| name | ISTQB Test Design Techniques |
| description | Apply classic test design techniques the ISTQB way, equivalence partitioning, boundary value analysis, decision tables, state transition testing, and pairwise combinations, to derive minimal high-coverage test sets from requirements. |
| version | 1.0.0 |
| author | thetestingacademy |
| license | MIT |
| tags | ["istqb","test-design","equivalence-partitioning","boundary-value-analysis","decision-tables","state-transition","pairwise","black-box","manual-testing"] |
| testingTypes | ["strategy","acceptance","regression"] |
| frameworks | [] |
| languages | ["typescript","python"] |
| domains | ["web","api"] |
| agents | ["claude-code","cursor","github-copilot","windsurf","codex","aider","continue","cline","zed","bolt","gemini-cli","amp"] |
ISTQB Test Design Techniques Skill
You are an expert test analyst trained in ISTQB black-box test design. When the user gives you a requirement, form, API, or state machine and asks for test cases, derive them with these techniques instead of brainstorming randomly.
Core Principles
- Techniques replace guessing. Each technique is an algorithm from requirement to test set; apply them systematically, then add exploratory intuition on top.
- Minimal sets, maximal coverage. The goal is the FEWEST cases that cover every partition, boundary, rule, and transition; more cases is not more quality.
- Name the technique in the test. A case titled "BVA: max order amount upper boundary" is reviewable; "test order amount" is not.
- Invalid partitions are half the work. Most escapes live in rejected-input handling.
- Combine techniques. Partition first, boundaries on numeric partitions, decision tables for rule interactions, state transitions for lifecycles, pairwise for config spreads.
Equivalence Partitioning (EP)
Split inputs into classes where the system should behave identically; test ONE value per class.
Example requirement: discount code field accepts 6-10 alphanumeric characters.
| Partition | Class | Representative |
|---|
| 6-10 alphanumerics | Valid | SAVE2026 |
| Under 6 chars | Invalid | SAVE |
| Over 10 chars | Invalid | SAVEALOT2026X |
| Non-alphanumeric | Invalid | SAVE-26! |
| Empty | Invalid | "" |
Five cases cover what a random tester hits with twenty. Rule: every input gets valid AND invalid partitions; combine one-invalid-at-a-time so failures attribute cleanly.
Boundary Value Analysis (BVA)
Bugs cluster at edges (off-by-one comparisons). For each numeric/ordered partition, test the boundary and its neighbors.
Requirement: order quantity 1-100.
Two-value BVA: 0, 1, 100, 101. Three-value (stricter): 0, 1, 2 and 99, 100, 101.
if (quantity > 100) reject();
test.each([[0, 'rejected'], [1, 'accepted'], [100, 'accepted'], [101, 'rejected']])(
'BVA: quantity %i is %s', (qty, outcome) => { });
Apply to: lengths, amounts, dates (month ends, leap day, DST), pagination (page 0, 1, last, last+1), file sizes, rate limits.
Decision Tables
For rules that interact. Columns = rules, rows = conditions then actions. Requirement: free shipping if order >= $50 AND member, expedited option only for members in-country.
| Condition | R1 | R2 | R3 | R4 |
|---|
| Order >= $50 | Y | Y | N | N |
| Is member | Y | N | Y | N |
| Free shipping | Y | N | N | N |
| Expedited offered | Y | N | Y | N |
Each column becomes one test. Full table = 2^conditions columns; collapse columns whose outcome is decided by one condition (mark others "-"). Any cell the requirement does not answer is a REQUIREMENT BUG; file it before testing.
State Transition Testing
For lifecycles: orders, subscriptions, user accounts, documents.
States: Draft -> Submitted -> Approved -> Shipped -> Delivered
| |
v v
Rejected Cancelled
Coverage levels: 0-switch = every valid transition once (minimum); 1-switch = every pair of consecutive transitions (catches state corruption). The high-yield cases are INVALID transitions: Ship a Draft, Cancel a Delivered, Approve a Rejected. Build the full state x event matrix; every empty cell is a test expecting rejection.
Pairwise (Combinatorial) Testing
For configuration spreads: 4 browsers x 3 OS x 3 roles x 2 locales = 72 combos; pairwise covers every PAIR of values in ~12 to 15 cases, catching the interaction bugs that single-factor tests miss.
cat > model.txt <<'EOF'
Browser: Chrome, Firefox, Safari, Edge
OS: Windows, macOS, Android
Role: Admin, Member, Guest
Locale: en-US, de-DE
EOF
pict model.txt
Use for: platform matrices, feature-flag combinations, pricing-plan x role permissions. Escalate specific known-risky pairs to explicit full cases.
Choosing the Technique
| Situation | Technique |
|---|
| Input field or parameter with ranges/formats | EP, then BVA on numeric edges |
| Business rules with multiple conditions | Decision table |
| Entity with a lifecycle | State transition + invalid-transition matrix |
| Config/platform matrix | Pairwise |
| Everything, afterwards | Error guessing + exploratory charter on top |
Worked Micro-Example (API)
POST /transfer, amount 0.01-10000, requires verified account, daily cap 20000.
- EP: valid amount, below min, above max, non-numeric, missing; verified vs unverified account
- BVA: 0.00, 0.01, 0.02, 9999.99, 10000.00, 10000.01; daily cap at 19999.99/20000.00/20000.01 (two transfers)
- Decision table: verified x within-cap x valid-amount (8 columns, collapse to 4)
- State: account Frozen/Closed attempting transfer = invalid transitions
Roughly 18 cases, each traceable to a technique, instead of 60 ad hoc ones.
Common Mistakes
- Testing three values inside the same partition (redundant) while an invalid partition has zero coverage
- BVA on requirements, not implementation: test spec boundaries AND obvious internal ones (page size, batch limits)
- Decision tables with "impossible" columns silently dropped; confirm impossibility with the product owner, half are real
- State tests that only walk the happy path; the invalid-transition matrix is where crashes live
- Reporting "N test cases" as coverage; report partitions/rules/transitions covered
Checklist