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0df3e81e6adb3e51224201d8ff326a369d416a26
zig/astgen_test.zig
Motiejus Jakštys 0df3e81e6a astgen: thread ResultLoc through comptimeExpr, fix ResultCtx propagation 
Mechanically match upstream comptimeExpr signature which accepts ResultInfo.
This fixes coercion in comptime contexts (e.g. sentinel 0 becoming zero_u8
instead of generic zero when elem_type is u8).

- comptimeExpr: add ResultLoc rl parameter, thread to exprRl
- typeExpr: pass coerced_ty=type_type (matching upstream coerced_type_ri)
- ptrType: pass ty=elem_type for sentinel, coerced_ty=u29 for align,
  coerced_ty=u16 for bit_range
- retExpr: set RI_CTX_RETURN
- tryExpr: set RI_CTX_ERROR_HANDLING_EXPR for operand
- orelseCatchExpr: set RI_CTX_ERROR_HANDLING_EXPR when do_err_trace
- ifExpr: set RI_CTX_ERROR_HANDLING_EXPR for error union condition
- shiftOp: set RI_CTX_SHIFT_OP, use as_shift_operand in rvalue
- breakResultInfo: don't forward ctx for discard case
- fnDecl ret_body break: use AST_NODE_OFFSET_NONE

Passes corpus tests for test_all.zig, build.zig, tokenizer_test.zig.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
2026-02-13 14:56:16 +00:00

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const std = @import("std");
const Ast = std.zig.Ast;
const Zir = std.zig.Zir;
const AstGen = std.zig.AstGen;
const Allocator = std.mem.Allocator;
const c = @cImport({
@cInclude("astgen.h");
});
fn refZir(gpa: Allocator, source: [:0]const u8) !Zir {
var tree = try Ast.parse(gpa, source, .zig);
defer tree.deinit(gpa);
return try AstGen.generate(gpa, tree);
}
test "astgen dump: simple cases" {
const gpa = std.testing.allocator;
const cases = .{
.{ "empty", "" },
.{ "comptime {}", "comptime {}" },
.{ "const x = 0;", "const x = 0;" },
.{ "const x = 1;", "const x = 1;" },
.{ "const x = 0; const y = 0;", "const x = 0; const y = 0;" },
.{ "test \"t\" {}", "test \"t\" {}" },
.{ "const std = @import(\"std\");", "const std = @import(\"std\");" },
.{ "test_all.zig", @embedFile("test_all.zig") },
};
inline for (cases) |case| {
// std.debug.print("--- {s} ---\n", .{case[0]});
const source: [:0]const u8 = case[1];
var zir = try refZir(gpa, source);
zir.deinit(gpa);
}
}
/// Build a mask of extra[] indices that contain hash data (src_hash or
/// fields_hash). These are zero-filled in the C output but contain real
/// Blake3 hashes in the Zig reference. We skip these positions during
/// comparison.
fn buildHashSkipMask(gpa: Allocator, ref: Zir) ![]bool {
const ref_extra_len: u32 = @intCast(ref.extra.len);
const skip = try gpa.alloc(bool, ref_extra_len);
@memset(skip, false);
const ref_len: u32 = @intCast(ref.instructions.len);
const ref_tags = ref.instructions.items(.tag);
const ref_datas = ref.instructions.items(.data);
for (0..ref_len) |i| {
switch (ref_tags[i]) {
.extended => {
const ext = ref_datas[i].extended;
if (ext.opcode == .struct_decl or ext.opcode == .enum_decl) {
// StructDecl/EnumDecl starts with fields_hash[4].
const pi = ext.operand;
for (0..4) |j| skip[pi + j] = true;
}
},
.declaration => {
// Declaration starts with src_hash[4].
const pi = ref_datas[i].declaration.payload_index;
for (0..4) |j| skip[pi + j] = true;
},
.func, .func_inferred => {
// Func payload: ret_ty(1) + param_block(1) + body_len(1)
// + trailing ret_ty + body + SrcLocs(3) + proto_hash(4).
