def draw(self, visRgn=None):
if self._visible:
l, t, r, b = Qd.InsetRect(self._bounds, 1, 1)
Qd.RGBForeColor(self._color)
Qd.PaintRect((l, t, r, b))
Qd.RGBForeColor(self._darkercolor)
Qd.MoveTo(l, b)
Qd.LineTo(r, b)
Qd.LineTo(r, t)
Qd.RGBForeColor((0, 0, 0))
def updatebitmap(self, parameters, src1, src2, tmp, dst, dstrgn):
"""Called by the engine when the parameters have changed and the
destination bitmap has to be recomputed. Also called for other redraw reasons."""
Qd.CopyBits(src1, dst, self.ltrb, self.ltrb, QuickDraw.srcCopy, dstrgn)
if self.SHOW_UNIMPLEMENTED_TRANSITION_NAME:
x0, y0, x1, y1 = self.ltrb
Qd.MoveTo(x0, y0)
Qd.LineTo(x1, y1)
Qd.MoveTo(x0, y1)
Qd.LineTo(x1, y0)
Qd.MoveTo(x0, (y0 + y1) / 2)
Qd.DrawString(
"%s %s" %
(self.dict.get('trtype', '???'), self.dict.get('subtype', '')))
def _mkpoly(pointlist):
poly = Qd.OpenPoly()
apply(Qd.MoveTo, pointlist[-1])
for x, y in pointlist:
Qd.LineTo(x, y)
Qd.ClosePoly(poly)
return poly
def _get_button_region(self):
"""Return our region, in global coordinates, if we are active"""
# XXXX Only rectangulars for now
if not self._sensitive:
return None
if not self._insidetemporal():
return None
rgn = Qd.NewRgn()
if self._shape == 'rect':
x0, y0 = self._convert_point(self._coordinates[0:2])
x1, y1 = self._convert_point(self._coordinates[2:4])
box = x0, y0, x1, y1
Qd.RectRgn(rgn, box)
elif self._shape == 'poly':
Qd.OpenRgn()
xl, yl = self._convert_point(self._coordinates[-2:])
Qd.MoveTo(xl, yl)
for i in range(0, len(self._coordinates), 2):
x, y = self._convert_point(self._coordinates[i:i + 2])
Qd.LineTo(x, y)
Qd.CloseRgn(rgn)
elif self._shape == 'circle':
print 'Circle not supported yet'
elif self._shape == 'ellipse':
# Note: rx/ry are width/height, not points
x, y, rx, ry = self._dispobj._window._convert_coordinates(
self._coordinates)
Qd.OpenRgn()
Qd.FrameOval((x - rx, y - ry, x + rx, y + ry))
Qd.CloseRgn(rgn)
else:
print 'Invalid shape type', self._shape
return rgn
def _mkpolyrgn(pointlist):
rgn = Qd.NewRgn()
Qd.OpenRgn()
apply(Qd.MoveTo, pointlist[-1])
for x, y in pointlist:
Qd.LineTo(x, y)
Qd.CloseRgn(rgn)
return rgn
def listDefDraw(self, selected, cellRect, theCell, dataOffset, dataLen,
theList):
savedPort = Qd.GetPort()
Qd.SetPort(theList.GetListPort())
savedClip = Qd.NewRgn()
Qd.GetClip(savedClip)
Qd.ClipRect(cellRect)
savedPenState = Qd.GetPenState()
Qd.PenNormal()
Qd.EraseRect(cellRect)
#draw the cell if it contains data
ascent, descent, leading, size, hm = Fm.FontMetrics()
linefeed = ascent + descent + leading
if dataLen:
left, top, right, bottom = cellRect
data = theList.LGetCell(dataLen, theCell)
lines = data.split("\r")
line1 = lines[0]
if len(lines) > 1:
line2 = lines[1]
else:
line2 = ""
Qd.MoveTo(int(left + 4), int(top + ascent))
Qd.DrawText(line1, 0, len(line1))
if line2:
Qd.MoveTo(int(left + 4), int(top + ascent + linefeed))
Qd.DrawText(line2, 0, len(line2))
Qd.PenPat("\x11\x11\x11\x11\x11\x11\x11\x11")
bottom = top + theList.cellSize[1]
Qd.MoveTo(left, bottom - 1)
Qd.LineTo(right, bottom - 1)
if selected:
self.listDefHighlight(selected, cellRect, theCell, dataOffset,
dataLen, theList)
#restore graphics environment
Qd.SetPort(savedPort)
Qd.SetClip(savedClip)
Qd.DisposeRgn(savedClip)
Qd.SetPenState(savedPenState)
def idle(self, event):
if self.active:
self.active.do_idle(event)
else:
Qd.SetCursor(Qd.GetQDGlobalsArrow())
def newRuler(self, obj):
"""Insert a new ruler. Make it as wide as the window minus 2 pxls"""
