Keyword `return`

return is documented here as a full reference entry: grammatical role, semantics, canonical form, valid example, counter-example, diagnostics, interactions, and design notes.

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Summary

Overview
Definition
Grammatical role
Canonical syntax
Detailed semantics
Effect on execution
Valid variants
Vitte example
Guided reading of the example
Comparison with C
Recommended uses
Invalid example and diagnostic
Common errors
Neighbor keywords
Common misreadings
Implementation notes
Presence in the book

Overview

Field	Value
Keyword	`return`
Family	Control flow
Suggested level	Beginner
Main neighbor	`give`
Short role	`return` is a control-flow keyword that changes the program's execution path.
Main effect	`return` immediately changes the execution path, whether by choosing a branch, repeating, interrupting, or terminating a flow.

The keyword return structures execution. It determines when a block opens, when a branch is chosen, when a loop continues or stops, or when an exit becomes observable.

A useful encyclopedic reading should answer three questions: where can return appear, what does it change in the block contract, and how does the compiler signal misuse?

Definition

return is a control-flow keyword that changes the program's execution path.

The keyword return structures execution. It determines when a block opens, when a branch is chosen, when a loop continues or stops, or when an exit becomes observable.

Grammatical role

Produces the output of the procedure or entry point within a full return convention.

This grammatical role is essential: if a reader understands the structural place of return, they already understand much of the diagnostics that will appear when it is moved or truncated.

Canonical syntax

Canonical form: `return expression`.

The canonical form matters because it gives the compiler and the reader the same reference structure. A large share of diagnostics related to return come from an abbreviated, displaced, or incomplete form.

Detailed semantics

Semantically, return reorganizes the execution path. The right question is not only 'where is it placed?' but 'which path becomes possible, impossible, or preferred from this point onward?'

In an encyclopedic reading, return should not be reduced to a dictionary definition. Its effect on scope, block shape, value visibility, control progression, and the diagnostic family it activates when misused must also be considered.

Effect on execution

return immediately changes the execution path, whether by choosing a branch, repeating, interrupting, or terminating a flow.

In other words, the presence of return is not merely syntactic: it helps the reader predict what will be executed, produced, exposed, or forbidden from this point in the program.

Valid variants

`return expression`.

These variants are not free synonyms. They indicate the legitimate forms from which one can reason about diagnostics, scope differences, or contract readability.

Vitte example

proc done(x: int) -> int {
  return x + 1
}

This example shows return in a nominal context. It should be read globally: where the contract begins, which values are constrained, which output becomes observable, and why the presence of the keyword is justified.

Guided reading of the example

First locate the full construction that contains return, not the isolated word.
Then identify which contract becomes visible because of return: type, branch, binding, module, exit, or advanced boundary.
Finish by checking the observable effect produced by the construction that contains return.
For a control keyword, mentally reconstruct the possible paths and the ones that become impossible.

This guided reading is intentionally closer to a reference page than to a tutorial: it helps reconstruct the exact role of return in a complete block.

Comparison with C

int done(int x) {
  return x + 1;
}

This C comparison is structural: it aligns the role of the keyword with a familiar surface without claiming that the two languages carry exactly the same contracts.

The source of truth remains Vitte grammar and semantics. The comparison with C should be read as a cultural marker, not as a parallel specification.

Recommended uses

return deserves to appear when it simplifies the reading of the block's global contract, not when it merely adds one more surface form.

When to use it

When return makes the block contract more explicit at first reading.
When it reduces the number of implicit assumptions the reader must reconstruct mentally.
When a branch choice, repetition, or flow exit must be made visible.

When to avoid it

Avoid return when another, more precise keyword already carries the block's intent.
Avoid return when it adds only surface noise without clarifying the contract.
Avoid reading or teaching it as an isolated token with no relation to the full structure.

Common pitfalls

Using return in a grammatical layer where it does not belong.
Confusing the role of the keyword with the role of the full surrounding block.
Showing only the nominal form and never how the contract fails.

Invalid example and diagnostic

proc bad_return(x: int) -> int {
  if x < 0 { return }
  return x
}

The exit surface is broken because the branch does not produce the expected value form.

The counter-example is not merely wrong: it is wrong in an instructive way. It shows which grammar or execution-contract assumption is no longer accepted when return is moved, truncated, or combined with the wrong context. Concretely, the produced exit does not have the form expected by the return contract.

A good encyclopedic counter-example does not show arbitrarily broken code: it isolates the precise reason why return can no longer support the expected contract. Its teaching value is diagnostic before it is syntactic.

Common compilation errors

Typical message	Usual cause	Fix
`unexpected token near return`	The keyword appears in an invalid form or grammatical layer.	Return to the canonical form and verify placement and delimiters.
`type mismatch`	The keyword participates in a block whose value contract is incoherent.	Realign the surrounding types, branches, or produced values.
`invalid construct`	The keyword is present but the surrounding construction is incomplete.	Restore the missing branch, declarative part, or operands.

This table does not replace the compiler's exact diagnostics. It serves as a mental map: when return fails, the problem usually comes from an invalid grammatical form, an incoherent type contract, or an incomplete construction.

Neighbor keywords

Keyword	Operational difference
`give`	Direct neighboring keyword: it helps explain what `return` does, either by contrast or by complement.
`give`	Both express an exit, but not necessarily at the same language-convention level.

Comparison with neighboring keywords is essential on a wiki-style page: return is better understood when one knows precisely what it does not do.

Common misreadings

Reducing return to a local token instead of reading it as part of a full construction.
Explaining only the syntax and forgetting the reading or diagnostic contract it imposes.

Implementation and diagnostic notes

Useful diagnostics for this family usually signal an incomplete branch shape, a mistyped condition, or an illegal placement in control flow.
In a compiler, these keywords directly influence control-flow graph construction or intermediate representation building.

Keyword return