android | ||
assets | ||
Blackberry | ||
Common | ||
Core | ||
dx9sdk@da9d3d62e7 | ||
ext | ||
ffmpeg@57f3398456 | ||
flash0/font | ||
GPU | ||
headless | ||
ios | ||
lang@307b80af90 | ||
native@dfbc5f3644 | ||
pspautotests@c1255c756a | ||
Qt | ||
SDL | ||
source_assets | ||
Tools/SaveTool | ||
UI | ||
unittest | ||
Windows | ||
.gitignore | ||
.gitmodules | ||
atlasscript_lowmem.txt | ||
atlasscript.txt | ||
b.sh | ||
build_ppgeatlas.sh | ||
buildatlas.sh | ||
chinese.txt | ||
CMakeLists.txt | ||
git-version.cmake | ||
Globals.h | ||
korean.txt | ||
LICENSE.TXT | ||
ppge_atlasscript.txt | ||
README.md | ||
test.py |
PPSSPP - a fast and portable PSP emulator
Written by Henrik Rydgård
Released under the GPL 2.0 in November 2012
Official website: http://www.ppsspp.org/
To contribute, see the development page.
For the latest source code and build instructions, see our github page.
Basic build instructions
(for more detailed instructions, see the development page)
First of all, after having checked out the source, don't forget to run:
git submodule update --init
in order to get the "native" library.
Now, the actual building:
Building for Windows
Use Visual Studio 2010+, Visual C++ Express is fine. Open the solution and just build, it'll work. You may just need to set up a path or two to the Windows SDK (which includes the DX SDK) nowadays.
Building for Android
Install the Android SDK and NDK.
To build the native C/C++ part, from a shell or command prompt, run:
./ab.sh
or, on Windows:
ab.cmd
in android/. You may need to tweak the paths in the ab file.
Then just open the project in Eclipse and run on your device. When you make changes to the native code, you may have to refresh or add a few spaces to PPSSPPActivity.java for Eclipse to rebuild the APK when you run it on your device the next time.
There's an alternate method of building for Android using CMake below.
Other platforms
PPSSPP currently uses CMake for its build system. In order
to build for most systems, create a build
directory and
run:
cmake path/to/ppsspp
make
Alternatively, run b.sh which will create the directory for you.
You can specify the -G parameter to cmake to choose a generator.
The NMake Makefiles
, Visual Studio 11
(projects + sln),
GNU Makefiles
and Unix Makefiles
generators have been tested.
Of course in-tree builds are supported, but that makes cleanup
harder to do; with out-of-tree builds you can just remove the
build
directory.
Note: There is also a Qt frontend available. Simply open PPSSPPQt.pro in Qt Creator 2.6+ and press run. The Qt frontend currently supports Windows, Linux, Blackberry 10, Symbian and Meego.
Building for Linux/BSD/Meego Harmattan/Pandora/etc
Qt (recommended)
A Qt-based frontend is available in the Qt/ dir. Open PPSSPPQt.pro with Qt Creator 2.6+. Install libsdl1.2 if you want to use USB Gamepad. If the build has an error about finding mobility or multimedia:
- Install the package "qtmobility-dev"
SDL
Alternatively, install the libsdl1.2 (SDL 1.2) development headers. This is called libsdl1.2-dev
on Debian/Ubuntu, SDL-devel
on Fedora/RHEL,
sdl12
on BSD ports.
You will need a recent version of ffmpeg (1.1 or greater, which means libav 9.1 or greater probably) or development packets (for distributions with separate packets) for libavformat, libavcodec, libswresample and libswscale (still version 9.1 or greater).
Currently the user interface is identical to Android's, operated with the mouse.
Building for OSX
Install the Xcode Command Line Tools and, using macports, fink or
homebrew, install the SDL development headers. This is called sdl
on homebrew. Just follow the basic build instructions afterwards.
Currently the user interface is identical to Android's, operated with the mouse. A Qt-based interface is planned.
