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266 lines
12 KiB
Markdown
266 lines
12 KiB
Markdown
---
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slug: /en/getting-started/example-datasets/covid19
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sidebar_label: COVID-19 Open-Data
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---
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# COVID-19 Open-Data
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COVID-19 Open-Data attempts to assemble the largest Covid-19 epidemiological database, in addition to a powerful set of expansive covariates. It includes open, publicly sourced, licensed data relating to demographics, economy, epidemiology, geography, health, hospitalizations, mobility, government response, weather, and more.
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The details are in GitHub [here](https://github.com/GoogleCloudPlatform/covid-19-open-data).
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It's easy to insert this data into ClickHouse...
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:::note
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The following commands were executed on a **Production** instance of [ClickHouse Cloud](https://clickhouse.cloud). You can easily run them on a local install as well.
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:::
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1. Let's see what the data looks like:
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```sql
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DESCRIBE url(
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'https://storage.googleapis.com/covid19-open-data/v3/epidemiology.csv',
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'CSVWithNames'
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);
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```
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The CSV file has 10 columns:
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```response
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┌─name─────────────────┬─type─────────────┐
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│ date │ Nullable(Date) │
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│ location_key │ Nullable(String) │
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│ new_confirmed │ Nullable(Int64) │
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│ new_deceased │ Nullable(Int64) │
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│ new_recovered │ Nullable(Int64) │
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│ new_tested │ Nullable(Int64) │
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│ cumulative_confirmed │ Nullable(Int64) │
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│ cumulative_deceased │ Nullable(Int64) │
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│ cumulative_recovered │ Nullable(Int64) │
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│ cumulative_tested │ Nullable(Int64) │
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└──────────────────────┴──────────────────┘
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10 rows in set. Elapsed: 0.745 sec.
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```
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2. Now let's view some of the rows:
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```sql
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SELECT *
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FROM url('https://storage.googleapis.com/covid19-open-data/v3/epidemiology.csv')
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LIMIT 100;
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```
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Notice the `url` function easily reads data from a CSV file:
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```response
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┌─c1─────────┬─c2───────────┬─c3────────────┬─c4───────────┬─c5────────────┬─c6─────────┬─c7───────────────────┬─c8──────────────────┬─c9───────────────────┬─c10───────────────┐
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│ date │ location_key │ new_confirmed │ new_deceased │ new_recovered │ new_tested │ cumulative_confirmed │ cumulative_deceased │ cumulative_recovered │ cumulative_tested │
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│ 2020-04-03 │ AD │ 24 │ 1 │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │ 466 │ 17 │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │
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│ 2020-04-04 │ AD │ 57 │ 0 │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │ 523 │ 17 │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │
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│ 2020-04-05 │ AD │ 17 │ 4 │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │ 540 │ 21 │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │
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│ 2020-04-06 │ AD │ 11 │ 1 │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │ 551 │ 22 │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │
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│ 2020-04-07 │ AD │ 15 │ 2 │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │ 566 │ 24 │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │
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│ 2020-04-08 │ AD │ 23 │ 2 │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │ 589 │ 26 │ ᴺᵁᴸᴸ │ ᴺᵁᴸᴸ │
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└────────────┴──────────────┴───────────────┴──────────────┴───────────────┴────────────┴──────────────────────┴─────────────────────┴──────────────────────┴───────────────────┘
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```
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3. We will create a table now that we know what the data looks like:
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```sql
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CREATE TABLE covid19 (
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date Date,
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location_key LowCardinality(String),
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new_confirmed Int32,
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new_deceased Int32,
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new_recovered Int32,
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new_tested Int32,
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cumulative_confirmed Int32,
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cumulative_deceased Int32,
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cumulative_recovered Int32,
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cumulative_tested Int32
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)
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ENGINE = MergeTree
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ORDER BY (location_key, date);
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```
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4. The following command inserts the entire dataset into the `covid19` table:
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```sql
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INSERT INTO covid19
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SELECT *
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FROM
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url(
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'https://storage.googleapis.com/covid19-open-data/v3/epidemiology.csv',
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CSVWithNames,
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'date Date,
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location_key LowCardinality(String),
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new_confirmed Int32,
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new_deceased Int32,
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new_recovered Int32,
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new_tested Int32,
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cumulative_confirmed Int32,
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cumulative_deceased Int32,
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cumulative_recovered Int32,
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cumulative_tested Int32'
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);
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```
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5. It goes pretty quick - let's see how many rows were inserted:
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```sql
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SELECT formatReadableQuantity(count())
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FROM covid19;
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```
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```response
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┌─formatReadableQuantity(count())─┐
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│ 12.53 million │
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└─────────────────────────────────┘
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```
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6. Let's see how many total cases of Covid-19 were recorded:
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```sql
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SELECT formatReadableQuantity(sum(new_confirmed))
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FROM covid19;
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```
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```response
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┌─formatReadableQuantity(sum(new_confirmed))─┐
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│ 1.39 billion │
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└────────────────────────────────────────────┘
