python_examples: Reformatted, self-checking, executable

* Moved body of each python example to main. This allows for basic load module testing for CI * General cleanup of python modules (crlf/tabs/prints/etc) * Chmod'ed to 755 to allow running examples without specifying the python interpreter * Added ctest for loading python2/3 modules * Added jniclasscode pragma for java swig interface files. * Updated check_examplenames.py module to check all languages vs. a cxx example name * Added tests for checking python module and test loading * Added 'make test' to travis-ci run (run ctests) * Print a more meaningful message when not building cxx docs into python modules * Updated check_clean.py to only check java wrapper files * ENABLED ctests for UPM * Deleted using_carrays.py python example - this is covered by other examples Signed-off-by: Noel Eck <noel.eck@intel.com>
2025-07-02 01:41:12 +03:00 · 2016-09-29 18:24:19 -07:00
parent 62718daf0b
commit 2f78d9f62b
203 changed files with 5890 additions and 5216 deletions
--- a/examples/python/h803x.py
+++ b/examples/python/h803x.py
@ -24,40 +24,41 @@
 import time, sys, signal, atexit
 import pyupm_h803x as sensorObj

-## Exit handlers ##
-# This function stops python from printing a stacktrace when you hit control-C
-def SIGINTHandler(signum, frame):
-	raise SystemExit
+def main():
+    ## Exit handlers ##
+    # This function stops python from printing a stacktrace when you hit control-C
+    def SIGINTHandler(signum, frame):
+        raise SystemExit

-# This function lets you run code on exit
-def exitHandler():
-	print "Exiting..."
-	sys.exit(0)
+    # This function lets you run code on exit
+    def exitHandler():
+        print "Exiting..."
+        sys.exit(0)

-# Register exit handlers
-atexit.register(exitHandler)
-signal.signal(signal.SIGINT, SIGINTHandler)
+    # Register exit handlers
+    atexit.register(exitHandler)
+    signal.signal(signal.SIGINT, SIGINTHandler)

-defaultDev = "/dev/ttyUSB0"
+    defaultDev = "/dev/ttyUSB0"

-# if an argument was specified, use it as the device instead
-if (len(sys.argv) > 1):
+    # if an argument was specified, use it as the device instead
+    if (len(sys.argv) > 1):
        defaultDev = sys.argv[1]

-print "Using device", defaultDev
-print "Initializing..."
+    print "Using device", defaultDev
+    print "Initializing..."

-# Instantiate an H803X instance, using MODBUS slave address 1, and
-# default comm parameters (9600, 8, N, 2)
-sensor = sensorObj.H803X(defaultDev, 1)
+    # Instantiate an H803X instance, using MODBUS slave address 1, and
+    # default comm parameters (9600, 8, N, 2)
+    sensor = sensorObj.H803X(defaultDev, 1)

-# output the serial number and firmware revision
-print "Slave ID:", sensor.getSlaveID()
+    # output the serial number and firmware revision
+    print "Slave ID:", sensor.getSlaveID()

-print
+    print

-# update and print available values every second
-while (1):
+    # update and print available values every second
+    while (1):
        # update our values from the sensor
        sensor.update()

@ -66,41 +67,44 @@ while (1):
        print "Real Power (kW):", sensor.getRealPower()

        if (sensor.isH8036()):
-                # The H8036 has much more data available...
+            # The H8036 has much more data available...

-                print "Reactive Power (kVAR):", sensor.getReactivePower()
-                print "Apparent Power (kVA):", sensor.getApparentPower()
-                print "Power Factor:", sensor.getPowerFactor()
-                print "Volts Line to Line:", sensor.getVoltsLineToLine()
-                print "Volts Line to Neutral:", sensor.getVoltsLineToNeutral()
+            print "Reactive Power (kVAR):", sensor.getReactivePower()
+            print "Apparent Power (kVA):", sensor.getApparentPower()
+            print "Power Factor:", sensor.getPowerFactor()
+            print "Volts Line to Line:", sensor.getVoltsLineToLine()
+            print "Volts Line to Neutral:", sensor.getVoltsLineToNeutral()

-                print "Current:", sensor.getCurrent()
+            print "Current:", sensor.getCurrent()

-                print "Real Power Phase A (kW):", sensor.getRealPowerPhaseA()
-                print "Real Power Phase B (kW):", sensor.getRealPowerPhaseB()
-                print "Real Power Phase C (kW):", sensor.getRealPowerPhaseC()
+            print "Real Power Phase A (kW):", sensor.getRealPowerPhaseA()
+            print "Real Power Phase B (kW):", sensor.getRealPowerPhaseB()
+            print "Real Power Phase C (kW):", sensor.getRealPowerPhaseC()

-                print "Power Factor Phase A:", sensor.getPowerFactorPhaseA()
-                print "Power Factor Phase B:", sensor.getPowerFactorPhaseB()
-                print "Power Factor Phase C:", sensor.getPowerFactorPhaseC()
+            print "Power Factor Phase A:", sensor.getPowerFactorPhaseA()
+            print "Power Factor Phase B:", sensor.getPowerFactorPhaseB()
+            print "Power Factor Phase C:", sensor.getPowerFactorPhaseC()

-                print "Volts Phase A to B:", sensor.getVoltsPhaseAToB()
-                print "Volts Phase B to C:", sensor.getVoltsPhaseBToC()
-                print "Volts Phase A to C:", sensor.getVoltsPhaseAToC()
-                print "Volts Phase A to Neutral: ",
-                print sensor.getVoltsPhaseAToNeutral()
-                print "Volts Phase B to Neutral: ",
-                print sensor.getVoltsPhaseBToNeutral()
-                print "Volts Phase C to Neutral: ",
-                print sensor.getVoltsPhaseCToNeutral()
+            print "Volts Phase A to B:", sensor.getVoltsPhaseAToB()
+            print "Volts Phase B to C:", sensor.getVoltsPhaseBToC()
+            print "Volts Phase A to C:", sensor.getVoltsPhaseAToC()
+            print "Volts Phase A to Neutral: ",
+            print sensor.getVoltsPhaseAToNeutral()
+            print "Volts Phase B to Neutral: ",
+            print sensor.getVoltsPhaseBToNeutral()
+            print "Volts Phase C to Neutral: ",
+            print sensor.getVoltsPhaseCToNeutral()

-                print "Current Phase A:", sensor.getCurrentPhaseA()
-                print "Current Phase B:", sensor.getCurrentPhaseB()
-                print "Current Phase C:", sensor.getCurrentPhaseC()
+            print "Current Phase A:", sensor.getCurrentPhaseA()
+            print "Current Phase B:", sensor.getCurrentPhaseB()
+            print "Current Phase C:", sensor.getCurrentPhaseC()

-                print "Avg Real Power (kW):", sensor.getAvgRealPower()
-                print "Min Real Power (kW):", sensor.getMinRealPower()
-                print "Max Real Power (kW):", sensor.getMaxRealPower()
+            print "Avg Real Power (kW):", sensor.getAvgRealPower()
+            print "Min Real Power (kW):", sensor.getMinRealPower()
+            print "Max Real Power (kW):", sensor.getMaxRealPower()

        print
-	time.sleep(2)
+        time.sleep(2)
+
+if __name__ == '__main__':
+    main()