Added support for displaying string variables variations in a graph and cursor on graphs
#!/usr/bin/env python
# -*- coding: utf-8 -*-
#This file is part of PLCOpenEditor, a library implementing an IEC 61131-3 editor
#based on the plcopen standard.
#
#Copyright (C) 2012: Edouard TISSERANT and Laurent BESSARD
#
#See COPYING file for copyrights details.
#
#This library is free software; you can redistribute it and/or
#modify it under the terms of the GNU General Public
#License as published by the Free Software Foundation; either
#version 2.1 of the License, or (at your option) any later version.
#
#This library is distributed in the hope that it will be useful,
#but WITHOUT ANY WARRANTY; without even the implied warranty of
#MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
#General Public License for more details.
#
#You should have received a copy of the GNU General Public
#License along with this library; if not, write to the Free Software
#Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
from types import TupleType, ListType, FloatType
from time import time as gettime
import math
import numpy
import binascii
import wx
import wx.lib.buttons
try:
import matplotlib
matplotlib.use('WX')
import matplotlib.pyplot
from matplotlib.backends.backend_wxagg import FigureCanvasWxAgg as FigureCanvas
from mpl_toolkits.mplot3d import Axes3D
USE_MPL = True
except:
USE_MPL = False
from graphics import DebugDataConsumer, DebugViewer, REFRESH_PERIOD
from controls import CustomGrid, CustomTable
from dialogs.ForceVariableDialog import ForceVariableDialog
from util.BitmapLibrary import GetBitmap
def AppendMenu(parent, help, id, kind, text):
parent.Append(help=help, id=id, kind=kind, text=text)
def GetDebugVariablesTableColnames():
_ = lambda x : x
return [_("Variable"), _("Value")]
CRC_SIZE = 8
CRC_MASK = 2 ** CRC_SIZE - 1
class VariableTableItem(DebugDataConsumer):
def __init__(self, parent, variable):
DebugDataConsumer.__init__(self)
self.Parent = parent
self.Variable = variable
self.RefreshVariableType()
self.Value = ""
def __del__(self):
self.Parent = None
def SetVariable(self, variable):
if self.Parent and self.Variable != variable:
self.Variable = variable
self.RefreshVariableType()
self.Parent.RefreshView()
def GetVariable(self, mask=None):
variable = self.Variable
if mask is not None:
parts = variable.split('.')
mask = mask + ['*'] * max(0, len(parts) - len(mask))
last = None
variable = ""
for m, v in zip(mask, parts):
if m == '*':
if last == '*':
variable += '.'
variable += v
elif last is None or last == '*':
variable += '..'
last = m
return variable
def RefreshVariableType(self):
self.VariableType = self.Parent.GetDataType(self.Variable)
if USE_MPL:
self.ResetData()
def GetVariableType(self):
return self.VariableType
def GetData(self, start_tick=None, end_tick=None):
if USE_MPL and self.IsNumVariable():
if len(self.Data) == 0:
return self.Data
start_idx = end_idx = None
if start_tick is not None:
start_idx = self.GetNearestData(start_tick, -1)
if end_tick is not None:
end_idx = self.GetNearestData(end_tick, 1)
if start_idx is None:
start_idx = 0
if end_idx is not None:
return self.Data[start_idx:end_idx + 1]
else:
return self.Data[start_idx:]
return None
def GetRawValue(self, idx):
if self.VariableType in ["STRING", "WSTRING"] and idx < len(self.RawData):
return self.RawData[idx][0]
return ""
def GetRange(self):
return self.MinValue, self.MaxValue
def ResetData(self):
if self.IsNumVariable():
self.Data = numpy.array([]).reshape(0, 3)
if self.VariableType in ["STRING", "WSTRING"]:
self.RawData = []
self.MinValue = None
self.MaxValue = None
else:
self.Data = None
def IsNumVariable(self):
return (self.Parent.IsNumType(self.VariableType) or
self.VariableType in ["STRING", "WSTRING"])
def NewValue(self, tick, value, forced=False):
if USE_MPL and self.IsNumVariable():
if self.VariableType in ["STRING", "WSTRING"]:
num_value = binascii.crc32(value) & CRC_MASK
else:
num_value = float(value)
if self.MinValue is None:
self.MinValue = num_value
else:
self.MinValue = min(self.MinValue, num_value)
if self.MaxValue is None:
self.MaxValue = num_value
else:
self.MaxValue = max(self.MaxValue, num_value)
forced_value = float(forced)
if self.VariableType in ["STRING", "WSTRING"]:
raw_data = (value, forced_value)
if len(self.RawData) == 0 or self.RawData[-1] != raw_data:
extra_value = len(self.RawData)
self.RawData.append(raw_data)
else:
extra_value = len(self.RawData) - 1
else:
extra_value = forced_value
self.Data = numpy.append(self.Data, [[float(tick), num_value, extra_value]], axis=0)
self.Parent.HasNewData = True
DebugDataConsumer.NewValue(self, tick, value, forced)
def SetForced(self, forced):
if self.Forced != forced:
self.Forced = forced
self.Parent.HasNewData = True
def SetValue(self, value):
if (self.VariableType == "STRING" and value.startswith("'") and value.endswith("'") or
self.VariableType == "WSTRING" and value.startswith('"') and value.endswith('"')):
value = value[1:-1]
if self.Value != value:
self.Value = value
self.Parent.HasNewData = True
def GetValue(self, tick=None, raw=False):
if tick is not None and self.IsNumVariable() and len(self.Data) > 0:
idx = numpy.argmin(abs(self.Data[:, 0] - tick))
if self.VariableType in ["STRING", "WSTRING"]:
value, forced = self.RawData[int(self.Data[idx, 2])]
if not raw:
if self.VariableType == "STRING":
value = "'%s'" % value
else:
value = '"%s"' % value
return value, forced
else:
value = self.Data[idx, 1]
if not raw and isinstance(value, FloatType):
value = "%.6g" % value
return value, self.IsForced()
elif not raw:
if self.VariableType == "STRING":
return "'%s'" % self.Value
elif self.VariableType == "WSTRING":
return '"%s"' % self.Value
elif isinstance(self.Value, FloatType):
return "%.6g" % self.Value
return self.Value
def GetNearestData(self, tick, adjust):
if USE_MPL and self.IsNumVariable():
ticks = self.Data[:, 0]
new_cursor = numpy.argmin(abs(ticks - tick))
if adjust == -1 and ticks[new_cursor] > tick and new_cursor > 0:
new_cursor -= 1
elif adjust == 1 and ticks[new_cursor] < tick and new_cursor < len(ticks):
new_cursor += 1
return new_cursor
return None
class DebugVariableTable(CustomTable):
def GetValue(self, row, col):
if row < self.GetNumberRows():
return self.GetValueByName(row, self.GetColLabelValue(col, False))
return ""
def SetValue(self, row, col, value):
if col < len(self.colnames):
self.SetValueByName(row, self.GetColLabelValue(col, False), value)
def GetValueByName(self, row, colname):
if row < self.GetNumberRows():
if colname == "Variable":
return self.data[row].GetVariable()
elif colname == "Value":
return self.data[row].GetValue()
return ""
def SetValueByName(self, row, colname, value):
if row < self.GetNumberRows():
if colname == "Variable":
self.data[row].SetVariable(value)
elif colname == "Value":
self.data[row].SetValue(value)
def IsForced(self, row):
if row < self.GetNumberRows():
return self.data[row].IsForced()
return False
def IsNumVariable(self, row):
if row < self.GetNumberRows():
return self.data[row].IsNumVariable()
return False
def _updateColAttrs(self, grid):
"""
wx.grid.Grid -> update the column attributes to add the
appropriate renderer given the column name.
Otherwise default to the default renderer.
"""
for row in range(self.GetNumberRows()):
for col in range(self.GetNumberCols()):
colname = self.GetColLabelValue(col, False)
if colname == "Value":
if self.IsForced(row):
grid.SetCellTextColour(row, col, wx.BLUE)
else:
grid.SetCellTextColour(row, col, wx.BLACK)
grid.SetReadOnly(row, col, True)
self.ResizeRow(grid, row)
def AppendItem(self, data):
self.data.append(data)
def InsertItem(self, idx, data):
self.data.insert(idx, data)
def RemoveItem(self, idx):
self.data.pop(idx)
def MoveItem(self, idx, new_idx):
self.data.insert(new_idx, self.data.pop(idx))
def GetItem(self, idx):
return self.data[idx]
class DebugVariableDropTarget(wx.TextDropTarget):
def __init__(self, parent, control=None):
wx.TextDropTarget.__init__(self)
self.ParentWindow = parent
self.ParentControl = control
def __del__(self):
self.ParentWindow = None
self.ParentControl = None
def OnDropText(self, x, y, data):
message = None
try:
values = eval(data)
except:
message = _("Invalid value \"%s\" for debug variable")%data
values = None
if not isinstance(values, TupleType):
message = _("Invalid value \"%s\" for debug variable")%data
values = None
if message is not None:
wx.CallAfter(self.ShowMessage, message)
elif values is not None and values[1] == "debug":
if isinstance(self.ParentControl, CustomGrid):
x, y = self.ParentControl.CalcUnscrolledPosition(x, y)
row = self.ParentControl.YToRow(y - self.ParentControl.GetColLabelSize())
if row == wx.NOT_FOUND:
row = self.ParentWindow.Table.GetNumberRows()
self.ParentWindow.InsertValue(values[0], row, force=True)
elif self.ParentControl is not None:
width, height = self.ParentControl.Canvas.GetSize()
target_idx = self.ParentControl.GetIndex()
merge_type = GRAPH_PARALLEL
if self.ParentControl.Is3DCanvas():
if y > height / 2:
target_idx += 1
if len(values) > 2 and values[2] == "move":
self.ParentWindow.MoveGraph(values[0], target_idx)
else:
self.ParentWindow.InsertValue(values[0], target_idx, force=True)
else:
ax, ay, aw, ah = self.ParentControl.Axes.get_position().bounds
rect = wx.Rect(ax * width, height - (ay + ah) * height,
aw * width, ah * height)
if rect.InsideXY(x, y):
merge_rect = wx.Rect(ax * width, height - (ay + ah) * height,
aw * width / 2., ah * height)
if merge_rect.InsideXY(x, y):
merge_type = GRAPH_ORTHOGONAL
wx.CallAfter(self.ParentWindow.MergeGraphs, values[0], target_idx, merge_type, force=True)
else:
if y > height / 2:
target_idx += 1
if len(values) > 2 and values[2] == "move":
self.ParentWindow.MoveGraph(values[0], target_idx)
else:
self.ParentWindow.InsertValue(values[0], target_idx, force=True)
elif len(values) > 2 and values[2] == "move":
self.ParentWindow.MoveGraph(values[0])
else:
self.ParentWindow.InsertValue(values[0], force=True)
def ShowMessage(self, message):
dialog = wx.MessageDialog(self.ParentWindow, message, _("Error"), wx.OK|wx.ICON_ERROR)
dialog.ShowModal()
dialog.Destroy()
if USE_MPL:
MILLISECOND = 1000000
SECOND = 1000 * MILLISECOND
MINUTE = 60 * SECOND
HOUR = 60 * MINUTE
DAY = 24 * HOUR
ZOOM_VALUES = map(lambda x:("x %.1f" % x, x), [math.sqrt(2) ** i for i in xrange(8)])
RANGE_VALUES = map(lambda x: (str(x), x), [25 * 2 ** i for i in xrange(6)])
TIME_RANGE_VALUES = [("%ds" % i, i * SECOND) for i in (1, 2, 5, 10, 20, 30)] + \
[("%dm" % i, i * MINUTE) for i in (1, 2, 5, 10, 20, 30)] + \
[("%dh" % i, i * HOUR) for i in (1, 2, 3, 6, 12, 24)]
GRAPH_PARALLEL, GRAPH_ORTHOGONAL = range(2)
SCROLLBAR_UNIT = 10
def NextTick(variables):
next_tick = None
for item, data in variables:
if len(data) > 0:
if next_tick is None:
next_tick = data[0][0]
else:
next_tick = min(next_tick, data[0][0])
return next_tick
def OrthogonalData(item, start_tick, end_tick):
data = item.GetData(start_tick, end_tick)
min_value, max_value = item.GetRange()
if min_value is not None and max_value is not None:
center = (min_value + max_value) / 2.
