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8033767082
zig/test/tests.zig
Luuk de Gram 8033767082
wasm-linker: Implement linker tests (#12006) 
* test/link: initial wasm support

This adds basic parsing and dumping of wasm section so they
can be tested using the new linker-test infrastructure.

* test/link: all wasm sections parsing and dumping

We now parse and dump all sections for the wasm binary format.
Currently, this only dumps the name of a custom section.
Later this should also dump symbol table, name, linking metadata and relocations.
All of those live within the custom sections.

* Add wasm linker test

This also fixes a parser mistake in reading the flags.

* test/link: implement linker tests wasm & fixes

Adds several test cases to test the wasm self-hosted linker.
This also introduces fixes that were caught during the implementation
of those tests.

* test-runner: obey omit_stage2 for standalone

When a standalone test requires stage2, but stage2 is omit
from the compiler, such test case will not be included as part
of the test suite that is being ran. This is to support CI's
where we omit stage2 to lower the memory usage.
2022-07-12 14:36:33 +02:00

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const std = @import("std");
const builtin = @import("builtin");
const debug = std.debug;
const build = std.build;
const CrossTarget = std.zig.CrossTarget;
const io = std.io;
const fs = std.fs;
const mem = std.mem;
const fmt = std.fmt;
const ArrayList = std.ArrayList;
const Mode = std.builtin.Mode;
const LibExeObjStep = build.LibExeObjStep;
const Allocator = mem.Allocator;
const ExecError = build.Builder.ExecError;
// Cases
const compare_output = @import("compare_output.zig");
const standalone = @import("standalone.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");
const gen_h = @import("gen_h.zig");
const link = @import("link.zig");
// Implementations
pub const TranslateCContext = @import("src/translate_c.zig").TranslateCContext;
pub const RunTranslatedCContext = @import("src/run_translated_c.zig").RunTranslatedCContext;
pub const CompareOutputContext = @import("src/compare_output.zig").CompareOutputContext;
const TestTarget = struct {
target: CrossTarget = @as(CrossTarget, .{}),
mode: std.builtin.Mode = .Debug,
link_libc: bool = false,
single_threaded: bool = false,
disable_native: bool = false,
backend: ?std.builtin.CompilerBackend = 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,
},
.{
.link_libc = true,
.backend = .stage2_c,
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .linux,
.abi = .none,
},
.backend = .stage2_x86_64,
},
.{
.target = .{
.cpu_arch = .aarch64,
.os_tag = .linux,
},
.backend = .stage2_aarch64,
},
.{
.target = .{
.cpu_arch = .wasm32,
.os_tag = .wasi,
},
.single_threaded = true,
.backend = .stage2_wasm,
},
.{
.target = .{
.cpu_arch = .arm,
.os_tag = .linux,
},
.backend = .stage2_wasm,
},
.{
.target = CrossTarget.parse(.{
.arch_os_abi = "arm-linux-none",
.cpu_features = "generic+v8a",
}) catch unreachable,
.backend = .stage2_arm,
},
.{
.target = .{
.cpu_arch = .aarch64,
.os_tag = .macos,
.abi = .none,
},
.backend = .stage2_aarch64,
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .macos,
.abi = .none,
},
.backend = .stage2_x86_64,
},
.{
.target = .{
.cpu_arch = .wasm32,
.os_tag = .wasi,
},
.link_libc = false,
.single_threaded = true,
},
.{
.target = .{
.cpu_arch = .wasm32,
.os_tag = .wasi,
},
.link_libc = true,
.single_threaded = 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 = .i386,
.os_tag = .linux,
.abi = .none,
},
},
.{
.target = .{
.cpu_arch = .i386,
.os_tag = .linux,
.abi = .musl,
},
.link_libc = true,
},
.{
.target = .{
.cpu_arch = .i386,
.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 = CrossTarget.parse(.{
.arch_os_abi = "arm-linux-none",
.cpu_features = "generic+v8a",
