def doUI(self):
self.label_name = simpleText(self, "Name (units)",
[0, 0, self.nl, self.ls])
self.label_value = simpleText(
self, "Value", [self.nl, 0, self.width - self.nl, self.ls])
self.list_parameters = simpleList(
self, [0, self.ls, self.width, self.ls * 4], [])
def doUI(self):
self.setModal(True)
nolimit = [-float('inf'),float('inf')]
self.input_name = textInput( self,'',[0 , 0, self.nl, self.ls],'Parameter name' )
self.input_units = textInput( self,'',[self.nl , 0, self.ul, self.ls],'Parameter units')
self.input_value = floatInput(self,nolimit,8,'',[self.nl+self.ul, 0, self.vl, self.ls],'Parameter value')
self.button_add = queryButton("Add",self,'',[0,self.ls],self.add_parameter)
self.label_name = simpleText(self,"Parameter name" , [0 , self.ls*3, self.nl, self.ls])
self.label_units = simpleText(self,"Parameter units", [self.nl , self.ls*3, self.ul, self.ls])
self.label_value = simpleText(self,"Parameter value", [self.nl+self.ul, self.ls*3, self.vl, self.ls])
self.list_parameters = simpleList(self ,[0 , self.ls*4, self.nl+self.ul+self.vl, self.ls*4], [])
self.list_parameters.setFont(gui.QFont("Lucida Console",8))
self.button_remove = queryButton('Remove selected' , self, '', [0 , self.ls*8],self.remove_selected)
self.button_clear = queryButton('Clear all' , self, '', [self.nl-167 , self.ls*8],self.remove_all )
self.button_write = queryButton('Write parameters' , self, '', [self.nl+self.ul+self.vl-92, self.ls*8],self.write_parameters )
self.setFixedSize(self.nl+self.ul+self.vl,self.ls*9)
self.setWindowTitle("Parameter box")
self.show()
def doUI(self):
self.label_user = simpleText(self, "User / author",
[0, 0, self.ul, self.ls])
self.label_comment = simpleText(
self, "Comment body", [self.ul, 0, self.width - self.ul, self.ls])
self.list_comments = simpleList(self,
[0, self.ls, self.width, self.ls * 4],
[])
def __init__(self, xlabel, ylabel, xnum, ynum, parent=None, geometry=None, barGeometry=None, ls=23, pl=320):
super(colorplotInstance, self).__init__(parent)
self.parent = parent
self.data = numpy.zeros([xnum, ynum])
self.unswept = numpy.ones([xnum, ynum], dtype=bool)
self.gl = pg.GraphicsLayoutWidget(parent)
self.gl.setAspectLocked(True)
self.gl.scene().sigMouseClicked.connect(self.mouse_event)
self.view = self.gl.addViewBox()
self.img = pg.ImageItem(border="w")
self.view.addItem(self.img)
self.view.setRange(core.QRectF(0, 0, xnum, ynum))
self.img.setImage(self.data)
self.first_datum = True # whether or not the next datum added is the first. Used to populate array.
if not geometry == None:
self.gl.setGeometry(geometry[0], geometry[1], geometry[2], geometry[3])
ColorBarResolution = 256
self.cBarData = numpy.linspace(0, 1, ColorBarResolution).reshape([1, ColorBarResolution])
self.cBarGl = pg.GraphicsLayoutWidget(parent)
self.cBarGl.setAspectLocked(True)
self.cBarGl.ci.layout.setContentsMargins(0, 0, 0, 0)
self.cBarGl.ci.layout.setSpacing(0)
self.cBarView = self.cBarGl.addViewBox(enableMouse=False)
self.cBarView.setMenuEnabled(False)
self.cBarImg = pg.ImageItem(border="w")
self.cBarView.addItem(self.cBarImg)
self.cBarView.setRange(core.QRectF(0, 0, 1, ColorBarResolution))
self.cBarImg.setImage(self.cBarData)
end_1 = (
(0.02 * 50 / 51.0) + 1
) ** -1 # The image item adds borders of +-2% of range; these values are set so that
end_0 = end_1 / 51.0 # the actual borders are 0 and 1 instead of -0.02 and 1.02. Sheesh.
