def init_ui(self):
self.setStatusTip("Click points on the 4D volume to see data curve")
vbox = QtGui.QVBoxLayout()
self.setLayout(vbox)
title = TitleWidget(self, "Multi-Voxel Visualisation", help="curve_compare", batch_btn=False)
vbox.addWidget(title)
self.plot = Plot(clear_btn=True)
self.plot.clear_btn.clicked.connect(self._clear)
self.plot.options.sig_options_changed.connect(self._options_changed)
vbox.addWidget(self.plot)
self.options = OptionBox("Options")
self.options.add("Data set", DataOption(self.ivm, include_3d=False), key="data")
col_names = [text for text in self.colors]
cols = [col for text, col in self.colors.items()]
self.options.add("Plot colour", ChoiceOption(col_names, cols, default="red"), key="col")
self.options.add("Show individual curves", BoolOption(default=True), key="indiv")
self.options.add("Show mean curve", BoolOption(), key="mean")
self.options.option("data").sig_changed.connect(self._data_changed)
self.options.option("indiv").sig_changed.connect(self._indiv_changed)
self.options.option("mean").sig_changed.connect(self._mean_changed)
self.options.option("col").sig_changed.connect(self._col_changed)
hbox = QtGui.QHBoxLayout()
hbox.addWidget(self.options)
hbox.addStretch()
vbox.addLayout(hbox)
vbox.addStretch(1)
self._options_changed()
def init_ui(self):
vbox = QtGui.QVBoxLayout()
self.setLayout(vbox)
title = TitleWidget(self)
vbox.addWidget(title)
self.options = OptionBox("Options")
self.options.add("Data", DataOption(self.ivm, multi=True), key="data")
self.options.add("Within ROI", DataOption(self.ivm, data=False, rois=True, none_option=True), key="roi")
self.options.add("All volumes", BoolOption(default=False), key="allvols")
self.options.add("Y-axis scale", ChoiceOption(["Count", "Probability"]), key="yscale")
self.options.add("Number of bins", NumericOption(minval=5, maxval=500, default=100, intonly=True), key="bins")
self.options.add("Min value", NumericOption(minval=0, maxval=100, default=0), key="min")
self.options.add("Max value", NumericOption(minval=0, maxval=500, default=100), key="max")
self.options.option("yscale").sig_changed.connect(self._yscale_changed)
self.options.option("min").sig_changed.connect(self._min_changed)
self.options.option("min").sig_changed.connect(self._max_changed)
vbox.addWidget(self.options)
self.plot = Plot(qpo=None, parent=self, title="Data histogram", display_mode=False)
self.plot.set_xlabel("Data value")
self.plot.set_ylabel("Count")
vbox.addWidget(self.plot)
vbox.addStretch(1)
def init_ui(self):
vbox = QtGui.QVBoxLayout()
self.setLayout(vbox)
title = TitleWidget(self)
vbox.addWidget(title)
self._options = OptionBox("Options")
self._options.add("Signal data", DataOption(self.ivm), key="data")
self._clear_btn = QtGui.QPushButton("Clear points")
self._options.add("Method", ChoiceOption(["Pick points", "Use existing ROI"], ["points", "roi"]), self._clear_btn, key="method")
self._options.add("ROI", DataOption(self.ivm, data=False, rois=True), key="roi")
self._view_btn = QtGui.QPushButton("View")
self._view_btn.setEnabled(False)
self._save_btn = QtGui.QPushButton("Save")
self._save_btn.setEnabled(False)
self._options.add("AIF name", TextOption("aif"), self._view_btn, self._save_btn, key="output-name")
self._options.option("method").sig_changed.connect(self._method_changed)
self._options.option("data").sig_changed.connect(self._recalc_aif)
self._options.option("roi").sig_changed.connect(self._recalc_aif)
self._clear_btn.clicked.connect(self._clear_btn_clicked)
self._save_btn.clicked.connect(self._save_btn_clicked)
self._view_btn.clicked.connect(self._view_btn_clicked)
vbox.addWidget(self._options)
self._plot = Plot(qpo=None, parent=self, title="AIF", display_mode=False)
self._plot.set_xlabel("Volume")
