api.h>')
module.addImport('_core')
module.addImport('_xml')
module.addPyCode('''\
import wx
ID_NONE = wx.ID_NONE # Needed for some parameter defaults in this module
''',
order=10)
module.addInclude(INCLUDES)
module.addInitializerCode("""\
wxXmlInitResourceModule();
wxXmlResource::Get()->InitAllHandlers();
""")
module.addHeaderCode('#include <wx/xrc/xmlres.h>')
module.addHeaderCode('#include <wx/fs_mem.h>')
module.addHeaderCode('#include "wxpybuffer.h"')
module.insertItem(
0,
etgtools.WigCode("""\
// forward declarations
class wxAnimation;
"""))
#-----------------------------------------------------------------
c = module.find('wxXmlResource')
assert isinstance(c, etgtools.ClassDef)
c.addPrivateCopyCtor()
# Add a bit of code to the ctors to call InitAllHandlers(), for
# compatibility with Classic
for ctor in c.find('wxXmlResource').all():
template = """\
Py_BEGIN_ALLOW_THREADS
sipCpp = new sipwxXmlResource({args});
sipCpp->InitAllHandlers();
Py_END_ALLOW_THREADS
"""
if 'filemask' in ctor.argsString:
args = '*filemask,flags,*domain'
else:
args = 'flags,*domain'
ctor.setCppCode_sip(template.format(args=args))
c.addPublic()
c.addCppMethod(
'bool',
'LoadFromBuffer',
'(wxPyBuffer* data)',
doc=
"Load the resource from a bytes string or other data buffer compatible object.",
#protection='public',
body="""\
static int s_memFileIdx = 0;
// Check for memory FS. If not present, load the handler:
wxMemoryFSHandler::AddFile(wxT("XRC_resource/dummy_file"),
wxT("dummy data"));
wxFileSystem fsys;
wxFSFile *f = fsys.OpenFile(wxT("memory:XRC_resource/dummy_file"));
wxMemoryFSHandler::RemoveFile(wxT("XRC_resource/dummy_file"));
if (f)
delete f;
else
wxFileSystem::AddHandler(new wxMemoryFSHandler);
// Now put the resource data into the memory FS
wxString filename(wxT("XRC_resource/data_string_"));
filename << s_memFileIdx;
s_memFileIdx += 1;
wxMemoryFSHandler::AddFile(filename, data->m_ptr, data->m_len);
// Load the "file" into the resource object
bool retval = self->Load(wxT("memory:") + filename );
return retval;
""")
c.addPyCode(
"XmlResource.LoadFromString = wx.deprecated(XmlResource.LoadFromBuffer, 'Use LoadFromBuffer instead')"
)
c.find('AddHandler.handler').transfer = True
c.find('InsertHandler.handler').transfer = True
c.find('Set.res').transfer = True
c.find('Set').transferBack = True
c.find('AddSubclassFactory.factory').transfer = True
#-----------------------------------------------------------------
c = module.find('wxXmlResourceHandler')
# un-ignore all the protected methods
for item in c.allItems():
if isinstance(item, etgtools.MethodDef):
item.ignore(False)
c.find('DoCreateResource').factory = True
#-----------------------------------------------------------------
module.addPyFunction(
'EmptyXmlResource',
'(flags=XRC_USE_LOCALE, domain="")',
deprecated="Use :class:`xrc.XmlResource` instead",
doc=
'A compatibility wrapper for the XmlResource(flags, domain) constructor',
body='return XmlResource(flags, domain)')
module.addPyFunction(
'XRCID',
'(str_id, value_if_not_found=wx.ID_NONE)',
doc=
'Returns a numeric ID that is equivalent to the string ID used in an XML resource.',
body='return XmlResource.GetXRCID(str_id, value_if_not_found)')
module.addPyFunction(
'XRCCTRL',
'(window, str_id, *ignoreargs)',
doc=
'Returns the child window associated with the string ID in an XML resource.',
body='return window.FindWindow(XRCID(str_id))')
cls = ClassDef(name='wxXmlSubclassFactory',
briefDoc="",
items=[
MethodDef(name='wxXmlSubclassFactory', isCtor=True),
MethodDef(name='~wxXmlSubclassFactory', isDtor=True),
MethodDef(name='Create',
type='wxObject*',
isVirtual=True,
isPureVirtual=True,
factory=True,
items=[
ParamDef(type='const wxString&',
name='className')
])
])
module.addItem(cls)
module.addPyCode("""\
# Create a factory for handling the subclass property of XRC's
# object tag. This factory will search for the specified
# package.module.class and will try to instantiate it for XRC's
# use. The class must support instantiation with no parameters and
# delayed creation of the UI widget (aka 2-phase create).
def _my_import(name):
try:
mod = __import__(name)
except ImportError:
import traceback
print(traceback.format_exc())
raise
components = name.split('.')
for comp in components[1:]:
mod = getattr(mod, comp)
return mod
class XmlSubclassFactory_Python(XmlSubclassFactory):
def __init__(self):
XmlSubclassFactory.__init__(self)
def Create(self, className):
assert className.find('.') != -1, "Module name must be specified!"
mname = className[:className.rfind('.')]
cname = className[className.rfind('.')+1:]
module = _my_import(mname)
klass = getattr(module, cname)
inst = klass()
return inst
XmlResource.AddSubclassFactory(XmlSubclassFactory_Python())
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
# Lots of the uses of wxDateTime_t have been changed to "unsigned short"
# in the interface file, so lets go ahead and translate the rest of them
# too so there will not be any "wxDateTime_t" in Phoenix confusingly
# mixed with "unsigned short"s.
#
# Also add the class scope specifier to nested enum types for parameters
# and return values.
for item in module.allItems():
if isinstance(
item,
(etgtools.FunctionDef, etgtools.ParamDef, etgtools.VariableDef)):
typesMap = {
'wxDateTime_t': 'unsigned short',
'Month': 'wxDateTime::Month',
'WeekDay': 'wxDateTime::WeekDay',
'TZ': 'wxDateTime::TZ',
'TimeZone': 'wxDateTime::TimeZone',
'Tm': 'wxDateTime::Tm',
}
if item.type in typesMap:
item.type = typesMap[item.type]
# ignore the #define and add it as a Python alias instead
module.find('wxInvalidDateTime').ignore()
module.addPyCode('InvalidDateTime = DefaultDateTime')
gs = module.addGlobalStr('wxDefaultDateTimeFormat',
module.find('wxInvalidDateTime'))
module.addGlobalStr('wxDefaultTimeSpanFormat', gs)
#---------------------------------------------
# Tweaks for the wxDateTime class
c = module.find('wxDateTime')
assert isinstance(c, etgtools.ClassDef)
c.allowAutoProperties = False
tools.ignoreAllOperators(c)
# Ignore ctors with unknown types or that have overload conflicts that
# can't be distingished in Python
ctor = c.find('wxDateTime')
ctor.findOverload('time_t').ignore()
ctor.findOverload('struct tm').ignore()
ctor.findOverload('double jdn').ignore()
ctor.findOverload('_SYSTEMTIME').ignore()
ctor.findOverload('hour').ignore(
) # careful, the one we want to keep has an 'hour' param too
# Add static factories for some of the ctors we ignored
c.addCppMethod(
'wxDateTime*',
'FromTimeT',
'(time_t timet)',
factory=True,
isStatic=True,
doc=
"Construct a :class:`DateTime` from a C ``time_t`` value, the number of seconds since the epoch.",
body="return new wxDateTime(timet);")
c.addCppMethod(
'wxDateTime*',
'FromJDN',
'(double jdn)',
factory=True,
isStatic=True,
doc="Construct a :class:`DateTime` from a Julian Day Number.\n\n"
"By definition, the Julian Day Number, usually abbreviated as JDN, of a particular instant is the fractional number of days since 12 hours Universal Coordinated Time (Greenwich mean noon) on January 1 of the year -4712 in the Julian proleptic calendar.",
body="return new wxDateTime(jdn);")
c.addCppMethod(
'wxDateTime*',
'FromHMS',
"""(unsigned short hour,
unsigned short minute=0,
unsigned short second=0,
unsigned short millisecond=0)""",
factory=True,
isStatic=True,
doc=
"Construct a :class:`DateTime` equal to :meth:`Today` () with the time set to the supplied parameters.",
body="return new wxDateTime(hour, minute, second, millisecond);")
c.addCppMethod(
'wxDateTime*',
'FromDMY',
"""(unsigned short day,
wxDateTime::Month month,
int year = Inv_Year,
unsigned short hour=0,
unsigned short minute=0,
unsigned short second=0,
unsigned short millisecond=0)""",
factory=True,
isStatic=True,
doc="Construct a :class:`DateTime` using the supplied parameters.",
body=
"return new wxDateTime(day, month, year, hour, minute, second, millisecond);"
)
# and give them some simple wrappers for Classic compatibility
module.addPyFunction(
'DateTimeFromTimeT',
'(timet)',
doc="Compatibility wrapper for :meth:`DateTime.FromTimeT`",
body="return DateTime.FromTimeT(timet)",
deprecated='Use :meth:`DateTime.FromTimeT` instead.')
