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Can a Systematic Approach Translate Human-Readable Query Descriptions into SQL?
Can a Systematic Approach Translate Human-Readable Query Descriptions into SQL?
Constructing SQL Queries from Human-Readable Descriptions
Problem:
Whenever faced with a human-readable description of a query, developers typically rely on heuristics and brainstorming to translate it into a SQL query. However, is there a systematic and mathematical approach to this translation process?
Answer:
Yes, there is a systematic approach to constructing SQL queries from human-readable descriptions. It involves understanding the correspondence between natural language expressions, logical expressions, relational algebra expressions, and SQL expressions.
Steps to Translate Human-Readable Descriptions to SQL
- Identify the predicate of each table: A table's predicate is a natural language statement template that describes the rows in that table.
- Express the query in terms of the table predicates: Use relational operators (JOIN, WHERE, IN, etc.) to combine and filter table predicates to express the desired rows.
- Translate to SQL: Use the SQL syntax for each relational operator to translate the relational algebra expression into a SQL query.
Relational Operators in SQL
- JOIN: Combines rows from multiple tables based on common columns (e.g., INNER JOIN, LEFT JOIN).
- WHERE: Filters rows based on a condition (e.g., WHERE COLUMN = VALUE).
- IN: Checks if the value of a column matches a list of values (e.g., WHERE COLUMN IN (VALUE1, VALUE2)).
- UNION: Combines rows from multiple tables or subqueries (e.g., UNION, UNION CORRESPONDING).
- VALUES: Creates a table with a specific set of rows and columns (e.g., VALUES (VALUE1, VALUE2)).
Example
Consider the following human-readable description:
Find all people who are liked by someone but who don't like Ed.
Predicate of the Likes table:
[person] likes [liked]
Relational Algebra Expression:
FOR SOME x, Likes(person, x) AND Likes(x, liked) AND person = 'Bob' AND NOT Likes(x, 'Ed')
SQL Query:
SELECT DISTINCT l1.liker AS person, l2.liked AS liked FROM Likes l1 INNER JOIN Likes l2 ON l1.liked = l2.liker WHERE l1.liker = 'Bob' AND NOT (l1.liked, 'Ed') IN (SELECT * FROM Likes)
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