mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
synced 2024-12-24 20:22:33 -06:00
1098 lines
46 KiB
Python
1098 lines
46 KiB
Python
"""Undocumented Module"""
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__all__ = ['DirectGuiBase', 'DirectGuiWidget']
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from pandac.PandaModules import *
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import DirectGuiGlobals as DGG
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from OnscreenText import *
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from OnscreenGeom import *
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from OnscreenImage import *
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from direct.directtools.DirectUtil import ROUND_TO
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from direct.showbase import DirectObject
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from direct.task import Task
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from direct.showbase import ShowBase
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from direct.showbase.PythonUtil import recordCreationStackStr
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from pandac.PandaModules import PStatCollector
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import types
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guiObjectCollector = PStatCollector("Client::GuiObjects")
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"""
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Base class for all Direct Gui items. Handles composite widgets and
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command line argument parsing.
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"""
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"""
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Code Overview:
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1 Each widget defines a set of options (optiondefs) as a list of tuples
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of the form ('name', defaultValue, handler).
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'name' is the name of the option (used during construction of configure)
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handler can be: None, method, or INITOPT. If a method is specified,
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it will be called during widget construction (via initialiseoptions),
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if the Handler is specified as an INITOPT, this is an option that can
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only be set during widget construction.
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2) DirectGuiBase.defineoptions is called. defineoption creates:
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self._constructorKeywords = { keyword: [value, useFlag] }
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a dictionary of the keyword options specified as part of the constructor
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keywords can be of the form 'component_option', where component is
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the name of a widget's component, a component group or a component alias
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self._dynamicGroups, a list of group names for which it is permissible
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to specify options before components of that group are created.
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If a widget is a derived class the order of execution would be:
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foo.optiondefs = {}
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foo.defineoptions()
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fooParent()
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fooParent.optiondefs = {}
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fooParent.defineoptions()
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3) addoptions is called. This combines options specified as keywords to
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the widget constructor (stored in self._constuctorKeywords)
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with the default options (stored in optiondefs). Results are stored in
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self._optionInfo = { keyword: [default, current, handler] }
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If a keyword is of the form 'component_option' it is left in the
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self._constructorKeywords dictionary (for use by component constructors),
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otherwise it is 'used', and deleted from self._constructorKeywords.
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Notes: - constructor keywords override the defaults.
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- derived class default values override parent class defaults
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- derived class handler functions override parent class functions
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4) Superclass initialization methods are called (resulting in nested calls
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to define options (see 2 above)
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5) Widget components are created via calls to self.createcomponent.
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User can specify aliases and groups for each component created.
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Aliases are alternate names for components, e.g. a widget may have a
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component with a name 'entryField', which itself may have a component
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named 'entry', you could add an alias 'entry' for the 'entryField_entry'
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These are stored in self.__componentAliases. If an alias is found,
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all keyword entries which use that alias are expanded to their full
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form (to avoid conversion later)
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Groups allow option specifications that apply to all members of the group.
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If a widget has components: 'text1', 'text2', and 'text3' which all belong
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to the 'text' group, they can be all configured with keywords of the form:
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'text_keyword' (e.g. text_font = 'comic.rgb'). A component's group
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is stored as the fourth element of its entry in self.__componentInfo
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Note: the widget constructors have access to all remaining keywords in
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_constructorKeywords (those not transferred to _optionInfo by
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define/addoptions). If a component defines an alias that applies to
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one of the keywords, that keyword is replaced with a new keyword with
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the alias expanded.
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If a keyword (or substituted alias keyword) is used during creation of the
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component, it is deleted from self._constructorKeywords. If a group
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keyword applies to the component, that keyword is marked as used, but is
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not deleted from self._constructorKeywords, in case it applies to another
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component. If any constructor keywords remain at the end of component
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construction (and initialisation), an error is raised.
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5) initialiseoptions is called. This method calls any option handlers to
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respond to any keyword/default values, then checks to see if any keywords
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are left unused. If so, an error is raised.
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"""
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class DirectGuiBase(DirectObject.DirectObject):
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def __init__(self):
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# Default id of all gui object, subclasses should override this
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self.guiId = 'guiObject'
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# List of all post initialization functions
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self.postInitialiseFuncList = []
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# To avoid doing things redundantly during initialisation
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self.fInit = 1
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# Mapping from each megawidget option to a list of information
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# about the option
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# - default value
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# - current value
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# - function to call when the option is initialised in the
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# call to initialiseoptions() in the constructor or
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# modified via configure(). If this is INITOPT, the
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# option is an initialisation option (an option that can
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# be set by the call to the constructor but can not be
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# used with configure).
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# This mapping is not initialised here, but in the call to
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# defineoptions() which precedes construction of this base class.
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#
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# self._optionInfo = {}
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# Mapping from each component name to a tuple of information
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# about the component.
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# - component widget instance
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# - configure function of widget instance
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# - the class of the widget (Frame, EntryField, etc)
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# - cget function of widget instance
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# - the name of the component group of this component, if any
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self.__componentInfo = {}
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# Mapping from alias names to the names of components or
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# sub-components.
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self.__componentAliases = {}
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# Contains information about the keywords provided to the
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# constructor. It is a mapping from the keyword to a tuple
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# containing:
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# - value of keyword
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# - a boolean indicating if the keyword has been used.
