Metadata-Version: 2.4
Name: yt-meta
Version: 0.3.1
Summary: A lightweight YouTube metadata library.
Author-email: Shane Isley <shaneisley@gmail.com>
License-Expression: MIT
Project-URL: Homepage, https://github.com/shaneisley/yt-meta
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 3
Classifier: Development Status :: 4 - Beta
Classifier: Intended Audience :: Developers
Classifier: Intended Audience :: Science/Research
Classifier: Natural Language :: English
Classifier: Operating System :: OS Independent
Classifier: Topic :: Internet :: WWW/HTTP
Classifier: Topic :: Multimedia :: Video
Classifier: Topic :: Software Development :: Libraries :: Python Modules
Requires-Python: >=3.9
Description-Content-Type: text/markdown
License-File: LICENSE
Requires-Dist: youtube-comment-downloader>=0.1.76
Requires-Dist: beautifulsoup4>=4.12.3
Requires-Dist: httpx>=0.27.0
Requires-Dist: python-dateutil>=2.9.0
Requires-Dist: loguru>=0.7.2
Provides-Extra: dev
Requires-Dist: pytest>=8.3.2; extra == "dev"
Requires-Dist: pytest-cov>=6.2.1; extra == "dev"
Requires-Dist: pytest-mock>=3.14.1; extra == "dev"
Requires-Dist: freezegun>=1.5.1; extra == "dev"
Requires-Dist: ruff>=0.5.5; extra == "dev"
Provides-Extra: publish
Requires-Dist: build>=1.2.1; extra == "publish"
Requires-Dist: twine>=5.1.1; extra == "publish"
Provides-Extra: persistent-cache
Requires-Dist: diskcache>=5.6.3; extra == "persistent-cache"
Provides-Extra: examples
Requires-Dist: sqlitedict>=2.1.0; extra == "examples"
Dynamic: license-file

# yt-meta

A Python library for finding video and channel metadata from YouTube.

## Purpose

This library is designed to provide a simple and efficient way to collect metadata for YouTube videos, channels, and playlists. It simplifies the process of interacting with YouTube's data, handling complexities like network requests, data parsing, and pagination, so you can focus on your analysis.

## Architecture

`yt-meta` is designed around a **Facade** pattern. The main `YtMeta` class provides a simple, unified interface for all fetching operations. Internally, it delegates calls to specialized `Fetcher` classes, each responsible for a specific domain:

-   **`VideoFetcher`**: Handles fetching video metadata and comments.
-   **`ChannelFetcher`**: Manages fetching channel metadata, video lists, and shorts.
-   **`PlaylistFetcher`**: Responsible for fetching playlist details.

This architecture keeps the codebase clean, organized, and easy to maintain.

## Installation

This project uses `uv` for package management. You can install `yt-meta` from PyPI:

```bash
uv pip install yt-meta
```

To enable persistent caching, you need to install an optional dependency:

```bash
# For disk-based caching
uv pip install "yt-meta[persistent_cache]"
```

## Core Features

The library offers several ways to fetch metadata.

### 1. Get Video Metadata

Fetches metadata for a specific YouTube video.

**Example:**

```python
from yt_meta import YtMeta

client = YtMeta()
video_url = "https://www.youtube.com/watch?v=B68agR-OeJM"
metadata = client.get_video_metadata(video_url)
print(f"Title: {metadata['title']}")
```

### 2. Get Channel Metadata

Fetches metadata for a specific YouTube channel.

**Example:**

```python
from yt_meta import YtMeta

client = YtMeta()
channel_url = "https://www.youtube.com/@samwitteveenai"
channel_metadata = client.get_channel_metadata(channel_url)
print(f"Channel Name: {channel_metadata['title']}")
```

### 3. Get All Videos from a Channel

Returns a generator that yields metadata for all videos on a channel's "Videos" tab, handling pagination automatically.

**Example:**
```python
import itertools
from yt_meta import YtMeta

client = YtMeta()
channel_url = "https://www.youtube.com/@AI-Makerspace/videos"
videos_generator = client.get_channel_videos(channel_url)

# Print the first 5 videos
for video in itertools.islice(videos_generator, 5):
    print(f"- {video['title']} (ID: {video['video_id']})")
```

### 4. Get All Videos from a Playlist

Returns a generator that yields metadata for all videos in a playlist, handling pagination automatically.

**Example:**
```python
import itertools
from yt_meta import YtMeta

client = YtMeta()
playlist_id = "PL-osiE80TeTt2d9bfVyTiXJA-UTHn6WwU"
videos_generator = client.get_playlist_videos(playlist_id)

# Print the first 5 videos
for video in itertools.islice(videos_generator, 5):
    print(f"- {video['title']} (ID: {video['video_id']})")
```

### 5. Get All Shorts from a Channel

Similar to videos, you can fetch all "Shorts" from a channel. This also supports a fast path (basic metadata) and a slow path (full metadata).

