def qvariant_encode(value):
buffer = QBuffer()
buffer.open(QIODevice.ReadWrite)
stream = QDataStream(buffer)
stream.writeQVariant(value)
buffer.close()
return buffer.buffer().toBase64().data().strip()
def qvariant_encode(value):
buffer = QBuffer()
buffer.open(QIODevice.ReadWrite)
stream = QDataStream(buffer)
stream.writeQVariant(value)
buffer.close()
return buffer.buffer().toBase64().data().strip()
def setUp(self):
super(QPixmapQDatastream, self).setUp()
self.source_pixmap = QPixmap(100, 100)
self.source_pixmap.fill(Qt.red)
self.output_pixmap = QPixmap()
self.buffer = QByteArray()
self.read_stream = QDataStream(self.buffer, QIODevice.ReadOnly)
self.write_stream = QDataStream(self.buffer, QIODevice.WriteOnly)
def qvariant_decode(data):
byteArray = QByteArray.fromBase64(data)
buffer = QBuffer(byteArray)
buffer.open(QIODevice.ReadOnly)
stream = QDataStream(buffer)
result = stream.readQVariant()
buffer.close()
return result
def qvariant_decode(data):
byteArray = QByteArray.fromBase64(data)
buffer = QBuffer(byteArray)
buffer.open(QIODevice.ReadOnly)
stream = QDataStream(buffer)
result = stream.readQVariant()
buffer.close()
return result
def _check_bitarray(self, data_set):
'''Check the >> operator for the given data set'''
for data, expectedStatus, expectedString in data_set:
stream = QDataStream(data, QIODevice.ReadOnly)
string = QBitArray()
stream >> string
self.assertEqual(stream.status(), expectedStatus)
self.assertEqual(string.size(), expectedString.size())
self.assertEqual(string, expectedString)
def testRawData(self):
data = QDataStream()
self.assertEqual(data.readRawData(4), None)
ba = QByteArray()
data = QDataStream(ba, QIODevice.WriteOnly)
data.writeRawData('AB\x00C')
self.assertEqual(ba.data(), py3k.b('AB\x00C'))
data = QDataStream(ba)
self.assertEqual(data.readRawData(4), py3k.b('AB\x00C'))
def readDatas(self):
if self.socket != None :
if self.socket.isValid() :
ins = QDataStream(self.socket)
ins.setVersion(QDataStream.Qt_4_2)
loop = 0
while ins.atEnd() == False :
QCoreApplication.processEvents()
loop = loop + 1
if self.socket != None :
if self.socket.isValid() :
if self.blockSize == 0:
if self.socket.isValid() :
if self.socket.bytesAvailable() < 4:
return
self.blockSize = ins.readUInt32()
else :
return
if self.socket.isValid() :
if self.socket.bytesAvailable() < self.blockSize:
bytesReceived = str(self.socket.bytesAvailable())
return
bytesReceived = str(self.socket.bytesAvailable())
else :
return
action = ins.readQString()
self.handleAction(action, ins)
self.blockSize = 0
else :
return
else :
return
return
def readDatas(self):
if self.socket is not None:
if self.socket.isValid():
ins = QDataStream(self.socket)
ins.setVersion(QDataStream.Qt_4_2)
loop = 0
while not ins.atEnd():
QCoreApplication.processEvents()
loop += 1
if loop > 1000: break
if self.socket is not None:
if self.socket.isValid():
if self.blockSize == 0:
if self.socket.isValid():
if self.socket.bytesAvailable() < 4:
return
self.blockSize = ins.readUInt32()
else:
return
if self.socket.isValid():
if self.socket.bytesAvailable() < self.blockSize:
bytesReceived = str(self.socket.bytesAvailable())
return
bytesReceived = str(self.socket.bytesAvailable())
else:
return
action = ins.readQString()
self.handleAction(action, ins)
self.blockSize = 0
else:
return
else:
return
return
def readDatas(self):
try:
self.log.debug("receiving data")
if self.socket.bytesAvailable() == 0:
return
ins = QDataStream(self.socket)
ins.setVersion(QDataStream.Qt_4_2)
while ins.atEnd() == False:
if self.blockSize == 0:
if self.socket.bytesAvailable() < 4:
return
self.blockSize = ins.readUInt32()
if self.socket.bytesAvailable() < self.blockSize:
return
action = ins.readQString()
self.log.info(action)
self.handleAction(action, ins)
self.blockSize = 0
except:
self.log.exception("Something awful happened in a gw thread !")
def readDatas(self):
try :
self.log.debug("receiving data")
if self.socket.bytesAvailable() == 0 :
return
ins = QDataStream(self.socket)
ins.setVersion(QDataStream.Qt_4_2)
while ins.atEnd() == False :
if self.blockSize == 0:
if self.socket.bytesAvailable() < 4:
return
self.blockSize = ins.readUInt32()
if self.socket.bytesAvailable() < self.blockSize:
return
action = ins.readQString()
self.log.info(action)
self.handleAction(action, ins)
self.blockSize = 0
except :
self.log.exception("Something awful happened in a gw thread !")
def runparser(filelistdirs,logdir):
print 'Start running the Translator'
#os.chdir(logdir)
filelistdirs=filter(None,filelistdirs)
print 'D1',filelistdirs
for dir in xrange(len(filelistdirs)):
curdir=filelistdirs[dir]
print 'D2',curdir
newdir=os.path.join(logdir,os.path.basename(curdir)).replace('\\','/')
if not os.path.exists(newdir):
os.mkdir(newdir)
filelist = os.listdir(curdir)
print filelist
os.chdir(curdir)
for z in xrange(len(filelist)):
### Start the xml parser
tree = ET.parse(filelist[z])
root = tree.getroot()
'''create a html result file '''
filename= os.path.basename(filelist[z])
logfile=os.path.join(newdir,filename.replace('.onb','.html')).replace('\\','/')
print logfile
f=open(logfile,'w')
headers='''
<!doctype html>
<head>
<title>OMWEBbook</title>
<meta charset="utf-8">
<meta name="viewport" content="width=device-width, initial-scale=1">
<script src="../jquery.min1.10.2.js"></script>
<script src='../dygraph-combined.js'></script>
<link rel="stylesheet" href="../bootstrap.min.css">
<script src="../bootstrap.min.js"></script>
<link rel="stylesheet" href="../codemirror.css">
<script src="../codemirror.js"></script>
<script src="../modelica.js"></script>
<link rel="stylesheet" href="../custom.css">
<script src="../autorefresh.js"></script>
<script src="../evalnotebook.js"></script>
</head>
<body>
<div class="navbar navbar-default navbar-fixed-top">
<div class="container-fluid">
<div class="navbar-header">
<a class="navbar-brand" href="#">OMWebBook</a>
</div>
<button id="evaluate" type="button" class="btn btn-success navbar-btn">Evaluate Cell</button>
<button id="evaluateall" type="button" class="btn btn-success navbar-btn">Eval All</button>
<img id="progressbar" src="../ajax-loader.gif" class="img-rounded" alt="Cinque Terre">
</div>
</div>
<div class="container">
<br> <br> <br>
'''
f.write(headers)
count=0
check=0
sectioncount=1
subsectioncount=0.01
sectioncheck=False
subsectioncheck=False
currentlevel=''
g=1
g1=1
for node in tree.iter():
if (node.tag=='TextCell'):
imagelist=node.findall('Image')
html=node.find('Text').text
soup = BeautifulSoup(html)
for a in soup.findAll('a'):
staticlink="".join(['static','/',a['href']]).replace('.onb','.html')
a['href']=a['href'].replace(a['href'], staticlink)
#print staticlink
findp=[]
for p in soup.findAll('p'):
checkempty=p['style'].replace(' ','').split(";")
val="-qt-paragraph-type:empty" in checkempty
if (val==False):
# if (p.find('img')==None):
# findp.append(p)
# else:
findp.append(p)
for i in xrange(len(findp)):
#x=findp[i].text
x=findp[i]
if(x.find('img')is None):
if(x!=''):
if(node.attrib['style']=='Text'):
#partext='\n'.join(['<p align="justify" contenteditable=False>',str(x),'</p>'])
#x["align"]='justify'
x=re.sub(r'[^\x00-\x7F]+',' ', str(x))
partext='\n'.join([str(x)])
f.write(partext)
f.write('<br>')
f.write('\n')
elif(node.attrib['style']=='Title'):
print 'title'
t=findp[i].text
t=re.sub(r'[^\x00-\x7F]+',' ', str(t))
htmltext='\n'.join(['<h1>',t,'</h1>'])
#htmltext='\n'.join([str(x)])
f.write(htmltext)
f.write('\n')
elif(node.attrib['style']=='Section'):
print 'section'
t=findp[i].text
t=re.sub(r'[^\x00-\x7F]+',' ', str(t))
sectioncheck=True
htmltext='\n'.join(['<h2>',str(sectioncount),t,'</h2>'])
sectioncount+=1
#htmltext='\n'.join([str(x)])
f.write(htmltext)
f.write('\n')
elif(node.attrib['style']=='Subsection'):
if(sectioncheck==True):
g=1
g+=1
sectioncheck=False
#print 'subsection',sectioncheck,(sectioncount-1),'.',(g-1)
subsec=findp[i].text
subsec=re.sub(r'[^\x00-\x7F]+',' ', str(subsec))
#scount=(sectioncount-1)+subsectioncount
scount=str((sectioncount-1))+'.'+str((g-1))
subsectioncheck=True
currentlevel=scount
#print str((sectioncount-1)),'.',g
#print 'subsection',scount
htmltext='\n'.join(['<h3>',str(scount),subsec,'</h3>'])
subsectioncount+=0.01
#htmltext='\n'.join([str(x)])
f.write(htmltext)
f.write('\n')
elif(node.attrib['style']=='Subsubsection'):
if(subsectioncheck==True):
g1=1
g1+=1
subsectioncheck=False
#print 'subsection',sectioncheck,(sectioncount-1),'.',(g-1)
subsec=findp[i].text
subsec=re.sub(r'[^\x00-\x7F]+',' ', str(subsec))
#scount=(sectioncount-1)+subsectioncount
scount=str(currentlevel)+'.'+str((g1-1))
print 'subsubsection',scount
#print str((sectioncount-1)),'.',g
#print 'subsection',scount
htmltext='\n'.join(['<h4>',str(scount),subsec,'</h4>'])
subsectioncount+=0.01
#htmltext='\n'.join([str(x)])
f.write(htmltext)
f.write('\n')
else:
htmltext='\n'.join(['<h1>',str(x),'</h1>'])
#htmltext='\n'.join([str(x)])
f.write(htmltext)
f.write('\n')
else:
try:
imagedir=os.path.join(newdir,"Images").replace('\\','/')
if not os.path.exists(imagedir):
os.mkdir(imagedir)
os.chdir(imagedir)
y=imagelist[0]
image=y.text
unique_filename = str(uuid.uuid4())
img = QtGui.QImage()
#image=node.find('Image').text
byteArray = QByteArray.fromBase64(image)
buffer = QBuffer(byteArray)
buffer.open(QIODevice.ReadOnly)
data = QDataStream(buffer)
data >> img
buffer.close()
filename=".".join([unique_filename,"png"])
imgpath="/".join(['static',os.path.basename(newdir),'Images/'])
imgsrc=imgpath+filename
img.save(filename)
imgtag="".join(["<div align=\"center\">","<img src=",imgsrc,">","</div>"])
#print filename
f.write(imgtag)
del imagelist[0]
except:
pass
if (node.tag=='GraphCell' or node.tag=='InputCell'):
## catch the input text
inputtext=node.find('Input').text
'''
if ('simulate' in inputtext):
text='\n'.join(['<p> <b>',inputtext,'</b> </p>'])
f.write(text)
f.write('\n')'''
#print 'arun', inputtext
if(inputtext!=None):
linecount=string.split(inputtext, '\n')
'''
if ('plot(' in inputtext):
text='\n'.join(['<p> <b>',inputtext,'</b> </p> <br>'])
f.write(text)
f.write('\n')
## code to automatically generate plot variable and button in html
plotvar=inputtext.replace('plot','').replace('(','').replace(')','').replace('{','').replace('}','')
listplotvar=plotvar.split(',')
plotid='simulatebutton'+str(count)+'plot'
buttonid='simulatebutton'+str(count)
graphdivid='simulatebutton'+str(count)+'graphdiv'
plotheader="\n".join(['<div>','<select id='+ plotid +' size=5 multiple>', '<option ><b>Select Plot Variables</b> </option>'])
f.write(str(plotheader))
f.write('\n')
for i in xrange(len(listplotvar)):
varname='<option selected>'+ str(listplotvar[i]) + '</option>'
f.write(varname)
f.write('\n')
closeoption="\n".join(['</select> <br>','<button id='+buttonid+'>Simulate</button> <br> <br>' ,'</div>'])
f.write(closeoption)
count=count+1;
else:'''
textid='check'+str(check)+'textarea'
divid='check'+str(check)+'div'
if ('plot(' in inputtext):
text='\n'.join(['<textarea id='+ str(textid)+'>',inputtext,'</textarea> <br> <div id='+divid+'> </div> <br>'])
else:
text='\n'.join(['<textarea id='+ str(textid)+'>',inputtext,'</textarea> <div id='+divid+'> </div> <br>'])
check=check+1
f.write(text)
f.write('\n')
## catch the OMCPLOT datas
curve=node.find('OMCPlot')
if curve!=None:
#count=count+1;
print count
try:
#scriptdata=makeplot(curve,count)
scriptdata=makeplot(curve,divid)
f.write(scriptdata)
f.write('\n')
except:
f.write("No data found")
f.write('\n')
else:
textid='check'+str(check)+'textarea'
divid='check'+str(check)+'div'
inputtext=''
text='\n'.join(['<textarea id='+ str(textid)+'>',inputtext,'</textarea> <div id='+divid+'> </div> <br>'])
check=check+1
f.write(text)
f.write('\n')
print "Empty Graph cells"
f.write('</div></body></html>')
f.close()
print 'Completed'
def setUp(self):
self.ba = QByteArray()
self.stream = QDataStream(self.ba, QIODevice.WriteOnly)
self.read_stream = QDataStream(self.ba, QIODevice.ReadOnly)
def sendReply(self, action, *args, **kwargs):
try:
if hasattr(self, "socket"):
reply = QByteArray()
stream = QDataStream(reply, QIODevice.WriteOnly)
stream.setVersion(QDataStream.Qt_4_2)
stream.writeUInt32(0)
stream.writeQString(action)
for arg in args:
if type(arg) is LongType:
stream.writeQString(str(arg))
if type(arg) is IntType:
stream.writeInt(int(arg))
elif type(arg) is StringType:
stream.writeQString(arg)
elif isinstance(arg, basestring):
stream.writeQString(arg)
elif type(arg) is FloatType:
stream.writeFloat(arg)
elif type(arg) is ListType:
stream.writeQString(str(arg))
elif type(arg) is QFile:
arg.open(QIODevice.ReadOnly)
fileDatas = QByteArray(arg.readAll())
stream.writeInt32(fileDatas.size())
stream.writeRawData(fileDatas.data())
arg.close()
#stream << action << options
stream.device().seek(0)
stream.writeUInt32(reply.size() - 4)
if self.socket:
self.socket.write(reply)
except:
self.log.exception("Something awful happened when sending reply !")
