musicdsp/audio-river
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base: musicdsp:0.1.0
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musicdsp:main musicdsp:dev musicdsp:gh-pages musicdsp:dev-nao
musicdsp:v1.0.0 musicdsp:0.4.0 musicdsp:0.3.1 musicdsp:0.3.0 musicdsp:0.2.0 musicdsp:0.1.0 musicdsp:0.0.0
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compare: musicdsp:0.4.0
Branches Tags
musicdsp:dev musicdsp:main musicdsp:gh-pages musicdsp:dev-nao
musicdsp:v1.0.0 musicdsp:0.4.0 musicdsp:0.3.1 musicdsp:0.3.0 musicdsp:0.2.0 musicdsp:0.1.0 musicdsp:0.0.0

41 Commits
0.1.0 ... 0.4.0

Author SHA1 Message Date
Edouard DUPIN
b114de5f1d [RELEASE] new version 0.4.0 2016-10-24 22:25:37 +02:00
Edouard DUPIN
d13298acf9 [CI] update build CI 2016-10-24 22:25:37 +02:00
Edouard DUPIN
a5ca43b7dd [DEV] remove dependency of unistd.h 2016-10-13 21:29:18 +02:00
Edouard DUPIN
abc2ce6a49 [DEV] Update new lutin 2.2.0 (no legacy support) 2016-10-04 23:41:29 +02:00
Edouard DUPIN
6a2e12c2ad [DEBUG] correct .hpp port + clean libC include 2016-10-02 23:42:50 +02:00
Edouard DUPIN
7d38eb190d [DEV/API] change .h in .hpp 2016-10-02 22:20:33 +02:00
Edouard DUPIN
bc47714cff [DEV] add support of the output float,double,int32/64 muxer 2016-09-27 21:46:47 +02:00
Edouard DUPIN
6ecf73bb11 [DEV] CORRECT INDENTATION 2016-09-26 22:31:05 +02:00
Edouard DUPIN
417845abc2 [DOC] wrong website 2016-09-16 21:05:30 +02:00
Edouard DUPIN
5acf1ead90 [DOC] update sample to the new doxy methode 2016-09-14 22:19:22 +02:00
Edouard DUPIN
e80670fd0c [DEV] remove catkin build methode 2016-09-14 21:43:24 +02:00
Edouard DUPIN
77241b828d [DEV] update dev tag version 2016-09-12 21:07:12 +02:00
Edouard DUPIN
d0bc917536 [RELEASE] create release 0.3.1 2016-09-12 21:06:37 +02:00
Edouard DUPIN
4fcde8de4f [DEV] update to future lutin 2.0 2016-09-08 21:35:02 +02:00
Edouard DUPIN
d20753518c [DEV] update to future lutin 2.0 2016-09-07 22:05:42 +02:00
Edouard DUPIN
2ffe31a3e9 [DEV] update dev tag version 2016-08-30 22:54:57 +02:00
Edouard DUPIN
f91dc09ac1 [RELEASE] create release 0.3.0 2016-08-30 22:54:08 +02:00
Edouard DUPIN
2566843a66 [DEV] add support of multiple input stream type 2016-08-22 21:52:31 +02:00
Edouard DUPIN
9a37b437c6 [DEV] update sharedPtr 2016-07-19 21:43:58 +02:00
Edouard DUPIN
e83ac7620d [DEV] rm __class__ 2016-05-02 22:01:55 +02:00
Edouard DUPIN
434c8097d0 [DEV] update the change on 'enum' to 'enum class' 2016-04-29 23:16:07 +02:00
Edouard DUPIN
07a56e29ae [DEV] update to ne new ejson API (remove helper) 2016-04-28 23:46:12 +02:00
Edouard DUPIN
aa5df52e14 [DEV] update new ejson interface 2016-04-20 21:19:11 +02:00
Edouard DUPIN
c9bb77e8d6 [DEBUG] correct set titile 2016-03-16 23:57:13 +01:00
Edouard DUPIN
ef0bda6405 [DEV] build again 2016-03-14 21:26:44 +01:00
Edouard DUPIN
e7d5b421c3 [DEV] update of external of elog and ethread 2016-03-08 21:29:34 +01:00
Edouard DUPIN
dd2e5240e3 [DEV] add basic subfolder parser request 2016-02-23 21:56:42 +01:00
Edouard DUPIN
f1643a1231 [DEV] replace 'include guard' with 'pragma once' 2016-02-02 21:18:54 +01:00
Edouard DUPIN
569d59e05a [DEV] update new lutin 0.8.0 2015-10-14 21:21:03 +02:00
Edouard DUPIN
88c8178a72 [DEV] update next lutin version and debug android play audio 2015-09-24 21:44:04 +02:00
Edouard DUPIN
dbd66a0157 [DEV] update Build interface 2015-09-14 21:11:04 +02:00
Edouard DUPIN
5cab7f39eb [CI] update travis with new interface (no sudo) 2015-08-24 23:55:27 +02:00
Edouard DUPIN
9323412a44 [DEV] update test with gale 2015-08-24 22:29:47 +02:00
Edouard DUPIN
58ceff9371 [DEV] start work on File node 2015-07-10 23:10:16 +02:00
Edouard DUPIN
c329af6863 [DEV] Add mute in volume manager 2015-07-02 21:17:24 +02:00
Edouard DUPIN
3ce856c1c6 [DEV] better viewer 2015-07-01 22:00:09 +02:00
Edouard DUPIN
0692b6f8bc [DEV] add basic input viewer widget 2015-06-30 21:29:08 +02:00
Edouard DUPIN
f791cb3613 [DEV] indent correction 2015-06-26 22:20:04 +02:00
Edouard DUPIN
972bbf60bc [CI] remove test (must have hardware) 2015-06-16 22:02:08 +02:00
Edouard DUPIN
2ed71b8c7a [CI] remove pulse from dependency (old) 2015-06-16 21:17:08 +02:00
Edouard DUPIN
10820f0c86 [DOC] Create readme 2015-06-15 22:27:39 +02:00
78 changed files with 2920 additions and 1947 deletions
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110
.travis.yml
View File

@@ -1,42 +1,96 @@
language: cpp
compiler:
- clang
- gcc
sudo: required
dist: trusty
os:
- linux
- osx
branches:
only:
- master
- dev
addons:
apt:
sources:
- ubuntu-toolchain-r-test
packages:
- g++-4.9
- expect
- binutils-mingw-w64-x86-64 # 64bit MinGW
- gcc-mingw-w64-x86-64
- g++-mingw-w64-x86-64
matrix:
include:
- os: linux
env: CONF=release BUILDER=gcc TARGET=Linux TAG=Linux COMPILATOR_OPTION="--compilator-version=4.9" GCOV=--gcov
compiler: gcc
- os: linux
env: CONF=debug BUILDER=clang TARGET=Linux
compiler: clang
- os: linux
env: CONF=release BUILDER=gcc TARGET=Windows TAG=Mingw
compiler: x86_64-w64-mingw32-gcc
- os: linux
env: CONF=release BUILDER=gcc TARGET=Android TAG=Android DISABLE_PACKAGE=-p
compiler: gcc
- os: osx
env: CONF=release BUILDER=clang TARGET=MacOs TAG=MacOs
compiler: clang
- os: osx
env: CONF=release BUILDER=clang TARGET=IOs TAG=IOs
compiler: clang
install:
- cd ..
- pip install --user lutin
- if [ "$TAG" == "Android" ]; then
git clone --depth 1 --branch master https://github.com/HeeroYui/android-download-tool;
./android-download-tool/dl-android.sh;
fi
- git clone --depth 1 --branch master https://github.com/atria-soft/ci.git
- cd -
before_script:
- cd ..
- git clone https://github.com/generic-library/gtest-lutin.git --recurse-submodules
- git clone https://github.com/generic-library/speex-dsp-lutin.git --recurse-submodules
- git clone https://github.com/generic-library/z-lutin.git --recurse-submodules
- git clone https://github.com/generic-library/portaudio-lutin.git --recurse-submodules
- git clone https://github.com/atria-soft/etk.git
- git clone https://github.com/atria-soft/ejson.git
- git clone https://github.com/musicdsp/audio.git
- git clone https://github.com/musicdsp/audio-algo-drain.git
- git clone https://github.com/musicdsp/audio-drain.git
- git clone https://github.com/musicdsp/audio-orchestra.git
- git clone https://github.com/atria-soft/etk.git -b $TRAVIS_BRANCH
- git clone https://github.com/atria-soft/elog.git -b $TRAVIS_BRANCH
- git clone https://github.com/atria-soft/ememory.git -b $TRAVIS_BRANCH
- git clone https://github.com/atria-soft/echrono.git -b $TRAVIS_BRANCH
- git clone https://github.com/atria-soft/ethread.git -b $TRAVIS_BRANCH
- git clone https://github.com/atria-soft/ejson.git -b $TRAVIS_BRANCH
- git clone https://github.com/atria-soft/jvm-basics.git -b $TRAVIS_BRANCH
- git clone https://github.com/musicdsp/audio.git -b $TRAVIS_BRANCH
- git clone https://github.com/musicdsp/audio-algo-drain.git -b $TRAVIS_BRANCH
- git clone https://github.com/musicdsp/audio-algo-river.git -b $TRAVIS_BRANCH
- git clone https://github.com/musicdsp/audio-algo-speex.git -b $TRAVIS_BRANCH
- git clone https://github.com/musicdsp/audio-drain.git -b $TRAVIS_BRANCH
- git clone https://github.com/musicdsp/audio-orchestra.git -b $TRAVIS_BRANCH
- git clone https://github.com/generic-library/gtest-lutin.git --recursive
- git clone https://github.com/generic-library/z-lutin.git --recursive
- git clone https://github.com/generic-library/speex-dsp-lutin.git --recursive
- pwd
- ls -l
- if [ "$CXX" == "clang++" ]; then BUILDER=clang; else BUILDER=gcc; fi
- if [ "$TRAVIS_OS_NAME" == "osx" ]; then
export PATH=$PATH:/Users/travis/Library/Python/2.7/bin/;
fi
- ./ci/build_send.py --tag=$TAG --status=START;
install:
- sudo add-apt-repository ppa:ubuntu-toolchain-r/test -y
- sudo apt-get update -qq
- sudo apt-get install -qq g++-4.9
- sudo apt-get install -qq libstdc++-4.9-dev
- sudo rm /usr/bin/gcc /usr/bin/g++
- sudo ln -s /usr/bin/gcc-4.9 /usr/bin/gcc
- sudo ln -s /usr/bin/g++-4.9 /usr/bin/g++
- sudo pip install lutin
script:
- lutin -C -P -c$BUILDER -mdebug -p audio-river-test
- ./out/Linux_x86_64/debug/staging/$BUILDER/audio-river-test/usr/bin/audio-river-test -l6
- lutin -w -j4 -C -P -t$TARGET -c $BUILDER $COMPILATOR_OPTION $BUS -m $CONF $GCOV $DISABLE_PACKAGE audio-river-test*; STATUS=$?
- ./ci/build_send.py --tag=$TAG --status="$STATUS";
after_script:
- if [ "$GCOV" != "" ]; then
./ci/warning_send.py --find-path ./out/Linux_x86_64/$CONF/build/$BUILDER/audio-river/;
fi
#- lutin -w -j4 -C -P -t$TARGET -c $BUILDER $COMPILATOR_OPTION $BUS -m $CONF $GCOV $DISABLE_PACKAGE audio-river-test?run:--elog-level=3 | tee out_test.txt
#- if [ "$GCOV" != "" ]; then
# ./ci/test_send.py --file=out_test.txt;
# lutin -C -P -t $TARGET -c $BUILDER $COMPILATOR_OPTION $BUS -m $CONF -p audio-river?gcov;
# ./ci/coverage_send.py --json=out/Linux_x86_64/$CONF/build/$BUILDER/audio-river/audio-river_coverage.json;
# fi
notifications:
email:

88
README.md Normal file
View File

@@ -0,0 +1,88 @@
audio-river
=====
`audio-river` is a High level hardware audio interface that connect to orchestra (multi-platform backend)
Release (master)
----------------
[![Build Status](https://travis-ci.org/musicdsp/audio-river.svg?branch=master)](https://travis-ci.org/musicdsp/audio-river)
[![Coverage Status](http://musicdsp.com/ci/coverage/musicdsp/audio-river.svg?branch=master)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Test Status](http://musicdsp.com/ci/test/musicdsp/audio-river.svg?branch=master)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Warning Status](http://musicdsp.com/ci/warning/musicdsp/audio-river.svg?branch=master)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Build Status](http://musicdsp.com/ci/build/musicdsp/audio-river.svg?branch=master&tag=Linux)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Build Status](http://musicdsp.com/ci/build/musicdsp/audio-river.svg?branch=master&tag=MacOs)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Build Status](http://musicdsp.com/ci/build/musicdsp/audio-river.svg?branch=master&tag=Mingw)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Build Status](http://musicdsp.com/ci/build/musicdsp/audio-river.svg?branch=master&tag=Android)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Build Status](http://musicdsp.com/ci/build/musicdsp/audio-river.svg?branch=master&tag=IOs)](http://musicdsp.com/ci/musicdsp/audio-river)
Developement (dev)
------------------
[![Build Status](https://travis-ci.org/musicdsp/audio-river.svg?branch=dev)](https://travis-ci.org/musicdsp/audio-river)
[![Coverage Status](http://musicdsp.com/ci/coverage/musicdsp/audio-river.svg?branch=dev)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Test Status](http://musicdsp.com/ci/test/musicdsp/audio-river.svg?branch=dev)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Warning Status](http://musicdsp.com/ci/warning/musicdsp/audio-river.svg?branch=dev)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Build Status](http://musicdsp.com/ci/build/musicdsp/audio-river.svg?branch=dev&tag=Linux)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Build Status](http://musicdsp.com/ci/build/musicdsp/audio-river.svg?branch=dev&tag=MacOs)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Build Status](http://musicdsp.com/ci/build/musicdsp/audio-river.svg?branch=dev&tag=Mingw)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Build Status](http://musicdsp.com/ci/build/musicdsp/audio-river.svg?branch=dev&tag=Android)](http://musicdsp.com/ci/musicdsp/audio-river)
[![Build Status](http://musicdsp.com/ci/build/musicdsp/audio-river.svg?branch=dev&tag=IOs)](http://musicdsp.com/ci/musicdsp/audio-river)
Instructions
============
download Build system:
----------------------
sudo pip install lutin
sudo pip install pillow
download the software:
----------------------
mkdir WORKING_DIRECTORY
cd WORKING_DIRECTORY
git clone https://github.com/atria-soft/etk.git
git clone https://github.com/atria-soft/elog.git
git clone https://github.com/atria-soft/ememory.git
git clone https://github.com/atria-soft/ethread.git
git clone https://github.com/atria-soft/ejson.git
git clone https://github.com/musicdsp/audio.git
git clone https://github.com/musicdsp/audio-algo-drain.git
git clone https://github.com/musicdsp/audio-algo-river.git
git clone https://github.com/musicdsp/audio-algo-speex.git
git clone https://github.com/musicdsp/audio-drain.git
git clone https://github.com/musicdsp/audio-orchestra.git
git clone https://github.com/musicdsp/audio-river.git
git clone https://github.com/generic-library/gtest-lutin.git --recursive
git clone https://github.com/generic-library/z-lutin.git --recursive
git clone https://github.com/generic-library/speex-dsp-lutin.git --recursive
Compile software:
-----------------
cd WORKING_DIRECTORY
lutin -C -P audio-river-test?build?run
License (APACHE v2.0)
=====================
Copyright audio-river Edouard DUPIN
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.

160
audio/river/Interface.cpp
View File

@@ -4,17 +4,13 @@
* @license APACHE v2.0 (see license file)
*/
#include "debug.h"
#include "Interface.h"
#include "io/Node.h"
#include <audio/drain/EndPointCallback.h>
#include <audio/drain/EndPointWrite.h>
#include <audio/drain/EndPointRead.h>
#include <audio/drain/Volume.h>
#undef __class__
#define __class__ "Interface"
#include "debug.hpp"
#include "Interface.hpp"
#include "io/Node.hpp"
#include <audio/drain/EndPointCallback.hpp>
#include <audio/drain/EndPointWrite.hpp>
#include <audio/drain/EndPointRead.hpp>
#include <audio/drain/Volume.hpp>
audio::river::Interface::Interface(void) :
m_node(),
@@ -27,13 +23,13 @@ audio::river::Interface::Interface(void) :
bool audio::river::Interface::init(float _freq,
const std::vector<audio::channel>& _map,
audio::format _format,
const std11::shared_ptr<audio::river::io::Node>& _node,
const std11::shared_ptr<const ejson::Object>& _config) {
ememory::SharedPtr<audio::river::io::Node> _node,
const ejson::Object& _config) {
std::vector<audio::channel> map(_map);
m_node = _node;
m_config = _config;
m_mode = audio::river::modeInterface_unknow;
std::string type = m_config->getStringValue("io", "error");
std::string type = m_config["io"].toString().get("error");
static int32_t uid=0;
m_name = _node->getName() + "__" + (_node->isInput()==true?"input":"output") + "__" + type + "__" + etk::to_string(uid++);
if (type == "output") {
@@ -44,7 +40,7 @@ bool audio::river::Interface::init(float _freq,
m_mode = audio::river::modeInterface_feedback;
}
// register interface to be notify from the volume change.
m_node->registerAsRemote(shared_from_this());
m_node->registerAsRemote(sharedFromThis());
if (map.size() == 0) {
RIVER_INFO("Select auto map system ...");
@@ -57,10 +53,10 @@ bool audio::river::Interface::init(float _freq,
&& m_mode == audio::river::modeInterface_input) {
m_process.setInputConfig(m_node->getInterfaceFormat());
// Add volume only if the Low level has a volume (otherwise it will be added by the application)
std11::shared_ptr<audio::drain::VolumeElement> tmpVolume = m_node->getVolume();
ememory::SharedPtr<audio::drain::VolumeElement> tmpVolume = m_node->getVolume();
if (tmpVolume != nullptr) {
// add all time the volume stage :
std11::shared_ptr<audio::drain::Volume> algo = audio::drain::Volume::create();
ememory::SharedPtr<audio::drain::Volume> algo = audio::drain::Volume::create();
//algo->setInputFormat(m_node->getInterfaceFormat());
algo->setName("volume");
m_process.pushBack(algo);
@@ -72,10 +68,10 @@ bool audio::river::Interface::init(float _freq,
&& m_mode == audio::river::modeInterface_output) {
m_process.setInputConfig(audio::drain::IOFormatInterface(map, _format, _freq));
// Add volume only if the Low level has a volume (otherwise it will be added by the application)
std11::shared_ptr<audio::drain::VolumeElement> tmpVolume = m_node->getVolume();
ememory::SharedPtr<audio::drain::VolumeElement> tmpVolume = m_node->getVolume();
if (tmpVolume != nullptr) {
// add all time the volume stage :
std11::shared_ptr<audio::drain::Volume> algo = audio::drain::Volume::create();
ememory::SharedPtr<audio::drain::Volume> algo = audio::drain::Volume::create();
//algo->setOutputFormat(m_node->getInterfaceFormat());
algo->setName("volume");
m_process.pushBack(algo);
@@ -95,20 +91,20 @@ bool audio::river::Interface::init(float _freq,
return true;
}
std11::shared_ptr<audio::river::Interface> audio::river::Interface::create(float _freq,
ememory::SharedPtr<audio::river::Interface> audio::river::Interface::create(float _freq,
const std::vector<audio::channel>& _map,
audio::format _format,
const std11::shared_ptr<audio::river::io::Node>& _node,
const std11::shared_ptr<const ejson::Object>& _config) {
std11::shared_ptr<audio::river::Interface> out = std11::shared_ptr<audio::river::Interface>(new audio::river::Interface());
const ememory::SharedPtr<audio::river::io::Node>& _node,
const ejson::Object& _config) {
ememory::SharedPtr<audio::river::Interface> out = ememory::SharedPtr<audio::river::Interface>(new audio::river::Interface());
out->init(_freq, _map, _format, _node, _config);
return out;
}
audio::river::Interface::~Interface() {
//stop(true, true);
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
//m_node->interfaceRemove(shared_from_this());
std::unique_lock<std::recursive_mutex> lock(m_mutex);
//m_node->interfaceRemove(sharedFromThis());
}
/*
bool audio::river::Interface::hasEndPoint() {
@@ -116,7 +112,7 @@ bool audio::river::Interface::hasEndPoint() {
}
*/
void audio::river::Interface::setReadwrite() {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
m_process.removeAlgoDynamic();
if (m_process.hasType<audio::drain::EndPoint>() ) {
RIVER_ERROR("Endpoint is already present ==> can not change");
@@ -124,47 +120,47 @@ void audio::river::Interface::setReadwrite() {
}
if (m_node->isInput() == true) {
m_process.removeIfLast<audio::drain::EndPoint>();
std11::shared_ptr<audio::drain::EndPointRead> algo = audio::drain::EndPointRead::create();
ememory::SharedPtr<audio::drain::EndPointRead> algo = audio::drain::EndPointRead::create();
m_process.pushBack(algo);
} else {
m_process.removeIfFirst<audio::drain::EndPoint>();
std11::shared_ptr<audio::drain::EndPointWrite> algo = audio::drain::EndPointWrite::create();
ememory::SharedPtr<audio::drain::EndPointWrite> algo = audio::drain::EndPointWrite::create();
m_process.pushFront(algo);
}
}
void audio::river::Interface::setOutputCallback(audio::drain::playbackFunction _function) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
if (m_mode != audio::river::modeInterface_output) {
RIVER_ERROR("Can not set output endpoint on other than a output IO");
return;
}
m_process.removeAlgoDynamic();
m_process.removeIfFirst<audio::drain::EndPoint>();
std11::shared_ptr<audio::drain::Algo> algo = audio::drain::EndPointCallback::create(_function);
ememory::SharedPtr<audio::drain::Algo> algo = audio::drain::EndPointCallback::create(_function);
m_process.pushFront(algo);
}
void audio::river::Interface::setInputCallback(audio::drain::recordFunction _function) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
if (m_mode == audio::river::modeInterface_output) {
RIVER_ERROR("Can not set output endpoint on other than a input or feedback IO");
return;
}
m_process.removeAlgoDynamic();
m_process.removeIfLast<audio::drain::EndPoint>();
std11::shared_ptr<audio::drain::Algo> algo = audio::drain::EndPointCallback::create(_function);
ememory::SharedPtr<audio::drain::Algo> algo = audio::drain::EndPointCallback::create(_function);
m_process.pushBack(algo);
}
void audio::river::Interface::setWriteCallback(audio::drain::playbackFunctionWrite _function) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
if (m_mode != audio::river::modeInterface_output) {
RIVER_ERROR("Can not set output endpoint on other than a output IO");
return;
}
m_process.removeAlgoDynamic();
std11::shared_ptr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
ememory::SharedPtr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
if (algo == nullptr) {
return;
}
@@ -172,22 +168,22 @@ void audio::river::Interface::setWriteCallback(audio::drain::playbackFunctionWri
}
void audio::river::Interface::start(const audio::Time& _time) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
RIVER_DEBUG("start [BEGIN]");
m_process.updateInterAlgo();
m_node->interfaceAdd(shared_from_this());
m_node->interfaceAdd(sharedFromThis());
RIVER_DEBUG("start [ END ]");
}
void audio::river::Interface::stop(bool _fast, bool _abort) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
RIVER_DEBUG("stop [BEGIN]");
m_node->interfaceRemove(shared_from_this());
m_node->interfaceRemove(sharedFromThis());
RIVER_DEBUG("stop [ END]");
}
void audio::river::Interface::abort() {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
RIVER_DEBUG("abort [BEGIN]");
// TODO :...
RIVER_DEBUG("abort [ END ]");
@@ -201,7 +197,7 @@ bool audio::river::Interface::setParameter(const std::string& _filter, const std
RIVER_ERROR("Interface is not allowed to modify '" << _parameter << "' Volume just allowed to modify 'FLOW' volume");
return false;
}
std11::shared_ptr<audio::drain::Algo> algo = m_process.get<audio::drain::Algo>(_filter);
ememory::SharedPtr<audio::drain::Algo> algo = m_process.get<audio::drain::Algo>(_filter);
if (algo == nullptr) {
RIVER_ERROR("setParameter(" << _filter << ") ==> no filter named like this ...");
return false;
@@ -213,7 +209,7 @@ bool audio::river::Interface::setParameter(const std::string& _filter, const std
std::string audio::river::Interface::getParameter(const std::string& _filter, const std::string& _parameter) const {
RIVER_DEBUG("getParameter [BEGIN] : '" << _filter << "':'" << _parameter << "'");
std::string out;
std11::shared_ptr<const audio::drain::Algo> algo = m_process.get<const audio::drain::Algo>(_filter);
ememory::SharedPtr<const audio::drain::Algo> algo = m_process.get<const audio::drain::Algo>(_filter);
if (algo == nullptr) {
RIVER_ERROR("setParameter(" << _filter << ") ==> no filter named like this ...");
return "[ERROR]";
@@ -225,7 +221,7 @@ std::string audio::river::Interface::getParameter(const std::string& _filter, co
std::string audio::river::Interface::getParameterProperty(const std::string& _filter, const std::string& _parameter) const {
RIVER_DEBUG("getParameterProperty [BEGIN] : '" << _filter << "':'" << _parameter << "'");
std::string out;
std11::shared_ptr<const audio::drain::Algo> algo = m_process.get<const audio::drain::Algo>(_filter);
ememory::SharedPtr<const audio::drain::Algo> algo = m_process.get<const audio::drain::Algo>(_filter);
if (algo == nullptr) {
RIVER_ERROR("setParameter(" << _filter << ") ==> no filter named like this ...");
return "[ERROR]";
@@ -236,9 +232,9 @@ std::string audio::river::Interface::getParameterProperty(const std::string& _fi
}
void audio::river::Interface::write(const void* _value, size_t _nbChunk) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
m_process.updateInterAlgo();
std11::shared_ptr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
ememory::SharedPtr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
if (algo == nullptr) {
return;
}
@@ -256,7 +252,7 @@ std::vector<int16_t> audio::river::Interface::read(size_t _nbChunk) {
int32_t nbChunkBuffer = m_circularBuffer.size() / m_map.size();
m_mutex.unlock();
while (nbChunkBuffer < _nbChunk) {
usleep(1000);
std::this_thread::sleep_for(std::chrono::milliseconds(1));
nbChunkBuffer = m_circularBuffer.size() / m_map.size();
}
m_mutex.lock();
@@ -271,14 +267,14 @@ std::vector<int16_t> audio::river::Interface::read(size_t _nbChunk) {
#endif
void audio::river::Interface::read(void* _value, size_t _nbChunk) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
m_process.updateInterAlgo();
// TODO :...
}
size_t audio::river::Interface::size() const {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
// TODO :...
return 0;
}
@@ -288,9 +284,9 @@ size_t audio::river::Interface::size() const {
void audio::river::Interface::setBufferSize(size_t _nbChunk) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
if (m_node->isInput() == true) {
std11::shared_ptr<audio::drain::EndPointRead> algo = m_process.get<audio::drain::EndPointRead>(m_process.size()-1);
ememory::SharedPtr<audio::drain::EndPointRead> algo = m_process.get<audio::drain::EndPointRead>(m_process.size()-1);
if (algo == nullptr) {
RIVER_ERROR("Request set buffer size for Interface that is not READ or WRITE mode ...");
return;
@@ -298,7 +294,7 @@ void audio::river::Interface::setBufferSize(size_t _nbChunk) {
algo->setBufferSize(_nbChunk);
return;
}
std11::shared_ptr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
ememory::SharedPtr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
if (algo == nullptr) {
RIVER_ERROR("Request set buffer size for Interface that is not READ or WRITE mode ...");
return;
@@ -306,10 +302,10 @@ void audio::river::Interface::setBufferSize(size_t _nbChunk) {
algo->setBufferSize(_nbChunk);
}
void audio::river::Interface::setBufferSize(const std11::chrono::microseconds& _time) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
void audio::river::Interface::setBufferSize(const std::chrono::microseconds& _time) {
std::unique_lock<std::recursive_mutex> lock(m_mutex);
if (m_node->isInput() == true) {
std11::shared_ptr<audio::drain::EndPointRead> algo = m_process.get<audio::drain::EndPointRead>(m_process.size()-1);
ememory::SharedPtr<audio::drain::EndPointRead> algo = m_process.get<audio::drain::EndPointRead>(m_process.size()-1);
if (algo == nullptr) {
RIVER_ERROR("Request set buffer size for Interface that is not READ or WRITE mode ...");
return;
@@ -317,7 +313,7 @@ void audio::river::Interface::setBufferSize(const std11::chrono::microseconds& _
algo->setBufferSize(_time);
return;
}
std11::shared_ptr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
ememory::SharedPtr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
if (algo == nullptr) {
RIVER_ERROR("Request set buffer size for Interface that is not READ or WRITE mode ...");
return;
@@ -326,16 +322,16 @@ void audio::river::Interface::setBufferSize(const std11::chrono::microseconds& _
}
size_t audio::river::Interface::getBufferSize() {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
if (m_node->isInput() == true) {
std11::shared_ptr<audio::drain::EndPointRead> algo = m_process.get<audio::drain::EndPointRead>(m_process.size()-1);
ememory::SharedPtr<audio::drain::EndPointRead> algo = m_process.get<audio::drain::EndPointRead>(m_process.size()-1);
if (algo == nullptr) {
RIVER_ERROR("Request get buffer size for Interface that is not READ or WRITE mode ...");
return 0;
}
return algo->getBufferSize();
}
std11::shared_ptr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
ememory::SharedPtr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
if (algo == nullptr) {
RIVER_ERROR("Request get buffer size for Interface that is not READ or WRITE mode ...");
return 0;
@@ -343,35 +339,35 @@ size_t audio::river::Interface::getBufferSize() {
return algo->getBufferSize();
}
std11::chrono::microseconds audio::river::Interface::getBufferSizeMicrosecond() {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::chrono::microseconds audio::river::Interface::getBufferSizeMicrosecond() {
std::unique_lock<std::recursive_mutex> lock(m_mutex);
if (m_node->isInput() == true) {
std11::shared_ptr<audio::drain::EndPointRead> algo = m_process.get<audio::drain::EndPointRead>(m_process.size()-1);
ememory::SharedPtr<audio::drain::EndPointRead> algo = m_process.get<audio::drain::EndPointRead>(m_process.size()-1);
if (algo == nullptr) {
RIVER_ERROR("Request get buffer size for Interface that is not READ or WRITE mode ...");
return std11::chrono::microseconds(0);
return std::chrono::microseconds(0);
}
return algo->getBufferSizeMicrosecond();
}
std11::shared_ptr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
ememory::SharedPtr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
if (algo == nullptr) {
RIVER_ERROR("Request get buffer size for Interface that is not READ or WRITE mode ...");
return std11::chrono::microseconds(0);
return std::chrono::microseconds(0);
}
return algo->getBufferSizeMicrosecond();
}
size_t audio::river::Interface::getBufferFillSize() {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
if (m_node->isInput() == true) {
std11::shared_ptr<audio::drain::EndPointRead> algo = m_process.get<audio::drain::EndPointRead>(m_process.size()-1);
ememory::SharedPtr<audio::drain::EndPointRead> algo = m_process.get<audio::drain::EndPointRead>(m_process.size()-1);
if (algo == nullptr) {
RIVER_ERROR("Request get buffer size for Interface that is not READ or WRITE mode ...");
return 0;
}
return algo->getBufferFillSize();
}
std11::shared_ptr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
ememory::SharedPtr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
if (algo == nullptr) {
RIVER_ERROR("Request get buffer size for Interface that is not READ or WRITE mode ...");
return 0;
@@ -380,20 +376,20 @@ size_t audio::river::Interface::getBufferFillSize() {
}
std11::chrono::microseconds audio::river::Interface::getBufferFillSizeMicrosecond() {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::chrono::microseconds audio::river::Interface::getBufferFillSizeMicrosecond() {
std::unique_lock<std::recursive_mutex> lock(m_mutex);
if (m_node->isInput() == true) {
std11::shared_ptr<audio::drain::EndPointRead> algo = m_process.get<audio::drain::EndPointRead>(m_process.size()-1);
ememory::SharedPtr<audio::drain::EndPointRead> algo = m_process.get<audio::drain::EndPointRead>(m_process.size()-1);
if (algo == nullptr) {
RIVER_ERROR("Request get buffer size for Interface that is not READ or WRITE mode ...");
return std11::chrono::microseconds(0);
return std::chrono::microseconds(0);
}
return algo->getBufferFillSizeMicrosecond();
}
std11::shared_ptr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
ememory::SharedPtr<audio::drain::EndPointWrite> algo = m_process.get<audio::drain::EndPointWrite>(0);
if (algo == nullptr) {
RIVER_ERROR("Request get buffer size for Interface that is not READ or WRITE mode ...");
return std11::chrono::microseconds(0);
return std::chrono::microseconds(0);
}
return algo->getBufferFillSizeMicrosecond();
}
@@ -401,23 +397,23 @@ std11::chrono::microseconds audio::river::Interface::getBufferFillSizeMicrosecon
void audio::river::Interface::clearInternalBuffer() {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
m_process.updateInterAlgo();
// TODO :...
}
audio::Time audio::river::Interface::getCurrentTime() const {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
// TODO :...
return audio::Time();
return audio::Time::now();
}
void audio::river::Interface::addVolumeGroup(const std::string& _name) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
RIVER_DEBUG("addVolumeGroup(" << _name << ")");
std11::shared_ptr<audio::drain::Volume> algo = m_process.get<audio::drain::Volume>("volume");
ememory::SharedPtr<audio::drain::Volume> algo = m_process.get<audio::drain::Volume>("volume");
if (algo == nullptr) {
m_process.removeAlgoDynamic();
// add all time the volume stage :
@@ -431,29 +427,29 @@ void audio::river::Interface::addVolumeGroup(const std::string& _name) {
}
if (_name == "FLOW") {
// Local volume name
algo->addVolumeStage(std11::make_shared<audio::drain::VolumeElement>(_name));
algo->addVolumeStage(ememory::makeShared<audio::drain::VolumeElement>(_name));
} else {
// get manager unique instance:
std11::shared_ptr<audio::river::io::Manager> mng = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> mng = audio::river::io::Manager::getInstance();
algo->addVolumeStage(mng->getVolumeGroup(_name));
}
}
void audio::river::Interface::systemNewInputData(audio::Time _time, const void* _data, size_t _nbChunk) {
std11::unique_lock<std11::recursive_mutex> lockProcess(m_mutex);
std::unique_lock<std::recursive_mutex> lockProcess(m_mutex);
void * tmpData = const_cast<void*>(_data);
m_process.push(_time, tmpData, _nbChunk);
}
void audio::river::Interface::systemNeedOutputData(audio::Time _time, void* _data, size_t _nbChunk, size_t _chunkSize) {
std11::unique_lock<std11::recursive_mutex> lockProcess(m_mutex);
std::unique_lock<std::recursive_mutex> lockProcess(m_mutex);
//RIVER_INFO("time : " << _time);
m_process.pull(_time, _data, _nbChunk, _chunkSize);
}
void audio::river::Interface::systemVolumeChange() {
std11::unique_lock<std11::recursive_mutex> lockProcess(m_mutex);
std11::shared_ptr<audio::drain::Volume> algo = m_process.get<audio::drain::Volume>("volume");
std::unique_lock<std::recursive_mutex> lockProcess(m_mutex);
ememory::SharedPtr<audio::drain::Volume> algo = m_process.get<audio::drain::Volume>("volume");
if (algo == nullptr) {
return;
}

