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توضیحات

Extract and read data from National Instruments LabVIEW tdx/tdm files and export them as csv files

ویژگی	مقدار
سیستم عامل	OS Independent
نام فایل	TDMtermite-2.0.1
نام	TDMtermite
نسخه کتابخانه	2.0.1
نگهدارنده	['Record Evolution GmbH']
ایمیل نگهدارنده	[]
نویسنده	Record Evolution GmbH
ایمیل نویسنده	mario.fink@record-evolution.de
آدرس صفحه اصلی	https://github.com/RecordEvolution/TDMtermite.git
آدرس اینترنتی	https://pypi.org/project/TDMtermite/
مجوز	MIT License

# TDMtermite _TDMtermite_ is a C++ based library that decodes the proprietary file format _TDM/TDX_ for measurement data. First introduced by [National Instruments](https://www.ni.com), the TDM format relies on the _technical data management_ data model and is employed by [LabVIEW](https://www.ni.com/de-de/shop/labview.html), LabWindows™/CVI™, Measurement Studio, SignalExpress, and [DIAdem](https://www.ni.com/de-de/shop/data-acquisition-and-control/application-software-for-data-acquisition-and-control-category/what-is-diadem.html). The [Record Evolution Platform](https://www.record-evolution.de/en/home-en/) uses TDMtermite to integrate measurement data into ETL processes. The TDMtermite library is available both as a command line tool and as a Python module. The Python module of TDMtermite enables data scientists to conveniently include TDM formats in their existing data pipelines by providing access to both raw data and metadata in terms of native Python objects. ## Overview * [TDM file format](#Dataformat) * [Build and Installation](#Installation) * [Usage and Examples](#Usage) * [References](#References) ## Dataformat Datasets encoded in the TDM/TDX format come in pairs comprised of a .tdm (header) file and a .tdx (data) file. While the .tdm file is a human-readable file providing meta information about the dataset, the .tdx file is a binary file containing the actual data. The .tdm based on the _technical data management_ model is an XML file. It describes what data the .tdx file contains and how to read it. The [TDM data model](https://www.ni.com/de-de/support/documentation/supplemental/10/ni-tdm-data-model.html) structures the data hierarchically with respect to _file_, _(channel)_ _groups_ and _channels_. The file-level XML may contain any number of (channel) groups, each of which is made up of an arbitrary number of channels. Thus, the XML tree in the [TDM header file](https://zone.ni.com/reference/de-XX/help/370858P-0113/tdmdatamodel/tdmdatamodel/tdm_headerfile/) looks like this: ```xml <?xml version="1.0" encoding="UTF-8" standalone="no" ?> <usi:tdm xmlns:usi="http://www.ni.com/Schemas/USI/1_0" version="1.0"> <usi:documentation> <usi:exporter>National Instruments USI</usi:exporter> <usi:exporterVersion>1.5</usi:exporterVersion> </usi:documentation> <usi:model modelName="National Instruments USI generated meta file" modelVersion="1.0"> <usi:include nsUri="http://www.ni.com/DataModels/USI/TDM/1_0"/> </usi:model> <usi:include> <file byteOrder="littleEndian" url="example.tdx"> ... <block byteOffset="0" id="inc0" length="1000" valueType="eFloat64Usi"/> ... <block_bm id="inc4" blockOffset="100" blockSize="7" byteOffset="0" length="4" valueType="eInt8Usi"/> ... </usi:include> <usi:data> ... </usi:data> </usi:tdm> ``` The XML tree is comprised of _four_ main XML elements: `usi:documentation`, `usi:model`, `usi:include` and `usi:data`. The element `usi:include` references the data file `example.tdx` and reveals one of _two_ possible orderings of the mass data (.tdx): 1. either _channel-wise_ (`<block>`) - all values of a specific channel follow subsequently 1. or _block-wise_ (`<block_bm>`) - all values of a specific measurement time follow subsequently. The supported _numerical data types_ are: | datatype | channel datatype | numeric | value sequence | size | description | |-------------|------------------|---------|-----------------|-------|-------------------------| | eInt16Usi | DT_SHORT | 2 | short_sequence | 2byte | signed 16 bit integer | | eInt32Usi | DT_LONG | 6 | long_sequence | 4byte | signed 32 bit integer | | eUInt8Usi | DT_BYTE | 5 | byte_sequence | 1byte | unsigned 8 bit integer | | eUInt16Usi | DT_SHORT | 2 | short_sequence | 2byte | unsigned 16 bit integer | | eUInt32Usi | DT_LONG | 6 | long_sequence | 4byte | unsigned 32 bit integer | | eFloat32Usi | DT_FLOAT | 3 | float_sequence | 4byte | 32 bit float | | eFloat64Usi | DT_DOUBLE | 7 | double_sequence | 8byte | 64 Bit double | | eStringUsi | DT_STRING | 1 | string_sequence | | text | The XML element `<usi:data>` is comprised of _five_ different