/usr/lib/libreoffice/share/Scripts/python/LibreLogo/LibreLogo.py is in libreoffice-librelogo 1:5.1.2-0ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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1822 1823 1824 1825 1826 1827 1828 1829 | # -*- tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
#
# This file is part of the LibreOffice project.
#
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
#
from __future__ import unicode_literals
import sys, os, uno, unohelper
import re, random, traceback, itertools
import threading, time as __time__
try:
unicode
next = lambda l: l.next() # python 2
except:
unicode, long = str, int # support python 3
urebootstrap = os.environ["URE_BOOTSTRAP"]
if "vnd.sun.star.pathname" in urebootstrap:
__lngpath__ = re.sub(r"^vnd.sun.star.pathname:(.*)program(/|\\)fundamental([.]ini|rc)$", "\\1", urebootstrap)
else:
__lngpath__ = unohelper.fileUrlToSystemPath(re.sub("program/(fundamental.ini|fundamentalrc)$", "", urebootstrap))
__lngpath__ = __lngpath__ + "share/Scripts/python/LibreLogo/".replace("/", os.sep)
__translang__ = "am|ca|cs|de|dk|el|en|eo|es|et|fr|hu|it|ja|nl|no|pl|pt|ru|se|sl" # FIXME supported languages for language guessing, expand this list, according to the localizations
__lng__ = {}
__docs__ = {}
__prevcode__ = None
__prevlang__ = None
__prevcompiledcode__ = None
__thread__ = None
__lock__ = threading.Lock()
__halt__ = False
__compiled__ = ""
__group__ = 0
__groupstack__ = []
__grouplefthang__ = 0
__comp__ = {}
__strings__ = []
__colors__ = {}
__COLORS__ = ['BLACK', 0x000000], ['SILVER', 0xc0c0c0], ['GRAY', 0x808080], \
['WHITE', 0xffffff], ['MAROON', 0x800000], ['RED', 0xff0000], \
['PURPLE', 0x800080], ['FUCHSIA', 0xff00ff], ['GREEN', 0x008000], \
['LIME', 0x00ff00], ['OLIVE', 0x808000], ['YELLOW', 0xffff00], \
['NAVY', 0x000080], ['BLUE', 0x0000ff], ['TEAL', 0x008080], \
['AQUA', 0x00ffff], ['PINK', 0xffc0cb], ['TOMATO', 0xff6347], \
['ORANGE', 0xffa500], ['GOLD', 0xffd700], ['VIOLET', 0x9400d3], \
['SKYBLUE', 0x87ceeb], ['CHOCOLATE', 0xd2691e], ['BROWN', 0xa52a2a], \
['INVISIBLE', 0xffffffff]
__NORMCOLORS__ = [[[255, 255, 0], 0, -11, 1, -11],
[[255, 128, 0], 1, 116, 1, -33], [[255, 0, 0], 1, 95, 2, 42],
[[255, 0, 255], 2, -213, 0, -106], [[0, 0, 255], 0, 148, 1, 127],
[[0, 255, 255], 1, -128, 2, -63], [[0, 255, 0], 2, 192, 0, 244]]
__STRCONST__ = [i[0] for i in __COLORS__] + ['NONE', 'BEVEL', 'MITER', 'ROUNDED', 'SOLID', 'DASH', 'DOTTED', 'BOLD', 'ITALIC', 'UPRIGHT', 'NORMAL', "HOUR", "PT", "INCH", "MM", "CM"]
__SLEEP_SLICE_IN_MILLISECONDS__ = 500
__PT_TO_TWIP__ = 20
__MM_TO_PT__ = 1/(25.4/72)
__MM10_TO_TWIP__ = 1/(2540.0/72/20) # 0.01 mm to twentieth point
__FILLCOLOR__ = 0x8000cc00
__LINEWIDTH__ = 0.5 * __PT_TO_TWIP__
__ENCODED_STRING__ = "_s_%s___"
__ENCODED_COMMENT__ = "_c_%s___"
__DECODE_STRING_REGEX__ = "_s_([0-9]+)___"
__DECODE_COMMENT_REGEX__ = "_c_([0-9]+)___"
__LINEBREAK__ = "#_@L_i_N_e@_#"
__TURTLE__ = "turtle"
__ACTUAL__ = "actual"
__BASEFONTFAMILY__ = "Linux Biolinum G"
__LineStyle_DOTTED__ = 2
class __Doc__:
def __init__(self, doc):
self.doc = doc
try:
self.drawpage = doc.DrawPage # Writer
except:
self.drawpage = doc.DrawPages.getByIndex(0) # Draw, Impress
self.shapecache = {}
self.shapecount = itertools.count()
self.time = 0
self.zoomvalue = 0
self.initialize()
def initialize(self):
self.pen = 1
self.pencolor = 0
self.pensize = __LINEWIDTH__
self.linestyle = __LineStyle_SOLID__
self.linejoint = __ROUNDED__
self.linecap = __Cap_NONE__
self.oldlc = 0
self.oldlw = 0
self.oldls = __LineStyle_SOLID__
self.oldlj = __ROUNDED__
self.oldlcap = __Cap_NONE__
self.continuous = True
self.areacolor = __FILLCOLOR__
self.t10y = int((__FILLCOLOR__ >> 24) / (255.0/100))
self.hatch = None
self.textcolor = 0
self.fontfamily = __BASEFONTFAMILY__
self.fontheight = 12
self.fontweight = 100
self.fontstyle = 0
self.points = []
from math import pi, sin, cos, asin, sqrt, log10
from com.sun.star.awt import Point as __Point__
from com.sun.star.awt import Gradient as __Gradient__
from com.sun.star.awt.GradientStyle import LINEAR as __GradientStyle_LINEAR__
from com.sun.star.drawing import LineDash as __LineDash__
from com.sun.star.drawing import Hatch as __Hatch__
from com.sun.star.drawing import PolyPolygonBezierCoords as __Bezier__
from com.sun.star.text.TextContentAnchorType import AT_PAGE as __AT_PAGE__
from com.sun.star.text.WrapTextMode import THROUGHT as __THROUGHT__
from com.sun.star.drawing.LineCap import BUTT as __Cap_NONE__
from com.sun.star.drawing.LineCap import ROUND as __Cap_ROUND__
from com.sun.star.drawing.LineCap import SQUARE as __Cap_SQUARE__
from com.sun.star.drawing.LineJoint import NONE as __Joint_NONE__
from com.sun.star.drawing.LineJoint import BEVEL as __BEVEL__
from com.sun.star.drawing.LineJoint import MITER as __MITER__
from com.sun.star.drawing.LineJoint import ROUND as __ROUNDED__
from com.sun.star.drawing.FillStyle import NONE as __FillStyle_NONE__
from com.sun.star.drawing.FillStyle import GRADIENT as __FillStyle_GRADIENT__
from com.sun.star.drawing.LineStyle import NONE as __LineStyle_NONE__
from com.sun.star.drawing.LineStyle import SOLID as __LineStyle_SOLID__
from com.sun.star.drawing.LineStyle import DASH as __LineStyle_DASHED__
from com.sun.star.drawing.DashStyle import RECT as __DashStyle_RECT__
from com.sun.star.drawing.DashStyle import ROUND as __DashStyle_ROUND__
from com.sun.star.drawing.DashStyle import ROUNDRELATIVE as __DashStyle_ROUNDRELATIVE__
from com.sun.star.drawing.CircleKind import FULL as __FULL__
from com.sun.star.drawing.CircleKind import SECTION as __SECTION__
from com.sun.star.drawing.CircleKind import CUT as __CUT__
from com.sun.star.drawing.CircleKind import ARC as __ARC__
from com.sun.star.awt.FontSlant import NONE as __Slant_NONE__
from com.sun.star.awt.FontSlant import ITALIC as __Slant_ITALIC__
from com.sun.star.awt import Size as __Size__
from com.sun.star.awt import WindowDescriptor as __WinDesc__
from com.sun.star.awt.WindowClass import MODALTOP as __MODALTOP__
from com.sun.star.awt.VclWindowPeerAttribute import OK as __OK__
from com.sun.star.awt.VclWindowPeerAttribute import OK_CANCEL as __OK_CANCEL__
from com.sun.star.awt.VclWindowPeerAttribute import YES_NO_CANCEL as __YES_NO_CANCEL__ # OK_CANCEL, YES_NO, RETRY_CANCEL, DEF_OK, DEF_CANCEL, DEF_RETRY, DEF_YES, DEF_NO
from com.sun.star.awt.PushButtonType import OK as __Button_OK__
from com.sun.star.awt.PushButtonType import CANCEL as __Button_CANCEL__
from com.sun.star.util.MeasureUnit import APPFONT as __APPFONT__
from com.sun.star.beans import PropertyValue as __property__
from com.sun.star.lang import Locale
def __getprop__(name, value):
p, p.Name, p.Value = __property__(), name, value
return p
__uilocale__ = uno.getComponentContext().getValueByName("/singletons/com.sun.star.configuration.theDefaultProvider").\
createInstanceWithArguments("com.sun.star.configuration.ConfigurationAccess",\
(__getprop__("nodepath", "/org.openoffice.Setup/L10N"),)).getByName("ooLocale") + '-' # handle missing Country of locale 'eo'
def __l12n__(lng):
try:
return __lng__[lng]
except:
try:
__lng__[lng] = dict([[i.decode("unicode-escape").split("=")[0].strip(), i.decode("unicode-escape").split("=")[1].strip().strip("|")] for i in open(__lngpath__ + "LibreLogo_" + lng + ".properties", 'rb').readlines() if b"=" in i])
return __lng__[lng]
except Exception:
__trace__()
return None
# dot for dotted line (implemented as an array of dot-headed arrows, because PostScript dot isn't supported by Writer)
def __gendots__(n):
return [__Point__(round(sin(360.0/n * i * pi/180.0) * 600), round(cos(360.0/n * i * pi/180) * 600)) for i in range(n)]
__bezierdot__ = __Bezier__()
__bezierdot__.Coordinates = (tuple(__gendots__(32)),)
__bezierdot__.Flags = ((0,) * 32,)
# turtle shape
__TURTLESHAPE__ = [tuple([(__Point__(-120, 130), __Point__(-245, 347), __Point__(-291, 176), ), (__Point__(0, -500), __Point__(126, -375), __Point__(0, -250), __Point__(-124, -375), ), (__Point__(295, 170), __Point__(124, 124), __Point__(250, 340), ), (__Point__(466, -204), __Point__(224, -269), __Point__(71, -180), __Point__(313, -116), ), (__Point__(-75, -175), __Point__(-292, -300), __Point__(-417, -83), ), (__Point__(250, 0), __Point__(0, -250), __Point__(-250, 0), __Point__(0, 250), )] +
[(i,) for i in __gendots__(32)] + # single points for wider selection
[(__Point__(0, 0),)]), # last point for position handling
