Alternative library and kernel for add-in development on fx-9860G and fx-CG50 under Linux.
Find a file
Lephe 392d033e4a
usb: improve and expose the sync/async write API
* Properly define the callback time of a write/commit as the time when
  the pipe is available again for further writing.
* Refuse commits when writes are pending; instead, enforce a strict
  order of finishing writes before committing, which makes sense since
  consecutive writes are ordered this way already.
* Properly support callbacks for writes and for commits.
* Define the synchronous APIs in terms of waiting until the callbacks
  for equivalent asynchronous functions are invoked (plus initial
  waiting for pipes to be ready).
2021-05-12 09:17:24 +02:00
cmake cmake: make OpenLibm a dependency 2021-04-27 15:24:24 +02:00
include/gint usb: improve and expose the sync/async write API 2021-05-12 09:17:24 +02:00
src usb: improve and expose the sync/async write API 2021-05-12 09:17:24 +02:00
.gitignore add GiteaPC support 2021-01-16 18:29:32 +01:00
CMakeLists.txt cmake: do not require a build from the gint tree (#15) 2021-05-12 09:16:14 +02:00
fx9860g.ld kernel: driver and world system overhaul 2021-04-23 20:44:08 +02:00
fxcg50.ld kernel: driver and world system overhaul 2021-04-23 20:44:08 +02:00
giteapc.make cmake: make OpenLibm a dependency 2021-04-27 15:24:24 +02:00
README.md kernel: move VBR at the end of the user RAM area on fx-9860G 2021-02-15 09:46:59 +01:00
TODO (minor changes) 2021-05-12 09:17:24 +02:00

gint project

gint (pronounce “guin”) is an add-in unikernel for CASIO calculators of the fx-9860G II and fx-CG 50 families. It provides a mostly free-standing runtime and is used to develop add-ins under Linux, along with specialized GCC toolchains and the fxSDK.

When running in an add-in, gint takes control of the calculator's hardware from the operating system, and manages it with its own drivers. It exposes a new, richer API that takes advantage of the full capabilities of the machine.

This is free software: you may use it for any purpose, share it, modify it, and share your changes. Credit is not required, but please let me know!

gint also includes third-party code that is distributed under its own license. Currently, this includes:

Programming interface

Because of its free-standing design, gint's API provides direct and efficient access to low-level MPU features, which includes:

  • Multi-key management with event systems suitable for games
  • Hardware timers with sub-millisecond and sub-microsecond resolution
  • Fast screen drivers with DMAC on fx-CG 50
  • Efficient and user-extendable interrupt management
  • Safe access to on-chip and DSP memory areas
  • Hardware-driven memory primitives (DMA, DSP)

The library also offers powerful higher-level features:

  • An enhanced version of the system's GetKey() and GetKeyWait()
  • A gray engine that works by rapidly swapping monochrome images on fx-9860G II
  • Blazingly fast rendering functions (image rendering is 10 times faster tha MonochromeLib)
  • Integrated font management

A couple of libraries extend these features, including:

Installing with GiteaPC

gint can be installed automatically with GiteaPC.

% giteapc install Lephenixnoir/gint

Normally you don't use gint directly, instead the fxSDK provides project templates that are set up to use gint. Please see the fxSDK README file for details.

Building and installing manually

gint is built using the fxSDK, which provides a suitable CMake environment for the calculator. gint is always installed in the compiler's install path (as given by sh-elf-gcc --print-search-dirs) which is detected automatically, so normally you don't need to set the install prefix.

fx-CG 50 developers probably want a g3a wrapper as well; the reference implementation is Tari's mkg3a. This is needed at the very last compilation step to create the g3a file. On Arch Linux, you can use the AUR/mkg3a package maintained directly by Tari.

Building for fx-9860G II

fxsdk build-fx will invoke CMake and make. If you have specific configuration options, run once with -c to configure.

% fxsdk build-fx -c <OPTIONS...>

Run without -c to build. This configures automatically.

% fxsdk build-fx

The available options are:

  • -DGINT_STATIC_GRAY=1: Put the gray engine's VRAMs in static RAM instead of using malloc()

Building for fx-CG 50

Same as fx-9860G II, except the command is fxsdk build-cg instead of fxsdk build-fx.

The available options are:

  • -DGINT_USER_VRAM=1: Store all VRAMs in the user stack (takes up 350k/512k)

Using in CMake-based add-ins

Find the Gint module and link against Gint::Gint.

find_module(Gint 2.1 REQUIRED)
target_link_libraries(<target_name> Gint::Gint)

Using in Makefile-based add-ins

Projects created with the fxSDK link with gint out-of-the-box. If you're not using the fxSDK, you will need to:

  • Build with -ffreestanding -fstrict-volatile-bitfields;
  • Link with -T fx9860g.ld and -lgint-fx on fx-9860G;
  • Link with -T fxcg50.ld and -lgint-cg on fx-CG 50.

If you don't have a standard library such as Memallox's port of newlib, you also need -nostdlib. I typically use -m3 -mb or -m4-nofpu -mb to specify the platform, but that may not even be necessary.