module.addPyFunction(
'DateTimeFromJDN',
'(jdn)',
doc="Compatibility wrapper for :meth:`DateTime.FromJDN`",
body="return DateTime.FromJDN(jdn)",
deprecated='Use :meth:`DateTime.FromJDN` instead.')
module.addPyFunction(
'DateTimeFromHMS',
'(hour, minute=0, second=0, millisecond=0)',
doc="Compatibility wrapper for :meth:`DateTime.FromHMS`",
body="return DateTime.FromHMS(hour, minute, second, millisecond)",
deprecated='Use :meth:`DateTime.FromHMS` instead.')
module.addPyFunction(
'DateTimeFromDMY',
'(day, month, year=DateTime.Inv_Year, hour=0, minute=0, second=0, millisecond=0)',
doc="Compatibility wrapper for :meth:`DateTime.FromDMY`",
body=
"return DateTime.FromDMY(day, month, year, hour, minute, second, millisecond)",
deprecated='Use :meth:`DateTime.FromDMY` instead.')
# Fixup similar conflicts in the Set method overloads
c.find('Set').findOverload('struct tm').ignore()
c.find('Set').renameOverload('Tm', 'SetTm')
c.find('Set').renameOverload('time_t', 'SetTimeT')
c.find('Set').renameOverload('double jdn', 'SetJDN')
c.find('Set').renameOverload('hour', 'SetHMS')
# Unknown parameter and return types
c.find('SetFromMSWSysTime').ignore()
c.find('GetAsMSWSysTime').ignore()
# this overload is static, the other isn't. Rename it?
c.find('GetCentury').findOverload('year').ignore()
c.find('GetNumberOfDays').ignore()
c.find('GetTmNow').ignore()
c.find('GetTmNow').ignore()
# output the am/pm parameter values
c.find('GetAmPmStrings.am').out = True
c.find('GetAmPmStrings.pm').out = True
# remove the const version of the overloaded Add's and Subtract's
c.find('Add').findOverload('wxDateSpan', isConst=True).ignore()
c.find('Add').findOverload('wxTimeSpan', isConst=True).ignore()
c.find('Subtract').findOverload('wxDateSpan', isConst=True).ignore()
c.find('Subtract').findOverload('wxTimeSpan', isConst=True).ignore()
# Ignore the end parameter for the Parse*() methods, and provide
# replacement implementations that don't need them. Change them to be
# like they were in Classic, returning a -1 on failure, or the number of
# characters parsed otherwise.
def fixParseMethod(m, code):
assert isinstance(m, etgtools.MethodDef)
m.find('end').ignore()
m.type = 'int'
m.setCppCode(code)
return m
fixParseMethod(
c.find('ParseDate'), """\
wxString::const_iterator begin = date->begin();
wxString::const_iterator end;
if (! self->ParseDate(*date, &end))
return -1;
return end - begin;
""")
fixParseMethod(
c.find('ParseDateTime'), """\
wxString::const_iterator begin = datetime->begin();
wxString::const_iterator end;
if (! self->ParseDateTime(*datetime, &end))
return -1;
return end - begin;
""")
fixParseMethod(
c.find('ParseTime'), """\
wxString::const_iterator begin = time->begin();
wxString::const_iterator end;
if (! self->ParseTime(*time, &end))
return -1;
return end - begin;
""")
fixParseMethod(
c.find('ParseRfc822Date'), """\
wxString::const_iterator begin = date->begin();
wxString::const_iterator end;
if (! self->ParseRfc822Date(*date, &end))
return -1;
return end - begin;
""")
pf = c.find('ParseFormat')
pf1 = fixParseMethod(
pf.findOverload(
'const wxString &date, const wxString &format, const wxDateTime &dateDef, wxString::'
), """\
wxString::const_iterator begin = date->begin();
wxString::const_iterator end;
if (! self->ParseFormat(*date, *format, *dateDef, &end))
return -1;
return end - begin;
""")
pf2 = fixParseMethod(
pf.findOverload(
'const wxString &date, const wxString &format, wxString::'), """\
wxString::const_iterator begin = date->begin();
wxString::const_iterator end;
if (! self->ParseFormat(*date, *format, &end))
return -1;
return end - begin;
""")
pf3 = fixParseMethod(
pf.findOverload('const wxString &date, wxString::'), """\
wxString::const_iterator begin = date->begin();
wxString::const_iterator end;
if (! self->ParseFormat(*date, &end))
return -1;
return end - begin;
""")
# Fiddle with the docstrings for ParseFormat to make them reflect the new
# reality. The other Parse*() docs refer the reader to this one, so we
# don't have to change all of them.
# find the <simplesect kind="return"> node in the last paragraph
para = pf1.detailedDoc[-1]
elem = para.find("simplesect[@kind='return']")
# it has a child paragraph containing the text we need to replace
elem[
0].text = '-1 if the parse failed, the number of characters parsed otherwise.'
pf2.briefDoc = "This version of the :meth:`ParseFormat` method works the same, but with missing values filled in from :meth:`Today`."
pf3.briefDoc = "This version uses \"%c\" as the format code, which is the same default used by :meth:`Format`."
