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0e5335aaf5
zig/test/tests.zig
mlugg 0e5335aaf5
compiler: rework type resolution, fully resolve all types 
I'm so sorry.

This commit was just meant to be making all types fully resolve by
queueing resolution at the moment of their creation. Unfortunately, a
lot of dominoes ended up falling. Here's what happened:

* I added a work queue job to fully resolve a type.
* I realised that from here we could eliminate `Sema.types_to_resolve`
  if we made function codegen a separate job. This is desirable for
  simplicity of both spec and implementation.
* This led to a new AIR traversal to detect whether any required type is
  unresolved. If a type in the AIR failed to resolve, then we can't run
  codegen.
* Because full type resolution now occurs by the work queue job, a bug
  was exposed whereby error messages for type resolution were associated
  with the wrong `Decl`, resulting in duplicate error messages when the
  type was also resolved "by" its owner `Decl` (which really *all*
  resolution should be done on).
* A correct fix for this requires using a different `Sema` when
  performing type resolution: we need a `Sema` owned by the type. Also
  note that this fix is necessary for incremental compilation.
* This means a whole bunch of functions no longer need to take `Sema`s.
  * First-order effects: `resolveTypeFields`, `resolveTypeLayout`, etc
  * Second-order effects: `Type.abiAlignmentAdvanced`, `Value.orderAgainstZeroAdvanced`, etc

The end result of this is, in short, a more correct compiler and a
simpler language specification. This regressed a few error notes in the
test cases, but nothing that seems worth blocking this change.

Oh, also, I ripped out the old code in `test/src/Cases.zig` which
introduced a dependency on `Compilation`. This dependency was
problematic at best, and this code has been unused for a while. When we
re-enable incremental test cases, we must rewrite their executor to use
the compiler server protocol.
2024-07-04 21:01:42 +01:00

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const std = @import("std");
const builtin = @import("builtin");
const assert = std.debug.assert;
const mem = std.mem;
const OptimizeMode = std.builtin.OptimizeMode;
const Step = std.Build.Step;
// Cases
const compare_output = @import("compare_output.zig");
const stack_traces = @import("stack_traces.zig");
const assemble_and_link = @import("assemble_and_link.zig");
const translate_c = @import("translate_c.zig");
const run_translated_c = @import("run_translated_c.zig");
// Implementations
pub const TranslateCContext = @import("src/TranslateC.zig");
pub const RunTranslatedCContext = @import("src/RunTranslatedC.zig");
pub const CompareOutputContext = @import("src/CompareOutput.zig");
pub const StackTracesContext = @import("src/StackTrace.zig");
const TestTarget = struct {
target: std.Target.Query = .{},
optimize_mode: std.builtin.OptimizeMode = .Debug,
link_libc: ?bool = null,
single_threaded: ?bool = null,
use_llvm: ?bool = null,
use_lld: ?bool = null,
pic: ?bool = null,
strip: ?bool = null,
};
const test_targets = blk: {
// getBaselineCpuFeatures calls populateDependencies which has a O(N ^ 2) algorithm
// (where N is roughly 160, which technically makes it O(1), but it adds up to a
// lot of branches)
@setEvalBranchQuota(50000);
break :blk [_]TestTarget{
.{},
.{
.link_libc = true,
},
.{
.single_threaded = true,
},
.{
.optimize_mode = .ReleaseFast,
},
.{
.link_libc = true,
.optimize_mode = .ReleaseFast,
},
.{
.optimize_mode = .ReleaseFast,
.single_threaded = true,
},
.{
.optimize_mode = .ReleaseSafe,
},
.{
.link_libc = true,
.optimize_mode = .ReleaseSafe,
},
.{
.optimize_mode = .ReleaseSafe,
.single_threaded = true,
},
.{
.optimize_mode = .ReleaseSmall,
},
.{
.link_libc = true,
.optimize_mode = .ReleaseSmall,
},
.{
.optimize_mode = .ReleaseSmall,
.single_threaded = true,
},
.{
.target = .{
.ofmt = .c,
},
.link_libc = true,
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .linux,
.abi = .none,
},
.use_llvm = false,
.use_lld = false,
},
.{
.target = .{
.cpu_arch = .x86_64,
.cpu_model = .{ .explicit = &std.Target.x86.cpu.x86_64_v2 },
.os_tag = .linux,
.abi = .none,
},
.use_llvm = false,
.use_lld = false,
.pic = true,
},
.{
.target = .{
.cpu_arch = .x86_64,
.cpu_model = .{ .explicit = &std.Target.x86.cpu.x86_64_v3 },
.os_tag = .linux,