57
audio/river/Interface.h → audio/river/Interface.hpp
View File

@@ -3,25 +3,23 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifndef __AUDIO_RIVER_INTERFACE_H__
#define __AUDIO_RIVER_INTERFACE_H__
#pragma once
#include <string>
#include <vector>
#include <stdint.h>
#include <etk/mutex.h>
#include <etk/chrono.h>
#include <etk/functional.h>
#include <etk/memory.h>
#include <audio/format.h>
#include <audio/channel.h>
#include <audio/drain/Process.h>
#include <audio/drain/EndPointCallback.h>
#include <audio/drain/EndPointWrite.h>
#include <ejson/ejson.h>
#include <etk/os/FSNode.h>
#include <audio/Time.h>
#include <cstdint>
#include <mutex>
#include <chrono>
#include <functional>
#include <ememory/memory.hpp>
#include <audio/format.hpp>
#include <audio/channel.hpp>
#include <audio/drain/Process.hpp>
#include <audio/drain/EndPointCallback.hpp>
#include <audio/drain/EndPointWrite.hpp>
#include <ejson/ejson.hpp>
#include <etk/os/FSNode.hpp>
#include <audio/Time.hpp>
namespace audio {
namespace river {
@@ -41,7 +39,7 @@ namespace audio {
* @brief Interface is the basic handle to manage the input output stream
* @note To create this class see @ref audio::river::Manager class
*/
class Interface : public std11::enable_shared_from_this<Interface> {
class Interface : public ememory::EnableSharedFromThis<Interface> {
friend class io::Node;
friend class io::NodeAirTAudio;
friend class io::NodeAEC;
@@ -67,8 +65,8 @@ namespace audio {
bool init(float _freq,
const std::vector<audio::channel>& _map,
audio::format _format,
const std11::shared_ptr<audio::river::io::Node>& _node,
const std11::shared_ptr<const ejson::Object>& _config);
ememory::SharedPtr<audio::river::io::Node> _node,
const ejson::Object& _config);
/**
* @brief Factory of this interface (called by class audio::river::Manager)
* @param[in] _freq Frequency.
@@ -79,19 +77,19 @@ namespace audio {
* @return nullptr The configuration does not work.
* @return pointer The interface has been corectly created.
*/
static std11::shared_ptr<Interface> create(float _freq,
static ememory::SharedPtr<Interface> create(float _freq,
const std::vector<audio::channel>& _map,
audio::format _format,
const std11::shared_ptr<audio::river::io::Node>& _node,
const std11::shared_ptr<const ejson::Object>& _config);
const ememory::SharedPtr<audio::river::io::Node>& _node,
const ejson::Object& _config);
public:
/**
* @brief Destructor
*/
virtual ~Interface();
protected:
mutable std11::recursive_mutex m_mutex; //!< Local mutex to protect data
std11::shared_ptr<const ejson::Object> m_config; //!< configuration set by the user.
mutable std::recursive_mutex m_mutex; //!< Local mutex to protect data
ejson::Object m_config; //!< configuration set by the user.
protected:
enum modeInterface m_mode; //!< interface type (input/output/feedback)
public:
@@ -118,7 +116,7 @@ namespace audio {
}
}
protected:
std11::shared_ptr<audio::river::io::Node> m_node; //!< Hardware interface to/from stream audio flow.
ememory::SharedPtr<audio::river::io::Node> m_node; //!< Hardware interface to/from stream audio flow.
protected:
std::string m_name; //!< Name of the interface.
public:
@@ -247,7 +245,7 @@ namespace audio {
* @brief Set buffer size size of the buffer with the stored time in µs
* @param[in] _time Time in microsecond of the buffer
*/
virtual void setBufferSize(const std11::chrono::microseconds& _time);
virtual void setBufferSize(const std::chrono::microseconds& _time);
/**
* @brief get buffer size in chunk number
* @return Number of chunk that can be written in the buffer
@@ -257,7 +255,7 @@ namespace audio {
* @brief Set buffer size size of the buffer with the stored time in µs
* @return Time in microsecond that can be written in the buffer
*/
virtual std11::chrono::microseconds getBufferSizeMicrosecond();
virtual std::chrono::microseconds getBufferSizeMicrosecond();
/**
* @brief Get buffer size filled in chunk number
* @return Number of chunk in the buffer (that might be read/write)
@@ -267,7 +265,7 @@ namespace audio {
* @brief Set buffer size size of the buffer with the stored time in µs
* @return Time in microsecond of the buffer (that might be read/write)
*/
virtual std11::chrono::microseconds getBufferFillSizeMicrosecond();
virtual std::chrono::microseconds getBufferFillSizeMicrosecond();
/**
* @brief Remove internal Buffer
*/
@@ -330,6 +328,3 @@ namespace audio {
};
}
}
#endif

114
audio/river/Manager.cpp
View File

@@ -4,24 +4,22 @@
* @license APACHE v2.0 (see license file)
*/
#include "Manager.h"
#include "Interface.h"
#include "Manager.hpp"
#include "Interface.hpp"
#include <stdexcept>
#include "io/Manager.h"
#include "io/Node.h"
#include "debug.h"
#include <ejson/ejson.h>
#include "io/Manager.hpp"
#include "io/Node.hpp"
#include "debug.hpp"
#include <ejson/ejson.hpp>
#undef __class__
#define __class__ "Manager"
static std11::mutex g_mutex;
static std::vector<std11::weak_ptr<audio::river::Manager> > g_listOfAllManager;
static std::mutex g_mutex;
static std::vector<ememory::WeakPtr<audio::river::Manager> > g_listOfAllManager;
std11::shared_ptr<audio::river::Manager> audio::river::Manager::create(const std::string& _applicationUniqueId) {
std11::unique_lock<std11::mutex> lock(g_mutex);
ememory::SharedPtr<audio::river::Manager> audio::river::Manager::create(const std::string& _applicationUniqueId) {
std::unique_lock<std::mutex> lock(g_mutex);
for (size_t iii=0; iii<g_listOfAllManager.size() ; ++iii) {
std11::shared_ptr<audio::river::Manager> tmp = g_listOfAllManager[iii].lock();
ememory::SharedPtr<audio::river::Manager> tmp = g_listOfAllManager[iii].lock();
if (tmp == nullptr) {
continue;
}
@@ -30,7 +28,7 @@ std11::shared_ptr<audio::river::Manager> audio::river::Manager::create(const std
}
}
// create a new one:
std11::shared_ptr<audio::river::Manager> out = std11::shared_ptr<audio::river::Manager>(new audio::river::Manager(_applicationUniqueId));
ememory::SharedPtr<audio::river::Manager> out = ememory::SharedPtr<audio::river::Manager>(new audio::river::Manager(_applicationUniqueId));
// add it at the list:
for (size_t iii=0; iii<g_listOfAllManager.size() ; ++iii) {
if (g_listOfAllManager[iii].expired() == true) {
@@ -55,7 +53,7 @@ audio::river::Manager::~Manager() {
std::vector<std::string> audio::river::Manager::getListStreamInput() {
std::vector<std::string> output;
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Unable to load harware IO manager ... ");
} else {
@@ -66,7 +64,7 @@ std::vector<std::string> audio::river::Manager::getListStreamInput() {
std::vector<std::string> audio::river::Manager::getListStreamOutput() {
std::vector<std::string> output;
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Unable to load harware IO manager ... ");
} else {
@@ -77,7 +75,7 @@ std::vector<std::string> audio::river::Manager::getListStreamOutput() {
std::vector<std::string> audio::river::Manager::getListStreamVirtual() {
std::vector<std::string> output;
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Unable to load harware IO manager ... ");
} else {
@@ -88,7 +86,7 @@ std::vector<std::string> audio::river::Manager::getListStreamVirtual() {
std::vector<std::string> audio::river::Manager::getListStream() {
std::vector<std::string> output;
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Unable to load harware IO manager ... ");
} else {
@@ -98,7 +96,7 @@ std::vector<std::string> audio::river::Manager::getListStream() {
}
bool audio::river::Manager::setVolume(const std::string& _volumeName, float _valuedB) {
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Unable to load harware IO manager ... ");
return false;
@@ -107,7 +105,7 @@ bool audio::river::Manager::setVolume(const std::string& _volumeName, float _val
}
float audio::river::Manager::getVolume(const std::string& _volumeName) const {
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Unable to load harware IO manager ... ");
return false;
@@ -116,7 +114,7 @@ float audio::river::Manager::getVolume(const std::string& _volumeName) const {
}
std::pair<float,float> audio::river::Manager::getVolumeRange(const std::string& _volumeName) const {
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Unable to load harware IO manager ... ");
return std::make_pair<float,float>(0.0f,0.0f);
@@ -124,62 +122,80 @@ std::pair<float,float> audio::river::Manager::getVolumeRange(const std::string&
return manager->getVolumeRange(_volumeName);
}
std11::shared_ptr<audio::river::Interface> audio::river::Manager::createOutput(float _freq,
void audio::river::Manager::setMute(const std::string& _volumeName, bool _mute) {
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Unable to load harware IO manager ... ");
return;
}
manager->setMute(_volumeName, _mute);
}
bool audio::river::Manager::getMute(const std::string& _volumeName) const {
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Unable to load harware IO manager ... ");
return false;
}
return manager->getMute(_volumeName);
}
ememory::SharedPtr<audio::river::Interface> audio::river::Manager::createOutput(float _freq,
const std::vector<audio::channel>& _map,
audio::format _format,
const std::string& _streamName,
const std::string& _options) {
// get global hardware interface:
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Unable to load harware IO manager ... ");
return std11::shared_ptr<audio::river::Interface>();
return ememory::SharedPtr<audio::river::Interface>();
}
// get the output or input channel :
std11::shared_ptr<audio::river::io::Node> node = manager->getNode(_streamName);
ememory::SharedPtr<audio::river::io::Node> node = manager->getNode(_streamName);
if (node == nullptr) {
RIVER_ERROR("Can not get the Requested stream '" << _streamName << "' ==> not listed in : " << manager->getListStream());
return std11::shared_ptr<audio::river::Interface>();
return ememory::SharedPtr<audio::river::Interface>();
}
if (node->isOutput() != true) {
RIVER_ERROR("Can not Connect output on other thing than output ... for stream '" << _streamName << "'");;
return std11::shared_ptr<audio::river::Interface>();
return ememory::SharedPtr<audio::river::Interface>();
}
// create user iterface:
std11::shared_ptr<audio::river::Interface> interface;
std11::shared_ptr<ejson::Object> tmpOption = ejson::Object::create(_options);
tmpOption->addString("io", "output");
ememory::SharedPtr<audio::river::Interface> interface;
ejson::Object tmpOption = ejson::Object(_options);
tmpOption.add("io", ejson::String("output"));
interface = audio::river::Interface::create(_freq, _map, _format, node, tmpOption);
// store it in a list (needed to apply some parameters).
m_listOpenInterface.push_back(interface);
return interface;
}
std11::shared_ptr<audio::river::Interface> audio::river::Manager::createInput(float _freq,
ememory::SharedPtr<audio::river::Interface> audio::river::Manager::createInput(float _freq,
const std::vector<audio::channel>& _map,
audio::format _format,
const std::string& _streamName,
const std::string& _options) {
// get global hardware interface:
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Unable to load harware IO manager ... ");
return std11::shared_ptr<audio::river::Interface>();
return ememory::SharedPtr<audio::river::Interface>();
}
// get the output or input channel :
std11::shared_ptr<audio::river::io::Node> node = manager->getNode(_streamName);
ememory::SharedPtr<audio::river::io::Node> node = manager->getNode(_streamName);
if (node == nullptr) {
RIVER_ERROR("Can not get the Requested stream '" << _streamName << "' ==> not listed in : " << manager->getListStream());
return std11::shared_ptr<audio::river::Interface>();
return ememory::SharedPtr<audio::river::Interface>();
}
if (node->isInput() != true) {
RIVER_ERROR("Can not Connect input on other thing than input ... for stream '" << _streamName << "'");;
return std11::shared_ptr<audio::river::Interface>();
return ememory::SharedPtr<audio::river::Interface>();
}
// create user iterface:
std11::shared_ptr<audio::river::Interface> interface;
std11::shared_ptr<ejson::Object> tmpOption = ejson::Object::create(_options);
tmpOption->addString("io", "input");
ememory::SharedPtr<audio::river::Interface> interface;
ejson::Object tmpOption = ejson::Object(_options);
tmpOption.add("io", ejson::String("input"));
interface = audio::river::Interface::create(_freq, _map, _format, node, tmpOption);
// store it in a list (needed to apply some parameters).
m_listOpenInterface.push_back(interface);
@@ -187,31 +203,31 @@ std11::shared_ptr<audio::river::Interface> audio::river::Manager::createInput(fl
}
std11::shared_ptr<audio::river::Interface> audio::river::Manager::createFeedback(float _freq,
ememory::SharedPtr<audio::river::Interface> audio::river::Manager::createFeedback(float _freq,
const std::vector<audio::channel>& _map,
audio::format _format,
const std::string& _streamName,
const std::string& _options) {
// get global hardware interface:
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Unable to load harware IO manager ... ");
return std11::shared_ptr<audio::river::Interface>();
return ememory::SharedPtr<audio::river::Interface>();
}
// get the output or input channel :
std11::shared_ptr<audio::river::io::Node> node = manager->getNode(_streamName);
ememory::SharedPtr<audio::river::io::Node> node = manager->getNode(_streamName);
if (node == nullptr) {
RIVER_ERROR("Can not get the Requested stream '" << _streamName << "' ==> not listed in : " << manager->getListStream());
return std11::shared_ptr<audio::river::Interface>();
return ememory::SharedPtr<audio::river::Interface>();
}
if (node->isOutput() != true) {
RIVER_ERROR("Can not Connect feedback on other thing than output ... for stream '" << _streamName << "'");;
return std11::shared_ptr<audio::river::Interface>();
return ememory::SharedPtr<audio::river::Interface>();
}
// create user iterface:
std11::shared_ptr<audio::river::Interface> interface;
std11::shared_ptr<ejson::Object> tmpOption = ejson::Object::create(_options);
tmpOption->addString("io", "feedback");
ememory::SharedPtr<audio::river::Interface> interface;
ejson::Object tmpOption = ejson::Object(_options);
tmpOption.add("io", ejson::String("feedback"));
interface = audio::river::Interface::create(_freq, _map, _format, node, tmpOption);
// store it in a list (needed to apply some parameters).
m_listOpenInterface.push_back(interface);
@@ -220,7 +236,7 @@ std11::shared_ptr<audio::river::Interface> audio::river::Manager::createFeedback
void audio::river::Manager::generateDotAll(const std::string& _filename) {
// get global hardware interface:
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
if (manager == nullptr) {
RIVER_ERROR("Can not get the harware manager");
return;

42
audio/river/Manager.h → audio/river/Manager.hpp
View File

@@ -3,27 +3,25 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifndef __AUDIO_RIVER_MANAGER_H__
#define __AUDIO_RIVER_MANAGER_H__
#pragma once
#include <string>
#include <stdint.h>
#include <etk/memory.h>
#include <audio/river/Interface.h>
#include <audio/format.h>
#include <audio/channel.h>
#include <ejson/ejson.h>
#include <cstdint>
#include <ememory/memory.hpp>
#include <audio/river/Interface.hpp>
#include <audio/format.hpp>
#include <audio/channel.hpp>
#include <ejson/ejson.hpp>
namespace audio {
namespace river {
/**
* @brief Audio interface manager : Single interface for every application that want to access on the Audio input/output
*/
class Manager : public std11::enable_shared_from_this<Manager> {
class Manager : public ememory::EnableSharedFromThis<Manager> {
private:
const std::string& m_applicationUniqueId; //!< name of the application that open the Audio Interface.
std::vector<std11::weak_ptr<audio::river::Interface> > m_listOpenInterface; //!< List of all open Stream.
std::vector<ememory::WeakPtr<audio::river::Interface> > m_listOpenInterface; //!< List of all open Stream.
protected:
/**
* @brief Constructor
@@ -35,7 +33,7 @@ namespace audio {
* @param[in] _applicationUniqueId Unique name of the application
* @return Pointer on the manager or nullptr if an error occured
*/
static std11::shared_ptr<audio::river::Manager> create(const std::string& _applicationUniqueId);
static ememory::SharedPtr<audio::river::Manager> create(const std::string& _applicationUniqueId);
/**
* @brief Destructor
*/
@@ -78,6 +76,7 @@ namespace audio {
* @example ret = getVolume("MASTER"); can return something like ret = -3.0f
*/
virtual float getVolume(const std::string& _volumeName) const;
/**
* @brief Get a parameter value
* @param[in] _volumeName Name of the volume (MASTER, MATER_BT ...)
@@ -85,6 +84,18 @@ namespace audio {
* @example ret = getVolumeRange("MASTER"); can return something like ret=(-120.0f,0.0f)
*/
virtual std::pair<float,float> getVolumeRange(const std::string& _volumeName) const;
/**
* @brief Set a Mute for a specific volume group
* @param[in] _volumeName Name of the volume (MASTER, MATER_BT ...)
* @param[in] _mute Mute enable or disable.
*/
virtual void setMute(const std::string& _volumeName, bool _mute);
/**
* @brief Get a volume value
* @param[in] _volumeName Name of the volume (MASTER, MATER_BT ...)
* @return The Mute of the volume volume.
*/
virtual bool getMute(const std::string& _volumeName) const;
/**
* @brief Create output Interface
@@ -95,7 +106,7 @@ namespace audio {
* @param[in] _options Json option to configure default resampling and many other things.
* @return a pointer on the interface
*/
virtual std11::shared_ptr<Interface> createOutput(float _freq = 48000,
virtual ememory::SharedPtr<Interface> createOutput(float _freq = 48000,
const std::vector<audio::channel>& _map = std::vector<audio::channel>(),
audio::format _format = audio::format_int16,
const std::string& _streamName = "",
@@ -109,7 +120,7 @@ namespace audio {
* @param[in] _options Json option to configure default resampling and many other things.
* @return a pointer on the interface
*/
virtual std11::shared_ptr<Interface> createInput(float _freq = 48000,
virtual ememory::SharedPtr<Interface> createInput(float _freq = 48000,
const std::vector<audio::channel>& _map = std::vector<audio::channel>(),
audio::format _format = audio::format_int16,
const std::string& _streamName = "",
@@ -123,7 +134,7 @@ namespace audio {
* @param[in] _options Json option to configure default resampling and many other things.
* @return a pointer on the interface
*/
virtual std11::shared_ptr<Interface> createFeedback(float _freq = 48000,
virtual ememory::SharedPtr<Interface> createFeedback(float _freq = 48000,
const std::vector<audio::channel>& _map = std::vector<audio::channel>(),
audio::format _format = audio::format_int16,
const std::string& _streamName = "",
@@ -137,4 +148,3 @@ namespace audio {
}
}
#endif

4
audio/river/debug.cpp
View File

@@ -4,10 +4,10 @@
* @license APACHE v2.0 (see license file)
*/
#include <audio/river/debug.h>
#include <audio/river/debug.hpp>
int32_t audio::river::getLogId() {
static int32_t g_val = etk::log::registerInstance("river");
static int32_t g_val = elog::registerInstance("river");
return g_val;
}

13
audio/river/debug.h → audio/river/debug.hpp
View File

@@ -3,20 +3,18 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#ifndef __AUDIO_RIVER_DEBUG_H__
#define __AUDIO_RIVER_DEBUG_H__
#include <etk/log.h>
#include <elog/log.hpp>
namespace audio {
namespace river {
int32_t getLogId();
}
}
#define RIVER_BASE(info,data) TK_LOG_BASE(audio::river::getLogId(),info,data)
#define RIVER_BASE(info,data) ELOG_BASE(audio::river::getLogId(),info,data)
#define RIVER_PRINT(data) RIVER_BASE(-1, data)
#define RIVER_CRITICAL(data) RIVER_BASE(1, data)
#define RIVER_ERROR(data) RIVER_BASE(2, data)
#define RIVER_WARNING(data) RIVER_BASE(3, data)
@@ -60,6 +58,3 @@ namespace audio {
} \
}while(0)
#endif

6
audio/river/debugRemove.h → audio/river/debugRemove.hpp
View File

@@ -3,9 +3,7 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifdef __AUDIO_RIVER_DEBUG_H__
#undef __AUDIO_RIVER_DEBUG_H__
#pragma once
#undef RIVER_BASE
#undef RIVER_CRITICAL
@@ -17,5 +15,3 @@
#undef RIVER_TODO
#undef RIVER_ASSERT
#endif

43
audio/river/io/Group.cpp
View File

@@ -4,42 +4,39 @@
* @license APACHE v2.0 (see license file)
*/
#include <audio/river/io/Group.h>
#include <audio/river/debug.h>
#include "Node.h"
#include "NodeAEC.h"
#include "NodeOrchestra.h"
#include "NodePortAudio.h"
#include "Node.h"
#undef __class__
#define __class__ "io::Group"
#include <audio/river/io/Group.hpp>
#include <audio/river/debug.hpp>
#include "Node.hpp"
#include "NodeAEC.hpp"
#include "NodeOrchestra.hpp"
#include "NodePortAudio.hpp"
#include "Node.hpp"
void audio::river::io::Group::createFrom(const ejson::Document& _obj, const std::string& _name) {
RIVER_INFO("Create Group[" << _name << "] (START) ___________________________");
for (size_t iii=0; iii<_obj.size(); ++iii) {
const std11::shared_ptr<const ejson::Object> tmpObject = _obj.getObject(_obj.getKey(iii));
if (tmpObject == nullptr) {
const ejson::Object tmpObject = _obj[iii].toObject();
if (tmpObject.exist() == false) {
continue;
}
std::string groupName = tmpObject->getStringValue("group", "");
std::string groupName = tmpObject["group"].toString().get();
if (groupName == _name) {
RIVER_INFO("Add element in Group[" << _name << "]: " << _obj.getKey(iii));
// get type : io
std::string ioType = tmpObject->getStringValue("io", "error");
std::string ioType = tmpObject["io"].toString().get("error");
#ifdef AUDIO_RIVER_BUILD_ORCHESTRA
if ( ioType == "input"
|| ioType == "output") {
std11::shared_ptr<audio::river::io::Node> tmp = audio::river::io::NodeOrchestra::create(_obj.getKey(iii), tmpObject);
tmp->setGroup(shared_from_this());
ememory::SharedPtr<audio::river::io::Node> tmp = audio::river::io::NodeOrchestra::create(_obj.getKey(iii), tmpObject);
tmp->setGroup(sharedFromThis());
m_list.push_back(tmp);
}
#endif
#ifdef AUDIO_RIVER_BUILD_PORTAUDIO
if ( ioType == "PAinput"
|| ioType == "PAoutput") {
std11::shared_ptr<audio::river::io::Node> tmp = audio::river::io::NodePortAudio::create(_obj.getKey(iii), tmpObject);
tmp->setGroup(shared_from_this());
ememory::SharedPtr<audio::river::io::Node> tmp = audio::river::io::NodePortAudio::create(_obj.getKey(iii), tmpObject);
tmp->setGroup(sharedFromThis());
m_list.push_back(tmp);
}
#endif
@@ -49,10 +46,10 @@ void audio::river::io::Group::createFrom(const ejson::Document& _obj, const std:
// Note : The interlink work only for alsa (NOW) and with AirTAudio...
if(m_list.size() > 1) {
#ifdef AUDIO_RIVER_BUILD_ORCHESTRA
std11::shared_ptr<audio::river::io::NodeOrchestra> linkRef = std11::dynamic_pointer_cast<audio::river::io::NodeOrchestra>(m_list[0]);
ememory::SharedPtr<audio::river::io::NodeOrchestra> linkRef = ememory::dynamicPointerCast<audio::river::io::NodeOrchestra>(m_list[0]);
for (size_t iii=1; iii<m_list.size(); ++iii) {
if (m_list[iii] != nullptr) {
std11::shared_ptr<audio::river::io::NodeOrchestra> link = std11::dynamic_pointer_cast<audio::river::io::NodeOrchestra>(m_list[iii]);
ememory::SharedPtr<audio::river::io::NodeOrchestra> link = ememory::dynamicPointerCast<audio::river::io::NodeOrchestra>(m_list[iii]);
linkRef->m_interface.isMasterOf(link->m_interface);
}
}
@@ -62,7 +59,7 @@ void audio::river::io::Group::createFrom(const ejson::Document& _obj, const std:
// manage Link Between Nodes :
if (m_link != nullptr) {
RIVER_INFO("******** START LINK ************");
std11::shared_ptr<audio::river::io::NodeOrchestra> link = std11::dynamic_pointer_cast<audio::river::io::NodeOrchestra>(m_link);
ememory::SharedPtr<audio::river::io::NodeOrchestra> link = ememory::dynamicPointerCast<audio::river::io::NodeOrchestra>(m_link);
if (link == nullptr) {
RIVER_ERROR("Can not link 2 Interface with not the same type (reserved for HW interface)");
return;
@@ -82,7 +79,7 @@ void audio::river::io::Group::createFrom(const ejson::Document& _obj, const std:
}
std11::shared_ptr<audio::river::io::Node> audio::river::io::Group::getNode(const std::string& _name) {
ememory::SharedPtr<audio::river::io::Node> audio::river::io::Group::getNode(const std::string& _name) {
for (size_t iii=0; iii<m_list.size(); ++iii) {
if (m_list[iii] != nullptr) {
if (m_list[iii]->getName() == _name) {
@@ -90,7 +87,7 @@ std11::shared_ptr<audio::river::io::Node> audio::river::io::Group::getNode(const
}
}
}
return std11::shared_ptr<audio::river::io::Node>();
return ememory::SharedPtr<audio::river::io::Node>();
}
void audio::river::io::Group::start() {

15
audio/river/io/Group.h → audio/river/io/Group.hpp
View File

@@ -4,13 +4,12 @@
* @license APACHE v2.0 (see license file)
*/
#ifndef __AUDIO_RIVER_IO_GROUP_H__
#define __AUDIO_RIVER_IO_GROUP_H__
#pragma once
#include <string>
#include <vector>
#include <ejson/ejson.h>
#include <etk/os/FSNode.h>
#include <ejson/ejson.hpp>
#include <etk/os/FSNode.hpp>
namespace audio {
namespace river {
@@ -24,7 +23,7 @@ namespace audio {
* is stopped.
* @note For the Alsa interface a low level link is availlable with AirTAudio for Alsa (One thread)
*/
class Group : public std11::enable_shared_from_this<Group> {
class Group : public ememory::EnableSharedFromThis<Group> {
public:
/**
* @brief Contructor. No special thing to do.
@@ -37,7 +36,7 @@ namespace audio {
// TODO : ...
}
private:
std::vector< std11::shared_ptr<Node> > m_list; //!< List of all node in the group
std::vector< ememory::SharedPtr<Node> > m_list; //!< List of all node in the group
public:
/**
* @brief Create a group with all node needed to syncronize together
@@ -51,7 +50,7 @@ namespace audio {
* @return nullptr The node named _name was not found.
* @return pointer The node was find in this group.
*/
std11::shared_ptr<audio::river::io::Node> getNode(const std::string& _name);
ememory::SharedPtr<audio::river::io::Node> getNode(const std::string& _name);
/**
* @brief Start the group.
* @note all sub-node will be started.
@@ -74,5 +73,3 @@ namespace audio {
}
}
#endif

