def get_font_array(sz, chars=DEFAULT_CHARS):
from guidata.qt.QtGui import QFont, QPainter, QColor
font = QFont()
font.setFixedPitch(True)
font.setPixelSize(sz)
font.setStyleStrategy(QFont.NoAntialias)
dummy = QImage(10, 10, QImage.Format_ARGB32)
pnt = QPainter(dummy)
pnt.setFont(font)
metric = pnt.fontMetrics()
rct = metric.boundingRect(chars)
pnt.end()
h = rct.height()
w = rct.width()
img = QImage(w, h, QImage.Format_ARGB32)
paint = QPainter()
paint.begin(img)
paint.setFont(font)
paint.setBrush( QColor(255, 255, 255) )
paint.setPen( QColor(255, 255, 255) )
paint.drawRect(0, 0, w+1, h+1)
paint.setPen( QColor(0, 0, 0))
paint.setBrush( QColor(0, 0, 0) )
paint.drawText(0, paint.fontMetrics().ascent(), chars)
paint.end()
try:
data = img.bits().asstring(img.numBytes())
except SystemError:
# Python 3
return
npy = np.frombuffer(data, np.uint8)
npy.shape = img.height(), img.bytesPerLine()/4, 4
return npy[:,:, 0]
def __init__(self, parent, ytitle="Y", inity=1000):
# self.curve_vlf = make.curve( [ ], [ ], '(Curve Name)', QColor( 255, 0, 0 ), shade=0.5 )
# self.curve_lf = make.curve( [ ], [ ], '(Curve Name)', QColor( 0, 255, 0 ), shade=0.5 )
# self.curve_hf = make.curve( [ ], [ ], '(Curve Name)', QColor( 0, 0, 255 ), shade=0.5 )
self.psdcurve = make.curve( [ ], [ ], '(Curve Name)', QColor( 160, 160, 160 ), shade=0.2 )
def buildrect(x1, x2, filler):
rect = RectangleShape(x1, 0., x2, inity)
rect.brush.setStyle( Qt.SolidPattern )
rect.brush.setColor( filler )
rect.pen.setStyle( Qt.NoPen )
return rect
self.dockwidget = myDockableWidget(parent, CurveWidget, toolbar=True )
# self.plot = self.curvewidget.get_plot()
self.plot = self.dockwidget.widget.plot
# self.plot.add_item( self.curve_vlf )
# self.plot.add_item( self.curve_lf )
# self.plot.add_item( self.curve_hf )
alpha = 100
self.plot.add_item( buildrect(0.,0.04, QColor(255,178,178,alpha)) )
self.plot.add_item( buildrect(0.04,0.15, QColor(178,178,255,alpha)) )
self.plot.add_item( buildrect(0.15,0.5, QColor(255,255,178,alpha)) )
self.plot.add_item( self.psdcurve )
self.plot.set_antialiasing( True )
self.plot.set_axis_title( QwtPlot.xBottom, 'Frequency' )
self.plot.set_axis_unit( QwtPlot.xBottom, 'Hz' )
self.plot.set_axis_title( QwtPlot.yLeft, ytitle )
self.plot.set_axis_unit( QwtPlot.yLeft, 's^2/Hz' )
#self.plot.setAxisScale(QwtPlot.xBottom, 0, 0.5)
self.plot.set_axis_limits( QwtPlot.xBottom, 0, 0.5 )
def set_axis_color(self, axis_id, color):
"""
Set axis color
color: color name (string) or QColor instance
"""
axis_id = self.get_axis_id(axis_id)
if is_text_string(color):
color = QColor(color)
self.axes_styles[axis_id].color = str(color.name())
self.update_axis_style(axis_id)
def set_axis_color(self, axis_id, color):
"""
Set axis color
color: color name (string) or QColor instance
"""
axis_id = self.get_axis_id(axis_id)
if is_text_string(color):
color = QColor(color)
self.axes_styles[axis_id].color = str(color.name())
self.update_axis_style(axis_id)
def logmessage( self, text, msgtype='info' ):
""" Print a message in the message window
"""
if msgtype == 'error':
self.logarea.widget.setTextColor( QColor( 255, 0, 0 ) )
else:
self.logarea.widget.setTextColor( QColor( 0, 0, 0 ) )
self.logarea.widget.insertPlainText( text + "\n" )
sb = self.logarea.widget.verticalScrollBar()
sb.setValue( sb.maximum() )
def text_to_qcolor(text):
