bugged
stringlengths 4
228k
| fixed
stringlengths 0
96.3M
| __index_level_0__
int64 0
481k
|
|---|---|---|
def read(self,file,codec): import swatchbook.codecs as codecs if self.test(file,codec): eval('codecs.'+self.test(file,codec)).read(self,file) if sys.getfilesystemencoding() == 'UTF-8' and isinstance(file,unicode): filename = os.path.splitext(os.path.basename(file))[0] else: filename = os.path.splitext(os.path.basename(file))[0].decode(sys.getfilesystemencoding()) if 'name' not in self.info: self.info['name'] = {0: filename.replace('_',' ')} else: raise FileFormatError,file+': unsupported file'
|
def read(self,file,codec): import swatchbook.codecs as codecs if self.test(file,codec): eval('codecs.'+self.test(file,codec)).read(self,file) if sys.platform == 'win32': encoding = "UTF-8" else: encoding = sys.getfilesystemencoding() if encoding == 'UTF-8' and isinstance(file,unicode): filename = os.path.splitext(os.path.basename(file))[0] else: filename = os.path.splitext(os.path.basename(file))[0].decode(encoding) if 'name' not in self.info: self.info['name'] = {0: filename.replace('_',' ')} else: raise FileFormatError,file+': unsupported file'
| 480,000
|
def __init__(self,uri): if os.path.getsize(uri) < 128: raise BadICCprofile, "That file doesn't seem to be an ICC color profile" else: file = open(uri,'rb') self.uri = uri file.seek(0) size,cmm = struct.unpack('>L 4s',file.read(8)) # Profile size if os.path.getsize(uri) != size: raise BadICCprofile, "That file doesn't have the expected size" if not (all(c in string.ascii_letters+' '+string.digits for c in cmm) or cmm == '\x00\x00\x00\x00'): raise BadICCprofile, "That file doesn't seem to be an ICC color profile" else: file.seek(8) version = struct.unpack('>B 1s 2s',file.read(4)) # Profile version number version1 = version[1].encode('hex') self.info = {} self.info['version'] = (version[0],eval('0x'+version1[0]),eval('0x'+version1[1])) self.info['class'] = struct.unpack('4s',file.read(4))[0] # Profile/Device Class self.info['space'] = struct.unpack('4s',file.read(4))[0] # Color space of data self.info['pcs'] = struct.unpack('4s',file.read(4))[0] # Profile Connection Space file.seek(128) tags = struct.unpack('>L',file.read(4))[0] self.info['tags'] = {} for i in range(tags): tag = struct.unpack('>4s 2L',file.read(12)) self.info['tags'][tag[0]] = (tag[1],tag[2])
|
def __init__(self,uri): if os.path.getsize(uri) < 128: raise BadICCprofile, "That file doesn't seem to be an ICC color profile" else: file = open(uri,'rb') self.uri = uri file.seek(0) size,cmm = struct.unpack('>L 4s',file.read(8)) # Profile size if os.path.getsize(uri) != size: raise BadICCprofile, "That file doesn't have the expected size" if not (all(c in string.ascii_letters+' '+string.digits for c in cmm) or cmm == '\x00\x00\x00\x00'): raise BadICCprofile, "That file doesn't seem to be an ICC color profile" else: file.seek(8) version = struct.unpack('>B 1s 2s',file.read(4)) # Profile version number version1 = version[1].encode('hex') self.info = {} self.info['version'] = (version[0],eval('0x'+version1[0]),eval('0x'+version1[1])) self.info['class'] = struct.unpack('4s',file.read(4))[0] # Profile/Device Class self.info['space'] = struct.unpack('4s',file.read(4))[0] # Color space of data self.info['pcs'] = struct.unpack('4s',file.read(4))[0] # Profile Connection Space file.seek(128) tags = struct.unpack('>L',file.read(4))[0] self.info['tags'] = {} for i in range(tags): tag = struct.unpack('>4s 2L',file.read(12)) self.info['tags'][tag[0]] = (tag[1],tag[2])
| 480,001
|
def readmaterial(material,swatchbook): if material.tag == 'color': sitem = Color(swatchbook) if 'usage' in material.attrib: sitem.usage = material.attrib['usage'].split(',') for elem in material: if elem.tag == 'values': values = map(eval,elem.text.split()) if 'space' in elem.attrib: sitem.values[(elem.attrib['model'],unicode(elem.attrib['space']))] = values else: sitem.values[(elem.attrib['model'],False)] = values elif elem.tag == 'metadata': sbz.readmeta(sitem,elem) elif elem.tag == 'extra': sbz.sitem.extra[xmlunescape(elem.attrib['type'])] = xmlunescape(elem.text) if sitem.info.identifier > '': id = sitem.info.identifier else: raise FileFormatError swatchbook.materials[id] = sitem
|
def readmaterial(material,swatchbook): if material.tag == 'color': sitem = Color(swatchbook) if 'usage' in material.attrib: sitem.usage = material.attrib['usage'].split(',') for elem in material: if elem.tag == 'values': values = map(eval,elem.text.split()) if 'space' in elem.attrib: sitem.values[(elem.attrib['model'],unicode(elem.attrib['space']))] = values else: sitem.values[(elem.attrib['model'],False)] = values elif elem.tag == 'metadata': sbz.readmeta(sitem,elem) elif elem.tag == 'extra': sitem.extra[xmlunescape(elem.attrib['type'])] = xmlunescape(elem.text) if sitem.info.identifier > '': id = sitem.info.identifier else: raise FileFormatError swatchbook.materials[id] = sitem
| 480,002
|
def run(self): for lang in os.listdir('build/locale/'): lang_dir = os.path.join('share', 'locale', lang, 'LC_MESSAGES') lang_file = os.path.join('build', 'locale', lang, 'LC_MESSAGES', 'swatchbooker.mo') self.data_files.append( (lang_dir, [lang_file]) ) _install_data.run(self)
|
defrun(self):forlanginos.listdir('build/locale/'):lang_dir=os.path.join('share','locale',lang,'LC_MESSAGES')lang_file=os.path.join('build','locale',lang,'LC_MESSAGES','swatchbooker.mo')self.data_files.append((lang_dir,[lang_file]))_install_data.run(self)
| 480,003
|
def run(self): for lang in os.listdir('build/locale/'): lang_dir = os.path.join('share', 'locale', lang, 'LC_MESSAGES') lang_file = os.path.join('build', 'locale', lang, 'LC_MESSAGES', 'swatchbooker.mo') self.data_files.append( (lang_dir, [lang_file]) ) _install_data.run(self)
|
def run(self): for lang in os.listdir('build/locale/'): lang_dir = os.path.join('share', 'locale', lang, 'LC_MESSAGES') lang_file = os.path.join('build', 'locale', lang, 'LC_MESSAGES', 'swatchbooker.mo') self.data_files.append( (lang_dir, [lang_file]) ) _install_data.run(self)
| 480,004
|
def run(self): for lang in os.listdir('build/locale/'): lang_dir = os.path.join('share', 'locale', lang, 'LC_MESSAGES') lang_file = os.path.join('build', 'locale', lang, 'LC_MESSAGES', 'swatchbooker.mo') self.data_files.append( (lang_dir, [lang_file]) ) _install_data.run(self)
|
def run(self): for lang in os.listdir('build/locale/'): lang_dir = os.path.join('share', 'locale', lang, 'LC_MESSAGES') lang_file = os.path.join('build', 'locale', lang, 'LC_MESSAGES', 'swatchbooker.mo') self.data_files.append( (lang_dir, [lang_file]) ) _install_data.run(self)
| 480,005
|
def run(self): for lang in os.listdir('build/locale/'): lang_dir = os.path.join('share', 'locale', lang, 'LC_MESSAGES') lang_file = os.path.join('build', 'locale', lang, 'LC_MESSAGES', 'swatchbooker.mo') self.data_files.append( (lang_dir, [lang_file]) ) _install_data.run(self)
|
def run(self): for lang in os.listdir('build/locale/'): lang_dir = os.path.join('share', 'locale', lang, 'LC_MESSAGES') lang_file = os.path.join('build', 'locale', lang, 'LC_MESSAGES', 'swatchbooker.mo') self.data_files.append( (lang_dir, [lang_file]) ) _install_data.run(self)
| 480,006
|
def readmeta(item,meta): for elem in meta: if elem.tag.find(dc): if elem.tag == '{'+dc+'}date': try: item.info.date = datetime.strptime(elem.text,"%Y-%m-%dT%H:%M:%S.%f") except ValueError, e: if str(e) == "'f' is a bad directive in format '%Y-%m-%dT%H:%M:%S.%f'": # Python 2.5 item.info.date = datetime.strptime(elem.text.split('.')[0],"%Y-%m-%dT%H:%M:%S") else: remain = str(e)[26:] if remain == 'Z': item.info.date = datetime.strptime(elem.text[:-len(remain)],"%Y-%m-%dT%H:%M:%S.%f") else: date = datetime.strptime(elem.text[:-len(remain)],"%Y-%m-%dT%H:%M:%S.%f") delta = remain.split(':') item.info.date = date - timedelta(hours=int(delta[0]),minutes=int(delta[1])) elif elem.tag == '{'+dc+'}type': if elem.attrib['{'+rdf+'}resource'] != 'http://purl.org/dc/dcmitype/Dataset': raise FileFormatError elif elem.tag == '{'+dc+'}format': if elem.text != 'application/swatchbook': raise FileFormatError elif '{'+xml+'}lang' in elem.attrib: exec("item.info."+elem.tag[(len(dc)+2):]+"_l10n[elem.attrib['{'+xml+'}lang']] = xmlunescape(elem.text)") else: exec("item.info."+elem.tag[(len(dc)+2):]+" = xmlunescape(elem.text)") elif elem.tag == '{'+dcterms+'}license': item.info.license = xmlunescape(elem.attrib['{'+rdf+'}resource'])
|
def readmeta(item,meta): for elem in meta: if elem.tag.find(dc): if elem.tag == '{'+dc+'}date': try: item.info.date = datetime.strptime(elem.text,"%Y-%m-%dT%H:%M:%S.%f") except ValueError, e: if str(e) == "'f' is a bad directive in format '%Y-%m-%dT%H:%M:%S.%f'": # Python 2.5 item.info.date = datetime.strptime(elem.text.split('.')[0],"%Y-%m-%dT%H:%M:%S") else: remain = str(e)[26:] if remain == 'Z': item.info.date = datetime.strptime(elem.text[:-len(remain)],"%Y-%m-%dT%H:%M:%S.%f") else: date = datetime.strptime(elem.text[:-len(remain)],"%Y-%m-%dT%H:%M:%S.%f") delta = remain.split(':') item.info.date = date - timedelta(hours=int(delta[0]),minutes=int(delta[1])) elif elem.tag == '{'+dc+'}type': if elem.attrib['{'+rdf+'}resource'] != 'http://purl.org/dc/dcmitype/Dataset': raise FileFormatError elif elem.tag == '{'+dc+'}format': if elem.text != 'application/swatchbook': raise FileFormatError elif '{'+xml+'}lang' in elem.attrib: exec("item.info."+elem.tag[(len(dc)+2):]+"_l10n[elem.attrib['{'+xml+'}lang']] = xmlunescape(elem.text)") else: exec("item.info."+elem.tag[(len(dc)+2):]+" = xmlunescape(elem.text)")