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# A keyword is used if, during the construction of a megawidget,
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# - it is defined in a call to defineoptions() or addoptions(), or
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# - it references, by name, a component of the megawidget, or
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# - it references, by group, at least one component
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# At the end of megawidget construction, a call is made to
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# initialiseoptions() which reports an error if there are
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# unused options given to the constructor.
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#
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# self._constructorKeywords = {}
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# List of dynamic component groups. If a group is included in
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# this list, then it not an error if a keyword argument for
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# the group is given to the constructor or to configure(), but
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# no components with this group have been created.
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# self._dynamicGroups = ()
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def defineoptions(self, keywords, optionDefs, dynamicGroups = ()):
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""" defineoptions(keywords, optionDefs, dynamicGroups = {}) """
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# Create options, providing the default value and the method
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# to call when the value is changed. If any option created by
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# base classes has the same name as one in <optionDefs>, the
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# base class's value and function will be overriden.
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# keywords is a dictionary of keyword/value pairs from the constructor
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# optionDefs is a dictionary of default options for the widget
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# dynamicGroups is a tuple of component groups for which you can
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# specify options even though no components of this group have
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# been created
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# This should be called before the constructor of the base
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# class, so that default values defined in the derived class
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# override those in the base class.
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if not hasattr(self, '_constructorKeywords'):
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tmp = {}
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for option, value in keywords.items():
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tmp[option] = [value, 0]
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self._constructorKeywords = tmp
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self._optionInfo = {}
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# Initialize dictionary of dynamic groups
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if not hasattr(self, '_dynamicGroups'):
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self._dynamicGroups = ()
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self._dynamicGroups = self._dynamicGroups + tuple(dynamicGroups)
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# Reconcile command line and default options
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self.addoptions(optionDefs, keywords)
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def addoptions(self, optionDefs, optionkeywords):
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""" addoptions(optionDefs) - add option def to option info """
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# Add additional options, providing the default value and the
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# method to call when the value is changed. See
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# "defineoptions" for more details
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# optimisations:
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optionInfo = self._optionInfo
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optionInfo_has_key = optionInfo.__contains__
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keywords = self._constructorKeywords
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keywords_has_key = keywords.__contains__
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FUNCTION = DGG._OPT_FUNCTION
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for name, default, function in optionDefs:
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if '_' not in name:
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default = optionkeywords.get(name, default)
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# The option will already exist if it has been defined
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# in a derived class. In this case, do not override the
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# default value of the option or the callback function
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# if it is not None.
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if not optionInfo_has_key(name):
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if keywords_has_key(name):
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# Overridden by keyword, use keyword value
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value = keywords[name][0]
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optionInfo[name] = [default, value, function]
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# Delete it from self._constructorKeywords
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del keywords[name]
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else:
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# Use optionDefs value
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optionInfo[name] = [default, default, function]
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elif optionInfo[name][FUNCTION] is None:
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# Only override function if not defined by derived class
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optionInfo[name][FUNCTION] = function
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else:
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# This option is of the form "component_option". If this is
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# not already defined in self._constructorKeywords add it.
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# This allows a derived class to override the default value
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# of an option of a component of a base class.
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if not keywords_has_key(name):
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keywords[name] = [default, 0]
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def initialiseoptions(self, myClass):
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"""
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Call all initialisation functions to initialize widget
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options to default of keyword value
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"""
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# This is to make sure this method class is only called by
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# the most specific class in the class hierarchy
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if self.__class__ is myClass:
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# Call the configuration callback function for every option.
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FUNCTION = DGG._OPT_FUNCTION
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self.fInit = 1
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for info in self._optionInfo.values():
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func = info[FUNCTION]
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if func is not None and func is not DGG.INITOPT:
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func()
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self.fInit = 0
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# Now check if anything is left over
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unusedOptions = []
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keywords = self._constructorKeywords
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for name in keywords.keys():
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used = keywords[name][1]
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if not used:
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# This keyword argument has not been used. If it
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# does not refer to a dynamic group, mark it as
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# unused.
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index = name.find('_')
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if index < 0 or name[:index] not in self._dynamicGroups:
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unusedOptions.append(name)
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self._constructorKeywords = {}
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if len(unusedOptions) > 0:
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if len(unusedOptions) == 1:
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text = 'Unknown option "'
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else:
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text = 'Unknown options "'
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raise KeyError, text + ', '.join(unusedOptions) + \
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'" for ' + myClass.__name__
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# Can now call post init func
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self.postInitialiseFunc()
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def postInitialiseFunc(self):
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for func in self.postInitialiseFuncList:
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func()
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def isinitoption(self, option):
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"""
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Is this opition one that can only be specified at construction?
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"""
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return self._optionInfo[option][DGG._OPT_FUNCTION] is DGG.INITOPT
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def options(self):
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"""
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Print out a list of available widget options.
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Does not include subcomponent options.
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"""
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options = []
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if hasattr(self, '_optionInfo'):
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for option, info in self._optionInfo.items():
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isinit = info[DGG._OPT_FUNCTION] is DGG.INITOPT
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default = info[DGG._OPT_DEFAULT]
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options.append((option, default, isinit))
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options.sort()
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return options
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def configure(self, option=None, **kw):
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"""
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configure(option = None)
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Query or configure the megawidget options.
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"""
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#
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# If not empty, *kw* is a dictionary giving new
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# values for some of the options of this gui item
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# For options defined for this widget, set
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# the value of the option to the new value and call the
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# configuration callback function, if any.