191
audio/river/io/Manager.cpp
View File

@@ -4,24 +4,21 @@
* @license APACHE v2.0 (see license file)
*/
#include <audio/river/io/Manager.h>
#include <audio/river/debug.h>
#include <audio/river/river.h>
#include <audio/river/io/Node.h>
#include <audio/river/io/NodeAEC.h>
#include <audio/river/io/NodeMuxer.h>
#include <audio/river/io/NodeOrchestra.h>
#include <audio/river/io/NodePortAudio.h>
#include <etk/os/FSNode.h>
#include <etk/memory.h>
#include <etk/types.h>
#include <audio/river/io/Manager.hpp>
#include <audio/river/debug.hpp>
#include <audio/river/river.hpp>
#include <audio/river/io/Node.hpp>
#include <audio/river/io/NodeAEC.hpp>
#include <audio/river/io/NodeMuxer.hpp>
#include <audio/river/io/NodeOrchestra.hpp>
#include <audio/river/io/NodePortAudio.hpp>
#include <etk/os/FSNode.hpp>
#include <ememory/memory.hpp>
#include <etk/types.hpp>
#include <utility>
#undef __class__
#define __class__ "io::Manager"
#ifdef AUDIO_RIVER_BUILD_PORTAUDIO
#include <portaudio.h>
#include <portaudio/portaudio.h>
#endif
static std::string basicAutoConfig =
@@ -37,7 +34,8 @@ static std::string basicAutoConfig =
" 'front-left', 'front-right'\n"
" ],\n"
" type:'auto',\n"
" nb-chunk:1024\n"
" nb-chunk:1024,\n"
" mux-demux-type:'float'\n"
" },\n"
" speaker:{\n"
" io:'output',\n"
@@ -51,7 +49,8 @@ static std::string basicAutoConfig =
" ],\n"
" type:'auto',\n"
" nb-chunk:1024,\n"
" volume-name:'MASTER'\n"
" volume-name:'MASTER',\n"
" mux-demux-type:'float'\n"
" }\n"
"}\n";
@@ -67,7 +66,7 @@ audio::river::io::Manager::Manager() {
}
void audio::river::io::Manager::init(const std::string& _filename) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
if (_filename == "") {
RIVER_INFO("Load default config");
m_config.parse(basicAutoConfig);
@@ -77,12 +76,12 @@ void audio::river::io::Manager::init(const std::string& _filename) {
}
void audio::river::io::Manager::initString(const std::string& _data) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
m_config.parse(_data);
}
void audio::river::io::Manager::unInit() {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
// TODO : ...
}
@@ -95,26 +94,26 @@ audio::river::io::Manager::~Manager() {
#endif
};
std11::shared_ptr<audio::river::io::Manager> audio::river::io::Manager::getInstance() {
ememory::SharedPtr<audio::river::io::Manager> audio::river::io::Manager::getInstance() {
if (audio::river::isInit() == false) {
return std11::shared_ptr<audio::river::io::Manager>();
return ememory::SharedPtr<audio::river::io::Manager>();
}
static std11::shared_ptr<audio::river::io::Manager> manager(new Manager());
static ememory::SharedPtr<audio::river::io::Manager> manager(new Manager());
return manager;
}
std::vector<std::string> audio::river::io::Manager::getListStreamInput() {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
std::vector<std::string> output;
std::vector<std::string> keys = m_config.getKeys();
for (size_t iii=0; iii<keys.size(); ++iii) {
const std11::shared_ptr<const ejson::Object> tmppp = m_config.getObject(keys[iii]);
if (tmppp != nullptr) {
std::string type = tmppp->getStringValue("io", "error");
for (auto &it : keys) {
const ejson::Object tmppp = m_config[it].toObject();
if (tmppp.exist() == true) {
std::string type = tmppp["io"].toString().get("error");
if ( type == "input"
|| type == "PAinput") {
output.push_back(keys[iii]);
output.push_back(it);
}
}
}
@@ -122,16 +121,16 @@ std::vector<std::string> audio::river::io::Manager::getListStreamInput() {
}
std::vector<std::string> audio::river::io::Manager::getListStreamOutput() {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
std::vector<std::string> output;
std::vector<std::string> keys = m_config.getKeys();
for (size_t iii=0; iii<keys.size(); ++iii) {
const std11::shared_ptr<const ejson::Object> tmppp = m_config.getObject(keys[iii]);
if (tmppp != nullptr) {
std::string type = tmppp->getStringValue("io", "error");
for (auto &it : keys) {
const ejson::Object tmppp = m_config[it].toObject();
if (tmppp.exist() == true) {
std::string type = tmppp["io"].toString().get("error");
if ( type == "output"
|| type == "PAoutput") {
output.push_back(keys[iii]);
output.push_back(it);
}
}
}
@@ -139,19 +138,19 @@ std::vector<std::string> audio::river::io::Manager::getListStreamOutput() {
}
std::vector<std::string> audio::river::io::Manager::getListStreamVirtual() {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
std::vector<std::string> output;
std::vector<std::string> keys = m_config.getKeys();
for (size_t iii=0; iii<keys.size(); ++iii) {
const std11::shared_ptr<const ejson::Object> tmppp = m_config.getObject(keys[iii]);
if (tmppp != nullptr) {
std::string type = tmppp->getStringValue("io", "error");
for (auto &it : keys) {
const ejson::Object tmppp = m_config[it].toObject();
if (tmppp.exist() == true) {
std::string type = tmppp["io"].toString().get("error");
if ( type != "input"
&& type != "PAinput"
&& type != "output"
&& type != "PAoutput"
&& type != "error") {
output.push_back(keys[iii]);
output.push_back(it);
}
}
}
@@ -159,27 +158,27 @@ std::vector<std::string> audio::river::io::Manager::getListStreamVirtual() {
}
std::vector<std::string> audio::river::io::Manager::getListStream() {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
std::vector<std::string> output;
std::vector<std::string> keys = m_config.getKeys();
for (size_t iii=0; iii<keys.size(); ++iii) {
const std11::shared_ptr<const ejson::Object> tmppp = m_config.getObject(keys[iii]);
if (tmppp != nullptr) {
std::string type = tmppp->getStringValue("io", "error");
for (auto &it : keys) {
const ejson::Object tmppp = m_config[it].toObject();
if (tmppp.exist() == true) {
std::string type = tmppp["io"].toString().get("error");
if (type != "error") {
output.push_back(keys[iii]);
output.push_back(it);
}
}
}
return output;
}
std11::shared_ptr<audio::river::io::Node> audio::river::io::Manager::getNode(const std::string& _name) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
ememory::SharedPtr<audio::river::io::Node> audio::river::io::Manager::getNode(const std::string& _name) {
std::unique_lock<std::recursive_mutex> lock(m_mutex);
RIVER_WARNING("Get node : " << _name);
// search in the standalone list :
for (size_t iii=0; iii<m_list.size(); ++iii) {
std11::shared_ptr<audio::river::io::Node> tmppp = m_list[iii].lock();
ememory::SharedPtr<audio::river::io::Node> tmppp = m_list[iii].lock();
if ( tmppp != nullptr
&& _name == tmppp->getName()) {
RIVER_WARNING(" find it ... in standalone");
@@ -188,11 +187,11 @@ std11::shared_ptr<audio::river::io::Node> audio::river::io::Manager::getNode(con
}
// search in the group list:
{
for (std::map<std::string, std11::shared_ptr<audio::river::io::Group> >::iterator it(m_listGroup.begin());
for (std::map<std::string, ememory::SharedPtr<audio::river::io::Group> >::iterator it(m_listGroup.begin());
it != m_listGroup.end();
++it) {
if (it->second != nullptr) {
std11::shared_ptr<audio::river::io::Node> node = it->second->getNode(_name);
ememory::SharedPtr<audio::river::io::Node> node = it->second->getNode(_name);
if (node != nullptr) {
RIVER_WARNING(" find it ... in group: " << it->first);
return node;
@@ -202,21 +201,21 @@ std11::shared_ptr<audio::river::io::Node> audio::river::io::Manager::getNode(con
}
RIVER_WARNING("Try create a new one : " << _name);
// check if the node can be open :
const std11::shared_ptr<const ejson::Object> tmpObject = m_config.getObject(_name);
if (tmpObject != nullptr) {
const ejson::Object tmpObject = m_config[_name].toObject();
if (tmpObject.exist() == true) {
//Check if it is in a group:
std::string groupName = tmpObject->getStringValue("group", "");
std::string groupName = tmpObject["group"].toString().get();
// get type : io
std::string ioType = tmpObject->getStringValue("io", "error");
std::string ioType = tmpObject["io"].toString().get("error");
if ( groupName != ""
&& ( ioType == "input"
|| ioType == "output"
|| ioType == "PAinput"
|| ioType == "PAoutput") ) {
std11::shared_ptr<audio::river::io::Group> tmpGroup = getGroup(groupName);
ememory::SharedPtr<audio::river::io::Group> tmpGroup = getGroup(groupName);
if (tmpGroup == nullptr) {
RIVER_WARNING("Can not get group ... '" << groupName << "'");
return std11::shared_ptr<audio::river::io::Node>();
return ememory::SharedPtr<audio::river::io::Node>();
}
return tmpGroup->getNode(_name);
} else {
@@ -228,7 +227,7 @@ std11::shared_ptr<audio::river::io::Node> audio::river::io::Manager::getNode(con
if ( ioType == "input"
|| ioType == "output") {
#ifdef AUDIO_RIVER_BUILD_ORCHESTRA
std11::shared_ptr<audio::river::io::Node> tmp = audio::river::io::NodeOrchestra::create(_name, tmpObject);
ememory::SharedPtr<audio::river::io::Node> tmp = audio::river::io::NodeOrchestra::create(_name, tmpObject);
m_list.push_back(tmp);
return tmp;
#else
@@ -238,7 +237,7 @@ std11::shared_ptr<audio::river::io::Node> audio::river::io::Manager::getNode(con
if ( ioType == "PAinput"
|| ioType == "PAoutput") {
#ifdef AUDIO_RIVER_BUILD_PORTAUDIO
std11::shared_ptr<audio::river::io::Node> tmp = audio::river::io::NodePortAudio::create(_name, tmpObject);
ememory::SharedPtr<audio::river::io::Node> tmp = audio::river::io::NodePortAudio::create(_name, tmpObject);
m_list.push_back(tmp);
return tmp;
#else
@@ -246,26 +245,26 @@ std11::shared_ptr<audio::river::io::Node> audio::river::io::Manager::getNode(con
#endif
}
if (ioType == "aec") {
std11::shared_ptr<audio::river::io::Node> tmp = audio::river::io::NodeAEC::create(_name, tmpObject);
ememory::SharedPtr<audio::river::io::Node> tmp = audio::river::io::NodeAEC::create(_name, tmpObject);
m_list.push_back(tmp);
return tmp;
}
if (ioType == "muxer") {
std11::shared_ptr<audio::river::io::Node> tmp = audio::river::io::NodeMuxer::create(_name, tmpObject);
ememory::SharedPtr<audio::river::io::Node> tmp = audio::river::io::NodeMuxer::create(_name, tmpObject);
m_list.push_back(tmp);
return tmp;
}
}
}
RIVER_ERROR("Can not create the interface : '" << _name << "' the node is not DEFINED in the configuration file availlable : " << m_config.getKeys());
return std11::shared_ptr<audio::river::io::Node>();
return ememory::SharedPtr<audio::river::io::Node>();
}
std11::shared_ptr<audio::drain::VolumeElement> audio::river::io::Manager::getVolumeGroup(const std::string& _name) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
ememory::SharedPtr<audio::drain::VolumeElement> audio::river::io::Manager::getVolumeGroup(const std::string& _name) {
std::unique_lock<std::recursive_mutex> lock(m_mutex);
if (_name == "") {
RIVER_ERROR("Try to create an audio group with no name ...");
return std11::shared_ptr<audio::drain::VolumeElement>();
return ememory::SharedPtr<audio::drain::VolumeElement>();
}
for (size_t iii=0; iii<m_volumeGroup.size(); ++iii) {
if (m_volumeGroup[iii] == nullptr) {
@@ -276,14 +275,14 @@ std11::shared_ptr<audio::drain::VolumeElement> audio::river::io::Manager::getVol
}
}
RIVER_DEBUG("Add a new volume group : '" << _name << "'");
std11::shared_ptr<audio::drain::VolumeElement> tmpVolume = std11::make_shared<audio::drain::VolumeElement>(_name);
ememory::SharedPtr<audio::drain::VolumeElement> tmpVolume = ememory::makeShared<audio::drain::VolumeElement>(_name);
m_volumeGroup.push_back(tmpVolume);
return tmpVolume;
}
bool audio::river::io::Manager::setVolume(const std::string& _volumeName, float _valuedB) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std11::shared_ptr<audio::drain::VolumeElement> volume = getVolumeGroup(_volumeName);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
ememory::SharedPtr<audio::drain::VolumeElement> volume = getVolumeGroup(_volumeName);
if (volume == nullptr) {
RIVER_ERROR("Can not set volume ... : '" << _volumeName << "'");
return false;
@@ -295,7 +294,7 @@ bool audio::river::io::Manager::setVolume(const std::string& _volumeName, float
}
volume->setVolume(_valuedB);
for (size_t iii=0; iii<m_list.size(); ++iii) {
std11::shared_ptr<audio::river::io::Node> val = m_list[iii].lock();
ememory::SharedPtr<audio::river::io::Node> val = m_list[iii].lock();
if (val != nullptr) {
val->volumeChange();
}
@@ -304,8 +303,8 @@ bool audio::river::io::Manager::setVolume(const std::string& _volumeName, float
}
float audio::river::io::Manager::getVolume(const std::string& _volumeName) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std11::shared_ptr<audio::drain::VolumeElement> volume = getVolumeGroup(_volumeName);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
ememory::SharedPtr<audio::drain::VolumeElement> volume = getVolumeGroup(_volumeName);
if (volume == nullptr) {
RIVER_ERROR("Can not get volume ... : '" << _volumeName << "'");
return 0.0f;
@@ -317,8 +316,34 @@ std::pair<float,float> audio::river::io::Manager::getVolumeRange(const std::stri
return std::make_pair<float,float>(-300, 300);
}
void audio::river::io::Manager::setMute(const std::string& _volumeName, bool _mute) {
std::unique_lock<std::recursive_mutex> lock(m_mutex);
ememory::SharedPtr<audio::drain::VolumeElement> volume = getVolumeGroup(_volumeName);
if (volume == nullptr) {
RIVER_ERROR("Can not set volume ... : '" << _volumeName << "'");
return;
}
volume->setMute(_mute);
for (size_t iii=0; iii<m_list.size(); ++iii) {
ememory::SharedPtr<audio::river::io::Node> val = m_list[iii].lock();
if (val != nullptr) {
val->volumeChange();
}
}
}
bool audio::river::io::Manager::getMute(const std::string& _volumeName) {
std::unique_lock<std::recursive_mutex> lock(m_mutex);
ememory::SharedPtr<audio::drain::VolumeElement> volume = getVolumeGroup(_volumeName);
if (volume == nullptr) {
RIVER_ERROR("Can not get volume ... : '" << _volumeName << "'");
return false;
}
return volume->getMute();
}
void audio::river::io::Manager::generateDot(const std::string& _filename) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std::unique_lock<std::recursive_mutex> lock(m_mutex);
etk::FSNode node(_filename);
RIVER_INFO("Generate the DOT files: " << node);
if (node.fileOpenWrite() == false) {
@@ -331,14 +356,14 @@ void audio::river::io::Manager::generateDot(const std::string& _filename) {
{
// standalone
for (size_t iii=0; iii<m_list.size(); ++iii) {
std11::shared_ptr<audio::river::io::Node> val = m_list[iii].lock();
ememory::SharedPtr<audio::river::io::Node> val = m_list[iii].lock();
if (val != nullptr) {
if (val->isHarwareNode() == true) {
val->generateDot(node);
}
}
}
for (std::map<std::string, std11::shared_ptr<audio::river::io::Group> >::iterator it(m_listGroup.begin());
for (std::map<std::string, ememory::SharedPtr<audio::river::io::Group> >::iterator it(m_listGroup.begin());
it != m_listGroup.end();
++it) {
if (it->second != nullptr) {
@@ -350,14 +375,14 @@ void audio::river::io::Manager::generateDot(const std::string& _filename) {
{
// standalone
for (size_t iii=0; iii<m_list.size(); ++iii) {
std11::shared_ptr<audio::river::io::Node> val = m_list[iii].lock();
ememory::SharedPtr<audio::river::io::Node> val = m_list[iii].lock();
if (val != nullptr) {
if (val->isHarwareNode() == false) {
val->generateDot(node);
}
}
}
for (std::map<std::string, std11::shared_ptr<audio::river::io::Group> >::iterator it(m_listGroup.begin());
for (std::map<std::string, ememory::SharedPtr<audio::river::io::Group> >::iterator it(m_listGroup.begin());
it != m_listGroup.end();
++it) {
if (it->second != nullptr) {
@@ -371,16 +396,16 @@ void audio::river::io::Manager::generateDot(const std::string& _filename) {
RIVER_INFO("Generate the DOT files: " << node << " (DONE)");
}
std11::shared_ptr<audio::river::io::Group> audio::river::io::Manager::getGroup(const std::string& _name) {
std11::unique_lock<std11::recursive_mutex> lock(m_mutex);
std11::shared_ptr<audio::river::io::Group> out;
std::map<std::string, std11::shared_ptr<audio::river::io::Group> >::iterator it = m_listGroup.find(_name);
ememory::SharedPtr<audio::river::io::Group> audio::river::io::Manager::getGroup(const std::string& _name) {
std::unique_lock<std::recursive_mutex> lock(m_mutex);
ememory::SharedPtr<audio::river::io::Group> out;
std::map<std::string, ememory::SharedPtr<audio::river::io::Group> >::iterator it = m_listGroup.find(_name);
if (it == m_listGroup.end()) {
RIVER_INFO("Create a new group: " << _name << " (START)");
out = std11::make_shared<audio::river::io::Group>();
out = ememory::makeShared<audio::river::io::Group>();
if (out != nullptr) {
out->createFrom(m_config, _name);
std::pair<std::string, std11::shared_ptr<audio::river::io::Group> > plop(std::string(_name), out);
std::pair<std::string, ememory::SharedPtr<audio::river::io::Group> > plop(std::string(_name), out);
m_listGroup.insert(plop);
RIVER_INFO("Create a new group: " << _name << " ( END )");
} else {

58
audio/river/io/Manager.h → audio/river/io/Manager.hpp
View File

@@ -3,24 +3,22 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifndef __AUDIO_RIVER_IO_MANAGER_H__
#define __AUDIO_RIVER_IO_MANAGER_H__
#pragma once
#include <string>
#include <vector>
#include <map>
#include <list>
#include <stdint.h>
#include <etk/mutex.h>
#include <etk/chrono.h>
#include <etk/functional.h>
#include <etk/memory.h>
#include <audio/format.h>
#include <audio/channel.h>
#include <ejson/ejson.h>
#include <audio/drain/Volume.h>
#include <audio/river/io/Group.h>
#include <cstdint>
#include <mutex>
#include <chrono>
#include <functional>
#include <ememory/memory.hpp>
#include <audio/format.hpp>
#include <audio/channel.hpp>
#include <ejson/ejson.hpp>
#include <audio/drain/Volume.hpp>
#include <audio/river/io/Group.hpp>
namespace audio {
namespace river {
@@ -30,16 +28,16 @@ namespace audio {
* @brief Internal sigleton of all Flow hadware and virtuals.
* @note this class will be initialize by the audio::river::init() function at the start of the application.
*/
class Manager : public std11::enable_shared_from_this<Manager> {
class Manager : public ememory::EnableSharedFromThis<Manager> {
private:
mutable std11::recursive_mutex m_mutex; //!< prevent multiple access
mutable std::recursive_mutex m_mutex; //!< prevent multiple access
private:
/**
* @brief Constructor
*/
Manager();
public:
static std11::shared_ptr<Manager> getInstance();
static ememory::SharedPtr<Manager> getInstance();
/**
* @brief Destructor
*/
@@ -60,24 +58,24 @@ namespace audio {
void unInit();
private:
ejson::Document m_config; //!< harware configuration
std::vector<std11::shared_ptr<audio::river::io::Node> > m_listKeepAlive; //!< list of all Node that might be keep alive sone/all time
std::vector<std11::weak_ptr<audio::river::io::Node> > m_list; //!< List of all IO node
std::vector<ememory::SharedPtr<audio::river::io::Node> > m_listKeepAlive; //!< list of all Node that might be keep alive sone/all time
std::vector<ememory::WeakPtr<audio::river::io::Node> > m_list; //!< List of all IO node
public:
/**
* @brief Get a node with his name (the name is set in the description file.
* @param[in] _name Name of the node
* @return Pointer on the noe or a nullptr if the node does not exist in the file or an error occured.
*/
std11::shared_ptr<audio::river::io::Node> getNode(const std::string& _name);
ememory::SharedPtr<audio::river::io::Node> getNode(const std::string& _name);
private:
std::vector<std11::shared_ptr<audio::drain::VolumeElement> > m_volumeGroup; //!< List of All global volume in the Low level interface.
std::vector<ememory::SharedPtr<audio::drain::VolumeElement> > m_volumeGroup; //!< List of All global volume in the Low level interface.
public:
/**
* @brief Get a volume in the global list of vilume
* @param[in] _name Name of the volume.
* @return pointer on the requested volume (create it if does not exist). nullptr if the name is empty.
*/
std11::shared_ptr<audio::drain::VolumeElement> getVolumeGroup(const std::string& _name);
ememory::SharedPtr<audio::drain::VolumeElement> getVolumeGroup(const std::string& _name);
/**
* @brief Get all input audio stream.
* @return a list of all availlables input stream name
@@ -122,24 +120,34 @@ namespace audio {
* @example ret = getVolumeRange("MASTER"); can return something like ret=(-120.0f,0.0f)
*/
std::pair<float,float> getVolumeRange(const std::string& _volumeName) const;
/**
* @brief Set a Mute for a specific volume group
* @param[in] _volumeName Name of the volume (MASTER, MATER_BT ...)
* @param[in] _mute Mute enable or disable.
*/
void setMute(const std::string& _volumeName, bool _mute);
/**
* @brief Get a volume value
* @param[in] _volumeName Name of the volume (MASTER, MATER_BT ...)
* @return The Mute of the volume volume.
*/
bool getMute(const std::string& _volumeName);
/**
* @brief Generate the dot file corresponding at the actif nodes.
* @param[in] _filename Name of the file to write data.
*/
void generateDot(const std::string& _filename);
private:
std::map<std::string, std11::shared_ptr<audio::river::io::Group> > m_listGroup; //!< List of all groups
std::map<std::string, ememory::SharedPtr<audio::river::io::Group> > m_listGroup; //!< List of all groups
/**
* @brief get a low level interface group.
* @param[in] _name Name of the group.
* @return Pointer on the requested group or nullptr if the group does not existed.
*/
std11::shared_ptr<audio::river::io::Group> getGroup(const std::string& _name);
ememory::SharedPtr<audio::river::io::Group> getGroup(const std::string& _name);
};
}
}
}
#endif

220
audio/river/io/Node.cpp
View File

@@ -4,14 +4,10 @@
* @license APACHE v2.0 (see license file)
*/
#include "Node.h"
#include <audio/river/debug.h>
#include "Node.hpp"
#include <audio/river/debug.hpp>
#undef __class__
#define __class__ "io::Node"
audio::river::io::Node::Node(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config) :
audio::river::io::Node::Node(const std::string& _name, const ejson::Object& _config) :
m_config(_config),
m_name(_name),
m_isInput(false) {
@@ -34,7 +30,7 @@ audio::river::io::Node::Node(const std::string& _name, const std11::shared_ptr<c
# muxer/demuxer format type (int8-on-int16, int16-on-int32, int24-on-int32, int32-on-int64, float)
mux-demux-type:"int16_on_int32",
*/
std::string interfaceType = m_config->getStringValue("io");
std::string interfaceType = m_config["io"].toString().get();
RIVER_INFO("interfaceType=" << interfaceType);
if ( interfaceType == "input"
|| interfaceType == "PAinput"
@@ -45,12 +41,12 @@ audio::river::io::Node::Node(const std::string& _name, const std11::shared_ptr<c
m_isInput = false;
}
int32_t frequency = m_config->getNumberValue("frequency", 1);
int32_t frequency = m_config["frequency"].toNumber().get(1);
// Get audio format type:
std::string type = m_config->getStringValue("type", "int16");
std::string type = m_config["type"].toString().get("int16");
enum audio::format formatType = audio::getFormatFromString(type);
// Get volume stage :
std::string volumeName = m_config->getStringValue("volume-name", "");
std::string volumeName = m_config["volume-name"].toString().get();
if (volumeName != "") {
RIVER_INFO("add node volume stage : '" << volumeName << "'");
// use global manager for volume ...
@@ -58,15 +54,15 @@ audio::river::io::Node::Node(const std::string& _name, const std11::shared_ptr<c
}
// Get map type :
std::vector<audio::channel> map;
const std11::shared_ptr<const ejson::Array> listChannelMap = m_config->getArray("channel-map");
if ( listChannelMap == nullptr
|| listChannelMap->size() == 0) {
const ejson::Array listChannelMap = m_config["channel-map"].toArray();
if ( listChannelMap.exist() == false
|| listChannelMap.size() == 0) {
// set default channel property:
map.push_back(audio::channel_frontLeft);
map.push_back(audio::channel_frontRight);
} else {
for (size_t iii=0; iii<listChannelMap->size(); ++iii) {
std::string value = listChannelMap->getStringValue(iii);
for (auto it : listChannelMap) {
std::string value = it.toString().get();
map.push_back(audio::getChannelFromString(value));
}
}
@@ -75,17 +71,20 @@ audio::river::io::Node::Node(const std::string& _name, const std11::shared_ptr<c
std::string muxerDemuxerConfig;
if (m_isInput == true) {
muxerDemuxerConfig = m_config->getStringValue("mux-demux-type", "int16");
muxerDemuxerConfig = m_config["mux-demux-type"].toString().get("int16");
} else {
muxerDemuxerConfig = m_config->getStringValue("mux-demux-type", "int16-on-int32");
muxerDemuxerConfig = m_config["mux-demux-type"].toString().get("int16-on-int32");
}
enum audio::format muxerFormatType = audio::getFormatFromString(muxerDemuxerConfig);
if (m_isInput == true) {
if (muxerFormatType != audio::format_int16) {
RIVER_CRITICAL("not supported demuxer type ... " << muxerFormatType << " for INPUT set in file:" << muxerDemuxerConfig);
}
// Support all ...
} else {
if (muxerFormatType != audio::format_int16_on_int32) {
if ( muxerFormatType != audio::format_int8_on_int16
&& muxerFormatType != audio::format_int16_on_int32
&& muxerFormatType != audio::format_int24_on_int32
&& muxerFormatType != audio::format_int32_on_int64
&& muxerFormatType != audio::format_float
&& muxerFormatType != audio::format_double) {
RIVER_CRITICAL("not supported demuxer type ... " << muxerFormatType << " for OUTPUT set in file:" << muxerDemuxerConfig);
}
}
@@ -123,7 +122,7 @@ size_t audio::river::io::Node::getNumberOfInterface(enum audio::river::modeInter
size_t audio::river::io::Node::getNumberOfInterfaceAvaillable(enum audio::river::modeInterface _interfaceType) {
size_t out = 0;
for (size_t iii=0; iii<m_listAvaillable.size(); ++iii) {
std11::shared_ptr<audio::river::Interface> element = m_listAvaillable[iii].lock();
ememory::SharedPtr<audio::river::Interface> element = m_listAvaillable[iii].lock();
if (element == nullptr) {
continue;
}
@@ -134,8 +133,8 @@ size_t audio::river::io::Node::getNumberOfInterfaceAvaillable(enum audio::river:
return out;
}
void audio::river::io::Node::registerAsRemote(const std11::shared_ptr<audio::river::Interface>& _interface) {
std::vector<std11::weak_ptr<audio::river::Interface> >::iterator it = m_listAvaillable.begin();
void audio::river::io::Node::registerAsRemote(const ememory::SharedPtr<audio::river::Interface>& _interface) {
std::vector<ememory::WeakPtr<audio::river::Interface> >::iterator it = m_listAvaillable.begin();
while (it != m_listAvaillable.end()) {
if (it->expired() == true) {
it = m_listAvaillable.erase(it);
@@ -146,9 +145,9 @@ void audio::river::io::Node::registerAsRemote(const std11::shared_ptr<audio::riv
m_listAvaillable.push_back(_interface);
}
void audio::river::io::Node::interfaceAdd(const std11::shared_ptr<audio::river::Interface>& _interface) {
void audio::river::io::Node::interfaceAdd(const ememory::SharedPtr<audio::river::Interface>& _interface) {
{
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
for (size_t iii=0; iii<m_list.size(); ++iii) {
if (_interface == m_list[iii]) {
return;
@@ -162,9 +161,9 @@ void audio::river::io::Node::interfaceAdd(const std11::shared_ptr<audio::river::
}
}
void audio::river::io::Node::interfaceRemove(const std11::shared_ptr<audio::river::Interface>& _interface) {
void audio::river::io::Node::interfaceRemove(const ememory::SharedPtr<audio::river::Interface>& _interface) {
{
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
for (size_t iii=0; iii< m_list.size(); ++iii) {
if (_interface == m_list[iii]) {
m_list.erase(m_list.begin()+iii);
@@ -182,7 +181,7 @@ void audio::river::io::Node::interfaceRemove(const std11::shared_ptr<audio::rive
void audio::river::io::Node::volumeChange() {
for (size_t iii=0; iii< m_listAvaillable.size(); ++iii) {
std11::shared_ptr<audio::river::Interface> node = m_listAvaillable[iii].lock();
ememory::SharedPtr<audio::river::Interface> node = m_listAvaillable[iii].lock();
if (node != nullptr) {
node->systemVolumeChange();
}
@@ -195,7 +194,6 @@ void audio::river::io::Node::newInput(const void* _inputBuffer,
if (_inputBuffer == nullptr) {
return;
}
const int16_t* inputBuffer = static_cast<const int16_t *>(_inputBuffer);
for (size_t iii=0; iii< m_list.size(); ++iii) {
if (m_list[iii] == nullptr) {
continue;
@@ -204,7 +202,7 @@ void audio::river::io::Node::newInput(const void* _inputBuffer,
continue;
}
RIVER_VERBOSE(" IO name="<< m_list[iii]->getName());
m_list[iii]->systemNewInputData(_time, inputBuffer, _nbChunk);
m_list[iii]->systemNewInputData(_time, _inputBuffer, _nbChunk);
}
RIVER_VERBOSE("data Input size request :" << _nbChunk << " [ END ]");
return;
@@ -216,15 +214,22 @@ void audio::river::io::Node::newOutput(void* _outputBuffer,
if (_outputBuffer == nullptr) {
return;
}
std::vector<int32_t> output;
enum audio::format muxerFormatType = m_process.getInputConfig().getFormat();
std::vector<uint8_t> outputTmp2;
uint32_t nbByteTmpBuffer = audio::getFormatBytes(muxerFormatType)*m_process.getInputConfig().getMap().size()*_nbChunk;
RIVER_VERBOSE("resize=" << nbByteTmpBuffer);
outputTmp2.resize(nbByteTmpBuffer);
if (muxerFormatType == audio::format_int8_on_int16) {
//////////////////////////////////////////////////////////////////////////////////////////////////
// process 16 bits
//////////////////////////////////////////////////////////////////////////////////////////////////
// $$$$ change the int16
std::vector<int16_t> output;
RIVER_VERBOSE("resize=" << _nbChunk*m_process.getInputConfig().getMap().size());
output.resize(_nbChunk*m_process.getInputConfig().getMap().size(), 0);
// TODO : set here the mixer selection ...
if (true) {
const int32_t* outputTmp = nullptr;
std::vector<uint8_t> outputTmp2;
RIVER_VERBOSE("resize=" << sizeof(int32_t)*m_process.getInputConfig().getMap().size()*_nbChunk);
outputTmp2.resize(sizeof(int32_t)*m_process.getInputConfig().getMap().size()*_nbChunk, 0);
// $$$$ change the int16
const int16_t* outputTmp = nullptr;
for (size_t iii=0; iii< m_list.size(); ++iii) {
if (m_list[iii] == nullptr) {
continue;
@@ -234,19 +239,144 @@ void audio::river::io::Node::newOutput(void* _outputBuffer,
}
RIVER_VERBOSE(" IO name="<< m_list[iii]->getName() << " " << iii);
// clear datas ...
memset(&outputTmp2[0], 0, sizeof(int32_t)*m_process.getInputConfig().getMap().size()*_nbChunk);
memset(&outputTmp2[0], 0, nbByteTmpBuffer);
RIVER_VERBOSE(" request Data="<< _nbChunk << " time=" << _time);
m_list[iii]->systemNeedOutputData(_time, &outputTmp2[0], _nbChunk, sizeof(int32_t)*m_process.getInputConfig().getMap().size());
m_list[iii]->systemNeedOutputData(_time, &outputTmp2[0], _nbChunk, audio::getFormatBytes(muxerFormatType)*m_process.getInputConfig().getMap().size());
// $$$$ change the int16
outputTmp = reinterpret_cast<const int16_t*>(&outputTmp2[0]);
RIVER_VERBOSE(" Mix it ...");
// Add data to the output tmp buffer:
for (size_t kkk=0; kkk<output.size(); ++kkk) {
output[kkk] += outputTmp[kkk];
}
// TODO : if a signal is upper than 256* the maximum of 1 it can create a real problem ...
}
RIVER_VERBOSE(" End stack process data ...");
m_process.processIn(&output[0], _nbChunk, _outputBuffer, _nbChunk);
} else if ( muxerFormatType == audio::format_int16_on_int32
|| muxerFormatType == audio::format_int24_on_int32) {
//////////////////////////////////////////////////////////////////////////////////////////////////
// process 32 bits
//////////////////////////////////////////////////////////////////////////////////////////////////
std::vector<int32_t> output;
RIVER_VERBOSE("resize=" << _nbChunk*m_process.getInputConfig().getMap().size());
output.resize(_nbChunk*m_process.getInputConfig().getMap().size(), 0);
const int32_t* outputTmp = nullptr;
for (size_t iii=0; iii< m_list.size(); ++iii) {
if (m_list[iii] == nullptr) {
continue;
}
if (m_list[iii]->getMode() != audio::river::modeInterface_output) {
continue;
}
RIVER_VERBOSE(" IO name="<< m_list[iii]->getName() << " " << iii);
// clear datas ...
memset(&outputTmp2[0], 0, nbByteTmpBuffer);
RIVER_VERBOSE(" request Data="<< _nbChunk << " time=" << _time);
m_list[iii]->systemNeedOutputData(_time, &outputTmp2[0], _nbChunk, audio::getFormatBytes(muxerFormatType)*m_process.getInputConfig().getMap().size());
outputTmp = reinterpret_cast<const int32_t*>(&outputTmp2[0]);
RIVER_VERBOSE(" Mix it ...");
// Add data to the output tmp buffer :
// Add data to the output tmp buffer:
for (size_t kkk=0; kkk<output.size(); ++kkk) {
output[kkk] += outputTmp[kkk];
}
// TODO : if a signal is upper than 256* (for 24 bits) or 65335* (for 16 bits) the maximum of 1 it can create a real problem ...
}
RIVER_VERBOSE(" End stack process data ...");
m_process.processIn(&output[0], _nbChunk, _outputBuffer, _nbChunk);
} else if (muxerFormatType == audio::format_int32_on_int64) {
//////////////////////////////////////////////////////////////////////////////////////////////////
// process 64 bits
//////////////////////////////////////////////////////////////////////////////////////////////////
std::vector<int64_t> output;
RIVER_VERBOSE("resize=" << _nbChunk*m_process.getInputConfig().getMap().size());
output.resize(_nbChunk*m_process.getInputConfig().getMap().size(), 0);
const int64_t* outputTmp = nullptr;
for (size_t iii=0; iii< m_list.size(); ++iii) {
if (m_list[iii] == nullptr) {
continue;
}
if (m_list[iii]->getMode() != audio::river::modeInterface_output) {
continue;
}
RIVER_VERBOSE(" IO name="<< m_list[iii]->getName() << " " << iii);
// clear datas ...
memset(&outputTmp2[0], 0, nbByteTmpBuffer);
RIVER_VERBOSE(" request Data="<< _nbChunk << " time=" << _time);
m_list[iii]->systemNeedOutputData(_time, &outputTmp2[0], _nbChunk, audio::getFormatBytes(muxerFormatType)*m_process.getInputConfig().getMap().size());
outputTmp = reinterpret_cast<const int64_t*>(&outputTmp2[0]);
RIVER_VERBOSE(" Mix it ...");
// Add data to the output tmp buffer:
for (size_t kkk=0; kkk<output.size(); ++kkk) {
output[kkk] += outputTmp[kkk];
}
// TODO : if a signal is upper than 2000000000* the maximum of 1 it can create a real problem ...
}
RIVER_VERBOSE(" End stack process data ...");
m_process.processIn(&output[0], _nbChunk, _outputBuffer, _nbChunk);
} else if (muxerFormatType == audio::format_float) {
//////////////////////////////////////////////////////////////////////////////////////////////////
// process 32 bits FLOAT
//////////////////////////////////////////////////////////////////////////////////////////////////
std::vector<float> output;
RIVER_VERBOSE("resize=" << _nbChunk*m_process.getInputConfig().getMap().size());
output.resize(_nbChunk*m_process.getInputConfig().getMap().size(), 0);
const float* outputTmp = nullptr;
for (size_t iii=0; iii< m_list.size(); ++iii) {
if (m_list[iii] == nullptr) {
continue;
}
if (m_list[iii]->getMode() != audio::river::modeInterface_output) {
continue;
}
RIVER_VERBOSE(" IO name="<< m_list[iii]->getName() << " " << iii);
// clear datas ...
memset(&outputTmp2[0], 0, nbByteTmpBuffer);
RIVER_VERBOSE(" request Data="<< _nbChunk << " time=" << _time);
m_list[iii]->systemNeedOutputData(_time, &outputTmp2[0], _nbChunk, audio::getFormatBytes(muxerFormatType)*m_process.getInputConfig().getMap().size());
outputTmp = reinterpret_cast<const float*>(&outputTmp2[0]);
RIVER_VERBOSE(" Mix it ...");
// Add data to the output tmp buffer:
for (size_t kkk=0; kkk<output.size(); ++kkk) {
output[kkk] += outputTmp[kkk];
}
}
RIVER_VERBOSE(" End stack process data ...");
m_process.processIn(&output[0], _nbChunk, _outputBuffer, _nbChunk);
} else if (muxerFormatType == audio::format_double) {
//////////////////////////////////////////////////////////////////////////////////////////////////
// process 64 bits FLOAT
//////////////////////////////////////////////////////////////////////////////////////////////////
std::vector<double> output;
RIVER_VERBOSE("resize=" << _nbChunk*m_process.getInputConfig().getMap().size());
output.resize(_nbChunk*m_process.getInputConfig().getMap().size(), 0);
const double* outputTmp = nullptr;
for (size_t iii=0; iii< m_list.size(); ++iii) {
if (m_list[iii] == nullptr) {
continue;
}
if (m_list[iii]->getMode() != audio::river::modeInterface_output) {
continue;
}
RIVER_VERBOSE(" IO name="<< m_list[iii]->getName() << " " << iii);
// clear datas ...
memset(&outputTmp2[0], 0, nbByteTmpBuffer);
RIVER_VERBOSE(" request Data="<< _nbChunk << " time=" << _time);
m_list[iii]->systemNeedOutputData(_time, &outputTmp2[0], _nbChunk, audio::getFormatBytes(muxerFormatType)*m_process.getInputConfig().getMap().size());
outputTmp = reinterpret_cast<const double*>(&outputTmp2[0]);
RIVER_VERBOSE(" Mix it ...");
// Add data to the output tmp buffer:
for (size_t kkk=0; kkk<output.size(); ++kkk) {
output[kkk] += outputTmp[kkk];
}
}
RIVER_VERBOSE(" End stack process data ...");
m_process.processIn(&output[0], _nbChunk, _outputBuffer, _nbChunk);
} else {
RIVER_ERROR("Wrong demuxer type: " << muxerFormatType);
return;
}
// The feedback get the real output data (after processing ...==> then no nneed to specify for each channels
RIVER_VERBOSE(" Feedback :");
for (size_t iii=0; iii< m_list.size(); ++iii) {
if (m_list[iii] == nullptr) {
@@ -324,7 +454,7 @@ void audio::river::io::Node::generateDot(etk::FSNode& _node) {
if (m_listAvaillable[iii].expired() == true) {
continue;
}
std11::shared_ptr<audio::river::Interface> element = m_listAvaillable[iii].lock();
ememory::SharedPtr<audio::river::Interface> element = m_listAvaillable[iii].lock();
if (element == nullptr) {
continue;
}
@@ -350,7 +480,7 @@ void audio::river::io::Node::generateDot(etk::FSNode& _node) {
void audio::river::io::Node::startInGroup() {
std11::shared_ptr<audio::river::io::Group> group = m_group.lock();
ememory::SharedPtr<audio::river::io::Group> group = m_group.lock();
if (group != nullptr) {
group->start();
} else {
@@ -359,7 +489,7 @@ void audio::river::io::Node::startInGroup() {
}
void audio::river::io::Node::stopInGroup() {
std11::shared_ptr<audio::river::io::Group> group = m_group.lock();
ememory::SharedPtr<audio::river::io::Group> group = m_group.lock();
if (group != nullptr) {
group->stop();
} else {