def sendReply(self, action, *args, **kwargs) :
if self in self.parent.recorders :
reply = QByteArray()
stream = QDataStream(reply, QIODevice.WriteOnly)
stream.setVersion(QDataStream.Qt_4_2)
stream.writeUInt32(0)
stream.writeQString(action)
for arg in args :
if type(arg) is LongType :
stream.writeQString(str(arg))
elif type(arg) is IntType:
stream.writeInt(arg)
elif isinstance(arg, basestring):
stream.writeQString(arg)
elif type(arg) is StringType :
stream.writeQString(arg)
elif type(arg) is FloatType:
stream.writeFloat(arg)
elif type(arg) is ListType:
stream.writeQString(str(arg))
stream.device().seek(0)
stream.writeUInt32(reply.size() - 4)
if self.socket.isValid() and self.socket.state() == 3 :
if self.socket.write(reply) == -1 :
self.log.debug("error socket write")
self.socket.abort()
else :
self.log.debug("send reply - incorrect socket to write")
self.socket.abort()
class QDataStreamShift(unittest.TestCase):
'''Test case for << and >> operators'''
def setUp(self):
self.ba = QByteArray()
self.stream = QDataStream(self.ba, QIODevice.WriteOnly)
self.read_stream = QDataStream(self.ba, QIODevice.ReadOnly)
def testQCharValid(self):
'''QDataStream <<>> QChar - valid'''
self.stream.writeQChar(42)
res = self.read_stream.readQChar()
self.assertEqual(res, py3k.unichr(42))
def testQCharNull(self):
'''QDataStream <<>> QChar - null'''
self.stream.writeQChar(None)
res = self.read_stream.readQChar()
self.assertEqual(res, py3k.unicode_('\x00'))
def testQByteArrayValid(self):
'''QDataStream <<>> QByteArray - valid'''
self.stream << QByteArray("hello")
res = QByteArray()
self.read_stream >> res
self.assertEqual(res, QByteArray("hello"))
def testQByteArrayEmpty(self):
'''QDataStream <<>> QByteArray - empty'''
self.stream << QByteArray("")
res = QByteArray()
self.read_stream >> res
self.assertEqual(res, QByteArray(""))
self.assertTrue(res.isEmpty())
self.assertFalse(res.isNull())
def testQByteArrayNull(self):
'''QDataStream <<>> QByteArray - null'''
self.stream << QByteArray()
res = QByteArray()
self.read_stream >> res
self.assertEqual(res, QByteArray())
self.assertTrue(res.isEmpty())
self.assertTrue(res.isNull())
def testQStringValid(self):
'''QDataStream <<>> QString - valid'''
self.stream.writeQString('Ka-boom')
res = self.read_stream.readQString()
self.assertEqual(res, py3k.unicode_('Ka-boom'))
def testQStringEmpty(self):
'''QDataStream <<>> QString - empty'''
self.stream.writeQString('')
res = self.read_stream.readQString()
self.assertEqual(res, py3k.unicode_(''))
def testQStringNull(self):
'''QDataStream <<>> QString - null'''
self.stream.writeQString(None)
res = self.read_stream.readQString()
self.assertEqual(res, py3k.unicode_(''))
def testQBitArrayNull(self):
'''QDataStream <<>> QBitArray - null'''
self.stream << QBitArray()
res = QBitArray()
self.read_stream >> res
self.assertEqual(res, QBitArray())
def testQBitArrayValid(self):
'''QDataStream <<>> QBitArray - valid'''
self.stream << create_bitarray('01010101')
res = QBitArray()
self.read_stream >> res
self.assertEqual(res, create_bitarray('01010101'))
def testQDateNull(self):
'''QDataStream <<>> QDate - null'''
self.stream << QDate()
res = QDate()
self.read_stream >> res
self.assertEqual(res, QDate())
self.assertFalse(res.isValid())
self.assertTrue(res.isNull())
def testQDateValid(self):
'''QDataStream <<>> QDate - valid'''
self.stream << QDate(2012, 12, 21)
res = QDate()
self.read_stream >> res
self.assertEqual(res, QDate(2012, 12, 21))
self.assertTrue(res.isValid())
self.assertFalse(res.isNull())
def testQTimeNull(self):
'''QDataStream <<>> QTime - null'''
self.stream << QTime()
res = QTime()
self.read_stream >> res
self.assertEqual(res, QTime())
self.assertFalse(res.isValid())
