Merge branch 'ratfactor:main' into testing

This commit is contained in:
Chris Boesch 2023-05-03 22:17:56 +02:00 committed by GitHub
commit 2027c6a403

199
build.zig
View file

@ -227,181 +227,199 @@ var reset_text: []const u8 = "";
const ZiglingStep = struct { const ZiglingStep = struct {
step: Step, step: Step,
exercise: Exercise, exercise: Exercise,
builder: *Build,
work_path: []const u8, work_path: []const u8,
result_messages: []const u8 = "", result_messages: []const u8 = "",
result_error_bundle: std.zig.ErrorBundle = std.zig.ErrorBundle.empty, result_error_bundle: std.zig.ErrorBundle = std.zig.ErrorBundle.empty,
pub fn create(builder: *Build, exercise: Exercise, work_path: []const u8) *@This() { pub fn create(b: *Build, exercise: Exercise, work_path: []const u8) *ZiglingStep {
const self = builder.allocator.create(@This()) catch unreachable; const self = b.allocator.create(ZiglingStep) catch @panic("OOM");
self.* = .{ self.* = .{
.step = Step.init(Step.Options{ .id = .custom, .name = exercise.main_file, .owner = builder, .makeFn = make }), .step = Step.init(.{
.id = .custom,
.name = exercise.main_file,
.owner = b,
.makeFn = make,
}),
.exercise = exercise, .exercise = exercise,
.builder = builder,
.work_path = work_path, .work_path = work_path,
}; };
return self; return self;
} }
fn make(step: *Step, prog_node: *std.Progress.Node) anyerror!void { fn make(step: *Step, prog_node: *std.Progress.Node) !void {
const self = @fieldParentPtr(@This(), "step", step); const self = @fieldParentPtr(ZiglingStep, "step", step);
if (self.exercise.skip) { if (self.exercise.skip) {
print("Skipping {s}\n\n", .{self.exercise.main_file}); print("Skipping {s}\n\n", .{self.exercise.main_file});
return; return;
} }
self.makeInternal(prog_node) catch {
const exe_path = self.compile(prog_node) catch {
if (self.exercise.hint.len > 0) { if (self.exercise.hint.len > 0) {
print("\n{s}HINT: {s}{s}", .{ bold_text, self.exercise.hint, reset_text }); print("\n{s}HINT: {s}{s}", .{
bold_text, self.exercise.hint, reset_text,
});
} }
print("\n{s}Edit exercises/{s} and run this again.{s}", .{ red_text, self.exercise.main_file, reset_text }); self.help();
print("\n{s}To continue from this zigling, use this command:{s}\n {s}zig build -Dn={s}{s}\n", .{ red_text, reset_text, bold_text, self.exercise.key(), reset_text }); std.os.exit(1);
};
self.run(exe_path, prog_node) catch {
if (self.exercise.hint.len > 0) {
print("\n{s}HINT: {s}{s}", .{
bold_text, self.exercise.hint, reset_text,
});
}
self.help();
std.os.exit(1); std.os.exit(1);
}; };
} }
fn makeInternal(self: *@This(), prog_node: *std.Progress.Node) !void { fn run(self: *ZiglingStep, exe_path: []const u8, _: *std.Progress.Node) !void {
print("Compiling {s}...\n", .{self.exercise.main_file});
const exe_file = try self.doCompile(prog_node);
resetLine(); resetLine();
print("Checking {s}...\n", .{self.exercise.main_file}); print("Checking {s}...\n", .{self.exercise.main_file});
const cwd = self.builder.build_root.path.?; const b = self.step.owner;
const argv = [_][]const u8{exe_file};
var child = std.ChildProcess.init(&argv, self.builder.allocator);
child.cwd = cwd;
child.env_map = self.builder.env_map;
child.stdin_behavior = .Inherit;
if (self.exercise.check_stdout) {
child.stdout_behavior = .Pipe;
child.stderr_behavior = .Inherit;
} else {
child.stdout_behavior = .Inherit;
child.stderr_behavior = .Pipe;
}
child.spawn() catch |err| {
print("{s}Unable to spawn {s}: {s}{s}\n", .{ red_text, argv[0], @errorName(err), reset_text });
return err;
};
// Allow up to 1 MB of stdout capture. // Allow up to 1 MB of stdout capture.