}) catch unreachable,
},
.{
.target = CrossTarget.parse(.{
.arch_os_abi = "arm-linux-musleabihf",
.cpu_features = "generic+v8a",
}) catch unreachable,
.link_libc = true,
},
// https://github.com/ziglang/zig/issues/3287
//.{
// .target = CrossTarget.parse(.{
// .arch_os_abi = "arm-linux-gnueabihf",
// .cpu_features = "generic+v8a",
// }) catch unreachable,
// .link_libc = true,
//},
.{
.target = .{
.cpu_arch = .mips,
.os_tag = .linux,
.abi = .none,
},
},
.{
.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,
//},
.{
.target = .{
.cpu_arch = .mipsel,
.os_tag = .linux,
.abi = .none,
},
},
.{
.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 = .riscv64,
.os_tag = .linux,
.abi = .none,
},
},
.{
.target = .{
.cpu_arch = .riscv64,
.os_tag = .linux,
.abi = .musl,
},
.link_libc = true,
},
// 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 = .i386,
.os_tag = .windows,
.abi = .msvc,
},
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .windows,
.abi = .msvc,
},
},
.{
.target = .{
.cpu_arch = .i386,
.os_tag = .windows,
.abi = .gnu,
},
.link_libc = true,
},
.{
.target = .{
.cpu_arch = .x86_64,
.os_tag = .windows,
.abi = .gnu,
},
.link_libc = true,
},
// Do the release tests last because they take a long time
.{
.mode = .ReleaseFast,
},
.{
.link_libc = true,
.mode = .ReleaseFast,
},
.{
.mode = .ReleaseFast,
.single_threaded = true,
},
.{
.mode = .ReleaseSafe,
},
.{
.link_libc = true,
.mode = .ReleaseSafe,
},
.{
.mode = .ReleaseSafe,
.single_threaded = true,
},
.{
.mode = .ReleaseSmall,
},
.{
.link_libc = true,
.mode = .ReleaseSmall,
},
.{
.mode = .ReleaseSmall,
.single_threaded = true,
},
};
};
const max_stdout_size = 1 * 1024 * 1024; // 1 MB
pub fn addCompareOutputTests(b: *build.Builder, test_filter: ?[]const u8, modes: []const Mode) *build.Step {
const cases = b.allocator.create(CompareOutputContext) catch unreachable;
cases.* = CompareOutputContext{
.b = b,
.step = b.step("test-compare-output", "Run the compare output tests"),
.test_index = 0,
.test_filter = test_filter,
.modes = modes,
};
compare_output.addCases(cases);
return cases.step;
}
pub fn addStackTraceTests(b: *build.Builder, test_filter: ?[]const u8, modes: []const Mode) *build.Step {
const cases = b.allocator.create(StackTracesContext) catch unreachable;
cases.* = StackTracesContext{
.b = b,
.step = b.step("test-stack-traces", "Run the stack trace tests"),
.test_index = 0,
.test_filter = test_filter,
.modes = modes,
};
stack_traces.addCases(cases);
return cases.step;
}
pub fn addStandaloneTests(
b: *build.Builder,
test_filter: ?[]const u8,
modes: []const Mode,
skip_non_native: bool,
enable_macos_sdk: bool,
target: std.zig.CrossTarget,
omit_stage2: bool,
) *build.Step {
const cases = b.allocator.create(StandaloneContext) catch unreachable;
cases.* = StandaloneContext{
.b = b,
.step = b.step("test-standalone", "Run the standalone tests"),
.test_index = 0,
.test_filter = test_filter,
.modes = modes,
.skip_non_native = skip_non_native,
.enable_macos_sdk = enable_macos_sdk,
.target = target,
.omit_stage2 = omit_stage2,
};
standalone.addCases(cases);
return cases.step;
}
pub fn addLinkTests(
b: *build.Builder,
test_filter: ?[]const u8,
modes: []const Mode,
enable_macos_sdk: bool,
omit_stage2: bool,
) *build.Step {
const cases = b.allocator.create(StandaloneContext) catch unreachable;
cases.* = StandaloneContext{
.b = b,
.step = b.step("test-link", "Run the linker tests"),
.test_index = 0,
.test_filter = test_filter,
.modes = modes,
.skip_non_native = true,
.enable_macos_sdk = enable_macos_sdk,
.target = .{},
.omit_stage2 = omit_stage2,
};
link.addCases(cases);
return cases.step;
}
pub fn addCliTests(b: *build.Builder, test_filter: ?[]const u8, modes: []const Mode) *build.Step {
_ = test_filter;
_ = modes;
const step = b.step("test-cli", "Test the command line interface");