const pi = ref_datas[i].pl_node.payload_index;
const ret_ty_raw: u32 = ref.extra[pi];
const ret_body_len: u32 = ret_ty_raw & 0x7FFFFFFF;
const body_len: u32 = ref.extra[pi + 2];
// ret_ty trailing: if body_len > 1, it's a body; if == 1, it's a ref; if 0, void.
const ret_trailing: u32 = if (ret_body_len > 1) ret_body_len else if (ret_body_len == 1) 1 else 0;
// proto_hash is at: pi + 3 + ret_trailing + body_len + 3
if (body_len > 0) {
const hash_start = pi + 3 + ret_trailing + body_len + 3;
for (0..4) |j| {
if (hash_start + j < ref_extra_len)
skip[hash_start + j] = true;
}
}
},
else => {},
}
}
return skip;
}
test "astgen: empty source" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: comptime {}" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "comptime {}";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: const x = 0;" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const x = 0;";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: const x = 1;" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const x = 1;";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: const x = 0; const y = 0;" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const x = 0; const y = 0;";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: field_access" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const std = @import(\"std\");\nconst mem = std.mem;";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: addr array init" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const x = &[_][]const u8{\"a\",\"b\"};";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: test empty body" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "test \"t\" {}";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: test_all.zig" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = @embedFile("test_all.zig");
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: @import" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const std = @import(\"std\");";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
fn expectEqualZir(gpa: Allocator, ref: Zir, got: c.Zir) !void {
const ref_len: u32 = @intCast(ref.instructions.len);
const ref_tags = ref.instructions.items(.tag);
const ref_datas = ref.instructions.items(.data);
// 1. Compare lengths.
try std.testing.expectEqual(ref_len, got.inst_len);
// 2. Compare instruction tags.
for (0..ref_len) |i| {
const ref_tag: u8 = @intFromEnum(ref_tags[i]);
const got_tag: u8 = @intCast(got.inst_tags[i]);
if (ref_tag != got_tag) {
std.debug.print(
"inst_tags[{d}] mismatch: ref={d} got={d}\n",
.{ i, ref_tag, got_tag },
);
return error.TestExpectedEqual;
}
}
// 3. Compare instruction data field-by-field.
for (0..ref_len) |i| {
try expectEqualData(i, ref_tags[i], ref_datas[i], got.inst_datas[i]);
}
// 4. Compare string bytes.
const ref_sb_len: u32 = @intCast(ref.string_bytes.len);
try std.testing.expectEqual(ref_sb_len, got.string_bytes_len);
for (0..ref_sb_len) |i| {
if (ref.string_bytes[i] != got.string_bytes[i]) {
std.debug.print(
"string_bytes[{d}] mismatch: ref=0x{x:0>2} got=0x{x:0>2}\n",
.{ i, ref.string_bytes[i], got.string_bytes[i] },
);
return error.TestExpectedEqual;
}
}
// 5. Compare extra data (skipping hash positions).
const skip = try buildHashSkipMask(gpa, ref);
defer gpa.free(skip);
const ref_extra_len: u32 = @intCast(ref.extra.len);
try std.testing.expectEqual(ref_extra_len, got.extra_len);
for (0..ref_extra_len) |i| {
if (skip[i]) continue;
if (ref.extra[i] != got.extra[i]) {
// Show first 10 extra diffs.
var count: u32 = 0;
for (0..ref_extra_len) |j| {
if (!skip[j] and ref.extra[j] != got.extra[j]) {
std.debug.print(
"extra[{d}] mismatch: ref={d} got={d}\n",
.{ j, ref.extra[j], got.extra[j] },
);
count += 1;
if (count >= 10) break;
}
}
return error.TestExpectedEqual;
}
}
}
/// Compare a single instruction's data, dispatching by tag.
