We make sure this repository works with the latest version of Bazel, but no other development is planned.
Volunteers are welcome. If you want to use the rules, consider contributing to this repository and becoming a maintainer.
To use the D rules, add the following to your WORKSPACE
file to add the
external repositories for the D toolchain:
load("@bazel_tools//tools/build_defs/repo:http.bzl", "http_archive")
http_archive(
name = "io_bazel_rules_d",
urls = ["https://github.com/bazelbuild/rules_d/archive/bcf137e3c9381545ce54715632bc1d31c51ee4da.tar.gz"],
sha256 = "a32847bf2ae634563dece49c4dc8353956b64ba5c2d01ce811ea243e1a21b5b7",
strip_prefix = "rules_d-bcf137e3c9381545ce54715632bc1d31c51ee4da",
)
load("@io_bazel_rules_d//d:d.bzl", "d_repositories")
d_repositories()
- Generate documentation using
ddox
ford_docs
rule. - Support for other options as defined in the Dub package format
- Support for specifying different configurations of a library, closer to Dub's model for configurations
- Workspace rule for retrieving dependencies from Dub
d_library(name, srcs, deps, includes, linkopts, versions)
Attributes | |
---|---|
name |
Name, required
A unique name for this rule. This name will be used as the name of the library built by this rule. |
srcs |
List of labels, required
List of D |
deps |
List of labels, optional
List of libraries to be linked to this library target.
These can either be other |
imports |
List of strings, optional
List of import dirs to add to the compile line.
These will be passed to the D compiler via |
linkopts |
List of strings, optional
List of flags that are added to the D linker command.
These will be passed to the D compiler via |
versions |
List of strings, optional
List of versions to be defined during compilation.
Versions are used for conditional compilation and are enabled in the
code using |
Suppose you have the following directory structure for a D project:
[workspace]/
WORKSPACE
foo/
BUILD
foo.d
bar.d
baz.d
The library foo
is built using a d_library
target:
foo/BUILD
:
load("@io_bazel_rules_d//d:d.bzl", "d_library")
d_library(
name = "foo",
srcs = [
"foo.d",
"bar.d",
"baz.d",
],
)
d_source_library(name, srcs, deps, includes, linkopts, versions)
Attributes | |
---|---|
name |
Name, required
A unique name for this rule. |
srcs |
List of labels, required
List of D |
deps |
List of labels, optional
List of library targets depended on by this target.
These can either be other |
imports |
List of strings, optional
List of import dirs to add to the compile line.
These will be passed to the D compiler via |
linkopts |
List of strings, optional
List of flags that are added to the D linker command.
These will be passed to the D compiler via |
versions |
List of strings, optional
List of version flags to be defined during compilation.
Versions are used for conditional compilation and are enabled in the
code using |
Suppose you have the following directory structure for a project building a C library and a D interface for the C library:
[workspace]/
WORKSPACE
greeter/
BUILD
native_greeter.c
native_greeter.h
native_greeter.d
hello_world
BUILD
hello_world.d
Build the C library using the cc_library
rule and then use the
d_source_library
to define the target for the D interface for the C
native_greeter
library:
greeter/BUILD
:
load("@io_bazel_rules_d//d:d.bzl", "d_source_library")
cc_library(
name = "native_greeter_lib",
srcs = ["native_greeter.c"],
hdrs = ["native_greeter.h"],
)
d_source_library(
name = "native_greeter",
srcs = ["native_greeter.d"],
deps = [":native_greeter_lib"],
)
Other targets can directly depend on the d_source_library
target to link
the C library:
hello_world/BUILD
:
load("@io_bazel_rules_d//d:d.bzl", "d_source_library")
d_binary(
name = "hello_world",
srcs = ["hello_world.d"],
deps = ["//greeter:native_greeter"],
)
d_binary(name, srcs, deps, includes, linkopts, versions)
Attributes | |
---|---|
name |
Name, required
A unique name for this rule. This name will be used as the name of the binary built by this rule. |
srcs |
List of labels, required
List of D |
deps |
List of labels, optional
List of libraries to be linked to this binary target.