self.assertTrue(res.isNull())
def testQTimeValid(self):
'''QDataStream <<>> QTime - valid'''
self.stream << QTime(12, 12, 21)
res = QTime()
self.read_stream >> res
self.assertEqual(res, QTime(12, 12, 21))
self.assertTrue(res.isValid())
self.assertFalse(res.isNull())
def testQDateTimeNull(self):
'''QDataStream <<>> QDateTime - null'''
self.stream << QDateTime()
res = QDateTime()
self.read_stream >> res
self.assertEqual(res, QDateTime())
self.assertFalse(res.isValid())
self.assertTrue(res.isNull())
def testQDateTimeValid(self):
'''QDataStream <<>> QDateTime - valid'''
time = QTime(23, 23, 23)
date = QDate(2009, 1, 1)
self.stream << QDateTime(date, time)
res = QDateTime()
self.read_stream >> res
self.assertEqual(res, QDateTime(date, time))
self.assertTrue(res.isValid())
self.assertFalse(res.isNull())
def preparePacket(self, action, *args, **kwargs):
reply = QByteArray()
stream = QDataStream(reply, QIODevice.WriteOnly)
stream.setVersion(QDataStream.Qt_4_2)
stream.writeUInt32(0)
stream.writeQString(action)
for arg in args:
if type(arg) is LongType:
stream.writeQString(str(arg))
elif type(arg) is IntType:
stream.writeInt(arg)
elif isinstance(arg, basestring):
stream.writeQString(arg)
elif type(arg) is StringType:
stream.writeQString(arg)
elif type(arg) is FloatType:
stream.writeFloat(arg)
elif type(arg) is ListType:
stream.writeQString(str(arg))
stream.device().seek(0)
stream.writeUInt32(reply.size() - 4)
return reply
class QDataStreamWrite(unittest.TestCase):
'''Test case for QDatastream write* functions'''
def setUp(self):
self.ba = QByteArray()
self.read = QDataStream(self.ba, QIODevice.ReadOnly)
self.write = QDataStream(self.ba, QIODevice.WriteOnly)
def testWriteUInt8(self):
'''QDataStream.writeUInt8 (accepting str of size 1)'''
x = 0xFF
self.write.writeUInt8(x)
y = self.read.readUInt8()
self.assertEqual(x, y)
self.assertRaises(TypeError, self.write.writeUInt8, 'aaaaa')
def testWriteInt8(self):
'''QDataStream.writeInt8 (accepting str of size 1)'''
x = 65
self.write.writeInt8(chr(x))
y = self.read.readInt8()
self.assertEqual(x, y)
self.assertRaises(TypeError, self.write.writeInt8, 'aaaaa')
def testWriteUInt8Int(self):
'''QDataStream.writeUInt8 (accepting integer)'''
x = 0xFF
self.write.writeUInt8(x)
y = self.read.readUInt8()
self.assertEqual(x, y)
def testWriteInt8Int(self):
'''QDataStream.writeInt8 (accepting integer)'''
x = 65
self.write.writeInt8(x)
y = self.read.readInt8()
self.assertEqual(x, y)
def testWriteUInt16(self):
'''QDataStream.writeUInt16'''
x = 0x4423
self.write.writeUInt16(x)
y = int(self.read.readUInt16())
self.assertEqual(x, y)
def testWriteUInt32(self):
'''QDataStream.writeUInt32'''
x = 0xdeadbeef
self.write.writeUInt32(x)
y = int(self.read.readUInt32())
self.assertEqual(x, y)
def sendReply(self, action, *args, **kwargs):
try:
if hasattr(self, "socket"):
reply = QByteArray()
stream = QDataStream(reply, QIODevice.WriteOnly)
stream.setVersion(QDataStream.Qt_4_2)
stream.writeUInt32(0)
stream.writeQString(action)
for arg in args:
if type(arg) is LongType:
stream.writeQString(str(arg))
if type(arg) is IntType:
stream.writeInt(int(arg))
elif type(arg) is StringType:
stream.writeQString(arg)
elif isinstance(arg, str):
stream.writeQString(arg)
elif type(arg) is FloatType:
stream.writeFloat(arg)
elif type(arg) is ListType:
stream.writeQString(str(arg))
elif type(arg) is QFile:
arg.open(QIODevice.ReadOnly)
fileDatas = QByteArray(arg.readAll())
stream.writeInt32(fileDatas.size())
stream.writeRawData(fileDatas.data())
arg.close()
#stream << action << options
stream.device().seek(0)
stream.writeUInt32(reply.size() - 4)
if self.socket:
self.socket.write(reply)
except:
self.log.exception("Something awful happened when sending reply !")
