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Author SHA1 Message Date
kevin
f19fd76559 README.md : Updates 2024-12-14 10:38:04 -05:00
kevin
d4bae73585 test/ref/dsp - test reference files. Initial commit. 2024-12-14 10:05:08 -05:00
kevin
cb7e2ce5d0 main_cfg_data/audio_*.wav, freeverb3_IR_theater.wav Initial commit. 2024-12-14 10:04:39 -05:00
kevin
67741a2932 README.md,main.cpp,main.cfg,audio_midi_record.cfg : Updates to organize main.cfg tests() and README.md. 2024-12-14 10:02:54 -05:00
kevin
b1c00327b8 README.md : More formmatting 2024-12-03 13:15:13 -05:00
kevin
41f512d18a README.md : Fix formatting 2024-12-03 13:13:33 -05:00
kevin
51307c8a90 README.md : More README formatting. 2024-12-03 13:12:16 -05:00
kevin
7f6a56552c README.md : More formatting tests 2024-12-03 13:07:14 -05:00
kevin
5bc4708895 README.md : Format test 2024-12-03 13:03:26 -05:00
kevin
f67cc995ba README.md : Pandoc test. 2024-12-02 16:58:56 -05:00
kevin
9dbfab98aa README.md : pandoc test. 2024-12-02 16:53:33 -05:00
kevin
ec11f12442 README.md : Updates 2024-12-01 14:49:35 -05:00
kevin
c9a0bc2024 Apply licensing information to project. 2024-12-01 14:34:41 -05:00
kevin
8f2d241a41 main.cfg,main.cpp : Updates to remove hardcoded test parameters. 2024-11-30 12:22:37 -05:00
kevin
c7c46fcaae README.md : Experiment with formatting. 2024-11-30 10:10:53 -05:00
kevin
971a094408 README.md : More updates. 2024-11-30 08:46:51 -05:00
kevin
1286aea854 main.cpp/main.cpp : Update test interface for socket testers by shifting hardcoded values into main.cfg 2024-11-30 08:46:22 -05:00
kevin
0a46805d04 Merge branch 'poly' 2024-11-29 17:42:26 -05:00
kevin
fcb5913149 Merge branch 'master' of gitea.larke.org:kevin/cwtest 2024-05-25 19:43:33 -04:00
kevin
a8663221c4 gutim_full/scriabin : New MIDI and CSV files: Op48_3,Op67_1 & 2., Op64. 2024-05-25 19:43:25 -04:00
kevin
f20cdf632c cfg/main.cfg : Updated 'midifile' 2024-05-25 19:41:50 -04:00
kevin
195de45a9a cfg/gutim_full : 2024-05-24 Updates 2024-05-25 17:53:05 -04:00
kevin
f1f784866a csv_to_score.py : UPdated 20240522 2024-05-22 17:53:49 -04:00
kevin
d7539559b7 Merge branch 'master' of gitea.larke.org:kevin/cwtest 2024-05-21 11:31:52 -04:00
kevin
ad5fa59947 scriabin/csv_to_score.py : Minor print() changes. 2024-05-21 11:31:43 -04:00
kevin
7acf02c1e4 scriabin/csv_to_score.py : Minor print() changes. 2024-05-21 11:29:39 -04:00
kevin
f9cbe100d7 csv_to_score.py : 20240520 session updates. 2024-05-20 19:57:13 -04:00
kevin
bec23f191f scriabin/csv_to_score.py : Now interleaves scriabin excerpts. 2024-05-20 13:24:28 -04:00
kevin
2e700eb1ba 2024-05-11 Updates 2024-05-11 18:02:20 -04:00
kevin
a8fa0b4de3 scriabin : Deleted invalid files. 2024-05-11 12:13:31 -04:00
kevin
3a89053538 .gitignore : Updates 2024-05-11 08:05:04 -04:00
21 changed files with 38852 additions and 1004 deletions
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# directories to ignore
libcw
backup
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matt_20230311
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Each version is given a distinguishing version number. If the
Program specifies that a certain numbered version of the GNU General
Public License "or any later version" applies to it, you have the
option of following the terms and conditions either of that numbered
version or of any later version published by the Free Software
Foundation. If the Program does not specify a version number of the
GNU General Public License, you may choose any version ever published
by the Free Software Foundation.
If the Program specifies that a proxy can decide which future
versions of the GNU General Public License can be used, that proxy's
public statement of acceptance of a version permanently authorizes you
to choose that version for the Program.
Later license versions may give you additional or different
permissions. However, no additional obligations are imposed on any
author or copyright holder as a result of your choosing to follow a
later version.
15. Disclaimer of Warranty.
THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY
APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT
HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY
OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO,
THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM
IS WITH YOU. SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF
ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
16. Limitation of Liability.
IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MODIFIES AND/OR CONVEYS
THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY
GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE
USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF
DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD
PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS),
EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF
SUCH DAMAGES.
17. Interpretation of Sections 15 and 16.
If the disclaimer of warranty and limitation of liability provided
above cannot be given local legal effect according to their terms,
reviewing courts shall apply local law that most closely approximates
an absolute waiver of all civil liability in connection with the
Program, unless a warranty or assumption of liability accompanies a
copy of the Program in return for a fee.
END OF TERMS AND CONDITIONS

12
LICENSE Normal file
View File

@ -0,0 +1,12 @@
These programs, data and schematics are free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
any later version.
These programs and code are distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with these programs, data and schematics. If not, see <https://www.gnu.org/licenses/>.

305
README.md
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@ -1,6 +1,12 @@
# libcw Testing and Development App
# cwtest Testing and Development Application for libcw.
Command line:
`cwtest` is a command line interface to [`libcw`](https://gitea.currawongproject.org/cml/libcw).
It is primarily used to as a minimal interface to develop and test `libcw` subsystems.
See the [Currawong audio processing language and environment `caw`](https://gitea.currawongproject.org/cml/caw)
for an example of a complete application based on [`libcw`](https://gitea.currawongproject.org/cml/libcw).
`cwtest` command line:
```
cwtest <file.cfg> <label>
```
@ -22,91 +28,304 @@ Where `<file.cfg>` refers to a libcw configuration file file with the form:
}
```
`<label>` refers to a specific set of parameters which are associated with a library function.
See `main.cpp` `mode_array[]` for the mapping of labels to functions.
`<label>` refers to a specific set of named parameters
(e.g. `program_0`,`program_1`) which are associated with a library
function. See `main.cpp` `mode_array[]` for the mapping of labels to
functions.
The goal of `cwtest` is to be able to easily exercize `libcw` functions with a flexible
sets of parameters. The configuration file provides the parameters.
The goal of `cwtest` is to be able to easily exercise `libcw`
functions, or build simple utilities based on them, with a flexible
sets of parameters. The primary parameter file used for the programs
and tests below is `src/cwtest/cfg/main.cfg`.
Below is a list of named parameter sets from `src/cwtest/cfg/main.cfg`.
The `label` field refers to the name given to a parameter set
in the `main.cfg` and is also used to select the associated program
from the command line utility. Searching for the label in 'main.cfg'
will show the complete set of editable parameters available for a given
test function.
The `Source File` and `Function` field gives the source code
location for the function associated with each parameter set.
----
# MIDI - MIDI devices and files.
## MIDI
Label | Source File | Function
----------------------|----------------------|--------------
__midiDeviceReport__ | cwMidiDeviceTest.cpp | testReport()
# midiDeviceReport
List The current set of MIDI hardware devices
List The current set of MIID hardware devices and their ports.
Label | Source File | Function
------------------|----------------------|--------------
__midiDevice__ | cwMidiDeviceTest.cpp | test()
Interactive testing of the MIDI input file device
start/pause/unpause/stop functions. This function also validates the
latency of the device by comparing the time between MIDI events as
generated by the device to the actual time between the events in the
MIDI file.
