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48 changed files with 854 additions and 1061 deletions

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@ -12,7 +12,7 @@ jobs:
- lasp_dist:/dist - lasp_dist:/dist
steps: steps:
- name: Checkout - name: Checkout
uses: actions/checkout@v3 uses: actions/checkout@v4
with: with:
submodules: true submodules: true
@ -25,7 +25,7 @@ jobs:
- name: Cleanup old dist files and copy new to /dist dir - name: Cleanup old dist files and copy new to /dist dir
run: |- run: |-
rm -f /dist/* rm /dist/*
cp -v dist/* /dist cp -v dist/* /dist
Release-Ubuntu: Release-Ubuntu:

3
.gitignore vendored
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@ -21,6 +21,3 @@ acme_log.log
.venv .venv
.py-build-cmake_cache .py-build-cmake_cache
cpp_src/lasp_config.h cpp_src/lasp_config.h
.cache
.vscode
build

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@ -1,28 +1,17 @@
cmake_minimum_required(VERSION 3.16) cmake_minimum_required (VERSION 3.16)
project(LASP LANGUAGES C CXX VERSION 1.6.3) project(LASP LANGUAGES C CXX VERSION 1.1)
set(CMAKE_CXX_STANDARD 17) set(CMAKE_CXX_STANDARD 17)
set(CMAKE_CXX_STANDARD_REQUIRED) set(CMAKE_CXX_STANDARD_REQUIRED)
# Experimental: support for Raspberry Pi (64-bit architectures) option(LASP_DOUBLE_PRECISION "Compile as double precision floating point" ON)
if(${CMAKE_SYSTEM_PROCESSOR} STREQUAL "aarch64")
set(RPI TRUE)
else()
set(RPI FALSE)
endif()
# Setting defaults for PortAudio and RtAudio backend, depending on Linux / # Setting defaults for PortAudio and RtAudio backend, depending on Linux /
# Windows. # Windows.
set(DEFAULT_DOUBLE_PRECISION ON)
if(WIN32) if(WIN32)
set(DEFAULT_RTAUDIO OFF) set(DEFAULT_RTAUDIO OFF)
set(DEFAULT_PORTAUDIO ON) set(DEFAULT_PORTAUDIO ON)
set(DEFAULT_ULDAQ OFF) set(DEFAULT_ULDAQ OFF)
elseif(${RPI})
set(DEFAULT_RTAUDIO OFF)
set(DEFAULT_PORTAUDIO ON)
set(DEFAULT_ULDAQ OFF)
set(DEFAULT_DOUBLE_PRECISION OFF)
else() else()
set(DEFAULT_RTAUDIO OFF) set(DEFAULT_RTAUDIO OFF)
set(DEFAULT_PORTAUDIO ON) set(DEFAULT_PORTAUDIO ON)
@ -30,7 +19,6 @@ else()
endif() endif()
option(LASP_DOUBLE_PRECISION "Compile as double precision floating point" ${DEFAULT_DOUBLE_PRECISION})
option(LASP_HAS_RTAUDIO "Compile with RtAudio Daq backend" ${DEFAULT_RTAUDIO}) option(LASP_HAS_RTAUDIO "Compile with RtAudio Daq backend" ${DEFAULT_RTAUDIO})
option(LASP_HAS_PORTAUDIO "Compile with PortAudio Daq backend" ${DEFAULT_PORTAUDIO}) option(LASP_HAS_PORTAUDIO "Compile with PortAudio Daq backend" ${DEFAULT_PORTAUDIO})
if(LASP_HAS_PORTAUDIO AND LASP_HAS_RTAUDIO) if(LASP_HAS_PORTAUDIO AND LASP_HAS_RTAUDIO)
@ -56,6 +44,7 @@ cmake_policy(SET CMP0079 NEW)
set(CMAKE_EXPORT_COMPILE_COMMANDS ON) set(CMAKE_EXPORT_COMPILE_COMMANDS ON)
set(CMAKE_MODULE_PATH ${CMAKE_MODULE_PATH} "${PROJECT_SOURCE_DIR}/cmake") set(CMAKE_MODULE_PATH ${CMAKE_MODULE_PATH} "${PROJECT_SOURCE_DIR}/cmake")
include_directories(/usr/include/python3.8)
include("BuildType") include("BuildType")
include("QueryPythonForPybind11") include("QueryPythonForPybind11")
@ -116,20 +105,13 @@ else()
endif() endif()
# ###################################### Compilation flags # ###################################### Compilation flags
set(CMAKE_C_FLAGS_RELEASE "-O3 -flto -mtune=native \ set(CMAKE_C_FLAGS_RELEASE "-O3 -flto -mfpmath=sse -march=x86-64 -mtune=native \
-fdata-sections -ffunction-sections -fomit-frame-pointer -finline-functions") -fdata-sections -ffunction-sections -fomit-frame-pointer -finline-functions")
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Wall -Wextra -Wno-type-limits -Werror=return-type") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Wall -Wextra -Wno-type-limits -Werror=return-type")
set(CMAKE_CXX_FLAGS_RELEASE "-O3 -flto -mtune=native \
-fdata-sections -ffunction-sections -fomit-frame-pointer -finline-functions")
if(NOT ${RPI})
set(CMAKE_C_FLAGS_RELEASE "${CMAKE_C_FLAGS_RELEASE} -mfpmath=sse -march=x86-64")
set(CMAKE_CXX_FLAGS_RELEASE "${CMAKE_CXX_FLAGS_RELEASE} -mfpmath=sse -march=x86-64")
endif()
set(CMAKE_CXX_FLAGS_DEBUG "-O0 -g -Wall ")
# ############################# End compilation flags # ############################# End compilation flags
include_directories(/usr/lib/python3.10/site-packages/numpy/core/include)
# ####################################### End of user-adjustable variables section # ####################################### End of user-adjustable variables section
include(OSSpecific) include(OSSpecific)

112
README.md
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@ -1,5 +1,4 @@
Library for Acoustic Signal Processing # Library for Acoustic Signal Processing
======================================
Welcome to LASP: Library for Acoustic Signal Processing. LASP is a C++ library Welcome to LASP: Library for Acoustic Signal Processing. LASP is a C++ library
@ -44,18 +43,19 @@ in a sister repository [lasp-doc](https://code.ascee.nl/ascee/lasp-doc).
If you have any question(s), please feel free to contact us: [email](info@ascee.nl). If you have any question(s), please feel free to contact us: [email](info@ascee.nl).
# Installation - Linux (Ubuntu-based) # Installation - Linux (Ubuntu-based)
## Prerequisites ## From wheel (recommended for non-developers)
### Prerequisites
Run the following on the command line to install all prerequisites on Run the following on the command line to install all prerequisites on
Debian-based Linux, x86-64: Debian-based Linux:
- `sudo apt install python3-pip libfftw3-3 libopenblas-base libusb-1.0-0 libpulse0` - `sudo apt install python3-pip libfftw3-3 libopenblas-base libusb-1.0-0
libpulse0`
### Download and install LASP
## Installation from wheel (recommended for non-developers)
Go to: [LASP releases](https://code.ascee.nl/ASCEE/lasp/releases/latest/) and Go to: [LASP releases](https://code.ascee.nl/ASCEE/lasp/releases/latest/) and
download the latest `.whl`. Then run: download the latest `.whl`. Then run:
@ -84,65 +84,35 @@ If building RtAudio with the Jack Audio Connection Kit (JACK) backend, you will
- `$ cd lasp` - `$ cd lasp`
- `pip install -e .` - `pip install -e .`
# Building and installation for Raspberry Pi (Raspberry Pi OS) # Installation - (x86_64) Windows (with WinPython), build with MSYS2 (NOT YET UPDATED!!)
Run the following on the command line to install all prerequisites on
Raspberry Pi OS:
- `sudo apt install libfftw3-dev libopenblas64-dev libhdf5-dev libclalsadrv-dev`
In a virtualenv: install `build`
- `$ pip install build`
Then run:
- `$ git clone --recursive https://code.ascee.nl/ASCEE/lasp.git`
- `$ cd lasp`
- `$ pyproject-build`
Which will generate a `whl` in the `dist` folder, that is redistributable for Raspberry Pis that run Raspberry Pi OS.
When installing the `whl`, it appears that H5PY takes quite some time to install. To follow this process, run it it verbose mode.
# Installation - (x86_64) Windows (with WinPython), build with MSYS2
## Prerequisites ## Prerequisites
- Download and install [WinPython](https://winpython.github.io) - Download and install [WinPython](https://winpython.github.io)
## From wheel
- Download latest wheel from [LASP releases](https://code.ascee.nl/ASCEE/lasp/releases/latest/) and
download the latest `.whl`. Then install with `pip`.
## From source
- Download and install [MSYS2](https://msys2.org). Make sure to install the - Download and install [MSYS2](https://msys2.org). Make sure to install the
x86_64 version. x86_64 version.
- Download and install [Git for Windows](https://git-scm.com)
- When unzipping WinPython, make sure to choose a proper and simple path, i.e. - When unzipping WinPython, make sure to choose a proper and simple path, i.e.
C:\winpython C:\winpython
- Download and install [Git for Windows](https://git-scm.com) - Append C:\winpython\ to the PATH environment variable.
- Open an MSYS2 **MINGW64** terminal, and install some tools we require: - Run Python and install Pybind11
- `$ pacman -S git` - `python -m pip install pybind11`
- Create a new virtualenv:
- `$ /c/winpython/<py-distr-dir>/python.exe -m venv venv`
- Add the venv-python to the path (eases a lot of commands) - Open a msys2 **MINGW64** terminal. And run:
- `$ export PATH=$PATH:~/venv/Scripts`
- Install `build`: - `pacman -S git`
- `$ pip install build`
- Clone LASP: - Then clone the LASP repo:
- `$ git clone --recurse-submodules https://code.ascee.nl/ascee/lasp && cd lasp`
- If run for the first time, we have to install the libraries we depend on in - `git clone https://code.ascee.nl/ascee/lasp`
MSYS2 (this only has to be done on a fresh MSYS2 installation): - `cd lasp`
- `$ scripts/install_msys2_builddeps.sh`
- Copy over required DLL's to be included in distribution: - Configure MSYS2 further, and run cmake:
- `scripts/copy_windows_dlls.sh`
- And... build! - `scripts/install_msys2_buiddeps.sh`
- `pyproject-build` - `scripts/configur_cmake_msys2.sh`
- Lastly: the generated wheel can be installed in the current virtualenv:
- `pip install dist/lasp*.whl`
# Documentation # Documentation
@ -151,7 +121,7 @@ download the latest `.whl`. Then install with `pip`.
[Online LASP documentation](https://lasp.ascee.nl/). [Online LASP documentation](https://lasp.ascee.nl/).
## In directory (Linux/Debian) ## In directory
`$ sudo apt install doxygen graphviz` `$ sudo apt install doxygen graphviz`
`$ pip install doxypypy` `$ pip install doxypypy`
@ -168,25 +138,3 @@ This will build the documentation. It can be read by:
- See examples directories for IPython notebooks. - See examples directories for IPython notebooks.
- Please refer to the [documentation](https://lasp.ascee.nl/) for features. - Please refer to the [documentation](https://lasp.ascee.nl/) for features.
# Development docs
## Bumping version number
When bumping the version number, please update the number in
- `pyproject.toml`
- `CMakeLists.txt`
Then, create a commit with tag `vX.X.X`, and push it.
## Updating to latest version (editable mode)
When updating to the latest version of LASP in editable mode:
```bash
- $ git pull
- $ git submodule update
- $ pip install -e . -v
```

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@ -2,11 +2,6 @@
if(LASP_HAS_PORTAUDIO) if(LASP_HAS_PORTAUDIO)
message("Building with Portaudio backend") message("Building with Portaudio backend")
if(WIN32) if(WIN32)
set(PA_USE_ALSA FALSE CACHE BOOL "Build PortAudio with ALSA backend")
set(PA_USE_ASIO TRUE CACHE BOOL "Build PortAudio with ASIO backend")
set(PA_USE_DS FALSE CACHE BOOL "Build PortAudio with Directsound backend")
set(PA_USE_WMME FALSE CACHE BOOL "Build PortAudio with WMME backend")
set(PA_USE_WDMKS FALSE CACHE BOOL "Build PortAudio with WDMKS backend")
else() else()
# Unix # Unix
set(PA_USE_ALSA TRUE CACHE BOOL "Build PortAudio with ALSA backend") set(PA_USE_ALSA TRUE CACHE BOOL "Build PortAudio with ALSA backend")
@ -14,15 +9,7 @@ if(LASP_HAS_PORTAUDIO)
set(PA_USE_PULSEAUDIO FALSE CACHE BOOL "Build PortAudio with PulseAudio backend") set(PA_USE_PULSEAUDIO FALSE CACHE BOOL "Build PortAudio with PulseAudio backend")
set(PA_BUILD_SHARED_LIBS FALSE CACHE BOOL "Build static library") set(PA_BUILD_SHARED_LIBS FALSE CACHE BOOL "Build static library")
endif() endif()
add_subdirectory(third_party/portaudio) add_subdirectory(third_party/portaudio)
include_directories(third_party/portaudio/include) include_directories(third_party/portaudio/include)
link_directories(third_party/portaudio) link_directories(third_party/portaudio)
if(PA_USE_ALSA)
add_definitions(-DLASP_HAS_PA_ALSA=1)
else()
add_definitions(-DLASP_HAS_PA_ALSA=0)
endif()
endif() endif()

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@ -38,26 +38,18 @@ pybind11_add_module(lasp_cpp MODULE lasp_cpp.cpp
target_link_libraries(lasp_cpp PRIVATE lasp_device_lib lasp_dsp_lib target_link_libraries(lasp_cpp PRIVATE lasp_device_lib lasp_dsp_lib
${OpenMP_CXX_LIBRARIES} ${LASP_FFT_LIBS} ${TARGET_OS_LINKLIBS}) ${OpenMP_CXX_LIBRARIES} ${LASP_FFT_LIBS} ${TARGET_OS_LINKLIBS})
target_compile_definitions(lasp_cpp PRIVATE
MODULE_NAME=$<TARGET_FILE_BASE_NAME:lasp_cpp>
VERSION_INFO="${PY_FULL_VERSION}"
)
# Hide all symbols by default (including external libraries on Linux)
if(CMAKE_BUILD_TYPE STREQUAL "Release")
set_target_properties(lasp_cpp PROPERTIES
CXX_VISIBILITY_PRESET "hidden"
VISIBILITY_INLINES_HIDDEN true)
if (CMAKE_SYSTEM_NAME MATCHES "Linux")
target_link_options(lasp_cpp PRIVATE "LINKER:--exclude-libs,ALL")
endif()
endif()
if(DEFINED PY_BUILD_CMAKE_MODULE_NAME) if(DEFINED PY_BUILD_CMAKE_MODULE_NAME)
# Install the Python module # Install the Python module
install(TARGETS lasp_cpp install(TARGETS lasp_cpp
EXCLUDE_FROM_ALL EXCLUDE_FROM_ALL
COMPONENT python_modules COMPONENT python_modules
DESTINATION ${PY_BUILD_CMAKE_MODULE_NAME}) DESTINATION ${PY_BUILD_CMAKE_MODULE_NAME})
# Install the debug file for the Python module (Windows only)
if (WIN32)
install(FILES $<TARGET_PDB_FILE:_add_module>
EXCLUDE_FROM_ALL
COMPONENT python_modules
DESTINATION ${PY_BUILD_CMAKE_MODULE_NAME}
OPTIONAL)
endif()
endif() endif()

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@ -1,4 +1,4 @@
// #define DEBUGTRACE_ENABLED /* #define DEBUGTRACE_ENABLED */
#include "debugtrace.hpp" #include "debugtrace.hpp"
#include "lasp_daqconfig.h" #include "lasp_daqconfig.h"