def preparePacket(self, action, *args, **kwargs) :
reply = QByteArray()
stream = QDataStream(reply, QIODevice.WriteOnly)
stream.setVersion(QDataStream.Qt_4_2)
stream.writeUInt32(0)
stream.writeQString(action)
for arg in args :
if type(arg) is LongType :
stream.writeQString(str(arg))
elif type(arg) is IntType:
stream.writeInt(arg)
elif isinstance(arg, basestring):
stream.writeQString(arg)
elif type(arg) is StringType :
stream.writeQString(arg)
elif type(arg) is FloatType:
stream.writeFloat(arg)
elif type(arg) is ListType:
stream.writeQString(str(arg))
stream.device().seek(0)
stream.writeUInt32(reply.size() - 4)
return reply
def sendReply(self, action, *args, **kwargs):
if self in self.parent.recorders:
reply = QByteArray()
stream = QDataStream(reply, QIODevice.WriteOnly)
stream.setVersion(QDataStream.Qt_4_2)
stream.writeUInt32(0)
stream.writeQString(action)
for arg in args:
if type(arg) is LongType:
stream.writeQString(str(arg))
elif type(arg) is IntType:
stream.writeInt(arg)
elif isinstance(arg, basestring):
stream.writeQString(arg)
elif type(arg) is StringType:
stream.writeQString(arg)
elif type(arg) is FloatType:
stream.writeFloat(arg)
elif type(arg) is ListType:
stream.writeQString(str(arg))
stream.device().seek(0)
stream.writeUInt32(reply.size() - 4)
if self.socket.isValid() and self.socket.state() == 3:
if self.socket.write(reply) == -1:
self.log.debug("error socket write")
self.socket.abort()
else:
self.log.debug("send reply - incorrect socket to write")
self.socket.abort()
def sendReply(self, action, *args, **kwargs):
try:
if hasattr(self, "socket"):
reply = QByteArray()
stream = QDataStream(reply, QIODevice.WriteOnly)
stream.setVersion(QDataStream.Qt_4_2)
stream.writeUInt32(0)
stream.writeQString(action)
for arg in args:
if isinstance(arg, int):
stream.writeInt(int(arg))
elif isinstance(arg, str):
stream.writeQString(arg)
elif isinstance(arg, list):
stream.writeQString(str(arg))
#stream << action << options
stream.device().seek(0)
stream.writeUInt32(reply.size() - 4)
self.socket.write(reply)
# else :
# # no socket !?
# self.quit()
except:
self.log.exception("Something awful happened when sending reply !")
def sendReply(self, action, *args, **kwargs):
try:
if hasattr(self, "socket"):
reply = QByteArray()
stream = QDataStream(reply, QIODevice.WriteOnly)
stream.setVersion(QDataStream.Qt_4_2)
stream.writeUInt32(0)
stream.writeQString(action)
for arg in args:
if isinstance(arg, int):
stream.writeInt(int(arg))
elif isinstance(arg, str):
stream.writeQString(arg)
elif isinstance(arg, list):
stream.writeQString(str(arg))
#stream << action << options
stream.device().seek(0)
stream.writeUInt32(reply.size() - 4)
self.socket.write(reply)
# else :
# # no socket !?
# self.quit()
except:
self.log.exception("Something awful happened when sending reply !")
