26 KiB
slug | sidebar_label | description |
---|---|---|
/en/getting-started/example-datasets/youtube-dislikes | YouTube Dislikes | A collection is dislikes of YouTube videos. |
YouTube dataset of dislikes
In November of 2021, YouTube removed the public dislike count from all of its videos. While creators can still see the number of dislikes, viewers can only see how many likes a video has received.
:::important The dataset has over 4.55 billion records, so be careful just copying-and-pasting the commands below unless your resources can handle that type of volume. The commands below were executed on a Production instance of ClickHouse Cloud. :::
The data is in a JSON format and can be downloaded from archive.org. We have made this same data available in S3 so that it can be downloaded more efficiently into a ClickHouse Cloud instance.
Here are the steps to create a table in ClickHouse Cloud and insert the data.
:::note
The steps below will easily work on a local install of ClickHouse too. The only change would be to use the s3
function instead of s3cluster
(unless you have a cluster configured - in which case change default
to the name of your cluster).
:::
Step-by-step instructions
- Let's see what the data looks like. The
s3cluster
table function returns a table, so we canDESCRIBE
the result:
DESCRIBE s3(
'https://clickhouse-public-datasets.s3.amazonaws.com/youtube/original/files/*.zst',
'JSONLines'
);
ClickHouse infers the following schema from the JSON file:
┌─name────────────────┬─type───────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────┬─default_type─┬─default_expression─┬─comment─┬─codec_expression─┬─ttl_expression─┐
│ id │ Nullable(String) │ │ │ │ │ │
│ fetch_date │ Nullable(String) │ │ │ │ │ │
│ upload_date │ Nullable(String) │ │ │ │ │ │
│ title │ Nullable(String) │ │ │ │ │ │
│ uploader_id │ Nullable(String) │ │ │ │ │ │
│ uploader │ Nullable(String) │ │ │ │ │ │
│ uploader_sub_count │ Nullable(Int64) │ │ │ │ │ │
│ is_age_limit │ Nullable(Bool) │ │ │ │ │ │
│ view_count │ Nullable(Int64) │ │ │ │ │ │
│ like_count │ Nullable(Int64) │ │ │ │ │ │
│ dislike_count │ Nullable(Int64) │ │ │ │ │ │
│ is_crawlable │ Nullable(Bool) │ │ │ │ │ │
│ is_live_content │ Nullable(Bool) │ │ │ │ │ │
│ has_subtitles │ Nullable(Bool) │ │ │ │ │ │
│ is_ads_enabled │ Nullable(Bool) │ │ │ │ │ │
│ is_comments_enabled │ Nullable(Bool) │ │ │ │ │ │
│ description │ Nullable(String) │ │ │ │ │ │
│ rich_metadata │ Array(Tuple(call Nullable(String), content Nullable(String), subtitle Nullable(String), title Nullable(String), url Nullable(String))) │ │ │ │ │ │
│ super_titles │ Array(Tuple(text Nullable(String), url Nullable(String))) │ │ │ │ │ │
│ uploader_badges │ Nullable(String) │ │ │ │ │ │
│ video_badges │ Nullable(String) │ │ │ │ │ │
└─────────────────────┴────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────┴──────────────┴────────────────────┴─────────┴──────────────────┴────────────────┘
- Based on the inferred schema, we cleaned up the data types and added a primary key. Define the following table:
CREATE TABLE youtube
(
`id` String,
`fetch_date` DateTime,
`upload_date_str` String,
`upload_date` Date,
`title` String,
`uploader_id` String,
`uploader` String,
`uploader_sub_count` Int64,
`is_age_limit` Bool,
`view_count` Int64,
`like_count` Int64,
`dislike_count` Int64,
`is_crawlable` Bool,
`has_subtitles` Bool,
`is_ads_enabled` Bool,
`is_comments_enabled` Bool,
`description` String,
`rich_metadata` Array(Tuple(call String, content String, subtitle String, title String, url String)),
`super_titles` Array(Tuple(text String, url String)),
`uploader_badges` String,
`video_badges` String
)
ENGINE = MergeTree
ORDER BY (uploader, upload_date)
- The following command streams the records from the S3 files into the
youtube
table.
