# -*- tab-width: 4; indent-tabs-mode: nil; py-indent-offset: 4 -*- # # 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 uitest.framework import UITestCase from libreoffice.uno.propertyvalue import mkPropertyValues from uitest.uihelper.common import get_state_as_dict, type_text import time, re from uitest.debug import sleep from libreoffice.uno.propertyvalue import mkPropertyValues from uitest.uihelper.common import select_pos class LibreLogoCompileTest(UITestCase): LIBRELOGO_PATH = "vnd.sun.star.script:LibreLogo|LibreLogo.py$%s?language=Python&location=share" LS = "#_@L_i_N_e@_#" # LibreLogo line separator for debug feature "jump to the bad LibreLogo program line" def createMasterScriptProviderFactory(self): xServiceManager = self.xContext.ServiceManager return xServiceManager.createInstanceWithContext( "com.sun.star.script.provider.MasterScriptProviderFactory", self.xContext) def getScript(self, command): xMasterScriptProviderFactory = self.createMasterScriptProviderFactory() document = self.ui_test.get_component() xScriptProvider = xMasterScriptProviderFactory.createScriptProvider(document) xScript = xScriptProvider.getScript(self.LIBRELOGO_PATH %command) self.assertIsNotNone(xScript, "xScript was not loaded") return xScript def test_compile_librelogo(self): # XScript interface to LibreLogo Python compiler xCompile = self.getScript("__compil__") for test in ( # BASE COMMANDS ("FORWARD 1 forward 1 fd 1", "forward(1)\nforward(1)\nforward(1)"), ("BACK 1 back 1 bk 1", "backward(1)\nbackward(1)\nbackward(1)"), ("RIGHT 1 right 1 rt 1", "turnright(1)\nturnright(1)\nturnright(1)"), ("LEFT 1 left 1 lt 1", "turnleft(1)\nturnleft(1)\nturnleft(1)"), # COMMENTS ("fd 1; comment\n; full-line comment", "forward(1)\n" + self.LS), # MULTI-LINE COMMAND ("LABEL ~\n10 + 10", "label(10 + 10)\n" + self.LS), # UNIT SPECIFIERS # check specifier "pt" (point) ("fd 1pt", "forward(1)"), # check specifier "pt" (point) ("fd 0.5pt", "forward(0.5)"), # check "in" (inch) ("fd 1in", "forward(72.0)"), # check "cm" (centimeter) ("fd 1cm", "forward(%s)" % (1/(2.54/72))), # check "mm" (millimeter) ("fd 10mm", "forward(%s)" % (1/(2.54/72))), # angle ("rt 90°", "turnright(90)"), # clock-position ("rt 3h", "turnright(90.0)"), # CONDITION ("if a = 1 [ ]", "if a == 1 :\n __checkhalt__()"), # with else ("if a == 1 [ ] [ ]", "if a == 1 :\n __checkhalt__()\nelse:\n __checkhalt__()"), # LOOPS ("repeat 10 [ ]", "for REPCOUNT in range(1, 1+int(10 )):\n __checkhalt__()"), # endless loop ("repeat [ ]", "REPCOUNT0 = 1\nwhile True:\n __checkhalt__()\n REPCOUNT = REPCOUNT0\n REPCOUNT0 += 1"), # loop in loop ("repeat 10 [ repeat REPCOUNT [ a=1 ] ]", "for REPCOUNT in range(1, 1+int(10 )):\n __checkhalt__()\n for REPCOUNT in range(1, 1+int(REPCOUNT )):\n __checkhalt__()\n a=1"), # while ("WHILE REPCOUNT < 10 [ ]", "REPCOUNT2 = 1\nwhile REPCOUNT2 < 10 :\n __checkhalt__()\n REPCOUNT = REPCOUNT2\n REPCOUNT2 += 1"), # for ("FOR i in [1, 2, 3] [ ]", "REPCOUNT4 = 1\nfor i in [1, 2, 3] :\n __checkhalt__()\n REPCOUNT = REPCOUNT4\n REPCOUNT4 += 1"), ("FOR i IN RANGE COUNT 'letters' [ ]", "REPCOUNT6 = 1\nfor i in range(len(u'letters'),) :\n __checkhalt__()\n REPCOUNT = REPCOUNT6\n REPCOUNT6 += 1"), # PROCEDURE ("TO x\nLABEL 2\nEND", "global x\ndef x():\n __checkhalt__()\n %s\n label(2)\n %s" % (((self.LS),)*2)), # FUNCTION ("TO x\nOUTPUT 3\nEND", "global x\ndef x():\n __checkhalt__()\n %s\n return 3\n %s" % (((self.LS),)*2)), # PROCEDURE WITH ARGUMENTS ("TO x y\nLABEL y\nEND\nx 25", "global x\ndef x(y):\n __checkhalt__()\n %s\n label(y)\n %s\n%s\nx(25)" % (((self.LS),)*3)), ("TO x :y :z\nLABEL :y + :z\nEND\nx 25 26", "global x\ndef x(_y, _z):\n __checkhalt__()\n %s\n label(_y + _z)\n %s\n%s\nx(25, 26)" % (((self.LS),)*3)), ("TO x :y :z\nLABEL :y + :z\nEND\nx 25 :w", "global x\ndef x(_y, _z):\n __checkhalt__()\n %s\n label(_y + _z)\n %s\n%s\nx(25, _w)" % (((self.LS),)*3)), # UNICODE VARIABLE NAMES ("Erdős=1", "Erd__u__0151s=1"), # STRING CONSTANTS ("LABEL \"label", "label(u'label')"), ("LABEL “label”", "label(u'label')"), ("LABEL 'label'", "label(u'label')"), ("LABEL ‘label’", "label(u'label')"), # check apostrophe and quote usage within strings ("LABEL “label\’s”", "label(u'label’s')"), ("LABEL ““It\’s quote\’s...\””", "label(u'“It’s quote’s...”')"), ("LABEL ““It\\'s quote\\'s...\””", "label(u'“It\\'s quote\\'s...”')"), # CONVERSION OF LOGO EXPRESSIONS ("a=SIN 100 + COS 100", "a=sin(100 + cos(100))"), ("a=SIN(101) + COS(101)", "a=sin(101) + cos(101)"), ("a=(SIN 102) + (COS 102)", "a=(sin(102)) + (cos(102))"), ("a=SIN 103 + COS 103 - SQRT 103", "a=sin(103 + cos(103 - sqrt(103)))"), ("a=(SIN 104 + COS 104) - SQRT 104", "a=(sin(104 + cos(104))) - sqrt(104)"), # SIN(x) is Python-like, SIN (x) is Logo-like syntax ("a=SIN(105) + COS (105) - SQRT 105", "a=sin(105) + cos((105) - sqrt(105))"), ("a=COUNT [1, 2, 3]", "a=len([1, 2, 3])"), ("PRINT COUNT [1, 2, 3]", "Print(len([1, 2, 3]))"), ("PRINT 'TEXT: ' + 'CHAR'[0] + ' TEXT2: ' + variable[-1]", "Print(u'TEXT: ' + u'CHAR'[0] + u' TEXT2: ' + variable[-1])"), ("PRINT 'TEXT: ' + 'CHAR'[0][n] + ' TEXT2: ' + varia[len k][i+1]", "Print(u'TEXT: ' + u'CHAR'[0][n] + u' TEXT2: ' + varia[len(k)][i+1])"), ("a=SQRT COUNT [1, 2, 3]", "a=sqrt(len([1, 2, 3]))"), ("a=RANGE 1", "a=range(1,)"), ("a=RANGE 1 10", "a=range(1, 10,)"), ("a=RANGE 1 10 5", "a=range(1, 10, 5)"), ("a=RANDOM 40 + 120", "a=Random(40 + 120)"), ("a=RANDOM(40) + 120", "a=Random(40) + 120"), ("a=RANDOM [1, 2, 3]", "a=Random([1, 2, 3])"), ("a=[sin 90 + cos 15, cos 100 * x, sqrt 25 * 25]", "a=[sin(90 + cos(15)), cos(100 * x), sqrt(25 * 25)]"), ("a=[sin 90 + cos 15, cos 100 * x, sqrt 25 * 25]", "a=[sin(90 + cos(15)), cos(100 * x), sqrt(25 * 25)]"), ("a=[sin(90) + cos 15, cos(100) * x, sqrt(25) * 25]", "a=[sin(90) + cos(15), cos(100) * x, sqrt(25) * 25]"), ("TO x y z\nOUTPUT 3\nEND", "global x\ndef x(y, z):\n __checkhalt__()\n %s\n return 3\n %s" % (((self.LS),)*2)), ("TO x\nOUTPUT 3\nEND", "global x\ndef x():\n __checkhalt__()\n %s\n return 3\n %s" % (((self.LS),)*2)), ("TO f x y z\nOUTPUT x+y+z\nEND\na = [-sin -len f [-cos 45, 6] -len [1, 2, 3] -sin -90", "global f\ndef f(x, y, z):\n __checkhalt__()\n %s\n return x+y+z\n %s\n%s\na = [-sin(-len(f([-cos(45), 6], -len([1, 2, 3]), -sin(-90))))" % (((self.LS),)*3)), ("TO f x y z\nOUTPUT x+y+z\nEND\na = [sin len f [cos 45, 6] [1, 2, 3] sin 90", "global f\ndef f(x, y, z):\n __checkhalt__()\n %s\n return x+y+z\n %s\n%s\na = [sin(len(f([cos(45), 6], [1, 2, 3], sin(90))))" % (((self.LS),)*3)), ("TO f x y z\nLABEL x+y+z\nEND\nf len [1, cos 2, [65]] sqrt len [1, 2, 3, 4] sin 90 * cos 270", "global f\ndef f(x, y, z):\n __checkhalt__()\n %s\n label(x+y+z)\n %s\n%s\nf(len([1, cos(2), [65]]), sqrt(len([1, 2, 3, 4])), sin(90 * cos(270)))" % (((self.LS),)*3)), ("TO f x y z\nLABEL x+y+z\nEND\nf len([1, cos 2, [65]]) sqrt(len [1, 2, 3, 4]) sin(90) * cos 270", "global f\ndef f(x, y, z):\n __checkhalt__()\n %s\n label(x+y+z)\n %s\n%s\nf(len([1, cos(2), [65]]), sqrt(len([1, 2, 3, 4])), sin(90) * cos(270))" % (((self.LS),)*3)), ("TO f x y z\nLABEL x+y+z\nEND\nf (len [1, cos 2, [65]]) (sqrt len [1, 2, 3, 4]) (sin 90) * (cos 270)", "global f\ndef f(x, y, z):\n __checkhalt__()\n %s\n label(x+y+z)\n %s\n%s\nf((len([1, cos(2), [65]])), (sqrt(len([1, 2, 3, 4]))), (sin(90)) * (cos(270)))" % (((self.LS),)*3)), # arbitrary order of function definitions and calls ("f 1 1 f 2 2\nTO f x y\nPRINT x + y\nEND", "global f\nf(1, 1)\nf(2, 2)\n%s\ndef f(x, y):\n __checkhalt__()\n %s\n Print(x + y)\n %s" % (((self.LS),)*3)), ): compiled = xCompile.invoke((test[0],), (), ())[0] self.assertEqual(test[1], re.sub(r'(\n| +\n)+', '\n', re.sub(r'\( ', '(', compiled)).strip()) # vim: set shiftwidth=4 softtabstop=4 expandtab: