def init(self, rsubject):
"""Set up the editor for a new report.
rsubject: A RSubject object for the current report.
"""
self.rsubject = rsubject
if self.edCursor:
self.edCursor.stop()
# Set the viewing area (x-margin, y-margin, width)
self.mainWidth = self.rsubject.db.layoutInfo.mainWidth
self.canvas.initArea(20, 10, self.mainWidth)
# Special background for overflow text
self.ovflRect = BGRect(self.canvas, "ovflbg", under=True)
# Render the frames
frames = self.rsubject.frames
y = 0.0
for f in frames[:-1]:
# Separator line
HLine(self.canvas, y, self.mainWidth)
f.render(self.canvas, self.rsubject, y)
y += f.maxHeight
# The overflow frame:
HLine(self.canvas, y, self.mainWidth)
f = frames[-1]
yo = 0.0
ol = self.rsubject.getFrameLines(f)
if ol:
lastline = ol[-1]
# vertical space needed by the frame text:
yo = lastline.y + lastline.height
f.getHeight(yo)
f.render(self.canvas, self.rsubject, y)
self.setSize(y, f.height)
self.edCursor = EdCursor(self)
self.selection = Selection(self)
self.initCurSel()
def init(self, rsubject):
"""Set up the editor for a new report.
rsubject: A RSubject object for the current report.
"""
self.rsubject = rsubject
if self.edCursor:
self.edCursor.stop()
# Set the viewing area (x-margin, y-margin, width)
self.mainWidth = self.rsubject.db.layoutInfo.mainWidth
self.canvas.initArea(20, 10, self.mainWidth)
# Special background for overflow text
self.ovflRect = BGRect(self.canvas, "ovflbg", under=True)
# Render the frames
frames = self.rsubject.frames
y = 0.0
for f in frames[:-1]:
# Separator line
HLine(self.canvas, y, self.mainWidth)
f.render(self.canvas, self.rsubject, y)
y += f.maxHeight
# The overflow frame:
HLine(self.canvas, y, self.mainWidth)
f = frames[-1]
yo = 0.0
ol = self.rsubject.getFrameLines(f)
if ol:
lastline = ol[-1]
# vertical space needed by the frame text:
yo = lastline.y + lastline.height
f.getHeight(yo)
f.render(self.canvas, self.rsubject, y)
self.setSize(y, f.height)
self.edCursor = EdCursor(self)
self.selection = Selection(self)
self.initCurSel()
class Editor:
"""There may be only one instance of this class, because of the
slot declarations.
Given a canvas widget to draw on, implement a report text editor.
It can also be restricted to use in a view-only mode by passing
'False' to the 'editable' argument.
Much of the low level stuff is done in the 'graphics view' widget,
which is a GUI class. I decided not to make this class inherit from
that widget, in order to leave maximum flexibility in how it is
created and implemented itself (I hope that makes sense).
According to the settings in the layout description the area
available for the report can comprise more than one 'frame'.
The text can be split over a number of separate boxes - specifically
here for the case of longer, principally class teacher, reports,
which need more than one page). The editor needs the vertical sizes
(in mm) of these boxes, so that the display area can be divided
into several blocks which will appear sequentially, and also margin
information.
To deal with text that is too long for a report box, an additional
large 'dummy' box is added after the 'official' box(es). This gets
a coloured background, to indicate the overflow.
The text being edited is primarily managed by the RSubject object,
which stores it as a list of TextLine objects, each containing a
list of TWord objects.
"""
def __init__(self, canvas, editable=True):
self.canvas = canvas # the canvas widget
self.editable = editable
slot = canvas.slot
slot("edPress", self.edPress)
slot("edMove", self.edMove)
slot("edRelease", self.edRelease)
slot("keyPress", self.edKey)
slot("renderedToEnd", self.renewOvfl)
self.edCursor = None
self.selection = None
self.cursorX = None
def init(self, rsubject):
"""Set up the editor for a new report.
rsubject: A RSubject object for the current report.