((__Point__(0, 0),),)] # hidden turtle (single point to draw at the left border of the page area)
def __getdocument__():
global __docs__, _
doc = XSCRIPTCONTEXT.getDocument()
try:
_ = __docs__[doc.RuntimeUID]
except:
_ = __Doc__(doc)
__docs__[doc.RuntimeUID] = _
# input function, result: input string or 0
def Input(s):
global __halt__
try:
ctx = uno.getComponentContext()
smgr = ctx.ServiceManager
text = ""
# dialog
d = smgr.createInstanceWithContext("com.sun.star.awt.UnoControlDialogModel", ctx)
ps = _.doc.CurrentController.Frame.ContainerWindow.getPosSize()
lo = _.doc.CurrentController.Frame.ContainerWindow.convertSizeToLogic(__Size__(ps.Width, ps.Height), __APPFONT__)
d.PositionX, d.PositionY, d.Width, d.Height = lo.Width/2 - 75, lo.Height/2 - 25, 150, 50
# label
l = d.createInstance("com.sun.star.awt.UnoControlFixedTextModel" )
if type(s) == list:
text = s[1]
s = s[0]
l.PositionX, l.PositionY, l.Width, l.Height, l.Name, l.TabIndex, l.Label = 5, 4, 140, 14, "l1", 2, s
# textbox or combobox
e = d.createInstance("com.sun.star.awt.UnoControlEditModel")
e.PositionX, e.PositionY, e.Width, e.Height, e.Name, e.TabIndex = 5, 14, 140, 12, "e1", 0
# buttons
b = d.createInstance( "com.sun.star.awt.UnoControlButtonModel" )
b.PositionX, b.PositionY, b.Width, b.Height, b.Name, b.TabIndex, b.PushButtonType, b.DefaultButton = 55, 32, 45, 14, "b1", 1, __Button_OK__, True
b2 = d.createInstance( "com.sun.star.awt.UnoControlButtonModel" )
b2.PositionX, b2.PositionY, b2.Width, b2.Height, b2.Name, b2.TabIndex, b2.PushButtonType = 100, 32, 45, 14, "b2", 1, __Button_CANCEL__
# insert the control models into the dialog model
d.insertByName( "l1", l)
d.insertByName( "b1", b)
d.insertByName( "b2", b2)
d.insertByName( "e1", e)
# create the dialog control and set the model
controlContainer = smgr.createInstanceWithContext("com.sun.star.awt.UnoControlDialog", ctx)
controlContainer.setModel(d)
# create a peer
toolkit = smgr.createInstanceWithContext("com.sun.star.awt.ExtToolkit", ctx)
controlContainer.setVisible(False)
controlContainer.createPeer(toolkit, None)
# execute it
inputtext = controlContainer.execute()
if inputtext:
inputtext = e.Text
else:
__halt__ = True
# dispose the dialog
controlContainer.dispose()
return inputtext
except Exception:
__trace__()
def __string__(s, decimal = None): # convert decimal sign, localized BOOL and SET
if not decimal:
decimal = _.decimal
if decimal == ',' and type(s) == float:
return str(s).replace(".", ",")
if type(s) in [list, tuple, dict, set]:
__strings__ = []
s = re.sub("(?u)(['\"])(([^'\"]|\\['\"])*)(?<!\\\\)\\1", __encodestring__, str(s)) # XXX fix double '\'\"'
if decimal == ',':
s = s.replace(".", ",")
return re.sub(__DECODE_STRING_REGEX__, __decodestring__, \
s.replace('set', __locname__('SET')).replace('True', __locname__('TRUE')).replace('False', __locname__('FALSE')))
if type(s) in [str, unicode]:
return s
elif type(s) == bool:
return __locname__(str(s).upper())
return str(s)
def Print(s):
global __halt__
s = __string__(s, _.decimal)
if not MessageBox(_.doc.CurrentController.Frame.ContainerWindow, s[:500] + s[500:5000].replace('\n', ' '), "", "messbox", __OK_CANCEL__):
__halt__ = True
def MessageBox(parent, message, title, msgtype = "messbox", buttons = __OK__):
msgtypes = ("messbox", "infobox", "errorbox", "warningbox", "querybox")
if not (msgtype in msgtypes):
msgtype = "messbox"
d = __WinDesc__()
d.Type = __MODALTOP__
d.WindowServiceName = msgtype
d.ParentIndex = -1
d.Parent = parent
d.WindowAttributes = buttons
tk = parent.getToolkit()
msgbox = tk.createWindow(d)
msgbox.MessageText = message
if title:
msgbox.CaptionText = title
return msgbox.execute()
def Random(r):
try:
return r * random.random()
except:
return list(r)[int(random.random() * len(r))]
def to_ascii(s):
return s.encode("unicode-escape").decode("utf-8").replace("\\u", "__u__").replace(r"\x", "__x__")
def to_unicode(s):
return bytes(s.replace("__x__", r"\x").replace("__u__", "\\u"), "ascii").decode("unicode-escape")
def __trace__():
if 'PYUNO_LOGLEVEL' in os.environ:
print(traceback.format_exc())
def __locname__(name, l = -1):
if l == -1:
l = _.lng
for i in __l12n__(l):
if i == name.upper():
return __l12n__(l)[i].split("|")[0] # return with the first localized name
return to_unicode(name)
def __getcursor__(fulltext):
realselection = False
try:
text = _.doc.getCurrentController().getViewCursor().getText().createTextCursor() # copy selection (also in frames)
text.gotoRange(_.doc.getCurrentController().getViewCursor(), False)
if fulltext:
1/len(text.getString()) # exception, if zero length
realselection = True
except:
text = _.doc.getText().createTextCursorByRange(_.doc.getText().getStart())
text.gotoEnd(True)
return text, realselection
def __translate__(arg = None):
global _
__getdocument__()
selection = __getcursor__(True)[0]
__initialize__()
__setlang__()
# detect language
text = selection.getString()
# remove comments and strings
text = re.sub(r"[ ]*;[^\n]*", "", re.sub(r"['„“‘«»「][^\n'”“‘’«»」]*['”“‘’«»」]", "", re.sub(r"^[ \t]*[;#][^\n]*", "", text)))
text = " ".join(set(re.findall("(?u)\w+", text)) - set(re.findall("(?u)\w*\d+\w*", text))).lower() # only words
ctx = uno.getComponentContext()
guess = ctx.ServiceManager.createInstanceWithContext("com.sun.star.linguistic2.LanguageGuessing", ctx)
guess.disableLanguages(guess.getEnabledLanguages())
guess.enableLanguages(tuple([Locale(i, "", "") for i in __translang__.split("|")]))
guess = guess.guessPrimaryLanguage(text, 0, len(text))
try:
l = {'cs': 'cs_CZ', 'el': 'el_GR', 'en': 'en_US', 'pt': 'pt_BR'}[guess.Language]
except:
l = guess.Language + '_' + guess.Language.upper()
lang = __l12n__(l)
if not lang:
lang = __l12n__(guess.Language)
if not lang:
lang = __l12n__(_.lng)
if not lang:
lang = __l12n__("en_US")
lq = '\'' + lang['LEFTSTRING'].replace("|", "")
rq = '\'' + lang['RIGHTSTRING'].replace("|", "")
__strings__ = []
text = re.sub(r"^(([ \t]*[;#][^\n]*))", __encodecomment__, text)
text = re.sub("(?u)([%s])([^\n%s]*)(?<!\\\\)[%s]" % (lq, rq, rq), __encodestring__, selection.getString())
text = re.sub('(?u)(?<![0-9])(")(~?\w*)', __encodestring__, text)
text = re.sub(r";(([^\n]*))", __encodecomment__, text)
# translate the program to the language of the document FIXME space/tab
exception = ['DECIMAL']
in1 = lang['IN'].upper()
in2 = __l12n__(_.lng)['IN'].split("|")[0].upper()
if in1[0] == '-' and in2[0] != '-': # "for x y-in" -> "for x in y"
exception += ['IN']
text = re.sub(r"(?ui)\b((?:%s) +:?\w+) +([^\n]+)(?:%s) +(?=[[] |[[]\n)" % (lang['FOR'], in1), "\\1 %s \\2 " % in2, text)
text = re.sub(r"(?ui)(:?\b\w+|[[][^[\n]*])\b(?:%s)\b" % in1, "%s \\1" % in2, text)
elif in1[0] != '-' and in2[0] == '-': # "for x in y" -> "for x y-in"
exception += ['IN']
text = re.sub(r"(?ui)(?<=\n)((?:%s)\b +:?\w+) +(?:%s) +([^\n]+?) +(?=[[] |[[]\n)" % (lang['FOR'], in1), "\\1 \\2%s " % in2, text)
text = re.sub(r"(?ui)(?<!:)\b(?:%s) +(:?\b\w+|[[][^[\n]*])\b" % in1, "\\1%s" % in2, text)
for i in set(lang) - set(exception):
text = re.sub(r'(?ui)(?<!:)\b(%s)\b' % lang[i], __l12n__(_.lng)[i].split("|")[0].upper(), text)
text = re.sub(r"(?<=\d)[%s](?=\d)" % lang['DECIMAL'], __l12n__(_.lng)['DECIMAL'], text)
# decode strings and comments
quoted = u"(?ui)(?<=%s)(%%s)(?=%s)" % (__l12n__(_.lng)['LEFTSTRING'][0], __l12n__(_.lng)['RIGHTSTRING'][0])
text = re.sub(__DECODE_STRING_REGEX__, __decodestring2__, text)
for i in __STRCONST__:
text = re.sub(quoted % lang[i], __l12n__(_.lng)[i].split("|")[0].upper(), text)
text = re.sub(__DECODE_COMMENT_REGEX__, __decodecomment__, text)
if _.doc.getText().compareRegionStarts(selection.getStart(), _.doc.getText().getStart()) == 0:
pagebreak = True
selection.setString("\n" + text.lstrip("\n"))
else:
pagebreak = False
selection.setString(text)
# convert to paragraphs
__dispatcher__(".uno:ExecuteSearch", (__getprop__("SearchItem.SearchString", r"\n"), __getprop__("SearchItem.ReplaceString", r"\n"), \
__getprop__("Quiet", True), __getprop__("SearchItem.Command", 3), __getprop__("SearchItem.StyleFamily", 2), \
__getprop__("SearchItem.AlgorithmType", 1), __getprop__("SearchItem.RowDirection", 1), __getprop__("SearchItem.SearchFlags", 65536)))
# set 2-page layout
if pagebreak:
selection.getStart().BreakType = 4
__dispatcher__(".uno:ZoomPage")
class LogoProgram(threading.Thread):
def __init__(self, code):
self.code = code
threading.Thread.__init__(self)
def run(self):
global __thread__
try:
exec(self.code)