range = max(1.0, max_value - min_value)
else:
center = 0.5
range = 1.0
return data, center - range * 0.55, center + range * 0.55
class DebugVariableViewer(wx.Panel):
def AddViewer(self):
pass
def AddButtons(self):
pass
def __init__(self, parent, window, items=[]):
wx.Panel.__init__(self, parent)
self.SetBackgroundColour(wx.WHITE)
self.SetDropTarget(DebugVariableDropTarget(window, self))
self.ParentWindow = window
self.Items = items
self.ResetVariableNameMask()
self.MainSizer = wx.FlexGridSizer(cols=2, hgap=0, rows=1, vgap=0)
self.AddViewer()
self.AddButtons()
self.MainSizer.AddGrowableCol(0)
self.SetSizer(self.MainSizer)
def __del__(self):
self.ParentWindow = None
def GetIndex(self):
return self.ParentWindow.GetViewerIndex(self)
def GetItem(self, variable):
for item in self.Items:
if item.GetVariable() == variable:
return item
return None
def GetItems(self):
return self.Items
def GetVariables(self):
if len(self.Items) > 1:
variables = [item.GetVariable() for item in self.Items]
if self.GraphType == GRAPH_ORTHOGONAL:
return tuple(variables)
return variables
return self.Items[0].GetVariable()
def ResetVariableNameMask(self):
if len(self.Items) > 1:
self.VariableNameMask = reduce(compute_mask,
[item.GetVariable().split('.') for item in self.Items])
elif len(self.Items) > 0:
self.VariableNameMask = self.Items[0].GetVariable().split('.')[:-1] + ['*']
else:
self.VariableNameMask = []
def AddItem(self, item):
self.Items.append(item)
self.ResetVariableNameMask()
def RemoveItem(self, item):
if item in self.Items:
self.Items.remove(item)
self.ResetVariableNameMask()
def Clear(self):
for item in self.Items:
self.ParentWindow.RemoveDataConsumer(item)
self.Items = []
self.ResetVariableNameMask()
def IsEmpty(self):
return len(self.Items) == 0
def UnregisterObsoleteData(self):
for item in self.Items[:]:
iec_path = item.GetVariable().upper()
if self.ParentWindow.GetDataType(iec_path) is None:
self.ParentWindow.RemoveDataConsumer(item)
self.RemoveItem(item)
else:
self.ParentWindow.AddDataConsumer(iec_path, item)
item.RefreshVariableType()
self.ResetVariableNameMask()
def ResetData(self):
for item in self.Items:
item.ResetData()
def Refresh(self):
pass
def OnForceButton(self, event):
if len(self.Items) == 1:
wx.CallAfter(self.ForceValue, self.Items[0])
else:
menu = wx.Menu(title='')
for item in self.Items:
new_id = wx.NewId()
AppendMenu(menu, help='', id=new_id, kind=wx.ITEM_NORMAL,
text=item.GetVariable(self.VariableNameMask))
self.Bind(wx.EVT_MENU,
self.GetForceVariableMenuFunction(item),
id=new_id)
self.PopupMenu(menu)
event.Skip()
def OnReleaseButton(self, event):
if len(self.Items) == 1:
wx.CallAfter(self.ReleaseValue, self.Items[0])
else:
menu = wx.Menu(title='')
for item in self.Items:
new_id = wx.NewId()
AppendMenu(menu, help='', id=new_id, kind=wx.ITEM_NORMAL,
text=item.GetVariable(self.VariableNameMask))
self.Bind(wx.EVT_MENU,
self.GetReleaseVariableMenuFunction(item),
id=new_id)
self.PopupMenu(menu)
event.Skip()
def OnDeleteButton(self, event):
if len(self.Items) == 1:
wx.CallAfter(self.ParentWindow.DeleteValue, self, self.Items[0])
else:
menu = wx.Menu(title='')
for item in self.Items:
new_id = wx.NewId()
AppendMenu(menu, help='', id=new_id, kind=wx.ITEM_NORMAL,
text=item.GetVariable(self.VariableNameMask))
self.Bind(wx.EVT_MENU,
self.GetDeleteValueMenuFunction(item),
id=new_id)
new_id = wx.NewId()
AppendMenu(menu, help='', id=new_id, kind=wx.ITEM_NORMAL, text=_("All"))
self.Bind(wx.EVT_MENU, self.OnDeleteAllValuesMenu, id=new_id)
self.PopupMenu(menu)
event.Skip()
def GetForceVariableMenuFunction(self, item):
def ForceVariableFunction(event):
self.ForceValue(item)
return ForceVariableFunction
def GetReleaseVariableMenuFunction(self, item):
def ReleaseVariableFunction(event):
self.ReleaseValue(item)
return ReleaseVariableFunction
def GetDeleteValueMenuFunction(self, item):
def DeleteValueFunction(event):
self.ParentWindow.DeleteValue(self, item)
return DeleteValueFunction
def ForceValue(self, item):
iec_path = item.GetVariable().upper()
iec_type = self.ParentWindow.GetDataType(iec_path)
if iec_type is not None:
dialog = ForceVariableDialog(self, iec_type, str(item.GetValue()))
if dialog.ShowModal() == wx.ID_OK:
self.ParentWindow.ForceDataValue(iec_path, dialog.GetValue())
def ReleaseValue(self, item):
iec_path = item.GetVariable().upper()
self.ParentWindow.ReleaseDataValue(iec_path)
def OnDeleteAllValuesMenu(self, event):
wx.CallAfter(self.ParentWindow.DeleteValue, self)
class DebugVariableText(DebugVariableViewer):
def AddViewer(self):
viewer_sizer = wx.FlexGridSizer(cols=2, hgap=0, rows=1, vgap=0)
viewer_sizer.AddGrowableCol(0)
self.MainSizer.AddSizer(viewer_sizer, border=5,
flag=wx.ALL|wx.GROW|wx.ALIGN_CENTER_VERTICAL)
variable_name_label = wx.TextCtrl(self, size=wx.Size(0, -1),
value=self.Items[0].GetVariable(), style=wx.TE_READONLY|wx.TE_RIGHT|wx.NO_BORDER)
variable_name_label.SetSelection(variable_name_label.GetLastPosition(), -1)
viewer_sizer.AddWindow(variable_name_label, flag=wx.GROW)
self.ValueLabel = wx.TextCtrl(self,
size=wx.Size(100, -1), style=wx.TE_READONLY|wx.TE_RIGHT|wx.NO_BORDER)
viewer_sizer.AddWindow(self.ValueLabel,
border=5, flag=wx.LEFT)
def AddButtons(self):
button_sizer = wx.BoxSizer(wx.HORIZONTAL)
self.MainSizer.AddSizer(button_sizer, border=5,
flag=wx.TOP|wx.BOTTOM|wx.RIGHT|wx.ALIGN_CENTER_VERTICAL)
buttons = [
("ForceButton", "force", _("Force value")),
("ReleaseButton", "release", _("Release value")),
("DeleteButton", "remove_element", _("Remove debug variable"))]
for name, bitmap, help in buttons:
button = wx.lib.buttons.GenBitmapButton(self, bitmap=GetBitmap(bitmap),
size=wx.Size(28, 28), style=wx.NO_BORDER)
button.SetToolTipString(help)
setattr(self, name, button)
self.Bind(wx.EVT_BUTTON, getattr(self, "On" + name), button)
button_sizer.AddWindow(button, border=5, flag=wx.LEFT)
def Refresh(self):
self.ValueLabel.ChangeValue(self.Items[0].GetValue())
if self.Items[0].IsForced():
self.ValueLabel.SetForegroundColour(wx.BLUE)
else:
self.ValueLabel.SetForegroundColour(wx.BLACK)