ted = obj.WEGetObjectOwner()
l, t, r, b = ted.WEGetDestRect()
return r - l, 4
def drawRuler(self, (l, t, r, b), obj):
y = (t + b) / 2
Qd.MoveTo(l + 2, y)
Qd.LineTo(r - 2, y)
return 0
class MyHTMLParser(htmllib.HTMLParser):
def anchor_bgn(self, href, name, type):
self.anchor = href
if self.anchor:
self.anchorlist.append(href)
self.formatter.push_style('anchor')
def anchor_end(self):
if self.anchor:
self.anchor = None
self.formatter.pop_style()
def _render_one(self, entry):
cmd = entry[0]
if cmd == 'clear':
if self._bgcolor != None:
r = self._getredrawguarantee(skipclear=1)
if r:
r2 = Qd.NewRgn()
Qd.RectRgn(r2, self._window.qdrect())
Qd.DiffRgn(r2, r, r2)
Qd.EraseRgn(r2)
Qd.DisposeRgn(r)
Qd.DisposeRgn(r2)
else:
Qd.EraseRect(self._window.qdrect())
elif cmd == 'fg':
self._setfgcolor(entry[1])
elif cmd == 'font':
entry[1]._setfont(self._render_grafport)
elif cmd == 'text':
x, y, w, h = self._convert_coordinates(entry[1:5])
if not self._render_overlaprgn((x, y - h, x + w, y)):
return
Qd.MoveTo(x, y)
# XXXX Incorrect for long strings:
Qd.DrawText(entry[5], 0, len(entry[5]))
elif cmd == 'icon':
icon = entry[2]
if icon == None:
return
rect = self._convert_coordinates(entry[1])
if not self._render_overlaprgn(rect):
return
x0, y0, x1, y1 = rect
if x1 - x0 < ICONSIZE_PXL:
leftextra = (ICONSIZE_PXL - (x1 - x0)) / 2
x0 = x0 + leftextra
x1 = x0 + ICONSIZE_PXL
if y1 - y0 < ICONSIZE_PXL:
topextra = (ICONSIZE_PXL - (y1 - y0)) / 2
y0 = y0 + topextra
y1 = y0 + ICONSIZE_PXL
Icn.PlotCIcon((x0, y0, x1, y1), icon)
elif cmd == 'image':
mask, image, srcx, srcy, coordinates, w, h, units = entry[1:]
dstx, dsty = self._convert_coordinates(coordinates[:2],
units=units)
dstrect = dstx, dsty, dstx + w, dsty + h
if not self._render_overlaprgn(dstrect):
return
w = dstrect[2] - dstrect[0]
h = dstrect[3] - dstrect[1]
srcrect = srcx, srcy, srcx + w, srcy + h
self._setblackwhitecolors()
clip = self._window._mac_getclip()
if mask:
# XXXX We should also take note of the clip here.
Qd.CopyMask(image[0], mask[0],
self._render_grafport.GetPortBitMapForCopyBits(),
srcrect, srcrect, dstrect)
else:
Qd.CopyBits(image[0],
self._render_grafport.GetPortBitMapForCopyBits(),
srcrect, dstrect,
QuickDraw.srcCopy + QuickDraw.ditherCopy, clip)
self._restorecolors()
elif cmd == 'line':
color = entry[1]
points = entry[2]
self._setfgcolor(color)
x, y = self._convert_coordinates(points[0])
Qd.MoveTo(x, y)
for np in points[1:]:
x, y = self._convert_coordinates(np)
Qd.LineTo(x, y)
self._restorecolors()
elif cmd == '3dhline':
color1, color2, x0, x1, y = entry[1:]
fgcolor = self._render_grafport.rgbFgColor
self._setfgcolor(color1)
x0, y0 = self._convert_coordinates((x0, y))
x1, y1 = self._convert_coordinates((x1, y))
if not self._render_overlaprgn((x0, y0, x1, y1 + 1)):
return
Qd.MoveTo(x0, y0)
Qd.LineTo(x1, y1)
self._setfgcolor(color2)
Qd.MoveTo(x0, y0 + 1)
Qd.LineTo(x1, y1 + 1)
self._setfgcolor(fgcolor)
self._restorecolors()
elif cmd == 'box':
rect = self._convert_coordinates(entry[1])
if not self._render_overlaprgn(rect):
return
Qd.FrameRect(rect)
elif cmd == 'fbox':
color = entry[1]
units = entry[3]
rect = self._convert_coordinates(entry[2], units)
if not self._render_overlaprgn(rect):
return
self._setfgcolor(color)
Qd.PaintRect(rect)
self._restorecolors()
elif cmd == 'linewidth':
Qd.PenSize(entry[1], entry[1])
elif cmd == 'fpolygon':
polyhandle = self._polyhandle(entry[2],