if _.origcursor[0] and _.origcursor[1]:
__dispatcher__(".uno:Escape")
try:
_.doc.CurrentController.getViewCursor().gotoRange(_.origcursor[0], False)
except:
_.doc.CurrentController.getViewCursor().gotoRange(_.origcursor[0].getStart(), False)
except Exception as e:
try:
TRACEPATTERN = '"<string>", line '
message = traceback.format_exc()
l = re.findall(TRACEPATTERN + '[0-9]+', message)
if len(l) > 0 and not "SystemExit" in message:
line = len(re.findall(__LINEBREAK__, ''.join(self.code.split("\n")[:int(l[-1][len(TRACEPATTERN):])]))) + 1
caption = __l12n__(_.lng)['LIBRELOGO']
if __prevcode__ and "\n" in __prevcode__:
__gotoline__(line)
caption = __l12n__(_.lng)['ERROR'] % line
parent = _.doc.CurrentController.Frame.ContainerWindow
if "maximum recursion" in message:
MessageBox(parent, __l12n__(_.lng)['ERR_STOP'] + " " + __l12n__(_.lng)['ERR_MAXRECURSION'] % sys.getrecursionlimit(), __l12n__(_.lng)['LIBRELOGO'])
elif "cannot initialize memory" in message or "Couldn't instantiate" in message:
MessageBox(parent, __l12n__(_.lng)['ERR_STOP'] + " " + __l12n__(_.lng)['ERR_MEMORY'], __l12n__(_.lng)['LIBRELOGO'])
elif "ZeroDivisionError" in message:
MessageBox(parent, __l12n__(_.lng)['ERR_ZERODIVISION'], caption, "errorbox")
elif "IndexError" in message:
MessageBox(parent, __l12n__(_.lng)['ERR_INDEX'], caption, "errorbox")
elif "KeyError" in message:
MessageBox(parent, __l12n__(_.lng)['ERR_KEY'] % eval(re.search("KeyError: ([^\n]*)", message).group(1)), caption, "errorbox")
elif "NameError" in message:
if "__repeat__" in message:
MessageBox(parent, __l12n__(_.lng)['ERR_ARGUMENTS'] % (__locname__('REPEAT'), 1, 0), caption, "errorbox")
else:
MessageBox(parent, __l12n__(_.lng)['ERR_NAME'] % \
to_unicode(re.search("(?<=name ')[\w_]*(?=')", message).group(0)), caption, "errorbox")
elif "TypeError" in message and "argument" in message and "given" in message:
r = re.search("([\w_]*)[(][)][^\n]* (\w+) arguments? [(](\d+)", message) # XXX later: handle 'no arguments' + plural
MessageBox(parent, __l12n__(_.lng)['ERR_ARGUMENTS'] % (__locname__(r.group(1)), r.group(2), r.group(3)), caption, "errorbox")
else:
origline = __compiled__.split("\n")[line-1]
if not "com.sun.star" in message and not "__repeat__" in message and not "*)" in message and ("[" in origline or "]" in origline):
MessageBox(parent, __l12n__(_.lng)['ERR_BLOCK'], caption, "errorbox")
else:
MessageBox(parent, __l12n__(_.lng)['ERROR'] %line, __l12n__(_.lng)['LIBRELOGO'], "errorbox")
__trace__()
except:
pass
with __lock__:
__thread__ = None
def __encodestring__(m):
__strings__.append(re.sub("\\[^\\]", "", m.group(2)))
return __ENCODED_STRING__ % (len(__strings__) - 1)
def __encodecomment__(m):
__strings__.append(re.sub("\\[^\\]", "", m.group(2)))
return __ENCODED_COMMENT__ % (len(__strings__) - 1)
def __decodestring__(m):
return "u'%s'" % __strings__[int(m.group(1))]
def __decodestring2__(m):
return __l12n__(_.lng)['LEFTSTRING'][0] + __strings__[int(m.group(1))] + __l12n__(_.lng)['RIGHTSTRING'][0]
def __decodecomment__(m):
return ";" + __strings__[int(m.group(1))]
def __initialize__():
global __halt__, __thread__
__getdocument__()
_.zoomvalue = _.doc.CurrentController.getViewSettings().ZoomValue
shape = __getshape__(__TURTLE__)
if not shape:
shape = _.doc.createInstance( "com.sun.star.drawing.PolyPolygonShape" )
shape.AnchorType = __AT_PAGE__
shape.TextWrap = __THROUGHT__
shape.Opaque = True
_.drawpage.add(shape)
shape.PolyPolygon = __TURTLESHAPE__[0]
_.shapecache[__TURTLE__] = shape
shape.Name = __TURTLE__
_.initialize()
turtlehome()
_.doc.CurrentController.select(shape)
shape.FillColor, transparence = __splitcolor__(_.areacolor, shape)
shape.LineColor, shape.LineTransparence = __splitcolor__(_.pencolor)
elif shape.Visible:
if shape.FillStyle == __FillStyle_NONE__:
_.areacolor = 0xffffffff
else:
_.areacolor = shape.FillColor + (int(255.0 * shape.FillTransparence/100) << 24)
if shape.LineWidth != round((1 + _.pen * 2) * __PT_TO_TWIP__ / __MM10_TO_TWIP__) and shape.LineWidth != round(__LINEWIDTH__ / __MM10_TO_TWIP__):
_.pensize = shape.LineWidth * __MM10_TO_TWIP__
if shape.LineStyle == __LineStyle_NONE__: # - none -
__pen__(0)
else:
if shape.LineStyle == __LineStyle_SOLID__:
__pen__(1)
_.pencolor = shape.LineColor + (int(255.0 * shape.LineTransparence/100) << 24)
shape.LineJoint = __ROUNDED__
shape.Shadow = True
shape.FillColor, transparence = __splitcolor__(_.areacolor, shape)
shape.FillTransparence = min(95, transparence)
shape.ShadowColor, shape.ShadowTransparence, shape.ShadowXDistance, shape.ShadowYDistance = (0, 20, 0, 0)
shape.LineWidth = min(_.pensize, (1 + _.pen * 2) * __PT_TO_TWIP__) / __MM10_TO_TWIP__
shape.SizeProtect = True
def pagesize(n = -1):
if n == -1:
ps = _.doc.CurrentController.getViewCursor().PageStyleName
page = _.doc.StyleFamilies.getByName("PageStyles").getByName(ps)
return [page.Width * __MM10_TO_TWIP__ / __PT_TO_TWIP__, page.Height * __MM10_TO_TWIP__ / __PT_TO_TWIP__]
return None
def turtlehome():
turtle = __getshape__(__TURTLE__)
if turtle:
ps = _.doc.CurrentController.getViewCursor().PageStyleName
page = _.doc.StyleFamilies.getByName("PageStyles").getByName(ps)
turtle.setPosition(__Point__((page.Width - turtle.BoundRect.Width)/2, (page.Height - turtle.BoundRect.Height)/2))
turtle.LineStyle = __LineStyle_SOLID__
turtle.LineJoint = __MITER__
turtle.LineWidth = min(_.pensize, (1 + _.pen * 2) * __PT_TO_TWIP__) / __MM10_TO_TWIP__
turtle.LineColor, none = __splitcolor__(_.pencolor)
turtle.LineTransparence = 25
turtle.RotateAngle = 0
turtle.ZOrder = 1000
def __pen__(n):
_.pen = n
turtle = __getshape__(__TURTLE__)
if turtle:
if n:
turtle.LineStyle = __LineStyle_SOLID__
turtle.LineWidth = min(_.pensize, 3 * __PT_TO_TWIP__) / __MM10_TO_TWIP__
else:
turtle.LineStyle = __LineStyle_DASHED__
turtle.LineDash = __LineDash__(__DashStyle_RECT__, 0, 0, 1, __PT_TO_TWIP__, __PT_TO_TWIP__)
turtle.LineWidth = min(_.pensize, __PT_TO_TWIP__) / __MM10_TO_TWIP__
def __visible__(shape, visible = -1): # for OOo 3.2 compatibility
try:
if visible == -1:
return shape.Visible
shape.Visible = visible
except:
return True
def hideturtle():
turtle = __getshape__(__TURTLE__)
if turtle and turtle.Visible:
z = turtle.getPosition()
z = __Point__(z.X + turtle.BoundRect.Width / 2.0, z.Y + turtle.BoundRect.Height / 2.0)
turtle.PolyPolygon = __TURTLESHAPE__[1]
__visible__(turtle, False)
turtle.LineTransparence, turtle.FillTransparence = 100, 100 # for saved files
turtle.setPosition(z)
__dispatcher__(".uno:Escape")
def showturtle():
turtle = __getshape__(__TURTLE__)
if turtle and not turtle.Visible:
if not turtle.Parent:
_.drawpage.add(turtle)
z = turtle.getPosition()
r, turtle.RotateAngle = turtle.RotateAngle, 0
turtle.PolyPolygon, turtle.RotateAngle = __TURTLESHAPE__[0], r
z = __Point__(z.X - turtle.BoundRect.Width / 2.0, z.Y - turtle.BoundRect.Height / 2.0)
turtle.setPosition(z)
__visible__(turtle, True)
pencolor(_.pencolor)
fillcolor(_.areacolor)
pensize(_.pensize/__PT_TO_TWIP__)
_.doc.CurrentController.select(__getshape__(__TURTLE__))
elif not turtle:
__initialize__()
def left(arg=None):
if __thread__:
return None
__initialize__()
turtle = uno.getComponentContext().ServiceManager.createInstance('com.sun.star.drawing.ShapeCollection')
turtle.add(__getshape__(__TURTLE__))
_.doc.CurrentController.select(turtle)
rotate(__TURTLE__, 1500)
return None
def right(arg=None):
if __thread__:
return None
__initialize__()
turtle = uno.getComponentContext().ServiceManager.createInstance('com.sun.star.drawing.ShapeCollection')
turtle.add(__getshape__(__TURTLE__))
_.doc.CurrentController.select(turtle)
rotate(__TURTLE__, -1500)
return None
def goforward(arg=None):
if __thread__:
return None
__initialize__()
turtle = uno.getComponentContext().ServiceManager.createInstance('com.sun.star.drawing.ShapeCollection')
turtle.add(__getshape__(__TURTLE__))
_.doc.CurrentController.select(turtle)
forward(10)
return None
def gobackward(arg=None):
if __thread__:
return None
__initialize__()
turtle = uno.getComponentContext().ServiceManager.createInstance('com.sun.star.drawing.ShapeCollection')
turtle.add(__getshape__(__TURTLE__))
_.doc.CurrentController.select(turtle)
backward(10)
return None
def commandline(arg=None, arg2=None):
run(arg, arg2)
def __setlang__():
global _
c = _.doc.CurrentController.getViewCursor()
locs = [i for i in [c.CharLocale, c.CharLocaleAsian, c.CharLocaleComplex] if i.Language != 'zxx'] # not None language
