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-rw-r--r--pyk8055/CMakeLists.txt1
-rw-r--r--pyk8055/k8055qt.py417
2 files changed, 205 insertions, 213 deletions
diff --git a/pyk8055/CMakeLists.txt b/pyk8055/CMakeLists.txt
index 504a0bc..db2e6b9 100644
--- a/pyk8055/CMakeLists.txt
+++ b/pyk8055/CMakeLists.txt
@@ -12,3 +12,4 @@ SET_SOURCE_FILES_PROPERTIES(libk8055.i PROPERTIES SWIG_FLAGS "-includeall")
SWIG_ADD_MODULE(pyk8055 python libk8055.i ${CMAKE_SOURCE_DIR}/libk8055/libk8055.c)
SWIG_LINK_LIBRARIES(pyk8055 ${PYTHON_LIBRARIES} ${LIBUSB_LDFLAGS} k8055-${VERSION})
+#pyuic frmk8055qt.ui -o frmk8055qt.py
diff --git a/pyk8055/k8055qt.py b/pyk8055/k8055qt.py
index 49288f6..fe0e853 100644
--- a/pyk8055/k8055qt.py
+++ b/pyk8055/k8055qt.py
@@ -6,227 +6,218 @@
# Copyright (C) 2007 by Pjetur G. Hjaltason
#
-import sys
-from qt import *
-#from qwt import *
+import sys, time, string
+from PyQt4.Qt import *
+#from frmk8055qt import *
+from pyk8055 import k8055
-import time, string
-from pyk8055 import *
-from frmk8055qt import *
class QTK8055(K8055QT):
- def __init__(self):
- K8055QT.__init__(self)
-
- # Not much sense in making a fancy menu yet
- #
- #puProg = QPopupMenu(self)
- #puProg.insertItem("Quit", Kapp.quit)
-
- #puHelp = QPopupMenu(self)
- #puHelp.insertItem("About", self.about)
-
- #self.menu = QMenuBar(self)
- #self.menu.insertItem("Program", puProg)
- #self.menu.insertItem("Help", puHelp)
-
- # enumerate devices
- BMask = SearchDevices()
- if not BMask:
- print "No K8055 devices found"
- exit
-
- # Enable those present
- self.CardButton1.setEnabled((BMask & 0x01) > 0)
- self.CardButton2.setEnabled((BMask & 0x02) > 0)
- self.CardButton3.setEnabled((BMask & 0x04) > 0)
- self.CardButton4.setEnabled((BMask & 0x08) > 0)
-
- # set the first one found as suggestion
- if (BMask & 0x01) > 0:
- self.card = 0
- self.CardButton1.setChecked(1)
- elif (BMask & 0x02) > 0:
- self.card = 1
- self.CardButton2.setChecked(1)
- elif (BMask & 0x04) > 0:
- self.card = 2
- self.CardButton3.setChecked(1)
- elif (BMask & 0x08) > 0:
- self.card = 3
- self.CardButton4.setChecked(1)
-
- self.time = QTime.currentTime() # get current time
- internalTimer = QTimer( self ) # create internal timer
- self.connect( internalTimer, SIGNAL("timeout()"), self.timeout )
- internalTimer.start( 100 ) # emit signal every 1/10 second
-
- self.timeout()
-
- def AnalogTest(self):
- try:
- for step in range(0,255,10):
- self.BarAD1.setValue(step)
- self.BarAD2.setValue(step)
- time.sleep(0.1)
- # set analog output channel 1 to 200/255*5v = 3.9V
- for step in range(255,0,10):
- self.BarAD1.setValue(step)
- self.BarAD2.setValue(step)
- time.sleep(0.1)
-
- # read both analog inputs
- # note: this returns a list
- #res = self.k.ReadAllAnalog()
- #sres = res[1:]
-
- # There should be more interesting information in the messagebox ;-/
-
- QMessageBox.information( self,'Information', "AllOK","Ok")
- except:
- pass
-
- def DigitalTest(self):
- try:
- # Create a rotating display of digital outputs
- # while waiting for keypress on digital input 1
- # (longer than .2sec :) Loop at most 3 times
- Input1High = False
- for i in range(1,3):
- d = 1
- self.k.WriteAllDigital(1)
- while Input1High == False and d < 128:
- Input1High = (self.k.ReadDigitalChannel(1) > 0)
- if Input1High: break
- time.sleep(0.2) # wait .2 sec
- d *=2 # and continue rotating digital outputs
- #if d > 128: d=1;
- self.k.WriteAllDigital(d)