types of elements that are `<tdm_root>`, `<tdm_channelgroup>`, `<tdm_channel>`, `<localcolumn>` and `<submatrix>`. The root element `<tdm_root>` describes the general properties of the dataset and lists the _ids_ of all channel groups that belong to the dataset. The element `<tdm_channelgroup>` divides the _channels_ into groups and has a unique _id_ that is referenced by its root element. The `<channels>` element in `<tdm_channelgroup>` lists the unique ids of all channels that belong to that group. Finally, the element `<tdm_channel>` describes a single column of actual data including its datatype. The remaining element types are `<localcolumn>` ```xml <localcolumn id="usiXY"> <name>Untitled</name> <measurement_quantity>#xpointer(id("usiAB"))</measurement_quantity> <submatrix>#xpointer(id("usiMN"))</submatrix> <global_flag>15</global_flag> <independent>0</independent> <sequence_representation> ... </sequence_representation> <values>#xpointer(id("usiZ"))</values> </localcolumn> ``` with a unique id, the `<measurement_quantity>` referring to one specific channel, the `<submatrix>` and its id respectively, the type of representation in `<sequence_representation>` - being one of _explicit_, _implicit linear_ or _rawlinear_ - and the `<values>` element, which refers to one _value sequence_, and the element `<submatrix>` ```xml <submatrix id="usiXX"> <name>Untitled</name> <measurement>#xpointer(id("usiUV"))</measurement> <number_of_rows>N</number_of_rows> <local_columns>#xpointer(id("usiMN"))</local_columns> </submatrix> ``` that references the channel group in `<measurement>` to which it belongs and provides the _number of rows_ in the channels listed in `<local_columns>`. ## Installation The library can be used both as a _CLI_-based tool and as a _Python_ module. ### CLI tool To install the CLI tool _TDMtermite_, do ```Shell make install ``` which uses `/usr/local/bin` as an installation directory. On _macOSX_, please first build the binary locally with `make` and install it in your preferred location. ### Python In order to build a _Python module_ from the _C++_ code base, the [Cython](https://cython.readthedocs.io/en/latest/index.html) package must be available. It may be installed via `python3 -m pip install cython` . The [Numpy](https://numpy.org) package is recommended to pass arrays of data from the C++ kernel to Python. The _makefile_ provides the target `make cython-requirements` to install all required Python modules. Finally, to build the Python extension _tdm_termite_ locally or install it, the targets `make cython-build` and `make cython-install` are provided. To install the Python module on the system, simply do ```Shell make cython-requirements make cython-install ``` which makes the module available for import by `import tdm_termite` . #### Installation with pip The package is also available via the [Python Package Index](https://pypi.org) at [TDMtermite](https://pypi.org/project/TDMtermite/). To install the latest version simply do ```Shell python3 -m pip install TDMtermite ``` ##### Unix Note, that _python3_setuptools_ and _gcc version >= 10.2.0_ are required to successfully install and use it. ## Usage ### CLI tool The usage of the CLI tool is sufficiently clarified by its help message displayed by `tdmtermite --help`. To extract the data decoded in the pair of files `samples/SineData.tdm` and `samples/SineData.tdx` into the directory `/home/jack/data/`: ```Shell tdmtermite samples/SineData.tdm samples/SineData.tdx --output /home/jack/data ``` The tool can also be used to list the available objects in the TDM dataset, which are i.a. _channels_, _channelgroups_ and TDX _blocks_. To list all channels and channelgroups (without writing any file output): ```Shell tdmtermite samples/SineData.tdm samples/SineData.tdx --listgroups --listchannels ``` The user may also submit a _filenaming rule_ to control the names of the files the channel(group)s are written to. To this end, the _magic flags_ `%G` `%g`, `%C` and `%c` representing the group id, group name, channel index and channel name are defined. The default filenaming option is: ```Shell tdmtermite samples/SineData.tdm samples/SineData.tdx --output /home/jack/data --filenames channelgroup_%G.csv ``` This makes the tool write _all channels_ grouped into files according to their group association, while all channelgroup filenames obey the pattern `channelgroup_%G.csv`, with `%G` being replaced by the group id. The filenaming rule also enables the user to extract only a single channel(group) by providing a particular channel(group) id in the filenaming flag. For