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#
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# If *option* is None, return all gui item configuration
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# options and settings. Options are returned as standard 3
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# element tuples
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#
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# If *option* is a string, return the 3 element tuple for the
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# given configuration option.
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# First, deal with the option queries.
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if len(kw) == 0:
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# This configure call is querying the values of one or all options.
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# Return 3-tuples:
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# (optionName, default, value)
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if option is None:
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rtn = {}
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for option, config in self._optionInfo.items():
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rtn[option] = (option,
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config[DGG._OPT_DEFAULT],
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config[DGG._OPT_VALUE])
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return rtn
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else:
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config = self._optionInfo[option]
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return (option, config[DGG._OPT_DEFAULT], config[DGG._OPT_VALUE])
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# optimizations:
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optionInfo = self._optionInfo
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optionInfo_has_key = optionInfo.__contains__
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componentInfo = self.__componentInfo
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componentInfo_has_key = componentInfo.__contains__
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componentAliases = self.__componentAliases
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componentAliases_has_key = componentAliases.__contains__
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VALUE = DGG._OPT_VALUE
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FUNCTION = DGG._OPT_FUNCTION
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# This will contain a list of options in *kw* which
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# are known to this gui item.
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directOptions = []
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# This will contain information about the options in
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# *kw* of the form <component>_<option>, where
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# <component> is a component of this megawidget. It is a
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# dictionary whose keys are the configure method of each
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# component and whose values are a dictionary of options and
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# values for the component.
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indirectOptions = {}
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indirectOptions_has_key = indirectOptions.__contains__
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for option, value in kw.items():
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if optionInfo_has_key(option):
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# This is one of the options of this gui item.
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# Check it is an initialisation option.
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if optionInfo[option][FUNCTION] is DGG.INITOPT:
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print 'Cannot configure initialisation option "' \
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+ option + '" for ' + self.__class__.__name__
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break
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#raise KeyError, \
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# 'Cannot configure initialisation option "' \
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# + option + '" for ' + self.__class__.__name__
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optionInfo[option][VALUE] = value
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directOptions.append(option)
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else:
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index = option.find('_')
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if index >= 0:
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# This option may be of the form <component>_<option>.
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# e.g. if alias ('efEntry', 'entryField_entry')
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# and option = efEntry_width
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# component = efEntry, componentOption = width
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component = option[:index]
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componentOption = option[(index + 1):]
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# Expand component alias
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if componentAliases_has_key(component):
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# component = entryField, subcomponent = entry
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component, subComponent = componentAliases[component]
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if subComponent is not None:
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# componentOption becomes entry_width
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componentOption = subComponent + '_' \
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+ componentOption
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# Expand option string to write on error
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# option = entryField_entry_width
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option = component + '_' + componentOption
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# Does this component exist
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if componentInfo_has_key(component):
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# Get the configure func for the named component
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# component = entryField
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componentConfigFuncs = [componentInfo[component][1]]
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else:
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# Check if this is a group name and configure all
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# components in the group.
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componentConfigFuncs = []
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# For each component
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for info in componentInfo.values():
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# Check if it is a member of this group
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if info[4] == component:
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# Yes, append its config func
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componentConfigFuncs.append(info[1])
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if len(componentConfigFuncs) == 0 and \
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component not in self._dynamicGroups:
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raise KeyError, 'Unknown option "' + option + \
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'" for ' + self.__class__.__name__
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# Add the configure method(s) (may be more than
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# one if this is configuring a component group)
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# and option/value to dictionary.
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for componentConfigFunc in componentConfigFuncs:
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if not indirectOptions_has_key(componentConfigFunc):
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indirectOptions[componentConfigFunc] = {}
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# Create a dictionary of keyword/values keyed
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# on configuration function
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indirectOptions[componentConfigFunc][componentOption] \
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= value
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else:
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raise KeyError, 'Unknown option "' + option + \
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'" for ' + self.__class__.__name__
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# Call the configure methods for any components.
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# Pass in the dictionary of keyword/values created above
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for func, options in indirectOptions.items():
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func(**options)
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# Call the configuration callback function for each option.
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for option in directOptions:
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info = optionInfo[option]
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func = info[DGG._OPT_FUNCTION]
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if func is not None:
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func()
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# Allow index style references
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def __setitem__(self, key, value):
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self.configure(**{key: value})
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def cget(self, option):
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"""
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Get current configuration setting for this option
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"""
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# Return the value of an option, for example myWidget['font'].
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if option in self._optionInfo:
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return self._optionInfo[option][DGG._OPT_VALUE]
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else:
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index = option.find('_')
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if index >= 0:
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component = option[:index]
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componentOption = option[(index + 1):]
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# Expand component alias
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if component in self.__componentAliases:
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component, subComponent = self.__componentAliases[
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component]
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if subComponent is not None:
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componentOption = subComponent + '_' + componentOption
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# Expand option string to write on error
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option = component + '_' + componentOption
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if component in self.__componentInfo:
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# Call cget on the component.
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componentCget = self.__componentInfo[component][3]
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return componentCget(componentOption)
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else:
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# If this is a group name, call cget for one of
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# the components in the group.
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for info in self.__componentInfo.values():
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if info[4] == component:
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componentCget = info[3]
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return componentCget(componentOption)
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# Option not found
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raise KeyError, 'Unknown option "' + option + \
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'" for ' + self.__class__.__name__
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# Allow index style refererences
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__getitem__ = cget
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def createcomponent(self, componentName, componentAliases, componentGroup,
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widgetClass, *widgetArgs, **kw):
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"""
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Create a component (during construction or later) for this widget.
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"""
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# Check for invalid component name
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if '_' in componentName:
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raise ValueError, \
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'Component name "%s" must not contain "_"' % componentName
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# Get construction keywords
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if hasattr(self, '_constructorKeywords'):
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keywords = self._constructorKeywords
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else:
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keywords = {}
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for alias, component in componentAliases:
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# Create aliases to the component and its sub-components.
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index = component.find('_')
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if index < 0:
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# Just a shorter name for one of this widget's components
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self.__componentAliases[alias] = (component, None)
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else:
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# An alias for a component of one of this widget's components
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mainComponent = component[:index]
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subComponent = component[(index + 1):]
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self.__componentAliases[alias] = (mainComponent, subComponent)
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|
|
# Remove aliases from the constructor keyword arguments by
|
|
# replacing any keyword arguments that begin with *alias*
|
|
# with corresponding keys beginning with *component*.
|
|
alias = alias + '_'
|
|
aliasLen = len(alias)
|
|
for option in keywords.keys():
|
|
if len(option) > aliasLen and option[:aliasLen] == alias:
|
|
newkey = component + '_' + option[aliasLen:]
|
|
keywords[newkey] = keywords[option]
|
|
del keywords[option]
|
|
|
|
# Find any keyword arguments for this component
|
|
componentPrefix = componentName + '_'
|
|
nameLen = len(componentPrefix)
|
|
|
|
# First, walk through the option list looking for arguments
|
|
# than refer to this component's group.
|
|
|
|
for option in keywords.keys():
|
|
# Check if this keyword argument refers to the group
|
|
# of this component. If so, add this to the options
|
|
# to use when constructing the widget. Mark the
|
|
# keyword argument as being used, but do not remove it
|
|
# since it may be required when creating another
|
|
# component.
|
|
index = option.find('_')
|
|
if index >= 0 and componentGroup == option[:index]:
|
|
rest = option[(index + 1):]
|
|
kw[rest] = keywords[option][0]
|
|
keywords[option][1] = 1
|
|
|
|
# Now that we've got the group arguments, walk through the
|
|
# option list again and get out the arguments that refer to
|
|
# this component specifically by name. These are more
|
|
# specific than the group arguments, above; we walk through
|
|
# the list afterwards so they will override.
|
|
|
|
for option in keywords.keys():
|
|
if len(option) > nameLen and option[:nameLen] == componentPrefix:
|
|
# The keyword argument refers to this component, so add
|
|
# this to the options to use when constructing the widget.
|
|
kw[option[nameLen:]] = keywords[option][0]
|
|
# And delete it from main construction keywords
|
|
del keywords[option]
|
|
|
|
# Return None if no widget class is specified
|
|
if widgetClass is None:
|
|
return None
|
|
# Get arguments for widget constructor
|
|
if len(widgetArgs) == 1 and type(widgetArgs[0]) == types.TupleType:
|
|
# Arguments to the constructor can be specified as either
|
|
# multiple trailing arguments to createcomponent() or as a
|
|
# single tuple argument.
|
|
widgetArgs = widgetArgs[0]
|
|
# Create the widget
|
|
widget = widgetClass(*widgetArgs, **kw)
|
|
componentClass = widget.__class__.__name__
|
|
self.__componentInfo[componentName] = (widget, widget.configure,
|
|
componentClass, widget.cget, componentGroup)
|
|
return widget
|
|
|
|
def component(self, name):
|
|
# Return a component widget of the megawidget given the
|
|
# component's name
|
|
# This allows the user of a megawidget to access and configure
|
|
# widget components directly.
|
|
|
|
# Find the main component and any subcomponents
|
|
index = name.find('_')
|
|
if index < 0:
|
|
component = name
|
|
remainingComponents = None
|
|
else:
|
|
component = name[:index]
|
|
remainingComponents = name[(index + 1):]
|
|
|
|
# Expand component alias
|
|
# Example entry which is an alias for entryField_entry
|
|
if component in self.__componentAliases:
|
|
# component = entryField, subComponent = entry
|
|
component, subComponent = self.__componentAliases[component]
|
|
if subComponent is not None:
|
|
if remainingComponents is None:
|
|
# remainingComponents = entry
|
|
remainingComponents = subComponent
|
|
else:
|
|
remainingComponents = subComponent + '_' \
|
|
+ remainingComponents
|
|
# Get the component from __componentInfo dictionary
|
|
widget = self.__componentInfo[component][0]
|
|
if remainingComponents is None:
|
|
# Not looking for subcomponent
|
|
return widget
|
|
else:
|
|
# Recursive call on subcomponent
|
|
return widget.component(remainingComponents)
|
|
|
|
def components(self):
|
|
# Return a list of all components.
|
|
names = self.__componentInfo.keys()
|
|
names.sort()
|
|
return names
|
|
|
|
def hascomponent(self, component):
|
|
return component in self.__componentInfo
|
|
|
|
def destroycomponent(self, name):
|
|
# Remove a megawidget component.
|
|
# This command is for use by megawidget designers to destroy a
|
|
# megawidget component.
|
|
self.__componentInfo[name][0].destroy()
|
|
del self.__componentInfo[name]
|
|
|
|
def destroy(self):
|
|
# Clean out any hooks
|
|
self.ignoreAll()
|
|
del self._optionInfo
|
|
del self.__componentInfo
|
|
del self.postInitialiseFuncList
|
|
|
|
def bind(self, event, command, extraArgs = []):
|
|
"""
|
|
Bind the command (which should expect one arg) to the specified
|
|
event (such as ENTER, EXIT, B1PRESS, B1CLICK, etc.)