const exe = b.addExecutable("test-cli", "test/cli.zig");
const run_cmd = exe.run();
run_cmd.addArgs(&[_][]const u8{
fs.realpathAlloc(b.allocator, b.zig_exe) catch unreachable,
b.pathFromRoot(b.cache_root),
});
step.dependOn(&run_cmd.step);
return step;
}
pub fn addAssembleAndLinkTests(b: *build.Builder, test_filter: ?[]const u8, modes: []const Mode) *build.Step {
const cases = b.allocator.create(CompareOutputContext) catch unreachable;
cases.* = CompareOutputContext{
.b = b,
.step = b.step("test-asm-link", "Run the assemble and link tests"),
.test_index = 0,
.test_filter = test_filter,
.modes = modes,
};
assemble_and_link.addCases(cases);
return cases.step;
}
pub fn addTranslateCTests(b: *build.Builder, test_filter: ?[]const u8) *build.Step {
const cases = b.allocator.create(TranslateCContext) catch unreachable;
cases.* = TranslateCContext{
.b = b,
.step = b.step("test-translate-c", "Run the C translation tests"),
.test_index = 0,
.test_filter = test_filter,
};
translate_c.addCases(cases);
return cases.step;
}
pub fn addRunTranslatedCTests(
b: *build.Builder,
test_filter: ?[]const u8,
target: std.zig.CrossTarget,
) *build.Step {
const cases = b.allocator.create(RunTranslatedCContext) catch unreachable;
cases.* = .{
.b = b,
.step = b.step("test-run-translated-c", "Run the Run-Translated-C tests"),
.test_index = 0,
.test_filter = test_filter,
.target = target,
};
run_translated_c.addCases(cases);
return cases.step;
}
pub fn addGenHTests(b: *build.Builder, test_filter: ?[]const u8) *build.Step {
const cases = b.allocator.create(GenHContext) catch unreachable;
cases.* = GenHContext{
.b = b,
.step = b.step("test-gen-h", "Run the C header file generation tests"),
.test_index = 0,
.test_filter = test_filter,
};
gen_h.addCases(cases);
return cases.step;
}
pub fn addPkgTests(
b: *build.Builder,
test_filter: ?[]const u8,
root_src: []const u8,
name: []const u8,
desc: []const u8,
modes: []const Mode,
skip_single_threaded: bool,
skip_non_native: bool,
skip_libc: bool,
skip_stage1: bool,
skip_stage2: bool,
is_stage1: bool,
) *build.Step {
const step = b.step(b.fmt("test-{s}", .{name}), desc);
for (test_targets) |test_target| {
if (skip_non_native and !test_target.target.isNative())
continue;
if (skip_libc and test_target.link_libc)
continue;
if (test_target.link_libc and test_target.target.getOs().requiresLibC()) {
// This would be a redundant test.
continue;
}
if (skip_single_threaded and test_target.single_threaded)
continue;
if (test_target.disable_native and
test_target.target.getOsTag() == builtin.os.tag and
test_target.target.getCpuArch() == builtin.cpu.arch)
{
continue;
}
if (test_target.backend) |backend| switch (backend) {
.stage1 => if (skip_stage1) continue,
else => if (skip_stage2) continue,
} else if (is_stage1 and skip_stage1) continue;
const want_this_mode = for (modes) |m| {
if (m == test_target.mode) break true;
} else false;
if (!want_this_mode) continue;
const libc_prefix = if (test_target.target.getOs().requiresLibC())
""
else if (test_target.link_libc)
"c"
else
"bare";
const triple_prefix = test_target.target.zigTriple(b.allocator) catch unreachable;
const these_tests = b.addTest(root_src);
const single_threaded_txt = if (test_target.single_threaded) "single" else "multi";
const backend_txt = if (test_target.backend) |backend| @tagName(backend) else "default";
these_tests.setNamePrefix(b.fmt("{s}-{s}-{s}-{s}-{s}-{s} ", .{
name,
triple_prefix,
@tagName(test_target.mode),
libc_prefix,
single_threaded_txt,
backend_txt,
}));
these_tests.single_threaded = test_target.single_threaded;
these_tests.setFilter(test_filter);
these_tests.setBuildMode(test_target.mode);
these_tests.setTarget(test_target.target);
if (test_target.link_libc) {
these_tests.linkSystemLibrary("c");
}
these_tests.overrideZigLibDir("lib");
these_tests.addIncludePath("test");
