path: root/README.md

# Sokol

**Sokol (Сокол)**: Russian for Falcon, a smaller and more nimble
bird of prey than the Eagle (Орёл, Oryol)

[See what's new](#updates)

[Live Samples](https://floooh.github.io/sokol-html5/index.html) via WASM.

Minimalistic header-only cross-platform libs in C:

- **sokol\_gfx.h**: 3D-API wrapper (GL + Metal + D3D11)
- **sokol\_app.h**: app framework wrapper (entry + window + 3D-context + input)
- **sokol\_time.h**: time measurement
- **sokol\_audio.h**: minimal buffer-streaming audio playback
- **sokol\_fetch.h**: asynchronous data streaming from HTTP and local filesystem
- **sokol\_args.h**: unified cmdline/URL arg parser for web and native apps

WebAssembly is a 'first-class citizen', one important motivation for the
Sokol headers is to provide a collection of cross-platform APIs with a
minimal footprint on the web platform while still being useful.

All headers are standalone and can be used independently from each other.

Sample code is in a separate repo: https://github.com/floooh/sokol-samples

Command line tools: https://github.com/floooh/sokol-tools

Tiny 8-bit emulators: https://floooh.github.io/tiny8bit/

### Why C:

- easier integration with other languages
- easier integration into other projects
- allows even smaller program binaries than Oryol

Sokol will be a bit less convenient to use than Oryol, but that's ok since
the Sokol headers are intended to be low-level building blocks.

Eventually Oryol will just be a thin C++ layer over Sokol.

A blog post with more background info: [A Tour of sokol_gfx.h](http://floooh.github.io/2017/07/29/sokol-gfx-tour.html)

# sokol_gfx.h:

- simple, modern wrapper around GLES2/WebGL, GLES3/WebGL2, GL3.3, D3D11 and Metal
- buffers, images, shaders, pipeline-state-objects and render-passes
- does *not* handle window creation or 3D API context initialization
- does *not* provide shader dialect cross-translation (**BUT** there's now an 'official' shader-cross-compiler solution which
seamlessly integrates with sokol_gfx.h and IDEs: [see here for details](https://github.com/floooh/sokol-tools/blob/master/docs/sokol-shdc.md)

A triangle in C99 with GLFW and FlextGL:

```c
#define GLFW_INCLUDE_NONE
#include "GLFW/glfw3.h"
#include "flextgl/flextGL.h"
#define SOKOL_IMPL
#define SOKOL_GLCORE33
#include "sokol_gfx.h"

int main() {

    /* create window and GL context via GLFW */
    glfwInit();
    glfwWindowHint(GLFW_CONTEXT_VERSION_MAJOR, 3);
    glfwWindowHint(GLFW_CONTEXT_VERSION_MINOR, 3);
    glfwWindowHint(GLFW_OPENGL_FORWARD_COMPAT, GL_TRUE);
    glfwWindowHint(GLFW_OPENGL_PROFILE, GLFW_OPENGL_CORE_PROFILE);
    GLFWwindow* w = glfwCreateWindow(640, 480, "Sokol Triangle GLFW", 0, 0);
    glfwMakeContextCurrent(w);
    glfwSwapInterval(1);
    flextInit();

    /* setup sokol_gfx */
    sg_setup(&(sg_desc){0});

    /* a vertex buffer */
    const float vertices[] = {
        // positions            // colors
         0.0f,  0.5f, 0.5f,     1.0f, 0.0f, 0.0f, 1.0f,
         0.5f, -0.5f, 0.5f,     0.0f, 1.0f, 0.0f, 1.0f,
        -0.5f, -0.5f, 0.5f,     0.0f, 0.0f, 1.0f, 1.0f
    };
    sg_buffer vbuf = sg_make_buffer(&(sg_buffer_desc){
        .size = sizeof(vertices),
        .content = vertices,
    });

    /* a shader */
    sg_shader shd = sg_make_shader(&(sg_shader_desc){
        .vs.source =
            "#version 330\n"
            "layout(location=0) in vec4 position;\n"
            "layout(location=1) in vec4 color0;\n"
            "out vec4 color;\n"
            "void main() {\n"
            "  gl_Position = position;\n"
            "  color = color0;\n"
            "}\n",
        .fs.source =
            "#version 330\n"
            "in vec4 color;\n"
            "out vec4 frag_color;\n"
            "void main() {\n"
            "  frag_color = color;\n"
            "}\n"
    });

    /* a pipeline state object (default render states are fine for triangle) */
    sg_pipeline pip = sg_make_pipeline(&(sg_pipeline_desc){
        .shader = shd,
        .layout = {
            .attrs = {
                [0].format=SG_VERTEXFORMAT_FLOAT3,
                [1].format=SG_VERTEXFORMAT_FLOAT4
            }
        }
    });

    /* resource bindings */
    sg_bindings binds = {
        .vertex_buffers[0] = vbuf
    };

    /* default pass action (clear to grey) */
    sg_pass_action pass_action = {0};

    /* draw loop */
    while (!glfwWindowShouldClose(w)) {
        int cur_width, cur_height;
        glfwGetFramebufferSize(w, &cur_width, &cur_height);
        sg_begin_default_pass(&pass_action, cur_width, cur_height);
        sg_apply_pipeline(pip);
        sg_apply_bindings(&binds);
        sg_draw(0, 3, 1);
        sg_end_pass();
        sg_commit();
        glfwSwapBuffers(w);
        glfwPollEvents();
    }

    /* cleanup */
    sg_shutdown();
    glfwTerminate();
    return 0;
}
```