| 480,007
|
def __init__(self): rootNode = Player.getRootNode() posX = rootNode.size.x-50 posY = rootNode.size.y-50 self.__layer = Player.createNode(''' <words id="displayEmu" x="%(posX)i" y="%(posY)i" fontsize="20" opacity="1" alignment="right" color="DDDDDD" text="Multitouch emulation active" sensitive="False" /> ''' % {'posX':posX, 'posY':posY} ) rootNode.appendChild(self.__layer) self.__container = Player.createNode('div', {}) self.__p1 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False}) self.__p2 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False})
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def __init__(self): rootNode = Player.getRootNode() posX = rootNode.size.x * 3/4 posY = rootNode.size.y-40 self.__layer = Player.createNode(''' <words id="displayEmu" x="%(posX)i" y="%(posY)i" fontsize="20" opacity="1" alignment="right" color="DDDDDD" text="Multitouch emulation active" sensitive="False" /> ''' % {'posX':posX, 'posY':posY} ) rootNode.appendChild(self.__layer) self.__container = Player.createNode('div', {}) self.__p1 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False}) self.__p2 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False})
| 480,008
|
def __init__(self): rootNode = Player.getRootNode() posX = rootNode.size.x-50 posY = rootNode.size.y-50 self.__layer = Player.createNode(''' <words id="displayEmu" x="%(posX)i" y="%(posY)i" fontsize="20" opacity="1" alignment="right" color="DDDDDD" text="Multitouch emulation active" sensitive="False" /> ''' % {'posX':posX, 'posY':posY} ) rootNode.appendChild(self.__layer) self.__container = Player.createNode('div', {}) self.__p1 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False}) self.__p2 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False})
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def __init__(self): rootNode = Player.getRootNode() posX = rootNode.size.x-50 posY = rootNode.size.y-50 self.__layer = Player.createNode(''' <words id="displayEmu" x="%(posX)i" y="%(posY)i" fontsize="20" opacity="1" color="DDDDDD" text="Multitouch emulation active" sensitive="False" /> ''' % {'posX':posX, 'posY':posY} ) rootNode.appendChild(self.__layer) self.__container = Player.createNode('div', {}) self.__p1 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False}) self.__p2 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False})
| 480,009
|
def __init__(self): rootNode = Player.getRootNode() posX = rootNode.size.x-50 posY = rootNode.size.y-50 self.__layer = Player.createNode(''' <words id="displayEmu" x="%(posX)i" y="%(posY)i" fontsize="20" opacity="1" alignment="right" color="DDDDDD" text="Multitouch emulation active" sensitive="False" /> ''' % {'posX':posX, 'posY':posY} ) rootNode.appendChild(self.__layer) self.__container = Player.createNode('div', {}) self.__p1 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False}) self.__p2 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False})
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def __init__(self): rootNode = Player.getRootNode() posX = rootNode.size.x-50 posY = rootNode.size.y-50 self.__layer = Player.createNode(''' <words id="displayEmu" x="%(posX)i" y="%(posY)i" fontsize="20" opacity="1" alignment="right" color="DDDDDD" text="Multitouch emulation active" sensitive="False" /> ''' % {'posX':posX, 'posY':posY} ) rootNode.appendChild(self.__layer) self.__container = Player.createNode('div', {}) self.__p1 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False}) self.__p2 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False})
| 480,010
|
def delete(self): """ after turning off the emulater the function unlinks all nodes of the emulator. so it be garanted that the application is working as before again. events will be cleared with two UP events. """ rootNode = Player.getRootNode() rootNode.setEventHandler(avg.CURSORMOTION, avg.MOUSE, None) rootNode.setEventHandler(avg.CURSORDOWN, avg.MOUSE, None) rootNode.setEventHandler(avg.CURSORUP, avg.MOUSE, None) self.__layer.unlink() self.__container.unlink() self.__p1.unlink() self.__p2.unlink() self.__p1 = self.__p2 = None self.__container = self.__node2root = self.__layer = None if self.pos1 != (-1,-1) and self.pos2 != (-1,-1): Player.getTestHelper().fakeTouchEvent(self.__getLeftID(), avg.CURSORUP, self.EventMode, self.pos1, self.pos1, Point2D(0,0)) Player.getTestHelper().fakeTouchEvent(self.__getRightID(), avg.CURSORUP, self.EventMode, self.pos2, self.pos2, Point2D(0,0))
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def delete(self): """ after turning off the emulater the function unlinks all nodes of the emulator. so it be garanted that the application is working as before again. events will be cleared with two UP events. """ rootNode = Player.getRootNode() rootNode.setEventHandler(avg.CURSORMOTION, avg.MOUSE, None) rootNode.setEventHandler(avg.CURSORDOWN, avg.MOUSE, None) rootNode.setEventHandler(avg.CURSORUP, avg.MOUSE, None) self.__layer.unlink() self.__container.unlink() self.__p1.unlink() self.__p2.unlink() self.__p1 = self.__p2 = None self.__container = self.__node2root = self.__layer = None Player.getTestHelper().fakeTouchEvent(self.__getLeftID(), avg.CURSORUP, self.EventMode, self.pos1, self.pos1, Point2D(0,0)) Player.getTestHelper().fakeTouchEvent(self.__getRightID(), avg.CURSORUP, self.EventMode, self.pos2, self.pos2, Point2D(0,0))
| 480,011
|
def __getRightID(self): self.idpos2 = int(self.ID.y) return self.idpos2
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def def __clampPos(self, pos): if pos[0] < 0: pos[0] = 0 if pos[1] < 0: pos[1] = 0 if pos[0] > Player.getRootNode().size[0]-1: pos[0] = Player.getRootNode().size[0]-1 if pos[1] > Player.getRootNode().size[1]-1: pos[1] = Player.getRootNode().size[0]-1 return pos __getRightID(self): def __clampPos(self, pos): if pos[0] < 0: pos[0] = 0 if pos[1] < 0: pos[1] = 0 if pos[0] > Player.getRootNode().size[0]-1: pos[0] = Player.getRootNode().size[0]-1 if pos[1] > Player.getRootNode().size[1]-1: pos[1] = Player.getRootNode().size[0]-1 return pos self.idpos2 def __clampPos(self, pos): if pos[0] < 0: pos[0] = 0 if pos[1] < 0: pos[1] = 0 if pos[0] > Player.getRootNode().size[0]-1: pos[0] = Player.getRootNode().size[0]-1 if pos[1] > Player.getRootNode().size[1]-1: pos[1] = Player.getRootNode().size[0]-1 return pos = def __clampPos(self, pos): if pos[0] < 0: pos[0] = 0 if pos[1] < 0: pos[1] = 0 if pos[0] > Player.getRootNode().size[0]-1: pos[0] = Player.getRootNode().size[0]-1 if pos[1] > Player.getRootNode().size[1]-1: pos[1] = Player.getRootNode().size[0]-1 return pos int(self.ID.y) def __clampPos(self, pos): if pos[0] < 0: pos[0] = 0 if pos[1] < 0: pos[1] = 0 if pos[0] > Player.getRootNode().size[0]-1: pos[0] = Player.getRootNode().size[0]-1 if pos[1] > Player.getRootNode().size[1]-1: pos[1] = Player.getRootNode().size[0]-1 return pos return def __clampPos(self, pos): if pos[0] < 0: pos[0] = 0 if pos[1] < 0: pos[1] = 0 if pos[0] > Player.getRootNode().size[0]-1: pos[0] = Player.getRootNode().size[0]-1 if pos[1] > Player.getRootNode().size[1]-1: pos[1] = Player.getRootNode().size[0]-1 return pos self.idpos2 def __clampPos(self, pos): if pos[0] < 0: pos[0] = 0 if pos[1] < 0: pos[1] = 0 if pos[0] > Player.getRootNode().size[0]-1: pos[0] = Player.getRootNode().size[0]-1 if pos[1] > Player.getRootNode().size[1]-1: pos[1] = Player.getRootNode().size[0]-1 return pos def __clampPos(self, pos): if pos[0] < 0: pos[0] = 0 if pos[1] < 0: pos[1] = 0 if pos[0] > Player.getRootNode().size[0]-1: pos[0] = Player.getRootNode().size[0]-1 if pos[1] > Player.getRootNode().size[1]-1: pos[1] = Player.getRootNode().size[0]-1 return pos
| 480,012
|
def __onMouseButtonUp(self, e): #one or two fake UP events will be created (multitouch active or not). #SOURCE depending on EventMode. self.__eraseDraw() if e.button == 1: self.mouseState = 'Up' Player.getTestHelper().fakeTouchEvent(self.__getLeftID(), avg.CURSORUP, self.EventMode, self.pos1, self.pos1, e.speed) self.pos1 = (-1,-1) self.mouseDown1 = (-1,-1)
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def __onMouseButtonUp(self, e): #one or two fake UP events will be created (multitouch active or not). #SOURCE depending on EventMode. self.__eraseDraw() if e.button == 1: self.mouseState = 'Up' Player.getTestHelper().fakeTouchEvent(self.__getLeftID(), avg.CURSORUP, self.EventMode, self.pos1, self.pos1, e.speed) self.pos1 = (-1,-1) self.mouseDown1 = (-1,-1)
| 480,013
|
def __onMouseButtonUp(self, e): #one or two fake UP events will be created (multitouch active or not). #SOURCE depending on EventMode. self.__eraseDraw() if e.button == 1: self.mouseState = 'Up' Player.getTestHelper().fakeTouchEvent(self.__getLeftID(), avg.CURSORUP, self.EventMode, self.pos1, self.pos1, e.speed) self.pos1 = (-1,-1) self.mouseDown1 = (-1,-1)
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def __onMouseButtonUp(self, e): #one or two fake UP events will be created (multitouch active or not). #SOURCE depending on EventMode. self.__eraseDraw() if e.button == 1: self.mouseState = 'Up' Player.getTestHelper().fakeTouchEvent(self.__getLeftID(), avg.CURSORUP, self.EventMode, self.pos1, self.pos1, e.speed) self.pos1 = (-1,-1) self.mouseDown1 = (-1,-1)
| 480,014
|
def deleteAnim(): self.anim = None