# FIXME-BCP47: this needs adaption to language tags, a simple split on
# '-' and assuming second field would be country would already fail if
# a script tag was present.
loc = Locale(__uilocale__.split('-')[0], __uilocale__.split('-')[1], '')
if locs and loc not in locs:
loc = locs[0]
_.lng = loc.Language + '_' + loc.Country
if not __l12n__(_.lng):
_.lng = loc.Language
if not __l12n__(_.lng):
_.lng = "en_US"
def run(arg=None, arg2 = -1):
global _, __thread__, __halt__, _, __prevcode__, __prevlang__, __prevcompiledcode__
if __thread__:
return None
with __lock__:
__thread__ = 1
try:
__getdocument__()
_.origcursor = [None, None]
if arg2 == -1:
_.origcursor, _.cursor = __getcursor__(False), __getcursor__(True)[0]
__dispatcher__(".uno:Escape")
c = _.doc.Text.createTextCursor() # go to the first page
c.gotoStart(False)
_.doc.CurrentController.getViewCursor().gotoRange(c, False)
__initialize__()
__setlang__()
arg2 = _.cursor.getString()
if len(arg2) > 20000:
if MessageBox(_.doc.CurrentController.Frame.ContainerWindow, __l12n__(_.lng)['ERR_NOTAPROGRAM'], __l12n__(_.lng)['LIBRELOGO'], "querybox", __YES_NO_CANCEL__) != 2:
with __lock__:
__thread__ = None
return None
elif len(arg2) == 0 and _.origcursor[1]:
_.origcursor[0].setString("fontcolor 'green'\nlabel 'LIBRE'\npu\nback 30\npic [\n\tfc any\n\tcircle 40\n\tfontcolor 'black'\n\tlabel 'LOGO'\n\tleft 180\n\tfd 20\n\tpd\n\tpc any\n\tps 1\n\tfd 40\n\trepeat 20 [\n\t\tfd repcount*2\n\t\trt 90\n\t]\n]\npu pos any pd")
__translate__()
_.origcursor, _.cursor = __getcursor__(False), __getcursor__(True)[0]
arg2 = _.cursor.getString()
else:
__initialize__()
__setlang__()
if __prevcode__ and __prevcode__ == arg2 and __prevlang__ == _.lng:
__thread__ = LogoProgram(__prevcompiledcode__)
else:
__prevcode__ = arg2
__prevlang__ = _.lng
__prevcompiledcode__ = __compil__(arg2)
__thread__ = LogoProgram(__prevcompiledcode__)
__halt__ = False
turtle = uno.getComponentContext().ServiceManager.createInstance('com.sun.star.drawing.ShapeCollection')
turtle.add(__getshape__(__TURTLE__))
_.doc.CurrentController.select(turtle)
# set working directory for file operations
if _.doc.hasLocation():
name = os.chdir(unohelper.fileUrlToSystemPath(re.sub("[^/]*$", "", _.doc.getURL())))
else:
name = os.chdir(os.path.expanduser('~'))
__thread__.start()
except Exception as e:
__thread__ = None
__trace__()
return None
def stop(arg=None):
global __halt__
with __lock__:
__halt__ = True
return None
def home(arg=None):
if __thread__:
return None
__getdocument__()
turtle = __getshape__(__TURTLE__)
if turtle:
__removeshape__(__TURTLE__)
_.drawpage.remove(turtle)
__initialize__()
__dispatcher__(".uno:Escape")
if not __halt__:
return None
_.pencolor = 0
_.pensize = __LINEWIDTH__
_.areacolor = __FILLCOLOR__
pen = 1
__removeshape__(__ACTUAL__)
def clearscreen(arg=None):
if __thread__:
return None
__getdocument__()
turtle = __getshape__(__TURTLE__)
if not turtle:
__initialize__()
if not __halt__:
# avoid unintentional image deletion in large documents
if len(__getcursor__(True)[0].getString()) < 5000:
__cs__(False)
return
__cs__(False)
__dispatcher__(".uno:Escape")
def __checkhalt__():
global __thread__, __halt__
if __halt__:
with __lock__:
__thread__ = None
sys.exit()
def __cs__(select = True):
turtle = __getshape__(__TURTLE__)
visible = False
if turtle and turtle.Visible:
__visible__(turtle, False)
visible = True
if _.doc.CurrentController.select(_.drawpage) and \
_.doc.CurrentController.getSelection().ImplementationName == "com.sun.star.drawing.SvxShapeCollection":
__dispatcher__(".uno:Delete")
if turtle and visible:
__visible__(turtle, True)
if select:
_.doc.CurrentController.select(_.drawpage)
def __dispatcher__(s, properties = (), doc = 0):
ctx = XSCRIPTCONTEXT.getComponentContext()
d = ctx.ServiceManager.createInstanceWithContext("com.sun.star.frame.DispatchHelper", ctx)
if doc != 0:
d.executeDispatch(doc.CurrentController.Frame, s, "", 0, properties)
else:
d.executeDispatch(_.doc.CurrentController.Frame, s, "", 0, properties)
def __getshape__(shapename):
try:
if _.shapecache[shapename].Parent:
return _.shapecache[shapename]
_.shapecache.pop(shapename)
except:
pass
return None
def __angle__(deg):
if deg == u'any':
return random.random() * 36000
return deg * 100
def turnleft(deg):
rotate(__TURTLE__, __angle__(deg))
def turnright(deg):
rotate(__TURTLE__, -__angle__(deg))
def heading(deg = -1, go = False):
turtle = __getshape__(__TURTLE__)
if deg == -1:
return -turtle.RotateAngle / 100 + 360
else:
if deg == u'any':
turtle.RotateAngle = random.random() * 36000
elif type(deg) == list:
pos = turtle.getPosition()
px, py = pos.X + turtle.BoundRect.Width / 2.0, pos.Y + turtle.BoundRect.Height / 2.0
dx = px * __MM10_TO_TWIP__ - deg[0] * __PT_TO_TWIP__
dy = deg[1] * __PT_TO_TWIP__ - py * __MM10_TO_TWIP__
n = sqrt(dx**2 + dy**2)
if dy > 0 and n > 0:
turtle.RotateAngle = a = -(180 + asin(dx / n) / (pi/180)) * 100 + 72000 # +720 for max(angle, preciseAngle) of __go__()
elif n > 0:
turtle.RotateAngle = a = asin(dx / n) / (pi/180) * 100 + 72000
if go and n > 0:
__go__(__TURTLE__, -n, False, a)
else:
turtle.RotateAngle = -deg * 100
def rotate(shapename, deg):
shape = __getshape__(shapename)
if shape:
shape.RotateAngle = shape.RotateAngle + deg
def forward(n):
if type(n) == list:
pos = position()
angle = heading()
dx = n[1] * sin((pi/180) * angle) + n[0] * sin((pi/180)*(angle + 90))
dy = n[1] * cos((pi/180) * angle) + n[0] * cos((pi/180)*(angle + 90))
position([pos[0] + dx, pos[1] - dy])
elif type(n) == str:
siz = label([1, 1, n])
shape = __getshape__(__ACTUAL__)
pos = position()
angle = heading()
w, h = siz.Width / (__PT_TO_TWIP__ / __MM10_TO_TWIP__), siz.Height / (__PT_TO_TWIP__ / __MM10_TO_TWIP__)
dx = 0 * sin((pi/180) * (angle)) + w * sin((pi/180)*(angle + 90))
dy = 0 * cos((pi/180) * (angle)) + w * cos((pi/180)*(angle + 90))
position([pos[0] + dx, pos[1] - dy])
heading(angle)
else:
__go__(__TURTLE__, -n * __PT_TO_TWIP__)
def backward(n):
if type(n) == list:
forward([-n[0], -n[1]])
turnright(180)
else:
__go__(__TURTLE__, n * __PT_TO_TWIP__)
def __dots__(n, pos, dx, dy, r = -1, q = 0): # dots for dotted polyline or circle
f = [1, 4, 4, 4, 4][q]
k = abs(int(1.0 * n / max(20, _.pensize) / 2.0 / f))
dots = []
px, py = pos.X, pos.Y
for i in range(k + 1):
if k > 0:
if r != -1:
px, py = pos.X + sin(((f-1)*(q-1)*30 + 360.0/f/k * i) * pi/180.0) * r[0], pos.Y + cos(((f-1)*(q-1)*30 + 360.0/f/k * i) * pi/180) * r[1]
else:
px, py = pos.X + round(i * dx/k), pos.Y + round(i * dy/k)
dots += [(__Point__(px, py), __Point__(px + 7, py + 7))]
return dots
def __draw__(d, count = True):
shape = _.doc.createInstance( "com.sun.star.drawing." + d)
shape.AnchorType = __AT_PAGE__
shape.TextWrap = __THROUGHT__
__visible__(shape, False)
while __zoom__(): # temporary fix program halt with continuous zoom
while __zoom__():
__time__.sleep(0.2)
__time__.sleep(0.2)
_.drawpage.add(shape)
if __group__ != 0:
__group__.add(shape)
if count:
_.shapecache[next(_.shapecount)] = str(_.time)
return shape
def __zoom__():
z = _.doc.CurrentController.getViewSettings().ZoomValue
if z != _.zoomvalue:
_.zoomvalue = z
return True
return False
def __lefthang__(shape):
global __grouplefthang__
if __group__ != 0:
p = shape.getPosition()
if p.X < __grouplefthang__:
__grouplefthang__ = p.X
def __go__(shapename, n, dot = False, preciseAngle = -1):
turtle = __getshape__(shapename)
turtlepos = None
if shapename == __TURTLE__:
try:
turtlepos = turtle.PolyPolygon[-1][-1]
except:
pass
pos = turtle.getPosition()
dx = n * sin((pi/180)*(max(turtle.RotateAngle, preciseAngle)/100))
dy = n * cos((pi/180)*(max(turtle.RotateAngle, preciseAngle)/100))
turtle.setPosition(__Point__(pos.X + dx / __MM10_TO_TWIP__, pos.Y + dy / __MM10_TO_TWIP__))
if (_.pencolor != _.oldlc or _.pensize != _.oldlw or _.linestyle != _.oldls or _.linejoint != _.oldlj or _.linecap != _.oldlcap):
__removeshape__(__ACTUAL__)
shape = None
else:
shape = __getshape__(__ACTUAL__)
_.oldlw = _.pensize
_.oldlc = _.pencolor
_.oldls = _.linestyle
_.oldlj = _.linejoint
_.oldlcap = _.linecap
if shape and not _.pen and not dot:
_.continuous = False
return
c, c2 = __Point__(pos.X + turtle.BoundRect.Width / 2.0, pos.Y + turtle.BoundRect.Height / 2.0), __Point__(round(dx), round(dy))
if shape and "LineShape" in shape.ShapeType:
if _.continuous or dot:
last = shape.PolyPolygon[-1][-1]
if not (turtlepos and (abs(last.X - turtlepos.X) > 100 or abs(last.Y - turtlepos.Y) > 100) and
(__group__ == 0 or (shape.getPosition().X > 0 and turtle.getPosition().X > 0))): # picture [ ] keeps hanging shapes
if dot or _.linestyle == __LineStyle_DOTTED__:
shape.PolyPolygon = tuple( list(shape.PolyPolygon) + __dots__(n, turtlepos, dx, dy))
else:
last.X = last.X + c2.X
