major version bump due to dependency change.

now packaged with poetry.
added to pypi.

major version bump due to dependency change.

interface reworked to match the remote-api interface.

readme updated with changes to installation

pre-commit hook temporarily removed
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onyx-and-iris 2022-06-16 16:10:06 +01:00
parent 933d182f60
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README.md
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@ -1,5 +1,6 @@
[![License: MIT](https://img.shields.io/badge/License-MIT-yellow.svg)](https://github.com/onyx-and-iris/vban-cmd-python/blob/dev/LICENSE) [![License: MIT](https://img.shields.io/badge/License-MIT-yellow.svg)](https://github.com/onyx-and-iris/vban-cmd-python/blob/dev/LICENSE)
[![Code style: black](https://img.shields.io/badge/code%20style-black-000000.svg)](https://github.com/psf/black) [![Code style: black](https://img.shields.io/badge/code%20style-black-000000.svg)](https://github.com/psf/black)
[![Imports: isort](https://img.shields.io/badge/%20imports-isort-%231674b1?style=flat&labelColor=ef8336)](https://pycqa.github.io/isort/)
![Tests Status](./tests/basic.svg?dummy=8484744) ![Tests Status](./tests/basic.svg?dummy=8484744)
![Tests Status](./tests/banana.svg?dummy=8484744) ![Tests Status](./tests/banana.svg?dummy=8484744)
![Tests Status](./tests/potato.svg?dummy=8484744) ![Tests Status](./tests/potato.svg?dummy=8484744)
@ -22,252 +23,157 @@ For an outline of past/future changes refer to: [CHANGELOG](CHANGELOG.md)
- Banana 2.0.6.2 - Banana 2.0.6.2
- Potato 3.0.2.2 - Potato 3.0.2.2
## Prerequisites ## Requirements
- [Voicemeeter](https://voicemeeter.com/) - [Voicemeeter](https://voicemeeter.com/)
- Python 3.9+ - Python 3.11 or greater
## Installation ## Installation
``` ### `Pip`
git clone https://github.com/onyx-and-iris/vban-cmd-python
cd vban-cmd-python
```
Just the interface: Install voicemeeter-api package from your console
``` `pip install vban-cmd`
pip install .
```
With development dependencies:
``` ## `Use`
pip install -e .['development']
```
## Usage Simplest use case, use a context manager to request a VbanCmdvban_cmd class of a kind.
#### Use with a context manager: Login and logout are handled for you in this scenario.
Parameter coverage is not as extensive for this interface as with the Remote API. #### `__main__.py`
### Example 1
```python ```python
import vbancmd import vban_cmd
class ManyThings: class ManyThings:
def __init__(self, vban): def __init__(self, vban):
self.vban = vban self.vban = vban
def things(self): def things(self):
# Set the mapping of the second input strip self.vban.strip[0].label = "podmic"
self.vban.strip[1].A3 = True self.vban.strip[0].mute = True
print(f'Output A3 of Strip {self.vban.strip[1].label}: {self.vban.strip[1].A3}') print(
f"strip 0 ({self.vban.strip[0].label}) has been set to {self.vban.strip[0].mute}"
)
def other_things(self): def other_things(self):
# Toggle mute for the leftmost output bus info = (
self.vban.bus[0].mute = not self.vban.bus[0].mute f"bus 3 gain has been set to {self.vban.bus[3].gain}",
f"bus 4 eq has been set to {self.vban.bus[4].eq}",
)
self.vban.bus[3].gain = -6.3
self.vban.bus[4].eq = True
print("\n".join(info))
def main(): def main():
with vbancmd.connect(kind_id, ip=ip) as vban: with vban_cmd.api(kind_id) as vban:
do = ManyThings(vban) do = ManyThings(vban)
do.things() do.things()
do.other_things() do.other_things()
if __name__ == '__main__': # set many parameters at once
kind_id = 'potato' vban.apply(
ip = '<ip address>' {
"strip-2": {"A1": True, "B1": True, "gain": -6.0},
"bus-2": {"mute": True},
"button-0": {"state": True},
"vban-in-0": {"on": True},
"vban-out-1": {"name": "streamname"},
}
)
if __name__ == "__main__":
kind_id = "banana"
ip = "<ip address>"
main() main()
``` ```
#### Or perform setup/teardown independently: Otherwise you must remember to call `vban.login()`, `vban.logout()` at the start/end of your code.
### Example 2 ## `kind_id`
```python Pass the kind of Voicemeeter as an argument. kind_id may be:
import vbancmd
kind_id = 'potato'
ip = '<ip address>'
vban = vbancmd.connect(kind_id, ip=ip)
# call login() at the start of your code
vban.login()
# Toggle mute for leftmost input strip
vban.strip[0].mute = not vban.strip[0].mute
# Toggle eq for leftmost output bus
vban.bus[0].eq = not vban.bus[0].eq
# call logout() at the end of your code
vban.logout()
```
## Profiles
Profiles through config files are supported.
Three example profiles are provided with the package, one for each kind of Voicemeeter.
To test one first rename \_profiles directory to profiles.
They will be loaded into memory but not applied. To apply one you may do:
`vmr.apply_profile('config')`, but remember to save your current settings first.
profiles directory can be safely deleted if you don't wish to load them each time.
A config can contain any key that `connect.apply()` would accept. Additionally, `extends` can be provided to inherit from another profile. Two profiles are available by default:
- `blank`, all strip off and all sliders to `0.0`. mono, solo, mute, eq all disabled.
- `base`, all physical strip to `A1`, all virtual strip to `B1`, all sliders to `0.0`.
Sample `mySetup.toml`
```toml
extends = 'base'
[strip-0]
mute = 1
[strip-5]
A1 = 0
A2 = 1
A4 = 1
gain = 0.0
[strip-6]
A1 = 0
A2 = 1
A4 = 1
gain = 0.0
```
## API
### Kinds
A _kind_ specifies a major Voicemeeter version. Currently this encompasses
- `basic` - `basic`
- `banana` - `banana`
- `potato` - `potato`
#### `vbancmd.connect(kind_id, **kwargs) -> '(VbanCmd)'` ## `Available commands`
Factory function for remotes. Keyword arguments include: ### Channels (strip/bus)
- `ip`: remote pc you wish to send requests to. The following properties exist for audio channels.
- `streamname`: default 'Command1'
- `port`: default 6990
- `channel`: from 0 to 255
- `bps`: bitrate of stream, default 0 should be safe for most cases.
### `VbanCmd` (higher level)
#### `vban.type`
The kind of the Voicemeeter instance.
#### `vban.version`
A tuple of the form `(v1, v2, v3, v4)`.
#### `vban.strip`
An `InputStrip` tuple, containing both physical and virtual.
#### `vban.bus`
An `OutputBus` tuple, containing both physical and virtual.
#### `vban.show()`
Shows Voicemeeter if it's hidden. No effect otherwise.
#### `vban.hide()`
Hides Voicemeeter if it's shown. No effect otherwise.
#### `vban.shutdown()`
Closes Voicemeeter.
#### `vban.restart()`
Restarts Voicemeeter's audio engine.
#### `vban.apply(mapping)`
Updates values through a dict.
Example:
```python
vban.apply({
'strip-2': dict(A1=True, B1=True, gain=-6.0),
'bus-2': dict(mute=True),
})
```
### `Strip`
The following properties are gettable and settable:
- `mono`: boolean - `mono`: boolean
- `solo`: boolean - `solo`: boolean
- `mute`: boolean - `mute`: boolean
- `label`: string - `label`: string
- `gain`: float, -60 to 12 - `gain`: float, -60 to 12
- Output mapping (e.g. `A1`, `B3`, etc.): boolean, depends on the Voicemeeter kind - `A1 - A5`, `B1 - B3`: boolean
The following properties are settable:
- `comp`: float, from 0.0 to 10.0 - `comp`: float, from 0.0 to 10.0
- `gate`: float, from 0.0 to 10.0 - `gate`: float, from 0.0 to 10.0
- `limit`: int, from -40 to 12 - `limit`: int, from -40 to 12
#### `gainlayer` example:
- `gainlayer[j].gain`: float, -60 to 12
for example:
```python ```python
# set and get the value of the second input strip, fourth gainlayer vban.strip[3].gain = 3.7
vban.strip[1].gainlayer[3].gain = -6.3 print(strip[0].label)
print(vban.strip[1].gainlayer[3].gain)
vban.bus[4].mono = true
``` ```
Gainlayers defined for Potato version only. ### Command
### `Bus` Certain 'special' commands are defined by the API as performing actions rather than setting values. The following methods are available:
The following properties are gettable and settable: - `show()` : Bring Voiceemeter GUI to the front
- `shutdown()` : Shuts down the GUI
- `restart()` : Restart the audio engine
- `mute`: boolean The following properties are write only and accept boolean values.
- `mono`: boolean
- `eq`: boolean
- `eq_ab`: boolean
- `label`: string
- `gain`: float, -60 to 12
#### `mode` - `showvbanchat`: boolean
- `lock`: boolean
Bus modes are gettable and settable example:
- `normal`, `amix`, `bmix`, `repeat`, `composite`, `tvmix`, `upmix21`,
- `upmix41`, `upmix61`, `centeronly`, `lfeonly`, `rearonly`
for example:
```python ```python
# set leftmost bus mode to tvmix vban.command.restart()
vban.bus[0].mode.tvmix = True vban.command.showvbanchat = true
``` ```
### `VbanCmd` (lower level) ### Multiple parameters
- `apply`
Set many strip/bus parameters at once, for example:
```python
vban.apply(
{
"strip-2": {"A1": True, "B1": True, "gain": -6.0},
"bus-2": {"mute": True},
}
)
```
Or for each class you may do:
```python
vban.strip[0].apply(mute: true, gain: 3.2, A1: true)
vban.vban.outstream[0].apply(on: true, name: 'streamname', bit: 24)
```
## `Base Module`
### VbanCmd class
#### `vban.pdirty` #### `vban.pdirty`

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import vbancmd import vban_cmd
class ManyThings: class ManyThings:
def __init__(self, vban): def __init__(self, vban):
self.vban = vban self.vban = vban
def things(self): def things(self):
# Set the mapping of the second input strip self.vban.strip[0].label = "podmic"
self.vban.strip[1].A3 = True self.vban.strip[0].mute = True
print(f'Output A3 of Strip {self.vban.strip[1].label}: {self.vban.strip[1].A3}') print(
f"strip 0 ({self.vban.strip[0].label}) has been set to {self.vban.strip[0].mute}"
)
def other_things(self): def other_things(self):
# Toggle mute for the leftmost output bus info = (
self.vban.bus[0].mute = not self.vban.bus[0].mute f"bus 3 gain has been set to {self.vban.bus[3].gain}",
f"bus 4 eq has been set to {self.vban.bus[4].eq}",
)
self.vban.bus[3].gain = -6.3
self.vban.bus[4].eq = True
print("\n".join(info))
def main(): def main():
with vbancmd.connect(kind_id, ip=ip) as vban: with vban_cmd.api(kind_id) as vban:
do = ManyThings(vban) do = ManyThings(vban)
do.things() do.things()
do.other_things() do.other_things()
if __name__ == '__main__': # set many parameters at once
kind_id = 'potato' vban.apply(
ip = '<ip address>' {
"strip-2": {"A1": True, "B1": True, "gain": -6.0},
"bus-2": {"mute": True},
"button-0": {"state": True},
"vban-in-0": {"on": True},
"vban-out-1": {"name": "streamname"},
}
)
if __name__ == "__main__":
kind_id = "banana"
ip = "<ip address>"
main() main()

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import tkinter as tk import tkinter as tk
from tkinter import ttk
from functools import partial from functools import partial
from tkinter import ttk
from typing import NamedTuple from typing import NamedTuple
import vbancmd import vban_cmd
from vbancmd import kinds from vban_cmd import kinds
class ExampleAppErrors(Exception): class ExampleAppErrors(Exception):
pass pass
class App(tk.Tk): class App(tk.Tk):
""" Topmost Level of App """ """Topmost Level of App"""
@classmethod @classmethod
def make(cls, kind: NamedTuple): def make(cls, kind: NamedTuple):
""" """
@ -18,39 +21,50 @@ class App(tk.Tk):
Returns an App class of a kind Returns an App class of a kind
""" """
APP_cls = type(f'App{kind.name}', (cls,), { APP_cls = type(
'name': kind.name, f"App{kind.name}",
'ins': kind.ins, (cls,),
'outs': kind.outs, {
} "name": kind.name,
"ins": kind.ins,
"outs": kind.outs,
},
) )
return APP_cls return APP_cls
def __init__(self): def __init__(self):
super().__init__() super().__init__()
self.title(f'Voicemeeter{self.name} Example Program') self.title(f"Voicemeeter{self.name} Example Program")
self.phys_in, self.virt_in = self.ins self.phys_in, self.virt_in = self.ins
self.col = self.phys_in + self.virt_in self.col = self.phys_in + self.virt_in
self.row = 3 self.row = 3
self.w = {'Basic': 300, 'Banana': 600, 'Potato': 800} self.w = {"Basic": 300, "Banana": 600, "Potato": 800}
self.h = 150 self.h = 150
self.defaultsizes = { self.defaultsizes = {
'Basic': f'{self.w[self.name]}x{self.h}', "Basic": f"{self.w[self.name]}x{self.h}",
'Banana': f'{self.w[self.name]}x{self.h}', "Banana": f"{self.w[self.name]}x{self.h}",
'Potato': f'{self.w[self.name]}x{self.h}', "Potato": f"{self.w[self.name]}x{self.h}",
} }
self.geometry(self.defaultsizes[self.name]) self.geometry(self.defaultsizes[self.name])
""" create tkinter variables, generate widgets and configure rows/cols """ """ create tkinter variables, generate widgets and configure rows/cols """
self.gains = { self.gains = {
'strip': [tk.DoubleVar() for i in range(self.phys_in + self.virt_in)], "strip": [tk.DoubleVar() for i in range(self.phys_in + self.virt_in)],
} }
self.levels = { self.levels = {
'strip': [tk.DoubleVar() for i in range(self.phys_in + self.virt_in)], "strip": [tk.DoubleVar() for i in range(self.phys_in + self.virt_in)],
} }
[self._make_single_channel(i, j) for i, j in enumerate(i for i in range(0, self.col*2, 2))] [
scales = [widget for widget in self.winfo_children() if isinstance(widget, tk.Scale)] self._make_single_channel(i, j)
[scale.bind('<Double-Button-1>', partial(self.reset_gain, index=i)) for i, scale in enumerate(scales)] for i, j in enumerate(i for i in range(0, self.col * 2, 2))
]
scales = [
widget for widget in self.winfo_children() if isinstance(widget, tk.Scale)
]
[
scale.bind("<Double-Button-1>", partial(self.reset_gain, index=i))
for i, scale in enumerate(scales)
]
""" configure grid """ """ configure grid """
self.col_row_configure() self.col_row_configure()
@ -60,68 +74,86 @@ class App(tk.Tk):
@property @property
def id_(self): def id_(self):
return 'strip' return "strip"
def _make_single_channel(self, i, j): def _make_single_channel(self, i, j):
""" """
Creates a label, progressbar, scale, and mute Creates a label, progressbar, scale, and mute
""" """
ttk.Label(self, text=f'{vban.strip[i].label}').grid(column=j, row=0, columnspan=2) ttk.Label(self, text=f"{vban.strip[i].label}").grid(
column=j, row=0, columnspan=2
)
ttk.Progressbar(self, maximum=72, orient='vertical', mode='determinate', variable=self.levels[self.id_][i]).grid(column=j, row=1) ttk.Progressbar(
ttk.Scale(self, from_=12.0, to=-60.0, orient='vertical', variable=self.gains[self.id_][i], self,
command=partial(self.scale_callback, index=i)).grid(column=j+1, row=1) maximum=72,
orient="vertical",
mode="determinate",
variable=self.levels[self.id_][i],
).grid(column=j, row=1)
ttk.Scale(
self,
from_=12.0,
to=-60.0,
orient="vertical",
variable=self.gains[self.id_][i],
command=partial(self.scale_callback, index=i),
).grid(column=j + 1, row=1)
ttk.Button(self, text='MUTE', ttk.Button(
command=partial(self.toggle, 'mute', i), style=f'Mute{i}.TButton').grid(column=j, row=2, columnspan=2, sticky=(tk.W, tk.E)) self,
text="MUTE",
command=partial(self.toggle, "mute", i),
style=f"Mute{i}.TButton",
).grid(column=j, row=2, columnspan=2, sticky=(tk.W, tk.E))
def scale_callback(self, *args, index=None): def scale_callback(self, *args, index=None):
""" callback function for scale widgets """ """callback function for scale widgets"""
vban.strip[index].gain = self.gains[self.id_][index].get() vban.strip[index].gain = self.gains[self.id_][index].get()
def reset_gain(self, *args, index=None): def reset_gain(self, *args, index=None):
""" reset gain to 0 when double click mouse """ """reset gain to 0 when double click mouse"""
vban.strip[index].gain = 0 vban.strip[index].gain = 0
self.gains[self.id_][index].set(0) self.gains[self.id_][index].set(0)
def toggle(self, param, index): def toggle(self, param, index):
""" toggles a strip parameter """ """toggles a strip parameter"""
setattr(vban.strip[index], param, not getattr(vban.strip[index], param)) setattr(vban.strip[index], param, not getattr(vban.strip[index], param))
def col_row_configure(self): def col_row_configure(self):
[self.columnconfigure(i, weight=1) for i in range(self.col*2)] [self.columnconfigure(i, weight=1) for i in range(self.col * 2)]
[child.grid_configure(padx=1, pady=1) [child.grid_configure(padx=1, pady=1) for child in self.winfo_children()]
for child in self.winfo_children()]
def watch_levels(self, i): def watch_levels(self, i):
self.after(1, self.watch_levels_step, i) self.after(1, self.watch_levels_step, i)
def watch_levels_step(self, i): def watch_levels_step(self, i):
val = vban.strip[i].levels.prefader[0] + vban.strip[i].gain val = vban.strip[i].levels.prefader[0] + vban.strip[i].gain
self.levels[self.id_][i].set((0 if vban.strip[i].mute else 100 + (val-30))) self.levels[self.id_][i].set((0 if vban.strip[i].mute else 100 + (val - 30)))
self.after(20, self.watch_levels_step, i) self.after(20, self.watch_levels_step, i)
_apps = {kind.id: App.make(kind) for kind in kinds.all} _apps = {kind.id: App.make(kind) for kind in kinds.all}
def connect(kind_id: str) -> App: def connect(kind_id: str) -> App:
""" return App of the kind requested """ """return App of the kind requested"""
try: try:
APP_cls = _apps[kind_id] APP_cls = _apps[kind_id]
return APP_cls() return APP_cls()
except KeyError: except KeyError:
raise ExampleAppErrors(f'Invalid kind: {kind_id}') raise ExampleAppErrors(f"Invalid kind: {kind_id}")
if __name__ == "__main__": if __name__ == "__main__":
kind_id = 'potato' kind_id = "potato"
opts = { opts = {
# make sure VBAN is configured on remote machine then set IP accordingly # make sure VBAN is configured on remote machine then set IP accordingly
'ip': 'ws.local', "ip": "ws.local",
'streamname': 'testing', "streamname": "testing",
'port': 6990, "port": 6990,
} }
with vbancmd.connect(kind_id, **opts) as vban: with vban_cmd.connect(kind_id, **opts) as vban:
app = connect(kind_id) app = connect(kind_id)
app.mainloop() app.mainloop()

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docs = ["furo", "sphinx", "zope.interface", "sphinx-notfound-page"]
tests = ["coverage[toml] (>=5.0.2)", "hypothesis", "pympler", "pytest (>=4.3.0)", "six", "mypy", "pytest-mypy-plugins", "zope.interface", "cloudpickle"]
tests_no_zope = ["coverage[toml] (>=5.0.2)", "hypothesis", "pympler", "pytest (>=4.3.0)", "six", "mypy", "pytest-mypy-plugins", "cloudpickle"]
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22
pyproject.toml Normal file
View File

@ -0,0 +1,22 @@
[tool.poetry]
name = "vban-cmd"
version = "1.0.1"
description = "Python interface for the VBAN RT Packet Service (Sendtext)"
authors = ["onyx-and-iris <code@onyxandiris.online>"]
license = "MIT"
readme = "README.md"
repository = "https://github.com/onyx-and-iris/vban-cmd-python"
[tool.poetry.dependencies]
python = "^3.11"
[tool.poetry.dev-dependencies]
pytest = "^7.1.2"
pytest-randomly = "^3.12.0"
black = "^22.3.0"
isort = "^5.10.1"
[build-system]
requires = ["poetry-core>=1.0.0"]
build-backend = "poetry.core.masonry.api"

View File

@ -1,10 +0,0 @@
from setuptools import setup
setup(
name="vbancmd",
version="0.4.0",
description="VBAN CMD Python API",
packages=["vbancmd"],
install_requires=["toml"],
extras_require={"development": ["pytest", "pytest-randomly", "genbadge[tests]"]},
)

View File

@ -1,30 +1,32 @@
from dataclasses import dataclass
import vbancmd
from vbancmd import kinds
import random import random
import sys import sys
from dataclasses import dataclass
import vban_cmd
from vban_cmd.kinds import KindId, kinds_all
from vban_cmd.kinds import request_kind_map as kindmap
# let's keep things random # let's keep things random
kind_id = random.choice(tuple(kind.id for kind in kinds.all)) kind_id = random.choice(tuple(kind_id.name.lower() for kind_id in KindId))
opts = { opts = {
"ip": "codey.local", "ip": "ws.local",
"streamname": "codey", "streamname": "workstation",
"port": 6990, "port": 6990,
"bps": 0, "bps": 0,
"sync": True, "sync": True,
} }
vbans = {kind.id: vbancmd.connect(kind_id, **opts) for kind in kinds.all} vbans = {kind.name: vban_cmd.api(kind.name, **opts) for kind in kinds_all}
tests = vbans[kind_id] tests = vbans[kind_id]
kind = kinds.get(kind_id) kind = kindmap(kind_id)
@dataclass @dataclass
class Data: class Data:
"""bounds data to map tests to a kind""" """bounds data to map tests to a kind"""
name: str = kind.id name: str = kind.name
phys_in: int = kind.ins[0] - 1 phys_in: int = kind.ins[0] - 1
virt_in: int = kind.ins[0] + kind.ins[1] - 1 virt_in: int = kind.ins[0] + kind.ins[1] - 1
phys_out: int = kind.outs[0] - 1 phys_out: int = kind.outs[0] - 1
@ -41,7 +43,6 @@ data = Data()
def setup_module(): def setup_module():
print(f"\nRunning tests for kind [{data.name}]\n", file=sys.stdout) print(f"\nRunning tests for kind [{data.name}]\n", file=sys.stdout)
tests.login() tests.login()
tests.apply_profile("blank")
def teardown_module(): def teardown_module():

7
tests/conftest.py Normal file
View File

@ -0,0 +1,7 @@
def pytest_addoption(parser):
parser.addoption(
"--run-slow",
action="store_true",
default=False,
help="Run slow tests",
)

View File

@ -1,31 +0,0 @@
Function RunTests {
$coverage = "./tests/pytest_coverage.log"
$run_tests = "pytest -v --capture=tee-sys --junitxml=./tests/.coverage.xml"
$match_pattern = "^=|^\s*$|^Running|^Using|^plugins|^collecting|^tests"
if ( Test-Path $coverage ) { Clear-Content $coverage }
ForEach ($line in $(Invoke-Expression $run_tests)) {
If ( $line -Match $match_pattern ) {
if ( $line -Match "^Running tests for kind \[(\w+)\]" ) { $kind = $Matches[1] }
$line | Tee-Object -FilePath $coverage -Append
}
}
Write-Output "$(Get-TimeStamp)" | Out-file $coverage -Append
Invoke-Expression "genbadge tests -t 90 -i ./tests/.coverage.xml -o ./tests/$kind.svg"
}
Function Get-TimeStamp {
return "[{0:MM/dd/yy} {0:HH:mm:ss}]" -f (Get-Date)
}
if ($MyInvocation.InvocationName -ne ".") {
Invoke-Expression ".\venv\Scripts\Activate.ps1"
RunTests
Invoke-Expression "deactivate"
}

View File

@ -1,5 +1,6 @@
import pytest import pytest
from tests import tests, data
from tests import data, tests
@pytest.mark.parametrize("value", [False, True]) @pytest.mark.parametrize("value", [False, True])
@ -12,15 +13,27 @@ class TestSetAndGetBoolHigher:
"index,param", "index,param",
[ [
(data.phys_in, "mute"), (data.phys_in, "mute"),
(data.phys_in, "mono"), (data.virt_in, "solo"),
(data.virt_in, "mc"),
(data.virt_in, "mono"),
], ],
) )
def test_it_sets_and_gets_strip_bool_params(self, index, param, value): def test_it_sets_and_gets_strip_bool_params(self, index, param, value):
setattr(tests.strip[index], param, value) setattr(tests.strip[index], param, value)
assert getattr(tests.strip[index], param) == value assert getattr(tests.strip[index], param) == value
@pytest.mark.skipif(
data.name == "banana",
reason="Only test if logged into Basic or Potato version",
)
@pytest.mark.parametrize(
"index,param",
[
(data.phys_in, "mc"),
],
)
def test_it_sets_and_gets_strip_bool_params_mc(self, index, param, value):
setattr(tests.strip[index], param, value)
assert getattr(tests.strip[index], param) == value
""" bus tests, physical and virtual """ """ bus tests, physical and virtual """
@pytest.mark.parametrize( @pytest.mark.parametrize(

View File

@ -1,7 +1,9 @@
import time
import pytest import pytest
from tests import tests, data from vban_cmd import kinds
from vbancmd import kinds
import re from tests import data, tests
class TestPublicPacketLower: class TestPublicPacketLower:
@ -10,9 +12,15 @@ class TestPublicPacketLower:
"""Tests for a valid rt data packet""" """Tests for a valid rt data packet"""
def test_it_gets_an_rt_data_packet(self): def test_it_gets_an_rt_data_packet(self):
assert tests.public_packet.voicemeetertype in (kind.id for kind in kinds.all) assert tests.public_packet.voicemeetertype in (
kind.name for kind in kinds.kinds_all
)
@pytest.mark.skipif(
"not config.getoption('--run-slow')",
reason="Only run when --run-slow is given",
)
@pytest.mark.parametrize("value", [0, 1]) @pytest.mark.parametrize("value", [0, 1])
class TestSetRT: class TestSetRT:
__test__ = True __test__ = True
@ -26,7 +34,8 @@ class TestSetRT:
("bus", data.virt_out, "mono"), ("bus", data.virt_out, "mono"),
], ],
) )
def test_it_gets_an_rt_data_packet(self, kls, index, param, value): def test_it_sends_a_text_request(self, kls, index, param, value):
tests.set_rt(f"{kls}[{index}]", param, value) tests._set_rt(f"{kls}[{index}]", param, value)
time.sleep(0.1)
target = getattr(tests, kls)[index] target = getattr(tests, kls)[index]
assert getattr(target, param) == bool(value) assert getattr(target, param) == bool(value)

3
vban_cmd/__init__.py Normal file
View File

@ -0,0 +1,3 @@
from .factory import request_vbancmd_obj as api
__ALL__ = ["api"]

269
vban_cmd/base.py Normal file
View File

@ -0,0 +1,269 @@
import socket
import time
from abc import ABCMeta, abstractmethod
from enum import IntEnum
from threading import Thread
from typing import NoReturn, Optional, Union
from .packet import (
HEADER_SIZE,
RegisterRTHeader,
TextRequestHeader,
VBAN_VMRT_Packet_Data,
VBAN_VMRT_Packet_Header,
)
from .subject import Subject
from .util import script
Socket = IntEnum("Socket", "register request response", start=0)
class VbanCmd(metaclass=ABCMeta):
"""Base class responsible for communicating over VBAN RT Service"""
DELAY = 0.001
# fmt: off
BPS_OPTS = [
0, 110, 150, 300, 600, 1200, 2400, 4800, 9600, 14400, 19200, 31250,
38400, 57600, 115200, 128000, 230400, 250000, 256000, 460800, 921600,
1000000, 1500000, 2000000, 3000000,
]
# fmt: on
def __init__(self, **kwargs):
for attr, val in kwargs.items():
setattr(self, attr, val)
self.text_header = TextRequestHeader(
name=self.streamname,
bps_index=self.BPS_OPTS.index(self.bps),
channel=self.channel,
)
self.register_header = RegisterRTHeader()
self.expected_packet = VBAN_VMRT_Packet_Header()
self.socks = tuple(
socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
for _, _ in enumerate(Socket)
)
self.running = True
self.subject = Subject()
self.cache = {}
@abstractmethod
def __str__(self):
"""Ensure subclasses override str magic method"""
pass
def __enter__(self):
self.login()
return self
def login(self):
"""Start listening for RT Packets"""
self.socks[Socket.response.value].bind(
(socket.gethostbyname(socket.gethostname()), self.port)
)
worker = Thread(target=self._send_register_rt, daemon=True)
worker.start()
self._public_packet = self._get_rt()
worker2 = Thread(target=self._updates, daemon=True)
worker2.start()
def _send_register_rt(self):
"""Fires a subscription packet every 10 seconds"""
while self.running:
self.socks[Socket.register.value].sendto(
self.register_header.header,
(socket.gethostbyname(self.ip), self.port),
)
count = int.from_bytes(self.register_header.framecounter, "little") + 1
self.register_header.framecounter = count.to_bytes(4, "little")
time.sleep(10)
def _fetch_rt_packet(self) -> Optional[VBAN_VMRT_Packet_Data]:
"""Returns a valid RT Data Packet or None"""
data, _ = self.socks[Socket.response.value].recvfrom(2048)
# check for packet data
if len(data) > HEADER_SIZE:
# check if packet is of type VBAN
if self.expected_packet.header == data[: HEADER_SIZE - 4]:
# check if packet is of type vmrt_data
if int.from_bytes(data[4:5]) == int(0x60):
return VBAN_VMRT_Packet_Data(
_voicemeeterType=data[28:29],
_reserved=data[29:30],
_buffersize=data[30:32],
_voicemeeterVersion=data[32:36],
_optionBits=data[36:40],
_samplerate=data[40:44],
_inputLeveldB100=data[44:112],
_outputLeveldB100=data[112:240],
_TransportBit=data[240:244],
_stripState=data[244:276],
_busState=data[276:308],
_stripGaindB100Layer1=data[308:324],
_stripGaindB100Layer2=data[324:340],
_stripGaindB100Layer3=data[340:356],
_stripGaindB100Layer4=data[356:372],
_stripGaindB100Layer5=data[372:388],
_stripGaindB100Layer6=data[388:404],
_stripGaindB100Layer7=data[404:420],
_stripGaindB100Layer8=data[420:436],
_busGaindB100=data[436:452],
_stripLabelUTF8c60=data[452:932],
_busLabelUTF8c60=data[932:1412],
)
def _get_rt(self) -> VBAN_VMRT_Packet_Data:
"""Attempt to fetch data packet until a valid one found"""
def fget():
data = False
while not data:
data = self._fetch_rt_packet()
time.sleep(self.DELAY)
return data
return fget()
def _set_rt(
self,
id_: str,
param: Optional[str] = None,
val: Optional[Union[int, float]] = None,
):
"""Sends a string request command over a network."""
cmd = id_ if not param else f"{id_}.{param}={val}"
self.socks[Socket.request.value].sendto(
self.text_header.header + cmd.encode(),
(socket.gethostbyname(self.ip), self.port),
)
count = int.from_bytes(self.text_header.framecounter, "little") + 1
self.text_header.framecounter = count.to_bytes(4, "little")
if param:
self.cache[f"{id_}.{param}"] = val
@script
def sendtext(self, cmd):
"""Sends a multiple parameter string over a network."""
self._set_rt(cmd)
time.sleep(self.DELAY)
@property
def type(self) -> str:
"""Returns the type of Voicemeeter installation."""
return self.public_packet.voicemeetertype
@property
def version(self) -> str:
"""Returns Voicemeeter's version as a tuple"""
v1, v2, v3, v4 = self.public_packet.voicemeeterversion
return f"{v1}.{v2}.{v3}.{v4}"
@property
def pdirty(self):
"""True iff a parameter has changed"""
return self._pdirty
@property
def ldirty(self):
"""True iff a level value has changed."""
return self._ldirty
@property
def public_packet(self):
return self._public_packet
def clear_dirty(self):
while self.pdirty:
pass
def _updates(self) -> NoReturn:
while self.running:
private_packet = self._get_rt()
strip_comp, bus_comp = (
tuple(
not a == b
for a, b in zip(
private_packet.inputlevels, self.public_packet.inputlevels
)
),
tuple(
not a == b
for a, b in zip(
private_packet.outputlevels, self.public_packet.outputlevels
)
),
)
if self._public_packet != private_packet:
self._public_packet = private_packet
if private_packet.pdirty(self.public_packet):
self.subject.notify("pdirty")
if any(any(list_) for list_ in (strip_comp, bus_comp)):
self.subject.notify(
"ldirty",
(
self.public_packet.inputlevels,
strip_comp,
self.public_packet.outputlevels,
bus_comp,
),
)
time.sleep(self.ratelimit)
@property
def strip_levels(self):
"""Returns the full strip level array for a kind, PREFADER mode, before math conversion"""
return tuple(
list(filter(lambda x: x != ((1 << 16) - 1), self.public_packet.inputlevels))
)
@property
def bus_levels(self):
"""Returns the full bus level array for a kind, before math conversion"""
return tuple(
list(
filter(lambda x: x != ((1 << 16) - 1), self.public_packet.outputlevels)
)
)
def apply(self, data: dict):
"""
Sets all parameters of a dict
minor delay between each recursion
"""
def param(key):
obj, m2, *rem = key.split("-")
index = int(m2) if m2.isnumeric() else int(*rem)
if obj in ("strip", "bus"):
return getattr(self, obj)[index]
else:
raise ValueError(obj)
[param(key).apply(datum).then_wait() for key, datum in data.items()]
def apply_config(self, name):
"""applies a config from memory"""
error_msg = (
f"No config with name '{name}' is loaded into memory",
f"Known configs: {list(self.configs.keys())}",
)
try:
self.apply(self.configs[name])
except KeyError as e:
print(("\n").join(error_msg))
print(f"Profile '{name}' applied!")
def logout(self):
self.running = False
time.sleep(0.2)
[sock.close() for sock in self.socks]
def __exit__(self, exc_type, exc_value, exc_traceback):
self.logout()

151
vban_cmd/bus.py Normal file
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@ -0,0 +1,151 @@
from abc import abstractmethod
from typing import Union
from .iremote import IRemote
from .meta import bus_mode_prop, channel_bool_prop, channel_label_prop
class Bus(IRemote):
"""
Implements the common interface
Defines concrete implementation for bus
"""
@abstractmethod
def __str__(self):
pass
@property
def identifier(self) -> str:
return f"Bus[{self.index}]"
@property
def gain(self) -> float:
def fget():
val = self.public_packet.busgain[self.index]
if val < 10000:
return -val
elif val == ((1 << 16) - 1):
return 0
else:
return ((1 << 16) - 1) - val
val = self.getter("gain")
if val is None:
val = fget() * 0.01
return round(val, 1)
@gain.setter
def gain(self, val: float):
self.setter("gain", val)
class PhysicalBus(Bus):
def __str__(self):
return f"{type(self).__name__}{self.index}"
@property
def device(self) -> str:
return
@property
def sr(self) -> int:
return
class VirtualBus(Bus):
def __str__(self):
return f"{type(self).__name__}{self.index}"
class BusLevel(IRemote):
def __init__(self, remote, index):
super().__init__(remote, index)
self.level_map = tuple(
(i, i + 8)
for i in range(0, (remote.kind.phys_out + remote.kind.virt_out) * 8, 8)
)
def getter(self):
"""Returns a tuple of level values for the channel."""
range_ = self.level_map[self.index]
return tuple(
round(-i * 0.01, 1) for i in self._remote.bus_levels[range_[0] : range_[-1]]
)
@property
def identifier(self) -> str:
return f"Bus[{self.index}]"
@property
def all(self) -> tuple:
return self.getter()
@property
def updated(self) -> tuple:
return self._remote._bus_comp
def _make_bus_mode_mixin():
"""Creates a mixin of Bus Modes."""
def identifier(self) -> str:
return f"Bus[{self.index}].mode"
return type(
"BusModeMixin",
(IRemote,),
{
"identifier": property(identifier),
**{
mode: bus_mode_prop(mode)
for mode in [
"normal",
"amix",
"bmix",
"repeat",
"composite",
"tvmix",
"upmix21",
"upmix41",
"upmix61",
"centeronly",
"lfeonly",
"rearonly",
]
},
},
)
def bus_factory(phys_bus, remote, i) -> Union[PhysicalBus, VirtualBus]:
"""
Factory method for buses
Returns a physical or virtual bus subclass
"""
BUS_cls = PhysicalBus if phys_bus else VirtualBus
BUSMODEMIXIN_cls = _make_bus_mode_mixin()
return type(
f"{BUS_cls.__name__}{remote.kind}",
(BUS_cls,),
{
"levels": BusLevel(remote, i),
"mode": BUSMODEMIXIN_cls(remote, i),
**{param: channel_bool_prop(param) for param in ["mute", "mono"]},
"eq": channel_bool_prop("eq.On"),
"eq_ab": channel_bool_prop("eq.ab"),
"label": channel_label_prop(),
},
)(remote, i)
def request_bus_obj(phys_bus, remote, i) -> Bus:
"""
Bus entry point. Wraps factory method.
Returns a reference to a bus subclass of a kind
"""
return bus_factory(phys_bus, remote, i)

View File

@ -1,25 +1,14 @@
import abc from .error import VMCMDErrors
from .errors import VMCMDErrors from .iremote import IRemote
from .meta import action_prop from .meta import action_prop
class ICommand(abc.ABC): class Command(IRemote):
"""Command Base Class""" """
Implements the common interface
def __init__(self, remote): Defines concrete implementation for command
self._remote = remote """
def setter(self, param, val):
"""Sends a string request RT packet."""
self._remote.set_rt(f"{self.identifier}", param, val)
@abc.abstractmethod
def identifier(self):
pass
class Command(ICommand):
"""Command Concrete Class"""
@classmethod @classmethod
def make(cls, remote): def make(cls, remote):
@ -29,7 +18,7 @@ class Command(ICommand):
Returns a Command class of a kind. Returns a Command class of a kind.
""" """
CMD_cls = type( CMD_cls = type(
f"Command{remote.kind.name}", f"Command{remote.kind}",
(cls,), (cls,),
{ {
**{ **{

191
vban_cmd/config.py Normal file
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@ -0,0 +1,191 @@
import itertools
from pathlib import Path
import tomllib
from .kinds import request_kind_map as kindmap
class TOMLStrBuilder:
"""builds a config profile, as a string, for the toml parser"""
def __init__(self, kind):
self.kind = kind
self.phys_in, self.virt_in = kind.ins
self.phys_out, self.virt_out = kind.outs
self.higher = itertools.chain(
[f"strip-{i}" for i in range(kind.num_strip)],
[f"bus-{i}" for i in range(kind.num_bus)],
)
def init_config(self, profile=None):
self.virt_strip_params = (
[
"mute = false",
"mono = false",
"solo = false",
"gain = 0.0",
]
+ [f"A{i} = false" for i in range(1, self.phys_out + 1)]
+ [f"B{i} = false" for i in range(1, self.virt_out + 1)]
)
self.phys_strip_params = self.virt_strip_params + [
"comp = 0.0",
"gate = 0.0",
]
self.bus_bool = ["mono = false", "eq = false", "mute = false"]
if profile == "reset":
self.reset_config()
def reset_config(self):
self.phys_strip_params = list(
map(lambda x: x.replace("B1 = false", "B1 = true"), self.phys_strip_params)
)
self.virt_strip_params = list(
map(lambda x: x.replace("A1 = false", "A1 = true"), self.virt_strip_params)
)
def build(self, profile="reset"):
self.init_config(profile)
toml_str = str()
for eachclass in self.higher:
toml_str += f"[{eachclass}]\n"
toml_str = self.join(eachclass, toml_str)
return toml_str
def join(self, eachclass, toml_str):
kls, index = eachclass.split("-")
match kls:
case "strip":
toml_str += ("\n").join(
self.phys_strip_params
if int(index) < self.phys_in
else self.virt_strip_params
)
case "bus":
toml_str += ("\n").join(self.bus_bool)
case _:
pass
return toml_str + "\n"
class TOMLDataExtractor:
def __init__(self, file):
self._data = dict()
with open(file, "rb") as f:
self._data = tomllib.load(f)
@property
def data(self):
return self._data
@data.setter
def data(self, value):
self._data = value
def dataextraction_factory(file):
"""
factory function for parser
this opens the possibility for other parsers to be added
"""
if file.suffix == ".toml":
extractor = TOMLDataExtractor
else:
raise ValueError("Cannot extract data from {}".format(file))
return extractor(file)
class SingletonType(type):
"""ensure only a single instance of Loader object"""
_instances = {}
def __call__(cls, *args, **kwargs):
if cls not in cls._instances:
cls._instances[cls] = super(SingletonType, cls).__call__(*args, **kwargs)
return cls._instances[cls]
class Loader(metaclass=SingletonType):
"""
invokes the parser
checks if config already in memory
loads data into memory if not found
"""
def __init__(self, kind):
self._kind = kind
self._configs = dict()
self.defaults(kind)
self.parser = None
def defaults(self, kind):
self.builder = TOMLStrBuilder(kind)
toml_str = self.builder.build()
self.register("reset", tomllib.loads(toml_str))
def parse(self, identifier, data):
if identifier in self._configs:
print(f"config file with name {identifier} already in memory, skipping..")
return False
self.parser = dataextraction_factory(data)
return True
def register(self, identifier, data=None):
self._configs[identifier] = data if data else self.parser.data
print(f"config {self.name}/{identifier} loaded into memory")
def deregister(self):
self._configs.clear()
self.defaults(self._kind)
@property
def configs(self):
return self._configs
@property
def name(self):
return self._kind.name
def loader(kind):
"""
traverses defined paths for config files
directs the loader
returns configs loaded into memory
"""
loader = Loader(kind)
for path in (
Path.cwd() / "configs" / kind.name,
Path(__file__).parent / "configs" / kind.name,
Path.home() / "Documents/Voicemeeter" / "configs" / kind.name,
):
if path.is_dir():
print(f"Checking [{path}] for TOML config files:")
for file in path.glob("*.toml"):
identifier = file.with_suffix("").stem
if loader.parse(identifier, file):
loader.register(identifier)
return loader.configs
def request_config(kind_id: str):
"""
config entry point.
Returns all configs loaded into memory for a kind
"""
try:
configs = loader(kindmap(kind_id))
except KeyError as e:
print(f"Unknown Voicemeeter kind '{kind_id}'")
return configs

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@ -1,2 +1,4 @@
class VMCMDErrors(Exception): class VMCMDErrors(Exception):
"""general errors"""
pass pass

190
vban_cmd/factory.py Normal file
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@ -0,0 +1,190 @@
from abc import abstractmethod
from enum import IntEnum
from functools import cached_property
from typing import Iterable, NoReturn, Self
from .base import VbanCmd
from .bus import request_bus_obj as bus
from .command import Command
from .config import request_config as configs
from .kinds import KindMapClass
from .kinds import request_kind_map as kindmap
from .strip import request_strip_obj as strip
class FactoryBuilder:
"""
Builder class for factories.
Separates construction from representation.
"""
BuilderProgress = IntEnum("BuilderProgress", "strip bus command", start=0)
def __init__(self, factory, kind: KindMapClass):
self._factory = factory
self.kind = kind
self._info = (
f"Finished building strips for {self._factory}",
f"Finished building buses for {self._factory}",
f"Finished building commands for {self._factory}",
)
def _pinfo(self, name: str) -> NoReturn:
"""prints progress status for each step"""
name = name.split("_")[1]
print(self._info[int(getattr(self.BuilderProgress, name))])
def make_strip(self) -> Self:
self._factory.strip = tuple(
strip(self.kind.phys_in < i, self._factory, i)
for i in range(self.kind.num_strip)
)
return self
def make_bus(self) -> Self:
self._factory.bus = tuple(
bus(self.kind.phys_out < i, self._factory, i)
for i in range(self.kind.num_bus)
)
return self
def make_command(self) -> Self:
self._factory.command = Command.make(self._factory)
return self
class FactoryBase(VbanCmd):
"""Base class for factories, subclasses VbanCmd."""
def __init__(self, kind_id: str, **kwargs):
defaultkwargs = {
"ip": None,
"port": 6980,
"streamname": "Command1",
"bps": 0,
"channel": 0,
"ratelimit": 0,
"sync": False,
}
kwargs = defaultkwargs | kwargs
self.kind = kindmap(kind_id)
super().__init__(**kwargs)
self.builder = FactoryBuilder(self, self.kind)
self._steps = (
self.builder.make_strip,
self.builder.make_bus,
self.builder.make_command,
)
self._configs = None
def __str__(self) -> str:
return f"Voicemeeter {self.kind}"
@property
@abstractmethod
def steps(self):
pass
@cached_property
def configs(self):
self._configs = configs(self.kind.name)
return self._configs
class BasicFactory(FactoryBase):
"""
Represents a Basic VbanCmd subclass
Responsible for directing the builder class
"""
def __new__(cls, *args, **kwargs):
if cls is BasicFactory:
raise TypeError(f"'{cls.__name__}' does not support direct instantiation")
return object.__new__(cls)
def __init__(self, kind_id, **kwargs):
super().__init__(kind_id, **kwargs)
[step()._pinfo(step.__name__) for step in self.steps]
@property
def steps(self) -> Iterable:
"""steps required to build the interface for a kind"""
return self._steps
class BananaFactory(FactoryBase):
"""
Represents a Banana VbanCmd subclass
Responsible for directing the builder class
"""
def __new__(cls, *args, **kwargs):
if cls is BananaFactory:
raise TypeError(f"'{cls.__name__}' does not support direct instantiation")
return object.__new__(cls)
def __init__(self, kind_id, **kwargs):
super().__init__(kind_id, **kwargs)
[step()._pinfo(step.__name__) for step in self.steps]
@property
def steps(self) -> Iterable:
"""steps required to build the interface for a kind"""
return self._steps
class PotatoFactory(FactoryBase):
"""
Represents a Potato VbanCmd subclass
Responsible for directing the builder class
"""
def __new__(cls, *args, **kwargs):
if cls is PotatoFactory:
raise TypeError(f"'{cls.__name__}' does not support direct instantiation")
return object.__new__(cls)
def __init__(self, kind_id: str, **kwargs):
super().__init__(kind_id, **kwargs)
[step()._pinfo(step.__name__) for step in self.steps]
@property
def steps(self) -> Iterable:
"""steps required to build the interface for a kind"""
return self._steps
def vbancmd_factory(kind_id: str, **kwargs) -> VbanCmd:
"""
Factory method, invokes a factory creation class of a kind
Returns a VbanCmd class of a kind
"""
match kind_id:
case "basic":
_factory = BasicFactory
case "banana":
_factory = BananaFactory
case "potato":
_factory = PotatoFactory
case _:
raise ValueError(f"Unknown Voicemeeter kind '{kind_id}'")
return type(f"VbanCmd{kind_id.capitalize()}", (_factory,), {})(kind_id, **kwargs)
def request_vbancmd_obj(kind_id: str, **kwargs) -> VbanCmd:
"""
Interface entry point. Wraps factory method and handles errors
Returns a reference to a VbanCmd class of a kind
"""
VBANCMD_obj = None
try:
VBANCMD_obj = vbancmd_factory(kind_id, **kwargs)
except (ValueError, TypeError) as e:
raise SystemExit(e)
return VBANCMD_obj

View File

@ -1,7 +1,6 @@
import abc import time
from .errors import VMCMDErrors from abc import ABCMeta, abstractmethod
from dataclasses import dataclass from dataclasses import dataclass
from time import sleep
@dataclass @dataclass
@ -76,24 +75,28 @@ class Modes:
) )
class IChannel(abc.ABC): class IRemote(metaclass=ABCMeta):
"""Base class for InputStrip and OutputBus.""" """
Common interface between base class and extended (higher) classes
def __init__(self, remote, index): Provides some default implementation
"""
def __init__(self, remote, index=None):
self._remote = remote self._remote = remote
self.index = index self.index = index
self._modes = Modes() self._modes = Modes()
def getter(self, param): def getter(self, param):
cmd = f"{self.identifier}[{self.index}].{param}" cmd = f"{self.identifier}.{param}"
if cmd in self._remote.cache: if cmd in self._remote.cache:
return self._remote.cache.pop(cmd) return self._remote.cache.pop(cmd)
def setter(self, param, val): def setter(self, param, val):
"""Sends a string request RT packet.""" """Sends a string request RT packet."""
self._remote.set_rt(f"{self.identifier}[{self.index}]", param, val) self._remote._set_rt(f"{self.identifier}", param, val)
@abc.abstractmethod @abstractmethod
def identifier(self): def identifier(self):
pass pass
@ -102,13 +105,16 @@ class IChannel(abc.ABC):
"""Returns an RT data packet.""" """Returns an RT data packet."""
return self._remote.public_packet return self._remote.public_packet
def apply(self, mapping): def apply(self, data):
"""Sets all parameters of a dict for the channel.""" """Sets all parameters of a dict for the channel."""
script = "" script = ""
for key, val in mapping.items(): for attr, val in data.items():
if not hasattr(self, key): if hasattr(self, attr):
raise VMCMDErrors(f"Invalid {self.identifier} attribute: {key}") self._remote.cache[f"{self.identifier}[{self.index}].{attr}"] = val
self._remote.cache[f"{self.identifier}[{self.index}].{key}"] = val script += f"{self.identifier}[{self.index}].{attr}={val};"
script += f"{self.identifier}[{self.index}].{key}={val};"
self._remote.sendtext(script) self._remote.sendtext(script)
return self
def then_wait(self):
time.sleep(self._remote.DELAY)

104
vban_cmd/kinds.py Normal file
View File

@ -0,0 +1,104 @@
from dataclasses import dataclass
from enum import Enum, unique
@unique
class KindId(Enum):
BASIC = 1
BANANA = 2
POTATO = 3
class SingletonType(type):
"""ensure only a single instance of a kind map object"""
_instances = {}
def __call__(cls, *args, **kwargs):
if cls not in cls._instances:
cls._instances[cls] = super(SingletonType, cls).__call__(*args, **kwargs)
return cls._instances[cls]
@dataclass
class KindMapClass(metaclass=SingletonType):
name: str
ins: tuple
outs: tuple
vban: tuple
@property
def phys_in(self):
return self.ins[0]
@property
def virt_in(self):
return self.ins[-1]
@property
def phys_out(self):
return self.outs[0]
@property
def virt_out(self):
return self.outs[-1]
@property
def num_strip(self):
return sum(self.ins)
@property
def num_bus(self):
return sum(self.outs)
def __str__(self) -> str:
return self.name.capitalize()
@dataclass
class BasicMap(KindMapClass):
name: str
ins: tuple = (2, 1)
outs: tuple = (1, 1)
vban: tuple = (4, 4)
@dataclass
class BananaMap(KindMapClass):
name: str
ins: tuple = (3, 2)
outs: tuple = (3, 2)
vban: tuple = (8, 8)
@dataclass
class PotatoMap(KindMapClass):
name: str
ins: tuple = (5, 3)
outs: tuple = (5, 3)
vban: tuple = (8, 8)
def kind_factory(kind_id):
match kind_id:
case "basic":
_kind_map = BasicMap
case "banana":
_kind_map = BananaMap
case "potato":
_kind_map = PotatoMap
case _:
raise ValueError(f"Unknown Voicemeeter kind {kind_id}")
return _kind_map(name=kind_id)
def request_kind_map(kind_id):
KIND_obj = None
try:
KIND_obj = kind_factory(kind_id)
except ValueError as e:
print(e)
return KIND_obj
kinds_all = list(request_kind_map(kind_id.name.lower()) for kind_id in KindId)

View File

@ -1,17 +1,20 @@
from .util import cache_bool, cache_string
from .errors import VMCMDErrors
from functools import partial from functools import partial
from .error import VMCMDErrors
from .util import cache_bool, cache_string
def channel_bool_prop(param): def channel_bool_prop(param):
"""A channel bool prop. (strip|bus)""" """meta function for channel boolean parameters"""
@partial(cache_bool, param=param) @partial(cache_bool, param=param)
def fget(self): def fget(self):
return ( return (
not int.from_bytes( not int.from_bytes(
getattr(self.public_packet, f"{self.identifier}state")[self.index], getattr(
self.public_packet,
f"{'strip' if 'strip' in type(self).__name__.lower() else 'bus'}state",
)[self.index],
"little", "little",
) )
& getattr(self._modes, f'_{param.replace(".", "_").lower()}') & getattr(self._modes, f'_{param.replace(".", "_").lower()}')
@ -27,11 +30,14 @@ def channel_bool_prop(param):
def channel_label_prop(): def channel_label_prop():
"""A channel label prop. (strip|bus)""" """meta function for channel label parameters"""
@partial(cache_string, param="label") @partial(cache_string, param="label")
def fget(self) -> str: def fget(self) -> str:
return getattr(self.public_packet, f"{self.identifier}labels")[self.index] return getattr(
self.public_packet,
f"{'strip' if 'strip' in type(self).__name__.lower() else 'bus'}labels",
)[self.index]
def fset(self, val: str): def fset(self, val: str):
if not isinstance(val, str): if not isinstance(val, str):
@ -42,7 +48,7 @@ def channel_label_prop():
def strip_output_prop(param): def strip_output_prop(param):
"""A strip output prop. (A1-A5, B1-B3)""" """meta function for strip output parameters. (A1-A5, B1-B3)"""
@partial(cache_bool, param=param) @partial(cache_bool, param=param)
def fget(self): def fget(self):
@ -61,7 +67,7 @@ def strip_output_prop(param):
def bus_mode_prop(param): def bus_mode_prop(param):
"""A bus mode prop.""" """meta function for bus mode parameters"""
@partial(cache_bool, param=param) @partial(cache_bool, param=param)
def fget(self): def fget(self):

View File

@ -8,7 +8,7 @@ HEADER_SIZE = 4 + 1 + 1 + 1 + 1 + 16 + 4
@dataclass @dataclass
class VBAN_VMRT_Packet_Data: class VBAN_VMRT_Packet_Data:
"""RT Packet Data""" """Represents the structure of a VMRT data packet"""
_voicemeeterType: bytes _voicemeeterType: bytes
_reserved: bytes _reserved: bytes
@ -198,7 +198,7 @@ class VBAN_VMRT_Packet_Data:
@dataclass @dataclass
class VBAN_VMRT_Packet_Header: class VBAN_VMRT_Packet_Header:
"""RT PACKET header (expected from Voicemeeter server)""" """Represents a RESPONSE RT PACKET header"""
name = "Voicemeeter-RTP" name = "Voicemeeter-RTP"
vban: bytes = "VBAN".encode() vban: bytes = "VBAN".encode()
@ -220,36 +220,9 @@ class VBAN_VMRT_Packet_Header:
return header return header
@dataclass
class RegisterRTHeader:
"""REGISTER RT PACKET header"""
name = "Register RTP"
timeout = 15
vban: bytes = "VBAN".encode()
format_sr: bytes = (0x60).to_bytes(1, "little")
format_nbs: bytes = (0).to_bytes(1, "little")
format_nbc: bytes = (VBAN_SERVICE_RTPACKETREGISTER).to_bytes(1, "little")
format_bit: bytes = (timeout & 0x000000FF).to_bytes(1, "little") # timeout
streamname: bytes = name.encode("ascii") + bytes(16 - len(name))
framecounter: bytes = (0).to_bytes(4, "little")
@property
def header(self):
header = self.vban
header += self.format_sr
header += self.format_nbs
header += self.format_nbc
header += self.format_bit
header += self.streamname
header += self.framecounter
assert len(header) == HEADER_SIZE, f"Header expected {HEADER_SIZE} bytes"
return header
@dataclass @dataclass
class TextRequestHeader: class TextRequestHeader:
"""VBAN-TEXT request header""" """Represents a REQUEST RT PACKET header"""
name: str name: str
bps_index: int bps_index: int
@ -282,3 +255,30 @@ class TextRequestHeader:
header += self.framecounter header += self.framecounter
assert len(header) == HEADER_SIZE, f"Header expected {HEADER_SIZE} bytes" assert len(header) == HEADER_SIZE, f"Header expected {HEADER_SIZE} bytes"
return header return header
@dataclass
class RegisterRTHeader:
"""Represents a REGISTER RT PACKET header"""
name = "Register RTP"
timeout = 15
vban: bytes = "VBAN".encode()
format_sr: bytes = (0x60).to_bytes(1, "little")
format_nbs: bytes = (0).to_bytes(1, "little")
format_nbc: bytes = (VBAN_SERVICE_RTPACKETREGISTER).to_bytes(1, "little")
format_bit: bytes = (timeout & 0x000000FF).to_bytes(1, "little") # timeout
streamname: bytes = name.encode("ascii") + bytes(16 - len(name))
framecounter: bytes = (0).to_bytes(4, "little")
@property
def header(self):
header = self.vban
header += self.format_sr
header += self.format_nbs
header += self.format_nbc
header += self.format_bit
header += self.streamname
header += self.framecounter
assert len(header) == HEADER_SIZE, f"Header expected {HEADER_SIZE} bytes"
return header

225
vban_cmd/strip.py Normal file
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@ -0,0 +1,225 @@
from abc import abstractmethod
from typing import Union
from .iremote import IRemote
from .kinds import kinds_all
from .meta import channel_bool_prop, channel_label_prop, strip_output_prop
class Strip(IRemote):
"""
Implements the common interface
Defines concrete implementation for strip
"""
@abstractmethod
def __str__(self):
pass
@property
def identifier(self) -> str:
return f"Strip[{self.index}]"
@property
def limit(self) -> int:
return
@limit.setter
def limit(self, val: int):
self.setter("limit", val)
@property
def gain(self) -> float:
val = self.getter("gain")
if val is None:
val = self.gainlayer[0].gain
return round(val, 1)
@gain.setter
def gain(self, val: float):
self.setter("gain", val)
class PhysicalStrip(Strip):
def __str__(self):
return f"{type(self).__name__}{self.index}"
@property
def comp(self) -> float:
return
@comp.setter
def comp(self, val: float):
self.setter("Comp", val)
@property
def gate(self) -> float:
return
@gate.setter
def gate(self, val: float):
self.setter("gate", val)
@property
def device(self):
return
@property
def sr(self):
return
class VirtualStrip(Strip):
def __str__(self):
return f"{type(self).__name__}{self.index}"
mc = channel_bool_prop("mc")
mono = mc
@property
def k(self) -> int:
return
@k.setter
def k(self, val: int):
self.setter("karaoke", val)
class StripLevel(IRemote):
def __init__(self, remote, index):
super().__init__(remote, index)
phys_map = tuple((i, i + 2) for i in range(0, remote.kind.phys_in * 2, 2))
virt_map = tuple(
(i, i + 8)
for i in range(
remote.kind.phys_in * 2,
remote.kind.phys_in * 2 + remote.kind.virt_in * 8,
8,
)
)
self.level_map = phys_map + virt_map
def getter_prefader(self):
range_ = self.level_map[self.index]
return tuple(
round(-i * 0.01, 1)
for i in self._remote.strip_levels[range_[0] : range_[-1]]
)
@property
def identifier(self) -> str:
return f"Strip[{self.index}]"
@property
def prefader(self) -> tuple:
return self.getter_prefader()
@property
def postfader(self) -> tuple:
return
@property
def postmute(self) -> tuple:
return
@property
def updated(self) -> tuple:
return self._remote._strip_comp
class GainLayer(IRemote):
def __init__(self, remote, index, i):
super().__init__(remote, index)
self._i = i
@property
def identifier(self) -> str:
return f"Strip[{self.index}]"
@property
def gain(self) -> float:
def fget():
val = getattr(self.public_packet, f"stripgainlayer{self._i+1}")[self.index]
if val < 10000:
return -val
elif val == ((1 << 16) - 1):
return 0
else:
return ((1 << 16) - 1) - val
val = self.getter(f"GainLayer[{self._i}]")
if val is None:
val = fget() * 0.01
return round(val, 1)
@gain.setter
def gain(self, val: float):
self.setter(f"GainLayer[{self._i}]", val)
def _make_gainlayer_mixin(remote, index):
"""Creates a GainLayer mixin"""
return type(
f"GainlayerMixin",
(),
{
"gainlayer": tuple(
GainLayer(remote, index, i) for i in range(remote.kind.num_bus)
)
},
)
def _make_channelout_mixin(kind):
"""Creates a channel out property mixin"""
return type(
f"ChannelOutMixin{kind}",
(),
{
**{
f"A{i}": strip_output_prop(f"A{i}") for i in range(1, kind.phys_out + 1)
},
**{
f"B{i}": strip_output_prop(f"B{i}") for i in range(1, kind.virt_out + 1)
},
},
)
_make_channelout_mixins = {
kind.name: _make_channelout_mixin(kind) for kind in kinds_all
}
def strip_factory(is_phys_strip, remote, i) -> Union[PhysicalStrip, VirtualStrip]:
"""
Factory method for strips
Mixes in required classes
Returns a physical or virtual strip subclass
"""
STRIP_cls = PhysicalStrip if is_phys_strip else VirtualStrip
CHANNELOUTMIXIN_cls = _make_channelout_mixins[remote.kind.name]
GAINLAYERMIXIN_cls = _make_gainlayer_mixin(remote, i)
return type(
f"{STRIP_cls.__name__}{remote.kind}",
(STRIP_cls, CHANNELOUTMIXIN_cls, GAINLAYERMIXIN_cls),
{
"levels": StripLevel(remote, i),
**{param: channel_bool_prop(param) for param in ["mono", "solo", "mute"]},
"label": channel_label_prop(),
},
)(remote, i)
def request_strip_obj(is_phys_strip, remote, i) -> Strip:
"""
Strip entry point. Wraps factory method.
Returns a reference to a strip subclass of a kind
"""
return strip_factory(is_phys_strip, remote, i)

39
vban_cmd/subject.py Normal file
View File

@ -0,0 +1,39 @@
class Subject:
"""Adds support for observers"""
def __init__(self):
"""list of current observers"""
self._observers = list()
@property
def observers(self) -> list:
"""returns the current observers"""
return self._observers
def notify(self, modifier=None, data=None):
"""run callbacks on update"""
[o.on_update(modifier, data) for o in self._observers]
def add(self, observer):
"""adds an observer to _observers"""
if observer not in self._observers:
self._observers.append(observer)
else:
print(f"Failed to add: {observer}")
def remove(self, observer):
"""removes an observer from _observers"""
try:
self._observers.remove(observer)
except ValueError:
print(f"Failed to remove: {observer}")
def clear(self):
"""clears the _observers list"""
self._observers.clear()

View File

@ -1,19 +1,9 @@
from pathlib import Path
PROJECT_DIR = str(Path(__file__).parents[1])
def project_path():
return PROJECT_DIR
def cache_bool(func, param): def cache_bool(func, param):
"""Check cache for a bool prop""" """Check cache for a bool prop"""
def wrapper(*args, **kwargs): def wrapper(*args, **kwargs):
self, *rem = args self, *rem = args
cmd = f"{self.identifier}[{self.index}].{param}" cmd = f"{self.identifier}.{param}"
if cmd in self._remote.cache: if cmd in self._remote.cache:
return self._remote.cache.pop(cmd) == 1 return self._remote.cache.pop(cmd) == 1
return func(*args, **kwargs) return func(*args, **kwargs)
@ -26,7 +16,7 @@ def cache_string(func, param):
def wrapper(*args, **kwargs): def wrapper(*args, **kwargs):
self, *rem = args self, *rem = args
cmd = f"{self.identifier}[{self.index}].{param}" cmd = f"{self.identifier}.{param}"
if cmd in self._remote.cache: if cmd in self._remote.cache:
return self._remote.cache.pop(cmd) return self._remote.cache.pop(cmd)
return func(*args, **kwargs) return func(*args, **kwargs)

View File

@ -1,3 +0,0 @@
from .vbancmd import connect
__ALL__ = ["connect"]

View File

@ -1,132 +0,0 @@
from .errors import VMCMDErrors
from .channel import IChannel
from . import kinds
from .meta import bus_mode_prop, channel_bool_prop, channel_label_prop
class OutputBus(IChannel):
"""Base class for output buses."""
@classmethod
def make(cls, is_physical, remote, index, *args, **kwargs):
"""
Factory function for output busses.
Returns a physical/virtual bus of a kind.
"""
BusModeMixin = _make_bus_mode_mixin(IChannel)
OutputBus = PhysicalOutputBus if is_physical else VirtualOutputBus
OB_cls = type(
f"Bus{remote.kind.name}",
(OutputBus,),
{
"levels": BusLevel(remote, index),
"mode": BusModeMixin(remote, index),
**{param: channel_bool_prop(param) for param in ["mute", "mono"]},
"eq": channel_bool_prop("eq.On"),
"eq_ab": channel_bool_prop("eq.ab"),
"label": channel_label_prop(),
},
)
return OB_cls(remote, index, *args, **kwargs)
@property
def identifier(self):
return "bus"
@property
def gain(self) -> float:
def fget():
val = self.public_packet.busgain[self.index]
if val < 10000:
return -val
elif val == ((1 << 16) - 1):
return 0
else:
return ((1 << 16) - 1) - val
val = self.getter("gain")
if val is None:
val = fget() * 0.01
return round(val, 1)
@gain.setter
def gain(self, val: float):
self.setter("gain", val)
class PhysicalOutputBus(OutputBus):
@property
def device(self) -> str:
return
@property
def sr(self) -> int:
return
class VirtualOutputBus(OutputBus):
pass
class BusLevel(IChannel):
def __init__(self, remote, index):
super().__init__(remote, index)
self.level_map = _bus_maps[remote.kind.id]
@property
def identifier(self) -> str:
return f"Bus[{self.index}]"
def getter_level(self, mode=None):
def fget(i, data):
val = data.outputlevels[i]
return -val * 0.01
range_ = self.level_map[self.index]
data = self.public_packet
levels = tuple(round(fget(i, data), 1) for i in range(*range_))
return levels
@property
def all(self) -> tuple:
return self.getter_level()
def _make_bus_level_map(kind):
phys_out, virt_out = kind.outs
return tuple((i, i + 8) for i in range(0, (phys_out + virt_out) * 8, 8))
_bus_maps = {kind.id: _make_bus_level_map(kind) for kind in kinds.all}
def _make_bus_mode_mixin(kls):
"""Creates a mixin of Bus Modes."""
def identifier(self) -> str:
return f"Bus[{self.index}].mode"
return type(
"BusModeMixin",
(kls,),
{
"identifier": property(identifier),
**{
mode: bus_mode_prop(mode)
for mode in [
"normal",
"amix",
"bmix",
"repeat",
"composite",
"tvmix",
"upmix21",
"upmix41",
"upmix61",
"centeronly",
"lfeonly",
"rearonly",
]
},
},
)

View File

@ -1,30 +0,0 @@
import sys
import platform
from collections import namedtuple
from .errors import VMCMDErrors
"""
Represents a major version of Voicemeeter and describes
its strip layout.
"""
VMKind = namedtuple("VMKind", ["id", "name", "ins", "outs", "executable", "vban"])
bits = 64 if sys.maxsize > 2**32 else 32
os = platform.system()
# fmt: off
_kind_map = {
"basic": VMKind("basic", "Basic", (2, 1), (1, 1), "voicemeeter.exe", (4, 4)),
"banana": VMKind("banana", "Banana", (3, 2), (3, 2), "voicemeeterpro.exe", (8, 8)),
"potato": VMKind("potato", "Potato", (5, 3), (5, 3), f'voicemeeter8{"x64" if bits == 64 else ""}.exe', (8, 8),),
}
# fmt: on
def get(kind_id):
try:
return _kind_map[kind_id]
except KeyError:
raise VMCMDErrors(f"Invalid Voicemeeter kind: {kind_id}")
all = list(_kind_map.values())

View File

@ -1,80 +0,0 @@
import toml
from . import kinds
from .util import project_path
from pathlib import Path
profiles = {}
def _make_blank_profile(kind):
phys_in, virt_in = kind.ins
phys_out, virt_out = kind.outs
all_input_strip_config = {
"gain": 0.0,
"solo": False,
"mute": False,
"mono": False,
**{f"A{i}": False for i in range(1, phys_out + 1)},
**{f"B{i}": False for i in range(1, virt_out + 1)},
}
phys_input_strip_config = {
"comp": 0.0,
"gate": 0.0,
}
output_bus_config = {
"gain": 0.0,
"eq": False,
"mute": False,
"mono": False,
}
all_ = {f"strip-{i}": all_input_strip_config for i in range(phys_in + virt_in)}
phys = {f"strip-{i}": phys_input_strip_config for i in range(phys_in)}
abc = all_
for i in phys.keys():
abc[i] = all_[i] | phys[i]
return {
**abc,
**{f"bus-{i}": output_bus_config for i in range(phys_out + virt_out)},
}
def _make_base_profile(kind):
phys_in, virt_in = kind.ins
blank = _make_blank_profile(kind)
overrides = {
**{f"strip-{i}": dict(B1=True) for i in range(phys_in)},
**{f"strip-{i}": dict(A1=True) for i in range(phys_in, phys_in + virt_in)},
}
base = blank
for i in overrides.keys():
base[i] = blank[i] | overrides[i]
return base
for kind in kinds.all:
profiles[kind.id] = {
"blank": _make_blank_profile(kind),
"base": _make_base_profile(kind),
}
# Load profiles from config files in profiles/<kind_id>/<profile>.toml
for kind in kinds.all:
profiles_paths = [
Path(project_path()) / "profiles" / kind.id,
Path.cwd() / "profiles" / kind.id,
Path.home() / "Documents/Voicemeeter" / "profiles" / kind.id,
]
for path in profiles_paths:
if path.is_dir():
filenames = list(path.glob("*.toml"))
configs = {}
for filename in filenames:
name = filename.with_suffix("").stem
try:
configs[name] = toml.load(filename)
except toml.TomlDecodeError:
print(f"Invalid TOML profile: {kind.id}/{filename.stem}")
for name, cfg in configs.items():
print(f"Loaded profile {kind.id}/{name}")
profiles[kind.id][name] = cfg

View File

@ -1,200 +0,0 @@
from .errors import VMCMDErrors
from .channel import IChannel
from . import kinds
from .meta import strip_output_prop, channel_bool_prop, channel_label_prop
class InputStrip(IChannel):
"""Base class for input strips."""
@classmethod
def make(cls, is_physical, remote, index, **kwargs):
"""
Factory function for input strips.
Returns a physical/virtual strip of a kind.
"""
PhysStrip, VirtStrip = _strip_pairs[remote.kind.id]
InputStrip = PhysStrip if is_physical else VirtStrip
GainLayerMixin = _make_gainlayer_mixin(remote, index)
IS_cls = type(
f"Strip{remote.kind.name}",
(InputStrip, GainLayerMixin),
{
"levels": StripLevel(remote, index),
**{
param: channel_bool_prop(param)
for param in ["mono", "solo", "mute"]
},
"label": channel_label_prop(),
},
)
return IS_cls(remote, index, **kwargs)
@property
def identifier(self):
return "strip"
@property
def limit(self) -> int:
return
@limit.setter
def limit(self, val: int):
self.setter("limit", val)
@property
def gain(self) -> float:
val = self.getter("gain")
if val is None:
val = self.gainlayer[0].gain
return round(val, 1)
@gain.setter
def gain(self, val: float):
self.setter("gain", val)
class PhysicalInputStrip(InputStrip):
@property
def comp(self) -> float:
return
@comp.setter
def comp(self, val: float):
self.setter("Comp", val)
@property
def gate(self) -> float:
return
@gate.setter
def gate(self, val: float):
self.setter("gate", val)
@property
def device(self):
return
@property
def sr(self):
return
class VirtualInputStrip(InputStrip):
mc = channel_bool_prop("mc")
mono = mc
@property
def k(self) -> int:
return
@k.setter
def k(self, val: int):
self.setter("karaoke", val)
class StripLevel(InputStrip):
def __init__(self, remote, index):
super().__init__(remote, index)
self.level_map = _strip_maps[remote.kind.id]
def getter_level(self, mode=None):
def fget(i, data):
val = data.inputlevels[i]
return -val * 0.01
range_ = self.level_map[self.index]
data = self.public_packet
levels = tuple(round(fget(i, data), 1) for i in range(*range_))
return levels
@property
def prefader(self) -> tuple:
return self.getter_level()
@property
def postfader(self) -> tuple:
return
@property
def postmute(self) -> tuple:
return
class GainLayer(InputStrip):
def __init__(self, remote, index, i):
super().__init__(remote, index)
self._i = i
@property
def gain(self) -> float:
def fget():
val = getattr(self.public_packet, f"stripgainlayer{self._i+1}")[self.index]
if val < 10000:
return -val
elif val == ((1 << 16) - 1):
return 0
else:
return ((1 << 16) - 1) - val
val = self.getter(f"GainLayer[{self._i}]")
if val is None:
val = fget() * 0.01
return round(val, 1)
@gain.setter
def gain(self, val: float):
self.setter(f"GainLayer[{self._i}]", val)
def _make_gainlayer_mixin(remote, index):
"""Creates a GainLayer mixin"""
return type(
f"GainlayerMixin",
(),
{"gainlayer": tuple(GainLayer(remote, index, i) for i in range(8))},
)
def _make_strip_mixin(kind):
"""Creates a mixin with the kind's strip layout set as class variables."""
num_A, num_B = kind.outs
return type(
f"StripMixin{kind.name}",
(),
{
**{f"A{i}": strip_output_prop(f"A{i}") for i in range(1, num_A + 1)},
**{f"B{i}": strip_output_prop(f"B{i}") for i in range(1, num_B + 1)},
},
)
_strip_mixins = {kind.id: _make_strip_mixin(kind) for kind in kinds.all}
def _make_strip_pair(kind):
"""Creates a PhysicalInputStrip and a VirtualInputStrip of a kind."""
StripMixin = _strip_mixins[kind.id]
PhysStrip = type(
f"PhysicalInputStrip{kind.name}", (PhysicalInputStrip, StripMixin), {}
)
VirtStrip = type(
f"VirtualInputStrip{kind.name}", (VirtualInputStrip, StripMixin), {}
)
return (PhysStrip, VirtStrip)
_strip_pairs = {kind.id: _make_strip_pair(kind) for kind in kinds.all}
def _make_strip_level_map(kind):
phys_in, virt_in = kind.ins
phys_map = tuple((i, i + 2) for i in range(0, phys_in * 2, 2))
virt_map = tuple(
(i, i + 8) for i in range(phys_in * 2, phys_in * 2 + virt_in * 8, 8)
)
return phys_map + virt_map
_strip_maps = {kind.id: _make_strip_level_map(kind) for kind in kinds.all}

View File

@ -1,35 +0,0 @@
class Subject:
def __init__(self):
"""list of current observers"""
self._observables = []
def notify(self, modifier=None, data=None):
"""run callbacks on update"""
for observer in self._observables:
observer.on_update(modifier, data)
def add(self, observer):
"""adds an observer to observables"""
if observer not in self._observables:
self._observables.append(observer)
def remove(self, observer):
"""removes an observer from observables"""
try:
self._observables.remove(observer)
except ValueError:
pass
def get(self) -> list:
"""returns the current observables"""
return self._observables
def clear(self):
"""clears the observables list"""
self._observables.clear()

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@ -1,393 +0,0 @@
import abc
import select
import socket
from time import sleep
from threading import Thread
from typing import NamedTuple, NoReturn, Optional, Union
from .errors import VMCMDErrors
from . import kinds
from . import profiles
from .dataclass import (
HEADER_SIZE,
VBAN_VMRT_Packet_Data,
VBAN_VMRT_Packet_Header,
RegisterRTHeader,
TextRequestHeader,
)
from .strip import InputStrip
from .bus import OutputBus
from .command import Command
from .util import script
from .subject import Subject
class VbanCmd(abc.ABC):
def __init__(self, **kwargs):
self._ip = kwargs["ip"]
self._port = kwargs["port"]
self._streamname = kwargs["streamname"]
self._bps = kwargs["bps"]
self._channel = kwargs["channel"]
self._delay = kwargs["delay"]
self._sync = kwargs["sync"]
# fmt: off
self._bps_opts = [
0, 110, 150, 300, 600, 1200, 2400, 4800, 9600, 14400, 19200, 31250,
38400, 57600, 115200, 128000, 230400, 250000, 256000, 460800, 921600,
1000000, 1500000, 2000000, 3000000,
]
# fmt: on
if self._channel not in range(256):
raise VMCMDErrors("Channel must be in range 0 to 255")
self._text_header = TextRequestHeader(
name=self._streamname,
bps_index=self._bps_opts.index(self._bps),
channel=self._channel,
)
self._register_rt_header = RegisterRTHeader()
self.expected_packet = VBAN_VMRT_Packet_Header()
self._rt_register_socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
self._rt_packet_socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
self._sendrequest_string_socket = socket.socket(
socket.AF_INET, socket.SOCK_DGRAM
)
is_readable = []
is_writable = [
self._rt_register_socket,
self._rt_packet_socket,
self._sendrequest_string_socket,
]
is_error = []
self.ready_to_read, self.ready_to_write, in_error = select.select(
is_readable, is_writable, is_error, 60
)
self._public_packet = None
self.running = True
self._pdirty = False
self._ldirty = False
self.subject = Subject()
self.cache = {}
def __enter__(self):
self.login()
return self
def login(self):
"""
Start listening for RT Packets
Start background threads:
Register to RT service
Keep public packet updated.
"""
self._rt_packet_socket.bind(
(socket.gethostbyname(socket.gethostname()), self._port)
)
worker = Thread(target=self._send_register_rt, daemon=True)
worker.start()
self._public_packet = self._get_rt()
worker2 = Thread(target=self._updates, daemon=True)
worker2.start()
self.clear_dirty()
def _send_register_rt(self):
"""
Continuously register to the RT Packet Service
This function to be run in its own thread.
"""
while self.running:
if self._rt_register_socket in self.ready_to_write:
self._rt_register_socket.sendto(
self._register_rt_header.header,
(socket.gethostbyname(self._ip), self._port),
)
count = (
int.from_bytes(self._register_rt_header.framecounter, "little") + 1
)
self._register_rt_header.framecounter = count.to_bytes(4, "little")
sleep(10)
def _fetch_rt_packet(self) -> Optional[VBAN_VMRT_Packet_Data]:
"""Returns a valid RT Data Packet or None"""
if self._rt_packet_socket in self.ready_to_write:
data, _ = self._rt_packet_socket.recvfrom(1024 * 2)
# check for packet data
if len(data) > HEADER_SIZE:
# check if packet is of type rt service
if self.expected_packet.header == data[: HEADER_SIZE - 4]:
return VBAN_VMRT_Packet_Data(
_voicemeeterType=data[28:29],
_reserved=data[29:30],
_buffersize=data[30:32],
_voicemeeterVersion=data[32:36],
_optionBits=data[36:40],
_samplerate=data[40:44],
_inputLeveldB100=data[44:112],
_outputLeveldB100=data[112:240],
_TransportBit=data[240:244],
_stripState=data[244:276],
_busState=data[276:308],
_stripGaindB100Layer1=data[308:324],
_stripGaindB100Layer2=data[324:340],
_stripGaindB100Layer3=data[340:356],
_stripGaindB100Layer4=data[356:372],
_stripGaindB100Layer5=data[372:388],
_stripGaindB100Layer6=data[388:404],
_stripGaindB100Layer7=data[404:420],
_stripGaindB100Layer8=data[420:436],
_busGaindB100=data[436:452],
_stripLabelUTF8c60=data[452:932],
_busLabelUTF8c60=data[932:1412],
)
@property
def pdirty(self):
"""True iff a parameter has changed"""
return self._pdirty
@property
def ldirty(self):
"""True iff a level value has changed."""
return self._ldirty
@property
def public_packet(self):
return self._public_packet
def clear_dirty(self):
while self.pdirty:
pass
def _updates(self) -> NoReturn:
"""
Continously update public packet in background.
Set parameter and level dirty flags.
Update public packet only if new private packet is found.
Then notify observers of updates to states.
This function to be run in its own thread.
"""
while self.running:
private_packet = self._get_rt()
private_input_levels = private_packet.inputlevels
public_input_levels = self.public_packet.inputlevels
strip_comp = [
not a == b
for a, b in zip(
private_input_levels,
public_input_levels,
)
]
private_output_levels = private_packet.outputlevels
public_output_levels = self.public_packet.outputlevels
bus_comp = [
not a == b
for a, b in zip(
private_output_levels,
public_output_levels,
)
]
self._pdirty = private_packet.pdirty(self.public_packet)
self._ldirty = any(any(list_) for list_ in [strip_comp, bus_comp])
if self._public_packet != private_packet:
self._public_packet = private_packet
if self.pdirty:
self.subject.notify("pdirty")
if self.ldirty:
self.subject.notify(
"ldirty",
[
public_input_levels,
strip_comp,
public_output_levels,
bus_comp,
],
)
sleep(self._delay)
def _get_rt(self) -> VBAN_VMRT_Packet_Data:
"""Attempt to fetch data packet until a valid one found"""
def fget():
data = False
while not data:
data = self._fetch_rt_packet()
return data
return fget()
def set_rt(
self,
id_: str,
param: Optional[str] = None,
val: Optional[Union[int, float]] = None,
):
"""Sends a string request command over a network."""
cmd = id_ if not param else f"{id_}.{param}={val}"
if self._sendrequest_string_socket in self.ready_to_write:
self._sendrequest_string_socket.sendto(
self._text_header.header + cmd.encode(),
(socket.gethostbyname(self._ip), self._port),
)
count = int.from_bytes(self._text_header.framecounter, "little") + 1
self._text_header.framecounter = count.to_bytes(4, "little")
if param:
self.cache[f"{id_}.{param}"] = val
@script
def sendtext(self, cmd):
"""Sends a multiple parameter string over a network."""
self.set_rt(cmd)
sleep(self._delay)
@property
def type(self):
"""Returns the type of Voicemeeter installation."""
return self.public_packet.voicemeetertype
@property
def version(self):
"""Returns Voicemeeter's version as a tuple"""
return self.public_packet.voicemeeterversion
def show(self) -> NoReturn:
"""Shows Voicemeeter if it's hidden."""
self.command.show()
def hide(self) -> NoReturn:
"""Hides Voicemeeter if it's shown."""
self.command.hide()
def shutdown(self) -> NoReturn:
"""Closes Voicemeeter."""
self.command.shutdown()
def restart(self) -> NoReturn:
"""Restarts Voicemeeter's audio engine."""
self.command.restart()
def apply(self, mapping: dict):
"""Sets all parameters of a di"""
for key, submapping in mapping.items():
obj, index = key.split("-")
if obj in ("strip"):
target = self.strip[int(index)]
elif obj in ("bus"):
target = self.bus[int(index)]
else:
raise ValueError(obj)
target.apply(submapping)
def apply_profile(self, name: str):
try:
profile = self.profiles[name]
if "extends" in profile:
base = self.profiles[profile["extends"]]
del profile["extends"]
for key in profile.keys():
if key in base:
base[key] = base[key] | profile[key]
else:
base[key] = profile[key]
profile = base
self.apply(profile)
except KeyError:
raise VMCMDErrors(f"Unknown profile: {self.kind.id}/{name}")
def reset(self) -> NoReturn:
self.apply_profile("base")
@property
def strip_levels(self):
"""Returns the full strip level array for a kind, PREFADER mode, before math conversion"""
return tuple(
list(filter(lambda x: x != ((1 << 16) - 1), self.public_packet.inputlevels))
)
@property
def bus_levels(self):
"""Returns the full bus level array for a kind, before math conversion"""
return tuple(
list(
filter(lambda x: x != ((1 << 16) - 1), self.public_packet.outputlevels)
)
)
def logout(self):
self.running = False
sleep(0.2)
self._rt_register_socket.close()
self._sendrequest_string_socket.close()
self._rt_packet_socket.close()
def __exit__(self, exc_type, exc_value, exc_traceback):
self.logout()
def _make_remote(kind: NamedTuple) -> VbanCmd:
"""
Creates a new remote class and sets its number of inputs
and outputs for a VM kind.
The returned class will subclass VbanCmd.
"""
def init(self, **kwargs):
defaultkwargs = {
"ip": None,
"port": 6990,
"streamname": "Command1",
"bps": 0,
"channel": 0,
"delay": 0.001,
"sync": False,
}
kwargs = defaultkwargs | kwargs
VbanCmd.__init__(self, **kwargs)
self.kind = kind
self.phys_in, self.virt_in = kind.ins
self.phys_out, self.virt_out = kind.outs
self.strip_comp = [False for _ in range(2 * self.phys_in + 8 * self.virt_in)]
self.bus_comp = [False for _ in range(8 * (self.phys_out + self.virt_out))]
self.strip = tuple(
InputStrip.make((i < self.phys_in), self, i)
for i in range(self.phys_in + self.virt_in)
)
self.bus = tuple(
OutputBus.make((i < self.phys_out), self, i)
for i in range(self.phys_out + self.virt_out)
)
self.command = Command.make(self)
def get_profiles(self):
return profiles.profiles[kind.id]
return type(
f"VbanCmd{kind.name}",
(VbanCmd,),
{"__init__": init, "profiles": property(get_profiles)},
)
_remotes = {kind.id: _make_remote(kind) for kind in kinds.all}
def connect(kind_id: str, **kwargs):
"""Connect to Voicemeeter and sets its strip layout."""
try:
VBANCMD_cls = _remotes[kind_id]
return VBANCMD_cls(**kwargs)
except KeyError as err:
raise VMCMDErrors(f"Invalid Voicemeeter kind: {kind_id}")