self._plot.set_ylabel("Signal")
vbox.addWidget(self._plot)
vbox.addStretch(1)
def init_ui(self):
main_vbox = QtGui.QVBoxLayout()
self.setLayout(main_vbox)
title = TitleWidget(self,
title="Voxel analysis",
help="modelfit",
batch_btn=False)
main_vbox.addWidget(title)
self.plot = Plot(twoaxis=True)
main_vbox.addWidget(self.plot)
tabs = QtGui.QTabWidget()
main_vbox.addWidget(tabs)
# Table showing RMS deviation
self.rms_table = QtGui.QStandardItemModel()
self.rms_table.itemChanged.connect(self._data_table_changed)
tview = QtGui.QTableView()
tview.setModel(self.rms_table)
tview.horizontalHeader().setResizeMode(
QtGui.QHeaderView.ResizeToContents)
tabs.addTab(tview, "Timeseries data")
# Table showing value of model parameters
self.values_table = QtGui.QStandardItemModel()
tview = QtGui.QTableView()
tview.setModel(self.values_table)
tview.horizontalHeader().setResizeMode(
QtGui.QHeaderView.ResizeToContents)
tabs.addTab(tview, 'Non-timeseries data')
def init_ui(self):
vbox = QtGui.QVBoxLayout()
self.setLayout(vbox)
title = TitleWidget(self)
vbox.addWidget(title)
self.options = OptionBox("Options")
self.options.add("Data", DataOption(self.ivm, multi=True), key="data")
self.options.add("Within ROI",
DataOption(self.ivm,
data=False,
rois=True,
none_option=True),
key="roi")
self.options.add("All volumes",
BoolOption(default=False),
key="allvols")
self.options.add("Number of bins",
NumericOption(minval=5,
maxval=250,
default=50,
intonly=True),
key="bins")
vbox.addWidget(self.options)
self.plot = Plot(qpo=None,
parent=self,
title="Radial profile",
display_mode=False)
self.plot.set_xlabel("Distance (mm)")
self.plot.set_ylabel("Mean data value")
vbox.addWidget(self.plot)
vbox.addStretch(1)
def init_ui(self):
vbox = QtGui.QVBoxLayout()
self.setLayout(vbox)
title = TitleWidget(
self,
title="PCA reduction",
subtitle="Principal Component Analysis for 4D data")
vbox.addWidget(title)
self._options = OptionBox("Options")
self._options.add("Data",
DataOption(self.ivm, include_3d=False),
key="data")
self._options.add("ROI",
DataOption(self.ivm, data=False, rois=True),
key="roi")
self._options.add("Number of components",
NumericOption(minval=1, intonly=True, default=4),
key="n-components")
self._options.add("Output name",
OutputNameOption(
src_data=self._options.option("data"),
suffix="_pca"),
key="output-name")
self._options.option("data").sig_changed.connect(self._data_changed)
vbox.addWidget(self._options)
self._run = RunWidget(self)
self._run.sig_postrun.connect(self._postrun)
vbox.addWidget(self._run)
self.plot = Plot(qpo=None, parent=self, title="PCA modes")
self.variance_model = QtGui.QStandardItemModel()
variance_table = QtGui.QTableView()
variance_table.verticalHeader().hide()
variance_table.setModel(self.variance_model)
tabs = QtGui.QTabWidget()
tabs.addTab(self.plot, "PCA modes")
tabs.addTab(variance_table, "Explained variance")
tabs.setCurrentWidget(self.plot)
vbox.addWidget(tabs)
vbox.addStretch(1)
self._data_changed()
def init_ui(self):
main_vbox = QtGui.QVBoxLayout()
self.setLayout(main_vbox)
title = TitleWidget(self, title="Voxel analysis", help="modelfit", batch_btn=False)
main_vbox.addWidget(title)
self.plot = Plot(twoaxis=True)
main_vbox.addWidget(self.plot)
hbox = QtGui.QHBoxLayout()
# Table showing RMS deviation
rms_box = QtGui.QGroupBox()
rms_box.setTitle('Timeseries data')
vbox = QtGui.QVBoxLayout()
self.rms_table = QtGui.QStandardItemModel()
self.rms_table.itemChanged.connect(self._data_table_changed)
tview = QtGui.QTableView()
tview.resizeColumnsToContents()
tview.setModel(self.rms_table)
vbox.addWidget(tview)
rms_box.setLayout(vbox)
hbox.addWidget(rms_box)
# Table showing value of model parameters
params_box = QtGui.QGroupBox()
params_box.setTitle('Non-timeseries data')
vbox2 = QtGui.QVBoxLayout()
