Source code for silx.gui.plot.ScatterMaskToolsWidget
# coding: utf-8
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"""Widget providing a set of tools to draw masks on a PlotWidget.
This widget is meant to work with a modified :class:`silx.gui.plot.PlotWidget`
- :class:`ScatterMask`: Handle scatter mask update and history
- :class:`ScatterMaskToolsWidget`: GUI for :class:`ScatterMask`
- :class:`ScatterMaskToolsDockWidget`: DockWidget to integrate in :class:`PlotWindow`
"""
from __future__ import division
__authors__ = ["P. Knobel"]
__license__ = "MIT"
__date__ = "07/04/2017"
import math
import logging
import os
import numpy
import sys
from .. import qt
from ...image import shapes
from ._BaseMaskToolsWidget import BaseMask, BaseMaskToolsWidget, BaseMaskToolsDockWidget
from .Colors import cursorColorForColormap, rgba
_logger = logging.getLogger(__name__)
[docs]class ScatterMask(BaseMask):
"""A 1D mask for scatter data.
"""
def __init__(self, scatter=None):
"""
:param scatter: :class:`silx.gui.plot.items.Scatter` instance
"""
BaseMask.__init__(self, scatter)
def _getXY(self):
x = self._dataItem.getXData(copy=False)
y = self._dataItem.getYData(copy=False)
return x, y
[docs] def getDataValues(self):
"""Return scatter data values as a 1D array.
:rtype: 1D numpy.ndarray
"""
return self._dataItem.getValueData(copy=False)
def save(self, filename, kind):
if kind == 'npy':
try:
numpy.save(filename, self.getMask(copy=False))
except IOError:
raise RuntimeError("Mask file can't be written")
elif kind in ["csv", "txt"]:
try:
numpy.savetxt(filename, self.getMask(copy=False))
except IOError:
raise RuntimeError("Mask file can't be written")
[docs] def updatePoints(self, level, indices, mask=True):
"""Mask/Unmask points with given indices.
:param int level: Mask level to update.
:param indices: Sequence or 1D array of indices of points to be
updated
:param bool mask: True to mask (default), False to unmask.
"""
if mask:
self._mask[indices] = level
else:
# unmask only where mask level is the specified value
indices_stencil = numpy.zeros_like(self._mask, dtype=numpy.bool)
indices_stencil[indices] = True
self._mask[numpy.logical_and(self._mask == level, indices_stencil)] = 0
self._notify()
# update shapes
[docs] def updatePolygon(self, level, vertices, mask=True):
"""Mask/Unmask a polygon of the given mask level.
:param int level: Mask level to update.
:param vertices: Nx2 array of polygon corners as (y, x) or (row, col)
:param bool mask: True to mask (default), False to unmask.
"""
polygon = shapes.Polygon(vertices)
x, y = self._getXY()
# TODO: this could be optimized if necessary
indices_in_polygon = [idx for idx in range(len(x)) if
polygon.is_inside(y[idx], x[idx])]
self.updatePoints(level, indices_in_polygon, mask)
[docs] def updateRectangle(self, level, y, x, height, width, mask=True):
"""Mask/Unmask data inside a rectangle
:param int level: Mask level to update.
:param float y: Y coordinate of bottom left corner of the rectangle
:param float x: X coordinate of bottom left corner of the rectangle
:param float height:
:param float width:
:param bool mask: True to mask (default), False to unmask.
"""
vertices = [(y, x),
(y + height, x),
(y + height, x + width),
(y, x + width)]
self.updatePolygon(level, vertices, mask)
[docs] def updateDisk(self, level, cy, cx, radius, mask=True):
"""Mask/Unmask a disk of the given mask level.
:param int level: Mask level to update.
:param float cy: Disk center (y).
:param float cx: Disk center (x).
:param float radius: Radius of the disk in mask array unit
:param bool mask: True to mask (default), False to unmask.
"""
x, y = self._getXY()
stencil = (y - cy)**2 + (x - cx)**2 < radius**2
self.updateStencil(level, stencil, mask)
[docs] def updateLine(self, level, y0, x0, y1, x1, width, mask=True):
"""Mask/Unmask points inside a rectangle defined by a line (two
end points) and a width.