self.ValueLabel.SetSelection(self.ValueLabel.GetLastPosition(), -1)
def compute_mask(x, y):
mask = []
for xp, yp in zip(x, y):
if xp == yp:
mask.append(xp)
else:
mask.append("*")
return mask
class DebugVariableGraphic(DebugVariableViewer):
def __init__(self, parent, window, items, graph_type):
DebugVariableViewer.__init__(self, parent, window, items)
self.GraphType = graph_type
self.CursorTick = None
self.ResetGraphics()
def AddViewer(self):
self.Figure = matplotlib.figure.Figure(facecolor='w')
self.Canvas = FigureCanvas(self, -1, self.Figure)
self.Canvas.SetMinSize(wx.Size(200, 200))
self.Canvas.SetDropTarget(DebugVariableDropTarget(self.ParentWindow, self))
self.Canvas.mpl_connect('motion_notify_event', self.OnCanvasMotion)
self.Canvas.Bind(wx.EVT_LEFT_DOWN, self.OnCanvasClick)
self.MainSizer.AddWindow(self.Canvas, flag=wx.GROW)
def AddButtons(self):
button_sizer = wx.BoxSizer(wx.VERTICAL)
self.MainSizer.AddSizer(button_sizer, border=5,
flag=wx.RIGHT|wx.ALIGN_CENTER_VERTICAL)
buttons = [
("ForceButton", "force", _("Force value")),
("ReleaseButton", "release", _("Release value")),
("SplitButton", "split", _("Split graphs")),
("DeleteButton", "remove_element", _("Remove debug variable"))]
for name, bitmap, help in buttons:
button = wx.lib.buttons.GenBitmapButton(self, bitmap=GetBitmap(bitmap),
size=wx.Size(28, 28), style=wx.NO_BORDER)
button.SetToolTipString(help)
setattr(self, name, button)
self.Bind(wx.EVT_BUTTON, getattr(self, "On" + name), button)
button_sizer.AddWindow(button, border=5, flag=wx.LEFT)
def OnCanvasClick(self, event):
x, y = event.GetPosition()
width, height = self.Canvas.GetSize()
if len(self.Items) == 1:
ax, ay, aw, ah = self.Axes.get_position().bounds
rect = wx.Rect(ax * width, height - (ay + ah) * height,
aw * width, ah * height)
if rect.InsideXY(x, y):
self.DoDragDrop(0)
return
elif self.Legend is not None:
item_idx = None
for i, t in enumerate(self.Legend.get_texts()):
(x0, y0), (x1, y1) = t.get_window_extent().get_points()
rect = wx.Rect(x0, height - y1, x1 - x0, y1 - y0)
if rect.InsideXY(x, y):
item_idx = i
break
if item_idx is not None:
self.DoDragDrop(item_idx)
return
event.Skip()
def DoDragDrop(self, item_idx):
self.ParentWindow.ResetCursorTickRatio()
data = wx.TextDataObject(str((self.Items[item_idx].GetVariable(), "debug", "move")))
dragSource = wx.DropSource(self.Canvas)
dragSource.SetData(data)
dragSource.DoDragDrop()
def OnAxesMotion(self, event):
if self.Is3DCanvas():
current_time = gettime()
if current_time - self.LastMotionTime > REFRESH_PERIOD:
self.LastMotionTime = current_time
Axes3D._on_move(self.Axes, event)
def OnCanvasMotion(self, event):
if not self.Is3DCanvas():
if event.inaxes == self.Axes:
start_tick, end_tick = self.ParentWindow.GetRange()
cursor_tick_ratio = None
if self.GraphType == GRAPH_ORTHOGONAL:
x_data = self.Items[0].GetData(start_tick, end_tick)
y_data = self.Items[1].GetData(start_tick, end_tick)
if len(x_data) > 0 and len(y_data) > 0:
length = min(len(x_data), len(y_data))
d = numpy.sqrt((x_data[:length,1]-event.xdata) ** 2 + (y_data[:length,1]-event.ydata) ** 2)
cursor_tick_ratio = float(x_data[numpy.argmin(d), 0] - start_tick) / (end_tick - start_tick)
else:
data = self.Items[0].GetData(start_tick, end_tick)
if len(data) > 0:
x_min, x_max = self.Axes.get_xlim()
cursor_tick_ratio = float(event.xdata - x_min) / (x_max - x_min)
if cursor_tick_ratio is not None:
self.ParentWindow.SetCursorTickRatio(cursor_tick_ratio)
else:
self.ParentWindow.ResetCursorTickRatio()
def OnSplitButton(self, event):
if len(self.Items) == 2 or self.GraphType == GRAPH_ORTHOGONAL:
wx.CallAfter(self.ParentWindow.SplitGraphs, self)
else:
menu = wx.Menu(title='')
for item in self.Items:
new_id = wx.NewId()
AppendMenu(menu, help='', id=new_id, kind=wx.ITEM_NORMAL,
text=item.GetVariable(self.VariableNameMask))
self.Bind(wx.EVT_MENU,
self.GetSplitGraphMenuFunction(item),
id=new_id)
new_id = wx.NewId()
AppendMenu(menu, help='', id=new_id, kind=wx.ITEM_NORMAL, text=_("All"))
self.Bind(wx.EVT_MENU, self.OnSplitAllGraphsMenu, id=new_id)
self.PopupMenu(menu)
event.Skip()
def ResetGraphics(self):
self.Figure.clear()
if self.Is3DCanvas():
self.Axes = self.Figure.gca(projection='3d')
self.Axes.set_color_cycle(['b'])
self.LastMotionTime = gettime()
setattr(self.Axes, "_on_move", self.OnAxesMotion)
self.Axes.mouse_init()
else:
self.Axes = self.Figure.gca()
if self.GraphType == GRAPH_ORTHOGONAL:
self.Figure.subplotpars.update(bottom=0.15)
self.Axes.set_title('.'.join(self.VariableNameMask))
self.Plots = []
self.VLine = None
self.HLine = None
self.TickLabel = None
self.SplitButton.Enable(len(self.Items) > 1)
def AddItem(self, item):
DebugVariableViewer.AddItem(self, item)
self.ResetGraphics()
def RemoveItem(self, item):
DebugVariableViewer.RemoveItem(self, item)
if not self.IsEmpty():
self.ResetVariableNameMask()
self.ResetGraphics()
def UnregisterObsoleteData(self):
DebugVariableViewer.UnregisterObsoleteData(self)
if not self.IsEmpty():
self.ResetVariableNameMask()
self.ResetGraphics()
def Is3DCanvas(self):
return self.GraphType == GRAPH_ORTHOGONAL and len(self.Items) == 3
def SetCursorTick(self, cursor_tick):
self.CursorTick = cursor_tick
def Refresh(self, refresh_graphics=True):
if refresh_graphics:
start_tick, end_tick = self.ParentWindow.GetRange()
if self.GraphType == GRAPH_PARALLEL:
min_value = max_value = None
for idx, item in enumerate(self.Items):
data = item.GetData(start_tick, end_tick)
if data is not None:
item_min_value, item_max_value = item.GetRange()
if min_value is None:
min_value = item_min_value
elif item_min_value is not None:
min_value = min(min_value, item_min_value)
if max_value is None:
max_value = item_max_value
elif item_max_value is not None:
max_value = max(max_value, item_max_value)
if len(self.Plots) <= idx:
self.Plots.append(
self.Axes.plot(data[:, 0], data[:, 1])[0])
else:
self.Plots[idx].set_data(data[:, 0], data[:, 1])
if min_value is not None and max_value is not None:
y_center = (min_value + max_value) / 2.