56
audio/river/io/Node.h → audio/river/io/Node.hpp
View File

@@ -3,24 +3,22 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifndef __AUDIO_RIVER_IO_NODE_H__
#define __AUDIO_RIVER_IO_NODE_H__
#pragma once
#include <string>
#include <vector>
#include <list>
#include <stdint.h>
#include <etk/chrono.h>
#include <etk/functional.h>
#include <etk/memory.h>
#include <audio/format.h>
#include <audio/channel.h>
#include "Manager.h"
#include <audio/river/Interface.h>
#include <audio/drain/IOFormatInterface.h>
#include <audio/drain/Volume.h>
#include <etk/os/FSNode.h>
#include <cstdint>
#include <chrono>
#include <functional>
#include <ememory/memory.hpp>
#include <audio/format.hpp>
#include <audio/channel.hpp>
#include "Manager.hpp"
#include <audio/river/Interface.hpp>
#include <audio/drain/IOFormatInterface.hpp>
#include <audio/drain/Volume.hpp>
#include <etk/os/FSNode.hpp>
namespace audio {
namespace river {
@@ -31,7 +29,7 @@ namespace audio {
* @brief A node is the base for input/output interface. When a output id declared, we automaticly have a feedback associated.
* this manage the muxing of data for output an the demuxing for input.
*/
class Node : public std11::enable_shared_from_this<Node> {
class Node : public ememory::EnableSharedFromThis<Node> {
friend class audio::river::io::Group;
protected:
uint32_t m_uid; //!< uniqueNodeID use for debug an dot generation.
@@ -41,7 +39,7 @@ namespace audio {
* @param[in] _name Name of the node.
* @param[in] _config Configuration of the node.
*/
Node(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config);
Node(const std::string& _name, const ejson::Object& _config);
public:
/**
* @brief Destructor
@@ -56,8 +54,8 @@ namespace audio {
return false;
};
protected:
mutable std11::mutex m_mutex; //!< prevent open/close/write/read access that is multi-threaded.
std11::shared_ptr<const ejson::Object> m_config; //!< configuration description.
mutable std::mutex m_mutex; //!< prevent open/close/write/read access that is multi-threaded.
const ejson::Object m_config; //!< configuration description.
protected:
audio::drain::Process m_process; //!< Low level algorithms
public:
@@ -84,10 +82,10 @@ namespace audio {
}
}
protected:
std11::shared_ptr<audio::drain::VolumeElement> m_volume; //!< if a volume is set it is set here ... for hardware interface only.
ememory::SharedPtr<audio::drain::VolumeElement> m_volume; //!< if a volume is set it is set here ... for hardware interface only.
protected:
std::vector<std11::weak_ptr<audio::river::Interface> > m_listAvaillable; //!< List of all interface that exist on this Node
std::vector<std11::shared_ptr<audio::river::Interface> > m_list; //!< List of all connected interface at this node.
std::vector<ememory::WeakPtr<audio::river::Interface> > m_listAvaillable; //!< List of all interface that exist on this Node
std::vector<ememory::SharedPtr<audio::river::Interface> > m_list; //!< List of all connected interface at this node.
/**
* @brief Get the number of interface with a specific type.
* @param[in] _interfaceType Type of the interface.
@@ -111,20 +109,20 @@ namespace audio {
public:
/**
* @brief Register an interface that can connect on it. (might be done in the Interface Init)
* @note We keep a std::weak_ptr. this is the reason why we do not have a remove.
* @note We keep a ememory::WeakPtr. this is the reason why we do not have a remove.
* @param[in] _interface Pointer on the interface to register.
*/
void registerAsRemote(const std11::shared_ptr<audio::river::Interface>& _interface);
void registerAsRemote(const ememory::SharedPtr<audio::river::Interface>& _interface);
/**
* @brief Request this interface might receve/send dat on the flow. (start/resume)
* @param[in] _interface Pointer on the interface to register.
*/
void interfaceAdd(const std11::shared_ptr<audio::river::Interface>& _interface);
void interfaceAdd(const ememory::SharedPtr<audio::river::Interface>& _interface);
/**
* @brief Un-register the interface as an availlable read/write interface. (suspend/stop)
* @param[in] _interface Pointer on the interface to register.
*/
void interfaceRemove(const std11::shared_ptr<audio::river::Interface>& _interface);
void interfaceRemove(const ememory::SharedPtr<audio::river::Interface>& _interface);
protected:
std::string m_name; //!< Name of the interface
public:
@@ -153,13 +151,13 @@ namespace audio {
return !m_isInput;
}
protected:
std11::weak_ptr<audio::river::io::Group> m_group; //!< reference on the group. If available.
ememory::WeakPtr<audio::river::io::Group> m_group; //!< reference on the group. If available.
public:
/**
* @brief Set this node in a low level group.
* @param[in] _group Group reference.
*/
void setGroup(std11::shared_ptr<audio::river::io::Group> _group) {
void setGroup(ememory::SharedPtr<audio::river::io::Group> _group) {
m_group = _group;
}
protected:
@@ -184,7 +182,7 @@ namespace audio {
* @brief If this iss an hardware interface we can have a resuest of the volume stage:
* @return pointer on the requested volume.
*/
const std11::shared_ptr<audio::drain::VolumeElement>& getVolume() {
const ememory::SharedPtr<audio::drain::VolumeElement>& getVolume() {
return m_volume;
}
public:
@@ -222,5 +220,3 @@ namespace audio {
}
}
#endif

85
audio/river/io/NodeAEC.cpp
View File

@@ -4,46 +4,43 @@
* @license APACHE v2.0 (see license file)
*/
#include <audio/river/io/NodeAEC.h>
#include <audio/river/debug.h>
#include <etk/types.h>
#include <etk/memory.h>
#include <etk/functional.h>
#include <audio/river/io/NodeAEC.hpp>
#include <audio/river/debug.hpp>
#include <etk/types.hpp>
#include <ememory/memory.hpp>
#include <functional>
#undef __class__
#define __class__ "io::NodeAEC"
std11::shared_ptr<audio::river::io::NodeAEC> audio::river::io::NodeAEC::create(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config) {
return std11::shared_ptr<audio::river::io::NodeAEC>(new audio::river::io::NodeAEC(_name, _config));
ememory::SharedPtr<audio::river::io::NodeAEC> audio::river::io::NodeAEC::create(const std::string& _name, const ejson::Object& _config) {
return ememory::SharedPtr<audio::river::io::NodeAEC>(new audio::river::io::NodeAEC(_name, _config));
}
std11::shared_ptr<audio::river::Interface> audio::river::io::NodeAEC::createInput(float _freq,
ememory::SharedPtr<audio::river::Interface> audio::river::io::NodeAEC::createInput(float _freq,
const std::vector<audio::channel>& _map,
audio::format _format,
const std::string& _objectName,
const std::string& _name) {
// check if the output exist
const std11::shared_ptr<const ejson::Object> tmppp = m_config->getObject(_objectName);
if (tmppp == nullptr) {
RIVER_ERROR("can not open a non existance virtual interface: '" << _objectName << "' not present in : " << m_config->getKeys());
return std11::shared_ptr<audio::river::Interface>();
const ejson::Object tmppp = m_config[_objectName].toObject();
if (tmppp.exist() == false) {
RIVER_ERROR("can not open a non existance virtual interface: '" << _objectName << "' not present in : " << m_config.getKeys());
return ememory::SharedPtr<audio::river::Interface>();
}
std::string streamName = tmppp->getStringValue("map-on", "error");
std::string streamName = tmppp["map-on"].toString().get("error");
m_nbChunk = m_config->getNumberValue("nb-chunk", 1024);
m_nbChunk = m_config["nb-chunk"].toNumber().get(1024);
// check if it is an Output:
std::string type = tmppp->getStringValue("io", "error");
std::string type = tmppp["io"].toString().get("error");
if ( type != "input"
&& type != "feedback") {
RIVER_ERROR("can not open in output a virtual interface: '" << streamName << "' configured has : " << type);
return std11::shared_ptr<audio::river::Interface>();
return ememory::SharedPtr<audio::river::Interface>();
}
// get global hardware interface:
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
// get the output or input channel :
std11::shared_ptr<audio::river::io::Node> node = manager->getNode(streamName);
ememory::SharedPtr<audio::river::io::Node> node = manager->getNode(streamName);
// create user iterface:
std11::shared_ptr<audio::river::Interface> interface;
ememory::SharedPtr<audio::river::Interface> interface;
interface = audio::river::Interface::create(_freq, _map, _format, node, tmppp);
if (interface != nullptr) {
interface->setName(_name);
@@ -52,7 +49,7 @@ std11::shared_ptr<audio::river::Interface> audio::river::io::NodeAEC::createInpu
}
audio::river::io::NodeAEC::NodeAEC(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config) :
audio::river::io::NodeAEC::NodeAEC(const std::string& _name, const ejson::Object& _config) :
Node(_name, _config),
m_P_attaqueTime(1),
m_P_releaseTime(100),
@@ -106,28 +103,28 @@ audio::river::io::NodeAEC::NodeAEC(const std::string& _name, const std11::shared
}
// set callback mode ...
m_interfaceFeedBack->setInputCallback(std11::bind(&audio::river::io::NodeAEC::onDataReceivedFeedBack,
m_interfaceFeedBack->setInputCallback(std::bind(&audio::river::io::NodeAEC::onDataReceivedFeedBack,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
// set callback mode ...
m_interfaceMicrophone->setInputCallback(std11::bind(&audio::river::io::NodeAEC::onDataReceivedMicrophone,
m_interfaceMicrophone->setInputCallback(std::bind(&audio::river::io::NodeAEC::onDataReceivedMicrophone,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
m_bufferMicrophone.setCapacity(std11::chrono::milliseconds(1000),
m_bufferMicrophone.setCapacity(std::chrono::milliseconds(1000),
audio::getFormatBytes(hardwareFormat.getFormat())*hardwareFormat.getMap().size(),
hardwareFormat.getFrequency());
m_bufferFeedBack.setCapacity(std11::chrono::milliseconds(1000),
m_bufferFeedBack.setCapacity(std::chrono::milliseconds(1000),
audio::getFormatBytes(hardwareFormat.getFormat()), // only one channel ...
hardwareFormat.getFrequency());
@@ -142,7 +139,7 @@ audio::river::io::NodeAEC::~NodeAEC() {
};
void audio::river::io::NodeAEC::start() {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
RIVER_INFO("Start stream : '" << m_name << "' mode=" << (m_isInput?"input":"output") );
if (m_interfaceFeedBack != nullptr) {
RIVER_INFO("Start FEEDBACK : ");
@@ -155,7 +152,7 @@ void audio::river::io::NodeAEC::start() {
}
void audio::river::io::NodeAEC::stop() {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
if (m_interfaceFeedBack != nullptr) {
m_interfaceFeedBack->stop();
}
@@ -177,7 +174,7 @@ void audio::river::io::NodeAEC::onDataReceivedMicrophone(const void* _data,
RIVER_ERROR("call wrong type ... (need int16_t)");
}
// push data synchronize
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
m_bufferMicrophone.write(_data, _nbChunk, _time);
//RIVER_SAVE_FILE_MACRO(int16_t, "REC_Microphone.raw", _data, _nbChunk*_map.size());
process();
@@ -195,7 +192,7 @@ void audio::river::io::NodeAEC::onDataReceivedFeedBack(const void* _data,
RIVER_ERROR("call wrong type ... (need int16_t)");
}
// push data synchronize
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
m_bufferFeedBack.write(_data, _nbChunk, _time);
//RIVER_SAVE_FILE_MACRO(int16_t, "REC_FeedBack.raw", _data, _nbChunk*_map.size());
process();
@@ -346,7 +343,7 @@ void audio::river::io::NodeAEC::generateDot(etk::FSNode& _node) {
if (m_listAvaillable[iii].expired() == true) {
continue;
}
std11::shared_ptr<audio::river::Interface> element = m_listAvaillable[iii].lock();
ememory::SharedPtr<audio::river::Interface> element = m_listAvaillable[iii].lock();
if (element == nullptr) {
continue;
}

22
audio/river/io/NodeAEC.h → audio/river/io/NodeAEC.hpp
View File

@@ -3,13 +3,11 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#ifndef __AUDIO_RIVER_IO_NODE_AEC_H__
#define __AUDIO_RIVER_IO_NODE_AEC_H__
#include <audio/river/io/Node.h>
#include <audio/river/Interface.h>
#include <audio/drain/CircularBuffer.h>
#include <audio/river/io/Node.hpp>
#include <audio/river/Interface.hpp>
#include <audio/drain/CircularBuffer.hpp>
namespace audio {
namespace river {
@@ -20,14 +18,14 @@ namespace audio {
/**
* @brief Constructor
*/
NodeAEC(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config);
NodeAEC(const std::string& _name, const ejson::Object& _config);
public:
/**
* @brief Factory of this Virtual Node.
* @param[in] _name Name of the node.
* @param[in] _config Configuration of the node.
*/
static std11::shared_ptr<NodeAEC> create(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config);
static ememory::SharedPtr<NodeAEC> create(const std::string& _name, const ejson::Object& _config);
/**
* @brief Destructor
*/
@@ -35,8 +33,8 @@ namespace audio {
protected:
virtual void start();
virtual void stop();
std11::shared_ptr<audio::river::Interface> m_interfaceMicrophone; //!< Interface on the Microphone.
std11::shared_ptr<audio::river::Interface> m_interfaceFeedBack; //!< Interface on the feedback of speaker.
ememory::SharedPtr<audio::river::Interface> m_interfaceMicrophone; //!< Interface on the Microphone.
ememory::SharedPtr<audio::river::Interface> m_interfaceFeedBack; //!< Interface on the feedback of speaker.
/**
* @brief Internal: create an input with the specific parameter:
* @param[in] _freq Frequency.
@@ -46,7 +44,7 @@ namespace audio {
* @param[in] _name
* @return Interfae Pointer.
*/
std11::shared_ptr<audio::river::Interface> createInput(float _freq,
ememory::SharedPtr<audio::river::Interface> createInput(float _freq,
const std::vector<audio::channel>& _map,
audio::format _format,
const std::string& _streamName,
@@ -106,5 +104,3 @@ namespace audio {
}
}
#endif

269
audio/river/io/NodeFile.cpp Normal file
View File

@@ -0,0 +1,269 @@
/** @file
* @author Edouard DUPIN
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifdef AUDIO_RIVER_BUILD_FILE
#include <audio/river/io/NodeFile.hpp>
#include <audio/river/debug.hpp>
#include <ememory/memory.hpp>
int32_t audio::river::io::NodeFile::recordCallback(const void* _inputBuffer,
const audio::Time& _timeInput,
uint32_t _nbChunk,
const std::vector<audio::orchestra::status>& _status) {
std::unique_lock<std::mutex> lock(m_mutex);
// TODO : Manage status ...
RIVER_VERBOSE("data Input size request :" << _nbChunk << " [BEGIN] status=" << _status << " nbIO=" << m_list.size());
newInput(_inputBuffer, _nbChunk, _timeInput);
return 0;
}
int32_t audio::river::io::NodeFile::playbackCallback(void* _outputBuffer,
const audio::Time& _timeOutput,
uint32_t _nbChunk,
const std::vector<audio::orchestra::status>& _status) {
std::unique_lock<std::mutex> lock(m_mutex);
// TODO : Manage status ...
RIVER_VERBOSE("data Output size request :" << _nbChunk << " [BEGIN] status=" << _status << " nbIO=" << m_list.size());
newOutput(_outputBuffer, _nbChunk, _timeOutput);
return 0;
}
ememory::SharedPtr<audio::river::io::NodeFile> audio::river::io::NodeFile::create(const std::string& _name, const ejson::Object& _config) {
return ememory::SharedPtr<audio::river::io::NodeFile>(new audio::river::io::NodeFile(_name, _config));
}
audio::river::io::NodeFile::NodeFile(const std::string& _name, const ejson::Object& _config) :
Node(_name, _config) {
audio::drain::IOFormatInterface interfaceFormat = getInterfaceFormat();
audio::drain::IOFormatInterface hardwareFormat = getHarwareFormat();
/**
map-on:{ # select hardware interface and name
interface:"alsa", # interface : "alsa", "pulse", "core", ...
name:"default", # name of the interface
},
nb-chunk:1024 # number of chunk to open device (create the latency anf the frequency to call user)
*/
std::string typeInterface = audio::orchestra::type::undefined;
std::string streamName = "default";
const ejson::Object tmpObject = m_config["map-on"].toObject();
if (tmpObject.exist() == false) {
RIVER_WARNING("missing node : 'map-on' ==> auto map : 'auto:default'");
} else {
typeInterface = tmpObject.getStringValue("interface", audio::orchestra::type::undefined);
if (typeInterface == "auto") {
typeInterface = audio::orchestra::type::undefined;
}
streamName = tmpObject.getStringValue("name", "default");
}
int32_t nbChunk = m_config.getNumberValue("nb-chunk", 1024);
// intanciate specific API ...
m_interface.instanciate(typeInterface);
m_interface.setName(_name);
// TODO : Check return ...
std::string type = m_config.getStringValue("type", "int16");
if (streamName == "") {
streamName = "default";
}
// search device ID :
RIVER_INFO("Open :");
RIVER_INFO(" m_streamName=" << streamName);
RIVER_INFO(" m_freq=" << hardwareFormat.getFrequency());
RIVER_INFO(" m_map=" << hardwareFormat.getMap());
RIVER_INFO(" m_format=" << hardwareFormat.getFormat());
RIVER_INFO(" m_isInput=" << m_isInput);
int32_t deviceId = -1;
/*
// TODO : Remove this from here (create an extern interface ...)
RIVER_INFO("Device list:");
for (int32_t iii=0; iii<m_interface.getDeviceCount(); ++iii) {
m_info = m_interface.getDeviceInfo(iii);
RIVER_INFO(" " << iii << " name :" << m_info.name);
m_info.display(2);
}
*/
// special case for default IO:
if (streamName == "default") {
if (m_isInput == true) {
deviceId = m_interface.getDefaultInputDevice();
} else {
deviceId = m_interface.getDefaultOutputDevice();
}
} else {
for (int32_t iii=0; iii<m_interface.getDeviceCount(); ++iii) {
m_info = m_interface.getDeviceInfo(iii);
if (m_info.name == streamName) {
RIVER_INFO(" Select ... id =" << iii);
deviceId = iii;
}
}
}
// TODO : Check if the devace with the specific name exist ...
/*
if (deviceId == -1) {
RIVER_ERROR("Can not find the " << streamName << " audio interface ... (use O default ...)");
deviceId = 0;
}
*/
// Open specific ID :
if (deviceId == -1) {
m_info = m_interface.getDeviceInfo(streamName);
} else {
m_info = m_interface.getDeviceInfo(deviceId);
}
// display property :
{
RIVER_INFO("Device " << deviceId << " - '" << streamName << "' property :");
m_info.display();
if (etk::isIn(hardwareFormat.getFormat(), m_info.nativeFormats) == false) {
if (type == "auto") {
if (etk::isIn(audio::format_int16, m_info.nativeFormats) == true) {
hardwareFormat.setFormat(audio::format_int16);
RIVER_INFO("auto set format: " << hardwareFormat.getFormat());
} else if (etk::isIn(audio::format_float, m_info.nativeFormats) == true) {
hardwareFormat.setFormat(audio::format_float);
RIVER_INFO("auto set format: " << hardwareFormat.getFormat());
} else if (etk::isIn(audio::format_int16_on_int32, m_info.nativeFormats) == true) {
hardwareFormat.setFormat(audio::format_int16_on_int32);
RIVER_INFO("auto set format: " << hardwareFormat.getFormat());
} else if (etk::isIn(audio::format_int24, m_info.nativeFormats) == true) {
hardwareFormat.setFormat(audio::format_int24);
RIVER_INFO("auto set format: " << hardwareFormat.getFormat());
} else if (m_info.nativeFormats.size() != 0) {
hardwareFormat.setFormat(m_info.nativeFormats[0]);
RIVER_INFO("auto set format: " << hardwareFormat.getFormat());
} else {
RIVER_CRITICAL("auto set format no element in the configuration: " << m_info.nativeFormats);
}
} else {
RIVER_CRITICAL("Can not manage input transforamtion: " << hardwareFormat.getFormat() << " not in " << m_info.nativeFormats);
}
}
if (etk::isIn(hardwareFormat.getFrequency(), m_info.sampleRates) == false) {
if (etk::isIn(48000, m_info.sampleRates) == true) {
hardwareFormat.setFrequency(48000);
RIVER_INFO("auto set frequency: " << hardwareFormat.getFrequency());
} else if (etk::isIn(44100, m_info.sampleRates) == true) {
hardwareFormat.setFrequency(44100);
RIVER_INFO("auto set frequency: " << hardwareFormat.getFrequency());
} else if (etk::isIn(32000, m_info.sampleRates) == true) {
hardwareFormat.setFrequency(32000);
RIVER_INFO("auto set frequency: " << hardwareFormat.getFrequency());
} else if (etk::isIn(16000, m_info.sampleRates) == true) {
hardwareFormat.setFrequency(16000);
RIVER_INFO("auto set frequency: " << hardwareFormat.getFrequency());
} else if (etk::isIn(8000, m_info.sampleRates) == true) {
hardwareFormat.setFrequency(8000);
RIVER_INFO("auto set frequency: " << hardwareFormat.getFrequency());
} else if (etk::isIn(96000, m_info.sampleRates) == true) {
hardwareFormat.setFrequency(96000);
RIVER_INFO("auto set frequency: " << hardwareFormat.getFrequency());
} else if (m_info.sampleRates.size() != 0) {
hardwareFormat.setFrequency(m_info.sampleRates[0]);
RIVER_INFO("auto set frequency: " << hardwareFormat.getFrequency() << "(first element in list) in " << m_info.sampleRates);
} else {
RIVER_CRITICAL("Can not manage input transforamtion:" << hardwareFormat.getFrequency() << " not in " << m_info.sampleRates);
}
interfaceFormat.setFrequency(hardwareFormat.getFrequency());
}
}
// open Audio device:
audio::orchestra::StreamParameters params;
params.deviceId = deviceId;
params.deviceName = streamName;
params.nChannels = hardwareFormat.getMap().size();
if (m_info.channels.size() < params.nChannels) {
RIVER_CRITICAL("Can not open hardware device with more channel (" << params.nChannels << ") that is autorized by hardware (" << m_info.channels.size() << ").");
}
audio::orchestra::StreamOptions option;
etk::from_string(option.mode, tmpObject->getStringValue("timestamp-mode", "soft"));
RIVER_DEBUG("interfaceFormat=" << interfaceFormat);
RIVER_DEBUG("hardwareFormat=" << hardwareFormat);
m_rtaudioFrameSize = nbChunk;
RIVER_INFO("Open output stream nbChannels=" << params.nChannels);
enum audio::orchestra::error err = audio::orchestra::error_none;
if (m_isInput == true) {
m_process.setInputConfig(hardwareFormat);
m_process.setOutputConfig(interfaceFormat);
err = m_interface.openStream(nullptr, &params,
hardwareFormat.getFormat(), hardwareFormat.getFrequency(), &m_rtaudioFrameSize,
std::bind(&audio::river::io::NodeFile::recordCallback,
this,
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_5,
std::placeholders::_6),
option
);
} else {
m_process.setInputConfig(interfaceFormat);
m_process.setOutputConfig(hardwareFormat);
err = m_interface.openStream(&params, nullptr,
hardwareFormat.getFormat(), hardwareFormat.getFrequency(), &m_rtaudioFrameSize,
std::bind(&audio::river::io::NodeFile::playbackCallback,
this,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6),
option
);
}
if (err != audio::orchestra::error_none) {
RIVER_ERROR("Create stream : '" << m_name << "' mode=" << (m_isInput?"input":"output") << " can not create stream " << err);
}
m_process.updateInterAlgo();
}
audio::river::io::NodeFile::~NodeFile() {
std::unique_lock<std::mutex> lock(m_mutex);
RIVER_INFO("close input stream");
if (m_interface.isStreamOpen() ) {
m_interface.closeStream();
}
};
void audio::river::io::NodeFile::threadCallback() {
etk::thread::setName("RIVER file-IO");
// open the file
while (m_alive == true) {
std::this_thread::sleep_for(std::chrono::milliseconds(100));
}
}
void audio::river::io::NodeFile::start() {
std::unique_lock<std::mutex> lock(m_mutex);
if (m_thread != nullptr) {
RIVER_ERROR("Start stream : '" << m_name << "' mode=" << (m_isInput?"read":"write") << " ==> already started ..." );
return;
}
m_alive = true;
RIVER_INFO("Start stream : '" << m_name << "' mode=" << (m_isInput?"read":"write") );
m_thread = ememory::makeShared<std::thread>(&audio::river::io::NodeFile::threadCallback2, this);
m_time = audio::Time::now();
}
void audio::river::io::NodeFile::stop() {
std::unique_lock<std::mutex> lock(m_mutex);
m_alive = false;
RIVER_INFO("Stop stream : '" << m_name << "' mode=" << (m_isInput?"read":"write") );
// TODO : Need join ...
m_thread->join();
m_thread.reset();
}
#endif

54
audio/river/io/NodeFile.hpp Normal file
View File

@@ -0,0 +1,54 @@
/** @file
* @author Edouard DUPIN
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#ifdef AUDIO_RIVER_BUILD_FILE
#include <audio/river/io/Node.hpp>
#include <audio/orchestra/Interface.hpp>
namespace audio {
namespace river {
namespace io {
class Manager;
class Group;
/**
* @brief Low level node that is manage on the interface with the extern lib airtaudio
*/
class NodeFile : public audio::river::io::Node {
friend class audio::river::io::Group;
protected:
/**
* @brief Constructor
*/
NodeFile(const std::string& _name, const ejson::Object& _config);
public:
static ememory::SharedPtr<NodeFile> create(const std::string& _name, const ejson::Object& _config);
/**
* @brief Destructor
*/
virtual ~NodeFile();
virtual bool isHarwareNode() {
return true;
};
protected:
audio::Time m_time; //!< time of the flow
etk::FSNode m_file; //!< File interface
bool m_restartAtEnd; //!< The read is done in loop
uint32_t m_sampleRate; //!< Sample Rate of the Raw file
audio::format m_format; //!< Format of the file
std::vector<audio::channel> m_map; //!< Map of the file
ememory::SharedPtr<std::thread> m_thread; //!< playing thread of the flow
std::atomic<bool> m_alive; //!< thread is active
protected:
virtual void start();
virtual void stop();
virtual void threadCallback():
};
}
}
}
#endif