"""Create a QColor from specified string"""
color = QColor()
if not is_text_string(text): # testing for QString (PyQt API#1)
text = str(text)
if text.startswith('#') and len(text)==7:
correct = '#0123456789abcdef'
for char in text:
if char.lower() not in correct:
return color
elif text not in list(QColor.colorNames()):
return color
color.setNamedColor(text)
return color
def text_to_qcolor(text):
"""Create a QColor from specified string"""
color = QColor()
if not is_text_string(text): # testing for QString (PyQt API#1)
text = str(text)
if text.startswith('#') and len(text) == 7:
correct = '#0123456789abcdef'
for char in text:
if char.lower() not in correct:
return color
elif text not in list(QColor.colorNames()):
return color
color.setNamedColor(text)
return color
def get_brush(conf, section, option="", color="black", alpha=1.0):
"""
Construct a QBrush from the specified configuration file entry
conf: UserConfig instance
section [, option]: configuration entry
[color]: default color
[alpha]: default alpha-channel
"""
if 'brush' not in option:
option += '/brush'
color = conf.get(section, option+"/color", color)
color = QColor(color)
alpha = conf.get(section, option+"/alphaF", alpha)
color.setAlphaF(alpha)
return QBrush(color)
def __init__(self):
QMainWindow.__init__(self)
self.setWindowIcon(get_icon(os.path.join(APP_RESOURCES, 'icons',
'python.png')))
self.setupUi(self)
# Redirect output to GUI's QTextEdit
sys.stdout = OutLog(self.outputTextEdit, sys.stdout)
sys.stderr = OutLog(self.outputTextEdit, sys.stderr, QColor(255,0,0) )
settings = QSettings()
size = settings.value("MainWindow/Size",
QVariant(QSize(600, 500))).toSize()
self.resize(size)
position = settings.value("MainWindow/Position",
QVariant(QPoint(0, 0))).toPoint()
self.move(position)
self.restoreState(
settings.value("MainWindow/State").toByteArray())
self.logger = Logger('Zupport.GUIloader')
self.logger.debugging = settings.value("Logging/debugging").toBool()
# Set up a ZupportManager to deal with the plugins
self.manager = Manager(self)
self.plugins = {}
# Set up the extents menu
self.extent = ExtentContainer()
self.menuExtent = QMenu("Extent")
resolutions = self.extent.resolutions
self.extenactiongroup = QActionGroup(self.menuExtent)
noneaction = QAction("None", self.menuExtent)
self.extenactiongroup.addAction(noneaction)
self.menuExtent.addAction(noneaction)
for resolution in resolutions:
resolution_text = str(resolution)
submenu = self.menuExtent.addMenu(resolution_text)
self.menuExtent.addMenu(submenu)
for area in self.extent.get_names(resolution):
subaction = QAction(str(area) + ": %s" % resolution_text,
submenu)
subaction.setCheckable(True)
self.extenactiongroup.addAction(subaction)
submenu.addAction(subaction)
noneaction.isChecked()
self.menuSettings.addMenu(self.menuExtent)
self.actionDebugging_messages.setChecked(self.logger.debugging)
self.setWindowTitle("Zupport GUI")
self.load_tools()
self.toolTreeWidget.itemSelectionChanged.connect(self.update_ui)
self.actionDebugging_messages.toggled.connect(self._set_debugging)
self.menuExtent.triggered.connect(self.update_ui)
self.actionLoad_tool.triggered.connect(self.show_tool_gui)
self.toolTreeWidget.doubleClicked.connect(self.show_tool_gui)
def _setup_layout(self):
# Allow dockable widgets to be side by side
self.setDockOptions(QMainWindow.AnimatedDocks | QMainWindow.AllowNestedDocks)