const max_output_len = 1 * 1024 * 1024; const max_output_bytes = 1 * 1024 * 1024;
const output = if (self.exercise.check_stdout)
try child.stdout.?.reader().readAllAlloc(self.builder.allocator, max_output_len)
else
try child.stderr.?.reader().readAllAlloc(self.builder.allocator, max_output_len);
// At this point stdout is closed, wait for the process to terminate. var result = Child.exec(.{
const term = child.wait() catch |err| { .allocator = b.allocator,
print("{s}Unable to spawn {s}: {s}{s}\n", .{ red_text, argv[0], @errorName(err), reset_text }); .argv = &.{exe_path},
.cwd = b.build_root.path.?,
.cwd_dir = b.build_root.handle,
.max_output_bytes = max_output_bytes,
}) catch |err| {
print("{s}Unable to spawn {s}: {s}{s}\n", .{
red_text, exe_path, @errorName(err), reset_text,
});
return err; return err;
}; };
const raw_output = if (self.exercise.check_stdout)
result.stdout
else
result.stderr;
// Make sure it exited cleanly. // Make sure it exited cleanly.
switch (term) { switch (result.term) {
.Exited => |code| { .Exited => |code| {
if (code != 0) { if (code != 0) {
print("{s}{s} exited with error code {d} (expected {d}){s}\n", .{ red_text, self.exercise.main_file, code, 0, reset_text }); print("{s}{s} exited with error code {d} (expected {d}){s}\n", .{
red_text, self.exercise.main_file, code, 0, reset_text,
});
return error.BadExitCode; return error.BadExitCode;
} }
}, },
else => { else => {
print("{s}{s} terminated unexpectedly{s}\n", .{ red_text, self.exercise.main_file, reset_text }); print("{s}{s} terminated unexpectedly{s}\n", .{
red_text, self.exercise.main_file, reset_text,
});
return error.UnexpectedTermination; return error.UnexpectedTermination;
}, },
} }
// Validate the output. // Validate the output.
const trimOutput = std.mem.trimRight(u8, output, " \r\n"); const output = std.mem.trimRight(u8, raw_output, " \r\n");
const trimExerciseOutput = std.mem.trimRight(u8, self.exercise.output, " \r\n"); const exercise_output = std.mem.trimRight(u8, self.exercise.output, " \r\n");
if (!std.mem.eql(u8, trimOutput, trimExerciseOutput)) { if (!std.mem.eql(u8, output, exercise_output)) {
const red = red_text;
const reset = reset_text;
print( print(
\\ \\
\\{s}----------- Expected this output -----------{s} \\{s}========= expected this output: =========={s}
\\"{s}" \\{s}
\\{s}----------- but found -----------{s} \\{s}========= but found: ====================={s}
\\"{s}" \\{s}
\\{s}-----------{s} \\{s}=========================================={s}
\\ \\
, .{ red_text, reset_text, trimExerciseOutput, red_text, reset_text, trimOutput, red_text, reset_text }); , .{ red, reset, exercise_output, red, reset, output, red, reset });
return error.InvalidOutput; return error.InvalidOutput;
} }
print("{s}PASSED:\n{s}{s}\n\n", .{ green_text, trimOutput, reset_text }); print("{s}PASSED:\n{s}{s}\n\n", .{ green_text, output, reset_text });
} }
// The normal compile step calls os.exit, so we can't use it as a library :( fn compile(self: *ZiglingStep, prog_node: *std.Progress.Node) ![]const u8 {
// This is a stripped down copy of std.build.LibExeObjStep.make. print("Compiling {s}...\n", .{self.exercise.main_file});
fn doCompile(self: *@This(), prog_node: *std.Progress.Node) ![]const u8 {
const builder = self.builder;
var zig_args = std.ArrayList([]const u8).init(builder.allocator); const b = self.step.owner;
const exercise_path = self.exercise.main_file;
const path = join(b.allocator, &.{ self.work_path, exercise_path }) catch
@panic("OOM");
var zig_args = std.ArrayList([]const u8).init(b.allocator);
defer zig_args.deinit(); defer zig_args.deinit();
zig_args.append(builder.zig_exe) catch unreachable; zig_args.append(b.zig_exe) catch @panic("OOM");
zig_args.append("build-exe") catch unreachable; zig_args.append("build-exe") catch @panic("OOM");
// Enable C support for exercises that use C functions // Enable C support for exercises that use C functions.
