Esempio n. 1
0
File: Wtext.py Progetto: mmrvka/xbmc
 def drawbreakpoints(self, eraseall=0):
     breakrect = bl, bt, br, bb = self._getbreakrect()
     br = br - 1
     self.SetPort()
     Qd.PenPat(Qd.GetQDGlobalsGray())
     Qd.PaintRect((br, bt, br + 1, bb))
     Qd.PenNormal()
     self._parentwindow.tempcliprect(breakrect)
     Qd.RGBForeColor((0xffff, 0, 0))
     try:
         lasttop = bt
         self_ted = self.ted
         Qd_PaintOval = Qd.PaintOval
         Qd_EraseRect = Qd.EraseRect
         for lineno in self._debugger.get_file_breaks(self.file):
             start, end = self_ted.WEGetLineRange(lineno - 1)
             if lineno <> self_ted.WEOffsetToLine(start) + 1:
                 # breakpoints beyond our text: erase rest, and back out
                 Qd_EraseRect((bl, lasttop, br, bb))
                 break
             (x, y), h = self_ted.WEGetPoint(start, 0)
             bottom = y + h
             #print y, (lasttop, bottom)
             if bottom > lasttop:
                 Qd_EraseRect((bl, lasttop, br, y + h * eraseall))
                 lasttop = bottom
             redbullet = bl + 2, y + 3, bl + 8, y + 9
             Qd_PaintOval(redbullet)
         else:
             Qd_EraseRect((bl, lasttop, br, bb))
         Qd.RGBForeColor((0, 0, 0))
     finally:
         self._parentwindow.restoreclip()
Esempio n. 2
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 def draw(self, visRgn=None):
     if self._visible:
         penstate = Qd.GetPenState()
         Qd.PenPat(self._framepattern)
         Qd.RGBForeColor(self._framecolor)
         Qd.FrameRect(self._bounds)
         Qd.RGBForeColor((0, 0, 0))
         Qd.SetPenState(penstate)
Esempio n. 3
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 def draw(self, visRgn=None):
     if self._visible:
         if not visRgn:
             visRgn = self._parentwindow.wid.GetWindowPort().visRgn
         Qd.PenPat(Qd.GetQDGlobalsGray())
         rect = self._bounds
         Qd.FrameRect(rect)
         rect = Qd.InsetRect(rect, 3, 3)
         Qd.PenNormal()
         Qd.RGBForeColor(self._color)
         Qd.PaintRect(rect)
         Qd.RGBForeColor((0, 0, 0))
Esempio n. 4
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    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)
Esempio n. 5
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    def myDrawCell(self, onlyHilite, 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()

        l, t, r, b = cellRect

        if not onlyHilite:
            Qd.EraseRect(cellRect)

            ascent, descent, leading, size, hm = Fm.FontMetrics()
            linefeed = ascent + descent + leading

            if dataLen >= 6:
                data = theList.LGetCell(dataLen, theCell)
                iconId, indent, tab = struct.unpack("hhh", data[:6])
                try:
                    key, value = data[6:].split("\t", 1)
                except ValueError:
                    # bogus data, at least don't crash.
                    indent = 0
                    tab = 0
                    iconId = 0
                    key = ""
                    value = data[6:]

                if iconId:
                    try:
                        theIcon = Icn.GetCIcon(iconId)
                    except Icn.Error:
                        pass
                    else:
                        rect = (0, 0, 16, 16)
                        rect = Qd.OffsetRect(rect, l, t)
                        rect = Qd.OffsetRect(rect, 0, (theList.cellSize[1] - (rect[3] - rect[1])) / 2)
                        Icn.PlotCIcon(rect, theIcon)

                if len(key) >= 0:
                    cl, ct, cr, cb = cellRect
                    vl, vt, vr, vb = self._viewbounds
                    cl = vl + PICTWIDTH + indent
                    cr = vl + tab
                    if cr > vr:
                        cr = vr
                    if cl < cr:
                        drawTextCell(key, (cl, ct, cr, cb), ascent, theList)
                    cl = vl + tab
                    cr = vr
                    if cl < cr:
                        drawTextCell(value, (cl, ct, cr, cb), ascent, theList)
            #elif dataLen != 0:
            #       drawTextCell("???", 3, cellRect, ascent, theList)
            else:
                return  # we have bogus data

