// Copyright (c) 2026 Alexander Medvednikov. All rights reserved. // Use of this source code is governed by an MIT license // that can be found in the LICENSE file. // vtest build: macos // // Bit-equality pin for s188: `build_string_literal_from_flat` is the third // per-kind arm inside `build_expr_from_flat`. StringLiteral flat encoding // packs `kind` into `aux` (StringLiteralKind enum) and `value` into // `name_id` — same shape as BasicLiteral, no edges. module ssa import v2.ast import v2.types // Fixture: a fn that returns a V string literal — `fn greet() string { return "hi" }`. // ReturnStmt's 0th edge is the StringLiteral cursor. fn make_string_literal_fixture() []ast.File { return [ ast.File{ name: 'main.v' mod: 'main' stmts: [ ast.Stmt(ast.ModuleStmt{ name: 'main' }), ast.Stmt(ast.FnDecl{ name: 'greet' typ: ast.FnType{ return_type: ast.Expr(ast.Ident{ name: 'string' }) } stmts: [ ast.Stmt(ast.ReturnStmt{ exprs: [ ast.Expr(ast.StringLiteral{ kind: .v value: "'hi'" }), ] }), ] }), ] }, ] } fn build_via_legacy_string_lit(files []ast.File, env &types.Environment, name string) &Module { mut mod := Module.new(name) mut b := Builder.new_with_env(mod, env) b.register_fn_signatures(files[0]) b.build_fn_bodies(files[0]) return mod } // Flat-side helper routes ReturnStmt's 0th edge through build_expr_from_flat // which dispatches the StringLiteral cursor to build_string_literal_from_flat. fn build_via_flat_string_lit(files []ast.File, env &types.Environment, name string) &Module { flat := ast.flatten_files(files) mut mod := Module.new(name) mut b := Builder.new_with_env(mod, env) b.register_fn_signatures_from_flat(flat.file_cursor(0)) stmts := flat.file_cursor(0).stmts() for si in 0 .. stmts.len() { c := stmts.at(si) if c.kind() != .stmt_fn_decl { continue } decl := c.fn_decl_signature() fn_name := b.mangle_fn_name(decl) func_idx := b.fn_index[fn_name] or { continue } b.cur_func = func_idx b.label_blocks = map[string]BlockID{} b.vars = map[string]ValueID{} entry := mod.add_block(func_idx, 'entry') b.cur_block = entry body := c.list_at(3) for bi in 0 .. body.len() { stmt_c := body.at(bi) if stmt_c.kind() == .stmt_return { ret_expr_c := stmt_c.edge(0) val := b.build_expr_from_flat(ret_expr_c) mod.add_instr(.ret, b.cur_block, 0, [val]) } else { b.build_stmt_from_flat(stmt_c) } } if !b.block_has_terminator(b.cur_block) { mod.add_instr(.ret, b.cur_block, 0, []ValueID{}) } } return mod } fn test_build_string_literal_from_flat_v_matches_legacy() { files := make_string_literal_fixture() env := types.Environment.new() mod_legacy := build_via_legacy_string_lit(files, env, 'sl_v_legacy') mod_flat := build_via_flat_string_lit(files, env, 'sl_v_flat') assert mod_legacy.funcs.len == mod_flat.funcs.len assert mod_legacy.funcs.len == 1 assert mod_legacy.blocks.len == mod_flat.blocks.len assert mod_legacy.instrs.len == mod_flat.instrs.len assert mod_legacy.values.len == mod_flat.values.len } // Pin for kind=.c (C string literal). build_string_literal returns an i8* // pointer via c_string_literal — exercises a different SSA path than .v. fn test_build_string_literal_from_flat_c_matches_legacy() { files := [ ast.File{ name: 'main.v' mod: 'main' stmts: [ ast.Stmt(ast.ModuleStmt{ name: 'main' }), ast.Stmt(ast.FnDecl{ name: 'cstr' typ: ast.FnType{ return_type: ast.Expr(ast.Ident{ name: 'charptr' }) } stmts: [ ast.Stmt(ast.ReturnStmt{ exprs: [ ast.Expr(ast.StringLiteral{ kind: .c value: "'hi'" }), ] }), ] }), ] }, ] env := types.Environment.new() mod_legacy := build_via_legacy_string_lit(files, env, 'sl_c_legacy') mod_flat := build_via_flat_string_lit(files, env, 'sl_c_flat') assert mod_legacy.funcs.len == mod_flat.funcs.len assert mod_legacy.blocks.len == mod_flat.blocks.len assert mod_legacy.instrs.len == mod_flat.instrs.len assert mod_legacy.values.len == mod_flat.values.len }