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def deleteAnim(): self.anim = None
| 480,015
|
def deleteAnim(): self.anim = None
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def deleteAnim(): self.anim = None
| 480,016
|
def changeHRef(href): self.node.href=href
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def changeHRef(href): self.node.href=href
| 480,017
|
def noCaptureEvent(): self.mouseDownCalled = False self.mainMouseDownCalled = False self.img.releaseEventCapture()
|
def noCaptureEvent(): self.mouseDownCalled = False self.mainMouseDownCalled = False self.img.releaseEventCapture()
| 480,018
|
def killNodeUnderCursor(): Parent = img1.getParent() Parent.removeChild(Parent.indexOf(img1))
|
def killNodeUnderCursor(): Parent = img1.getParent() Parent.removeChild(Parent.indexOf(img1))
| 480,019
|
def killNodeUnderCursor(): Parent = img1.getParent() Parent.removeChild(Parent.indexOf(img1))
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def killNodeUnderCursor(): Parent = img1.getParent() Parent.removeChild(Parent.indexOf(img1))
| 480,020
|
def __init__(self, upNode = None, downNode = None, disabledNode = None, pressHandler = None, clickHandler = None, **kwargs): libavg.DivNode.__init__(self, **kwargs) self.crop = False #self.elementoutlinecolor = 'FF0000' self.__upNode = upNode self.__downNode = downNode self.__disabledNode = disabledNode self.__defaultHandler = lambda event: None self.__customPressHandler = pressHandler if pressHandler else self.__defaultHandler self.__customClickHandler = clickHandler if clickHandler else self.__defaultHandler
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def__init__(self,upNode=None,downNode=None,disabledNode=None,pressHandler=None,clickHandler=None,**kwargs):libavg.DivNode.__init__(self,**kwargs)self.crop=False#self.elementoutlinecolor='FF0000'self.__upNode=upNodeself.__downNode=downNodeself.__disabledNode=disabledNodeself.__defaultHandler=lambdaevent:Noneself.__customPressHandler=pressHandlerifpressHandlerelseself.__defaultHandlerself.__customClickHandler=clickHandlerifclickHandlerelseself.__defaultHandler
| 480,021
|
def isChecked(self): return self.__hasBitState(Button.STATE_DOWN)
|
def isChecked(self): return bool(self.__hasBitState(Button.STATE_DOWN))
| 480,022
|
def __setup(self): self.appendChild(self.__upNode) self.appendChild(self.__downNode)
|
def __setup(self): self.appendChild(self.__upNode) self.appendChild(self.__downNode)
| 480,023
|
def __releaseHandlerTemplateMethod(self, event): numberOfCapturedCursors = self.__getNumberOfCapturedCursors() numberOfOverCursors = len(self.__overCursorIds) if self.__isCursorCaptured(event.cursorid): self.__releaseCapturedCursor(event.cursorid)
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def __releaseHandlerTemplateMethod(self, event): numberOfCapturedCursors = self.__getNumberOfCapturedCursors() numberOfOverCursors = len(self.__overCursorIds) if self.__isCursorCaptured(event.cursorid): self.__releaseCapturedCursor(event.cursorid)
| 480,024
|
def onNoEOF(): self.assert_(False)
|
def def testVideoEOFWhithZeroOpacity(self): def onEOF(): Player.stop() def onNoEOF(): self.assert_(False) self.loadEmptyScene() videoNode = libavg.VideoNode(href = "../video/testfiles/mpeg1-48x48.mpg") videoNode.opacity = 0 Player.get().getRootNode().appendChild(videoNode) videoNode.play() videoNode.setEOFCallback(onEOF) Player.setTimeout(10000, onNoEOF) Player.play() onNoEOF(): def testVideoEOFWhithZeroOpacity(self): def onEOF(): Player.stop() def onNoEOF(): self.assert_(False) self.loadEmptyScene() videoNode = libavg.VideoNode(href = "../video/testfiles/mpeg1-48x48.mpg") videoNode.opacity = 0 Player.get().getRootNode().appendChild(videoNode) videoNode.play() videoNode.setEOFCallback(onEOF) Player.setTimeout(10000, onNoEOF) Player.play() self.assert_(False)
| 480,025
|
def checkCanvasScreenshot(): bmp = offscreenCanvas.screenshot() self.compareBitmapToFile(bmp, "testOffscreenScreenshot", False)
|
def checkCanvasScreenshot(): bmp = offscreenCanvas.screenshot() self.compareBitmapToFile(bmp, "testOffscreenScreenshot", False)
| 480,026
|
def createBaseCanvas(): return Player.loadCanvasString(""" <canvas id="testcanvas" width="64" height="64"> <image x="0" y="0" href="rgb24alpha-64x64.png"/> </canvas> """)
|
def createBaseCanvas(): return Player.loadCanvasString(""" <canvas id="testcanvas" width="64" height="64"> <image x="0" y="0" href="rgb24alpha-64x64.png"/> </canvas> """)
| 480,027
|
def setSymlink(src, dest): if not os.path.exists(dest): os.symlink(src, dest) elif not os.path.islink(dest): raise RuntimeError( '%s exists as a file/directory. Please remove it to perform tests' % dest)
|
def setSymlink(src, dest): if not os.path.exists(dest): os.symlink(src, dest) elif not os.path.islink(dest): raise RuntimeError( '%s exists as a file/directory. Please remove it to perform tests' % dest)
| 480,028
|
def createBaseCanvas(): return Player.loadCanvasString(""" <canvas id="testcanvas" width="160" height="120"> <image href="freidrehen.jpg"/> <image id="blend" x="0" y="0" opacity="0.6" href="rgb24-65x65.png"/> <image x="0" y="48" opacity="0.6" href="rgb24-65x65.png" blendmode="add"/> <image x="48" y="0" opacity="1" href="rgb24-65x65.png" blendmode="min"/> <image x="48" y="48" opacity="1" href="rgb24-65x65.png" blendmode="max"/> </canvas> """)
|
def createBaseCanvas(): return Player.loadCanvasString(""" <canvas id="testcanvas" width="64" height="64"> <image x="0" y="0" href="rgb24alpha-64x64.png"/> </canvas> """)
| 480,029
|
def createBaseCanvas(): return Player.loadCanvasString(""" <canvas id="testcanvas" width="160" height="120"> <image href="freidrehen.jpg"/> <image id="blend" x="0" y="0" opacity="0.6" href="rgb24-65x65.png"/> <image x="0" y="48" opacity="0.6" href="rgb24-65x65.png" blendmode="add"/> <image x="48" y="0" opacity="1" href="rgb24-65x65.png" blendmode="min"/> <image x="48" y="48" opacity="1" href="rgb24-65x65.png" blendmode="max"/> </canvas> """)
|
def createBaseCanvas(): return Player.loadCanvasString(""" <canvas id="testcanvas" width="160" height="120"> <image href="freidrehen.jpg"/> <image id="blend" x="0" y="0" opacity="0.6" href="rgb24-65x65.png"/> <image x="0" y="48" opacity="0.6" href="rgb24-65x65.png" blendmode="add"/> <image x="48" y="0" opacity="1" href="rgb24-65x65.png" blendmode="min"/> <image x="48" y="48" opacity="1" href="rgb24-65x65.png" blendmode="max"/> </canvas> """)
| 480,030
|
def createBaseCanvas(): return Player.loadCanvasString(""" <canvas id="testcanvas" width="160" height="120"> <image href="freidrehen.jpg"/> <image id="blend" x="0" y="0" opacity="0.6" href="rgb24-65x65.png"/> <image x="0" y="48" opacity="0.6" href="rgb24-65x65.png" blendmode="add"/> <image x="48" y="0" opacity="1" href="rgb24-65x65.png" blendmode="min"/> <image x="48" y="48" opacity="1" href="rgb24-65x65.png" blendmode="max"/> </canvas> """)
|
def createBaseCanvas(): return Player.loadCanvasString(""" <canvas id="testcanvas" width="160" height="120"> <image href="freidrehen.jpg"/> <image id="blend" x="0" y="0" opacity="0.6" href="rgb24-65x65.png"/> <image x="0" y="48" opacity="0.6" href="rgb24-65x65.png" blendmode="add"/> <image x="48" y="0" opacity="1" href="rgb24-65x65.png" blendmode="min"/> <image x="48" y="48" opacity="1" href="rgb24-65x65.png" blendmode="max"/> </canvas> """)
| 480,031
|
def __switchShowMTEvents(self): self.__showMTEvents = not(self.__showMTEvents) if self.__showMTEvents: self.__oldEventHook = g_player.getEventHook() g_player.setEventHook(self.__showMTEventHook) else: g_player.setEventHook(self.__oldEventHook) for id, touchVis in self.__touchViss: touchVis.unlink(True) self.__touchViss = {}
|
def __switchShowMTEvents(self): self.__showMTEvents = not(self.__showMTEvents) if self.__showMTEvents: self.__oldEventHook = g_player.getEventHook() g_player.setEventHook(self.__showMTEventHook) else: g_player.setEventHook(self.__oldEventHook) for id, touchVis in self.__touchViss.items(): touchVis.unlink(True) self.__touchViss = {}
| 480,032
|
def __showMTEventHook(self, event): if isinstance(event, avg.TouchEvent) and event.source == avg.TOUCH: if event.type == avg.CURSORDOWN: self.__touchViss[event.cursorid] = TouchVisualization(event, parent=self.__touchVisOverlay) elif event.type == avg.CURSORMOTION: self.__touchViss[event.cursorid].move(event) elif event.type == avg.CURSORUP: self.__touchViss[event.cursorid].unlink(True) del self.__touchViss[event.cursorid] if self.__oldEventHook: return self.__oldEventHook() else: return False
|
def __showMTEventHook(self, event): if (isinstance(event, avg.TouchEvent) and event.source == avg.TOUCH and (event.type == avg.CURSORDOWN or event.type == avg.CURSORMOTION or event.type == avg.CURSORUP)): try: touchVis = self.__touchViss[event.cursorid] except KeyError: touchVis = TouchVisualization(event, parent=self.__touchVisOverlay) self.__touchViss[event.cursorid] = touchVis if event.type == avg.CURSORDOWN: self.__touchViss[event.cursorid] = TouchVisualization(event, parent=self.__touchVisOverlay) elif event.type == avg.CURSORMOTION: self.__touchViss[event.cursorid].move(event) elif event.type == avg.CURSORUP: self.__touchViss[event.cursorid].unlink(True) del self.__touchViss[event.cursorid] if self.__oldEventHook: return self.__oldEventHook() else: return False
| 480,033
|
