zig/src-self-hosted/test.zig

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const std = @import("std");
const mem = std.mem;
const builtin = @import("builtin");
const Target = @import("target.zig").Target;
const Compilation = @import("compilation.zig").Compilation;
const introspect = @import("introspect.zig");
const assertOrPanic = std.debug.assertOrPanic;
const errmsg = @import("errmsg.zig");
const ZigCompiler = @import("compilation.zig").ZigCompiler;
var ctx: TestContext = undefined;
test "stage2" {
try ctx.init();
defer ctx.deinit();
try @import("../test/stage2/compile_errors.zig").addCases(&ctx);
try @import("../test/stage2/compare_output.zig").addCases(&ctx);
try ctx.run();
}
const file1 = "1.zig";
const allocator = std.heap.c_allocator;
pub const TestContext = struct {
loop: std.event.Loop,
zig_compiler: ZigCompiler,
zig_lib_dir: []u8,
file_index: std.atomic.Int(usize),
group: std.event.Group(error!void),
any_err: error!void,
const tmp_dir_name = "stage2_test_tmp";
fn init(self: *TestContext) !void {
self.* = TestContext{
.any_err = {},
.loop = undefined,
.zig_compiler = undefined,
.zig_lib_dir = undefined,
.group = undefined,
.file_index = std.atomic.Int(usize).init(0),
};
try self.loop.initSingleThreaded(allocator);
errdefer self.loop.deinit();
self.zig_compiler = try ZigCompiler.init(&self.loop);
errdefer self.zig_compiler.deinit();
self.group = std.event.Group(error!void).init(&self.loop);
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errdefer self.group.deinit();
self.zig_lib_dir = try introspect.resolveZigLibDir(allocator);
errdefer allocator.free(self.zig_lib_dir);
try std.os.makePath(allocator, tmp_dir_name);
errdefer std.os.deleteTree(allocator, tmp_dir_name) catch {};
}
fn deinit(self: *TestContext) void {
std.os.deleteTree(allocator, tmp_dir_name) catch {};
allocator.free(self.zig_lib_dir);
self.zig_compiler.deinit();
self.loop.deinit();
}
fn run(self: *TestContext) !void {
const handle = try self.loop.call(waitForGroup, self);
defer cancel handle;
self.loop.run();
return self.any_err;
}
async fn waitForGroup(self: *TestContext) void {
self.any_err = await (async self.group.wait() catch unreachable);
}
fn testCompileError(
self: *TestContext,
source: []const u8,
path: []const u8,
line: usize,
column: usize,
msg: []const u8,
) !void {
var file_index_buf: [20]u8 = undefined;
const file_index = try std.fmt.bufPrint(file_index_buf[0..], "{}", self.file_index.incr());
const file1_path = try std.os.path.join(allocator, tmp_dir_name, file_index, file1);
if (std.os.path.dirname(file1_path)) |dirname| {
try std.os.makePath(allocator, dirname);
}
// TODO async I/O
try std.io.writeFile(allocator, file1_path, source);
var comp = try Compilation.create(
&self.zig_compiler,
"test",
file1_path,
Target.Native,
Compilation.Kind.Obj,
builtin.Mode.Debug,
true, // is_static
self.zig_lib_dir,
);
errdefer comp.destroy();
comp.start();
try self.group.call(getModuleEvent, comp, source, path, line, column, msg);
}
fn testCompareOutputLibC(
self: *TestContext,
source: []const u8,
expected_output: []const u8,
) !void {
var file_index_buf: [20]u8 = undefined;
const file_index = try std.fmt.bufPrint(file_index_buf[0..], "{}", self.file_index.incr());
const file1_path = try std.os.path.join(allocator, tmp_dir_name, file_index, file1);
const output_file = try std.fmt.allocPrint(allocator, "{}-out{}", file1_path, Target(Target.Native).exeFileExt());
if (std.os.path.dirname(file1_path)) |dirname| {
try std.os.makePath(allocator, dirname);
}
// TODO async I/O
try std.io.writeFile(allocator, file1_path, source);
var comp = try Compilation.create(
&self.zig_compiler,
"test",
file1_path,
Target.Native,
Compilation.Kind.Exe,
builtin.Mode.Debug,
false,
self.zig_lib_dir,
);
errdefer comp.destroy();
_ = try comp.addLinkLib("c", true);
comp.link_out_file = output_file;
comp.start();
try self.group.call(getModuleEventSuccess, comp, output_file, expected_output);
}
async fn getModuleEventSuccess(
comp: *Compilation,
exe_file: []const u8,
expected_output: []const u8,
) !void {
// TODO this should not be necessary
const exe_file_2 = try std.mem.dupe(allocator, u8, exe_file);
defer comp.destroy();
const build_event = await (async comp.events.get() catch unreachable);
switch (build_event) {
Compilation.Event.Ok => {
const argv = []const []const u8{exe_file_2};
// TODO use event loop
const child = try std.os.ChildProcess.exec(allocator, argv, null, null, 1024 * 1024);
switch (child.term) {
std.os.ChildProcess.Term.Exited => |code| {
if (code != 0) {
return error.BadReturnCode;
}
},
else => {
return error.Crashed;
},
}
if (!mem.eql(u8, child.stdout, expected_output)) {
return error.OutputMismatch;
}
},
Compilation.Event.Error => |err| return err,
Compilation.Event.Fail => |msgs| {
var stderr = try std.io.getStdErr();
try stderr.write("build incorrectly failed:\n");
for (msgs) |msg| {
defer msg.destroy();
try msg.printToFile(&stderr, errmsg.Color.Auto);
}
},
}
}
async fn getModuleEvent(
comp: *Compilation,
source: []const u8,
path: []const u8,
line: usize,
column: usize,
text: []const u8,
) !void {
defer comp.destroy();
const build_event = await (async comp.events.get() catch unreachable);
switch (build_event) {
Compilation.Event.Ok => {
@panic("build incorrectly succeeded");
},
Compilation.Event.Error => |err| {
@panic("build incorrectly failed");
},
Compilation.Event.Fail => |msgs| {
assertOrPanic(msgs.len != 0);
for (msgs) |msg| {
if (mem.endsWith(u8, msg.realpath, path) and mem.eql(u8, msg.text, text)) {
const span = msg.getSpan();
const first_token = msg.getTree().tokens.at(span.first);
const last_token = msg.getTree().tokens.at(span.first);
const start_loc = msg.getTree().tokenLocationPtr(0, first_token);
if (start_loc.line + 1 == line and start_loc.column + 1 == column) {
return;
}
}
}
std.debug.warn(
"\n=====source:=======\n{}\n====expected:========\n{}:{}:{}: error: {}\n",
source,
path,
line,
column,
text,
);
std.debug.warn("\n====found:========\n");
var stderr = try std.io.getStdErr();
for (msgs) |msg| {
defer msg.destroy();
try msg.printToFile(&stderr, errmsg.Color.Auto);
}
std.debug.warn("============\n");
return error.TestFailed;
},
}
}
};