133
audio/river/io/NodeMuxer.cpp
View File

@@ -4,46 +4,43 @@
* @license APACHE v2.0 (see license file)
*/
#include <audio/river/io/NodeMuxer.h>
#include <audio/river/debug.h>
#include <etk/types.h>
#include <etk/memory.h>
#include <etk/functional.h>
#include <audio/river/io/NodeMuxer.hpp>
#include <audio/river/debug.hpp>
#include <etk/types.hpp>
#include <ememory/memory.hpp>
#include <functional>
#undef __class__
#define __class__ "io::NodeMuxer"
std11::shared_ptr<audio::river::io::NodeMuxer> audio::river::io::NodeMuxer::create(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config) {
return std11::shared_ptr<audio::river::io::NodeMuxer>(new audio::river::io::NodeMuxer(_name, _config));
ememory::SharedPtr<audio::river::io::NodeMuxer> audio::river::io::NodeMuxer::create(const std::string& _name, const ejson::Object& _config) {
return ememory::SharedPtr<audio::river::io::NodeMuxer>(new audio::river::io::NodeMuxer(_name, _config));
}
std11::shared_ptr<audio::river::Interface> audio::river::io::NodeMuxer::createInput(float _freq,
ememory::SharedPtr<audio::river::Interface> audio::river::io::NodeMuxer::createInput(float _freq,
const std::vector<audio::channel>& _map,
audio::format _format,
const std::string& _objectName,
const std::string& _name) {
// check if the output exist
const std11::shared_ptr<const ejson::Object> tmppp = m_config->getObject(_objectName);
if (tmppp == nullptr) {
RIVER_ERROR("can not open a non existance virtual interface: '" << _objectName << "' not present in : " << m_config->getKeys());
return std11::shared_ptr<audio::river::Interface>();
const ejson::Object tmppp = m_config[_objectName].toObject();
if (tmppp.exist() == false) {
RIVER_ERROR("can not open a non existance virtual interface: '" << _objectName << "' not present in : " << m_config.getKeys());
return ememory::SharedPtr<audio::river::Interface>();
}
std::string streamName = tmppp->getStringValue("map-on", "error");
std::string streamName = tmppp["map-on"].toString().get("error");
// check if it is an Output:
std::string type = tmppp->getStringValue("io", "error");
std::string type = tmppp["io"].toString().get("error");
if ( type != "input"
&& type != "feedback") {
RIVER_ERROR("can not open in output a virtual interface: '" << streamName << "' configured has : " << type);
return std11::shared_ptr<audio::river::Interface>();
return ememory::SharedPtr<audio::river::Interface>();
}
// get global hardware interface:
std11::shared_ptr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> manager = audio::river::io::Manager::getInstance();
// get the output or input channel :
std11::shared_ptr<audio::river::io::Node> node = manager->getNode(streamName);
ememory::SharedPtr<audio::river::io::Node> node = manager->getNode(streamName);
// create user iterface:
std11::shared_ptr<audio::river::Interface> interface;
ememory::SharedPtr<audio::river::Interface> interface;
interface = audio::river::Interface::create(_freq, _map, _format, node, tmppp);
if (interface != nullptr) {
interface->setName(_name);
@@ -52,7 +49,7 @@ std11::shared_ptr<audio::river::Interface> audio::river::io::NodeMuxer::createIn
}
audio::river::io::NodeMuxer::NodeMuxer(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config) :
audio::river::io::NodeMuxer::NodeMuxer(const std::string& _name, const ejson::Object& _config) :
Node(_name, _config) {
audio::drain::IOFormatInterface interfaceFormat = getInterfaceFormat();
audio::drain::IOFormatInterface hardwareFormat = getHarwareFormat();
@@ -88,14 +85,14 @@ audio::river::io::NodeMuxer::NodeMuxer(const std::string& _name, const std11::sh
RIVER_ERROR("Can not opne virtual device ... map-on-input-1 in " << _name);
return;
}
std11::shared_ptr<const ejson::Array> listChannelMap = m_config->getArray("input-1-remap");
if ( listChannelMap == nullptr
|| listChannelMap->size() == 0) {
const ejson::Array listChannelMap = m_config["input-1-remap"].toArray();
if ( listChannelMap.exist() == false
|| listChannelMap.size() == 0) {
m_mapInput1 = m_interfaceInput1->getInterfaceFormat().getMap();
} else {
m_mapInput1.clear();
for (size_t iii=0; iii<listChannelMap->size(); ++iii) {
std::string value = listChannelMap->getStringValue(iii);
for (const auto it : listChannelMap) {
std::string value = it.toString().get();
m_mapInput1.push_back(audio::getChannelFromString(value));
}
if (m_mapInput1.size() != m_interfaceInput1->getInterfaceFormat().getMap().size()) {
@@ -114,14 +111,14 @@ audio::river::io::NodeMuxer::NodeMuxer(const std::string& _name, const std11::sh
RIVER_ERROR("Can not opne virtual device ... map-on-input-2 in " << _name);
return;
}
listChannelMap = m_config->getArray("input-2-remap");
if ( listChannelMap == nullptr
|| listChannelMap->size() == 0) {
const ejson::Array listChannelMap2 = m_config["input-2-remap"].toArray();
if ( listChannelMap2.exist() == false
|| listChannelMap2.size() == 0) {
m_mapInput2 = m_interfaceInput2->getInterfaceFormat().getMap();
} else {
m_mapInput2.clear();
for (size_t iii=0; iii<listChannelMap->size(); ++iii) {
std::string value = listChannelMap->getStringValue(iii);
for (const auto it : listChannelMap2) {
std::string value = it.toString().get();
m_mapInput2.push_back(audio::getChannelFromString(value));
}
if (m_mapInput2.size() != m_interfaceInput2->getInterfaceFormat().getMap().size()) {
@@ -131,28 +128,28 @@ audio::river::io::NodeMuxer::NodeMuxer(const std::string& _name, const std11::sh
}
// set callback mode ...
m_interfaceInput1->setInputCallback(std11::bind(&audio::river::io::NodeMuxer::onDataReceivedInput1,
m_interfaceInput1->setInputCallback(std::bind(&audio::river::io::NodeMuxer::onDataReceivedInput1,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
// set callback mode ...
m_interfaceInput2->setInputCallback(std11::bind(&audio::river::io::NodeMuxer::onDataReceivedInput2,
m_interfaceInput2->setInputCallback(std::bind(&audio::river::io::NodeMuxer::onDataReceivedInput2,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
m_bufferInput1.setCapacity(std11::chrono::milliseconds(1000),
m_bufferInput1.setCapacity(std::chrono::milliseconds(1000),
audio::getFormatBytes(hardwareFormat.getFormat())*m_mapInput1.size(),
hardwareFormat.getFrequency());
m_bufferInput2.setCapacity(std11::chrono::milliseconds(1000),
m_bufferInput2.setCapacity(std::chrono::milliseconds(1000),
audio::getFormatBytes(hardwareFormat.getFormat())*m_mapInput2.size(),
hardwareFormat.getFrequency());
@@ -167,7 +164,7 @@ audio::river::io::NodeMuxer::~NodeMuxer() {
};
void audio::river::io::NodeMuxer::start() {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
RIVER_INFO("Start stream : '" << m_name << "' mode=" << (m_isInput?"input":"output") );
if (m_interfaceInput1 != nullptr) {
RIVER_INFO("Start FEEDBACK : ");
@@ -180,7 +177,7 @@ void audio::river::io::NodeMuxer::start() {
}
void audio::river::io::NodeMuxer::stop() {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
if (m_interfaceInput1 != nullptr) {
m_interfaceInput1->stop();
}
@@ -196,15 +193,17 @@ void audio::river::io::NodeMuxer::onDataReceivedInput1(const void* _data,
enum audio::format _format,
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
RIVER_DEBUG("Microphone Time=" << _time << " _nbChunk=" << _nbChunk << " _map=" << _map << " _format=" << _format << " freq=" << _frequency);
RIVER_PRINT("Input-1 Time=" << _time << " _nbChunk=" << _nbChunk << " _map=" << _map << " _format=" << _format << " freq=" << _frequency);
RIVER_DEBUG(" next=" << _time + audio::Duration(0, _nbChunk*1000000000LL/int64_t(_frequency)) );
/*
if (_format != audio::format_int16) {
RIVER_ERROR("call wrong type ... (need int16_t)");
}
*/
// push data synchronize
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
m_bufferInput1.write(_data, _nbChunk, _time);
//RIVER_SAVE_FILE_MACRO(int16_t, "REC_Microphone.raw", _data, _nbChunk*_map.size());
//RIVER_SAVE_FILE_MACRO(int16_t, "REC_muxer_input_1.raw", _data, _nbChunk*_map.size());
process();
}
@@ -214,15 +213,17 @@ void audio::river::io::NodeMuxer::onDataReceivedInput2(const void* _data,
enum audio::format _format,
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
RIVER_DEBUG("FeedBack Time=" << _time << " _nbChunk=" << _nbChunk << " _map=" << _map << " _format=" << _format << " freq=" << _frequency);
RIVER_PRINT("Input-2 Time=" << _time << " _nbChunk=" << _nbChunk << " _map=" << _map << " _format=" << _format << " freq=" << _frequency);
RIVER_DEBUG(" next=" << _time + audio::Duration(0, _nbChunk*1000000000LL/int64_t(_frequency)) );
/*
if (_format != audio::format_int16) {
RIVER_ERROR("call wrong type ... (need int16_t)");
}
*/
// push data synchronize
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
m_bufferInput2.write(_data, _nbChunk, _time);
//RIVER_SAVE_FILE_MACRO(int16_t, "REC_FeedBack.raw", _data, _nbChunk*_map.size());
//RIVER_SAVE_FILE_MACRO(int16_t, "REC_muxer_input_2.raw", _data, _nbChunk*_map.size());
process();
}
@@ -233,6 +234,7 @@ void audio::river::io::NodeMuxer::process() {
if (m_bufferInput2.getSize() <= 256) {
return;
}
RIVER_PRINT("process : s1=" << m_bufferInput1.getSize() << " s2=" << m_bufferInput2.getSize());
audio::Time in1Time = m_bufferInput1.getReadTimeStamp();
audio::Time in2Time = m_bufferInput2.getReadTimeStamp();
audio::Duration delta;
@@ -241,18 +243,17 @@ void audio::river::io::NodeMuxer::process() {
} else {
delta = in1Time - in2Time;
}
RIVER_INFO("check delta " << delta.count() << " > " << m_sampleTime.count());
RIVER_VERBOSE("check delta " << delta.count() << " > " << m_sampleTime.count());
if (delta > m_sampleTime) {
// Synchronize if possible
if (in1Time < in2Time) {
RIVER_INFO("in1Time < in2Time : Change Microphone time start " << in2Time);
RIVER_INFO("in1Time < in2Time : Change Input-1 time start " << in2Time);
RIVER_INFO(" old time stamp=" << m_bufferInput1.getReadTimeStamp());
m_bufferInput1.setReadPosition(in2Time);
RIVER_INFO(" new time stamp=" << m_bufferInput1.getReadTimeStamp());
}
if (in1Time > in2Time) {
RIVER_INFO("in1Time > in2Time : Change FeedBack time start " << in1Time);
RIVER_INFO("in1Time > in2Time : Change Input-2 time start " << in1Time);
RIVER_INFO(" old time stamp=" << m_bufferInput2.getReadTimeStamp());
m_bufferInput2.setReadPosition(in1Time);
RIVER_INFO(" new time stamp=" << m_bufferInput2.getReadTimeStamp());
@@ -275,17 +276,17 @@ void audio::river::io::NodeMuxer::process() {
}
std::vector<uint8_t> dataIn1;
std::vector<uint8_t> dataIn2;
dataIn1.resize(256*sizeof(int16_t)*m_mapInput1.size(), 0);
dataIn2.resize(256*sizeof(int16_t)*m_mapInput2.size(), 0);
m_data.resize(256*sizeof(int16_t)*getInterfaceFormat().getMap().size(), 0);
dataIn1.resize(256*audio::getFormatBytes(getInterfaceFormat().getFormat())*m_mapInput1.size(), 0);
dataIn2.resize(256*audio::getFormatBytes(getInterfaceFormat().getFormat())*m_mapInput2.size(), 0);
m_data.resize(256*audio::getFormatBytes(getInterfaceFormat().getFormat())*getInterfaceFormat().getMap().size(), 0);
while (true) {
in1Time = m_bufferInput1.getReadTimeStamp();
in2Time = m_bufferInput2.getReadTimeStamp();
//RIVER_INFO(" process 256 samples ... in1Time=" << in1Time << " in2Time=" << in2Time << " delta = " << (in1Time-in2Time).count());
m_bufferInput1.read(&dataIn1[0], 256);
m_bufferInput2.read(&dataIn2[0], 256);
//RIVER_SAVE_FILE_MACRO(int16_t, "REC_INPUT1.raw", &dataIn1[0], 256 * m_mapInput1.size());
//RIVER_SAVE_FILE_MACRO(int16_t, "REC_INPUT2.raw", &dataIn2[0], 256 * m_mapInput2.size());
//RIVER_SAVE_FILE_MACRO(int16_t, "REC_muxer_output_1.raw", &dataIn1[0], 256 * m_mapInput1.size());
//RIVER_SAVE_FILE_MACRO(int16_t, "REC_muxer_output_2.raw", &dataIn2[0], 256 * m_mapInput2.size());
// if threaded : send event / otherwise, process ...
processMuxer(&dataIn1[0], &dataIn2[0], 256, in1Time);
if ( m_bufferInput1.getSize() <= 256
@@ -460,7 +461,7 @@ void audio::river::io::NodeMuxer::generateDot(etk::FSNode& _node) {
if (m_listAvaillable[iii].expired() == true) {
continue;
}
std11::shared_ptr<audio::river::Interface> element = m_listAvaillable[iii].lock();
ememory::SharedPtr<audio::river::Interface> element = m_listAvaillable[iii].lock();
if (element == nullptr) {
continue;
}

22
audio/river/io/NodeMuxer.h → audio/river/io/NodeMuxer.hpp
View File

@@ -3,13 +3,11 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#ifndef __AUDIO_RIVER_IO_NODE_MUXER_H__
#define __AUDIO_RIVER_IO_NODE_MUXER_H__
#include <audio/river/io/Node.h>
#include <audio/river/Interface.h>
#include <audio/drain/CircularBuffer.h>
#include <audio/river/io/Node.hpp>
#include <audio/river/Interface.hpp>
#include <audio/drain/CircularBuffer.hpp>
namespace audio {
namespace river {
@@ -20,9 +18,9 @@ namespace audio {
/**
* @brief Constructor
*/
NodeMuxer(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config);
NodeMuxer(const std::string& _name, const ejson::Object& _config);
public:
static std11::shared_ptr<NodeMuxer> create(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config);
static ememory::SharedPtr<NodeMuxer> create(const std::string& _name, const ejson::Object& _config);
/**
* @brief Destructor
*/
@@ -30,9 +28,9 @@ namespace audio {
protected:
virtual void start();
virtual void stop();
std11::shared_ptr<audio::river::Interface> m_interfaceInput1;
std11::shared_ptr<audio::river::Interface> m_interfaceInput2;
std11::shared_ptr<audio::river::Interface> createInput(float _freq,
ememory::SharedPtr<audio::river::Interface> m_interfaceInput1;
ememory::SharedPtr<audio::river::Interface> m_interfaceInput2;
ememory::SharedPtr<audio::river::Interface> createInput(float _freq,
const std::vector<audio::channel>& _map,
audio::format _format,
const std::string& _streamName,
@@ -66,5 +64,3 @@ namespace audio {
}
}
#endif

72
audio/river/io/NodeOrchestra.cpp
View File

@@ -6,18 +6,15 @@
#ifdef AUDIO_RIVER_BUILD_ORCHESTRA
#include <audio/river/io/NodeOrchestra.h>
#include <audio/river/debug.h>
#include <etk/memory.h>
#undef __class__
#define __class__ "io::NodeOrchestra"
#include <audio/river/io/NodeOrchestra.hpp>
#include <audio/river/debug.hpp>
#include <ememory/memory.hpp>
int32_t audio::river::io::NodeOrchestra::recordCallback(const void* _inputBuffer,
const audio::Time& _timeInput,
uint32_t _nbChunk,
const std::vector<audio::orchestra::status>& _status) {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
// TODO : Manage status ...
RIVER_VERBOSE("data Input size request :" << _nbChunk << " [BEGIN] status=" << _status << " nbIO=" << m_list.size());
newInput(_inputBuffer, _nbChunk, _timeInput);
@@ -28,20 +25,20 @@ int32_t audio::river::io::NodeOrchestra::playbackCallback(void* _outputBuffer,
const audio::Time& _timeOutput,
uint32_t _nbChunk,
const std::vector<audio::orchestra::status>& _status) {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
// TODO : Manage status ...
RIVER_VERBOSE("data Output size request :" << _nbChunk << " [BEGIN] status=" << _status << " nbIO=" << m_list.size());
RIVER_VERBOSE("data Output size request :" << _nbChunk << " [BEGIN] status=" << _status << " nbIO=" << m_list.size() << " data=" << uint64_t(_outputBuffer));
newOutput(_outputBuffer, _nbChunk, _timeOutput);
return 0;
}
std11::shared_ptr<audio::river::io::NodeOrchestra> audio::river::io::NodeOrchestra::create(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config) {
return std11::shared_ptr<audio::river::io::NodeOrchestra>(new audio::river::io::NodeOrchestra(_name, _config));
ememory::SharedPtr<audio::river::io::NodeOrchestra> audio::river::io::NodeOrchestra::create(const std::string& _name, const ejson::Object& _config) {
return ememory::SharedPtr<audio::river::io::NodeOrchestra>(new audio::river::io::NodeOrchestra(_name, _config));
}
audio::river::io::NodeOrchestra::NodeOrchestra(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config) :
audio::river::io::NodeOrchestra::NodeOrchestra(const std::string& _name, const ejson::Object& _config) :
Node(_name, _config) {
audio::drain::IOFormatInterface interfaceFormat = getInterfaceFormat();
audio::drain::IOFormatInterface hardwareFormat = getHarwareFormat();
@@ -52,25 +49,25 @@ audio::river::io::NodeOrchestra::NodeOrchestra(const std::string& _name, const s
},
nb-chunk:1024 # number of chunk to open device (create the latency anf the frequency to call user)
*/
std::string typeInterface = audio::orchestra::type_undefined;
std::string typeInterface = audio::orchestra::typeUndefined;
std::string streamName = "default";
const std11::shared_ptr<const ejson::Object> tmpObject = m_config->getObject("map-on");
if (tmpObject == nullptr) {
const ejson::Object tmpObject = m_config["map-on"].toObject();
if (tmpObject.exist() == false) {
RIVER_WARNING("missing node : 'map-on' ==> auto map : 'auto:default'");
} else {
typeInterface = tmpObject->getStringValue("interface", audio::orchestra::type_undefined);
typeInterface = tmpObject["interface"].toString().get(audio::orchestra::typeUndefined);
if (typeInterface == "auto") {
typeInterface = audio::orchestra::type_undefined;
typeInterface = audio::orchestra::typeUndefined;
}
streamName = tmpObject->getStringValue("name", "default");
streamName = tmpObject["name"].toString().get("default");
}
int32_t nbChunk = m_config->getNumberValue("nb-chunk", 1024);
int32_t nbChunk = m_config["nb-chunk"].toNumber().get(1024);
// intanciate specific API ...
m_interface.instanciate(typeInterface);
m_interface.setName(_name);
// TODO : Check return ...
std::string type = m_config->getStringValue("type", "int16");
std::string type = m_config["type"].toString().get("int16");
if (streamName == "") {
streamName = "default";
}
@@ -148,7 +145,8 @@ audio::river::io::NodeOrchestra::NodeOrchestra(const std::string& _name, const s
RIVER_CRITICAL("auto set format no element in the configuration: " << m_info.nativeFormats);
}
} else {
RIVER_CRITICAL("Can not manage input transforamtion: " << hardwareFormat.getFormat() << " not in " << m_info.nativeFormats);
RIVER_ERROR("Can not manage input transforamtion: " << hardwareFormat.getFormat() << " not in " << m_info.nativeFormats);
hardwareFormat.setFormat(hardwareFormat.getFormat());
}
}
if (etk::isIn(hardwareFormat.getFrequency(), m_info.sampleRates) == false) {
@@ -174,7 +172,7 @@ audio::river::io::NodeOrchestra::NodeOrchestra(const std::string& _name, const s
hardwareFormat.setFrequency(m_info.sampleRates[0]);
RIVER_INFO("auto set frequency: " << hardwareFormat.getFrequency() << "(first element in list) in " << m_info.sampleRates);
} else {
RIVER_CRITICAL("Can not manage input transforamtion:" << hardwareFormat.getFrequency() << " not in " << m_info.sampleRates);
RIVER_ERROR("Can not manage input transforamtion:" << hardwareFormat.getFrequency() << " not in " << m_info.sampleRates);
}
interfaceFormat.setFrequency(hardwareFormat.getFrequency());
}
@@ -186,10 +184,10 @@ audio::river::io::NodeOrchestra::NodeOrchestra(const std::string& _name, const s
params.deviceName = streamName;
params.nChannels = hardwareFormat.getMap().size();
if (m_info.channels.size() < params.nChannels) {
RIVER_CRITICAL("Can not open hardware device with more channel (" << params.nChannels << ") that is autorized by hardware (" << m_info.channels.size() << ").");
RIVER_ERROR("Can not open hardware device with more channel (" << params.nChannels << ") that is autorized by hardware (" << m_info.channels.size() << ").");
}
audio::orchestra::StreamOptions option;
etk::from_string(option.mode, tmpObject->getStringValue("timestamp-mode", "soft"));
etk::from_string(option.mode, tmpObject["timestamp-mode"].toString().get("soft"));
RIVER_DEBUG("interfaceFormat=" << interfaceFormat);
RIVER_DEBUG("hardwareFormat=" << hardwareFormat);
@@ -202,12 +200,12 @@ audio::river::io::NodeOrchestra::NodeOrchestra(const std::string& _name, const s
m_process.setOutputConfig(interfaceFormat);
err = m_interface.openStream(nullptr, &params,
hardwareFormat.getFormat(), hardwareFormat.getFrequency(), &m_rtaudioFrameSize,
std11::bind(&audio::river::io::NodeOrchestra::recordCallback,
std::bind(&audio::river::io::NodeOrchestra::recordCallback,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_5,
std11::placeholders::_6),
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_5,
std::placeholders::_6),
option
);
} else {
@@ -215,12 +213,12 @@ audio::river::io::NodeOrchestra::NodeOrchestra(const std::string& _name, const s
m_process.setOutputConfig(hardwareFormat);
err = m_interface.openStream(&params, nullptr,
hardwareFormat.getFormat(), hardwareFormat.getFrequency(), &m_rtaudioFrameSize,
std11::bind(&audio::river::io::NodeOrchestra::playbackCallback,
std::bind(&audio::river::io::NodeOrchestra::playbackCallback,
this,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6),
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6),
option
);
}
@@ -231,7 +229,7 @@ audio::river::io::NodeOrchestra::NodeOrchestra(const std::string& _name, const s
}
audio::river::io::NodeOrchestra::~NodeOrchestra() {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
RIVER_INFO("close input stream");
if (m_interface.isStreamOpen() ) {
m_interface.closeStream();
@@ -239,7 +237,7 @@ audio::river::io::NodeOrchestra::~NodeOrchestra() {
};
void audio::river::io::NodeOrchestra::start() {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
RIVER_INFO("Start stream : '" << m_name << "' mode=" << (m_isInput?"input":"output") );
enum audio::orchestra::error err = m_interface.startStream();
if (err != audio::orchestra::error_none) {
@@ -248,7 +246,7 @@ void audio::river::io::NodeOrchestra::start() {
}
void audio::river::io::NodeOrchestra::stop() {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
RIVER_INFO("Stop stream : '" << m_name << "' mode=" << (m_isInput?"input":"output") );
enum audio::orchestra::error err = m_interface.stopStream();
if (err != audio::orchestra::error_none) {

15
audio/river/io/NodeOrchestra.h → audio/river/io/NodeOrchestra.hpp
View File

@@ -3,14 +3,12 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifndef __AUDIO_RIVER_IO_NODE_AIRTAUDIO_H__
#define __AUDIO_RIVER_IO_NODE_AIRTAUDIO_H__
#pragma once
#ifdef AUDIO_RIVER_BUILD_ORCHESTRA
#include <audio/river/io/Node.h>
#include <audio/orchestra/Interface.h>
#include <audio/river/io/Node.hpp>
#include <audio/orchestra/Interface.hpp>
namespace audio {
namespace river {
@@ -26,9 +24,9 @@ namespace audio {
/**
* @brief Constructor
*/
NodeOrchestra(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config);
NodeOrchestra(const std::string& _name, const ejson::Object& _config);
public:
static std11::shared_ptr<NodeOrchestra> create(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config);
static ememory::SharedPtr<NodeOrchestra> create(const std::string& _name, const ejson::Object& _config);
/**
* @brief Destructor
*/
@@ -73,6 +71,3 @@ namespace audio {
}
}
#endif
#endif

37
audio/river/io/NodePortAudio.cpp
View File

@@ -6,14 +6,11 @@
#ifdef AUDIO_RIVER_BUILD_PORTAUDIO
#include <audio/river/io/NodePortAudio.h>
#include <audio/river/debug.h>
#include <etk/memory.h>
#include <audio/Time.h>
#include <audio/Duration.h>
#undef __class__
#define __class__ "io::NodePortAudio"
#include <audio/river/io/NodePortAudio.hpp>
#include <audio/river/debug.hpp>
#include <ememory/memory.hpp>
#include <audio/Time.hpp>
#include <audio/Duration.hpp>
static int portAudioStreamCallback(const void *_input,
void *_output,
@@ -42,7 +39,7 @@ int32_t audio::river::io::NodePortAudio::duplexCallback(const void* _inputBuffer
const audio::Time& _timeOutput,
uint32_t _nbChunk,
PaStreamCallbackFlags _status) {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
// TODO : Manage status ...
if (_inputBuffer != nullptr) {
RIVER_VERBOSE("data Input size request :" << _nbChunk << " [BEGIN] status=" << _status << " nbIO=" << m_list.size());
@@ -56,11 +53,11 @@ int32_t audio::river::io::NodePortAudio::duplexCallback(const void* _inputBuffer
}
std11::shared_ptr<audio::river::io::NodePortAudio> audio::river::io::NodePortAudio::create(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config) {
return std11::shared_ptr<audio::river::io::NodePortAudio>(new audio::river::io::NodePortAudio(_name, _config));
ememory::SharedPtr<audio::river::io::NodePortAudio> audio::river::io::NodePortAudio::create(const std::string& _name, const ejson::Object& _config) {
return ememory::SharedPtr<audio::river::io::NodePortAudio>(new audio::river::io::NodePortAudio(_name, _config));
}
audio::river::io::NodePortAudio::NodePortAudio(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config) :
audio::river::io::NodePortAudio::NodePortAudio(const std::string& _name, const ejson::Object& _config) :
Node(_name, _config) {
audio::drain::IOFormatInterface interfaceFormat = getInterfaceFormat();
audio::drain::IOFormatInterface hardwareFormat = getHarwareFormat();
@@ -72,14 +69,14 @@ audio::river::io::NodePortAudio::NodePortAudio(const std::string& _name, const s
nb-chunk:1024 # number of chunk to open device (create the latency anf the frequency to call user)
*/
std::string streamName = "default";
const std11::shared_ptr<const ejson::Object> tmpObject = m_config->getObject("map-on");
if (tmpObject == nullptr) {
const ejson::Object tmpObject = m_config["map-on"].toObject();
if (tmpObject.exist() == false) {
RIVER_WARNING("missing node : 'map-on' ==> auto map : 'auto:default'");
} else {
std::string value = tmpObject->getStringValue("interface", "default");
streamName = tmpObject->getStringValue("name", "default");
std::string value = tmpObject.getStringValue("interface", "default");
streamName = tmpObject.getStringValue("name", "default");
}
int32_t nbChunk = m_config->getNumberValue("nb-chunk", 1024);
int32_t nbChunk = m_config.getNumberValue("nb-chunk", 1024);
PaError err = 0;
if (m_isInput == true) {
@@ -108,7 +105,7 @@ audio::river::io::NodePortAudio::NodePortAudio(const std::string& _name, const s
}
audio::river::io::NodePortAudio::~NodePortAudio() {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
RIVER_INFO("close input stream");
PaError err = Pa_CloseStream( m_stream );
if( err != paNoError ) {
@@ -117,7 +114,7 @@ audio::river::io::NodePortAudio::~NodePortAudio() {
};
void audio::river::io::NodePortAudio::start() {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
RIVER_INFO("Start stream : '" << m_name << "' mode=" << (m_isInput?"input":"output") );
PaError err = Pa_StartStream(m_stream);
if( err != paNoError ) {
@@ -126,7 +123,7 @@ void audio::river::io::NodePortAudio::start() {
}
void audio::river::io::NodePortAudio::stop() {
std11::unique_lock<std11::mutex> lock(m_mutex);
std::unique_lock<std::mutex> lock(m_mutex);
RIVER_INFO("Stop stream : '" << m_name << "' mode=" << (m_isInput?"input":"output") );
PaError err = Pa_StopStream(m_stream);
if( err != paNoError ) {

18
audio/river/io/NodePortAudio.h → audio/river/io/NodePortAudio.hpp
View File

@@ -3,29 +3,27 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifndef __AUDIO_RIVER_IO_NODE_PORTAUDIO_H__
#define __AUDIO_RIVER_IO_NODE_PORTAUDIO_H__
#pragma once
#ifdef AUDIO_RIVER_BUILD_PORTAUDIO
#include <audio/river/Interface.h>
#include <audio/river/io/Node.h>
#include <portaudio.h>
#include <audio/river/Interface.hpp>
#include <audio/river/io/Node.hpp>
#include <portaudio/portaudio.hpp>
namespace audio {
namespace river {
namespace io {
class Manager;
//! @not-in-doc
//! @not_in_doc
class NodePortAudio : public Node {
protected:
/**
* @brief Constructor
*/
NodePortAudio(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config);
NodePortAudio(const std::string& _name, const ejson::Object& _config);
public:
static std11::shared_ptr<NodePortAudio> create(const std::string& _name, const std11::shared_ptr<const ejson::Object>& _config);
static ememory::SharedPtr<NodePortAudio> create(const std::string& _name, const ejson::Object& _config);
/**
* @brief Destructor
*/
@@ -51,5 +49,3 @@ namespace audio {
}
#endif
#endif

12
audio/river/river.cpp
View File

@@ -4,9 +4,9 @@
* @license APACHE v2.0 (see license file)
*/
#include <audio/river/river.h>
#include <audio/river/debug.h>
#include <audio/river/io/Manager.h>
#include <audio/river/river.hpp>
#include <audio/river/debug.hpp>
#include <audio/river/io/Manager.hpp>
static bool river_isInit = false;
static std::string river_configFile = "";
@@ -18,7 +18,7 @@ void audio::river::init(const std::string& _filename) {
river_isInit = true;
river_configFile = _filename;
RIVER_DEBUG("init RIVER :" << river_configFile);
std11::shared_ptr<audio::river::io::Manager> mng = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> mng = audio::river::io::Manager::getInstance();
if (mng != nullptr) {
mng->init(river_configFile);
}
@@ -32,7 +32,7 @@ void audio::river::initString(const std::string& _config) {
river_isInit = true;
river_configFile = _config;
RIVER_DEBUG("init RIVER with config.");
std11::shared_ptr<audio::river::io::Manager> mng = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> mng = audio::river::io::Manager::getInstance();
if (mng != nullptr) {
mng->initString(river_configFile);
}
@@ -45,7 +45,7 @@ void audio::river::unInit() {
if (river_isInit == true) {
river_isInit = false;
RIVER_DEBUG("un-init RIVER.");
std11::shared_ptr<audio::river::io::Manager> mng = audio::river::io::Manager::getInstance();
ememory::SharedPtr<audio::river::io::Manager> mng = audio::river::io::Manager::getInstance();
if (mng != nullptr) {
RIVER_ERROR("Can not get on the RIVER hardware manager !!!");
mng->unInit();

15
audio/river/river.h → audio/river/river.hpp
View File

@@ -3,13 +3,16 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#ifndef __AUDIO_RIVER_H__
#define __AUDIO_RIVER_H__
#include <etk/types.h>
#include <etk/types.hpp>
/**
* @brief Audio library namespace
*/
namespace audio {
/**
* @brief Audio-river library namespace
*/
namespace river {
/**
* @brief Initialize the River Library
@@ -36,5 +39,3 @@ namespace audio {
}
}
#endif

1
authors.txt Normal file
View File

@@ -0,0 +1 @@
MR Edouard DUPIN <yui.heero@gmail.com>

79
catkin/CMakeLists.txt
View File

@@ -1,79 +0,0 @@
cmake_minimum_required(VERSION 2.8.3)
project(audio_river)
set(CMAKE_VERBOSE_MAKEFILE ON)
## Find catkin macros and libraries
## if COMPONENTS list like find_package(catkin REQUIRED COMPONENTS xyz)
## is used, also find other catkin packages
find_package(catkin REQUIRED COMPONENTS
audio_drain
audio
audio_orchestra
ejson
)
###################################
## catkin specific configuration ##
###################################
## The catkin_package macro generates cmake config files for your package
## Declare things to be passed to dependent projects
## INCLUDE_DIRS: uncomment this if you package contains header files
## LIBRARIES: libraries you create in this project that dependent projects also need
## CATKIN_DEPENDS: catkin_packages dependent projects also need
## DEPENDS: system dependencies of this project that dependent projects also need
catkin_package(
INCLUDE_DIRS ../
LIBRARIES ${PROJECT_NAME}
CATKIN_DEPENDS audio_orchestra audio audio_drain ejson
DEPENDS system_lib
)
###########
## Build ##
###########
## Specify additional locations of header files
## Your package locations should be listed before other locations
include_directories(
..
${catkin_INCLUDE_DIRS}
)
## Declare a cpp library
add_library(${PROJECT_NAME}
../audio/river/debug.cpp
../audio/river/river.cpp
../audio/river/Manager.cpp
../audio/river/Interface.cpp
../audio/river/io/Group.cpp
../audio/river/io/Node.cpp
../audio/river/io/NodeOrchestra.cpp
../audio/river/io/NodePortAudio.cpp
../audio/river/io/NodeAEC.cpp
../audio/river/io/NodeMuxer.cpp
../audio/river/io/Manager.cpp
)
add_definitions(-DAUDIO_RIVER_BUILD_ORCHESTRA)
## Specify libraries to link a library or executable target against
target_link_libraries(${PROJECT_NAME}
${catkin_LIBRARIES}
)
#############
## Install ##
#############
## Mark executables and/or libraries for installation
install(TARGETS ${PROJECT_NAME}
ARCHIVE DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
LIBRARY DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
)
## Mark cpp header files for installation
install(DIRECTORY ../audio/river/
DESTINATION ${CATKIN_PACKAGE_INCLUDE_DESTINATION}
FILES_MATCHING PATTERN "*.h"
)

17
catkin/package.xml
View File

@@ -1,17 +0,0 @@
<?xml version="1.0"?>
<package>
<name>audio_river</name>
<version>0.3.0</version>
<description>Ewol River Intrerface : Is to multiple acces on different format on Audio IO</description>
<maintainer email="yui.heero@gmail.com">Edouard DUPIN</maintainer>
<license>Apache-2.0</license>
<build_depend>ejson</build_depend>
<build_depend>audio</build_depend>
<build_depend>audio_orchestra</build_depend>
<build_depend>audio_drain</build_depend>
<buildtool_depend>catkin</buildtool_depend>
<run_depend>ejson</run_depend>
<run_depend>audio</run_depend>
<run_depend>audio_orchestra</run_depend>
<run_depend>audio_drain</run_depend>
</package>

41
doc/001_bases.bb
View File

@@ -1,41 +0,0 @@
=?=RIVER: Bases =?=
__________________________________________________
[right][tutorial[000_Build | Next: Tutorals]][/right]
=== Overview:===
===User requires:===
To use ewol you need to know only C++ language. It could be usefull to know:
:** [b]Python[/b] for all build tool.
:** [b]git[/b] for all version management
:** [b]Audio[/b] Basic knowlege of audio streaming af data organisation.
=== Architecture:===
River has been designed to replace the pulseAudio basic asyncronous interface that create
more problem that it will solve. The second point is that is not enougth portable to be
embended in a proprietary software without distributing all the sources (Ios).
Start at this point we will have simple objectives :
:** manage multiple Low level interface: (done by the [lib[airtaudio | AirTAudio]] interface):
::** for linux
:::** Alsa
:::** Pulse
:::** Oss
::** for Mac-OsX
:::** CoreAudio
::** for IOs
:::** CoreAudio (embended version)
::** for Windows
:::** ASIO
::** For Android
:::** Java (JDK-6)
:** Synchronous interface ==> no delay and reduce latency
:** Manage the thread priority (need sometimes to be more reactive)
:** manage mixing of some flow (2 inputs stereo and the user want 1 input quad)
:** AEC Acoustic Echo Cancelation (TODO : in the current implementation we have a simple sound cutter)
:** Equalizer (done with [lib[drain | Drain])
:** Resmpling (done by the libspeexDSP)
:** Correct volume management (and configurable)
:** Fade-in and Fade-out (done with [lib[drain | Drain])
:** Channel reorganisation (done with [lib[drain | Drain])
:** A correct feedback interface

100
doc/build.md Normal file
View File

@@ -0,0 +1,100 @@
Build lib & build sample {#audio_river_build}
========================
@tableofcontents
Download: {#audio_river_build_download}
=========
ege use some tools to manage source and build it:
need google repo: {#audio_river_build_download_repo}
-----------------
see: http://source.android.com/source/downloading.html#installing-repo
On all platform:
```{.sh}
mkdir ~/.bin
PATH=~/.bin:$PATH
curl https://storage.googleapis.com/git-repo-downloads/repo > ~/.bin/repo
chmod a+x ~/.bin/repo
```
On ubuntu
```{.sh}
sudo apt-get install repo
```
On archlinux
```{.sh}
sudo pacman -S repo
```
lutin (build-system): {#audio_river_build_download_lutin}
---------------------
```{.sh}
pip install lutin --user
# optionnal dependency of lutin (manage image changing size for application release)
pip install pillow --user
```
dependency: {#audio_river_build_download_dependency}
-----------
```{.sh}
mkdir -p WORKING_DIRECTORY/framework
cd WORKING_DIRECTORY/framework
repo init -u git://github.com/atria-soft/manifest.git
repo sync -j8
cd ../..
```
sources: {#audio_river_build_download_sources}
--------
They are already download in the repo manifest in:
```{.sh}
cd WORKING_DIRECTORY/framework/musicdsp/audio-river
```
Build: {#audio_river_build_build}
======
you must stay in zour working directory...
```{.sh}
cd WORKING_DIRECTORY
```
library: {#audio_river_build_build_library}
--------
```{.sh}
lutin -mdebug audio-river
```
Sample: {#audio_river_build_build_sample}
-------
```{.sh}
lutin -mdebug audio-river-sample-read?run
lutin -mdebug audio-river-sample-write?run
```
A fast way:
```{.sh}
lutin -mdebug audio-river-*
```
Run sample: {#audio_river_build_run_sample}
===========
in distinct bash:
```{.sh}
lutin -mdebug audio-river-sample-read?run
lutin -mdebug audio-river-sample-write?run
```

77
doc/configFile.md Normal file
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@@ -0,0 +1,77 @@
River configuration file {#audio_river_config_file}
========================
@tableofcontents
Objectifs: {#audio_river_config_file_objectif}
==========
- Understand the architecture of the configuration file.
- all that can be done with it.
Basis: {#audio_river_config_file_bases}
======
The river configuration file is a json file. We use @ref ejson_mainpage_what to parse it then we have some writing facilities.
River provide a list a harware interface and virtual interface.
The hardware interface are provided by @ref audio_orchestra_mainpage_what then we will plug on every platform.
The file is simply architecture around a list of object:
```{.json}
{
"speaker":{
},
"microphone":{
},
"mixed-in-out":{
},
}
```
With this config we declare 3 interfaces : speaker, microphone and mixed-in-out.
Harware configuration: {#audio_river_config_file_hw_config}
======================
In every interface we need to define some Element:
- "io" : Can be input/output/... depending of virtual interface...
- "map-on": An object to configure airtaudio interface.
- "frequency": 0 to automatic select one. Or the frequency to open harware device
- "channel-map": List of all channel in the stream:
* "front-left"
* "front-center"
* "front-right"
* "rear-left"
* "rear-center"
* "rear-right"
* "surround-left",
* "surround-right",
* "sub-woofer",
* "lfe"
- "type": Fomat to open the stream:
* "auto": Detect the best type
* "int8",
* "int8-on-int16",
* "int16",
* "int16-on-int32",
* "int24",
* "int32",
* "int32-on-int64",
* "int64",
* "float",
* "double"
- "nb-chunk": Number of chunk to open the stream.