"""
self.rsubject = rsubject
if self.edCursor:
self.edCursor.stop()
# Set the viewing area (x-margin, y-margin, width)
self.mainWidth = self.rsubject.db.layoutInfo.mainWidth
self.canvas.initArea(20, 10, self.mainWidth)
# Special background for overflow text
self.ovflRect = BGRect(self.canvas, "ovflbg", under=True)
# Render the frames
frames = self.rsubject.frames
y = 0.0
for f in frames[:-1]:
# Separator line
HLine(self.canvas, y, self.mainWidth)
f.render(self.canvas, self.rsubject, y)
y += f.maxHeight
# The overflow frame:
HLine(self.canvas, y, self.mainWidth)
f = frames[-1]
yo = 0.0
ol = self.rsubject.getFrameLines(f)
if ol:
lastline = ol[-1]
# vertical space needed by the frame text:
yo = lastline.y + lastline.height
f.getHeight(yo)
f.render(self.canvas, self.rsubject, y)
self.setSize(y, f.height)
self.edCursor = EdCursor(self)
self.selection = Selection(self)
self.initCurSel()
def initCurSel(self):
# Convert cursor from index to word format
cp, cw, cx = self.rsubject.cursor
para = None
ipara = -1
for tl in self.rsubject.tlines:
if (tl.para != para):
ipara += 1
para = tl.para
if (ipara == cp):
nw = len(tl.twords)
if (cw < nw):
w = tl.twords[cw]
break
cw -= nw
self.edCursor.setPos(w, cx)
# else:
# self.edCursor.setPos(self.rsubject.tlines[0].twords[0], 0)
self.selection.clearSelection()
def setSize(self, y, h):
"""Set the size of the background rectangle behind the
text overflow area and also the displayed canvas area.
y: y-coordinate of overflow start
h: height of overflow area
"""
if (h <= 0.0):
self.ovflRect.hide()
self.canvas.setHeight(y)
else:
self.ovflRect.setRect(0, y, self.mainWidth, h)
self.ovflRect.show()
self.canvas.setHeight(y + h)
def renewOvfl(self, arg):
# This is a 'slot', called when a report has been rendered to
# the end.
f = self.rsubject.frames[-1]
# How much space is used in the overflow area?
lastLine = self.rsubject.tlines[-1]
if (lastLine.frame != f):
y = 0.0
else:
y = lastLine.y + lastLine.height
self.setSize(f.yF, f.getHeight(y))
def edKey(self, key):
"""This handles key presses.
"""
# Any key press except cursor keys (?) causes the selection to be deleted!
if isinstance(key, types.IntType):
rawkey = (key & (SHIFT - 1))
if (rawkey in (1, 2, 3, 4)):
# First check for shift+cursor-key, because these alter the selection
if (key & SHIFT): # SHIFT + cursor key
# if there is not already a selection, set the first marker before
# moving the cursor
if not self.selection.selectionMark2:
w, cx = self.edCursor.getPos()
# Hack to handle empty words which are about to be deleted
if (w.string == u"") and (len(w.tline.twords) > 1):
# Don't start selection, just move cursor
self.cursorKey(rawkey)
return
self.selection.selectionMark = (w, cx)
self.cursorKey(rawkey)
self.selection.setMark2(self.edCursor.getPos())
else: # cursor key without SHIFT
# clear selection and move cursor.
self.selection.clearSelection()
self.cursorKey(rawkey)
return
# All other keys are ignored if this widget is read-only
if not self.editable: return
self.cursorX = None
# If there is a selection this must be deleted
if self.delete() and (rawkey in (8, 9)): return
# Get cursor position
word, cx = self.edCursor.getPos()
tline = word.tline
if (rawkey == 10): # space
if (key & SHIFT):
self.insertChar(FixedSpace)
return
s1 = word.string[:cx]
s2 = word.string[cx:]
word.setString(s1)
# Create a new TWord with the second half of the split:
nw = TWord(s2)
wx = tline.twords.index(word)
tline.insert(nw, wx + 1)
nw.setCanvas(self.canvas)
# Re-render from this word, noting that it became shorter:
self.rsubject.renderShortened(word)
self.edCursor.setPos(nw, 0)
return
if (rawkey == 7): # line break
s1 = word.string[:cx]
s2 = word.string[cx:]
word.setString(s1)
# Create a new TWord with the second half of the split:
nw = TWord(s2)
# And a new Paragraph, copying the properties of the old one:
para = Paragraph(tline.para)
# And a new TextLine:
ntl = TextLine(para, [nw])
lx = self.rsubject.tlines.index(tline) + 1
self.rsubject.tlines.insert(lx, ntl)
nw.setCanvas(self.canvas)
# Move words following the split:
wx = tline.twords.index(word)
for w in tline.twords[wx + 1:]:
ntl.insert(w)
del (tline.twords[wx + 1:])
# Now move subsequent lines to new paragraph
while True:
lx += 1
if (len(self.rsubject.tlines) <= lx) or \
(self.rsubject.tlines[lx].para != tline.para):
break
self.rsubject.tlines[lx].para = para
# Re-render from this word, noting that it became shorter:
self.rsubject.renderShortened(word)
