# -*- coding: utf-8 -* ######################################################################################################################## # DOM-access functions and variables ######################################################################################################################## try: # Pyodide from js import window, eval as jseval document = window.document except: print("Emulation mode") from xml.dom.minidom import parseString jseval = None window = None document = parseString("") def domCreateAttribute(tag, ns=None): """ Creates a new HTML/SVG/... attribute :param ns: the namespace. Default: HTML. Possible values: HTML, SVG, XBL, XUL """ uri = None if ns == "SVG": uri = "http://www.w3.org/2000/svg" elif ns == "XBL": uri = "http://www.mozilla.org/xbl" elif ns == "XUL": uri = "http://www.mozilla.org/keymaster/gatekeeper/there.is.only.xul" if uri: return document.createAttribute(uri, tag) return document.createAttribute(tag) def domCreateElement(tag, ns=None): """ Creates a new HTML/SVG/... tag :param ns: the namespace. Default: HTML. Possible values: HTML, SVG, XBL, XUL """ uri = None if ns == "SVG": uri = "http://www.w3.org/2000/svg" elif ns == "XBL": uri = "http://www.mozilla.org/xbl" elif ns == "XUL": uri = "http://www.mozilla.org/keymaster/gatekeeper/there.is.only.xul" if uri: return document.createElementNS(uri, tag) return document.createElement(tag) def domCreateTextNode(txt=""): return document.createTextNode(txt) def domGetElementById(idTag): return document.getElementById(idTag) def domElementFromPoint(x, y): return document.elementFromPoint(x, y) def domGetElementsByTagName(tag): items = document.getElementsByTagName(tag) return [items.item(i) for i in range(0, int(items.length))] #pyodide interprets items.length as float, so convert to int ######################################################################################################################## # HTML Widgets ######################################################################################################################## # TextNode ------------------------------------------------------------------------------------------------------------- class TextNode(object): """ Represents a piece of text inside the DOM. This is the *only* object not deriving from "Widget", as it does not support any of its properties. """ def __init__(self, txt=None, *args, **kwargs): super().__init__() self._parent = None self._children = [] self.element = domCreateTextNode(txt or "") self._isAttached = False def _setText(self, txt): self.element.data = txt def _getText(self): return self.element.data def __str__(self): return self.element.data def onAttach(self): self._isAttached = True def onDetach(self): self._isAttached = False def _setDisabled(self, disabled): return def _getDisabled(self): return False def children(self): return [] # _WidgetClassWrapper ------------------------------------------------------------------------------------------------- class _WidgetClassWrapper(list): def __init__(self, targetWidget): super().__init__() self.targetWidget = targetWidget def _updateElem(self): if len(self) == 0: self.targetWidget.element.removeAttribute("class") else: self.targetWidget.element.setAttribute("class", " ".join(self)) def append(self, p_object): list.append(self, p_object) self._updateElem() def clear(self): list.clear(self) self._updateElem() def remove(self, value): try: list.remove(self, value) except: pass self._updateElem() def extend(self, iterable): list.extend(self, iterable) self._updateElem() def insert(self, index, p_object): list.insert(self, index, p_object) self._updateElem() def pop(self, index=None): list.pop(self, index) self._updateElem() # _WidgetDataWrapper --------------------------------------------------------------------------------------------------- class _WidgetDataWrapper(dict): def __init__(self, targetWidget): super().__init__() self.targetWidget = targetWidget alldata = targetWidget.element for data in dir(alldata.dataset): dict.__setitem__(self, data, getattr(alldata.dataset, data)) def __setitem__(self, key, value): dict.__setitem__(self, key, value) self.targetWidget.element.setAttribute(str("data-" + key), value) def update(self, E=None, **F): dict.update(self, E, **F) if E is not None and "keys" in dir(E): for key in E: self.targetWidget.element.setAttribute(str("data-" + key), E["data-" + key]) elif E: for (key, val) in E: self.targetWidget.element.setAttribute(str("data-" + key), "data-" + val) for key in F: self.targetWidget.element.setAttribute(str("data-" + key), F["data-" + key]) # _WidgetStyleWrapper -------------------------------------------------------------------------------------------------- class _WidgetStyleWrapper(dict): def __init__(self, targetWidget): super().__init__() self.targetWidget = targetWidget style = targetWidget.element.style for key in dir(style): # Convert JS-Style-Syntax to CSS Syntax (ie borderTop -> border-top) realKey = "" for currChar in key: if currChar.isupper(): realKey += "-" realKey += currChar.lower() val = style.getPropertyValue(realKey) if val: dict.__setitem__(self, realKey, val) def __setitem__(self, key, value): dict.__setitem__(self, key, value) self.targetWidget.element.style.setProperty(key, value) def update(self, E=None, **F): dict.update(self, E, **F) if E is not None and "keys" in dir(E): for key in E: self.targetWidget.element.style.setProperty(key, E[key]) elif E: for (key, val) in E: self.targetWidget.element.style.setProperty(key, val) for key in F: self.targetWidget.element.style.setProperty(key, F[key]) # Widget --------------------------------------------------------------------------------------------------------------- class Widget(object): _tagName = None _namespace = None _parserTagName = None style = [] def __init__(self, *args, appendTo=None, style=None, **kwargs): if "_wrapElem" in kwargs.keys(): self.element = kwargs["_wrapElem"] del kwargs["_wrapElem"] else: assert self._tagName is not None self.element = domCreateElement(self._tagName, ns=self._namespace) super().__init__() self._widgetClassWrapper = _WidgetClassWrapper(self) self.addClass(self.style) if style: self.addClass(style) self._children = [] self._catchedEvents = {} self._disabledState = 0 self._isAttached = False self._parent = None self._lastDisplayState = None if args: self.appendChild(*args, **kwargs) if appendTo: appendTo.appendChild(self) def sinkEvent(self, *args): for event_attrName in args: event = event_attrName.lower() if event_attrName in self._catchedEvents or event in ["onattach", "ondetach"]: continue eventFn = getattr(self, event_attrName, None) assert eventFn and callable(eventFn), "{} must provide a {} method".format(str(self), event_attrName) self._catchedEvents[event_attrName] = eventFn if event.startswith("on"): event = event[2:] self.element.addEventListener(event, eventFn) def unsinkEvent(self, *args): for event_attrName in args: event = event_attrName.lower() if event_attrName not in self._catchedEvents: continue eventFn = self._catchedEvents[event_attrName] del self._catchedEvents[event_attrName] if event.startswith("on"): event = event[2:] self.element.removeEventListener(event, eventFn) def disable(self): if not self["disabled"]: self["disabled"] = True def enable(self): if self["disabled"]: self["disabled"] = False def _getDisabled(self): return bool(self._disabledState) def _setDisabled(self, disable): for child in self._children: child._setDisabled(disable) if disable: self._disabledState += 1 self.addClass("is-disabled") if isinstance(self, _attrDisabled): self.element.disabled = True elif self._disabledState: self._disabledState -= 1 if not self._disabledState: self.removeClass("is-disabled") if isinstance(self, _attrDisabled): self.element.disabled = False def _getTargetfuncName(self, key, type): assert type in ["get", "set"] return "_{}{}{}".format(type, key[0].upper(), key[1:]) def __getitem__(self, key): funcName = self._getTargetfuncName(key, "get") if funcName in dir(self): return getattr(self, funcName)() return None def __setitem__(self, key, value): funcName = self._getTargetfuncName(key, "set") if funcName in dir(self): return getattr(self, funcName)(value) raise ValueError("{} is no valid attribute for {}".format(key, (self._tagName or str(self)))) def __str__(self): return str(self.