Default to MONOTONIC clock for timer methods to avoid falling victim to
clock corrections. Changed signatures from accepting pointers since
this is not needed an complicates calls and Java/JS/Python bindings.
* Switched from nanosleep to clock_nanosleep to allow developers to
provide a clock for LINUX
* Default upm_clock_init to CLOCK_MONOTONIC
* Updated logic to calculating delay and elapsed to be more readable
* Added ns flavors for completeness
* Refactored all upm_* delay/timer methods
* Added #else for preprocessor cases w/o an #else
* Added test for AQI
* Added test fixture with logic to identify a minimum delay time
which is used as a metric for testing all delay methods
* Much more lenient unit testing of delays to minimize false CI
failures
Signed-off-by: Noel Eck <noel.eck@intel.com>
This commit moves common SWIG syntax to a ${libname}.i for sensor
libraries. Much of the swig content was originally duplicated for
each wrapper language which has lead to inconsistencies between wrappers
over time. This commit moves all swig syntax to a common file. Language
specific swig syntax can be added with #ifdef SWIG<LANGUAGE>.
The src/CMakeLists.txt will look first for a language-specific .i file,
then fall back to ${libname}.i. In this way, it's possible to override
the common ${libname}.i file. If a fallback .i file does NOT exist,
UPM CMake will generate a simple interface file for all languages.
Example:
If no src/abp/pyupm_abp.i and no src/abp/abp.i then
generate ${CMAKE_CURRENT_BINARY_DIR}/abp.i
When src/CMakeLists.txt uses a common ${libname}.i, it adds a -module
<language>upm_${libname} to the swig command line.
In the example below, a -module argument is provided for both Java and
Javascript, while the python module takes all syntax from pyupm_abp.i.
SWIG FILE Language CMake added SWIG args
--------------- ---------- ---------------------
src/abp/abp.i java -module javaupm_abp
src/abp/abp.i javascript -module jsupm_abp
src/abp/pyupm_abp.i python
This commit removes ~4500 redundant lines for the UPM repository and
helps promote uniformity for the SWIG'ed languages.
Signed-off-by: Noel Eck <noel.eck@intel.com>
Touched on all library brief descriptions for better integration with ISS and fixed a few typos and connection tags in the process.
Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
This ensures the generated xml paragraphs for the connection field won't have nested children and hence should be readable by the ISS parser properly
Signed-off-by: Mihai Tudor Panu <mihai.tudor.panu@intel.com>
Added explicit error for sign compares to CMake. Updated a handful of C
source which compared unsigned vs signed.
Signed-off-by: Noel Eck <noel.eck@intel.com>
Since UPM uses doxy2swig, there is no need for the swig interface
file autodoc for python.
Also, turned on the doxy2swig --quiet switch which cleans up the build
log a tiny bit.
This removes a redundant chunk of documentation from python modules
(per each function).
Old:
def pH(self, samples=15):
+-> """
| pH(DFRPH self, unsigned int samples=15) -> float
|
| Parameters
| ----------
swig| samples: unsigned int
|
| pH(DFRPH self) -> float
|
| Parameters
| ----------
+-> self: upm::DFRPH *
+-> float pH(unsigned int
| samples=15)
|
| Take a number of samples and return the detected pH value. The default
| number of samples is 15.
|
doxy2swig| Parameters:
| -----------
|
| samples: The number of samples to average over, default 15
|
| The pH value detected
| """
+-> return _pyupm_dfrph.DFRPH_pH(self, samples)
New:
def pH(self, samples=15):
+-> """
| float pH(unsigned int
| samples=15)
|
| Take a number of samples and return the detected pH value. The default
| number of samples is 15.
|
doxy2swig| Parameters:
| -----------
|
| samples: The number of samples to average over, default 15
|
| The pH value detected
+-> """
Signed-off-by: Noel Eck <noel.eck@intel.com>
Many of the UPM libraries allocate space on the heap but do not
explicitly handle copying and assignment. This commit uses C++11 delete
to forbit both the copy and assignment operator for these classes.
The C++ examples which used assignment operators to initialize class
instances were also updated since it did not appear necessary in those
cases to use the assignment operator.
Signed-off-by: Noel Eck <noel.eck@intel.com>
* Updated pom file generation: Generate pom files after all sensor
library targets have been created - allows for dependencies
* Changes for compiling on Android
* Check for mraa build options: Look at symbols in mraa library to
determine UPM build options (example: mraa_iio_init, mraa_firmata_init)
* Add per target summary for C/C++/java/nodejs/python
* Added hierarchy to fti include directory...
old: #include "upm_voltage.h"
new: #include "fti/upm_voltage.h"
* Removed unimplemented methods from mpu9150 library and java example
* Add utilities-c target for all c examples. Most of the C examples
rely on the upm_delay methods. Add a dependency on the utilities-c
target for all c examples.
* Updated the examples/CMakeLists.txt to add dependencies passed via
TARGETS to the target name parsed from the example name. Also updated
the interface example names to start with 'interfaces'.
* Updated src/examples/CMakeLists.txt to ALWAYS remove examples from the
example_src_list (moved this from end of function to beginning).
Signed-off-by: Noel Eck <noel.eck@intel.com>
Ensure all src C++ headers which have corresponding C++ examples have
doxygen tags which point to those examples. Some were missing, some
were invalid, some needed to be updated to match the new example names.
Signed-off-by: Noel Eck <noel.eck@intel.com>
In an effort to clean-up and standardize UPM library
documentation, this commit updates (and in most cases,
unifies) the CMake description string AND CXX header
@comname string.
Strings were taken from datasheets when possible, spelling
mistakes were addressed, copy/paste errors where fixed,
Title Case was used, etc.
* Tested/updated/added @web tags
* Added/updated invalid sensor images
* Added/updated @man tags, added missing manufacturers
Signed-off-by: Noel Eck <noel.eck@intel.com>
uartat is the underlying UART driver, specifically for use with
AT-style command driven devices like modems.
The le910 support is provided in the form of examples that make use
of the uartat driver to interact with the device.
Signed-off-by: Jon Trulson <jtrulson@ics.com>