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@ -1,11 +1,11 @@
// #define DEBUGTRACE_ENABLED /* #define DEBUGTRACE_ENABLED */
#include "lasp_indatahandler.h" #include "lasp_indatahandler.h"
#include "debugtrace.hpp" #include "debugtrace.hpp"
#include "lasp_streammgr.h" #include "lasp_streammgr.h"
#include <thread> #include <thread>
InDataHandler::InDataHandler(SmgrHandle mgr, const InCallbackType cb, InDataHandler::InDataHandler(SmgrHandle mgr, const InCallbackType cb,
const ResetCallbackType resetfcn) const InResetType resetfcn)
: _mgr(mgr), inCallback(cb), reset(resetfcn) : _mgr(mgr), inCallback(cb), reset(resetfcn)
#if LASP_DEBUG == 1 #if LASP_DEBUG == 1
, ,
@ -29,22 +29,20 @@ void InDataHandler::start() {
} }
void InDataHandler::stop() { void InDataHandler::stop() {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
// checkRightThread(); checkRightThread();
#if LASP_DEBUG == 1 #if LASP_DEBUG == 1
stopCalled = true; stopCalled = true;
#endif #endif
if (SmgrHandle smgr = _mgr.lock()) { if (SmgrHandle handle = _mgr.lock()) {
smgr->removeInDataHandler(*this); handle->removeInDataHandler(*this);
} else {
DEBUGTRACE_PRINT("No stream manager alive anymore!");
} }
} }
InDataHandler::~InDataHandler() { InDataHandler::~InDataHandler() {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
checkRightThread();
#if LASP_DEBUG == 1 #if LASP_DEBUG == 1
// checkRightThread();
if (!stopCalled) { if (!stopCalled) {
std::cerr << "************ BUG: Stop function not called while arriving at " std::cerr << "************ BUG: Stop function not called while arriving at "
"InDataHandler's destructor. Fix this by calling " "InDataHandler's destructor. Fix this by calling "

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@ -22,7 +22,7 @@ using InCallbackType = std::function<void(const DaqData &)>;
/** /**
* @brief Function definition for the reset callback. * @brief Function definition for the reset callback.
*/ */
using ResetCallbackType = std::function<void(const Daq *)>; using InResetType = std::function<void(const Daq *)>;
class InDataHandler { class InDataHandler {
@ -38,7 +38,7 @@ protected:
public: public:
~InDataHandler(); ~InDataHandler();
const InCallbackType inCallback; const InCallbackType inCallback;
const ResetCallbackType reset; const InResetType reset;
/** /**
* @brief When constructed, the handler is added to the stream manager, which * @brief When constructed, the handler is added to the stream manager, which
@ -50,7 +50,7 @@ public:
* changes state. * changes state.
*/ */
InDataHandler(SmgrHandle mgr, InCallbackType cb, InDataHandler(SmgrHandle mgr, InCallbackType cb,
ResetCallbackType resetfcn); InResetType resetfcn);
/** /**
* @brief Adds the current InDataHandler to the list of handlers in the * @brief Adds the current InDataHandler to the list of handlers in the

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@ -1,4 +1,4 @@
// #define DEBUGTRACE_ENABLED /* #define DEBUGTRACE_ENABLED */
#include "lasp_streammgr.h" #include "lasp_streammgr.h"
#include <assert.h> #include <assert.h>
@ -8,15 +8,12 @@
#include <iostream> #include <iostream>
#include <memory> #include <memory>
#include <mutex> #include <mutex>
#include <thread>
#include "debugtrace.hpp" #include "debugtrace.hpp"
#include "lasp_biquadbank.h" #include "lasp_biquadbank.h"
#include "lasp_indatahandler.h" #include "lasp_indatahandler.h"
#include "lasp_thread.h" #include "lasp_thread.h"
using namespace std::literals::chrono_literals;
using std::cerr; using std::cerr;
using std::endl; using std::endl;
using rte = std::runtime_error; using rte = std::runtime_error;
@ -30,7 +27,7 @@ using rte = std::runtime_error;
std::weak_ptr<StreamMgr> _mgr; std::weak_ptr<StreamMgr> _mgr;
std::mutex _mgr_mutex; std::mutex _mgr_mutex;
using Lck = std::scoped_lock<std::recursive_mutex>; using Lck = std::scoped_lock<std::mutex>;
/** /**
* @brief The only way to obtain a stream manager, can only be called from the * @brief The only way to obtain a stream manager, can only be called from the
@ -41,11 +38,11 @@ using Lck = std::scoped_lock<std::recursive_mutex>;
SmgrHandle StreamMgr::getInstance() { SmgrHandle StreamMgr::getInstance() {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
std::scoped_lock<std::mutex> lck(_mgr_mutex);
auto mgr = _mgr.lock(); auto mgr = _mgr.lock();
if (!mgr) { if (!mgr) {
// Double Check Locking Pattern, if two threads would simultaneously // Double Check Locking Pattern, if two threads would simultaneously
// instantiate the singleton instance. // instantiate the singleton instance.
Lck lck(_mgr_mutex);
auto mgr = _mgr.lock(); auto mgr = _mgr.lock();
if (mgr) { if (mgr) {
@ -87,45 +84,37 @@ void StreamMgr::rescanDAQDevices(bool background,
std::function<void()> callback) { std::function<void()> callback) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
DEBUGTRACE_PRINT(background); DEBUGTRACE_PRINT(background);
if (_scanningDevices) {
throw rte("A background device scan is already busy");
}
Lck lck(_mtx);
checkRightThread(); checkRightThread();
if (_inputStream || _outputStream) { if (_inputStream || _outputStream) {
throw rte("Rescanning DAQ devices only possible when no stream is running"); throw rte("Rescanning DAQ devices only possible when no stream is running");
} }
if (!_devices_mtx.try_lock()) {
throw rte("A background DAQ device scan is probably already running");
}
_devices_mtx.unlock();
std::scoped_lock lck(_devices_mtx);
_devices.clear(); _devices.clear();
if (!background) { if (!background) {
_scanningDevices = true;
rescanDAQDevices_impl(callback); rescanDAQDevices_impl(callback);
} else { } else {
DEBUGTRACE_PRINT("Rescanning DAQ devices on different thread..."); DEBUGTRACE_PRINT("Rescanning DAQ devices on different thread...");
_scanningDevices = true;
_pool.push_task(&StreamMgr::rescanDAQDevices_impl, this, callback); _pool.push_task(&StreamMgr::rescanDAQDevices_impl, this, callback);
} }
} }
void StreamMgr::rescanDAQDevices_impl(std::function<void()> callback) { void StreamMgr::rescanDAQDevices_impl(std::function<void()> callback) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
assert(!_inputStream && !_outputStream); std::scoped_lock lck(_devices_mtx);
Lck lck(_mtx);
// Alsa spits out annoying messages that are not useful
{
_devices = DeviceInfo::getDeviceInfo(); _devices = DeviceInfo::getDeviceInfo();
}
if (callback) { if (callback) {
callback(); callback();
} }
_scanningDevices = false;
} }
void StreamMgr::inCallback(const DaqData &data) { void StreamMgr::inCallback(const DaqData &data) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
Lck lck(_mtx); std::scoped_lock<std::mutex> lck(_inDataHandler_mtx);
assert(_inputFilters.size() == data.nchannels); assert(_inputFilters.size() == data.nchannels);
@ -150,13 +139,12 @@ void StreamMgr::inCallback(const DaqData &data) {
} }
} }
DEBUGTRACE_PRINT("Calling incallback for handlers (filtered)...");
for (auto &handler : _inDataHandlers) { for (auto &handler : _inDataHandlers) {
handler->inCallback(input_filtered); handler->inCallback(input_filtered);
} }
} else { } else {
/// No input filters /// No input filters
DEBUGTRACE_PRINT("Calling incallback for handlers...");
for (auto &handler : _inDataHandlers) { for (auto &handler : _inDataHandlers) {
handler->inCallback(data); handler->inCallback(data);
} }
@ -167,7 +155,8 @@ void StreamMgr::setSiggen(std::shared_ptr<Siggen> siggen) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
checkRightThread(); checkRightThread();
Lck lck(_mtx); std::scoped_lock<std::mutex> lck(_siggen_mtx);
// If not set to nullptr, and a stream is running, we update the signal // If not set to nullptr, and a stream is running, we update the signal
// generator by resetting it. // generator by resetting it.
if (isStreamRunningOK(StreamType::output) && siggen) { if (isStreamRunningOK(StreamType::output) && siggen) {
@ -224,9 +213,9 @@ bool fillData(DaqData &data, const vd &signal) {
return true; return true;
} }
void StreamMgr::outCallback(DaqData &data) { void StreamMgr::outCallback(DaqData &data) {
DEBUGTRACE_ENTER; /* DEBUGTRACE_ENTER; */
Lck lck(_mtx); std::scoped_lock<std::mutex> lck(_siggen_mtx);
if (_siggen) { if (_siggen) {
vd signal = _siggen->genSignal(data.nframes); vd signal = _siggen->genSignal(data.nframes);
@ -255,17 +244,7 @@ void StreamMgr::outCallback(DaqData &data) {
StreamMgr::~StreamMgr() { StreamMgr::~StreamMgr() {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
while (_scanningDevices) {
std::this_thread::sleep_for(10us);
}
#if LASP_DEBUG == 1
{ // Careful, this lock needs to be released to make sure the streams can
// obtain a lock to the stream manager.
Lck lck(_mtx);
checkRightThread(); checkRightThread();
}
#endif
// Stream manager now handled by shared pointer. Each indata handler gets a // Stream manager now handled by shared pointer. Each indata handler gets a
// shared pointer to the stream manager, and stores a weak pointer to it. // shared pointer to the stream manager, and stores a weak pointer to it.
// Hence, we do not have to do any cleanup here. It also makes sure that the // Hence, we do not have to do any cleanup here. It also makes sure that the
@ -281,21 +260,13 @@ StreamMgr::~StreamMgr() {
} }
void StreamMgr::stopAllStreams() { void StreamMgr::stopAllStreams() {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
{
Lck lck(_mtx);
checkRightThread(); checkRightThread();
}
// No lock here!
_inputStream.reset(); _inputStream.reset();
_outputStream.reset(); _outputStream.reset();
} }
void StreamMgr::startStream(const DaqConfiguration &config) { void StreamMgr::startStream(const DaqConfiguration &config) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
if (_scanningDevices) {
throw rte("DAQ device scan is busy. Cannot start stream.");
}
Lck lck(_mtx);
checkRightThread(); checkRightThread();
bool isInput = std::count_if(config.inchannel_config.cbegin(), bool isInput = std::count_if(config.inchannel_config.cbegin(),
@ -307,6 +278,8 @@ void StreamMgr::startStream(const DaqConfiguration &config) {
[](auto &i) { return i.enabled; }) > 0; [](auto &i) { return i.enabled; }) > 0;
// Find the first device that matches with the configuration // Find the first device that matches with the configuration
std::scoped_lock lck(_devices_mtx);
DeviceInfo *devinfo = nullptr; DeviceInfo *devinfo = nullptr;
// Match configuration to a device in the list of devices // Match configuration to a device in the list of devices
@ -431,49 +404,37 @@ void StreamMgr::startStream(const DaqConfiguration &config) {
void StreamMgr::stopStream(const StreamType t) { void StreamMgr::stopStream(const StreamType t) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
checkRightThread(); checkRightThread();
bool resetHandlers = false;
std::unique_ptr<Daq> *streamToStop = nullptr;
{ // Mutex locked in this scope
Lck lck(_mtx);
if (t == StreamType::input) { if (t == StreamType::input) {
if (!_inputStream) { if (!_inputStream) {
throw rte("Input stream is not running"); throw rte("Input stream is not running");
} }
streamToStop = std::addressof(_inputStream); /// Kills input stream
resetHandlers = true; _inputStream.reset();
/// Send reset to all in data handlers
for (auto &handler : _inDataHandlers) {
handler->reset(nullptr);
}
} else { } else {
/// t == output /// t == output
/// Kill input stream in case that one is a duplex stream /// Kill input stream in case that one is a duplex stream
if (_inputStream && _inputStream->duplexMode()) { if (_inputStream && _inputStream->duplexMode()) {
streamToStop = std::addressof(_inputStream); _inputStream.reset();
} else { } else {
if (!_outputStream) { if (!_outputStream) {
throw rte("Output stream is not running"); throw rte("Output stream is not running");
} }
streamToStop = std::addressof(_outputStream); _outputStream.reset();
} // end else } // end else
} }
} // End of mutex lock. When stopping stream, mutex should be unlocked.
// If we arrive here, we should have a stream to stop.
assert(streamToStop != nullptr);
streamToStop->reset();
/// Send reset to all in data handlers
if (resetHandlers) {
Lck lck(_mtx);
for (auto &handler : _inDataHandlers) {
handler->reset(nullptr);
}
}
} }
void StreamMgr::addInDataHandler(InDataHandler *handler) { void StreamMgr::addInDataHandler(InDataHandler *handler) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
Lck lck(_mtx);
checkRightThread(); checkRightThread();
assert(handler); assert(handler);
std::scoped_lock<std::mutex> lck(_inDataHandler_mtx);
handler->reset(_inputStream.get()); handler->reset(_inputStream.get());
if (std::find(_inDataHandlers.cbegin(), _inDataHandlers.cend(), handler) != if (std::find(_inDataHandlers.cbegin(), _inDataHandlers.cend(), handler) !=
@ -488,17 +449,16 @@ void StreamMgr::addInDataHandler(InDataHandler *handler) {
void StreamMgr::removeInDataHandler(InDataHandler &handler) { void StreamMgr::removeInDataHandler(InDataHandler &handler) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
Lck lck(_mtx); checkRightThread();
// checkRightThread(); std::scoped_lock<std::mutex> lck(_inDataHandler_mtx);
_inDataHandlers.remove(&handler); _inDataHandlers.remove(&handler);
DEBUGTRACE_PRINT(_inDataHandlers.size()); DEBUGTRACE_PRINT(_inDataHandlers.size());
} }
Daq::StreamStatus StreamMgr::getStreamStatus(const StreamType type) const { Daq::StreamStatus StreamMgr::getStreamStatus(const StreamType type) const {
DEBUGTRACE_ENTER; /* DEBUGTRACE_ENTER; */
Lck lck(_mtx);
checkRightThread(); checkRightThread();
// Default constructor, says stream is not running, but also no errors // Default constructor, says stream is not running, but also no errors
@ -511,7 +471,6 @@ Daq::StreamStatus StreamMgr::getStreamStatus(const StreamType type) const {
} }
const Daq *StreamMgr::getDaq(StreamType type) const { const Daq *StreamMgr::getDaq(StreamType type) const {
Lck lck(_mtx);
checkRightThread(); checkRightThread();
if (type == StreamType::input) { if (type == StreamType::input) {

View File

@ -1,19 +1,19 @@
#pragma once #pragma once
#include "lasp_daq.h"
#include "lasp_siggen.h"
#include "lasp_thread.h"
#include <list> #include <list>
#include <memory> #include <memory>
#include <mutex> #include <mutex>
#include <thread> #include <thread>
#include "lasp_daq.h"
#include "lasp_siggen.h"
#include "lasp_thread.h"
/** \addtogroup device /** \addtogroup device
* @{ * @{
*/ */
class StreamMgr; class StreamMgr;
class InDataHandler; class InDataHandler;
class SeriesBiquad; class SeriesBiquad;
/** /**
@ -25,15 +25,12 @@ class SeriesBiquad;
* fact is asserted. * fact is asserted.
*/ */
class StreamMgr { class StreamMgr {
mutable std::recursive_mutex _mtx;
/** /**
* @brief Storage for streams. * @brief Storage for streams.
*/ */
std::unique_ptr<Daq> _inputStream, _outputStream; std::unique_ptr<Daq> _inputStream, _outputStream;
std::atomic<bool> _scanningDevices{false};
GlobalThreadPool _pool; GlobalThreadPool _pool;
/** /**
@ -42,18 +39,22 @@ class StreamMgr {
* thread-safety. * thread-safety.
*/ */
std::list<InDataHandler *> _inDataHandlers; std::list<InDataHandler *> _inDataHandlers;
mutable std::mutex _inDataHandler_mtx;
/** /**
* @brief Signal generator in use to generate output data. Currently * @brief Signal generator in use to generate output data. Currently
* implemented as to generate the same data for all output channels. * implemented as to generate the same data for all output channels.
*/ */
std::shared_ptr<Siggen> _siggen; std::shared_ptr<Siggen> _siggen;
std::mutex _siggen_mtx;
/** /**
* @brief Filters on input stream. For example, a digital high pass filter. * @brief Filters on input stream. For example, a digital high pass filter.
*/ */
std::vector<std::unique_ptr<SeriesBiquad>> _inputFilters; std::vector<std::unique_ptr<SeriesBiquad>> _inputFilters;
mutable std::recursive_mutex _devices_mtx;
/** /**
* @brief Current storage for the device list * @brief Current storage for the device list
*/ */
@ -66,7 +67,9 @@ class StreamMgr {
friend class InDataHandler; friend class InDataHandler;
friend class Siggen; friend class Siggen;
public: public:
~StreamMgr(); ~StreamMgr();
enum class StreamType : us { enum class StreamType : us {
@ -97,10 +100,9 @@ class StreamMgr {
* @return A copy of the internal stored list of devices * @return A copy of the internal stored list of devices
*/ */
DeviceInfoList getDeviceInfo() const { DeviceInfoList getDeviceInfo() const {
std::scoped_lock lck(_mtx); std::scoped_lock lck(_devices_mtx);
DeviceInfoList d2; DeviceInfoList d2;
for (const auto &dev : _devices) { for(const auto& dev: _devices) {
assert(dev != nullptr);
d2.push_back(dev->clone()); d2.push_back(dev->clone());
} }
return d2; return d2;
@ -116,8 +118,8 @@ class StreamMgr {
* set to true, the function returns immediately. * set to true, the function returns immediately.
* @param callback Function to call when complete. * @param callback Function to call when complete.
*/ */
void rescanDAQDevices( void
bool background = false, rescanDAQDevices(bool background = false,
std::function<void()> callback = std::function<void()>()); std::function<void()> callback = std::function<void()>());
/** /**
@ -191,10 +193,11 @@ class StreamMgr {
*/ */
void setSiggen(std::shared_ptr<Siggen> s); void setSiggen(std::shared_ptr<Siggen> s);
private: private:
void inCallback(const DaqData &data); void inCallback(const DaqData &data);
void outCallback(DaqData &data); void outCallback(DaqData &data);
/** /**
* @brief Add an input data handler. The handler's inCallback() function is * @brief Add an input data handler. The handler's inCallback() function is
* called with data when available. This function should *NOT* be called by * called with data when available. This function should *NOT* be called by

