@@ -93,6 +93,8 @@ named_writefiles: std.StringArrayHashMap(*Step.WriteFile),
/// A map from build root dirs to the corresponding `*Dependency`. This is shared with all child
/// `Build`s.
initialized_deps: *InitializedDepMap,
/// The hash of this instance's package. `""` means that this is the root package.
pkg_hash: []const u8,
/// A mapping from dependency names to package hashes.
available_deps: AvailableDeps,
@@ -305,6 +307,7 @@ pub fn create(
.modules = std.StringArrayHashMap(*Module).init(arena),
.named_writefiles = std.StringArrayHashMap(*Step.WriteFile).init(arena),
.initialized_deps = initialized_deps,
.pkg_hash = "",
.available_deps = available_deps,
.release_mode = .off,
};
@@ -318,10 +321,11 @@ fn createChild(
parent: *Build,
dep_name: []const u8,
build_root: Cache.Directory,
pkg_hash: []const u8,
pkg_deps: AvailableDeps,
user_input_options: UserInputOptionsMap,
) !*Build {
const child = try createChildOnly(parent, dep_name, build_root, pkg_deps, user_input_options);
const child = try createChildOnly(parent, dep_name, build_root, pkg_hash, pkg_deps, user_input_options);
try determineAndApplyInstallPrefix(child);
return child;
}
@@ -330,6 +334,7 @@ fn createChildOnly(
parent: *Build,
dep_name: []const u8,
build_root: Cache.Directory,
pkg_hash: []const u8,
pkg_deps: AvailableDeps,
user_input_options: UserInputOptionsMap,
) !*Build {
@@ -397,6 +402,7 @@ fn createChildOnly(
.modules = std.StringArrayHashMap(*Module).init(allocator),
.named_writefiles = std.StringArrayHashMap(*Step.WriteFile).init(allocator),
.initialized_deps = parent.initialized_deps,
.pkg_hash = pkg_hash,
.available_deps = pkg_deps,
.release_mode = parent.release_mode,
};
@@ -1830,6 +1836,26 @@ fn findPkgHashOrFatal(b: *Build, name: []const u8) []const u8 {
std.debug.panic("no dependency named '{s}' in '{s}'. All packages used in build.zig must be declared in this file", .{ name, full_path });
}
inline fn findImportPkgHashOrFatal(b: *Build, comptime asking_build_zig: type, comptime dep_name: []const u8) []const u8 {
const build_runner = @import("root");
const deps = build_runner.dependencies;
const b_pkg_hash, const b_pkg_deps = comptime for (@typeInfo(deps.packages).Struct.decls) |decl| {
const pkg_hash = decl.name;
const pkg = @field(deps.packages, pkg_hash);
if (@hasDecl(pkg, "build_zig") and pkg.build_zig == asking_build_zig) break .{ pkg_hash, pkg.deps };
} else .{ "", deps.root_deps };
if (!std.mem.eql(u8, b_pkg_hash, b.pkg_hash)) {
std.debug.panic("'{}' is not the struct that corresponds to '{s}'", .{ asking_build_zig, b.pathFromRoot("build.zig") });
}
comptime for (b_pkg_deps) |dep| {
if (std.mem.eql(u8, dep[0], dep_name)) return dep[1];
};
const full_path = b.pathFromRoot("build.zig.zon");
std.debug.panic("no dependency named '{s}' in '{s}'. All packages used in build.zig must be declared in this file", .{ dep_name, full_path });
}
fn markNeededLazyDep(b: *Build, pkg_hash: []const u8) void {
b.graph.needed_lazy_dependencies.put(b.graph.arena, pkg_hash, {}) catch @panic("OOM");
}
@@ -1860,7 +1886,7 @@ pub fn lazyDependency(b: *Build, name: []const u8, args: anytype) ?*Dependency {
markNeededLazyDep(b, pkg_hash);
return null;
}
return dependencyInner(b, name, pkg.build_root, if (@hasDecl(pkg, "build_zig")) pkg.build_zig else null, pkg.deps, args);
return dependencyInner(b, name, pkg.build_root, if (@hasDecl(pkg, "build_zig")) pkg.build_zig else null, pkg_hash, pkg.deps, args);
}
}
@@ -1878,13 +1904,48 @@ pub fn dependency(b: *Build, name: []const u8, args: anytype) *Dependency {
if (@hasDecl(pkg, "available")) {
std.debug.panic("dependency '{s}{s}' is marked as lazy in build.zig.zon which means it must use the lazyDependency function instead", .{ b.dep_prefix, name });
}
return dependencyInner(b, name, pkg.build_root, if (@hasDecl(pkg, "build_zig")) pkg.build_zig else null, pkg.deps, args);
return dependencyInner(b, name, pkg.build_root, if (@hasDecl(pkg, "build_zig")) pkg.build_zig else null, pkg_hash, pkg.deps, args);
}
}
unreachable; // Bad @dependencies source
}
/// In a build.zig file, this function is to `@import` what `lazyDependency` is to `dependency`.
/// If the dependency is lazy and has not yet been fetched, it instructs the parent process to fetch
/// that dependency after the build script has finished running, then returns `null`.
/// If the dependency is lazy but has already been fetched, or if it is eager, it returns
/// the build.zig struct of that dependency, just like a regular `@import`.
pub inline fn lazyImport(
b: *Build,
/// The build.zig struct of the package importing the dependency.
/// When calling this function from the `build` function of a build.zig file's, you normally
/// pass `@This()`.
comptime asking_build_zig: type,
comptime dep_name: []const u8,
) ?type {
const build_runner = @import("root");
const deps = build_runner.dependencies;
const pkg_hash = findImportPkgHashOrFatal(b, asking_build_zig, dep_name);
inline for (@typeInfo(deps.packages).Struct.decls) |decl| {
if (comptime mem.eql(u8, decl.name, pkg_hash)) {
const pkg = @field(deps.packages, decl.name);
const available = !@hasDecl(pkg, "available") or pkg.available;
if (!available) {
markNeededLazyDep(b, pkg_hash);
return null;
}
return if (@hasDecl(pkg, "build_zig"))
pkg.build_zig
else
@compileError("dependency '" ++ dep_name ++ "' does not have a build.zig");
}
}
comptime unreachable; // Bad @dependencies source
}
pub fn anonymousDependency(
b: *Build,
/// The path to the directory containing the dependency's build.zig file,
@@ -1901,7 +1962,7 @@ pub fn anonymousDependency(
'/', '\\' => byte.* = '.',
else => continue,
};
return dependencyInner(b, name, build_root, build_zig, &.{}, args);
return dependencyInner(b, name, build_root, build_zig, "anonymous", &.{}, args);
}
fn userValuesAreSame(lhs: UserValue, rhs: UserValue) bool {
@@ -1956,6 +2017,7 @@ pub fn dependencyInner(
name: []const u8,
build_root_string: []const u8,
comptime build_zig: ?type,
pkg_hash: []const u8,
pkg_deps: AvailableDeps,
args: anytype,
) *Dependency {
@@ -1976,7 +2038,7 @@ pub fn dependencyInner(
},
};
const sub_builder = b.createChild(name, build_root, pkg_deps, user_input_options) catch @panic("unhandled error");
const sub_builder = b.createChild(name, build_root, pkg_hash, pkg_deps, user_input_options) catch @panic("unhandled error");
if (build_zig) |bz| {
sub_builder.runBuild(bz) catch @panic("unhandled error");