last.Y = last.Y + c2.Y
shape.PolyPolygon = tuple( list(shape.PolyPolygon[:-1]) + [tuple( list(shape.PolyPolygon[-1]) + [last])])
__lefthang__(shape)
return
elif turtlepos:
shape.PolyPolygon = tuple( list(shape.PolyPolygon) + [(turtlepos, __Point__(turtlepos.X + c2.X, turtlepos.Y + c2.Y))])
_.continuous = True
__lefthang__(shape)
return
if not _.pen and not dot:
return
if _.pen and not dot:
_.points = [] # new line drawing: forget the points
shape = __draw__("PolyLineShape")
shape.RotateAngle = 0
shape.PolyPolygon = tuple([tuple([__Point__(0, 0)])])
shape.setPosition(c)
last = shape.PolyPolygon[-1][-1]
last2 = __Point__(last.X + c2.X, last.Y + c2.Y)
shape.LineStyle, shape.LineDash = __linestyle__(_.linestyle)
shape.LineJoint = _.linejoint
shape.LineCap = _.linecap
if dot or _.linestyle == __LineStyle_DOTTED__:
shape.PolyPolygon = tuple( list(shape.PolyPolygon) + __dots__(n, last, c2.X, c2.Y))
shape.LineStart = __bezierdot__
shape.LineStartCenter = True
shape.LineStartWidth = max(20, _.pensize) / __MM10_TO_TWIP__
shape.LineWidth = 0
else:
shape.PolyPolygon = tuple([tuple( list(shape.PolyPolygon[-1]) + [last2])])
shape.LineWidth = _.pensize / __MM10_TO_TWIP__
shape.LineColor, shape.LineTransparence = __splitcolor__(_.pencolor)
if shape.LineTransparence == 100:
shape.LineStyle = 0
__visible__(shape, True)
shape.Name = __ACTUAL__
_.shapecache[__ACTUAL__] = shape
_.oldlw = _.pensize
_.oldlc = _.pencolor
_.oldls = _.linestyle
_.oldlj = _.linejoint
_.oldlcap = _.linecap
_.continuous = True
__lefthang__(shape)
def __fillit__(filled = True):
oldshape = __getshape__(__ACTUAL__)
if (oldshape and oldshape.LineStartCenter) or _.points:
if oldshape:
__removeshape__(__ACTUAL__) # FIXME close dotted polyline
if _.points:
p = position()
h = heading()
for i in _.points:
position(i)
__pen__(1)
__checkhalt__()
_.points = []
__fillit__(filled)
__pen__(0)
position(p)
heading(h)
return
if oldshape and "LineShape" in oldshape.ShapeType:
shape = __draw__("PolyPolygonShape", False)
shape.PolyPolygon = oldshape.PolyPolygon
shape.setPosition(oldshape.getPosition())
shape.LineStyle, shape.LineDash = __linestyle__(_.linestyle)
shape.LineJoint = _.linejoint
shape.LineCap = _.linecap
shape.LineWidth = _.pensize / __MM10_TO_TWIP__
shape.LineColor, shape.LineTransparence = __splitcolor__(_.pencolor)
shape.FillColor, shape.FillTransparence = __splitcolor__(_.areacolor, shape)
if _.hatch:
shape.FillBackground = True if shape.FillTransparence != 100 else False
shape.FillHatch = _.hatch
shape.FillStyle = 3
elif type(_.areacolor) != tuple:
shape.FillStyle = int(filled)
if shape.LineTransparence == 100:
shape.LineStyle = 0
if shape.FillTransparence == 100:
shape.FillTransparence = 0 # for hatching and better modifications on UI
if not _.hatch:
shape.FillStyle = 0
shape.setString(oldshape.getString())
oldshape.Name = ""
shape.Name = __ACTUAL__
_.shapecache[__ACTUAL__] = shape
if __group__ != 0:
__group__.remove(oldshape)
__visible__(shape, True)
_.drawpage.remove(oldshape)
elif oldshape and "PolyPolygon" in oldshape.ShapeType:
oldshape.LineStyle = int(_.pen)
oldshape.LineJoint = _.linejoint
oldshape.LineCap = _.linecap
if _.hatch:
oldshape.FillBackground = True
oldshape.FillHatch = _.hatch
oldshape.FillStyle = 3
else:
oldshape.FillStyle = int(filled)
oldshape.LineWidth = _.pensize / __MM10_TO_TWIP__
oldshape.LineColor, oldshape.LineTransparence = __splitcolor__(_.pencolor)
oldshape.FillColor, oldshape.FillTransparence = __splitcolor__(_.areacolor, oldshape)
def point():
oldpen, _.pen = _.pen, 1
oldstyle, _.linestyle = _.linestyle, __LineStyle_DOTTED__
__go__(__TURTLE__, 0, True)
_.pen, _.linestyle = oldpen, oldstyle
_.points.append(position())
def __boxshape__(shapetype, l):
turtle = __getshape__(__TURTLE__)
shape = __draw__(shapetype + "Shape")
pos = turtle.getPosition()
pos.X = pos.X - (l[0] * __PT_TO_TWIP__ / __MM10_TO_TWIP__ / 2) + turtle.BoundRect.Width / 2.0
pos.Y = pos.Y - (l[1] * __PT_TO_TWIP__ / __MM10_TO_TWIP__ / 2) + turtle.BoundRect.Height / 2.0
shape.setPosition(pos)
shape.setSize(__Size__(l[0] * __PT_TO_TWIP__ / __MM10_TO_TWIP__, l[1] * __PT_TO_TWIP__ / __MM10_TO_TWIP__))
shape.LineStyle, shape.LineDash = __linestyle__(_.linestyle)
shape.LineWidth = _.pensize / __MM10_TO_TWIP__
shape.LineJoint = _.linejoint
shape.LineCap = _.linecap
shape.LineColor, shape.LineTransparence = __splitcolor__(_.pencolor)
shape.FillColor, shape.FillTransparence = __splitcolor__(_.areacolor, shape, turtle.RotateAngle)
if _.hatch:
shape.FillBackground = True if shape.FillTransparence != 100 else False
shape.FillHatch = _.hatch
shape.FillStyle = 3
elif type(_.areacolor) != tuple:
shape.FillStyle = 1
if shape.LineTransparence == 100:
shape.LineStyle = 0
if shape.FillTransparence == 100:
shape.FillTransparence = 0 # for hatching and better modifications on UI
if not _.hatch:
shape.FillStyle = 0
shape.RotateAngle = turtle.RotateAngle
if shapetype == "Rectangle" and len(l) > 2:
shape.CornerRadius = (l[2] * __PT_TO_TWIP__) / __MM10_TO_TWIP__
elif shapetype == "Ellipse" and len(l) > 2:
oldBoundRect = shape.BoundRect
try:
shape.CircleKind = __SECTION__
shape.CircleStartAngle = (-l[3] - 270) * 100
shape.CircleEndAngle = (-l[2] - 270) * 100
shape.CircleKind = [__FULL__, __SECTION__, __CUT__, __ARC__][l[4]]
except:
pass
pos.X = pos.X + shape.BoundRect.X - oldBoundRect.X
pos.Y = pos.Y + shape.BoundRect.Y - oldBoundRect.Y
shape.setPosition(pos)
__visible__(shape, True)
__removeshape__(__ACTUAL__)
_.shapecache[__ACTUAL__] = shape
__lefthang__(shape)
def ellipse(l):
if type(l) != type([]): # default for circle and square
l = [l, l]
if _.linestyle == __LineStyle_DOTTED__:
__groupstart__()
_.linestyle = __LineStyle_SOLID__
pc, _.pencolor = _.pencolor, 0xff000000
ellipse(l)
_.pencolor, _.linestyle = pc, __LineStyle_DOTTED__
point()
shape = __getshape__(__ACTUAL__)
shape.PolyPolygon = tuple(__dots__(max(l[0], l[1]) * pi * __PT_TO_TWIP__, shape.PolyPolygon[0][0], 0, 0, [i/2.0 * __PT_TO_TWIP__ for i in l]))
turtle = __getshape__(__TURTLE__)
shape.RotateAngle = turtle.RotateAngle
__groupend__()
else:
__boxshape__("Ellipse", l)
def rectangle(l):
if type(l) != type([]): # default for circle and square
l = [l, l]
if _.linestyle == __LineStyle_DOTTED__:
__groupstart__()
_.linestyle = __LineStyle_SOLID__
pc, _.pencolor = _.pencolor, 0xff000000
rectangle(l)
_.pencolor, _.linestyle = pc, __LineStyle_DOTTED__
point()
shape = __getshape__(__ACTUAL__)
if type(l) != type([]):
l = [l, l]
if len(l) == 2:
l = l + [0]
l = [i * __PT_TO_TWIP__ for i in l]
c = shape.PolyPolygon[0][0]
k = [min(l[0] / 2.0, l[2]), min(l[1] / 2.0, l[2])]
p = __dots__(l[0] - 2 * k[0], __Point__(c.X - l[0]/2 + k[0], c.Y - l[1]/2), l[0] - 2 * k[0], 0)
p = p[:-1] + __dots__(l[1] - 2 * k[1], __Point__(c.X + l[0]/2, c.Y - l[1]/2 + k[1]), 0, l[1] - 2 * k[1])
p = p[:-1] + __dots__(l[0] - 2 * k[0], __Point__(c.X + l[0]/2 - k[0], c.Y + l[1]/2), -l[0] + 2 * k[0], 0)
p = p[:-1] + __dots__(l[1] - 2 * k[1], __Point__(c.X - l[0]/2, c.Y + l[1]/2 - k[1]), 0, -l[1] + 2 * k[1])
if l[2] > 0:
p = p + __dots__(max(k) * 2 * pi, __Point__(c.X - l[0]/2 + k[0], c.Y - l[1]/2 + k[1]), 0, 0, k, 3)[1:]
p = p + __dots__(max(k) * 2 * pi, __Point__(c.X + l[0]/2 - k[0], c.Y - l[1]/2 + k[1]), 0, 0, k, 2)[1:]
p = p + __dots__(max(k) * 2 * pi, __Point__(c.X + l[0]/2 - k[0], c.Y + l[1]/2 - k[1]), 0, 0, k, 1)[1:]
p = p + __dots__(max(k) * 2 * pi, __Point__(c.X - l[0]/2 + k[0], c.Y + l[1]/2 - k[1]), 0, 0, k, 4)[1:]
shape.PolyPolygon = tuple(p)
turtle = __getshape__(__TURTLE__)
shape.RotateAngle = turtle.RotateAngle
__groupend__()
else:
__boxshape__("Rectangle", l)
def label(st):
if type(st) != type([]):
st = [0, 0, st]
# get text size
shape = _.doc.createInstance( "com.sun.star.drawing.TextShape")
shape.TextAutoGrowWidth = True
shape.Visible = False
actual = __getshape__(__ACTUAL__)
_.drawpage.add(shape)
text(shape, st[2])
z = shape.getSize()
# show text using RectangleShape (for correct SVG export)
ac, pc = _.areacolor, _.pencolor
_.areacolor, _.pencolor = 0xff000000, 0xff000000 # invisible
rectangle([z.Width / (__PT_TO_TWIP__ / __MM10_TO_TWIP__), z.Height / (__PT_TO_TWIP__ / __MM10_TO_TWIP__)])
_.drawpage.remove(shape)
_.pencolor, _.areacolor = pc, ac
lab = __getshape__(__ACTUAL__)
text(lab, st[2])
if st[0] != 0 or st[1] != 0:
pos = position()
angle = heading()
n = [st[0] * z.Width/2, st[1] * z.Height/2]
dx = n[1] * sin((pi/180) * angle) + n[0] * sin((pi/180)*(angle + 90))
dy = n[1] * cos((pi/180) * angle) + n[0] * cos((pi/180)*(angle + 90))
lab.setPosition(__Point__(round(pos[0] * __PT_TO_TWIP__ / __MM10_TO_TWIP__ + dx - lab.BoundRect.Width/2), round(pos[1] * __PT_TO_TWIP__ / __MM10_TO_TWIP__ - dy - lab.BoundRect.Height/2)))
_.shapecache[__ACTUAL__] = actual
return z
def text(shape, st):