self.cBarView.setXRange(end_0, end_1, None)
self.cBarView.setYRange(end_0 * ColorBarResolution, end_1 * ColorBarResolution, None)
gs = (pl - 5 * ls) // 4
self.cBarTick0 = simpleText(self, "", [0, (ls + gs) * 4, 2 * ls, ls], "")
self.cBarTick1 = simpleText(self, "", [0, (ls + gs) * 3, 2 * ls, ls], "")
self.cBarTick2 = simpleText(self, "", [0, (ls + gs) * 2, 2 * ls, ls], "")
self.cBarTick3 = simpleText(self, "", [0, (ls + gs) * 1, 2 * ls, ls], "")
self.cBarTick4 = simpleText(self, "", [0, (ls + gs) * 0, 2 * ls, ls], "")
# print(dir(self.cBarView))
if not barGeometry == None:
self.cBarGl.setGeometry(barGeometry[0], barGeometry[1], barGeometry[2], barGeometry[3])
def doUI(self):
self.setModal(True)
self.input_user = textInput(self,'',[0 , 0, self.ul, self.ls],'user')
self.input_comment = textInput(self,'',[self.ul, 0, self.cl, self.ls],'comment body')
self.button_add = queryButton("Add",self,'',[0,self.ls],self.add_comment)
self.label_user = simpleText(self,"User" ,[0 , self.ls*3, self.ul , self.ls ])
self.label_comment = simpleText(self,"Comment",[self.ul, self.ls*3, self.cl , self.ls ])
self.list_comments = simpleList(self ,[0 , self.ls*4, self.ul+self.cl, self.ls*4], [])
self.list_comments.setFont(gui.QFont("Lucida Console",8))
self.button_remove = queryButton('Remove selected', self, '', [0 , self.ls*8],self.remove_selected)
self.button_clear = queryButton('Clear all' , self, '', [self.ul-39 , self.ls*8],self.remove_all )
self.button_write = queryButton('Write comments' , self, '', [self.ul+self.cl-84, self.ls*8],self.write_comments )
self.setFixedSize(self.ul+self.cl,self.ls*9)
self.setWindowTitle("Comment box")
self.show()
def __init__(
self,
xlabel,
ylabel,
xnum,
ynum,
xrng,
yrng,
parent=None,
geometry=None,
name="",
ls=23,
pl=320,
bl=12,
ll=128,
ih=96,
):
super(colorplotShell, self).__init__(parent)
self.parent = parent
# print('\nXLABEL,YLABEL')
# print(xlabel,ylabel)
self.xnum = xnum
self.ynum = ynum
self.x_ref = numpy.linspace(xrng[0], xrng[1], xnum)
self.y_ref = numpy.linspace(yrng[0], yrng[1], ynum)
self.x_min = str(xrng[0])[:6]
self.x_med = str((xrng[0] + xrng[1]) / 2.0)[:6]
self.x_max = str(xrng[1])[:6]
self.y_min = str(yrng[0])[:6]
self.y_med = str((yrng[0] + yrng[1]) / 2.0)[:6]
self.y_max = str(yrng[1])[:6]
self.colorplot = colorplotInstance(xlabel, ylabel, xnum, ynum, self, [ls * 3, 0, pl, pl], [ls * 2, 0, ls, pl])
self.ls = ls # line spacing
self.pl = pl # plot sidelength
self.bl = bl # bar length & spacing
self.ll = ll # label length
# y labels
# self.label_top = verticalLabel(self,self.y_max,[8,32],[ls*3+pl,0 ,8,32])
# self.label_mid = verticalLabel(self,self.y_med,[8,32],[ls*3+pl,pl//2-16,8,32])
# self.label_bot = verticalLabel(self,self.y_min,[8,32],[ls*3+pl,pl-32 ,8,32])
self.label_top = simpleLabel(
self,
self.y_max,
[ls * 3 + pl + 2, 11, ll // 2, ls],
"Y setting (%s) maximum value (%s)" % (ylabel, self.y_max),
)
self.label_mid = simpleLabel(