View File

@ -1,4 +1,4 @@
// #define DEBUGTRACE_ENABLED /* #define DEBUGTRACE_ENABLED */
#include "debugtrace.hpp" #include "debugtrace.hpp"
#include "lasp_config.h" #include "lasp_config.h"
@ -16,33 +16,6 @@ using std::endl;
using std::string; using std::string;
using std::to_string; using std::to_string;
#if LASP_HAS_PA_ALSA
#include <alsa/asoundlib.h>
void empty_handler(const char *file, int line, const char *function, int err,
const char *fmt, ...) {
// cerr << "Test empty error handler...\n";
}
// Temporarily set the ALSA eror handler to something that does nothing, to
// prevent ALSA from spitting out all kinds of misconfiguration errors.
class MuteErrHandler {
private:
snd_lib_error_handler_t _default_handler;
public:
explicit MuteErrHandler() {
_default_handler = snd_lib_error;
snd_lib_error_set_handler(empty_handler);
}
~MuteErrHandler() { snd_lib_error_set_handler(_default_handler); }
};
#else
// Does nothin in case of no ALSA
class MuteErrHandler {};
#endif
inline void throwIfError(PaError e) { inline void throwIfError(PaError e) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
if (e != paNoError) { if (e != paNoError) {
@ -71,7 +44,6 @@ class OurPaDeviceInfo : public DeviceInfo {
void fillPortAudioDeviceInfo(DeviceInfoList &devinfolist) { void fillPortAudioDeviceInfo(DeviceInfoList &devinfolist) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
bool shouldPaTerminate = false; bool shouldPaTerminate = false;
MuteErrHandler guard;
try { try {
PaError err = Pa_Initialize(); PaError err = Pa_Initialize();
/// PortAudio says that Pa_Terminate() should not be called whenever there /// PortAudio says that Pa_Terminate() should not be called whenever there
@ -121,7 +93,6 @@ void fillPortAudioDeviceInfo(DeviceInfoList &devinfolist) {
d.api = portaudioALSAApi; d.api = portaudioALSAApi;
break; break;
case paASIO: case paASIO:
hasDuplexMode = true;
d.api = portaudioASIOApi; d.api = portaudioASIOApi;
break; break;
case paDirectSound: case paDirectSound:
@ -376,7 +347,6 @@ PortAudioDaq::PortAudioDaq(const OurPaDeviceInfo &devinfo_gen,
void PortAudioDaq::start(InDaqCallback inCallback, OutDaqCallback outCallback) { void PortAudioDaq::start(InDaqCallback inCallback, OutDaqCallback outCallback) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
assert(_stream); assert(_stream);
MuteErrHandler guard;
if (Pa_IsStreamActive(_stream)) { if (Pa_IsStreamActive(_stream)) {
throw rte("Stream is already running"); throw rte("Stream is already running");
@ -452,7 +422,6 @@ Daq::StreamStatus PortAudioDaq::getStreamStatus() const {
} }
PortAudioDaq::~PortAudioDaq() { PortAudioDaq::~PortAudioDaq() {
DEBUGTRACE_ENTER;
PaError err; PaError err;
assert(_stream); assert(_stream);
if (Pa_IsStreamActive(_stream)) { if (Pa_IsStreamActive(_stream)) {
@ -476,7 +445,7 @@ int PortAudioDaq::memberPaCallback(const void *inputBuffer, void *outputBuffer,
unsigned long framesPerBuffer, unsigned long framesPerBuffer,
const PaStreamCallbackTimeInfo *timeInfo, const PaStreamCallbackTimeInfo *timeInfo,
PaStreamCallbackFlags statusFlags) { PaStreamCallbackFlags statusFlags) {
DEBUGTRACE_ENTER; // DEBUGTRACE_ENTER;
typedef Daq::StreamStatus::StreamError se; typedef Daq::StreamStatus::StreamError se;
if (statusFlags & paPrimingOutput) { if (statusFlags & paPrimingOutput) {
// Initial output buffers generated. So nothing with input yet // Initial output buffers generated. So nothing with input yet

View File

@ -16,7 +16,6 @@ set(lasp_dsp_files
lasp_threadedindatahandler.cpp lasp_threadedindatahandler.cpp
lasp_ppm.cpp lasp_ppm.cpp
lasp_clip.cpp lasp_clip.cpp
lasp_freqsmooth.cpp
) )

View File

@ -2,9 +2,12 @@
#include "lasp_avpowerspectra.h" #include "lasp_avpowerspectra.h"
#include "debugtrace.hpp" #include "debugtrace.hpp"
#include "lasp_mathtypes.h" #include "lasp_mathtypes.h"
#include <stdexcept> #include <cmath>
#include <optional>
using rte = std::runtime_error; using rte = std::runtime_error;
using std::cerr;
using std::endl;
PowerSpectra::PowerSpectra(const us nfft, const Window::WindowType w) PowerSpectra::PowerSpectra(const us nfft, const Window::WindowType w)
: PowerSpectra(Window::create(w, nfft)) {} : PowerSpectra(Window::create(w, nfft)) {}

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@ -3,6 +3,8 @@
#include "lasp_mathtypes.h" #include "lasp_mathtypes.h"
#include "lasp_timebuffer.h" #include "lasp_timebuffer.h"
#include "lasp_window.h" #include "lasp_window.h"
#include <memory>
#include <optional>
/** \defgroup dsp Digital Signal Processing utilities /** \defgroup dsp Digital Signal Processing utilities
* These are classes and functions used for processing raw signal data, to * These are classes and functions used for processing raw signal data, to

View File

@ -2,6 +2,7 @@
#include "lasp_biquadbank.h" #include "lasp_biquadbank.h"
#include "debugtrace.hpp" #include "debugtrace.hpp"
#include "lasp_thread.h" #include "lasp_thread.h"
#include <cassert>
#include <vector> #include <vector>
using std::cerr; using std::cerr;

View File

@ -1,133 +0,0 @@
// #define DEBUGTRACE_ENABLED
#include "lasp_freqsmooth.h"
#include <cassert>
#include "debugtrace.hpp"
using rte = std::runtime_error;
vd freqSmooth(const vd& freq, const vd& X, const unsigned w,
bool power_correct) {
DEBUGTRACE_ENTER;
if (freq.size() < 2) {
throw rte("Invalid frequency size. Should be > 2");
}
if (freq.size() != X.size()) {
throw rte("Sizes of freq and X do not match");
}
if (freq.size() > std::numeric_limits<long>::max() / 2) {
throw rte("Frequency size limit for smoothing is 2^30");
}
if (w == 0) {
throw rte("Invalid number of octaves");
}
const us Nfreq = freq.size();
// Smoothing width in unit of number of octaves
const d Delta = 1 / d(w);
// Minimum frequency and maximum frequency to smooth on (frequency range that
// is interpolated to a log scale)
d freq_min;
const d freq_max = freq(Nfreq - 1);
const bool firstFreqEqZero = (d_abs(freq(0)) < 1e-15);
// AC-signal power
d ac_pwr;
if (firstFreqEqZero) {
freq_min = freq(1);
if (power_correct) {
ac_pwr = arma::sum(X.subvec(1, Nfreq - 1));
}
} else {
freq_min = freq(0);
if (power_correct) {
ac_pwr = arma::sum(X);
}
}
DEBUGTRACE_PRINT(freq_min);
DEBUGTRACE_PRINT(freq_max);
const vd freq_log =
arma::logspace(d_log10(freq_min), d_log10(freq_max), 10 * Nfreq);
DEBUGTRACE_PRINT("freq_log = ");
const long Nfreq_sm = freq_log.size();
// Interpolate X to logscale
vd X_log;
DEBUGTRACE_PRINT("X_log = :");
arma::interp1(freq, X, freq_log, X_log, "*linear");
// First and last point are not interpolated well, could be minimally out of
// the interpolation range, due to roundoff errors. Armadillo sets these
// points to nan, so we have to manually "interpolate" them.
X_log(Nfreq_sm - 1) = X(X.size() - 1);
if (firstFreqEqZero) {
X_log(0) = X(1);
} else {
X_log(0) = X(0);
}
// Allocate space for smoothed X on log scale
vd Xsm_log(freq_log.size());
const d beta = d_log10(Nfreq_sm) / d_log10(2) / (Nfreq_sm - 1);
// int rounds down
const long mu = int(Delta / d(2) / beta);
DEBUGTRACE_PRINT(mu);
// Long is at least 32 bits. So +/- 2M points length
for (long k = 0; k < Nfreq_sm; k++) {
// const d fcur = freq_log(k);
long idx_start = std::max(k - mu, 0l);
long idx_stop = std::min(k + mu, Nfreq_sm - 1);
// Make window smaller at the sides (close to the end of the array)
if (idx_start == 0 || idx_stop == Nfreq_sm - 1) {
const long mu_edge = std::min(k - idx_start, idx_stop - k);
idx_start = k - mu_edge;
idx_stop = k + mu_edge;
}
assert(idx_stop < Nfreq_sm);
assert(idx_start < Nfreq_sm);
DEBUGTRACE_PRINT(idx_start)
DEBUGTRACE_PRINT(idx_stop);
Xsm_log(k) = arma::mean(X_log.subvec(idx_start, idx_stop));
}
DEBUGTRACE_PRINT("Xsm_log:");
// std::cerr << Xsm_log << std::endl;
// Back-interpolate to a linear scale, and be wary of nans at the start end
// and range. Also interpolates power
vd Xsm(Nfreq);
if (firstFreqEqZero) {
vd Xsm_gt0;
arma::interp1(freq_log, Xsm_log, freq.subvec(1, Nfreq - 1), Xsm_gt0,
"*linear");
Xsm(0) = X(0);
Xsm.subvec(1, Nfreq - 1) = Xsm_gt0;
Xsm(1) = Xsm_log(1);
Xsm(Nfreq - 1) = Xsm_log(Nfreq_sm - 1);
// Final step: power-correct smoothed spectrum
if (power_correct) {
d new_acpwr = arma::sum(Xsm.subvec(1, Nfreq - 1));
Xsm.subvec(1, Nfreq - 1) *= ac_pwr / new_acpwr;
}
} else {
arma::interp1(freq_log, Xsm_log, freq, Xsm, "*linear");
Xsm(0) = X(0);
Xsm(Nfreq - 1) = Xsm_log(Nfreq_sm - 1);
// Final step: power-correct smoothed spectrum
if (power_correct) {
d new_acpwr = arma::sum(Xsm);
Xsm *= ac_pwr / new_acpwr;
}
}
return Xsm;
}

View File

@ -1,28 +0,0 @@
#pragma once
#include <memory>
#include <vector>
#include "lasp_mathtypes.h"
#include "lasp_types.h"
/**
* \addtogroup dsp
* @{
*/
/**
* @brief Apply frequency domain smoothing to a Frequency domain (single
* sided)signal power spectrum
*
* @param freq Frequency range
* @param X Signal pwr
* @param w Parameter determining the smoothing with. 1 = 1/1 octave, 3 = 1/3th
* octave and so on
* @param power_correct Apply a correction to the whole spectrum to make the
* signal power equal to the unsmoothed signal power.
* @return vd Smoothed spectrum
*/
vd freqSmooth(const vd& freq, const vd& X, const unsigned w,
bool power_correct = false);
/** @} */

View File

@ -37,7 +37,7 @@ void RtAps::inCallback(const DaqData &data) {
cerr << "**** Error: sensitivity size does not match! *****" << endl; cerr << "**** Error: sensitivity size does not match! *****" << endl;
return; return;
} }
fltdata.each_row() /= _sens.as_row(); fltdata.each_row() %= _sens.as_row();
if (_filterPrototype) { if (_filterPrototype) {

View File

@ -4,9 +4,12 @@
// //
// Description: Real Time Signal Viewer. // Description: Real Time Signal Viewer.
#pragma once #pragma once
#include "lasp_avpowerspectra.h"
#include "lasp_filter.h"
#include "lasp_mathtypes.h" #include "lasp_mathtypes.h"
#include "lasp_threadedindatahandler.h" #include "lasp_threadedindatahandler.h"
#include "lasp_timebuffer.h" #include "lasp_timebuffer.h"
#include <memory>
#include <mutex> #include <mutex>
/** /**

View File

@ -10,12 +10,12 @@ using rte = std::runtime_error;
inline d level_amp(d level_dB) { return pow(10, level_dB / 20); } inline d level_amp(d level_dB) { return pow(10, level_dB / 20); }
using slock = std::scoped_lock<std::recursive_mutex>; using mutexlock = std::scoped_lock<std::mutex>;
vd Siggen::genSignal(const us nframes) { vd Siggen::genSignal(const us nframes) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
slock lck(_mtx); mutexlock lck(_mtx);
DEBUGTRACE_PRINT(nframes); DEBUGTRACE_PRINT(nframes);
vd signal(nframes, arma::fill::value(_dc_offset)); vd signal(nframes, arma::fill::value(_dc_offset));
@ -52,7 +52,7 @@ vd Siggen::genSignal(const us nframes) {
return signal; return signal;
} }
void Siggen::setInterruptPeriod(const d newPeriod) { void Siggen::setInterruptPeriod(const d newPeriod) {
slock lck(_mtx); mutexlock lck(_mtx);
if (newPeriod == 0) { if (newPeriod == 0) {
throw rte("Interruption period cannot be 0"); throw rte("Interruption period cannot be 0");
} }
@ -65,7 +65,7 @@ void Siggen::setInterruptPeriod(const d newPeriod) {
void Siggen::setFilter(const std::string &name, void Siggen::setFilter(const std::string &name,
std::shared_ptr<Filter> filter) { std::shared_ptr<Filter> filter) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
slock lck(_mtx); mutexlock lck(_mtx);
if (filter) { if (filter) {
_filters[name] = filter; _filters[name] = filter;
} else if (_filters.find(name) != _filters.end()) { } else if (_filters.find(name) != _filters.end()) {
@ -74,17 +74,17 @@ void Siggen::setFilter(const std::string &name,
} }
void Siggen::setDCOffset(const d offset) { void Siggen::setDCOffset(const d offset) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
slock lck(_mtx); mutexlock lck(_mtx);
_dc_offset = offset; _dc_offset = offset;
} }
void Siggen::setLevel(const d level, bool dB) { void Siggen::setLevel(const d level, bool dB) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
slock lck(_mtx); mutexlock lck(_mtx);
_level_linear = dB ? level_amp(level) : level; _level_linear = dB ? level_amp(level) : level;
} }
void Siggen::reset(const d newFs) { void Siggen::reset(const d newFs) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
slock lck(_mtx); mutexlock lck(_mtx);
_fs = newFs; _fs = newFs;
for (auto &f : _filters) { for (auto &f : _filters) {
assert(f.second); assert(f.second);

View File

@ -27,7 +27,7 @@ private:
bool _muted = false; bool _muted = false;
protected: protected:
mutable std::recursive_mutex _mtx; std::mutex _mtx;
d _fs = 0; d _fs = 0;
/** /**
* @brief Interuption of period the signal. If set, the signal will be * @brief Interuption of period the signal. If set, the signal will be