            # draw nice dotted line
            l, t, r, b = cellRect
            l = self._viewbounds[0] + tab
            r = l + 1;
            if not (theList.cellSize[1] & 0x01) or (t & 0x01):
                myPat = "\xff\x00\xff\x00\xff\x00\xff\x00"
            else:
                myPat = "\x00\xff\x00\xff\x00\xff\x00\xff"
            Qd.PenPat(myPat)
            Qd.PenMode(QuickDraw.srcCopy)
            Qd.PaintRect((l, t, r, b))
            Qd.PenNormal()

        if selected or onlyHilite:
            l, t, r, b = cellRect
            l = self._viewbounds[0] + PICTWIDTH
            r = self._viewbounds[2]
            Qd.PenMode(hilitetransfermode)
            Qd.PaintRect((l, t, r, b))

        # restore graphics environment
        Qd.SetPort(savedPort)
        Qd.SetClip(savedClip)
        Qd.DisposeRgn(savedClip)
        Qd.SetPenState(savedPenState)
Esempio n. 6
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    def incolumn(self, (x, y)):
        l, t, r, b = self._list.LRect((0, 0))
        abscol = l + self.col
        return abs(abscol - x) < 3

    def trackcolumn(self, (x, y)):
        from Carbon import Qd, QuickDraw, Evt
        self.SetPort()
        l, t, r, b = self._bounds
        bounds = l, t, r, b = l + 1, t + 1, r - 16, b - 1
        abscol = l + self.col
        mincol = l + self.mincol
        maxcol = r - 10
        diff = abscol - x
        Qd.PenPat('\000\377\000\377\000\377\000\377')
        Qd.PenMode(QuickDraw.srcXor)
        rect = abscol - 1, t, abscol, b
        Qd.PaintRect(rect)
        lastpoint = (x, y)
        newcol = -1
        #W.SetCursor('fist')
        while Evt.Button():
            Evt.WaitNextEvent(0, 1, None)  # needed for OSX
            (x, y) = Evt.GetMouse()
            if (x, y) <> lastpoint:
                newcol = x + diff
                newcol = max(newcol, mincol)
                newcol = min(newcol, maxcol)
                Qd.PaintRect(rect)
                rect = newcol - 1, t, newcol, b
Esempio n. 7
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    def click(self, point, modifiers):
        # what a mess...
        orgmouse = point[self._direction]
        halfgutter = self._gutter / 2
        l, t, r, b = self._bounds
        if self._direction:
            begin, end = t, b
        else:
            begin, end = l, r

        i = self.findgutter(orgmouse, begin, end)
        if i is None:
            return

        pos = orgpos = begin + (end - begin) * self._gutters[
            i]  # init pos too, for fast click on border, bug done by Petr

        minpos = self._panesizes[i][0]
        maxpos = self._panesizes[i + 1][1]
        minpos = begin + (end - begin) * minpos + 64
        maxpos = begin + (end - begin) * maxpos - 64
        if minpos > orgpos and maxpos < orgpos:
            return

        #SetCursor("fist")
        self.SetPort()
        if self._direction:
            rect = l, orgpos - 1, r, orgpos
        else:
            rect = orgpos - 1, t, orgpos, b

        # track mouse --- XXX  move to separate method?
        Qd.PenMode(QuickDraw.srcXor)
        Qd.PenPat(Qd.GetQDGlobalsGray())
        Qd.PaintRect(_intRect(rect))
        lastpos = None
        while Evt.Button():
            pos = orgpos - orgmouse + Evt.GetMouse()[self._direction]
            pos = max(pos, minpos)
            pos = min(pos, maxpos)
            if pos == lastpos:
                continue
            Qd.PenPat(Qd.GetQDGlobalsGray())
            Qd.PaintRect(_intRect(rect))
            if self._direction:
                rect = l, pos - 1, r, pos
            else:
                rect = pos - 1, t, pos, b
            Qd.PenPat(Qd.GetQDGlobalsGray())
            Qd.PaintRect(_intRect(rect))
            lastpos = pos
            self._parentwindow.wid.GetWindowPort().QDFlushPortBuffer(None)
            Evt.WaitNextEvent(0, 3)
        Qd.PaintRect(_intRect(rect))
        Qd.PenNormal()
        SetCursor("watch")

        newpos = (pos - begin) / float(end - begin)
        self._gutters[i] = newpos
        self._panesizes[i] = self._panesizes[i][0], newpos
        self._panesizes[i + 1] = newpos, self._panesizes[i + 1][1]
        self.makepanebounds()
        self.installbounds()
        self._calcbounds()