if (test_target.backend) |backend| switch (backend) {
.stage1 => {
these_tests.use_stage1 = true;
},
.stage2_llvm => {
these_tests.use_stage1 = false;
these_tests.use_llvm = true;
},
.stage2_c => {
these_tests.use_stage1 = false;
these_tests.use_llvm = false;
these_tests.ofmt = .c;
},
else => {
these_tests.use_stage1 = false;
these_tests.use_llvm = false;
},
};
step.dependOn(&these_tests.step);
}
return step;
}
pub const StackTracesContext = struct {
b: *build.Builder,
step: *build.Step,
test_index: usize,
test_filter: ?[]const u8,
modes: []const Mode,
const Expect = [@typeInfo(Mode).Enum.fields.len][]const u8;
pub fn addCase(self: *StackTracesContext, config: anytype) void {
if (@hasField(@TypeOf(config), "exclude")) {
if (config.exclude.exclude()) return;
}
if (@hasField(@TypeOf(config), "exclude_arch")) {
const exclude_arch: []const std.Target.Cpu.Arch = &config.exclude_arch;
for (exclude_arch) |arch| if (arch == builtin.cpu.arch) return;
}
if (@hasField(@TypeOf(config), "exclude_os")) {
const exclude_os: []const std.Target.Os.Tag = &config.exclude_os;
for (exclude_os) |os| if (os == builtin.os.tag) return;
}
for (self.modes) |mode| {
switch (mode) {
.Debug => {
if (@hasField(@TypeOf(config), "Debug")) {
self.addExpect(config.name, config.source, mode, config.Debug);
}
},
.ReleaseSafe => {
if (@hasField(@TypeOf(config), "ReleaseSafe")) {
self.addExpect(config.name, config.source, mode, config.ReleaseSafe);
}
},
.ReleaseFast => {
if (@hasField(@TypeOf(config), "ReleaseFast")) {
self.addExpect(config.name, config.source, mode, config.ReleaseFast);
}
},
.ReleaseSmall => {
if (@hasField(@TypeOf(config), "ReleaseSmall")) {
self.addExpect(config.name, config.source, mode, config.ReleaseSmall);
}
},
}
}
}
fn addExpect(
self: *StackTracesContext,
name: []const u8,
source: []const u8,
mode: Mode,
mode_config: anytype,
) void {
if (@hasField(@TypeOf(mode_config), "exclude")) {
if (mode_config.exclude.exclude()) return;
}
if (@hasField(@TypeOf(mode_config), "exclude_arch")) {
const exclude_arch: []const std.Target.Cpu.Arch = &mode_config.exclude_arch;
for (exclude_arch) |arch| if (arch == builtin.cpu.arch) return;
}
if (@hasField(@TypeOf(mode_config), "exclude_os")) {
const exclude_os: []const std.Target.Os.Tag = &mode_config.exclude_os;
for (exclude_os) |os| if (os == builtin.os.tag) return;
}
const annotated_case_name = fmt.allocPrint(self.b.allocator, "{s} {s} ({s})", .{
"stack-trace",
name,
@tagName(mode),
}) catch unreachable;
if (self.test_filter) |filter| {
if (mem.indexOf(u8, annotated_case_name, filter) == null) return;
}
const b = self.b;
const src_basename = "source.zig";
const write_src = b.addWriteFile(src_basename, source);
const exe = b.addExecutableSource("test", write_src.getFileSource(src_basename).?);
exe.setBuildMode(mode);
const run_and_compare = RunAndCompareStep.create(
self,
exe,
annotated_case_name,
mode,
mode_config.expect,
);
self.step.dependOn(&run_and_compare.step);
}
const RunAndCompareStep = struct {
pub const base_id = .custom;
step: build.Step,
context: *StackTracesContext,
exe: *LibExeObjStep,
name: []const u8,
mode: Mode,
expect_output: []const u8,
test_index: usize,
pub fn create(
context: *StackTracesContext,
exe: *LibExeObjStep,
name: []const u8,
mode: Mode,
expect_output: []const u8,
) *RunAndCompareStep {
const allocator = context.b.allocator;
const ptr = allocator.create(RunAndCompareStep) catch unreachable;
ptr.* = RunAndCompareStep{
.step = build.Step.init(.custom, "StackTraceCompareOutputStep", allocator, make),
.context = context,
.exe = exe,
.name = name,
.mode = mode,
.expect_output = expect_output,
.test_index = context.test_index,
};
ptr.step.dependOn(&exe.step);
context.test_index += 1;
return ptr;
}
fn make(step: *build.Step) !void {
const self = @fieldParentPtr(RunAndCompareStep, "step", step);
const b = self.context.b;