- if Input1High: break
-
- res = "Digital input 1=" + str(self.k.ReadDigitalChannel(1)) + "<br>"
- # read the counter on input 1
- res+= "Counter(1)=" + str(self.k.ReadCounter(1)) + "<br>"
- # read the counter on input 2
- res+= "Counter(2)=" + str(self.k.ReadCounter(2))
-
- # set even bits on digital outputs
- self.k.WriteAllDigital(170)
- time.sleep(1)
- # set odd bits on digital outputs
- self.k.WriteAllDigital(85)
- time.sleep(1)
- # Clear all digital outputs
- self.k.WriteAllDigital(0)
-
- # There should be more interesting information in the messagebox ;-/
-
- QMessageBox.information( self,'DigitalTest', res,"Ok")
- except:
- QMessageBox.warning( self,'DigitalTest', "Not OK","Ok")
- pass
-
- def EnableAll(self):
- self.OutputBox1.setEnabled(1)
- self.OutputBox2.setEnabled(1)
- self.OutputBox3.setEnabled(1)
- self.OutputBox4.setEnabled(1)
- self.OutputBox5.setEnabled(1)
- self.OutputBox6.setEnabled(1)
- self.OutputBox7.setEnabled(1)
- self.OutputBox8.setEnabled(1)
- self.SetAllDigitalButton.setEnabled(1)
- self.ClearAllDigitalButton.setEnabled(1)
- self.SetAllAnalogButton.setEnabled(1)
- self.ClearAllAnalogButton.setEnabled(1)
- self.comboCounter1.setEnabled(1)
- self.comboCounter2.setEnabled(1)
- self.ClearCounter1.setEnabled(1)
- self.ClearCounter2.setEnabled(1)
- self.TestDigitalButton.setEnabled(1)
- self.TestAnalogButton.setEnabled(1)
- self.BarAD1.setEnabled(1)
- self.BarAD2.setEnabled(1)
- self.BarDA1.setEnabled(1)
- self.BarDA2.setEnabled(1)
-
- def DisableAll(self):
- self.OutputBox1.setEnabled(0)
- self.OutputBox2.setEnabled(0)
- self.OutputBox3.setEnabled(0)
- self.OutputBox4.setEnabled(0)
- self.OutputBox5.setEnabled(0)
- self.OutputBox6.setEnabled(0)
- self.OutputBox7.setEnabled(0)
- self.OutputBox8.setEnabled(0)
- self.SetAllDigitalButton.setEnabled(0)
- self.ClearAllDigitalButton.setEnabled(0)
- self.SetAllAnalogButton.setEnabled(0)
- self.ClearAllAnalogButton.setEnabled(0)
- self.comboCounter1.setEnabled(0)
- self.comboCounter2.setEnabled(0)
- self.ClearCounter1.setEnabled(0)
- self.ClearCounter2.setEnabled(0)
- self.TestDigitalButton.setEnabled(0)
- self.TestAnalogButton.setEnabled(0)
- self.BarAD1.setEnabled(0)
- self.BarAD2.setEnabled(0)
- self.BarDA1.setEnabled(0)
- self.BarDA2.setEnabled(0)
+ def __init__(self):
+ K8055QT.__init__(self)
+
+ # Not much sense in making a fancy menu yet
+ #
+ #puProg = QPopupMenu(self)
+ #puProg.insertItem("Quit", Kapp.quit)
+
+ #puHelp = QPopupMenu(self)
+ #puHelp.insertItem("About", self.about)
+
+ #self.menu = QMenuBar(self)
+ #self.menu.insertItem("Program", puProg)
+ #self.menu.insertItem("Help", puHelp)
+
+ # enumerate devices
+ BMask = SearchDevices()
+ if not BMask:
+ print "No K8055 devices found"
+ exit
+
+ # Enable those present
+ self.CardButton1.setEnabled((BMask & 0x01) > 0)
+ self.CardButton2.setEnabled((BMask & 0x02) > 0)
+ self.CardButton3.setEnabled((BMask & 0x04) > 0)
+ self.CardButton4.setEnabled((BMask & 0x08) > 0)
+
+ # set the first one found as suggestion
+ if (BMask & 0x01) > 0:
+ self.card = 0
+ self.CardButton1.setChecked(1)
+ elif (BMask & 0x02) > 0:
+ self.card = 1
+ self.CardButton2.setChecked(1)
+ elif (BMask & 0x04) > 0:
+ self.card = 2
+ self.CardButton3.setChecked(1)
+ elif (BMask & 0x08) > 0:
+ self.card = 3
+ self.CardButton4.setChecked(1)
+ self.time = QTime.currentTime() # get current time
+ internalTimer = QTimer( self ) # create internal timer
