Source code for pyworkflow.gui.tree

# -*- coding: utf-8 -*-
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# *
# * Authors:     J.M. De la Rosa Trevin (
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# * Unidad de  Bioinformatica of Centro Nacional de Biotecnologia , CSIC
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# * This program is free software; you can redistribute it and/or modify
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# * the Free Software Foundation; either version 3 of the License, or
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# * This program is distributed in the hope that it will be useful,
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# * GNU General Public License for more details.
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# * You should have received a copy of the GNU General Public License
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import os
import tkinter as tk
import tkinter.ttk as ttk

from pyworkflow.object import Scalar
from pyworkflow.mapper import SqliteMapper
from pyworkflow.utils import prettyDelta
from . import gui
from .widgets import Scrollable


[docs]class Tree(ttk.Treeview, Scrollable): """ This widget acts as a wrapper around the ttk.Treeview""" _images = {} def __init__(self, master, frame=True, **opts): """Create a new Tree, if frame=True, a container frame will be created and an scrollbar will be added""" Scrollable.__init__(self, master, ttk.Treeview, frame, **opts)
[docs] def getImage(self, img): return gui.getImage(img, Tree._images)
[docs] def getFirst(self): """ Return first selected item or None if selection empty""" selection = self.selection() if len(selection): return selection[0] return None
def _moveSelection(self, moveFunc): item = self.selection_first() if item: item = moveFunc(item) if item != '': self.selection_set(item)
[docs] def moveSelectionUp(self, e=None): """ change selection to previous item """ self._moveSelection(self.prev)
[docs] def moveSelectionDown(self, e=None): """ change selection to to next item """ self._moveSelection(
[docs] def moveItemUp(self, e=None): """if selected item is not the first move up one position""" item = self.selection_first() if item: index = self.index(item) if index > 0: self.move(item, '', index - 1)
[docs] def moveItemDown(self, e=None): """if selected item is not the first move up one position""" item = self.selection_first() if item: index = self.index(item) if != '': self.move(item, '', index + 1)
[docs] def clear(self): """ remove all items """ childs = self.get_children('') for c in childs: self.delete(c)
[docs] def selectChildByIndex(self, index): """ Select the item at the position index """ child = self.get_children('')[index] self.selection_set(child)
[docs] def selectChild(self, child): self.selection_set(child)
[docs] def search(self, initial, fromSelected=True): """ Search the first item starting with "start" Implemented for Flat tree like FileBrowser...TODO: consider a proper tree with branches and leaves.. Parameters ---------- initial: String - text to look for in the items. Usually the first initial letter fromSelected : Boolean, start looking from the selected item""" # Validate search string, do not allow empty chars if len(initial) == 0: return False # Get all children = self.get_children('') # Get the selected item searchAfter = self.getFirst() if fromSelected else None # Loop ... for child in children: text = self.item(child, 'text') if searchAfter is not None and searchAfter == text: searchAfter = None continue if searchAfter is None: # Do a lower case search text = text.lower() if text.startswith(initial.lower()): # Enclose text in "" due to bug # searchText = '"' + child + '"' self.focus(child) self.selection_set(searchText) return True else: continue # If we started from a selected item...start again without selection if fromSelected: return, False)
# From:
[docs] def sortByColumn(self, col, reverse, casting=str): """ Function to sort a treeview :param self: treview :param col: column to apply the sorting on :param reverse: sorting direction :param casting: optional - casting operation to apply on the column value: str is default. int, float are other options :return: """ l = [(casting(self.set(k, col)), k) for k in self.get_children('')] l.sort(reverse=reverse) # rearrange items in sorted positions for index, (val, k) in enumerate(l): self.move(k, '', index) # reverse sort next time self.heading(col, command=lambda: self.sortByColumn(col, not reverse, casting))
