import sys
import math
-from _basic import Shape, ShapeRegion, ControlPoint, RectangleShape
+from _basic import Shape, ShapeRegion, ShapeTextLine, ControlPoint, RectangleShape
from _oglmisc import *
# Line alignment flags
def __del__(self):
if self._lineControlPoints:
- self.ClearPointList(self._lineControlPoints)
self._lineControlPoints = []
for i in range(3):
if self._labelObjects[i]:
def MakeLineControlPoints(self, n):
"""Make a given number of control points (minimum of two)."""
- if self._lineControlPoints:
- self.ClearPointList(self._lineControlPoints)
self._lineControlPoints = []
for _ in range(n):
point = wx.RealPoint(-999, -999)
self._lineControlPoints.append(point)
- def InsertLineControlPoint(self, dc = None):
- """Insert a control point at an arbitrary position."""
+ # pi: added _initialised to keep track of when we have set
+ # the middle points to something other than (-999, -999)
+ self._initialised = False
+
+ def InsertLineControlPoint(self, dc = None, point = None):
+ """Insert a control point at an optional given position."""
if dc:
self.Erase(dc)
- last_point = self._lineControlPoints[-1]
- second_last_point = self._lineControlPoints[-2]
+ if point:
+ line_x, line_y = point
+ else:
+ last_point = self._lineControlPoints[-1]
+ second_last_point = self._lineControlPoints[-2]
- line_x = (last_point[0] + second_last_point[0]) / 2.0
- line_y = (last_point[1] + second_last_point[1]) / 2.0
+ line_x = (last_point[0] + second_last_point[0]) / 2.0
+ line_y = (last_point[1] + second_last_point[1]) / 2.0
point = wx.RealPoint(line_x, line_y)
- self._lineControlPoints.insert(len(self._lineControlPoints), point)
+ self._lineControlPoints.insert(len(self._lineControlPoints)-1, point)
def DeleteLineControlPoint(self):
"""Delete an arbitary point on the line."""
y2 = first_point[1]
y1 = last_point[1]
self._lineControlPoints[i] = wx.RealPoint((x2 - x1) / 2.0 + x1, (y2 - y1) / 2.0 + y1)
+ self._initialised = True
def FormatText(self, dc, s, i):
"""Format a text string according to the region size, adding
first_point = self._lineControlPoints[0]
last_point = self._lineControlPoints[-1]
- return (first_point[0], first_point[1]), (last_point[0], last_point[1])
+ return first_point[0], first_point[1], last_point[0], last_point[1]
def SetAttachments(self, from_attach, to_attach):
"""Specify which object attachment points should be used at each end
dy = point2[1] - point1[1]
seg_len = math.sqrt(dx * dx + dy * dy)
- if dy == 0 or dx == 0:
- return False
+ if dy == 0 and dx == 0:
+ continue
distance_from_seg = seg_len * float((x - point1[0]) * dy - (y - point1[1]) * dx) / (dy * dy + dx * dx)
distance_from_prev = seg_len * float((y - point1[1]) * dy + (x - point1[0]) * dx) / (dy * dy + dx * dx)
if not self._from or not self._to:
return
- if len(self._lineControlPoints) > 2:
- self.Initialise()
-
# Do each end - nothing in the middle. User has to move other points
# manually if necessary
end_x, end_y, other_end_x, other_end_y = self.FindLineEndPoints()
oldX, oldY = self._xpos, self._ypos
+ # pi: The first time we go through FindLineEndPoints we can't
+ # use the middle points (since they don't have sane values),
+ # so we just do what we do for a normal line. Then we call
+ # Initialise to set the middle points, and then FindLineEndPoints
+ # again, but this time (and from now on) we use the middle
+ # points to calculate the end points.
+ # This was buggy in the C++ version too.
+
self.SetEnds(end_x, end_y, other_end_x, other_end_y)
+ if len(self._lineControlPoints) > 2:
+ self.Initialise()
+
# Do a second time, because one may depend on the other
end_x, end_y, other_end_x, other_end_y = self.FindLineEndPoints()
self.SetEnds(end_x, end_y, other_end_x, other_end_y)
# manually if necessary.
second_point = self._lineControlPoints[1]
second_last_point = self._lineControlPoints[-2]
-
- if len(self._lineControlPoints) > 2:
+
+ # pi: If we have a segmented line and this is the first time,
+ # do this as a straight line.
+ if len(self._lineControlPoints) > 2 and self._initialised:
if self._from.GetAttachmentMode() != ATTACHMENT_MODE_NONE:
nth, no_arcs = self.FindNth(self._from, False) # Not incoming
end_x, end_y = self._from.GetAttachmentPosition(self._attachmentFrom, nth, no_arcs, self)
for point in self._lineControlPoints:
points.append(wx.Point(point[0], point[1]))
- #print points
if self._isSpline:
dc.DrawSpline(points)
else:
self._controlPoints.append(control)
def ResetControlPoints(self):
- if self._canvas and self._lineControlPoints:
+ if self._canvas and self._lineControlPoints and self._controlPoints:
for i in range(min(len(self._controlPoints), len(self._lineControlPoints))):
point = self._lineControlPoints[i]
control = self._controlPoints[i]
pt.SetX(x)
pt.SetY(y)
- pt._point = x, y
-
+ pt._point[0] = x
+ pt._point[1] = y
+
old_pen = self.GetPen()
old_brush = self.GetBrush()
pt._xpos = x
pt._ypos = y
- pt._point = x, y
+ pt._point[0] = x
+ pt._point[1] = y
old_pen = self.GetPen()
old_brush = self.GetBrush()
# as it changed shape.
pt._xpos = pt._originalPos[0]
pt._ypos = pt._originalPos[1]
- pt._point = pt._originalPos[0], pt._originalPos[1]
+ pt._point[0] = pt._originalPos[0]
+ pt._point[1] = pt._originalPos[1]
self.OnMoveMiddleControlPoint(dc, pt, rpt)
if pt._oldCursor:
self._canvas.SetCursor(pt._oldCursor)
- if self.GetFrom():
- self.GetFrom().MoveLineToNewAttachment(dc, self, x, y)
+ if self.GetFrom():
+ self.GetFrom().MoveLineToNewAttachment(dc, self, x, y)
if pt._type == CONTROL_POINT_ENDPOINT_TO:
if pt._oldCursor:
self._canvas.SetCursor(pt._oldCursor)
- if self.GetTo():
- self.GetTo().MoveLineToNewAttachment(dc, self, x, y)
+ if self.GetTo():
+ self.GetTo().MoveLineToNewAttachment(dc, self, x, y)
# This is called only when a non-end control point is moved
def OnMoveMiddleControlPoint(self, dc, lpt, pt):
lpt._xpos = pt[0]
lpt._ypos = pt[1]
- lpt._point = pt[0], pt[1]
+ lpt._point[0] = pt[0]
+ lpt._point[1] = pt[1]
self.GetEventHandler().OnMoveLink(dc)
"""
for arrow in self._arcArrows:
if (position == -1 or position == arrow.GetArrowEnd()) and arrow.GetName() == name:
- return arow
+ return arrow
return None
labelShape._shapeRegion.SetSize(labelShape.GetWidth(), labelShape.GetHeight())
# Find position in line's region list
- i = 0
- for region in self.GetRegions():
- if labelShape._shapeRegion == region:
- self.GetRegions().remove(region)
- else:
- i += 1
+ i = self._regions.index(labelShape._shapeRegion)
xx, yy = self.GetLabelPosition(i)
# Set the region's offset, relative to the default position for