b69ec43ba3
`ExprTyper.inferType`'s binary-op arm inferred every non-comparison op
from the LHS alone, so `M + 0.5` (s64 + f64) statically typed as s64
while `0.5 + M` typed as f64 — operand-order-dependent. The value path
(`lowerBinaryOp`) already promoted int×float → float, so static
inference disagreed with the value: `M + 0.5` formatted as a truncated
int and a typed const `BAD : s64 : M + 0.5` was accepted+truncated
(issue 0088 mixed-numeric escape).
Extract the value path's inline promotion into a shared
`Lowering.arithResultType(lhs, rhs)` and reuse it at both sites, so
arithmetic / bitwise / shift inference reports exactly the type the
lowered value carries — int LHS × float RHS → the float, order-
independent. The value-path behavior is unchanged (the block is moved
verbatim into the helper), so no IR shifts; the suite stays green. The
typed-const validation reuses `inferExprType`, so this auto-closes the
escape with no change to the validation logic.
- examples/1143: BAD/BAD2 (`s64 : M + 0.5`, `s64 : 0.5 + M`) rejected
in both operand orders.
- examples/0162: MF/MFR (`f64 : M + 0.5`, `f64 : 0.5 + M`) fold to 2.5.
- examples/0163 (new): pins the inference fix in a value context
(`print("{}", n + 0.5)` formats the float, both orders, +-*/, f32).
- expr_typer.test.zig: arithResultType + mixed-arithmetic inference.
- specs.md / readme.md: document the numeric-promotion rule.
- issues/0088: RESOLVED banner notes the inferExprType root fix.
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