Unmoving is a C++ header-only library providing more convenient fixed-point arithmetic for the Sony PlayStation ("PS1"), in the form of a C++ class that wraps the native integer type used by the console standard library for performing fixed-point calculations. This class is intended to remove much of the more tedious aspects of the boilerplate code required to handle numbers in this way. The author hopes that it is useful.
Unmoving is written in C++20 and can target the PlayStation or most desktop OSes. In all cases, you will need a recent C++ compiler in order to build C++20 code.
For getting a toolchain that can target the PlayStation and which can compile C++20 code, you will need to compile a toolchain yourself. I recommend following the instructions in PSn00bSDK (which this project is tested with) for manually compiling toolchains (https://github.com/Lameguy64/PSn00bSDK/blob/ffa679d4d24b891cb59aba10946368f2ec00c391/toolchain.txt), but choose newer versions of Binutils and GCC than are specified.
I used Binutils 2.37 and GCC 10.3.0.
Of course, as this is a header-only library, you could just head over to the releases page on Github and download the latest version of it from there and then put it in your include path to use it in your projects.
Alternatively, you can fetch the project with CMake if you like. You need CMake 3.15 or newer to do this.
A convenient way to do this is to use CPM (https://github.com/cpm-cmake/CPM.cmake) to fetch the project from Github for you:
CPMFindPackage(
NAME Unmoving
GIT_REPOSITORY [email protected]:saxbophone/unmoving.git
GIT_TAG v0.1.0
)
Or if you don't want to use a third-party CMake tool, CMake's FetchContent()
API can be used in a similar way instead.
You could also clone this project's source code, build and install it with CMake
and then use CMake's find_package()
to use it in your project. CPMFindPackage()
will also use locally-installed packages if you install it this way.
You can then link your build targets to Unmoving in the typical way:
# sample target "main"
add_executable(main main.cpp)
target_link_libraries(main Unmoving::unmoving)
This project is licensed under the Mozilla Public License v2.0.
This is a permissive copyleft software license which applies the copyleft provisions to this project's source code only. This means you can use it in any project, whether open-source or not, without needing to disclose your source. However, if you make modifications to this project which you include in a project that you distribute (even a closed-source one), you are required to share the modifications you made to this project, but these parts only.
Basically, if you modify Unmoving and distribute it, you need to publish your modifications.
- Although written in C++20, Unmoving does not rely upon the C++ standard library or STL. The only dependencies it has are satisfied by the minimal C standard library that comes with PSn00bSDK.
- Unmoving has been tested and confirmed to run on PCSXR, the PlayStation emulator. There is no reason why it wouldn't also run on real PlayStation hardware, but this has not yet been tested.
- Unmoving hasn't been profiled for performance on the PlayStation. Vague observations from testing with PCSXR suggest its efficiency is reasonable, maybe even decent, but this area needs further investigation —particularly for the multiplication and division routines.
#include <cassert>
#include <iostream>
#include <unmoving/PSXFixed.hpp>
using namespace unmoving;
void print(const PSXFixed& fixed);
int main() {
PSXFixed d; // default-initialised
print(d); // -> "0.000000"
// uses custom user-defined-literal, equivalent to the previous statement
PSXFixed z = 0.0_fx, v = 0_fx;
print(z); // -> "0.000000"
print(v); // -> "0.000000"
// contrasting use of custom literals vs built-in literals:
PSXFixed c = 123456_fx;
print(c); // -> "123456.000000"
PSXFixed b = 123456; // -> equivalent to reinterpret_cast<>()
// i.e. takes 123456 to be the raw integer
// representation of a fixed-point value
print(b); // -> "30.140625"
// NOTE: c and b have different values!
assert(b != c);
// use PSXFixed::from_integer() to value-convert from integer
PSXFixed i = PSXFixed::from_integer(123456); // -> 123456.0_fx
print(i); // -> "123456.000000"
assert(i == c);
// arithmetic expressions using fixed-point type
// note that as all methods are constexpr, constants can be folded at compile-time
static constexpr PSXFixed compile_time_expression = (3.14159265_fx / 3) + 0.02_fx * 45;
/*
* An optimising compiler can put the variable declared above in rodata as a constant:
*
* Disassembly of section .rodata:
*
* ...[truncated]...
*
* 0000000000400ca4 <main::compile_time_expression>:
* 400ca4: 2b 1f sub (%rdi),%ebx
* ...
*
* NOTE here that 0x1F2B as seen in the assembly is the decimal value 7979
* which is the raw fixed-point value for 1.947998
*/
print(compile_time_expression); // -> "1.947998"
// fixed-point instances cast to int implicitly, yielding their raw value:
std::cout << compile_time_expression << std::endl; // -> "7979"
}
void print(const PSXFixed& fixed) {
char buffer[15] = {};
if (fixed.to_c_str(buffer, sizeof(buffer))) {
std::cout << buffer << std::endl;
}
}
Because PSXFixed
objects implicitly cast to their base integer type, it is
possible to use them more or less as a drop-in replacement for "raw" integers
for fixed-point maths, including being able to pass them into and out of the
PSX standard library functions such as rcos()
and friends.
The only thing one has to be careful about is avoiding implicit integer conversions when the intention is to convert by value rather than raw bit-pattern, as demonstrated in the sample code above. [PSXFixed::from_integer()](@ref unmoving::PSXFixed::from_integer()) and [PSXFixed::to_integer()](@ref unmoving::PSXFixed::to_integer()) are provided for such value-conversions.
Further reading: API reference
Unmoving has a thorough unit test suite, however this cannot be built for the PlayStation due the extensive C++ library dependencies of the test suite itself. This test suite is run in CI for Linux, macOS and Windows. You can run the tests yourself by building the project in Debug mode or with ENABLE_TESTS=ON
with CMake:
git checkout [email protected]:saxbophone/unmoving.git
cd unmoving/build
# debug mode is the default
cmake ..
# OR alternatively (builds tests but in optimised Release mode)
cmake .. -DCMAKE_BUILD_TYPE=Release -DENABLE_TESTS=ON
# compile tests, using 5 threads
cmake --build . -j 5
# runs the tests with 5 threads
ctest -j 5
The author of this software was very new to PlayStation programming at the time he wrote it, although having decent knowledge of C and C++. As such, there are no doubt going to be some oversights made on his part about the intricacies of PSX programming that haven't been considered in the project's design or implementation.
If you feel something is missing or can be improved, I would be very grateful for your input and invite you to contribute issues or pull requests at this project's page on Github: https://github.com/saxbophone/unmoving.
Big thanks to Lameguy64 for both his series of tutorials on PlayStation programming (the fixed-point arithmetic section of which was particularly helpful in the making of this software) and for his open-source PSX SDK PSn00bSDK, which this project is tested with and which I thoroughly recommend checking out. Your work inspires me, sir!
"What do you call a decimal point which sticks around in the same place?"
...
UNMOVING!