ASCEE/lasp
ASCEE/lasp
5
1
Fork 0
Code Issues 5 Pull Requests Actions Releases 14 Activity

Merge branch 'drone_tests' into develop
Some checks failed
continuous-integration/drone/push Build is failing
Details

Browse Source
This commit is contained in:
Anne de Jong 2023-01-12 22:12:36 +01:00
commit 1734f8c278
10 changed files with 154 additions and 119 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

88
.drone.yml Normal file
View File

@ -0,0 +1,88 @@
kind: pipeline
type: docker
name: archlinux
clone:
depth: 50
steps:
- name: archlinux_build
image: archlinux_build
pull: if-not-exists
volumes:
- name: archlinux_ccache
path: /root/.ccache
commands:
# The following command is not required, we included this in the docker
# image of archlinux_build
# - pacman -S --noconfirm ccache openblas fftw pulseaudio pybind11
- git submodule update --init --recursive
- cmake .
# More than two makes ascee2 irresponsive for now
- make -j2
- name: archlinux_test
image: archlinux_build
pull: if-not-exists
commands:
# The following command is not required, we included this in the docker
# image of archlinux_build
# - pacman -S --noconfirm openblas python-pytest fftw pulseaudio python-pip python-scipy python-h5py
- pip install -r requirements.txt
- pip install .
- pytest
# - name: release-arch
# commands:
# -
volumes:
- name: archlinux_ccache
host:
path: /tmp/archlinux_ccache
---
kind: pipeline
type: docker
name: ubuntu
clone:
depth: 3
volumes:
- name: archlinux_ccache
path: /root/.ccache
steps:
- name: ubuntu_build
image: ubuntu
pull: if-not-exists
volumes:
- name: ubuntu_ccache
path: /root/.ccache
commands:
# The following commands are not required, we included this in the docker
# image of ubuntu_build
#- apt update
#- apt install -y git cmake python3-pybind11 libopenblas-dev python3-pip python3-scipy libusb-1.0-0-dev libpulse-dev python3-h5py fftw-dev
- git submodule update --init --recursive
- cmake .
# More than two makes ascee2 irresponsive for now
- make -j2
- name: ubuntu_test
image: ubuntu
pull: if-not-exists
commands:
# The following commands are not required, we included this in the docker
# image of ubuntu_build
#- apt update
#- apt install -y python3-pytest fftw pulseaudio python3-pip python3-scipy python3-h5py
- pip install -r requirements.txt
- pip install .
- pytest-3
volumes:
- name: ubuntu_ccache
host:
path: /tmp/ubuntu_ccache

4
README.md
View File

@ -1,5 +1,7 @@
# Library for Acoustic Signal Processing
[![Build Status](https://drone.ascee.nl/api/badges/ASCEE/lasp/status.svg)](https://drone.ascee.nl/ASCEE/lasp)
Welcome to LASP: Library for Acoustic Signal Processing. LASP is a C++ library
with a Python interface which is supposed to acquire and process (multi) sensor data in real time on a PC and output results.
@ -32,7 +34,7 @@ If you have any question(s), please feel free to contact us: info@ascee.nl.
## Dependencies
- `$ sudo apt install libopenblas-dev python3-pip python3-scipy libusb-dev libpulse-dev cmake-curses-gui python3-h5py`
- `$ sudo apt install python3-pybind11 libopenblas-dev python3-pip python3-scipy libusb-1.0-0-dev libpulse-dev cmake-curses-gui python3-h5py`
- `$ pip3 install --user -r requirements.txt`

7
test/test_biquadbank.py → examples/example_biquadbank.py
View File

@ -2,15 +2,10 @@
import numpy as np
from lasp import SeriesBiquad, AvPowerSpectra
from lasp.filter import SPLFilterDesigner
import matplotlib.pyplot as plt
from scipy.signal import sosfreqz
# plt.close('all')
plt.close('all')
# def test_cppslm2():
# """
# Generate a sine wave, now A-weighted
# """
fs = 48000
omg = 2*np.pi*1000