[docs]class TreeProvider: """ Class class will serve to separate the logic of feed data from the graphical Tree build. Subclasses should implement the abstract methods """ def __init__(self, sortingColumnName=None, sortingAscending=True): self._sortingColumnName = sortingColumnName self._sortingAscending = sortingAscending self._sortEnabled = (sortingColumnName is not None)
[docs] def getColumns(self): """Return a list of tuples (c, w) where: c: is the column name and index w: is the column width """ pass
[docs] def getObjects(self): """Return the objects that will be inserted in the Tree""" pass
[docs] def getObjectInfo(self, obj): """ This function will be called by the Tree with each object that will be inserted. A dictionary should be returned with the possible following entries: 'key': the key value to insert in the Tree 'text': text of the object to be displayed (if not passed the 'key' will be used) 'image': image path to be displayed as icon (optional) 'parent': the object's parent in which insert this object (optional) 'tags': list of tags names (optional) """ pass
[docs] def getObjectPreview(self, obj): """ Should return a tuple (img, desc), where img is the preview image and desc the description string. """ return None, None
[docs] def getObjectActions(self, obj): """ Return a list of tuples (key, action) were keys are the string options that will be display in the context menu and the actions are the functions to call when the specific action is selected. The first action in the list will be taken as the default one when the element is double-clicked. """ return []
[docs] def configureTags(self, tree): """ Configure the available tags in the tree that will be setup later for each item in the tree. Returns ------- Nothing Adds tags to the tree for customizing """ pass
[docs] def setSortingParams(self, columnName, ascending): """ Column name to sort by it and sorting direction Parameters ---------- columnName: Name of the column ascending: If true sorting will be ascending. Returns ------- Nothing """ self._sortingColumnName = columnName self._sortingAscending = ascending
[docs] def getSortingColumnName(self): return self._sortingColumnName
[docs] def isSortingAscending(self): return self._sortingAscending
[docs] def sortEnabled(self): # return self._sortingColumnName is not None return self._sortEnabled
[docs]class BoundTree(Tree): """ This class is base on Tree but fetch the items from a TreeProvider, which provides columns values for each item and items info to insert into the Tree """ def __init__(self, master, provider, frame=True, **opts): """Create a new Tree, if frame=True, a container frame will be created and an scrollbar will be added""" # Get columns to display and width cols = provider.getColumns() colsTuple = tuple([c[0] for c in cols[1:]]) Tree.__init__(self, master, frame, columns=colsTuple, **opts) # Set the special case of first tree column self.heading(FIRST_TREE_COLUMN, text=cols[0][0], command=lambda: self.sortTree(FIRST_TREE_COLUMN, cols[0][0])) self.column(FIRST_TREE_COLUMN, width=cols[0][1]) # Set other columns for c, w in cols[1:]: self.column(c, width=w) self.heading(c, text=c, command=lambda _c=c: self.sortTree(_c, _c)) self.grid(row=0, column=0, sticky='news') = tk.Menu(self, tearoff=0) self.setProvider(provider) self.bind("<Button-3>", self._onRightClick) # Hide the right-click menu self.bind('<FocusOut>', self._unpostMenu) self.bind("<Key>", self._onKeyPress) self.bind('<Button-1>', self._onClick) self.bind('<Double-1>', self._onDoubleClick) self.bind('<<TreeviewSelect>>', self._onSelect)
[docs] def setProvider(self, provider): """ Set new provider and updated items. """ self.provider = provider self.update()