__class__.__name__) def __iter__(self): return self._children.__iter__() def _getData(self): """ Custom data attributes are intended to store custom data private to the page or application, for which there are no more appropriate attributes or elements. :param name: :returns: """ return _WidgetDataWrapper(self) def _getTranslate(self): """ Specifies whether an elements attribute values and contents of its children are to be translated when the page is localized, or whether to leave them unchanged. :returns: True | False """ return True if self.element.translate == "yes" else False def _setTranslate(self, val): """ Specifies whether an elements attribute values and contents of its children are to be translated when the page is localized, or whether to leave them unchanged. :param val: True | False """ self.element.translate = "yes" if val == True else "no" def _getTitle(self): """ Advisory information associated with the element. :returns: str """ return self.element.title def _setTitle(self, val): """ Advisory information associated with the element. :param val: str """ self.element.title = val def _getTabindex(self): """ Specifies whether the element represents an element that is is focusable (that is, an element which is part of the sequence of focusable elements in the document), and the relative order of the element in the sequence of focusable elements in the document. :returns: number """ return self.element.getAttribute("tabindex") def _setTabindex(self, val): """ Specifies whether the element represents an element that is is focusable (that is, an element which is part of the sequence of focusable elements in the document), and the relative order of the element in the sequence of focusable elements in the document. :param val: number """ self.element.setAttribute("tabindex", val) def _getSpellcheck(self): """ Specifies whether the element represents an element whose contents are subject to spell checking and grammar checking. :returns: True | False """ return True if self.element.spellcheck == "true" else False def _setSpellcheck(self, val): """ Specifies whether the element represents an element whose contents are subject to spell checking and grammar checking. :param val: True | False """ self.element.spellcheck = str(val).lower() def _getLang(self): """ Specifies the primary language for the contents of the element and for any of the elements attributes that contain text. :returns: language tag e.g. de|en|fr|es|it|ru| """ return self.element.lang def _setLang(self, val): """ Specifies the primary language for the contents of the element and for any of the elements attributes that contain text. :param val: language tag """ self.element.lang = val def _getHidden(self): """ Specifies that the element represents an element that is not yet, or is no longer, relevant. :returns: True | False """ return True if self.element.hasAttribute("hidden") else False def _setHidden(self, val): """ Specifies that the element represents an element that is not yet, or is no longer, relevant. :param val: True | False """ if val: self.element.setAttribute("hidden", "") else: self.element.removeAttribute("hidden") def _getDropzone(self): """ Specifies what types of content can be dropped on the element, and instructs the UA about which actions to take with content when it is dropped on the element. :returns: "copy" | "move" | "link" """ return self.element.dropzone def _setDropzone(self, val): """ Specifies what types of content can be dropped on the element, and instructs the UA about which actions to take with content when it is dropped on the element. :param val: "copy" | "move" | "link" """ self.element.dropzone = val def _getDraggable(self): """ Specifies whether the element is draggable. :returns: True | False | "auto" """ return (self.element.draggable if str(self.element.draggable) == "auto" else ( True if str(self.element.draggable).lower() == "true" else False)) def _setDraggable(self, val): """ Specifies whether the element is draggable. :param val: True | False | "auto" """ self.element.draggable = str(val).lower() def _getDir(self): """ Specifies the elements text directionality. :returns: ltr | rtl | auto """ return self.element.dir def _setDir(self, val): """ Specifies the elements text directionality. :param val: ltr | rtl | auto """ self.element.dir = val def _getContextmenu(self): """ The value of the id attribute on the menu with which to associate the element as a context menu. :returns: """ return self.element.contextmenu def _setContextmenu(self, val): """ The value of the id attribute on the menu with which to associate the element as a context menu. :param val: """ self.element.contextmenu = val def _getContenteditable(self): """ Specifies whether the contents of the element are editable. :returns: True | False """ v = self.element.getAttribute("contenteditable") return str(v).lower() == "true" def _setContenteditable(self, val): """ Specifies whether the contents of the element are editable. :param val: True | False """ self.element.setAttribute("contenteditable", str(val).lower()) def _getAccesskey(self): """ A key label or list of key labels with which to associate the element; each key label represents a keyboard shortcut which UAs can use to activate the element or give focus to the element. :param self: :returns: """ return self.element.accesskey def _setAccesskey(self, val): """ A key label or list of key labels with which to associate the element; each key label represents a keyboard shortcut which UAs can use to activate the element or give focus to the element. :param self: :param val: """ self.element.accesskey = val def _getId(self): """ Specifies a unique id for an element :param self: :returns: """ return self.element.id def _setId(self, val): """ Specifies a unique id for an element :param self: :param val: """ self.element.id = val def _getClass(self): """ The class attribute specifies one or more classnames for an element. :returns: """ return self._widgetClassWrapper def _setClass(self, value): """ The class attribute specifies one or more classnames for an element. :param self: :param value: @raise ValueError: """ if value is None: self.element.setAttribute("class", " ") elif isinstance(value, str): self.element.setAttribute("class", value) elif isinstance(value, list): self.element.setAttribute("class", " ".join(value)) else: raise ValueError("Class must be a str, a List or None") def _getStyle(self): """ The style attribute specifies an inline style for an element. :param self: :returns: """ return _WidgetStyleWrapper(self) def _getRole(self): """ Specifies a role for an element @param self: @return: """ return self.element.getAttribute("role") def _setRole(self, val): """ Specifies a role for an element @param self: @param val: """ self.element.setAttribute("role", val) def hide(self): """ Hide element, if shown. :return: """ state = self["style"].get("display", "") if state != "none": self._lastDisplayState = state self["style"]["display"] = "none" def show(self): """ Show element, if hidden. :return: """ if self._lastDisplayState is not None: self["style"]["display"] = self._lastDisplayState self._lastDisplayState = None def isHidden(self): """ Checks if a widget is hidden. :return: True if hidden, False otherwise. """ return self["style"].get("display", "") == "none" def isVisible(self): """ Checks if a widget is visible. :return: True if visible, False otherwise. """ return not self.isHidden() def onBind(self, widget, name): """ Event function that is called on the widget when it is bound to another widget with a name. This is only done by the HTML parser, a manual binding by the user is not triggered. """ return def onAttach(self): self._isAttached = True for c in self._children: c.onAttach() def onDetach(self): self._isAttached = False for c in self._children: c.onDetach() def __collectChildren(self, *args, **kwargs): assert not isinstance(self, _isVoid), "<%s> can't have children!" % self._tagName if kwargs.get("bindTo") is None: kwargs["bindTo"] = self widgets = [] for arg in args: if isinstance(arg, (str, HtmlAst)): widgets.extend(fromHTML(arg, **kwargs)) elif isinstance(arg, (list, tuple)): for subarg in arg: widgets.extend(self.