self.values_table = QtGui.QStandardItemModel()
tview = QtGui.QTableView()
tview.resizeColumnsToContents()
tview.setModel(self.values_table)
vbox2.addWidget(tview)
params_box.setLayout(vbox2)
hbox.addWidget(params_box)
main_vbox.addLayout(hbox)
class HistogramWidget(QpWidget):
"""
Widget which displays data histograms
"""
def __init__(self, **kwargs):
super(HistogramWidget, self).__init__(name="Histogram", icon="hist",
desc="Display histograms from data", group="Visualisation", **kwargs)
self._updating = False
def init_ui(self):
vbox = QtGui.QVBoxLayout()
self.setLayout(vbox)
title = TitleWidget(self)
vbox.addWidget(title)
self.options = OptionBox("Options")
self.options.add("Data", DataOption(self.ivm, multi=True), key="data")
self.options.add("Within ROI", DataOption(self.ivm, data=False, rois=True, none_option=True), key="roi")
self.options.add("All volumes", BoolOption(default=False), key="allvols")
self.options.add("Y-axis scale", ChoiceOption(["Count", "Probability"]), key="yscale")
self.options.add("Number of bins", NumericOption(minval=5, maxval=500, default=100, intonly=True), key="bins")
self.options.add("Min value", NumericOption(minval=0, maxval=100, default=0), key="min")
self.options.add("Max value", NumericOption(minval=0, maxval=500, default=100), key="max")
self.options.option("yscale").sig_changed.connect(self._yscale_changed)
self.options.option("min").sig_changed.connect(self._min_changed)
self.options.option("min").sig_changed.connect(self._max_changed)
vbox.addWidget(self.options)
self.plot = Plot(qpo=None, parent=self, title="Data histogram", display_mode=False)
self.plot.set_xlabel("Data value")
self.plot.set_ylabel("Count")
vbox.addWidget(self.plot)
vbox.addStretch(1)
def activate(self):
self.ivm.sig_all_data.connect(self._data_changed)
self.options.option("data").sig_changed.connect(self._data_changed)
self.options.sig_changed.connect(self._update)
self._data_changed()
def deactivate(self):
self.ivm.sig_all_data.disconnect(self._data_changed)
self.options.option("data").sig_changed.disconnect(self._data_changed)
self.options.sig_changed.disconnect(self._update)
def processes(self):
opts = self.options.values()
if not opts.pop("allvols", False):
opts["vol"] = self.ivl.focus()[3]
return {
"Histogram" : opts
}
def _yscale_changed(self):
self.plot.set_ylabel(self.options.option("yscale").value)
def _min_changed(self):
minval = self.options.option("min").value
self.options.option("max").setLimits(minval=minval)
def _max_changed(self):
maxval = self.options.option("max").value
self.options.option("min").setLimits(maxval=maxval)
def _data_changed(self):
if self._updating: return
self._updating = True
try:
data_names = self.options.option("data").value
vol = None
if self.options.option("allvols").value:
vol = self.ivl.focus()[3]
dmin, dmax, multivol = None, None, False
for data_name in data_names:
qpdata = self.ivm.data[data_name]
multivol = multivol or qpdata.nvols > 1
_dmin, _dmax = qpdata.range(vol=vol)
if dmin is None or dmin > _dmin:
dmin = _dmin
if dmax is None or dmax > dmax:
dmax = _dmax
if dmin is not None and dmax is not None:
self.options.option("min").value = dmin
self.options.option("min").setLimits(dmin, dmax)
self.options.option("max").value = dmax
self.options.option("max").setLimits(dmin, dmax)
self.options.set_visible("allvols", multivol)
self._update()
finally:
self._updating = False
def _update(self):
opts = self.processes()["Histogram"]
if opts["data"]:
HistogramProcess(self.ivm).run(opts)
self.plot.clear()
histogram = self.ivm.extras.get("histogram", None)
if histogram is not None:
for idx, name in enumerate(histogram.col_headers[3:]):
xvalues = [row[2] for row in histogram.arr]
yvalues = [row[idx+3] for row in histogram.arr]