self.setGeometry(300,100,1500,900)
self.rrplot = RealTimePlot( self, 'RR-Interval', 'ms', QColor( 255, 0, 0 ) )
self.bwplot = RealTimePlot( self, 'Breathing','', QColor( 0, 0, 255 ) )
self.ecgplot = RealTimePlot( self, 'ECG Waveform','', QColor( 0, 0, 255 ) )
self.logarea = myDockableWidget(self, QTextEdit)
self.bwpsd = RealTimePSD( self, 'Breathing PSD', inity=25000 )
self.rrpsd = RealTimePSD( self, 'RR-Interval PSD')
self.logarea.widget.setReadOnly( True )
self.logarea.widget.setFont( QFont("Courier", 8) )
self.logarea.widget.setMinimumHeight(150)
# Add the DockWidget to the main window
self.ecgplot_dock = self.add_dockwidget( self.ecgplot.dockwidget, _("ECG Waveform") )
self.rrcurve_dock = self.add_dockwidget( self.rrplot.dockwidget, _("RR-Intervals Plot") )
self.rrpsd_dock = self.add_dockwidget( self.rrpsd.dockwidget, _("RRI PSD"))
self.bwcurve_dock = self.add_dockwidget( self.bwplot.dockwidget, _("Breathing Plot") )
self.bwpsd_dock = self.add_dockwidget( self.bwpsd.dockwidget, _("Breathing PSD (not implemented)") )
self.splitDockWidget(self.rrcurve_dock, self.rrpsd_dock, Qt.Horizontal)
self.splitDockWidget(self.bwcurve_dock, self.bwpsd_dock, Qt.Horizontal)
self.log_dock = self.add_dockwidget( self.logarea, _("Messages"), position=Qt.BottomDockWidgetArea)
#self.splitDockWidget(self.rrcurve_dock, self.ecgplot_dock, Qt.Horizontal)
# setting the name of the dock widget is required to save correclty
# the postion of the widget when the application close
self.rrcurve_dock.setObjectName('rrcurve_dock')
self.rrpsd_dock.setObjectName('rrpsd_dock')
self.bwcurve_dock.setObjectName('bwcurve_dock')
self.bwpsd_dock.setObjectName('bwpsd_dock')
self.log_dock.setObjectName('log_dock')
self.ecgplot_dock.setObjectName('ecgplot_dock')
#self.log_dock.setMinimumHeight( 20 )
self.rrcurve_dock.setMinimumSize( 400, 200 )
self.bwcurve_dock.setMinimumSize( 400, 200 )
self.rrpsd_dock.setMinimumSize( 400, 200 )
self.bwpsd_dock.setMinimumSize( 400, 200 )
self.log_dock.setMinimumSize( 400, 100 )
self.log_dock.setMaximumHeight( 250 )
def __init__(self, parent):
tabs = parent.sp
r = range(len(tabs))
# Prepare unique names in ugly manner
self.names = [n.spec.name
for n in tabs] if tabs[0].spec is not None else ['']
test = []
for n in r:
if self.names.count(self.names[n]) > 1 or self.names[n] in test:
test.append(self.names[n])
self.names[n] += ' {}'.format(test.count(self.names[n]))
plots = [[
{
'name': 'Calibrated',
'curves': ['Calibrated ' + self.names[n] for n in r]
},
{
'name': 'Integrated',
'curves': ['Integrated ' + self.names[n] for n in r]
},
{
'name': 'System noise',
'curves': ['Noise ' + self.names[n] for n in r]
},
]]
df = [n.axisLimits[1] - n.axisLimits[0] for n in tabs]
df2 = max(df) / 2
axisLimits = [
-df2, df2,
min([n.axisLimits[2] for n in tabs]),
max([n.axisLimits[3] for n in tabs])
]
PlotPanel.__init__(self,
parent=parent,
plots=plots,
axisLimits=axisLimits)
self.tabs = tabs
cmap = get_cmap('tab10', len(tabs))
self.colors = [
QPen(QColor(x[0] * 255, x[1] * 255, x[2] * 255), 1)
for x in cmap.colors
]
cPanel = self.curves['Calibrated ' + self.names[0]].parent
cPanel.add_item(make.legend("BL"))
cPanel.setActive()
cPanel = self.curves['Integrated ' + self.names[0]].parent
cPanel.add_item(make.legend("BL"))
cPanel.setActive()