const full_exe_path = self.exe.getOutputSource().getPath(b);
var args = ArrayList([]const u8).init(b.allocator);
defer args.deinit();
args.append(full_exe_path) catch unreachable;
std.debug.print("Test {d}/{d} {s}...", .{ self.test_index + 1, self.context.test_index, self.name });
if (!std.process.can_spawn) {
const cmd = try std.mem.join(b.allocator, " ", args.items);
std.debug.print("the following command cannot be executed ({s} does not support spawning a child process):\n{s}", .{ @tagName(builtin.os.tag), cmd });
b.allocator.free(cmd);
return ExecError.ExecNotSupported;
}
var child = std.ChildProcess.init(args.items, b.allocator);
child.stdin_behavior = .Ignore;
child.stdout_behavior = .Pipe;
child.stderr_behavior = .Pipe;
child.env_map = b.env_map;
if (b.verbose) {
printInvocation(args.items);
}
child.spawn() catch |err| debug.panic("Unable to spawn {s}: {s}\n", .{ full_exe_path, @errorName(err) });
const stdout = child.stdout.?.reader().readAllAlloc(b.allocator, max_stdout_size) catch unreachable;
defer b.allocator.free(stdout);
const stderrFull = child.stderr.?.reader().readAllAlloc(b.allocator, max_stdout_size) catch unreachable;
defer b.allocator.free(stderrFull);
var stderr = stderrFull;
const term = child.wait() catch |err| {
debug.panic("Unable to spawn {s}: {s}\n", .{ full_exe_path, @errorName(err) });
};
switch (term) {
.Exited => |code| {
const expect_code: u32 = 1;
if (code != expect_code) {
std.debug.print("Process {s} exited with error code {d} but expected code {d}\n", .{
full_exe_path,
code,
expect_code,
});
printInvocation(args.items);
return error.TestFailed;
}
},
.Signal => |signum| {
std.debug.print("Process {s} terminated on signal {d}\n", .{ full_exe_path, signum });
printInvocation(args.items);
return error.TestFailed;
},
.Stopped => |signum| {
std.debug.print("Process {s} stopped on signal {d}\n", .{ full_exe_path, signum });
printInvocation(args.items);
return error.TestFailed;
},
.Unknown => |code| {
std.debug.print("Process {s} terminated unexpectedly with error code {d}\n", .{ full_exe_path, code });
printInvocation(args.items);
return error.TestFailed;
},
}
// process result
// - keep only basename of source file path
// - replace address with symbolic string
// - replace function name with symbolic string when mode != .Debug
// - skip empty lines
const got: []const u8 = got_result: {
var buf = ArrayList(u8).init(b.allocator);
defer buf.deinit();
if (stderr.len != 0 and stderr[stderr.len - 1] == '\n') stderr = stderr[0 .. stderr.len - 1];
var it = mem.split(u8, stderr, "\n");
process_lines: while (it.next()) |line| {
if (line.len == 0) continue;
// offset search past `[drive]:` on windows
var pos: usize = if (builtin.os.tag == .windows) 2 else 0;
// locate delims/anchor
const delims = [_][]const u8{ ":", ":", ":", " in ", "(", ")" };
var marks = [_]usize{0} ** delims.len;
for (delims) |delim, i| {
marks[i] = mem.indexOfPos(u8, line, pos, delim) orelse {
// unexpected pattern: emit raw line and cont
try buf.appendSlice(line);
try buf.appendSlice("\n");
continue :process_lines;
};
pos = marks[i] + delim.len;
}
// locate source basename
pos = mem.lastIndexOfScalar(u8, line[0..marks[0]], fs.path.sep) orelse {
// unexpected pattern: emit raw line and cont
try buf.appendSlice(line);
try buf.appendSlice("\n");
continue :process_lines;
};
// end processing if source basename changes
if (!mem.eql(u8, "source.zig", line[pos + 1 .. marks[0]])) break;
// emit substituted line
try buf.appendSlice(line[pos + 1 .. marks[2] + delims[2].len]);
try buf.appendSlice(" [address]");
if (self.mode == .Debug) {
if (mem.lastIndexOfScalar(u8, line[marks[4]..marks[5]], '.')) |idot| {
// On certain platforms (windows) or possibly depending on how we choose to link main
// the object file extension may be present so we simply strip any extension.