c.addPyMethod(
'__repr__', '(self)', """\
from six import PY2
if self.IsValid():
f = self.Format()
if PY2: f = f.encode('utf-8')
return '<wx.DateTime: "%s">' % f
else:
return '<wx.DateTime: \"INVALID\">'
""")
c.addPyMethod(
'__str__', '(self)', """\
from six import PY2
if self.IsValid():
f = self.Format()
if PY2: f = f.encode('utf-8')
return f
else:
return "INVALID DateTime"
""")
# use lowercase to avoid conflicts
c.addProperty("day GetDay SetDay")
c.addProperty("month GetMonth SetMonth")
c.addProperty("year GetYear SetYear")
c.addProperty("hour GetHour SetHour")
c.addProperty("minute GetMinute SetMinute")
c.addProperty("second GetSecond SetSecond")
c.addProperty("millisecond GetMillisecond SetMillisecond")
c.addProperty("JDN GetJDN SetJDN")
c.addProperty("DayOfYear GetDayOfYear")
c.addProperty("JulianDayNumber GetJulianDayNumber")
c.addProperty("LastMonthDay GetLastMonthDay")
c.addProperty("MJD GetMJD")
c.addProperty("ModifiedJulianDayNumber GetModifiedJulianDayNumber")
c.addProperty("RataDie GetRataDie")
c.addProperty("Ticks GetTicks")
c.addProperty("WeekOfMonth GetWeekOfMonth")
c.addProperty("WeekOfYear GetWeekOfYear")
c.addItem(
etgtools.WigCode("""\
bool operator<(const wxDateTime& dt) const;
bool operator<=(const wxDateTime& dt) const;
bool operator>(const wxDateTime& dt) const;
bool operator>=(const wxDateTime& dt) const;
bool operator==(const wxDateTime& dt) const;
bool operator!=(const wxDateTime& dt) const;
wxDateTime& operator+=(const wxTimeSpan& diff);
wxDateTime operator+(const wxTimeSpan& ts) const;
wxDateTime& operator-=(const wxTimeSpan& diff);
wxDateTime operator-(const wxTimeSpan& ts) const;
wxDateTime& operator+=(const wxDateSpan& diff);
wxDateTime operator+(const wxDateSpan& ds) const;
wxDateTime& operator-=(const wxDateSpan& diff);
wxDateTime operator-(const wxDateSpan& ds) const;
wxTimeSpan operator-(const wxDateTime& dt2) const;
"""))
# Add some code to automatically convert from a Python datetime.date or a
# datetime.datetime object
c.convertFromPyObject = """\
// Code to test a PyObject for compatibility with wxDateTime
if (!sipIsErr) {
if (sipCanConvertToType(sipPy, sipType_wxDateTime, SIP_NO_CONVERTORS))
return TRUE;
if (wxPyDateTime_Check(sipPy) || wxPyDate_Check(sipPy))
return TRUE;
return FALSE;
}
// Code to convert a compatible PyObject to a wxDateTime
if (wxPyDateTime_Check(sipPy)) {
*sipCppPtr = wxPyDateTime_ToWxDateTime(sipPy);
return sipGetState(sipTransferObj);
}
if (wxPyDate_Check(sipPy)) {
*sipCppPtr = wxPyDate_ToWxDateTime(sipPy);
return sipGetState(sipTransferObj);
}
// if we get this far then it must already be a wxDateTime instance
*sipCppPtr = reinterpret_cast<wxDateTime*>(sipConvertToType(
sipPy, sipType_wxDateTime, sipTransferObj, SIP_NO_CONVERTORS, 0, sipIsErr));
return 0; // Not a new instance
"""
#---------------------------------------------
# Tweaks for the wxDateSpan class
c = module.find('wxDateSpan')
c.allowAutoProperties = False
tools.ignoreAllOperators(c)
c.find('Add').findOverload('', isConst=True).ignore()
c.find('Multiply').findOverload('', isConst=True).ignore()
c.find('Subtract').findOverload('', isConst=True).ignore()
c.addItem(
etgtools.WigCode("""\
wxDateSpan& operator+=(const wxDateSpan& other);
wxDateSpan operator+(const wxDateSpan& ds) const;
wxDateSpan& operator-=(const wxDateSpan& other);
wxDateSpan operator-(const wxDateSpan& ds) const;
wxDateSpan& operator-();
wxDateSpan& operator*=(int factor);
wxDateSpan operator*(int n) const;
bool operator==(const wxDateSpan& ds) const;
bool operator!=(const wxDateSpan& ds) const;
"""))
#---------------------------------------------
# Tweaks for the wxTimeSpan class
c = module.find('wxTimeSpan')
c.allowAutoProperties = False
tools.ignoreAllOperators(c)
c.find('Add').findOverload('', isConst=True).ignore()
c.find('Multiply').findOverload('', isConst=True).ignore()
c.find('Subtract').findOverload('', isConst=True).ignore()
c.addItem(
etgtools.WigCode("""\
wxTimeSpan& operator+=(const wxTimeSpan& diff);
wxTimeSpan operator+(const wxTimeSpan& ts) const;
wxTimeSpan& operator-=(const wxTimeSpan& diff);
wxTimeSpan operator-(const wxTimeSpan& ts);
wxTimeSpan& operator*=(int n);
wxTimeSpan operator*(int n) const;
wxTimeSpan& operator-();
bool operator<(const wxTimeSpan &ts) const;
bool operator<=(const wxTimeSpan &ts) const;
bool operator>(const wxTimeSpan &ts) const;
bool operator>=(const wxTimeSpan &ts) const;
bool operator==(const wxTimeSpan &ts) const;
bool operator!=(const wxTimeSpan &ts) const;
"""))
#---------------------------------------------
# Convert to/from Python date objects
module.addPyFunction(
'pydate2wxdate',
'(date)',
doc='Convert a Python date or datetime to a :class:`DateTime` object',
body="""\
import datetime
assert isinstance(date, (datetime.datetime, datetime.date))
return DateTime(date) # the built-in typemap will convert it for us
""")
module.addPyFunction(
'wxdate2pydate',
'(date)',
doc='Convert a :class:`DateTime` object to a Python datetime.',
body="""\
import datetime
assert isinstance(date, DateTime)
if date.IsValid():
return datetime.datetime(date.year, date.month+1, date.day,
date.hour, date.minute, date.second, date.millisecond*1000)
else:
return None
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode('#include <wx/gdicmn.h>')
def markCreateFactories(klass):
"""Mark all Create methods as factories"""
for func in klass.allItems():
if isinstance(func, etgtools.FunctionDef) \
and func.name.startswith('Create') \
and '*' in func.type:
func.factory = True
#---------------------------------------------
c = module.find('wxGraphicsObject')
assert isinstance(c, etgtools.ClassDef)
c.mustHaveApp()
c.addCppMethod('bool', 'IsOk', '()', 'return !self->IsNull();')
c.addCppMethod('int', '__nonzero__', '()', "return !self->IsNull();")
c.addCppMethod('int', '__bool__', '()', "return !self->IsNull();")
#---------------------------------------------
c = module.find('wxGraphicsContext')
assert isinstance(c, etgtools.ClassDef)
tools.removeVirtuals(c)
c.abstract = True
c.mustHaveApp()
c.addCppMethod('wxGraphicsContext*',
'Create',
'(wxAutoBufferedPaintDC* autoPaintDC /KeepReference/)',
pyArgsString='(autoPaintDC) -> GraphicsContext',
isStatic=True,
body="""\
return wxGraphicsContext::Create(*autoPaintDC);
""")
m = c.find('Create').findOverload('wxEnhMetaFileDC')
m.find('metaFileDC').type = 'const wxMetafileDC&'
m.argsString = '(const wxMetafileDC& metaFileDC)'
m.setCppCode("""\
#ifdef __WXMSW__
#if wxUSE_ENH_METAFILE
return wxGraphicsContext::Create(*metaFileDC);
#endif
#endif
wxPyRaiseNotImplemented();
return NULL;
""")
markCreateFactories(c)
# Ensure that the target DC or image passed to Create lives as long as the
# GC does. NOTE: Since the Creates are static methods there is no self to
# associate the extra reference with, but since they are factories then
# that extra reference will be held by the return value of the factory
# instead.
for m in c.find('Create').all():
for p in m.items:
if 'DC' in p.name or p.name == 'image':
p.keepReference = True
c.find('GetSize.width').out = True
c.find('GetSize.height').out = True
c.find('GetDPI.dpiX').out = True
c.find('GetDPI.dpiY').out = True
m = c.find('GetPartialTextExtents')
m.find('widths').ignore()
m.type = 'wxArrayDouble*'
m.factory = True # a new instance is being created
m.setCppCode("""\
wxArrayDouble rval;
self->GetPartialTextExtents(*text, rval);
return new wxArrayDouble(rval);
""")
m = c.find('GetTextExtent')
m.pyName = 'GetFullTextExtent'
m.find('width').out = True
m.find('height').out = True
m.find('descent').out = True
m.find('externalLeading').out = True
c.addCppMethod(
'PyObject*',
'GetTextExtent',
'(const wxString& text)',
pyArgsString="(text) -> (width, height)",
doc=
"Gets the dimensions of the string using the currently selected font.",
body="""\
wxDouble width = 0.0, height = 0.0;
self->GetTextExtent(*text, &width, &height, NULL, NULL);
wxPyThreadBlocker blocker;
return sipBuildResult(0, "(dd)", width, height);
""")
c.addPyCode(
"GraphicsContext.DrawRotatedText = wx.deprecated(GraphicsContext.DrawText, 'Use DrawText instead.')"
)
c.addCppCode(
tools.ObjArrayHelperTemplate(
'wxPoint2D', 'sipType_wxPoint2DDouble',
"Expected a sequence of length-2 sequences or wx.Point2D objects.")