if (self.exercise.link_libc) { if (self.exercise.link_libc) {
zig_args.append("-lc") catch unreachable; zig_args.append("-lc") catch @panic("OOM");
} }
const zig_file = join(builder.allocator, &.{ self.work_path, self.exercise.main_file }) catch unreachable; zig_args.append(b.pathFromRoot(path)) catch @panic("OOM");
zig_args.append(builder.pathFromRoot(zig_file)) catch unreachable;
zig_args.append("--cache-dir") catch unreachable; zig_args.append("--cache-dir") catch @panic("OOM");
zig_args.append(builder.pathFromRoot(builder.cache_root.path.?)) catch unreachable; zig_args.append(b.pathFromRoot(b.cache_root.path.?)) catch @panic("OOM");
zig_args.append("--listen=-") catch unreachable; zig_args.append("--listen=-") catch @panic("OOM");
const argv = zig_args.items; const argv = zig_args.items;
var code: u8 = undefined; var code: u8 = undefined;
const file_name = self.eval(argv, &code, prog_node) catch |err| { const exe_path = self.eval(argv, &code, prog_node) catch |err| {
self.printErrors(); self.printErrors();
switch (err) { switch (err) {
error.FileNotFound => { error.FileNotFound => {
print("{s}{s}: Unable to spawn the following command: file not found{s}\n", .{ red_text, self.exercise.main_file, reset_text }); print("{s}{s}: Unable to spawn the following command: file not found{s}\n", .{
red_text, self.exercise.main_file, reset_text,
});
for (argv) |v| print("{s} ", .{v}); for (argv) |v| print("{s} ", .{v});
print("\n", .{}); print("\n", .{});
}, },
error.ExitCodeFailure => { error.ExitCodeFailure => {
print("{s}{s}: The following command exited with error code {}:{s}\n", .{ red_text, self.exercise.main_file, code, reset_text }); print("{s}{s}: The following command exited with error code {}:{s}\n", .{
red_text, self.exercise.main_file, code, reset_text,
});
for (argv) |v| print("{s} ", .{v}); for (argv) |v| print("{s} ", .{v});
print("\n", .{}); print("\n", .{});
}, },
error.ProcessTerminated => { error.ProcessTerminated => {
print("{s}{s}: The following command terminated unexpectedly:{s}\n", .{ red_text, self.exercise.main_file, reset_text }); print("{s}{s}: The following command terminated unexpectedly:{s}\n", .{
red_text, self.exercise.main_file, reset_text,
});
for (argv) |v| print("{s} ", .{v}); for (argv) |v| print("{s} ", .{v});
print("\n", .{}); print("\n", .{});
}, },
error.ZigIPCError => { error.ZigIPCError => {
print("{s}{s}: The following command failed to communicate the compilation result:{s}\n", .{ print("{s}{s}: The following command failed to communicate the compilation result:{s}\n", .{
red_text, red_text, self.exercise.main_file, reset_text,
self.exercise.main_file, });
reset_text, for (argv) |v| print("{s} ", .{v});
print("\n", .{});
},
else => {
print("{s}{s}: Unexpected error: {s}{s}\n", .{
red_text, self.exercise.main_file, @errorName(err), reset_text,
}); });
for (argv) |v| print("{s} ", .{v}); for (argv) |v| print("{s} ", .{v});
print("\n", .{}); print("\n", .{});
}, },
else => {},
} }
return err; return err;
}; };
self.printErrors(); self.printErrors();
return file_name; return exe_path;
} }
// Code adapted from `std.Build.execAllowFail and `std.Build.Step.evalZigProcess`. // Code adapted from `std.Build.execAllowFail and `std.Build.Step.evalZigProcess`.
@ -504,6 +522,23 @@ const ZiglingStep = struct {
return result orelse return error.ZigIPCError; return result orelse return error.ZigIPCError;
} }
fn help(self: *ZiglingStep) void {
const path = self.exercise.main_file;
const key = self.exercise.key();
print("\n{s}Edit exercises/{s} and run this again.{s}", .{
red_text, path, reset_text,
});
const format =
\\
\\{s}To continue from this zigling, use this command:{s}
\\ {s}zig build -Dn={s}{s}
\\
;
print(format, .{ red_text, reset_text, bold_text, key, reset_text });
}
fn printErrors(self: *ZiglingStep) void { fn printErrors(self: *ZiglingStep) void {
resetLine(); resetLine();