.abi = .none,
},
.use_llvm = false,
.use_lld = false,
.strip = true,
},
// Doesn't support new liveness
//.{
// .target = .{
// .cpu_arch = .aarch64,
// .os_tag = .linux,
// },
// .use_llvm = false,
// .use_lld = false,
//},
.{
.target = .{
.cpu_arch = .wasm32,
.os_tag = .wasi,
},
.use_llvm = false,
.use_lld = false,
},
// https://github.com/ziglang/zig/issues/13623
//.{
// .target = .{
// .cpu_arch = .arm,
// .os_tag = .linux,
// },
// .use_llvm = false,
// .use_lld = false,
//},
// https://github.com/ziglang/zig/issues/13623
//.{
// .target = std.Target.Query.parse(.{
// .arch_os_abi = "arm-linux-none",
// .cpu_features = "generic+v8a",
// }) catch unreachable,
// .use_llvm = false,
// .use_lld = false,
//},
// Doesn't support new liveness
//.{
// .target = .{
// .cpu_arch = .aarch64,
// .os_tag = .macos,
// .abi = .none,
// },
// .use_llvm = false,
// .use_lld = false,
//},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .macos,
.abi = .none,
},
.use_llvm = false,
.use_lld = false,
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .windows,
.abi = .gnu,
},
.use_llvm = false,
.use_lld = false,
},
.{
.target = .{
.cpu_arch = .wasm32,
.os_tag = .wasi,
},
.link_libc = false,
},
.{
.target = .{
.cpu_arch = .wasm32,
.os_tag = .wasi,
},
.link_libc = true,
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .linux,
.abi = .none,
},
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .linux,
.abi = .gnu,
},
.link_libc = true,
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .linux,
.abi = .musl,
},
.link_libc = true,
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .linux,
.abi = .musl,
},
.link_libc = true,
.use_lld = false,
},
.{
.target = .{
.cpu_arch = .x86,
.os_tag = .linux,
.abi = .none,
},
},
.{
.target = .{
.cpu_arch = .x86,
.os_tag = .linux,
.abi = .musl,
},
.link_libc = true,
},
.{
.target = .{
.cpu_arch = .x86,
.os_tag = .linux,
.abi = .gnu,
},
.link_libc = true,
},
.{
.target = .{
.cpu_arch = .aarch64,
.os_tag = .linux,
.abi = .none,
},
},
.{
.target = .{
.cpu_arch = .aarch64,
.os_tag = .linux,
.abi = .musl,
},
.link_libc = true,
},
.{
.target = .{
.cpu_arch = .aarch64,
.os_tag = .linux,
.abi = .gnu,
},
.link_libc = true,
},
.{
.target = .{
.cpu_arch = .aarch64,
.os_tag = .windows,
.abi = .gnu,
},
.link_libc = true,
},
.{
.target = std.Target.Query.parse(.{
.arch_os_abi = "arm-linux-none",
.cpu_features = "generic+v8a",
}) catch unreachable,
},
.{
.target = std.Target.Query.parse(.{
.arch_os_abi = "arm-linux-musleabihf",
.cpu_features = "generic+v8a",
}) catch unreachable,
.link_libc = true,
},
// https://github.com/ziglang/zig/issues/3287
//.{
// .target = std.Target.Query.parse(.{
// .arch_os_abi = "arm-linux-gnueabihf",
// .cpu_features = "generic+v8a",
// }) catch unreachable,
// .link_libc = true,
//},
// https://github.com/ziglang/zig/issues/16846
//.{
// .target = .{
// .cpu_arch = .mips,
// .os_tag = .linux,
// .abi = .none,
// },
//},
// https://github.com/ziglang/zig/issues/16846
//.{
// .target = .{
// .cpu_arch = .mips,
// .os_tag = .linux,
// .abi = .musl,
// },
// .link_libc = true,
//},
// https://github.com/ziglang/zig/issues/4927
//.{
// .target = .{
// .cpu_arch = .mips,
// .os_tag = .linux,
// .abi = .gnueabihf,
// },
// .link_libc = true,
//},
// https://github.com/ziglang/zig/issues/16846
//.{
// .target = .{
// .cpu_arch = .mipsel,
// .os_tag = .linux,
// .abi = .none,
// },
//},
// https://github.com/ziglang/zig/issues/16846
//.{
// .target = .{
// .cpu_arch = .mipsel,
// .os_tag = .linux,
// .abi = .musl,
// },
// .link_libc = true,
//},
// https://github.com/ziglang/zig/issues/4927
//.{
// .target = .{
// .cpu_arch = .mipsel,
// .os_tag = .linux,
// .abi = .gnueabihf,
// },
// .link_libc = true,
//},
.{
.target = .{
.cpu_arch = .powerpc,
.os_tag = .linux,
.abi = .none,
},
},
.{
.target = .{
.cpu_arch = .powerpc,
.os_tag = .linux,
.abi = .musl,
},
.link_libc = true,
},
// https://github.com/ziglang/zig/issues/2256
//.{
// .target = .{
// .cpu_arch = .powerpc,
// .os_tag = .linux,
// .abi = .gnueabihf,
// },
// .link_libc = true,
//},
.{
.target = .{
.cpu_arch = .powerpc64le,
.os_tag = .linux,
.abi = .none,
},
},
.{
.target = .{
.cpu_arch = .powerpc64le,
.os_tag = .linux,
.abi = .musl,
},
.link_libc = true,
},
.{
.target = .{
.cpu_arch = .powerpc64le,
.os_tag = .linux,
.abi = .gnu,
},
.link_libc = true,
},
// Disabled until LLVM fixes their O(N^2) codegen.