y_range = max(1.0, max_value - min_value)
else:
y_center = 0.5
y_range = 1.0
x_min, x_max = start_tick, end_tick
y_min, y_max = y_center - y_range * 0.55, y_center + y_range * 0.55
if self.CursorTick is not None:
if self.VLine is None:
self.VLine = self.Axes.axvline(self.CursorTick, color='r')
else:
self.VLine.set_xdata((self.CursorTick, self.CursorTick))
self.VLine.set_visible(True)
tick_label = self.ParentWindow.GetTickLabel(self.CursorTick)
if self.TickLabel is None:
self.TickLabel = self.Axes.text(0.5, 0.05, tick_label,
size = 'small', transform = self.Axes.transAxes)
else:
self.TickLabel.set_text(tick_label)
else:
if self.VLine is not None:
self.VLine.set_visible(False)
if self.TickLabel is not None:
self.TickLabel.set_text("")
else:
min_start_tick = reduce(max, [item.GetData()[0, 0]
for item in self.Items
if len(item.GetData()) > 0], 0)
start_tick = max(start_tick, min_start_tick)
end_tick = max(end_tick, min_start_tick)
x_data, x_min, x_max = OrthogonalData(self.Items[0], start_tick, end_tick)
y_data, y_min, y_max = OrthogonalData(self.Items[1], start_tick, end_tick)
if self.CursorTick is not None:
x_cursor, x_forced = self.Items[0].GetValue(self.CursorTick, raw=True)
y_cursor, y_forced = self.Items[1].GetValue(self.CursorTick, raw=True)
length = 0
if x_data is not None and y_data is not None:
length = min(len(x_data), len(y_data))
if len(self.Items) < 3:
if x_data is not None and y_data is not None:
if len(self.Plots) == 0:
self.Plots.append(
self.Axes.plot(x_data[:, 1][:length],
y_data[:, 1][:length])[0])
else:
self.Plots[0].set_data(
x_data[:, 1][:length],
y_data[:, 1][:length])
if self.CursorTick is not None:
if self.VLine is None:
self.VLine = self.Axes.axvline(x_cursor, color='r')
else:
self.VLine.set_xdata((x_cursor, x_cursor))
if self.HLine is None:
self.HLine = self.Axes.axhline(y_cursor, color='r')
else:
self.HLine.set_ydata((y_cursor, y_cursor))
self.VLine.set_visible(True)
self.HLine.set_visible(True)
tick_label = self.ParentWindow.GetTickLabel(self.CursorTick)
if self.TickLabel is None:
self.TickLabel = self.Axes.text(0.05, 0.90, tick_label,
size = 'small', transform = self.Axes.transAxes)
else:
self.TickLabel.set_text(tick_label)
else:
if self.VLine is not None:
self.VLine.set_visible(False)
if self.HLine is not None:
self.HLine.set_visible(False)
if self.TickLabel is not None:
self.TickLabel.set_text("")
else:
while len(self.Axes.lines) > 0:
self.Axes.lines.pop()
z_data, z_min, z_max = OrthogonalData(self.Items[2], start_tick, end_tick)
if self.CursorTick is not None:
z_cursor, z_forced = self.Items[2].GetValue(self.CursorTick, raw=True)
if x_data is not None and y_data is not None and z_data is not None:
length = min(length, len(z_data))
self.Axes.plot(x_data[:, 1][:length],
y_data[:, 1][:length],
zs = z_data[:, 1][:length])
self.Axes.set_zlim(z_min, z_max)
if self.CursorTick is not None:
for kwargs in [{"xs": numpy.array([x_min, x_max])},
{"ys": numpy.array([y_min, y_max])},
{"zs": numpy.array([z_min, z_max])}]:
for param, value in [("xs", numpy.array([x_cursor, x_cursor])),
("ys", numpy.array([y_cursor, y_cursor])),
("zs", numpy.array([z_cursor, z_cursor]))]:
kwargs.setdefault(param, value)
kwargs["color"] = 'r'
self.Axes.plot(**kwargs)
self.Axes.set_xlim(x_min, x_max)
self.Axes.set_ylim(y_min, y_max)
if self.CursorTick is not None:
values, forced = apply(zip, [item.GetValue(self.CursorTick) for item in self.Items])
else:
values, forced = apply(zip, [(item.GetValue(), item.IsForced()) for item in self.Items])
names = [item.GetVariable(self.VariableNameMask) for item in self.Items]
labels = map(lambda x: "%s: %s" % x, zip(names, values))
colors = map(lambda x: {True: 'b', False: 'k'}[x], forced)
if self.GraphType == GRAPH_PARALLEL:
self.Legend = self.Axes.legend(self.Plots, labels,
loc="upper left", frameon=False,
prop={'size':'small'})
for t, color in zip(self.Legend.get_texts(), colors):
t.set_color(color)
else:
self.Legend = None
self.Axes.set_xlabel(labels[0], fontdict={'size':'small','color':colors[0]})
self.Axes.set_ylabel(labels[1], fontdict={'size':'small','color':colors[1]})
if len(labels) > 2:
self.Axes.set_zlabel(labels[2], fontdict={'size':'small','color':colors[2]})
self.Canvas.draw()
def GetSplitGraphMenuFunction(self, item):
def SplitGraphFunction(event):
self.ParentWindow.SplitGraphs(self, item)
return SplitGraphFunction
def OnSplitAllGraphsMenu(self, event):
self.ParentWindow.SplitGraphs(self)
class DebugVariablePanel(wx.Panel, DebugViewer):
def __init__(self, parent, producer, window):
wx.Panel.__init__(self, parent, style=wx.SP_3D|wx.TAB_TRAVERSAL)
self.ParentWindow = window
DebugViewer.__init__(self, producer, True)
self.HasNewData = False
if USE_MPL:
main_sizer = wx.BoxSizer(wx.VERTICAL)
self.Ticks = numpy.array([])
self.RangeValues = None
self.StartTick = 0
self.Fixed = False
self.Force = False
self.GraphicPanels = []
graphics_button_sizer = wx.BoxSizer(wx.HORIZONTAL)
main_sizer.AddSizer(graphics_button_sizer, border=5, flag=wx.GROW|wx.ALL)
range_label = wx.StaticText(self, label=_('Range:'))
graphics_button_sizer.AddWindow(range_label, flag=wx.ALIGN_CENTER_VERTICAL)
self.CanvasRange = wx.ComboBox(self, style=wx.CB_READONLY)
self.Bind(wx.EVT_COMBOBOX, self.OnRangeChanged, self.CanvasRange)
graphics_button_sizer.AddWindow(self.CanvasRange, 1,
border=5, flag=wx.LEFT|wx.ALIGN_CENTER_VERTICAL)
for name, bitmap, help in [
("ResetButton", "reset", _("Clear the graph values")),
("CurrentButton", "current", _("Go to current value")),
("ExportGraphButton", "export_graph", _("Export graph values to clipboard"))]:
button = wx.lib.buttons.GenBitmapButton(self,
bitmap=GetBitmap(bitmap),
size=wx.Size(28, 28), style=wx.NO_BORDER)
button.SetToolTipString(help)
setattr(self, name, button)
self.Bind(wx.EVT_BUTTON, getattr(self, "On" + name), button)
graphics_button_sizer.AddWindow(button, border=5, flag=wx.LEFT)
self.CanvasPosition = wx.ScrollBar(self,
size=wx.Size(0, 16), style=wx.SB_HORIZONTAL)
