Introduction to Bazel: Common C++ Build Use Cases
Here you will find some of the most common use cases for building C++ projects with Bazel. If you have not done so already, get started with building C++ projects with Bazel by completing the tutorial Introduction to Bazel: Build a C++ Project.
Contents
- Including multiple files in a target
- Using transitive includes
- Adding include paths
- Including external libraries
- Writing and running C++ tests
- Adding dependencies on precompiled libraries
Including multiple files in a target
You can include multiple files in a single target with glob. For example:
cc_library(
name = "build-all-the-files",
srcs = glob(["*.cc"]),
hdrs = glob(["*.h"]),
)
With this target, Bazel will build all the .cc
and .h
files it finds in the
same directory as the BUILD
file that contains this target (excluding
subdirectories).
Using transitive includes
If a file includes a header, then the file’s rule should depend on that header’s
library. Conversely, only direct dependencies need to be specified as
dependencies. For example, suppose sandwich.h
includes bread.h
and
bread.h
includes flour.h
. sandwich.h
doesn’t include flour.h
(who wants
flour in their sandwich?), so the BUILD
file would look like this:
cc_library(
name = "sandwich",
srcs = ["sandwich.cc"],
hdrs = ["sandwich.h"],
deps = [":bread"],
)
cc_library(
name = "bread",
srcs = ["bread.cc"],
hdrs = ["bread.h"],
deps = [":flour"],
)
cc_library(
name = "flour",
srcs = ["flour.cc"],
hdrs = ["flour.h"],
)
Here, the sandwich
library depends on the bread
library, which depends
on the flour
library.
Adding include paths
Sometimes you cannot (or do not want to) root include paths at the workspace root. Existing libraries might already have an include directory that doesn’t match its path in your workspace. For example, suppose you have the following directory structure:
└── my-project
├── legacy
│ └── some_lib
│ ├── BUILD
│ ├── include
│ │ └── some_lib.h
│ └── some_lib.cc
└── WORKSPACE
Bazel will expect some_lib.h
to be included as
legacy/some_lib/include/some_lib.h
, but suppose some_lib.cc
includes
"include/some_lib.h"
. To make that include path valid,
legacy/some_lib/BUILD
will need to specify that the some_lib/
directory is an include directory:
cc_library(
name = "some_lib",
srcs = ["some_lib.cc"],
hdrs = ["include/some_lib.h"],
copts = ["-Ilegacy/some_lib/include"],
)
This is especially useful for external dependencies, as their header files
must otherwise be included with a /
prefix.
Including external libraries
Suppose you are using Google Test. You
can use one of the new_
repository functions in the WORKSPACE
file to
download Google Test and make it available in your repository:
new_http_archive(
name = "gtest",
url = "https://github.com/google/googletest/archive/release-1.7.0.zip",
sha256 = "b58cb7547a28b2c718d1e38aee18a3659c9e3ff52440297e965f5edffe34b6d0",
build_file = "gtest.BUILD",
)
NOTE: If the destination already contains a BUILD
file, you can use one of
the non-new_
functions.
Then create gtest.BUILD
, a BUILD
file used to compile Google Test.
Google Test has several “special” requirements that make its cc_library
rule
more complicated:
-
googletest-release-1.7.0/src/gtest-all.cc
#include
s all of the other files ingoogletest-release-1.7.0/src/
, so we need to exclude it from the compile or we’ll get link errors for duplicate symbols. -
It uses header files that are relative to the
googletest-release-1.7.0/include/
directory ("gtest/gtest.h"
), so we must add that directory to the include paths. -
It needs to link in
pthread
, so we add that as alinkopt
.
The final rule therefore looks like this:
cc_library(
name = "main",
srcs = glob(
["googletest-release-1.7.0/src/*.cc"],
exclude = ["googletest-release-1.7.0/src/gtest-all.cc"]
),
hdrs = glob([
"googletest-release-1.7.0/include/**/*.h",
"googletest-release-1.7.0/src/*.h"
]),
copts = [
"-Iexternal/gtest/googletest-release-1.7.0/include"
],
linkopts = ["-pthread"],
visibility = ["//visibility:public"],
)
This is somewhat messy: everything is prefixed with googletest-release-1.7.0
as a byproduct of the archive’s structure. You can make new_http_archive
strip
this prefix by adding the strip_prefix
attribute:
new_http_archive(
name = "gtest",
url = "https://github.com/google/googletest/archive/release-1.7.0.zip",
sha256 = "b58cb7547a28b2c718d1e38aee18a3659c9e3ff52440297e965f5edffe34b6d0",
build_file = "gtest.BUILD",
strip_prefix = "googletest-release-1.7.0",
)
Then gtest.BUILD
would look like this:
cc_library(
name = "main",
srcs = glob(
["src/*.cc"],
exclude = ["src/gtest-all.cc"]
),
hdrs = glob([
"include/**/*.h",
"src/*.h"
]),
copts = ["-Iexternal/gtest/include"],
linkopts = ["-pthread"],
visibility = ["//visibility:public"],
)
Now cc_
rules can depend on @gtest//:main
.
Writing and running C++ tests
For example, we could create a test ./test/hello-test.cc
such as:
#include "gtest/gtest.h"
#include "lib/hello-greet.h"
TEST(HelloTest, GetGreet) {
EXPECT_EQ(get_greet("Bazel"), "Hello Bazel");
}
Then create ./test/BUILD
file for your tests:
cc_test(
name = "hello-test",
srcs = ["hello-test.cc"],
copts = ["-Iexternal/gtest/include"],
deps = [
"@gtest//:main",
"//lib:hello-greet",
],
)
Note that in order to make hello-greet
visible to hello-test
, we have to add
"//test:__pkg__",
to the visibility
attribute in ./lib/BUILD
.
Now you can use bazel test
to run the test.
bazel test test:hello-test
This produces the following output:
INFO: Found 1 test target...
Target //test:hello-test up-to-date:
bazel-bin/test/hello-test
INFO: Elapsed time: 4.497s, Critical Path: 2.53s
//test:hello-test PASSED in 0.3s
Executed 1 out of 1 tests: 1 test passes.
Adding dependencies on precompiled libraries
If you want to use a library of which you only have a compiled version (for
example, headers and a .so
file) wrap it in a cc_library
rule:
cc_library(
name = "mylib",
srcs = ["mylib.so"],
hdrs = ["mylib.h"],
)
This way, other C++ targets in your workspace can depend on this rule.