if shape:
shape.setString(__string__(st, _.decimal))
c = shape.createTextCursor()
c.gotoStart(False)
c.gotoEnd(True)
c.CharColor, none = __splitcolor__(_.textcolor)
c.CharHeight = _.fontheight
c.CharWeight = __fontweight__(_.fontweight)
c.CharPosture = __fontstyle__(_.fontstyle)
c.CharFontName = _.fontfamily
def sleep(t):
_.time = _.time + t
__removeshape__(__ACTUAL__)
for i in range(int(t/__SLEEP_SLICE_IN_MILLISECONDS__)):
__checkhalt__()
__time__.sleep(0.5)
__checkhalt__()
__time__.sleep(t%__SLEEP_SLICE_IN_MILLISECONDS__/1000.0)
def __removeshape__(shapename):
try:
_.shapecache.pop(shapename).Name = ""
except:
pass
def __fontweight__(w):
if type(w) == int:
return w
elif re.match(__l12n__(_.lng)['BOLD'], w, flags = re.I):
return 150
elif re.match(__l12n__(_.lng)['NORMAL'], w, flags = re.I):
return 100
return 100
def __fontstyle__(w):
if type(w) == int:
return w
elif re.match(__l12n__(_.lng)['ITALIC'], w, flags = re.I):
return __Slant_ITALIC__
elif re.match(__l12n__(_.lng)['UPRIGHT'], w, flags = re.I):
return __Slant_NONE__
return __Slant_NONE__
def __color__(c):
if type(c) in [int, float, long]:
return c
if type(c) == unicode:
if c == u'any':
rc, rv, rgray = __NORMCOLORS__[int(random.random()*7)], random.random(), random.random() ** 0.5
ratio = 1.0*abs(rc[2])/(abs(rc[2]) + abs(rc[4]))
newcol = list(rc[0])
if rv < ratio:
newcol[rc[1]] += rc[2] * rv/ratio
else:
newcol[rc[3]] += rc[4] * (rv - ratio)/(1 - ratio)
# random grayness
rdark = 1 - 2**4 * (random.random()-0.5)**4
for i in range(0, 3):
newcol[i] = 255 * (rgray + (newcol[i]/255.0 - rgray) * rdark)
return __color__(newcol)
if c[0:1] == '~':
c = __componentcolor__(__colors__[_.lng][c[1:].lower()])
for i in range(3):
c[i] = max(min(c[i] + int(random.random() * 64) - 32, 255), 0)
return __color__(c)
return __colors__[_.lng][c.lower()]
if type(c) == list:
if len(c) == 1: # color index
return __COLORS__[int(c[0])][1]
elif len(c) == 3: # RGB
return (int(c[0])%256 << 16) + (int(c[1])%256 << 8) + int(c[2])%256
elif len(c) == 2 or len(c) > 4: # gradient
return (__color__(c[0]), __color__(c[1])) + tuple(c[2:])
return (int(c[3])%256 << 24) + (int(c[0])%256 << 16) + (int(c[1])%256 << 8) + int(c[2])%256 # RGB + alpha
def __linestyle__(s):
if _.pen == 0:
return 0, __LineDash__()
if _.linestyle == __LineStyle_DASHED__:
return _.linestyle, __LineDash__(__DashStyle_RECT__, 0, 0, 1, 100, 100)
elif _.linestyle == __LineStyle_DOTTED__:
return __LineStyle_DASHED__, __LineDash__(__DashStyle_RECT__, 1, 1, 0, 0, 100000)
elif type(s) == list:
return __LineStyle_DASHED__, __LineDash__((s[5:6] or [0])[0], s[0], s[1] * __PT_TO_TWIP__, s[2], s[3] * __PT_TO_TWIP__, s[4] * __PT_TO_TWIP__)
return s, __LineDash__()
def fillstyle(s):
if type(s) == list:
color, null = __splitcolor__(__color__(s[1]))
_.hatch = __Hatch__(s[0] - 1, color, s[2] * __PT_TO_TWIP__, s[3] * 10)
elif s == 0:
_.hatch = None
elif s <= 10: # using hatching styles of Writer
fillstyle([[1, 0, 5, 0], [1, 0, 5, 45], [1, 0, 5, -45], [1, 0, 5, 90], [2, [127, 0, 0], 5, 45], [2, [127, 0, 0], 5, 0], [2, [0, 0, 127], 5, 45], [2, [0, 0, 127], 5, 0], [3, [0, 0, 127], 5, 0], [1, 0, 25, 45]][s-1])
def __splitcolor__(c, shape = None, angle = None):
if shape and (type(c) == tuple or type(_.t10y) == list):
angle = heading() if angle == None else -angle / 100 + 360
if type(c) == tuple:
shape.FillStyle = __FillStyle_GRADIENT__
# gradient color: [color1, color2, style, angle(must be positive for I/O), border, x_percent, y_percent, color1_intensity_percent, color2_intensity_percent]
d, d[0:len(c)], c = [0, 0, __GradientStyle_LINEAR__, 0, 0, 0, 0, 100, 100], c, c[0]
shape.FillGradient = __Gradient__(d[2], d[0], d[1], (-angle + d[3]) * 10 % 3600, d[4], d[5], d[6], d[7], d[8], 0)
if type(_.t10y) == list: # transparency gradient: [begin_percent, end_percent, style, angle, border, x_percent, y_percent]
table = _.doc.createInstance("com.sun.star.drawing.TransparencyGradientTable")
if not table.hasByName(str(_.t10y) + str(angle)):
t, t[0:len(_.t10y)] = [100, __GradientStyle_LINEAR__, 0, 0, 0, 0, 0], _.t10y
table.insertByName(str(_.t10y) + str(angle), __Gradient__(t[2], t[0] * 0xffffff / 100.0, t[1] * 0xffffff / 100.0, (-angle + t[3]) * 10 % 3600, t[4], t[5], t[6], 100, 100, 0))
shape.FillTransparenceGradientName = str(_.t10y) + str(angle)
c = 0 if type(c) == tuple else c & 0xffffff
else:
shape.FillStyle = __FillStyle_GRADIENT__
c = int(_.t10y * 255.0/100) << 24
"""Split color constants to RGB (3-byte) + transparency (%)"""
return int(c) & 0xffffff, (int(c) >> 24) / (255.0/100)
def __componentcolor__(c):
a = [ (c & 0xff0000) >> 16, (c & 0xff00) >> 8, c & 0xff ]
if c > 2**24:
a.append((c & 0xff000000) >> 24)
return a
def pencolor(n = -1):
if n != -1:
_.pencolor = __color__(n)
turtle = __getshape__(__TURTLE__)
if turtle and __visible__(turtle):
turtle.LineColor, turtle.LineTransparence = __splitcolor__(_.pencolor)
else:
return __componentcolor__(_.pencolor)
def pensize(n = -1):
if n != -1:
if n == 'any':
_.pensize = random.random() * 10 * __PT_TO_TWIP__
else:
_.pensize = n * __PT_TO_TWIP__
turtle = __getshape__(__TURTLE__)
if turtle and __visible__(turtle):
turtle.LineWidth = min(_.pensize, (1 + _.pen * 2) * __PT_TO_TWIP__) / __MM10_TO_TWIP__
return _.pensize / __PT_TO_TWIP__
def penstyle(n = -1):
if n == -1:
try:
return __locname__(_.linestyle.value)
except:
return __locname__('DOTTED')
if type(n) == list and len(n) >= 5:
_.linestyle = n
elif re.match(__l12n__(_.lng)['SOLID'], n, flags = re.I):
_.linestyle = __LineStyle_SOLID__
elif re.match(__l12n__(_.lng)['DASH'], n, flags = re.I):
_.linestyle = __LineStyle_DASHED__
elif re.match(__l12n__(_.lng)['DOTTED'], n, flags = re.I):
_.linestyle = __LineStyle_DOTTED__
def penjoint(n = -1):
if n == -1:
return __locname__(_.linejoint.value)
if re.match(__l12n__(_.lng)['NONE'], n, flags = re.I):
_.linejoint = __Joint_NONE__
elif re.match(__l12n__(_.lng)['BEVEL'], n, flags = re.I):
_.linejoint = __BEVEL__
elif re.match(__l12n__(_.lng)['MITER'], n, flags = re.I):
_.linejoint = __MITER__
elif re.match(__l12n__(_.lng)['ROUNDED'], n, flags = re.I):
_.linejoint = __ROUNDED__
def pencap(n = -1):
if n == -1:
return __locname__(_.linecap.value.replace('BUTT', 'NONE'))
if re.match(__l12n__(_.lng)['NONE'], n, flags = re.I):
_.linecap = __Cap_NONE__
elif re.match(__l12n__(_.lng)['ROUNDED'], n, flags = re.I):
_.linecap = __Cap_ROUND__
elif re.match(__l12n__(_.lng)['SQUARE'], n, flags = re.I):
_.linecap = __Cap_SQUARE__
def fillcolor(n = -1):
if n != -1:
_.areacolor = __color__(n)
if type(_.areacolor) != tuple:
_.t10y = (int(_.areacolor) >> 24) / (255.0/100)
else:
_.t10y = 0
turtle = __getshape__(__TURTLE__)
if turtle and __visible__(turtle):
turtle.FillColor, transparence = __splitcolor__(_.areacolor, turtle)
turtle.FillTransparence = min(95, transparence)
else:
return __componentcolor__(_.areacolor)
def filltransparency(n = -1):
if n != -1:
if n == u'any':
n = 100 * random.random()
if type(n) != list:
if type(_.areacolor) != tuple:
fillcolor((_.areacolor & 0xffffff) + (int(n * (255.0/100)) << 24))
else:
_.t10y = n
else:
_.t10y = n
else:
return _.t10y
def pentransparency(n = -1):
if n != -1:
if n == u'any':
n = 100 * random.random()
pencolor((_.pencolor & 0xffffff) + (int(n * (255.0/100)) << 24))
else:
return _.pencolor >> 24
def fontcolor(n = -1):
if n != -1:
_.textcolor = __color__(n)
else:
return __componentcolor__(_.textcolor)
def position(n = -1):
turtle = __getshape__(__TURTLE__)
if turtle:
if n != -1:
if n == 'any':
ps = pagesize()
heading([random.random() * ps[0], random.random() * ps[1]], True)
else:
heading(n, True)
else:
pos = turtle.getPosition()
pos.X, pos.Y = pos.X + turtle.BoundRect.Width / 2.0, pos.Y + turtle.BoundRect.Height / 2.0
return [ pos.X * __MM10_TO_TWIP__ / __PT_TO_TWIP__, pos.Y * __MM10_TO_TWIP__ / __PT_TO_TWIP__ ]
def __groupstart__(name = ""):
global __group__, __grouplefthang__, __groupstack__
__removeshape__(__ACTUAL__)
__groupstack__.append(__group__)
if name != "": # store pic name (for correct repcount)
__groupstack__.append(name)
if ".SVG" == name[-4:].upper():
_.time = 0
_.shapecount = itertools.count()
__groupstack__.append(__grouplefthang__)
__group__ = uno.getComponentContext().ServiceManager.createInstance('com.sun.star.drawing.ShapeCollection')
__grouplefthang__ = 0
def create_svg_animation(m):
global _
id = int(m.group(1))
if id - 3 in _.shapecache:
t = _.shapecache[id-3]
opacity = "100" if t == "0" else "0"
name = "" if id != 3 else "id=\"first\""
start = "%sms;last.end+%sms" % (t, t) if id == 3 else "first.end+%dms" % (int(t) - int(_.shapecache[0]))
return '<g id="id%s" opacity="0"><animate %s attributeName="opacity" from="100" to="100" begin="%s" dur="1ms" fill="freeze"/><animate attributeName="opacity" from="100" to="%s" begin="last.end" dur="1ms" fill="freeze"/>' % (m.group(1), name, start, opacity)