self.CanvasPosition.Bind(wx.EVT_SCROLL_THUMBTRACK,
self.OnPositionChanging, self.CanvasPosition)
self.CanvasPosition.Bind(wx.EVT_SCROLL_LINEUP,
self.OnPositionChanging, self.CanvasPosition)
self.CanvasPosition.Bind(wx.EVT_SCROLL_LINEDOWN,
self.OnPositionChanging, self.CanvasPosition)
self.CanvasPosition.Bind(wx.EVT_SCROLL_PAGEUP,
self.OnPositionChanging, self.CanvasPosition)
self.CanvasPosition.Bind(wx.EVT_SCROLL_PAGEDOWN,
self.OnPositionChanging, self.CanvasPosition)
main_sizer.AddWindow(self.CanvasPosition, border=5, flag=wx.GROW|wx.LEFT|wx.RIGHT|wx.BOTTOM)
self.GraphicsWindow = wx.ScrolledWindow(self, style=wx.HSCROLL|wx.VSCROLL)
self.GraphicsWindow.SetDropTarget(DebugVariableDropTarget(self))
self.GraphicsWindow.Bind(wx.EVT_SIZE, self.OnGraphicsWindowResize)
main_sizer.AddWindow(self.GraphicsWindow, 1, flag=wx.GROW)
self.GraphicsSizer = wx.BoxSizer(wx.VERTICAL)
self.GraphicsWindow.SetSizer(self.GraphicsSizer)
self.RefreshCanvasRange()
self.CursorTickRatio = None
else:
main_sizer = wx.FlexGridSizer(cols=1, hgap=0, rows=2, vgap=0)
main_sizer.AddGrowableCol(0)
main_sizer.AddGrowableRow(1)
button_sizer = wx.BoxSizer(wx.HORIZONTAL)
main_sizer.AddSizer(button_sizer, border=5,
flag=wx.ALIGN_RIGHT|wx.ALL)
for name, bitmap, help in [
("DeleteButton", "remove_element", _("Remove debug variable")),
("UpButton", "up", _("Move debug variable up")),
("DownButton", "down", _("Move debug variable down"))]:
button = wx.lib.buttons.GenBitmapButton(self, bitmap=GetBitmap(bitmap),
size=wx.Size(28, 28), style=wx.NO_BORDER)
button.SetToolTipString(help)
setattr(self, name, button)
button_sizer.AddWindow(button, border=5, flag=wx.LEFT)
self.VariablesGrid = CustomGrid(self, size=wx.Size(-1, 150), style=wx.VSCROLL)
self.VariablesGrid.SetDropTarget(DebugVariableDropTarget(self, self.VariablesGrid))
self.VariablesGrid.Bind(wx.grid.EVT_GRID_CELL_RIGHT_CLICK,
self.OnVariablesGridCellRightClick)
self.VariablesGrid.Bind(wx.grid.EVT_GRID_CELL_LEFT_CLICK,
self.OnVariablesGridCellLeftClick)
main_sizer.AddWindow(self.VariablesGrid, flag=wx.GROW)
self.Table = DebugVariableTable(self, [], GetDebugVariablesTableColnames())
self.VariablesGrid.SetTable(self.Table)
self.VariablesGrid.SetButtons({"Delete": self.DeleteButton,
"Up": self.UpButton,
"Down": self.DownButton})
def _AddVariable(new_row):
return self.VariablesGrid.GetGridCursorRow()
setattr(self.VariablesGrid, "_AddRow", _AddVariable)
def _DeleteVariable(row):
item = self.Table.GetItem(row)
self.RemoveDataConsumer(item)
self.Table.RemoveItem(row)
self.RefreshView()
setattr(self.VariablesGrid, "_DeleteRow", _DeleteVariable)
def _MoveVariable(row, move):
new_row = max(0, min(row + move, self.Table.GetNumberRows() - 1))
if new_row != row:
self.Table.MoveItem(row, new_row)
self.RefreshView()
return new_row
setattr(self.VariablesGrid, "_MoveRow", _MoveVariable)
self.VariablesGrid.SetRowLabelSize(0)
self.GridColSizes = [200, 100]
for col in range(self.Table.GetNumberCols()):
attr = wx.grid.GridCellAttr()
attr.SetAlignment(wx.ALIGN_RIGHT, wx.ALIGN_CENTER)
self.VariablesGrid.SetColAttr(col, attr)
self.VariablesGrid.SetColSize(col, self.GridColSizes[col])
self.Table.ResetView(self.VariablesGrid)
self.VariablesGrid.RefreshButtons()
self.SetSizer(main_sizer)
def SetDataProducer(self, producer):
DebugViewer.SetDataProducer(self, producer)
if USE_MPL:
if self.DataProducer is not None:
self.Ticktime = self.DataProducer.GetTicktime()
self.RefreshCanvasRange()
else:
self.Ticktime = 0
def RefreshNewData(self, *args, **kwargs):
if self.HasNewData or self.Force:
self.HasNewData = False
self.RefreshView(only_values=True)
DebugViewer.RefreshNewData(self, *args, **kwargs)
def NewDataAvailable(self, tick, *args, **kwargs):
if USE_MPL and tick is not None:
self.Ticks = numpy.append(self.Ticks, [tick])
if not self.Fixed or tick < self.StartTick + self.CurrentRange:
self.StartTick = max(self.StartTick, tick - self.CurrentRange)
self.ResetCursorTick(False)
DebugViewer.NewDataAvailable(self, tick, *args, **kwargs)
def ForceRefresh(self):
self.Force = True
wx.CallAfter(self.NewDataAvailable, None, True)
def RefreshGraphicsSizer(self):
self.GraphicsSizer.Clear()
for panel in self.GraphicPanels:
self.GraphicsSizer.AddWindow(panel, flag=wx.GROW)
self.GraphicsSizer.Layout()
self.RefreshGraphicsWindowScrollbars()
def SetCursorTickRatio(self, cursor_tick_ratio):
self.CursorTickRatio = cursor_tick_ratio
self.ResetCursorTick()
def ResetCursorTickRatio(self):
self.CursorTickRatio = None
self.ResetCursorTick()
def ResetCursorTick(self, force_refresh=True):
if self.CursorTickRatio is not None and len(self.Ticks) > 0:
raw_tick = self.StartTick + self.CursorTickRatio * self.CurrentRange
cursor_tick = self.Ticks[numpy.argmin(abs(self.Ticks - raw_tick))]
else:
cursor_tick = None
for panel in self.GraphicPanels:
if isinstance(panel, DebugVariableGraphic):
panel.SetCursorTick(cursor_tick)
if force_refresh:
self.ForceRefresh()
def GetTickLabel(self, tick):
label = "Tick: %d" % tick
if self.Ticktime > 0:
tick_duration = int(tick * self.Ticktime)
not_null = False
duration = ""
for value, format in [(tick_duration / DAY, "%dd"),
((tick_duration % DAY) / HOUR, "%dh"),
((tick_duration % HOUR) / MINUTE, "%dm"),
((tick_duration % MINUTE) / SECOND, "%ds")]:
if value > 0 or not_null:
duration += format % value
not_null = True
duration += "%gms" % (float(tick_duration % SECOND) / MILLISECOND)
label += "(%s)" % duration
return label
def RefreshView(self, only_values=False):
if USE_MPL:
self.RefreshCanvasPosition()
if not self.Fixed or self.Force:
self.Force = False
refresh_graphics = True
else:
refresh_graphics = False
for panel in self.GraphicPanels:
if isinstance(panel, DebugVariableGraphic):
panel.Refresh(refresh_graphics)
else:
panel.Refresh()
else:
self.Freeze()
if only_values:
for col in xrange(self.Table.GetNumberCols()):
if self.Table.GetColLabelValue(col, False) == "Value":
for row in xrange(self.Table.GetNumberRows()):