# Set cursor to start of new word.
self.edCursor.setPos(nw, 0)
return
if (rawkey == 8) or (rawkey == 9): # delete / backspace
if (rawkey == 9):
# backspace: take one step back and then do as delete.
if (cx == 0): # at start of word
para0 = tline.para
# if stepping back works ...
if not self.edCursor.step(False): return
# Get new cursor position
word, cx = self.edCursor.getPos()
tline = word.tline
para = tline.para # needed for deletion test below
else:
cx -= 1
s = word.string
if (len(s) == cx): # at end of word
# Join words
wx = tline.twords.index(word) + 1
if (wx >= len(tline.twords)): # at end of line
# If we arrived at the end of a paragraph with
# backspace, and the step backwards didn't skip
# to the previous paragraph, do nothing!
# That is necessary because of the
# automatic deletion of words which become empty
# when the cursor leaves them.
if (rawkey == 9) and (para == para0): return
# If at end of paragraph, join paragraphs
nl = self.rsubject.nextLine(tline)
if nl:
para0 = tline.para
para = nl.para
if (para != para0):
nl2 = nl
while True:
nl2.setPara(para0)
nl2 = self.rsubject.nextLine(nl2)
if (not nl2) or (nl2.para != para): break
# Next line is (now) in same paragraph.
# Move first word of next line to current line:
tline.insert(nl.twords[0])
del (nl.twords[0])
if not nl.twords:
# Line now empty, delete it
self.rsubject.deleteTLine(nl)
else:
nl.y = None # to ensure re-rendering
else:
# Nothing to delete
return
nw = tline.twords[wx]
del (tline.twords[wx])
word.setString(s + nw.string)
# The removed word must be 'freed'
nw.delete()
# Re-render from tline:
self.rsubject.linify(tline)
else:
# Not at end of word, the word will be shortened.
s = s[:cx] + s[cx + 1:]
word.setString(s)
# Re-render from this word, noting that it became shorter:
self.rsubject.renderShortened(word)
# Reset cursor to start of new word/paragraph.
self.edCursor.setPos(word, cx)
self.deleteCount += 1
if (self.deleteCount >= DELETECOUNT):
self.saveText()
return
# Anything else is ignored
return
# All other keys are ignored if this widget is read-only
if not self.editable: return
# character key
self.cursorX = None
# If there is a selection this must be deleted
# This must also reset the cursor appropriately
self.delete()
self.insertChar(key)
def insertChar(self, ch):
"""Insert the given character into the current word.
"""
word, cx = self.edCursor.getPos()
string = word.string[:cx] + ch + word.string[cx:]
word.setString(string)
# Re-render from tline:
self.rsubject.linify(word.tline)
self.edCursor.setPos(word, cx + 1)
def insertBlock(self, utext):
"""Insert the given (unicode) text at the current cursor position.
Special style formatting will also be recognized but only after
a newline.
"""
self.saveText()
self.selection.clearSelection()
word, cx = self.edCursor.getPos()
# Get cursor offset from end of word (for new cursor placement)
cxn = len(word.string) - cx
# Insert the new text at the cursor position ...
string = word.string[:cx] + utext + word.string[cx:]
textLines = self.rsubject.textToLines(string)
tline = word.tline
nline0 = textLines[0]
word1 = nline0.twords[0] # position to start rendering
wx = tline.twords.index(word) # insertion index
# delete the word which was under the cursor
word.delete()
# and set its string to non-empty so that the cursor
# repositioning works (!)
word.string = u"DUMMY"
# and add the rest of the original line to the end of the insertion
oline2 = tline.twords[wx + 1:]
del (tline.twords[wx:])
nlineL = textLines[-1]
word = nlineL.twords[-1] # get new word under cursor
for w in oline2:
nlineL.insert(w)
# Append the first inserted line to tline
for w in nline0.twords:
tline.insert(w)
# Insert the remaining lines into the subjects line list
tlx = self.rsubject.tlines.index(tline) + 1
self.rsubject.tlines[tlx:tlx] = textLines[1:]
self.rsubject.renderShortened(word1)
cx = len(word.string) - cxn
self.edCursor.setPos(word, cx)
def delete(self):
"""Delete the text between the two selection marks, if they are set,
and place the cursor appropriately afterwards.