Label | Source File | Function
------------------|----------------------|--------------
__midifile__ | cwMidiFile.cpp | test()
MIDI file utility parameters:
- Convert a MIDI file to a CSV file.
```
cwtest ~/src/cwtest/src/cwtest/cfg/main.cfg midiDeviceReport
csv: { midiFn:<filename> csvFn:<filename> }
```
# midiDevice
Interactive testing of the MIDI input file device start/pause/unpause/stop functions.
Compares the time between MIDI events as generated by the device to the actual time between the
events as listed in the file.
- Print the first <msgCnt> MIDI messages from a file.
```
cwtest ~/src/cwtest/src/cwtest/cfg/main.cfg midiDevice
rpt_beg_end: { midi_fname:<filenae>, msgCnt:<int>, note_on_only_fl:<true|false> }
```
## Serial
- Print the entire contents of the MIDI file.
```
cwtest ~/src/cwtest/src/cwtest/cfg/main.cfg midiDeviceReport
rpt : { midiFn:<filename> }
```
See `serialPortSrvTest()` in `cwSerialPortSrv.cpp`.
- Convert all the MIDI files in the folder: `<path>/<folder>/take/'record_%i'` to CSV files
```
batch_convert: { io_dir:<path>, session_dir:<folder>, take_begin:<int>, take_end:<int> print_warnings_flag:<true|false> }
```
----
## Serial - Serial Port Manager
CLI Label | Source File | Function
------------------|----------------------|---------------------
__serialSrv__ | cwSerialPortSrv.cpp | sesrialPortSrvTest()
This is an interactive test of the serial port send/receive functions.
The test function continuously transmits ASCII values '0' through 'z' to external devices `/dev/ttyACM0` and '/dev/ttyACM1`.
The function continuously transmits ASCII values '0' through 'z' to external devices `/dev/ttyACM0` and `/dev/ttyACM1`.
Those devices should increment the received value and send it back, where it is receieved and printed to the console.
Firmware to run on ATMEGA328 based devices, like the Arduino Uno, is provided in `study/serial/arduino_xmt_recv/main.c`.
## wesockSrv
----
```
cwtest ~/src/cwtest/src/cwtest/cfg/main.cfg websockSrv
```
## wesockSrv - Web Sockets Server
CLI Label | Source File | Function
------------------|----------------------|---------------------
__websockSrv__ | cwWebSockSvr.cpp | websockSrvTest()
See `websockSrvTest()` in `cwWebSockSvr.cpp`.
Interactive websocket server testing application.
Run the app and navigate in a web browser to `localhost:5687` to run the application.
## nbmpscQueue
----
```
cwtest ~/src/cwtest/src/cwtest/cfg/main.cfg nbmpscQueue
```
## nbmpscQueue - Non-Blocking Multiple Producer Single Consumer Queue
See `test()` in cwNbMpScQueue.cpp.
CLI Label | Source File | Function
------------------|----------------------|---------------------
__nbmpscQueue__ | nbmpscQueue.cpp | test()
Run the non-blocking, multiple producer, single consumer queue for 'testDurMs' millisecdons
and write the result into 'out_fname'. This is the queue used by the websocket implementation
(See cwWebSock) to support incoming calls form multiple threads without blocking the calling threads.
(See cwWebSock.h/cpp) to support incoming calls form multiple threads without blocking the calling threads.
## audioDevAlsa
----
```
cwtest ~/src/cwtest/src/cwtest/cfg/main.cfg audioDevAlsa
```
# Audio
See `report()` in `cwAudioDeviceAlsa.cpp`.
CLI Label | Source File | Function
------------------|-----------------------|---------------------
__audioDevTest__ | cwAudioDeviceTest.cpp | test()
Generate a list of devices and device attributes directly from the ALSA sub-system.
Interactive testing of a specified audio device using the
cwAudioBuf functions: tones, pass-through, metering.
Use 'audioDevRpt' to get the possible labels for 'inDev' and 'outDev'.
## audioDevRpt
```
cwtest ~/src/cwtest/src/cwtest/cfg/main.cfg audioDevRpt
```
CLI Label | Source File | Function
---------------------|-----------------------|---------------------
__audioDevFileTest__ | cwAudioDeviceFile.cpp | Test()
See `report()` in `cwAudioDevice.cpp`.
Test the input and output audio file device driver
by setting a input file to 'inAudioFname' and writing
the output file to 'outAudioFname'. 'cycleCnt'
is the total count of test audio cycles.
CLI Label | Source File | Function
------------------|----------------------|---------------------
__audioDevRpt__ | cwAudioDevice.cpp | report()
Generate a list of devices and device attributes from libcw. This will include audio file based devices.
CLI Label | Source File | Function
------------------|----------------------|---------------------
__audiofile__ | cwAudioFile.cpp | test()
Report the audio file format and a selected set of sample values.
# Operations on Audio Files
CLI Label | Source File | Function
------------------|----------------------|---------------------
__afop__ | cwAudioFile.cpp | test()
sine - generate a sine signal
mix - mix multiple audio files with selectable gains per file.
select_to_file - save sections of audio files to new audio files
cutAndMix - Extract a section of source audio, apply fade in/out ramps, and mix it into a destination file.
parallelMix - Given a set of overlapping source files of identical length solo a given source during a specified time interval.
transformApp - Currawong online transform audition demo.
convolve - Convolve an audio file with an impulse response
generate - Synthesize a signal.
CLI Label | Source File | Function
---------------------|----------------------|---------------------
__audio_file_proc__ | cwAudioFileProc.cpp | file_processor()
General purpose audio file processing pipeline.
CLI Label | Source File | Function
---------------------|-----------------------|---------------------
__pvoc_file_proc__ | cwPvAudioFileProc.cpp | pvoc_file_processor()
General purpose audio file processing for phase-vocoder based processing.
----
# Socket
CLI Label | Source File | Function
------------------------|----------------------|---------------------
__socketMgrSrvTest__ | cwSocket.cpp | mainTest()
__socketMgrClientTest__ | cwSocket.cpp | mainTest()
This is based on the current cwSocket implementation.
Interactive socket based client/server application.
Start `socketMgrSrvTest` in one process, then `socketMgrClientTest`
in a second processor.
CLI Label | Source File | Function
---------------------|----------------------|---------------------
__socketUdp__ | cwTcpSocketTest.cpp | test_udp()
This is based on the cwTcpSocket implemetation, as developed for use with MDNS,DNSD,EUCON.
Interactive tester.
CLI Label | Source File | Function
---------------------|----------------------|---------------------
__socketTcpClient__ | cwTcpSocketTest.cpp | test_tcp()
__socketTcpServer__ | cwTcpSocketTest.cpp | test_tcp()
This is based on the cwTcpSocket implemetation, as developed for use with MDNS,DNSD,EUCON.
Interactive tester.
CLI Label | Source File | Function
---------------------|----------------------|---------------------
__socketSrvUdp__ | cwTcpSocketTest.cpp | test_udp_srv()
__socketSrvTcp__ | cwTcpSocketTest.cpp | test_tcp_srv()
This is based on the cwTcpSocket implemetation, as developed for use with MDNS,DNSD,EUCON.
Interactive tester.
CLI Label | Source File | Function
---------------------|----------------------|---------------------
__socketMdns__ | cwMdns.cpp | test()
Runs a very specific test for simulating a Euphonix MC Mixer surface.
CLI Label | Source File | Function
---------------------|----------------------|---------------------
__dnssd__ | cwDnssd.cpp | test()
Runs a very specific test for simulating a Euphonix MC Mix surface.
CLI Label | Source File | Function
---------------------|----------------------|---------------------
__eucon__ | cwEuCon.cpp | test()
Runs a very specific test for simulating a Euphonix MC Mix surface.
----
# File system
CLI Label | Source File | Function
------------------|----------------------|---------------------
__dirEntry__ | cwFileSys.cpp | dirEntryTest()
Exercise the directory reader.