self,
self.y_med,
[ls * 3 + pl + 2, int(pl // 2 - ls // 2) + 3, ll // 2, ls],
"Y setting (%s) median value (%s)" % (ylabel, self.y_med),
)
self.label_bot = simpleLabel(
self,
self.y_min,
[ls * 3 + pl + 2, pl - (1 * ls + 3), ll // 2, ls],
"Y setting (%s) minimum value (%s)" % (ylabel, self.y_min),
)
self.label_y_axis = simpleLabel(
self,
str(ylabel),
[ls * 3 + pl + 2, pl - (2 * ls + 3) + ls // 2, ll, ls],
"Y setting (what's being swept along the y axis",
)
# x labels
self.label_left = simpleLabel(
self, self.x_min, [ls * 3 + 12, pl, ll // 2, ls], "X setting (%s) minimum value (%s)" % (xlabel, self.x_min)
)
self.label_center = simpleLabel(
self,
self.x_med,
[ls * 3 + 18 + (pl - ll // 2) // 2, pl, ll // 2, ls],
"X setting (%s) median value (%s)" % (xlabel, self.x_med),
)
self.label_right = simpleLabel(
self,
self.x_max,
[ls * 3 + 24 + (pl - ll // 2), pl, ll // 2, ls],
"X setting (%s) maximum value (%s)" % (xlabel, self.x_max),
)
self.label_x_axis = simpleLabel(
self, str(xlabel), [ls * 3 + 12, pl + ls // 2, ll, ls], "X setting (what's being swept along the x axis"
)
# Horizontal slice
self.plot_horizontal_slice = plotInstance(None, None, xrng, [], [], self, [3 * ls, pl + 1 * ls, pl, ih])
self.plot_horizontal_slice.plot.getAxis("bottom").setHeight(12)
self.plot_horizontal_slice.plot.getAxis("left").setWidth(20)
self.plot_horizontal_slice.plot.enableAutoRange()
# Vertical slice
self.plot_vertical_slice = plotInstance(None, None, yrng, [], [], self, [6 * ls + pl, 0, ih, pl])
self.plot_vertical_slice.plot.getAxis("left").setWidth(20)
self.plot_vertical_slice.plot.getAxis("bottom").setHeight(12)
self.plot_vertical_slice.plot.enableAutoRange()
# Can be 'follow' or 'static'
# Follow makes the slice point assume the position of each measurement done as it's completed,
# Static makes the slice point user-defined and not change (unless redefined)
self.slice_mode = "follow" #
self.slice_point = [0, 0] # [xnum,ynum]
# slice mode buttons
# print(dir(self.parent.det))
# print(self.parent.det.items())
# print(str(self.parent.det['setting_details'].name))
self.label_measurement_name = simpleText(self, name, [pl + ls * 4, pl + 1 * ls, ll, ls], "OBJTT")
self.button_auto_slice = queryButton("Auto slice", self, "", [pl + ls * 4, pl + 2 * ls], self.enable_auto_slice)
self.button_choose_slice = queryButton(
"Choose point", self, "", [pl + ls * 4, pl + 3 * ls], self.choose_slice_point
)
self.button_reset_slices = queryButton(
"Reset slice view", self, "", [pl + ls * 4, pl + 4 * ls], self.reset_slice_view
)
self.setMinimumSize(6 * ls + pl + ih, 1 * ls + pl + ih)
self.setGeometry(geometry[0], geometry[1], geometry[2], geometry[3])
def doUI(self):
# background
# self.setBackground(gui.QColor('black'))
# use self.det
if self.kind == "1d":
self.stepsize = (self.det["stop"] - self.det["start"]) / (self.det["steps"])
self.xsetting = self.det["start"] # current value of setting. Starts at beginning.
elif self.kind == "2d":
self.x_stepsize = (self.det["xstop"] - self.det["xstart"]) / (self.det["xsteps"])
self.y_stepsize = (self.det["ystop"] - self.det["ystart"]) / (self.det["ysteps"])
self.x_setting = self.det["xstart"]
self.y_setting = self.det["ystart"]
self.x_num = 0
self.y_num = 0
# labels / info
t = self.det["start_timestamp"]
time_text = "Sweep started at: %i/%i/%i %i:%i:%i" % (
t.tm_mon,
t.tm_mday,
t.tm_year,
t.tm_hour,
t.tm_min,
t.tm_sec,
)
self.label_starttime = simpleText(self, time_text, [0, 0, self.gw // 2 + 74, self.ls])
self.label_stepsdone = simpleText(
self, "Measurements done: %i" % (self.measurements_completed), [0, self.ls * 1, self.gw // 2, self.ls]
)
if self.kind == "1d":
self.meas_total = self.det["steps"] + 1
elif self.kind == "2d":
self.meas_total = self.det["xnum"] * self.det["ynum"]
self.label_stepstotal = simpleText(
self, "Measurements total: %i" % (self.meas_total), [0, self.ls * 2, self.gw // 2, self.ls]
)
self.progress_bar = gui.QProgressBar(self)
self.progress_bar.setRange(0, self.meas_total)
self.progress_bar.setGeometry(0, self.ls * 3, self.gw // 2, self.ls)
# sweep control
self.button_pause = queryButton("Pause", self, "", [self.gw // 2, self.ls * 1], self.pause)
self.button_resume = queryButton("Resume", self, "", [self.gw // 2, self.ls * 2], self.resume)
self.button_cancel = queryButton("Cancel", self, "", [self.gw // 2, self.ls * 3], self.cancel)
self.checkbox_cancel = checkBox(self, "Confirm", [self.gw // 2 + 76, self.ls * 3 - 3])
# 'set graphs to automatic' button
self.button_graph_auto = queryButton("Reset graph view", self, "", [0, self.ls * 4], self.reset_graph_views)
# completion readout
self.label_complete_time = simpleText(
self, "Completed at:", [self.gw // 2 + 76 + self.ls, self.ls * 0, self.gw // 2, self.ls]
)
self.label_complete_rate = simpleText(
self, "Average rate:", [self.gw // 2 + 76 + self.ls, self.ls * 1, self.gw // 2, self.ls]
)
self.label_current_rate = simpleText(
self, "Current rate:", [self.gw // 2 + 76 + self.ls, self.ls * 2, self.gw // 2, self.ls]
)
# data set name, location
self.input_logname = textInput(self, "", [self.gw + 76 + self.ls * 2, self.ls * 0, self.ll, self.ls])
self.input_logdest = textInput(self, "", [self.gw + 76 + self.ls * 2, self.ls * 1, self.ll, self.ls])
self.input_logname.setPlaceholderText("Dataset name")
self.input_logdest.setPlaceholderText("Dataset location")
self.input_logdest.setText(self.det["dv_loc"])
self.input_logname.setText(self.det["dv_name"])
self.input_logdest.setToolTip(
"Folders separated by '\\' characters.\nNo leading or trailing backslash.\nExample: data\\testing\\2016\nDefault: data"
)
# data logging (data vault) details
self.button_add_comments = queryButton(
"Add comment(s)", self, "", [self.ll + self.gw + 76 + self.ls * 3, self.ls * 0], self.add_comments
)
self.button_add_parameters = queryButton(
"Add parameter(s)", self, "", [self.ll + self.gw + 76 + self.ls * 3, self.ls * 1], self.add_parameters
)
self.button_log_data = queryButton(
"Write data set", self, "", [self.ll + self.gw + 76 + self.ls * 3, self.ls * 2], self.log_data
)
# colormap
if self.kind == "2d":
self.label_colormap = simpleText(
self, "Color map:", [self.ll * 2 + self.ls * 2 + self.gw + 76 + self.ls * 2, 0, 64, self.ls]
)
self.dropdown_colormap = simpleDropdown(
self,
["None", "Custom"] + maps.keys(),
[self.ll * 2 + self.ls * 2 + self.gw + self.ls * 2 + 76 + 64, 0, 64, self.ls],
self.change_colormap,
)
self.button_custommap = queryButton(
"Custom", self, "", [self.ll * 2 + self.ls * 2 + self.gw + 76 + self.ls * 2, self.ls], self.cust_map
)
elif self.kind == "1d":
self.label_colormap = self.dropdown_colormap = self.button_custommap = None
# open dataset if autosave is on
if self.det["dv_autosave"]:
self.open_dataset()
def __init__(self,
xlabel,
ylabel,
xnum,
ynum,
xrng,
yrng,
parent=None,
geometry=None,
name="",
ls=23,
pl=320,
bl=12,
ll=128,
ih=96):
super(colorplotShell, self).__init__(parent)
self.parent = parent