def __showMTEventHook(self, event): if isinstance(event, avg.TouchEvent) and event.source == avg.TOUCH: if event.type == avg.CURSORDOWN: self.__touchViss[event.cursorid] = TouchVisualization(event, parent=self.__touchVisOverlay) elif event.type == avg.CURSORMOTION: self.__touchViss[event.cursorid].move(event) elif event.type == avg.CURSORUP: self.__touchViss[event.cursorid].unlink(True) del self.__touchViss[event.cursorid] if self.__oldEventHook: return self.__oldEventHook() else: return False
|
def __showMTEventHook(self, event): if isinstance(event, avg.TouchEvent) and event.source == avg.TOUCH: if event.type == avg.CURSORDOWN: pass elif event.type == avg.CURSORMOTION: self.__touchViss[event.cursorid].move(event) elif event.type == avg.CURSORUP: self.__touchViss[event.cursorid].unlink(True) del self.__touchViss[event.cursorid] if self.__oldEventHook: return self.__oldEventHook() else: return False
| 480,034
|
def __showMTEventHook(self, event): if isinstance(event, avg.TouchEvent) and event.source == avg.TOUCH: if event.type == avg.CURSORDOWN: self.__touchViss[event.cursorid] = TouchVisualization(event, parent=self.__touchVisOverlay) elif event.type == avg.CURSORMOTION: self.__touchViss[event.cursorid].move(event) elif event.type == avg.CURSORUP: self.__touchViss[event.cursorid].unlink(True) del self.__touchViss[event.cursorid] if self.__oldEventHook: return self.__oldEventHook() else: return False
|
def __showMTEventHook(self, event): if isinstance(event, avg.TouchEvent) and event.source == avg.TOUCH: if event.type == avg.CURSORDOWN: self.__touchViss[event.cursorid] = TouchVisualization(event, parent=self.__touchVisOverlay) elif event.type == avg.CURSORMOTION: touchVis.move(event) elif event.type == avg.CURSORUP: self.__touchViss[event.cursorid].unlink(True) del self.__touchViss[event.cursorid] if self.__oldEventHook: return self.__oldEventHook() else: return False
| 480,035
|
def __showMTEventHook(self, event): if isinstance(event, avg.TouchEvent) and event.source == avg.TOUCH: if event.type == avg.CURSORDOWN: self.__touchViss[event.cursorid] = TouchVisualization(event, parent=self.__touchVisOverlay) elif event.type == avg.CURSORMOTION: self.__touchViss[event.cursorid].move(event) elif event.type == avg.CURSORUP: self.__touchViss[event.cursorid].unlink(True) del self.__touchViss[event.cursorid] if self.__oldEventHook: return self.__oldEventHook() else: return False
|
def __showMTEventHook(self, event): if isinstance(event, avg.TouchEvent) and event.source == avg.TOUCH: if event.type == avg.CURSORDOWN: self.__touchViss[event.cursorid] = TouchVisualization(event, parent=self.__touchVisOverlay) elif event.type == avg.CURSORMOTION: self.__touchViss[event.cursorid].move(event) elif event.type == avg.CURSORUP: touchVis.unlink(True) del self.__touchViss[event.cursorid] if self.__oldEventHook: return self.__oldEventHook() else: return False
| 480,036
|
def setNBSP(): node = Player.getElementByID("dynamictext") node.width=100 node.text=u"blindtext1\u00A0blindtext2\u00Ablindtext3 "+ "blindtext4\u00A0lindtext\u00A0blindtext\u00A0"
|
def setNBSP(): node = Player.getElementByID("dynamictext") node.width=100 node.text=u"blindtext1\u00A0blindtext2\u00Ablindtext3 "+ "blindtext4\u00A0lindtext\u00A0blindtext\u00A0"
| 480,037
|
def testDuplicateID(self): self.loadEmptyScene() root = Player.getRootNode() avg.ImageNode(href="rgb24-64x64.png", id="testdup", parent=root) self.assertException(lambda: avg.ImageNode(href="rgb24-64x64.png", id="testdup", parent=root)) self.start(None, (self.assertException(lambda: avg.ImageNode(href="rgb24-64x64.png", id="testdup", parent=root)), ) )
|
def testDuplicateID(self): self.loadEmptyScene() root = Player.getRootNode() avg.ImageNode(href="rgb24-64x64.png", id="testdup", parent=root) self.assertException(lambda: avg.ImageNode(href="rgb24-64x64.png", id="testdup", parent=root)) self.start(None, (self.assertException(lambda: avg.ImageNode(href="rgb24-64x64.png", id="testdup", parent=root)), ) )
| 480,038
|
def testPlayBeforeConnect(self): node = avg.VideoNode(href="../video/testfiles/mpeg1-48x48.mpg") node.play() self._loadEmpty() Player.getRootNode().insertChild(node, 0) Player.setFakeFPS(25) self.start(None, (lambda: self.assert_(node.size == (48, 48)), lambda: self.compareImage("testPlayBeforeConnect", False), ))
|
def testPlayBeforeConnect(self): node = avg.VideoNode(href="../video/testfiles/mpeg1-48x48.mpg", threaded=False) node.play() self._loadEmpty() Player.getRootNode().insertChild(node, 0) Player.setFakeFPS(25) self.start(None, (lambda: self.assert_(node.size == (48, 48)), lambda: self.compareImage("testPlayBeforeConnect", False), ))
| 480,039
|
def setPos(): self.node.pos = (80, 60) self.node.size = (80, 60)
|
def setPos(): self.node.pos = (80, 60) self.node.size = (80, 60)
| 480,040
|
def __showMTEventHook(self, event): if (isinstance(event, avg.TouchEvent) and event.source == avg.TOUCH and (event.type == avg.CURSORDOWN or event.type == avg.CURSORMOTION or event.type == avg.CURSORUP)): try: touchVis = self.__touchViss[event.cursorid] except KeyError: touchVis = TouchVisualization(event, parent=self.__touchVisOverlay) self.__touchViss[event.cursorid] = touchVis if event.type == avg.CURSORDOWN: pass elif event.type == avg.CURSORMOTION: touchVis.move(event) elif event.type == avg.CURSORUP: touchVis.unlink(True) del self.__touchViss[event.cursorid]
|
def__showMTEventHook(self,event):if(isinstance(event,avg.TouchEvent)andevent.source==avg.TOUCHand(event.type==avg.CURSORDOWNorevent.type==avg.CURSORMOTIONorevent.type==avg.CURSORUP)):try:touchVis=self.__touchViss[event.cursorid]exceptKeyError:touchVis=TouchVisualization(event,parent=self.__touchVisOverlay)self.__touchViss[event.cursorid]=touchVisifevent.type==avg.CURSORDOWN:passelifevent.type==avg.CURSORMOTION:touchVis.move(event)elifevent.type==avg.CURSORUP:touchVis.unlink(True)delself.__touchViss[event.cursorid]
| 480,041
|
def __createOffscreenCanvas(): offscreenCanvas = self.__createOffscreenCanvas("offscreencanvas", False) self.node = avg.ImageNode(parent=Player.getRootNode(), href="canvas:offscreencanvas")
|
def createOffscreenCanvas(): offscreenCanvas = self.__createOffscreenCanvas("offscreencanvas", False) self.node = avg.ImageNode(parent=Player.getRootNode(), href="canvas:offscreencanvas")
| 480,042
|
def __createOffscreenCanvas(): offscreenCanvas = self.__createOffscreenCanvas("offscreencanvas", False) self.node = avg.ImageNode(parent=Player.getRootNode(), href="canvas:offscreencanvas")
|
def __createOffscreenCanvas(): offscreenCanvas = self.__createOffscreenCanvas("offscreencanvas", False) self.node = avg.ImageNode(parent=Player.getRootNode(), href="canvas:offscreencanvas")
| 480,043
|
def __onDown(self, event): if self.__dragCursorID == None: if self.__inertiaHandlerID: self.__stopHandler() g_Player.clearTimeout(self.__inertiaHandlerID) self.__dragCursorID = event.cursorid self.__dragStartPos = event.pos self.__node.setEventCapture(event.cursorid) if self.__startHandler: self.__startHandler(event) self.__speed = avg.Point2D(0,0) self.__frameHandlerID = g_Player.setOnFrameHandler(self.__onFrame)
|
def __onDown(self, event): if self.__dragCursorID == None: if self.__inertiaHandlerID: self.__stopHandler() g_Player.clearInterval(self.__inertiaHandlerID) self.__dragCursorID = event.cursorid self.__dragStartPos = event.pos self.__node.setEventCapture(event.cursorid) if self.__startHandler: self.__startHandler(event) self.__speed = avg.Point2D(0,0) self.__frameHandlerID = g_Player.setOnFrameHandler(self.__onFrame)
| 480,044
|
def __onMove(self, event): if event.cursorid == self.__cursorID: self.__node.x = self.__startDragPos[0]+event.x-event.lastdownpos[0] self.__node.y = self.__startDragPos[1]+event.y-event.lastdownpos[1] stopBubble = False if self.__onDragMove: stopBubble = self.__onDragMove(event) if stopBubble == None: stopBubble = False return stopBubble
|
def __onMove(self, event): if event.cursorid == self.__cursorID: self.__node.pos = (self.__startDragPos[0]+event.x-event.lastdownpos[0],self.__startDragPos[1]+event.y-event.lastdownpos[1]) stopBubble = False if self.__onDragMove: stopBubble = self.__onDragMove(event) if stopBubble == None: stopBubble = False return stopBubble
| 480,045
|
def __onFrame(self): relTime = g_Player.getFrameTime() - self.__startTime if self.__state == HoldProcessor.DOWN: if relTime > self.__holdDelay: self.__changeState(HoldProcessor.HOLDING) if self.__state == HoldProcessor.HOLDING: if relTime > self.__activateDelay: self.__changeState(HoldProcessor.ACTIVE) else: self.__holdHandler(float(relTime)/self.__activateDelay)
|
def __onFrame(self): relTime = g_Player.getFrameTime() - self.__startTime - self.__holdDelay if self.__state == HoldProcessor.DOWN: if relTime > self.__holdDelay: self.__changeState(HoldProcessor.HOLDING) if self.__state == HoldProcessor.HOLDING: if relTime > self.__activateDelay: self.__changeState(HoldProcessor.ACTIVE) else: self.__holdHandler(float(relTime)/self.__activateDelay)
| 480,046
|
def __onFrame(self): relTime = g_Player.getFrameTime() - self.__startTime if self.__state == HoldProcessor.DOWN: if relTime > self.__holdDelay: self.__changeState(HoldProcessor.HOLDING) if self.__state == HoldProcessor.HOLDING: if relTime > self.__activateDelay: self.__changeState(HoldProcessor.ACTIVE) else: self.__holdHandler(float(relTime)/self.__activateDelay)
|
def __onFrame(self): relTime = g_Player.getFrameTime() - self.__startTime if self.__state == HoldProcessor.DOWN: if relTime > self.__holdDelay: self.__changeState(HoldProcessor.HOLDING) if self.__state == HoldProcessor.HOLDING: if relTime > self.__activateDelay: self.__changeState(HoldProcessor.ACTIVE) else: self.__holdHandler(float(relTime)/self.__activateDelay)
