mirror of
https://codeberg.org/andyscott/ziglings.git
synced 2024-11-13 21:40:46 -05:00
74b48192e4
In order to simplify the code, the heal function is called during the configuration phase, thus resulting in the function being always called when the build.zig file is run. This behavior unfortunately causes a serious issue when the user fix a broken exercise and, during the next step, the heal function tries to heal the fixed exercise resulting in GNU patch assuming an attempt to reverse a patch, waiting for input from the terminal. Run the heal function from the new HealStep step, so that it is called only during tests. Rename the outdir constant to work_path, for consistency with build.zig. Fixes #272
402 lines
12 KiB
Zig
402 lines
12 KiB
Zig
const std = @import("std");
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const root = @import("../build.zig");
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const debug = std.debug;
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const fmt = std.fmt;
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const fs = std.fs;
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const mem = std.mem;
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const Allocator = std.mem.Allocator;
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const Build = std.build;
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const FileSource = std.Build.FileSource;
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const Reader = fs.File.Reader;
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const RunStep = std.Build.RunStep;
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const Step = Build.Step;
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const Exercise = root.Exercise;
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pub fn addCliTests(b: *std.Build, exercises: []const Exercise) *Step {
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const step = b.step("test-cli", "Test the command line interface");
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// We should use a temporary path, but it will make the implementation of
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// `build.zig` more complex.
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const work_path = "patches/healed";
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fs.cwd().makePath(work_path) catch |err| {
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return fail(step, "unable to make '{s}': {s}\n", .{ work_path, @errorName(err) });
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};
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const heal_step = HealStep.create(b, exercises, work_path);
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{
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// Test that `zig build -Dhealed -Dn=n test` selects the nth exercise.
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const case_step = createCase(b, "case-1");
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var i: usize = 0;
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for (exercises[0 .. exercises.len - 1]) |ex| {
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i += 1;
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if (ex.skip) continue;
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const cmd = b.addSystemCommand(
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&.{ b.zig_exe, "build", "-Dhealed", b.fmt("-Dn={}", .{i}), "test" },
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);
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cmd.setName(b.fmt("zig build -Dhealed -Dn={} test", .{i}));
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cmd.expectExitCode(0);
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if (ex.check_stdout)
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expectStdOutMatch(cmd, ex.output)
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else
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expectStdErrMatch(cmd, ex.output);
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cmd.step.dependOn(&heal_step.step);
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case_step.dependOn(&cmd.step);
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}
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step.dependOn(case_step);
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}
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{
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// Test that `zig build -Dhealed -Dn=n test` skips disabled esercises.
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const case_step = createCase(b, "case-2");
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var i: usize = 0;
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for (exercises[0 .. exercises.len - 1]) |ex| {
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i += 1;
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if (!ex.skip) continue;
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const cmd = b.addSystemCommand(
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&.{ b.zig_exe, "build", "-Dhealed", b.fmt("-Dn={}", .{i}), "test" },
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);
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cmd.setName(b.fmt("zig build -Dhealed -Dn={} test", .{i}));
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cmd.expectExitCode(0);
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cmd.expectStdOutEqual("");
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expectStdErrMatch(cmd, b.fmt("{s} skipped", .{ex.main_file}));
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cmd.step.dependOn(&heal_step.step);
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case_step.dependOn(&cmd.step);
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}
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step.dependOn(case_step);
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}
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{
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// Test that `zig build -Dhealed` process all the exercises in order.
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const case_step = createCase(b, "case-3");
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// TODO: when an exercise is modified, the cache is not invalidated.
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const cmd = b.addSystemCommand(&.{ b.zig_exe, "build", "-Dhealed" });
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cmd.setName("zig build -Dhealed");
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cmd.expectExitCode(0);
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cmd.step.dependOn(&heal_step.step);
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const stderr = cmd.captureStdErr();
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const verify = CheckStep.create(b, exercises, stderr, true);
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verify.step.dependOn(&cmd.step);
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case_step.dependOn(&verify.step);
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step.dependOn(case_step);
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}
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{
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// Test that `zig build -Dhealed -Dn=1 start` process all the exercises
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// in order.
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const case_step = createCase(b, "case-4");
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// TODO: when an exercise is modified, the cache is not invalidated.
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const cmd = b.addSystemCommand(
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&.{ b.zig_exe, "build", "-Dhealed", "-Dn=1", "start" },
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);
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cmd.setName("zig build -Dhealed -Dn=1 start");
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cmd.expectExitCode(0);
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cmd.step.dependOn(&heal_step.step);
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const stderr = cmd.captureStdErr();
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const verify = CheckStep.create(b, exercises, stderr, false);
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verify.step.dependOn(&cmd.step);
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case_step.dependOn(&verify.step);
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step.dependOn(case_step);
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}
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{
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// Test that `zig build -Dn=1` prints the hint.
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const case_step = createCase(b, "case-5");
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const cmd = b.addSystemCommand(&.{ b.zig_exe, "build", "-Dn=1" });
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cmd.setName("zig build -Dn=1");
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cmd.expectExitCode(1);
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expectStdErrMatch(cmd, exercises[0].hint);
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cmd.step.dependOn(&heal_step.step);
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case_step.dependOn(&cmd.step);
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step.dependOn(case_step);
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}
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// Don't add the cleanup step, since it may delete work_path while a test
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// case is running.
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//const cleanup = b.addRemoveDirTree(work_path);
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//step.dependOn(&cleanup.step);
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return step;
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}
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fn createCase(b: *Build, name: []const u8) *Step {
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const case_step = b.allocator.create(Step) catch @panic("OOM");
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case_step.* = Step.init(.{
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.id = .custom,
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.name = name,
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.owner = b,
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});
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return case_step;
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}
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// Check the output of `zig build` or `zig build -Dn=1 start`.
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const CheckStep = struct {
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step: Step,
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exercises: []const Exercise,
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stderr: FileSource,
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has_logo: bool,
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pub fn create(
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owner: *Build,
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exercises: []const Exercise,
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stderr: FileSource,
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has_logo: bool,
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) *CheckStep {
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const self = owner.allocator.create(CheckStep) catch @panic("OOM");
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self.* = .{
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.step = Step.init(.{
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.id = .custom,
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.name = "check",
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.owner = owner,
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.makeFn = make,
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}),
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.exercises = exercises,
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.stderr = stderr,
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.has_logo = has_logo,
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};
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return self;
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}
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fn make(step: *Step, _: *std.Progress.Node) !void {
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const b = step.owner;
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const self = @fieldParentPtr(CheckStep, "step", step);
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const exercises = self.exercises;
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const stderr_file = try fs.cwd().openFile(
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self.stderr.getPath(b),
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.{ .mode = .read_only },
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);
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defer stderr_file.close();
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const stderr = stderr_file.reader();
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for (exercises) |ex| {
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if (ex.number() == 1 and self.has_logo) {
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// Skip the logo.
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var buf: [80]u8 = undefined;
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var lineno: usize = 0;
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while (lineno < 8) : (lineno += 1) {
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_ = try readLine(stderr, &buf);
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}
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}
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try check_output(step, ex, stderr);
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}
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}
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fn check_output(step: *Step, exercise: Exercise, reader: Reader) !void {
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const b = step.owner;
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var buf: [1024]u8 = undefined;
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if (exercise.skip) {
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{
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const actual = try readLine(reader, &buf) orelse "EOF";
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const expect = b.fmt("Skipping {s}", .{exercise.main_file});
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try check(step, exercise, expect, actual);
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}
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{
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const actual = try readLine(reader, &buf) orelse "EOF";
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try check(step, exercise, "", actual);
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}
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return;
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}
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{
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const actual = try readLine(reader, &buf) orelse "EOF";
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const expect = b.fmt("Compiling {s}...", .{exercise.main_file});
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try check(step, exercise, expect, actual);
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}
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{
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const actual = try readLine(reader, &buf) orelse "EOF";
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const expect = b.fmt("Checking {s}...", .{exercise.main_file});
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try check(step, exercise, expect, actual);
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}
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{
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const actual = try readLine(reader, &buf) orelse "EOF";
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const expect = "PASSED:";
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try check(step, exercise, expect, actual);
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}
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// Skip the exercise output.
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const nlines = 1 + mem.count(u8, exercise.output, "\n") + 1;
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var lineno: usize = 0;
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while (lineno < nlines) : (lineno += 1) {
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_ = try readLine(reader, &buf) orelse @panic("EOF");
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}
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}
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fn check(
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step: *Step,
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exercise: Exercise,
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expect: []const u8,
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actual: []const u8,
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) !void {
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if (!mem.eql(u8, expect, actual)) {
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return step.fail("{s}: expected to see \"{s}\", found \"{s}\"", .{
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exercise.main_file,
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expect,
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actual,
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});
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}
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}
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fn readLine(reader: fs.File.Reader, buf: []u8) !?[]const u8 {
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if (try reader.readUntilDelimiterOrEof(buf, '\n')) |line| {
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return mem.trimRight(u8, line, " \r\n");
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}
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return null;
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}
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};
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// A step that will fail.
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const FailStep = struct {
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step: Step,
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error_msg: []const u8,
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pub fn create(owner: *Build, error_msg: []const u8) *FailStep {
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const self = owner.allocator.create(FailStep) catch @panic("OOM");
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self.* = .{
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.step = Step.init(.{
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.id = .custom,
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.name = "fail",
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.owner = owner,
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.makeFn = make,
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}),
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.error_msg = error_msg,
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};
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return self;
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}
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fn make(step: *Step, _: *std.Progress.Node) !void {
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const b = step.owner;
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const self = @fieldParentPtr(FailStep, "step", step);
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try step.result_error_msgs.append(b.allocator, self.error_msg);
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return error.MakeFailed;
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}
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};
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// A variant of `std.Build.Step.fail` that does not return an error so that it
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// can be used in the configuration phase. It returns a FailStep, so that the
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// error will be cleanly handled by the build runner.
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fn fail(step: *Step, comptime format: []const u8, args: anytype) *Step {
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const b = step.owner;
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const fail_step = FailStep.create(b, b.fmt(format, args));
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step.dependOn(&fail_step.step);
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return step;
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}
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// A step that heals exercises.
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const HealStep = struct {
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step: Step,
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exercises: []const Exercise,
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work_path: []const u8,
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pub fn create(owner: *Build, exercises: []const Exercise, work_path: []const u8) *HealStep {
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const self = owner.allocator.create(HealStep) catch @panic("OOM");
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self.* = .{
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.step = Step.init(.{
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.id = .custom,
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.name = "heal",
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.owner = owner,
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.makeFn = make,
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}),
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.exercises = exercises,
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.work_path = work_path,
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};
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return self;
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}
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fn make(step: *Step, _: *std.Progress.Node) !void {
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const b = step.owner;
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const self = @fieldParentPtr(HealStep, "step", step);
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return heal(b.allocator, self.exercises, self.work_path);
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}
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};
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// Heals all the exercises.
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fn heal(allocator: Allocator, exercises: []const Exercise, work_path: []const u8) !void {
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const join = fs.path.join;
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const exercises_path = "exercises";
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const patches_path = "patches/patches";
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for (exercises) |ex| {
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const name = ex.name();
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// Use the POSIX patch variant.
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const file = try join(allocator, &.{ exercises_path, ex.main_file });
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const patch = b: {
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const patch_name = try fmt.allocPrint(allocator, "{s}.patch", .{name});
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break :b try join(allocator, &.{ patches_path, patch_name });
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};
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const output = try join(allocator, &.{ work_path, ex.main_file });
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const argv = &.{ "patch", "-i", patch, "-o", output, "-s", file };
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var child = std.process.Child.init(argv, allocator);
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_ = try child.spawnAndWait();
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}
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}
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//
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// Missing functions from std.Build.RunStep
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//
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/// Adds a check for stderr match. Does not add any other checks.
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pub fn expectStdErrMatch(self: *RunStep, bytes: []const u8) void {
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const new_check: RunStep.StdIo.Check = .{
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.expect_stderr_match = self.step.owner.dupe(bytes),
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};
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self.addCheck(new_check);
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}
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/// Adds a check for stdout match as well as a check for exit code 0, if
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/// there is not already an expected termination check.
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pub fn expectStdOutMatch(self: *RunStep, bytes: []const u8) void {
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const new_check: RunStep.StdIo.Check = .{
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.expect_stdout_match = self.step.owner.dupe(bytes),
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};
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self.addCheck(new_check);
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if (!self.hasTermCheck()) {
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self.expectExitCode(0);
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}
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}
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