|
|
See DirectGuiGlobals for possible events
|
|
"""
|
|
# Need to tack on gui item specific id
|
|
gEvent = event + self.guiId
|
|
if base.config.GetBool('debug-directgui-msgs', False):
|
|
from direct.showbase.PythonUtil import StackTrace
|
|
print gEvent
|
|
print StackTrace()
|
|
self.accept(gEvent, command, extraArgs = extraArgs)
|
|
|
|
def unbind(self, event):
|
|
"""
|
|
Unbind the specified event
|
|
"""
|
|
# Need to tack on gui item specific id
|
|
gEvent = event + self.guiId
|
|
self.ignore(gEvent)
|
|
|
|
def toggleGuiGridSnap():
|
|
DirectGuiWidget.snapToGrid = 1 - DirectGuiWidget.snapToGrid
|
|
|
|
def setGuiGridSpacing(spacing):
|
|
DirectGuiWidget.gridSpacing = spacing
|
|
|
|
# this should trigger off of __dev__, but it's not available at this point.
|
|
# __debug__ works because the production client is not __debug__ and the
|
|
# production AI doesn't create any GUI.
|
|
if config.GetBool('record-gui-creation-stack', __debug__):
|
|
# this will help track down the code that created DirectGui objects
|
|
# call obj.printCreationStackTrace() to figure out what code created it
|
|
DirectGuiBase = recordCreationStackStr(DirectGuiBase)
|
|
|
|
class DirectGuiWidget(DirectGuiBase, NodePath):
|
|
# Toggle if you wish widget's to snap to grid when draggin
|
|
snapToGrid = 0
|
|
gridSpacing = 0.05
|
|
|
|
# Determine the default initial state for inactive (or
|
|
# unclickable) components. If we are in edit mode, these are
|
|
# actually clickable by default.
|
|
#guiEdit = base.config.GetBool('direct-gui-edit', 0)
|
|
guiEdit = config.GetBool('direct-gui-edit', 0)
|
|
if guiEdit:
|
|
inactiveInitState = DGG.NORMAL
|
|
else:
|
|
inactiveInitState = DGG.DISABLED
|
|
|
|
guiDict = {}
|
|
|
|
def __init__(self, parent = None, **kw):
|
|
# Direct gui widgets are node paths
|
|
# Direct gui widgets have:
|
|
# - stateNodePaths (to hold visible representation of widget)
|
|
# State node paths can have:
|
|
# - a frame of type (None, FLAT, RAISED, GROOVE, RIDGE)
|
|
# - arbitrary geometry for each state
|
|
# They inherit from DirectGuiWidget
|
|
# - Can create components (with aliases and groups)
|
|
# - Can bind to mouse events
|
|
# They inherit from NodePath
|
|
# - Can position/scale them
|
|
optiondefs = (
|
|
# Widget's constructor
|
|
('pgFunc', PGItem, None),
|
|
('numStates', 1, None),
|
|
('invertedFrames', (), None),
|
|
('sortOrder', 0, None),
|
|
# Widget's initial state
|
|
('state', DGG.NORMAL, self.setState),
|
|
# Widget's frame characteristics
|
|
('relief', DGG.FLAT, self.setRelief),
|
|
('borderWidth', (.1, .1), self.setBorderWidth),
|
|
('borderUvWidth', (.1, .1), self.setBorderUvWidth),
|
|
('frameSize', None, self.setFrameSize),
|
|
('frameColor', (.8, .8, .8, 1), self.setFrameColor),
|
|
('frameTexture', None, self.setFrameTexture),
|
|
('frameVisibleScale', (1, 1), self.setFrameVisibleScale),
|
|
('pad', (0, 0), self.resetFrameSize),
|
|
# Override button id (beware! your name may not be unique!)
|
|
('guiId', None, DGG.INITOPT),
|
|
# Initial pos/scale of the widget
|
|
('pos', None, DGG.INITOPT),
|
|
('hpr', None, DGG.INITOPT),
|
|
('scale', None, DGG.INITOPT),
|
|
('color', None, DGG.INITOPT),
|
|
# Do events pass through this widget?
|
|
('suppressMouse', 1, DGG.INITOPT),
|
|
('suppressKeys', 0, DGG.INITOPT),
|
|
('enableEdit', 1, DGG.INITOPT),
|
|
)
|
|
# Merge keyword options with default options
|
|
self.defineoptions(kw, optiondefs)