| 480,047
|
def __init__(self, upNode = None, downNode = None, disabledNode = None, pressHandler = None, clickHandler = None, **kwargs): libavg.DivNode.__init__(self, **kwargs) self.crop = False self.__upNode = upNode self.__downNode = downNode self.__disabledNode = disabledNode self.__defaultHandler = lambda event: None self.__customPressHandler = pressHandler if pressHandler else self.__defaultHandler self.__customClickHandler = clickHandler if clickHandler else self.__defaultHandler
|
def __init__(self, upNode = None, downNode = None, disabledNode = None, pressHandler = None, clickHandler = None, **kwargs): libavg.DivNode.__init__(self, **kwargs) self.crop = False self.__upNode = upNode self.__downNode = downNode self.__disabledNode = disabledNode self.__defaultHandler = lambda event: None self.__customPressHandler = pressHandler if pressHandler else self.__defaultHandler self.__customClickHandler = clickHandler if clickHandler else self.__defaultHandler
| 480,048
|
def __positionSlider(self): if self.__val < self.__min: self.__val = self.__min elif self.__val > self.__max: self.__val = self.__max ratio = (self.__val/(self.__max-self.__min)) self.__slider.pos = (ratio*(self.size.x-14), 0) self.__onChange()
|
def __positionSlider(self): if self.__val < self.__min: self.__val = self.__min elif self.__val > self.__max: self.__val = self.__max ratio = ((self.__val-self.__min)/(self.__max-self.__min)) self.__slider.pos = (ratio*(self.size.x-14), 0) self.__onChange()
| 480,049
|
def __makeAlphaBackground(self): global node SQUARESIZE=40 size = node.getMediaSize() avg.RectNode(parent=self._parentNode, size=node.getMediaSize(), strokewidth=0, fillcolor="FFFFFF", fillopacity=1) for y in xrange(0, int(size.y)/SQUARESIZE): for x in xrange(0, int(size.x)/(SQUARESIZE*2)): pos = avg.Point2D(x*SQUARESIZE*2, y*SQUARESIZE) if y%2==1: pos += (SQUARESIZE, 0) avg.RectNode(parent=self._parentNode, pos=pos, size=(SQUARESIZE, SQUARESIZE), strokewidth=0, fillcolor="C0C0C0", fillopacity=1)
|
def __makeAlphaBackground(self): global node SQUARESIZE=40 size = node.getMediaSize() avg.RectNode(parent=self._parentNode, size=node.getMediaSize(), strokewidth=0, fillcolor="FFFFFF", fillopacity=1) for y in xrange(0, int(size.y)/SQUARESIZE): for x in xrange(0, int(size.x)/(SQUARESIZE*2)): pos = avg.Point2D(x*SQUARESIZE*2, y*SQUARESIZE) if y%2==1: pos += (SQUARESIZE, 0) avg.RectNode(parent=self._parentNode, pos=pos, size=(SQUARESIZE, SQUARESIZE), strokewidth=0, fillcolor="C0C0C0", fillopacity=1)
| 480,050
|
def testCanvasAlpha(self): mainCanvas = self.loadEmptyScene() canvas = Player.loadCanvasString(""" <canvas id="testcanvas" width="80" height="120"> <image id="test1" href="rgb24alpha-64x64.png"/> </canvas> """) avg.RectNode(parent=Player.getRootNode(), fillcolor="FFFFFF", pos=(0.5, 0.5), size=(160, 48), fillopacity=1) node = avg.ImageNode(parent=Player.getRootNode(), href="canvas:testcanvas") avg.ImageNode(parent=Player.getRootNode(), x=64, href="rgb24alpha-64x64.png") self.start(None, (lambda: self.compareImage("testCanvasAlpha", False), ))
|
def testCanvasAlpha(self): mainCanvas = self.loadEmptyScene() canvas = Player.loadCanvasString(""" <canvas id="testcanvas" width="80" height="120"> <image id="test1" href="rgb24alpha-64x64.png"/> </canvas> """) avg.RectNode(parent=Player.getRootNode(), fillcolor="FFFFFF", pos=(0.5, 0.5), size=(160, 48), fillopacity=1) node = avg.ImageNode(parent=Player.getRootNode(), href="canvas:testcanvas") avg.ImageNode(parent=Player.getRootNode(), x=64, href="rgb24alpha-64x64.png") self.start(None, (lambda: self.compareImage("testCanvasAlpha", False), ))
| 480,051
|
def createCanvas(): if not(avg.OffscreenCanvas.isMultisampleSupported()): print print "Offscreen multisampling not supported - skipping test." Player.stop() return try: self.canvas = Player.loadCanvasString(""" <canvas id="testcanvas" width="160" height="120" multisamplesamples="2"> <image id="test1" href="rgb24-65x65.png" angle="0.1"/> </canvas> """) except RuntimeError: print print "Offscreen multisampling init failed - skipping test." Player.stop() return self.assert_(self.canvas.multisamplesamples == 2) node = avg.ImageNode(parent=Player.getRootNode(), href="canvas:testcanvas")
|
def createCanvas(): if not(avg.OffscreenCanvas.isMultisampleSupported()): print print "Offscreen multisampling not supported - skipping test." Player.stop() return try: self.canvas = Player.loadCanvasString(""" <canvas id="testcanvas" width="160" height="120" multisamplesamples="2"> <image id="test1" href="rgb24-65x65.png" angle="0.1"/> </canvas> """) except RuntimeError: print print "Offscreen multisampling init failed - skipping test." Player.stop() return self.assert_(self.canvas.multisamplesamples == 2) node = avg.ImageNode(parent=Player.getRootNode(), href="canvas:testcanvas")
| 480,052
|
def seek(frame): videoNode.seekToFrame(frame)
|
def seek(frame): videoNode.seekToFrame(frame)
| 480,053
|
def onKeyDown(self, event): global node curTime = node.getCurTime() if event.keystring == "right": node.seekToTime(curTime+10000) elif event.keystring == "left": if curTime > 10000: node.seekToTime(curTime-10000) else: node.seekToTime(0) return True
|
def onKeyDown(self, event): global node curTime = node.getCurTime() if event.keystring == "right": node.seekToTime(curTime+10000) elif event.keystring == "left": if curTime > 10000: node.seekToTime(curTime-10000) else: node.seekToTime(0) return True
| 480,054
|
def testBlurFX(self): self.loadEmptyScene() root = Player.getRootNode() node = avg.ImageNode(parent=root, href="rgb24-64x64.png") effect = avg.BlurFXNode() node.setEffect(effect) self.start(None, (lambda: self.compareImage("testBlurFX1", False), lambda: effect.setParam(8), lambda: self.compareImage("testBlurFX2", False), ))
|
def testBlurFX(self): def removeFX(): self.node.setEffect(None) def reAddFX(): self.node.setEffect(self.effect) def addNewFX(): effect = avg.BlurFXNode() effect.setParam(8) self.node.setEffect(effect) self.loadEmptyScene() root = Player.getRootNode() self.node = avg.ImageNode(parent=root, href="rgb24-64x64.png") self.effect = avg.BlurFXNode() self.node.setEffect(self.effect) self.start(None, (lambda: self.compareImage("testBlurFX1", False), lambda: effect.setParam(8), lambda: self.compareImage("testBlurFX2", False), ))
| 480,055
|
def testBlurFX(self): self.loadEmptyScene() root = Player.getRootNode() node = avg.ImageNode(parent=root, href="rgb24-64x64.png") effect = avg.BlurFXNode() node.setEffect(effect) self.start(None, (lambda: self.compareImage("testBlurFX1", False), lambda: effect.setParam(8), lambda: self.compareImage("testBlurFX2", False), ))
|
def testBlurFX(self): self.loadEmptyScene() root = Player.getRootNode() node = avg.ImageNode(parent=root, href="rgb24-64x64.png") effect = avg.BlurFXNode() node.setEffect(effect) self.start(None, (lambda: self.compareImage("testBlurFX1", False), lambda: self.effect.setParam(8), lambda: self.compareImage("testBlurFX2", False), removeFX, lambda: self.compareImage("testBlurFX3", False), reAddFX, lambda: self.compareImage("testBlurFX2", False), removeFX, addNewFX, lambda: self.compareImage("testBlurFX2", False), ))
| 480,056
|
def __init__(self): rootNode = Player.getRootNode() posX = rootNode.size.x * 3/4 posY = rootNode.size.y-40 self.__layer = Player.createNode(''' <words id="displayEmu" x="%(posX)i" y="%(posY)i" fontsize="20" opacity="1" color="DDDDDD" text="Multitouch emulation active" sensitive="False" /> ''' % {'posX':posX, 'posY':posY} ) rootNode.appendChild(self.__layer) self.__container = Player.createNode('div', {}) self.__p1 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False}) self.__p2 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False})
|
def __init__(self): rootNode = Player.getRootNode() posX = rootNode.size.x-50 posY = rootNode.size.y-50 self.__layer = Player.createNode(''' <words id="displayEmu" x="%(posX)i" y="%(posY)i" fontsize="20" opacity="1" color="DDDDDD" text="Multitouch emulation active" sensitive="False" /> ''' % {'posX':posX, 'posY':posY} ) rootNode.appendChild(self.__layer) self.__container = Player.createNode('div', {}) self.__p1 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False}) self.__p2 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False})
| 480,057
|
def __init__(self): rootNode = Player.getRootNode() posX = rootNode.size.x * 3/4 posY = rootNode.size.y-40 self.__layer = Player.createNode(''' <words id="displayEmu" x="%(posX)i" y="%(posY)i" fontsize="20" opacity="1" color="DDDDDD" text="Multitouch emulation active" sensitive="False" /> ''' % {'posX':posX, 'posY':posY} ) rootNode.appendChild(self.__layer) self.__container = Player.createNode('div', {}) self.__p1 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False}) self.__p2 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False})
|
def __init__(self): rootNode = Player.getRootNode() posX = rootNode.size.x * 3/4 posY = rootNode.size.y-40 self.__layer = Player.createNode(''' <words id="displayEmu" x="%(posX)i" y="%(posY)i" fontsize="20" opacity="1" alignment="right" color="DDDDDD" text="Multitouch emulation active" sensitive="False" /> ''' % {'posX':posX, 'posY':posY} ) rootNode.appendChild(self.__layer) self.__container = Player.createNode('div', {}) self.__p1 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False}) self.__p2 = Player.createNode('circle', {'r': 10, 'fillcolor':'ff0000', 'fillopacity':0, 'opacity':0, 'sensitive':False})