__collectChildren(subarg, **kwargs)) elif not isinstance(arg, (Widget, TextNode)): widgets.append(TextNode(str(arg))) else: widgets.append(arg) return widgets def insertBefore(self, insert, child, **kwargs): if not child: return self.appendChild(insert) assert child in self._children, "{} is not a child of {}".format(child, self) toInsert = self.__collectChildren(insert, **kwargs) for insert in toInsert: if insert._parent: insert._parent.removeChild(insert) self.element.insertBefore(insert.element, child.element) self._children.insert(self._children.index(child), insert) insert._parent = self if self._isAttached: insert.onAttach() return toInsert def prependChild(self, *args, **kwargs): if kwargs.get("replace", False): self.removeAllChildren() del kwargs["replace"] toPrepend = self.__collectChildren(*args, **kwargs) for child in toPrepend: if child._parent: child._parent._children.remove(child) child._parent = None if not self._children: self.appendChild(child) else: self.insertBefore(child, self.children(0)) return toPrepend def appendChild(self, *args, **kwargs): if kwargs.get("replace", False): self.removeAllChildren() del kwargs["replace"] toAppend = self.__collectChildren(*args, **kwargs) for child in toAppend: if child._parent: child._parent._children.remove(child) self._children.append(child) self.element.appendChild(child.element) child._parent = self if self._isAttached: child.onAttach() return toAppend def removeChild(self, child): assert child in self._children, "{} is not a child of {}".format(child, self) if child._isAttached: child.onDetach() self.element.removeChild(child.element) self._children.remove(child) child._parent = None def removeAllChildren(self): """ Removes all child widgets of the current widget. """ for child in self._children[:]: self.removeChild(child) def isParentOf(self, widget): """ Checks if an object is the parent of widget. :type widget: Widget :param widget: The widget to check for. :return: True, if widget is a child of the object, else False. """ # You cannot be your own child! if self == widget: return False for child in self._children: if child == widget: return True if child.isParentOf(widget): return True return False def isChildOf(self, widget): """ Checks if an object is the child of widget. :type widget: Widget :param widget: The widget to check for. :return: True, if object is a child of widget, else False. """ # You cannot be your own parent! if self == widget: return False parent = self.parent() while parent: if parent == widget: return True parent = widget.parent() return False def hasClass(self, className): """ Determine whether the current widget is assigned the given class :param className: The class name to search for. :type className: str """ if isinstance(className, str) or isinstance(className, unicode): return className in self["class"] else: raise TypeError() def addClass(self, *args): """ Adds a class or a list of classes to the current widget. If the widget already has the class, it is ignored. :param args: A list of class names. This can also be a list. :type args: list of str | list of list of str """ for item in args: if isinstance(item, list): self.addClass(*item) elif isinstance(item, str): for sitem in item.split(" "): if not self.hasClass(sitem): self["class"].append(sitem) else: raise TypeError() def removeClass(self, *args): """ Removes a class or a list of classes from the current widget. :param args: A list of class names. This can also be a list. :type args: list of str | list of list of str """ for item in args: if isinstance(item, list): self.removeClass(item) elif isinstance(item, str): for sitem in item.split(" "): if self.hasClass(sitem): self["class"].remove(sitem) else: raise TypeError() def toggleClass(self, on, off=None): """ Toggles the class ``on``. If the widget contains a class ``on``, it is toggled by ``off``. ``off`` can either be a class name that is substituted, or nothing. :param on: Classname to test for. If ``on`` does not exist, but ``off``, ``off`` is replaced by ``on``. :type on: str :param off: Classname to replace if ``on`` existed. :type off: str :return: Returns True, if ``on`` was switched, else False. :rtype: bool """ if self.hasClass(on): self.removeClass(on) if off and not self.hasClass(off): self.addClass(off) return False if off and self.hasClass(off): self.removeClass(off) self.addClass(on) return True def onBlur(self, event): pass def onChange(self, event): pass def onContextMenu(self, event): pass def onFocus(self, event): pass def onFocusIn(self, event): pass def onFocusOut(self, event): pass def onFormChange(self, event): pass def onFormInput(self, event): pass def onInput(self, event): pass def onInvalid(self, event): pass def onReset(self, event): pass def onSelect(self, event): pass def onSubmit(self, event): pass def onKeyDown(self, event): pass def onKeyPress(self, event): pass def onKeyUp(self, event): pass def onClick(self, event): pass def onDblClick(self, event): pass def onDrag(self, event): pass def onDragEnd(self, event): pass def onDragEnter(self, event): pass def onDragLeave(self, event): pass def onDragOver(self, event): pass def onDragStart(self, event): pass def onDrop(self, event): pass def onMouseDown(self, event): pass def onMouseMove(self, event): pass def onMouseOut(self, event): pass def onMouseOver(self, event): pass def onMouseUp(self, event): pass def onMouseWheel(self, event): pass def onScroll(self, event): pass def onTouchStart(self, event): pass def onTouchEnd(self, event): pass def onTouchMove(self, event): pass def onTouchCancel(self, event): pass def focus(self): self.element.focus() def blur(self): self.element.blur() def parent(self): return self._parent def children(self, n=None): """ Access children of widget. If ``n`` is ommitted, it returns a list of all child-widgets; Else, it returns the N'th child, or None if its out of bounds. :param n: Optional offset of child widget to return. :type n: int :return: Returns all children or only the requested one. :rtype: list | Widget | None """ if n is None: return self._children[:] try: return self._children[n] except IndexError: return None def sortChildren(self, key): """ Sorts our direct children. They are rearranged on DOM level. Key must be a function accepting one widget as parameter and must return the key used to sort these widgets. """ self._children.sort(key=key) tmpl = self._children[:] tmpl.reverse() for c in tmpl: self.element.removeChild(c.element) self.element.insertBefore(c.element, self.element.children.item(0)) def fromHTML(self, html, appendTo=None, bindTo=None, replace=False, vars=None, **kwargs): """ Parses html and constructs its elements as part of self. :param html: HTML code. :param appendTo: The entity where the HTML code is constructed below. This defaults to self in usual case. :param bindTo: The entity where the named objects are bound to. This defaults to self in usual case. :param replace: Clear entire content of appendTo before appending. :param vars: Deprecated; Same as kwargs. :param **kwargs: Additional variables provided as a dict for {{placeholders}} inside the HTML :return: """ if appendTo is None: appendTo = self if bindTo is None: bindTo = self if replace: appendTo.removeAllChildren() # use of vars is deprecated! if isinstance(vars, dict): kwargs.update(vars) return fromHTML(html, appendTo=appendTo, bindTo=bindTo, **kwargs) ######################################################################################################################## # Attribute Collectors ######################################################################################################################## # _attrLabel --------------------------------------------------------------------------------------------------------------- class _attrLabel(object): def _getLabel(self): return self.element.getAttribute("label") def _setLabel(self, val): self.element.setAttribute("label", val) # _attrCharset -------------------------------------------------------------------------------------------------------------- class _attrCharset(object): def _getCharset(self): return self.element._attrCharset def _setCharset(self, val): self.element._attrCharset = val # _attrCite ----------------------------------------------------------------------------------------------------------------- class _attrCite(object): def _getCite(self): return self.element._attrCite def _setCite(self, val): self.element._attrCite = val class _attrDatetime(object): def _getDatetime(self): return self.element.datetime def _setDatetime(self, val): self.element.datetime = val # Form ----------------------------------------------------------------------------------------------------------------- class _attrForm(object): def _getForm(self): return self.element.form def _setForm(self, val): self.element.form = val class _attrAlt(object): def _getAlt(self): return self.element.alt def _setAlt(self, val): self.element.alt = val class _attrAutofocus(object): def _getAutofocus(self): return True if self.element.hasAttribute("autofocus") else False def _setAutofocus(self, val): if val: self.element.setAttribute("autofocus", "") else: self.element.removeAttribute("autofocus") class _attrDisabled(object): pass class _attrChecked(object): def _getChecked(self): return self.element.checked def _setChecked(self, val): self.element.checked = val class _attrIndeterminate(object): def _getIndeterminate(self): return self.element.indeterminate def _setIndeterminate(self, val): self.element.indeterminate = val class _attrName(object): def _getName(self): return self.element.getAttribute("name") def _setName(self, val): self.element.setAttribute("name", val) class _attrValue(object): def _getValue(self): return self.element.value def _setValue(self, val): self.element.value = val class _attrAutocomplete(object): def _getAutocomplete(self): return True if self.element.autocomplete == "on" else False def _setAutocomplete(self, val): self.element.autocomplete = "on" if val == True else "off" class _attrRequired(object): def _getRequired(self): return True if self.element.hasAttribute("required") else False def _setRequired(self, val): if val: self.element.setAttribute("required", "") else: self.element.removeAttribute("required") class _attrMultiple(object): def _getMultiple(self): return True if self.element.hasAttribute("multiple") else False def _setMultiple(self, val): if val: self.element.setAttribute("multiple", "") else: self.element.removeAttribute("multiple") class _attrSize(object): def _getSize(self): return self.element.size def _setSize(self, val): self.element.size = val class _attrFor(object): def _getFor(self): return self.element.getAttribute("for") def _setFor(self, val): self.element.setAttribute("for", val) class _attrInputs(_attrRequired): def _getMaxlength(self): return self.element.maxlength def _setMaxlength(self, val): self.element.maxlength = val def _getPlaceholder(self): return self.element.placeholder def _setPlaceholder(self, val): self.element.placeholder = val def _getReadonly(self): return True if self.element.hasAttribute("readonly") else False def _setReadonly(self, val): if val: self.element.setAttribute("readonly", "") else: self.element.removeAttribute("readonly") class _attrFormhead(object): def _getFormaction(self): return self.element.formaction def _setFormaction(self, val): self.element.formaction = val def _getFormenctype(self): return self.element.formenctype def _setFormenctype(self, val): self.element.formenctype = val def _getFormmethod(self): return self.element.formmethod def _setFormmethod(self, val): self.element.formmethod = val def _getFormtarget(self): return self.element.formtarget def _setFormtarget(self, val): self.element.formtarget = val def _getFormnovalidate(self): return True if self.element.hasAttribute("formnovalidate") else False def _setFormnovalidate(self, val): if val: self.element.setAttribute("formnovalidate", "") else: self.element.removeAttribute("formnovalidate") # _attrHref ----------------------------------------------------------------------------------------------------------------- class _attrHref(object): def _getHref(self): """ Url of a Page :param self: """ return self.element.href def _setHref(self, val): """ Url of a Page :param val: URL """ self.element.href = val def _getHreflang(self): return self.element.hreflang def _setHreflang(self, val): self.element.hreflang = val class _attrTarget(object): def _getTarget(self): return self.element.target def _setTarget(self, val): self.element.target = val # _attrMedia ---------------------------------------------------------------------------------------------------------------- class _attrType(object): def _getType(self): return self.element.type def _setType(self, val): self.element.type = val class _attrMedia(_attrType): def _getMedia(self): return self.element.media def _setMedia(self, val): self.element.media = val class _attrDimensions(object): def _getWidth(self): return self.element.width def _setWidth(self, val): self.element.width = val def _getHeight(self): return self.element.height def _setHeight(self, val): self.element.height = val class _attrUsemap(object): def _getUsemap(self): return self.element.usemap def _setUsemap(self, val): self.element.usemap = val class _attrMultimedia(object): def _getAutoplay(self): return True if self.element.hasAttribute("autoplay") else False def _setAutoplay(self, val): if val: self.element.setAttribute("autoplay", "") else: self.element.removeAttribute("autoplay") def _getPlaysinline(self): return True if self.element.hasAttribute("playsinline") else False def _setPlaysinline(self, val): if val: self.element.setAttribute("playsinline", "") else: self.element.removeAttribute("playsinline") def _getControls(self): return True if self.element.hasAttribute("controls") else False def _setControls(self, val): if val: self.element.setAttribute("controls", "") else: self.element.removeAttribute("controls") def _getLoop(self): return True if self.element.hasAttribute("loop") else False def _setLoop(self, val): if val: self.element.setAttribute("loop", "") else: self.element.removeAttribute("loop") def _getMuted(self): return True if self.element.hasAttribute("muted") else False def _setMuted(self, val): if val: self.element.setAttribute("muted", "") else: self.element.removeAttribute("muted") def _getPreload(self): return self.element.preload def _setPreload(self, val): self.element.preload = val # _attrRel ------------------------------------------------------------------------------------------------------------------ class _attrRel(object): def _getRel(self): return self.element.rel def _setRel(self, val): self.element.rel = val # _attrSrc ------------------------------------------------------------------------------------------------------------------ class _attrSrc(object): def _getSrc(self): return self.element.src def _setSrc(self, val): self.element.src = val # Svg ------------------------------------------------------------------------------------------------------------------ class _attrSvgViewBox(object): def _getViewbox(self): viewBox = self.element.viewBox try: return " ".join([str(x) for x in [viewBox.baseVal.x, viewBox.baseVal.y, viewBox.baseVal.width, viewBox.baseVal.height]]) except: return "" def _setViewbox(self, val): self.element.setAttribute("viewBox", val) def _getPreserveaspectratio(self): return self.element.preserveAspectRatio def _setPreserveaspectratio(self, val): self.element.setAttribute("preserveAspectRatio", val) class _attrSvgDimensions(object): def _getWidth(self): return self.element.width def _setWidth(self, val): self.element.setAttribute("width", val) def _getHeight(self): return self.element.height def _setHeight(self, val): self.element.setAttribute("height", val) def _getX(self): return self.element.x def _setX(self, val): self.element.setAttribute("x", val) def _getY(self): return self.element.y def _setY(self, val): self.element.setAttribute("y", val) def _getR(self): return self.element.r def _setR(self, val): self.element.setAttribute("r", val) def _getRx(self): return self.element.rx def _setRx(self, val): self.element.setAttribute("rx", val) def _getRy(self): return self.element.ry def _setRy(self, val): self.element.setAttribute("ry", val) def _getCx(self): return self.element.cx def _setCx(self, val): self.element.setAttribute("cx", val) def _getCy(self): return self.element.cy def _setCy(self, val): self.element.setAttribute("cy", val) class _attrSvgPoints(object): def _getPoints(self): return self.element.points def _setPoints(self, val): self.element.setAttribute("points", val) def _getX1(self): return self.element.x1 def _setX1(self, val): self.element.setAttribute("x1", val) def _getY1(self): return self.element.y1 def _setY1(self, val): self.element.setAttribute("y1", val) def _getX2(self): return self.element.x2 def _setX2(self, val): self.element.setAttribute("x2", val) def _getY2(self): return self.element.y2 def _setY2(self, val): self.element.setAttribute("y2", val) class _attrSvgTransform(object): def _getTransform(self): return self.element.transform def _setTransform(self, val): self.element.setAttribute("transform", val) class _attrSvgXlink(object): def _getXlinkhref(self): return self.element.getAttribute("xlink:href") def _setXlinkhref(self, val): self.element.setAttribute("xlink:href", val) class _attrSvgStyles(object): def _getFill(self): return self.element.fill def _setFill(self, val): self.element.setAttribute("fill", val) def _getStroke(self): return self.element.stroke def _setStroke(self, val): self.element.setAttribute("stroke", val) class _isVoid(object): pass ######################################################################################################################## # HTML Elements ######################################################################################################################## # A -------------------------------------------------------------------------------------------------------------------- class A(Widget, _attrHref, _attrTarget, _attrMedia, _attrRel, _attrName): _tagName = "a" def _getDownload(self): """ The download attribute specifies the path to a download :returns: filename """ return self.element.download def _setDownload(self, val): """ The download attribute specifies the path to a download :param val: filename """ self.element.download = val # Area ----------------------------------------------------------------------------------------------------------------- class Area(A, _attrAlt, _isVoid): _tagName = "area" def _getCoords(self): return self.element.coords def _setCoords(self, val): self.element.coords = val def _getShape(self): return self.element.shape def _setShape(self, val): self.element.shape = val # Audio ---------------------------------------------------------------------------------------------------------------- class Audio(Widget, _attrSrc, _attrMultimedia): _tagName = "audio" class Bdo(Widget): _tagName = "bdo" # Blockquote ----------------------------------------------------------------------------------------------------------- class Blockquote(Widget): _tagName = "blockquote" def _getBlockquote(self): return self.element.blockquote def _setBlockquote(self, val): self.element.blockquote = val # Body ----------------------------------------------------------------------------------------------------------------- class BodyCls(Widget): def __init__(self, *args, **kwargs): super().__init__(_wrapElem=domGetElementsByTagName("body")[0], *args, **kwargs) self._isAttached = True _body = None def Body(): global _body if _body is None: _body = BodyCls() return _body # Canvas --------------------------------------------------------------------------------------------------------------- class Canvas(Widget, _attrDimensions): _tagName = "canvas" # Command -------------------------------------------------------------------------------------------------------------- class Command(Widget, _attrLabel, _attrType, _attrDisabled, _attrChecked): _tagName = "command" def _getIcon(self): return self.element.icon def _setIcon(self, val): self.element.icon = val def _getRadiogroup(self): return self.element.radiogroup def _setRadiogroup(self, val): self.element.radiogroup = val # _Del ----------------------------------------------------------------------------------------------------------------- class _Del(Widget, _attrCite, _attrDatetime): _tagName = "_del" # Dialog -------------------------------------------------------------------------------------------------------------- class Dialog(Widget): _tagName = "dialog" def _getOpen(self): return True if self.element.hasAttribute("open") else False def _setOpen(self, val): if val: self.element.setAttribute("open", "") else: self.element.removeAttribute("open") # Elements ------------------------------------------------------------------------------------------------------------- class Abbr(Widget): _tagName = "abbr" class Address(Widget): _tagName = "address" class Article(Widget): _tagName = "article" class Aside(Widget): _tagName = "aside" class B(Widget): _tagName = "b" class Bdi(Widget): _tagName = "bdi" class Br(Widget, _isVoid): _tagName = "br" class Caption(Widget): _tagName = "caption" class Cite(Widget): _tagName = "cite" class Code(Widget): _tagName = "code" class Datalist(Widget): _tagName = "datalist" class Dfn(Widget): _tagName = "dfn" class Div(Widget): _tagName = "div" class Em(Widget): _tagName = "em" class Embed(Widget, _attrSrc, _attrType, _attrDimensions, _isVoid): _tagName = "embed" class Figcaption(Widget): _tagName = "figcaption" class Figure(Widget): _tagName = "figure" class Footer(Widget): _tagName = "footer" class Header(Widget): _tagName = "header" class H1(Widget): _tagName = "h1" class H2(Widget): _tagName = "h2" class H3(Widget): _tagName = "h3" class H4(Widget): _tagName = "h4" class H5(Widget): _tagName = "h5" class H6(Widget): _tagName = "h6" class Hr(Widget, _isVoid): _tagName = "hr" class I(Widget): _tagName = "i" class Kdb(Widget): _tagName = "kdb" class Legend(Widget): _tagName = "legend" class Mark(Widget): _tagName = "mark" class Noscript(Widget): _tagName = "noscript" class P(Widget): _tagName = "p" class Rq(Widget): _tagName = "rq" class Rt(Widget): _tagName = "rt" class Ruby(Widget): _tagName = "ruby" class S(Widget): _tagName = "s" class Samp(Widget): _tagName = "samp" class Section(Widget): _tagName = "section" class Small(Widget): _tagName = "small" class Strong(Widget): _tagName = "strong" class Sub(Widget): _tagName = "sub" class Summery(Widget): _tagName = "summery" class Sup(Widget): _tagName = "sup" class U(Widget): _tagName = "u" class Var(Widget): _tagName = "var" class Wbr(Widget): _tagName = "wbr" # Form ----------------------------------------------------------------------------------------------------------------- class Button(Widget, _attrDisabled, _attrType, _attrForm, _attrAutofocus, _attrName, _attrValue, _attrFormhead): _tagName = "button" class Fieldset(Widget, _attrDisabled, _attrForm, _attrName): _tagName = "fieldset" class Form(Widget, _attrDisabled, _attrName, _attrTarget, _attrAutocomplete): _tagName = "form" def _getNovalidate(self): return True if self.element.hasAttribute("novalidate") else False def _setNovalidate(self, val): if val: self.element.setAttribute("novalidate", "") else: self.element.removeAttribute("novalidate") def _getAction(self): return self.element.action def _setAction(self, val): self.element.action = val def _getMethod(self): return self.element.method def _setMethod(self, val): self.element.method = val def _getEnctype(self): return self.element.enctype def _setEnctype(self, val): self.element.enctype = val def _getAccept_attrCharset(self): return getattr(self.element, "accept-charset") def _setAccept_attrCharset(self, val): self.element.setAttribute("accept-charset", val) class Input(Widget, _attrDisabled, _attrType, _attrForm, _attrAlt, _attrAutofocus, _attrChecked, _attrIndeterminate, _attrName, _attrDimensions, _attrValue, _attrFormhead, _attrAutocomplete, _attrInputs, _attrMultiple, _attrSize, _attrSrc, _isVoid): _tagName = "input" def _getAccept(self): return self.element.accept def _setAccept(self, val): self.element.accept = val def _getList(self): return self.element.list def _setList(self, val): self.element.list = val def _getMax(self): return self.element.max def _setMax(self, val): self.element.max = val def _getMin(self): return self.element.min def _setMin(self, val): self.element.min = val def _getPattern(self): return self.element.pattern def _setPattern(self, val): self.element.pattern = val def _getStep(self): return self.element.step def _setStep(self, val): self.element.step = val class Label(Widget, _attrForm, _attrFor): _tagName = "label" autoIdCounter = 0 def __init__(self, *args, forElem=None, **kwargs): super().