self.processFinished)
self.xmltracker = XmlTracker()
+ # in case self.output is read by the XmlTracker before any
+ # readyReadStandardOutput signal
+ self.output = ''
+
+ self.connect(self.process, SIGNAL("readyReadStandardOutput()"),
+ self.processStandardOutput)
+ self.connect(self.process, SIGNAL("readyReadStandardError()"),
+ self.processStandardError)
def __init_command(self, args):
self.args = QStringList()
+ if config.debug:
+ # this shows xmlrpc conversation, see sfi.py docs.
+ self.args << QString('-D')
for arg in args:
self.args << QString(arg)
def isRunning(self):
return self.process.state() != QProcess.NotRunning
+ def processStandardOutput(self):
+ # NOTE: The signal readyReadStandardOutput is emitted when
+ # the process has made new data available through its standard output channel.
+ # But the process is not necessarily finished.
+ # It's cool to have this method wo we print the stdOut live,
+ # but we must be carefull with self.output, used by xmlTracker too.
+ print "SETTING SELF.OUTPUT"
+ tmpOut = self.process.readAllStandardOutput()
+ if config.debug:
+ print tmpOut
+ self.output += tmpOut
+
+
+ def processStandardError(self):
+ print self.process.readAllStandardError()
+
def processFinished(self):
if self.process.exitStatus() == QProcess.CrashExit:
print self.readOutput()
return filename
def start(self):
- self.args.prepend(QString('-D'))
self.trace_command()
self.process.start(self.exe, self.args)
- print self.args
def readOutput(self):
if self.process.state() == QProcess.NotRunning:
self._trace=time.time()
command = "%s %s" % (self.exe, self.args.join(" "))
print time.strftime('%M:%S'),'Invoking',command
- #self.xmltracker.startTracking()
- #print "tracking"
def trace_end (self):
if config.verbose:
- #print "stop tracking"
- #self.xmltracker.stopTracking()
command = "%s %s" % (self.exe, self.args.join(" "))
print time.strftime('%M:%S'),"[%.3f s]"%(time.time()-self._trace),command,'Done'
- self.xmltracker.getAndPrint(self.process.readAllStandardOutput())
+ self.xmltracker.getAndPrint(self.output)
class XmlTracker():
def __init__(self):
- self.xmlrpcwindow = XmlrpcWindow()
+ self.xmlrpcWindow = XmlrpcWindow()
def getAndPrint(self, rawOutput):
self.store(rawOutput)
self.extractXml()
- self.xmlrpcwindow.setData(self.xml)
+ self.xmlrpcWindow.setData(self.xml)
self.showXmlrpc()
- self.test()
def showXmlrpc(self):
- # set all camel case
- self.xmlrpcwindow.show()
- self.xmlrpcwindow.resize(500, 640)
- self.xmlrpcwindow.raise_()
- self.xmlrpcwindow.activateWindow()
+ self.xmlrpcWindow.show()
+ self.xmlrpcWindow.resize(500, 640)
+ self.xmlrpcWindow.raise_()
+ self.xmlrpcWindow.activateWindow()
def store(self, rawOutput):
self.rawOutput = rawOutput
replies = re.compile(pttrnAns, re.DOTALL).findall(self.rawOutput)
# cleaning
answers = map(lambda x: x.replace('\\n','\n'), answers)
- replies = map(lambda x: x.replace('\\n','\n').replace("'body: '", ''), replies)
+ replies = map(lambda x: x.replace('\\n','\n').replace("'\nbody: '", ''), replies)
+ replies.reverse() # so that I use pop() as popleft
# A well-formed XML document must have one, and only one, top-level element
self.xml = '<debug>'
for ans in answers:
self.xml += ans + replies.pop()
self.xml += '</debug>'
- def test(self):
- print self.xml
-
def stats(self):
# statistics: round-trip time, size of the com
pass