| 480,058
|
def __init__(self, graph,getValue): self._getValue = getValue
|
def __init__(self, graph,getValue): self._getValue = getValue
| 480,059
|
def __init__(self, graph,getValue): self._getValue = getValue
|
def __init__(self, graph,getValue): self._getValue = getValue
| 480,060
|
def __init__(self, graph,getValue): self._getValue = getValue
|
def __init__(self, graph,getValue): self._getValue = getValue
| 480,061
|
def kill(): self._node.unlink()
|
def kill(): self._node.unlink()
| 480,062
|
def _setup(self): self._interval = g_player.setInterval(1000, self._nextMemSample)
|
defself._memSampleNum = 0 self._usage = [0] self._maxUsage = [0] self._minutesUsage = [0] self._minutesMaxUsage = [0] _setup(self):self._memSampleNum = 0 self._usage = [0] self._maxUsage = [0] self._minutesUsage = [0] self._minutesMaxUsage = [0] self._intervalself._memSampleNum = 0 self._usage = [0] self._maxUsage = [0] self._minutesUsage = [0] self._minutesMaxUsage = [0] =self._memSampleNum = 0 self._usage = [0] self._maxUsage = [0] self._minutesUsage = [0] self._minutesMaxUsage = [0] g_player.setInterval(1000,self._memSampleNum = 0 self._usage = [0] self._maxUsage = [0] self._minutesUsage = [0] self._minutesMaxUsage = [0] self._nextMemSample)
| 480,063
|
def _nextMemSample(self): curUsage = self._getValue() self._usage.append(curUsage) maxUsage = self._maxUsage[-1] if curUsage>maxUsage: maxUsage = curUsage lastMaxChangeTime = time.time() self._textNode1.text = ("Last increase in maximum: " +time.strftime("%H:%M:%S", time.localtime(lastMaxChangeTime))) self._maxUsage.append(maxUsage) self._sampleNum += 1 if self._sampleNum % 60 == 0: lastMinuteAverage = sum(self._usage[-60:])/60 self._minutesUsage.append(lastMinuteAverage) self._minutesMaxUsage.append(maxUsage)
|
def _nextMemSample(self): curUsage = self._getValue() self._usage.append(curUsage) maxUsage = self._maxUsage[-1] if curUsage>maxUsage: maxUsage = curUsage lastMaxChangeTime = time.time() self._textNode1.text = ("Last increase in maximum: " +time.strftime("%d.%m.%Y %H:%M:%S", time.localtime(lastMaxChangeTime))) self._maxUsage.append(maxUsage) self._sampleNum += 1 if self._sampleNum % 60 == 0: lastMinuteAverage = sum(self._usage[-60:])/60 self._minutesUsage.append(lastMinuteAverage) self._minutesMaxUsage.append(maxUsage)
| 480,064
|
def _nextMemSample(self): curUsage = self._getValue() self._usage.append(curUsage) maxUsage = self._maxUsage[-1] if curUsage>maxUsage: maxUsage = curUsage lastMaxChangeTime = time.time() self._textNode1.text = ("Last increase in maximum: " +time.strftime("%H:%M:%S", time.localtime(lastMaxChangeTime))) self._maxUsage.append(maxUsage) self._sampleNum += 1 if self._sampleNum % 60 == 0: lastMinuteAverage = sum(self._usage[-60:])/60 self._minutesUsage.append(lastMinuteAverage) self._minutesMaxUsage.append(maxUsage)
|
def _nextMemSample(self): curUsage = self._getValue() self._usage.append(curUsage) maxUsage = self._maxUsage[-1] if curUsage>maxUsage: maxUsage = curUsage lastMaxChangeTime = time.time() self._textNode1.text = ("Last increase in maximum: " +time.strftime("%H:%M:%S", time.localtime(lastMaxChangeTime))) self._maxUsage.append(maxUsage) self._memSampleNum += 1 if self._memSampleNum % 60 == 0: lastMinuteAverage = sum(self._usage[-60:])/60 self._minutesUsage.append(lastMinuteAverage) self._minutesMaxUsage.append(maxUsage)
| 480,065
|
def _nextMemSample(self): curUsage = self._getValue() self._usage.append(curUsage) maxUsage = self._maxUsage[-1] if curUsage>maxUsage: maxUsage = curUsage lastMaxChangeTime = time.time() self._textNode1.text = ("Last increase in maximum: " +time.strftime("%H:%M:%S", time.localtime(lastMaxChangeTime))) self._maxUsage.append(maxUsage) self._sampleNum += 1 if self._sampleNum % 60 == 0: lastMinuteAverage = sum(self._usage[-60:])/60 self._minutesUsage.append(lastMinuteAverage) self._minutesMaxUsage.append(maxUsage)
|
def _nextMemSample(self): curUsage = self._getValue() self._usage.append(curUsage) maxUsage = self._maxUsage[-1] if curUsage>maxUsage: maxUsage = curUsage lastMaxChangeTime = time.time() self._textNode1.text = ("Last increase in maximum: " +time.strftime("%H:%M:%S", time.localtime(lastMaxChangeTime))) self._maxUsage.append(maxUsage) self._sampleNum += 1 if self._sampleNum % 60 == 0: lastMinuteAverage = sum(self._usage[-60:])/60 self._minutesUsage.append(lastMinuteAverage) self._minutesMaxUsage.append(maxUsage)
| 480,066
|
def _nextMemSample(self): curUsage = self._getValue() self._usage.append(curUsage) maxUsage = self._maxUsage[-1] if curUsage>maxUsage: maxUsage = curUsage lastMaxChangeTime = time.time() self._textNode1.text = ("Last increase in maximum: " +time.strftime("%H:%M:%S", time.localtime(lastMaxChangeTime))) self._maxUsage.append(maxUsage) self._sampleNum += 1 if self._sampleNum % 60 == 0: lastMinuteAverage = sum(self._usage[-60:])/60 self._minutesUsage.append(lastMinuteAverage) self._minutesMaxUsage.append(maxUsage)
|
def _nextMemSample(self): curUsage = self._getValue() self._usage.append(curUsage) maxUsage = self._maxUsage[-1] if curUsage>maxUsage: maxUsage = curUsage lastMaxChangeTime = time.time() self._textNode1.text = ("Last increase in maximum: " +time.strftime("%H:%M:%S", time.localtime(lastMaxChangeTime))) self._maxUsage.append(maxUsage) self._sampleNum += 1 if self._sampleNum % 60 == 0: lastMinuteAverage = sum(self._usage[-60:])/60 self._minutesUsage.append(lastMinuteAverage) self._minutesMaxUsage.append(maxUsage)
| 480,067
|
def _nextMemSample(self): curUsage = self._getValue() self._usage.append(curUsage) maxUsage = self._maxUsage[-1] if curUsage>maxUsage: maxUsage = curUsage lastMaxChangeTime = time.time() self._textNode1.text = ("Last increase in maximum: " +time.strftime("%H:%M:%S", time.localtime(lastMaxChangeTime))) self._maxUsage.append(maxUsage) self._sampleNum += 1 if self._sampleNum % 60 == 0: lastMinuteAverage = sum(self._usage[-60:])/60 self._minutesUsage.append(lastMinuteAverage) self._minutesMaxUsage.append(maxUsage)
|
def if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 _nextMemSample(self): if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 curUsage if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 = if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 self._getValue() if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 self._usage.append(curUsage) if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 maxUsage if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 = if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 self._maxUsage[-1] if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 if if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 curUsage>maxUsage: if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 maxUsage if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 = if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 curUsage if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 lastMaxChangeTime if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 = if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 time.time() if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 self._textNode1.text if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 = if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 ("Last if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 increase if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 in if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 maximum: if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 " if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 +time.strftime("%H:%M:%S", if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 time.localtime(lastMaxChangeTime))) if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 self._maxUsage.append(maxUsage) if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 self._sampleNum if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 += if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 1 if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 if if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 self._sampleNum if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 % if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 60 if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 == if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 0: if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 lastMinuteAverage if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 = if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 sum(self._usage[-60:])/60 if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 self._minutesUsage.append(lastMinuteAverage) if self._memSampleNum % 3600 == 0: del self._usage[0:3600] del self._maxUsage[0:3599] if self._memSampleNum == 604800: self._memSampleNum == 0 self._minutesMaxUsage.append(maxUsage)
| 480,068
|
def _setup(self): self._interval = g_player.setOnFrameHandler(self._nextFrameTimeSample)
|
def _setup(self): self._interval = g_player.setOnFrameHandler(self._nextFrameTimeSample)
| 480,069
|