View File

@ -7,14 +7,11 @@
////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////
/* #define DEBUGTRACE_ENABLED */ /* #define DEBUGTRACE_ENABLED */
#include "lasp_siggen_impl.h" #include "lasp_siggen_impl.h"
#include <cassert>
#include "debugtrace.hpp" #include "debugtrace.hpp"
#include "lasp_mathtypes.h" #include "lasp_mathtypes.h"
#include <cassert>
using rte = std::runtime_error; using rte = std::runtime_error;
using slock = std::scoped_lock<std::recursive_mutex>;
DEBUGTRACE_VARIABLES; DEBUGTRACE_VARIABLES;
@ -33,7 +30,6 @@ Sine::Sine(const d freq) : omg(2 * arma::datum::pi * freq) { DEBUGTRACE_ENTER; }
vd Sine::genSignalUnscaled(const us nframes) { vd Sine::genSignalUnscaled(const us nframes) {
/* DEBUGTRACE_ENTER; */ /* DEBUGTRACE_ENTER; */
slock lck(_mtx);
const d pi = arma::datum::pi; const d pi = arma::datum::pi;
vd phase_vec = vd phase_vec =
arma::linspace(phase, phase + omg * (nframes - 1) / _fs, nframes); arma::linspace(phase, phase + omg * (nframes - 1) / _fs, nframes);
@ -45,8 +41,8 @@ vd Sine::genSignalUnscaled(const us nframes) {
} }
vd Periodic::genSignalUnscaled(const us nframes) { vd Periodic::genSignalUnscaled(const us nframes) {
vd res(nframes); vd res(nframes);
slock lck(_mtx);
if (_signal.size() == 0) { if (_signal.size() == 0) {
throw rte("No signal defined while calling"); throw rte("No signal defined while calling");
} }
@ -78,8 +74,8 @@ Sweep::Sweep(const d fl, const d fu, const d Ts, const d Tq, const us flags)
} }
void Sweep::resetImpl() { void Sweep::resetImpl() {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
slock lck(_mtx);
_cur_pos = 0; _cur_pos = 0;
@ -170,6 +166,7 @@ void Sweep::resetImpl() {
/* dVARTRACE(15, phase); */ /* dVARTRACE(15, phase); */
} }
} else if (flags & LogSweep) { } else if (flags & LogSweep) {
DEBUGTRACE_PRINT("Log sweep"); DEBUGTRACE_PRINT("Log sweep");
if (forward_sweep || backward_sweep) { if (forward_sweep || backward_sweep) {
/* Forward or backward sweep */ /* Forward or backward sweep */
@ -197,6 +194,7 @@ void Sweep::resetImpl() {
phase += 2 * number_pi * Dt * fn; phase += 2 * number_pi * Dt * fn;
} }
} else { } else {
DEBUGTRACE_PRINT("Continuous sweep"); DEBUGTRACE_PRINT("Continuous sweep");
const us Nf = Ns / 2; const us Nf = Ns / 2;
@ -251,7 +249,8 @@ void Sweep::resetImpl() {
/* dbgassert(fn >= 0, "BUG"); */ /* dbgassert(fn >= 0, "BUG"); */
phase += 2 * number_pi * Dt * fn; phase += 2 * number_pi * Dt * fn;
while (phase > 2 * number_pi) phase -= 2 * number_pi; while (phase > 2 * number_pi)
phase -= 2 * number_pi;
/* dVARTRACE(17, phase); */ /* dVARTRACE(17, phase); */
} }
/* This should be a very small number!! */ /* This should be a very small number!! */
@ -261,5 +260,6 @@ void Sweep::resetImpl() {
else { else {
// Either log or linear sweep had to be given as flags. // Either log or linear sweep had to be given as flags.
assert(false); assert(false);
} }
} }

View File

@ -18,8 +18,8 @@ class Noise : public Siggen {
d level_linear; d level_linear;
virtual vd genSignalUnscaled(const us nframes) override; virtual vd genSignalUnscaled(const us nframes) override;
void resetImpl() override; void resetImpl() override;
public: public:
/** /**
* @brief Constructs a noise generator. If no filter is used, the output will * @brief Constructs a noise generator. If no filter is used, the output will
* be white noise. By default, the output will be standard deviation = 1 * be white noise. By default, the output will be standard deviation = 1
@ -28,6 +28,7 @@ class Noise : public Siggen {
*/ */
Noise(); Noise();
~Noise() = default; ~Noise() = default;
}; };
/** /**
@ -36,12 +37,13 @@ class Noise : public Siggen {
class Sine : public Siggen { class Sine : public Siggen {
d phase = 0; d phase = 0;
d omg; d omg;
protected: protected:
void resetImpl() override final { phase = 0; }
void resetImpl() override final { phase=0; }
virtual vd genSignalUnscaled(const us nframes) override final; virtual vd genSignalUnscaled(const us nframes) override final;
public: public:
/** /**
* @brief Create a sine wave generator * @brief Create a sine wave generator
* *
@ -49,7 +51,7 @@ class Sine : public Siggen {
*/ */
Sine(const d freq_Hz); Sine(const d freq_Hz);
~Sine() = default; ~Sine() = default;
void setFreq(const d newFreq) { omg = 2 * arma::datum::pi * newFreq; }; void setFreq(const d newFreq) { omg = 2*arma::datum::pi*newFreq; } ;
}; };
/** /**
@ -85,6 +87,7 @@ class Sweep : public Periodic {
void resetImpl() override; void resetImpl() override;
public: public:
static constexpr int ForwardSweep = 1 << 0; static constexpr int ForwardSweep = 1 << 0;
static constexpr int BackwardSweep = 1 << 1; static constexpr int BackwardSweep = 1 << 1;
static constexpr int LinearSweep = 1 << 2; static constexpr int LinearSweep = 1 << 2;
@ -100,11 +103,11 @@ class Sweep : public Periodic {
* avoid temporal aliasing in case of measuring impulse responses. * avoid temporal aliasing in case of measuring impulse responses.
* @param[in] sweep_flags: Sweep period [s] * @param[in] sweep_flags: Sweep period [s]
*/ */
Sweep(const d fl, const d fu, const d Ts, const d Tq, const us sweep_flags); Sweep(const d fl, const d fu, const d Ts, const d Tq,
const us sweep_flags);
~Sweep() = default; ~Sweep() = default;
}; };
/** @} */ /** @} */
/** @} */ /** @} */

View File

@ -1,15 +1,13 @@
// #define DEBUGTRACE_ENABLED /* #define DEBUGTRACE_ENABLED */
#include "lasp_threadedindatahandler.h" #include "lasp_threadedindatahandler.h"
#include "debugtrace.hpp"
#include "lasp_daqdata.h"
#include "lasp_thread.h"
#include <future> #include <future>
#include <optional> #include <optional>
#include <queue> #include <queue>
#include <thread> #include <thread>
#include "debugtrace.hpp"
#include "lasp_daqdata.h"
#include "lasp_thread.h"
using namespace std::literals::chrono_literals; using namespace std::literals::chrono_literals;
using lck = std::scoped_lock<std::mutex>; using lck = std::scoped_lock<std::mutex>;
using rte = std::runtime_error; using rte = std::runtime_error;
@ -22,7 +20,7 @@ class SafeQueue {
std::mutex _mtx; std::mutex _mtx;
std::atomic<uint32_t> _contents{0}; std::atomic<uint32_t> _contents{0};
public: public:
void push(const DaqData &d) { void push(const DaqData &d) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
lck lock(_mtx); lck lock(_mtx);
@ -55,74 +53,57 @@ class SafeQueue {
ThreadedInDataHandlerBase::ThreadedInDataHandlerBase(SmgrHandle mgr, ThreadedInDataHandlerBase::ThreadedInDataHandlerBase(SmgrHandle mgr,
InCallbackType cb, InCallbackType cb,
ResetCallbackType reset) InResetType reset)
: _queue(std::make_unique<SafeQueue>()), : _indatahandler(
inCallback(cb), mgr,
resetCallback(reset), std::bind(&ThreadedInDataHandlerBase::_inCallbackFromInDataHandler, this,
_smgr(mgr) { _1),
reset),
_queue(std::make_unique<SafeQueue>()), inCallback(cb) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
} }
void ThreadedInDataHandlerBase::startThread() { void ThreadedInDataHandlerBase::startThread() {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
if (_indatahandler) { _thread_can_safely_run = true;
throw rte("BUG: ThreadedIndataHandler already started"); _indatahandler.start();
}
SmgrHandle smgr = _smgr.lock();
if (!smgr) {
cerr << "Stream manager destructed" << endl;
return;
}
_indatahandler = std::make_unique<InDataHandler>(
smgr,
std::bind(&ThreadedInDataHandlerBase::_inCallbackFromInDataHandler, this,
_1),
resetCallback);
_thread_allowed_to_run = true;
_indatahandler->start();
} }
void ThreadedInDataHandlerBase::_inCallbackFromInDataHandler( void ThreadedInDataHandlerBase::_inCallbackFromInDataHandler(
const DaqData &daqdata) { const DaqData &daqdata) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
std::scoped_lock lck(_mtx);
// Early return in case object is under DESTRUCTION // Early return in case object is under DESTRUCTION
if (!_thread_allowed_to_run) return; if (!_thread_can_safely_run)
return;
_queue->push(daqdata); _queue->push(daqdata);
if (!_thread_running) { if (!_thread_running) {
DEBUGTRACE_PRINT("Pushing new thread in pool"); DEBUGTRACE_PRINT("Pushing new thread in pool");
_thread_running = true;
_pool.push_task(&ThreadedInDataHandlerBase::threadFcn, this); _pool.push_task(&ThreadedInDataHandlerBase::threadFcn, this);
} }
} }
void ThreadedInDataHandlerBase::stopThread() { void ThreadedInDataHandlerBase::stopThread() {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
if (!_indatahandler) { // Make sure inCallback is no longer called
throw rte("BUG: ThreadedIndataHandler not running"); _thread_can_safely_run = false;
} _indatahandler.stop();
// Stop the existing thread std::scoped_lock lck(_mtx);
_thread_allowed_to_run = false;
// Make sure no new data arrives
_indatahandler->stop();
_indatahandler.reset();
DEBUGTRACE_PRINT("Indatahandler stopped. Waiting for thread to finish...");
// Then wait in steps for the thread to stop running. // Then wait in steps for the thread to stop running.
while (_thread_running) { while (_thread_running) {
std::this_thread::sleep_for(10us); std::this_thread::sleep_for(10us);
} }
DEBUGTRACE_PRINT("Thread stopped");
// Kill the handler
DEBUGTRACE_PRINT("Handler resetted");
} }
ThreadedInDataHandlerBase::~ThreadedInDataHandlerBase() { ThreadedInDataHandlerBase::~ThreadedInDataHandlerBase() {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
if (_thread_allowed_to_run) { if (_thread_can_safely_run) {
stopThread(); stopThread();
cerr << "*** BUG: InDataHandlers have not been all stopped, while " cerr << "*** BUG: InDataHandlers have not been all stopped, while "
"StreamMgr destructor is called. This is a misuse BUG." "StreamMgr destructor is called. This is a misuse BUG."
@ -132,9 +113,12 @@ ThreadedInDataHandlerBase::~ThreadedInDataHandlerBase() {
} }
void ThreadedInDataHandlerBase::threadFcn() { void ThreadedInDataHandlerBase::threadFcn() {
DEBUGTRACE_ENTER;
while (!_queue->empty() && _thread_allowed_to_run) { DEBUGTRACE_ENTER;
_thread_running = true;
while (!_queue->empty() && _thread_can_safely_run) {
// Call inCallback_threaded // Call inCallback_threaded
inCallback(_queue->pop()); inCallback(_queue->pop());
} }

View File

@ -29,27 +29,21 @@ class ThreadedInDataHandlerBase {
* @brief The queue used to push elements to the handling thread. * @brief The queue used to push elements to the handling thread.
*/ */
InDataHandler _indatahandler;
std::unique_ptr<SafeQueue> _queue; std::unique_ptr<SafeQueue> _queue;
mutable std::recursive_mutex _mtx;
std::atomic<bool> _thread_running{false};
std::atomic<bool> _thread_can_safely_run{false};
GlobalThreadPool _pool;
/** /**
* @brief Function pointer that is called when new DaqData arrives. * @brief Function pointer that is called when new DaqData arrives.
*/ */
const InCallbackType inCallback; const InCallbackType inCallback;
/**
* @brief Function pointer that is called when reset() is called.
*/
const ResetCallbackType resetCallback;
std::weak_ptr<StreamMgr> _smgr;
std::unique_ptr<InDataHandler> _indatahandler;
std::atomic<bool> _thread_running{false};
std::atomic<bool> _thread_allowed_to_run{false};
GlobalThreadPool _pool;
void threadFcn(); void threadFcn();
@ -64,7 +58,7 @@ class ThreadedInDataHandlerBase {
void _inCallbackFromInDataHandler(const DaqData &daqdata); void _inCallbackFromInDataHandler(const DaqData &daqdata);
public: public:
ThreadedInDataHandlerBase(SmgrHandle mgr, InCallbackType cb, ResetCallbackType reset); ThreadedInDataHandlerBase(SmgrHandle mgr, InCallbackType cb, InResetType reset);
~ThreadedInDataHandlerBase(); ~ThreadedInDataHandlerBase();
/** /**
* @brief This method should be called from the derived class' constructor, * @brief This method should be called from the derived class' constructor,

View File

@ -11,7 +11,7 @@ using std::cerr;
using std::endl; using std::endl;
// Safe some typing. Linspace form 0 up to (and NOT including N). // Safe some typing. Linspace form 0 up to (and NOT including N).
#define lin0N arma::linspace<vd>(0, N - 1, N) #define lin0N arma::linspace(0, N - 1, N)
vd Window::hann(const us N) { vd Window::hann(const us N) {
return arma::pow(arma::sin((arma::datum::pi/N) * lin0N), 2); return arma::pow(arma::sin((arma::datum::pi/N) * lin0N), 2);
@ -24,8 +24,8 @@ vd Window::blackman(const us N) {
d a0 = 7938. / 18608.; d a0 = 7938. / 18608.;
d a1 = 9240. / 18608.; d a1 = 9240. / 18608.;
d a2 = 1430. / 18608.; d a2 = 1430. / 18608.;
return a0 - a1 * arma::cos((2 * number_pi/N) * lin0N) + return a0 - a1 * d_cos((2 * number_pi/N) * lin0N) +
a2 * arma::cos((4 * number_pi / N)* lin0N ); a2 * d_cos((4 * number_pi / N)* lin0N );
} }
vd Window::rectangular(const us N) { return arma::ones(N); } vd Window::rectangular(const us N) { return arma::ones(N); }

View File

@ -44,12 +44,6 @@ void init_siggen(py::module &m);
PYBIND11_MODULE(lasp_cpp, m) { PYBIND11_MODULE(lasp_cpp, m) {
#if LASP_DOUBLE_PRECISION == 1
m.attr("LASP_DOUBLE_PRECISION") = true;
#else
m.attr("LASP_DOUBLE_PRECISION") = false;
#endif
init_dsp(m); init_dsp(m);
init_deviceinfo(m); init_deviceinfo(m);
init_daqconfiguration(m); init_daqconfiguration(m);
@ -57,5 +51,6 @@ PYBIND11_MODULE(lasp_cpp, m) {
init_streammgr(m); init_streammgr(m);
init_datahandler(m); init_datahandler(m);
init_siggen(m); init_siggen(m);
} }
/** @} */ /** @} */