example, ```Shell tdmtermite samples/SineData.tdm samples/SineData.tdx --output /home/jack/data -f channel_usi16_%c.csv --includemeta ``` This will write the single channel with the id `usi16` to the file `/home/jack/data/channel_usi16_A4.csv`, including its meta-data as a file header. ### Python To be able to use the Python module _tdm_termite_, it first has to be built locally or installed on the system. In the Python interpreter, simply do: ```Python import TDMtermite ``` This will import the module. The TDM files are provided by creating an instance of the _tdmtermite_ class: ```Python # create 'tdmtermite' instance object try : jack = TDMtermite.tdmtermite(b'samples/SineData.tdm',b'samples/SineData.tdx') except RuntimeError as e: print("failed to load/decode TDM files: " + str(e)) ``` After initializing the _tdmtermite_ object, it can be used to extract any of the available data. For instance, to list the included channelgroups and channels: ```Python # list ids of channelgroups grpids = jack.get_channelgroup_ids() # list ids of channels chnids = jack.get_channel_ids() ``` As a use case, we have a look at listing the ids of all channelgroups and printing their data to separate files: ```Python import TDMtermite import re # create 'tdmtermite' instance object try : jack = TDMtermite.tdmtermite(b'samples/SineData.tdm',b'samples/SineData.tdx') except RuntimeError as e : print("failed to load/decode TDM files: " + str(e)) # list ids of channelgroups grpids = jack.get_channelgroup_ids() grpids = [x.decode() for x in grpids] print("list of channelgroups: ",grpids) for grp in grpids : # obtain meta data of channelgroups grpinfo = jack.get_channelgroup_info(grp.encode()) print( json.dumps(grpinfo,sort_keys=False,indent=4) ) # write this channelgroup to file try : grpname = re.sub('[^A-Za-z0-9]','',grpinfo['name']) grpfile = "channelgroup_" + str(grp) + "_" + str(grpname) + ".csv" jack.print_channelgroup(grp.encode(), # id of group to be printed grpfile.encode(), # filename True, # include metadata as fileheader ord(' ') # delimiter char ) except RuntimeError as e : print("failed to print channelgroup: " + str(grp) + " : " + str(e)) ``` For details, see this [extensive example](python/usage.py) and the absolute minimal example [minimal usage](python/minimal.py). In order to simply extract all data of the TDM datatset and dump it to files in a given (existing!) directory, do ```Python import TDMtermite jack = TDMtermite.tdmtermite(b'samples/SineData.tdm',b'samples/SineData.tdx') jack.write_all(b"./my_tdm_data_directory/") ``` The interface allows you to construct customized file/column headers from any meta-data and provide these headers for usage in file output (see this [example](python/custom.py)). ## References ### TDM - https://www.ni.com/de-de/support/documentation/supplemental/10/ni-tdm-data-model.html - https://zone.ni.com/reference/en-XX/help/371361R-01/lvconcepts/fileio_tdms_model/ - https://zone.ni.com/reference/en-XX/help/371361R-01/lvhowto/ni_test_data_exchange/ - https://www.ni.com/de-de/support/documentation/supplemental/06/the-ni-tdms-file-format.html - https://zone.ni.com/reference/de-XX/help/370858P-0113/tdmdatamodel/tdmdatamodel/tdm_headerfile/ - https://www.ni.com/content/dam/web/product-documentation/c_dll_tdm.zip ### IEEE Standard and datatypes - https://en.wikipedia.org/wiki/IEEE_754 - https://www.ias.ac.in/public/Volumes/reso/021/01/0011-0030.pdf - https://en.cppreference.com/w/cpp/language/types ### Implementation - https://en.cppreference.com/w/ - https://pugixml.org/ - https://github.com/zeux/pugixml - https://cython.readthedocs.io/en/latest/src/userguide/wrapping_CPlusPlus.html ### Packaging #### Documentation - https://packaging.python.org/tutorials/packaging-projects/ - https://setuptools.readthedocs.io/en/latest/userguide/declarative_config.html - https://test.pypi.org/account/register/ - https://github.com/pypa/auditwheel - https://github.com/pypa/python-manylinux-demo - https://github.com/pypa/manylinux #### C/C++ Extensions - https://docs.python.org/3/extending/building.html #### Articles - https://martinsosic.com/development/2016/02/08/wrapping-c-library-as-python-module.html - https://malramsay.com/post/perils-of-packaging/ - https://github.com/neuronsimulator/nrn/issues/329 - https://levelup.gitconnected.com/how-to-deploy-a-cython-package-to-pypi-8217a6581f09 - https://medium.com/swlh/distributing-python-packages-protected-with-cython-40fc29d84caf

نحوه نصب

نصب پکیج whl TDMtermite-2.0.1:

pip install TDMtermite-2.0.1.whl

نصب پکیج tar.gz TDMtermite-2.0.1:

pip install TDMtermite-2.0.1.tar.gz