self.plot.add_line(yvalues, name=name, xvalues=xvalues)
class PcaWidget(QpWidget):
"""
PCA widget
"""
def __init__(self, **kwargs):
super(PcaWidget, self).__init__(name="PCA",
icon="pca",
desc="PCA reduction",
group="Processing",
**kwargs)
def init_ui(self):
vbox = QtGui.QVBoxLayout()
self.setLayout(vbox)
title = TitleWidget(
self,
title="PCA reduction",
subtitle="Principal Component Analysis for 4D data")
vbox.addWidget(title)
self._options = OptionBox("Options")
self._options.add("Data",
DataOption(self.ivm, include_3d=False),
key="data")
self._options.add("ROI",
DataOption(self.ivm, data=False, rois=True),
key="roi")
self._options.add("Number of components",
NumericOption(minval=1, intonly=True, default=4),
key="n-components")
self._options.add("Output name",
OutputNameOption(
src_data=self._options.option("data"),
suffix="_pca"),
key="output-name")
self._options.option("data").sig_changed.connect(self._data_changed)
vbox.addWidget(self._options)
self._run = RunWidget(self)
self._run.sig_postrun.connect(self._postrun)
vbox.addWidget(self._run)
self.plot = Plot(qpo=None, parent=self, title="PCA modes")
self.variance_model = QtGui.QStandardItemModel()
variance_table = QtGui.QTableView()
variance_table.verticalHeader().hide()
variance_table.setModel(self.variance_model)
tabs = QtGui.QTabWidget()
tabs.addTab(self.plot, "PCA modes")
tabs.addTab(variance_table, "Explained variance")
tabs.setCurrentWidget(self.plot)
vbox.addWidget(tabs)
vbox.addStretch(1)
self._data_changed()
def processes(self):
return {"PCA": self._options.values()}
def _data_changed(self):
self._run.setEnabled(
self._options.option("data").value in self.ivm.data)
def _postrun(self):
self._update_plot()
self._update_table()
def _update_plot(self):
self.plot.clear()
extra = self.ivm.extras.get(
self._options.option("output-name").value + "_modes", None)
if extra is not None:
arr = np.array(extra.arr)
for idx in range(arr.shape[1] - 1):
self.plot.add_line(arr[:, idx], name="Mode %i" % idx)
self.plot.add_line(arr[:, -1],
name="Mean",
line_col=(255, 0, 0),
line_width=3.0)
def _update_table(self):
self.variance_model.clear()
extra = self.ivm.extras.get(
self._options.option("output-name").value + "_variance", None)
if extra is not None:
self.debug(str(extra))
for idx, header in enumerate(extra.col_headers):
self.variance_model.setHorizontalHeaderItem(
idx, QtGui.QStandardItem(header))
for idx, variance in enumerate(extra.arr):
self.variance_model.setItem(
idx, 0, QtGui.QStandardItem(str(variance[0])))
self.variance_model.setItem(
idx, 1, QtGui.QStandardItem(sf(variance[1])))
self.variance_model.setItem(
idx, 2, QtGui.QStandardItem(sf(variance[2])))
class AifWidget(QpWidget):
"""
Widget which allows the user to define an arterial input function from signal data
"""
def __init__(self, **kwargs):
super(AifWidget, self).__init__(name="Arterial Input Function", icon="aif",
desc="Tool for defining an AIF from measured data", group="Utilities", **kwargs)
self._aif = []
self._aif_points = []
def init_ui(self):
vbox = QtGui.QVBoxLayout()
self.setLayout(vbox)
title = TitleWidget(self)
vbox.addWidget(title)
self._options = OptionBox("Options")
self._options.add("Signal data", DataOption(self.ivm), key="data")
self._clear_btn = QtGui.QPushButton("Clear points")
self._options.add("Method", ChoiceOption(["Pick points", "Use existing ROI"], ["points", "roi"]), self._clear_btn, key="method")
self._options.add("ROI", DataOption(self.ivm, data=False, rois=True), key="roi")
self._view_btn = QtGui.QPushButton("View")
self._view_btn.setEnabled(False)
self._save_btn = QtGui.QPushButton("Save")
self._save_btn.setEnabled(False)
self._options.add("AIF name", TextOption("aif"), self._view_btn, self._save_btn, key="output-name")