View File

@ -1,16 +1,13 @@
#include <pybind11/pybind11.h>
#include <iostream>
#include "arma_npy.h" #include "arma_npy.h"
#include "lasp_avpowerspectra.h" #include "lasp_avpowerspectra.h"
#include "lasp_biquadbank.h" #include "lasp_biquadbank.h"
#include "lasp_fft.h" #include "lasp_fft.h"
#include "lasp_filter.h" #include "lasp_filter.h"
#include "lasp_freqsmooth.h"
#include "lasp_slm.h" #include "lasp_slm.h"
#include "lasp_streammgr.h" #include "lasp_streammgr.h"
#include "lasp_window.h" #include "lasp_window.h"
#include <iostream>
#include <pybind11/pybind11.h>
using std::cerr; using std::cerr;
using std::endl; using std::endl;
@ -30,6 +27,7 @@ using rte = std::runtime_error;
*/ */
void init_dsp(py::module &m) { void init_dsp(py::module &m) {
py::class_<Fft> fft(m, "Fft"); py::class_<Fft> fft(m, "Fft");
fft.def(py::init<us>()); fft.def(py::init<us>());
fft.def("fft", [](Fft &f, dpyarray dat) { fft.def("fft", [](Fft &f, dpyarray dat) {
@ -116,10 +114,9 @@ void init_dsp(py::module &m) {
aps.def("compute", [](AvPowerSpectra &aps, dpyarray timedata) { aps.def("compute", [](AvPowerSpectra &aps, dpyarray timedata) {
std::optional<ccube> res; std::optional<ccube> res;
dmat timedata_mat = NpyToMat<d, false>(timedata);
{ {
py::gil_scoped_release release; py::gil_scoped_release release;
res = aps.compute(timedata_mat); res = aps.compute(NpyToMat<d, false>(timedata));
} }
return CubeToNpy<c>(res.value_or(ccube(0, 0, 0))); return CubeToNpy<c>(res.value_or(ccube(0, 0, 0)));
@ -154,12 +151,5 @@ void init_dsp(py::module &m) {
slm.def("Lmax", [](const SLM &slm) { return ColToNpy<d>(slm.Lmax()); }); slm.def("Lmax", [](const SLM &slm) { return ColToNpy<d>(slm.Lmax()); });
slm.def("Lpeak", [](const SLM &slm) { return ColToNpy<d>(slm.Lpeak()); }); slm.def("Lpeak", [](const SLM &slm) { return ColToNpy<d>(slm.Lpeak()); });
slm.def_static("suggestedDownSamplingFac", &SLM::suggestedDownSamplingFac); slm.def_static("suggestedDownSamplingFac", &SLM::suggestedDownSamplingFac);
// Frequency smoother
m.def("freqSmooth", [](dpyarray freq, dpyarray X, unsigned w) {
vd freqa = NpyToCol<d, false>(freq);
vd Xa = NpyToCol<d, false>(X);
return ColToNpy(freqSmooth(freqa, Xa, w));
});
} }
/** @} */ /** @} */

View File

@ -1,10 +1,4 @@
// #define DEBUGTRACE_ENABLED /* #define DEBUGTRACE_ENABLED */
#include <pybind11/pybind11.h>
#include <pybind11/pytypes.h>
#include <armadillo>
#include <atomic>
#include "arma_npy.h" #include "arma_npy.h"
#include "debugtrace.hpp" #include "debugtrace.hpp"
#include "lasp_clip.h" #include "lasp_clip.h"
@ -15,12 +9,14 @@
#include "lasp_rtsignalviewer.h" #include "lasp_rtsignalviewer.h"
#include "lasp_streammgr.h" #include "lasp_streammgr.h"
#include "lasp_threadedindatahandler.h" #include "lasp_threadedindatahandler.h"
#include <armadillo>
#include <atomic>
#include <chrono>
#include <pybind11/pybind11.h>
using namespace std::literals::chrono_literals; using namespace std::literals::chrono_literals;
using std::cerr; using std::cerr;
using std::endl; using std::endl;
using rte = std::runtime_error;
using Lck = std::scoped_lock<std::recursive_mutex>;
namespace py = pybind11; namespace py = pybind11;
@ -108,11 +104,9 @@ class PyIndataHandler : public ThreadedInDataHandler<PyIndataHandler> {
/** /**
* @brief The callback functions that is called. * @brief The callback functions that is called.
*/ */
py::object _cb, _reset_callback; py::function cb, reset_callback;
std::atomic<bool> _done{false};
std::recursive_mutex _mtx;
public: public:
/** /**
* @brief Initialize PyIndataHandler * @brief Initialize PyIndataHandler
* *
@ -123,26 +117,19 @@ class PyIndataHandler : public ThreadedInDataHandler<PyIndataHandler> {
* is called, when a stream stops, this pointer / handle will dangle. * is called, when a stream stops, this pointer / handle will dangle.
*/ */
PyIndataHandler(SmgrHandle mgr, py::function cb, py::function reset_callback) PyIndataHandler(SmgrHandle mgr, py::function cb, py::function reset_callback)
: ThreadedInDataHandler(mgr), : ThreadedInDataHandler(mgr), cb(cb), reset_callback(reset_callback) {
_cb(py::weakref(cb)),
_reset_callback(py::weakref(reset_callback)) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
// cerr << "Thread ID: " << std::this_thread::get_id() << endl;
/// Start should be called externally, as at constructor time no virtual /// Start should be called externally, as at constructor time no virtual
/// functions should be called. /// functions should be called.
if (_cb().is_none() || _reset_callback().is_none()) { py::gil_scoped_release release;
throw rte("cb or reset_callback is none!");
}
startThread(); startThread();
} }
~PyIndataHandler() { ~PyIndataHandler() {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
// cerr << "Thread ID: " << std::this_thread::get_id() << endl;
/// Callback cannot be called, which results in a deadlock on the GIL /// Callback cannot be called, which results in a deadlock on the GIL
/// without this release. /// without this release.
py::gil_scoped_release release; py::gil_scoped_release release;
DEBUGTRACE_PRINT("Gil released");
_done = true;
stopThread(); stopThread();
} }
/** /**
@ -150,23 +137,13 @@ class PyIndataHandler : public ThreadedInDataHandler<PyIndataHandler> {
* *
* @param daq Daq device, or nullptr in case no input stream is running. * @param daq Daq device, or nullptr in case no input stream is running.
*/ */
void reset(const Daq *daqi) { void reset(const Daq *daq) {
DEBUGTRACE_ENTER; DEBUGTRACE_ENTER;
// cerr << "Thread ID: " << std::this_thread::get_id() << endl;
if (_done) return;
{
try { try {
py::object reset_callback = _reset_callback(); py::gil_scoped_acquire acquire;
if (reset_callback.is_none()) { if (daq) {
DEBUGTRACE_PRINT("reset_callback is none, weakref killed"); reset_callback(daq);
_done = true;
return;
}
if (daqi != nullptr) {
assert(reset_callback);
reset_callback(daqi);
} else { } else {
assert(reset_callback);
reset_callback(py::none()); reset_callback(py::none());
} }
} catch (py::error_already_set &e) { } catch (py::error_already_set &e) {
@ -178,95 +155,63 @@ class PyIndataHandler : public ThreadedInDataHandler<PyIndataHandler> {
abort(); abort();
/* throw std::runtime_error(e.what()); */ /* throw std::runtime_error(e.what()); */
} catch (std::exception &e) { } catch (std::exception &e) {
cerr << "Caught unknown exception in reset callback:" << e.what() cerr << "Caught unknown exception in reset callback:" << e.what() << endl;
<< endl;
abort(); abort();
} }
} // end of GIL scope }
} // end of function reset()
/** /**
* @brief Calls the Python callback method / function with a Numpy array of * @brief Calls the Python callback method / function with a Numpy array of
* stream data. * stream data.
*/ */
void inCallback(const DaqData &d) { void inCallback(const DaqData &d) {
DEBUGTRACE_ENTER;
// cerr << "=== Enter incallback for thread ID: " << std::this_thread::get_id() << endl; /* DEBUGTRACE_ENTER; */
using DataType = DataTypeDescriptor::DataType; using DataType = DataTypeDescriptor::DataType;
if (_done) {
DEBUGTRACE_PRINT("Early stop, done");
return;
}
{
DEBUGTRACE_PRINT("================ TRYING TO OBTAIN GIL in inCallback...");
py::gil_scoped_acquire acquire;
try { try {
py::object py_bool; py::gil_scoped_acquire acquire;
py::object cb = _cb(); py::object bool_val;
if (cb.is_none()) {
DEBUGTRACE_PRINT("cb is none, weakref killed");
_done = true;
return;
}
switch (d.dtype) { switch (d.dtype) {
case (DataType::dtype_int8): { case (DataType::dtype_int8): {
py_bool = cb(getPyArrayNoCpy<int8_t>(d)); bool_val = cb(getPyArrayNoCpy<int8_t>(d));
} break; } break;
case (DataType::dtype_int16): { case (DataType::dtype_int16): {
py_bool = cb(getPyArrayNoCpy<int16_t>(d)); bool_val = cb(getPyArrayNoCpy<int16_t>(d));
} break; } break;
case (DataType::dtype_int32): { case (DataType::dtype_int32): {
py_bool = cb(getPyArrayNoCpy<int32_t>(d)); bool_val = cb(getPyArrayNoCpy<int32_t>(d));
} break; } break;
case (DataType::dtype_fl32): { case (DataType::dtype_fl32): {
py_bool = cb(getPyArrayNoCpy<float>(d)); bool_val = cb(getPyArrayNoCpy<float>(d));
} break; } break;
case (DataType::dtype_fl64): { case (DataType::dtype_fl64): {
py_bool = cb(getPyArrayNoCpy<double>(d)); bool_val = cb(getPyArrayNoCpy<double>(d));
} break; } break;
default: default:
throw std::runtime_error("BUG"); throw std::runtime_error("BUG");
} // End of switch } // End of switch
bool res = py_bool.cast<bool>(); bool res = bool_val.cast<bool>();
if (res == false) {
DEBUGTRACE_PRINT("Setting callbacks to None")
_done = true;
// By doing this, we remove the references, but in the mean time this
// might also trigger removing Python objects. Including itself, as
// there is no reference to it anymore. The consequence is that the
// current object might be destroyed from this thread. However, if we
// do not remove these references and in lasp_record.py finish() is
// not called, we end up with not-garbage collected recordings in
// memory. This is also not good. How can we force Python to not yet
// destroy this object?
// cb.reset();
// reset_callback.reset();
}
} catch (py::error_already_set &e) { } catch (py::error_already_set &e) {
cerr << "ERROR (BUG): Python raised exception from callback function: "; cerr << "ERROR: Python raised exception from callback function: ";
cerr << e.what() << endl; cerr << e.what() << endl;
abort(); abort();
} catch (py::cast_error &e) { } catch (py::cast_error &e) {
cerr << e.what() << endl; cerr << e.what() << endl;
cerr << "ERROR (BUG): Python callback does not return boolean value." cerr << "ERROR: Python callback does not return boolean value." << endl;
<< endl;
abort(); abort();
} catch (std::exception &e) { } catch (std::exception &e) {
cerr << "Caught unknown exception in Python callback:" << e.what() cerr << "Caught unknown exception in Python callback:" << e.what()
<< endl; << endl;
abort(); abort();
} }
}
} // End of scope in which the GIL is acquired
// cerr << "=== LEAVE incallback for thread ID: " << std::this_thread::get_id() << endl;
} // End of function inCallback()
}; };
void init_datahandler(py::module &m) { void init_datahandler(py::module &m) {
/// The C++ class is PyIndataHandler, but for Python, it is called /// The C++ class is PyIndataHandler, but for Python, it is called
/// InDataHandler /// InDataHandler
py::class_<PyIndataHandler> pyidh(m, "InDataHandler"); py::class_<PyIndataHandler> pyidh(m, "InDataHandler");

View File

@ -5,7 +5,7 @@ requires-python = ">=3.10"
description = "Library for Acoustic Signal Processing" description = "Library for Acoustic Signal Processing"
license = { "file" = "LICENSE" } license = { "file" = "LICENSE" }
authors = [{ "name" = "J.A. de Jong", "email" = "j.a.dejong@ascee.nl" }] authors = [{ "name" = "J.A. de Jong", "email" = "j.a.dejong@ascee.nl" }]
version = "1.6.8" version = "1.4.5"
keywords = ["DSP", "DAQ", "Signal processing"] keywords = ["DSP", "DAQ", "Signal processing"]
@ -23,7 +23,8 @@ classifiers = [
urls = { "Documentation" = "https://lasp.ascee.nl" } urls = { "Documentation" = "https://lasp.ascee.nl" }
dependencies = [ dependencies = [
"scipy>=1.13.1", "scipy",
"numpy",
"matplotlib>=3.7.2", "matplotlib>=3.7.2",
"appdirs", "appdirs",
"dataclasses_json", "dataclasses_json",
@ -59,3 +60,10 @@ install_components = ["python_modules"]
# This might not work properly on Windows. Comment this out when testing on # This might not work properly on Windows. Comment this out when testing on
# Windows. # Windows.
mode = "symlink" mode = "symlink"
[tool.commitizen]
name = "cz_conventional_commits"
tag_format = "v$version"
version_scheme = "semver"
version_provider = "pep621"
update_changelog_on_bump = true

View File

@ -10,11 +10,11 @@ from .lasp_cpp import *
# from .lasp_imptube import * # TwoMicImpedanceTube # from .lasp_imptube import * # TwoMicImpedanceTube
from .lasp_measurement import * # Measurement, scaleBlockSens from .lasp_measurement import * # Measurement, scaleBlockSens
from .lasp_octavefilter import * # OverallFilterBank, SosOctaveFilterBank, SosThirdOctaveFilterBank from .lasp_octavefilter import *
from .lasp_slm import * # SLM, Dummy from .lasp_slm import * # SLM, Dummy
from .lasp_record import * # RecordStatus, Recording from .lasp_record import * # RecordStatus, Recording
from .lasp_daqconfigs import * # DaqConfigurations from .lasp_daqconfigs import *
from .lasp_measurementset import * # MeasurementSet from .lasp_measurementset import *
# from .lasp_siggen import * # SignalType, NoiseType, SiggenMessage, SiggenData, Siggen # from .lasp_siggen import * # SignalType, NoiseType, SiggenMessage, SiggenData, Siggen
# from .lasp_weighcal import * # WeighCal # from .lasp_weighcal import * # WeighCal

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@ -11,9 +11,7 @@ __all__ = ['freqResponse', 'bandpass_fir_design', 'lowpass_fir_design',
'arbitrary_fir_design'] 'arbitrary_fir_design']
import numpy as np import numpy as np
from scipy.signal import freqz, firwin2 from scipy.signal import freqz, hann, firwin2
from scipy.signal.windows import hann
from ..lasp_config import empty
def freqResponse(fs, freq, coefs_b, coefs_a=1.): def freqResponse(fs, freq, coefs_b, coefs_a=1.):
@ -46,7 +44,7 @@ def bandpass_fir_design(L, fs, fl, fu, window=hann):
Omg2 = 2*np.pi*fu/fs Omg2 = 2*np.pi*fu/fs
Omg1 = 2*np.pi*fl/fs Omg1 = 2*np.pi*fl/fs
fir = empty(L, dtype=float) fir = np.empty(L, dtype=float)
# First Create ideal band-pass filter # First Create ideal band-pass filter
fir[L//2] = (Omg2-Omg1)/np.pi fir[L//2] = (Omg2-Omg1)/np.pi
@ -66,7 +64,7 @@ def lowpass_fir_design(L, fs, fc, window=hann):
" than upper cut-off" " than upper cut-off"
Omgc = 2*np.pi*fc/fs Omgc = 2*np.pi*fc/fs
fir = empty(L, dtype=float) fir = np.empty(L, dtype=float)
# First Create ideal band-pass filter # First Create ideal band-pass filter
fir[L//2] = Omgc/np.pi fir[L//2] = Omgc/np.pi

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@ -121,7 +121,7 @@ class SIQtys(Enum):
unit_name='Pascal', unit_name='Pascal',
unit_symb='Pa', unit_symb='Pa',
level_unit=('dB SPL','dBPa'), level_unit=('dB SPL','dBPa'),
level_ref_name=('20 micropascal', '1 pascal',), level_ref_name=('2 micropascal', '1 pascal',),
level_ref_value=(P_REF, 1), level_ref_value=(P_REF, 1),
cpp_enum = DaqChannel.Qty.AcousticPressure cpp_enum = DaqChannel.Qty.AcousticPressure
) )

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@ -6,38 +6,17 @@ Author: J.A. de Jong - ASCEE
Description: LASP configuration Description: LASP configuration
""" """
import numpy as np import numpy as np
from .lasp_cpp import LASP_DOUBLE_PRECISION
if LASP_DOUBLE_PRECISION: LASP_NUMPY_FLOAT_TYPE = np.float64
LASP_NUMPY_FLOAT_TYPE = np.float64
LASP_NUMPY_COMPLEX_TYPE = np.complex128
else:
LASP_NUMPY_FLOAT_TYPE = np.float32
LASP_NUMPY_COMPLEX_TYPE = np.float64
def zeros(shape, dtype=float, order='F'): def zeros(shape):
if dtype == float: return np.zeros(shape, dtype=LASP_NUMPY_FLOAT_TYPE, order='F')
return np.zeros(shape, dtype=LASP_NUMPY_FLOAT_TYPE, order=order)
elif dtype == complex:
return np.zeros(shape, dtype=LASP_NUMPY_COMPLEX_TYPE, order=order)
else:
raise RuntimeError(f"Unknown dtype: {dtype}")
def ones(shape, dtype=float, order='F'): def ones(shape):
if dtype == float: return np.ones(shape, dtype=LASP_NUMPY_FLOAT_TYPE, order='F')
return np.ones(shape, dtype=LASP_NUMPY_FLOAT_TYPE, order=order)
elif dtype == complex:
return np.ones(shape, dtype=LASP_NUMPY_COMPLEX_TYPE, order=order)
else:
raise RuntimeError(f"Unknown dtype: {dtype}")
def empty(shape, dtype=float, order='F'):
if dtype == float:
return np.empty(shape, dtype=LASP_NUMPY_FLOAT_TYPE, order=order)
elif dtype == complex:
return np.empty(shape, dtype=LASP_NUMPY_COMPLEX_TYPE, order=order)
else:
raise RuntimeError(f"Unknown dtype: {dtype}")
def empty(shape):
return np.empty(shape, dtype=LASP_NUMPY_FLOAT_TYPE, order='F')

