Metadata-Version: 2.1
Name: kord
Version: 1.5
Summary: a python framework for programming music applications
Home-page: https://github.com/synestematic/kord
Author: Federico Rizzo
Author-email: synestem@tic.com
License: MIT
Platform: UNKNOWN
Classifier: Programming Language :: Python :: 3 :: Only
Classifier: Development Status :: 4 - Beta
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: POSIX :: Linux
Classifier: Operating System :: MacOS :: MacOS X
Description-Content-Type: text/markdown
Requires-Dist: bestia

# kord
kord is a python framework that provides programmers with a simple api for the creation of music-based applications. While it's mainly focused for theoretical purposes, some of it's more visually oriented features are well-suited for the generation of plucked-string instruments.

<hr/>

# api reference:

## kord.notes module:

### Note() class
Note instances are the lowest-level objects of the framework and have 3 main attributes:

```
* chr: str   ('C', 'D', 'E', 'F', 'G', 'A', 'B')
* alt: str   ('b', 'bb', '', '#', '##')
* oct: int   (0, 1, 2, 3, 4, 5, 6, 7, 8, 9)
```


Only the `chr` argument is required to create an instance. Arguments `alt` and `oct` will default to `''` and `3` respectively.

```
>>> from kord.notes import Note
>>> e3, f3 = Note('e'), Note('f')
>>> e3, f3
(E³, F³) 
>>> Note('B', 'b', 7)
B♭⁷
>>> Note('C', '#', 0)
C♯⁰
```

Notes with double alterations are supported but Notes with triple (or more) alterations raise InvalidAlteration Exceptions:

```
>>> n3 = Note('A', 'bb', 1)
>>> n3
A𝄫¹
>>> n4 = Note('F', '##', 1)
>>> n4
F𝄪¹
>>> Note('G', '###')
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  ...
kord.errors.InvalidAlteration: ###
```



Intervals between note objects can be evaluated using the following operators:

```
-   < >   <= >=   == !=   << >>
```

These allow calculation of semitone deltas between notes as well as insights into their enharmonic relationships. Let's take a quick look at each operator separately:

#### - operator

This operator allows you to calculate the difference in semitones between two notes:

```
>>> f3 - e3
1
>>> Note('a', 8) - Note('c', 4)
57
>>> Note('a', 8) - Note('c', '##', 4)
55
```


#### <  > operators


```
>>> f3
F³
>>> f3 > e3
True
```

#### != operator


```
>>> n1 = Note('F', '#', 5)
>>> n2 = Note('G', 'b', 5)
>>> n1, n2
(F♯⁵, G♭⁵)
>>> n1 != n2
False
```






Given that python lacks a `===` operator, Notes can be compared for a "stricter" equality using their `is_a()` method:

```
>>> n3 == n4
True
>>> n3.is_a(n4)
False
```

This method directly compares Note attributes instead of their semitone interval. Set the `ignore_oct` argument appropriately for a less strict comparison:

```
>>> n1
F♯⁵
>>> n1.is_a(Note('F', '#', 3))
False
>>> n1.is_a(Note('F', '#', 3), ignore_oct=False)
True
```

<hr/>

## kord.keys module:


### class TonalKey(object):

The best way to describe a TonalKey object is basically as a Note object generator. You can use this class to create any theoretical arrangement of musical notes (ie. chords, scales).

Let us take a look at 2 examples using the 2 main categories of child class that inherit from TonalKey class and how they are defined:


### class ChromaticKey(TonalKey):

The ChromaticKey class uses the TonalKey class as an interface while implementing it's own structure of intervals.

```
class ChromaticKey(TonalKey):

    root_intervals = (
        UNISON,
        MINOR_SECOND,
        MAJOR_SECOND,
        MINOR_THIRD,
        MAJOR_THIRD,
        PERFECT_FOURTH,
        AUGMENTED_FOURTH,
        PERFECT_FIFTH,
        MINOR_SIXTH,
        MAJOR_SIXTH,
        MINOR_SEVENTH,
        MAJOR_SEVENTH,
    )
```

We can initialize ChromaticKey objects on any given note and use the ```degree()``` method to obtain one of it's degrees. Using list index notation will achieve a similar result:

```
>>> from kord.keys import ChromaticKey
>>> c_chromatic = ChromaticKey('C')
>>> c_chromatic.degree(2)
C♯⁰
>>> c_chromatic[12]
B⁰
```

Perhaps the most interesting aspect of any TonalKey sub-class is it's ability to iterate over Note objects using one of their several generator methods. As an example, let's take a quick look at the ```scale()``` method:

```
>>> for note in c_chromatic.scale()
...   print(note, end=' ')
...
C⁰ C♯⁰ D⁰ D♯⁰ E⁰ F⁰ F♯⁰ G⁰ G♯⁰ A⁰ A♯⁰ B⁰ C¹ 
```

We can use the ```note_count=``` argument to specify to the scale generator the amount of notes to yield:

```
>>> for note in c_chromatic.scale(note_count=4):
...   print(note, end=' ')
...
C⁰ C♯⁰ D⁰ D♯⁰ 
```

The ```start_note=``` argument can be used to to start yielding from a specific note. This can be done even if the note is not part of the scale:

```
>>> from kord.notes import Note
>>> Ab = Note('A', 'b', 0)
>>> for note in c_chromatic.scale(note_count=6, start_note=Ab):
...   print(note, end=' ')
...
G♯⁰ A⁰ A♯⁰ B⁰ C¹ C♯¹ 
```



### class DiatonicKey(TonalKey):

```
class MajorKey(DiatonicKey):

    root_intervals = (
        UNISON,
        MAJOR_SECOND,
        MAJOR_THIRD,
        PERFECT_FOURTH,
        PERFECT_FIFTH,
        MAJOR_SIXTH,
        MAJOR_SEVENTH,
    )
```



## fretboard sample application

The kord framework comes with a built-in sample application `fretboard.py` that gives some insight into it's possibilities.

```
usage: fretboard.py [-h] [-m] [-i] [-t] [-f] [-v] ROOT

<<< Fretboard visualizer sample tool for the kord music framework >>>

positional arguments:
  ROOT                select a root note

optional arguments:
  -h, --help          show this help message and exit
  -m , --mode         music mode to visualize: ['major', 'minor', 'natural_minor', 'melodic_minor', 'harmonic_minor', 'ionian', 'lydian', 'mixo', 'aeolian', 'dorian', 'phrygian', 'chromatic']
  -i , --instrument   instrument fretboard to visualize: ['banjo', 'guitar', 'bass', 'ukulele']
  -t , --tuning       instrument tuning: check your .json files for available options
  -f , --frets        number of displayed frets: [0, 1, 2, .. , 36]
  -v , --verbosity    application verbosity: [0, 1, 2]

```

I'm pretty sure guitar/bass players may find it very handy as a means to develop their knowledge of their instrument. Have fun!