Return True if something was deleted.
"""
if not self.selection.isSelection(): return False
# Save the current text
self.saveText()
sm1, sm2 = self.selection.order(self.selection.selectionMark,
self.selection.selectionMark2)
w1 = sm1[0]
w2 = sm2[0]
cx = sm1[1]
self.edCursor.setPos(w1, cx)
# Join words before and after selection
w1.setString(w1.string[:cx] + w2.string[sm2[1]:])
# Delete all intervening words, and w2
tl1 = w1.tline
wx1 = tl1.twords.index(w1)
tl2 = w2.tline
wx2 = tl2.twords.index(w2)
if (tl1 == tl2): # only delete from 1 line
# delete words from wx1+1 to wx2 (incl.)
for w in tl1.twords[wx1 + 1:wx2 + 1]:
w.delete()
del (tl1.twords[wx1 + 1:wx2 + 1])
else: # deletion block covers >1 line
# delete words from wx1+1 to end of paragraph
for w in tl1.twords[wx1 + 1:]:
w.delete()
del (tl1.twords[wx1 + 1:])
# delete all the intervening lines
while True:
tl = self.rsubject.nextLine(tl1)
if (tl == tl2): break
self.rsubject.deleteTLine(tl)
# Move remaining words after w2 in tl2 to end of tl1
for w in tl2.twords[wx2 + 1:]:
tl1.insert(w)
del (tl2.twords[wx2 + 1:])
# Delete tl2
self.rsubject.deleteTLine(tl2)
self.selection.clearSelection()
self.rsubject.renderShortened(w1)
self.edCursor.setPos(w1, cx)
return True
def getMarked(self):
"""Get the text between the two selection marks.
This shares much of the same logic as the block delete function,
but for the sake of clarity I decided to keep them separate.
"""
if not self.selection.isSelection():
return u""
sm1, sm2 = self.selection.order(self.selection.selectionMark,
self.selection.selectionMark2)
w1 = sm1[0]
w2 = sm2[0]
cx1 = sm1[1]
cx2 = sm2[1]
if (w1 == w2):
return w1.string[cx1:cx2]
# Get the word fragments at the beginning and end of the selection
snip1 = w1.string[cx1:]
snip2 = w2.string[:cx2]
tl1 = w1.tline
wx1 = tl1.twords.index(w1)
tl2 = w2.tline
wx2 = tl2.twords.index(w2)
# Start the text string with the format of the first line
text = tl1.para.getFormat() + snip1
# then get all intervening words
if (tl1 == tl2): # only 1 line is involved
# get words from wx1+1 to wx2-1 (incl.)
for w in tl1.twords[wx1 + 1:wx2]:
text += u" " + w.string
ch = u" "
else: # deletion block covers >1 line
# get words from wx1+1 to end of paragraph
for w in tl1.twords[wx1 + 1:]:
text += u" " + w.string
# get all the intervening lines
while True:
para = tl1.para
tl1 = self.rsubject.nextLine(tl1)
if (tl1.para == para):
text += u" "
else:
text += u"\n" + tl1.para.getFormat()
if (tl1 == tl2): break
text += tl1.getText()
ch = u""
# Add the remaining words in tl2 up to w2-1
for w in tl2.twords[:wx2]:
text += ch + w.string
ch = u" "
# Add the fragment of the last marked word
return text + ch + snip2
def cursorKey(self, key):
if (key in (1, 2)):
self.cursorX = None
if (key == 1): # left
self.edCursor.step(False)
else: # right
self.edCursor.step(True)
else:
if (self.cursorX == None):
w, x = self.edCursor.getPos()
self.cursorX = w.getXYH(x)[0]
if (key == 3): # up
self.edCursor.lineStep(self.cursorX, True)
else: # down
self.edCursor.lineStep(self.cursorX, False)
# These event handlers are passed mm coordinates!
def edPress(self, xy):
# This also sets the cursor
self.selection.setMark1(self.getPos(*xy))
def edMove(self, xy):
# This also sets the cursor
self.selection.setMark2(self.getPos(*xy))
def edRelease(self, xy):
# Not so significant at the moment.
# For cursor key up/down only:
self.cursorX = None
def getPos(self, x, y):
"""Get the nearest text position to the given (mm) coordinates.
Return a (word, charIx) tuple.