**Fast Path Example:**

This is the most efficient way to get a list of shorts, but it provides limited metadata.

```python
import itertools
from yt_meta import YtMeta

client = YtMeta()
channel_url = "https://www.youtube.com/@bashbunni"
shorts_generator = client.get_channel_shorts(channel_url)

# Print the first 5 shorts
for short in itertools.islice(shorts_generator, 5):
    print(f"- {short['title']} (ID: {short['video_id']})")
```

**Slow Path Example (Full Metadata):**

Set `fetch_full_metadata=True` to retrieve all details for each short, such as `like_count` and `publish_date`.

```python
import itertools
from yt_meta import YtMeta

client = YtMeta()
channel_url = "https://www.youtube.com/@bashbunni"
shorts_generator = client.get_channel_shorts(
    channel_url,
    fetch_full_metadata=True
)

# Print the first 5 shorts with full metadata
for short in itertools.islice(shorts_generator, 5):
    likes = short.get('like_count', 'N/A')
    print(f"- {short['title']} (Likes: {likes})")
```

### 6. Get Comments from a Video

Fetches comments for a specific video, with options for sorting and filtering. This method returns a generator that yields standardized comment data.

**Example:**

```python
import itertools
from yt_meta import YtMeta
from yt_meta.fetchers import SORT_BY_POPULAR

client = YtMeta()
video_url = "https://www.youtube.com/watch?v=B68agR-OeJM"

# Find the most popular comments that have been liked by the creator
comment_filters = {
    "is_hearted_by_owner": {"eq": True}
}

comments_generator = client.get_video_comments(
    video_url,
    sort_by=SORT_BY_POPULAR,
    filters=comment_filters
)

print(f"Top 5 hearted comments for video: {video_url}")
for comment in itertools.islice(comments_generator, 5):
    likes = comment.get('like_count', 0)
    print(f"- \"{comment['text']}\" (Likes: {likes})")
```

## Caching

`yt-meta` includes a flexible caching system to improve performance and avoid re-fetching data from YouTube.

### Default In-Memory Cache

By default, `YtMeta` uses a simple in-memory dictionary to cache results. This cache is temporary and only lasts for the lifetime of the client instance.

```python
client = YtMeta()
# The first call will fetch from the network
meta1 = client.get_video_metadata("some_url") 
# This second call will be instant, served from the in-memory cache
meta2 = client.get_video_metadata("some_url") 
```

### Persistent Caching

For caching results across different runs or scripts, you can provide a **persistent, dictionary-like object** to the client. The library provides an optional `diskcache` integration for this purpose.

First, install the necessary extra:
```bash
uv pip install "yt-meta[persistent_cache]"
```

Then, instantiate a `diskcache.Cache` object and pass it to the client:

```python
from yt_meta import YtMeta
from diskcache import Cache

# The cache object can be any dict-like object.
# Here, we use diskcache for a persistent, file-based cache.
persistent_cache = Cache(".my_yt_meta_cache")

client = YtMeta(cache=persistent_cache)

# The first time this script runs, it will be slow (fetches from network).
# Subsequent runs will be very fast, reading directly from the disk cache.
metadata = client.get_video_metadata("some_url")
```

Any object that implements the `MutableMapping` protocol (e.g., `__getitem__`, `__setitem__`, `__delitem__`) can be used as a cache. See `examples/features/19_alternative_caching_sqlite.py` for a demonstration using `sqlitedict`.

## Advanced Features

### Filtering Videos, Shorts, and Comments

The library provides a powerful filtering system via the `filters` argument, available on methods like `get_channel_videos`, `get_channel_shorts`, and `get_video_comments`. This allows you to find items matching specific criteria on the server side.

#### Robust Filter Validation
To improve the developer experience and prevent errors, `yt-meta` validates your `filters` dictionary *before* making any network requests. If you provide a filter field that doesn't exist, an invalid operator for a field, or an incorrect value type, the library will immediately raise a `ValueError` or `TypeError`.

This "fail-fast" approach saves you from waiting for a long-running query to complete only to find out there was a typo in your request. See `examples/features/23_filter_validation.py` for a demonstration.

#### Two-Stage Filtering: Fast vs. Slow

The library uses an efficient two-stage filtering process for videos and shorts:

*   **Fast Filters:** Applied first, using metadata that is available on the main channel or playlist page (e.g., `title`, `view_count`). This is very efficient.
*   **Slow Filters:** Applied second, only on items that pass the fast filters. This requires fetching full metadata for each item individually, which is much slower.