/// Zig's Data union has no guaranteed in-memory layout, so we
/// compare each variant's fields individually.
fn expectEqualData(
idx: usize,
tag: Zir.Inst.Tag,
ref: Zir.Inst.Data,
got: c.ZirInstData,
) !void {
switch (tag) {
.extended => {
const r = ref.extended;
const g = got.extended;
// Some extended opcodes have undefined/unused small+operand.
const skip_data = switch (r.opcode) {
.dbg_empty_stmt, .astgen_error => true,
else => false,
};
const skip_small = switch (r.opcode) {
.add_with_overflow,
.sub_with_overflow,
.mul_with_overflow,
.shl_with_overflow,
.restore_err_ret_index,
.branch_hint,
=> true,
else => false,
};
if (@intFromEnum(r.opcode) != g.opcode or
(!skip_data and !skip_small and r.small != g.small) or
(!skip_data and r.operand != g.operand))
{
std.debug.print(
"inst_datas[{d}] (extended) mismatch:\n" ++
" ref: opcode={d} small=0x{x:0>4} operand={d}\n" ++
" got: opcode={d} small=0x{x:0>4} operand={d}\n",
.{
idx,
@intFromEnum(r.opcode),
r.small,
r.operand,
g.opcode,
g.small,
g.operand,
},
);
return error.TestExpectedEqual;
}
},
.declaration => {
const r = ref.declaration;
const g = got.declaration;
if (@intFromEnum(r.src_node) != g.src_node or
r.payload_index != g.payload_index)
{
std.debug.print(
"inst_datas[{d}] (declaration) mismatch:\n" ++
" ref: src_node={d} payload_index={d}\n" ++
" got: src_node={d} payload_index={d}\n",
.{
idx,
@intFromEnum(r.src_node),
r.payload_index,
g.src_node,
g.payload_index,
},
);
return error.TestExpectedEqual;
}
},
.break_inline => {
const r = ref.@"break";
const g = got.break_data;
if (@intFromEnum(r.operand) != g.operand or
r.payload_index != g.payload_index)
{
std.debug.print(
"inst_datas[{d}] (break_inline) mismatch:\n" ++
" ref: operand={d} payload_index={d}\n" ++
" got: operand={d} payload_index={d}\n",
.{
idx,
@intFromEnum(r.operand),
r.payload_index,
g.operand,
g.payload_index,
},
);
return error.TestExpectedEqual;
}
},
.import => {
const r = ref.pl_tok;
const g = got.pl_tok;
if (@intFromEnum(r.src_tok) != g.src_tok or
r.payload_index != g.payload_index)
{
std.debug.print(
"inst_datas[{d}] (import) mismatch:\n" ++
" ref: src_tok={d} payload_index={d}\n" ++
" got: src_tok={d} payload_index={d}\n",
.{
idx,
@intFromEnum(r.src_tok),
r.payload_index,
g.src_tok,
g.payload_index,
},
);
return error.TestExpectedEqual;
}
},
.dbg_stmt => {
const r = ref.dbg_stmt;
const g = got.dbg_stmt;
if (r.line != g.line or r.column != g.column) {
std.debug.print(
"inst_datas[{d}] (dbg_stmt) mismatch:\n" ++
" ref: line={d} column={d}\n" ++
" got: line={d} column={d}\n",
.{ idx, r.line, r.column, g.line, g.column },
);
return error.TestExpectedEqual;
}
},
.ensure_result_non_error,
.restore_err_ret_index_unconditional,
.validate_struct_init_ty,
.validate_struct_init_result_ty,
.struct_init_empty_result,
.struct_init_empty,
.struct_init_empty_ref_result,
=> {
const r = ref.un_node;
const g = got.un_node;
if (@intFromEnum(r.src_node) != g.src_node or
@intFromEnum(r.operand) != g.operand)
{
std.debug.print(
"inst_datas[{d}] ({s}) mismatch:\n" ++
" ref: src_node={d} operand={d}\n" ++
" got: src_node={d} operand={d}\n",
.{
idx,
@tagName(tag),
@intFromEnum(r.src_node),
@intFromEnum(r.operand),
g.src_node,
g.operand,
},
);
return error.TestExpectedEqual;
}
},
.ret_implicit => {
const r = ref.un_tok;
const g = got.un_tok;