// https://github.com/ziglang/zig/issues/18872
//.{
// .target = .{
// .cpu_arch = .riscv64,
// .os_tag = .linux,
// .abi = .none,
// },
// .use_llvm = true,
//},
// Disabled until LLVM fixes their O(N^2) codegen.
// https://github.com/ziglang/zig/issues/18872
//.{
// .target = .{
// .cpu_arch = .riscv64,
// .os_tag = .linux,
// .abi = .musl,
// },
// .link_libc = true,
// .use_llvm = true,
//},
.{
.target = .{
.cpu_arch = .riscv64,
.os_tag = .linux,
.abi = .musl,
},
.use_llvm = false,
.use_lld = false,
},
// https://github.com/ziglang/zig/issues/3340
//.{
// .target = .{
// .cpu_arch = .riscv64,
// .os = .linux,
// .abi = .gnu,
// },
// .link_libc = true,
//},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .macos,
.abi = .none,
},
},
.{
.target = .{
.cpu_arch = .aarch64,
.os_tag = .macos,
.abi = .none,
},
},
.{
.target = .{
.cpu_arch = .x86,
.os_tag = .windows,
.abi = .msvc,
},
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .windows,
.abi = .msvc,
},
},
.{
.target = .{
.cpu_arch = .x86,
.os_tag = .windows,
.abi = .gnu,
},
.link_libc = true,
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .windows,
.abi = .gnu,
},
.link_libc = true,
},
};
};
const CAbiTarget = struct {
target: std.Target.Query = .{},
use_llvm: ?bool = null,
use_lld: ?bool = null,
pic: ?bool = null,
strip: ?bool = null,
c_defines: []const []const u8 = &.{},
};
const c_abi_targets = [_]CAbiTarget{
.{},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .linux,
.abi = .musl,
},
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .linux,
.abi = .musl,
},
.use_llvm = false,
.use_lld = false,
.c_defines = &.{"ZIG_BACKEND_STAGE2_X86_64"},
},
.{
.target = .{
.cpu_arch = .x86_64,
.cpu_model = .{ .explicit = &std.Target.x86.cpu.x86_64_v2 },
.os_tag = .linux,
.abi = .musl,
},
.use_llvm = false,
.use_lld = false,
.strip = true,
.c_defines = &.{"ZIG_BACKEND_STAGE2_X86_64"},
},
.{
.target = .{
.cpu_arch = .x86_64,
.cpu_model = .{ .explicit = &std.Target.x86.cpu.x86_64_v3 },
.os_tag = .linux,
.abi = .musl,
},
.use_llvm = false,
.use_lld = false,
.pic = true,
.c_defines = &.{"ZIG_BACKEND_STAGE2_X86_64"},
},
.{
.target = .{
.cpu_arch = .x86,
.os_tag = .linux,
.abi = .musl,
},
},
.{
.target = .{
.cpu_arch = .aarch64,
.os_tag = .linux,
.abi = .musl,
},
},
.{
.target = .{
.cpu_arch = .arm,
.os_tag = .linux,
.abi = .musleabihf,
},
},
.{
.target = .{
.cpu_arch = .mips,
.os_tag = .linux,
.abi = .musl,
},
},
.{
.target = .{
.cpu_arch = .riscv64,
.os_tag = .linux,
.abi = .musl,
},
},
.{
.target = .{
.cpu_arch = .wasm32,
.os_tag = .wasi,
.abi = .musl,
},
},
.{
.target = .{
.cpu_arch = .powerpc,
.os_tag = .linux,
.abi = .musl,
},
},
.{
.target = .{
.cpu_arch = .powerpc64le,
.os_tag = .linux,
.abi = .musl,
},
},
.{
.target = .{
.cpu_arch = .x86,
.os_tag = .windows,
.abi = .gnu,
},
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .windows,
.abi = .gnu,
},
},
};
pub fn addCompareOutputTests(
b: *std.Build,
test_filters: []const []const u8,
optimize_modes: []const OptimizeMode,
) *Step {
const cases = b.allocator.create(CompareOutputContext) catch @panic("OOM");
cases.* = CompareOutputContext{
.b = b,
.step = b.step("test-compare-output", "Run the compare output tests"),
.test_index = 0,
.test_filters = test_filters,
.optimize_modes = optimize_modes,
};
compare_output.addCases(cases);
return cases.step;
}
pub fn addStackTraceTests(
b: *std.Build,
test_filters: []const []const u8,
optimize_modes: []const OptimizeMode,
) *Step {
const check_exe = b.addExecutable(.{
.name = "check-stack-trace",
.root_source_file = b.path("test/src/check-stack-trace.zig"),
.target = b.graph.host,
.optimize = .Debug,
});
const cases = b.allocator.create(StackTracesContext) catch @panic("OOM");
cases.* = .{
.b = b,
.step = b.step("test-stack-traces", "Run the stack trace tests"),
.test_index = 0,
.test_filters = test_filters,
.optimize_modes = optimize_modes,
.check_exe = check_exe,
};
stack_traces.addCases(cases);
return cases.step;
}
fn compilerHasPackageManager(b: *std.Build) bool {
// We can only use dependencies if the compiler was built with support for package management.
// (zig2 doesn't support it, but we still need to construct a build graph to build stage3.)
return b.available_deps.len != 0;
}
pub fn addStandaloneTests(
b: *std.Build,
optimize_modes: []const OptimizeMode,
enable_macos_sdk: bool,
enable_ios_sdk: bool,
enable_symlinks_windows: bool,
) *Step {
const step = b.step("test-standalone", "Run the standalone tests");
if (compilerHasPackageManager(b)) {
const test_cases_dep_name = "standalone_test_cases";
const test_cases_dep = b.dependency(test_cases_dep_name, .{
.enable_ios_sdk = enable_ios_sdk,
.enable_macos_sdk = enable_macos_sdk,
.enable_symlinks_windows = enable_symlinks_windows,
.simple_skip_debug = mem.indexOfScalar(OptimizeMode, optimize_modes, .Debug) == null,
.simple_skip_release_safe = mem.indexOfScalar(OptimizeMode, optimize_modes, .ReleaseSafe) == null,
.simple_skip_release_fast = mem.indexOfScalar(OptimizeMode, optimize_modes, .ReleaseFast) == null,
.simple_skip_release_small = mem.indexOfScalar(OptimizeMode, optimize_modes, .ReleaseSmall) == null,
});
const test_cases_dep_step = test_cases_dep.builder.default_step;
test_cases_dep_step.name = b.dupe(test_cases_dep_name);
step.dependOn(test_cases_dep.builder.default_step);
}
return step;
}
pub fn addLinkTests(
b: *std.Build,
enable_macos_sdk: bool,
enable_ios_sdk: bool,
enable_symlinks_windows: bool,
) *Step {
const step = b.step("test-link", "Run the linker tests");
if (compilerHasPackageManager(b)) {
const test_cases_dep_name = "link_test_cases";
const test_cases_dep = b.dependency(test_cases_dep_name, .{
.enable_ios_sdk = enable_ios_sdk,
.enable_macos_sdk = enable_macos_sdk,
.enable_symlinks_windows = enable_symlinks_windows,
});
const test_cases_dep_step = test_cases_dep.builder.default_step;
test_cases_dep_step.name = b.dupe(test_cases_dep_name);
step.dependOn(test_cases_dep.builder.default_step);
}
return step;
}
pub fn addCliTests(b: *std.Build) *Step {
const step = b.step("test-cli", "Test the command line interface");
const s = std.fs.path.sep_str;
{
// Test `zig init`.
const tmp_path = b.makeTempPath();
const init_exe = b.addSystemCommand(&.{ b.graph.zig_exe, "init" });
init_exe.setCwd(.{ .cwd_relative = tmp_path });
init_exe.setName("zig init");
init_exe.expectStdOutEqual("");
init_exe.expectStdErrEqual("info: created build.zig\n" ++
"info: created build.zig.zon\n" ++
"info: created src" ++ s ++ "main.zig\n" ++
"info: created src" ++ s ++ "root.zig\n" ++
"info: see `zig build --help` for a menu of options\n");
// Test missing output path.
const bad_out_arg = "-femit-bin=does" ++ s ++ "not" ++ s ++ "exist" ++ s ++ "foo.exe";
const ok_src_arg = "src" ++ s ++ "main.zig";
const expected = "error: unable to open output directory 'does" ++ s ++ "not" ++ s ++ "exist': FileNotFound\n";
const run_bad = b.addSystemCommand(&.{ b.graph.zig_exe, "build-exe", ok_src_arg, bad_out_arg });
run_bad.setName("zig build-exe error message for bad -femit-bin arg");
run_bad.expectExitCode(1);
run_bad.expectStdErrEqual(expected);
run_bad.expectStdOutEqual("");
run_bad.step.dependOn(&init_exe.step);
const run_test = b.addSystemCommand(&.{ b.graph.zig_exe, "build", "test" });
run_test.setCwd(.{ .cwd_relative = tmp_path });
run_test.setName("zig build test");
run_test.expectStdOutEqual("");
run_test.step.dependOn(&init_exe.step);
const run_run = b.addSystemCommand(&.{ b.graph.zig_exe, "build", "run" });
run_run.setCwd(.{ .cwd_relative = tmp_path });
run_run.setName("zig build run");
run_run.expectStdOutEqual("Run `zig build test` to run the tests.\n");
run_run.expectStdErrEqual("All your codebase are belong to us.\n");
run_run.step.dependOn(&init_exe.step);
const cleanup = b.addRemoveDirTree(tmp_path);
cleanup.step.dependOn(&run_test.step);
cleanup.step.dependOn(&run_run.step);
cleanup.step.dependOn(&run_bad.step);
step.dependOn(&cleanup.step);
}
// Test Godbolt API
if (builtin.os.tag == .linux and builtin.cpu.arch == .x86_64) {
const tmp_path = b.makeTempPath();
const example_zig = b.addWriteFiles().add("example.zig",
\\// Type your code here, or load an example.
\\export fn square(num: i32) i32 {
\\ return num * num;
\\}
\\extern fn zig_panic() noreturn;
\\pub fn panic(msg: []const u8, error_return_trace: ?*@import("std").builtin.StackTrace, _: ?usize) noreturn {
\\ _ = msg;
\\ _ = error_return_trace;
\\ zig_panic();
\\}
);
// This is intended to be the exact CLI usage used by godbolt.org.
const run = b.addSystemCommand(&.{
b.graph.zig_exe, "build-obj",
"--cache-dir", tmp_path,
"--name", "example",
"-fno-emit-bin", "-fno-emit-h",
"-fstrip", "-OReleaseFast",
});
run.addFileArg(example_zig);
const example_s = run.addPrefixedOutputFileArg("-femit-asm=", "example.s");
const checkfile = b.addCheckFile(example_s, .{
.expected_matches = &.{
"square:",
"mov\teax, edi",
"imul\teax, edi",
},
});
checkfile.setName("check godbolt.org CLI usage generating valid asm");
const cleanup = b.addRemoveDirTree(tmp_path);
cleanup.step.dependOn(&checkfile.step);
step.dependOn(&cleanup.step);
}
{
// Test `zig fmt`.
// This test must use a temporary directory rather than a cache
// directory because this test will be mutating the files. The cache
// system relies on cache directories being mutated only by their
// owners.
const tmp_path = b.makeTempPath();
const unformatted_code = " // no reason for indent";
var dir = std.fs.cwd().openDir(tmp_path, .{}) catch @panic("unhandled");
defer dir.close();
dir.writeFile(.{ .sub_path = "fmt1.zig", .data = unformatted_code }) catch @panic("unhandled");
dir.writeFile(.{ .sub_path = "fmt2.zig", .data = unformatted_code }) catch @panic("unhandled");
dir.makeDir("subdir") catch @panic("unhandled");
var subdir = dir.openDir("subdir", .{}) catch @panic("unhandled");
defer subdir.close();
subdir.writeFile(.{ .sub_path = "fmt3.zig", .data = unformatted_code }) catch @panic("unhandled");
// Test zig fmt affecting only the appropriate files.