self._options.option("method").sig_changed.connect(self._method_changed)
self._options.option("data").sig_changed.connect(self._recalc_aif)
self._options.option("roi").sig_changed.connect(self._recalc_aif)
self._clear_btn.clicked.connect(self._clear_btn_clicked)
self._save_btn.clicked.connect(self._save_btn_clicked)
self._view_btn.clicked.connect(self._view_btn_clicked)
vbox.addWidget(self._options)
self._plot = Plot(qpo=None, parent=self, title="AIF", display_mode=False)
self._plot.set_xlabel("Volume")
self._plot.set_ylabel("Signal")
vbox.addWidget(self._plot)
vbox.addStretch(1)
def activate(self):
self.ivl.sig_selection_changed.connect(self._selection_changed)
self._method_changed()
def deactivate(self):
self.ivl.sig_selection_changed.disconnect(self._selection_changed)
self.ivl.set_picker(PickMode.SINGLE)
@property
def qpdata(self):
return self.ivm.data.get(self._options.option("data").value, None)
@property
def roi(self):
return self.ivm.data.get(self._options.option("roi").value, None)
@property
def method(self):
return self._options.option("method").value
def _method_changed(self):
self._options.set_visible("roi", self.method == "roi")
self._clear_btn.setVisible(self.method == "points")
if self.method == "roi":
self.ivl.set_picker(PickMode.SINGLE)
else:
self.ivl.set_picker(PickMode.MULTIPLE)
self._selection_changed()
self._recalc_aif()
def _clear_btn_clicked(self):
if self.method == "points":
self.ivl.set_picker(PickMode.MULTIPLE)
self._selection_changed() # FIXME should be signalled by picker
def _save_btn_clicked(self):
name = self._options.option("output-name").value
extra = NumberListExtra(name, self._aif)
self.ivm.add_extra(name, extra)
self._save_btn.setEnabled(False)
def _view_btn_clicked(self):
aiftxt = ", ".join([str(v) for v in self._aif])
TextViewerDialog(self, title="AIF data", text=aiftxt).exec_()
def _selection_changed(self):
if self.method == "roi":
return
self._aif_points = []
for _col, points in self.ivl.picker.selection().items():
self._aif_points += list(points)
self._recalc_aif()
def _recalc_aif(self):
self._aif = []
self._save_btn.setEnabled(True)
self._view_btn.setEnabled(True)
if self.qpdata is not None:
if self.method == "roi":
self._calc_aif_roi()
else:
self._calc_aif_points()
self._update_plot()
def _calc_aif_roi(self):
if self.roi is None:
return
points = self.qpdata.raw()[self.roi.raw() > 0]
if len(points) > 0:
aif = None
for sig in points:
if aif is None:
aif = np.zeros([len(sig)], dtype=np.float32)
aif += sig
self._aif = aif / len(points)
def _calc_aif_points(self):
aif = None
num_points = 0
for point in self._aif_points:
sig = self.qpdata.timeseries(point, grid=self.ivl.grid)
self.debug("AIF signal: %s", sig)
if aif is None:
aif = np.zeros([len(sig)], dtype=np.float32)
aif += sig
num_points += 1
if num_points > 0:
self._aif = aif / num_points
def _update_plot(self):
self._plot.clear()
self._plot.add_line(self._aif, name="AIF")
class VoxelAnalysis(QpWidget):
"""
View original data and generated signal curves side by side
"""
def __init__(self, **kwargs):
super(VoxelAnalysis, self).__init__(name="Voxel analysis", desc="Display data at a voxel",
icon="curve_view", group="DEFAULT", **kwargs)
self.data_enabled = {}
self.updating = False
def init_ui(self):
main_vbox = QtGui.QVBoxLayout()
self.setLayout(main_vbox)
title = TitleWidget(self, title="Voxel analysis", help="modelfit", batch_btn=False)
main_vbox.addWidget(title)
self.plot = Plot(twoaxis=True)
main_vbox.addWidget(self.plot)
hbox = QtGui.QHBoxLayout()
# Table showing RMS deviation
rms_box = QtGui.QGroupBox()
rms_box.setTitle('Timeseries data')
vbox = QtGui.QVBoxLayout()
self.rms_table = QtGui.QStandardItemModel()
self.rms_table.itemChanged.connect(self._data_table_changed)
tview = QtGui.QTableView()
