def set(self, lo, hi, do_callback=False): #print 'set1', lo, hi Scrollbar.set(self, lo, hi, do_callback=False) #print 'set2', self.lo, self.hi (w0, w1) = self.world_region v0 = w0 + self.lo * (w1 - w0) v1 = w0 + self.hi * (w1 - w0) #print 'set3', v0, v1 self.view_region.set(v0, v1) # updateText repeats what Scrollbar.set does but needs to because region updated after set self.updateText() if (do_callback): self.doCallback(self.lo, self.hi)
class Tree(Frame): def __init__(self, parent, iconSize='medium', multiSelect=False, font='Helvetica 8', doubleCallback=None, *args, **kw): Frame.__init__(self, parent, *args, **kw) self.multiSelect = multiSelect self.icons = {} self.openDict = {} self.scrollbarWidth = 15 self.canvasList = [] self.canvasDict = {} self.canvasLines = [] self._wait = False self.vOffset = 0 self.nodes = [] # Just a list of nodes self.nodeDict = {} # To fetch nodes via objects self.font = font self.doubleCallback = doubleCallback #bg = self.cget('background') iconItems = [{ 'kind': 'command', 'label': 'Small', 'command': self.smallIcons }, { 'kind': 'command', 'label': 'Medium', 'command': self.medIcons }, { 'kind': 'command', 'label': 'Large', 'command': self.largeIcons }] self.menu = Menu(self, tearoff=False) menu_items = [ { 'kind': 'cascade', 'label': 'Icon size', 'submenu': iconItems }, ] self.menu.setMenuItems(menu_items) self.rowHeight = None self.visibleRows = 80 self.setIconSize(iconSize, redraw=False) self.canvas = Canvas(self, relief='flat', borderwidth=0, background=BG_COLOR, xscrollcommand=self._setHScrollbar, *args, **kw) self.canvas.pack() self.xScrollbar = Scrollbar(self, orient='horizontal', width=self.scrollbarWidth, borderwidth=1, callback=self._moveHScrollbar, background=BG_COLOR) self.yScrollbar = Scrollbar(self, orient='vertical', width=self.scrollbarWidth, borderwidth=1, callback=self._setVScrollbar, background=BG_COLOR) self.canvas.bind('<Button-1>', self._mouseClick) self.canvas.bind('<Double-1>', self._mouseDoubleClick) if isWindowsOS: self.canvas.bind('<MouseWheel>', self._windowsOsScroll) else: self.canvas.bind('<Button-4>', self._mouseUp) self.canvas.bind('<Button-5>', self._mouseDown) self.canvas.bind('<p>', self._printCanvas) self.canvas.bind('<KeyPress-Prior>', self._pageUp) self.canvas.bind('<KeyPress-Next>', self._pageDown) self.canvas.bind('<KeyPress-Up>', self._keyUp) self.canvas.bind('<KeyPress-Down>', self._keyDown) self.canvas.bind('<KeyPress-Home>', self._keyHome) self.canvas.bind('<KeyPress-End>', self._keyEnd) self.canvas.bind('<Enter>', self._enter) self.canvas.bind('<ButtonPress-3>', self._popupMenu) self.bind('<Configure>', self._changeSizeAfter) def _popupMenu(self, event): self.menu.popupMenu(event) def smallIcons(self): self.setIconSize('small') def medIcons(self): self.setIconSize('medium') def largeIcons(self): self.setIconSize('large') def setIconSize(self, iconSize, redraw=True): size = ICON_SIZE_DICT.get(iconSize, 22) if size != self.rowHeight: self.rowHeight = size + 1 self.font = 'Helvetica %d' % (size / 2) ccpnDir = getTopDirectory() iconDir = '%dx%d' % (size, size) imageDir = path.join(ccpnDir, 'python', 'memops', 'gui', 'graphics', iconDir) files = [f for f in listdir(imageDir) if f.endswith('.gif')] for file in files: imageFile = path.join(imageDir, file) self.icons[file[:-4]] = PhotoImage(file=imageFile) if redraw: self._changeSize() return size def _setHScrollbar(self, start, end): self.xScrollbar.set(float(start), float(end)) def _moveHScrollbar(self, start, end): self.canvas.xview('moveto', start) def _enter(self, event): self.menu.popdownMenu() self.canvas.focus_force() def _printCanvas(self, *event): from memops.gui.FileSelect import FileType from memops.gui.FileSelectPopup import FileSelectPopup fileTypes = [FileType('PostScript', ['*.ps']), FileType('All', ['*'])] fileSelectPopup = FileSelectPopup(self, file_types=fileTypes, title='Print canvas to file', dismiss_text='Cancel', selected_file_must_exist=False) fileName = fileSelectPopup.getFile() self.canvas.postscript(colormode='color', file=fileName) def _windowsOsScroll(self, event): delta = event.delta if delta > 0: self._mouseUp(event) elif delta < 0: self._mouseDown(event) def _keyHome(self, event): self.vOffset = 0 self._drawAfter() def _keyEnd(self, event): numNodes = len(self.nodes) visNodes = self.visibleRows self.vOffset = max(0, numNodes - visNodes) self._drawAfter() def _scroll(self, delta=1): height = int(self.winfo_height()) numNodes = len(self.nodes) visNodes = self.visibleRows if numNodes <= visNodes: return vOffset = self.vOffset + delta vOffset = max(0, vOffset) vOffset = min(numNodes - visNodes, vOffset) if vOffset != self.vOffset: self.vOffset = vOffset self._drawAfter() def _pageUp(self, event): self._scroll(-1 * self.visibleRows) def _pageDown(self, event): self._scroll(self.visibleRows) def _mouseUp(self, event): self._scroll(-8) def _mouseDown(self, event): self._scroll(8) def _keyUp(self, event): self._scroll(-1) def _keyDown(self, event): self._scroll(1) def _setVScrollbar(self, start, end): self.cancelEdits() height = int(self.winfo_height()) gaps = start + 1 - end nRows = float(len(self.nodes)) if gaps == 0 or nRows == 0.0: self.yScrollbar.set(0, 1) self.vOffset = 0 else: # Have to do this so that the bar keeps up with the mouse overlap = int(nRows - self.visibleRows) size = min(1.0, self.visibleRows / nRows) self.yScrollbar.set(min(gaps, max(0, start)), max(size, min(1.0, start + size))) self.vOffset = min( max(0, int('%1.1d' % (start / gaps * (overlap + 1)))), overlap) #vOffset = max(0, start*nRows) #vOffset = min(nRows-self.visibleRows, vOffset) #self.vOffset = int(vOffset) self._drawAfter() def _updateScrollBars(self): allRows = len(self.nodes) visRows = self.visibleRows if allRows < visRows: self.vOffset = 0 self.yScrollbar.set(0, 1) self.yScrollbar.place_forget() else: size = self.scrollbarWidth width = int(self.winfo_width()) - 1 height = int(self.winfo_height()) - 1 start = float(self.vOffset) / allRows end = float(self.vOffset + visRows) / allRows self.yScrollbar.set(start, end) self.yScrollbar.place(x=width - size + 1, y=1, width=size, height=height) self.update_idletasks() def _mouseClick(self, event): self.cancelEdits() x = self.canvas.canvasx(event.x) y = self.canvas.canvasy(event.y) obj = self.canvas.find('closest', x, y)[0] node, typ = self.canvasDict.get(obj, (None, None)) if node: if typ is TOGGLE: node.toggle() else: if self.multiSelect and (event.state & 4 or event.state & 1): if event.state & 4: node.isSelected = not node.isSelected elif event.state & 1: indices = [ self.nodes.index(node), ] for i, node2 in enumerate(self.nodes): if node2.isSelected: indices.append(i) for node2 in self.nodes[min(indices):max(indices) + 1]: node2.isSelected = True else: for node2 in self.nodes: if node2.isSelected: node2.isSelected = False node.isSelected = True self._drawAfter() def _mouseDoubleClick(self, event): self.cancelEdits() x = self.canvas.canvasx(event.x) y = self.canvas.canvasy(event.y) obj = self.canvas.find('closest', x, y)[0] node, typ = self.canvasDict.get(obj, (None, None)) if node: if typ is