cPanel = self.curves['Noise ' + self.names[0]].parent
cPanel.add_item(make.legend("BL"))
cPanel.setActive()
def get(self):
"""Override AbstractDataSetWidget method"""
value = self.item.get()
if value is not None:
color = QColor(value)
self.picture = QPicture()
painter = QPainter()
painter.begin(self.picture)
painter.fillRect(QRect(0, 0, 60, 20), QBrush(color))
painter.end()
self.group.setPicture(self.picture)
def draw(self, painter, xMap, yMap, canvasRect):
self.update_text()
x, y = self.get_top_left(xMap, yMap, canvasRect)
x0, y0 = self.get_origin(xMap, yMap, canvasRect)
painter.save()
self.marker.drawSymbols(painter, [QPointF(x0, y0)])
painter.restore()
sz = self.text.size()
self.draw_frame(painter, x, y, sz.width(), sz.height())
painter.setPen(QPen(QColor(self.labelparam.color)))
painter.translate(x, y)
self.text.drawContents(painter)
def _setup_colormap(cmap, cmdata):
"""Setup a QwtLinearColorMap according to
matplotlib's data
"""
red = array(cmdata["red"])
green = array(cmdata["green"])
blue = array(cmdata["blue"])
qmin = QColor()
qmin.setRgbF(red[ 0, 2], green[ 0, 2], blue[ 0, 2])
qmax = QColor()
qmax.setRgbF(red[-1, 2], green[-1, 2], blue[-1, 2])
cmap.setColorInterval( qmin, qmax )
indices = sorted(set(red[:, 0]) | set(green[:, 0]) | set(blue[:, 0]))
for i in indices[1:-1]:
idxr = red[:, 0].searchsorted(i)
idxg = green[:, 0].searchsorted(i)
idxb = blue[:, 0].searchsorted(i)
compr = _interpolate(i, red[idxr-1], red[idxr])
compg = _interpolate(i, green[idxg-1], green[idxg])
compb = _interpolate(i, blue[idxb-1], blue[idxb] )
col = QColor()
col.setRgbF(compr, compg, compb)
cmap.addColorStop(i, col)
def get_pen(conf, section, option="",
color="black", width=1, style='SolidLine'):
"""
Construct a QPen from the specified configuration file entry
conf: UserConfig instance
section [, option]: configuration entry
[color]: default color
[width]: default width
[style]: default style
"""
if 'pen' not in option:
option += '/pen'
color = conf.get(section, option+"/color", color)
color = QColor(color)
width = conf.get(section, option+"/width", width)
style_name = conf.get(section, option+"/style", style)
style = getattr(Qt, style_name)
return QPen(color, width, style)
def __init__(self, parent, ytitle="Y", yunit='', color=QColor( 255, 0, 0 )):
self.curve = make.curve( [ ], [ ], '(Curve Name)', color )
self.dockwidget = myDockableWidget(parent, CurveWidget, toolbar=True )
# widget class: CurveWidget
# plot class: CurvePlot
# curve class: CurveItem
self.plot = self.dockwidget.widget.plot
self.plot.add_item( self.curve )
self.plot.set_antialiasing( True )
self.plot.set_axis_title( QwtPlot.xBottom, 'Time' )
self.plot.set_axis_unit( QwtPlot.xBottom, 's' )
self.plot.set_axis_title( QwtPlot.yLeft, ytitle )
self.plot.set_axis_unit( QwtPlot.yLeft, yunit )
self.plot.setAxisScaleDraw( QwtPlot.xBottom, DateTimeScaleDraw() )
#self.toolbar = QToolBar(_("Tools"))
#self.curvewidget.widget.add_toolbar(self.toolbar, "default")
#self.curvewidget.widget.register_tools()
self.startIdx = 0
self.window_length = 60 # seconds
def update_axis_style(self, axis_id):
"""Update axis style"""
axis_id = self.get_axis_id(axis_id)
style = self.axes_styles[axis_id]
title_font = style.title_font.build_font()
ticks_font = style.ticks_font.build_font()
self.setAxisFont(axis_id, ticks_font)
if style.title and style.unit:
title = "%s (%s)" % (style.title, style.unit)
elif style.title:
title = style.title
else:
title = style.unit
axis_text = self.axisTitle(axis_id)
axis_text.setFont(title_font)
axis_text.setText(title)
axis_text.setColor(QColor(style.color))
self.setAxisTitle(axis_id, axis_text)
self.SIG_PLOT_LABELS_CHANGED.emit(self)
def _setup_colormap(cmap, cmdata):
"""Setup a QwtLinearColorMap according to
matplotlib's data
"""
red = array(cmdata["red"])
green = array(cmdata["green"])
blue = array(cmdata["blue"])
qmin = QColor()
qmin.setRgbF(red[0, 2], green[0, 2], blue[0, 2])
qmax = QColor()
qmax.setRgbF(red[-1, 2], green[-1, 2], blue[-1, 2])
cmap.setColorInterval(qmin, qmax)
indices = sorted(set(red[:, 0]) | set(green[:, 0]) | set(blue[:, 0]))
for i in indices[1:-1]:
idxr = red[:, 0].searchsorted(i)
idxg = green[:, 0].searchsorted(i)
idxb = blue[:, 0].searchsorted(i)
compr = _interpolate(i, red[idxr - 1], red[idxr])
compg = _interpolate(i, green[idxg - 1], green[idxg])
compb = _interpolate(i, blue[idxb - 1], blue[idxb])
col = QColor()
col.setRgbF(compr, compg, compb)
cmap.addColorStop(i, col)
def fun(shape):
shape.symbol.pen().setWidth(2)
shape.symbol.setColor(QColor(255, 0, 0))
def __init__(self, parent):
n = len(parent.sp)
cmap = get_cmap('tab10', n * 2 + 3)
self.colors = [
QPen(QColor(x[0] * 255, x[1] * 255, x[2] * 255), 1)
for x in cmap.colors
]
plots=\
[[
{'name':'Average Signal and Retrieved Signal','curves':[]},
{'name':'Residual Signal','curves':[]}],
[
# {'name':'Averaging kernel for OEM retrieval','curves':['Averaging']},
{'name':'Measurement response to OEM retrieval','curves':[]}],
[
{'name':'Altitude vs. H2O VMR','curves':['Prior']}],
]
for i in range(n):
plots[0][0]['curves'].append('Data' + str(i))
plots[0][0]['curves'].append('Retrieval' + str(i))
plots[0][1]['curves'].append('Residual' + str(i))
plots[1][0]['curves'].append('Response' + str(i))
plots[2][0]['curves'].append('OEM Retrieval' + str(i))
PlotPanel.__init__(self, parent=parent,
plots=plots) #,axisLimits=axisLimits)
self.colors[2 * n + 2].setWidth(3)
self.curves['Prior'].setPen(self.colors[2 * n + 2])
for i in range(n):
self.curves['OEM Retrieval' + str(i)].setPen(self.colors[2 * i])
self.curves['Data' + str(i)].setPen(self.colors[2 * i])
self.curves['Residual' + str(i)].setPen(self.colors[2 * i])
self.curves['Response' + str(i)].setPen(self.colors[2 * i])
self.colors[2 * i + 1].setWidth(3)
self.curves['Retrieval' + str(i)].setPen(self.colors[2 * i + 1])
pDaRe = self.curves['Data' + str(i)].parent
pResi = self.curves['Residual' + str(i)].parent
# pAver=self.curves['Averaging'].parent
pResp = self.curves['Response' + str(i)].parent
pPOEM = self.curves['Prior'].parent
pPOEM.set_titles(ylabel='Altitude [m]', xlabel='Retrieval')
pDaRe.set_titles(ylabel='Brightness Temperature [K]',
xlabel='Frequency [GHz]')
pResi.set_titles(ylabel='Residual [K]', xlabel='Frequency [GHz]')
# pAver.set_titles(ylabel='Altitude [m]',xlabel='')
pResp.set_titles(ylabel='Altitude [m]', xlabel='')
pDaRe.add_item(make.legend("TR"))
pDaRe.setActive()
pPOEM.add_item(make.legend("TR"))
pPOEM.setActive()
pDaRe.setDefaultAxis(axis=[142.1, 142.2, 100., 200.])
pResi.setDefaultAxis(axis=[142.1, 142.2, -.5, .5])
# pAver.setDefaultAxis(axis=[xmin,xmax,0.,1e5])
pResp.setDefaultAxis(axis=[-.1, 2., 0., 1e5])
pPOEM.setDefaultAxis(axis=[-.1, 12., 0., 1e5])