cliprgn=self._render_cliprgn)
if not polyhandle:
return
self._setfgcolor(entry[1])
Qd.PaintPoly(polyhandle)
self._restorecolors()
elif cmd == '3dbox':
rect = self._convert_coordinates(entry[2])
if not self._render_overlaprgn(rect):
return
l, t, r, b = rect
cl, ct, cr, cb = entry[1]
clt = _colormix(cl, ct)
ctr = _colormix(ct, cr)
crb = _colormix(cr, cb)
cbl = _colormix(cb, cl)
## print '3Dbox', (l, t, r, b) # DBG
## print 'window', self._window.qdrect() # DBG
# l, r, t, b are the corners
l3 = l + SIZE_3DBORDER
t3 = t + SIZE_3DBORDER
r3 = r - SIZE_3DBORDER
b3 = b - SIZE_3DBORDER
# draw left side
self._setfgcolor(cl)
polyhandle = self._polyhandle([(l, t), (l3, t3), (l3, b3), (l, b)],
conv=0)
if polyhandle: Qd.PaintPoly(polyhandle)
# draw top side
self._setfgcolor(ct)
polyhandle = self._polyhandle([(l, t), (r, t), (r3, t3), (l3, t3)],
conv=0)
if polyhandle: Qd.PaintPoly(polyhandle)
# draw right side
self._setfgcolor(cr)
polyhandle = self._polyhandle([(r3, t3), (r, t), (r, b), (r3, b3)],
conv=0)
if polyhandle: Qd.PaintPoly(polyhandle)
# draw bottom side
self._setfgcolor(cb)
polyhandle = self._polyhandle([(l3, b3), (r3, b3), (r, b), (l, b)],
conv=0)
if polyhandle: Qd.PaintPoly(polyhandle)
# draw topleft
self._setfgcolor(clt)
Qd.PaintRect((l, t, l3, t3))
# draw topright
self._setfgcolor(ctr)
Qd.PaintRect((r3, t, r, t3))
# draw botright
self._setfgcolor(crb)
Qd.PaintRect((r3, b3, r, b))
# draw leftbot
self._setfgcolor(cbl)
Qd.PaintRect((l, b3, l3, b))
self._restorecolors()
elif cmd == 'diamond':
rect = self._convert_coordinates(entry[1])
if not self._render_overlaprgn(rect):
return
x, y, x1, y1 = rect
w = x1 - x
h = y1 - y
Qd.MoveTo(x, y + h / 2)
Qd.LineTo(x + w / 2, y)
Qd.LineTo(x + w, y + h / 2)
Qd.LineTo(x + w / 2, y + h)
Qd.LineTo(x, y + h / 2)
elif cmd == 'fdiamond':
rect = self._convert_coordinates(entry[2])
if not self._render_overlaprgn(rect):
return
x, y, x1, y1 = rect
w = x1 - x
h = y1 - y
self._setfgcolor(entry[1])
polyhandle = self._polyhandle([(x, y + h / 2), (x + w / 2, y),
(x + w, y + h / 2),
(x + w / 2, y + h), (x, y + h / 2)])
if polyhandle: Qd.PaintPoly(polyhandle)
self._restorecolors()
elif cmd == '3ddiamond':
rect = self._convert_coordinates(entry[2])
if not self._render_overlaprgn(rect):
return
l, t, r, b = rect
cl, ct, cr, cb = entry[1]
w = r - l
h = b - t
r = l + w
b = t + h
x = l + w / 2
y = t + h / 2
n = int(3.0 * w / h + 0.5)
ll = l + n
tt = t + 3
rr = r - n
bb = b - 3
self._setfgcolor(cl)
polyhandle = self._polyhandle([(l, y), (x, t), (x, tt), (ll, y)],
conv=0)
if polyhandle: Qd.PaintPoly(polyhandle)
self._setfgcolor(ct)
polyhandle = self._polyhandle([(x, t), (r, y), (rr, y), (x, tt)],
conv=0)
if polyhandle: Qd.PaintPoly(polyhandle)
self._setfgcolor(cr)
polyhandle = self._polyhandle([(r, y), (x, b), (x, bb), (rr, y)],
conv=0)
if polyhandle: Qd.PaintPoly(polyhandle)
self._setfgcolor(cb)
polyhandle = self._polyhandle([(l, y), (ll, y), (x, bb), (x, b)],
conv=0)
if polyhandle: Qd.PaintPoly(polyhandle)
self._restorecolors()
elif cmd == 'arrow':
color = entry[1]
src = entry[2]
dst = entry[3]
x0, y0, x1, y1, points = self._arrowdata(src, dst)
if not self._render_overlaprgn((x0, y0, x1, y1)):
return
self._setfgcolor(color)
Qd.MoveTo(x0, y0)
Qd.LineTo(x1, y1)
polyhandle = self._polyhandle(points)
if polyhandle: Qd.PaintPoly(polyhandle)
self._restorecolors()
else:
raise 'Unknown displaylist command', cmd
self._dbg_did = self._dbg_did + 1