#print('\nXLABEL,YLABEL')
#print(xlabel,ylabel)
self.xnum = xnum
self.ynum = ynum
self.x_ref = numpy.linspace(xrng[0], xrng[1], xnum)
self.y_ref = numpy.linspace(yrng[0], yrng[1], ynum)
self.x_min = str(xrng[0])[:6]
self.x_med = str((xrng[0] + xrng[1]) / 2.0)[:6]
self.x_max = str(xrng[1])[:6]
self.y_min = str(yrng[0])[:6]
self.y_med = str((yrng[0] + yrng[1]) / 2.0)[:6]
self.y_max = str(yrng[1])[:6]
self.colorplot = colorplotInstance(xlabel, ylabel, xnum, ynum, self,
[ls * 3, 0, pl, pl],
[ls * 2, 0, ls, pl])
self.ls = ls # line spacing
self.pl = pl # plot sidelength
self.bl = bl # bar length & spacing
self.ll = ll # label length
# y labels
#self.label_top = verticalLabel(self,self.y_max,[8,32],[ls*3+pl,0 ,8,32])
#self.label_mid = verticalLabel(self,self.y_med,[8,32],[ls*3+pl,pl//2-16,8,32])
#self.label_bot = verticalLabel(self,self.y_min,[8,32],[ls*3+pl,pl-32 ,8,32])
self.label_top = simpleLabel(
self, self.y_max, [ls * 3 + pl + 2, 11, ll // 2, ls],
"Y setting (%s) maximum value (%s)" % (ylabel, self.y_max))
self.label_mid = simpleLabel(
self, self.y_med,
[ls * 3 + pl + 2,
int(pl // 2 - ls // 2) + 3, ll // 2, ls],
"Y setting (%s) median value (%s)" % (ylabel, self.y_med))
self.label_bot = simpleLabel(
self, self.y_min,
[ls * 3 + pl + 2, pl - (1 * ls + 3), ll // 2, ls],
"Y setting (%s) minimum value (%s)" % (ylabel, self.y_min))
self.label_y_axis = simpleLabel(
self, str(ylabel),
[ls * 3 + pl + 2, pl - (2 * ls + 3) + ls // 2, ll, ls],
"Y setting (what's being swept along the y axis")
# x labels
self.label_left = simpleLabel(
self, self.x_min, [ls * 3 + 12, pl, ll // 2, ls],
"X setting (%s) minimum value (%s)" % (xlabel, self.x_min))
self.label_center = simpleLabel(
self, self.x_med,
[ls * 3 + 18 + (pl - ll // 2) // 2, pl, ll // 2, ls],
"X setting (%s) median value (%s)" % (xlabel, self.x_med))
self.label_right = simpleLabel(
self, self.x_max, [ls * 3 + 24 + (pl - ll // 2), pl, ll // 2, ls],
"X setting (%s) maximum value (%s)" % (xlabel, self.x_max))
self.label_x_axis = simpleLabel(
self, str(xlabel), [ls * 3 + 12, pl + ls // 2, ll, ls],
"X setting (what's being swept along the x axis")
# Horizontal slice
self.plot_horizontal_slice = plotInstance(
None, None, xrng, [], [], self, [3 * ls, pl + 1 * ls, pl, ih])
self.plot_horizontal_slice.plot.getAxis('bottom').setHeight(12)
self.plot_horizontal_slice.plot.getAxis('left').setWidth(20)
self.plot_horizontal_slice.plot.enableAutoRange()
# Vertical slice
self.plot_vertical_slice = plotInstance(None, None, yrng, [], [], self,
[6 * ls + pl, 0, ih, pl])
self.plot_vertical_slice.plot.getAxis('left').setWidth(20)
self.plot_vertical_slice.plot.getAxis('bottom').setHeight(12)
self.plot_vertical_slice.plot.enableAutoRange()
# Can be 'follow' or 'static'
# Follow makes the slice point assume the position of each measurement done as it's completed,
# Static makes the slice point user-defined and not change (unless redefined)
self.slice_mode = 'follow' #
self.slice_point = [0, 0] # [xnum,ynum]
# slice mode buttons
#print(dir(self.parent.det))
#print(self.parent.det.items())
#print(str(self.parent.det['setting_details'].name))
self.label_measurement_name = simpleText(
self, name, [pl + ls * 4, pl + 1 * ls, ll, ls], "OBJTT")
self.button_auto_slice = queryButton("Auto slice", self, '',
[pl + ls * 4, pl + 2 * ls],
self.enable_auto_slice)
self.button_choose_slice = queryButton("Choose point", self, '',
[pl + ls * 4, pl + 3 * ls],
self.choose_slice_point)
self.button_reset_slices = queryButton("Reset slice view", self, '',
[pl + ls * 4, pl + 4 * ls],
self.reset_slice_view)
self.setMinimumSize(6 * ls + pl + ih, 1 * ls + pl + ih)
self.setGeometry(geometry[0], geometry[1], geometry[2], geometry[3])
def doUI(self):
# background
#self.setBackground(gui.QColor('black'))
# use self.det
if self.kind == '1d':
self.stepsize = (self.det['stop'] -
self.det['start']) / (self.det['steps'])
self.xsetting = self.det[
'start'] # current value of setting. Starts at beginning.