:param int level: Mask level to update.
:param float y0: Row of the starting point.
:param float x0: Column of the starting point.
:param float row1: Row of the end point.
:param float col1: Column of the end point.
:param float width: Width of the line.
:param bool mask: True to mask (default), False to unmask.
"""
# theta is the angle between the horizontal and the line
theta = math.atan((y1 - y0) / (x1 - x0)) if x1 - x0 else 0
w_over_2_sin_theta = width / 2. * math.sin(theta)
w_over_2_cos_theta = width / 2. * math.cos(theta)
vertices = [(y0 - w_over_2_cos_theta, x0 + w_over_2_sin_theta),
(y0 + w_over_2_cos_theta, x0 - w_over_2_sin_theta),
(y1 + w_over_2_cos_theta, x1 - w_over_2_sin_theta),
(y1 - w_over_2_cos_theta, x1 + w_over_2_sin_theta)]
self.updatePolygon(level, vertices, mask)
[docs]class ScatterMaskToolsWidget(BaseMaskToolsWidget):
"""Widget with tools for masking data points on a scatter in a
:class:`PlotWidget`."""
def __init__(self, parent=None, plot=None):
super(ScatterMaskToolsWidget, self).__init__(parent, plot,
mask=ScatterMask())
self._z = 2 # Mask layer in plot
self._data_scatter = None
"""plot Scatter item for data"""
self._mask_scatter = None
"""plot Scatter item for representing the mask"""
[docs] def setSelectionMask(self, mask, copy=True):
"""Set the mask to a new array.
:param numpy.ndarray mask: The array to use for the mask.
:type mask: numpy.ndarray of uint8, C-contiguous.
Array of other types are converted.
:param bool copy: True (the default) to copy the array,
False to use it as is if possible.
:return: None if failed, shape of mask as 1-tuple if successful.
The mask can be cropped or padded to fit active scatter,
the returned shape is that of the scatter data.
"""
mask = numpy.array(mask, copy=False, dtype=numpy.uint8)
if self._data_scatter.getXData(copy=False).shape == (0,) \
or mask.shape == self._data_scatter.getXData(copy=False).shape:
self._mask.setMask(mask, copy=copy)
self._mask.commit()
return mask.shape
else:
raise ValueError("Mask does not have the same shape as the data")
# Handle mask refresh on the plot
def _updatePlotMask(self):
"""Update mask image in plot"""
mask = self.getSelectionMask(copy=False)
if len(mask):
self.plot.addScatter(self._data_scatter.getXData(),
self._data_scatter.getYData(),
mask,
legend=self._maskName,
colormap=self._colormap,
z=self._z)
self._mask_scatter = self.plot._getItem(kind="scatter",
legend=self._maskName)
self._mask_scatter.setSymbolSize(
self._data_scatter.getSymbolSize() * 4.0
)
elif self.plot._getItem(kind="scatter",
legend=self._maskName) is not None:
self.plot.remove(self._maskName, kind='scatter')
# track widget visibility and plot active image changes
def showEvent(self, event):
try:
self.plot.sigActiveScatterChanged.disconnect(
self._activeScatterChangedAfterCare)
except (RuntimeError, TypeError):
pass
self._activeScatterChanged(None, None) # Init mask + enable/disable widget
self.plot.sigActiveScatterChanged.connect(self._activeScatterChanged)
def hideEvent(self, event):
self.plot.sigActiveScatterChanged.disconnect(self._activeScatterChanged)
if not self.browseAction.isChecked():
self.browseAction.trigger() # Disable drawing tool
if len(self.getSelectionMask(copy=False)):
self.plot.sigActiveScatterChanged.connect(
self._activeScatterChangedAfterCare)
def _activeScatterChangedAfterCare(self, previous, next):
"""Check synchro of active scatter and mask when mask widget is hidden.
If active image has no more the same size as the mask, the mask is
removed, otherwise it is adjusted to z.
"""
# check that content changed was the active scatter
activeScatter = self.plot._getActiveItem(kind="scatter")
if activeScatter is None or activeScatter.getLegend() == self._maskName:
# No active scatter or active scatter is the mask...
self.plot.sigActiveScatterChanged.disconnect(
self._activeScatterChangedAfterCare)
else:
colormap = activeScatter.getColormap()
self._defaultOverlayColor = rgba(cursorColorForColormap(colormap['name']))
self._setMaskColors(self.levelSpinBox.value(),
self.transparencySlider.value() /
self.transparencySlider.maximum())
self._z = activeScatter.getZValue() + 1
self._data_scatter = activeScatter
if self._data_scatter.getXData(copy=False).shape != self.getSelectionMask(copy=False).shape:
# scatter has not the same size, remove mask and stop listening
if self.plot._getItem(kind="scatter", legend=self._maskName):
self.plot.remove(self._maskName, kind='scatter')
self.plot.sigActiveScatterChanged.disconnect(
self._activeScatterChangedAfterCare)
else:
# Refresh in case z changed
self._mask.setDataItem(self._data_scatter)
self._updatePlotMask()
def _activeScatterChanged(self, previous, next):
"""Update widget and mask according to active scatter changes"""
activeScatter = self.plot._getActiveItem(kind="scatter")
if activeScatter is None or activeScatter.getLegend() == self._maskName:
# No active scatter or active scatter is the mask...
self.setEnabled(False)
self._data_scatter = None
self._mask.reset()
self._mask.commit()
else: # There is an active scatter
self.setEnabled(True)
colormap = activeScatter.getColormap()
self._defaultOverlayColor = rgba(cursorColorForColormap(colormap['name']))
self._setMaskColors(self.levelSpinBox.value(),
self.transparencySlider.value() /
self.transparencySlider.maximum())
self._z = activeScatter.getZValue() + 1
self._data_scatter = activeScatter
self._mask.setDataItem(self._data_scatter)
if self._data_scatter.getXData(copy=False).shape != self.getSelectionMask(copy=False).shape:
self._mask.reset(self._data_scatter.getXData(copy=False).shape)
self._mask.commit()
else:
# Refresh in case z changed
self._updatePlotMask()
self._updateInteractiveMode()
# Handle whole mask operations
[docs] def load(self, filename):
"""Load a mask from an image file.
:param str filename: File name from which to load the mask
:raise Exception: An exception in case of failure
:raise RuntimeWarning: In case the mask was applied but with some
import changes to notice
"""
_, extension = os.path.splitext(filename)
extension = extension.lower()[1:]
if extension == "npy":
try:
mask = numpy.load(filename)
except IOError:
_logger.error("Can't load filename '%s'", filename)
_logger.debug("Backtrace", exc_info=True)
raise RuntimeError('File "%s" is not a numpy file.',
filename)
elif extension in ["txt", "csv"]:
try:
mask = numpy.loadtxt(filename)
except IOError:
_logger.error("Can't load filename '%s'", filename)
_logger.debug("Backtrace", exc_info=True)
raise RuntimeError('File "%s" is not a numpy txt file.',
filename)
else:
msg = "Extension '%s' is not supported."
raise RuntimeError(msg % extension)
self.setSelectionMask(mask, copy=False)
def _loadMask(self):
"""Open load mask dialog"""
dialog = qt.QFileDialog(self)
dialog.setWindowTitle("Load Mask")
dialog.setModal(1)
filters = [
'NumPy binary file (*.npy)',
'CSV text file (*.csv)',
]
dialog.setNameFilters(filters)
dialog.setFileMode(qt.QFileDialog.ExistingFile)
dialog.setDirectory(self.maskFileDir)
if not dialog.exec_():
dialog.close()
return
filename = dialog.selectedFiles()[0]
dialog.close()
self.maskFileDir = os.path.dirname(filename)
try:
self.load(filename)
# except RuntimeWarning as e:
# message = e.args[0]
# msg = qt.QMessageBox(self)
# msg.setIcon(qt.QMessageBox.Warning)
# msg.setText("Mask loaded but an operation was applied.\n" + message)
# msg.exec_()
except Exception as e:
message = e.args[0]
msg = qt.QMessageBox(self)
msg.setIcon(qt.QMessageBox.Critical)
msg.setText("Cannot load mask from file. " + message)
msg.exec_()
def _saveMask(self):
"""Open Save mask dialog"""
dialog = qt.QFileDialog(self)
dialog.setWindowTitle("Save Mask")
dialog.setModal(1)
filters = [
'NumPy binary file (*.npy)',
'CSV text file (*.csv)',
]
dialog.setNameFilters(filters)
dialog.setFileMode(qt.QFileDialog.AnyFile)
dialog.setAcceptMode(qt.QFileDialog.AcceptSave)
dialog.setDirectory(self.maskFileDir)
if not dialog.exec_():
dialog.close()
