Selecting Data

In the late 1920s and early 1930s, William Dyer, Frank Pabodie, and Valentina Roerich led expeditions to the Pole of Inaccessibility in the South Pacific, and then onward to Antarctica. Two years ago, their expeditions were found in a storage locker at Miskatonic University. We have scanned and OCR'd the data they contain, and we now want to store that information in a way that will make search and analysis easy.

We basically have three options: text files, a spreadsheet, or a database. Text files are easiest to create, and work well with version control, but then we would then have to build search and analysis tools ourselves. Spreadsheets are good for doing simple analysis, they don't handle large or complex data sets very well. We would therefore like to put this data in a database, and these lessons will show how to do that.

Objectives

  • Explain the difference between a table, a record, and a field.
  • Explain the difference between a database and a database manager.
  • Write a query to select all values for specific fields from a single table.

A Few Definitions

A relational database is a way to store and manipulate information that is arranged as tables. Each table has columns (also known as fields) which describe the data, and rows (also known as records) which contain the data.

When we are using a spreadsheet, we put formulas into cells to calculate new values based on old ones. When we are using a database, we send commands (usually called queries) to a database manager: a program that manipulates the database for us. The database manager does whatever lookups and calculations the query specifies, returning the results in a tabular form that we can then use as a starting point for further queries.

Every database manager—Oracle, IBM DB2, PostgreSQL, MySQL, Microsoft Access, and SQLite—stores data in a different way, so a database created with one cannot be used directly by another. However, every database manager can import and export data in a variety of formats, so it is possible to move information from one to another.

Queries are written in a language called SQL, which stands for "Structured Query Language". SQL provides hundreds of different ways to analyze and recombine data; we will only look at a handful, but that handful accounts for most of what scientists do.

The tables below show the database we will use in our examples:

Person: people who took readings.
ident personal family
dyer William Dyer
pb Frank Pabodie
lake Anderson Lake
roe Valentina Roerich
danforth Frank Danforth
Site: locations where readings were taken.
name lat long
DR-1 -49.85 -128.57
DR-3 -47.15 -126.72
MSK-4 -48.87 -123.4
Visited: when readings were taken at specific sites.
ident site dated
619 DR-1 1927-02-08
622 DR-1 1927-02-10
734 DR-3 1939-01-07
735 DR-3 1930-01-12
751 DR-3 1930-02-26
752 DR-3  
837 MSK-4 1932-01-14
844 DR-1 1932-03-22
Survey: the actual readings.
taken person quant reading
619 dyer rad 9.82
619 dyer sal 0.13
622 dyer rad 7.8
622 dyer sal 0.09
734 pb rad 8.41
734 lake sal 0.05
734 pb temp -21.5
735 pb rad 7.22
735   sal 0.06
735   temp -26.0
751 pb rad 4.35
751 pb temp -18.5
751 lake sal 0.1
752 lake rad 2.19
752 lake sal 0.09
752 lake temp -16.0
752 roe sal 41.6
837 lake rad 1.46
837 lake sal 0.21
837 roe sal 22.5
844 roe rad 11.25

Notice that three entries—one in the Visited table, and two in the Survey table—are shown in red because they don't contain any actual data: we'll return to these missing values later. For now, let's write an SQL query that displays scientists' names. We do this using the SQL command select, giving it the names of the columns we want and the table we want them from. Our query and its output look like this:

%load_ext sqlitemagic
%%sqlite survey.db
select family, personal from Person;
DyerWilliam
PabodieFrank
LakeAnderson
RoerichValentina
DanforthFrank

The semi-colon at the end of the query tells the database manager that the query is complete and ready to run. We have written our commands and column names in lower case, and the table name in Title Case, but we don't have to: as the example below shows, SQL is case insensitive.

%%sqlite survey.db
SeLeCt FaMiLy, PeRsOnAl FrOm PeRsOn;
DyerWilliam
PabodieFrank
LakeAnderson
RoerichValentina
DanforthFrank

Whatever casing convention you choose, please be consistent: complex queries are hard enough to read without the extra cognitive load of random capitalization.

Going back to our query, it's important to understand that the rows and columns in a database table aren't actually stored in any particular order. They will always be displayed in some order, but we can control that in various ways. For example, we could swap the columns in the output by writing our query as:

%%sqlite survey.db
select personal, family from Person;
WilliamDyer
FrankPabodie
AndersonLake
ValentinaRoerich
FrankDanforth

or even repeat columns:

%%sqlite survey.db
select ident, ident, ident from Person;
dyerdyerdyer
pbpbpb
lakelakelake
roeroeroe
danforthdanforthdanforth

As a shortcut, we can select all of the columns in a table using *:

%%sqlite survey.db
select * from Person;
dyerWilliamDyer
pbFrankPabodie
lakeAndersonLake
roeValentinaRoerich
danforthFrankDanforth

Challenges

  1. Write a query that selects only site names from the Site table.

  2. Many people format queries as:

    SELECT personal, family FROM person;
    

    or as:

    select Personal, Family from PERSON;
    

    What style do you find easiest to read, and why?

Key Points

  • A relational database stores information in tables, each of which has a fixed set of columns and a variable number of records.
  • A database manager is a program that manipulates information stored in a database.
  • We write queries in a specialized language called SQL to extract information from databases.
  • SQL is case-insensitive.