if (@intFromEnum(r.src_tok) != g.src_tok or
@intFromEnum(r.operand) != g.operand)
{
std.debug.print(
"inst_datas[{d}] (ret_implicit) mismatch:\n" ++
" ref: src_tok={d} operand={d}\n" ++
" got: src_tok={d} operand={d}\n",
.{
idx,
@intFromEnum(r.src_tok),
@intFromEnum(r.operand),
g.src_tok,
g.operand,
},
);
return error.TestExpectedEqual;
}
},
.func,
.func_inferred,
.array_type,
.array_type_sentinel,
.array_cat,
.array_init,
.array_init_ref,
.error_set_decl,
.struct_init_field_type,
.struct_init,
.struct_init_ref,
.validate_array_init_ref_ty,
.validate_array_init_ty,
=> {
const r = ref.pl_node;
const g = got.pl_node;
if (@intFromEnum(r.src_node) != g.src_node or
r.payload_index != g.payload_index)
{
std.debug.print(
"inst_datas[{d}] ({s}) mismatch:\n" ++
" ref: src_node={d} payload_index={d}\n" ++
" got: src_node={d} payload_index={d}\n",
.{
idx,
@tagName(tag),
@intFromEnum(r.src_node),
r.payload_index,
g.src_node,
g.payload_index,
},
);
return error.TestExpectedEqual;
}
},
.decl_val, .decl_ref => {
const r = ref.str_tok;
const g = got.str_tok;
if (@intFromEnum(r.start) != g.start or @intFromEnum(r.src_tok) != g.src_tok) {
std.debug.print(
"inst_datas[{d}] ({s}) mismatch:\n" ++
" ref: start={d} src_tok={d}\n" ++
" got: start={d} src_tok={d}\n",
.{
idx,
@tagName(tag),
@intFromEnum(r.start),
@intFromEnum(r.src_tok),
g.start,
g.src_tok,
},
);
return error.TestExpectedEqual;
}
},
.field_val, .field_ptr, .field_val_named, .field_ptr_named => {
const r = ref.pl_node;
const g = got.pl_node;
if (@intFromEnum(r.src_node) != g.src_node or
r.payload_index != g.payload_index)
{
std.debug.print(
"inst_datas[{d}] ({s}) mismatch:\n" ++
" ref: src_node={d} payload_index={d}\n" ++
" got: src_node={d} payload_index={d}\n",
.{
idx,
@tagName(tag),
@intFromEnum(r.src_node),
r.payload_index,
g.src_node,
g.payload_index,
},
);
return error.TestExpectedEqual;
}
},
.int => {
if (ref.int != got.int_val) {
std.debug.print(
"inst_datas[{d}] (int) mismatch: ref={d} got={d}\n",
.{ idx, ref.int, got.int_val },
);
return error.TestExpectedEqual;
}
},
.ptr_type => {
// Compare ptr_type data: flags, size, payload_index.
if (@as(u8, @bitCast(ref.ptr_type.flags)) != got.ptr_type.flags or
@intFromEnum(ref.ptr_type.size) != got.ptr_type.size or
ref.ptr_type.payload_index != got.ptr_type.payload_index)
{
std.debug.print(
"inst_datas[{d}] (ptr_type) mismatch:\n" ++
" ref: flags=0x{x} size={d} pi={d}\n" ++
" got: flags=0x{x} size={d} pi={d}\n",
.{
idx,
@as(u8, @bitCast(ref.ptr_type.flags)),
@intFromEnum(ref.ptr_type.size),
ref.ptr_type.payload_index,
got.ptr_type.flags,
got.ptr_type.size,
got.ptr_type.payload_index,
},
);
return error.TestExpectedEqual;
}
},
.int_type => {
const r = ref.int_type;
const g = got.int_type;
if (@intFromEnum(r.src_node) != g.src_node or
@intFromEnum(r.signedness) != g.signedness or
r.bit_count != g.bit_count)
{
std.debug.print(
"inst_datas[{d}] (int_type) mismatch\n",
.{idx},
);
return error.TestExpectedEqual;
}
},
.str => {
const r = ref.str;
const g = got.str;
if (@intFromEnum(r.start) != g.start or r.len != g.len) {
std.debug.print(
"inst_datas[{d}] (str) mismatch:\n" ++
" ref: start={d} len={d}\n" ++
" got: start={d} len={d}\n",
.{ idx, @intFromEnum(r.start), r.len, g.start, g.len },
);
return error.TestExpectedEqual;
}
},
else => {
// Generic raw comparison: treat data as two u32 words.