return m.group()
def create_valid_svg_file(filename):
with open(filename, "r") as f:
s = f.read()
s = re.sub('(?s)(<g\\sid="[^"]*)\(([^"]*)\)', '\\1\\2', s) # bad "(", ")" in xml:id
s = re.sub('(?s)<g\\sooo:[^>]*>', '', s) # remove non standard attributes
s = re.sub('(?s)<defs class="EmbeddedBulletChars">.*(?=<defs class="TextEmbeddedBitmaps")', '', s) # remove unused parts
s = re.sub('(?s)(<path stroke-width="[^"]*"[^<]*)stroke-width="[^"]*"', '\\1', s) # double stroke-width
s = re.sub('(?s)<svg\\s+version="1.2"', '<svg version="1.1"', s) # for W3C Validator
if _.time > 0:
s = re.sub('<g id="id([0-9]+)">', create_svg_animation, s)
m = re.match('(?s)(.*<animate[^>]*first[.]end.([0-9]+)[^>]* dur=")1ms"', s)
lasttime = _.time - int(m.group(2)) - int(_.shapecache[0]) + 1
if lasttime > 1:
s = re.sub('(?s)(.*<animate[^>]*first[.]end.([0-9]+)[^>]* dur=")1ms"', m.group(1) + str(lasttime) + 'ms" id="last"', s)
with open(filename, 'w') as f:
f.write(s)
def __groupend__(name = ""):
global __group__, __grouplefthang__, __groupstack__, __halt__
g = 0
if __group__.getCount() > 1:
if __grouplefthang__ < 0:
for i in range(__group__.Count):
s = __group__.getByIndex(i)
p = s.getPosition()
p.X = p.X + -__grouplefthang__
s.setPosition(p)
g = _.drawpage.group(__group__)
p = g.getPosition()
p.X = p.X + __grouplefthang__
g.setPosition(p)
else:
g = _.drawpage.group(__group__)
g.TextWrap = __THROUGHT__
elif __group__.getCount() == 1:
g = __group__.getByIndex(0)
__grouplefthang__ = min(__groupstack__.pop(), __grouplefthang__)
if name != "":
name = __groupstack__.pop()
if name and ".SVG" == name[-4:].upper() and g != 0:
_.doc.CurrentController.select(g)
__dispatcher__(".uno:Copy")
ctx = XSCRIPTCONTEXT.getComponentContext()
d = ctx.ServiceManager.createInstanceWithContext("com.sun.star.frame.Desktop", ctx)
draw = d.loadComponentFromURL("private:factory/sdraw", "_blank", 0, ())
drawpage = draw.getDrawPages().getByIndex(0)
while XSCRIPTCONTEXT.getDocument() != draw:
if XSCRIPTCONTEXT.getDocument() not in [draw, _.doc, None]:
__halt__ = True
return
__time__.sleep(0.1)
__dispatcher__(".uno:Paste", (), draw)
__dispatcher__(".uno:FormatGroup", (), draw)
pic = drawpage.getByIndex(0)
pic.setPosition(__Point__((g.BoundRect.Width - g.Size.Width)//2, (g.BoundRect.Height - g.Size.Height)//2))
drawpage.Height, drawpage.Width = g.BoundRect.Height, g.BoundRect.Width
if not os.path.isabs(name):
name = os.getcwd() + os.path.sep + name
__dispatcher__(".uno:ExportTo", (__getprop__("URL", unohelper.systemPathToFileUrl(name)), __getprop__("FilterName", "draw_svg_Export")), draw)
draw.close(True)
while XSCRIPTCONTEXT.getDocument() != _.doc:
if XSCRIPTCONTEXT.getDocument() not in [draw, _.doc, None]:
__halt__ = True
return
__time__.sleep(0.1)
create_valid_svg_file(name)
__group__ = __groupstack__.pop()
if __group__ != 0 and g != 0:
__group__.add(g)
__removeshape__(__ACTUAL__)
def __int__(x): # handle eg. int("10cm")
if type(x) == str or type(x) == unicode:
x = __float__(x)
return int(x)
def __float__(x): # handle eg. float("10,5cm")
if type(x) == str or type(x) == unicode:
for i in __comp__[_.lng]:
x = re.sub(u"(?iu)" + i[0], i[1], x)
x = eval(x)
return float(x)
def fontheight(n = -1):
if n != -1:
_.fontheight = n
else:
return _.fontheight
def fontweight(n = -1):
if n != -1:
_.fontweight = n
else:
return _.fontweight
def fontfamily(s = -1):
if s != -1:
_.fontfamily = s
else:
return _.fontfamily
def fontstyle(n = -1):
if n != -1:
_.fontstyle = n
else:
return _.fontstyle
def __loadlang__(lang, a):
global comp, __colors__
__colors__[lang] = {}
for i in __COLORS__:
for j in a[i[0]].split("|"):
__colors__[lang][j.lower()] = i[1]
for i in a:
if not i[0:3] in ["LIB", "ERR", "PT", "INC", "MM", "CM", "HOU", "DEG"] and not i in __STRCONST__: # uppercase native commands
a[i] = a[i].upper()
repcount = a['REPCOUNT'].split('|')[0]
loopi = itertools.count()
loop = lambda r: "%(i)s = 1\n%(orig)s%(j)s = %(i)s\n%(i)s += 1\n" % \
{ "i": repcount + str(next(loopi)), "j": repcount, "orig": re.sub( r"(?ui)(?<!:)\b%s\b" % repcount, repcount + str(next(loopi)-1), r.group(0)) }
__comp__[lang] = [
[r"(?i)(?<!:)(\b|(?=[-:]))(?:%s)\b" % "|".join([a[i].lower() for i in a if not "_" in i and i != "DECIMAL"]), lambda s: s.group().upper()], # uppercase all native commands in the source code
[r"(?<!:)\b(?:%s) \[(?= |\n)" % a['GROUP'], "\n__groupstart__()\nfor __groupindex__ in range(2):\n[\nif __groupindex__ == 1:\n[\n__groupend__()\nbreak\n]\n"],
[r"(?<!:)\b(?:%s) (%s[^[]*)\[(?= |\n)" % (a['GROUP'], __DECODE_STRING_REGEX__), "\n__groupstart__(\\1)\nfor __groupindex__ in range(2):\n[\nif __groupindex__ == 1:\n[\n__groupend__(\\1)\nbreak\n]\n"],
[r"(?<!:)\b(?:%s)\b" % a['GROUP'], "\n__removeshape__(__ACTUAL__)\n"],
[r"(\n| )][ \n]*\[(\n| )", "\n]\nelse:\n[\n"], # if/else block
[r"(?<!\n)\[(?= |\n)", ":\n[\n"], # start block
[r"( ]|\n]$)", "\n]\n"], # finish block
[r"(?<!:)\b(?:%s)\b" % a['FOR'], "\nfor"],
[r"(?<!:)\b(?:%s)\b" % a['REPEAT'], "\n__repeat__"],
[r"(?<!:)\b(?:%s)\b" % a['BREAK'], "\nbreak"],
[r"(?<!:)\b(?:%s)\b" % a['CONTINUE'], "\ncontinue"],
[r"(?<!:)\b(?:%s)\b" % a['REPCOUNT'], repcount],
[r"(?<!:)\b(?:%s)\b" % a['IF'], "\nif"],
[r"(?<!:)\b(?:%s)\b" % a['WHILE'], "\nwhile"],
[r"(?<!:)\b(?:%s)\b" % a['OUTPUT'], "\nreturn"],
[r"\n(if|while|return) [^\n]*", lambda r: re.sub("(?<![=!<>])=(?!=)", "==", r.group(0))], # = -> ==, XXX x = y = 1?
[r"(?<=\n)(for\b :?\w+) ([^\n]+)(?<=\w|]|}|\))(?=-|:)(?:%s)\b" % a['IN'], "\\1 in \\2"], # "for x y-in" -> "for x in y"
[r"(:?\b\w+|[[][^[\n]*])\b(?:%s)\b" % a['IN'], "in \\1"], # "x y-in" -> "x in y"
[r"(?<!:)\b(?:%s)\b" % a['IN'], "in"],
[r"(?<!:)\b(?:%s)\b[ \t]+(:?\w+)\b(?! in\b)" % a['FOR'], "\nfor \\1 in"],
[r"(?<=\n)__repeat__ :\n", "while True:\n"], # infinite loop
[r"(?<=\n)(for|while) (?!__groupindex__)[^\n]*:\n\[\n", loop], # loop variables for repcount (not groupindex loop)
[r"(?<=\n)__repeat__([^\n]*\w[^\n]*):(?=\n)", "for %s in range(1, 1+int(\\1)):" % repcount], # repeat block
[r"(?<=\d)[%s](?=\d)" % a['DECIMAL'], "."], # decimal sign
[r"(?<!/)/(?!/)", "*1.0/"], # fix division: /1 -> /1.0, but not with //
[r"\b([0-9]+([,.][0-9]+)?)(%s)\b" % a['HOUR'], lambda r: str(float(r.group(1).replace(",", "."))*30)], # 12h = 12*30°
[r"(?<=\d)(%s)" % a['DEG'], ""], # 1° -> 1
[r"(?<!:)\b(?:__def__)[ \t]+(\w+)\b[ \t]*([:]?\w[^\n]*)", "\ndef \\1(\\2):\n["],
[r"(?<!:)\b(?:__def__)\s+(\w+)", "\ndef \\1():\n["],
[r"(?<!:)\b(?:%s)\b" % a['END'], "\n]"],
[r"(?<!:)\b(?:%s)\b" % a['GLOBAL'], "global"],
[r"(?<!:)\b(?:%s)\b" % a['TRUE'], "True"],
[r"(?<!:)\b(?:%s)\b" % a['FALSE'], "False"],
[r"(?<!:)\b(?:%s)\b" % a['NOT'], "not"],
[r"(?<!:)\b(?:%s)\b" % a['AND'], "and"],
[r"(?<!:)\b(?:%s)\b" % a['OR'], "or"],
[r"(?<!:)\b(?:%s)\b" % a['INT'], "__int__"],
[r"(?<!:)\b(?:%s)\b" % a['FLOAT'], "__float__"],
[r"(?<!:)\b(?:%s)\b" % a['STR'], "__string__"],
[r"(?<!:)\b(?:%s)\b" % a['COUNT'], "len"],
[r"(?<!:)\b(?:%s)\b" % a['ROUND'], "round"],
[r"(?<!:)\b(?:%s)\b" % a['ABS'], "abs"],
[r"(?<!:)\b(?:%s)\b" % a['SIN'], "sin"],
[r"(?<!:)\b(?:%s)\b" % a['COS'], "cos"],
[r"(?<!:)\b(?:%s)\b" % a['PI'], "pi"],
[r"(?<!:)\b(?:%s)\b" % a['SQRT'], "sqrt"],
[r"(?<!:)\b(?:%s)\b" % a['LOG10'], "log10"],
[r"(?<!:)\b(?:%s)\b" % a['MIN'], "min"],
[r"(?<!:)\b(?:%s)\b" % a['MAX'], "max"],
[r"(?<!:)\b(?:%s)\b" % a['STOP'], "\nreturn None"],
[r"(?<!:)\b(?:%s)\b" % a['CLEARSCREEN'], "\n__cs__()"],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['PENCOLOR'], "\n)pencolor("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['PENSTYLE'], "\n)penstyle("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['PENJOINT'], "\n)penjoint("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['PENCAP'], "\n)pencap("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['FILLCOLOR'], "\n)fillcolor("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['FILLTRANSPARENCY'], "\n)filltransparency("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['PENTRANSPARENCY'], "\n)pentransparency("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['FILLSTYLE'], "\n)fillstyle("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['FONTCOLOR'], "\n)fontcolor("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['FONTFAMILY'], "\n)fontfamily("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['FONTHEIGHT'], "\n)fontheight("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['FONTWEIGHT'], "\n)fontweight("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['FONTSTYLE'], "\n)fontstyle("],
[r"(?<!:)\b(?:%s)(\s+|$)" % a['PENWIDTH'], "\n)pensize("],
[r"(?<!:)\b(?:%s)\b" % a['PENDOWN'], "\n__pen__(1)"],
