* Grouped UPM python modules into upm directory, for example:
/usr/local/lib/python2.7/dist-packages/upm
* Updated UPM example import statements
* Removed unused RPATH statements from UPM src CMakeLists.txt,
currently build collateral contains an explicit RPATH which
is stripped from the install collateral.
* Converted python examples to work on both python2 AND python3
* Added ctest for loading examples w/python3
* Removed returns from swig macros
* UPM python module use will change...
Before:
import pyupm_dfrph
After:
from upm import pyupm_dfrph
or
import upm.pyupm_dfrph
etc...
* This commit fixes#468
Signed-off-by: Noel Eck <noel.eck@intel.com>
* 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>
The driver was developed using the Veris CWLSHTA CO2 Gas sensor. The
'T' variant supports a temperature sensor, and the 'H' variant
supports a humidity sensor.
All 3 signals are provided by the device as analog 0-5Vdc, 0-10Vdc, or
4-20ma loop current outputs. For devices supporting temperature, the
valid temperature range is 10C to 50C. The humidity ranges from 0% to
100% (non-condensing). The CO2 sensor ranges from 0 to 2000 ppm.
This driver was developed using the 5Vdc outputs and the 4-20ma
outputs. For voltage outputs, your MCU must be configured for 5V
operation. In addition, you must configure the sensor (via it's
configuration switches) to output 0-5VDC only. Using any other analog
reference voltage will require the appropriate external circuitry
(such as a voltage divider) in order to interface safely with your
MCU.
In addition, the sensor can be configured for 4-20ma usage, by
specifying the correct receiver resistance (in ohms) in the
constructor. This sensor was tested with a Cooking Hacks (Libelium)
4-channel 4-20ma Arduino interface shield. For this interface, the
receiver resistance was specified as 165.0 ohms.
Signed-off-by: Jon Trulson <jtrulson@ics.com>
Signed-off-by: Abhishek Malik <abhishek.malik@intel.com>