const run1 = b.addSystemCommand(&.{ b.graph.zig_exe, "fmt", "fmt1.zig" });
run1.setName("run zig fmt one file");
run1.setCwd(.{ .cwd_relative = tmp_path });
run1.has_side_effects = true;
// stdout should be file path + \n
run1.expectStdOutEqual("fmt1.zig\n");
// Test excluding files and directories from a run
const run2 = b.addSystemCommand(&.{ b.graph.zig_exe, "fmt", "--exclude", "fmt2.zig", "--exclude", "subdir", "." });
run2.setName("run zig fmt on directory with exclusions");
run2.setCwd(.{ .cwd_relative = tmp_path });
run2.has_side_effects = true;
run2.expectStdOutEqual("");
run2.step.dependOn(&run1.step);
// Test excluding non-existent file
const run3 = b.addSystemCommand(&.{ b.graph.zig_exe, "fmt", "--exclude", "fmt2.zig", "--exclude", "nonexistent.zig", "." });
run3.setName("run zig fmt on directory with non-existent exclusion");
run3.setCwd(.{ .cwd_relative = tmp_path });
run3.has_side_effects = true;
run3.expectStdOutEqual("." ++ s ++ "subdir" ++ s ++ "fmt3.zig\n");
run3.step.dependOn(&run2.step);
// running it on the dir, only the new file should be changed
const run4 = b.addSystemCommand(&.{ b.graph.zig_exe, "fmt", "." });
run4.setName("run zig fmt the directory");
run4.setCwd(.{ .cwd_relative = tmp_path });
run4.has_side_effects = true;
run4.expectStdOutEqual("." ++ s ++ "fmt2.zig\n");
run4.step.dependOn(&run3.step);
// both files have been formatted, nothing should change now
const run5 = b.addSystemCommand(&.{ b.graph.zig_exe, "fmt", "." });
run5.setName("run zig fmt with nothing to do");
run5.setCwd(.{ .cwd_relative = tmp_path });
run5.has_side_effects = true;
run5.expectStdOutEqual("");
run5.step.dependOn(&run4.step);
const unformatted_code_utf16 = "\xff\xfe \x00 \x00 \x00 \x00/\x00/\x00 \x00n\x00o\x00 \x00r\x00e\x00a\x00s\x00o\x00n\x00";
const fmt6_path = std.fs.path.join(b.allocator, &.{ tmp_path, "fmt6.zig" }) catch @panic("OOM");
const write6 = b.addWriteFiles();
write6.addBytesToSource(unformatted_code_utf16, fmt6_path);
write6.step.dependOn(&run5.step);
// Test `zig fmt` handling UTF-16 decoding.
const run6 = b.addSystemCommand(&.{ b.graph.zig_exe, "fmt", "." });
run6.setName("run zig fmt convert UTF-16 to UTF-8");
run6.setCwd(.{ .cwd_relative = tmp_path });
run6.has_side_effects = true;
run6.expectStdOutEqual("." ++ s ++ "fmt6.zig\n");
run6.step.dependOn(&write6.step);
// TODO change this to an exact match
const check6 = b.addCheckFile(.{ .cwd_relative = fmt6_path }, .{
.expected_matches = &.{
"// no reason",
},
});
check6.step.dependOn(&run6.step);
const cleanup = b.addRemoveDirTree(tmp_path);
cleanup.step.dependOn(&check6.step);
step.dependOn(&cleanup.step);
}
{
// TODO this should move to become a CLI test rather than standalone
// cases.addBuildFile("test/standalone/options/build.zig", .{
// .extra_argv = &.{
// "-Dbool_true",
// "-Dbool_false=false",
// "-Dint=1234",
// "-De=two",
// "-Dstring=hello",
// },
// });
}
return step;
}
pub fn addAssembleAndLinkTests(b: *std.Build, test_filters: []const []const u8, optimize_modes: []const OptimizeMode) *Step {
const cases = b.allocator.create(CompareOutputContext) catch @panic("OOM");
cases.* = CompareOutputContext{
.b = b,
.step = b.step("test-asm-link", "Run the assemble and link tests"),
.test_index = 0,
.test_filters = test_filters,
.optimize_modes = optimize_modes,
};
assemble_and_link.addCases(cases);
return cases.step;
}
pub fn addTranslateCTests(b: *std.Build, parent_step: *std.Build.Step, test_filters: []const []const u8) void {
const cases = b.allocator.create(TranslateCContext) catch @panic("OOM");
cases.* = TranslateCContext{
.b = b,
.step = parent_step,
.test_index = 0,
.test_filters = test_filters,
};
translate_c.addCases(cases);
return;
}
pub fn addRunTranslatedCTests(
b: *std.Build,
parent_step: *std.Build.Step,
test_filters: []const []const u8,
target: std.Build.ResolvedTarget,
) void {
const cases = b.allocator.create(RunTranslatedCContext) catch @panic("OOM");
cases.* = .{
.b = b,
.step = parent_step,
.test_index = 0,
.test_filters = test_filters,
.target = target,
};
run_translated_c.addCases(cases);
return;
}
const ModuleTestOptions = struct {
test_filters: []const []const u8,
root_src: []const u8,
name: []const u8,
desc: []const u8,
optimize_modes: []const OptimizeMode,
include_paths: []const []const u8,
skip_single_threaded: bool,
skip_non_native: bool,
skip_libc: bool,
max_rss: usize = 0,
no_builtin: bool = false,
};
pub fn addModuleTests(b: *std.Build, options: ModuleTestOptions) *Step {
const step = b.step(b.fmt("test-{s}", .{options.name}), options.desc);
for (test_targets) |test_target| {
const is_native = test_target.target.isNative() or
(test_target.target.os_tag == builtin.os.tag and
test_target.target.cpu_arch == builtin.cpu.arch);
if (options.skip_non_native and !is_native)
continue;
const resolved_target = b.resolveTargetQuery(test_target.target);
const target = resolved_target.result;
if (options.skip_libc and test_target.link_libc == true)
continue;
if (options.skip_single_threaded and test_target.single_threaded == true)
continue;
// TODO get compiler-rt tests passing for self-hosted backends.