self.VariablesGrid.SetCellValue(row, col, str(self.Table.GetValueByName(row, "Value")))
else:
self.Table.ResetView(self.VariablesGrid)
self.VariablesGrid.RefreshButtons()
self.Thaw()
def UnregisterObsoleteData(self):
if USE_MPL:
if self.DataProducer is not None:
self.Ticktime = self.DataProducer.GetTicktime()
self.RefreshCanvasRange()
for panel in self.GraphicPanels:
panel.UnregisterObsoleteData()
if panel.IsEmpty():
if panel.Canvas.HasCapture():
panel.Canvas.ReleaseMouse()
self.GraphicPanels.remove(panel)
panel.Destroy()
self.RefreshGraphicsSizer()
self.ForceRefresh()
else:
items = [(idx, item) for idx, item in enumerate(self.Table.GetData())]
items.reverse()
for idx, item in items:
iec_path = item.GetVariable().upper()
if self.GetDataType(iec_path) is None:
self.RemoveDataConsumer(item)
self.Table.RemoveItem(idx)
else:
self.AddDataConsumer(iec_path, item)
item.RefreshVariableType()
self.Freeze()
self.Table.ResetView(self.VariablesGrid)
self.VariablesGrid.RefreshButtons()
self.Thaw()
def ResetView(self):
self.DeleteDataConsumers()
if USE_MPL:
for panel in self.GraphicPanels:
panel.Destroy()
self.GraphicPanels = []
self.RefreshGraphicsSizer()
else:
self.Table.Empty()
self.Freeze()
self.Table.ResetView(self.VariablesGrid)
self.VariablesGrid.RefreshButtons()
self.Thaw()
def RefreshCanvasRange(self):
if self.Ticktime == 0 and self.RangeValues != RANGE_VALUES:
self.RangeValues = RANGE_VALUES
self.CanvasRange.Clear()
for text, value in RANGE_VALUES:
self.CanvasRange.Append(text)
self.CanvasRange.SetStringSelection(RANGE_VALUES[0][0])
self.CurrentRange = RANGE_VALUES[0][1]
self.RefreshView(True)
elif self.Ticktime != 0 and self.RangeValues != TIME_RANGE_VALUES:
self.RangeValues = TIME_RANGE_VALUES
self.CanvasRange.Clear()
for text, value in TIME_RANGE_VALUES:
self.CanvasRange.Append(text)
self.CanvasRange.SetStringSelection(TIME_RANGE_VALUES[0][0])
self.CurrentRange = TIME_RANGE_VALUES[0][1] / self.Ticktime
self.RefreshView(True)
def RefreshCanvasPosition(self):
if len(self.Ticks) > 0:
pos = int(self.StartTick - self.Ticks[0])
range = int(self.Ticks[-1] - self.Ticks[0])
else:
pos = 0
range = 0
self.CanvasPosition.SetScrollbar(pos, self.CurrentRange, range, self.CurrentRange)
def GetForceVariableMenuFunction(self, iec_path, item):
iec_type = self.GetDataType(iec_path)
def ForceVariableFunction(event):
if iec_type is not None:
dialog = ForceVariableDialog(self, iec_type, str(item.GetValue()))
if dialog.ShowModal() == wx.ID_OK:
self.ForceDataValue(iec_path, dialog.GetValue())
return ForceVariableFunction
def GetReleaseVariableMenuFunction(self, iec_path):
def ReleaseVariableFunction(event):
self.ReleaseDataValue(iec_path)
return ReleaseVariableFunction
def OnVariablesGridCellLeftClick(self, event):
if event.GetCol() == 0:
row = event.GetRow()
data = wx.TextDataObject(str((self.Table.GetValueByName(row, "Variable"), "debug")))
dragSource = wx.DropSource(self.VariablesGrid)
dragSource.SetData(data)
dragSource.DoDragDrop()
event.Skip()
def OnVariablesGridCellRightClick(self, event):
row, col = event.GetRow(), event.GetCol()
if self.Table.GetColLabelValue(col, False) == "Value":
iec_path = self.Table.GetValueByName(row, "Variable").upper()
menu = wx.Menu(title='')
new_id = wx.NewId()
AppendMenu(menu, help='', id=new_id, kind=wx.ITEM_NORMAL, text=_("Force value"))
self.Bind(wx.EVT_MENU, self.GetForceVariableMenuFunction(iec_path.upper(), self.Table.GetItem(row)), id=new_id)
new_id = wx.NewId()
AppendMenu(menu, help='', id=new_id, kind=wx.ITEM_NORMAL, text=_("Release value"))
self.Bind(wx.EVT_MENU, self.GetReleaseVariableMenuFunction(iec_path.upper()), id=new_id)
if self.Table.IsForced(row):
menu.Enable(new_id, True)
else:
menu.Enable(new_id, False)
self.PopupMenu(menu)
menu.Destroy()
event.Skip()
def RefreshRange(self):
if len(self.Ticks) > 0:
if self.Fixed and self.Ticks[-1] - self.Ticks[0] < self.CurrentRange:
self.Fixed = False
if self.Fixed:
self.StartTick = min(self.StartTick, self.Ticks[-1] - self.CurrentRange)
else:
self.StartTick = max(self.Ticks[0], self.Ticks[-1] - self.CurrentRange)
self.ForceRefresh()
def OnRangeChanged(self, event):
try:
if self.Ticktime == 0:
self.CurrentRange = self.RangeValues[self.CanvasRange.GetSelection()][1]
else:
self.CurrentRange = self.RangeValues[self.CanvasRange.GetSelection()][1] / self.Ticktime
except ValueError, e:
self.CanvasRange.SetValue(str(self.CurrentRange))
wx.CallAfter(self.RefreshRange)
event.Skip()
def OnResetButton(self, event):
self.StartTick = 0
self.Fixed = False
for panel in self.GraphicPanels:
panel.ResetData()
self.ForceRefresh()
event.Skip()
def OnCurrentButton(self, event):
if len(self.Ticks) > 0:
self.StartTick = max(self.Ticks[0], self.Ticks[-1] - self.CurrentRange)
self.Fixed = False
self.ForceRefresh()
event.Skip()
def CopyDataToClipboard(self, variables):
text = "tick;%s;\n" % ";".join([item.GetVariable() for item, data in variables])
next_tick = NextTick(variables)
while next_tick is not None:
values = []
for item, data in variables:
if len(data) > 0:
if next_tick == data[0][0]:
var_type = item.GetVariableType()
if var_type in ["STRING", "WSTRING"]:
value = item.GetRawValue(int(data.pop(0)[2]))
if var_type == "STRING":
values.append("'%s'" % value)
else:
values.append('"%s"' % value)
else:
values.append("%.3f" % data.pop(0)[1])
else:
values.append("")
else:
values.append("")
text += "%d;%s;\n" % (next_tick, ";".join(values))
next_tick = NextTick(variables)
self.ParentWindow.SetCopyBuffer(text)
def OnExportGraphButton(self, event):
variables = []
if USE_MPL:
items = []
for panel in self.GraphicPanels:
items.extend(panel.GetItems())
else:
items = self.Table.GetData()
for item in items:
if item.IsNumVariable():
variables.append((item, [entry for entry in item.GetData()]))
wx.CallAfter(self.CopyDataToClipboard, variables)
event.Skip()
def OnPositionChanging(self, event):
if len(self.Ticks) > 0:
self.StartTick = self.Ticks[0] + event.GetPosition()
self.Fixed = True
self.ForceRefresh()
event.Skip()