----
# IO Interface
CLI Label | Source File | Function
------------------|----------------------|---------------------
__io_minimal__ | cwIoMinTest.cpp | min_test()
Incomplete minimal template for an application based on cwIo.h/cpp without a GUI.
CLI Label | Source File | Function
------------------|----------------------|---------------------
__io__ | cwIoTest.cpp | test()
Incomplete but working interactive app used to test and develop cwIo based applications.
CLI Label | Source File | Function
------------------|----------------------|---------------------
__audio_midi__ | cwIoAudioMidiApp.cpp | main()
Program for recording and playing back real-time Audio and MIDI.
Based on cwIoAudioRecordPlay and cwIoMidiRecordPlay.
----
# Dataset Related
CLI Label | Source File | Function
------------------|----------------------|---------------------
__mnist__ | cwDatasets.cpp | mnist::test()
CLI Label | Source File | Function
------------------|----------------------|---------------------
__dataset_wtr__ | cwDatasets.cpp | wtr::test()
CLI Label | Source File | Function
------------------|----------------------|---------------------
__dataset_rdr__ | cwDatasets.cpp | rdr::test()
CLI Label | Source File | Function
-------------------|----------------------|---------------------
__dataset_adpter__ | cwDatasets.cpp | adapter::test()
CLI Label | Source File | Function
------------------|----------------------|---------------------
__dataset__ | cwDatasets.cpp | test()
Read MNIST native file -> write dataset file -> read datasetfile -> write SVG file
----
# SVG
CLI Label | Source File | Function
------------------|----------------------|---------------------
__svg__ | cwSvg.cpp | test()
Test the SVG file writer.
## Run Unit Tests:

51
src/cwtest/cfg/audio_midi_record.cfg
View File

@ -27,17 +27,22 @@
// piano
{
enableFl: true,
label: "piano",
//midi_out_device: "MIDIFACE 2x2",
//midi_out_port: "MIDIFACE 2x2 Midi Out 1",
//midi_out_device: "Scarlett 18i20 USB",
//midi_out_port: "Scarlett 18i20 USB MIDI 1",
midi_out_device: "iRig MIDI 2",
midi_out_port: "iRig MIDI 2 MIDI 1",
//midi_out_device: "iRig MIDI 2",
//midi_out_port: "iRig MIDI 2 MIDI 1",
//midi_out_device: "Fastlane",
//midi_out_port: "Fastlane MIDI A",
//midi_out_device: "PipeWire-RT-Event",
//midi_out_port: "input",
midi_out_device: "Fastlane",
midi_out_port: "Fastlane MIDI A",
force_damper_down_fl: false,
force_damper_down_threshold: 35,
@ -48,8 +53,6 @@
damper_dead_band_min_value: 1,
damper_dead_band_max_value: 30,
//midi_out_device: "PipeWire-RT-Event",
//midi_out_port: "input",
// pedal down velocity input/output mapping
//pedal: {
@ -81,6 +84,8 @@
}
ui: {
enableFl: true,
asyncFl:false,
physRootDir: "/home/kevin/src/cwtest/src/libcw/html/audio_midi",
dfltPageFn: "index.html",
port: 5687,
@ -90,12 +95,16 @@
websockTimeOutMs: 50, // max time out while blocking for a websock event
idleMsgPeriodMs: 50, // period without messages before an idle message is generated
uiCfgFn: "ui.cfg", // default UI resource description
asyncFl: false
queueBlkCnt: 8,
queueBlkByteCnt: 32768,
idleMsgPeriodMs: 50, // period without messages before an idle message is generated
extraLogsFl: false,
},
serial:
{
enableFl: false,
pollPeriodMs: 50,
recvBufByteN: 512,
array: [
@ -114,11 +123,29 @@
midi: {
parserBufByteN: 1024,
enableFl: true,
asyncFl: true,
parseBufByteCnt: 1024,
appNameStr: "cwtest",
fileDevName: "file_dev",
fileDevReadAheadMicros: 3000,
testFileLabel: "file_0",
testFileEnableFl: false
enableBufFl:true,
bufferMsgCnt:4096,
filterRtSenseFl:true
file_ports: [
{ "label":"file_0",
//"file": "/home/kevin/src/cwtest/src/cwtest/cfg/gutim_full/data1/beck1/record_4/midi.mid",
"enable_fl": false },
]
},
audio: {
enableFl: true,
meterMs: 50, // audio meter filter length and meter callback period
threadTimeOutMs: 50, // audio thread cond var time out
@ -136,12 +163,14 @@
deviceL: [
{
// System device name
device: "Scarlett 18i20 USB USB Audio",
//device: "Scarlett 18i20 USB USB Audio",
//device: "USB Audio CODEC USB Audio",
//device: "HDA Intel PCH CS4208 Analog",
//device: "ICUSBAUDIO7D USB Audio",
device: "MBox USB Audio",
enableFl: true, // (req)
activeFl: true, // (req)
meterFl: true, // (opt)
label: "main", // (req) User label
userId: 0, // (opt) User id (can also be set at runtime)
framesPerCycle: 512, // (req) Samples per audio device cycle
@ -153,7 +182,7 @@
},
socket: {
enableFl: false,
asyncFl: false,
maxSocketCnt: 10,
recvBufByteCnt: 4096,

382
src/cwtest/cfg/gutim_full/20240511_scriabin.cfg Normal file
View File

@ -0,0 +1,382 @@
{
test: {
preset_sel: {
params: {
score_fn: "~/src/cwtest/src/cwtest/cfg/score/temp.csv",
perfDirL: [
{
dir:"~/src/cwtest/src/cwtest/cfg/gutim_full/data/score",
fname:"temp.csv",
vel_table: [
{ "device":"piano", "name":"spirio" }, // VSL uses Ivory vel table
{ "device":"sampler", "name":"ivory" }
]
},
{
dir:"~/src/cwtest/src/cwtest/cfg/gutim_full/data/score_scriabin",
fname:"temp_with_scriabin_1.csv",
vel_table: [
{ "device":"piano", "name":"spirio" }, // VSL uses Ivory vel table
{ "device":"sampler", "name":"ivory" }
]
},
]
record_dir: "~/src/cwtest/src/cwtest/cfg/gutim_full/preset_select",
record_fn: "m1_458_trans_5_scriabin_1",
record_fn_ext: "txt",
flow_proc_dict_fn: "~/src/cwtest/src/cwtest/cfg/gutim_full/flow_proc_dict.cfg",
vel_table_fname: "~/src/cwtest/src/cwtest/cfg/gutim_full/vel_table/vel_table_perf.json"
vel_table_backup_dir: "~/src/cwtest/src/cwtest/cfg/gutim_full/vel_table/backup"
//crossFadeSrate: 48000.0, // TODO: move to flow cfg. and set via 'system default sample rate'
crossFadeCount: 3,
beg_play_loc: 1, //0, //12431, // coda 11499,
end_play_loc: 16354, //59, //14726, // coda 12426,
live_mode_fl: false,
dflt_perf_label: "beck_1_5",
run_dur_secs: 0,
enable_recording_fl: false,
midi_record_dir: "~/src/cwtest/src/cwtest/cfg/gutim_full/midi_record",
midi_record_folder: "shiau_uen",
sf_reset_loc: 1,
score_follower: {
enable_flag: false,
score_csv_fname: "/home/kevin/src/cwtest/src/cwtest/cfg/gutim_full/temp.csv",
search_area_locN: 10,
key_wnd_locN: 7,
track_print_fl: false, // print output from the sfTrack unit
track_results_backtrack_fl: false,
dyn_ref: [
{ mark: "silent", level:0, vel:1 },
{ mark:"pppp-", level:1, vel:3 },
{ mark:"pppp", level:2, vel:5 },
{ mark:"pppp+", level:3, vel:7 },
{ mark:"ppp-", level:4, vel:10 },
{ mark:"ppp", level:5, vel:15 },
{ mark:"ppp+", level:6, vel:20 },
{ mark:"pp-", level:7, vel:25 },
{ mark:"pp", level:8, vel:30 },
{ mark:"pp+", level:9, vel:35 },
{ mark:"p-", level:10, vel:40 },
{ mark:"p", level:11, vel:45 },
{ mark:"p+", level:12, vel:50 },
{ mark:"mp-", level:13, vel:55 },
{ mark:"mp", level:14, vel:60 },
{ mark:"mp+", level:15, vel:65 },
{ mark:"mf-", level:16, vel:70 },
{ mark:"mf", level:17, vel:75 },
{ mark:"mf+", level:18, vel:80 },
{ mark:"f-", level:19, vel:85 },
{ mark:"f", level:20, vel:90 },
{ mark:"f+", level:21, vel:95 },
{ mark:"ff", level:22, vel:100 },
{ mark:"ff+", level:23, vel:105 },
{ mark:"fff", level:24, vel:115 },
{ mark:"fff+", level:25, vel:120 },
{ mark:"ffff", level:26, vel:125 },
]
},
presets: {
preset_labelL: [ "dry", "a", "b", "c", "d", "f1", "f2", "f3", "f4", "g", "ga", "g1a", "g1d" ],
alt_labelL: [ "A","B","C","D","E","F","G" ],
default_gain: 1.0,
default_wet_dry_gain: 0.5,
default_fade_ms: 50.0,
default_preset: "dry",
default_master_wet_in_gain: 1.0,
default_master_wet_out_gain: 1.0,
default_master_dry_gain: 1.0,
default_master_sync_delay_ms: 400, // spirio 400
},
midi_play_record: {
max_midi_msg_count: 32768,
midi_timer_period_micro_sec: 15000,
all_off_delay_ms: 2500, // delay after stop time to turn off all notes
log_in_flag: false,
log_out_flag: false,
half_pedal_flag: false,
min_damper_down_time_ms: 0,
midi_device_list: [
{
// SAMPLER
enableFl: true,
label: "sampler",
//midi_out_device: "Fastlane",
//midi_out_port: "Fastlane MIDI B",
//midi_out_device: "MIDIFACE 2x2",
//midi_out_port: "MIDIFACE 2x2 Midi Out 1",
midi_out_device: "Scarlett 18i20 USB",
midi_out_port: "Scarlett 18i20 USB MIDI 1",
//midi_out_device: "PipeWire-RT-Event",
//midi_out_port: "input",
force_damper_down_fl: false,
force_damper_down_threshold: 35,
force_damper_down_velocity: 80,
scale_chord_notes_enable_fl: false,
scale_chord_notes_factor: 0.05,
},
{
//SPIRIO
enableFl: true,
label: "piano",
//midi_out_device: "Fastlane",
//midi_out_port: "Fastlane MIDI A",
//midi_out_device: "MIDIFACE 2x2",
//midi_out_port: "MIDIFACE 2x2 Midi Out 2",
midi_out_device: "iRig MIDI 2",
midi_out_port: "iRig MIDI 2 MIDI 1",
//midi_out_device: "PC-300",
//midi_out_port: "PC-300 MIDI 1",
//midi_out_device: "PipeWire-RT-Event",
//midi_out_port: "input",
// pedal down velocity input/output mapping
/*
pedal: {
up_id: 0,
up_vel: 0,
down_id: 127,
down_vel: 0,
half_down_id: 64,
half_down_vel: 43,
half_up_id: 63,
half_up_vel: 43
},
*/
force_damper_down_fl: false,
force_damper_down_threshold: 35,
force_damper_down_velocity: 80,
scale_chord_notes_enable_fl: false,
scale_chord_notes_factor: 0.5,
},
],
}
},
io: {
callbackMutexTimeOutMs: 100,
}
ui: {
enableFl: true,
physRootDir: "~/src/cwtest/src/libcw/html/preset_sel",
dfltPageFn: "index.html",
port: 5687,
rcvBufByteN: 2048,
xmtBufByteN: 2048,
fmtBufByteN: 4096,
websockTimeOutMs: 25, // max time out while blocking for a websock event
queueBlkCnt: 8,
queueBlkByteCnt: 32768,
idleMsgPeriodMs: 50, // period without messages before an idle message is generated
uiCfgFn: "ui.cfg", // default UI resource description
asyncFl: false
},
serial: {
enableFl: false,
pollPeriodMs: 50,
recvBufByteN: 512,
array: [
{
enableFl: false,
asyncFl: false,
label: "port1", // User label
device: "/dev/ttyUSB0", // Serial device name
baud: 115200,
bits: 8,
stop: 1,
parity: "no",
}
]
},
midi: {
enableFl: true,
asyncFl: true,
parseBufByteCnt: 1024,
appNameStr: "cwtest",
fileDevName: "file_dev",
fileDevReadAheadMicros: 3000,
testFileLabel: "file_0",
testFileEnableFl: false
file_ports: [
{ "label":"file_0",
//"file": "/home/kevin/src/cwtest/src/cwtest/cfg/gutim_full/data1/beck1/record_4/midi.mid",
"enable_fl": false },
]
},
audio: {
enableFl: true,
meterMs: 50, // audio meter filter length and meter callback period
threadTimeOutMs: 50, // audio thread cond var time out
groupL: [
{
enableFl: true, // (req)
asyncFl: true,
label: "main", // (req) User label
id: 0, // (req) User id (can also be set at runtime)
srate: 48000, // (req) Sample rate used by all devices in this group
dspFrameCnt: 64 // (req) Size of DSP processing buffers
}
],
deviceL: [
{
// System device name
device: "Scarlett 18i20 USB USB Audio",
//device: "USB Audio CODEC USB Audio",
//device: "HDA Intel PCH CS4208 Analog",
activeFl: true, // (req)
meterFl: true, // (opt)
label: "main", // (req) User label
userId: 0, // (opt) User id (can also be set at runtime)
framesPerCycle: 512, // (req) Samples per audio device cycle
cycleCnt: 3, // (req) Count of device cycle buffers.
inGroup: "main", // (opt) All devices in a group must be 'ready' to source
outGroup: "main", // (opt) or sink data before an audio callback is made for that group
}
]
},
socket: {
enableFl: false,
asyncFl: false,
maxSocketCnt: 10,
recvBufByteCnt: 4096,
threadTimeOutMs: 50,
socketL: [],
}
flow: {
framesPerCycle: 64, // time-domain audio cycles frame per cycle (must match audio 'dspFrameCnt')
multiPriPresetProbFl: false, // Use probability to select primary multi-preset
multiSecPresetProbFl: false, // Use probability to select secondary multi-preset
multiPresetInterpFl: false, // Interpolate between two selected multi-presets
maxCycleCount: 0, // 0 disables maxCycleCount
printNetworkFl: false, // print the network instance
printClassDictFl: false, // print the class description dictionary
network: {
aud_in: { class: audio_in, args:{ default:{dev_label:"main"} } },
// select the first six channels: ivory, mic, vsl
split_in: { class: audio_split, in:{ in:aud_in.out } args:{ default:{select[1,1,1,1,1,1 ]}} }
// delay the incoming audio signal to sync it with the piano
sync_delay { class: audio_delay, in: { in:split_in.out }, args:{ default:{ delayMs:400 } }}
// select the first two channels to feed into the transform
sync_split: { class: audio_split, in:{ in:sync_delay.out } args:{ default:{select[1,1]}} }
mstr_wet_in_gain: { class: audio_gain, in:{ in:sync_split.out } }
// wet signal processing chain
wet_in_gain: { class: audio_gain, in:{ in:mstr_wet_in_gain.out } },
pva: { class: pv_analysis, in:{ in:wet_in_gain.out }, args:{ default:{ wndSmpN:512, hopSmpN:128, hzFl:false } } },
sd: { class: spec_dist, in:{ in:pva.out }, preset:kc, args:{ bypass:false } },
pvs: { class: pv_synthesis, in:{ in:sd.out } },
cmp: { class: compressor, in:{ in:pvs.out }, preset:kc, args:{ bypass:false } },
wet_out_gain: { class: audio_gain, in:{ in:cmp.out } },
//wet_out_gain: { class: audio_gain, in:{ in:pvs.out } },
mute_wet: { class: audio_gain, in:{ in:wet_out_gain.out } },
// apply the wet/dry gain balance
wd_bal: { class: balance, args{}},
wet_bal_gain: { class: audio_gain, in:{ in:mute_wet.out, gain:wd_bal.out } },
dry_bal_gain: { class: audio_gain, in:{ in:sync_split.out, gain:wd_bal.inv_out } },
mstr_wet_out_gain: { class: audio_gain, in:{ in:wet_bal_gain.out } }
mstr_dry_out_gain: { class: audio_gain, in:{ in:dry_bal_gain.out } },
// merge the wet/dry signals into a single 4 channel signal
merge: { class: audio_merge, in:{ in0:mstr_wet_out_gain.out, in1:mstr_dry_out_gain.out, in2:mstr_wet_out_gain.out, in3:mstr_dry_out_gain.out } },
aout: { class: audio_out, in:{ in:merge.out }, args:{ default:{dev_label:"main"} } },
//af_merge { class: audio_merge, in:{ in0:mstr_wet_out_gain.out, in1:sync_delay.out } },
//af_out: { class: audioFileOut, in:{ in:af_merge.out }, args:{ default:{fname:"/home/kevin/temp/temp.wav"}}},
}
presets: {
dry: { pva:dry, sd:dry, cmp:dry, mute_wet:{ gain:0.0 } },
a: { pva:a, sd:a, cmp:a, mute_wet:{ gain:1.0 } },
b: { pva:b, sd:b, cmp:b, mute_wet:{ gain:1.0 } },
c: { pva:c, sd:c, cmp:c, mute_wet:{ gain:1.0 } },
d: { pva:d, sd:d, cmp:d, mute_wet:{ gain:1.0 } },
f1: { pva:f_1, sd:f_1, cmp:f_1, mute_wet:{ gain:1.0 } },
f2: { pva:f_2, sd:f_2, cmp:f_2, mute_wet:{ gain:1.0 } },
f3: { pva:f_3, sd:f_3, cmp:f_3, mute_wet:{ gain:1.0 } },
f4: { pva:f_4, sd:f_4, cmp:f_4, mute_wet:{ gain:1.0 } },
g: { pva:g, sd:g, cmp:g, mute_wet:{ gain:1.0 } },
ga: { pva:g_a sd:g_a, cmp:g_a, mute_wet:{ gain:1.0 } },
g1a: { pva:g_1_a sd:g_1_a, cmp:g_1_a, mute_wet:{ gain:1.0 } },
g1d: { pva:g_1_d sd:g_1_d, cmp:g_1_d, mute_wet:{ gain:1.0 } }
}
}
}
}

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src/cwtest/cfg/gutim_full/20240520_scriabin.cfg Normal file
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@ -0,0 +1,382 @@
{
test: {
preset_sel: {
params: {
score_fn: "~/src/cwtest/src/cwtest/cfg/score/temp.csv",
perfDirL: [
{
dir:"~/src/cwtest/src/cwtest/cfg/gutim_full/data/score",
fname:"temp.csv",
vel_table: [
{ "device":"piano", "name":"spirio" }, // VSL uses Ivory vel table
{ "device":"sampler", "name":"ivory" }
]
},
{
dir:"~/src/cwtest/src/cwtest/cfg/gutim_full/data/score_scriabin",
fname:"temp_with_scriabin_2.csv",
vel_table: [
{ "device":"piano", "name":"spirio_1" }, // VSL uses Ivory vel table
{ "device":"sampler", "name":"ivory" }
]
},
]
record_dir: "~/src/cwtest/src/cwtest/cfg/gutim_full/preset_select",
record_fn: "m1_458_trans_5_scriabin_3",
record_fn_ext: "txt",
flow_proc_dict_fn: "~/src/cwtest/src/cwtest/cfg/gutim_full/flow_proc_dict.cfg",
vel_table_fname: "~/src/cwtest/src/cwtest/cfg/gutim_full/vel_table/vel_table_perf.json"
vel_table_backup_dir: "~/src/cwtest/src/cwtest/cfg/gutim_full/vel_table/backup"
//crossFadeSrate: 48000.0, // TODO: move to flow cfg. and set via 'system default sample rate'
crossFadeCount: 3,
beg_play_loc: 1, //0, //12431, // coda 11499,
end_play_loc: 16354, //59, //14726, // coda 12426,
live_mode_fl: false,
dflt_perf_label: "beck_1_5",
run_dur_secs: 0,
enable_recording_fl: false,
midi_record_dir: "~/src/cwtest/src/cwtest/cfg/gutim_full/midi_record",
midi_record_folder: "shiau_uen",
sf_reset_loc: 1,
score_follower: {
enable_flag: false,
score_csv_fname: "/home/kevin/src/cwtest/src/cwtest/cfg/gutim_full/temp.csv",
search_area_locN: 10,
key_wnd_locN: 7,
track_print_fl: false, // print output from the sfTrack unit
track_results_backtrack_fl: false,
dyn_ref: [
{ mark: "silent", level:0, vel:1 },
{ mark:"pppp-", level:1, vel:3 },
{ mark:"pppp", level:2, vel:5 },
{ mark:"pppp+", level:3, vel:7 },
{ mark:"ppp-", level:4, vel:10 },
{ mark:"ppp", level:5, vel:15 },
{ mark:"ppp+", level:6, vel:20 },
{ mark:"pp-", level:7, vel:25 },
{ mark:"pp", level:8, vel:30 },
{ mark:"pp+", level:9, vel:35 },
{ mark:"p-", level:10, vel:40 },
{ mark:"p", level:11, vel:45 },
{ mark:"p+", level:12, vel:50 },
{ mark:"mp-", level:13, vel:55 },
{ mark:"mp", level:14, vel:60 },
{ mark:"mp+", level:15, vel:65 },
{ mark:"mf-", level:16, vel:70 },
{ mark:"mf", level:17, vel:75 },
{ mark:"mf+", level:18, vel:80 },
{ mark:"f-", level:19, vel:85 },
{ mark:"f", level:20, vel:90 },
{ mark:"f+", level:21, vel:95 },
{ mark:"ff", level:22, vel:100 },
{ mark:"ff+", level:23, vel:105 },
{ mark:"fff", level:24, vel:115 },
{ mark:"fff+", level:25, vel:120 },
{ mark:"ffff", level:26, vel:125 },
]
},
presets: {
preset_labelL: [ "dry", "a", "b", "c", "d", "f1", "f2", "f3", "f4", "g", "ga", "g1a", "g1d" ],
alt_labelL: [ "A","B","C","D","E","F","G" ],
default_gain: 1.0,
default_wet_dry_gain: 0.5,
default_fade_ms: 50.0,
default_preset: "dry",
default_master_wet_in_gain: 1.0,
default_master_wet_out_gain: 1.0,
default_master_dry_gain: 2.0,
default_master_sync_delay_ms: 400, // spirio 400
},
midi_play_record: {
max_midi_msg_count: 32768,
midi_timer_period_micro_sec: 15000,
all_off_delay_ms: 2500, // delay after stop time to turn off all notes
log_in_flag: false,
log_out_flag: false,
half_pedal_flag: false,
min_damper_down_time_ms: 0,
midi_device_list: [
{
// SAMPLER
enableFl: true,
label: "sampler",
//midi_out_device: "Fastlane",
//midi_out_port: "Fastlane MIDI B",
//midi_out_device: "MIDIFACE 2x2",
//midi_out_port: "MIDIFACE 2x2 Midi Out 1",
midi_out_device: "Scarlett 18i20 USB",
midi_out_port: "Scarlett 18i20 USB MIDI 1",
//midi_out_device: "PipeWire-RT-Event",
//midi_out_port: "input",
force_damper_down_fl: false,
force_damper_down_threshold: 35,
force_damper_down_velocity: 80,
scale_chord_notes_enable_fl: false,
scale_chord_notes_factor: 0.05,
},
{
//SPIRIO
enableFl: true,
label: "piano",
//midi_out_device: "Fastlane",
//midi_out_port: "Fastlane MIDI A",
//midi_out_device: "MIDIFACE 2x2",
//midi_out_port: "MIDIFACE 2x2 Midi Out 2",
midi_out_device: "iRig MIDI 2",
midi_out_port: "iRig MIDI 2 MIDI 1",
//midi_out_device: "PC-300",
//midi_out_port: "PC-300 MIDI 1",
//midi_out_device: "PipeWire-RT-Event",
//midi_out_port: "input",
// pedal down velocity input/output mapping
/*
pedal: {
up_id: 0,
up_vel: 0,
down_id: 127,
down_vel: 0,
half_down_id: 64,
half_down_vel: 43,
half_up_id: 63,
half_up_vel: 43
},
*/
force_damper_down_fl: false,
force_damper_down_threshold: 35,
force_damper_down_velocity: 80,
scale_chord_notes_enable_fl: false,
scale_chord_notes_factor: 0.5,
},
],
}
},
io: {
callbackMutexTimeOutMs: 100,
}
ui: {
enableFl: true,
physRootDir: "~/src/cwtest/src/libcw/html/preset_sel",
dfltPageFn: "index.html",
port: 5687,
rcvBufByteN: 2048,
xmtBufByteN: 2048,
fmtBufByteN: 4096,
websockTimeOutMs: 25, // max time out while blocking for a websock event
queueBlkCnt: 8,
queueBlkByteCnt: 32768,
idleMsgPeriodMs: 50, // period without messages before an idle message is generated
uiCfgFn: "ui.cfg", // default UI resource description
asyncFl: false
},
serial: {
enableFl: false,
pollPeriodMs: 50,
recvBufByteN: 512,
array: [
{
enableFl: false,
asyncFl: false,
label: "port1", // User label
device: "/dev/ttyUSB0", // Serial device name
baud: 115200,
bits: 8,
stop: 1,
parity: "no",
}
]
},
midi: {
enableFl: true,
asyncFl: true,
parseBufByteCnt: 1024,
appNameStr: "cwtest",
fileDevName: "file_dev",
fileDevReadAheadMicros: 3000,
testFileLabel: "file_0",
testFileEnableFl: false
file_ports: [
{ "label":"file_0",
//"file": "/home/kevin/src/cwtest/src/cwtest/cfg/gutim_full/data1/beck1/record_4/midi.mid",
"enable_fl": false },
]
},
audio: {
enableFl: true,
meterMs: 50, // audio meter filter length and meter callback period
threadTimeOutMs: 50, // audio thread cond var time out
groupL: [
{
enableFl: true, // (req)
asyncFl: true,
label: "main", // (req) User label
id: 0, // (req) User id (can also be set at runtime)
srate: 48000, // (req) Sample rate used by all devices in this group
dspFrameCnt: 64 // (req) Size of DSP processing buffers
}
],
deviceL: [
{
// System device name
device: "Scarlett 18i20 USB USB Audio",
//device: "USB Audio CODEC USB Audio",
//device: "HDA Intel PCH CS4208 Analog",
activeFl: true, // (req)
meterFl: true, // (opt)
label: "main", // (req) User label
userId: 0, // (opt) User id (can also be set at runtime)
framesPerCycle: 512, // (req) Samples per audio device cycle
cycleCnt: 3, // (req) Count of device cycle buffers.
inGroup: "main", // (opt) All devices in a group must be 'ready' to source
outGroup: "main", // (opt) or sink data before an audio callback is made for that group
}
]
},
socket: {
enableFl: false,
asyncFl: false,
maxSocketCnt: 10,
recvBufByteCnt: 4096,
threadTimeOutMs: 50,
socketL: [],
}
flow: {
framesPerCycle: 64, // time-domain audio cycles frame per cycle (must match audio 'dspFrameCnt')
multiPriPresetProbFl: false, // Use probability to select primary multi-preset
multiSecPresetProbFl: false, // Use probability to select secondary multi-preset
multiPresetInterpFl: false, // Interpolate between two selected multi-presets
maxCycleCount: 0, // 0 disables maxCycleCount
printNetworkFl: false, // print the network instance
printClassDictFl: false, // print the class description dictionary
network: {
aud_in: { class: audio_in, args:{ default:{dev_label:"main"} } },
// select the first six channels: ivory, mic, vsl
split_in: { class: audio_split, in:{ in:aud_in.out } args:{ default:{select[1,1,1,1,1,1 ]}} }
// delay the incoming audio signal to sync it with the piano
sync_delay { class: audio_delay, in: { in:split_in.out }, args:{ default:{ delayMs:400 } }}
// select the first two channels to feed into the transform
sync_split: { class: audio_split, in:{ in:sync_delay.out } args:{ default:{select[1,1]}} }
mstr_wet_in_gain: { class: audio_gain, in:{ in:sync_split.out } }
// wet signal processing chain
wet_in_gain: { class: audio_gain, in:{ in:mstr_wet_in_gain.out } },
pva: { class: pv_analysis, in:{ in:wet_in_gain.out }, args:{ default:{ wndSmpN:512, hopSmpN:128, hzFl:false } } },
sd: { class: spec_dist, in:{ in:pva.out }, preset:kc, args:{ bypass:false } },
pvs: { class: pv_synthesis, in:{ in:sd.out } },
cmp: { class: compressor, in:{ in:pvs.out }, preset:kc, args:{ bypass:false } },
wet_out_gain: { class: audio_gain, in:{ in:cmp.out } },
//wet_out_gain: { class: audio_gain, in:{ in:pvs.out } },
mute_wet: { class: audio_gain, in:{ in:wet_out_gain.out } },
// apply the wet/dry gain balance
wd_bal: { class: balance, args{}},
wet_bal_gain: { class: audio_gain, in:{ in:mute_wet.out, gain:wd_bal.out } },
dry_bal_gain: { class: audio_gain, in:{ in:sync_split.out, gain:wd_bal.inv_out } },
mstr_wet_out_gain: { class: audio_gain, in:{ in:wet_bal_gain.out } }
mstr_dry_out_gain: { class: audio_gain, in:{ in:dry_bal_gain.out } },
// merge the wet/dry signals into a single 4 channel signal
merge: { class: audio_merge, in:{ in0:mstr_wet_out_gain.out, in1:mstr_dry_out_gain.out, in2:mstr_wet_out_gain.out, in3:mstr_dry_out_gain.out } },
aout: { class: audio_out, in:{ in:merge.out }, args:{ default:{dev_label:"main"} } },
//af_merge { class: audio_merge, in:{ in0:mstr_wet_out_gain.out, in1:sync_delay.out } },
//af_out: { class: audioFileOut, in:{ in:af_merge.out }, args:{ default:{fname:"/home/kevin/temp/temp.wav"}}},
}
presets: {
dry: { pva:dry, sd:dry, cmp:dry, mute_wet:{ gain:0.0 } },
a: { pva:a, sd:a, cmp:a, mute_wet:{ gain:1.0 } },
b: { pva:b, sd:b, cmp:b, mute_wet:{ gain:1.0 } },
c: { pva:c, sd:c, cmp:c, mute_wet:{ gain:1.0 } },
d: { pva:d, sd:d, cmp:d, mute_wet:{ gain:1.0 } },
f1: { pva:f_1, sd:f_1, cmp:f_1, mute_wet:{ gain:1.0 } },
f2: { pva:f_2, sd:f_2, cmp:f_2, mute_wet:{ gain:1.0 } },
f3: { pva:f_3, sd:f_3, cmp:f_3, mute_wet:{ gain:1.0 } },
f4: { pva:f_4, sd:f_4, cmp:f_4, mute_wet:{ gain:1.0 } },
g: { pva:g, sd:g, cmp:g, mute_wet:{ gain:1.0 } },
ga: { pva:g_a sd:g_a, cmp:g_a, mute_wet:{ gain:1.0 } },
g1a: { pva:g_1_a sd:g_1_a, cmp:g_1_a, mute_wet:{ gain:1.0 } },
g1d: { pva:g_1_d sd:g_1_d, cmp:g_1_d, mute_wet:{ gain:1.0 } }
}
}
}
}

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@ -51,6 +51,7 @@
filesys:{ test_0:{}},
object:{ basic:{}, to_json:{} },
vop:{ test_0:{} },
dsp:{ fft:{}, ifft:{}, convolve:{} },
time:{ test_0:{} },
textBuf: { test_0:{} },
audioBuf:{ test_0:{} }

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src/cwtest/cfg/test/ref/dsp/convolve/log.txt Normal file
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@ -0,0 +1,7 @@
: out : : 1.000000 : 0.500000 : 0.250000 : 0.100000 :
: ola : : 0.050000 : 0.000000 : 0.000000 : -0.000000 :
: out : : 1.050000 : 0.500000 : 0.250000 : 0.100000 :
: ola : : 0.050000 : 0.000000 : 0.000000 : -0.000000 :
: out : : 1.050000 : 0.500000 : 0.250000 : 0.100000 :
: ola : : 0.050000 : 0.000000 : 0.000000 : -0.000000 :
: yV : : 1.00 : 0.50 : 0.25 : 0.10 : 1.05 : 0.50 : 0.25 : 0.10 : 1.05 : 0.50 : 0.25 : 0.10 : 0.05 : 0.00 : 0.00 : 0.00 : 0.00 : 0.00 : 0.00 : 0.00 :

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src/cwtest/cfg/test/ref/dsp/fft/log.txt Normal file
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: sin : : 0.000000 : 0.382683 : 0.707107 : 0.923880 : 1.000000 : 0.923880 : 0.707107 : 0.382683 : -0.000000 : -0.382683 : -0.707107 : -0.923880 : -1.000000 : -0.923879 : -0.707107 : -0.382683 :
: mag : : 0.000000 : 1.000000 : 0.000000 : 0.000000 : 0.000000 : 0.000000 : 0.000000 : 0.000000 : 0.000000 :
: phs : : 0.000000 : -1.570796 : -2.546503 : 0.000000 : -1.872442 : -0.749834 : 1.800163 : 3.141593 : 3.141593 :

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@ -0,0 +1,4 @@
: sin : : 0.000000 : 0.382683 : 0.707107 : 0.923880 : 1.000000 : 0.923880 : 0.707107 : 0.382683 : 0.000000 : -0.382683 : -0.707107 : -0.923880 : -1.000000 : -0.923880 : -0.707107 : -0.382683 :
: mag : : 0.000000 : 1.000000 : 0.000000 : 0.000000 : 0.000000 : 0.000000 : 0.000000 : 0.000000 : 0.000000 :
: phs : : 3.141593 : -1.570796 : -2.128818 : -1.399942 : -1.133610 : -0.858986 : -0.562898 : 0.000000 : 0.000000 :
: sig : : 0.000000 : 0.382683 : 0.707107 : 0.923880 : 1.000000 : 0.923880 : 0.707107 : 0.382683 : 0.000000 : -0.382683 : -0.707107 : -0.923880 : -1.000000 : -0.923880 : -0.707107 : -0.382683 :

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src/cwtest/main.cpp
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@ -1,3 +1,5 @@
//| Copyright: (C) 2020-2024 Kevin Larke <contact AT larke DOT org>
//| License: GNU GPL version 3.0 or above. See the accompanying LICENSE file.
#include "cwCommon.h"
#include "cwLog.h"
#include "cwCommonImpl.h"
@ -5,11 +7,11 @@
#include "cwMem.h"
#include "cwFile.h"
#include "cwVariant.h"
#include "cwObject.h"
#include "cwFileSys.h"
#include "cwTextBuf.h"
#include "cwText.h"
#include "cwNumericConvert.h"
#include "cwObject.h"
#include "cwB23Tree.h"
#include "cwVectOps.h"
#include "cwMtx.h"
@ -91,7 +93,6 @@
#include "cwIo.h"
#include "cwIoTest.h"
#include "cwIoMinTest.h"
#include "cwIoAudioMidi.h"
#include "cwIoAudioMidiApp.h"
#include "cwIoMidiRecordPlay.h"
#endif
@ -313,16 +314,6 @@ cw::rc_t b23TreeTest( const cw::object_t* cfg, const cw::object_t* args
cw::rc_t midiFileTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::midi::file::test(args); }
cw::rc_t audioFileTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::audiofile::test(args); }
cw::rc_t audioFileOp( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::afop::test(args); }
cw::rc_t audioFileMix( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::afop::mix(args); }
cw::rc_t audioFileSelToFile( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::afop::selectToFile(args); }
cw::rc_t audioFileCutAndMix( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::afop::cutAndMix(args); }
cw::rc_t audioFileParallelMix( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::afop::parallelMix(args); }
cw::rc_t audioFileTransformApp(const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::afop::transformApp(args); }
cw::rc_t audioFileConvolve( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::afop::convolve(args); }
cw::rc_t audioFileGenerate( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::afop::generate(args); }
cw::rc_t fftTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::dsp::fft::test(); }
cw::rc_t ifftTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::dsp::ifft::test(); }
cw::rc_t convolveTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::dsp::convolve::test(); }
cw::rc_t pianoScoreTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::perf_score::test(args); }
cw::rc_t gutimRegTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::gutim::reg::test(args); }
cw::rc_t amToMidiFile( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::midi_record_play::am_to_midi_file(args); }
@ -384,168 +375,13 @@ cw::rc_t audioDevAlsaTest( const cw::object_t* cfg, const cw::object_t* args
cw::rc_t audioDevRpt( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return _no_alsa(); }
#endif
cw::rc_t socketTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] )
{
cw::rc_t rc = cw::kOkRC;
if( argc < 3 )
rc = cwLogError(cw::kInvalidArgRC,"Invalid arg count to socketTest().");
else
{
unsigned short localPort = atoi(argv[1]);
unsigned short remotePort = atoi(argv[2]);
const char* remoteAddr = "127.0.0.1"; //"224.0.0.251"; //"127.0.0.1";
printf("local:%i remote:%i\n", localPort, remotePort);
rc = cw::net::socket::test( localPort, remoteAddr, remotePort );
}
return rc;
}
cw::rc_t socketTestUdp( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::net::socket::test_udp(args); }
cw::rc_t socketTestTcp( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::net::socket::test_tcp(args); }
cw::rc_t socketSrvUdpTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::net::srv::test_udp_srv(args); }
cw::rc_t socketSrvTcpTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::net::srv::test_tcp_srv(args); }
cw::rc_t socketTestTcp( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] )
{
// server: ./cw_rt main.cfg socketTcp 5434 5435 dgram/stream server
// client: ./cw_rt main.cfg socketTcp 5435 5434 dgram/stream
cw::rc_t rc = cw::kOkRC;
if( argc < 4 )
rc = cwLogError(cw::kInvalidArgRC,"Invalid arg. count to socketTestTcp().");
else
{
unsigned short localPort = atoi(argv[1]);
unsigned short remotePort = atoi(argv[2]);
bool dgramFl = strcmp(argv[3],"dgram") == 0;
bool serverFl = false;
if( argc >= 5 )
serverFl = strcmp(argv[4],"server") == 0;
printf("local:%i remote:%i %s %s\n", localPort, remotePort, dgramFl ? "dgram":"stream", serverFl?"server":"client");
rc = cw::net::socket::test_tcp( localPort, "127.0.0.1", remotePort, dgramFl, serverFl );
}
return rc;
}
cw::rc_t socketSrvUdpTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] )
{
cw::rc_t rc = cw::kOkRC;
if( argc < 4 )
rc = cwLogError(cw::kInvalidArgRC,"Invalid arg. count to socketSrvUdpTest().");
else
{
unsigned short localPort = atoi(argv[1]);
const char* remoteIp = argv[2];
unsigned short remotePort = atoi(argv[3]);
printf("local:%i to remote:%s %i\n", localPort, remoteIp, remotePort);
rc = cw::net::srv::test_udp_srv( localPort, remoteIp, remotePort );
}
return rc;
}
cw::rc_t socketSrvTcpTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] )
{
cw::rc_t rc = cw::kOkRC;
if( argc < 4 )
rc = cwLogError(cw::kInvalidArgRC,"Invaid arg. count to socketSrvTcpTest().");
else
{
unsigned short localPort = atoi(argv[1]);
const char* remoteIp = argv[2];
unsigned short remotePort = atoi(argv[3]);
printf("local:%i to remote:%s %i\n", localPort, remoteIp, remotePort);
rc = cw::net::srv::test_tcp_srv( localPort, remoteIp, remotePort );
}
return rc;
}
cw::rc_t sockMgrTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] )
{
cw::rc_t rc = cw::kOkRC;
bool tcpFl = false;
const char* localNicDev = nullptr;
unsigned short localPort = 0;
const char* remoteIp = nullptr;
unsigned short remotePort = 0;
int argi = 0;
if( argc <3 )
{
rc = cwLogError(cw::kInvalidArgRC,"Error: Invalid argument count to sockMgrTest().");
goto errLabel;
}
// The first arg. must be 'tcp' or 'udp'.
if( strcmp(argv[1],"tcp")!=0 && strcmp(argv[1],"udp")!=0 )
{
rc = cwLogError(cw::kInvalidArgRC,"sockMgrTest() Error: The first argument must be 'udp' or 'tcp'\n");
goto errLabel;
}
tcpFl = strcmp(argv[1],"tcp")==0;
argi = 2;
// If the next token is 'dev' ...
if( strcmp(argv[argi],"dev") == 0 )
{
if( argc <= ++argi )
{
rc = cwLogError(cw::kInvalidArgRC,"sockMgrTest() Error: No local NIC given.\n");
goto errLabel;
}
// .. then the next arg is the localNicDev
localNicDev = argv[argi++];
}
if( argc <= argi )
{
rc = cwLogError(cw::kInvalidArgRC,"sockMgrTest() Error: No local port was given.\n");
goto errLabel;
}
// get the local port
localPort = atoi(argv[argi++]);
if( argc > argi)
{
remoteIp = argv[argi++];
if( argc > argi)
remotePort = atoi(argv[argi++]);
}
if( remoteIp != nullptr && remotePort == 0 )
{
rc = cwLogError(cw::kInvalidArgRC,"sockMgrTest() Error: A remote adddress '%s' was given but no remote port was given.", remoteIp);
goto errLabel;
}
cwLogInfo("style:%s local:%i to remote:%s %i\n", argv[1], localPort, cwStringNullGuard(remoteIp), remotePort);
rc = cw::socksrv::testMain( tcpFl, localNicDev, localPort, remoteIp, remotePort );
return rc;
errLabel:
rc = cwLogError(rc,"SockMgrTest() failed.");
// 1 2 3 4
// 1 2 3 4 5 6
cwLogInfo("Usage: ./cwtest <cfg_fn> sockMgrTest 'udp | tcp' {'dev' <localNicDevice>} <localPort> { <remote_ip> <remote_port> }\n");
return rc;
}
cw::rc_t sockMgrSrvTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::socksrv::testMain(args); }
cw::rc_t sockMgrClientTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::socksrv::testMain(args); }
#if defined(cwWEB)
cw::rc_t _no_c11() { return cwLogError(cw::kResourceNotAvailableRC,"C++11 functionality not included in this build."); }
@ -559,47 +395,16 @@ cw::rc_t datasetAdapterTest( const cw::object_t* cfg, const cw::object_t* args,
#else
cw::rc_t mnistTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] )
{
return cw::dataset::mnist::test(cfg);
}
cw::rc_t mnistTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::dataset::mnist::test(cfg); }
cw::rc_t datasetTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::dataset::test(args); }
cw::rc_t datasetWtrTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::dataset::wtr::test(args); }
cw::rc_t datasetRdrTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::dataset::rdr::test(args); }
cw::rc_t datasetAdapterTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::dataset::adapter::test(args); }
cw::rc_t datasetTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::dataset::test(args); }
cw::rc_t datasetWtrTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::dataset::wtr::test(args); }
cw::rc_t datasetRdrTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::dataset::rdr::test(args); }
cw::rc_t datasetAdapterTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::dataset::adapter::test(args); }
cw::rc_t svgTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] )
{
char* htmlFn = requiredNewFile( args, "outHtmlFn");
char* cssFn = optionalNewFile( args, "outCssFn");
cw::rc_t rc = cw::svg::test(htmlFn,cssFn);
cw::mem::release(htmlFn);
cw::mem::release(cssFn);
return rc;
}
cw::rc_t svgTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::svg::test(args); }
#endif
cw::rc_t dirEntryTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] )
{
cw::rc_t rc = cw::kOkRC;
if( argc < 2 )
rc = cwLogError(cw::kInvalidArgRC,"dirEntryTest() error: Invalid arg. count.");
else
{
const char* path = argv[1];
unsigned dirEntryN = 0;
unsigned includeFlags = cw::filesys::kFileFsFl | cw::filesys::kDirFsFl | cw::filesys::kFullPathFsFl | cw::filesys::kRecurseFsFl;
cw::filesys::dirEntry_t* de = cw::filesys::dirEntries( path,includeFlags, &dirEntryN );
for(unsigned i=0; i<dirEntryN; ++i)
cwLogInfo("%s",de[i].name);
cw::mem::release(de);
}
return rc;
}
cw::rc_t dirEntryTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] ) { return cw::filesys::dirEntryTest(args); }
cw::rc_t stubTest( const cw::object_t* cfg, const cw::object_t* args, int argc, const char* argv[] )
{
@ -671,11 +476,13 @@ int main( int argc, const char* argv[] )
{ "audioDevAlsa", audioDevAlsaTest },
{ "audioDevRpt", audioDevRpt },
//{ "nbmem", nbmemTest },
{ "socket", socketTest },
{ "socketTcp", socketTestTcp },
{ "socketUdp", socketTestUdp },
{ "socketTcpClient", socketTestTcp },
{ "socketTcpServer", socketTestTcp },
{ "socketSrvUdp", socketSrvUdpTest },
{ "socketSrvTcp", socketSrvTcpTest },
{ "sockMgrTest", sockMgrTest },
{ "sockMgrSrvTest", sockMgrSrvTest },
{ "sockMgrClientTest", sockMgrClientTest },
{ "uiTest", uiTest },
{ "socketMdns", socketMdnsTest },
{ "dnssd", dnsSdTest },
@ -694,16 +501,6 @@ int main( int argc, const char* argv[] )
{ "midifile", midiFileTest },
{ "audiofile", audioFileTest },
{ "afop", audioFileOp },
{ "audio_mix", audioFileMix },
{ "select_to_file", audioFileSelToFile },
{ "cut_and_mix", audioFileCutAndMix },
{ "parallel_mix",audioFileParallelMix },
{ "transform_app", audioFileTransformApp },
{ "convolve_file", audioFileConvolve },
{ "generate_audio",audioFileGenerate },
{ "fft", fftTest },
{ "ifft", ifftTest },
{ "convolve", convolveTest },
{ "piano_score", pianoScoreTest },
{ "gutim_reg", gutimRegTest },
{ "am_to_midi_file", amToMidiFile },