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python_examples: Reformatted, self-checking, executable

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* 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>
This commit is contained in:
Noel Eck
2016-09-29 18:24:19 -07:00
parent 62718daf0b
commit 2f78d9f62b
203 changed files with 5890 additions and 5216 deletions
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37
examples/python/m24lr64e.py Normal file → Executable file
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@ -24,26 +24,29 @@
import sys
import pyupm_m24lr64e as nfcTagObj
# Instantiate a M24LR64E Grove NFC Tag Module on UART 0
nfcTag = nfcTagObj.M24LR64E(nfcTagObj.M24LR64E_I2C_BUS)
def main():
# Instantiate a M24LR64E Grove NFC Tag Module on UART 0
nfcTag = nfcTagObj.M24LR64E(nfcTagObj.M24LR64E_I2C_BUS)
# This example accesses the device in the 'user' (default) mode,
# reads the last byte of data in the EEPROM, inverts it, writes
# it back, and then re-reads it.
# This example accesses the device in the 'user' (default) mode,
# reads the last byte of data in the EEPROM, inverts it, writes
# it back, and then re-reads it.
# Read the last byte of the EEPROM area
addr = (nfcTagObj.M24LR64E.EEPROM_I2C_LENGTH - 1)
print "Address: ", addr
byte = nfcTag.readByte(addr)
# Read the last byte of the EEPROM area
addr = (nfcTagObj.M24LR64E.EEPROM_I2C_LENGTH - 1)
print "Address: ", addr
byte = nfcTag.readByte(addr)
print "Read byte: ", format(byte, '02x')
print "Read byte: ", format(byte, '02x')
# Now change it to it's opposite and write it
byte = (~byte & 0xff)
nfcTag.writeByte(addr, byte)
print "Wrote inverted byte: ", format(byte, '02x')
# Now change it to it's opposite and write it
byte = (~byte & 0xff)
nfcTag.writeByte(addr, byte)
print "Wrote inverted byte: ", format(byte, '02x')
# Now read it back.
byte = nfcTag.readByte(addr)
print "Read byte: ", format(byte, '02x')
# Now read it back.
byte = nfcTag.readByte(addr)
print "Read byte: ", format(byte, '02x')
if __name__ == '__main__':
main()