+ self.connect( internalTimer, SIGNAL("timeout()"), self.timeout )
+ internalTimer.start( 100 ) # emit signal every 1/10 second
+
+ self.timeout()
+
+ def AnalogTest(self):
+ try:
+ for step in range(0,255,10):
+ self.BarAD1.setValue(step)
+ self.BarAD2.setValue(step)
+ time.sleep(0.1)
+ # set analog output channel 1 to 200/255*5v = 3.9V
+ for step in range(255,0,10):
+ self.BarAD1.setValue(step)
+ self.BarAD2.setValue(step)
+ time.sleep(0.1)
+ # read both analog inputs
+ # note: this returns a list
+ #res = self.k.ReadAllAnalog()
+ #sres = res[1:]
+ # There should be more interesting information in the messagebox ;-/
+ QMessageBox.information( self,'Information', "AllOK","Ok")
+ except:
+ pass
+
+ def DigitalTest(self):
+ try:
+ # Create a rotating display of digital outputs
+ # while waiting for keypress on digital input 1
+ # (longer than .2sec :) Loop at most 3 times
+ Input1High = False
+ for i in range(1,3):
+ d = 1
+ self.k.WriteAllDigital(1)
+ while Input1High == False and d < 128:
+ Input1High = (self.k.ReadDigitalChannel(1) > 0)
+ if Input1High: break
+ time.sleep(0.2) # wait .2 sec
+ d *=2 # and continue rotating digital outputs
+ #if d > 128: d=1;
+ self.k.WriteAllDigital(d)
+ if Input1High: break
+
+ res = "Digital input 1=" + str(self.k.ReadDigitalChannel(1)) + "<br>"
+ # read the counter on input 1
+ res+= "Counter(1)=" + str(self.k.ReadCounter(1)) + "<br>"
+ # read the counter on input 2
+ res+= "Counter(2)=" + str(self.k.ReadCounter(2))
+ # set even bits on digital outputs
+ self.k.WriteAllDigital(170)
+ time.sleep(1)
+ # set odd bits on digital outputs
+ self.k.WriteAllDigital(85)
+ time.sleep(1)
+ # Clear all digital outputs
+ self.k.WriteAllDigital(0)
+ # There should be more interesting information in the messagebox ;-/
+ QMessageBox.information( self,'DigitalTest', res,"Ok")
+ except:
+ QMessageBox.warning( self,'DigitalTest', "Not OK","Ok")
+ pass
+
+ def EnableAll(self):
+ self.OutputBox1.setEnabled(1)
+ self.OutputBox2.setEnabled(1)
+ self.OutputBox3.setEnabled(1)
+ self.OutputBox4.setEnabled(1)
+ self.OutputBox5.setEnabled(1)
+ self.OutputBox6.setEnabled(1)
+ self.OutputBox7.setEnabled(1)
+ self.OutputBox8.setEnabled(1)
+ self.SetAllDigitalButton.setEnabled(1)
+ self.ClearAllDigitalButton.setEnabled(1)
+ self.SetAllAnalogButton.setEnabled(1)
+ self.ClearAllAnalogButton.setEnabled(1)
+ self.comboCounter1.setEnabled(1)
+ self.comboCounter2.setEnabled(1)
+ self.ClearCounter1.setEnabled(1)
+ self.ClearCounter2.setEnabled(1)
+ self.TestDigitalButton.setEnabled(1)
+ self.TestAnalogButton.setEnabled(1)
+ self.BarAD1.setEnabled(1)
+ self.BarAD2.setEnabled(1)
+ self.BarDA1.setEnabled(1)
+ self.BarDA2.setEnabled(1)
+
+ def DisableAll(self):
+ self.OutputBox1.setEnabled(0)
+ self.OutputBox2.setEnabled(0)
+ self.OutputBox3.setEnabled(0)
+ self.OutputBox4.setEnabled(0)
+ self.OutputBox5.setEnabled(0)
+ self.OutputBox6.setEnabled(0)
+ self.OutputBox7.setEnabled(0)
+ self.OutputBox8.setEnabled(0)
+ self.SetAllDigitalButton.setEnabled(0)
+ self.ClearAllDigitalButton.setEnabled(0)
+ self.SetAllAnalogButton.setEnabled(0)
+ self.ClearAllAnalogButton.setEnabled(0)
+ self.comboCounter1.setEnabled(0)
+ self.comboCounter2.setEnabled(0)
+ self.ClearCounter1.setEnabled(0)
+ self.ClearCounter2.setEnabled(0)
+ self.TestDigitalButton.setEnabled(0)
+ self.TestAnalogButton.setEnabled(0)
+ self.BarAD1.setEnabled(0)
+ self.BarAD2.setEnabled(0)
+ self.BarDA1.setEnabled(0)
+ self.BarDA2.setEnabled(0)