TOGGLE: #node.toggle() return elif self.doubleCallback: self.doubleCallback(node) self._drawAfter() def _drawAfter(self): if self._wait: return self._wait = True self.after_idle(self._draw) def _draw(self): self._updateScrollBars() delta = self.rowHeight canvas = self.canvas cImage = canvas.create_image cList = self.canvasList cDict = self.canvasDict cLines = self.canvasLines cConfig = canvas.itemconfigure cDel = canvas.delete cCoords = canvas.coords cText = canvas.create_text cRect = canvas.create_rectangle cBbox = canvas.bbox cLine = canvas.create_line cLift = canvas.lift cLower = canvas.lower cPoly = canvas.create_polygon nodes = self.nodes nodeDict = self.nodeDict visibleRows = self.visibleRows icons = self.icons font = self.font vOffset = self.vOffset bg = BG_COLOR # self.cget('bg') roots = [n for n in nodes if not n.parent] if not roots: raise Exception('No rooted nodes') for item in cLines: cDel(item) stack = [(node, 0) for node in roots] nodes = [] while stack: node, level = stack.pop(0) nodes.append((node, level)) if node.isOpen: level2 = level + 1 stack = [(c, level2) for c in node.children] + stack yDict = {} pLevel = 0 pNode = None pad = 2 + (delta / 2) bSpace = 4 nodes = nodes[vOffset:] for row, data in enumerate(nodes): node, level = data y = pad + row * delta x = pad + level * delta x1 = x + delta x2 = x1 + delta - bSpace yDict[node] = y, x1 yP, xP = yDict.get(node.parent, (0, x)) if yP is not None: line = cLine(xP, yP, xP, y, fill=LINE_COLOR, width=1) cLower(line) cLines.append(line) if row > visibleRows: break iconImage = icons[node.icon] if node.isSelected: bgColor = SELECT_BG_COLOR fgColor = SELECT_FG_COLOR else: bgColor = bg fgColor = bg if row < len(cList): line, rect, tog1, tog2, box, icon, text = cList[row] cConfig(rect, fill=bgColor, outline=fgColor) cConfig(icon, image=iconImage) cConfig(text, text=node.label or '', font=font) cCoords(icon, x1, y) cCoords(text, x2, y) cCoords(line, x, y, x1, y) else: line = cLine(x, y, x1, y, fill=LINE_COLOR) rect = cRect(x, y, x2, y, fill=bgColor, outline=fgColor) box = cRect(-2, -2, -2, -2, fill=NODE_BG_COLOR) tog1 = cLine(-2, -2, -2, -2) tog2 = cLine(-2, -2, -2, -2) icon = cImage(x1, y, image=iconImage) text = cText(x2, y, text=node.label or '', justify='left', anchor='w', font=font) cList.append((line, rect, tog1, tog2, box, icon, text)) if node.callback: cCoords(box, x - 4, y - 4, x + 4, y + 4) if node.isOpen: cCoords(tog1, -2, -2, -2, -2) cCoords(tog2, x - 2, y, x + 3, y) else: cCoords(tog1, x, y - 2, x, y + 3) cCoords(tog2, x - 2, y, x + 3, y) else: cCoords(tog1, -2, -2, -2, -2) cCoords(tog2, -2, -2, -2, -2) cCoords(box, -2, -2, -2, -2) bbox = cBbox(text) if bbox: cCoords(rect, bbox[0] - 2, bbox[1], bbox[2] + 2, bbox[3]) cLift(box) cLift(tog1) cLift(tog2) cDict[tog1] = (node, TOGGLE) cDict[tog2] = (node, TOGGLE) cDict[box] = (node, TOGGLE) cDict[text] = (node, TEXT) cDict[icon] = (node, ICON) nRows = min(visibleRows, len(nodes)) if len(cList) > nRows: for row in range(nRows, len(cList)): for item in cList[row]: if cDict.get(item): del cDict[item] cDel(item) self.canvasList = cList[:nRows] self._wait = False def setFont(self, font): self.font = font self._drawAfter() def _changeSizeAfter(self, event): self.after_idle(lambda: self._changeSize(event)) def _changeSize(self, event=None): self.cancelEdits() if event: width = event.width height = event.height else: width = int(self.winfo_width()) height = int(self.winfo_height()) self.canvas.config(width=width, height=height) self.visibleRows = height / self.rowHeight bbox = self.canvas.bbox('all') if bbox: # None at startup: nothing drawn canvasWidth = bbox[2] - bbox[0] if width < canvasWidth: size = self.scrollbarWidth end = width / float(canvasWidth) self.canvas.config(scrollregion="0 0 %s %s" % (canvasWidth, height)) if self.visibleRows < len(self.nodes): self.xScrollbar.place(x=0, y=height - size, width=width - size, height=size) else: self.xScrollbar.place(x=0, y=height - size, width=width, height=size) self.xScrollbar.set(0, end) else: self.xScrollbar.place_forget() else: self.xScrollbar.place_forget() self._drawAfter() # Public def cancelEdits(self): self.menu.popdownMenu() def getSelected(self): return [node.object for node in self.nodes if node.isSelected] def select(self, object, expand=True): node = self.nodeDict.get(object) if node is not None: node.isSelected = True if expand: parent = node.parent while parent: parent.isOpen = True parent = parent.parent self._drawAfter() def selectAll(self, expand=True): for node in self.nodes: node.isSelected = True if expand: node.isOpen = expand def selectDeep(self, object, expand=True): node = self.nodeDict.get(object) if node is not None: stack = [ node, ] nodes = [] while stack: node2 = stack.pop() stack.extend(node2.children) nodes.append(node2) for node2 in nodes: if expand: node2.isOpen = True node2.isSelected = True self._drawAfter() def setSelected(self, objects, expand=True): select = self.select for object in objects: select(object, expand) def expand(self, object): node = self.nodeDict.get(object) if node is not None: node.expand() self._drawAfter() def expandAll(self): for node in self.nodes: node.expand() self._drawAfter() def expandDeep(self, object): node = self.nodeDict.get(object) if node is not None: stack = [ node, ] nodes = [] while stack: node2 = stack.pop() stack.extend(node2.children) nodes.append(node2) for node2 in nodes: node2.iexpand() self._drawAfter() def contract(self, object): node = self.nodeDict.get(object) if node is not None: node.collapse() self._drawAfter() def contractAll(self): for node in self.nodes: node.collapse() self._drawAfter() def contractDeep(self, object): node = self.nodeDict.get(object) if node is not None: stack = [ node, ] nodes = [] while stack: node2 = stack.pop() stack.extend(node2.children) nodes.append(node2) for node2 in nodes: node2.collapse() self._drawAfter() def update(self, parents, objects, labels=None, icons=None, callbacks=None, editWidgets=None): n = len(parents) for test in (objects, callbacks, labels, icons, editWidgets): if test is not None: assert len(test) == n self.nodes = nodes = [] self.nodeDict = nodeDict = {} self.openDict = {} if not labels: labels = [None] * n if not icons: icons = [None] * n if not callbacks: callbacks = [None] * n if not editWidgets: editWidgets = [[] for x in xrange(n)] for i, parent in enumerate(parents): object = objects[i] node = Node(self, parent, object, labels[i], icons[i], callbacks[i], False, False, editWidgets[i]) # JMCI FIXME: need to understand how the redraw works self._draw() def add(self, parent, object, label=None, icon='media-playback-stop', callback=None, isOpen=False, isSelected=False, editWidgets=None): nodeDict = self.nodeDict if nodeDict.get(object): nodeDict[object].delete() #raise Exception('Node already present for object %s' % object) node = Node(self, parent, object, label, icon, callback, isOpen, isSelected, editWidgets) def remove(self, object): node = self.nodeDict.get(object) if node is not None: if self.openDict.get(object): del self.openDict[object] node.delete() self._drawAfter()