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@ -0,0 +1,173 @@
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""!
Author: J.A. de Jong - ASCEE
Description: Two-microphone impedance tube methods
"""
__all__ = ['TwoMicImpedanceTube']
# from lrftubes import Air
from .lasp_measurement import Measurement
from numpy import pi, sqrt, exp
import numpy as np
from scipy.interpolate import UnivariateSpline
# from lrftubes import PrsDuct
from functools import lru_cache
class TwoMicImpedanceTube:
def __init__(self, mnormal: Measurement,
mswitched: Measurement,
s: float,
d1: float,
d2: float,
fl: float = None,
fu: float = None,
periodic_method=False,
# mat= Air(),
D_imptube = 50e-3,
thermoviscous = True,
**kwargs):
"""
Initialize two-microphone impedance tube methods
Args:
mnormal: Measurement in normal configuration
mswitched: Measurement in normal configuration
s: Microphone distance
fl: Lower evaluation frequency
fu: Lower evaluation frequency
kwargs: tuple with extra arguments, of which:
N: Period length of periodic excitation *obligatory*
chan0: Measurement channel index of mic 0
chan1: Measurement channel index of mic 1
"""
self.mnormal = mnormal
self.mswitched = mswitched
self.mat = mat
self.s = s
self.d1 = d1
self.d2 = d2
self.fl = fl
if fl is None:
ksmin = 0.1*pi
kmin = ksmin/s
self.fl = kmin*mat.c0/2/pi
self.fu = fu
if fu is None:
ksmax = 0.8*pi
kmax = ksmax/s
self.fu = kmax*mat.c0/2/pi
self.thermoviscous = thermoviscous
self.D_imptube = D_imptube
self.periodic_method = periodic_method
self.channels = [kwargs.pop('chan0', 0), kwargs.pop('chan1', 1)]
# Compute calibration correction
if periodic_method:
self.N = kwargs.pop('N')
freq, C1 = mnormal.periodicCPS(self.N, channels=self.channels)
freq, C2 = mswitched.periodicCPS(self.N, channels=self.channels)
else:
self.nfft = kwargs.pop('nfft', 16000)
freq, C1 = mnormal.CPS(nfft=self.nfft, channels=self.channels)
freq, C2 = mswitched.CPS(nfft=self.nfft, channels=self.channels)
# Store this, as it is often used for just a single sample.
self.C1 = C1
self.freq = freq
self.il = np.where(self.freq<= self.fl)[0][-1]
self.ul = np.where(self.freq > self.fu)[0][0]
# Calibration correction factor
# self.K = 0*self.freq + 1.0
K = sqrt(C2[:,0,1]*C1[:,0,0]/(C2[:,1,1]*C1[:,1,0]))
# self.K = UnivariateSpline(self.freq, K.real)(self.freq) +\
# 1j*UnivariateSpline(self.freq, K.imag)(self.freq)
self.K = K
def cut_to_limits(self, ar):
return ar[self.il:self.ul]
def getFreq(self):
"""
Array of frequencies, cut to limits of validity
"""
return self.cut_to_limits(self.freq)
@lru_cache
def G_AB(self, meas):
if meas is self.mnormal:
C = self.C1
freq = self.freq
else:
if self.periodic_method:
freq, C = meas.periodicCPS(self.N, self.channels)
else:
freq, C = meas.CPS(nfft=self.nfft, channels=self.channels)
# Microphone transfer function
G_AB = self.K*C[:,1,0]/C[:,0,0]
return self.getFreq(), self.cut_to_limits(G_AB)
def k(self, freq):
"""
Wave number, or thermoviscous wave number
"""
if self.thermoviscous:
D = self.D_imptube
S = pi/4*D**2
d = PrsDuct(0, S=S, rh=D/4, cs='circ')
d.mat = self.mat
omg = 2*pi*freq
G, Z = d.GammaZc(omg)
return G
else:
return 2*pi*freq/self.mat.c0
def R(self, meas):
freq, G_AB = self.G_AB(meas)
s = self.s
k = self.k(freq)
d1 = self.d1
RpA = (G_AB - exp(-1j*k*s))/(exp(1j*k*s)-G_AB)
R = RpA*exp(2*1j*k*(s+d1))
return freq, R
def alpha(self, meas):
"""
Acoustic absorption coefficient
"""
freq, R = self.R(meas)
return freq, 1 - np.abs(R)**2
def z(self, meas):
"""
Acoustic impedance at the position of the sample, in front of the sample
"""
freq, R = self.R(meas)
return freq, self.mat.z0*(1+R)/(1-R)
def zs(self, meas):
"""
Sample impedance jump, assuming a cavity behind the sample with
thickness d2
"""
freq, R = self.R(meas)
z0 = self.mat.z0
k = 2*pi*freq/self.mat.c0
d2 = self.d2
zs = 2*z0*(1-R*exp(2*1j*k*d2))/((R-1)*(exp(2*d2*k*1j)-1))
return freq, zs

View File

@ -1,24 +1,6 @@
#!/usr/bin/env python3 #!/usr/bin/env python3
# -*- coding: utf-8 -*- # -*- coding: utf-8 -*-
from __future__ import annotations from __future__ import annotations
from contextlib import contextmanager
from weakref import WeakValueDictionary
import h5py as h5
import uuid
import pathlib
import glob
import itertools
import numpy as np
from enum import Enum, unique
from .lasp_config import LASP_NUMPY_FLOAT_TYPE
from scipy.io import wavfile
import os, time, wave, logging
from .lasp_common import SIQtys, Qty, getFreq
from .lasp_version import LASP_VERSION_MAJOR, LASP_VERSION_MINOR
from .lasp_cpp import Window, DaqChannel, AvPowerSpectra
from typing import List
from functools import lru_cache
from .lasp_config import ones
"""! """!
Author: J.A. de Jong - ASCEE Author: J.A. de Jong - ASCEE
@ -64,11 +46,28 @@ The video dataset can possibly be not present in the data.
""" """
__all__ = ["Measurement", "scaleBlockSens", "MeasurementType"] __all__ = ["Measurement", "scaleBlockSens", "MeasurementType"]
from contextlib import contextmanager
from weakref import WeakValueDictionary
import h5py as h5
import uuid
import pathlib
import glob
import itertools
import numpy as np
from enum import Enum, unique
from .lasp_config import LASP_NUMPY_FLOAT_TYPE
from scipy.io import wavfile
import os, time, wave, logging
from .lasp_common import SIQtys, Qty, getFreq
from .lasp_version import LASP_VERSION_MAJOR, LASP_VERSION_MINOR
from .lasp_cpp import Window, DaqChannel, AvPowerSpectra
from typing import List
from functools import lru_cache
# Measurement file extension # Measurement file extension
MEXT = "h5" MEXT = 'h5'
DOTMEXT = f".{MEXT}" DOTMEXT = f'.{MEXT}'
@unique @unique
@ -224,7 +223,7 @@ class IterData(IterRawData):
def __init__(self, fa, channels, sensitivity, **kwargs): def __init__(self, fa, channels, sensitivity, **kwargs):
super().__init__(fa, channels, **kwargs) super().__init__(fa, channels, **kwargs)
self.sens = np.asarray(sensitivity, dtype=LASP_NUMPY_FLOAT_TYPE)[self.channels] self.sens = np.asarray(sensitivity)[self.channels]
assert self.sens.ndim == 1 assert self.sens.ndim == 1
def __next__(self): def __next__(self):
@ -236,8 +235,7 @@ class Measurement:
"""Provides access to measurement data stored in the h5 measurement file """Provides access to measurement data stored in the h5 measurement file
format.""" format."""
# Store a dict of open measurements, with uuid string as a key. We store # Store a dict of open measurements, with uuid string as a key. We store them as a weak ref.
# them as a weak ref.
uuid_s = WeakValueDictionary() uuid_s = WeakValueDictionary()
def __init__(self, fn): def __init__(self, fn):
@ -279,7 +277,7 @@ class Measurement:
try: try:
# Try to catch UUID (Universally Unique IDentifier) # Try to catch UUID (Universally Unique IDentifier)
self._UUID = f.attrs["UUID"] self._UUID = f.attrs['UUID']
# Flag indicating we have to add a new UUID # Flag indicating we have to add a new UUID
create_new_uuid = False create_new_uuid = False
except KeyError: except KeyError:
@ -292,17 +290,17 @@ class Measurement:
# The last filename is a filename that *probably* is the reference measurement with # The last filename is a filename that *probably* is the reference measurement with
# given UUID. If it is not, we will search for it in the same directory as `this` measurement. # given UUID. If it is not, we will search for it in the same directory as `this` measurement.
# If we cannot find it there, we will give up, and remove the field corresponding to this reference measurement type. # If we cannot find it there, we will give up, and remove the field corresponding to this reference measurement type.
refMeas_list = f.attrs["refMeas"] refMeas_list = f.attrs['refMeas']
# Build a tuple string from it # Build a tuple string from it
self._refMeas = {} self._refMeas = {}
for key, val, name in refMeas_list: for (key, val, name) in refMeas_list:
self._refMeas[MeasurementType(int(key))] = (val, name) self._refMeas[MeasurementType(int(key))] = (val, name)
except KeyError: except KeyError:
self._refMeas = {} self._refMeas = {}
try: try:
self._type_int = f.attrs["type_int"] self._type_int = f.attrs['type_int']
except KeyError: except KeyError:
self._type_int = 0 self._type_int = 0
@ -331,10 +329,10 @@ class Measurement:
try: try:
sens = f.attrs["sensitivity"] sens = f.attrs["sensitivity"]
self._sens = ( self._sens = (
sens * ones(self.nchannels) if isinstance(sens, float) else sens sens * np.ones(self.nchannels) if isinstance(sens, float) else sens
) )
except KeyError: except KeyError:
self._sens = ones(self.nchannels) self._sens = np.ones(self.nchannels)
# The time is cached AND ALWAYS ASSUMED TO BE AN IMMUTABLE OBJECT. # The time is cached AND ALWAYS ASSUMED TO BE AN IMMUTABLE OBJECT.
# It is also cached. Changing the measurement timestamp should not # It is also cached. Changing the measurement timestamp should not
@ -369,9 +367,7 @@ class Measurement:
self.genNewUUID() self.genNewUUID()
else: else:
if self.UUID in Measurement.uuid_s.keys(): if self.UUID in Measurement.uuid_s.keys():
raise RuntimeError( raise RuntimeError(f"Measurement '{self.name}' is already opened. Cannot open measurement twice. Note: this error can happen when measurements are manually copied.")
f"Measurement '{self.name}' is already opened. Cannot open measurement twice. Note: this error can happen when measurements are manually copied."
)
# Store weak reference to 'self' in list of UUID's. They are removed when no file is open anymore # Store weak reference to 'self' in list of UUID's. They are removed when no file is open anymore
Measurement.uuid_s[self._UUID] = self Measurement.uuid_s[self._UUID] = self
@ -383,7 +379,7 @@ class Measurement:
Args: Args:
newname: New name, with or without extension newname: New name, with or without extension
""" """
_, ext = os.path.splitext(newname) _ , ext = os.path.splitext(newname)
# Add proper extension if new name is given without extension. # Add proper extension if new name is given without extension.
if ext != DOTMEXT: if ext != DOTMEXT:
newname = newname + DOTMEXT newname = newname + DOTMEXT
@ -400,7 +396,7 @@ class Measurement:
""" """
Create new UUID for measurement and store in file. Create new UUID for measurement and store in file.
""" """
self.setAttribute("UUID", str(uuid.uuid1())) self.setAttribute('UUID', str(uuid.uuid1()))
@property @property
def UUID(self): def UUID(self):
@ -427,54 +423,40 @@ class Measurement:
# Try to find it in the dictionary of of open measurements # Try to find it in the dictionary of of open measurements
if required_uuid in Measurement.uuid_s.keys(): if required_uuid in Measurement.uuid_s.keys():
m = Measurement.uuid_s[required_uuid] m = Measurement.uuid_s[required_uuid]
logging.debug( logging.info(f'Returned reference measurement {m.name} from list of open measurements')
f"Returned reference measurement {m.name} from list of open measurements"
)
# Not found in list of openend measurements. See if we can open it using its last stored file name we know of # Not found in list of openend measurements. See if we can open it using its last stored file name we know of
if m is None: if m is None:
try: try:
m = Measurement(possible_name) m = Measurement(possible_name)
if m.UUID == required_uuid: if m.UUID == required_uuid:
logging.info(f"Opened reference measurement {m.name} by name") logging.info(f'Opened reference measurement {m.name} by name')
except Exception as e: except Exception as e:
logging.error( logging.error(f'Could not find reference measurement using file name: {possible_name}')
f"Could not find reference measurement using file name: {possible_name}"
)
# Last resort, see if we can find the right measurement in the same folder # Last resort, see if we can find the right measurement in the same folder
if m is None: if m is None:
try: try:
folder, _ = os.path.split(self.fn) folder, _ = os.path.split(self.fn)
m = Measurement.fromFolderWithUUID( m = Measurement.fromFolderWithUUID(required_uuid, folder, skip=[self.name])
required_uuid, folder, skip=[self.name] logging.info('Found reference measurement in folder with correct UUID. Updating name of reference measurement')
)
logging.info(
"Found reference measurement in folder with correct UUID. Updating name of reference measurement"
)
# Update the measurement file name in the list, such that next time it # Update the measurement file name in the list, such that next time it
# can be opened just by its name. # can be opened just by its name.
self.setRefMeas(m) self.setRefMeas(m)
except: except:
logging.error( logging.error("Could not find the reference measurement. Is it deleted?")
"Could not find the reference measurement. Is it deleted?"
)
# Well, we found it. Now make sure the reference measurement actually has the right type (User could have marked it as a NotSpecific for example in the mean time). # Well, we found it. Now make sure the reference measurement actually has the right type (User could have marked it as a NotSpecific for example in the mean time).
if m is not None: if m is not None:
if m.measurementType() != mtype: if m.measurementType() != mtype:
m.removeRefMeas(mtype) m.removeRefMeas(mtype)
raise RuntimeError( raise RuntimeError(f"Reference measurement for {self.name} is not a proper reference (anymore).")
f"Reference measurement for {self.name} is not a proper reference (anymore)."
)
# Whow, we passed all security checks, here we go! # Whow, we passed all security checks, here we go!
return m return m
else: else:
# Nope, not there. # Nope, not there.
raise RuntimeError( raise RuntimeError(f"Could not find the reference measurement for '{self.name}'. Is it deleted?")
f"Could not find the reference measurement for '{self.name}'. Is it deleted?"
)
def removeRefMeas(self, mtype: MeasurementType): def removeRefMeas(self, mtype: MeasurementType):
""" """
@ -495,12 +477,9 @@ class Measurement:
with self.file("r+") as f: with self.file("r+") as f:
# Update attribute in file. Stored as a flat list of string tuples: # Update attribute in file. Stored as a flat list of string tuples:
# [(ref_value1, uuid_1, name_1), (ref_value2, uuid_2, name_2), ...] # [(ref_value1, uuid_1, name_1), (ref_value2, uuid_2, name_2), ...]
reflist = list( reflist = list((str(key.value), val1, val2) for key, (val1, val2) in self._refMeas.items())
(str(key.value), val1, val2)
for key, (val1, val2) in self._refMeas.items()
)
# print(reflist) # print(reflist)
f.attrs["refMeas"] = reflist f.attrs['refMeas'] = reflist
def setRefMeas(self, m: Measurement): def setRefMeas(self, m: Measurement):
""" """
@ -510,21 +489,19 @@ class Measurement:
""" """
mtype = m.measurementType() mtype = m.measurementType()
if mtype == MeasurementType.NotSpecific: if mtype == MeasurementType.NotSpecific:
raise ValueError( raise ValueError('Measurement to be set as reference is not a reference measurement')
"Measurement to be set as reference is not a reference measurement"
)
self._refMeas[mtype] = (m.UUID, m.name) self._refMeas[mtype] = (m.UUID, m.name)
self.__storeReafMeas() self.__storeReafMeas()
@staticmethod @staticmethod
def fromFolderWithUUID(uuid_str: str, folder: str = "", skip=[]): def fromFolderWithUUID(uuid_str: str, folder: str='', skip=[]):
""" """
Returns Measurement object from a given UUID string. It first tries to find whether there Returns Measurement object from a given UUID string. It first tries to find whether there
is an uuid in the static list of weak references. If not, it will try to open files in is an uuid in the static list of weak references. If not, it will try to open files in
the current file path. the current file path.
""" """
for fn in glob.glob(str(pathlib.Path(folder)) + f"/*{DOTMEXT}"): for fn in glob.glob(str(pathlib.Path(folder)) + f'/*{DOTMEXT}'):
# Do not try to open this file in case it is in the 'skip' list. # Do not try to open this file in case it is in the 'skip' list.
if len(list(filter(lambda a: a in fn, skip))) > 0: if len(list(filter(lambda a: a in fn, skip))) > 0:
continue continue
@ -535,11 +512,9 @@ class Measurement:
# Update 'last_fn' attribute in dict of stored reference measurements # Update 'last_fn' attribute in dict of stored reference measurements
return m return m
except Exception as e: except Exception as e:
logging.error( logging.error(f'Possible measurement file {fn} returned error {e} when opening.')
f"Possible measurement file {fn} returned error {e} when opening."
)
raise RuntimeError(f"Measurement with UUID {uuid_str} could not be found.") raise RuntimeError(f'Measurement with UUID {uuid_str} could not be found.')
def setAttribute(self, attrname: str, value): def setAttribute(self, attrname: str, value):
""" """
@ -559,7 +534,7 @@ class Measurement:
""" """
Returns True when a measurement is flagged as being of a certaint "MeasurementType" Returns True when a measurement is flagged as being of a certaint "MeasurementType"
""" """
if type_.value & self._type_int: if (type_.value & self._type_int):
return True return True
elif type_.value == self._type_int == 0: elif type_.value == self._type_int == 0:
return True return True
@ -569,7 +544,7 @@ class Measurement:
""" """
Set the measurement type to given type Set the measurement type to given type
""" """
self.setAttribute("type_int", type_.value) self.setAttribute('type_int', type_.value)
def measurementType(self): def measurementType(self):
""" """
@ -910,7 +885,7 @@ class Measurement:
""" """
if isinstance(sens, float): if isinstance(sens, float):
# Put all sensitivities equal # Put all sensitivities equal
sens = sens * ones(self.nchannels) sens = sens * np.ones(self.nchannels)
elif isinstance(sens, list): elif isinstance(sens, list):
sens = np.asarray(sens) sens = np.asarray(sens)
@ -1023,9 +998,9 @@ class Measurement:
happen that a Measurement object is created twice for the same backing file, which we do not allow. happen that a Measurement object is created twice for the same backing file, which we do not allow.
""" """
# See if the base part of the filename is referring to a file that is already open # See if the base part of the filename is referring to a file that is already open
with h5.File(fn, "r") as f: with h5.File(fn, 'r') as f:
try: try:
theuuid = f.attrs["UUID"] theuuid = f.attrs['UUID']
except KeyError: except KeyError:
# No UUID stored in measurement. This is an old measurement that did not have UUID's # No UUID stored in measurement. This is an old measurement that did not have UUID's
# We create a new UUID here such that the file is opened from the filesystem # We create a new UUID here such that the file is opened from the filesystem
@ -1115,8 +1090,8 @@ class Measurement:
sensitivity, sensitivity,
mfn, mfn,
timestamp=None, timestamp=None,
qtys: List[SIQtys] = None, qtys: List[SIQtys]=None,
channelNames: List[str] = None, channelNames: List[str]=None,
force=False, force=False,
) -> Measurement: ) -> Measurement:
""" """
@ -1156,8 +1131,11 @@ class Measurement:
if data.ndim != 2: if data.ndim != 2:
data = data[:, np.newaxis] data = data[:, np.newaxis]
if not (isinstance(sensitivity, np.ndarray) and sensitivity.ndim >= 1): try:
sensitivity = np.asarray(sensitivity)[np.newaxis] len(sensitivity)
except:
raise ValueError("Sensitivity should be given as array-like data type")
sensitivity = np.asarray(sensitivity)
nchannels = data.shape[1] nchannels = data.shape[1]
if nchannels != sensitivity.shape[0]: if nchannels != sensitivity.shape[0]:
@ -1170,7 +1148,7 @@ class Measurement:
raise RuntimeError("Illegal length of channelNames list given") raise RuntimeError("Illegal length of channelNames list given")
if qtys is None: if qtys is None:
qtys = [SIQtys.fromInt(1)] * nchannels # Acoustic pressure is default qtys = [SIQtys.AP] * nchannels
else: else:
if len(qtys) != nchannels: if len(qtys) != nchannels:
raise RuntimeError("Illegal length of qtys list given") raise RuntimeError("Illegal length of qtys list given")
@ -1183,7 +1161,7 @@ class Measurement:
hf.attrs["nchannels"] = nchannels hf.attrs["nchannels"] = nchannels
# Add physical quantity indices # Add physical quantity indices
hf.attrs["qtys_enum_idx"] = [qty.toInt() for qty in qtys] hf.attrs['qtys_enum_idx'] = [qty.toInt() for qty in qtys]
# Add channel names in case given # Add channel names in case given
if channelNames is not None: if channelNames is not None:
@ -1221,7 +1199,7 @@ class Measurement:
nchannels = 1 nchannels = 1
nframes = len(data) nframes = len(data)
data = data[:, np.newaxis] data = data[:, np.newaxis]
sensitivity = ones(nchannels) sensitivity = np.ones(nchannels)
with h5.File(newfn, "w") as hf: with h5.File(newfn, "w") as hf:
hf.attrs["samplerate"] = samplerate hf.attrs["samplerate"] = samplerate
@ -1239,3 +1217,4 @@ class Measurement:
ad[0] = data ad[0] = data
return Measurement(newfn) return Measurement(newfn)