)
# we'll reimplement this overload as StrokeLineSegments
c.find('StrokeLines').findOverload('beginPoints').ignore()
c.addCppMethod('void',
'StrokeLineSegments',
'(PyObject* beginPoints, PyObject* endPoints)',
pyArgsString="(beginPoint2Ds, endPoint2Ds)",
doc="Stroke disconnected lines from begin to end points.",
body="""\
size_t c1, c2, count;
wxPoint2D* beginP = wxPoint2D_array_helper(beginPoints, &c1);
wxPoint2D* endP = wxPoint2D_array_helper(endPoints, &c2);
if ( beginP != NULL && endP != NULL ) {
count = wxMin(c1, c2);
self->StrokeLines(count, beginP, endP);
}
delete [] beginP;
delete [] endP;
""")
# Also reimplement the main StrokeLines method to reuse the same helper
# function as StrokeLineSegments
m = c.find('StrokeLines').findOverload('points').ignore()
c.addCppMethod('void',
'StrokeLines',
'(PyObject* points)',
pyArgsString="(point2Ds)",
doc="Stroke lines connecting all the points.",
body="""\
size_t count;
wxPoint2D* ptsArray = wxPoint2D_array_helper(points, &count);
if ( ptsArray != NULL ) {
self->StrokeLines(count, ptsArray);
delete [] ptsArray;
}
""")
# and once more for DrawLines
m = c.find('DrawLines').ignore()
c.addCppMethod(
'void',
'DrawLines',
'(PyObject* points, wxPolygonFillMode fillStyle = wxODDEVEN_RULE)',
pyArgsString="(point2Ds, fillStyle=ODDEVEN_RULE)",
doc="Draws a polygon.",
body="""\
size_t count;
wxPoint2D* ptsArray = wxPoint2D_array_helper(points, &count);
if ( ptsArray != NULL ) {
self->DrawLines(count, ptsArray, fillStyle);
delete [] ptsArray;
}
""")
# TODO: support this?
c.find('CreateFromNativeHDC').ignore()
#---------------------------------------------
c = module.find('wxGraphicsPath')
tools.removeVirtuals(c)
c.find('GetBox').findOverload('wxDouble *x, wxDouble *y').ignore()
c.find('GetCurrentPoint').findOverload('wxDouble *x, wxDouble *y').ignore()
c.mustHaveApp()
c.find('GetNativePath').setCppCode("""\
if (self->IsNull())
return (void*)0;
return self->GetNativePath();
""")
#---------------------------------------------
c = module.find('wxGraphicsRenderer')
tools.removeVirtuals(c)
markCreateFactories(c)
c.abstract = True
# The KeepReference annotation doesn't work for us in this case, as it will
# hold the reference in the renderer object, but it is better to hold the
# reference in the returned context object instead. Otherwise there is still
# some possibility that the held DC will be destroyed before the context.
c.addPyCode("""\
def _ctx_hold_ref(f):
from functools import wraps
@wraps(f)
def wrapper(self, obj):
ctx = f(self, obj)
if ctx is not None:
ctx._obj = obj
return ctx
return wrapper
GraphicsRenderer.CreateContext = _ctx_hold_ref(GraphicsRenderer.CreateContext)
GraphicsRenderer.CreateContextFromImage = _ctx_hold_ref(GraphicsRenderer.CreateContextFromImage)
GraphicsRenderer.CreateContextFromUnknownDC = _ctx_hold_ref(GraphicsRenderer.CreateContextFromUnknownDC)
""")
# TODO: support this?
c.find('CreateContext').findOverload('wxEnhMetaFileDC').ignore()
# TODO: support this?
c.find('CreateContextFromNativeHDC').ignore()
c.addPyMethod('GetType',
'(self)',
doc="Returns the name of the GraphicsRenderer class.",
body="return self.GetClassInfo().GetClassName()")
c.find('GetGDIPlusRenderer').ignore()
c.addCppMethod('wxGraphicsRenderer*',
'GetGDIPlusRenderer',
'()',
isStatic=True,
doc="Returns GDI+ renderer (MSW only).",
body="""\
#ifdef __WXMSW__
return wxGraphicsRenderer::GetGDIPlusRenderer();
#else
return NULL;
#endif
""")
c.find('GetDirect2DRenderer').ignore()
c.addCppMethod('wxGraphicsRenderer*',
'GetDirect2DRenderer',
'()',
isStatic=True,
doc="Returns Direct2D renderer (MSW and Python3 only).",
body="""\
#if wxUSE_GRAPHICS_DIRECT2D
return wxGraphicsRenderer::GetDirect2DRenderer();
#else
return NULL;
#endif
""")
#---------------------------------------------
c = module.find('wxGraphicsMatrix')
tools.removeVirtuals(c)
c.mustHaveApp()
c.find('Concat').overloads = []
c.find('IsEqual').overloads = []
c.find('Get.a').out = True
c.find('Get.b').out = True
c.find('Get.c').out = True
c.find('Get.d').out = True
c.find('Get.tx').out = True
c.find('Get.ty').out = True
c.find('TransformDistance.dx').inOut = True
c.find('TransformDistance.dy').inOut = True
c.find('TransformPoint.x').inOut = True
c.find('TransformPoint.y').inOut = True
c.find('GetNativeMatrix').setCppCode("""\
if (self->IsNull())
return (void*)0;
return self->GetNativeMatrix();
""")
#---------------------------------------------
c = module.find('wxGraphicsGradientStops')
c.addCppMethod('SIP_SSIZE_T',
'__len__',
'()',
body="return (SIP_SSIZE_T)self->GetCount();")
c.addCppMethod('wxGraphicsGradientStop*',
'__getitem__',
'(ulong n)',
pyArgsString='(n)',
body="return new wxGraphicsGradientStop(self->Item(n));",
factory=True)
#---------------------------------------------
c = module.find('wxGraphicsBitmap')
c.find('GetNativeBitmap').setCppCode("""\
if (self->IsNull())
return (void*)0;
return self->GetNativeBitmap();
""")
#---------------------------------------------
c = module.find('wxGraphicsPenInfo')
# Ignore Dashes for now
# TODO: we need to do something like wx.Pen.SetDashes, but since
# GraphicsPenInfo is transitory we can't save the reference in it to the
# holder, and the pen will not have been created yet...
c.find('Dashes').ignore()
c.find('GetDashes').ignore()
c.find('GetDashCount').ignore()
c.find('GetDash').ignore()
#---------------------------------------------
# Use the pyNames we set for these classes in geometry.py so the old
# names do not show up in the docstrings, etc.
tools.changeTypeNames(module, 'wxPoint2DDouble', 'wxPoint2D')
tools.changeTypeNames(module, 'wxRect2DDouble', 'wxRect2D')
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
# do not use the va_list forms of the functions
for func in module.allItems():
if 'wxVLog' in func.name:
func.ignore()
for f in module.find('wxLogTrace').all(): # deprecated in 2.8
f.ignore()