if ((target.cpu.arch != .x86_64 or target.ofmt != .elf) and
test_target.use_llvm == false and mem.eql(u8, options.name, "compiler-rt"))
continue;
// TODO get compiler-rt tests passing for wasm32-wasi
// currently causes "LLVM ERROR: Unable to expand fixed point multiplication."
if (target.cpu.arch == .wasm32 and target.os.tag == .wasi and
mem.eql(u8, options.name, "compiler-rt"))
{
continue;
}
// TODO get universal-libc tests passing for other self-hosted backends.
if (target.cpu.arch != .x86_64 and
test_target.use_llvm == false and mem.eql(u8, options.name, "universal-libc"))
continue;
// TODO get std lib tests passing for other self-hosted backends.
if ((target.cpu.arch != .x86_64 or target.os.tag != .linux) and
test_target.use_llvm == false and mem.eql(u8, options.name, "std"))
continue;
if (target.cpu.arch != .x86_64 and
test_target.use_llvm == false and mem.eql(u8, options.name, "c-import"))
continue;
if (target.cpu.arch == .x86_64 and target.os.tag == .windows and
test_target.target.cpu_arch == null and test_target.optimize_mode != .Debug and
mem.eql(u8, options.name, "std"))
{
// https://github.com/ziglang/zig/issues/17902
continue;
}
const want_this_mode = for (options.optimize_modes) |m| {
if (m == test_target.optimize_mode) break true;
} else false;
if (!want_this_mode) continue;
const libc_suffix = if (test_target.link_libc == true) "-libc" else "";
const triple_txt = target.zigTriple(b.allocator) catch @panic("OOM");
const model_txt = target.cpu.model.name;
// wasm32-wasi builds need more RAM, idk why
const max_rss = if (target.os.tag == .wasi)
options.max_rss * 2
else
options.max_rss;
const these_tests = b.addTest(.{
.root_source_file = b.path(options.root_src),
.optimize = test_target.optimize_mode,
.target = resolved_target,
.max_rss = max_rss,
.filters = options.test_filters,
.link_libc = test_target.link_libc,
.single_threaded = test_target.single_threaded,
.use_llvm = test_target.use_llvm,
.use_lld = test_target.use_lld,
.zig_lib_dir = b.path("lib"),
.pic = test_target.pic,
.strip = test_target.strip,
});
if (options.no_builtin) these_tests.no_builtin = true;
const single_threaded_suffix = if (test_target.single_threaded == true) "-single" else "";
const backend_suffix = if (test_target.use_llvm == true)
"-llvm"
else if (target.ofmt == std.Target.ObjectFormat.c)
"-cbe"
else if (test_target.use_llvm == false)
"-selfhosted"
else
"";
const use_lld = if (test_target.use_lld == false) "-no-lld" else "";
const use_pic = if (test_target.pic == true) "-pic" else "";
for (options.include_paths) |include_path| these_tests.addIncludePath(b.path(include_path));
const qualified_name = b.fmt("{s}-{s}-{s}-{s}{s}{s}{s}{s}{s}", .{
options.name,
triple_txt,
model_txt,
@tagName(test_target.optimize_mode),
libc_suffix,
single_threaded_suffix,
backend_suffix,
use_lld,
use_pic,
});
if (target.ofmt == std.Target.ObjectFormat.c) {
var altered_query = test_target.target;
altered_query.ofmt = null;
const compile_c = b.addExecutable(.{
.name = qualified_name,
.link_libc = test_target.link_libc,
.target = b.resolveTargetQuery(altered_query),
.zig_lib_dir = b.path("lib"),
});
compile_c.addCSourceFile(.{
.file = these_tests.getEmittedBin(),
.flags = &.{
// Tracking issue for making the C backend generate C89 compatible code:
// https://github.com/ziglang/zig/issues/19468
"-std=c99",
"-Werror",
"-Wall",
"-Wembedded-directive",
"-Wempty-translation-unit",
"-Wextra",
"-Wgnu",
"-Winvalid-utf8",
"-Wkeyword-macro",
"-Woverlength-strings",
// Tracking issue for making the C backend generate code
// that does not trigger warnings:
// https://github.com/ziglang/zig/issues/19467
// spotted everywhere
"-Wno-builtin-requires-header",
// spotted on linux
"-Wno-braced-scalar-init",
"-Wno-excess-initializers",
"-Wno-incompatible-pointer-types-discards-qualifiers",
"-Wno-unused",
"-Wno-unused-parameter",
// spotted on darwin
"-Wno-incompatible-pointer-types",
},
});
compile_c.addIncludePath(b.path("lib")); // for zig.h
if (target.os.tag == .windows) {
if (true) {
// Unfortunately this requires about 8G of RAM for clang to compile
// and our Windows CI runners do not have this much.