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```
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7. You will notice the data has a lot of 0's for dates - either weekends or days when numbers were not reported each day. We can use a window function to smooth out the daily averages of new cases:
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```sql
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SELECT
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AVG(new_confirmed) OVER (PARTITION BY location_key ORDER BY date ROWS BETWEEN 2 PRECEDING AND 2 FOLLOWING) AS cases_smoothed,
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new_confirmed,
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location_key,
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date
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FROM covid19;
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```
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8. This query determines the latest values for each location. We can't use `max(date)` because not all countries reported every day, so we grab the last row using `ROW_NUMBER`:
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```sql
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WITH latest_deaths_data AS
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( SELECT location_key,
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date,
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new_deceased,
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new_confirmed,
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ROW_NUMBER() OVER (PARTITION BY location_key ORDER BY date DESC) as rn
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FROM covid19)
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SELECT location_key,
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date,
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new_deceased,
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new_confirmed,
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rn
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FROM latest_deaths_data
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WHERE rn=1;
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```
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9. We can use `lagInFrame` to determine the `LAG` of new cases each day. In this query we filter by the `US_DC` location:
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```sql
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SELECT
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new_confirmed - lagInFrame(new_confirmed,1) OVER (PARTITION BY location_key ORDER BY date) AS confirmed_cases_delta,
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new_confirmed,
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location_key,
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date
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FROM covid19
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WHERE location_key = 'US_DC';
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```
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The response look like:
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```response
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┌─confirmed_cases_delta─┬─new_confirmed─┬─location_key─┬───────date─┐
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│ 0 │ 0 │ US_DC │ 2020-03-08 │
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│ 2 │ 2 │ US_DC │ 2020-03-09 │
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│ -2 │ 0 │ US_DC │ 2020-03-10 │
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│ 6 │ 6 │ US_DC │ 2020-03-11 │
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│ -6 │ 0 │ US_DC │ 2020-03-12 │
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│ 0 │ 0 │ US_DC │ 2020-03-13 │
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│ 6 │ 6 │ US_DC │ 2020-03-14 │
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│ -5 │ 1 │ US_DC │ 2020-03-15 │
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│ 4 │ 5 │ US_DC │ 2020-03-16 │
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│ 4 │ 9 │ US_DC │ 2020-03-17 │
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│ -1 │ 8 │ US_DC │ 2020-03-18 │
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│ 24 │ 32 │ US_DC │ 2020-03-19 │
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│ -26 │ 6 │ US_DC │ 2020-03-20 │
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│ 15 │ 21 │ US_DC │ 2020-03-21 │
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│ -3 │ 18 │ US_DC │ 2020-03-22 │
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│ 3 │ 21 │ US_DC │ 2020-03-23 │
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```
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10. This query calculates the percentage of change in new cases each day, and includes a simple `increase` or `decrease` column in the result set:
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```sql
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WITH confirmed_lag AS (
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SELECT
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*,
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lagInFrame(new_confirmed) OVER(
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PARTITION BY location_key
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ORDER BY date
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) AS confirmed_previous_day
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FROM covid19
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),
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confirmed_percent_change AS (
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SELECT
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*,
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COALESCE(ROUND((new_confirmed - confirmed_previous_day) / confirmed_previous_day * 100), 0) AS percent_change
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FROM confirmed_lag
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)
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SELECT
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date,
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new_confirmed,
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percent_change,
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CASE
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WHEN percent_change > 0 THEN 'increase'
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WHEN percent_change = 0 THEN 'no change'
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ELSE 'decrease'
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END AS trend
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FROM confirmed_percent_change
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WHERE location_key = 'US_DC';
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```
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The results look like
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```response
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┌───────date─┬─new_confirmed─┬─percent_change─┬─trend─────┐
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│ 2020-03-08 │ 0 │ nan │ decrease │
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│ 2020-03-09 │ 2 │ inf │ increase │
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│ 2020-03-10 │ 0 │ -100 │ decrease │
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│ 2020-03-11 │ 6 │ inf │ increase │
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│ 2020-03-12 │ 0 │ -100 │ decrease │
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│ 2020-03-13 │ 0 │ nan │ decrease │
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│ 2020-03-14 │ 6 │ inf │ increase │
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│ 2020-03-15 │ 1 │ -83 │ decrease │
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│ 2020-03-16 │ 5 │ 400 │ increase │
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│ 2020-03-17 │ 9 │ 80 │ increase │
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│ 2020-03-18 │ 8 │ -11 │ decrease │
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│ 2020-03-19 │ 32 │ 300 │ increase │
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│ 2020-03-20 │ 6 │ -81 │ decrease │
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│ 2020-03-21 │ 21 │ 250 │ increase │
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│ 2020-03-22 │ 18 │ -14 │ decrease │
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│ 2020-03-23 │ 21 │ 17 │ increase │
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│ 2020-03-24 │ 46 │ 119 │ increase │
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│ 2020-03-25 │ 48 │ 4 │ increase │
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│ 2020-03-26 │ 36 │ -25 │ decrease │
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│ 2020-03-27 │ 37 │ 3 │ increase │
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│ 2020-03-28 │ 38 │ 3 │ increase │
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│ 2020-03-29 │ 59 │ 55 │ increase │
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│ 2020-03-30 │ 94 │ 59 │ increase │
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│ 2020-03-31 │ 91 │ -3 │ decrease │
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│ 2020-04-01 │ 67 │ -26 │ decrease │
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│ 2020-04-02 │ 104 │ 55 │ increase │
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│ 2020-04-03 │ 145 │ 39 │ increase │
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```
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:::note
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As mentioned in the [GitHub repo](https://github.com/GoogleCloudPlatform/covid-19-open-data), the dataset is no longer updated as of September 15, 2022.
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:::
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