The client automatically detects when a slow filter is used and sets `fetch_full_metadata=True` for you.

> [!NOTE]
> Comment filtering does not use the fast/slow system. All comment filters are applied after fetching the comment data.

#### Supported Fields and Operators

The following table lists all supported fields and their valid operators. The validation system will enforce these rules.

| Field                 | Supported Operators              | Content Type(s)                                             | Filter Speed |
| :-------------------- | :------------------------------- | :---------------------------------------------------------- | :----------- |
| `title`               | `contains`, `re`, `eq`           | Video, Short                                                | Fast         |
| `description_snippet` | `contains`, `re`, `eq`           | Video                                                       | Fast         |
| `view_count`          | `gt`, `gte`, `lt`, `lte`, `eq`   | Video, Short                                                | Fast         |
| `duration_seconds`    | `gt`, `gte`, `lt`, `lte`, `eq`   | Video, Short                                                | Fast         |
| `publish_date`        | `gt`, `gte`, `lt`, `lte`, `eq`   | Video, Short, Comment                                       | Fast (Video), **Slow** (Short, Playlist) |
| `like_count`          | `gt`, `gte`, `lt`, `lte`, `eq`   | Video, Short, Comment                                       | **Slow**     |
| `category`            | `contains`, `re`, `eq`           | Video, Short                                                | **Slow**     |
| `keywords`            | `contains_any`, `contains_all` | Video, Short                                                | **Slow**     |
| `full_description`    | `contains`, `re`, `eq`           | Video                                                       | **Slow**     |
| `text`                | `contains`, `re`, `eq`           | Comment                                                     | N/A          |
| `is_by_owner`         | `eq`                             | Comment                                                     | N/A          |
| `is_reply`            | `eq`                             | Comment                                                     | N/A          |
| `is_hearted_by_owner` | `eq`                             | Comment                                                     | N/A          |

> [!NOTE]
> Some fields like `publish_date` can be "fast" for channel videos but "slow" for shorts or playlists because the basic metadata is not always available on those pages.

#### Example: Basic Filtering (Fast)

This example finds popular, short videos. Since both `view_count` and `duration_seconds` are fast filters, this query is very efficient.

```python
import itertools
from yt_meta import YtMeta

client = YtMeta()
channel_url = "https://www.youtube.com/@TED/videos"

# Find videos over 1M views AND shorter than 5 minutes (300s)
adv_filters = {
    "view_count": {"gt": 1_000_000},
    "duration_seconds": {"lt": 300}
}

# This is fast because both view_count and duration are available
# in the basic metadata returned from the main channel page.
videos = client.get_channel_videos(
    channel_url,
    filters=adv_filters
)

for video in itertools.islice(videos, 5):
    views = video.get('view_count', 0)
    duration = video.get('duration_seconds', 0)
    print(f"- {video.get('title')} ({views:,} views, {duration}s)")
```

#### Example: Filtering by Date

The easiest way to filter by date is to use the `start_date` and `end_date` arguments. The library also optimizes this for channels by stopping the search early once videos are older than the specified `start_date`.

You can provide `datetime.date` objects or a relative date string (e.g., `"30d"`, `"6 months ago"`).

**Using `datetime.date` objects:**

```python
from datetime import date
from yt_meta import YtMeta
import itertools

client = YtMeta()
channel_url = "https://www.youtube.com/@samwitteveenai/videos"

# Get videos from a specific window
start = date(2024, 1, 1)
end = date(2024, 3, 31)

videos = client.get_channel_videos(
    channel_url,
    start_date=start,
    end_date=end
)

for video in itertools.islice(videos, 5):
    p_date = video.get('publish_date', 'N/A')
    print(f"- {video.get('title')} (Published: {p_date})")
```

**Using relative date strings:**

```python
from yt_meta import YtMeta
import itertools

client = YtMeta()
channel_url = "https://www.youtube.com/@samwitteveenai/videos"

recent_videos = client.get_channel_videos(
    channel_url,
    start_date="6 months ago"
)

for video in itertools.islice(recent_videos, 5):
    p_date = video.get('publish_date', 'N/A')
    print(f"- {video.get('title')} (Published: {p_date})")
```

> **Important Note on Playlist Filtering:**
> When filtering a playlist by date, the library must fetch metadata for **all** videos first, as playlists are not guaranteed to be chronological. This can be very slow for large playlists.

> **Important Note on Shorts Filtering:**
> Similarly, the Shorts feed does not provide a publish date on its fast path. Any date-based filter on `get_channel_shorts` will automatically trigger the slower, full metadata fetch for each short.