36
doc/faq.bb
View File

@@ -1,36 +0,0 @@
=?= FAQ =?=
== What is ewol licence ==
This is really simple : APACHE-2 :
Copyright ewol Edouard DUPIN
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
[[http://www.apache.org/licenses/LICENSE-2.0]]
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
== Why we use "DECLARE_FACTORY" Macro ? ==
For some reason!!! But everything might be clear:
:** In ewol we masively use std::shared_ptr<xxx> (I have create my own but it is not "standard" (I like when we use genecic system)).
:** The main class : [class[ewol::Object]] herited from [i]std::enable_shared_from_this<Object>[/i] to permit to access at his own [i]std::shared_ptr[/i].
:** Acces At his own [i]std::shared_ptr[/i] is not allowed in the class contructor/destructor.
:** Many time for meta-widget we need to propagate our [i]std::shared_ptr[/i] in child.
Then for all these reasons, I have create a simple MACRO that create a static template funtion that create the object and just after
creation call the init(...) function to permit to create a complex widget or others with some writing convinience.

23
doc/tutorial/003_FeadBack.bb → doc/feedback.md
View File

@@ -1,25 +1,30 @@
Read stream feedback {#audio_river_feedback}
====================
=== Objectif ===
:** Implement a feedback.
@tableofcontents
=== Bases: ===
Objectifs: {#audio_river_feedback_objectif}
==========
- Implement a feedback.
Bases: {#audio_river_feedback_base}
======
A feedback is a stream that is generated by an output.
To get a feedback this is the same implementation of an input and link it on an output.
What change :
What change:
[code style=c++]
```{.cpp}
//Get the generic feedback on speaker:
interface = manager->createFeedback(48000,
std::vector<audio::channel>(),
audio::format_int16,
"speaker");
[/code]
```
[note]
Input interface does not provide feedback.
[/note]
**Note:** Input interface does not provide feedback.

69
doc/index.bb
View File

@@ -1,69 +0,0 @@
== [center]RIVER library[/center] ==
__________________________________________________
===What is RIVER, and how can I use it?===
RIVER is a multi-platform library to manage the input and output audio flow.
It can be compared with PulseAudio or Jack, but at the difference at the 2 interfaces
it is designed to be multi-platform and is based on licence that permit to integrate it
on every program we want.
===Where can I use it?===
Everywhere! RIVER is cross-platform devolopped to support bases OS:
: ** Linux (over Alsa, Pulseaudio, JackD)
: ** Windows (over ASIO)
: ** MacOs (over CoreAudio)
: ** Android (Over Ewol wrapper little complicated need to be change later)
: ** IOs (over CoreAudio for ios)
===What languages are supported?===
RIVER is written in C++11 with posibilities to compile it with C++03 + Boost
===Are there any licensing restrictions?===
RIVER is [b]FREE software[/b] and [i]all sub-library are FREE and staticly linkable !!![/i]
That allow you to use it for every program you want, including those developing proprietary software, without any license fees or royalties.
[note]The static support is important for some platform like IOs, and this limit the external library use at some license like :
:** BSD*
:** MIT
:** APPACHE-2
:** PNG
:** ZLIB
This exclude the classical extern library with licence:
:** L-GPL
:** GPL
[/note]
==== License (APACHE 2) ====
Copyright ewol Edouard DUPIN
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
[[http://www.apache.org/licenses/LICENSE-2.0]]
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
==== Depends library: ====
===== License: =====
:** [b][lib[etk | e-tk]][/b] : APACHE-2
:** [b][lib[airtaudio | airtaudio]][/b] : MIT/APACHE-2
:** [b][lib[ejson | e-json]][/b] : APACHE-2
:** [b][lib[drain | Drain]][/b] : APACHE-2
===== Program Using RIVER =====
:** [b][[http://play.google.com/store/apps/details?id=com.edouarddupin.worddown | worddown]][/b] : (Proprietary) Worddown is a simple word game threw [lib[ewolsa | ewol-simple-audio]].
== Main documentation: ==
[doc[001_bases | Global Documantation]]
[tutorial[000_Build | Tutorials]]

92
doc/mainpage.md Normal file
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@@ -0,0 +1,92 @@
AUDIO-RIVER library {#mainpage}
===================
@tableofcontents
What is AUDIO-RIVER: {#audio_river_mainpage_what}
====================
AUDIO-RIVER, is a multi-platform library to manage the input and output audio flow.
It can be compared with PulseAudio or Jack, but at the difference at the 2 interfaces
it is designed to be multi-platform and is based on licence that permit to integrate it
on every program we want.
What it does: {#audio_river_mainpage_what_it_does}
=============
Everywhere! RIVER is cross-platform devolopped to support bases OS:
: ** Linux (over Alsa, Pulseaudio, JackD)
: ** Windows (over ASIO)
: ** MacOs (over CoreAudio)
: ** Android (Over Ewol wrapper little complicated need to be change later)
: ** IOs (over CoreAudio for ios)
AUDIO-RIVER is dependent of the STL (compatible with MacOs stl (CXX))
Architecture:
-------------
River has been designed to replace the pulseAudio basic asyncronous interface that create
more problem that it will solve. The second point is that is not enougth portable to be
embended in a proprietary software without distributing all the sources (Ios).
Start at this point we will have simple objectives :
- Manage multiple Low level interface: @ref audio_orchestra_mainpage_what
* for linux (Alsa, Pulse, Oss)
* for Mac-OsX (CoreAudio)
* for IOs (coreAudio (embended version))
* for Windows (ASIO)
* For Android (Java (JDK...))
- Synchronous interface ==> no delay and reduce latency
- Manage the thread priority (need sometimes to be more reactive)
- manage mixing of some flow (2 inputs stereo and the user want 1 input quad)
- AEC Acoustic Echo Cancelation (TODO : in the current implementation we have a simple sound cutter)
- Equalizer (done with @ref audio_drain_mainpage_what)
- Resmpling (done by the libspeexDSP)
- Correct volume management (and configurable)
- Fade-in and Fade-out @ref audio_drain_mainpage_what
- Channel reorganisation @ref audio_drain_mainpage_what
- A correct feedback interface
What languages are supported? {#audio_river_mainpage_language}
=============================
AUDIO-RIVER is written in C++.
Are there any licensing restrictions? {#audio_river_mainpage_license_restriction}
=====================================
AUDIO-RIVER is **FREE software** and _all sub-library are FREE and staticly linkable !!!_
License (APACHE-2.0) {#audio_river_mainpage_license}
====================
Copyright AUDIO-RIVER Edouard DUPIN
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
<http://www.apache.org/licenses/LICENSE-2.0>
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
Other pages {#audio_river_mainpage_sub_page}
===========
- @ref audio_river_build
- @ref audio_river_read
- @ref audio_river_write
- @ref audio_river_feedback
- @ref audio_river_config_file
- [**ewol coding style**](http://atria-soft.github.io/ewol/ewol_coding_style.html)

115
doc/read.md Normal file
View File

@@ -0,0 +1,115 @@
Read stream form Audio input {#audio_river_read}
============================
@tableofcontents
Objectifs: {#audio_river_read_objectif}
==========
- Understand basis of river
- Create a simple recording interface that print the average of sample absolute value.
When you will create an application based on the river audio interface you need :
Include: {#audio_river_read_include}
========
Include manager and interface node
@snippet read.cpp audio_river_sample_include
Initilize the River library: {#audio_river_read_init}
============================
We first need to initialize etk sub library (needed to select the log level of sub-libraries and file access abstraction
@snippet read.cpp audio_river_sample_init
Now we will initilaize the river library.
To do this We have 2 posibilities:
With a file:
------------
```{.cpp}
// initialize river interface
river::init("DATA:configFileName.json");
```
With a json string:
-------------------
@snippet read.cpp audio_river_sample_read_config_file
```{.cpp}
// initialize river interface
river::initString(configurationRiver);
```
For the example we select the second solution (faster to implement example and resource at the same position.
river::init / river::initString must be called only one time for all the application, this represent the hardware configuration.
It is NOT dynamic
To understand the configuration file Please see @ref audio_river_config_file
This json is parsed by the @ref {#ejson_mainpage_what} it contain some update like:
- Optionnal " in the name of element.
- The possibilities to remplace " with '.
Get the river interface manager: {#audio_river_read_river_interface}
================================
An application can have many interface and only one Manager. And a process can contain many application.
Then, we will get the first application manager handle.
@snippet read.cpp audio_river_sample_get_interface
*Note:* You can get back the application handle when you create a new one with the same name.
Create your read interface: {#audio_river_read_river_read_interface}
===========================
Generic code:
@snippet read.cpp audio_river_sample_create_read_interface
Here we create an interface with:
- The frequency of 48000 Hz.
- The default Low level definition channel
- A data interface of 16 bits samples coded in [-32768..32767]
- Select input interaface name "microphone"
set data callback: {#audio_river_read_get_data}
==================
The best way to get data is to instanciate a simple callback.
The callback is called when sample arrive and you have the nbChunk/frequency
to process the data, otherwise you can generate error in data stream.
@snippet read.cpp audio_river_sample_set_callback
Callback inplementation: {#audio_river_read_callback}
========================
Simply declare your function and do what you want inside.
@snippet read.cpp audio_river_sample_callback_implement
start and stop the stream: {#audio_river_read_start_stop}
==========================
@snippet read.cpp audio_river_sample_read_start_stop
Remove interfaces: {#audio_river_read_reset}
==================
@snippet read.cpp audio_river_sample_read_reset
Full Sample: {#audio_river_read_full_sample}
============
@snippet read.cpp audio_river_sample_read_all

57
doc/tutorial/000_Build.bb
View File

@@ -1,57 +0,0 @@
=?=River extract and build examples an example=?=
All developpement software will start by getting the dependency and the sources.
=== Linux dependency packages ===
[code style=shell]
sudo apt-get install g++ zlib1g-dev libasound2-dev
# if you want to compile with clang :
sudo apt-get install clang
[/code]
=== Download instructions ===
Download the software : This is the simple way You really need only a part of the ewol framework
[code style=shell]
# create a working directory path
mkdir your_workspace_path
cd your_workspace_path
# clone ewol and all sub-library
git clone git://github.com/HeeroYui/ewol.git
cd ewol
git submodule init
git submodule update
cd ..
[/code]
If you prefer creating with the packege you needed :
[code style=shell]
mkdir -p your_workspace_path
cd your_workspace_path
# download all you needs
git clone git://github.com/HeeroYui/lutin.git
git clone git://github.com/HeeroYui/etk.git
git clone git://github.com/HeeroYui/audio.git
git clone git://github.com/HeeroYui/ejson.git
git clone git://github.com/HeeroYui/airtaudio.git
git clone git://github.com/HeeroYui/drain.git
git clone git://github.com/HeeroYui/river.git
[/code]
[note]
The full build tool documentation is availlable here : [[http://heeroyui.github.io/lutin/ | lutin]]
[/note]
=== Common build instructions ===
Build the basic examples & test:
[code style=shell]
./ewol/build/lutin.py -mdebug river_sample_read
[/code]
To run an application you will find it directly on the out 'staging' tree :
[code style=shell]
./out/Linux/debug/staging/clang/river_sample_read/usr/bin/river_sample_read -l4
[/code]

158
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@@ -1,158 +0,0 @@
=== Objectif ===
:** Understand basis of river
:** Create a simple recording interface that print the average of sample absolute value.
=== sample source: ===
[[http://github.com/HeeroYui/river.git/sample/read/ | sample source]]
=== Bases: ===
When you will create an application based on the river audio interface you need :
==== Include: ====
Include manager and interface node
[code style=c++]
#include <river/river.h>
#include <river/Manager.h>
#include <river/Interface.h>
[/code]
==== Initilize the River library: ====
We first need to initialize etk sub library (needed to select the log level of sub-libraries and file access abstraction
[code style=c++]
// the only one init for etk:
etk::init(_argc, _argv);
[/code]
Now we will initilaize the river library.
To do this We have 2 posibilities:
:** With a file:
[code style=c++]
// initialize river interface
river::init("DATA:configFileName.json");
[/code]
:** With a json string:
[code style=c++]
static const std::string configurationRiver =
"{\n"
" microphone:{\n"
" io:'input',\n"
" map-on:{\n"
" interface:'auto',\n"
" name:'default',\n"
" },\n"
" frequency:0,\n"
" channel-map:['front-left', 'front-right'],\n"
" type:'auto',\n"
" nb-chunk:1024\n"
" }\n"
"}\n";
// initialize river interface
river::initString(configurationRiver);
[/code]
For the example we select the second solution (faster to implement example and resource at the same position.
river::init / river::initString must be called only one time for all the application, this represent the hardware configuration.
It is Nearly not dynamic
To understand the configuration file Please see [tutorial[004_ConfigurationFile | Configuration file]]
[note]
This json is parsed by the [lib[ejson | e-json library]] it containe some update like:
:** Optionnal " in the name of element.
:** The possibilities to remplace " with '.
[/note]
==== Get the river interface manager: ====
An application can have many interface and only one Manager, And a process can contain many application.
Then, we will get the first application manager handle.
[code style=c++]
// Create the River manager for tha application or part of the application.
std11::shared_ptr<river::Manager> manager = river::Manager::create("river_sample_read");
[/code]
[note]
You can get back the application handle when you create a new one with the same name.
[/note]
==== Create your read interface: ====
[code style=c++]
// create interface:
std11::shared_ptr<river::Interface> interface;
//Get the generic input:
interface = manager->createInput(48000,
std::vector<audio::channel>(),
audio::format_int16,
"microphone");
[/code]
Here we create an interface with:
:** The frequency of 48000 Hz.
:** The default Low level definition channel
:** A data interface of 16 bits samples coded in [-32768..32767]
:** Select input interaface name "microphone"
==== Get datas: ====
The best way to get data is to instanciate a simple callback.
The callback is called when sample arrive and you have the nbChunk/frequency
to process the data, otherwise you can generate error in data stream.
[code style=c++]
// set callback mode ...
interface->setInputCallback(std11::bind(&onDataReceived,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
[/code]
==== Callback inplementation: ====
Simply declare your function and do what you want inside.
[code style=c++]
void onDataReceived(const void* _data,
const std11::chrono::system_clock::time_point& _time,
size_t _nbChunk,
enum audio::format _format,
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
if (_format == audio::format_int16) {
// stuff here
}
}
[/code]
==== start and stop: ====
[code style=c++]
// start the stream
interface->start();
// wait 10 second ...
sleep(10);
// stop the stream
interface->stop();
[/code]
==== Remove interfaces: ====
[code style=c++]
// remove interface and manager.
interface.reset();
manager.reset();
[/code]

84
doc/tutorial/002_Write.bb
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@@ -1,84 +0,0 @@
=== Objectif ===
:** Understand write audio stream
=== sample source: ===
[[http://github.com/HeeroYui/river.git/sample/write/ | sample source]]
=== Bases: ===
The writing work nearly like the read turoral. Then we will just see what has change.
==== File configuration: ====
[code style=c++]
static const std::string configurationRiver =
"{\n"
" speaker:{\n"
" io:'output',\n"
" map-on:{\n"
" interface:'auto',\n"
" name:'default',\n"
" },\n"
" frequency:0,\n"
" channel-map:['front-left', 'front-right'],\n"
" type:'auto',\n"
" nb-chunk:1024,\n"
" volume-name:'MASTER'\n"
" }\n"
"}\n";
[/code]
==== Create your write interface: ====
[code style=c++]
// create interface:
std11::shared_ptr<river::Interface> interface;
//Get the generic input:
interface = manager->createOutput(48000,
std::vector<audio::channel>(),
audio::format_int16,
"speaker");
[/code]
Here we create an interface with:
:** The frequency of 48000 Hz.
:** The default Low level definition channel
:** A data interface of 16 bits samples coded in [-32768..32767]
:** Select input interaface name "speaker"
==== write datas: ====
The best way to get data is to instanciate a simple callback.
The callback is called when sample are needed and you have the nbChunk/frequency
to generate the data, otherwise you can generate error in data stream.
[code style=c++]
// set callback mode ...
interface->setOutputCallback(std11::bind(&onDataNeeded,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
[/code]
==== Callback inplementation: ====
Simply declare your function and do what you want inside.
[code style=c++]
void onDataNeeded(void* _data,
const std11::chrono::system_clock::time_point& _time,
size_t _nbChunk,
enum audio::format _format,
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
if (_format == audio::format_int16) {
// stuff here
}
}
[/code]

70
doc/tutorial/004_ConfigurationFile.bb
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@@ -1,70 +0,0 @@
=== Objectif ===
:** Understand the architecture of the configuration file.
:** all that can be done with it.
=== Basis: ===
The river configuration file is a json file. We use [lib[ejson | e-json library]] to parse it then we have some writing facilities.
River provide a list a harware interface and virtual interface.
The hardware interface are provided by [lib[airtaudio | AirTAudio library]] then we will plug on every platform.
The file is simply architecture around a list of object:
[code style=json]
{
"speaker":{
},
"microphone":{
},
"mixed-in-out":{
},
}
[/code]
With this config we declare 3 interfaces : speaker, microphone and mixed-in-out.
=== Harware configuration: ===
In every interface we need to define some Element:
:** "io" :
:: Can be input/output/... depending of virtual interface...
:** "map-on": An object to configure airtaudio interface.
:** "frequency": 0 to automatic select one. Or the frequency to open harware device
:** "channel-map": List of all channel in the stream:
::** "front-left"
::** "front-center"
::** "front-right"
::** "rear-left"
::** "rear-center"
::** "rear-right"
::** "surround-left",
::** "surround-right",
::** "sub-woofer",
::** "lfe"
:** "type": Fomat to open the stream:
::** "auto": Detect the best type
::** "int8",
::** "int8-on-int16",
::** "int16",
::** "int16-on-int32",
::** "int24",
::** "int32",
::** "int32-on-int64",
::** "int64",
::** "float",
::** "double"
:** "nb-chunk": Number of chunk to open the stream.

53
doc/write.md Normal file
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@@ -0,0 +1,53 @@
Write stream to Audio output {#audio_river_write}
============================
@tableofcontents
Objectifs: {#audio_river_write_objectif}
==========
- Understand write audio stream
The writing work nearly like the read turoral. Then we will just see what has change.
File configuration: {#audio_river_write_config}
===================
@snippet write.cpp audio_river_sample_write_config_file
Create your write interface: {#audio_river_write_interface}
============================
Generic code:
@snippet write.cpp audio_river_sample_create_write_interface
Here we create an interface with:
- The frequency of 48000 Hz.
- The default Low level definition channel
- A data interface of 16 bits samples coded in [-32768..32767]
- Select input interaface name "speaker"
set data callback: {#audio_river_write_get_data}
==================
The best way to get data is to instanciate a simple callback.
The callback is called when sample are needed and you have the nbChunk/frequency
to generate the data, otherwise you can generate error in data stream.
@snippet write.cpp audio_river_sample_set_callback
Callback inplementation: {#audio_river_write_callback}
========================
Simply declare your function and do what you want inside.
@snippet write.cpp audio_river_sample_callback_implement
Full Sample: {#audio_river_write_full_sample}
============
@snippet write.cpp audio_river_sample_write_all

37
doxy_audio-river.py Normal file
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@@ -0,0 +1,37 @@
#!/usr/bin/python
import os
import doxy.module as module
import doxy.debug as debug
import doxy.tools as tools
def create(target, module_name):
my_module = module.Module(__file__, module_name)
my_module.set_version("version.txt")
my_module.set_title("audio-river: Multi-nodal audio interface")
my_module.set_website("http://musicdsp.github.io/" + module_name)
my_module.set_website_sources("http://github.com/musicdsp/" + module_name)
my_module.add_path([
"audio",
"doc"
])
my_module.add_sample_path([
"sample",
])
my_module.add_depend([
'audio',
'audio-drain',
'audio-orchestra',
'ejson'
])
my_module.add_exclude_symbols([
'*operator<<*',
])
my_module.add_exclude_file([
'debug.h',
])
my_module.add_file_patterns([
'*.h',
'*.md',
])
return my_module

0
lutinParseSubFolders.txt Normal file
View File

37
lutin_audio-river-test.py
View File

@@ -1,18 +1,39 @@
#!/usr/bin/python
import lutin.module as module
import lutin.debug as debug
import lutin.tools as tools
def get_type():
return "BINARY"
def get_sub_type():
return "TEST"
def get_desc():
return "Multi-nodal audio interface test"
def get_licence():
return "APACHE-2"
def create(target):
myModule = module.Module(__file__, 'audio-river-test', 'BINARY')
myModule.add_src_file([
'test/main.cpp',
'test/debug.cpp'
def get_compagny_type():
return "com"
def get_compagny_name():
return "atria-soft"
def get_maintainer():
return "authors.txt"
def configure(target, my_module):
my_module.add_src_file([
'test/main.cpp'
])
myModule.add_module_depend(['audio-river', 'gtest', 'etk'])
return myModule
my_module.add_depend([
'audio-river',
'gtest',
'etk',
'test-debug'
])
return True

48
lutin_audio-river.py
View File

@@ -1,15 +1,31 @@
#!/usr/bin/python
import lutin.module as module
import lutin.debug as debug
import lutin.tools as tools
def get_type():
return "LIBRARY"
def get_desc():
return "Multi-nodal audio interface"
def get_licence():
return "APACHE-2"
def create(target):
myModule = module.Module(__file__, 'audio-river', 'LIBRARY')
def get_compagny_type():
return "com"
myModule.add_src_file([
def get_compagny_name():
return "atria-soft"
def get_maintainer():
return "authors.txt"
def get_version():
return "version.txt"
def configure(target, my_module):
my_module.add_src_file([
'audio/river/debug.cpp',
'audio/river/river.cpp',
'audio/river/Manager.cpp',
@@ -22,13 +38,23 @@ def create(target):
'audio/river/io/NodeMuxer.cpp',
'audio/river/io/Manager.cpp'
])
myModule.add_optionnal_module_depend('audio-orchestra', ["c++", "-DAUDIO_RIVER_BUILD_ORCHESTRA"])
myModule.add_optionnal_module_depend('portaudio', ["c++", "-DAUDIO_RIVER_BUILD_PORTAUDIO"])
myModule.add_module_depend(['audio', 'audio-drain', 'ejson'])
myModule.add_export_path(tools.get_current_path(__file__))
# add the currrent module at the
return myModule
my_module.add_header_file([
'audio/river/river.hpp',
'audio/river/Manager.hpp',
'audio/river/Interface.hpp',
'audio/river/io/Group.hpp',
'audio/river/io/Node.hpp',
'audio/river/io/Manager.hpp'
])
my_module.add_optionnal_depend('audio-orchestra', ["c++", "-DAUDIO_RIVER_BUILD_ORCHESTRA"])
my_module.add_optionnal_depend('portaudio', ["c++", "-DAUDIO_RIVER_BUILD_PORTAUDIO"])
my_module.add_depend([
'audio',
'audio-drain',
'ejson'
])
my_module.add_path(".")
return True

19
monk_river.py
View File

@@ -1,19 +0,0 @@
#!/usr/bin/python
import monkModule as module
import monkTools as tools
def get_desc():
return "river : Multiple flow input output audio"
def create():
# module name is 'edn' and type binary.
myModule = module.Module(__file__, 'river', 'LIBRARY')
# enable doculentation :
myModule.set_website("http://heeroyui.github.io/river/")
myModule.set_website_sources("http://github.com/heeroyui/river/")
myModule.set_path(tools.get_current_path(__file__) + "/river/")
myModule.set_path_general_doc(tools.get_current_path(__file__) + "/doc/")
# add the currrent module at the
return myModule

64
sample/ioViewer/appl/Windows.cpp Normal file
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@@ -0,0 +1,64 @@
/** @file
* @author Edouard DUPIN
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#include <ewol/ewol.hpp>
#include <appl/debug.hpp>
#include <appl/Windows.hpp>
#include <ewol/widget/Label.hpp>
#include <ewol/widget/Button.hpp>
#include <audio/river/widget/TemporalViewer.hpp>
#include <etk/tool.hpp>
appl::Windows::Windows() :
m_composer(nullptr) {
addObjectType("appl::Windows");
propertyTitle.setDirectCheck("River IO viewer");
}
void appl::Windows::init() {
ewol::widget::Windows::init();
std::string composition = std::string("");
composition += "<sizer mode='vert'>\n";
composition += " <sizer mode='hori' lock='true' min-size='10,10%'>\n";
composition += " <button name='bt-record' expend='true' fill='true'>\n";
composition += " <label>\n";
composition += " Start/Stop record\n";
composition += " </label>\n";
composition += " </button>\n";
composition += " <button name='bt-generate' expend='true' fill='true'>\n";
composition += " <label>\n";
composition += " Start/Stop Generate\n";
composition += " </label>\n";
composition += " </button>\n";
composition += " </sizer>\n";
composition += " <TemporalViewer name='displayer' expand='true' fill='true'/>\n";
composition += "</sizer>\n";
m_composer = ewol::widget::Composer::create();
if (m_composer == nullptr) {
APPL_CRITICAL(" An error occured ... in the windows creatrion ...");
return;
}
m_composer->loadFromString(composition);
setSubWidget(m_composer);
subBind(ewol::widget::Button, "bt-record", signalPressed, sharedFromThis(), &appl::Windows::onCallbackRecord);
subBind(ewol::widget::Button, "bt-generate", signalPressed, sharedFromThis(), &appl::Windows::onCallbackGenerate);
}
void appl::Windows::onCallbackRecord() {
ememory::SharedPtr<audio::river::widget::TemporalViewer> tmpDisp = ememory::dynamicPointerCast<audio::river::widget::TemporalViewer>(getSubObjectNamed("displayer"));
if (tmpDisp != nullptr) {
tmpDisp->recordToggle();
}
}
void appl::Windows::onCallbackGenerate() {
ememory::SharedPtr<audio::river::widget::TemporalViewer> tmpDisp = ememory::dynamicPointerCast<audio::river::widget::TemporalViewer>(getSubObjectNamed("displayer"));
if (tmpDisp != nullptr) {
tmpDisp->generateToggle();
}
}

25
sample/ioViewer/appl/Windows.hpp Normal file
View File

@@ -0,0 +1,25 @@
/** @file
* @author Edouard DUPIN
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#include <ewol/widget/Windows.hpp>
#include <ewol/widget/Composer.hpp>
namespace appl {
class Windows : public ewol::widget::Windows {
private:
ememory::SharedPtr<ewol::widget::Composer> m_composer;
protected:
Windows();
void init();
public:
DECLARE_FACTORY(Windows);
public: // callback functions
void onCallbackRecord();
void onCallbackGenerate();
};
}

13
sample/ioViewer/appl/debug.cpp Normal file
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@@ -0,0 +1,13 @@
/** @file
* @author Edouard DUPIN
* @copyright 2011, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#include <appl/debug.hpp>
int32_t appl::getLogId() {
static int32_t g_val = elog::registerInstance("ioViewer");
return g_val;
}

20
test/debug.h → sample/ioViewer/appl/debug.hpp
View File

@@ -1,20 +1,17 @@
/**
/** @file
* @author Edouard DUPIN
*
* @copyright 2010, Edouard DUPIN, all right reserved
*
* @license GPL v3 (see license file)
* @copyright 2011, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#ifndef __APPL_DEBUG_H__
#define __APPL_DEBUG_H__
#include <etk/log.h>
#include <elog/log.hpp>
namespace appl {
int32_t getLogId();
};
#define APPL_BASE(info,data) TK_LOG_BASE(appl::getLogId(),info,data)
}
#define APPL_BASE(info,data) ELOG_BASE(appl::getLogId(),info,data)
#define APPL_PRINT(data) APPL_BASE(-1, data)
#define APPL_CRITICAL(data) APPL_BASE(1, data)
@@ -40,4 +37,3 @@ namespace appl {
} \
} while (0)
#endif

71
sample/ioViewer/appl/main.cpp Normal file
View File

@@ -0,0 +1,71 @@
/** @file
* @author Edouard DUPIN
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#include <etk/types.hpp>
#include <ewol/ewol.hpp>
#include <gale/context/commandLine.hpp>
#include <appl/debug.hpp>
#include <appl/Windows.hpp>
#include <ewol/object/Object.hpp>
#include <ewol/widget/Manager.hpp>
#include <ewol/context/Context.hpp>
#include <audio/river/widget/TemporalViewer.hpp>
static const std::string configurationRiver =
"{\n"
" microphone:{\n"
" io:'input',\n"
" map-on:{\n"
" interface:'auto',\n"
" name:'default',\n"
" },\n"
" frequency:0,\n"
" channel-map:['front-left', 'front-right'],\n"
" type:'auto',\n"
" nb-chunk:1024\n"
" }\n"
"}\n";
class MainApplication : public ewol::context::Application {
public:
bool init(ewol::Context& _context, size_t _initId) {
APPL_INFO("==> Init APPL (START) [" << ewol::getBoardType() << "] (" << ewol::getCompilationMode() << ")");
audio::river::initString(configurationRiver);
_context.setSize(vec2(800, 600));
// select internal data for font ...
_context.getFontDefault().setUseExternal(true);
_context.getFontDefault().setSize(19);
audio::river::widget::TemporalViewer::createManagerWidget(_context.getWidgetManager());
ememory::SharedPtr<ewol::widget::Windows> basicWindows = appl::Windows::create();
// create the specific windows
_context.setWindows(basicWindows);
APPL_INFO("==> Init APPL (END)");
return true;
}
void unInit(ewol::Context& _context) {
APPL_INFO("==> Un-Init APPL (START)");
// nothing to do...
APPL_INFO("==> Un-Init APPL (END)");
}
};
/**
* @brief Main of the program (This can be set in every case, but it is not used in Andoid...).
* @param std IO
* @return std IO
*/
int main(int _argc, const char *_argv[]) {
// second possibility
return ewol::run(new MainApplication(), _argc, _argv);
}

39
sample/ioViewer/lutin_ioViewer.py Normal file
View File

@@ -0,0 +1,39 @@
#!/usr/bin/python
import lutin.debug as debug
import lutin.tools as tools
import os
def get_type():
return "BINARY"
def get_desc():
return "Simpleaudio IO viewer and test ..."
def get_licence():
return "APACHE-2"
def get_compagny_type():
return "com"
def get_compagny_name():
return "atria-soft"
def get_maintainer():
return ["Mr DUPIN Edouard <yui.heero@gmail.com>"]
def configure(target, my_module):
my_module.add_extra_flags()
my_module.add_src_file([
'appl/debug.cpp',
'appl/main.cpp',
'appl/Windows.cpp'])
my_module.add_depend(['ewol', 'audio-river', 'audio-river-widget'])
my_module.add_path(".")
# set the package properties :
my_module.set_pkg("SECTION", ["Development"])
my_module.set_pkg("PRIORITY", "optional")
my_module.add_pkg("RIGHT", "RECORD_AUDIO")
return True