__init__(*args, **kwargs) if forElem: if not forElem["id"]: idx = Label.autoIdCounter Label.autoIdCounter += 1 forElem["id"] = "label-autoid-for-{}".format(idx) self["for"] = forElem["id"] class Optgroup(Widget, _attrDisabled, _attrLabel): _tagName = "optgroup" class Option(Widget, _attrDisabled, _attrLabel, _attrValue): _tagName = "option" def _getSelected(self): return True if self.element.selected else False def _setSelected(self, val): if val: self.element.selected = True else: self.element.selected = False class Output(Widget, _attrForm, _attrName, _attrFor): _tagName = "output" class Select(Widget, _attrDisabled, _attrForm, _attrAutofocus, _attrName, _attrRequired, _attrMultiple, _attrSize): _tagName = "select" def _getSelectedIndex(self): return self.element.selectedIndex def _getOptions(self): return self.element.options class Textarea(Widget, _attrDisabled, _attrForm, _attrAutofocus, _attrName, _attrInputs, _attrValue): _tagName = "textarea" def _getCols(self): return self.element.cols def _setCols(self, val): self.element.cols = val def _getRows(self): return self.element.rows def _setRows(self, val): self.element.rows = val def _getWrap(self): return self.element.wrap def _setWrap(self, val): self.element.wrap = val # Head ----------------------------------------------------------------------------------------------------------------- class HeadCls(Widget): def __init__(self, *args, **kwargs): super().__init__(_wrapElem=domGetElementsByTagName("head")[0], *args, **kwargs) self._isAttached = True _head = None def Head(): global _head if _head is None: _head = HeadCls() return _head # Iframe --------------------------------------------------------------------------------------------------------------- class Iframe(Widget, _attrSrc, _attrName, _attrDimensions): _tagName = "iframe" def _getSandbox(self): return self.element.sandbox def _setSandbox(self, val): self.element.sandbox = val def _getSrcdoc(self): return self.element.src def _setSrcdoc(self, val): self.element.src = val def _getSeamless(self): return True if self.element.hasAttribute("seamless") else False def _setSeamless(self, val): if val: self.element.setAttribute("seamless", "") else: self.element.removeAttribute("seamless") # Img ------------------------------------------------------------------------------------------------------------------ class Img(Widget, _attrSrc, _attrDimensions, _attrUsemap, _attrAlt, _isVoid): _tagName = "img" def __init__(self, src=None, *args, **kwargs): super().__init__() if src: self["src"] = src def _getCrossorigin(self): return self.element.crossorigin def _setCrossorigin(self, val): self.element.crossorigin = val def _getIsmap(self): return self.element.ismap def _setIsmap(self, val): self.element.ismap = val # Ins ------------------------------------------------------------------------------------------------------------------ class Ins(Widget, _attrCite, _attrDatetime): _tagName = "ins" # Keygen --------------------------------------------------------------------------------------------------------------- class Keygen(Form, _attrAutofocus, _attrDisabled): _tagName = "keygen" def _getChallenge(self): return True if self.element.hasAttribute("challenge") else False def _setChallenge(self, val): if val: self.element.setAttribute("challenge", "") else: self.element.removeAttribute("challenge") def _getKeytype(self): return self.element.keytype def _setKeytype(self, val): self.element.keytype = val # Link ----------------------------------------------------------------------------------------------------------------- class Link(Widget, _attrHref, _attrMedia, _attrRel, _isVoid): _tagName = "link" def _getSizes(self): return self.element.sizes def _setSizes(self, val): self.element.sizes = val # List ----------------------------------------------------------------------------------------------------------------- class Ul(Widget): _tagName = "ul" class Ol(Widget): _tagName = "ol" class Li(Widget): _tagName = "li" class Dl(Widget): _tagName = "dl" class Dt(Widget): _tagName = "dt" class Dd(Widget): _tagName = "dd" # Map ------------------------------------------------------------------------------------------------------------------ class Map(Label, _attrType): _tagName = "map" # Menu ----------------------------------------------------------------------------------------------------------------- class Menu(Widget): _tagName = "menu" # Meta ----------------------------------------------------------------------------------------------------------------- class Meta(Widget, _attrName, _attrCharset, _isVoid): _tagName = "meta" def _getContent(self): return self.element.content def _setContent(self, val): self.element.content = val # Meter ---------------------------------------------------------------------------------------------------------------- class Meter(Form, _attrValue): _tagName = "meter" def _getHigh(self): return self.element.high def _setHigh(self, val): self.element.high = val def _getLow(self): return self.element.low def _setLow(self, val): self.element.low = val def _getMax(self): return self.element.max def _setMax(self, val): self.element.max = val def _getMin(self): return self.element.min def _setMin(self, val): self.element.min = val def _getOptimum(self): return self.element.optimum def _setOptimum(self, val): self.element.optimum = val # Nav ------------------------------------------------------------------------------------------------------------------ class Nav(Widget): _tagName = "nav" # Object ----------------------------------------------------------------------------------------------------------------- class Object(Form, _attrType, _attrName, _attrDimensions, _attrUsemap): _tagName = "object" # Param ----------------------------------------------------------------------------------------------------------------- class Param(Widget, _attrName, _attrValue, _isVoid): _tagName = "param" # Progress ------------------------------------------------------------------------------------------------------------- class Progress(Widget, _attrValue): _tagName = "progress" def _getMax(self): return self.element.max def _setMax(self, val): self.element.max = val # Q -------------------------------------------------------------------------------------------------------------------- class Q(Widget, _attrCite): _tagName = "q" # Script ---------------------------------------------------------------------------------------------------------------- class Script(Widget, _attrSrc, _attrCharset): _tagName = "script" def _getAsync(self): return True if self.element.hasAttribute("async") else False def _setAsync(self, val): if val: self.element.setAttribute("async", "") else: self.element.removeAttribute("async") def _getDefer(self): return True if self.element.hasAttribute("defer") else False def _setDefer(self, val): if val: self.element.setAttribute("defer", "") else: self.element.removeAttribute("defer") # Source --------------------------------------------------------------------------------------------------------------- class Source(Widget, _attrMedia, _attrSrc, _isVoid): _tagName = "source" # Span ----------------------------------------------------------------------------------------------------------------- class Span(Widget): _tagName = "span" # Style ---------------------------------------------------------------------------------------------------------------- class Style(Widget, _attrMedia): _tagName = "style" def _getScoped(self): return True if self.element.hasAttribute("scoped") else False def _setScoped(self, val): if val: self.element.setAttribute("scoped", "") else: self.element.removeAttribute("scoped") # SVG ------------------------------------------------------------------------------------------------------------------ class Svg(Widget, _attrSvgViewBox, _attrSvgDimensions, _attrSvgTransform): _tagName = "svg" _namespace = "SVG" def _getVersion(self): return self.element.version def _setVersion(self, val): self.element.setAttribute("version", val) def _getXmlns(self): return self.element.xmlns def _setXmlns(self, val): self.element.setAttribute("xmlns", val) class SvgCircle(Widget, _attrSvgTransform, _attrSvgDimensions): _tagName = "circle" _namespace = "SVG" class SvgEllipse(Widget, _attrSvgTransform, _attrSvgDimensions): _tagName = "ellipse" _namespace = "SVG" class SvgG(Widget, _attrSvgTransform, _attrSvgStyles): _tagName = "g" _namespace = "SVG" def _getSvgTransform(self): return self.element.transform def _setSvgTransform(self, val): self.element.setAttribute("transform", val) class SvgImage(Widget, _attrSvgViewBox, _attrSvgDimensions, _attrSvgTransform, _attrSvgXlink): _tagName = "image" _namespace = "SVG" class SvgLine(Widget, _attrSvgTransform, _attrSvgPoints): _tagName = "line" _namespace = "SVG" class SvgPath(Widget, _attrSvgTransform): _tagName = "path" _namespace = "SVG" def _getD(self): return self.element.d def _setD(self, val): self.element.setAttribute("d", val) def _getPathLength(self): return self.element.pathLength def _setPathLength(self, val): self.element.setAttribute("pathLength", val) class SvgPolygon(Widget, _attrSvgTransform, _attrSvgPoints): _tagName = "polygon" _namespace = "SVG" class SvgPolyline(Widget, _attrSvgTransform, _attrSvgPoints): _tagName = "polyline" _namespace = "SVG" class SvgRect(Widget, _attrSvgDimensions, _attrSvgTransform, _attrSvgStyles): _tagName = "rect" _namespace = "SVG" class SvgText(Widget, _attrSvgDimensions, _attrSvgTransform, _attrSvgStyles): _tagName = "text" _namespace = "SVG" # Table ---------------------------------------------------------------------------------------------------------------- class Tr(Widget): _tagName = "tr" def _getRowspan(self): span = self.element.getAttribute("rowspan") return span if span else 1 def _setRowspan(self, span): assert span >= 1, "span may not be negative" self.element.setAttribute("rowspan", span) return self class Td(Widget): _tagName = "td" def _getColspan(self): span = self.element.getAttribute("colspan") return span if span else 1 def _setColspan(self, span): assert span >= 1, "span may not be negative" self.element.setAttribute("colspan", span) return self def _getRowspan(self): span = self.element.getAttribute("rowspan") return span if span else 1 def _setRowspan(self, span): assert span >= 1, "span may not be negative" self.element.setAttribute("rowspan", span) return self class Th(Td): _tagName = "th" class Thead(Widget): _tagName = "thead" class Tbody(Widget): _tagName = "tbody" class ColWrapper(object): def __init__(self, parentElem, *args, **kwargs): super().__init__(*args, **kwargs) self.parentElem = parentElem def __getitem__(self, item): assert isinstance(item, int), "Invalid col-number. Expected int, got {}".format(str(type(item))) if item < 0 or item > len(self.parentElem._children): return None return self.parentElem._children[item] def __setitem__(self, key, value): col = self[key] assert col is not None, "Cannot assign widget to invalid column" col.removeAllChildren() if isinstance(value, list) or isinstance(value, tuple): for el in value: if isinstance(el, Widget) or isinstance(el, TextNode): col.appendChild(value) elif isinstance(value, Widget) or isinstance(value, TextNode): col.appendChild(value) class RowWrapper(object): def __init__(self, parentElem, *args, **kwargs): super().__init__(*args, **kwargs) self.parentElem = parentElem def __getitem__(self, item): assert isinstance(item, int), "Invalid row-number. Expected int, got {}".format(str(type(item))) if item < 0 or item > len(self.parentElem._children): return None return ColWrapper(self.parentElem._children[item]) class Table(Widget): _tagName = "table" def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.head = Thead() self.body = Tbody() self.appendChild(self.head) self.appendChild(self.body) def prepareRow(self, row): assert row >= 0, "Cannot create rows with negative index" for child in self.body._children: row -= child["rowspan"] if row < 0: return while row >= 0: self.body.appendChild(Tr()) row -= 1 def prepareCol(self, row, col): assert col >= 0, "Cannot create cols with negative index" self.prepareRow(row) for rowChild in self.body._children: row -= rowChild["rowspan"] if row < 0: for colChild in rowChild._children: col -= colChild["colspan"] if col < 0: return while col >= 0: rowChild.appendChild(Td()) col -= 1 return def prepareGrid(self, rows, cols): for row in range(self.getRowCount(), self.getRowCount() + rows): self.prepareCol(row, cols) def clear(self): for row in self.body._children[:]: for col in row._children[:]: row.removeChild(col) self.body.removeChild(row) def _getCell(self): return RowWrapper(self.body) def getRowCount(self): cnt = 0 for tr in self.body._children: cnt += tr["rowspan"] return cnt # Time ----------------------------------------------------------------------------------------------------------------- class Time(Widget, _attrDatetime): _tagName = "time" # Track ---------------------------------------------------------------------------------------------------------------- class Track(Label, _attrSrc, _isVoid): _tagName = "track" def _getKind(self): return self.element.kind def _setKind(self, val): self.element.kind = val def _getSrclang(self): return self.element.srclang def _setSrclang(self, val): self.element.srclang = val def _getDefault(self): return True if self.element.hasAttribute("default") else False def _setDefault(self, val): if val: self.element.setAttribute("default", "") else: self.element.removeAttribute("default") # Video ---------------------------------------------------------------------------------------------------------------- class Video(Widget, _attrSrc, _attrDimensions, _attrMultimedia): _tagName = "video" def _getPoster(self): return self.element.poster def _setPoster(self, val): self.element.poster = val ######################################################################################################################## # Utilities ######################################################################################################################## def unescape(val, maxLength=0): """ Unquotes several HTML-quoted characters in a string. :param val: The value to be unescaped. :type val: str :param maxLength: Cut-off after maxLength characters. A value of 0 means "unlimited". (default) :type maxLength: int :returns: The unquoted string. :rtype: str """ val = val \ .replace("<", "<") \ .replace(">", ">") \ .replace(""", "\"") \ .replace("'", "'") if maxLength > 0: return val[0:maxLength] return val def doesEventHitWidgetOrParents(event, widget): """ Test if event 'event' hits widget 'widget' (or *any* of its parents) """ while widget: if event.target == widget.element: return True widget = widget.parent() return False def doesEventHitWidgetOrChildren(event, widget): """ Test if event 'event' hits widget 'widget' (or *any* of its children) """ if event.target == widget.element: return True for child in widget._children: if doesEventHitWidgetOrChildren(event, child): return True return False def textToHtml(node, text): """ Generates html nodes from text by splitting text into content and into line breaks html5.Br. :param node: The node where the nodes are appended to. :param text: The text to be inserted. """ for (i, part) in enumerate(text.split("\n")): if i > 0: node.appendChild(Br()) node.appendChild(TextNode(part)) def parseInt(s, ret=0): """ Parses a value as int """ if not isinstance(s, str): return int(s) elif s: if s[0] in "+-": ts = s[1:] else: ts = s if ts and all([_ in "0123456789" for _ in ts]): return int(s) return ret def parseFloat(s, ret=0.0): """ Parses a value as float. """ if not isinstance(s, str): return float(s) elif s: if s[0] in "+-": ts = s[1:] else: ts = s if ts and ts.count(".") <= 1 and all([_ in ".0123456789" for _ in ts]): return float(s) return ret ######################################################################################################################## # Keycodes ######################################################################################################################## def