#
## The QTimer::timeout() signal is received by this slot.
#
- def timeout( self ):
- #new_time = QTime.currentTime() # get the current time
- if self.k != None:
- try:
- AllVal = self.k.ReadAllValues()
- #print AllVal,AllVal[2]
- self.BarDA1.setValue(255 - AllVal[2])
- self.BarDA2.setValue(255 - AllVal[3])
- self.DA1Value.setProperty("intValue",QVariant(AllVal[2]))
- self.DA2Value.setProperty("intValue",QVariant(AllVal[3]))
- self.Counter1Value.setProperty("intValue",QVariant(AllVal[4]))
- self.Counter2Value.setProperty("intValue",QVariant(AllVal[5]))
-
- if (AllVal[1] & 0x01) > 0:
- self.DigitalLed1.setState(KLed.On)
- else:
- self.DigitalLed1.setState(KLed.Off)
- if (AllVal[1] & 0x02) > 0:
- self.DigitalLed2.setState(KLed.On)
- else:
- self.DigitalLed2.setState(KLed.Off)
- if (AllVal[1] & 0x04) > 0:
- self.DigitalLed3.setState(KLed.On)
- else:
- self.DigitalLed3.setState(KLed.Off)
- if (AllVal[1] & 0x08) > 0:
- self.DigitalLed4.setState(KLed.On)
- else:
- self.DigitalLed4.setState(KLed.Off)
- if (AllVal[1] & 0x10) > 0:
- self.DigitalLed5.setState(KLed.On)
- else:
- self.DigitalLed5.setState(KLed.Off)
- except:
- print "K8055 Read failed"
-
- def about(self):
- QMessageBox.about( self, "About k8055qt",
- "k8055qt is a small GUI program using libk8055\n\n"
- "Copyright 2007 Pjetur G. Hjaltason. "
- "Distributed under GPL license\n\n"
- "For technical support, study the source code or surf\n"
- "http://sourceforge.net/projects/libk8055/\n" )
+ def timeout( self ):
+ #new_time = QTime.currentTime() # get the current time
+ if self.k != None:
+ try:
+ AllVal = self.k.ReadAllValues()
+ #print AllVal,AllVal[2]
+ self.BarDA1.setValue(255 - AllVal[2])
+ self.BarDA2.setValue(255 - AllVal[3])
+ self.DA1Value.setProperty("intValue",QVariant(AllVal[2]))
+ self.DA2Value.setProperty("intValue",QVariant(AllVal[3]))
+ self.Counter1Value.setProperty("intValue",QVariant(AllVal[4]))
+ self.Counter2Value.setProperty("intValue",QVariant(AllVal[5]))
+
+ if (AllVal[1] & 0x01) > 0:
+ self.DigitalLed1.setState(KLed.On)
+ else:
+ self.DigitalLed1.setState(KLed.Off)
+ if (AllVal[1] & 0x02) > 0:
+ self.DigitalLed2.setState(KLed.On)
+ else:
+ self.DigitalLed2.setState(KLed.Off)
+ if (AllVal[1] & 0x04) > 0:
+ self.DigitalLed3.setState(KLed.On)
+ else:
+ self.DigitalLed3.setState(KLed.Off)
+ if (AllVal[1] & 0x08) > 0:
+ self.DigitalLed4.setState(KLed.On)
+ else:
+ self.DigitalLed4.setState(KLed.Off)
+ if (AllVal[1] & 0x10) > 0:
+ self.DigitalLed5.setState(KLed.On)
+ else:
+ self.DigitalLed5.setState(KLed.Off)
+ except:
+ print "K8055 Read failed"
+
+ def about(self):
+ QMessageBox.about( self, "About k8055qt",
+ "k8055qt is a small GUI program using libk8055\n\n"
+ "Copyright 2007 Pjetur G. Hjaltason. "
+ "Distributed under GPL license\n\n"
+ "For technical support, study the source code or surf\n"
+ "http://sourceforge.net/projects/libk8055/\n" )
if __name__ == "__main__":
- Kapp = QApplication(sys.argv)
- QObject.connect(Kapp,SIGNAL("lastWindowClosed()"),Kapp,SLOT("quit()"))
- w = QTK8055()
- Kapp.setMainWidget(w)
- w.show()
- Kapp.exec_loop()
+ Kapp = QApplication(sys.argv)
+ QObject.connect(Kapp,SIGNAL("lastWindowClosed()"),Kapp,SLOT("quit()"))
+ w = QTK8055()
+ Kapp.setMainWidget(w)
+ w.show()
+ Kapp.exec_loop()