:::important
This inserts a lot of data - 4.65 billion rows. If you do not want the entire dataset, simply add a LIMIT
clause with the desired number of rows.
:::
INSERT INTO youtube
SETTINGS input_format_null_as_default = 1
SELECT
id,
parseDateTimeBestEffortUSOrZero(toString(fetch_date)) AS fetch_date,
upload_date AS upload_date_str,
toDate(parseDateTimeBestEffortUSOrZero(upload_date::String)) AS upload_date,
ifNull(title, '') AS title,
uploader_id,
ifNull(uploader, '') AS uploader,
uploader_sub_count,
is_age_limit,
view_count,
like_count,
dislike_count,
is_crawlable,
has_subtitles,
is_ads_enabled,
is_comments_enabled,
ifNull(description, '') AS description,
rich_metadata,
super_titles,
ifNull(uploader_badges, '') AS uploader_badges,
ifNull(video_badges, '') AS video_badges
FROM s3(
'https://clickhouse-public-datasets.s3.amazonaws.com/youtube/original/files/*.zst',
'JSONLines'
)
Some comments about our INSERT
command:
- The
parseDateTimeBestEffortUSOrZero
function is handy when the incoming date fields may not be in the proper format. Iffetch_date
does not get parsed properly, it will be set to0
- The
upload_date
column contains valid dates, but it also contains strings like "4 hours ago" - which is certainly not a valid date. We decided to store the original value inupload_date_str
and attempt to parse it withtoDate(parseDateTimeBestEffortUSOrZero(upload_date::String))
. If the parsing fails we just get0
- We used
ifNull
to avoid gettingNULL
values in our table. If an incoming value isNULL
, theifNull
function is setting the value to an empty string
- Open a new tab in the SQL Console of ClickHouse Cloud (or a new
clickhouse-client
window) and watch the count increase. It will take a while to insert 4.56B rows, depending on your server resources. (Without any tweaking of settings, it takes about 4.5 hours.)
SELECT formatReadableQuantity(count())
FROM youtube
┌─formatReadableQuantity(count())─┐
│ 4.56 billion │
└─────────────────────────────────┘
- Once the data is inserted, go ahead and count the number of dislikes of your favorite videos or channels. Let's see how many videos were uploaded by ClickHouse:
SELECT count()
FROM youtube
WHERE uploader = 'ClickHouse';
┌─count()─┐
│ 84 │
└─────────┘
1 row in set. Elapsed: 0.570 sec. Processed 237.57 thousand rows, 5.77 MB (416.54 thousand rows/s., 10.12 MB/s.)
:::note
The query above runs so quickly because we chose uploader
as the first column of the primary key - so it only had to process 237k rows.
:::
- Let's look and likes and dislikes of ClickHouse videos:
SELECT
title,
like_count,
dislike_count
FROM youtube
WHERE uploader = 'ClickHouse'
ORDER BY dislike_count DESC;
The response looks like:
┌─title────────────────────────────────────────────────────────────────────────────────────────────────┬─like_count─┬─dislike_count─┐
│ ClickHouse v21.11 Release Webinar │ 52 │ 3 │
│ ClickHouse Introduction │ 97 │ 3 │
│ Casa Modelo Algarve │ 180 │ 3 │
│ Профайлер запросов: трудный путь │ 33 │ 3 │
│ ClickHouse в Курсометре │ 4 │ 2 │
│ 10 Good Reasons to Use ClickHouse │ 27 │ 2 │
...
84 rows in set. Elapsed: 0.013 sec. Processed 155.65 thousand rows, 16.94 MB (11.96 million rows/s., 1.30 GB/s.)