## Logging

`yt-meta` uses Python's `logging` module to provide insights into its operations. To see the log output, you can configure a basic logger.

**Example:**
```python
import logging

# Configure logging to print INFO-level messages
logging.basicConfig(level=logging.INFO, format='%(asctime)s - %(name)s - %(levelname)s - %(message)s')

# Now, when you use the client, you will see logs
# ...
```

## API Reference

### `YtMeta(cache: Optional[MutableMapping] = None)`

The main client for interacting with the library. It inherits from `youtube-comment-downloader` and handles session management.

-   **`cache`**: An optional dictionary-like object to use for caching. If `None`, a temporary in-memory cache is used.

#### `get_video_metadata(youtube_url: str) -> dict`
Fetches metadata for a single YouTube video.
-   **`youtube_url`**: The full URL of the YouTube video.
-   **Returns**: A dictionary containing metadata such as `title`, `description`, `view_count`, `like_count`, `publish_date`, `category`, and more.
-   **Raises**: `VideoUnavailableError` if the video page cannot be fetched or the video is private/deleted.

#### `get_video_comments(youtube_url: str, sort_by: int = SORT_BY_RECENT, limit: int = -1, filters: Optional[dict] = None) -> Generator[dict, None, None]`
Fetches comments for a specific YouTube video. This is an "enrichment" call and is slower than fetching bulk metadata.
-   **`youtube_url`**: The full URL of the YouTube video.
-   **`sort_by`**: The sort order for comments. Use `SORT_BY_RECENT` (default) or `SORT_BY_POPULAR`.
-   **`limit`**: The maximum number of comments to fetch. `-1` means no limit.
-   **`filters`**: A dictionary of filter conditions to apply (see filter table below).
-   **Returns**: A generator that yields a standardized dictionary for each comment.

#### `get_channel_metadata(channel_url: str) -> dict`
Fetches metadata for a specific channel. Results are cached.
-   **`channel_url`**: The URL of the channel.
-   **Returns**: A dictionary with channel metadata like `title`, `description`, `subscriber_count`, `vanity_url`, etc.
-   **Raises**: `VideoUnavailableError`, `MetadataParsingError`.

#### `get_channel_videos(channel_url: str, ..., stop_at_video_id: str = None, max_videos: int = -1) -> Generator[dict, None, None]`
Yields metadata for videos from a channel.
-   **`start_date`**: The earliest date for videos to include (e.g., `date(2023, 1, 1)` or `"30d"`).
-   **`end_date`**: The latest date for videos to include.
-   **`fetch_full_metadata`**: If `True`, fetches detailed metadata for every video. Automatically enabled if a "slow filter" is used.
-   **`filters`**: A dictionary of advanced filter conditions (see above).
-   **`stop_at_video_id`**: Stops fetching when this video ID is found.
-   **`max_videos`**: The maximum number of videos to return.

#### `get_playlist_videos(playlist_id: str, ..., stop_at_video_id: str = None, max_videos: int = -1) -> Generator[dict, None, None]`
Yields metadata for videos from a playlist.
-   **`start_date`**: The earliest date for videos to include (e.g., `date(2023, 1, 1)` or `"30d"`).
-   **`end_date`**: The latest date for videos to include.
-   **`fetch_full_metadata`**: If `True`, fetches detailed metadata for every video.
-   **`filters`**: A dictionary of advanced filter conditions.
-   **`stop_at_video_id`**: Stops fetching when this video ID is found.
-   **`max_videos`**: The maximum number of videos to return.

#### `clear_cache()`
Clears all items from the configured cache (both in-memory and persistent).

## Error Handling

The library uses custom exceptions to signal specific error conditions.

### `YtMetaError`
The base exception for all errors in this library.

### `MetadataParsingError`

## Library Architecture

For developers and contributors, it's helpful to understand the internal design of `yt-meta`. The library follows the **Facade design pattern**.

- **`YtMeta` (The Facade):** The main `YtMeta` class that you instantiate is the public-facing API. Its primary role is to delegate requests to the appropriate specialized "fetcher" class. It holds shared objects like the session and cache but contains no data-fetching logic itself.

- **Fetcher Classes (The Subsystems):**
  - **`VideoFetcher`:** Handles all logic related to individual videos, such as fetching metadata and comments.
  - **`ChannelFetcher`:** Manages fetching data from a channel's "Videos" and "Shorts" tabs, including handling pagination.
  - **`PlaylistFetcher`:** Responsible for retrieving video lists from a playlist.

This separation of concerns makes the library easier to maintain, test, and extend. If you need to fix a bug related to playlist parsing, for example, you know to look in `yt_meta/fetchers.py` in the `PlaylistFetcher` class.
