bdd0e96d78
A block's value is now its last statement ONLY when that statement is a trailing expression with no `;`. A trailing `;` discards the value, leaving the block void. This makes value-vs-statement explicit and lets the compiler reject "this block was supposed to produce a value". Compiler: - Parser records `Block.produces_value` (last stmt is a no-`;` trailing expression) + `Block.discarded_semi` (the `;` that discarded a value), via `expectSemicolonAfter`. A trailing expression before `}` may now omit its `;` (previously a parse error). Match-arm and else-arm bodies are built value-producing regardless of the arm `;` (arms are exempt — the `;` is an arm terminator). - Lowering: `lowerBlockValue` / the block-expr path / `inferExprType` respect `produces_value`. A value-position block that discards its value is a hard error (`lowerValueBody` for function bodies; the value-context `.block` path for if/else branches, `catch` bodies, value bindings, match arms). Pure-failable `-> !` bodies (value rides the error channel) and a value-if whose branches are void are handled without false errors. - `defer`/`onfail` cleanup bodies lower as statements (void), so a trailing `;` there is fine. Migration (behavior-preserving — output unchanged): - stdlib + ~210 examples: dropped the trailing `;` on value-position last expressions. `format` now ends with an explicit `#insert "return result;"` (it relied on `#insert`-as-block-value, which `;` discards). - Two `main :: () -> s32` examples that relied on the old silent default-return got an explicit trailing `0`. - Rejection snapshots 0412 / 1013 regenerated (their quoted source lines lost a `;`); the diagnostics themselves are unchanged. Docs/tests: specs.md "Block values" section; examples 0040 (rules) + 0041 (rejection); 3 parser unit tests. Filed issue 0066 (pre-existing match-arm negated-literal phi-width quirk, surfaced not caused here). Gates: zig build, zig build test, run_examples.sh -> 343 passed, cross_compile.sh -> 7 passed (also refreshed its stale example names).
19 lines
739 B
Plaintext
19 lines
739 B
Plaintext
// `#import` is non-transitive: when A imports B and B imports C, A
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// must NOT see C's top-level names. This file imports `b.sx` (which
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// in turn imports `c.sx`) and then deliberately references C's names
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// directly — the compiler is expected to reject the references with
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// "not visible; #import the module that declares it" diagnostics.
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//
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// `b.sx` ↔ `c.sx` together still compile: `b_only_fn`'s body sees
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// `c_only_fn` / `c_only_const` because b.sx directly imports c.sx.
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#import "modules/std.sx";
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#import "0706-modules-import-non-transitive/b.sx";
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main :: () -> s32 {
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print("b_only_fn: {}\n", b_only_fn());
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print("c_only_fn direct: {}\n", c_only_fn());
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print("c_only_const direct: {}\n", c_only_const);
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0
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}
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