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Period Grouping, Complete Calendars, Cohorts, and Retention Foundations / write query
M26-A07 - Checkpoint: Period Grouping, Complete Calendars, Cohorts, and Retention Foundations
M26-A07 - Checkpoint: Period Grouping, Complete Calendars, Cohorts, and Retention Foundations. Create complete period series and calculate basic retention without dropping quiet periods.
- Result grain
- one row per experiment variant
- Exact columns
- variant; assigned_users; activated_users; activation_rate
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Cursor at line 1, column 1.
Scenario
Use the visible seed to understand the task, then pass hidden deterministic variants.
Period Grouping, Complete Calendars, Cohorts, and Retention Foundations / write query
One-sentence task
M26-A07 - Checkpoint: Period Grouping, Complete Calendars, Cohorts, and Retention Foundations. Create complete period series and calculate basic retention without dropping quiet periods.
Learn mode disclosure
Theory, concept names, full schema help, and progressive hints are available.
Structured output contract
- Result grain
- one row per experiment variant
- Exact columns
- variant; assigned_users; activated_users; activation_rate
- Source population
- Use the prompt setup plus FROM, JOIN, WHERE, and subquery predicates as the source population. Visible rows are only examples.
- Grouping
- Group only at the requested output grain: one row per experiment variant.
- Ordering
- No display order requirement unless Check reports one.
- Validation
- select-only; hidden deterministic variants.
Relevant tables
Time and difficulty
- Estimated time
- 12 minutes
- Difficulty
- 5/5
Objective and concepts
Debug the requested SQL output contract for period grouping, complete calendars, cohorts, and retention foundations using source grain, columns, ordering, and edge-case evidence.
Glossary links
Concept material
SQL Trail treats every query as an evidence trail: identify source grain, transform rows deliberately, then compare output to a shared contract.
A passing query must handle hidden nulls, ties, boundaries, and no-match rows when the contract makes them relevant.
Syntax card
SELECT <requested_columns>
FROM <source_table>
WHERE <source_population_filter>
GROUP BY <result_grain_columns>
ORDER BY <deterministic_tie_breakers>;- <requested_columns> means the exact output columns, aliases, and order from the visible contract.
- <source_population_filter> means the row population definition, not a copied visible-row value.
- <deterministic_tie_breakers> means all ordering and tie rules needed for repeatable output.
Why this works
MIN collapses duplicate activation events to the earliest activation time per user.
Edge cases
Hidden variants preserve nulls, ties, duplicates, boundaries, no-match rows, and alternate row order when those risks apply.
PostgreSQL note
The local engine uses PostgreSQL-compatible syntax, including explicit NULL predicates, deterministic ORDER BY clauses, and transactional grading.
Worked example
SELECT user_id, MIN(occurred_at) AS activated_at FROM events WHERE event_name = 'created_project' GROUP BY user_id ORDER BY user_id;Assumptions, dialect notes, and common traps
- Duplicate policy
- Preserve duplicate facts unless the prompt explicitly asks for distinct tuples or set semantics.
- Null policy
- Preserve NULL, empty string, zero, and false as distinct values unless the contract says to display a fallback.
- Tie-breakers
- Use every ordering rule in the contract and end tied business metrics with deterministic secondary keys when needed.
- Zero-related entities
- Preserve requested zero-related, no-match, or complete-period entities and make display fallback explicit.
- Numeric tolerance
- Round only at the requested final stage; hidden checks use the contract precision rather than visible formatting luck.
PostgreSQL-compatible local checks
Queries run in a local PGlite worker with PostgreSQL-style syntax and transactional grading.
- Wrong grain: The row count looks plausible but duplicates or missing zero rows appear. Repair: Name the intended grain, then inspect joins and GROUP BY clauses against that grain.
- Unstable order: The same rows appear in a different order during checks. Repair: Add a deterministic secondary sort key when ties are possible.
Opened hints
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