| name | argument-mapping |
| description | Reconstruct, visualize, and analyze argument structure. Use for: argument reconstruction, premise identification, inference evaluation, finding hidden assumptions, visualizing debates, Toulmin model analysis. Triggers: 'argument structure', 'premises', 'conclusion', 'inference', 'reconstruct', 'map the argument', 'Toulmin', 'argument diagram', 'validity', 'soundness', 'implicit premise', 'hidden assumption', 'logical structure'. |
Argument Mapping Skill
Master the art of reconstructing, visualizing, and evaluating the logical structure of arguments.
Why Map Arguments?
Argument mapping serves several purposes:
- Clarify: Make implicit structure explicit
- Evaluate: Assess validity and soundness systematically
- Communicate: Present complex arguments visually
- Critique: Identify weaknesses and hidden assumptions
- Steelman: Ensure fair representation of opposing views
Basic Argument Structure
Components of an Argument
| Component | Definition | Example |
|---|---|---|
| Conclusion | The claim being argued for | "Socrates is mortal" |
| Premise | A reason supporting the conclusion | "All men are mortal" |
| Inference | The logical move from premises to conclusion | "Therefore..." |
| Assumption | Unstated premise needed for validity | (Often hidden) |
Simple Argument Form
P1: [Premise 1]
P2: [Premise 2]
-------------------
C: [Conclusion]
Example:
P1: All men are mortal
P2: Socrates is a man
-------------------
C: Socrates is mortal
The Toulmin Model
Stephen Toulmin's model captures the nuanced structure of real-world arguments.
Six Components
QUALIFIER
│
▼
GROUNDS ──────────► CLAIM ◄─────────── REBUTTAL
│ ▲ │
│ │ │
▼ │ ▼
WARRANT ◄──────── BACKING (Unless...)
| Component | Definition | Example |
|---|---|---|
| Claim | The conclusion/assertion | "We should ban smoking in restaurants" |
| Grounds | Evidence/data supporting claim | "Secondhand smoke causes cancer" |
| Warrant | Principle connecting grounds to claim | "We should prevent cancer-causing exposures" |
| Backing | Support for the warrant itself | "Preventing harm is a core purpose of public policy" |
| Qualifier | Degree of certainty | "Probably," "Certainly," "Presumably" |
| Rebuttal | Conditions where claim fails | "Unless economic harm outweighs health benefits" |
Toulmin Diagram Template
┌─────────────────────────────────────────────────────────────────────┐
│ │
│ CLAIM: [Central thesis/conclusion] │
│ Qualifier: [Certainly/Probably/Possibly] │
│ │
│ ──────────────────────────────────────────────────────────────── │
│ │
│ GROUNDS: │ REBUTTAL: │
│ [Evidence/facts/data] │ Unless [exception conditions] │
│ │ │
│ ──────────────────────────────────────────────────────────────── │
│ │
│ WARRANT: │
│ [Principle that licenses inference from grounds to claim] │
│ │
│ ──────────────────────────────────────────────────────────────── │
│ │
│ BACKING: │
│ [Support for the warrant] │
│ │
└─────────────────────────────────────────────────────────────────────┘
Argument Reconstruction Protocol
Step 1: Identify the Conclusion
What is the main claim being defended?
Indicator words: therefore, thus, hence, so, consequently, it follows that, we can conclude
If not explicit: What would the speaker want you to believe/do?
Step 2: Find the Premises
What reasons are given for the conclusion?
Indicator words: because, since, for, given that, as shown by, the reason is
List them: Number each premise explicitly (P1, P2, P3...)
Step 3: Make Implicit Premises Explicit
What unstated assumptions are needed for the argument to work?
Test: If we add this premise, does the argument become valid?
Charity: Choose the most reasonable implicit premises
Step 4: Analyze the Structure
How do the premises relate?
Linked premises: Work together (all needed)
P1 + P2
│
▼
C
Convergent premises: Independent support (each sufficient)
P1 P2
\ /
\ /
C
Serial/Chain arguments: One supports another
P1
│
P2
│
C
Step 5: Evaluate
- Validity: Does conclusion follow from premises?
- Soundness: Are premises actually true?
- Strength (inductive): How probable is conclusion given premises?