Building for Android using CMake (not recommended, see above)
To build for Android using CMake, first you must set the ANDROID_NDK environment
variable to point to the path of your NDK install. This is done on
windows cmd with set ANDROID_NDK=X:\...
, on bourne shells with
export ANDROID_NDK=/path/to/ndk
, and on C shells with
setenv ANDROID_NDK /path/to/ndk
.
Create a build-android
directory and inside it run:
cmake -DCMAKE_TOOLCHAIN_FILE=path/to/ppsspp/android/android.toolchain.cmake path/to/ppsspp
make
After make
finishes, it will have created the needed .so files in
path/to/ppsspp/android/libs/armeabi-v7a. You can now use the build.xml
in the android/ dir to build the final executable, or import the android/
folder as an existing project in Eclipse.
Note that Eclipse won't notice if you have made changes to the C++ code. Introduce a meaningless change to a random .java file such as a whitespace to get Eclipse to rebuild the project.
Also note that the Visual Studio
generators aren't compatible with compilers
other than Microsoft's, but NMake Makefiles
works fine.
Building for iOS
Create a build-ios
directory and inside it run:
cmake -DCMAKE_TOOLCHAIN_FILE=../ios/ios.toolchain.cmake -GXcode ..
Then open the generated project in Xcode.
For more information, see: http://code.google.com/p/ios-cmake/wiki/HowTo
Building for Blackberry
To build for Blackberry, you must first have the latest Native SDK installed.
To set up your environment for cross-compiling you must then use:
source ~/bbndk/bbndk-env.sh
Finally, you are ready to compile. Go to ppsspp/Blackberry/ and run:
./build.sh
If you are on Windows, you will need GNU and CMake to run the bash script.
Alternatively, you can use the Qt frontend by compiling the PPSSPPQt.pro in
the Qt/ directory with qmake
from the NDK or QtCreator 2.6+.
Building for Symbian
To build for Symbian, you require:
-
GCC 4.6.3 from Mentor Graphics.
-
Symbian Qt libraries. You can find these in the final Nokia Qt SDK or online.
-
Set up your SDK to use Symbian GCCE 4.6.3. See a tutorial here: http://www.summeli.fi/?p=4220 You will need to add the GCCE 4.6.3 variant to Symbian\tools\sbs\lib\config\variants.xml as follows:
<var name="gcce4_6_3" extends="gcce_base">
<env name="SBS_GCCE463BIN" type="toolchainpath" />
<set name="GCCEBIN" value="$(SBS_GCCE463BIN)" />
<set name="GCCECC" value="$(GCCEBIN)/arm-none-symbianelf-g++$(DOTEXE)" type="tool" versionCommand="$(GCCECC) -dumpversion" versionResult="4.6.3"/>
<set name="RUNTIME_LIBS_LIST" value="drtaeabi.dso dfpaeabi.dso"/>
<set name="PLATMACROS.VAR" value="GCCE_4 GCCE_4_6"/>
<set name="ARMMACROS.VAR" value="__GCCE_4__ __GCCE_4_6__"/>
<set name="LINKER_DEFAULT_LIBS" value="-lsupc++ -lgcc -lgcc_eh"/>
<set name="PLATMACROS.CONFIG" value="ARMV6"/>
<set name="ARMMACROS.CONFIG" value="__MARM_ARMV6__ __ARMV6__"/>
<set name="LINKER_GROUP_END_OPTION" value="-Wl,--end-group"/>
<set name="LINKER_GROUP_START_OPTION" value="-Wl,--start-group"/>
<set name="CC.ARMV5" value="-march=armv6"/>
<set name="CC.SOFTVFP_MAYBE_VFPV2" value="softfp"/>
</var>
You will also need to increase the data section of the executable in linking stage by modifying Symbian\tools\sbs\lib\config\gcce.xml as follows:
<set name="RW_BASE" value="$(RW_BASE_OPTION)0x3000000"/>
Then simply compile the PPSSPPQt.pro with qmake
from the SDK or the included QtCreator.