Awesome
Olive.c
<p align="center"> <a href="https://tsoding.github.io/olive.c/"><img src="./assets/olivec-200.png"></a> </p>[!WARNING] THIS LIBRARY IS A WORK IN PROGRESS! ANYTHING CAN CHANGE AT ANY MOMENT WITHOUT ANY NOTICE! USE THIS LIBRARY AT YOUR OWN RISK!
Simple graphics library that does not have any dependencies and renders everything into the given memory pixel by pixel.
Visit https://tsoding.github.io/olive.c/ to see some demos.
The library is not concerned with displaying the image. It only fills up the memory with pixels. It's up to you what to do with those pixels.
The name is pronounced as "olivets'" which is a Ukrainian word for "pencil" ("олівець").
The library itself does not require any special building. You can simply copy-paste ./olive.c to your project and #include
it. (Because the truly reusable code is the one that you can simply copy-paste).
Olive.c is a classical stb-style single header library. That is by default it acts like a header, but if you #define OLIVEC_IMPLEMENTATION
prior including the library it acts like a source file. The .c
extension might be confusing, but it's a part of the name of the library (why JavaScript people can use .js
as part of the name of a library and I cannot?)
Quick Example (Flag of Japan)
[!WARNING] Always initialize your Canvas with a color that has Non-Zero Alpha Channel! A lot of functions use
olivec_blend_color()
function to blend with the Background which preserves the original Alpha of the Background. So you may easily end up with a result that is perceptually transparent if the Alpha is Zero.
This example also uses stb_image_write.h to create the PNG image
// flag_jp.c
#define OLIVEC_IMPLEMENTATION
#include "olive.c"
#define STB_IMAGE_WRITE_IMPLEMENTATION
#include "stb_image_write.h"
#define WIDTH 900
#define HEIGHT 600
uint32_t pixels[WIDTH*HEIGHT];
int main(void)
{
Olivec_Canvas oc = olivec_canvas(pixels, WIDTH, HEIGHT, WIDTH);
// Taken from https://upload.wikimedia.org/wikipedia/en/9/9e/Flag_of_Japan.svg
olivec_fill(oc, 0xFFFFFFFF);
olivec_circle(oc, WIDTH/2, HEIGHT/2, 180, 0xFF2D00BC);
const char *file_path = "flag_jp.png";
if (!stbi_write_png(file_path, WIDTH, HEIGHT, 4, pixels, sizeof(uint32_t)*WIDTH)) {
fprintf(stderr, "ERROR: could not write %s\n", file_path);
return 1;
}
return 0;
}
Building the Tests and Demos
Even though the library does not require any special building, the tests and demos do. We use nobuild build system:
$ clang -o nobuild nobuild.c
$ ./nobuild
Tests
Run the tests:
$ ./build/test run
If the expected behavior of the library has changed in the way that breaks current test cases, you probably want to update them:
$ ./build/test update
For more info see the help:
$ ./build/test help
Demos
The source code for demos is located at demos. Each demo is compiled for 3 different "platforms" that is 3 different ways to display the generated images:
- SDL -- displays the images via SDL_Texture.
- Terminal -- converts the images into ASCII art and prints them into the terminal.
- WASM -- displays the images in HTML5 canvas
To run the SDL version of a demo do
$ ./build/demos/<demo>.sdl
To run the Terminal version of a demo do
$ ./build/demos/<demo>.term
To run the WASM versions of the demos from https://tsoding.github.io/olive.c/ locally do
$ python3 -m http.server 6969
$ iexplore.exe http://localhost:6969/
Virtual Console
The support for several platforms is provided by Demo Virtual Console. It is implemented in two files:
- ./demos/vc.c -- the C runtime required by all platforms.
- ./js/vc.js -- the JavaScript runtime for running in a browser when compiled to WebAssembly.
The Demo Virtual Console is not part of the main library and is designed specifically for demos. (I do consider including it into the main library, 'cause it looks pretty useful. The library is still in development).