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build.zig
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build.zig
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const std = @import("std");
// Although this function looks imperative, note that its job is to
// declaratively construct a build graph that will be libcuted by an external
// runner.
pub fn build(b: *std.Build) void {
// Standard target options allows the person running `zig build` to choose
// what target to build for. Here we do not override the defaults, which
// means any target is allowed, and the default is native. Other options
// for restricting supported target set are available.
const target = b.standardTargetOptions(.{});
// Standard optimization options allow the person running `zig build` to select
// between Debug, ReleaseSafe, ReleaseFast, and ReleaseSmall. Here we do not
// set a preferred release mode, allowing the user to decide how to optimize.
const optimize = b.standardOptimizeOption(.{});
const shared = b.option(bool, "SHARED_LIBRARY", "Build the Shared Library [default: false]") orelse false;
const examples = b.option(bool, "BUILD_EXAMPLES", "Build libxlsxwriter examples [default: false]") orelse false;
const tests = b.option(bool, "BUILD_TESTS", "Build libxlsxwriter tests [default: false]") orelse false;
const dtoa = b.option(bool, "USE_DTOA_LIBRARY", "Use the locale independent third party Milo Yip DTOA library [default: off]") orelse false;
const minizip = b.option(bool, "USE_SYSTEM_MINIZIP", "Use system minizip installation [default: off]") orelse false;
const md5 = b.option(bool, "USE_OPENSSL_MD5", "Build libxlsxwriter with the OpenSSL MD5 lib [default: off]") orelse false;
const stdtmpfile = b.option(bool, "USE_STANDARD_TMPFILE", "Use the C standard library's tmpfile() [default: off]") orelse false;
const lib = if (shared) b.addSharedLibrary(.{
.name = "xlsxwriter",
.target = target,
.optimize = optimize,
.version = .{
.major = 1,
.minor = 1,
.patch = 7,
},
}) else b.addStaticLibrary(.{
.name = "xlsxwriter",
.target = target,
.optimize = optimize,
});
lib.pie = true;
switch (optimize) {
.Debug, .ReleaseSafe => lib.bundle_compiler_rt = true,
else => lib.root_module.strip = true,
}
if (tests)
lib.defineCMacro("TESTING", null);
lib.addCSourceFiles(.{
.files = &.{
"src/vml.c",
"src/chartsheet.c",
"src/theme.c",
"src/content_types.c",
"src/xmlwriter.c",
"src/app.c",
"src/styles.c",
"src/core.c",
"src/comment.c",
"src/utility.c",
"src/metadata.c",
"src/custom.c",
"src/hash_table.c",
"src/relationships.c",
"src/drawing.c",
"src/chart.c",
"src/shared_strings.c",
"src/worksheet.c",
"src/format.c",
"src/table.c",
"src/workbook.c",
"src/packager.c",
"src/rich_value.c",
"src/rich_value_rel.c",
"src/rich_value_structure.c",
"src/rich_value_types.c",
},
.flags = cflags,
});
// minizip
if (minizip) {
lib.addCSourceFiles(.{
.files = switch (lib.rootModuleTarget().os.tag) {
.windows => minizip_src ++ [_][]const u8{
"third_party/minizip/iowin32.c",
},
else => minizip_src,
},
.flags = cflags,
});
}
const zlib = buildZlib(b, .{ target, optimize });
lib.linkLibrary(zlib);
lib.installLibraryHeaders(zlib);
// md5
if (!md5)
lib.addCSourceFile(.{ .file = .{ .path = "third_party/md5/md5.c" }, .flags = cflags })
else
lib.linkSystemLibrary("crypto");
// dtoa
if (dtoa)
lib.addCSourceFile(.{ .file = b.path("third_party/dtoa/emyg_dtoa.c"), .flags = cflags });
// tmpfileplus
if (stdtmpfile)
lib.addCSourceFile(.{ .file = .{ .path = "third_party/tmpfileplus/tmpfileplus.c" }, .flags = cflags })
else
lib.defineCMacro("USE_STANDARD_TMPFILE", null);
lib.addIncludePath(b.path("include"));
lib.addIncludePath(b.path("third_party"));
lib.linkLibC();
// get headers on include to zig-out/include
lib.installHeadersDirectory(b.path("include"), "", .{});
// get binaries on zig-cache to zig-out
b.installArtifact(lib);
// build examples
if (examples) {
buildExe(b, .{
.lib = lib,
.path = "examples/anatomy.c",
});
buildExe(b, .{
.lib = lib,
.path = "examples/array_formula.c",
});
buildExe(b, .{
.lib = lib,
.path = "examples/autofilter.c",
});
buildExe(b, .{
.lib = lib,
.path = "examples/background.c",
});
buildExe(b, .{
.lib = lib,
.path = "examples/chart_area.c",
});
buildExe(b, .{
.lib = lib,
.path = "examples/chart_column.c",
});
buildExe(b, .{
.lib = lib,
.path = "examples/data_validate.c",
});
buildExe(b, .{
.lib = lib,
.path = "examples/hello.c",
});
buildExe(b, .{
.lib = lib,
.path = "examples/watermark.c",
});
buildExe(b, .{
.lib = lib,
.path = "examples/worksheet_protection.c",
});
}