elif self.kind == '2d':
self.x_stepsize = (self.det['xstop'] -
self.det['xstart']) / (self.det['xsteps'])
self.y_stepsize = (self.det['ystop'] -
self.det['ystart']) / (self.det['ysteps'])
self.x_setting = self.det['xstart']
self.y_setting = self.det['ystart']
self.x_num = 0
self.y_num = 0
# labels / info
t = self.det['start_timestamp']
time_text = "Sweep started at: %i/%i/%i %i:%i:%i" % (
t.tm_mon, t.tm_mday, t.tm_year, t.tm_hour, t.tm_min, t.tm_sec)
self.label_starttime = simpleText(self, time_text,
[0, 0, self.gw // 2 + 74, self.ls])
self.label_stepsdone = simpleText(
self, "Measurements done: %i" % (self.measurements_completed),
[0, self.ls * 1, self.gw // 2, self.ls])
if self.kind == '1d':
self.meas_total = self.det['steps'] + 1
elif self.kind == '2d':
self.meas_total = self.det['xnum'] * self.det['ynum']
self.label_stepstotal = simpleText(
self, "Measurements total: %i" % (self.meas_total),
[0, self.ls * 2, self.gw // 2, self.ls])
self.progress_bar = gui.QProgressBar(self)
self.progress_bar.setRange(0, self.meas_total)
self.progress_bar.setGeometry(0, self.ls * 3, self.gw // 2, self.ls)
# sweep control
self.button_pause = queryButton("Pause", self, '',
[self.gw // 2, self.ls * 1],
self.pause)
self.button_resume = queryButton("Resume", self, '',
[self.gw // 2, self.ls * 2],
self.resume)
self.button_cancel = queryButton("Cancel", self, '',
[self.gw // 2, self.ls * 3],
self.cancel)
self.checkbox_cancel = checkBox(self, "Confirm",
[self.gw // 2 + 76, self.ls * 3 - 3])
# 'set graphs to automatic' button
self.button_graph_auto = queryButton("Reset graph view", self, "",
[0, self.ls * 4],
self.reset_graph_views)
# completion readout
self.label_complete_time = simpleText(
self, "Completed at:",
[self.gw // 2 + 76 + self.ls, self.ls * 0, self.gw // 2, self.ls])
self.label_complete_rate = simpleText(
self, "Average rate:",
[self.gw // 2 + 76 + self.ls, self.ls * 1, self.gw // 2, self.ls])
self.label_current_rate = simpleText(
self, "Current rate:",
[self.gw // 2 + 76 + self.ls, self.ls * 2, self.gw // 2, self.ls])
# data set name, location
self.input_logname = textInput(
self, '',
[self.gw + 76 + self.ls * 2, self.ls * 0, self.ll, self.ls])
self.input_logdest = textInput(
self, '',
[self.gw + 76 + self.ls * 2, self.ls * 1, self.ll, self.ls])
self.input_logname.setPlaceholderText("Dataset name")
self.input_logdest.setPlaceholderText("Dataset location")
self.input_logdest.setText(self.det['dv_loc'])
self.input_logname.setText(self.det['dv_name'])
self.input_logdest.setToolTip(
"Folders separated by '\\' characters.\nNo leading or trailing backslash.\nExample: data\\testing\\2016\nDefault: data"
)