tview.resizeColumnsToContents()
tview.setModel(self.rms_table)
vbox.addWidget(tview)
rms_box.setLayout(vbox)
hbox.addWidget(rms_box)
# Table showing value of model parameters
params_box = QtGui.QGroupBox()
params_box.setTitle('Non-timeseries data')
vbox2 = QtGui.QVBoxLayout()
self.values_table = QtGui.QStandardItemModel()
tview = QtGui.QTableView()
tview.resizeColumnsToContents()
tview.setModel(self.values_table)
vbox2.addWidget(tview)
params_box.setLayout(vbox2)
hbox.addWidget(params_box)
main_vbox.addLayout(hbox)
def activate(self):
self.ivm.sig_all_data.connect(self._update)
self.ivl.sig_focus_changed.connect(self._update)
self._update()
def deactivate(self):
self.ivm.sig_all_data.disconnect(self._update)
self.ivl.sig_focus_changed.disconnect(self._update)
def _update(self, pos=None):
self._update_table()
self._update_rms_table()
self._plot()
def _update_table(self):
"""
Set the data parameter values in the table based on the current point clicked
"""
self.values_table.clear()
self.values_table.setHorizontalHeaderItem(0, QtGui.QStandardItem("Value"))
data_vals = self.ivm.values(self.ivl.focus(), self.ivl.grid)
for ii, ovl in enumerate(sorted(data_vals.keys())):
if self.ivm.data[ovl].ndim == 3:
self.values_table.setVerticalHeaderItem(ii, QtGui.QStandardItem(ovl))
self.values_table.setItem(ii, 0, QtGui.QStandardItem(sf(data_vals[ovl])))
def _update_rms_table(self):
try:
self.updating = True # Hack to prevent plot being refreshed during table update
self.rms_table.clear()
self.rms_table.setHorizontalHeaderItem(0, QtGui.QStandardItem("Name"))
self.rms_table.setHorizontalHeaderItem(1, QtGui.QStandardItem("RMS (Position)"))
idx = 0
pos = self.ivl.focus()
sigs = self.ivm.timeseries(pos, self.ivl.grid)
max_length = max([0,] + [len(sig) for sig in sigs.values()])
if not self.ivm.main:
return
main_curve = self.ivm.main.timeseries(pos, grid=self.ivl.grid)
main_curve.extend([0] * max_length)
main_curve = main_curve[:max_length]
for name in sorted(sigs.keys()):
# Make sure data curve is correct length
data_curve = sigs[name]
data_curve.extend([0] * max_length)
data_curve = data_curve[:max_length]
data_rms = np.sqrt(np.mean(np.square([v1-v2 for v1, v2 in zip(main_curve, data_curve)])))
name_item = QtGui.QStandardItem(name)
name_item.setCheckable(True)
name_item.setEditable(False)
if name not in self.data_enabled:
self.data_enabled[name] = QtCore.Qt.Checked
name_item.setCheckState(self.data_enabled[name])
self.rms_table.setItem(idx, 0, name_item)
item = QtGui.QStandardItem(sf(data_rms))
item.setEditable(False)
self.rms_table.setItem(idx, 1, item)
idx += 1
finally:
self.updating = False
def _data_table_changed(self, item):
if not self.updating:
# A checkbox has been toggled
self.data_enabled[item.text()] = item.checkState()
self._plot()
def _plot(self):
"""
Regenerate the plot
"""
self.plot.clear()
# Get all timeseries signals
pos = self.ivl.focus()
sigs = self.ivm.timeseries(pos, self.ivl.grid)
if not sigs:
return
# Get x scale
self.plot.set_xlabel("Volume")
# Set y labels
#axis_labels = {0 : "Signal", 1 : "Signal enhancement", 2 : "Signal"}
#self.plot.setLabel('left', axis_labels[self.plot_opts.mode])
#if self.plot_opts.mode == 2:
# self.plot.showAxis('right')
# self.plot.getAxis('right').setLabel('Residual')
#else:
# self.plot.hideAxis('right')
#if not self.ivm.main:
# return
#main_curve = self.ivm.main.timeseries(pos, grid=self.ivl.grid)
idx, _ = 0, len(sigs)
for ovl, sig_values in sigs.items():
if self.data_enabled[ovl] == QtCore.Qt.Checked:
col = get_kelly_col(idx)
#if self.plot_opts.mode == 2 and ovl != self.ivm.main.name:
# # Show residuals on the right hand axis
# resid_values = [v1 - v2 for v1, v2 in zip(sig_values, main_curve)]
# self.plot_rightaxis.addItem(pg.PlotCurveItem(resid_values, pen=pg.mkPen(pen, style=QtCore.Qt.DashLine)))
self.plot.add_line(sig_values, name=ovl, line_col=col, point_brush=(200, 200, 200), point_col='k', point_size=5.0)