# Switch the parameters to wxStrings to capitalize on the conversion code
# we already have for them. String formatting can be done in Python if
# needed. Drop the '...' too.
for name in ['wxLogMessage', 'wxLogVerbose', 'wxLogWarning', 'wxLogFatalError',
'wxLogError', 'wxLogDebug', 'wxLogStatus', 'wxLogSysError',
'wxLogGeneric']:
for f in module.find(name).all():
p = f.find('formatString')
p.type = 'const wxString&'
p.name = 'message'
f.items = f.items[:-1]
module.find('wxSysErrorMsg').type = 'wxString'
c = module.find('wxLogRecordInfo')
c.find('threadId').ignore()
c = module.find('wxLog')
assert isinstance(c, etgtools.ClassDef)
c.find('SetActiveTarget').transferBack = True
c.find('SetActiveTarget.logtarget').transfer = True
c.find('SetThreadActiveTarget').transferBack = True
c.find('SetThreadActiveTarget.logger').transfer = True
# we need to un-ignore these protected methods as they need to be overridable
c.find('DoLogRecord').ignore(False)
c.find('DoLogTextAtLevel').ignore(False)
c.find('DoLogText').ignore(False)
c = module.find('wxLogStderr')
c.find('wxLogStderr.fp').ignore()
c.addPrivateCopyCtor()
c.addPrivateAssignOp()
c = module.find('wxLogBuffer')
c.addPrivateCopyCtor()
c.addPrivateAssignOp()
c = module.find('wxLogChain')
c.addPrivateCopyCtor()
c.addPrivateAssignOp()
c = module.find('wxLogGui')
c.addPrivateCopyCtor()
c.addPrivateAssignOp()
c = module.find('wxLogTextCtrl')
c.addPrivateCopyCtor()
c.addPrivateAssignOp()
c = module.find('wxLogFormatter')
c.find('FormatTime').ignore(False)
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
module.addHeaderCode("#include <wx/bmpcbox.h>")
c = module.find('wxBitmapComboBox')
assert isinstance(c, etgtools.ClassDef)
module.addGlobalStr('wxBitmapComboBoxNameStr', c)
tools.fixWindowClass(c)
# The MSW and GTK version of this class derive from wxComboBox, but the
# OSX version derives from wxOwnerDrawnCombo. To make all platforms happy
# with the generated wrapper code switch the declared base with the bases
# that both of those classes have in common.
c.bases = ['wxControl', 'wxTextEntry', 'wxItemContainer']
# Copy any method definitions from wx.ComboBox that are not declared here
import combobox
mod = combobox.parseAndTweakModule()
klass = mod.find('wxComboBox')
items = [
item for item in klass.items
if isinstance(item, etgtools.MethodDef) and not item.isCtor
and not item.isDtor and not item.ignored and not c.findItem(item.name)
]
c.items.extend(items)
#print([i.name for i in items])
c.find('GetCurrentSelection').ignore()
# Ignore the old C array version of the ctor and Create methods, and
# fixup the remaining ctor and Create with the typical default values for
# the args
c.find('wxBitmapComboBox').findOverload('wxString choices').ignore()
m = c.find('wxBitmapComboBox').findOverload('wxArrayString')
m.find('value').default = 'wxEmptyString'
m.find('choices').default = 'wxArrayString()'
m.find('style').default = '0'
c.find('Create').findOverload('wxString choices').ignore()
m = c.find('Create').findOverload('wxArrayString')
m.find('value').default = 'wxEmptyString'
m.find('choices').default = 'wxArrayString()'
# Ignore the Append and Insert taking a void* for clientData
c.find('Append').findOverload('void *').ignore()
c.find('Insert').findOverload('void *').ignore()
# And set the ownership transfer for the other one
c.find('Append').findOverload('wxClientData *').find(
'clientData').transfer = True
c.find('Insert').findOverload('wxClientData *').find(
'clientData').transfer = True
# We need to disambiguate GetStringSelection since it is implemented in
# multiple base classes
c.find('GetStringSelection').ignore()
c.addItem(
etgtools.WigCode("""\
virtual wxString GetStringSelection() const;
%MethodCode
sipRes = new wxString(sipCpp->wxItemContainerImmutable::GetStringSelection());
%End
%VirtualCallCode
sipRes = wxItemContainerImmutable::GetStringSelection();
%End
"""))
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxMask')
c.mustHaveApp()
for m in c.find('Create').all():
m.ignore()
c = module.find('wxBitmap')
assert isinstance(c, etgtools.ClassDef)
c.mustHaveApp()
tools.removeVirtuals(c)
# TODO: The wxCursor version of the ctor is not implemented on OSX...
c.find('wxBitmap').findOverload('wxCursor').ignore()
c.find('wxBitmap.bits').type = 'const char*'
c.find('wxBitmap.type').default = 'wxBITMAP_TYPE_ANY'
c.find('LoadFile.type').default = 'wxBITMAP_TYPE_ANY'
c.find('wxBitmap').findOverload('(const char *const *bits)').ignore()
c.addCppCtor('(PyObject* listOfBytes)',
doc="Construct a Bitmap from a list of strings formatted as XPM data.",
body="""\
wxPyThreadBlocker blocker;
char** cArray = NULL;
int count;
char errMsg[] = "Expected a list of bytes objects.";
if (!PyList_Check(listOfBytes)) {
PyErr_SetString(PyExc_TypeError, errMsg);
return NULL;
}
count = PyList_Size(listOfBytes);
cArray = new char*[count];
for(int x=0; x<count; x++) {
PyObject* item = PyList_GET_ITEM(listOfBytes, x);
if (!PyBytes_Check(item)) {
PyErr_SetString(PyExc_TypeError, errMsg);
delete [] cArray;
return NULL;
}
cArray[x] = PyBytes_AsString(item);
}
wxBitmap* bmp = new wxBitmap(cArray);
delete [] cArray;
return bmp;
""")
c.find('SetMask.mask').transfer = True
c.addCppMethod('void', 'SetMaskColour', '(const wxColour& colour)',
doc="Create a mask for this bitmap based on the pixels with the given colour.",
body="""\
wxMask* mask = new wxMask(*self, *colour);
self->SetMask(mask);
""")
c.addCppMethod('int', '__nonzero__', '()', "return self->IsOk();")
c.addCppMethod('int', '__bool__', '()', "return self->IsOk();")
c.addCppMethod('long', 'GetHandle', '()',
doc='MSW-only method to fetch the windows handle for the bitmap.',
body="""\
#ifdef __WXMSW__
return (long)self->GetHandle();
#else
return 0;
#endif
""")
c.addCppMethod('void', 'SetHandle', '(long handle)',
doc='MSW-only method to set the windows handle for the bitmap.',
body="""\
#ifdef __WXMSW__
self->SetHandle((WXHANDLE)handle);
#endif
""")
c.addCppMethod('void', 'SetSize', '(const wxSize& size)',
doc='Set the bitmap size (does not alter the existing native bitmap data or image size).',
body="""\
self->SetWidth(size->x);
self->SetHeight(size->y);
""")
# On MSW the bitmap handler classes are different than what is
# documented, and this causes compile errors. Nobody has needed them from
# Python thus far, so just ignore them all for now.
for m in c.find('FindHandler').all():
m.ignore()
c.find('AddHandler').ignore()
c.find('CleanUpHandlers').ignore()
c.find('GetHandlers').ignore()
c.find('InsertHandler').ignore()
c.find('RemoveHandler').ignore()
# This one is called from the wx startup code, it's not needed in Python
# so nuke it too since we're nuking all the others.
c.find('InitStandardHandlers').ignore()
module.find('wxBitmapHandler').ignore()
#module.addItem(tools.wxListWrapperTemplate('wxList', 'wxBitmapHandler', module))
#-----------------------------------------------------------------------
# Declarations, helpers and methods for converting to/from buffer objects
# with raw bitmap access.
from etgtools import EnumDef, EnumValueDef
e = EnumDef(name='wxBitmapBufferFormat')
e.items.extend([ EnumValueDef(name='wxBitmapBufferFormat_RGB'),
EnumValueDef(name='wxBitmapBufferFormat_RGBA'),
EnumValueDef(name='wxBitmapBufferFormat_RGB32'),
EnumValueDef(name='wxBitmapBufferFormat_ARGB32'),
])
module.insertItem(0, e)
c.includeCppCode('src/bitmap_ex.cpp')
module.addHeaderCode('#include "bitmap_ex.h"')
c.addCppMethod('void', 'CopyFromBuffer',
'(wxPyBuffer* data, wxBitmapBufferFormat format=wxBitmapBufferFormat_RGB, int stride=-1)',
doc="""\
Copy data from a buffer object to replace the bitmap pixel data.
Default format is plain RGB, but other formats are now supported as
well. The following symbols are used to specify the format of the
bytes in the buffer:
============================= ================================
wx.BitmapBufferFormat_RGB A simple sequence of RGB bytes
wx.BitmapBufferFormat_RGBA A simple sequence of RGBA bytes
wx.BitmapBufferFormat_ARGB32 A sequence of 32-bit values in native endian order, with alpha in the upper 8 bits, followed by red, green, and blue.
wx.BitmapBufferFormat_RGB32 Same as above but the alpha byte is ignored.
