Esempio n. 1
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def test_buoy_parser_02():
    parser = buoyparsers.GlobalDrifterParser()
    doc = parser.parse('test_resources/buoydata.dat')
#     doc = parser.parse('/Users/egg/Temp/oceancurrents/globaldrifter/buoydata_5001_sep12.dat')
    doc.combine_range('TEMP')
    orchestra_file = 'csound_files/bowed_string.orc'
    renderer = CsoundRenderer(orchestra_file)
    sine_to_csound_map = {'LAT': 'amplitude', 'LON': 'pressure', 'TEMP': 'bow_position'}
    transformed_doc = doc.transform(sine_to_csound_map, renderer)
    result = renderer.render(transformed_doc, filename='/tmp/t.csd', play=False)
    known_result = '\ni    1    8.35714285714    0.336428571429    0.0    220.1    1.08011444921    0.14756946158\n</CsScore>\n\n</CsoundSynthesizer>\n'
    assert known_result in result
Esempio n. 2
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def test_csound_from_orchestra_file():
    parser = MultiSineDictParser()

    # Generate some raw data
    sinelist = []
    for i in range(3):
        sines = generate_sines(3, 128, factor=i)
        sinelist.append(sines)

    doc = parser.parse(sinelist)
    doc.sample_rate = 5

    orchestra_file = 'csound_files/bowed_string.orc'
    renderer = CsoundRenderer(orchestra_file)
    sine_to_csound_map = {0: 'amplitude', 1: 'pressure', 2: 'bow_position'}
    transformed_doc = doc.transform(sine_to_csound_map, renderer)
    # pp(transformed_doc)
    result = renderer.render(transformed_doc, filename='/tmp/t.csd', play=False)
    known_result = 'p5 - frequency (Hz)\n            \n            */\n            \n            ; function table moved to orchestra\n            \n            \ni    1    0.0    0.193571428571    0.160885686814    146.7    4.90556786078    0.102379805523\ni    1    0.214285714286'
    assert known_result in result