34
sample/read/lutin_river-sample-read.py
View File

@@ -1,18 +1,38 @@
#!/usr/bin/python
import lutin.module as module
import lutin.debug as debug
import lutin.tools as tools
def get_type():
return "BINARY"
def get_sub_type():
return "SAMPLE"
def get_desc():
return "Read some data"
def get_licence():
return "APACHE-2"
def create(target):
myModule = module.Module(__file__, 'river-sample-read', 'BINARY')
myModule.add_src_file([
'main.cpp',
def get_compagny_type():
return "com"
def get_compagny_name():
return "atria-soft"
def get_maintainer():
return ["Mr DUPIN Edouard <yui.heero@gmail.com>"]
def configure(target, my_module):
my_module.add_src_file([
'read.cpp',
])
myModule.add_module_depend(['audio-river', 'etk'])
return myModule
my_module.add_depend([
'audio-river',
'etk'
])
return True

74
sample/read/main.cpp → sample/read/read.cpp
View File

@@ -4,14 +4,19 @@
* @license APACHE v2.0 (see license file)
*/
#include <audio/river/river.h>
#include <audio/river/Manager.h>
#include <audio/river/Interface.h>
#include <etk/os/FSNode.h>
#include <etk/etk.h>
#include <unistd.h>
//! [audio_river_sample_read_all]
//! [audio_river_sample_include]
#include <audio/river/river.hpp>
#include <audio/river/Manager.hpp>
#include <audio/river/Interface.hpp>
//! [audio_river_sample_include]
#include <etk/os/FSNode.hpp>
#include <etk/etk.hpp>
#include <thread>
//! [audio_river_sample_read_config_file]
static const std::string configurationRiver =
"{\n"
" microphone:{\n"
@@ -19,6 +24,7 @@ static const std::string configurationRiver =
" map-on:{\n"
" interface:'auto',\n"
" name:'default',\n"
//" timestamp-mode:'trigered',\n"
" },\n"
" frequency:0,\n"
" channel-map:['front-left', 'front-right'],\n"
@@ -26,8 +32,10 @@ static const std::string configurationRiver =
" nb-chunk:1024\n"
" }\n"
"}\n";
//! [audio_river_sample_read_config_file]
//! [audio_river_sample_callback_implement]
void onDataReceived(const void* _data,
const audio::Time& _time,
size_t _nbChunk,
@@ -35,10 +43,14 @@ void onDataReceived(const void* _data,
uint32_t _frequency,
const std::vector<audio::channel>& _map,
etk::FSNode* _outputNode) {
if (_format != audio::format_int16) {
std::cout << "[ERROR] call wrong type ... (need int16_t)" << std::endl;
if ( _format != audio::format_int16
&& _format != audio::format_float) {
std::cout << "[ERROR] call wrong type ... (need int16_t.float)" << std::endl;
return;
}
//! [audio_river_sample_callback_implement]
if (_outputNode->fileIsOpen() == false) {
if (_format != audio::format_int16) {
// get the curent power of the signal.
const int16_t* data = static_cast<const int16_t*>(_data);
int64_t value = 0;
@@ -47,16 +59,28 @@ void onDataReceived(const void* _data,
}
value /= (_nbChunk*_map.size());
std::cout << "Get data ... average=" << int32_t(value) << std::endl;
} else {
// get the curent power of the signal.
const float* data = static_cast<const float*>(_data);
float value = 0;
for (size_t iii=0; iii<_nbChunk*_map.size(); ++iii) {
value += std::abs(data[iii]);
}
value /= (_nbChunk*_map.size());
std::cout << "Get data ... average=" << float(value) << std::endl;
}
} else {
// just write data
std::cout << "Get data ... chunks=" << _nbChunk << " time=" << _time << std::endl;
//std::cout << "Get data ... chunks=" << _nbChunk << " time=" << _time << std::endl;
_outputNode->fileWrite(_data, _map.size()*audio::getFormatBytes(_format), _nbChunk);
}
}
int main(int _argc, const char **_argv) {
//! [audio_river_sample_init]
// the only one init for etk:
etk::init(_argc, _argv);
//! [audio_river_sample_init]
// local parameter:
std::string configFile;
std::string ioName="microphone";
@@ -87,10 +111,13 @@ int main(int _argc, const char **_argv) {
} else {
audio::river::init(configFile);
}
//! [audio_river_sample_get_interface]
// Create the River manager for tha application or part of the application.
std11::shared_ptr<audio::river::Manager> manager = audio::river::Manager::create("river_sample_read");
ememory::SharedPtr<audio::river::Manager> manager = audio::river::Manager::create("river_sample_read");
//! [audio_river_sample_get_interface]
//! [audio_river_sample_create_read_interface]
// create interface:
std11::shared_ptr<audio::river::Interface> interface;
ememory::SharedPtr<audio::river::Interface> interface;
//Get the generic input:
interface = manager->createInput(48000,
std::vector<audio::channel>(),
@@ -100,30 +127,37 @@ int main(int _argc, const char **_argv) {
std::cout << "nullptr interface" << std::endl;
return -1;
}
//! [audio_river_sample_create_read_interface]
etk::FSNode outputNode;
// open output file if needed:
if (outputFileName != "") {
outputNode.setName(outputFileName);
outputNode.fileOpenWrite();
}
//! [audio_river_sample_set_callback]
// set callback mode ...
interface->setInputCallback(std11::bind(&onDataReceived,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6,
interface->setInputCallback(std::bind(&onDataReceived,
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6,
&outputNode));
//! [audio_river_sample_set_callback]
//! [audio_river_sample_read_start_stop]
// start the stream
interface->start();
// wait 10 second ...
sleep(10);
std::this_thread::sleep_for(std::chrono::seconds(10));
// stop the stream
interface->stop();
//! [audio_river_sample_read_start_stop]
//! [audio_river_sample_read_reset]
// remove interface and manager.
interface.reset();
manager.reset();
//! [audio_river_sample_read_reset]
// close the output file
if (outputFileName != "") {
outputNode.fileClose();
@@ -131,3 +165,5 @@ int main(int _argc, const char **_argv) {
return 0;
}
//! [audio_river_sample_read_all]

34
sample/write/lutin_river-sample-write.py
View File

@@ -1,18 +1,38 @@
#!/usr/bin/python
import lutin.module as module
import lutin.debug as debug
import lutin.tools as tools
def get_type():
return "BINARY"
def get_sub_type():
return "SAMPLE"
def get_desc():
return "Write some data"
def get_licence():
return "APACHE-2"
def create(target):
myModule = module.Module(__file__, 'river-sample-write', 'BINARY')
myModule.add_src_file([
'main.cpp',
def get_compagny_type():
return "com"
def get_compagny_name():
return "atria-soft"
def get_maintainer():
return ["Mr DUPIN Edouard <yui.heero@gmail.com>"]
def configure(target, my_module):
my_module.add_src_file([
'write.cpp',
])
myModule.add_module_depend(['audio-river', 'etk'])
return myModule
my_module.add_depend([
'audio-river',
'etk'
])
return True

67
sample/write/main.cpp → sample/write/write.cpp
View File

@@ -4,51 +4,62 @@
* @license APACHE v2.0 (see license file)
*/
#include <audio/river/river.h>
#include <audio/river/Manager.h>
#include <audio/river/Interface.h>
#include <etk/etk.h>
#include <unistd.h>
//! [audio_river_sample_write_all]
#include <audio/river/river.hpp>
#include <audio/river/Manager.hpp>
#include <audio/river/Interface.hpp>
#include <etk/etk.hpp>
#include <thread>
//! [audio_river_sample_write_config_file]
static const std::string configurationRiver =
"{\n"
" speaker:{\n"
" io:'output',\n"
" map-on:{\n"
" interface:'auto',\n"
" name:'default',\n"
" interface:'alsa',\n"
" name:'hw:0,0',\n"
" },\n"
" frequency:0,\n"
" frequency:48000,\n"
//" channel-map:['front-left', 'front-right', 'rear-left', 'rear-right'],\n"
" channel-map:['front-left', 'front-right'],\n"
" type:'auto',\n"
" type:'int16',\n"
" nb-chunk:1024,\n"
" volume-name:'MASTER'\n"
" }\n"
"}\n";
//! [audio_river_sample_write_config_file]
static const int32_t nbChannelMax=8;
//! [audio_river_sample_callback_implement]
void onDataNeeded(void* _data,
const audio::Time& _time,
size_t _nbChunk,
enum audio::format _format,
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
static double phase = 0;
static double phase[8] = {0,0,0,0,0,0,0,0};
if (_format != audio::format_int16) {
std::cout << "[ERROR] call wrong type ... (need int16_t)" << std::endl;
}
//std::cout << "Map " << _map << std::endl;
int16_t* data = static_cast<int16_t*>(_data);
double baseCycle = 2.0*M_PI/(double)48000 * (double)550;
double baseCycle = 2.0*M_PI/double(48000) * double(440);
for (int32_t iii=0; iii<_nbChunk; iii++) {
for (int32_t jjj=0; jjj<_map.size(); jjj++) {
data[_map.size()*iii+jjj] = cos(phase) * 30000;
data[_map.size()*iii+jjj] = cos(phase[jjj]) * 30000;
phase[jjj] += baseCycle*jjj;
if (phase[jjj] >= 2*M_PI) {
phase[jjj] -= 2*M_PI;
}
phase += baseCycle;
if (phase >= 2*M_PI) {
phase -= 2*M_PI;
}
}
}
//! [audio_river_sample_callback_implement]
int main(int _argc, const char **_argv) {
// the only one init for etk:
@@ -65,9 +76,10 @@ int main(int _argc, const char **_argv) {
// initialize river interface
audio::river::initString(configurationRiver);
// Create the River manager for tha application or part of the application.
std11::shared_ptr<audio::river::Manager> manager = audio::river::Manager::create("river_sample_read");
ememory::SharedPtr<audio::river::Manager> manager = audio::river::Manager::create("river_sample_read");
//! [audio_river_sample_create_write_interface]
// create interface:
std11::shared_ptr<audio::river::Interface> interface;
ememory::SharedPtr<audio::river::Interface> interface;
//Get the generic input:
interface = manager->createOutput(48000,
std::vector<audio::channel>(),
@@ -77,18 +89,21 @@ int main(int _argc, const char **_argv) {
std::cout << "nullptr interface" << std::endl;
return -1;
}
//! [audio_river_sample_create_write_interface]
//! [audio_river_sample_set_callback]
// set callback mode ...
interface->setOutputCallback(std11::bind(&onDataNeeded,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
interface->setOutputCallback(std::bind(&onDataNeeded,
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
//! [audio_river_sample_set_callback]
// start the stream
interface->start();
// wait 10 second ...
sleep(10);
std::this_thread::sleep_for(std::chrono::seconds(10));
// stop the stream
interface->stop();
// remove interface and manager.
@@ -97,3 +112,5 @@ int main(int _argc, const char **_argv) {
return 0;
}
//! [audio_river_sample_write_all]

55
test/catkin/CMakeLists.txt
View File

@@ -1,55 +0,0 @@
cmake_minimum_required(VERSION 2.8.3)
project(audio_river_test)
set(CMAKE_VERBOSE_MAKEFILE ON)
## Find catkin macros and libraries
## if COMPONENTS list like find_package(catkin REQUIRED COMPONENTS xyz)
## is used, also find other catkin packages
find_package(catkin REQUIRED COMPONENTS
audio_river
rosconsole
)
###################################
## catkin specific configuration ##
###################################
## The catkin_package macro generates cmake config files for your package
## Declare things to be passed to dependent projects
## INCLUDE_DIRS: uncomment this if you package contains header files
## LIBRARIES: libraries you create in this project that dependent projects also need
## CATKIN_DEPENDS: catkin_packages dependent projects also need
## DEPENDS: system dependencies of this project that dependent projects also need
catkin_package()
###########
## Build ##
###########
## Specify additional locations of header files
## Your package locations should be listed before other locations
include_directories(
..
${catkin_INCLUDE_DIRS}
)
## Declare a cpp library
catkin_add_gtest(${PROJECT_NAME}
../debug.cpp
../main.cpp
)
## Specify libraries to link a library or executable target against
target_link_libraries(${PROJECT_NAME}
${catkin_LIBRARIES}
)
#############
## Install ##
#############
## Mark executables and/or libraries for installation
#install(TARGETS ${PROJECT_NAME}
# RUNTIME DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION}
#)

13
test/catkin/package.xml
View File

@@ -1,13 +0,0 @@
<?xml version="1.0"?>
<package>
<name>audio_river_test</name>
<version>0.3.0</version>
<description>Ewol River test</description>
<maintainer email="yui.heero@gmail.com">Edouard DUPIN</maintainer>
<license>Apache-2.0</license>
<build_depend>gtest</build_depend>
<build_depend>audio_river</build_depend>
<buildtool_depend>catkin</buildtool_depend>
<run_depend>audio_river</run_depend>
<run_depend>gtest</run_depend>
</package>

15
test/debug.cpp
View File

@@ -1,15 +0,0 @@
/**
* @author Edouard DUPIN
*
* @copyright 2010, Edouard DUPIN, all right reserved
*
* @license GPL v3 (see license file)
*/
#include "debug.h"
int32_t appl::getLogId() {
static int32_t g_val = etk::log::registerInstance("test");
return g_val;
}

64
test/main.cpp
View File

@@ -4,30 +4,48 @@
* @license APACHE v2.0 (see license file)
*/
#include "debug.h"
#include <audio/river/river.h>
#include <audio/river/Manager.h>
#include <audio/river/Interface.h>
#include <test-debug/debug.hpp>
#define TEST_SAVE_FILE_MACRO(type,fileName,dataPointer,nbElement) \
do { \
static FILE *pointerOnFile = nullptr; \
static bool errorOpen = false; \
if (pointerOnFile == nullptr) { \
TEST_WARNING("open file '" << fileName << "' type=" << #type); \
pointerOnFile = fopen(fileName,"w"); \
if ( errorOpen == false \
&& pointerOnFile == nullptr) { \
TEST_ERROR("ERROR OPEN file ... '" << fileName << "' type=" << #type); \
errorOpen=true; \
} \
} \
if (pointerOnFile != nullptr) { \
fwrite((dataPointer), sizeof(type), (nbElement), pointerOnFile); \
/* fflush(pointerOnFile);*/ \
} \
}while(0)
#include <audio/river/river.hpp>
#include <audio/river/Manager.hpp>
#include <audio/river/Interface.hpp>
#include <gtest/gtest.h>
#include <etk/etk.h>
#include <etk/os/FSNode.h>
#include <math.h>
#include <etk/etk.hpp>
#include <etk/os/FSNode.hpp>
#include <cmath>
#include <sstream>
#include <unistd.h>
#include <etk/thread.h>
#include "testAEC.h"
#include "testEchoDelay.h"
#include "testFormat.h"
#include "testMuxer.h"
#include "testPlaybackCallback.h"
#include "testPlaybackWrite.h"
#include "testRecordCallback.h"
#include "testRecordRead.h"
#include "testVolume.h"
#undef __class__
#define __class__ "test"
#include <thread>
#include "testAEC.hpp"
#include "testEchoDelay.hpp"
#include "testFormat.hpp"
#include "testMuxer.hpp"
#include "testPlaybackCallback.hpp"
#include "testPlaybackWrite.hpp"
#include "testRecordCallback.hpp"
#include "testRecordRead.hpp"
#include "testVolume.hpp"
int main(int _argc, const char** _argv) {
// init Google test :
@@ -38,8 +56,8 @@ int main(int _argc, const char** _argv) {
std::string data = _argv[iii];
if ( data == "-h"
|| data == "--help") {
APPL_PRINT("Help : ");
APPL_PRINT(" ./xxx ---");
TEST_PRINT("Help : ");
TEST_PRINT(" ./xxx ---");
exit(0);
}
}

72
test/testAEC.h → test/testAEC.hpp
View File

@@ -3,23 +3,20 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#ifndef __RIVER_TEST_AEC_H__
#define __RIVER_TEST_AEC_H__
#undef __class__
#define __class__ "test_aec"
#include <test-debug/debug.hpp>
namespace river_test_aec {
class Linker {
private:
std11::shared_ptr<audio::river::Manager> m_manager;
std11::shared_ptr<audio::river::Interface> m_interfaceOut;
std11::shared_ptr<audio::river::Interface> m_interfaceIn;
ememory::SharedPtr<audio::river::Manager> m_manager;
ememory::SharedPtr<audio::river::Interface> m_interfaceOut;
ememory::SharedPtr<audio::river::Interface> m_interfaceIn;
audio::drain::CircularBuffer m_buffer;
public:
Linker(std11::shared_ptr<audio::river::Manager> _manager, const std::string& _input, const std::string& _output) :
Linker(ememory::SharedPtr<audio::river::Manager> _manager, const std::string& _input, const std::string& _output) :
m_manager(_manager) {
//Set stereo output:
std::vector<audio::channel> channelMap;
@@ -29,25 +26,25 @@ namespace river_test_aec {
channelMap.push_back(audio::channel_frontLeft);
channelMap.push_back(audio::channel_frontRight);
}
m_buffer.setCapacity(std11::chrono::milliseconds(2000), sizeof(int16_t)*channelMap.size(), 48000);
m_buffer.setCapacity(std::chrono::milliseconds(2000), sizeof(int16_t)*channelMap.size(), 48000);
m_interfaceOut = m_manager->createOutput(48000,
channelMap,
audio::format_int16,
_output);
if(m_interfaceOut == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
// set callback mode ...
m_interfaceOut->setOutputCallback(std11::bind(&Linker::onDataNeeded,
m_interfaceOut->setOutputCallback(std::bind(&Linker::onDataNeeded,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
m_interfaceOut->addVolumeGroup("FLOW");
if ("speaker" == _output) {
m_interfaceOut->setParameter("volume", "FLOW", "0dB");
@@ -58,18 +55,18 @@ namespace river_test_aec {
audio::format_int16,
_input);
if(m_interfaceIn == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
// set callback mode ...
m_interfaceIn->setInputCallback(std11::bind(&Linker::onDataReceived,
m_interfaceIn->setInputCallback(std::bind(&Linker::onDataReceived,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
}
void onDataNeeded(void* _data,
@@ -79,7 +76,7 @@ namespace river_test_aec {
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
if (_format != audio::format_int16) {
APPL_ERROR("call wrong type ... (need int16_t)");
TEST_ERROR("call wrong type ... (need int16_t)");
}
m_buffer.read(_data, _nbChunk);
}
@@ -90,17 +87,17 @@ namespace river_test_aec {
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
if (_format != audio::format_int16) {
APPL_ERROR("call wrong type ... (need int16_t)");
TEST_ERROR("call wrong type ... (need int16_t)");
}
m_buffer.write(_data, _nbChunk);
}
void start() {
if(m_interfaceIn == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
if(m_interfaceOut == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
m_interfaceOut->start();
@@ -108,11 +105,11 @@ namespace river_test_aec {
}
void stop() {
if(m_interfaceIn == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
if(m_interfaceOut == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
m_manager->generateDotAll("activeProcess.dot");
@@ -200,13 +197,13 @@ namespace river_test_aec {
TEST(TestUser, testAECManually) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
std11::shared_ptr<Linker> processLink1 = std11::make_shared<Linker>(manager, "microphone-clean", "speaker");
std11::shared_ptr<Linker> processLink2 = std11::make_shared<Linker>(manager, "microphone", "speaker-test");
ememory::SharedPtr<Linker> processLink1 = ememory::makeShared<Linker>(manager, "microphone-clean", "speaker");
ememory::SharedPtr<Linker> processLink2 = ememory::makeShared<Linker>(manager, "microphone", "speaker-test");
processLink1->start();
processLink2->start();
sleep(30);
std::this_thread::sleep_for(std::chrono::seconds(20));
processLink1->stop();
processLink2->stop();
@@ -217,7 +214,4 @@ namespace river_test_aec {
}
};
#undef __class__
#define __class__ nullptr
#endif

144
test/testEchoDelay.h → test/testEchoDelay.hpp
View File

@@ -3,26 +3,21 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#ifndef __RIVER_TEST_ECHO_DELAY_H__
#define __RIVER_TEST_ECHO_DELAY_H__
#include <audio/river/debug.h>
#undef __class__
#define __class__ "test_echo_delay"
#include <test-debug/debug.hpp>
namespace river_test_echo_delay {
class TestClass {
private:
std11::shared_ptr<audio::river::Manager> m_manager;
std11::shared_ptr<audio::river::Interface> m_interfaceOut;
std11::shared_ptr<audio::river::Interface> m_interfaceIn;
std11::shared_ptr<audio::river::Interface> m_interfaceFB;
ememory::SharedPtr<audio::river::Manager> m_manager;
ememory::SharedPtr<audio::river::Interface> m_interfaceOut;
ememory::SharedPtr<audio::river::Interface> m_interfaceIn;
ememory::SharedPtr<audio::river::Interface> m_interfaceFB;
double m_phase;
double m_freq;
int32_t m_nextSampleCount;
std11::chrono::milliseconds m_delayBetweenEvent;
std::chrono::milliseconds m_delayBetweenEvent;
audio::Time m_nextTick;
audio::Time m_currentTick;
int32_t m_stateFB;
@@ -33,7 +28,7 @@ namespace river_test_echo_delay {
int16_t m_volumeInputMin;
float m_gain;
public:
TestClass(std11::shared_ptr<audio::river::Manager> _manager) :
TestClass(ememory::SharedPtr<audio::river::Manager> _manager) :
m_manager(_manager),
m_phase(0),
m_freq(400),
@@ -50,18 +45,18 @@ namespace river_test_echo_delay {
audio::format_int16,
"speaker");
if(m_interfaceOut == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
// set callback mode ...
m_interfaceOut->setOutputCallback(std11::bind(&TestClass::onDataNeeded,
m_interfaceOut->setOutputCallback(std::bind(&TestClass::onDataNeeded,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
m_interfaceOut->addVolumeGroup("FLOW");
m_interfaceOut->setParameter("volume", "FLOW", etk::to_string(m_gain) + "dB");
@@ -70,36 +65,36 @@ namespace river_test_echo_delay {
audio::format_int16,
"microphone");
if(m_interfaceIn == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
// set callback mode ...
m_interfaceIn->setInputCallback(std11::bind(&TestClass::onDataReceived,
m_interfaceIn->setInputCallback(std::bind(&TestClass::onDataReceived,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
m_interfaceFB = m_manager->createFeedback(48000,
channelMap,
audio::format_int16,
"speaker");
if(m_interfaceFB == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
// set callback mode ...
m_interfaceFB->setInputCallback(std11::bind(&TestClass::onDataReceivedFeedBack,
m_interfaceFB->setInputCallback(std::bind(&TestClass::onDataReceivedFeedBack,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
m_manager->generateDotAll("activeProcess.dot");
}
@@ -135,7 +130,7 @@ namespace river_test_echo_delay {
m_nextSampleCount = m_delayBetweenEvent.count()*int64_t(_frequency)/1000;
m_phase = -1;
}
//APPL_INFO("sample : " << m_nextSampleCount);
//TEST_INFO("sample : " << m_nextSampleCount);
for (int32_t iii=0; iii<_nbChunk; iii++) {
if (m_nextSampleCount > 0) {
m_nextSampleCount--;
@@ -157,7 +152,7 @@ namespace river_test_echo_delay {
// start detection ...
m_stateFB = 0;
m_stateMic = 0;
APPL_WARNING("Time Pulse zero crossing: " << m_currentTick << " id=" << iii);
TEST_WARNING("Time Pulse zero crossing: " << m_currentTick << " id=" << iii);
}
m_phase = newPhase;
if (m_phase >= 2*M_PI) {
@@ -182,7 +177,7 @@ namespace river_test_echo_delay {
return _time + audio::Duration(0, int64_t(_pos+1)*1000000000LL/int64_t(_frequency));
}
double xxx = double(-_val1) / double(_val2 - _val1);
APPL_VERBOSE("deltaPos:" << xxx);
TEST_VERBOSE("deltaPos:" << xxx);
return _time + audio::Duration(0, int64_t((double(_pos)+xxx)*1000000000.0)/int64_t(_frequency));
}
@@ -193,9 +188,9 @@ namespace river_test_echo_delay {
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
if (_format != audio::format_int16) {
APPL_ERROR("call wrong type ... (need int16_t)");
TEST_ERROR("call wrong type ... (need int16_t)");
}
RIVER_SAVE_FILE_MACRO(int16_t, "REC_FeedBack.raw", _data, _nbChunk*_map.size());
TEST_SAVE_FILE_MACRO(int16_t, "REC_FeedBack.raw", _data, _nbChunk*_map.size());
if (m_estimateVolumeInput == true) {
// nothing to do ...
} else {
@@ -207,10 +202,10 @@ namespace river_test_echo_delay {
if (m_stateFB == 0) {
if (data[iii*_map.size() + jjj] > INT16_MAX/5) {
m_stateFB = 1;
APPL_VERBOSE("FB: detect Normal " << iii);
TEST_VERBOSE("FB: detect Normal " << iii);
} else if (data[iii*_map.size() + jjj] < -INT16_MAX/5) {
m_stateFB = 2;
APPL_VERBOSE("FB: detect inverse " << iii);
TEST_VERBOSE("FB: detect inverse " << iii);
}
} else if (m_stateFB == 1) {
// normale phase
@@ -218,10 +213,10 @@ namespace river_test_echo_delay {
// detect inversion of signe ...
m_stateFB = 3;
audio::Time time = getInterpolateTime(_time, iii-1, data[(iii-1)*_map.size() + jjj], data[iii*_map.size() + jjj], _frequency);
APPL_VERBOSE("FB: 1 position -1: " << iii-1 << " " << data[(iii-1)*_map.size() + jjj]);
APPL_VERBOSE("FB: 1 position 0: " << iii << " " << data[iii*_map.size() + jjj]);
TEST_VERBOSE("FB: 1 position -1: " << iii-1 << " " << data[(iii-1)*_map.size() + jjj]);
TEST_VERBOSE("FB: 1 position 0: " << iii << " " << data[iii*_map.size() + jjj]);
APPL_WARNING("FB: 1 time detected: " << time << " delay = " << float((time-m_currentTick).count())/1000.0f << "µs");
TEST_WARNING("FB: 1 time detected: " << time << " delay = " << float((time-m_currentTick).count())/1000.0f << "µs");
}
} else if (m_stateFB == 2) {
// inverse phase
@@ -229,9 +224,9 @@ namespace river_test_echo_delay {
// detect inversion of signe ...
m_stateFB = 3;
audio::Time time = getInterpolateTime(_time, iii-1, data[(iii-1)*_map.size() + jjj], data[iii*_map.size() + jjj], _frequency);
APPL_VERBOSE("FB: 2 position -1: " << iii-1 << " " << data[(iii-1)*_map.size() + jjj]);
APPL_VERBOSE("FB: 2 position 0: " << iii << " " << data[iii*_map.size() + jjj]);
APPL_WARNING("FB: 2 time detected: " << time << " delay = " << float((time-m_currentTick).count())/1000.0f << "µs");
TEST_VERBOSE("FB: 2 position -1: " << iii-1 << " " << data[(iii-1)*_map.size() + jjj]);
TEST_VERBOSE("FB: 2 position 0: " << iii << " " << data[iii*_map.size() + jjj]);
TEST_WARNING("FB: 2 time detected: " << time << " delay = " << float((time-m_currentTick).count())/1000.0f << "µs");
}
} else if (m_stateFB == 3) {
// TODO : Detect the pic ...
@@ -248,16 +243,16 @@ namespace river_test_echo_delay {
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
if (_format != audio::format_int16) {
APPL_ERROR("call wrong type ... (need int16_t)");
TEST_ERROR("call wrong type ... (need int16_t)");
}
RIVER_SAVE_FILE_MACRO(int16_t, "REC_Microphone.raw", _data, _nbChunk*_map.size());
TEST_SAVE_FILE_MACRO(int16_t, "REC_Microphone.raw", _data, _nbChunk*_map.size());
const int16_t* data = static_cast<const int16_t*>(_data);
if (m_estimateVolumeInput == true) {
m_stateMic ++;
const int16_t* data = static_cast<const int16_t*>(_data);
if (m_stateMic <= 40) {
for (size_t iii=0; iii<_nbChunk*_map.size(); ++iii) {
//APPL_INFO("value=" << data[iii]);
//TEST_INFO("value=" << data[iii]);
m_volumeInputMax = std::max(int16_t(data[iii]), m_volumeInputMax);
m_volumeInputMin = std::min(int16_t(data[iii]), m_volumeInputMin);
}
@@ -269,7 +264,7 @@ namespace river_test_echo_delay {
int16_t valueMax = 0;
int16_t valueMin = 0;
for (size_t iii=0; iii<_nbChunk*_map.size(); ++iii) {
//APPL_INFO("value=" << data[iii]);
//TEST_INFO("value=" << data[iii]);
valueMax = std::max(int16_t(data[iii]), valueMax);
valueMin = std::min(int16_t(data[iii]), valueMin);
}
@@ -284,7 +279,7 @@ namespace river_test_echo_delay {
m_gain += 3.0f;
m_gain = std::min(m_gain, 0.0f);
m_interfaceOut->setParameter("volume", "FLOW", etk::to_string(m_gain) + "dB");
APPL_INFO("Set detection volume : " << m_gain << " m_stateMic=" << m_stateMic);
TEST_INFO("Set detection volume : " << m_gain << " m_stateMic=" << m_stateMic);
m_stateMic = 3;
m_phase = -1;
m_estimateVolumeInput = false;
@@ -292,7 +287,7 @@ namespace river_test_echo_delay {
} else {
if (m_stateMic%2 == 0) {
if (m_gain == 0.0f) {
APPL_CRITICAL("Can not find the basicVolume ...");
TEST_CRITICAL("Can not find the basicVolume ...");
}
// just update volume
m_gain += 1.0f;
@@ -309,10 +304,10 @@ namespace river_test_echo_delay {
if (m_stateMic == 0) {
if (data[iii*_map.size() + jjj] > m_volumeInputMax) {
m_stateMic = 1;
APPL_VERBOSE("Mic: detect Normal " << iii);
TEST_VERBOSE("Mic: detect Normal " << iii);
} else if (data[iii*_map.size() + jjj] < m_volumeInputMin) {
m_stateMic = 2;
APPL_VERBOSE("Mic: detect inverse " << iii);
TEST_VERBOSE("Mic: detect inverse " << iii);
}
} else if (m_stateMic == 1) {
// normale phase
@@ -320,11 +315,11 @@ namespace river_test_echo_delay {
// detect inversion of signe ...
m_stateMic = 3;
audio::Time time = getInterpolateTime(_time, iii-1, data[(iii-1)*_map.size() + jjj], data[iii*_map.size() + jjj], _frequency);
APPL_VERBOSE("MIC: 1 position -1: " << iii-1 << " " << data[(iii-1)*_map.size() + jjj]);
APPL_VERBOSE("MIC: 1 position 0: " << iii << " " << data[iii*_map.size() + jjj]);
TEST_VERBOSE("MIC: 1 position -1: " << iii-1 << " " << data[(iii-1)*_map.size() + jjj]);
TEST_VERBOSE("MIC: 1 position 0: " << iii << " " << data[iii*_map.size() + jjj]);
audio::Duration delay = time-m_currentTick;
int32_t sampleDalay = (delay.count()*_frequency)/1000000000LL;
APPL_WARNING("MIC: 1 time detected: " << time << " delay = " << float(delay.count())/1000.0f << "µs samples=" << sampleDalay);
TEST_WARNING("MIC: 1 time detected: " << time << " delay = " << float(delay.count())/1000.0f << "µs samples=" << sampleDalay);
m_delayListMic.push_back(delay.count());
}
} else if (m_stateMic == 2) {
@@ -333,11 +328,11 @@ namespace river_test_echo_delay {
// detect inversion of signe ...
m_stateMic = 3;
audio::Time time = getInterpolateTime(_time, iii-1, data[(iii-1)*_map.size() + jjj], data[iii*_map.size() + jjj], _frequency);
APPL_VERBOSE("MIC: 2 position -1: " << iii-1 << " " << data[(iii-1)*_map.size() + jjj]);
APPL_VERBOSE("MIC: 2 position 0: " << iii << " " << data[iii*_map.size() + jjj]);
TEST_VERBOSE("MIC: 2 position -1: " << iii-1 << " " << data[(iii-1)*_map.size() + jjj]);
TEST_VERBOSE("MIC: 2 position 0: " << iii << " " << data[iii*_map.size() + jjj]);
audio::Duration delay = time-m_currentTick;
int32_t sampleDalay = (delay.count()*_frequency)/1000000000LL;
APPL_WARNING("MIC: 2 time detected: " << time << " delay = " << float(delay.count())/1000.0f << "µs samples=" << sampleDalay);
TEST_WARNING("MIC: 2 time detected: " << time << " delay = " << float(delay.count())/1000.0f << "µs samples=" << sampleDalay);
m_delayListMic.push_back(delay.count());
}
} else if (m_stateMic == 3) {
@@ -350,24 +345,24 @@ namespace river_test_echo_delay {
}
void run() {
if(m_interfaceIn == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
if(m_interfaceOut == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
if(m_interfaceFB == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
m_interfaceOut->start();
m_interfaceIn->start();
//m_interfaceFB->start();
while (m_estimateVolumeInput == true) {
usleep(10000);
std::this_thread::sleep_for(std::chrono::milliseconds(10));
}
usleep(10000000);
std::this_thread::sleep_for(std::chrono::seconds(10));
//m_interfaceFB->stop();
m_interfaceIn->stop();
m_interfaceOut->stop();
@@ -380,7 +375,7 @@ namespace river_test_echo_delay {
delayAverage /= m_delayListMic.size();
}
int32_t sampleDalay = (delayAverage*48000)/1000000000LL;
APPL_ERROR("Average delay in ns : " << delayAverage << " nbSample=" << sampleDalay);
TEST_ERROR("Average delay in ns : " << delayAverage << " nbSample=" << sampleDalay);
}
};
@@ -418,17 +413,14 @@ namespace river_test_echo_delay {
TEST(TestTime, testDelay) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
std11::shared_ptr<TestClass> process = std11::make_shared<TestClass>(manager);
ememory::SharedPtr<TestClass> process = ememory::makeShared<TestClass>(manager);
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
audio::river::unInit();
}
};
#undef __class__
#define __class__ nullptr
#endif