============================= ================================""",
body="""\
wxPyCopyBitmapFromBuffer(self, (byte*)data->m_ptr, data->m_len, format, stride);
""")
c.addCppMethod('void', 'CopyToBuffer',
'(wxPyBuffer* data, wxBitmapBufferFormat format=wxBitmapBufferFormat_RGB, int stride=-1)',
doc="""\
Copy pixel data to a buffer object. See :meth:`CopyFromBuffer` for buffer
format details.""",
body="""\
wxPyCopyBitmapToBuffer(self, (byte*)data->m_ptr, data->m_len, format, stride);
""")
# Some bitmap factories added as static methods
c.addCppMethod('wxBitmap*', 'FromBufferAndAlpha',
'(int width, int height, wxPyBuffer* data, wxPyBuffer* alpha)',
isStatic=True,
factory=True,
doc="""\
Creates a :class:`wx.Bitmap` from in-memory data. The data and alpha
parameters must be a Python object that implements the buffer
interface, such as a string, bytearray, etc. The data object
is expected to contain a series of RGB bytes and be at least
(width * height * 3) bytes long, while the alpha object is expected
to be width*height bytes long and represents the image's alpha
channel. On Windows and Mac the RGB values will be
'premultiplied' by the alpha values. (The other platforms do
the multiplication themselves.)
Unlike :func:`wx.ImageFromBuffer` the bitmap created with this function
does not share the memory block with the buffer object. This is
because the native pixel buffer format varies on different
platforms, and so instead an efficient as possible copy of the
data is made from the buffer object to the bitmap's native pixel
buffer.
""",
body="""\
if (!data->checkSize(width*height*3) || !alpha->checkSize(width*height))
return NULL;
byte* ddata = (byte*)data->m_ptr;
byte* adata = (byte*)alpha->m_ptr;
wxBitmap* bmp = new wxBitmap(width, height, 32);
wxAlphaPixelData pixData(*bmp, wxPoint(0,0), wxSize(width,height));
if (! pixData) {
wxPyErr_SetString(PyExc_RuntimeError, "Failed to gain raw access to bitmap data.");
return NULL;
}
wxAlphaPixelData::Iterator p(pixData);
for (int y=0; y<height; y++) {
wxAlphaPixelData::Iterator rowStart = p;
for (int x=0; x<width; x++) {
byte a = *(adata++);
p.Red() = wxPy_premultiply(*(ddata++), a);
p.Green() = wxPy_premultiply(*(ddata++), a);
p.Blue() = wxPy_premultiply(*(ddata++), a);
p.Alpha() = a;
++p;
}
p = rowStart;
p.OffsetY(pixData, 1);
}
return bmp;
""")
c.addCppMethod('wxBitmap*', 'FromBuffer', '(int width, int height, wxPyBuffer* data)',
isStatic=True,
factory=True,
doc="""\
Creates a :class:`wx.Bitmap` from in-memory data. The data parameter
must be a Python object that implements the buffer interface, such
as a string, bytearray, etc. The data object is expected to contain
a series of RGB bytes and be at least (width * height * 3) bytes long.
Unlike :func:`wx.ImageFromBuffer` the bitmap created with this function
does not share the memory block with the buffer object. This is
because the native pixel buffer format varies on different
platforms, and so instead an efficient as possible copy of the
data is made from the buffer object to the bitmap's native pixel
buffer.
""",
body="""\
wxBitmap* bmp = new wxBitmap(width, height, 24);
wxPyCopyBitmapFromBuffer(bmp, (byte*)data->m_ptr, data->m_len, wxBitmapBufferFormat_RGB);
wxPyThreadBlocker blocker;
if (PyErr_Occurred()) {
delete bmp;
bmp = NULL;
}
return bmp;
""")
module.addPyFunction('BitmapFromBuffer', '(width, height, dataBuffer, alphaBuffer=None)',
deprecated="Use :meth:`wx.Bitmap.FromBuffer` or :meth:`wx.Bitmap.FromBufferAndAlpha` instead.",
doc='A compatibility wrapper for :meth:`wx.Bitmap.FromBuffer` and :meth:`wx.Bitmap.FromBufferAndAlpha`',
body="""\
if alphaBuffer is not None:
return Bitmap.FromBufferAndAlpha(width, height, dataBuffer, alphaBuffer)
else:
return Bitmap.FromBuffer(width, height, dataBuffer)
""")
c.addCppMethod('wxBitmap*', 'FromBufferRGBA', '(int width, int height, wxPyBuffer* data)',
isStatic=True,
factory=True,
doc="""\
Creates a :class:`wx.Bitmap` from in-memory data. The data parameter
must be a Python object that implements the buffer interface, such
as a string, bytearray, etc. The data object is expected to contain
a series of RGBA bytes and be at least (width * height * 4) bytes long.
On Windows and Mac the RGB values will be 'premultiplied' by the
alpha values. (The other platforms do the multiplication themselves.)
Unlike :func:`wx.ImageFromBuffer` the bitmap created with this function
does not share the memory block with the buffer object. This is
because the native pixel buffer format varies on different
platforms, and so instead an efficient as possible copy of the
data is made from the buffer object to the bitmap's native pixel
buffer.
""",
body="""\
wxBitmap* bmp = new wxBitmap(width, height, 32);
wxPyCopyBitmapFromBuffer(bmp, (byte*)data->m_ptr, data->m_len, wxBitmapBufferFormat_RGBA);
wxPyThreadBlocker blocker;
if (PyErr_Occurred()) {
delete bmp;
bmp = NULL;
}
return bmp;
""")
module.addPyFunction('BitmapFromBufferRGBA', '(width, height, dataBuffer)',
deprecated="Use :meth:`wx.Bitmap.FromBufferRGBA` instead.",
doc='A compatibility wrapper for :meth:`wx.Bitmap.FromBufferRGBA`',
body='return Bitmap.FromBufferRGBA(width, height, dataBuffer)')
c.addCppMethod('wxBitmap*', 'FromRGBA',
'(int width, int height, byte red=0, byte green=0, byte blue=0, byte alpha=0)',
isStatic=True,
factory=True,
doc="""\
Creates a new empty 32-bit :class:`wx.Bitmap` where every pixel has been
initialized with the given RGBA values.
""",
body="""\
if ( !(width > 0 && height > 0) ) {
wxPyErr_SetString(PyExc_ValueError, "Width and height must be greater than zero");
return NULL;
}
wxBitmap* bmp = new wxBitmap(width, height, 32);
wxAlphaPixelData pixData(*bmp, wxPoint(0,0), wxSize(width,height));
if (! pixData) {
wxPyErr_SetString(PyExc_RuntimeError, "Failed to gain raw access to bitmap data.");
return NULL;
}
wxAlphaPixelData::Iterator p(pixData);
for (int y=0; y<height; y++) {
wxAlphaPixelData::Iterator rowStart = p;
for (int x=0; x<width; x++) {
p.Red() = wxPy_premultiply(red, alpha);
p.Green() = wxPy_premultiply(green, alpha);
p.Blue() = wxPy_premultiply(blue, alpha);
p.Alpha() = alpha;
++p;
}
p = rowStart;
p.OffsetY(pixData, 1);
}
return bmp;
""")
module.addPyFunction('EmptyBitmapRGBA', '(width, height, red=0, green=0, blue=0, alpha=0)',
deprecated="Use :meth:`wx.Bitmap.FromRGBA` instead.",
doc='A compatibility wrapper for :meth:`wx.Bitmap.FromRGBA`',
body='return Bitmap.FromRGBA(width, height, red, green, blue, alpha)')
#-----------------------------------------------------------------------
# For compatibility:
module.addPyFunction('EmptyBitmap', '(width, height, depth=BITMAP_SCREEN_DEPTH)',
deprecated="Use :class:`wx.Bitmap` instead",
doc='A compatibility wrapper for the wx.Bitmap(width, height, depth) constructor',
body='return Bitmap(width, height, depth)')
module.addPyFunction('BitmapFromImage', '(image)',
deprecated="Use :class:`wx.Bitmap` instead",
doc='A compatibility wrapper for the wx.Bitmap(wx.Image) constructor',
body='return Bitmap(image)')
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxFileType')
assert isinstance(c, etgtools.ClassDef)
c.addPrivateCopyCtor()
c.addPublic()