- Here is a search for videos with ClickHouse in the
title
ordescription
fields:
SELECT
view_count,
like_count,
dislike_count,
concat('https://youtu.be/', id) AS url,
title
FROM youtube
WHERE (title ILIKE '%ClickHouse%') OR (description ILIKE '%ClickHouse%')
ORDER BY
like_count DESC,
view_count DESC;
This query has to process every row, and also parse through two columns of strings. Even then, we get decent performance at 4.15M rows/second:
1174 rows in set. Elapsed: 1099.368 sec. Processed 4.56 billion rows, 1.98 TB (4.15 million rows/s., 1.80 GB/s.)
The results look like:
┌─view_count─┬─like_count─┬─dislike_count─┬─url──────────────────────────┬─title──────────────────────────────────────────────────────────────────────────────────────────────────┐
│ 1919 │ 63 │ 1 │ https://youtu.be/b9MeoOtAivQ │ ClickHouse v21.10 Release Webinar │
│ 8710 │ 62 │ 4 │ https://youtu.be/PeV1mC2z--M │ What is JDBC DriverManager? | JDBC │
│ 3534 │ 62 │ 1 │ https://youtu.be/8nWRhK9gw10 │ CLICKHOUSE - Arquitetura Modular │
Questions
If someone disables comments does it lower the chance someone will actually click like or dislike?
When commenting is disabled, are people more likely to like or dislike to express their feelings about a video?
SELECT
concat('< ', formatReadableQuantity(view_range)) AS views,
is_comments_enabled,
total_clicks / num_views AS prob_like_dislike
FROM
(
SELECT
is_comments_enabled,
power(10, CEILING(log10(view_count + 1))) AS view_range,
sum(like_count + dislike_count) AS total_clicks,
sum(view_count) AS num_views
FROM youtube
GROUP BY
view_range,
is_comments_enabled
) WHERE view_range > 1
ORDER BY
is_comments_enabled ASC,
num_views ASC;
┌─views─────────────┬─is_comments_enabled─┬────prob_like_dislike─┐
│ < 10.00 │ false │ 0.08224180712685371 │
│ < 100.00 │ false │ 0.06346337759167248 │
│ < 1.00 thousand │ false │ 0.03201883652987105 │
│ < 10.00 thousand │ false │ 0.01716073540410903 │
│ < 10.00 billion │ false │ 0.004555639481829971 │
│ < 100.00 thousand │ false │ 0.01293351460515323 │
│ < 1.00 billion │ false │ 0.004761811192464957 │
│ < 1.00 million │ false │ 0.010472604018980551 │
│ < 10.00 million │ false │ 0.00788902538420125 │
│ < 100.00 million │ false │ 0.00579152804250582 │
│ < 10.00 │ true │ 0.09819517478134059 │
│ < 100.00 │ true │ 0.07403784478585775 │
│ < 1.00 thousand │ true │ 0.03846294910067627 │
│ < 10.00 billion │ true │ 0.005615217329358215 │
│ < 10.00 thousand │ true │ 0.02505881391701455 │
│ < 1.00 billion │ true │ 0.007434998802482997 │
│ < 100.00 thousand │ true │ 0.022694648130822004 │
│ < 100.00 million │ true │ 0.011761563746575625 │
│ < 1.00 million │ true │ 0.020776022304589435 │
│ < 10.00 million │ true │ 0.016917095718089584 │
└───────────────────┴─────────────────────┴──────────────────────┘
22 rows in set. Elapsed: 8.460 sec. Processed 4.56 billion rows, 77.48 GB (538.73 million rows/s., 9.16 GB/s.)
Enabling comments seems to be correlated with a higher rate of engagement.
How does the number of videos change over time - notable events?