17
pyproject.toml
View File

@ -1,17 +0,0 @@
[project] # Project metadata
name = "lasp"
readme = "README.md"
requires-python = ">=3.8"
license = { "file" = "LICENSE" }
authors = [{ "name" = "J.A. de Jong et al.", "email" = "info@ascee.nl" }]
classifiers = [
"Topic :: Scientific/Engineering",
"Programming Language :: Python :: 3.8",
"Operating System :: POSIX :: Linux",
"Operating System :: Microsoft :: Windows",
]
# urls = { "Documentation" = "https://" }
dynamic = ["version", "description"]

1
requirements.txt
View File

@ -1,2 +1,3 @@
appdirs
dataclasses_json
matplotlib

24
setup.py
View File

@ -1,16 +1,22 @@
import glob
import glob, os
import platform
from setuptools import setup
if 'Linux' in platform.platform():
extension = list(glob.glob('src/lasp/lasp_cpp.cpython*'))
if len(extension) == 0:
ext_name_glob = 'lasp_cpp.cpython*'
extensions = list(glob.glob('src/lasp/' + ext_name_glob))
# Split of path from file.
ext_names = [os.path.split(a)[1] for a in extensions]
print(extensions)
if len(extensions) == 0:
raise RuntimeError('Please first run CMake to build extension')
elif len(extension) > 1:
elif len(extensions) > 1:
raise RuntimeError('Too many extension files found')
pkgdata = extension
pkgdata = ext_names
else:
raise RuntimeError('Not yet Windows-proof')
@ -24,9 +30,6 @@ classifiers = [
keywords = ["DSP", "DAQ", "Signal processing"]
with open('README.md', 'r') as f:
readme = f.read()
setup(
name="lasp",
@ -40,12 +43,11 @@ setup(
classifiers=classifiers,
keywords=keywords,
license="MIT",
readme=readme,
dependencies=["numpy", "scipy", "appdirs", "h5py", "appdirs",
"dataclasses_json"],
package_dir={"": "src"},
packages=['lasp', 'lasp.filter', 'lasp.tools'],
data_files = pkgdata,
include_package_data=True,
package_dir={'': 'src'},
package_data={'lasp': pkgdata},
python_requires='>=3.8',
)

2
test/test_aps.py
View File

@ -8,8 +8,6 @@ Created on Mon Jan 15 19:45:33 2018
import numpy as np
from lasp import AvPowerSpectra, Window
import matplotlib.pyplot as plt
# plt.close('all')
def test_aps1():
nfft = 16384