# Change semantics for some methods to return values instead of using
# output parameters. This is for Classic compatibility as well as being a
# bit more pythonic.
c.find('GetDescription').ignore()
c.addCppMethod('wxString',
'GetDescription',
'()',
doc="""\
Returns a brief description for this file type: for example, "text document" for
the "text/plain" MIME type.""",
body="""\
wxString rv;
self->GetDescription(&rv);
return new wxString(rv);
""")
c.find('GetExtensions').ignore()
c.addCppMethod('wxArrayString*',
'GetExtensions',
'()',
factory=True,
doc="""\
Returns all extensions associated with this file type: for
example, it may contain the following two elements for the MIME
type "text/html" (notice the absence of the leading dot): "html"
and "htm".
This function is not implemented on Windows, there is no (efficient)
way to retrieve associated extensions from the given MIME type on
this platform. """,
body="""\
wxArrayString* arr = new wxArrayString;
self->GetExtensions(*arr); return arr;
""")
c.find('GetMimeType').ignore()
c.addCppMethod(
'wxString',
'GetMimeType',
'()',
doc=
'Returns full MIME type specification for this file type: for example, "text/plain".',
body="""\
wxString rv;
self->GetMimeType(&rv);
return new wxString(rv);
""")
c.find('GetMimeTypes').ignore()
c.addCppMethod('wxArrayString*',
'GetMimeTypes',
'()',
factory=True,
doc="""\
Same as GetMimeType but returns a list of types. This will usually contain
only one item, but sometimes, such as on Unix with KDE more than one type
if there are differences between KDE< mailcap and mime.types.""",
body="""\
wxArrayString* arr = new wxArrayString;
self->GetMimeTypes(*arr);
return arr;
""")
c.find('GetIcon').ignore()
c.addCppMethod(
'wxIcon*',
'GetIcon',
'()',
factory=True,
doc="Return the icon associated with this mime type, if any.",
body="""\
wxIconLocation loc;
if (self->GetIcon(&loc))
return new wxIcon(loc);
else
return NULL;
""")
c.addCppMethod(
'wxIconLocation*',
'GetIconLocation',
'()',
factory=True,
doc=
"Returns a wx.IconLocation that can be used to fetch the icon for this mime type.",
body="""\
wxIconLocation loc;
if (self->GetIcon(&loc))
return new wxIconLocation(loc);
else
return NULL;
""")
for m in c.find('GetOpenCommand').all():
m.ignore()
c.addCppMethod('wxString',
'GetOpenCommand',
'(const wxFileType::MessageParameters& params)',
doc="""\
Returns the command which must be executed (see wx.Execute()) in order
to open the file of the given type. The name of the file as well as
any other parameters is retrieved from MessageParameters() class.""",
body="""\
wxString rv;
self->GetOpenCommand(&rv, *params);
return new wxString(rv);
""")
c.addCppMethod('wxString',
'GetOpenCommand',
'(const wxString& filename)',
doc="""\
Returns the command which should be used to open the given
filename. An empty string is returned to indicate that an error
occurred (typically meaning that there is no standard way to open
this kind of files).""",
body="""\
return new wxString( self->GetOpenCommand(*filename) );
""")
c.find('GetPrintCommand').ignore()
c.addCppMethod('wxString',
'GetPrintCommand',
'(const wxFileType::MessageParameters& params)',
doc="""\
Returns the command which must be executed (see wxExecute()) in order to
print the file of the given type. The name of the file is retrieved from
the MessageParameters class.""",
body="""\
wxString rv;
self->GetPrintCommand(&rv, *params);
return new wxString(rv);
""")
m = c.find('GetAllCommands')
m.find('verbs').out = True
m.find('commands').out = True
m.type = 'void'
m.briefDoc = \
"Returns a tuple containing the `verbs` and `commands` arrays, " \
"corresponding for the registered information for this mime type."
c.addCppMethod('PyObject*',
'GetIconInfo',
'()',
doc="""\
Returns a tuple containing the Icon for this file type, the file where the
icon is found, and the index of the image in that file, if applicable.
""",
body="""\
wxIconLocation loc;
if (self->GetIcon(&loc)) {
wxString iconFile = loc.GetFileName();
int iconIndex = -1;
#ifdef __WXMSW__
iconIndex = loc.GetIndex();
#endif
// Make a tuple and put the values in it
wxPyThreadBlocker blocker;
PyObject* tuple = PyTuple_New(3);
PyTuple_SetItem(tuple, 0,
wxPyConstructObject(new wxIcon(loc), wxT("wxIcon"), true));
PyTuple_SetItem(tuple, 1, wx2PyString(iconFile));
PyTuple_SetItem(tuple, 2, wxPyInt_FromLong(iconIndex));
return tuple;
}
else
RETURN_NONE();
""")
#-----------------------------------------------------------------
c = module.find('wxFileTypeInfo')
# Ignore the variadic nature of this ctor
ctor = c.find('wxFileTypeInfo').findOverload('extension')
ctor.items[-1].ignore()
ctor.setCppCode("""\
wxFileTypeInfo* fti = new wxFileTypeInfo(*mimeType);
fti->SetOpenCommand(*openCmd);
fti->SetPrintCommand(*printCmd);
fti->SetDescription(*description);
fti->AddExtension(*extension);
return fti;
""")
ctor.useDerivedName = False
#-----------------------------------------------------------------
c = module.find('wxMimeTypesManager')
c.addPrivateCopyCtor()
c.find('Associate').factory = True
c.find('EnumAllFileTypes').ignore()
c.addCppMethod('wxArrayString*',
'EnumAllFileTypes',
'()',
factory=True,
doc="Returns a list of all known file types.",
body="""\
wxArrayString* arr = new wxArrayString;
self->EnumAllFileTypes(*arr);
return arr;
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
# Use wxPyUserData for the clientData values instead of a plain wxObject
def _fixClientData(c):
for item in c.allItems():
if isinstance(item,
etgtools.ParamDef) and item.name == 'clientData':
item.type = 'wxPyUserData*'
item.transfer = True
#---------------------------------------------
c = module.find('wxToolBarToolBase')
assert isinstance(c, etgtools.ClassDef)
c.abstract = True
tools.removeVirtuals(c)
_fixClientData(c)
# Switch all wxToolBarBase to wxToolBar
for item in c.allItems():
if isinstance(item, etgtools.ParamDef) and item.name == 'tbar':
item.type = 'wxToolBar*'
c.find('GetToolBar').ignore()
c.addCppMethod('wxToolBar*',
'GetToolBar',
'()',
doc="Return the toolbar this tool is a member of.",
body="""\
return (wxToolBar*)self->GetToolBar();
""")
gcd = c.find('GetClientData')
gcd.type = 'wxPyUserData*'
gcd.setCppCode(
'return dynamic_cast<wxPyUserData*>(self->GetClientData());')
#---------------------------------------------
c = module.find('wxToolBar')
tools.fixWindowClass(c)
_fixClientData(c)
c.find('SetBitmapResource').ignore()
module.addGlobalStr('wxToolBarNameStr', c)
gcd = c.find('GetToolClientData')
gcd.type = 'wxPyUserData*'
gcd.setCppCode(
'return dynamic_cast<wxPyUserData*>(self->GetToolClientData(toolId));')
c.find('AddTool.tool').transfer = True
c.find('InsertTool.tool').transfer = True
c.find('OnLeftClick').ignore()
c.find('OnMouseEnter').ignore()
c.find('OnRightClick').ignore()
c.find('OnLeftClick').ignore()