SELECT
toStartOfMonth(toDateTime(upload_date)) AS month,
uniq(uploader_id) AS uploaders,
count() as num_videos,
sum(view_count) as view_count
FROM youtube
GROUP BY month
ORDER BY month ASC;
┌──────month─┬─uploaders─┬─num_videos─┬───view_count─┐
│ 2005-04-01 │ 5 │ 6 │ 213597737 │
│ 2005-05-01 │ 6 │ 9 │ 2944005 │
│ 2005-06-01 │ 165 │ 351 │ 18624981 │
│ 2005-07-01 │ 395 │ 1168 │ 94164872 │
│ 2005-08-01 │ 1171 │ 3128 │ 124540774 │
│ 2005-09-01 │ 2418 │ 5206 │ 475536249 │
│ 2005-10-01 │ 6750 │ 13747 │ 737593613 │
│ 2005-11-01 │ 13706 │ 28078 │ 1896116976 │
│ 2005-12-01 │ 24756 │ 49885 │ 2478418930 │
│ 2006-01-01 │ 49992 │ 100447 │ 4532656581 │
│ 2006-02-01 │ 67882 │ 138485 │ 5677516317 │
│ 2006-03-01 │ 103358 │ 212237 │ 8430301366 │
│ 2006-04-01 │ 114615 │ 234174 │ 9980760440 │
│ 2006-05-01 │ 152682 │ 332076 │ 14129117212 │
│ 2006-06-01 │ 193962 │ 429538 │ 17014143263 │
│ 2006-07-01 │ 234401 │ 530311 │ 18721143410 │
│ 2006-08-01 │ 281280 │ 614128 │ 20473502342 │
│ 2006-09-01 │ 312434 │ 679906 │ 23158422265 │
│ 2006-10-01 │ 404873 │ 897590 │ 27357846117 │
A spike of uploaders around covid is noticeable.
More subtitles over time and when
With advances in speech recognition, it’s easier than ever to create subtitles for video with youtube adding auto-captioning in late 2009 - was the jump then?
SELECT
toStartOfMonth(upload_date) AS month,
countIf(has_subtitles) / count() AS percent_subtitles,
percent_subtitles - any(percent_subtitles) OVER (
ORDER BY month ASC ROWS BETWEEN 1 PRECEDING AND 1 PRECEDING
) AS previous
FROM youtube
GROUP BY month
ORDER BY month ASC;
┌──────month─┬───percent_subtitles─┬────────────────previous─┐
│ 2015-01-01 │ 0.2652653881082824 │ 0.2652653881082824 │
│ 2015-02-01 │ 0.3147556050309162 │ 0.049490216922633834 │
│ 2015-03-01 │ 0.32460464492371877 │ 0.009849039892802558 │
│ 2015-04-01 │ 0.33471963051468445 │ 0.010114985590965686 │
│ 2015-05-01 │ 0.3168087575501062 │ -0.017910872964578273 │
│ 2015-06-01 │ 0.3162609788438222 │ -0.0005477787062839745 │
│ 2015-07-01 │ 0.31828767677518033 │ 0.0020266979313581235 │
│ 2015-08-01 │ 0.3045551564286859 │ -0.013732520346494415 │
│ 2015-09-01 │ 0.311221133995152 │ 0.006665977566466086 │
│ 2015-10-01 │ 0.30574870926812175 │ -0.005472424727030245 │
│ 2015-11-01 │ 0.31125409712077234 │ 0.0055053878526505895 │
│ 2015-12-01 │ 0.3190967954651779 │ 0.007842698344405541 │
│ 2016-01-01 │ 0.32636021432496176 │ 0.007263418859783877 │
The data results show a spike in 2009. Apparently at that, time YouTube was removing their community captions feature, which allowed you to upload captions for other people's video. This prompted a very successful campaign to have creators add captions to their videos for hard of hearing and deaf viewers.
