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build.zig
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build.zig
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const std = @import("std");
const CompileStep = std.build.Step.Compile;
const ScdocStep = @import("src/build/ScdocStep.zig");
pub fn build(b: *std.Build) !void {
const target = b.standardTargetOptions(.{});
const optimize = b.standardOptimizeOption(.{});
_ = b.addModule("xev", .{ .root_source_file = b.path("src/main.zig") });
const man_pages = b.option(
bool,
"man-pages",
"Set to true to build man pages. Requires scdoc. Defaults to true if scdoc is found.",
) orelse if (b.findProgram(&[_][]const u8{"scdoc"}, &[_][]const u8{})) |_|
true
else |err| switch (err) {
error.FileNotFound => false,
else => return err,
};
const bench_name = b.option(
[]const u8,
"bench-name",
"Build and install a single benchmark",
);
const bench_install = b.option(
bool,
"bench",
"Install the benchmark binaries to zig-out/bench",
) orelse (bench_name != null);
const example_name = b.option(
[]const u8,
"example-name",
"Build and install a single example",
);
const example_install = b.option(
bool,
"example",
"Install the example binaries to zig-out/example",
) orelse (example_name != null);
const test_install = b.option(
bool,
"install-tests",
"Install the test binaries into zig-out",
) orelse false;
// Our tests require libc on Linux and Mac. Note that libxev itself
// does NOT require libc.
const test_libc = switch (target.result.os.tag) {
.linux, .macos => true,
else => false,
};
// We always build our test exe as part of `zig build` so that
// we can easily run it manually without digging through the cache.
const test_exe = b.addTest(.{
.name = "xev-test",
.root_source_file = b.path("src/main.zig"),
.target = target,
.optimize = optimize,
});
if (test_libc) test_exe.linkLibC(); // Tests depend on libc, libxev does not
if (test_install) b.installArtifact(test_exe);
// zig build test test binary and runner.
const tests_run = b.addRunArtifact(test_exe);
const test_step = b.step("test", "Run tests");
test_step.dependOn(&tests_run.step);
// Static C lib
const static_c_lib: ?*std.Build.Step.Compile = if (target.result.os.tag != .wasi) lib: {
const static_lib = b.addStaticLibrary(.{
.name = "xev",
.root_source_file = b.path("src/c_api.zig"),
.target = target,
.optimize = optimize,
});
static_lib.linkLibC();
// Link required libraries if targeting Windows
if (target.result.os.tag == .windows) {
static_lib.linkSystemLibrary("ws2_32");
static_lib.linkSystemLibrary("mswsock");
}
b.installArtifact(static_lib);
b.default_step.dependOn(&static_lib.step);
const static_binding_test = b.addExecutable(.{
.name = "static-binding-test",
.target = target,
.optimize = optimize,
});
static_binding_test.linkLibC();
static_binding_test.addIncludePath(b.path("include"));
static_binding_test.addCSourceFile(.{
.file = b.path("examples/_basic.c"),
.flags = &[_][]const u8{ "-Wall", "-Wextra", "-pedantic", "-std=c99", "-D_POSIX_C_SOURCE=199309L" },
});
static_binding_test.linkLibrary(static_lib);
if (test_install) b.installArtifact(static_binding_test);
const static_binding_test_run = b.addRunArtifact(static_binding_test);
test_step.dependOn(&static_binding_test_run.step);
break :lib static_lib;
} else null;
// Dynamic C lib. We only build this if this is the native target so we
// can link to libxml2 on our native system.
if (target.query.isNative()) {
const dynamic_lib_name = "xev";
const dynamic_lib = b.addSharedLibrary(.{
.name = dynamic_lib_name,
.root_source_file = b.path("src/c_api.zig"),
.target = target,
.optimize = optimize,
});
b.installArtifact(dynamic_lib);
b.default_step.dependOn(&dynamic_lib.step);
const dynamic_binding_test = b.addExecutable(.{
.name = "dynamic-binding-test",
.target = target,
.optimize = optimize,
});
dynamic_binding_test.linkLibC();
dynamic_binding_test.addIncludePath(b.path("include"));
dynamic_binding_test.addCSourceFile(.{
.file = b.path("examples/_basic.c"),
.flags = &[_][]const u8{ "-Wall", "-Wextra", "-pedantic", "-std=c99" },
});
dynamic_binding_test.linkLibrary(dynamic_lib);
if (test_install) b.installArtifact(dynamic_binding_test);
const dynamic_binding_test_run = b.addRunArtifact(dynamic_binding_test);
test_step.dependOn(&dynamic_binding_test_run.step);
}
// C Headers
const c_header = b.addInstallFileWithDir(
b.path("include/xev.h"),
.header,
"xev.h",
);
b.getInstallStep().dependOn(&c_header.step);
// pkg-config
{
const file = try b.cache_root.join(b.allocator, &[_][]const u8{"libxev.pc"});
const pkgconfig_file = try std.fs.cwd().createFile(file, .{});
const writer = pkgconfig_file.writer();
try writer.print(
\\prefix={s}
\\includedir=${{prefix}}/include
\\libdir=${{prefix}}/lib
\\
\\Name: libxev
\\URL: https://github.com/mitchellh/libxev
\\Description: High-performance, cross-platform event loop
\\Version: 0.1.0
\\Cflags: -I${{includedir}}
\\Libs: -L${{libdir}} -lxev
, .{b.install_prefix});
defer pkgconfig_file.close();
b.getInstallStep().dependOn(&b.addInstallFileWithDir(
.{ .cwd_relative = file },
.prefix,
"share/pkgconfig/libxev.pc",
).step);
}
// Benchmarks
_ = try benchTargets(b, target, optimize, bench_install, bench_name);
// Examples
_ = try exampleTargets(b, target, optimize, static_c_lib, example_install, example_name);
// Man pages
if (man_pages) {
const scdoc_step = ScdocStep.create(b);
try scdoc_step.install();
}
}
fn benchTargets(
b: *std.Build,
target: std.Build.ResolvedTarget,
mode: std.builtin.OptimizeMode,
install: bool,
install_name: ?[]const u8,
) !std.StringHashMap(*std.Build.Step.Compile) {
_ = mode;
var map = std.StringHashMap(*std.Build.Step.Compile).init(b.allocator);
// Open the directory
const c_dir_path = "src/bench";
var c_dir = try std.fs.cwd().openDir(comptime thisDir() ++ "/" ++ c_dir_path, .{ .iterate = true });
defer c_dir.close();
// Go through and add each as a step
var c_dir_it = c_dir.iterate();
while (try c_dir_it.next()) |entry| {
// Get the index of the last '.' so we can strip the extension.