Diagramming Conventions
Standard Notation
┌─────┐
│ P1 │ ← Premise (box)
└──┬──┘
│
▼
┌─────┐
│ C │ ← Conclusion (box)
└─────┘
Linked vs. Convergent
Linked (all premises needed together):
┌─────┐ ┌─────┐
│ P1 │───│ P2 │
└──┬──┘ └──┬──┘
└────┬────┘
▼
┌─────┐
│ C │
└─────┘
Convergent (independent support):
┌─────┐ ┌─────┐
│ P1 │ │ P2 │
└──┬──┘ └──┬──┘
│ │
└─────┬───────┘
▼
┌─────┐
│ C │
└─────┘
Sub-Arguments
When a premise is itself supported:
┌─────┐
│ P1a │ ← Sub-premise
└──┬──┘
▼
┌─────┐
│ P1 │ ← Intermediate conclusion / Premise for main argument
└──┬──┘
│
┌──┴──┐
│ P2 │
└──┬──┘
▼
┌─────┐
│ C │ ← Main conclusion
└─────┘
Objections and Rebuttals
┌─────┐
│ P1 │
└──┬──┘
▼
┌─────┐ ┌─────────┐
│ C │ ◄─ ✗ ───│Objection│
└─────┘ └────┬────┘
│
┌────▼────┐
│ Rebuttal│
└─────────┘
Dialectical Tree Format
For multi-position debates:
THESIS: [Main Position A]
│
├── Support 1: [Argument for A]
│ ├── Evidence 1a
│ └── Evidence 1b
│
├── Support 2: [Another argument for A]
│
└── ANTITHESIS: [Opposing Position B]
│
├── Objection to Support 1: [Why it fails]
│
├── Objection to Support 2: [Why it fails]
│
└── Positive argument for B
│
└── SYNTHESIS: [Higher-level resolution]
│
├── What's preserved from A
├── What's preserved from B
└── What's new
Common Argument Patterns
Deductive Patterns
Modus Ponens:
P1: If A, then B
P2: A
---------------
C: B
Modus Tollens:
P1: If A, then B
P2: Not B
---------------
C: Not A
Disjunctive Syllogism:
P1: A or B
P2: Not A
---------------
C: B
Hypothetical Syllogism:
P1: If A, then B
P2: If B, then C
---------------
C: If A, then C
Reductio ad Absurdum:
P1: Assume A (for contradiction)
P2: A leads to contradiction B & not-B
---------------
C: Not A
Inductive Patterns
Generalization:
P1: Sample S has property P
P2: Sample S is representative of population X
---------------
C: (Probably) All X have property P
Analogy:
P1: A has properties F, G, H
P2: B has properties F, G
P3: A has property X
---------------
C: (Probably) B has property X
Inference to Best Explanation:
P1: Phenomenon P is observed
P2: Hypothesis H would explain P
P3: H is the best available explanation
---------------
C: (Probably) H is true
Philosophical Argument Patterns
Conceivability Argument:
P1: X is conceivable
P2: If conceivable, then possible
---------------
C: X is possible
Counterexample:
P1: Thesis T claims all X are Y
P2: Case C is X but not Y
---------------
C: Thesis T is false
Thought Experiment:
P1: In scenario S, intuition I is strong
P2: If I is correct, then principle P
---------------
C: Principle P
Hidden Assumption Detection
Method 1: Gap Analysis
- State the premises
- State the conclusion
- Ask: What must be true for this inference to work?
- The answer is the hidden assumption
Method 2: Negation Test
- Negate a potential assumption
- If the argument fails, the assumption was needed
Method 3: Charity + Validity
- Assume the argument is intended to be valid
- What premise would make it valid?
- That's the most charitable hidden assumption
Common Hidden Assumptions
| Type | Example |
|---|---|
| Empirical | Facts about the world assumed without evidence |
| Normative | Value judgments assumed without defense |
| Conceptual | Definitions assumed without clarification |
| Background | Shared context assumed without statement |
| Scope | Universality assumed without justification |
Evaluation Criteria
For Deductive Arguments
| Criterion | Question | Assessment |
|---|---|---|
| Validity | Does conclusion follow necessarily? | Yes/No |
| Soundness | Are all premises true? | Yes/No/Unknown |
| Completeness | Are hidden premises stated? | Yes/Partially/No |
For Inductive Arguments
| Criterion | Question | Assessment |
|---|---|---|
| Strength | How probable is conclusion given premises? | Strong/Moderate/Weak |
| Cogency | Are premises true AND argument strong? | Yes/No |
| Sample quality | Is evidence representative? | Yes/No |
Output Templates
Standard Reconstruction
## Argument Reconstruction: [Topic/Source]
### Conclusion
[State the main claim being argued for]
### Explicit Premises
P1: [First stated premise]
P2: [Second stated premise]
P3: [Third stated premise]
### Hidden Premises
H1: [First unstated assumption needed for validity]
H2: [Second unstated assumption]
### Argument Structure
[Diagram showing how premises relate to conclusion]
### Evaluation
- **Validity**: [Valid/Invalid—explain]
- **Soundness**: [Sound/Unsound/Unknown—explain]
- **Key weakness**: [Most vulnerable point]
### Dialectical Context
[How this argument relates to the broader debate]
Debate Map
## Debate Map: [Topic]
### Question at Issue
[The central question being debated]
### Position A: [Label]
**Thesis**: [Main claim]
**Arguments**:
1. [Argument 1]
- Objection: [Counter]
- Reply: [Response]
2. [Argument 2]
### Position B: [Label]
**Thesis**: [Main claim]
**Arguments**:
1. [Argument 1]
2. [Argument 2]
### Points of Agreement
- [Shared premise 1]
- [Shared premise 2]
### Core Disagreement
[What the debate ultimately turns on]
### Assessment
[Which position is stronger and why]
Integration with Other Skills
- philosophical-analyst: Use mapping in step 2 (argument reconstruction)
- symposiarch: Map arguments during debate management
- thought-experiments: Map the argument structure of thought experiment cases
- devils-advocate: Identify weak premises in argument maps
Reference Files
patterns.md: Comprehensive catalog of argument patternsdiagramming.md: Extended diagramming conventions and tools