def _frameTimeSample(self): frameTime = self._getValue() diff = frameTime - self._lastCurUsage #if(self._sampleNum % 1800 == 0): # self._maxFrameTime = 0 if(self._sampleNum<2): self._maxFrameTime = 0 if(diff>self._maxFrameTime): lastMaxChangeTime = time.time() self._maxFrameTime = diff self._textNode0.text = ("Max FrameTime: %.f" %self._maxFrameTime + " ms" + " Time: " +time.strftime("%H:%M:%S", time.localtime(lastMaxChangeTime))) if diff>self._node.y-1: y = self._node.y-1 self._lastCurUsage = frameTime self._textNode1.text = ("Current FrameTime: %.f" %diff + " ms" ) return -diff
|
def _frameTimeSample(self): frameTime = self._getValue() diff = frameTime - self._lastCurUsage #if(self._sampleNum % 1800 == 0): # self._maxFrameTime = 0 if(self._sampleNum<2): self._maxFrameTime = 0 if(diff>self._maxFrameTime): lastMaxChangeTime = time.time() self._maxFrameTime = diff self._textNode0.text = ("Max FrameTime: %.f" %self._maxFrameTime + " ms" + " Time: " +time.strftime("%d.%m.%Y %H:%M:%S", time.localtime(lastMaxChangeTime))) if diff>self._node.y-1: y = self._node.y-1 self._lastCurUsage = frameTime self._textNode1.text = ("Current FrameTime: %.f" %diff + " ms" ) return -diff
| 480,070
|
def addVectorNode(): node = avg.LineNode(pos1=(2, 2), pos2=(50, 2)) canvas.appendChild(node) return node
|
def addVectorNode(): node = avg.LineNode(pos1=(2, 2), pos2=(50, 2), strokewidth=2) canvas.appendChild(node) return node
| 480,071
|
def addFilledVectorNode(): node = avg.RectNode(pos=(2, 6), size=(50, 30)) node.setEventHandler(avg.CURSORDOWN, avg.MOUSE, onDown) canvas.appendChild(node) return node
|
def addFilledVectorNode(): node = avg.RectNode(pos=(2, 6), size=(50, 30), strokewidth=2) node.setEventHandler(avg.CURSORDOWN, avg.MOUSE, onDown) canvas.appendChild(node) return node
| 480,072
|
def abortAnim(): self.__anim.abort()
|
def abortAnim(): self.__anim.abort()
| 480,073
|
def abortAnim(): self.__anim.abort()
|
def abortAnim(): self.__anim.abort()
| 480,074
|
def startAnim(): self.__onStopCalled = False node = Player.getElementByID("test") self.__anim.start()
|
def startAnim(): self.__onStopCalled = False node = Player.getElementByID("test") self.__anim.start()
| 480,075
|
def testCanvasErrors(self): self.loadEmptyScene() # Missing size self.assertException( lambda: Player.loadCanvasString("""<canvas id="foo"/>""")) # Duplicate canvas id Player.loadCanvasString("""<canvas id="foo" size="(160, 120)"/>""") self.assertException( lambda: Player.loadCanvasString("""<canvas id="foo" size="(160, 120)"/>"""))
|
def testCanvasErrors(self): self.loadEmptyScene() # Missing size self.assertException( lambda: Player.loadCanvasString("""<canvas id="foo"/>""")) # Duplicate canvas id Player.loadCanvasString("""<canvas id="foo" size="(160, 120)"/>""") self.assertException( lambda: Player.loadCanvasString("""<canvas id="foo" size="(160, 120)"/>"""))
| 480,076
|
def testOffscreen(self): Player.loadSceneString(""" <?xml version="1.0"?> <scene id="testscene" width="160" height="120"> <image id="test1" href="rgb24-65x65.png" angle="0.4"/> </scene> """) self._loadEmpty() node = avg.ImageNode(href="scene:testscene", parent=Player.getRootNode()) self.start(None, (None, lambda: self.compareImage("testOffscreen1", False), lambda: node.unlink(), lambda: self.compareImage("testOffscreen2", False), lambda: Player.getRootNode().appendChild(node), lambda: self.compareImage("testOffscreen1", False) ))
|
def testOffscreen(self): def createScene(sceneName, x): Player.loadSceneString(""" <?xml version="1.0"?> <scene id="%s" width="160" height="120"> <image id="test1" x="%s" href="rgb24-65x65.png" angle="0.4"/> </scene> """%(sceneName, str(x))) print sceneName self.node = avg.ImageNode(parent=Player.getRootNode()) self.node.href="scene:"+sceneName self._loadEmpty() node = avg.ImageNode(href="scene:testscene", parent=Player.getRootNode()) self.start(None, (None, lambda: self.compareImage("testOffscreen1", False), lambda: node.unlink(), lambda: self.compareImage("testOffscreen2", False), lambda: Player.getRootNode().appendChild(node), lambda: self.compareImage("testOffscreen1", False) ))
| 480,077
|
def testOffscreen(self): Player.loadSceneString(""" <?xml version="1.0"?> <scene id="testscene" width="160" height="120"> <image id="test1" href="rgb24-65x65.png" angle="0.4"/> </scene> """) self._loadEmpty() node = avg.ImageNode(href="scene:testscene", parent=Player.getRootNode()) self.start(None, (None, lambda: self.compareImage("testOffscreen1", False), lambda: node.unlink(), lambda: self.compareImage("testOffscreen2", False), lambda: Player.getRootNode().appendChild(node), lambda: self.compareImage("testOffscreen1", False) ))
|
def testOffscreen(self): Player.loadSceneString(""" <?xml version="1.0"?> <scene id="testscene" width="160" height="120"> <image id="test1" href="rgb24-65x65.png" angle="0.4"/> </scene> """) self._loadEmpty() createScene("testscene1", 0) self.start(None, (None, lambda: self.compareImage("testOffscreen1", False), lambda: node.unlink(), lambda: self.compareImage("testOffscreen2", False), lambda: Player.getRootNode().appendChild(node), lambda: self.compareImage("testOffscreen1", False) ))
| 480,078
|
def testOffscreen(self): Player.loadSceneString(""" <?xml version="1.0"?> <scene id="testscene" width="160" height="120"> <image id="test1" href="rgb24-65x65.png" angle="0.4"/> </scene> """) self._loadEmpty() node = avg.ImageNode(href="scene:testscene", parent=Player.getRootNode()) self.start(None, (None, lambda: self.compareImage("testOffscreen1", False), lambda: node.unlink(), lambda: self.compareImage("testOffscreen2", False), lambda: Player.getRootNode().appendChild(node), lambda: self.compareImage("testOffscreen1", False) ))
|
def testOffscreen(self): Player.loadSceneString(""" <?xml version="1.0"?> <scene id="testscene" width="160" height="120"> <image id="test1" href="rgb24-65x65.png" angle="0.4"/> </scene> """) self._loadEmpty() node = avg.ImageNode(href="scene:testscene", parent=Player.getRootNode()) self.start( ( lambda: self.compareImage("testOffscreen1", False), lambda: node.unlink(), lambda: self.compareImage("testOffscreen2", False), lambda: Player.getRootNode().appendChild(node), lambda: self.compareImage("testOffscreen1", False) ))
| 480,079
|
def testOffscreen(self): Player.loadSceneString(""" <?xml version="1.0"?> <scene id="testscene" width="160" height="120"> <image id="test1" href="rgb24-65x65.png" angle="0.4"/> </scene> """) self._loadEmpty() node = avg.ImageNode(href="scene:testscene", parent=Player.getRootNode()) self.start(None, (None, lambda: self.compareImage("testOffscreen1", False), lambda: node.unlink(), lambda: self.compareImage("testOffscreen2", False), lambda: Player.getRootNode().appendChild(node), lambda: self.compareImage("testOffscreen1", False) ))
|
def testOffscreen(self): Player.loadSceneString(""" <?xml version="1.0"?> <scene id="testscene" width="160" height="120"> <image id="test1" href="rgb24-65x65.png" angle="0.4"/> </scene> """) self._loadEmpty() node = avg.ImageNode(href="scene:testscene", parent=Player.getRootNode()) self.start(None, (None, lambda: self.compareImage("testOffscreen1", False), lambda: self.node.unlink(), lambda: self.compareImage("testOffscreen2", False), lambda: Player.getRootNode().appendChild(node), lambda: self.compareImage("testOffscreen1", False) ))
| 480,080
|
def testOffscreen(self): Player.loadSceneString(""" <?xml version="1.0"?> <scene id="testscene" width="160" height="120"> <image id="test1" href="rgb24-65x65.png" angle="0.4"/> </scene> """) self._loadEmpty() node = avg.ImageNode(href="scene:testscene", parent=Player.getRootNode()) self.start(None, (None, lambda: self.compareImage("testOffscreen1", False), lambda: node.unlink(), lambda: self.compareImage("testOffscreen2", False), lambda: Player.getRootNode().appendChild(node), lambda: self.compareImage("testOffscreen1", False) ))
|
def testOffscreen(self): Player.loadSceneString(""" <?xml version="1.0"?> <scene id="testscene" width="160" height="120"> <image id="test1" href="rgb24-65x65.png" angle="0.4"/> </scene> """) self._loadEmpty() node = avg.ImageNode(href="scene:testscene", parent=Player.getRootNode()) self.start(None, (None, lambda: self.compareImage("testOffscreen1", False), lambda: node.unlink(), lambda: self.compareImage("testOffscreen2", False), lambda: Player.getRootNode().appendChild(self.node), lambda: self.compareImage("testOffscreen1", False), lambda: self.node.unlink(), lambda: createScene("testscene2", 80), lambda: self.compareImage("testOffscreen3", False) ))
| 480,081
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
| 480,082
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
| 480,083
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
| 480,084
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
| 480,085
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
| 480,086
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
| 480,087
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory' sys.exit(rc)
| 480,088
|
def setPixBuf(option, opt, value, parser): if value not in ('yes','no'): raise OptionValueError('argument must be "yes" or "no"') setUsePixelBuffers(value == 'yes')
|
def setPixBuf(option, opt, value, parser): if value not in ('yes','no'): raise OptionValueError('argument must be "yes" or "no"') setUsePixelBuffers(value == 'yes')
| 480,089
|
def testStringConversion(): bmp = avg.Bitmap('rgb24-65x65.png') s = bmp.getPixels() bmp1 = avg.Bitmap(bmp.getSize(), avg.R8G8B8X8, "sample") bmp1.setPixels(s) bmp1.save("foo.png")
|