[r"(?<!:)\b(?:%s)\b" % a['PENUP'], "\n__pen__(0)"],
[r"(?<!:)\b(?:%s)\b" % a['HIDETURTLE'], "\nhideturtle()"],
[r"(?<!:)\b(?:%s)\b" % a['SHOWTURTLE'], "\nshowturtle()"],
[r"(?<!:)\b(?:%s)\b\[" % a['POSITION'], "position()["],
[r"(?<!:)\b(?:%s)\b(?!\()" % a['POSITION'], "\n)position("],
[r"(?<!:)\b(?:%s)\b" % a['HEADING'], "\n)heading("],
[r"(?<!:)\b(?:%s)\b" % a['PAGESIZE'], "pagesize()"],
[r"(?<!:)\b(?:%s)\b" % a['POINT'], "\npoint()"],
[r"(?<!:)\b(?:%s)\b" % (a['ELLIPSE'] + "|" + a['CIRCLE']), "\n)ellipse("],
[r"(?<!:)\b(?:%s)\b" % (a['RECTANGLE'] + "|" + a['SQUARE']), "\n)rectangle("],
[r"(?<!:)\b(?:%s)\b" % a['CLOSE'], "\n__fillit__(False)"],
[r"(?<!:)\b(?:%s)\b" % a['FILL'], "\n__fillit__()"],
[r"(?<!:)\b(?:%s)\b" % a['LABEL'], "\n)label("],
[r"(?<!:)\b(?:%s)\b" % a['TEXT'], "\n)text(__getshape__(__ACTUAL__),"],
[r"(text\([ \t]*\"[^\"\n\)]*)", "\\1\"\n"],
[r"(?<!:)\b(?:%s)\b" % a['HOME'], "\nturtlehome()"],
[r"(?<!:)\b(?:%s)\b" % a['SLEEP'], "\n)sleep("],
[r"(?<!:)\b(?:%s)\b" % a['FORWARD'], "\n)forward("],
[r"(?<!:)\b(?:%s)\b" % a['BACKWARD'], "\n)backward("],
[r"(?<!:)\b(?:%s)\b" % a['TURNRIGHT'], "\n)turnright("],
[r"(?<!:)\b(?:%s)\b" % a['RANDOM'], "Random"],
[r"(?<!:)\b(?:%s)\b(?= \d)" % 'Random', "random.random()*"],
[r"(?<!:)\b(?:%s)\b" % a['SET'], "set"],
[r"(?<!:)\b(?:%s)\b" % a['RANGE'], "range"],
[r"(?<!:)\b(?:%s)\b" % a['LIST'], "list"],
[r"(?<!:)\b(?:%s)\b" % a['TUPLE'], "tuple"],
[r"(?<!:)\b(?:%s)\b" % a['SORTED'], "sorted"],
[r"(?<!:)\b(?:%s)\b ?\(" % a['RESEARCH'], "re.search('(?u)'+"],
[r"(?<!:)\b(?:%s)\b ?\(" % a['RESUB'], "re.sub('(?u)'+"],
[r"(?<!:)\b(?:%s)\b ?\(" % a['REFINDALL'], "re.findall('(?u)'+"],
[r"(?<!:)\b(?:%s)\b" % a['ANY'], "u'any'"],
[r"(?<!:)\b(?:%s) (\w+|[[][^\]]*])\b" % a['INPUT'], " Input(\\1)"],
[r"(?<!:)\b(?:%s)\b" % a['PRINT'], "\n)Print("],
[r"(?<!:)\b(?:%s)\b" % a['TURNLEFT'], "\n)turnleft("],
[r"\b([0-9]+([,.][0-9]+)?)(%s)\b" % a['PT'], "\\1"],
[r"\b([0-9]+([,.][0-9]+)?)(%s)(?!\w)" % a['INCH'], lambda r: str(float(r.group(1).replace(",", "."))*72)],
[r"\b([0-9]+([,.][0-9]+)?)(%s)\b" % a['MM'], lambda r: str(float(r.group(1).replace(",", "."))*__MM_TO_PT__)],
[r"\b([0-9]+([,.][0-9]+)?)(%s)\b" % a['CM'], lambda r: str(float(r.group(1).replace(",", "."))*__MM_TO_PT__*10)],
[r"\b(__(?:int|float|string)__len|round|abs|sin|cos|sqrt|log10|set|list|tuple|sorted)\b ((?:\w|\d+([,.]\d+)?|0[xX][0-9a-fA-F]+|[-+*/]| )+)\)" , "\\1(\\2))" ], # fix parsing: (1 + sqrt x) -> (1 + sqrt(x))
[r"(?<=[-*/=+,]) ?\n\)(\w+)\(", "\\1()"], # read attributes, eg. x = fillcolor
[r"(?<=return) ?\n\)(\w+)\(", "\\1()"], # return + user function
[r"(?<=(?:Print|label)\() ?\n\)(\w+)\(", "\\1()\n"] # Print/label + user function
]
def __concatenation__(r): # keep line positions with extra line breaks
s = re.subn("~[ \t]*\n", " ", r.group(0))
return s[0] + "\n" * s[1]
def __compil__(s):
global _, comp, __strings__, __compiled__
try:
c = _.doc.CurrentController.getViewCursor()
locs = [i for i in [c.CharLocale, c.CharLocaleAsian, c.CharLocaleComplex] if i.Language != 'zxx'] # not None language
loc = Locale(__uilocale__.split('-')[0], __uilocale__.split('-')[1], '')
if locs and loc not in locs:
loc = locs[0]
try:
_.lng = loc.Language + '_' + loc.Country
__loadlang__(_.lng, __l12n__(_.lng))
except:
__trace__()
_.lng = loc.Language
__loadlang__(_.lng, __l12n__(_.lng))
except:
__trace__()
_.lng = 'en_US'
if not _.lng in __comp__:
__loadlang__(_.lng, __l12n__(_.lng))
_.decimal = __l12n__(_.lng)['DECIMAL']
names = {}
rmsp = re.compile(r"[ ]*([=+*/]|==|<=|>=|<>|!=|-[ ]+)[ ]*")
chsp = re.compile(r"[ \t]+")
chch = re.compile(r"(?u)(?<!\w):(?=\w)")
parenfix = re.compile(r"(?ui)(\([^\(\[\]\)]+)]\)")
# remove CR characters and split lines
s = re.sub(r'[ \t\r]*(?=\n)', '', s)
# remove full line comments
s = re.sub(r"^[ \t]*[;#][^\n]*", "", s)
s = re.sub(r"(?<=\n)[ \t]*[;#][^\n]*", "", s)
# concatenate lines
__compiled__ = re.sub(r'([^\n]*~[ \t]*\n)+[^\n]*', __concatenation__, s)
# sign original line breaks
s = re.sub("(?<=\n)", __LINEBREAK__ + "\n", __compiled__)
# encode strings
lq = '\'' + __l12n__(_.lng)['LEFTSTRING'].replace("|", "")
rq = '\'' + __l12n__(_.lng)['RIGHTSTRING'].replace("|", "")
__strings__ = []
s = re.sub("(?u)([%s])([^\n%s]*)(?<!\\\\)[%s]" % (lq, rq, rq), __encodestring__, s)
s = re.sub('(?u)(?<![0-9])(")(~?\w*)', __encodestring__, s)
# remove extra spaces
s = chsp.sub(" ", s)
# remove inline comments
s = re.sub(r"[ ]*;[^\n]*", "", s)
# n-dash and m-dash as minus signs
s = re.sub(r"(?u)[–—]", "-", s)
# replace procedure names
s = re.sub(r"(?i)^[ ]*(%s)[ ]+" % __l12n__(_.lng)['TO'], "__def__ ", s)
s = re.sub(r"(?i)\n[ ]*(%s)[ ]+" % __l12n__(_.lng)['TO'], "\n__def__ ", s)
subnames = re.findall(u"(?iu)(?<=__def__ )\w+", s)
globs = ""
functions = ["range", "__int__", "__float__", "Random", "Input", "__string__", "len", "round", "abs", "sin", "cos", "sqrt", "log10", "set", "list", "tuple", "re.sub", "re.search", "re.findall", "sorted", "min", "max"]
if len(subnames) > 0:
globs = "global %s" % ", ".join(subnames)
# search user functions (function calls with two or more arguments need explicite Python parentheses)
ends = __l12n__(_.lng)["END"] # support multiple names of "END"
firstend = ends.split("|")[0]
s = re.sub(r"(?<!:)\b(?:%s)\b" % ends, firstend, s)
__l12n__(_.lng)["END"] = firstend
functions += [ re.findall("(?u)\w+",i[0])[0] for i in re.findall(r"""(?iu)(?<=__def__ )([^\n]*)\n # beginning of a procedure
(?:[^\n]*(?<!\b(%(END)s))\n)* # 0 or more lines (not END)
[^\n]*\b(?:%(OUTPUT)s)\b[^\n]*\n # line with OUTPUT (functions = procedures with OUTPUT)
(?:[^\n]*(?<!\b(?:%(END)s))\n)* # 0 or more lines (not END)
[ \t]*\b(?:%(END)s)\b""" % __l12n__(_.lng), s, re.X) ]
__l12n__(_.lng)["END"] = ends
# add line breaks before procedure calls
procedures = set(subnames) - set(functions)
if len(procedures) > 0:
s = re.sub(r"(?<!__def__)(?<![-+=*/])(?<!%s)(?:^|[ \t]+)(" % ")(?<!".join(functions) + "|".join(procedures) + ")(?!\w)", r"\n\1", s)
# compile native Logo
for i in __comp__[_.lng]:
s = re.sub(u"(?u)" + i[0], i[1], s)
indent = 0
result = ""
func = re.compile("(?iu)(def (\w+))(\(.*\):)")
expr = r"""(?iu)(?<!def[ ])(?<![:\w])%(name)s(?!\w)(?!\()(?![ ]\()
(
([ ]+\[*([-+]|\([ ]?)*((%(functions)s)\b[ ]*\(*)*
(?:0x[0-9a-f]+|[0-9]+([,.][0-9]+)?|:?\w+(?:[.]\w+[\(]?[\)]?)?]*|\[])]*[\)]*
(
(?:[ ]*([+*/,<>]|//|==|<=|>=|<>|!=)[ ]*|[ ]*-[ ]+|-|[ ]*[*][*][ ]*) # operators, eg. "**", " - ", "-", "- "
\[*([-+]|\([ ]?)* # minus sign, parenthesis
((%(functions)s)\b[ ]*\(*)*(0x[0-9a-f]+|[0-9]+([.,][0-9]+)?|:?\w+(?:[.]\w+[\(]?[\)]?)?)]*
([ ]?\))*)*
[\)]*){,%(repeat)s}
)
"""
chargsp = re.compile(r"(?<![\(,])(?<!%s) (?!\)|,)" % ")(?<!".join(functions))
# compile to Python
joinfunc = "|".join(functions)
funcnames = {}
for i in s.split("\n"):
i = i.strip()
if i[0:4] == 'def ':
s = func.search(i)
if s.group(3) == '():':
names[s.group(2)] = (0, "")
else:
s2 = len(chsp.findall(s.group(3))) + 1
i = s.group(1) + chsp.sub(", ", s.group(3))
names[s.group(2)] = (s2, re.compile(expr % {"name": s.group(2), "functions": joinfunc, "repeat": s2}, re.X))
for j in functions:
if j in i:
if not j in funcnames:
funcnames[j] = (1, re.compile(expr % {"name": j, "functions": joinfunc, "repeat": 1 + 2 * int(j == 'range')}, re.X))
r = funcnames[j][1].search(i)
while r:
i = i[:r.start()] + j + '(' + chargsp.sub(", ", rmsp.sub(lambda l: l.group(1).strip(), r.group(1).strip())) + ')' + i[r.end():]
i = parenfix.sub("\\1)]", i)
r = funcnames[j][1].search(i)
for j in names:
if j in i:
if names[j][0] == 0:
if not j in functions:
i = re.sub(r"(?iu)(?<!def )(?<![_\w])\b%s\b(?!\w)" %j, j+'()', i)
else:
r = names[j][1].search(i)
if r:
i = i[:r.start()] + j + '(' + chargsp.sub(", ", rmsp.sub(lambda l: l.group(1).strip(), r.group(1).strip())) + ')' + i[r.end():]
i = parenfix.sub("\\1)]", i)
if i[0:1] == '[':
i = i[1:]
indent += 1
result = result + "\n" + " " * indent + "__checkhalt__()\n"
if i[0:1] == ')':
i = i[1:] + ')'
result = result + "\n" + " " * indent + i
if i[0:1] == ']':
result = result[:-1]
indent -= 1
# colon_to_underline in Logo variables
result = chch.sub("_", result)
# character encoding
result = to_ascii(result).replace(r"\n", "\n")
# decode strings
result = re.sub(__DECODE_STRING_REGEX__, __decodestring__, result)
return to_ascii(globs) + "\n" + result
def __gotoline__(n):
_.cursor.collapseToStart()
for i in range(1, n):
_.cursor.gotoNextParagraph(False)
try:
_.doc.CurrentController.getViewCursor().gotoRange(_.cursor, False)
except:
__dispatcher__(".uno:Escape")
_.doc.CurrentController.getViewCursor().gotoRange(_.cursor.getStart(), False)
g_exportedScripts = left, right, goforward, gobackward, run, stop, home, clearscreen, commandline, __translate__
# vim: set noet sw=4 ts=4:
|