Top uploaders over time
WITH uploaders AS
(
SELECT uploader
FROM youtube
GROUP BY uploader
ORDER BY sum(view_count) DESC
LIMIT 10
)
SELECT
month,
uploader,
sum(view_count) AS total_views,
avg(dislike_count / like_count) AS like_to_dislike_ratio
FROM youtube
WHERE uploader IN (uploaders)
GROUP BY
toStartOfMonth(upload_date) AS month,
uploader
ORDER BY
month ASC,
total_views DESC;
┌──────month─┬─uploader───────────────────┬─total_views─┬─like_to_dislike_ratio─┐
│ 1970-01-01 │ T-Series │ 10957099 │ 0.022784656361208206 │
│ 1970-01-01 │ Ryan's World │ 0 │ 0.003035559410234172 │
│ 1970-01-01 │ SET India │ 0 │ nan │
│ 2006-09-01 │ Cocomelon - Nursery Rhymes │ 256406497 │ 0.7005566715978622 │
│ 2007-06-01 │ Cocomelon - Nursery Rhymes │ 33641320 │ 0.7088650914344298 │
│ 2008-02-01 │ WWE │ 43733469 │ 0.07198856488734842 │
│ 2008-03-01 │ WWE │ 16514541 │ 0.1230603715431997 │
│ 2008-04-01 │ WWE │ 5907295 │ 0.2089399470159618 │
│ 2008-05-01 │ WWE │ 7779627 │ 0.09101676560436774 │
│ 2008-06-01 │ WWE │ 7018780 │ 0.0974184753155297 │
│ 2008-07-01 │ WWE │ 4686447 │ 0.1263845422065158 │
│ 2008-08-01 │ WWE │ 4514312 │ 0.08384574274791441 │
│ 2008-09-01 │ WWE │ 3717092 │ 0.07872802579349912 │
How do like ratio changes as views go up?
SELECT
concat('< ', formatReadableQuantity(view_range)) AS view_range,
is_comments_enabled,
round(like_ratio, 2) AS like_ratio
FROM
(
SELECT
power(10, CEILING(log10(view_count + 1))) as view_range,
is_comments_enabled,
avg(like_count / dislike_count) as like_ratio
FROM youtube WHERE dislike_count > 0
GROUP BY
view_range,
is_comments_enabled HAVING view_range > 1
ORDER BY
view_range ASC,
is_comments_enabled ASC
);
┌─view_range────────┬─is_comments_enabled─┬─like_ratio─┐
│ < 10.00 │ false │ 0.66 │
│ < 10.00 │ true │ 0.66 │
│ < 100.00 │ false │ 3 │
│ < 100.00 │ true │ 3.95 │
│ < 1.00 thousand │ false │ 8.45 │
│ < 1.00 thousand │ true │ 13.07 │
│ < 10.00 thousand │ false │ 18.57 │
│ < 10.00 thousand │ true │ 30.92 │
│ < 100.00 thousand │ false │ 23.55 │
│ < 100.00 thousand │ true │ 42.13 │
│ < 1.00 million │ false │ 19.23 │
│ < 1.00 million │ true │ 37.86 │
│ < 10.00 million │ false │ 12.13 │
│ < 10.00 million │ true │ 30.72 │
│ < 100.00 million │ false │ 6.67 │
│ < 100.00 million │ true │ 23.32 │
│ < 1.00 billion │ false │ 3.08 │
│ < 1.00 billion │ true │ 20.69 │
│ < 10.00 billion │ false │ 1.77 │
│ < 10.00 billion │ true │ 19.5 │
└───────────────────┴─────────────────────┴────────────┘
How are views distributed?
SELECT
labels AS percentile,
round(quantiles) AS views
FROM
(
SELECT
quantiles(0.999, 0.99, 0.95, 0.9, 0.8, 0.7, 0.6, 0.5, 0.4, 0.3, 0.2, 0.1)(view_count) AS quantiles,
['99.9th', '99th', '95th', '90th', '80th', '70th','60th', '50th', '40th', '30th', '20th', '10th'] AS labels
FROM youtube
)
ARRAY JOIN
quantiles,
labels;
┌─percentile─┬───views─┐
│ 99.9th │ 1216624 │
│ 99th │ 143519 │
│ 95th │ 13542 │
│ 90th │ 4054 │
│ 80th │ 950 │
│ 70th │ 363 │
│ 60th │ 177 │
│ 50th │ 97 │
│ 40th │ 57 │
│ 30th │ 32 │
│ 20th │ 16 │
│ 10th │ 6 │
└────────────┴─────────┘