def testStringConversion(): bmp = avg.Bitmap('rgb24-65x65.png') s = bmp.getPixels() bmp1 = avg.Bitmap(bmp.getSize(), avg.R8G8B8X8, "sample") bmp1.setPixels(s) bmp1.save("foo.png")
| 480,090
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory'
|
def cleanExit(rc): if g_TempPackageDir is not None: try: shutil.rmtree(g_TempPackageDir) except OSError: print 'ERROR: Cannot clean up test package directory'
| 480,091
|
def symtree(src, dest): os.mkdir(dest) for f in os.listdir(src): fpath = os.path.join(src, f) if (f and f[0] != '.' and (os.path.isdir(fpath) or (os.path.isfile(fpath) and os.path.splitext(f)[1] == '.py'))): os.symlink(os.path.join(os.pardir, src, f), os.path.join(dest, f))
|
def symtree(src, dest): os.mkdir(dest) for f in os.listdir(src): fpath = os.path.join(src, f) if (f and f[0] != '.' and (os.path.isdir(fpath) or (os.path.isfile(fpath) and os.path.splitext(f)[1] == '.py'))): os.symlink(os.path.join(os.pardir, src, f), os.path.join(dest, f))
| 480,092
|
def __pressHandlerTemplateMethod(self, event): if not self.__isCursorCaptured(event.cursorid): self.__captureCursor(event.cursorid) if event.cursorid not in self.__overCursorIds: self.__overCursorIds.add(event.cursorid) if self.__getNumberOfCapturedCursors() > 1: return
|
def self.__changeState(Button.STATE_DOWN) __pressHandlerTemplateMethod(self, self.__changeState(Button.STATE_DOWN) event): self.__changeState(Button.STATE_DOWN) if self.__changeState(Button.STATE_DOWN) not self.__changeState(Button.STATE_DOWN) self.__isCursorCaptured(event.cursorid): self.__changeState(Button.STATE_DOWN) self.__captureCursor(event.cursorid) self.__changeState(Button.STATE_DOWN) self.__changeState(Button.STATE_DOWN) if self.__changeState(Button.STATE_DOWN) event.cursorid self.__changeState(Button.STATE_DOWN) not self.__changeState(Button.STATE_DOWN) in self.__changeState(Button.STATE_DOWN) self.__overCursorIds: self.__changeState(Button.STATE_DOWN) self.__overCursorIds.add(event.cursorid) self.__changeState(Button.STATE_DOWN) self.__changeState(Button.STATE_DOWN) if self.__changeState(Button.STATE_DOWN) self.__getNumberOfCapturedCursors() self.__changeState(Button.STATE_DOWN) > self.__changeState(Button.STATE_DOWN) 1: self.__changeState(Button.STATE_DOWN) return
| 480,093
|
def __pressHandlerTemplateMethod(self, event): if not self.__isCursorCaptured(event.cursorid): self.__captureCursor(event.cursorid) if event.cursorid not in self.__overCursorIds: self.__overCursorIds.add(event.cursorid) if self.__getNumberOfCapturedCursors() > 1: return
|
def __pressHandlerTemplateMethod(self, event): if not self.__isCursorCaptured(event.cursorid): self.__captureCursor(event.cursorid) if event.cursorid not in self.__overCursorIds: self.__overCursorIds.add(event.cursorid) if self.__getNumberOfCapturedCursors() > 1: return
| 480,094
|
def testSelfIntersectPolygon(self): canvas = self.makeEmptyCanvas() polygon = avg.PolygonNode(strokewidth=3, color="FF00FF", pos=((100.5,10.5), (100.5,30.5), (120.5, 10.5), (120.5,30.5)), fillcolor="00FFFF", fillopacity=0.5) canvas.insertChild(polygon, 0) self.assertException(lambda: self.start(None, []))
|
def testSelfIntersectPolygon(self): canvas = self.makeEmptyCanvas() polygon = avg.PolygonNode(strokewidth=3, color="FF00FF", pos=((100.5,10.5), (100.5,30.5), (120.5, 10.5), (120.5,30.5)), fillcolor="00FFFF", fillopacity=0.5) canvas.insertChild(polygon, 0) self.assertException(lambda: self.start(None, []))
| 480,095
|
def testInfo(): if filename == "mpeg1-48x48-sound.avi" and isThreaded: self.assert_(node.hasAudio()) else: self.assert_(not(node.hasAudio())) self.assert_((filename == "rgba-48x48.mov" or filename == "vp6a-yuva-48x48.flv") == node.hasAlpha())
|
def testInfo(): if filename == "mpeg1-48x48-sound.avi" and isThreaded: self.assert_(node.hasAudio()) else: self.assert_(not(node.hasAudio())) self.assert_((filename == "rgba-48x48.mov" or filename == "vp6a-yuva-48x48.flv") == node.hasAlpha())
| 480,096
|
def usePlugin1(): node = avg.colorplugin.ColorNode(fillcolor="7f7f00", id="mynode1") Player.getElementByID("container").appendChild(node) mynode = Player.getElementByID("mynode1") self.assert_(mynode.fillcolor == "7f7f00")
|
def usePlugin1(): node = colorplugin.ColorNode(fillcolor="7f7f00", id="mynode1") Player.getElementByID("container").appendChild(node) mynode = Player.getElementByID("mynode1") self.assert_(mynode.fillcolor == "7f7f00")
| 480,097
|
def checkPositions(): root = Player.getRootNode()
|
def checkPositions(): root = Player.getRootNode()
| 480,098
|
def testGetTextAsDisplayed(self): orgText = "A<br/>B C <b>D</b> E F G H <i>Ä</i> Ö Ü ? Ì Á<br/>Í Å Ø ∏ ~ ç Ç Å" orgTextWithout = "A\nB C D E F G H Ä Ö Ü ? Ì Á\nÍ Å Ø ∏ ~ ç Ç Å" textNode = avg.WordsNode(fontsize=30, font = "Bitstream Vera Sans", text = orgText, width = 300) self.assert_(orgTextWithout == textNode.getTextAsDisplayed())
|
def def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) testGetTextAsDisplayed(self): def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) orgText def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) = def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) "A<br/>B def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) C def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) <b>D</b> def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) E def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) F def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) G def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) H def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) <i>Ä</i> def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Ö def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Ü def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) ? def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Ì def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Á<br/>Í def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Å def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Ø def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) ∏ def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) ~ def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) ç def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Ç def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Å" def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) orgTextWithout def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) = def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) "A\nB def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) C def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) D def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) E def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) F def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) G def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) H def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Ä def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Ö def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Ü def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) ? def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Ì def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Á\nÍ def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Å def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Ø def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) ∏ def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) ~ def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) ç def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Ç def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Å" def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) textNode def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) = def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) avg.WordsNode(fontsize=30, def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) font def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) = def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) "Bitstream def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Vera def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) Sans", def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) text def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) = def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) orgText, def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) width def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) = def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) 300) def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) self.assert_(orgTextWithout def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) == def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()]) textNode.getTextAsDisplayed()) def testSetWidth(self): Player.loadString("""<avg width="160" height="120"></avg>""") text = "42 " * 42 textNode = avg.WordsNode( parent=Player.getRootNode(), fontsize = 10, font = "Bitstream Vera Sans", text = text) def testSize(p1, p2): self.assert_(abs(p1.x - p2.x) < 5) self.assert_(abs(p1.y - p2.y) < 5) testSize(textNode.size, avg.Point2D(630,13)) testSize(textNode.getMediaSize(), avg.Point2D(630,13)) mediaSize = textNode.getMediaSize() def changeSize(): textNode.width = 50 testSize(textNode.size, avg.Point2D(50,182)) testSize(textNode.getMediaSize(), avg.Point2D(45,182)) self.assert_(mediaSize != textNode.getMediaSize()) self.start(None, [lambda: changeSize()])
| 480,099
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