"""
# First find the TextLine
tline = self.rsubject.tlines[0]
for tl in self.rsubject.tlines:
if (y < (tl.y + tl.frame.yF)): break
tline = tl
return self.getXPos(tline, x)
def getXPos(self, tline, x):
"""Get the nearest text position to the given (mm) x-coordinate
within the line 'tline'.
Return a (word, charIx) tuple.
"""
# Find the TWord object
words = tline.twords
j = 0 # word index
imax = len(words) - 1
for w in words:
# Find out if the point is in this word -
# need to include half the space width after the word, if there
# is a following word.
x0 = w.getX()
x1 = x0 + w.getWidth()
if (j == imax): break
x2 = words[j + 1].getX()
spw = (x2 - x1) / 2
if (x < x1 + spw): break
j += 1
word = words[j]
# Then the character
xvec = word.getOffsets()
k = 0
if xvec:
xo = x - x0 # xo is x relative to word start
p0 = 0.0
for p in xvec:
p1 = xvec[k]
if (xo < (p0 + p1) / 2): break
k += 1
p0 = p1
return (word, k)
def saveText(self):
"""Called by various operations to keep backup versions of the
text which can be reverted to using 'undo'.
It is a rather primitive mechanism, but it should suffice for
the foreseen purpose.
"""
self.rsubject.saveOnChanged(self.edCursor.getPos())
# Allows saving after a certain number of delete operations:
self.deleteCount = 0
class Editor:
"""There may be only one instance of this class, because of the
slot declarations.
Given a canvas widget to draw on, implement a report text editor.
It can also be restricted to use in a view-only mode by passing
'False' to the 'editable' argument.
Much of the low level stuff is done in the 'graphics view' widget,
which is a GUI class. I decided not to make this class inherit from
that widget, in order to leave maximum flexibility in how it is
created and implemented itself (I hope that makes sense).
According to the settings in the layout description the area
available for the report can comprise more than one 'frame'.
The text can be split over a number of separate boxes - specifically
here for the case of longer, principally class teacher, reports,
which need more than one page). The editor needs the vertical sizes
(in mm) of these boxes, so that the display area can be divided
into several blocks which will appear sequentially, and also margin
information.
To deal with text that is too long for a report box, an additional
large 'dummy' box is added after the 'official' box(es). This gets
a coloured background, to indicate the overflow.
The text being edited is primarily managed by the RSubject object,
which stores it as a list of TextLine objects, each containing a
list of TWord objects.
"""
def __init__(self, canvas, editable=True):
self.canvas = canvas # the canvas widget
self.editable = editable
slot = canvas.slot
slot("edPress", self.edPress)
slot("edMove", self.edMove)
slot("edRelease", self.edRelease)
slot("keyPress", self.edKey)
slot("renderedToEnd", self.renewOvfl)
self.edCursor = None
self.selection = None
self.cursorX = None
def init(self, rsubject):
"""Set up the editor for a new report.
rsubject: A RSubject object for the current report.
"""
self.rsubject = rsubject
if self.edCursor:
self.edCursor.stop()
# Set the viewing area (x-margin, y-margin, width)
self.mainWidth = self.rsubject.db.layoutInfo.mainWidth
self.canvas.initArea(20, 10, self.mainWidth)
# Special background for overflow text
self.ovflRect = BGRect(self.canvas, "ovflbg", under=True)
# Render the frames
frames = self.rsubject.frames
y = 0.0
for f in frames[:-1]:
# Separator line
HLine(self.canvas, y, self.mainWidth)
f.render(self.canvas, self.rsubject, y)
y += f.maxHeight
# The overflow frame:
HLine(self.canvas, y, self.mainWidth)
f = frames[-1]
yo = 0.0
ol = self.rsubject.getFrameLines(f)
if ol:
lastline = ol[-1]
# vertical space needed by the frame text:
yo = lastline.y + lastline.height
f.getHeight(yo)
f.render(self.canvas, self.rsubject, y)
self.setSize(y, f.height)
self.edCursor = EdCursor(self)
self.selection = Selection(self)
self.initCurSel()
def initCurSel(self):
# Convert cursor from index to word format
cp, cw, cx = self.rsubject.cursor
para = None
ipara = -1
for tl in self.rsubject.tlines:
if (tl.para != para):
ipara += 1
para = tl.para
if (ipara == cp):
nw = len(tl.twords)
if (cw < nw):
w = tl.twords[cw]
break
cw -= nw
self.edCursor.setPos(w, cx)
# else:
# self.edCursor.setPos(self.rsubject.tlines[0].twords[0], 0)
self.selection.clearSelection()
def setSize(self, y, h):
"""Set the size of the background rectangle behind the
text overflow area and also the displayed canvas area.