View File

@ -3,8 +3,7 @@ Provides class MeasurementSet, a class used to perform checks and adjustments
on a group of measurements at the same time. on a group of measurements at the same time.
""" """
__all__ = ['MeasurementSet']
__all__ = ["MeasurementSet"]
from .lasp_measurement import Measurement, MeasurementType from .lasp_measurement import Measurement, MeasurementType
from typing import List from typing import List
import time import time
@ -14,35 +13,28 @@ class MeasurementSet(list):
""" """
Group of measurements that have some correspondence to one another. Class Group of measurements that have some correspondence to one another. Class
is used to operate on multiple measurements at once. is used to operate on multiple measurements at once.
""" """
def __init__(self, mlist: List[Measurement] = []): def __init__(self, mlist: List[Measurement]=[]):
""" """
Initialize a measurement set Initialize a measurement set
Arg: Args:
mlist: Measurement list mlist: Measurement list
""" """
if any([not isinstance(i, Measurement) for i in mlist]): if any([not isinstance(i, Measurement) for i in mlist]):
raise TypeError("Object in list should be of Measurement type") raise TypeError('Object in list should be of Measurement type')
# Sort by time stamp, otherwise the order is random
mlist.sort(key=lambda x: x.time, reverse=True)
super().__init__(mlist) super().__init__(mlist)
def getNewestReferenceMeasurement(self, mtype: MeasurementType): def getNewestReferenceMeasurement(self, mtype: MeasurementType):
""" """Return the newest (in time) measurement in the current list of a certain type. Returns None in case no measurement could be found.
Get the NEWEST ref. measurement of a current type, in the current set.
Arg: Args:
mtype (MeasurementType): The type required. mtype (MeasurementType): The type required.
Return:
- The newest (in time) measurement in the current list of a certain type.
- None, in case no measurement could be found.
""" """
mnewest = None mnewest = None
for m in self: for m in self:
if m.measurementType() == mtype: if m.measurementType() == mtype:
@ -53,33 +45,14 @@ class MeasurementSet(list):
mnewest = m mnewest = m
return mnewest return mnewest
def getReferenceMeasurements(self, mtype: MeasurementType):
"""Get ALL ref. measurements of a certain type, in the current set.
Arg:
mtype (MeasurementType): The type of which to list
Return:
A new measurement set, including all measurements of a certain type
"""
return [m for m in self if m.measurementType() == mtype]
def getNewestReferenceMeasurements(self): def getNewestReferenceMeasurements(self):
""" """Returns a dictionary with newest measurement of each type that is not specific returns None in case no measurement is found."""
Get the NEWEST ref. measurement of all types, in the current set.
Return:
- A dictionary with the newest measurement of each type that is not specific
- None, in case no measurement is found.
"""
newest = {} newest = {}
for m in self: for m in self:
mtype = m.measurementType() mtype = m.measurementType()
if mtype == MeasurementType.NotSpecific: if mtype == MeasurementType.NotSpecific:
continue continue
if mtype not in newest: if not mtype in newest:
newest[mtype] = m newest[mtype] = m
else: else:
if m.time > newest[mtype].time: if m.time > newest[mtype].time:
@ -87,17 +60,8 @@ class MeasurementSet(list):
return newest return newest
def newestReferenceOlderThan(self, secs): def newestReferenceOlderThan(self, secs):
""" """Returns a dictionary of references with the newest reference, that is still
Get a dictionary of reference measurements which are older than a older than `secs` seconds. """
specified threshold. Only one of each type is returned.
Args:
- secs: time threshold, in seconds
Return:
- a dictionary of references with the newest reference, that is still
older than `secs` seconds
"""
curtime = time.time() curtime = time.time()
newest = self.getNewestReferenceMeasurements() newest = self.getNewestReferenceMeasurements()
newest_older_than = {} newest_older_than = {}
@ -106,31 +70,28 @@ class MeasurementSet(list):
newest_older_than[key] = m newest_older_than[key] = m
return newest_older_than return newest_older_than
def measTimeSame(self): def measTimeSame(self):
""" """
Returns True if all measurements have the same measurement length and Returns True if all measurements have the same measurement
sample rate time (recorded time)
"""
"""
if len(self) > 0: if len(self) > 0:
firstN = self[0].N # samples first = self[0].N
firstFS = self[0].samplerate # sample rate return all([first == meas.N for meas in self])
sameN = all([firstN == meas.N for meas in self])
sameFS = all([firstFS == meas.samplerate for meas in self])
return sameN and sameFS
else: else:
return False return False
def measSimilar(self): def measSimilar(self):
""" """
Similar means: channel metadata is the same, and the measurement time Similar means: channel metadata is the same, and the measurement time
is the same. is the same. It means that the recorded data is, of course, different.
Returns: Returns:
- True if measChannelsSame() and measTimeSame() True if measChannelsSame() and measTimeSame() else False
- False otherwise
"""
"""
return self.measTimeSame() and self.measChannelsSame() return self.measTimeSame() and self.measChannelsSame()
def measChannelsSame(self): def measChannelsSame(self):
@ -140,9 +101,9 @@ class MeasurementSet(list):
a set of measurements, simultaneously. If the channel data is the same a set of measurements, simultaneously. If the channel data is the same
(name, sensitivity, ...) it returns True. (name, sensitivity, ...) it returns True.
""" """
if len(self) > 0: if len(self) > 0:
first = self[0].channelConfig first = self[0].channelConfig
return all([first == meas.channelConfig for meas in self]) return all([first == meas.channelConfig for meas in self])
else: else:
return False return False

View File

@ -6,10 +6,12 @@ Author: J.A. de Jong - ASCEE
Provides the implementations of (fractional) octave filter banks Provides the implementations of (fractional) octave filter banks
""" """
__all__ = ['FirOctaveFilterBank', 'FirThirdOctaveFilterBank',
'OverallFilterBank', 'SosOctaveFilterBank',
'SosThirdOctaveFilterBank']
__all__ = ["OverallFilterBank", "SosOctaveFilterBank", "SosThirdOctaveFilterBank"] from .filter.filterbank_design import (OctaveBankDesigner,
ThirdOctaveBankDesigner)
from .filter.filterbank_design import OctaveBankDesigner, ThirdOctaveBankDesigner
from .lasp_cpp import BiquadBank from .lasp_cpp import BiquadBank
import numpy as np import numpy as np
@ -17,7 +19,7 @@ import numpy as np
class OverallFilterBank: class OverallFilterBank:
""" """
Dummy type filter bank. Does nothing special, only returns output in a Dummy type filter bank. Does nothing special, only returns output in a
way compatible with SosFilterBank. sensible way
""" """
def __init__(self, fs): def __init__(self, fs):
@ -49,13 +51,173 @@ class OverallFilterBank:
t = np.linspace(tstart, tend, Ncur, endpoint=False) t = np.linspace(tstart, tend, Ncur, endpoint=False)
self.N += Ncur self.N += Ncur
output["Overall"] = {"t": t, "data": data, "x": 0} output['Overall'] = {'t': t, 'data': data, 'x': 0}
return output return output
def decimation(self, x): def decimation(self, x):
return [1] return [1]
class FirFilterBank:
"""
Single channel (fractional) octave filter bank implementation, based on FIR
filters and sample rate decimation.
"""
def __init__(self, fs, xmin, xmax):
"""
Initialize a OctaveFilterBank object.
Args:
fs: Sampling frequency of base signal
"""
assert np.isclose(fs, 48000), "Only sampling frequency" \
" available is 48 kHz"
self.fs = fs
self.xs = list(range(xmin, xmax + 1))
maxdecimation = self.designer.firDecimation(self.xs[0])
self.decimators = []
for dec in maxdecimation:
self.decimators.append(Decimator(1, dec))
xs_d1 = []
xs_d4 = []
xs_d16 = []
xs_d64 = []
xs_d256 = []
self.filterbanks = []
# Sort the x values in categories according to the required decimation
for x in self.xs:
dec = self.designer.firDecimation(x)
if len(dec) == 1 and dec[0] == 1:
xs_d1.append(x)
elif len(dec) == 1 and dec[0] == 4:
xs_d4.append(x)
elif len(dec) == 2:
xs_d16.append(x)
elif len(dec) == 3:
xs_d64.append(x)
elif len(dec) == 4:
xs_d256.append(x)
else:
raise ValueError(f'No decimation found for x={x}')
xs_all = [xs_d1, xs_d4, xs_d16, xs_d64, xs_d256]
for xs in xs_all:
nominals_txt = []
if len(xs) > 0:
firs = np.empty((self.designer.firFilterLength, len(xs)), order='F')
for i, x in enumerate(xs):
# These are the filters that do not require lasp_decimation
# prior to filtering
nominals_txt.append(self.designer.nominal_txt(x))
firs[:, i] = self.designer.createFirFilter(x)
filterbank = {'fb': pyxFilterBank(firs, 1024),
'xs': xs,
'nominals': nominals_txt}
self.filterbanks.append(filterbank)
# Sample input counter.
self.N = 0
self.dec = [1, 4, 16, 64, 256]
# Filter output counters
# These intial delays are found 'experimentally' using a toneburst
# response.
self.Nf = [915, 806, 780, 582, 338]
def filterd(self, dec_stage, data):
"""
Filter data for a given decimation stage
Args:
dec_stage: decimation stage
data: Pre-filtered data
"""
output = {}
if data.shape[0] == 0:
return output
filtered = self.filterbanks[dec_stage]['fb'].filter_(data)
Nf = filtered.shape[0]
if Nf > 0:
dec = self.dec[dec_stage]
fd = self.fs/dec
oldNf = self.Nf[dec_stage]
tstart = oldNf/fd
tend = tstart + Nf/fd
t = np.linspace(tstart, tend, Nf, endpoint=False)
self.Nf[dec_stage] += Nf
for i, nom_txt in enumerate(self.filterbanks[dec_stage]['nominals']):
x = self.designer.nominal_txt_tox(nom_txt)
output[nom_txt] = {'t': t, 'data': filtered[:, [i]], 'x': x}
return output
def filter_(self, data):
"""
Filter input data
"""
assert data.ndim == 2
assert data.shape[1] == 1, "invalid number of channels, should be 1"
if data.shape[0] == 0:
return {}
# Output given as a dictionary with x as the key
output = {}
output_unsorted = {}
self.N += data.shape[0]
output_unsorted = {**output_unsorted, **self.filterd(0, data)}
for i in range(len(self.decimators)):
dec_stage = i+1
if data.shape[0] > 0:
# Apply a decimation stage
data = self.decimators[i].decimate(data)
output_unsorted = {**output_unsorted,
**self.filterd(dec_stage, data)}
# Create sorted output
for x in self.xs:
nom_txt = self.designer.nominal_txt(x)
output[nom_txt] = output_unsorted[nom_txt]
return output
def decimation(self, x):
return self.designer.firDecimation(x)
class FirOctaveFilterBank(FirFilterBank):
"""
Filter bank which uses FIR filtering for each octave frequency band
"""
def __init__(self, fs, xmin, xmax):
self.designer = OctaveBankDesigner(fs)
FirFilterBank.__init__(self, fs, xmin, xmax)
class FirThirdOctaveFilterBank(FirFilterBank):
"""
Filter bank which uses FIR filtering for each one-third octave frequency
band.
"""
def __init__(self, fs, xmin, xmax):
self.designer = ThirdOctaveBankDesigner(fs)
FirFilterBank.__init__(self, fs, xmin, xmax)
class SosFilterBank: class SosFilterBank:
def __init__(self, fs, xmin, xmax): def __init__(self, fs, xmin, xmax):
""" """
@ -83,7 +245,7 @@ class SosFilterBank:
for i, x in enumerate(self.xs): for i, x in enumerate(self.xs):
channel = self.designer.createSOSFilter(x) channel = self.designer.createSOSFilter(x)
if sos is None: if sos is None:
sos = empty((channel.size, len(self.xs))) sos = np.empty((channel.size, len(self.xs)))
sos[:, i] = channel.flatten() sos[:, i] = channel.flatten()
self._fb = BiquadBank(sos) self._fb = BiquadBank(sos)