try buf.appendSlice(line[marks[3] .. marks[4] + idot]);
try buf.appendSlice(line[marks[5]..]);
} else {
try buf.appendSlice(line[marks[3]..]);
}
} else {
try buf.appendSlice(line[marks[3] .. marks[3] + delims[3].len]);
try buf.appendSlice("[function]");
}
try buf.appendSlice("\n");
}
break :got_result buf.toOwnedSlice();
};
if (!mem.eql(u8, self.expect_output, got)) {
std.debug.print(
\\
\\========= Expected this output: =========
\\{s}
\\================================================
\\{s}
\\
, .{ self.expect_output, got });
return error.TestFailed;
}
std.debug.print("OK\n", .{});
}
};
};
pub const StandaloneContext = struct {
b: *build.Builder,
step: *build.Step,
test_index: usize,
test_filter: ?[]const u8,
modes: []const Mode,
skip_non_native: bool,
enable_macos_sdk: bool,
target: std.zig.CrossTarget,
omit_stage2: bool,
pub fn addC(self: *StandaloneContext, root_src: []const u8) void {
self.addAllArgs(root_src, true);
}
pub fn add(self: *StandaloneContext, root_src: []const u8) void {
self.addAllArgs(root_src, false);
}
pub fn addBuildFile(self: *StandaloneContext, build_file: []const u8, features: struct {
build_modes: bool = false,
cross_targets: bool = false,
requires_macos_sdk: bool = false,
requires_stage2: bool = false,
}) void {
const b = self.b;
if (features.requires_macos_sdk and !self.enable_macos_sdk) return;
if (features.requires_stage2 and self.omit_stage2) return;
const annotated_case_name = b.fmt("build {s}", .{build_file});
if (self.test_filter) |filter| {
if (mem.indexOf(u8, annotated_case_name, filter) == null) return;
}
var zig_args = ArrayList([]const u8).init(b.allocator);
const rel_zig_exe = fs.path.relative(b.allocator, b.build_root, b.zig_exe) catch unreachable;
zig_args.append(rel_zig_exe) catch unreachable;
zig_args.append("build") catch unreachable;
zig_args.append("--build-file") catch unreachable;
zig_args.append(b.pathFromRoot(build_file)) catch unreachable;
zig_args.append("test") catch unreachable;
if (b.verbose) {
zig_args.append("--verbose") catch unreachable;
}
if (features.cross_targets and !self.target.isNative()) {
const target_triple = self.target.zigTriple(b.allocator) catch unreachable;
const target_arg = fmt.allocPrint(b.allocator, "-Dtarget={s}", .{target_triple}) catch unreachable;
zig_args.append(target_arg) catch unreachable;
}
const modes = if (features.build_modes) self.modes else &[1]Mode{.Debug};
for (modes) |mode| {
const arg = switch (mode) {
.Debug => "",
.ReleaseFast => "-Drelease-fast",
.ReleaseSafe => "-Drelease-safe",
.ReleaseSmall => "-Drelease-small",
};
const zig_args_base_len = zig_args.items.len;
if (arg.len > 0)
zig_args.append(arg) catch unreachable;
defer zig_args.resize(zig_args_base_len) catch unreachable;
const run_cmd = b.addSystemCommand(zig_args.items);
const log_step = b.addLog("PASS {s} ({s})\n", .{ annotated_case_name, @tagName(mode) });
log_step.step.dependOn(&run_cmd.step);
self.step.dependOn(&log_step.step);
}
}
pub fn addAllArgs(self: *StandaloneContext, root_src: []const u8, link_libc: bool) void {
const b = self.b;
for (self.modes) |mode| {
const annotated_case_name = fmt.allocPrint(self.b.allocator, "build {s} ({s})", .{
root_src,
@tagName(mode),
}) catch unreachable;
if (self.test_filter) |filter| {
if (mem.indexOf(u8, annotated_case_name, filter) == null) continue;
}
const exe = b.addExecutable("test", root_src);
exe.setBuildMode(mode);
if (link_libc) {
exe.linkSystemLibrary("c");
}
const log_step = b.addLog("PASS {s}\n", .{annotated_case_name});
log_step.step.dependOn(&exe.step);
self.step.dependOn(&log_step.step);
}
}
};