# Add some deprecated methods to aid with Classic compatibility.
# TODO: Which others are commonly enough used that they should be here too?
c.addPyMethod(
'AddSimpleTool',
'(self, toolId, bitmap, shortHelpString="", longHelpString="", isToggle=0)',
doc='Old style method to add a tool to the toolbar.',
deprecated='Use :meth:`AddTool` instead.',
body="""\
kind = wx.ITEM_NORMAL
if isToggle: kind = wx.ITEM_CHECK
return self.AddTool(toolId, '', bitmap, wx.NullBitmap, kind,
shortHelpString, longHelpString)
""")
c.addPyMethod(
'AddLabelTool',
'(self, id, label, bitmap, bmpDisabled=wx.NullBitmap, kind=wx.ITEM_NORMAL,'
' shortHelp="", longHelp="", clientData=None)',
doc='Old style method to add a tool in the toolbar.',
deprecated='Use :meth:`AddTool` instead.',
body="""\
return self.AddTool(id, label, bitmap, bmpDisabled, kind,
shortHelp, longHelp, clientData)
""")
c.addPyMethod(
'InsertSimpleTool',
'(self, pos, toolId, bitmap, shortHelpString="", longHelpString="", isToggle=0)',
doc='Old style method to insert a tool in the toolbar.',
deprecated='Use :meth:`InsertTool` instead.',
body="""\
kind = wx.ITEM_NORMAL
if isToggle: kind = wx.ITEM_CHECK
return self.InsertTool(pos, toolId, '', bitmap, wx.NullBitmap, kind,
shortHelpString, longHelpString)
""")
c.addPyMethod(
'InsertLabelTool',
'(self, pos, id, label, bitmap, bmpDisabled=wx.NullBitmap, kind=wx.ITEM_NORMAL,'
' shortHelp="", longHelp="", clientData=None)',
doc='Old style method to insert a tool in the toolbar.',
deprecated='Use :meth:`InsertTool` instead.',
body="""\
return self.InsertTool(pos, id, label, bitmap, bmpDisabled, kind,
shortHelp, longHelp, clientData)
""")
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxCursor')
assert isinstance(c, etgtools.ClassDef)
# Set mustHaveApp on all ctors except the default ctor
for ctor in c.find('wxCursor').all():
if ctor.isCtor and ctor.argsString != '()':
ctor.mustHaveApp()
c.find('wxCursor').findOverload('bits').ignore()
c.find('wxCursor').findOverload('cursorName').find(
'type').default = 'wxBITMAP_TYPE_ANY'
# TODO: This ctor ^^ in Classic has a custom implementation for wxGTK that
# sets the hotspot. Is that still needed?
c.addCppMethod('int', '__nonzero__', '()', """\
return self->IsOk();
""")
c.addCppMethod('long',
'GetHandle',
'()',
"""\
#ifdef __WXMSW__
return (long)self->GetHandle();
#else
return 0;
#endif""",
briefDoc="Get the handle for the Cursor. Windows only.")
c.addCppMethod(
'void',
'SetHandle',
'(long handle)',
"""\
#ifdef __WXMSW__
self->SetHandle((WXHANDLE)handle);
#endif""",
briefDoc="Set the handle to use for this Cursor. Windows only.")
# TODO: Classic has MSW-only getters and setters for width, height, depth, and size.
# The stock Cursor items are documented as simple pointers, but in reality
# they are macros that evaluate to a function call that returns a cursor
# pointer, and that is only valid *after* the wx.App object has been
# created. That messes up the code that SIP generates for them, so we need
# to come up with another solution. So instead we will just create
# uninitialized cursor in a block of Python code, that will then be
# intialized later when the wx.App is created.
c.addCppMethod('void',
'_copyFrom',
'(const wxCursor* other)',
"*self = *other;",
briefDoc="For internal use only.") # ??
pycode = '# These stock cursors will be initialized when the wx.App object is created.\n'
for item in module:
if '_CURSOR' in item.name:
item.ignore()
pycode += '%s = Cursor()\n' % tools.removeWxPrefix(item.name)
module.addPyCode(pycode)
# former renamed constructors
module.addPyCode(
'StockCursor = wx.deprecated(Cursor, "Use Cursor instead.")')
module.addPyCode(
'CursorFromImage = wx.deprecated(Cursor, "Use Cursor instead.")')
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
def run():
# Parse the XML file(s) building a collection of Extractor objects
module = etgtools.ModuleDef(PACKAGE, MODULE, NAME, DOCSTRING)
etgtools.parseDoxyXML(module, ITEMS)
#-----------------------------------------------------------------
# Tweak the parsed meta objects in the module object as needed for
# customizing the generated code and docstrings.
c = module.find('wxMenuItem')
assert isinstance(c, etgtools.ClassDef)
c.addPrivateCopyCtor()
tools.removeVirtuals(c)
c.find('SetSubMenu.menu').transfer = True
# deprecated and removed
c.find('GetLabel').ignore()
c.find('GetName').ignore()
c.find('GetText').ignore()
c.find('SetText').ignore()
c.find('GetLabelFromText').ignore()
# These are MSW only. Make them be empty stubs for the other ports
c.find('GetBackgroundColour').type = 'wxColour*'
c.find('GetBackgroundColour').setCppCode("""\
#ifdef __WXMSW__
return &self->GetBackgroundColour();
#else
return &wxNullColour;
#endif
""")
c.find('SetBackgroundColour').setCppCode("""\
#ifdef __WXMSW__
self->SetBackgroundColour(*colour);
#endif
""")
c.find('GetFont').type = 'wxFont*'
c.find('GetFont').setCppCode("""\
#ifdef __WXMSW__
return &self->GetFont();
#else
return &wxNullFont;
#endif
""")
c.find('SetFont').setCppCode("""\
#ifdef __WXMSW__
self->SetFont(*font);
#endif
""")
c.find('GetMarginWidth').setCppCode("""\
#ifdef __WXMSW__
return self->GetMarginWidth();
#else
return -1;
#endif
""")
c.find('SetMarginWidth').setCppCode("""\
#ifdef __WXMSW__
self->SetMarginWidth(width);
#endif
""")
c.find('GetTextColour').type = 'wxColour*'
c.find('GetTextColour').setCppCode("""\
#ifdef __WXMSW__
return &self->GetTextColour();
#else
return &wxNullColour;
#endif
""")
c.find('SetTextColour').setCppCode("""\
#ifdef __WXMSW__
self->SetTextColour(*colour);
#endif
""")
c.find('GetBitmap').type = 'const wxBitmap*'
c.find('GetBitmap').setCppCode("""\
#ifdef __WXMSW__
return &self->GetBitmap(checked);
#else
return &self->GetBitmap();
#endif
""")
c.find('SetBitmap').setCppCode("""\
#ifdef __WXMSW__
self->SetBitmap(*bmp, checked);
#else
self->SetBitmap(*bmp); // no checked arg in this case
#endif
""")
c.find('SetBitmaps').setCppCode("""\
#ifdef __WXMSW__
self->SetBitmaps(*checked, *unchecked);
#else
self->SetBitmap(*checked);
#endif
""")
c.find('GetDisabledBitmap').type = 'const wxBitmap*'
c.find('GetDisabledBitmap').setCppCode("""\
#ifdef __WXMSW__
return &self->GetDisabledBitmap();
#else
return &wxNullBitmap;
#endif
""")
c.find('SetDisabledBitmap').setCppCode("""\
#ifdef __WXMSW__
self->SetDisabledBitmap(*disabled);
#endif
""")
c.addAutoProperties()
c.addItem(etgtools.PropertyDef('Enabled', 'IsEnabled', 'Enable'))
c.find('GetAccel').factory = True
c.find('GetAccelFromString').ignore() # Not implemented anywere?
module.addItem(
tools.wxListWrapperTemplate('wxMenuItemList', 'wxMenuItem', module))
#-----------------------------------------------------------------
tools.doCommonTweaks(module)
tools.runGenerators(module)