def GetRange(self):
return self.StartTick, self.StartTick + self.CurrentRange
def GetViewerIndex(self, viewer):
if viewer in self.GraphicPanels:
return self.GraphicPanels.index(viewer)
return None
def InsertValue(self, iec_path, idx = None, force=False):
if USE_MPL:
for panel in self.GraphicPanels:
if panel.GetItem(iec_path) is not None:
return
if idx is None:
idx = len(self.GraphicPanels)
else:
for item in self.Table.GetData():
if iec_path == item.GetVariable():
return
if idx is None:
idx = self.Table.GetNumberRows()
item = VariableTableItem(self, iec_path)
result = self.AddDataConsumer(iec_path.upper(), item)
if result is not None or force:
if USE_MPL:
if item.IsNumVariable():
panel = DebugVariableGraphic(self.GraphicsWindow, self, [item], GRAPH_PARALLEL)
else:
panel = DebugVariableText(self.GraphicsWindow, self, [item])
if idx is not None:
self.GraphicPanels.insert(idx, panel)
else:
self.GraphicPanels.append(panel)
self.RefreshGraphicsSizer()
else:
self.Table.InsertItem(idx, item)
self.ForceRefresh()
def MoveGraph(self, iec_path, idx = None):
if idx is None:
idx = len(self.GraphicPanels)
source_panel = None
item = None
for panel in self.GraphicPanels:
item = panel.GetItem(iec_path)
if item is not None:
source_panel = panel
break
if source_panel is not None:
source_panel.RemoveItem(item)
if source_panel.IsEmpty():
if source_panel.Canvas.HasCapture():
source_panel.Canvas.ReleaseMouse()
self.GraphicPanels.remove(source_panel)
source_panel.Destroy()
panel = DebugVariableGraphic(self.GraphicsWindow, self, [item], GRAPH_PARALLEL)
self.GraphicPanels.insert(idx, panel)
self.RefreshGraphicsSizer()
self.ForceRefresh()
def SplitGraphs(self, source_panel, item=None):
source_idx = self.GetViewerIndex(source_panel)
if source_idx is not None:
if item is None:
source_items = source_panel.GetItems()
while len(source_items) > 1:
item = source_items.pop(-1)
if item.IsNumVariable():
panel = DebugVariableGraphic(self.GraphicsWindow, self, [item], GRAPH_PARALLEL)
else:
panel = DebugVariableText(self.GraphicsWindow, self, [item])
self.GraphicPanels.insert(source_idx + 1, panel)
if isinstance(source_panel, DebugVariableGraphic):
source_panel.GraphType = GRAPH_PARALLEL
source_panel.ResetGraphics()
else:
source_panel.RemoveItem(item)
if item.IsNumVariable():
panel = DebugVariableGraphic(self.GraphicsWindow, self, [item], GRAPH_PARALLEL)
else:
panel = DebugVariableText(self.GraphicsWindow, self, [item])
self.GraphicPanels.insert(source_idx + 1, panel)
self.RefreshGraphicsSizer()
self.ForceRefresh()
def MergeGraphs(self, source, target_idx, merge_type, force=False):
source_item = None
source_panel = None
for panel in self.GraphicPanels:
source_item = panel.GetItem(source)
if source_item is not None:
source_panel = panel
break
if source_item is None:
item = VariableTableItem(self, source)
if item.IsNumVariable():
result = self.AddDataConsumer(source.upper(), item)
if result is not None or force:
source_item = item
if source_item is not None:
target_panel = self.GraphicPanels[target_idx]
graph_type = target_panel.GraphType
if target_panel != source_panel:
if (merge_type == GRAPH_PARALLEL and graph_type != merge_type or
merge_type == GRAPH_ORTHOGONAL and
(graph_type == GRAPH_PARALLEL and len(target_panel.Items) > 1 or
graph_type == GRAPH_ORTHOGONAL and len(target_panel.Items) >= 3)):
return
if source_panel is not None:
source_panel.RemoveItem(source_item)
if source_panel.IsEmpty():
if source_panel.Canvas.HasCapture():
source_panel.Canvas.ReleaseMouse()
self.GraphicPanels.remove(source_panel)
source_panel.Destroy()
target_panel.AddItem(source_item)
target_panel.GraphType = merge_type
target_panel.ResetGraphics()
self.RefreshGraphicsSizer()
self.ForceRefresh()
def DeleteValue(self, source_panel, item=None):
source_idx = self.GetViewerIndex(source_panel)
if source_idx is not None:
if item is None:
source_panel.Clear()
source_panel.Destroy()
self.GraphicPanels.remove(source_panel)
self.RefreshGraphicsSizer()
else:
source_panel.RemoveItem(item)
if source_panel.IsEmpty():
source_panel.Destroy()
self.GraphicPanels.remove(source_panel)
self.RefreshGraphicsSizer()
self.ForceRefresh()
def GetDebugVariables(self):
if USE_MPL:
return [panel.GetVariables() for panel in self.GraphicPanels]
else:
return [item.GetVariable() for item in self.Table.GetData()]
def SetDebugVariables(self, variables):
if USE_MPL:
for variable in variables:
if isinstance(variable, (TupleType, ListType)):
items = []
for iec_path in variable:
item = VariableTableItem(self, iec_path)
if not item.IsNumVariable():
continue
self.AddDataConsumer(iec_path.upper(), item)
items.append(item)
if isinstance(variable, ListType):
panel = DebugVariableGraphic(self.GraphicsWindow, self, items, GRAPH_PARALLEL)
elif isinstance(variable, TupleType) and len(items) <= 3:
panel = DebugVariableGraphic(self.GraphicsWindow, self, items, GRAPH_ORTHOGONAL)
else:
continue
self.GraphicPanels.append(panel)
self.RefreshGraphicsSizer()
else:
self.InsertValue(variable, force=True)
self.ForceRefresh()
else:
for variable in variables:
if isinstance(variable, (ListType, TupleType)):
for iec_path in variable:
self.InsertValue(iec_path, force=True)
else:
self.InsertValue(variable, force=True)
def ResetGraphicsValues(self):
if USE_MPL:
self.Ticks = numpy.array([])
self.StartTick = 0
for panel in self.GraphicPanels:
panel.ResetData()
def RefreshGraphicsWindowScrollbars(self):
xstart, ystart = self.GraphicsWindow.GetViewStart()
window_size = self.GraphicsWindow.GetClientSize()
vwidth, vheight = self.GraphicsSizer.GetMinSize()
posx = max(0, min(xstart, (vwidth - window_size[0]) / SCROLLBAR_UNIT))
posy = max(0, min(ystart, (vheight - window_size[1]) / SCROLLBAR_UNIT))
self.GraphicsWindow.Scroll(posx, posy)
self.GraphicsWindow.SetScrollbars(SCROLLBAR_UNIT, SCROLLBAR_UNIT,
vwidth / SCROLLBAR_UNIT, vheight / SCROLLBAR_UNIT, posx, posy)
def OnGraphicsWindowResize(self, event):
self.RefreshGraphicsWindowScrollbars()
event.Skip()