|
|
|
|
# Initialize the base classes (after defining the options).
|
|
DirectGuiBase.__init__(self)
|
|
NodePath.__init__(self)
|
|
# Create a button
|
|
self.guiItem = self['pgFunc']('')
|
|
# Override automatically generated guiId
|
|
if self['guiId']:
|
|
self.guiItem.setId(self['guiId'])
|
|
self.guiId = self.guiItem.getId()
|
|
if __dev__:
|
|
guiObjectCollector.addLevel(1)
|
|
guiObjectCollector.flushLevel()
|
|
# track gui items by guiId for tracking down leaks
|
|
if hasattr(base, 'guiItems'):
|
|
if self.guiId in base.guiItems:
|
|
base.notify.warning('duplicate guiId: %s (%s stomping %s)' %
|
|
(self.guiId, self,
|
|
base.guiItems[self.guiId]))
|
|
base.guiItems[self.guiId] = self
|
|
if hasattr(base, 'printGuiCreates'):
|
|
printStack()
|
|
# Attach button to parent and make that self
|
|
if (parent == None):
|
|
parent = aspect2d
|
|
self.assign(parent.attachNewNode(self.guiItem, self['sortOrder']))
|
|
# Update pose to initial values
|
|
if self['pos']:
|
|
self.setPos(self['pos'])
|
|
if self['hpr']:
|
|
self.setHpr(self['hpr'])
|
|
if self['scale']:
|
|
self.setScale(self['scale'])
|
|
if self['color']:
|
|
self.setColor(self['color'])
|
|
# Initialize names
|
|
# Putting the class name in helps with debugging.
|
|
self.setName("%s-%s" % (self.__class__.__name__, self.guiId))
|
|
# Create
|
|
self.stateNodePath = []
|
|
for i in range(self['numStates']):
|
|
self.stateNodePath.append(NodePath(self.guiItem.getStateDef(i)))
|
|
# Initialize frame style
|
|
self.frameStyle = []
|
|
for i in range(self['numStates']):
|
|
self.frameStyle.append(PGFrameStyle())
|
|
# For holding bounds info
|
|
self.ll = Point3(0)
|
|
self.ur = Point3(0)
|
|
|
|
# Is drag and drop enabled?
|
|
if self['enableEdit'] and self.guiEdit:
|
|
self.enableEdit()
|
|
|
|
# Set up event handling
|
|
suppressFlags = 0
|
|
if self['suppressMouse']:
|
|
suppressFlags |= MouseWatcherRegion.SFMouseButton
|
|
suppressFlags |= MouseWatcherRegion.SFMousePosition
|
|
if self['suppressKeys']:
|
|
suppressFlags |= MouseWatcherRegion.SFOtherButton
|
|
self.guiItem.setSuppressFlags(suppressFlags)
|
|
|
|
# Bind destroy hook
|
|
self.guiDict[self.guiId] = self
|
|
# self.bind(DGG.DESTROY, self.destroy)
|
|
|
|
# Update frame when everything has been initialized
|
|
self.postInitialiseFuncList.append(self.frameInitialiseFunc)
|
|
|
|
# Call option initialization functions
|
|
self.initialiseoptions(DirectGuiWidget)
|
|
|
|
def frameInitialiseFunc(self):
|
|
# Now allow changes to take effect
|
|
self.updateFrameStyle()
|
|
if not self['frameSize']:
|
|
self.resetFrameSize()
|
|
|
|
def enableEdit(self):
|
|
self.bind(DGG.B2PRESS, self.editStart)
|
|
self.bind(DGG.B2RELEASE, self.editStop)
|
|
self.bind(DGG.PRINT, self.printConfig)
|
|
# Can we move this to showbase
|
|
# Certainly we don't need to do this for every button!
|
|
#mb = base.mouseWatcherNode.getModifierButtons()
|
|
#mb.addButton(KeyboardButton.control())
|
|
#base.mouseWatcherNode.setModifierButtons(mb)
|
|
|
|
def disableEdit(self):
|
|
self.unbind(DGG.B2PRESS)
|
|
self.unbind(DGG.B2RELEASE)
|
|
self.unbind(DGG.PRINT)
|
|
#mb = base.mouseWatcherNode.getModifierButtons()
|
|
#mb.removeButton(KeyboardButton.control())
|
|
#base.mouseWatcherNode.setModifierButtons(mb)
|
|
|
|
def editStart(self, event):
|
|
taskMgr.remove('guiEditTask')
|
|
vWidget2render2d = self.getPos(render2d)
|
|
vMouse2render2d = Point3(event.getMouse()[0], 0, event.getMouse()[1])
|
|
editVec = Vec3(vWidget2render2d - vMouse2render2d)
|
|
if base.mouseWatcherNode.getModifierButtons().isDown(
|
|
KeyboardButton.control()):
|
|
t = taskMgr.add(self.guiScaleTask, 'guiEditTask')
|
|
t.refPos = vWidget2render2d
|
|
t.editVecLen = editVec.length()
|
|
t.initScale = self.getScale()
|
|
else:
|
|
t = taskMgr.add(self.guiDragTask, 'guiEditTask')
|
|
t.editVec = editVec
|
|
|
|
def guiScaleTask(self, state):
|
|
mwn = base.mouseWatcherNode
|
|
if mwn.hasMouse():
|
|
vMouse2render2d = Point3(mwn.getMouse()[0], 0, mwn.getMouse()[1])
|
|
newEditVecLen = Vec3(state.refPos - vMouse2render2d).length()
|
|
self.setScale(state.initScale * (newEditVecLen/state.editVecLen))
