music-kraken-core/documentation/objects.md
2023-09-14 23:35:37 +02:00

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music_kraken.objects

DatabaseObject

music_kraken.objects.DatabaseObject

This is a parent object, which most Music-Objects inherit from. It provides the functionality to:

  • autogenerate id's (UUID), if not passed in the constructur.
  • merge the data of another instance of the same time in self.
  • Check if two different instances of the same type represent the same data, using __eq__.

Additionally it provides an Interface to:

  • define the attributes used to merge.
  • define the attribuse and values used to check for equal data. (used in __eq__ and in the merge)
  • get the id3 metadata.
  • get all options (used in searching from e.g. the command line)

DatabaseObject.merge()

To merge the data of two instances of the same type, the attributes defined in DatabaseObject.COLLECTION_STRING_ATTRIBUTES and SIMPLE_STRING_ATTRIBUTES are used.

The simple attributes just get carried from the other instance, to the self instance.

The collection attributes appends all elements from other.collection to self.collection, but ofc checks if already exists.

Collection

music_kraken.objects.Collection

This is an object, which acts as a list. You can save instaces of a subclass of DatabaseObject.

Then you can for example append a new Object. The difference to a normal list is, that if you have two different objects that both represent the same data, it doesn't get added, but all data gets merged into the existing Object instead.

For example, you have two different Artist-Objects, where both have one source in common. The one Artist-Object already is in the Collection. The other artist object is passed in the append command.
In this case it doesn't simply add the artist object to the collection, but modifies the already existing Artist-Object, adding all attributes the new artist object has, and then discards the other object.

artist_collection = Collection(element_type=Artist)

# adds the artist to the list (len 1)
artist_collection.append(artist_1)

# detects artist 2 has a mutual source
# thus not adding but mergin (len 1)
artist_collection.appent(artist_2)
Function Explanation
append() appends an object to the collection
extend() appends a list of objects to the collection
__len__() gets the ammount of objects in collection
shallow_list gets a shallow copy of the list _data the objects are contained in
sort() takes the same arguments than list.sort, and does the same
__iter__() allows you to use collections e.g. a for loop

Appending and Merging data

If you want to append for example a Song to an Album, you obviously need to check beforehand if the Song already exists in the Album, and if so, you need to merge their data in one Song object, to not loose any Information.

This is how I solve this problem:

---
title: "Collection.append(music_object: MusicObject)"
---
flowchart TD
    exist("""
<b>Check if music_object already exists.</b>
<hr>
Gets all indexing values with <code>music_object.indexing_values</code>.
If any returned value exists in <code>Collection._attribute_to_object_map</code>, 
the music_object exists
    """)

    subgraph merge["Merging"]

    _merge("""merges the passed in object in the already 
    existing whith <code>existing.merge(new)</code>""")

    _map("""In case a new source or something simmilar
    has been addet, it maps the existing object again.
    """)

    _merge --> _map

    end

    subgraph add["Adding"]

    __map("""map the values from <code>music_object.indexing_values</code>
    to <code>Collection._attribute_to_object_map</code> by writing
    those values in the map as keys, and the class I wanna add as values.
    """)

    _add("""add the new music object to <code>_data</code>""")

    __map --> _add 

    end

    exist-->|"if it doesn't exist"|add --> return
    exist-->|"if already exists"|merge --> return

This is Implemented in music_kraken.objects.Collection.append(). The merging which is mentioned in the flowchart is explained in the documentation of DatabaseObject.merge().

The indexing values are defined in the superclass DatabaseObject and get implemented for each Object seperately. I will just give as example its implementation for the Song class:

@property
def indexing_values(self) -> List[Tuple[str, object]]:
    return [
        ('id', self.id),
        ('title', self.unified_title),
        ('barcode', self.barcode),
        *[('url', source.url) for source in self.source_collection]
    ]

Song

This object inherits from DatabaseObject and implements all its interfaces.

It has handful attributes, where half of em are self-explanatory, like title or genre. The ones like isrc are only relevant to you, if you know what it is, so I won't elaborate on it.

Interesting is the date. It uses a custom class. More on that here.

ID3Timestamp

For multiple Reasons I don't use the default datetime.datetime class.

The most important reason is, that you need to pass in at least year, month and day. For every other values there are default values, that are indistinguishable from values that are directly passed in. But I need optional values. The ID3 standart allows default values. Additionally datetime.datetime is immutable, thus I can't inherint all the methods. Sorry.

Anyway you can create those custom objects easily.

from music_kraken import ID3Timestamp

# returns an instance of ID3Timestamp with the current time
ID3Timestamp.now()

# returns an instance of ID3Timestamp with the given values
# all values are optional if unknown
ID3Timestamp(year=1986, month=3, day=1, hour=12, minute=30, second=6)