// Tags using .node data format have undefined second word.
const ref_raw = @as([*]const u32, @ptrCast(&ref));
const got_raw = @as([*]const u32, @ptrCast(&got));
// Tags where only the first u32 word is meaningful
// (second word is padding/undefined).
const first_word_only = switch (tag) {
// .node data format (single i32):
.repeat,
.repeat_inline,
.ret_ptr,
.ret_type,
.trap,
.alloc_inferred,
.alloc_inferred_mut,
.alloc_inferred_comptime,
.alloc_inferred_comptime_mut,
// .@"unreachable" data format (src_node + padding):
.@"unreachable",
// .save_err_ret_index data format (operand only):
.save_err_ret_index,
=> true,
else => false,
};
const w1_match = ref_raw[0] == got_raw[0];
const w2_match = first_word_only or ref_raw[1] == got_raw[1];
if (!w1_match or !w2_match) {
std.debug.print(
"inst_datas[{d}] ({s}) raw mismatch:\n" ++
" ref: 0x{x:0>8} 0x{x:0>8}\n" ++
" got: 0x{x:0>8} 0x{x:0>8}\n",
.{
idx,
@tagName(tag),
ref_raw[0],
ref_raw[1],
got_raw[0],
got_raw[1],
},
);
return error.TestExpectedEqual;
}
},
}
}
const corpus_files = .{
.{ "astgen_test.zig", @embedFile("astgen_test.zig") },
.{ "build.zig", @embedFile("build.zig") },
.{ "parser_test.zig", @embedFile("parser_test.zig") },
.{ "test_all.zig", @embedFile("test_all.zig") },
.{ "tokenizer_test.zig", @embedFile("tokenizer_test.zig") },
};
fn corpusCheck(gpa: Allocator, source: [:0]const u8) !void {
var tree = try Ast.parse(gpa, source, .zig);
defer tree.deinit(gpa);
var ref_zir = try AstGen.generate(gpa, tree);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
if (c_zir.has_compile_errors) {
std.debug.print("C port returned compile errors (inst_len={d})\n", .{c_zir.inst_len});
return error.TestUnexpectedResult;
}
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: struct single field" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const T = struct { x: u32 };";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: struct multiple fields" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const T = struct { x: u32, y: bool };";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: struct field with default" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const T = struct { x: u32 = 0 };";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: struct field with align" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const T = struct { x: u32 align(4) };";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: struct comptime field" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const T = struct { comptime x: u32 = 0 };";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: empty error set" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const E = error{};";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: error set with members" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const E = error{ OutOfMemory, OutOfTime };";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: extern var" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "extern var x: u32;";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: corpus test_all.zig" {
const gpa = std.testing.allocator;
try corpusCheck(gpa, @embedFile("test_all.zig"));
}
test "astgen: corpus build.zig" {
const gpa = std.testing.allocator;
try corpusCheck(gpa, @embedFile("build.zig"));
}
test "astgen: corpus tokenizer_test.zig" {
const gpa = std.testing.allocator;
try corpusCheck(gpa, @embedFile("tokenizer_test.zig"));
}
test "astgen: corpus astgen_test.zig" {
if (true) return error.SkipZigTest; // TODO: extra_len diff=-377, string_bytes diff=-1
const gpa = std.testing.allocator;
try corpusCheck(gpa, @embedFile("astgen_test.zig"));
}
test "astgen: enum decl" {
const gpa = std.testing.allocator;
const source: [:0]const u8 = "const E = enum { a, b, c };";
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: struct init typed" {
const gpa = std.testing.allocator;
const source: [:0]const u8 =
\\const T = struct { x: u32 };
\\const v = T{ .x = 1 };
;
var ref_zir = try refZir(gpa, source);
defer ref_zir.deinit(gpa);
var c_ast = c.astParse(source.ptr, @intCast(source.len));
defer c.astDeinit(&c_ast);
var c_zir = c.astGen(&c_ast);
defer c.zirDeinit(&c_zir);
try expectEqualZir(gpa, ref_zir, c_zir);
}
test "astgen: corpus" {
if (true) return error.SkipZigTest;
const gpa = std.testing.allocator;
var any_fail = false;
inline for (corpus_files) |entry| {
corpusCheck(gpa, entry[1]) catch {
any_fail = true;
};
}
if (any_fail) return error.ZirMismatch;
}
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