idx += 1
class MultiVoxelAnalysis(QpWidget):
"""
Plots timeseries for multiple selected points
"""
def __init__(self, **kwargs):
super(MultiVoxelAnalysis, self).__init__(name="Multi-Voxel", icon="voxel", desc="Compare signal curves at different voxels", group="Visualisation", position=2, **kwargs)
self.activated = False
self.colors = {'grey':(200, 200, 200), 'red':(255, 0, 0), 'green':(0, 255, 0), 'blue':(0, 0, 255),
'orange':(255, 140, 0), 'cyan':(0, 255, 255), 'brown':(139, 69, 19)}
self.col = self.colors["red"]
self.plots = {}
self.mean_plots = {}
def init_ui(self):
self.setStatusTip("Click points on the 4D volume to see data curve")
vbox = QtGui.QVBoxLayout()
self.setLayout(vbox)
title = TitleWidget(self, "Multi-Voxel Visualisation", help="curve_compare", batch_btn=False)
vbox.addWidget(title)
self.plot = Plot(clear_btn=True)
self.plot.clear_btn.clicked.connect(self._clear)
self.plot.options.sig_options_changed.connect(self._options_changed)
vbox.addWidget(self.plot)
self.options = OptionBox("Options")
self.options.add("Data set", DataOption(self.ivm, include_3d=False), key="data")
col_names = [text for text in self.colors]
cols = [col for text, col in self.colors.items()]
self.options.add("Plot colour", ChoiceOption(col_names, cols, default="red"), key="col")
self.options.add("Show individual curves", BoolOption(default=True), key="indiv")
self.options.add("Show mean curve", BoolOption(), key="mean")
self.options.option("data").sig_changed.connect(self._data_changed)
self.options.option("indiv").sig_changed.connect(self._indiv_changed)
self.options.option("mean").sig_changed.connect(self._mean_changed)
self.options.option("col").sig_changed.connect(self._col_changed)
hbox = QtGui.QHBoxLayout()
hbox.addWidget(self.options)
hbox.addStretch()
vbox.addLayout(hbox)
vbox.addStretch(1)
self._options_changed()
def activate(self):
self.ivl.sig_selection_changed.connect(self._selection_changed)
self.ivl.set_picker(PickMode.MULTIPLE)
self.activated = True
def deactivate(self):
self.ivl.sig_selection_changed.disconnect(self._selection_changed)
self.ivl.set_picker(PickMode.SINGLE)
def _options_changed(self):
if self.plot.options.sig_enh:
self.plot.set_ylabel("Signal enhancement")
else:
self.plot.set_ylabel("Signal")
def _data_changed(self):
self._clear()
data_name = self.options.option("data").value
if data_name in self.ivm.data:
# FIXME not clear whether to use metadata
#data = self.ivm.data[data_name]
#xlabel = data.metadata.get("vol_scale", "Volume")
#xunits = data.metadata.get("vol_units", "")
#if xunits:
# xlabel = "%s (%s)" % (xlabel, xunits)
self.plot.set_xlabel("Volume")
def _indiv_changed(self):
show_indiv = self.options.option("indiv").value
for plt in self.plots.values():
if show_indiv:
plt.show()
else:
plt.hide()
def _mean_changed(self):
show_mean = self.options.option("mean").value
if show_mean:
self._update_means()
for plt in self.mean_plots.values():
plt.show()
else:
for plt in self.mean_plots.values():
plt.hide()
def _clear(self):
"""
Clear point data
"""
self.plot.clear()
self.plots, self.mean_plots = {}, {}
# Reset the list of picked points
self.ivl.set_picker(PickMode.MULTIPLE)
self.ivl.picker.col = self.col
def _add_point(self, point, col):
"""
Add a selected point of the specified colour
"""
data_name = self.options.option("data").value
if data_name in self.ivm.data:
data = self.ivm.data[data_name]
sig = data.timeseries(point, grid=self.ivl.grid)
if point in self.plots:
self.plot.remove(self.plots[point])
self.plots[point] = self.plot.add_line(sig, line_col=col)
if not self.options.option("indiv").value:
self.plots[point].hide()
self._update_means()
def _update_means(self):
for col in self.colors.values():
if col in self.mean_plots:
self.plot.remove(self.mean_plots[col])
del self.mean_plots[col]
all_plts = [plt for plt in self.plots.values() if plt.line_col == col]
if all_plts:
mean_values = np.stack([plt.yvalues for plt in all_plts], axis=1)
mean_values = np.squeeze(np.mean(mean_values, axis=1))
self.mean_plots[col] = self.plot.add_line(mean_values, line_col=col, line_style=QtCore.Qt.DashLine, point_brush=col, point_col='k', point_size=10)
if not self.options.option("mean").value:
self.mean_plots[col].hide()
def _selection_changed(self, picker):
"""
Point selection changed
"""
# Add plots for points in the selection which we haven't plotted (or which have changed colour)
allpoints = []
for col, points in picker.selection().items():
points = [tuple([int(p+0.5) for p in pos]) for pos in points]
allpoints += points
for point in points:
if point not in self.plots or self.plots[point].line_col != col:
self._add_point(point, col)
# Remove plots for points no longer in the selection
for point in list(self.plots.keys()):
if point not in allpoints:
self.plots[point].hide()
del self.plots[point]
def _col_changed(self):
self.col = self.options.option("col").value
self.ivl.picker.col = self.col
class RadialProfileWidget(QpWidget):
"""
Widget which displays radial profile of data
"""
def __init__(self, **kwargs):
super(RadialProfileWidget,
self).__init__(name="Radial profile",
icon="rp",
desc="Display radial profile of data",
group="Visualisation",
**kwargs)
self._updating = False
def init_ui(self):
vbox = QtGui.QVBoxLayout()
self.setLayout(vbox)
title = TitleWidget(self)
vbox.addWidget(title)
self.options = OptionBox("Options")
self.options.add("Data", DataOption(self.ivm, multi=True), key="data")
self.options.add("Within ROI",
DataOption(self.ivm,
data=False,
rois=True,
none_option=True),
key="roi")
self.options.add("All volumes",
BoolOption(default=False),
key="allvols")
self.options.add("Number of bins",
NumericOption(minval=5,
maxval=250,
default=50,
intonly=True),
key="bins")
vbox.addWidget(self.options)
self.plot = Plot(qpo=None,
parent=self,
title="Radial profile",
display_mode=False)
self.plot.set_xlabel("Distance (mm)")
self.plot.set_ylabel("Mean data value")
vbox.addWidget(self.plot)
vbox.addStretch(1)
def activate(self):
self.ivm.sig_all_data.connect(self._data_changed)
self.ivl.sig_focus_changed.connect(self._update)
self.options.option("data").sig_changed.connect(self._data_changed)
self.options.sig_changed.connect(self._update)
self._data_changed()
def deactivate(self):
self.ivm.sig_all_data.disconnect(self._data_changed)
self.ivl.sig_focus_changed.disconnect(self._update)
self.options.option("data").sig_changed.disconnect(self._data_changed)
self.options.sig_changed.disconnect(self._update)
def processes(self):
opts = self.options.values()
opts["centre"] = self.ivl.focus()
if opts.pop("allvols", False):
opts["centre"] = opts["centre"][:3]
return {"RadialProfile": opts}
def _data_changed(self):
if self._updating: return
self._updating = True
try:
data_names = self.options.option("data").value
multivol = False
for data_name in data_names:
multivol = multivol or self.ivm.data[data_name].nvols > 1
self.options.set_visible("allvols", multivol)
self._update()
finally:
self._updating = False
def _update(self):
process = RadialProfileProcess(self.ivm)
process.execute(self.processes()["RadialProfile"])
self._update_plot()
def _update_plot(self):
self.plot.clear()
rp = self.ivm.extras.get("radial-profile", None)
if rp is not None:
xvalues = rp.df.index
for idx, name in enumerate(rp.df.columns):
yvalues = rp.df.values[:, idx]
self.plot.add_line(yvalues, name=name, xvalues=xvalues)