step.dependOn(&these_tests.step);
continue;
}
if (test_target.link_libc == false) {
compile_c.subsystem = .Console;
compile_c.linkSystemLibrary("kernel32");
compile_c.linkSystemLibrary("ntdll");
}
if (mem.eql(u8, options.name, "std")) {
if (test_target.link_libc == false) {
compile_c.linkSystemLibrary("shell32");
compile_c.linkSystemLibrary("advapi32");
}
compile_c.linkSystemLibrary("crypt32");
compile_c.linkSystemLibrary("ws2_32");
compile_c.linkSystemLibrary("ole32");
}
}
const run = b.addRunArtifact(compile_c);
run.skip_foreign_checks = true;
run.enableTestRunnerMode();
run.setName(b.fmt("run test {s}", .{qualified_name}));
step.dependOn(&run.step);
} else {
const run = b.addRunArtifact(these_tests);
run.skip_foreign_checks = true;
run.setName(b.fmt("run test {s}", .{qualified_name}));
step.dependOn(&run.step);
}
}
return step;
}
pub fn addCAbiTests(b: *std.Build, skip_non_native: bool, skip_release: bool) *Step {
const step = b.step("test-c-abi", "Run the C ABI tests");
const optimize_modes: [3]OptimizeMode = .{ .Debug, .ReleaseSafe, .ReleaseFast };
for (optimize_modes) |optimize_mode| {
if (optimize_mode != .Debug and skip_release) continue;
for (c_abi_targets) |c_abi_target| {
if (skip_non_native and !c_abi_target.target.isNative()) continue;
const resolved_target = b.resolveTargetQuery(c_abi_target.target);
const target = resolved_target.result;
if (target.os.tag == .windows and target.cpu.arch == .aarch64) {
// https://github.com/ziglang/zig/issues/14908
continue;
}
const test_step = b.addTest(.{
.name = b.fmt("test-c-abi-{s}-{s}-{s}{s}{s}{s}", .{
target.zigTriple(b.allocator) catch @panic("OOM"),
target.cpu.model.name,
@tagName(optimize_mode),
if (c_abi_target.use_llvm == true)
"-llvm"
else if (target.ofmt == .c)
"-cbe"
else if (c_abi_target.use_llvm == false)
"-selfhosted"
else
"",
if (c_abi_target.use_lld == false) "-no-lld" else "",
if (c_abi_target.pic == true) "-pic" else "",
}),
.root_source_file = b.path("test/c_abi/main.zig"),
.target = resolved_target,
.optimize = optimize_mode,
.link_libc = true,
.use_llvm = c_abi_target.use_llvm,
.use_lld = c_abi_target.use_lld,
.pic = c_abi_target.pic,
.strip = c_abi_target.strip,
});
test_step.addCSourceFile(.{
.file = b.path("test/c_abi/cfuncs.c"),
.flags = &.{"-std=c99"},
});
for (c_abi_target.c_defines) |define| test_step.defineCMacro(define, null);
// This test is intentionally trying to check if the external ABI is
// done properly. LTO would be a hindrance to this.
test_step.want_lto = false;
const run = b.addRunArtifact(test_step);
run.skip_foreign_checks = true;
step.dependOn(&run.step);
}
}
return step;
}
pub fn addCases(
b: *std.Build,
parent_step: *Step,
test_filters: []const []const u8,
target: std.Build.ResolvedTarget,
translate_c_options: @import("src/Cases.zig").TranslateCOptions,
build_options: @import("cases.zig").BuildOptions,
) !void {
const arena = b.allocator;
const gpa = b.allocator;
var cases = @import("src/Cases.zig").init(gpa, arena);
var dir = try b.build_root.handle.openDir("test/cases", .{ .iterate = true });
defer dir.close();
cases.addFromDir(dir, b);
try @import("cases.zig").addCases(&cases, build_options, b);
cases.lowerToTranslateCSteps(b, parent_step, test_filters, target, translate_c_options);
cases.lowerToBuildSteps(
b,
parent_step,
test_filters,
);
}
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