getKey(event): """ Returns the Key Identifier of the given event Available Codes: https://www.w3.org/TR/2006/WD-DOM-Level-3-Events-20060413/keyset.html#KeySet-Set """ if hasattr(event, "key"): return event.key elif hasattr(event, "keyIdentifier"): if event.keyIdentifier in ["Esc", "U+001B"]: return "Escape" else: return event.keyIdentifier return None def isArrowLeft(event): return getKey(event) in ["ArrowLeft", "Left"] def isArrowUp(event): return getKey(event) in ["ArrowUp", "Up"] def isArrowRight(event): return getKey(event) in ["ArrowRight", "Right"] def isArrowDown(event): return getKey(event) in ["ArrowDown", "Down"] def isEscape(event): return getKey(event) == "Escape" def isReturn(event): return getKey(event) == "Enter" def isControl(event): # The Control (Ctrl) key. return getKey(event) == "Control" def isShift(event): return getKey(event) == "Shift" ######################################################################################################################## # HTML parser ######################################################################################################################## # Global variables required by HTML parser __tags = None __domParser = None def registerTag(tagName, widgetClass, override=True): assert issubclass(widgetClass, Widget), "widgetClass must be a sub-class of Widget!" global __tags if __tags is None: _buildTags() if not override and tagName.lower() in __tags: return attr = [] for fname in dir(widgetClass): if fname.startswith("_set"): attr.append(fname[4:].lower()) __tags[tagName.lower()] = (widgetClass, attr) def tag(cls): assert issubclass(cls, Widget) registerTag(cls._parserTagName or cls.__name__, cls) # do NOT check for cls._tagName here!!! return cls def _buildTags(debug=False): """ Generates a dictionary of all to the html5-library known tags and their associated objects and attributes. """ global __tags if __tags is not None: return if __tags is None: __tags = {} for cname in globals().keys(): if cname.startswith("_"): continue cls = globals()[cname] try: if not issubclass(cls, Widget): continue except: continue registerTag(cls._parserTagName or cls._tagName or cls.__name__, cls, override=False) if debug: for tag in sorted(__tags.keys()): print("{}: {}".format(tag, ", ".join(sorted(__tags[tag][1])))) class HtmlAst(list): pass def parseHTML(html, debug=False): """ Parses the provided HTML-code according to the objects defined in the html5-library. """ def convertEncodedText(txt): """ Convert HTML-encoded text into decoded string. The reason for this function is the handling of HTML entities, which is not properly supported by native JavaScript. We use the browser's DOM parser to to this, according to https://stackoverflow.com/questions/3700326/decode-amp-back-to-in-javascript :param txt: The encoded text. :return: The decoded text. """ global __domParser if jseval is None: return txt if __domParser is None: __domParser = jseval("new DOMParser") dom = __domParser.parseFromString("" + str(txt), "text/html") return dom.body.textContent def scanWhite(l): """ Scan and return whitespace. """ ret = "" while l and l[0] in " \t\r\n": ret += l.pop(0) return ret def scanWord(l): """ Scan and return a word. """ ret = "" while l and l[0] not in " \t\r\n" + "<>=\"'": ret += l.pop(0) return ret stack = [] # Obtain tag descriptions, if not already done! global __tags if __tags is None: _buildTags(debug=debug) # Prepare stack and input stack.append((None, None, HtmlAst())) html = [ch for ch in html] # Parse while html: tag = None text = "" # Auto-close void elements (_isVoid), e.g.

,
, etc. while stack and stack[-1][0] and issubclass(__tags[stack[-1][0]][0], _isVoid): stack.pop() if not stack: break parent = stack[-1][2] while html: ch = html.pop(0) # Comment if html and ch == "<" and "".join(html[:3]) == "!--": html = html[3:] while html and "".join(html[:3]) != "-->": html.pop(0) html = html[3:] # Opening tag elif html and ch == "<" and html[0] != "/": tag = scanWord(html) if tag.lower() in __tags: break text += ch + tag # Closing tag elif html and stack[-1][0] and ch == "<" and html[0] == "/": junk = ch junk += html.pop(0) tag = scanWord(html) junk += tag if stack[-1][0] == tag.lower(): junk += scanWhite(html) if html and html[0] == ">": html.pop(0) stack.pop() tag = None break text += junk tag = None else: text += ch # Append plain text (if not only whitespace) if (text and ((len(text) == 1 and text in ["\t "]) or not all([ch in " \t\r\n" for ch in text]))): # print("text", text) parent.append(convertEncodedText(text)) # Create tag if tag: tag = tag.lower() # print("tag", tag) elem = (tag, {}, HtmlAst()) stack.append(elem) parent.append(elem) while html: scanWhite(html) if not html: break # End of tag > if html[0] == ">": html.pop(0) break # Closing tag at end /> elif html[0] == "/": html.pop(0) scanWhite(html) if html[0] == ">": stack.pop() html.pop(0) break val = att = scanWord(html).lower() if not att: html.pop(0) continue if att in __tags[tag][1] or att in ["[name]", "style", "disabled", "hidden"] or att.startswith("data-"): scanWhite(html) if html[0] == "=": html.pop(0) scanWhite(html) if html[0] in "\"'": ch = html.pop(0) val = "" while html and html[0] != ch: val += html.pop(0) html.pop(0) if att not in elem[1]: elem[1][att] = val else: elem[1][att] += " " + val continue while stack and stack[-1][0]: stack.pop() return stack[0][2] def fromHTML(html, appendTo=None, bindTo=None, debug=False, vars=None, **kwargs): """ Parses the provided HTML code according to the objects defined in the html5-library. html can also be pre-compiled by `parseHTML()` so that it executes faster. Constructs all objects as DOM nodes. The first level is chained into appendTo. If no appendTo is provided, appendTo will be set to html5.Body(). If bindTo is provided, objects are bound to this widget. ```python from vi import html5 div = html5.Div() html5.parse.fromHTML('''

Yeah! hah ala malla" bababtschga"

st ahralla malla tralla da lala

''', div) div.myLink.appendChild("appended!") ``` """ # Handle defaults if bindTo is None: bindTo = appendTo if isinstance(html, str): html = parseHTML(html, debug=debug) assert isinstance(html, HtmlAst) if isinstance(vars, dict): kwargs.update(vars) def replaceVars(txt): for var, val in kwargs.items(): txt = txt.replace("{{%s}}" % var, str(val) if val is not None else "") return txt def interpret(parent, items): ret = [] for item in items: if isinstance(item, str): txt = TextNode(replaceVars(item)) if parent: parent.appendChild(txt) ret.append(txt) continue tag = item[0] atts = item[1] children = item[2] # Special handling for tables: A "thead" and "tbody" are already part of table! if tag in ["thead", "tbody"] and isinstance(parent, Table): wdg = getattr(parent, tag[1:]) # Usual way: Construct new element and chain it into the parent. else: wdg = __tags[tag][0]() for att, val in atts.items(): val = replaceVars(val) if att == "[name]": # Allow disable binding! if not bindTo: continue if getattr(bindTo, val, None): print("Cannot assign name '{}' because it already exists in {}".format(val, bindTo)) elif not (any([val.startswith(x) for x in "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz" + "_"]) and all( [x in "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz" + "0123456789" + "_" for x in val[1:]])): print("Cannot assign name '{}' because it contains invalid characters".format(val)) else: setattr(bindTo, val, wdg) wdg.onBind(bindTo, val) if debug: print("name '{}' assigned to {}".format(val, bindTo)) elif att == "class": # print(tag, att, val.split()) wdg.addClass(*val.split()) elif att == "disabled": # print(tag, att, val) if val == "disabled": wdg.disable() elif att == "hidden": # print(tag, att, val) if val == "hidden": wdg.hide() elif att == "style": for dfn in val.split(";"): if ":" not in dfn: continue att, val = dfn.split(":", 1) # print(tag, "style", att.strip(), val.strip()) wdg["style"][att.strip()] = val.strip() elif att.startswith("data-"): wdg["data"][att[5:]] = val else: wdg[att] = parseInt(val, val) interpret(wdg, children) if parent and not wdg.parent(): parent.appendChild(wdg) ret.append(wdg) return ret return interpret(appendTo, html) if __name__ == '__main__': print(globals())