def _onClick(self, e=None): self._unpostMenu() def _onKeyPress(self, e=None): self._unpostMenu() if hasattr(self, 'itemKeyPressed'): selected = self.getFirst() if selected: obj = self._objDict[selected] self.itemKeyPressed(obj, e) def _unpostMenu(self, e=None): def _onSelect(self, e=None): if hasattr(self, 'itemClick'): selected = self.getFirst() if selected: obj = self._objDict[selected] self.itemClick(obj) def _onDoubleClick(self, e=None): selected = self.getFirst() if selected: obj = self._objDict[selected] if hasattr(self, 'itemDoubleClick'): self.itemDoubleClick(obj) else: # If not callback, use default action actions = self.provider.getObjectActions(obj) if len(actions): # actions[0] = first Action, [1] = the action callback actions[0][1]() def _onRightClick(self, e=None): item = self.identify('item', e.x, e.y) unpost = True if len(item): self.selection_set(item) obj = self._objDict[item] actions = self.provider.getObjectActions(obj) if len(actions):, tk.END) for a in actions: if a is None: else: img = '' if len(a) > 2: # image for the action img = self.getImage(a[2])[0], command=a[1], image=img, compound=tk.LEFT), e.y_root) unpost = False if unpost: self._unpostMenu()
[docs] def update(self): self.clear() self.provider.configureTags(self) self._objDict = {} # Store the mapping between Tree ids and objects self._objects = self.provider.getObjects() for obj in self._objects: # If the object is a pointer that has a null value do not show # if ((not obj.isPointer()) or (obj.isPointer() and obj.get() is not None)): objDict = self.provider.getObjectInfo(obj) if objDict is not None: key = objDict.get('key') text = objDict.get('text', key) parent = objDict.get('parent', None) if parent is None: parentId = '' else: if hasattr(parent, '_treeId'): # This should happens always parentId = parent._treeId # Previously set else: parentId = '' text += '---> Error: parent not Inserted' image = objDict.get('image', '') if len(image): image = self.getImage(image) if image is None: image = '' values = objDict.get('values', ()) tags = objDict.get('tags', ()) try: obj._treeId = self.insert(parentId, 'end', key, text=text, image=image, values=values, tags=tags) self._objDict[obj._treeId] = obj if objDict.get('open', False): self.itemConfig(obj, open=True) if objDict.get('selected', False): self.selectChild(obj._treeId) except Exception as ex: print("error: ", ex) if hasattr(obj, "getObjId") and obj.getObjId(): print("error object with id=%d (%s) is duplicated!!!" % (obj.getObjId(), str(obj))) else: print("error, object %s does not have an id. This could" " be due to the load of old project that does not" " have recently added attributes " "(e.g.:datastreaming)" % str(obj))
[docs] def sortTree(self, heading, column): if not self.provider.sortEnabled(): return # Calculate the sorting direction. default to true ascending = True # Current sorted column currentSortedColumn = self.provider.getSortingColumnName() # If its the same column if column == currentSortedColumn: ascending = not self.provider.isSortingAscending() else: # Remove previous arrow previousHeading = self.getColumnKeyByColumnName(currentSortedColumn) self.heading(previousHeading, text=currentSortedColumn) # Visualize column sorted in the header if ascending: self.heading(heading, text=column + ' ▲') else: self.heading(heading, text=column + ' ▼') self.provider.setSortingParams(column, ascending) self.update()
[docs] def getColumnKeyByColumnName(self, columnName): try: self.column(columnName) return columnName except Exception as e: return FIRST_TREE_COLUMN
[docs] def itemConfig(self, obj, **args): """ Configure inserted items. """ self.item(obj._treeId, **args)
[docs] def iterSelectedObjects(self): for treeId in self.selection(): yield self.getObjectFromId(treeId)
[docs] def getSelectedObjects(self): return [obj for obj in self.iterSelectedObjects()]
[docs] def getObjectFromId(self, treeId): """ Return the corresponding object from a given Tree item id. """ return self._objDict[treeId]
[docs]class ObjectTreeProvider(TreeProvider): """ Populate Tree from Objects. """ def __init__(self, objList=None): TreeProvider.__init__(self) self.objList = objList self.getColumns = lambda: [('Object', 300), ('Id', 70), ('Class', 150)] self._parentDict = {}
[docs] def getObjectInfo(self, obj): # if obj.isPointer() and not obj.hasValue(): # return None cls = obj.getClassName() if obj.getName() is None: t = cls else: t = obj.getName().split('.')[-1] if t.startswith('__item__'): t = "%s [%s]" % (cls, t.replace('__item__', '')) value = obj.get() if value is None: if obj.isPointer(): t += " = %s" % str(obj.getObjValue()) else: t += " = None" else: t += " = %s" % str(obj) info = {'key': obj.getObjId(), 'parent': self._parentDict.get(obj.getObjId(), None), 'text': t, 'values': (obj.strId(), cls)} if issubclass(obj.__class__, Scalar): info['image'] = 'step.gif' return info
[docs] def getObjectPreview(self, obj): return None, None