const index = std.mem.lastIndexOfScalar(u8, entry.name, '.') orelse continue;
if (index == 0) continue;
// Name of the app and full path to the entrypoint.
const name = entry.name[0..index];
const path = try std.fs.path.join(b.allocator, &[_][]const u8{
c_dir_path,
entry.name,
});
// If we have specified a specific name, only install that one.
if (install_name) |n| {
if (!std.mem.eql(u8, n, name)) continue;
}
// Executable builder.
const c_exe = b.addExecutable(.{
.name = name,
.root_source_file = b.path(path),
.target = target,
.optimize = .ReleaseFast, // benchmarks are always release fast
});
c_exe.root_module.addImport("xev", b.modules.get("xev").?);
if (install) {
const install_step = b.addInstallArtifact(c_exe, .{
.dest_dir = .{ .override = .{ .custom = "bench" } },
});
b.getInstallStep().dependOn(&install_step.step);
}
// Store the mapping
try map.put(try b.allocator.dupe(u8, name), c_exe);
}
return map;
}
fn exampleTargets(
b: *std.Build,
target: std.Build.ResolvedTarget,
optimize: std.builtin.OptimizeMode,
c_lib_: ?*std.Build.Step.Compile,
install: bool,
install_name: ?[]const u8,
) !void {
// Ignore if we're not installing
if (!install) return;
// Open the directory
const c_dir_path = (comptime thisDir()) ++ "/examples";
var c_dir = try std.fs.cwd().openDir(c_dir_path, .{ .iterate = true });
defer c_dir.close();
// Go through and add each as a step
var c_dir_it = c_dir.iterate();
while (try c_dir_it.next()) |entry| {
// Get the index of the last '.' so we can strip the extension.
const index = std.mem.lastIndexOfScalar(u8, entry.name, '.') orelse continue;
if (index == 0) continue;
// If we have specified a specific name, only install that one.
if (install_name) |n| {
if (!std.mem.eql(u8, n, entry.name)) continue;
}
// Name of the app and full path to the entrypoint.
const name = entry.name[0..index];
const path = try std.fs.path.join(b.allocator, &[_][]const u8{
c_dir_path,
entry.name,
});
const is_zig = std.mem.eql(u8, entry.name[index + 1 ..], "zig");
if (is_zig) {
const c_exe = b.addExecutable(.{
.name = name,
.root_source_file = .{ .cwd_relative = path },
.target = target,
.optimize = optimize,
});
c_exe.root_module.addImport("xev", b.modules.get("xev").?);
if (install) {
const install_step = b.addInstallArtifact(c_exe, .{
.dest_dir = .{ .override = .{ .custom = "example" } },
});
b.getInstallStep().dependOn(&install_step.step);
}
} else {
const c_lib = c_lib_ orelse return error.UnsupportedPlatform;
const c_exe = b.addExecutable(.{
.name = name,
.target = target,
.optimize = optimize,
});
c_exe.linkLibC();
c_exe.addIncludePath(b.path("include"));
c_exe.addCSourceFile(.{
.file = .{ .cwd_relative = path },
.flags = &[_][]const u8{
"-Wall",
"-Wextra",
"-pedantic",
"-std=c99",
"-D_POSIX_C_SOURCE=199309L",
},
});
c_exe.linkLibrary(c_lib);
if (install) {
const install_step = b.addInstallArtifact(c_exe, .{
.dest_dir = .{ .override = .{ .custom = "example" } },
});
b.getInstallStep().dependOn(&install_step.step);
}
}
// If we have specified a specific name, only install that one.
if (install_name) |_| break;
} else {
if (install_name) |n| {
std.debug.print("No example file named: {s}\n", .{n});
std.debug.print("Choices:\n", .{});
var c_dir_it2 = c_dir.iterate();
while (try c_dir_it2.next()) |entry| {
std.debug.print("\t{s}\n", .{entry.name});
}
return error.InvalidExampleName;
}
}
}
/// Path to the directory with the build.zig.
fn thisDir() []const u8 {
return std.fs.path.dirname(@src().file) orelse unreachable;
}