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dupeguru/qt/tree_model.py

179 lines
6.1 KiB
Python

# Created By: Virgil Dupras
# Created On: 2009-09-14
# Copyright 2015 Hardcoded Software (http://www.hardcoded.net)
#
# This software is licensed under the "GPLv3" License as described in the "LICENSE" file,
# which should be included with this package. The terms are also available at
# http://www.gnu.org/licenses/gpl-3.0.html
import logging
from PyQt5.QtCore import QAbstractItemModel, QModelIndex
class NodeContainer:
def __init__(self):
self._subnodes = None
self._ref2node = {}
# --- Protected
def _create_node(self, ref, row):
# This returns a TreeNode instance from ref
raise NotImplementedError()
def _get_children(self):
# This returns a list of ref instances, not TreeNode instances
raise NotImplementedError()
# --- Public
def invalidate(self):
# Invalidates cached data and list of subnodes without resetting ref2node.
self._subnodes = None
# --- Properties
@property
def subnodes(self):
if self._subnodes is None:
children = self._get_children()
self._subnodes = []
for index, child in enumerate(children):
if child in self._ref2node:
node = self._ref2node[child]
node.row = index
else:
node = self._create_node(child, index)
self._ref2node[child] = node
self._subnodes.append(node)
return self._subnodes
class TreeNode(NodeContainer):
def __init__(self, model, parent, row):
NodeContainer.__init__(self)
self.model = model
self.parent = parent
self.row = row
@property
def index(self):
return self.model.createIndex(self.row, 0, self)
class RefNode(TreeNode):
"""Node pointing to a reference node.
Use this if your Qt model wraps around a tree model that has iterable nodes.
"""
def __init__(self, model, parent, ref, row):
TreeNode.__init__(self, model, parent, row)
self.ref = ref
def _create_node(self, ref, row):
return RefNode(self.model, self, ref, row)
def _get_children(self):
return list(self.ref)
# We use a specific TreeNode subclass to easily spot dummy nodes, especially in exception tracebacks.
class DummyNode(TreeNode):
pass
class TreeModel(QAbstractItemModel, NodeContainer):
def __init__(self, **kwargs):
super().__init__(**kwargs)
self._dummy_nodes = set() # dummy nodes' reference have to be kept to avoid segfault
# --- Private
def _create_dummy_node(self, parent, row):
# In some cases (drag & drop row removal, to be precise), there's a temporary discrepancy
# between a node's subnodes and what the model think it has. This leads to invalid indexes
# being queried. Rather than going through complicated row removal crap, it's simpler to
# just have rows with empty data replacing removed rows for the millisecond that the drag &
# drop lasts. Override this to return a node of the correct type.
return DummyNode(self, parent, row)
def _last_index(self):
"""Index of the very last item in the tree."""
current_index = QModelIndex()
row_count = self.rowCount(current_index)
while row_count > 0:
current_index = self.index(row_count - 1, 0, current_index)
row_count = self.rowCount(current_index)
return current_index
# --- Overrides
def index(self, row, column, parent):
if not self.subnodes:
return QModelIndex()
node = parent.internalPointer() if parent.isValid() else self
try:
return self.createIndex(row, column, node.subnodes[row])
except IndexError:
logging.debug(
"Wrong tree index called (%r, %r, %r). Returning DummyNode",
row,
column,
node,
)
parent_node = parent.internalPointer() if parent.isValid() else None
dummy = self._create_dummy_node(parent_node, row)
self._dummy_nodes.add(dummy)
return self.createIndex(row, column, dummy)
def parent(self, index):
if not index.isValid():
return QModelIndex()
node = index.internalPointer()
if node.parent is None:
return QModelIndex()
else:
return self.createIndex(node.parent.row, 0, node.parent)
def reset(self):
super().beginResetModel()
self.invalidate()
self._ref2node = {}
self._dummy_nodes = set()
super().endResetModel()
def rowCount(self, parent=QModelIndex()):
node = parent.internalPointer() if parent.isValid() else self
return len(node.subnodes)
# --- Public
def findIndex(self, row_path):
"""Returns the QModelIndex at `row_path`
`row_path` is a sequence of node rows. For example, [1, 2, 1] is the 2nd child of the
3rd child of the 2nd child of the root.
"""
result = QModelIndex()
for row in row_path:
result = self.index(row, 0, result)
return result
@staticmethod
def pathForIndex(index):
reversed_path = []
while index.isValid():
reversed_path.append(index.row())
index = index.parent()
return list(reversed(reversed_path))
def refreshData(self):
"""Updates the data on all nodes, but without having to perform a full reset.
A full reset on a tree makes us lose selection and expansion states. When all we ant to do
is to refresh the data on the nodes without adding or removing a node, a call on
dataChanged() is better. But of course, Qt makes our life complicated by asking us topLeft
and bottomRight indexes. This is a convenience method refreshing the whole tree.
"""
column_count = self.columnCount()
top_left = self.index(0, 0, QModelIndex())
bottom_left = self._last_index()
bottom_right = self.sibling(bottom_left.row(), column_count - 1, bottom_left)
self.dataChanged.emit(top_left, bottom_right)