These can either be other |
imports |
List of strings, optional
List of import dirs to add to the compile line.
These will be passed to the D compiler via |
linkopts |
List of strings, optional
List of flags that are added to the D linker command.
These will be passed to the D compiler via |
versions |
List of strings, optional
List of versions to be defined during compilation.
Versions are used for conditional compilation and are enabled in the
code using |
Suppose you have the following directory structure for a D project:
[workspace]/
WORKSPACE
hello_lib/
BUILD
greeter.d
hello_world
BUILD
hello_world.d
The source file hello_lib/greeter.d
defines a module greeter
:
module greeter;
...
The hello_lib
library is built using a d_library
target:
hello_lib/BUILD
:
load("@io_bazel_rules_d//d:d.bzl", "d_library")
d_library(
name = "hello_lib",
srcs = ["greeter.d"],
)
By default, import paths are from the root of the workspace. Thus, the source
for the hello_world
binary, hello_world.d
, would import the greeter
module as follows:
import hello_lib.greeter;
However, this can be changed via the imports
attribute on the d_library
rule.
The hello_world
binary is built using a d_binary
target:
hello_world/BUILD
:
load("@io_bazel_rules_d//d:d.bzl", "d_library")
d_binary(
name = "hello_world",
srcs = ["hello_world.d"],
deps = ["//hello_lib"],
)
d_test(name, srcs, deps, includes, linkopts, versions)
Attributes | |
---|---|
name |
Name, required
A unique name for this rule. This name will be used as the name of the test built by this rule. |
srcs |
List of labels, required
List of D |
deps |
List of labels, optional
List of libraries to be linked to this test target.
These can either be other |
imports |
List of strings, optional
List of import dirs to add to the compile line.
These will be passed to the D compiler via |
linkopts |
List of strings, optional
List of flags that are added to the D linker command.
These will be passed to the D compiler via |
versions |
List of strings, optional
List of versions to be defined during compilation.
Versions are used for conditional compilation and are enabled in the
code using |
Suppose you have the following directory structure for a D project:
[workspace]/
WORKSPACE
hello_lib/
BUILD
greeter.d
greeter_test.d
hello_lib/greeter.d
:
module greeter;
import std.stdio;
import std.string;
class Greeter {
private string greeting;
public:
this(in string greeting) {
this.greeting = greeting.dup;
}
string makeGreeting(in immutable string thing) {
return format("%s %s!", this.greeting, thing);
}
void greet(in immutable string thing) {
writeln(makeGreeting(thing));
}
}
hello_lib/greeter_test.d
:
import hello_lib.greeter;
unittest {
auto greeter = new Greeter("Hello");
assert(greeter.makeGreeting("world") == "Hello world!");
}
void main() {}
To build the library and unit test:
hello_lib/BUILD
:
load("@io_bazel_rules_d//d:d.bzl", "d_library", "d_test")
d_library(
name = "greeter",
srcs = ["greeter.d"],
)
d_test(
name = "greeter_test",
srcs = ["greeter_test.d"],
deps = [":greeter"],
)
The unit test can then be run using:
bazel test //hello_lib:greeter_test
d_docs(name, dep)
Attributes | |
---|---|
name |
Name, required
A unique name for this rule. |
dep |
Label, required
The label of the target to generate code documentation for.
|
Suppose you have the following directory structure for a D project:
[workspace]/
WORKSPACE
foo/
BUILD
foo.d
bar.d
baz.d
The foo/
directory contains the sources for the d_library
foo
. To
generate HTML documentation for the foo
library, define a d_docs
target
that takes the d_library
foo
as its dependency:
foo/BUILD
:
load("@io_bazel_rules_d//d:d.bzl", "d_library", "d_docs")
d_library(
name = "foo",
srcs = [
"foo.d",
"bar.d",
"baz.d",
],
)
d_docs(
name = "foo_docs",
dep = ":foo",
)
Running bazel build //foo:foo_docs
will generate a zip file containing the
HTML documentation generated from the source files. See the official D language
documentation on the Documentation Generator for
more information on the conventions for source documentation.