// build tests
if (tests) {
buildTest(b, .{
.lib = lib,
.path = "test/unit/app/test_app.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/chart/test_chart.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/chartsheet/test_chartsheet.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/content_types/test_content_types.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/content_types/test_content_types_write_default.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/content_types/test_content_types_write_override.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/relationships/test_relationships.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/app/test_app_xml_declaration.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/relationships/test_relationships_xml_declaration.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/custom/test_custom_xml_declaration.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/metadata/test_metadata_xml_declaration.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/core/test_core_xml_declaration.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/sst/test_shared_strings.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/workbook/test_workbook.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/xmlwriter/test_xmlwriter.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/table/test_table01.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/table/test_table02.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/table/test_table03.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/table/test_table04.c",
});
buildTest(b, .{
.lib = lib,
.path = "test/unit/styles/test_styles_write_border.c",
});
}
}
fn buildExe(b: *std.Build, info: BuildInfo) void {
const exe = b.addExecutable(.{
.name = info.filename(),
.optimize = info.lib.root_module.optimize.?,
.target = info.lib.root_module.resolved_target.?,
});
exe.addCSourceFile(.{ .file = b.path(info.path), .flags = cflags });
exe.linkLibrary(info.lib);
for (info.lib.root_module.include_dirs.items) |include| {
exe.root_module.include_dirs.append(b.allocator, include) catch {};
}
exe.linkLibC();
b.installArtifact(exe);
const run_cmd = b.addRunArtifact(exe);
run_cmd.step.dependOn(b.getInstallStep());
if (b.args) |args| {
run_cmd.addArgs(args);
}
const run_step = b.step(
b.fmt("{s}", .{info.filename()}),
b.fmt("Run the {s} test", .{info.filename()}),
);
run_step.dependOn(&run_cmd.step);
}
fn buildTest(b: *std.Build, info: BuildInfo) void {
const exe = b.addExecutable(.{
.name = info.filename(),
.optimize = info.lib.root_module.optimize.?,
.target = info.lib.root_module.resolved_target.?,
});
exe.defineCMacro("TESTING", null);
exe.addCSourceFile(.{ .file = b.path(info.path), .flags = cflags });
exe.addCSourceFile(.{ .file = b.path("test/unit/test_all.c"), .flags = cflags });
exe.addIncludePath(b.path("test/unit"));
for (info.lib.root_module.include_dirs.items) |include| {
exe.root_module.include_dirs.append(b.allocator, include) catch {};
}
exe.linkLibrary(info.lib);
exe.linkLibC();
b.installArtifact(exe);
const run_cmd = b.addRunArtifact(exe);
run_cmd.step.dependOn(b.getInstallStep());
if (b.args) |args| {
run_cmd.addArgs(args);
}
const run_step = b.step(
b.fmt("{s}", .{info.filename()}),
b.fmt("Run the {s} test", .{info.filename()}),
);
run_step.dependOn(&run_cmd.step);
}
const cflags = &.{
"-std=c89",
"-Wall",
"-Wextra",
"-Wno-unused-parameter",
};
const minizip_src: []const []const u8 = &.{
"third_party/minizip/ioapi.c",
"third_party/minizip/mztools.c",
"third_party/minizip/unzip.c",
"third_party/minizip/zip.c",
};
const BuildInfo = struct {
lib: *std.Build.Step.Compile,
path: []const u8,
fn filename(self: BuildInfo) []const u8 {
var split = std.mem.splitSequence(u8, std.fs.path.basename(self.path), ".");
return split.first();
}
};
fn buildZlib(b: *std.Build, options: anytype) *std.Build.Step.Compile {
const libz = b.addStaticLibrary(.{
.name = "z",
.target = options[0],
.optimize = options[1],
});
if (b.lazyDependency("zlib", .{
.target = options[0],
.optimize = options[1],
})) |zlib_path| {
libz.addIncludePath(zlib_path.path(""));
libz.addCSourceFiles(.{
.root = zlib_path.path(""),
.files = &.{
"adler32.c",
"crc32.c",
"deflate.c",
"infback.c",
"inffast.c",
"inflate.c",
"inftrees.c",
"trees.c",
"zutil.c",
"compress.c",
"uncompr.c",
"gzclose.c",
"gzlib.c",
"gzread.c",
"gzwrite.c",
},
.flags = cflags,
});
libz.installHeader(zlib_path.path("zconf.h"), "zconf.h");
libz.installHeader(zlib_path.path("zlib.h"), "zlib.h");
}
libz.linkLibC();
return libz;
}