[docs] def getObjectActions(self, obj): return []
def _getObjectList(self): """Retrieve the object list""" return self.objList
[docs] def getObjects(self): objList = self._getObjectList() self._parentDict = {} childs = [] for obj in objList: childs += self._getChilds(obj) objList += childs return objList
def _getChilds(self, obj): childs = [] grandchilds = [] for a, v in obj.getAttributesToStore(): childs.append(v) self._parentDict[v.getObjId()] = obj grandchilds += self._getChilds(v) childs += grandchilds return childs
[docs]class DbTreeProvider(ObjectTreeProvider): """Retrieve the elements from the database""" def __init__(self, dbName, classesDict): ObjectTreeProvider.__init__(self) self.mapper = SqliteMapper(dbName, classesDict) def _getObjectList(self): return self.mapper.selectAll()
[docs]class ProjectRunsTreeProvider(TreeProvider): """ Provide run list from a project to populate a tree. """ ID_COLUMN = 'Id' RUN_COLUMN = 'Run' STATE_COLUMN = 'State' TIME_COLUMN = 'Time' def __init__(self, project, **kwargs): TreeProvider.__init__(self, sortingColumnName=ProjectRunsTreeProvider.ID_COLUMN) self.project = project self._objDict = {} self._refresh = True self._checkPids = False
[docs] def setRefresh(self, value): self._refresh = value
[docs] def getObjects(self): runs = self.project.getRuns(refresh=self._refresh, checkPids=self._checkPids) # Sort objects runs.sort(key=self.runsKey, reverse=not self.isSortingAscending()) return runs
[docs] def runsKey(self, run): sortDict = {ProjectRunsTreeProvider.ID_COLUMN: 'getObjId', ProjectRunsTreeProvider.TIME_COLUMN: 'getElapsedTime', ProjectRunsTreeProvider.RUN_COLUMN: 'getRunName', ProjectRunsTreeProvider.STATE_COLUMN: 'getStatusMessage'} return getattr(run, sortDict.get(self._sortingColumnName))()
[docs] def getColumns(self): return [(ProjectRunsTreeProvider.ID_COLUMN, 5), (ProjectRunsTreeProvider.RUN_COLUMN, 300), (ProjectRunsTreeProvider.STATE_COLUMN, 50), (ProjectRunsTreeProvider.TIME_COLUMN, 50)]
[docs] def getObjectInfo(self, obj): objId = obj.getObjId() self._objDict[objId] = obj info = {'key': objId, 'text': objId, 'values': (obj.getRunName(), obj.getStatusMessage(), prettyDelta(obj.getElapsedTime())) } objPid = obj.getObjParentId() if objPid in self._objDict: info['parent'] = self._objDict[objPid] return info
[docs] def getObjectFromId(self, objId): return self._objDict[objId]
[docs]class ListTreeProvider(TreeProvider): """ Simple list tree provider. """ def __init__(self, objList=None): TreeProvider.__init__(self) self.objList = objList self.getColumns = lambda: [('Object', 150)] self.getObjects = lambda: self.objList
[docs] def getObjectInfo(self, obj): info = {'key': obj.getObjId(), 'text': self.getText(obj), 'values': ()} return info
[docs] def getText(self, obj): """ Get the text to display for an object. """ index, fn = obj.getLocation() name = os.path.basename(fn) if index: name = "%03d@%s" % (index, name) return name
[docs] def getObjs(self): """ Get the objects. """ return self.objList
[docs]class ListTreeProviderString(ListTreeProvider):
[docs] def getText(self, obj): return obj.get()
[docs]class ListTreeProviderTemplate(ListTreeProviderString): def __init__(self, objList=None): TreeProvider.__init__(self) self.objList = objList self.getColumns = lambda: [('Template', 250), ('Description', 800)] self.getObjects = lambda: self.objList
[docs] def getObjectInfo(self, obj): info = {'key': obj.getObjId(), 'text': self.getText(obj), 'values': self.getValues(obj)} return info
[docs] def getText(self, obj): return obj.pluginName + '-' + obj.templateName
[docs] def getValues(self, obj): return (obj.description,)
[docs]class AttributesTreeProvider(ListTreeProviderString): def __init__(self, item): TreeProvider.__init__(self) self.objList = self._attributesToObjectList(item) self.getColumns = lambda: [('attribute', 250), ('value', 125)] self.getObjects = lambda: self.objList def _attributesToObjectList(self, item): """ Returns a list of all available attributes ready as a list of objects for the tree""" objList = [] for key, attr in item.getAttributesToStore(): clone = attr.clone() clone.attrName = key objList.append(clone) return objList
[docs] def getObjectInfo(self, obj): info = {'key': obj.attrName, 'text': self.getText(obj), 'values': self.getValues(obj)} return info
[docs] def getText(self, obj): return obj.attrName
[docs] def getValues(self, obj): return (obj.get(),)