72
test/testFormat.h → test/testFormat.hpp
View File

@@ -3,12 +3,7 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifndef __RIVER_TEST_FORMAT_H__
#define __RIVER_TEST_FORMAT_H__
#undef __class__
#define __class__ "test_format"
#pragma once
namespace river_test_format {
static const std::string configurationRiver =
@@ -28,15 +23,15 @@ namespace river_test_format {
"}\n";
class testOutCallbackType {
private:
std11::shared_ptr<audio::river::Manager> m_manager;
std11::shared_ptr<audio::river::Interface> m_interface;
ememory::SharedPtr<audio::river::Manager> m_manager;
ememory::SharedPtr<audio::river::Interface> m_interface;
double m_phase;
float m_freq;
int32_t m_nbChannels;
float m_generateFreq;
public:
testOutCallbackType(const std11::shared_ptr<audio::river::Manager>& _manager,
testOutCallbackType(const ememory::SharedPtr<audio::river::Manager>& _manager,
float _freq=48000.0f,
int32_t _nbChannels=2,
audio::format _format=audio::format_int16) :
@@ -58,7 +53,7 @@ namespace river_test_format {
channelMap.push_back(audio::channel_rearLeft);
channelMap.push_back(audio::channel_rearRight);
} else {
APPL_ERROR("Can not generate with channel != 1,2,4");
TEST_ERROR("Can not generate with channel != 1,2,4");
return;
}
m_interface = m_manager->createOutput(m_freq,
@@ -67,18 +62,18 @@ namespace river_test_format {
"speaker",
"WriteModeCallbackType");
if(m_interface == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
// set callback mode ...
m_interface->setOutputCallback(std11::bind(&testOutCallbackType::onDataNeeded,
m_interface->setOutputCallback(std::bind(&testOutCallbackType::onDataNeeded,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
}
void onDataNeeded(void* _data,
const audio::Time& _time,
@@ -86,7 +81,7 @@ namespace river_test_format {
enum audio::format _format,
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
//APPL_DEBUG("Get data ... " << _format << " map=" << _map << " chunk=" << _nbChunk);
//TEST_DEBUG("Get data ... " << _format << " map=" << _map << " chunk=" << _nbChunk);
double baseCycle = 2.0*M_PI/double(m_freq) * double(m_generateFreq);
if (_format == audio::format_int16) {
int16_t* data = static_cast<int16_t*>(_data);
@@ -136,14 +131,14 @@ namespace river_test_format {
}
void run() {
if(m_interface == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
m_interface->start();
// wait 2 second ...
usleep(1000000);
std::this_thread::sleep_for(std::chrono::seconds(1));
m_interface->stop();
usleep(100000);
std::this_thread::sleep_for(std::chrono::milliseconds(100));
}
};
@@ -151,12 +146,12 @@ namespace river_test_format {
class testResampling : public ::testing::TestWithParam<float> {};
TEST_P(testResampling, base) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
std11::shared_ptr<testOutCallbackType> process = std11::make_shared<testOutCallbackType>(manager, GetParam(), 2, audio::format_int16);
ememory::SharedPtr<testOutCallbackType> process = ememory::makeShared<testOutCallbackType>(manager, GetParam(), 2, audio::format_int16);
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
audio::river::unInit();
}
@@ -168,12 +163,12 @@ namespace river_test_format {
class testFormat : public ::testing::TestWithParam<audio::format> {};
TEST_P(testFormat, base) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
std11::shared_ptr<testOutCallbackType> process = std11::make_shared<testOutCallbackType>(manager, 48000, 2, GetParam());
ememory::SharedPtr<testOutCallbackType> process = ememory::makeShared<testOutCallbackType>(manager, 48000, 2, GetParam());
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
audio::river::unInit();
}
INSTANTIATE_TEST_CASE_P(InstantiationName,
@@ -184,12 +179,12 @@ namespace river_test_format {
class testChannels : public ::testing::TestWithParam<int32_t> {};
TEST_P(testChannels, base) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
std11::shared_ptr<testOutCallbackType> process = std11::make_shared<testOutCallbackType>(manager, 48000, GetParam(), audio::format_int16);
ememory::SharedPtr<testOutCallbackType> process = ememory::makeShared<testOutCallbackType>(manager, 48000, GetParam(), audio::format_int16);
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
audio::river::unInit();
}
INSTANTIATE_TEST_CASE_P(InstantiationName,
@@ -199,9 +194,9 @@ namespace river_test_format {
TEST(TestALL, testChannelsFormatResampling) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
APPL_INFO("test convert flaot to output (callback mode)");
TEST_INFO("test convert flaot to output (callback mode)");
std::vector<float> listFreq;
listFreq.push_back(4000);
listFreq.push_back(8000);
@@ -227,21 +222,16 @@ namespace river_test_format {
for (size_t fff=0; fff<listFreq.size(); ++fff) {
for (size_t ccc=0; ccc<listChannel.size(); ++ccc) {
for (size_t iii=0; iii<listFormat.size(); ++iii) {
APPL_INFO("freq=" << listFreq[fff] << " channel=" << listChannel[ccc] << " format=" << getFormatString(listFormat[iii]));
std11::shared_ptr<testOutCallbackType> process = std11::make_shared<testOutCallbackType>(manager, listFreq[fff], listChannel[ccc], listFormat[iii]);
TEST_INFO("freq=" << listFreq[fff] << " channel=" << listChannel[ccc] << " format=" << getFormatString(listFormat[iii]));
ememory::SharedPtr<testOutCallbackType> process = ememory::makeShared<testOutCallbackType>(manager, listFreq[fff], listChannel[ccc], listFormat[iii]);
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
}
}
}
audio::river::unInit();
}
};
#undef __class__
#define __class__ nullptr
#endif

70
test/testMuxer.h → test/testMuxer.hpp
View File

@@ -3,24 +3,19 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#ifndef __RIVER_TEST_MUXER_H__
#define __RIVER_TEST_MUXER_H__
#include <audio/river/debug.h>
#undef __class__
#define __class__ "test_muxer"
#include <test-debug/debug.hpp>
namespace river_test_muxer {
class TestClass {
private:
std11::shared_ptr<audio::river::Manager> m_manager;
std11::shared_ptr<audio::river::Interface> m_interfaceIn;
std11::shared_ptr<audio::river::Interface> m_interfaceOut;
ememory::SharedPtr<audio::river::Manager> m_manager;
ememory::SharedPtr<audio::river::Interface> m_interfaceIn;
ememory::SharedPtr<audio::river::Interface> m_interfaceOut;
double m_phase;
public:
TestClass(std11::shared_ptr<audio::river::Manager> _manager) :
TestClass(ememory::SharedPtr<audio::river::Manager> _manager) :
m_manager(_manager),
m_phase(0) {
std::vector<audio::channel> channelMap;
@@ -31,18 +26,18 @@ namespace river_test_muxer {
audio::format_int16,
"speaker");
if(m_interfaceOut == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
// set callback mode ...
m_interfaceOut->setOutputCallback(std11::bind(&TestClass::onDataNeeded,
m_interfaceOut->setOutputCallback(std::bind(&TestClass::onDataNeeded,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
m_interfaceOut->addVolumeGroup("FLOW");
//m_interfaceOut->setParameter("volume", "FLOW", "-6dB");
@@ -52,18 +47,18 @@ namespace river_test_muxer {
audio::format_int16,
"microphone-muxed");
if(m_interfaceIn == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
// set callback mode ...
m_interfaceIn->setInputCallback(std11::bind(&TestClass::onDataReceived,
m_interfaceIn->setInputCallback(std::bind(&TestClass::onDataReceived,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
m_manager->generateDotAll("activeProcess.dot");
}
@@ -92,23 +87,23 @@ namespace river_test_muxer {
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
if (_format != audio::format_int16) {
APPL_ERROR("call wrong type ... (need int16_t)");
TEST_ERROR("call wrong type ... (need int16_t)");
}
RIVER_SAVE_FILE_MACRO(int16_t, "REC_MicrophoneMuxed.raw", _data, _nbChunk*_map.size());
APPL_ERROR("Receive data ... " << _nbChunk << " map=" << _map);
TEST_SAVE_FILE_MACRO(int16_t, "REC_MicrophoneMuxed.raw", _data, _nbChunk*_map.size());
TEST_ERROR("Receive data ... " << _nbChunk << " map=" << _map);
}
void run() {
if(m_interfaceIn == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
if(m_interfaceOut == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
m_interfaceOut->start();
m_interfaceIn->start();
usleep(10000000);
std::this_thread::sleep_for(std::chrono::seconds(10));
m_interfaceIn->stop();
m_interfaceOut->stop();
}
@@ -168,17 +163,14 @@ namespace river_test_muxer {
TEST(TestMuxer, testMuxing) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
std11::shared_ptr<TestClass> process = std11::make_shared<TestClass>(manager);
ememory::SharedPtr<TestClass> process = ememory::makeShared<TestClass>(manager);
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
audio::river::unInit();
}
};
#undef __class__
#define __class__ nullptr
#endif

65
test/testPlaybackCallback.h → test/testPlaybackCallback.hpp
View File

@@ -3,22 +3,17 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifndef __RIVER_TEST_PLAYBACK_CALLBACK_H__
#define __RIVER_TEST_PLAYBACK_CALLBACK_H__
#undef __class__
#define __class__ "test_playback_callback"
#pragma once
namespace river_test_playback_callback {
class testOutCallback {
public:
std11::shared_ptr<audio::river::Manager> m_manager;
std11::shared_ptr<audio::river::Interface> m_interface;
ememory::SharedPtr<audio::river::Manager> m_manager;
ememory::SharedPtr<audio::river::Interface> m_interface;
double m_phase;
public:
testOutCallback(std11::shared_ptr<audio::river::Manager> _manager, const std::string& _io="speaker") :
testOutCallback(ememory::SharedPtr<audio::river::Manager> _manager, const std::string& _io="speaker") :
m_manager(_manager),
m_phase(0) {
//Set stereo output:
@@ -30,18 +25,18 @@ namespace river_test_playback_callback {
audio::format_int16,
_io);
if(m_interface == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
// set callback mode ...
m_interface->setOutputCallback(std11::bind(&testOutCallback::onDataNeeded,
m_interface->setOutputCallback(std::bind(&testOutCallback::onDataNeeded,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
}
void onDataNeeded(void* _data,
const audio::Time& _time,
@@ -50,7 +45,7 @@ namespace river_test_playback_callback {
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
if (_format != audio::format_int16) {
APPL_ERROR("call wrong type ... (need int16_t)");
TEST_ERROR("call wrong type ... (need int16_t)");
}
int16_t* data = static_cast<int16_t*>(_data);
double baseCycle = 2.0*M_PI/(double)48000 * (double)550;
@@ -66,12 +61,12 @@ namespace river_test_playback_callback {
}
void run() {
if(m_interface == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
m_interface->start();
// wait 2 second ...
usleep(2000000);
std::this_thread::sleep_for(std::chrono::seconds(2));
m_interface->stop();
}
};
@@ -94,48 +89,42 @@ namespace river_test_playback_callback {
TEST(TestALL, testOutputCallBack) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
APPL_INFO("test output (callback mode)");
std11::shared_ptr<testOutCallback> process = std11::make_shared<testOutCallback>(manager, "speaker");
TEST_INFO("test output (callback mode)");
ememory::SharedPtr<testOutCallback> process = ememory::makeShared<testOutCallback>(manager, "speaker");
ASSERT_NE(process, nullptr);
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
audio::river::unInit();
}
TEST(TestALL, testOutputCallBackPulse) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
APPL_INFO("test output (callback mode)");
std11::shared_ptr<testOutCallback> process = std11::make_shared<testOutCallback>(manager, "speaker-pulse");
TEST_INFO("test output (callback mode)");
ememory::SharedPtr<testOutCallback> process = ememory::makeShared<testOutCallback>(manager, "speaker-pulse");
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
audio::river::unInit();
}
TEST(TestALL, testOutputCallBackJack) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
APPL_INFO("test output (callback mode)");
std11::shared_ptr<testOutCallback> process = std11::make_shared<testOutCallback>(manager, "speaker-jack");
TEST_INFO("test output (callback mode)");
ememory::SharedPtr<testOutCallback> process = ememory::makeShared<testOutCallback>(manager, "speaker-jack");
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
audio::river::unInit();
}
};
#undef __class__
#define __class__ nullptr
#endif

65
test/testPlaybackWrite.h → test/testPlaybackWrite.hpp
View File

@@ -3,12 +3,7 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifndef __RIVER_TEST_PLAYBACK_WRITE_H__
#define __RIVER_TEST_PLAYBACK_WRITE_H__
#undef __class__
#define __class__ "test_playback_write"
#pragma once
namespace river_test_playback_write {
static const std::string configurationRiver =
@@ -30,10 +25,10 @@ namespace river_test_playback_write {
class testOutWrite {
public:
std::vector<audio::channel> m_channelMap;
std11::shared_ptr<audio::river::Manager> m_manager;
std11::shared_ptr<audio::river::Interface> m_interface;
ememory::SharedPtr<audio::river::Manager> m_manager;
ememory::SharedPtr<audio::river::Interface> m_interface;
public:
testOutWrite(std11::shared_ptr<audio::river::Manager> _manager) :
testOutWrite(ememory::SharedPtr<audio::river::Manager> _manager) :
m_manager(_manager) {
//Set stereo output:
m_channelMap.push_back(audio::channel_frontLeft);
@@ -43,14 +38,14 @@ namespace river_test_playback_write {
audio::format_int16,
"speaker");
if(m_interface == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
m_interface->setReadwrite();
}
void run() {
if(m_interface == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
double phase=0;
@@ -83,7 +78,7 @@ namespace river_test_playback_write {
}
m_interface->write(&data[0], data.size()/m_channelMap.size());
// TODO : Add a function to get number of time we need to wait enought time ...
usleep(15000);
std::this_thread::sleep_for(std::chrono::milliseconds(15));
}
m_interface->stop();
}
@@ -91,24 +86,24 @@ namespace river_test_playback_write {
TEST(TestALL, testOutputWrite) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
APPL_INFO("test output (write mode)");
std11::shared_ptr<testOutWrite> process = std11::make_shared<testOutWrite>(manager);
TEST_INFO("test output (write mode)");
ememory::SharedPtr<testOutWrite> process = ememory::makeShared<testOutWrite>(manager);
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
audio::river::unInit();
}
class testOutWriteCallback {
public:
std11::shared_ptr<audio::river::Manager> m_manager;
std11::shared_ptr<audio::river::Interface> m_interface;
ememory::SharedPtr<audio::river::Manager> m_manager;
ememory::SharedPtr<audio::river::Interface> m_interface;
double m_phase;
public:
testOutWriteCallback(std11::shared_ptr<audio::river::Manager> _manager) :
testOutWriteCallback(ememory::SharedPtr<audio::river::Manager> _manager) :
m_manager(_manager),
m_phase(0) {
std::vector<audio::channel> channelMap;
@@ -120,17 +115,17 @@ namespace river_test_playback_write {
audio::format_int16,
"speaker");
if(m_interface == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
m_interface->setReadwrite();
m_interface->setWriteCallback(std11::bind(&testOutWriteCallback::onDataNeeded,
m_interface->setWriteCallback(std::bind(&testOutWriteCallback::onDataNeeded,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5));
}
void onDataNeeded(const audio::Time& _time,
size_t _nbChunk,
@@ -138,7 +133,7 @@ namespace river_test_playback_write {
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
if (_format != audio::format_int16) {
APPL_ERROR("call wrong type ... (need int16_t)");
TEST_ERROR("call wrong type ... (need int16_t)");
}
std::vector<int16_t> data;
data.resize(1024*_map.size());
@@ -157,31 +152,27 @@ namespace river_test_playback_write {
}
void run() {
if(m_interface == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
m_interface->start();
usleep(1000000);
std::this_thread::sleep_for(std::chrono::seconds(1));
m_interface->stop();
}
};
TEST(TestALL, testOutputWriteWithCallback) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
APPL_INFO("test output (write with callback event mode)");
std11::shared_ptr<testOutWriteCallback> process = std11::make_shared<testOutWriteCallback>(manager);
TEST_INFO("test output (write with callback event mode)");
ememory::SharedPtr<testOutWriteCallback> process = ememory::makeShared<testOutWriteCallback>(manager);
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
audio::river::unInit();
}
};
#undef __class__
#define __class__ nullptr
#endif

53
test/testRecordCallback.h → test/testRecordCallback.hpp
View File

@@ -3,14 +3,9 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#ifndef __RIVER_TEST_RECORD_CALLBACK_H__
#define __RIVER_TEST_RECORD_CALLBACK_H__
#include <audio/river/debug.h>
#undef __class__
#define __class__ "test_record_callback"
#include <test-debug/debug.hpp>
namespace river_test_record_callback {
static const std::string configurationRiver =
@@ -30,10 +25,10 @@ namespace river_test_record_callback {
class testInCallback {
public:
std11::shared_ptr<audio::river::Manager> m_manager;
std11::shared_ptr<audio::river::Interface> m_interface;
ememory::SharedPtr<audio::river::Manager> m_manager;
ememory::SharedPtr<audio::river::Interface> m_interface;
public:
testInCallback(std11::shared_ptr<audio::river::Manager> _manager, const std::string& _input="microphone") :
testInCallback(ememory::SharedPtr<audio::river::Manager> _manager, const std::string& _input="microphone") :
m_manager(_manager) {
//Set stereo output:
std::vector<audio::channel> channelMap;
@@ -42,18 +37,18 @@ namespace river_test_record_callback {
audio::format_int16,
_input);
if(m_interface == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
// set callback mode ...
m_interface->setInputCallback(std11::bind(&testInCallback::onDataReceived,
m_interface->setInputCallback(std::bind(&testInCallback::onDataReceived,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
}
void onDataReceived(const void* _data,
const audio::Time& _time,
@@ -62,44 +57,40 @@ namespace river_test_record_callback {
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
if (_format != audio::format_int16) {
APPL_ERROR("call wrong type ... (need int16_t)");
TEST_ERROR("call wrong type ... (need int16_t)");
}
RIVER_SAVE_FILE_MACRO(int16_t, "REC_INPUT.raw", _data, _nbChunk * _map.size());
TEST_SAVE_FILE_MACRO(int16_t, "REC_INPUT.raw", _data, _nbChunk * _map.size());
const int16_t* data = static_cast<const int16_t*>(_data);
int64_t value = 0;
for (size_t iii=0; iii<_nbChunk*_map.size(); ++iii) {
value += std::abs(data[iii]);
}
value /= (_nbChunk*_map.size());
APPL_INFO("Get data ... average=" << int32_t(value));
TEST_INFO("Get data ... average=" << int32_t(value));
}
void run() {
if(m_interface == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
m_interface->start();
// wait 2 second ...
usleep(20000000);
std::this_thread::sleep_for(std::chrono::seconds(20));
m_interface->stop();
}
};
TEST(TestALL, testInputCallBack) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
APPL_INFO("test input (callback mode)");
std11::shared_ptr<testInCallback> process = std11::make_shared<testInCallback>(manager);
TEST_INFO("test input (callback mode)");
ememory::SharedPtr<testInCallback> process = ememory::makeShared<testInCallback>(manager);
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
audio::river::unInit();
}
};
#undef __class__
#define __class__ nullptr
#endif

20
test/testRecordRead.h
View File

@@ -1,20 +0,0 @@
/** @file
* @author Edouard DUPIN
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifndef __RIVER_TEST_RECORD_READ_H__
#define __RIVER_TEST_RECORD_READ_H__
#undef __class__
#define __class__ "test_record_read"
namespace river_test_record_read {
};
#undef __class__
#define __class__ nullptr
#endif

11
test/testRecordRead.hpp Normal file
View File

@@ -0,0 +1,11 @@
/** @file
* @author Edouard DUPIN
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
namespace river_test_record_read {
};

86
test/testVolume.h → test/testVolume.hpp
View File

@@ -3,12 +3,7 @@
* @copyright 2015, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#ifndef __RIVER_TEST_VOLUME_H__
#define __RIVER_TEST_VOLUME_H__
#undef __class__
#define __class__ "test_volume"
#pragma once
namespace river_test_volume {
static const std::string configurationRiver =
@@ -29,11 +24,11 @@ namespace river_test_volume {
class testCallbackVolume {
private:
std11::shared_ptr<audio::river::Manager> m_manager;
std11::shared_ptr<audio::river::Interface> m_interface;
ememory::SharedPtr<audio::river::Manager> m_manager;
ememory::SharedPtr<audio::river::Interface> m_interface;
double m_phase;
public:
testCallbackVolume(std11::shared_ptr<audio::river::Manager> _manager) :
testCallbackVolume(ememory::SharedPtr<audio::river::Manager> _manager) :
m_manager(_manager),
m_phase(0) {
//Set stereo output:
@@ -45,18 +40,18 @@ namespace river_test_volume {
audio::format_int16,
"speaker");
if(m_interface == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
// set callback mode ...
m_interface->setOutputCallback(std11::bind(&testCallbackVolume::onDataNeeded,
m_interface->setOutputCallback(std::bind(&testCallbackVolume::onDataNeeded,
this,
std11::placeholders::_1,
std11::placeholders::_2,
std11::placeholders::_3,
std11::placeholders::_4,
std11::placeholders::_5,
std11::placeholders::_6));
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
m_interface->addVolumeGroup("MEDIA");
m_interface->addVolumeGroup("FLOW");
}
@@ -80,62 +75,59 @@ namespace river_test_volume {
}
void run() {
if(m_interface == nullptr) {
APPL_ERROR("nullptr interface");
TEST_ERROR("nullptr interface");
return;
}
m_interface->start();
usleep(1000000);
std::this_thread::sleep_for(std::chrono::seconds(1));
m_interface->setParameter("volume", "FLOW", "-3dB");
APPL_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
usleep(500000);
TEST_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
std::this_thread::sleep_for(std::chrono::milliseconds(500));
m_interface->setParameter("volume", "FLOW", "-6dB");
APPL_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
usleep(500000);
TEST_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
std::this_thread::sleep_for(std::chrono::milliseconds(500));
m_interface->setParameter("volume", "FLOW", "-9dB");
APPL_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
usleep(500000);
TEST_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
std::this_thread::sleep_for(std::chrono::milliseconds(500));
m_interface->setParameter("volume", "FLOW", "-12dB");
APPL_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
usleep(500000);
TEST_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
std::this_thread::sleep_for(std::chrono::milliseconds(500));
m_interface->setParameter("volume", "FLOW", "-3dB");
APPL_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
usleep(500000);
TEST_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
std::this_thread::sleep_for(std::chrono::milliseconds(500));
m_interface->setParameter("volume", "FLOW", "3dB");
APPL_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
usleep(500000);
TEST_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
std::this_thread::sleep_for(std::chrono::milliseconds(500));
m_interface->setParameter("volume", "FLOW", "6dB");
APPL_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
usleep(500000);
TEST_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
std::this_thread::sleep_for(std::chrono::milliseconds(500));
m_interface->setParameter("volume", "FLOW", "9dB");
APPL_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
usleep(500000);
TEST_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
std::this_thread::sleep_for(std::chrono::milliseconds(500));
m_interface->setParameter("volume", "FLOW", "0dB");
APPL_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
usleep(500000);
TEST_INFO(" get volume : " << m_interface->getParameter("volume", "FLOW") );
std::this_thread::sleep_for(std::chrono::milliseconds(500));
m_manager->setVolume("MASTER", -3.0f);
APPL_INFO("get volume MASTER: " << m_manager->getVolume("MASTER") );
usleep(500000);
TEST_INFO("get volume MASTER: " << m_manager->getVolume("MASTER") );
std::this_thread::sleep_for(std::chrono::milliseconds(500));
m_manager->setVolume("MEDIA", -3.0f);
APPL_INFO("get volume MEDIA: " << m_manager->getVolume("MEDIA") );
usleep(1000000);
TEST_INFO("get volume MEDIA: " << m_manager->getVolume("MEDIA") );
std::this_thread::sleep_for(std::chrono::seconds(1));
m_interface->stop();
}
};
TEST(TestALL, testVolume) {
audio::river::initString(configurationRiver);
std11::shared_ptr<audio::river::Manager> manager;
ememory::SharedPtr<audio::river::Manager> manager;
manager = audio::river::Manager::create("testApplication");
std11::shared_ptr<testCallbackVolume> process = std11::make_shared<testCallbackVolume>(manager);
ememory::SharedPtr<testCallbackVolume> process = ememory::makeShared<testCallbackVolume>(manager);
process->run();
process.reset();
usleep(500000);
std::this_thread::sleep_for(std::chrono::milliseconds(500));
audio::river::unInit();
}
};
#undef __class__
#define __class__ nullptr
#endif

1
version.txt Normal file
View File

@@ -0,0 +1 @@
0.4.0

156
widget/audio/river/widget/TemporalViewer.cpp Normal file
View File

@@ -0,0 +1,156 @@
/** @file
* @author Edouard DUPIN
* @copyright 2011, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#include <audio/river/widget/debug.hpp>
#include <audio/river/widget/TemporalViewer.hpp>
#include <etk/tool.hpp>
static const int32_t nbSecond = 3;
audio::river::widget::TemporalViewer::TemporalViewer() :
m_minVal(-1.0f),
m_maxVal(1.0f),
m_sampleRate(48000) {
addObjectType("audio::river::widget::TemporalViewer");
}
void audio::river::widget::TemporalViewer::init() {
ewol::Widget::init();
m_manager = audio::river::Manager::create("audio::river::widget::TemporalViewer");
m_data.resize(m_sampleRate*3, 0.0);
}
audio::river::widget::TemporalViewer::~TemporalViewer() {
}
void audio::river::widget::TemporalViewer::onDataReceived(const void* _data,
const audio::Time& _time,
size_t _nbChunk,
enum audio::format _format,
uint32_t _frequency,
const std::vector<audio::channel>& _map) {
std::unique_lock<std::mutex> lock(m_mutex);
if (_format != audio::format_float) {
std::cout << "[ERROR] call wrong type ... (need int16_t)" << std::endl;
}
// get the curent power of the signal.
const float* data = static_cast<const float*>(_data);
for (size_t iii=0; iii<_nbChunk*_map.size(); ++iii) {
m_data.push_back(data[iii]);
}
/*
if (m_data.size()>m_sampleRate*nbSecond*10) {
m_data.erase(m_data.begin(), m_data.begin()+(m_data.size()-m_sampleRate*nbSecond));
}
*/
//markToRedraw();
}
void audio::river::widget::TemporalViewer::recordToggle() {
std::unique_lock<std::mutex> lock(m_mutex);
if (m_interface == nullptr) {
//Get the generic input:
std::vector<audio::channel> channel;
channel.push_back(audio::channel_frontLeft);
m_interface = m_manager->createInput(m_sampleRate,
channel,
audio::format_float,
"microphone");
if(m_interface == nullptr) {
ARW_ERROR("nullptr interface");
return;
}
// set callback mode ...
m_interface->setInputCallback(std::bind(&audio::river::widget::TemporalViewer::onDataReceived,
this,
std::placeholders::_1,
std::placeholders::_2,
std::placeholders::_3,
std::placeholders::_4,
std::placeholders::_5,
std::placeholders::_6));
// start the stream
m_interface->start();
periodicCallEnable();
} else {
m_interface->stop();
m_interface.reset();
periodicCallDisable();
}
}
void audio::river::widget::TemporalViewer::onDraw() {
m_draw.draw();
}
void audio::river::widget::TemporalViewer::onRegenerateDisplay() {
//!< Check if we really need to redraw the display, if not needed, we redraw the previous data ...
if (needRedraw() == false) {
return;
}
// remove previous data
m_draw.clear();
// set background
m_draw.setColor(etk::color::black);
m_draw.setPos(vec2(0,0));
m_draw.rectangleWidth(m_size);
std::unique_lock<std::mutex> lock(m_mutex);
if (m_data.size() == 0) {
return;
}
// create n section for display:
int32_t nbSlot = m_size.x();
int32_t sizeSlot = m_size.x()/nbSlot;
std::vector<float> list;
//ARW_INFO("nbSlot : " << nbSlot << " sizeSlot=" << sizeSlot << " m_size=" << m_size);
list.resize(nbSlot,0.0f);
int32_t step = m_sampleRate*nbSecond/nbSlot;
for (size_t kkk=0; kkk<m_sampleRate*nbSecond; ++kkk) {
int32_t id = kkk/step;
if (id < list.size()) {
if (kkk < m_data.size()) {
list[id] = std::max(list[id],m_data[kkk]);
}
}
}
// set all the line:
m_draw.setColor(etk::color::white);
m_draw.setThickness(1);
float origin = m_size.y()*0.5f;
float ratioY = m_size.y() / (m_maxVal - m_minVal);
float baseX = 0;
for (size_t iii=1; iii<list.size(); ++iii) {
m_draw.setPos(vec2(iii*sizeSlot, origin - ratioY*list[iii]));
m_draw.rectangle(vec2((iii+1)*sizeSlot, origin + ratioY*list[iii]));
if ((iii+1)*sizeSlot > m_size.x()) {
ARW_ERROR("wrong display position");
}
}
}
void audio::river::widget::TemporalViewer::periodicCall(const ewol::event::Time& _event) {
std::unique_lock<std::mutex> lock(m_mutex);
int32_t nbSampleDelta = _event.getDeltaCall() * float(m_sampleRate);
if (m_data.size()>m_sampleRate*nbSecond) {
if (nbSampleDelta < m_data.size()) {
m_data.erase(m_data.begin(), m_data.begin()+nbSampleDelta);
} else {
m_data.erase(m_data.begin(), m_data.begin()+(m_data.size()-m_sampleRate*nbSecond));
}
}
markToRedraw();
}

59
widget/audio/river/widget/TemporalViewer.hpp Normal file
View File

@@ -0,0 +1,59 @@
/** @file
* @author Edouard DUPIN
* @copyright 2011, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#include <ewol/widget/Widget.hpp>
#include <ewol/compositing/Drawing.hpp>
#include <audio/river/river.hpp>
#include <audio/river/Manager.hpp>
#include <audio/river/Interface.hpp>
#include <mutex>
namespace audio {
namespace river {
namespace widget {
class TemporalViewer : public ewol::Widget {
private:
mutable std::mutex m_mutex;
private:
ewol::compositing::Drawing m_draw; //!< drawing instance
protected:
//! @brief constructor
TemporalViewer();
void init();
public:
DECLARE_WIDGET_FACTORY(TemporalViewer, "TemporalViewer");
//! @brief destructor
virtual ~TemporalViewer();
void recordToggle();
void generateToggle() {
// ...
}
private:
std::vector<float> m_data;
private:
float m_minVal; //!< display minimum value
float m_maxVal; //!< display maximum value
public: // herited function
virtual void onDraw();
virtual void onRegenerateDisplay();
virtual void periodicCall(const ewol::event::Time& _event);
private:
ememory::SharedPtr<audio::river::Manager> m_manager;
ememory::SharedPtr<audio::river::Interface> m_interface;
void onDataReceived(const void* _data,
const audio::Time& _time,
size_t _nbChunk,
enum audio::format _format,
uint32_t _frequency,
const std::vector<audio::channel>& _map);
int32_t m_sampleRate;
};
}
}
}

13
widget/audio/river/widget/debug.cpp Normal file
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/** @file
* @author Edouard DUPIN
* @copyright 2011, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#include <audio/river/widget/debug.hpp>
int32_t audio::river::widget::getLogId() {
static int32_t g_val = elog::registerInstance("audio-river-widget");
return g_val;
}

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widget/audio/river/widget/debug.hpp Normal file
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/** @file
* @author Edouard DUPIN
* @copyright 2011, Edouard DUPIN, all right reserved
* @license APACHE v2.0 (see license file)
*/
#pragma once
#include <elog/log.hpp>
namespace audio {
namespace river {
namespace widget {
int32_t getLogId();
}
}
}
#define ARW_BASE(info,data) ELOG_BASE(audio::river::widget::getLogId(),info,data)
#define ARW_PRINT(data) ARW_BASE(-1, data)
#define ARW_CRITICAL(data) ARW_BASE(1, data)
#define ARW_ERROR(data) ARW_BASE(2, data)
#define ARW_WARNING(data) ARW_BASE(3, data)
#ifdef DEBUG
#define ARW_INFO(data) ARW_BASE(4, data)
#define ARW_DEBUG(data) ARW_BASE(5, data)
#define ARW_VERBOSE(data) ARW_BASE(6, data)
#define ARW_TODO(data) ARW_BASE(4, "TODO : " << data)
#else
#define ARW_INFO(data) do { } while(false)
#define ARW_DEBUG(data) do { } while(false)
#define ARW_VERBOSE(data) do { } while(false)
#define ARW_TODO(data) do { } while(false)
#endif
#define ARW_ASSERT(cond,data) \
do { \
if (!(cond)) { \
ARW_CRITICAL(data); \
assert(!#cond); \
} \
} while (0)

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widget/lutin_audio-river-widget.py Normal file
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#!/usr/bin/python
import lutin.debug as debug
import lutin.tools as tools
import os
def get_type():
return "LIBRARY"
def get_desc():
return "audio specific widget"
def get_licence():
return "APACHE-2"
def get_compagny_type():
return "com"
def get_compagny_name():
return "atria-soft"
def get_maintainer():
return ["Mr DUPIN Edouard <yui.heero@gmail.com>"]
def get_version():
return [0,0,0]
def configure(target, my_module):
my_module.add_src_file([
'audio/river/widget/TemporalViewer.cpp',
'audio/river/widget/debug.cpp'
])
my_module.add_header_file([
'audio/river/widget/TemporalViewer.hpp'
])
my_module.add_depend([
'ewol',
'audio-river'
])
my_module.add_path(".")
return True