Contents
- CMake Basics
- Mac OS X
- Windows
- CMake Build Configuration
- Android Studio Project Integration
- Native Android Builds
- vcpkg
For all platforms, you must first generate the project/make files and then compile the examples.
To generate project/make files for the default toolchain on your system, run
cmake
from a directory where you would like to generate build files, and pass
it the path to your Draco repository.
E.g. Starting from Draco root.
$ mkdir build_dir && cd build_dir
$ cmake ../
On Windows, the above command will produce Visual Studio project files for the
newest Visual Studio detected on the system. On Mac OS X and Linux systems,
the above command will produce a makefile
.
To control what types of projects are generated, add the -G
parameter to the
cmake
command. This argument must be followed by the name of a generator.
Running cmake
with the --help
argument will list the available
generators for your system.
On Mac OS X, run the following command to generate Xcode projects:
$ cmake ../ -G Xcode
On a Windows box you would run the following command to generate Visual Studio 2019 projects:
C:\Users\nobody> cmake ../ -G "Visual Studio 16 2019" -A Win32
To generate 64-bit Windows Visual Studio 2019 projects:
C:\Users\nobody> cmake ../ -G "Visual Studio 16 2019" -A x64
Unlike Visual Studio and Xcode projects, the build configuration for make
builds is controlled when you run cmake
. The following examples demonstrate
various build configurations.
Omitting the build type produces makefiles that use release build flags by default:
$ cmake ../
A makefile using release (optimized) flags is produced like this:
$ cmake ../ -DCMAKE_BUILD_TYPE=Release
A release build with debug info can be produced as well:
$ cmake ../ -DCMAKE_BUILD_TYPE=RelWithDebInfo
And your standard debug build will be produced using:
$ cmake ../ -DCMAKE_BUILD_TYPE=Debug
To enable the use of sanitizers when the compiler in use supports them, set the sanitizer type when running CMake:
$ cmake ../ -DDRACO_SANITIZE=address
Draco includes testing support built using Googletest. To enable Googletest unit test support the DRACO_TESTS cmake variable must be turned on at cmake generation time:
$ cmake ../ -DDRACO_TESTS=ON
When cmake is used as shown in the above example the googletest directory must
be a sibling of the Draco repository root directory. To run the tests execute
draco_tests
from your build output directory.
The WebAssembly decoder can be built using the existing cmake build file by passing the path the Emscripten's cmake toolchain file at cmake generation time in the CMAKE_TOOLCHAIN_FILE variable and enabling the WASM build option. In addition, the EMSCRIPTEN environment variable must be set to the local path of the parent directory of the Emscripten tools directory.
# Make the path to emscripten available to cmake.
$ export EMSCRIPTEN=/path/to/emscripten/tools/parent
# Emscripten.cmake can be found within your Emscripten installation directory,
# it should be the subdir: cmake/Modules/Platform/Emscripten.cmake
$ cmake ../ -DCMAKE_TOOLCHAIN_FILE=/path/to/Emscripten.cmake -DDRACO_WASM=ON
# Build the WebAssembly decoder.
$ make
# Run the Javascript wrapper through Closure.
$ java -jar closure.jar --compilation_level SIMPLE --js draco_decoder.js --js_output_file draco_wasm_wrapper.js
# cmake command line for mesh only WebAssembly decoder.
$ cmake ../ -DCMAKE_TOOLCHAIN_FILE=/path/to/Emscripten.cmake -DDRACO_WASM=ON -DDRACO_POINT_CLOUD_COMPRESSION=OFF
# cmake command line for point cloud only WebAssembly decoder.
$ cmake ../ -DCMAKE_TOOLCHAIN_FILE=/path/to/Emscripten.cmake -DDRACO_WASM=ON -DDRACO_MESH_COMPRESSION=OFF
The javascript encoder and decoder can be built using the existing cmake build file by passing the path the Emscripten's cmake toolchain file at cmake generation time in the CMAKE_TOOLCHAIN_FILE variable. In addition, the EMSCRIPTEN environment variable must be set to the local path of the parent directory of the Emscripten tools directory.
Note The WebAssembly decoder should be favored over the JavaScript decoder.
# Make the path to emscripten available to cmake.
$ export EMSCRIPTEN=/path/to/emscripten/tools/parent
# Emscripten.cmake can be found within your Emscripten installation directory,
# it should be the subdir: cmake/Modules/Platform/Emscripten.cmake
$ cmake ../ -DCMAKE_TOOLCHAIN_FILE=/path/to/Emscripten.cmake
# Build the Javascript encoder and decoder.
$ make
These are the basic commands needed to build Draco for iOS targets.
#arm64
$ cmake ../ -DCMAKE_TOOLCHAIN_FILE=../cmake/toolchains/arm64-ios.cmake
$ make
#x86_64
$ cmake ../ -DCMAKE_TOOLCHAIN_FILE=../cmake/toolchains/x86_64-ios.cmake
$ make
#armv7
$ cmake ../ -DCMAKE_TOOLCHAIN_FILE=../cmake/toolchains/armv7-ios.cmake
$ make
#i386
$ cmake ../ -DCMAKE_TOOLCHAIN_FILE=../cmake/toolchains/i386-ios.cmake
$ make
After building for each target the libraries can be merged into a single universal/fat library using lipo, and then used in iOS applications.
It's sometimes useful to build Draco command line tools and run them directly on Android devices via adb.
# This example is for armeabi-v7a.
$ cmake ../ -DCMAKE_TOOLCHAIN_FILE=../cmake/toolchains/android.cmake \
-DDRACO_ANDROID_NDK_PATH=path/to/ndk -DANDROID_ABI=armeabi-v7a
$ make
# See the android.cmake toolchain file for additional ANDROID_ABI options and
# other configurable Android variables.
After building the tools they can be moved to an android device via the use of
adb push
, and then run within an adb shell
instance.
Tested on Android Studio 3.5.3.
To include Draco in an existing or new Android Studio project, reference it
from the cmake
file of an existing native project that has a minimum SDK
version of 18 or higher. The project must support C++11.
To add Draco to your project:
-
Create a new "Native C++" project.
-
Add the following somewhere within the
CMakeLists.txt
for your project before theadd_library()
for your project's native-lib:# Note "/path/to/draco" must be changed to the path where you have cloned # the Draco sources. add_subdirectory(/path/to/draco ${CMAKE_BINARY_DIR}/draco_build) include_directories("${CMAKE_BINARY_DIR}" /path/to/draco)
-
Add the library target "draco" to the
target_link_libraries()
call for your project's native-lib. Thetarget_link_libraries()
call for an empty activity native project looks like this after the addition of Draco:target_link_libraries( # Specifies the target library. native-lib # Tells cmake this build depends on libdraco. draco # Links the target library to the log library # included in the NDK. ${log-lib} )
You can download and install Draco using the vcpkg dependency manager:
git clone https://github.com/Microsoft/vcpkg.git
cd vcpkg
./bootstrap-vcpkg.sh
./vcpkg integrate install
vcpkg install draco
The Draco port in vcpkg is kept up to date by Microsoft team members and community contributors. If the version is out of date, please create an issue or pull request on the vcpkg repository.