pub const GenHContext = struct {
b: *build.Builder,
step: *build.Step,
test_index: usize,
test_filter: ?[]const u8,
const TestCase = struct {
name: []const u8,
sources: ArrayList(SourceFile),
expected_lines: ArrayList([]const u8),
const SourceFile = struct {
filename: []const u8,
source: []const u8,
};
pub fn addSourceFile(self: *TestCase, filename: []const u8, source: []const u8) void {
self.sources.append(SourceFile{
.filename = filename,
.source = source,
}) catch unreachable;
}
pub fn addExpectedLine(self: *TestCase, text: []const u8) void {
self.expected_lines.append(text) catch unreachable;
}
};
const GenHCmpOutputStep = struct {
step: build.Step,
context: *GenHContext,
obj: *LibExeObjStep,
name: []const u8,
test_index: usize,
case: *const TestCase,
pub fn create(
context: *GenHContext,
obj: *LibExeObjStep,
name: []const u8,
case: *const TestCase,
) *GenHCmpOutputStep {
const allocator = context.b.allocator;
const ptr = allocator.create(GenHCmpOutputStep) catch unreachable;
ptr.* = GenHCmpOutputStep{
.step = build.Step.init(.Custom, "ParseCCmpOutput", allocator, make),
.context = context,
.obj = obj,
.name = name,
.test_index = context.test_index,
.case = case,
};
ptr.step.dependOn(&obj.step);
context.test_index += 1;
return ptr;
}
fn make(step: *build.Step) !void {
const self = @fieldParentPtr(GenHCmpOutputStep, "step", step);
const b = self.context.b;
std.debug.print("Test {d}/{d} {s}...", .{ self.test_index + 1, self.context.test_index, self.name });
const full_h_path = self.obj.getOutputHPath();
const actual_h = try io.readFileAlloc(b.allocator, full_h_path);
for (self.case.expected_lines.items) |expected_line| {
if (mem.indexOf(u8, actual_h, expected_line) == null) {
std.debug.print(
\\
\\========= Expected this output: ================
\\{s}
\\========= But found: ===========================
\\{s}
\\
, .{ expected_line, actual_h });
return error.TestFailed;
}
}
std.debug.print("OK\n", .{});
}
};
pub fn create(
self: *GenHContext,
filename: []const u8,
name: []const u8,
source: []const u8,
expected_lines: []const []const u8,
) *TestCase {
const tc = self.b.allocator.create(TestCase) catch unreachable;
tc.* = TestCase{
.name = name,
.sources = ArrayList(TestCase.SourceFile).init(self.b.allocator),
.expected_lines = ArrayList([]const u8).init(self.b.allocator),
};
tc.addSourceFile(filename, source);
var arg_i: usize = 0;
while (arg_i < expected_lines.len) : (arg_i += 1) {
tc.addExpectedLine(expected_lines[arg_i]);
}
return tc;
}
pub fn add(self: *GenHContext, name: []const u8, source: []const u8, expected_lines: []const []const u8) void {
const tc = self.create("test.zig", name, source, expected_lines);
self.addCase(tc);
}
pub fn addCase(self: *GenHContext, case: *const TestCase) void {
const b = self.b;
const mode = std.builtin.Mode.Debug;
const annotated_case_name = fmt.allocPrint(self.b.allocator, "gen-h {s} ({s})", .{ case.name, @tagName(mode) }) catch unreachable;
if (self.test_filter) |filter| {
if (mem.indexOf(u8, annotated_case_name, filter) == null) return;
}
const write_src = b.addWriteFiles();
for (case.sources.items) |src_file| {
write_src.add(src_file.filename, src_file.source);
}
const obj = b.addObjectFromWriteFileStep("test", write_src, case.sources.items[0].filename);
obj.setBuildMode(mode);
const cmp_h = GenHCmpOutputStep.create(self, obj, annotated_case_name, case);
self.step.dependOn(&cmp_h.step);
}
};
fn printInvocation(args: []const []const u8) void {
for (args) |arg| {
std.debug.print("{s} ", .{arg});
}
std.debug.print("\n", .{});
}
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