y: y-coordinate of overflow start
h: height of overflow area
"""
if (h <= 0.0):
self.ovflRect.hide()
self.canvas.setHeight(y)
else:
self.ovflRect.setRect(0, y, self.mainWidth, h)
self.ovflRect.show()
self.canvas.setHeight(y + h)
def renewOvfl(self, arg):
# This is a 'slot', called when a report has been rendered to
# the end.
f = self.rsubject.frames[-1]
# How much space is used in the overflow area?
lastLine = self.rsubject.tlines[-1]
if (lastLine.frame != f):
y = 0.0
else:
y = lastLine.y + lastLine.height
self.setSize(f.yF, f.getHeight(y))
def edKey(self, key):
"""This handles key presses.
"""
# Any key press except cursor keys (?) causes the selection to be deleted!
if isinstance(key, types.IntType):
rawkey = (key & (SHIFT-1))
if (rawkey in (1,2,3,4)):
# First check for shift+cursor-key, because these alter the selection
if (key & SHIFT): # SHIFT + cursor key
# if there is not already a selection, set the first marker before
# moving the cursor
if not self.selection.selectionMark2:
w, cx = self.edCursor.getPos()
# Hack to handle empty words which are about to be deleted
if (w.string == u"") and (len(w.tline.twords) > 1):
# Don't start selection, just move cursor
self.cursorKey(rawkey)
return
self.selection.selectionMark = (w, cx)
self.cursorKey(rawkey)
self.selection.setMark2(self.edCursor.getPos())
else: # cursor key without SHIFT
# clear selection and move cursor.
self.selection.clearSelection()
self.cursorKey(rawkey)
return
# All other keys are ignored if this widget is read-only
if not self.editable: return
self.cursorX = None
# If there is a selection this must be deleted
if self.delete() and (rawkey in (8,9)): return
# Get cursor position
word, cx = self.edCursor.getPos()
tline = word.tline
if (rawkey == 10): # space
if (key & SHIFT):
self.insertChar(FixedSpace)
return
s1 = word.string[:cx]
s2 = word.string[cx:]
word.setString(s1)
# Create a new TWord with the second half of the split:
nw = TWord(s2)
wx = tline.twords.index(word)
tline.insert(nw, wx+1)
nw.setCanvas(self.canvas)
# Re-render from this word, noting that it became shorter:
self.rsubject.renderShortened(word)
self.edCursor.setPos(nw, 0)
return
if (rawkey == 7): # line break
s1 = word.string[:cx]
s2 = word.string[cx:]
word.setString(s1)
# Create a new TWord with the second half of the split:
nw = TWord(s2)
# And a new Paragraph, copying the properties of the old one:
para = Paragraph(tline.para)
# And a new TextLine:
ntl = TextLine(para, [nw])
lx = self.rsubject.tlines.index(tline) + 1
self.rsubject.tlines.insert(lx, ntl)
nw.setCanvas(self.canvas)
# Move words following the split:
wx = tline.twords.index(word)
for w in tline.twords[wx+1:]:
ntl.insert(w)
del(tline.twords[wx+1:])
# Now move subsequent lines to new paragraph
while True:
lx += 1
if (len(self.rsubject.tlines) <= lx) or \
(self.rsubject.tlines[lx].para != tline.para):
break
self.rsubject.tlines[lx].para = para
# Re-render from this word, noting that it became shorter:
self.rsubject.renderShortened(word)
# Set cursor to start of new word.
self.edCursor.setPos(nw, 0)
return
if (rawkey == 8) or (rawkey == 9): # delete / backspace
if (rawkey == 9):
# backspace: take one step back and then do as delete.
if (cx == 0): # at start of word
para0 = tline.para
# if stepping back works ...
if not self.edCursor.step(False): return
# Get new cursor position
word, cx = self.edCursor.getPos()
tline = word.tline
para = tline.para # needed for deletion test below
else:
cx -= 1
s = word.string
if (len(s) == cx): # at end of word
# Join words
wx = tline.twords.index(word) + 1
if (wx >= len(tline.twords)): # at end of line
# If we arrived at the end of a paragraph with
# backspace, and the step backwards didn't skip
# to the previous paragraph, do nothing!
# That is necessary because of the
# automatic deletion of words which become empty
# when the cursor leaves them.
if (rawkey == 9) and (para == para0): return
# If at end of paragraph, join paragraphs
nl = self.rsubject.nextLine(tline)
if nl:
para0 = tline.para
para = nl.para
if (para != para0):
nl2 = nl
while True:
nl2.setPara(para0)
nl2 = self.rsubject.nextLine(nl2)
if (not nl2) or (nl2.para != para): break
# Next line is (now) in same paragraph.
# Move first word of next line to current line:
tline.insert(nl.twords[0])
del(nl.twords[0])
if not nl.twords:
# Line now empty, delete it
self.rsubject.deleteTLine(nl)
else:
nl.y = None # to ensure re-rendering
else:
# Nothing to delete
return
nw = tline.twords[wx]
del(tline.twords[wx])
word.setString(s + nw.string)
# The removed word must be 'freed'
nw.delete()
# Re-render from tline:
self.rsubject.linify(tline)
else:
# Not at end of word, the word will be shortened.
s = s[:cx] + s[cx+1:]
word.setString(s)
# Re-render from this word, noting that it became shorter:
self.rsubject.renderShortened(word)
# Reset cursor to start of new word/paragraph.
self.edCursor.setPos(word, cx)
self.deleteCount +=1
if (self.deleteCount >= DELETECOUNT):
self.saveText()
return
# Anything else is ignored
return
# All other keys are ignored if this widget is read-only
if not self.editable: return
# character key
self.cursorX = None
# If there is a selection this must be deleted
# This must also reset the cursor appropriately
self.delete()
self.insertChar(key)
def insertChar(self, ch):
"""Insert the given character into the current word.
"""
word, cx = self.edCursor.getPos()
string = word.string[:cx] + ch + word.string[cx:]
word.setString(string)
# Re-render from tline:
self.rsubject.linify(word.tline)
self.edCursor.setPos(word, cx+1)
def insertBlock(self, utext):
"""Insert the given (unicode) text at the current cursor position.
Special style formatting will also be recognized but only after
a newline.
"""
self.saveText()
self.selection.clearSelection()
word, cx = self.edCursor.getPos()
# Get cursor offset from end of word (for new cursor placement)
cxn = len(word.string) - cx
# Insert the new text at the cursor position ...
string = word.string[:cx] + utext + word.string[cx:]
textLines = self.rsubject.textToLines(string)
tline = word.tline
nline0 = textLines[0]
word1 = nline0.twords[0] # position to start rendering
wx = tline.twords.index(word) # insertion index
# delete the word which was under the cursor
word.delete()
# and set its string to non-empty so that the cursor
# repositioning works (!)
word.string = u"DUMMY"
# and add the rest of the original line to the end of the insertion
oline2 = tline.twords[wx+1:]
del(tline.twords[wx:])
nlineL = textLines[-1]
word = nlineL.twords[-1] # get new word under cursor
for w in oline2:
nlineL.insert(w)
# Append the first inserted line to tline
for w in nline0.twords:
tline.insert(w)
# Insert the remaining lines into the subjects line list
tlx = self.rsubject.tlines.index(tline) + 1
self.rsubject.tlines[tlx:tlx] = textLines[1:]
self.rsubject.renderShortened(word1)
cx = len(word.string) - cxn
self.edCursor.setPos(word, cx)
def delete(self):
"""Delete the text between the two selection marks, if they are set,
and place the cursor appropriately afterwards.
Return True if something was deleted.
"""
if not self.selection.isSelection(): return False
# Save the current text
self.saveText()
sm1, sm2 = self.selection.order(self.selection.selectionMark,
self.selection.selectionMark2)
w1 = sm1[0]
w2 = sm2[0]
cx = sm1[1]
self.edCursor.setPos(w1, cx)
# Join words before and after selection
w1.setString(w1.string[:cx] + w2.string[sm2[1]:])
# Delete all intervening words, and w2
tl1 = w1.tline
wx1 = tl1.twords.index(w1)
tl2 = w2.tline
wx2 = tl2.twords.index(w2)
if (tl1 == tl2): # only delete from 1 line
# delete words from wx1+1 to wx2 (incl.)
for w in tl1.twords[wx1+1:wx2+1]:
w.delete()
del(tl1.twords[wx1+1:wx2+1])
else: # deletion block covers >1 line
# delete words from wx1+1 to end of paragraph
for w in tl1.twords[wx1+1:]:
w.delete()
del(tl1.twords[wx1+1:])
# delete all the intervening lines
while True:
tl = self.rsubject.nextLine(tl1)
if (tl == tl2): break
self.rsubject.deleteTLine(tl)
# Move remaining words after w2 in tl2 to end of tl1
for w in tl2.twords[wx2+1:]:
tl1.insert(w)
del(tl2.twords[wx2+1:])
# Delete tl2
self.rsubject.deleteTLine(tl2)
self.selection.clearSelection()
self.rsubject.renderShortened(w1)
self.edCursor.setPos(w1, cx)
return True
def getMarked(self):
"""Get the text between the two selection marks.
This shares much of the same logic as the block delete function,
but for the sake of clarity I decided to keep them separate.
"""
if not self.selection.isSelection():
return u""
sm1, sm2 = self.selection.order(self.selection.selectionMark,
self.selection.selectionMark2)
w1 = sm1[0]
w2 = sm2[0]
cx1 = sm1[1]
cx2 = sm2[1]
if (w1 == w2):
return w1.string[cx1:cx2]
# Get the word fragments at the beginning and end of the selection
snip1 = w1.string[cx1:]
snip2 = w2.string[:cx2]
tl1 = w1.tline
wx1 = tl1.twords.index(w1)
tl2 = w2.tline
wx2 = tl2.twords.index(w2)
# Start the text string with the format of the first line
text = tl1.para.getFormat() + snip1
# then get all intervening words
if (tl1 == tl2): # only 1 line is involved
# get words from wx1+1 to wx2-1 (incl.)
for w in tl1.twords[wx1+1:wx2]:
text += u" " + w.string
ch = u" "
else: # deletion block covers >1 line
# get words from wx1+1 to end of paragraph
for w in tl1.twords[wx1+1:]:
text += u" " + w.string
# get all the intervening lines
while True:
para = tl1.para
tl1 = self.rsubject.nextLine(tl1)
if (tl1.para == para):
text += u" "
else:
text += u"\n" + tl1.para.getFormat()
if (tl1 == tl2): break
text += tl1.getText()
ch = u""
# Add the remaining words in tl2 up to w2-1
for w in tl2.twords[:wx2]:
text += ch + w.string
ch = u" "
# Add the fragment of the last marked word
return text + ch + snip2
def cursorKey(self, key):
if (key in (1,2)):
self.cursorX = None
if (key == 1): # left
self.edCursor.step(False)
else: # right
self.edCursor.step(True)
else:
if (self.cursorX == None):
w, x = self.edCursor.getPos()
self.cursorX = w.getXYH(x)[0]
if (key == 3): # up
self.edCursor.lineStep(self.cursorX, True)
else: # down
self.edCursor.lineStep(self.cursorX, False)
# These event handlers are passed mm coordinates!
def edPress(self, xy):
# This also sets the cursor
self.selection.setMark1(self.getPos(*xy))
def edMove(self, xy):
# This also sets the cursor
self.selection.setMark2(self.getPos(*xy))
def edRelease(self, xy):
# Not so significant at the moment.
# For cursor key up/down only:
self.cursorX = None
def getPos(self, x, y):
"""Get the nearest text position to the given (mm) coordinates.
Return a (word, charIx) tuple.
"""
# First find the TextLine
tline = self.rsubject.tlines[0]
for tl in self.rsubject.tlines:
if (y < (tl.y + tl.frame.yF)): break
tline = tl
return self.getXPos(tline, x)
def getXPos(self, tline, x):
"""Get the nearest text position to the given (mm) x-coordinate
within the line 'tline'.
Return a (word, charIx) tuple.
"""
# Find the TWord object
words = tline.twords
j = 0 # word index
imax = len(words) - 1
for w in words:
# Find out if the point is in this word -
# need to include half the space width after the word, if there
# is a following word.
x0 = w.getX()
x1 = x0 + w.getWidth()
if (j == imax): break
x2 = words[j+1].getX()
spw = (x2 - x1)/2
if (x < x1 + spw): break
j += 1
word = words[j]
# Then the character
xvec = word.getOffsets()
k = 0
if xvec:
xo = x - x0 # xo is x relative to word start
p0 = 0.0
for p in xvec:
p1 = xvec[k]
if (xo < (p0 + p1)/2): break
k += 1
p0 = p1
return (word, k)
def saveText(self):
"""Called by various operations to keep backup versions of the
text which can be reverted to using 'undo'.
It is a rather primitive mechanism, but it should suffice for
the foreseen purpose.
"""
self.rsubject.saveOnChanged(self.edCursor.getPos())
# Allows saving after a certain number of delete operations:
self.deleteCount = 0