# data logging (data vault) details
self.button_add_comments = queryButton(
"Add comment(s)", self, '',
[self.ll + self.gw + 76 + self.ls * 3, self.ls * 0],
self.add_comments)
self.button_add_parameters = queryButton(
"Add parameter(s)", self, '',
[self.ll + self.gw + 76 + self.ls * 3, self.ls * 1],
self.add_parameters)
self.button_log_data = queryButton(
"Write data set", self, '',
[self.ll + self.gw + 76 + self.ls * 3, self.ls * 2], self.log_data)
# colormap
if self.kind == '2d':
self.label_colormap = simpleText(self, "Color map:", [
self.ll * 2 + self.ls * 2 + self.gw + 76 + self.ls * 2, 0, 64,
self.ls
])
self.dropdown_colormap = simpleDropdown(
self, ["None", "Custom"] + maps.keys(), [
self.ll * 2 + self.ls * 2 + self.gw + self.ls * 2 + 76 +
64, 0, 64, self.ls
], self.change_colormap)
self.button_custommap = queryButton("Custom", self, '', [
self.ll * 2 + self.ls * 2 + self.gw + 76 + self.ls * 2, self.ls
], self.cust_map)
elif self.kind == '1d':
self.label_colormap = self.dropdown_colormap = self.button_custommap = None
# open dataset if autosave is on
if self.det['dv_autosave']: self.open_dataset()
def __init__(self,
xlabel,
ylabel,
xnum,
ynum,
parent=None,
geometry=None,
barGeometry=None,
ls=23,
pl=320):
super(colorplotInstance, self).__init__(parent)
self.parent = parent
self.data = numpy.zeros([xnum, ynum])
self.unswept = numpy.ones([xnum, ynum], dtype=bool)
self.gl = pg.GraphicsLayoutWidget(parent)
self.gl.setAspectLocked(True)
self.gl.scene().sigMouseClicked.connect(self.mouse_event)
self.view = self.gl.addViewBox()
self.img = pg.ImageItem(border='w')
self.view.addItem(self.img)
self.view.setRange(core.QRectF(0, 0, xnum, ynum))
self.img.setImage(self.data)
self.first_datum = True # whether or not the next datum added is the first. Used to populate array.
if not geometry == None:
self.gl.setGeometry(geometry[0], geometry[1], geometry[2],
geometry[3])
ColorBarResolution = 256
self.cBarData = numpy.linspace(0, 1, ColorBarResolution).reshape(
[1, ColorBarResolution])
self.cBarGl = pg.GraphicsLayoutWidget(parent)
self.cBarGl.setAspectLocked(True)
self.cBarGl.ci.layout.setContentsMargins(0, 0, 0, 0)
self.cBarGl.ci.layout.setSpacing(0)
self.cBarView = self.cBarGl.addViewBox(enableMouse=False)
self.cBarView.setMenuEnabled(False)
self.cBarImg = pg.ImageItem(border='w')
self.cBarView.addItem(self.cBarImg)
self.cBarView.setRange(core.QRectF(0, 0, 1, ColorBarResolution))
self.cBarImg.setImage(self.cBarData)
end_1 = (
(0.02 * 50 / 51.0) + 1
)**-1 # The image item adds borders of +-2% of range; these values are set so that
end_0 = end_1 / 51.0 # the actual borders are 0 and 1 instead of -0.02 and 1.02. Sheesh.