|
|
return Task.cont
|
|
|
|
def guiDragTask(self, state):
|
|
mwn = base.mouseWatcherNode
|
|
if mwn.hasMouse():
|
|
vMouse2render2d = Point3(mwn.getMouse()[0], 0, mwn.getMouse()[1])
|
|
newPos = vMouse2render2d + state.editVec
|
|
self.setPos(render2d, newPos)
|
|
if DirectGuiWidget.snapToGrid:
|
|
newPos = self.getPos()
|
|
newPos.set(
|
|
ROUND_TO(newPos[0], DirectGuiWidget.gridSpacing),
|
|
ROUND_TO(newPos[1], DirectGuiWidget.gridSpacing),
|
|
ROUND_TO(newPos[2], DirectGuiWidget.gridSpacing))
|
|
self.setPos(newPos)
|
|
return Task.cont
|
|
|
|
def editStop(self, event):
|
|
taskMgr.remove('guiEditTask')
|
|
|
|
def setState(self):
|
|
if type(self['state']) == type(0):
|
|
self.guiItem.setActive(self['state'])
|
|
elif (self['state'] == DGG.NORMAL) or (self['state'] == 'normal'):
|
|
self.guiItem.setActive(1)
|
|
else:
|
|
self.guiItem.setActive(0)
|
|
|
|
def resetFrameSize(self):
|
|
if not self.fInit:
|
|
self.setFrameSize(fClearFrame = 1)
|
|
|
|
def setFrameSize(self, fClearFrame = 0):
|
|
# Use ready state to determine frame Type
|
|
frameType = self.getFrameType()
|
|
if self['frameSize']:
|
|
# Use user specified bounds
|
|
self.bounds = self['frameSize']
|
|
#print "%s bounds = %s" % (self.getName(), self.bounds)
|
|
bw = (0, 0)
|
|
|
|
else:
|
|
if fClearFrame and (frameType != PGFrameStyle.TNone):
|
|
self.frameStyle[0].setType(PGFrameStyle.TNone)
|
|
self.guiItem.setFrameStyle(0, self.frameStyle[0])
|
|
# To force an update of the button
|
|
self.guiItem.getStateDef(0)
|
|
# Clear out frame before computing bounds
|
|
self.getBounds()
|
|
# Restore frame style if necessary
|
|
if (frameType != PGFrameStyle.TNone):
|
|
self.frameStyle[0].setType(frameType)
|
|
self.guiItem.setFrameStyle(0, self.frameStyle[0])
|
|
|
|
if ((frameType != PGFrameStyle.TNone) and
|
|
(frameType != PGFrameStyle.TFlat)):
|
|
bw = self['borderWidth']
|
|
else:
|
|
bw = (0, 0)
|
|
|
|
# Set frame to new dimensions
|
|
self.guiItem.setFrame(
|
|
self.bounds[0] - bw[0],
|
|
self.bounds[1] + bw[0],
|
|
self.bounds[2] - bw[1],
|
|
self.bounds[3] + bw[1])
|
|
|
|
|
|
def getBounds(self, state = 0):
|
|
self.stateNodePath[state].calcTightBounds(self.ll, self.ur)
|
|
# Scale bounds to give a pad around graphics
|
|
vec_right = Vec3.right()
|
|
vec_up = Vec3.up()
|
|
left = (vec_right[0] * self.ll[0]
|
|
+ vec_right[1] * self.ll[1]
|
|
+ vec_right[2] * self.ll[2])
|
|
right = (vec_right[0] * self.ur[0]
|
|
+ vec_right[1] * self.ur[1]
|
|
+ vec_right[2] * self.ur[2])
|
|
bottom = (vec_up[0] * self.ll[0]
|
|
+ vec_up[1] * self.ll[1]
|
|
+ vec_up[2] * self.ll[2])
|
|
top = (vec_up[0] * self.ur[0]
|
|
+ vec_up[1] * self.ur[1]
|
|
+ vec_up[2] * self.ur[2])
|
|
self.ll = Point3(left, 0.0, bottom)
|
|
self.ur = Point3(right, 0.0, top)
|
|
self.bounds = [self.ll[0] - self['pad'][0],
|
|
self.ur[0] + self['pad'][0],
|
|
self.ll[2] - self['pad'][1],
|
|
self.ur[2] + self['pad'][1]]
|
|
return self.bounds
|
|
|
|
def getWidth(self):
|
|
return self.bounds[1] - self.bounds[0]
|
|
|
|
def getHeight(self):
|
|
return self.bounds[3] - self.bounds[2]
|
|
|
|
def getCenter(self):
|
|
x = self.bounds[0] + (self.bounds[1] - self.bounds[0])/2.0
|
|
y = self.bounds[2] + (self.bounds[3] - self.bounds[2])/2.0
|
|
return (x, y)
|
|
|
|
def getFrameType(self, state = 0):
|
|
return self.frameStyle[state].getType()
|
|
|
|
def updateFrameStyle(self):
|
|
if not self.fInit:
|
|
for i in range(self['numStates']):
|
|
self.guiItem.setFrameStyle(i, self.frameStyle[i])
|
|
|
|
def setRelief(self, fSetStyle = 1):
|
|
relief = self['relief']
|
|
# Convert None, and string arguments
|
|
if relief == None:
|
|
relief = PGFrameStyle.TNone
|
|
elif isinstance(relief, types.StringTypes):
|
|
# Convert string to frame style int
|
|
relief = DGG.FrameStyleDict[relief]
|
|
# Set style
|
|
if relief == DGG.RAISED:
|
|
for i in range(self['numStates']):
|
|
if i in self['invertedFrames']:
|
|
self.frameStyle[1].setType(DGG.SUNKEN)
|
|
else:
|
|
self.frameStyle[i].setType(DGG.RAISED)
|
|
elif relief == DGG.SUNKEN:
|
|
for i in range(self['numStates']):
|
|
if i in self['invertedFrames']:
|
|
self.frameStyle[1].setType(DGG.RAISED)
|
|
else:
|
|
self.frameStyle[i].setType(DGG.SUNKEN)
|
|
else:
|
|
for i in range(self['numStates']):
|
|
self.frameStyle[i].setType(relief)
|
|
# Apply styles
|
|
self.updateFrameStyle()
|
|
|
|
def setFrameColor(self):
|
|
# this might be a single color or a list of colors
|
|
colors = self['frameColor']
|
|
if type(colors[0]) == types.IntType or \
|
|
type(colors[0]) == types.FloatType:
|
|
colors = (colors,)
|
|
for i in range(self['numStates']):
|
|
if i >= len(colors):
|
|
color = colors[-1]
|
|
else:
|
|
color = colors[i]
|
|
self.frameStyle[i].setColor(color[0], color[1], color[2], color[3])
|
|
self.updateFrameStyle()
|
|
|
|
def setFrameTexture(self):
|
|
# this might be a single texture or a list of textures
|
|
textures = self['frameTexture']
|
|
if textures == None or \
|
|
isinstance(textures, Texture) or \
|
|
isinstance(textures, types.StringTypes):
|
|
textures = (textures,) * self['numStates']
|
|
for i in range(self['numStates']):
|
|
if i >= len(textures):
|
|
texture = textures[-1]
|
|
else:
|
|
texture = textures[i]
|
|
if isinstance(texture, types.StringTypes):
|
|
texture = loader.loadTexture(texture)
|
|
if texture:
|
|
self.frameStyle[i].setTexture(texture)
|
|
else:
|
|
self.frameStyle[i].clearTexture()
|
|
self.updateFrameStyle()
|
|
|
|
def setFrameVisibleScale(self):
|
|
scale = self['frameVisibleScale']
|
|
for i in range(self['numStates']):
|
|
self.frameStyle[i].setVisibleScale(scale[0], scale[1])
|
|
self.updateFrameStyle()
|
|
|
|
def setBorderWidth(self):
|
|
width = self['borderWidth']
|
|
for i in range(self['numStates']):
|
|
self.frameStyle[i].setWidth(width[0], width[1])
|
|
self.updateFrameStyle()
|
|
|
|
def setBorderUvWidth(self):
|
|
uvWidth = self['borderUvWidth']
|
|
for i in range(self['numStates']):
|
|
self.frameStyle[i].setUvWidth(uvWidth[0], uvWidth[1])
|
|
self.updateFrameStyle()
|
|
|
|
def destroy(self):
|
|
if hasattr(self, "frameStyle"):
|
|
if __dev__:
|
|
guiObjectCollector.subLevel(1)
|
|
guiObjectCollector.flushLevel()
|
|
if hasattr(base, 'guiItems'):
|
|
if self.guiId in base.guiItems:
|
|
del base.guiItems[self.guiId]
|
|
else:
|
|
base.notify.warning(
|
|
'DirectGuiWidget.destroy(): '
|
|
'gui item %s not in base.guiItems' %
|
|
self.guiId)
|
|
# Destroy children
|
|
for child in self.getChildren():
|
|
childGui = self.guiDict.get(child.getName())
|
|
if childGui:
|
|
childGui.destroy()
|
|
else:
|
|
# RAU since we added the class to the name, try
|
|
# it with the original name
|
|
parts = child.getName().split('-')
|
|
simpleChildGui = self.guiDict.get(parts[-1])
|
|
if simpleChildGui:
|
|
simpleChildGui.destroy()
|
|
# messenger.send(DESTROY + child.getName())
|
|
del self.guiDict[self.guiId]
|
|
del self.frameStyle
|
|
# Get rid of node path
|
|
self.removeNode()
|
|
for nodePath in self.stateNodePath:
|
|
nodePath.removeNode()
|
|
del self.stateNodePath
|
|
del self.guiItem
|
|
# Call superclass destruction method (clears out hooks)
|
|
DirectGuiBase.destroy(self)
|
|
|
|
def printConfig(self, indent = 0):
|
|
space = ' ' * indent
|
|
print space + self.guiId, '-', self.__class__.__name__
|
|
print space + 'Pos: ' + self.getPos().pPrintValues()
|
|
print space + 'Scale: ' + self.getScale().pPrintValues()
|
|
# Print out children info
|
|
for child in self.getChildren():
|
|
messenger.send(DGG.PRINT + child.getName(), [indent + 2])
|
|
|
|
def copyOptions(self, other):
|
|
"""
|
|
Copy other's options into our self so we look and feel like other
|
|
"""
|
|
for key, value in other._optionInfo.items():
|
|
self[key] = value[1]
|
|
|
|
def taskName(self, idString):
|
|
return (idString + "-" + str(self.guiId))
|
|
|
|
def uniqueName(self, idString):
|
|
return (idString + "-" + str(self.guiId))
|
|
|
|
def setProp(self, propString, value):
|
|
"""
|
|
Allows you to set a property like frame['text'] = 'Joe' in
|
|
a function instead of an assignment.
|
|
This is useful for setting properties inside function intervals
|
|
where must input a function and extraArgs, not an assignment.
|
|
"""
|
|
self[propString] = value
|