return
# convert filter name to extension name with the .
extension = dialog.selectedNameFilter().split()[-1][2:-1]
filename = dialog.selectedFiles()[0]
dialog.close()
if not filename.lower().endswith(extension):
filename += extension
if os.path.exists(filename):
try:
os.remove(filename)
except IOError:
msg = qt.QMessageBox(self)
msg.setIcon(qt.QMessageBox.Critical)
msg.setText("Cannot save.\n"
"Input Output Error: %s" % (sys.exc_info()[1]))
msg.exec_()
return
self.maskFileDir = os.path.dirname(filename)
try:
self.save(filename, extension[1:])
except Exception as e:
msg = qt.QMessageBox(self)
msg.setIcon(qt.QMessageBox.Critical)
msg.setText("Cannot save file %s\n%s" % (filename, e.args[0]))
msg.exec_()
[docs] def resetSelectionMask(self):
"""Reset the mask"""
self._mask.reset(
shape=self._data_scatter.getXData(copy=False).shape)
self._mask.commit()
def _plotDrawEvent(self, event):
"""Handle draw events from the plot"""
if (self._drawingMode is None or
event['event'] not in ('drawingProgress', 'drawingFinished')):
return
if not len(self._data_scatter.getXData(copy=False)):
return
level = self.levelSpinBox.value()
if (self._drawingMode == 'rectangle' and
event['event'] == 'drawingFinished'):
doMask = self._isMasking()
self._mask.updateRectangle(
level,
y=event['y'],
x=event['x'],
height=abs(event['height']),
width=abs(event['width']),
mask=doMask)
self._mask.commit()
elif (self._drawingMode == 'polygon' and
event['event'] == 'drawingFinished'):
doMask = self._isMasking()
vertices = event['points']
vertices = vertices.astype(numpy.int)[:, (1, 0)] # (y, x)
self._mask.updatePolygon(level, vertices, doMask)
self._mask.commit()
elif self._drawingMode == 'pencil':
doMask = self._isMasking()
# convert from plot to array coords
x, y = event['points'][-1]
brushSize = self.pencilSpinBox.value()
if self._lastPencilPos != (y, x):
if self._lastPencilPos is not None:
# Draw the line
self._mask.updateLine(
level,
self._lastPencilPos[0], self._lastPencilPos[1],
y, x,
brushSize,
doMask)
# Draw the very first, or last point
self._mask.updateDisk(level, y, x, brushSize / 2., doMask)
if event['event'] == 'drawingFinished':
self._mask.commit()
self._lastPencilPos = None
else:
self._lastPencilPos = y, x
def _loadRangeFromColormapTriggered(self):
"""Set range from active scatter colormap range"""
if self._data_scatter is not None:
# Update thresholds according to colormap
colormap = self._data_scatter.getColormap()
if colormap['autoscale']:
min_ = numpy.nanmin(self._data_scatter.getValueData(copy=False))
max_ = numpy.nanmax(self._data_scatter.getValueData(copy=False))
else:
min_, max_ = colormap['vmin'], colormap['vmax']
self.minLineEdit.setText(str(min_))
self.maxLineEdit.setText(str(max_))
[docs]class ScatterMaskToolsDockWidget(BaseMaskToolsDockWidget):
""":class:`ScatterMaskToolsWidget` embedded in a QDockWidget.
For integration in a :class:`PlotWindow`.
:param parent: See :class:`QDockWidget`
:param plot: The PlotWidget this widget is operating on
:paran str name: The title of this widget
"""
def __init__(self, parent=None, plot=None, name='Mask'):
widget = ScatterMaskToolsWidget(plot=plot)
super(ScatterMaskToolsDockWidget, self).__init__(parent, name, widget)