57
test/test_cppslm.py
View File

@ -2,26 +2,27 @@
import numpy as np
from lasp import cppSLM
from lasp.filter import SPLFilterDesigner
import matplotlib.pyplot as plt
def test_cppslm1():
"""
Generate a sine wave
"""
fs = 48000
omg = 2*np.pi*1000
omg = 2 * np.pi * 1000
slm = cppSLM.fromBiquads(fs, 2e-5, 1, 0.125, [1.,0,0,1,0,0])
slm = cppSLM.fromBiquads(fs, 2e-5, 1, 0.125,
np.array([[1., 0, 0, 1, 0, 0]]).T)
t = np.linspace(0, 10, 10*fs, endpoint=False)
t = np.linspace(0, 10, 10 * fs, endpoint=False)
# Input signal with an rms of 1 Pa
in_ = np.sin(omg*t)*np.sqrt(2)
in_ = np.sin(omg * t) * np.sqrt(2)
# Compute overall RMS
rms = np.sqrt(np.sum(in_**2)/in_.size)
rms = np.sqrt(np.sum(in_**2) / in_.size)
# Compute overall level
level = 20*np.log10(rms/2e-5)
level = 20 * np.log10(rms / 2e-5)
# Output of SLM
out = slm.run(in_)
@ -29,7 +30,7 @@ def test_cppslm1():
# Output of SLM should be close to theoretical
# level, at least for reasonable time constants
# (Fast, Slow etc)
assert(np.isclose(out[-1,0], level))
assert (np.isclose(out[-1, 0], level))
def test_cppslm2():
@ -37,20 +38,23 @@ def test_cppslm2():
Generate a sine wave, now A-weighted
"""
fs = 48000
omg = 2*np.pi*1000
omg = 2 * np.pi * 1000
filt = SPLFilterDesigner(fs).A_Sos_design()
slm = cppSLM.fromBiquads(fs, 2e-5, 0, 0.125, filt.flatten(), [1.,0,0,1,0,0])
slm = cppSLM.fromBiquads(fs, 2e-5, 0, 0.125,
filt.flatten(), # Pre-filter coefs
np.array([[1., 0, 0, 1, 0, 0]]).T # Bandpass coefs
)
t = np.linspace(0, 10, 10*fs, endpoint=False)
t = np.linspace(0, 10, 10 * fs, endpoint=False)
# Input signal with an rms of 1 Pa
in_ = np.sin(omg*t) *np.sqrt(2)
in_ = np.sin(omg * t) * np.sqrt(2)
# Compute overall RMS
rms = np.sqrt(np.sum(in_**2)/in_.size)
rms = np.sqrt(np.sum(in_**2) / in_.size)
# Compute overall level
level = 20*np.log10(rms/2e-5)
level = 20 * np.log10(rms / 2e-5)
# Output of SLM
out = slm.run(in_)
@ -58,32 +62,33 @@ def test_cppslm2():
# Output of SLM should be close to theoretical
# level, at least for reasonable time constants
# (Fast, Slow etc)
assert np.isclose(out[-1,0], level, atol=1e-2)
assert np.isclose(out[-1, 0], level, atol=1e-2)
def test_cppslm3():
fs = 48000
omg = 2*np.pi*1000
omg = 2 * np.pi * 1000
filt = SPLFilterDesigner(fs).A_Sos_design()
slm = cppSLM.fromBiquads(fs, 2e-5, 0, 0.125, filt.flatten(), [1.,0,0,1,0,0])
t = np.linspace(0, 10, 10*fs, endpoint=False)
slm = cppSLM.fromBiquads(fs, 2e-5, 0, 0.125,
filt.flatten(),
np.array([[1., 0, 0, 1, 0, 0]]).T)
t = np.linspace(0, 10, 10 * fs, endpoint=False)
in_ = 10*np.sin(omg*t) * np.sqrt(2)+np.random.randn()
in_ = 10 * np.sin(omg * t) * np.sqrt(2) + np.random.randn()
# Compute overall RMS
rms = np.sqrt(np.sum(in_**2)/in_.size)
rms = np.sqrt(np.sum(in_**2) / in_.size)
# Compute overall level
level = 20*np.log10(rms/2e-5)
level = 20 * np.log10(rms / 2e-5)
# Output of SLM
out = slm.run(in_)
Lpeak = 20*np.log10(np.max(np.abs(in_)/2e-5))
Lpeak = 20 * np.log10(np.max(np.abs(in_) / 2e-5))
Lpeak
slm.Lpeak()
assert np.isclose(out[-1,0], slm.Leq()[0][0], atol=1e-2)
assert np.isclose(Lpeak, slm.Lpeak()[0][0], atol=2e0)
assert np.isclose(out[-1, 0], slm.Leq()[0], atol=1e-2)
assert np.isclose(Lpeak, slm.Lpeak()[0], atol=2e0)
if __name__ == '__main__':

2
test/test_ps.py
View File

@ -5,8 +5,6 @@ Testing code for power spectra
"""
import numpy as np
from lasp import PowerSpectra, Window
# import matplotlib.pyplot as plt
# plt.close('all')
def test_ps():
"""

37
test/test_slm.py
View File

@ -1,37 +0,0 @@
#!/usr/bin/python3
import numpy as np
from lasp import SLM
nframes = 0
samplerate = 48000
omg = 2*np.pi*1000
# def mycallback(input_, nframes, streamtime):
# t = np.linspace(streamtime, streamtime + nframes/samplerate,
# nframes)[np.newaxis,:]
# outp = 0.1*np.sin(omg*t)
# return outp, 0
# if __name__ == '__main__':
# pa = RtAudio()
# count = pa.getDeviceCount()
# # dev = pa.getDeviceInfo(0)
# for i in range(count):
# dev = pa.getDeviceInfo(i)
# print(dev)
# outputparams = {'deviceid': 0, 'nchannels': 1, 'firstchannel': 0}
# pa.openStream(outputparams, None , Format_FLOAT64,samplerate, 512, mycallback)
# pa.startStream()
# input()
# pa.stopStream()
# pa.closeStream()