self.cBarView.setXRange(end_0, end_1, None)
self.cBarView.setYRange(end_0 * ColorBarResolution,
end_1 * ColorBarResolution, None)
gs = (pl - 5 * ls) // 4
self.cBarTick0 = simpleText(self, "", [0, (ls + gs) * 4, 2 * ls, ls],
"")
self.cBarTick1 = simpleText(self, "", [0, (ls + gs) * 3, 2 * ls, ls],
"")
self.cBarTick2 = simpleText(self, "", [0, (ls + gs) * 2, 2 * ls, ls],
"")
self.cBarTick3 = simpleText(self, "", [0, (ls + gs) * 1, 2 * ls, ls],
"")
self.cBarTick4 = simpleText(self, "", [0, (ls + gs) * 0, 2 * ls, ls],
"")
#print(dir(self.cBarView))
if not barGeometry == None:
self.cBarGl.setGeometry(barGeometry[0], barGeometry[1],
barGeometry[2], barGeometry[3])
def doUI(self):
self.label_name = simpleText(self, "Name",
[0, self.ls * 0, self.ll, self.ls])
self.label_filenum = simpleText(self, "File number",
[0, self.ls * 1, self.ll, self.ls])
self.label_location = simpleText(self, "Location",
[0, self.ls * 2, self.ll, self.ls])
self.label_comments = simpleText(self, "Comment count",
[0, self.ls * 3, self.ll, self.ls])
self.label_parameters = simpleText(self, "Parameter count",
[0, self.ls * 4, self.ll, self.ls])
self.label_created = simpleText(self, "Date created",
[0, self.ls * 5, self.ll, self.ls])
self.value_name = simpleText(self, "",
[self.ll, self.ls * 0, self.vl, self.ls])
self.value_filenum = simpleText(
self, "", [self.ll, self.ls * 1, self.vl, self.ls])
self.value_location = simpleText(
self, "", [self.ll, self.ls * 2, self.vl, self.ls])
self.value_comments = simpleText(
self, "", [self.ll, self.ls * 3, self.vl, self.ls])
self.value_parameters = simpleText(
self, "", [self.ll, self.ls * 4, self.vl, self.ls])
self.value_created = simpleText(
self, "", [self.ll, self.ls * 5, self.vl, self.ls])
self.label_independents = simpleText(
self, "Independents",
[self.ll + self.vl + self.ls, self.ls * 0, self.ll, self.ls])
self.label_dependents = simpleText(
self, "Dependents",
[self.ll + self.vl + self.ls, self.ls * 4, self.ll, self.ls])
self.list_independents = simpleList(self, [
self.ll * 2 + self.vl + self.ls, self.ls * 0, self.vl, self.ls * 3
], [])
self.list_dependents = simpleList(self, [
self.ll * 2 + self.vl + self.ls, self.ls * 4, self.vl, self.ls * 3
], [])
self.button_export = queryButton("Export to CSV", self, '',
[0, self.height - (self.ls + 25)],
self.export)
def doUI(self):
self.label_user = simpleText(self,"User / author",[0 , 0, self.ul , self.ls])
self.label_comment = simpleText(self,"Comment body" ,[self.ul, 0, self.width - self.ul, self.ls])
self.list_comments = simpleList(self,[0,self.ls,self.width,self.ls*4],[])
def doUI(self):
self.label_name = simpleText(self,"Name (units)",[0 , 0, self.nl , self.ls])
self.label_value = simpleText(self,"Value" ,[self.nl, 0, self.width-self.nl, self.ls])
self.list_parameters = simpleList(self,[0,self.ls,self.width,self.ls*4],[])
def doUI(self):
self.label_name = simpleText(self,"Name" ,[0,self.ls*0,self.ll,self.ls])
self.label_filenum = simpleText(self,"File number" ,[0,self.ls*1,self.ll,self.ls])
self.label_location = simpleText(self,"Location" ,[0,self.ls*2,self.ll,self.ls])
self.label_comments = simpleText(self,"Comment count" ,[0,self.ls*3,self.ll,self.ls])
self.label_parameters = simpleText(self,"Parameter count",[0,self.ls*4,self.ll,self.ls])
self.label_created = simpleText(self,"Date created" ,[0,self.ls*5,self.ll,self.ls])
self.value_name = simpleText(self,"",[self.ll,self.ls*0,self.vl,self.ls])
self.value_filenum = simpleText(self,"",[self.ll,self.ls*1,self.vl,self.ls])
self.value_location = simpleText(self,"",[self.ll,self.ls*2,self.vl,self.ls])
self.value_comments = simpleText(self,"",[self.ll,self.ls*3,self.vl,self.ls])
self.value_parameters = simpleText(self,"",[self.ll,self.ls*4,self.vl,self.ls])
self.value_created = simpleText(self,"",[self.ll,self.ls*5,self.vl,self.ls])
self.label_independents = simpleText(self,"Independents",[self.ll+self.vl+self.ls,self.ls*0,self.ll,self.ls])
self.label_dependents = simpleText(self,"Dependents" ,[self.ll+self.vl+self.ls,self.ls*4,self.ll,self.ls])
self.list_independents = simpleList(self,[self.ll*2+self.vl+self.ls,self.ls*0,self.vl,self.ls*3],[])
self.list_dependents = simpleList(self,[self.ll*2+self.vl+self.ls,self.ls*4,self.vl,self.ls*3],[])
self.button_export = queryButton("Export to CSV",self,'',[0,self.height - (self.ls + 25)],self.export)