View File

@ -11,11 +11,6 @@ from enum import Enum, auto, unique
from .lasp_cpp import InDataHandler, StreamMgr from .lasp_cpp import InDataHandler, StreamMgr
from .lasp_version import LASP_VERSION_MAJOR, LASP_VERSION_MINOR from .lasp_version import LASP_VERSION_MAJOR, LASP_VERSION_MINOR
import uuid import uuid
import logging
logger = logging.getLogger(__name__)
# logger.setLevel(logging.DEBUG)
logger.setLevel(logging.INFO)
@dataclasses.dataclass @dataclasses.dataclass
@ -65,14 +60,10 @@ class Recording:
startDelay: Optional delay added before the recording is *actually* startDelay: Optional delay added before the recording is *actually*
started in [s]. started in [s].
""" """
logger.debug("__init__()")
ext = ".h5" ext = ".h5"
if ext not in fn: if ext not in fn:
fn += ext fn += ext
if os.path.exists(fn):
raise RuntimeError("Recording file name already exists / is in use")
self._smgr = streammgr self._smgr = streammgr
self._metadata = None self._metadata = None
@ -100,7 +91,7 @@ class Recording:
self._stop = Atomic(False) self._stop = Atomic(False)
# Mutex, on who is working with the H5py data and the class settings # Mutex, on who is working with the H5py data and the class settings
self._rec_mutex = threading.RLock() self._rec_mutex = threading.Lock()
self._progressCallback = progressCallback self._progressCallback = progressCallback
@ -109,7 +100,7 @@ class Recording:
self._h5file = h5py.File(self._fn, "w", "stdio") self._h5file = h5py.File(self._fn, "w", "stdio")
self._h5file.flush() self._h5file.flush()
except Exception as e: except Exception as e:
logger.error(f"Error creating measurement file {e}") logging.error(f"Error creating measurement file {e}")
raise raise
# This flag is used to delete the file on finish(), and can be used # This flag is used to delete the file on finish(), and can be used
@ -124,26 +115,19 @@ class Recording:
# Audio dataset # Audio dataset
self._ad = None self._ad = None
logger.debug("Starting record....") logging.debug("Starting record....")
# In the PyInDataHandler, a weak reference is stored to the python
# methods reset and incallback. One way or another, the weak ref is gone
# on the callback thread. If we store an "extra" ref to this method over
# here, the weak ref stays alive. We do not know whether this is a bug
# or a feature, but in any case storing this extra ref to inCallback
# solves the problem.
self._incalback_cpy = self.inCallback
self._indataHandler = InDataHandler( self._indataHandler = InDataHandler(
streammgr, self._incalback_cpy, self.resetCallback streammgr, self.inCallback, self.resetCallback
) )
if wait: if wait:
logger.debug("Stop recording with CTRL-C") logging.debug("Stop recording with CTRL-C")
try: try:
while not self._stop(): while not self._stop():
time.sleep(0.01) time.sleep(0.01)
except KeyboardInterrupt: except KeyboardInterrupt:
logger.debug("Keyboard interrupt on record") logging.debug("Keyboard interrupt on record")
finally: finally:
self.finish() self.finish()
@ -154,7 +138,6 @@ class Recording:
""" """
Function called with initial stream data. Function called with initial stream data.
""" """
logger.debug(f"resetCallback({daq})")
with self._rec_mutex: with self._rec_mutex:
in_ch = daq.enabledInChannels() in_ch = daq.enabledInChannels()
blocksize = daq.framesPerBlock() blocksize = daq.framesPerBlock()
@ -197,11 +180,10 @@ class Recording:
When returning False, it will stop the stream. When returning False, it will stop the stream.
""" """
logger.debug(f"inCallback()")
if self._stop(): if self._stop():
logger.debug("Stop flag set, early return in inCallback") logging.debug("Stop flag set, early return in inCallback")
# Stop flag is raised. We do not add any data anymore. # Stop flag is raised. We do not add any data anymore.
return False return True
with self._rec_mutex: with self._rec_mutex:
@ -209,7 +191,10 @@ class Recording:
match self._recState: match self._recState:
case RecordingState.Waiting: case RecordingState.Waiting:
if self._allBlocks * self._blocksize / self._fs > self._startDelay: if (
self._allBlocks * self._blocksize / self._fs
> self._startDelay
):
self._recState = RecordingState.Recording self._recState = RecordingState.Recording
case RecordingState.Recording: case RecordingState.Recording:
@ -223,10 +208,7 @@ class Recording:
recstatus = RecordStatus(curT=self.recordedTime, done=False) recstatus = RecordStatus(curT=self.recordedTime, done=False)
if ( if self._requiredRecordingLength is not None and self.recordedTime >= self._requiredRecordingLength:
self._requiredRecordingLength is not None
and self.recordedTime >= self._requiredRecordingLength
):
self._recState = RecordingState.AllDataStored self._recState = RecordingState.AllDataStored
self._stop <<= True self._stop <<= True
recstatus.done = True recstatus.done = True
@ -235,17 +217,16 @@ class Recording:
self._progressCallback(recstatus) self._progressCallback(recstatus)
case RecordingState.AllDataStored: case RecordingState.AllDataStored:
return False pass
case RecordingState.Finished: case RecordingState.Finished:
return False pass
return True return True
@property @property
def recordedTime(self): def recordedTime(self):
"""Return recorded time (not rounded) as float""" """Return recorded time (not rounded) as float"""
with self._rec_mutex:
if self._ad is None: if self._ad is None:
return 0.0 return 0.0
return self._recordedBlocks * self._blocksize / self._fs return self._recordedBlocks * self._blocksize / self._fs
@ -259,7 +240,7 @@ class Recording:
adata: Numpy array with data from DAQ adata: Numpy array with data from DAQ
""" """
with self._rec_mutex:
# The array data type cannot # The array data type cannot
# datatype = daq.dataType() # datatype = daq.dataType()
dtype = np.dtype(adata.dtype) dtype = np.dtype(adata.dtype)
@ -298,35 +279,36 @@ class Recording:
remove the queue from the stream, etc. remove the queue from the stream, etc.
""" """
logger.debug("Recording::finish()") logging.debug("Recording::finish()")
self._stop <<= True self._stop <<= True
with self._rec_mutex: with self._rec_mutex:
if self._recState == RecordingState.Finished: if self._recState == RecordingState.Finished:
raise RuntimeError("Recording has already finished") raise RuntimeError('Recording has already finished')
self._h5file.flush()
# Remove indata handler, which also should remove callback function # Remove indata handler, which also should remove callback function
# from StreamMgr. This, however does not have to happen # from StreamMgr. This, however does not have to happen
# instantaneously. For which we have to implement extra mutex # instantaneously. For which we have to implement extra mutex
# guards in this class # guards in this class
del self._indataHandler del self._indataHandler
self._indataHandler = None
self._h5file.flush()
# Remove handle to dataset otherwise the h5 file is not closed # Remove handle to dataset otherwise the h5 file is not closed
# properly. # properly.
del self._ad del self._ad
self._ad = None
try: try:
# Close the recording file # Close the recording file
self._h5file.close() self._h5file.close()
del self._h5file del self._h5file
except Exception as e: except Exception as e:
logger.error(f"Error closing file: {e}") logging.error(f"Error closing file: {e}")
logger.debug("Recording ended") logging.debug("Recording ended")
if self._deleteFile: if self._deleteFile:
self.__deleteFile() self.__deleteFile()
self._recState = RecordingState.Finished self._recState = RecordingState.Finished
@ -338,13 +320,12 @@ class Recording:
try: try:
os.remove(self._fn) os.remove(self._fn)
except Exception as e: except Exception as e:
logger.error(f"Error deleting file: {self._fn}: {str(e)}") logging.error(f"Error deleting file: {self._fn}: {str(e)}")
def __addTimeDataToFile(self, indata): def __addTimeDataToFile(self, indata):
""" """
Called by handleQueue() and adds new time data to the storage file. Called by handleQueue() and adds new time data to the storage file.
""" """
with self._rec_mutex:
ablockno = self._recordedBlocks ablockno = self._recordedBlocks

View File

@ -6,7 +6,6 @@ Description:
Reverberation time estimation tool using least squares Reverberation time estimation tool using least squares
""" """
from .lasp_common import getTime from .lasp_common import getTime
from .lasp_config import ones
import numpy as np import numpy as np
@ -57,7 +56,7 @@ class ReverbTime:
x = self._t[istart:istop][:, np.newaxis] x = self._t[istart:istop][:, np.newaxis]
# Solve the least-squares problem, by creating a matrix of # Solve the least-squares problem, by creating a matrix of
A = np.hstack([x, ones(x.shape)]) A = np.hstack([x, np.ones(x.shape)])
# print(A.shape) # print(A.shape)
# print(points.shape) # print(points.shape)

View File

@ -5,7 +5,6 @@ Sound level meter implementation
@author: J.A. de Jong - ASCEE @author: J.A. de Jong - ASCEE
""" """
from .lasp_cpp import cppSLM from .lasp_cpp import cppSLM
from .lasp_config import empty
import numpy as np import numpy as np
from .lasp_common import (TimeWeighting, FreqWeighting, P_REF) from .lasp_common import (TimeWeighting, FreqWeighting, P_REF)
from .filter import SPLFilterDesigner from .filter import SPLFilterDesigner
@ -102,7 +101,7 @@ class SLM:
assert fbdesigner.fs == fs assert fbdesigner.fs == fs
sos_firstx = fbdesigner.createSOSFilter(self.xs[0]).flatten() sos_firstx = fbdesigner.createSOSFilter(self.xs[0]).flatten()
self.nom_txt.append(fbdesigner.nominal_txt(self.xs[0])) self.nom_txt.append(fbdesigner.nominal_txt(self.xs[0]))
sos = empty((sos_firstx.size, nfilters), dtype=float, order='C') sos = np.empty((sos_firstx.size, nfilters), dtype=float, order='C')
sos[:, 0] = sos_firstx sos[:, 0] = sos_firstx
for i, x in enumerate(self.xs[1:]): for i, x in enumerate(self.xs[1:]):

View File

@ -47,7 +47,7 @@ class WeighCal:
P = 2048 # Filter length (number of taps) P = 2048 # Filter length (number of taps)
self._firs = empty((P, self.nchannels)) self._firs = np.empty((P, self.nchannels))
self._fbs = [] self._fbs = []
for chan in range(self.nchannels): for chan in range(self.nchannels):
fir = arbitrary_fir_design(fs, P, freq_design, fir = arbitrary_fir_design(fs, P, freq_design,

View File

@ -20,8 +20,6 @@ from enum import Enum, unique
import copy import copy
import numpy as np import numpy as np
from numpy import log2, pi, sin from numpy import log2, pi, sin
from ..lasp_cpp import freqSmooth
from ..lasp_config import zeros
@unique @unique
@ -154,7 +152,7 @@ def smoothCalcMatrix(freq, sw: SmoothingWidth):
return Q return Q
def smoothSpectralData_old(freq, M, sw: SmoothingWidth, def smoothSpectralData(freq, M, sw: SmoothingWidth,
st: SmoothingType = SmoothingType.levels): st: SmoothingType = SmoothingType.levels):
""" """
Apply fractional octave smoothing to data in the frequency domain. Apply fractional octave smoothing to data in the frequency domain.
@ -222,45 +220,6 @@ def smoothSpectralData_old(freq, M, sw: SmoothingWidth,
return Psm return Psm
def smoothSpectralData(freq, M, sw: SmoothingWidth,
st: SmoothingType = SmoothingType.levels):
"""
Apply fractional octave smoothing to data in the frequency domain.
Args:
freq: array of frequencies of data points [Hz] - equally spaced
M: array of data, either power or dB
the smoothing type `st`, the smoothing is applied.
sw: smoothing width
st: smoothing type = data type of input data
Returns:
freq : array frequencies of data points [Hz]
Msm : float smoothed magnitude of data points
"""
# Safety
if st == SmoothingType.ps:
assert np.min(M) >= 0, 'Power spectrum values cannot be negative'
if st == SmoothingType.levels and isinstance(M.dtype, complex):
raise RuntimeError('Decibel input should be real-valued')
# Convert to power
if st == SmoothingType.levels:
P = 10**(M/10)
elif st == SmoothingType.ps:
P = M
else:
raise RuntimeError(f"Incorrect SmoothingType: {st}")
Psm = freqSmooth(freq, P, sw.value[0])
# Convert to original format
if st == SmoothingType.levels:
Psm = 10*np.log10(Psm)
return Psm
# %% Test # %% Test
if __name__ == "__main__": if __name__ == "__main__":

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@ -1,9 +1,11 @@
#!/bin/bash #!/bin/bash
# #
arch=mingw64 cmake . -G"Ninja" -DLASP_HAS_ULDAQ=OFF -DPython3_ROOT_DIR=C:\\winpython\\python-3.10.9.amd64
# DLL's that are required by lasp_cpp arch=ucrt64
#arch=mingw64
files_to_cpy="libfftw3-3.dll libgcc_s_seh-1.dll libgfortran-5.dll libgomp-1.dll libopenblas.dll libquadmath-0.dll libstdc++-6.dll libwinpthread-1.dll" files_to_cpy="libfftw3-3.dll libgcc_s_seh-1.dll libgfortran-5.dll libgomp-1.dll libopenblas.dll libquadmath-0.dll libstdc++-6.dll libwinpthread-1.dll"
for fn in ${files_to_cpy}; do for fn in ${files_to_cpy}; do
cp /c/msys64/${arch}/bin/${fn} python_src/lasp cp /c/msys64/${arch}/bin/${fn} src/lasp
done done

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@ -5,8 +5,8 @@
if [ -z $CI ]; then if [ -z $CI ]; then
PACMAN_OPTIONS="--needed --noconfirm" PACMAN_OPTIONS="--needed --noconfirm"
fi fi
arch=mingw-w64-x86_64 # arch=mingw-w64-x86_64
# arch=mingw-w64-ucrt-x86_64 arch=mingw-w64-ucrt-x86_64
pacman -S ${PACMAN_OPTIONS} make pacman -S ${PACMAN_OPTIONS} make

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@ -31,7 +31,7 @@ def test_backward_fft():
nfft = 2048 nfft = 2048
freq = getFreq(nfft, nfft) freq = getFreq(nfft, nfft)
# Sig = zeros(nfft//2+1, dtype=complex) # Sig = np.zeros(nfft//2+1, dtype=complex)
Sigr = np.random.randn(nfft//2+1) Sigr = np.random.randn(nfft//2+1)
Sigi = np.random.randn(nfft//2+1) Sigi = np.random.randn(nfft//2+1)

@ -1 +1 @@
Subproject commit 18a606e1f928852bfc29639d9539ae74d37b5dee Subproject commit daaf637f6f9fce670031221abfd7dfde92e5cce3