# sokol_app.h

A minimal cross-platform application-wrapper library:

- unified application entry
- single window or canvas for 3D rendering
- 3D context initialization
- event-based keyboard, mouse and touch input
- supported platforms: Win32, MacOS, Linux (X11), iOS, WASM/asm.js, Android (planned: RaspberryPi)
- supported 3D-APIs: GL3.3 (GLX/WGL), Metal, D3D11, GLES2/WebGL, GLES3/WebGL2

A simple clear-loop sample using sokol_app.h and sokol_gfx.h (does not include
separate sokol.c/.m implementation file which is necessary
to split the Objective-C code from the C code of the sample):

```cpp
#include "sokol_gfx.h"
#include "sokol_app.h"

sg_pass_action pass_action;

void init(void) {
    sg_setup(&(sg_desc){
        .mtl_device = sapp_metal_get_device(),
        .mtl_renderpass_descriptor_cb = sapp_metal_get_renderpass_descriptor,
        .mtl_drawable_cb = sapp_metal_get_drawable,
        .d3d11_device = sapp_d3d11_get_device(),
        .d3d11_device_context = sapp_d3d11_get_device_context(),
        .d3d11_render_target_view_cb = sapp_d3d11_get_render_target_view,
        .d3d11_depth_stencil_view_cb = sapp_d3d11_get_depth_stencil_view
    });
    pass_action = (sg_pass_action) {
        .colors[0] = { .action=SG_ACTION_CLEAR, .val={1.0f, 0.0f, 0.0f, 1.0f} }
    };
}

void frame(void) {
    float g = pass_action.colors[0].val[1] + 0.01f;
    pass_action.colors[0].val[1] = (g > 1.0f) ? 0.0f : g;
    sg_begin_default_pass(&pass_action, sapp_width(), sapp_height());
    sg_end_pass();
    sg_commit();
}

void cleanup(void) {
    sg_shutdown();
}

sapp_desc sokol_main(int argc, char* argv[]) {
    return (sapp_desc){
        .init_cb = init,
        .frame_cb = frame,
        .cleanup_cb = cleanup,
        .width = 400,
        .height = 300,
        .window_title = "Clear (sokol app)",
    };
}
```

# sokol_audio.h

A minimal audio-streaming API:

- you provide a mono- or stereo-stream of 32-bit float samples which sokol_audio.h forwards into platform-specific backends
- two ways to provide the data:
    1. directly fill backend audio buffer from your callback function running in the audio thread
    2. alternatively push small packets of audio data from your main loop,
    or a separate thread created by you
- platform backends:
    - Windows: WASAPI
    - macOS/iOS: CoreAudio
    - Linux: ALSA
    - emscripten: WebAudio + ScriptProcessorNode (doesn't use the emscripten-provided OpenAL or SDL Audio wrappers)

A simple mono square-wave generator using the callback model:

```cpp
// the sample callback, running in audio thread
static void stream_cb(float* buffer, int num_frames, int num_channels) {
    assert(1 == num_channels);
    static uint32_t count = 0;
    for (int i = 0; i < num_frames; i++) {
        buffer[i] = (count++ & (1<<3)) ? 0.5f : -0.5f;
    }
}

int main() {
    // init sokol-audio with default params
    saudio_setup(&(saudio_desc){
        .stream_cb = stream_cb
    });

    // run main loop
    ...

    // shutdown sokol-audio
    saudio_shutdown();
    return 0;
```

The same code using the push-model

```cpp
#define BUF_SIZE (32)
int main() {
    // init sokol-audio with default params, no callback
    saudio_setup(&(saudio_desc){0});
    assert(saudio_channels() == 1);

    // a small intermediate buffer so we don't need to push
    // individual samples, which would be quite inefficient
    float buf[BUF_SIZE];
    int buf_pos = 0;
    uint32_t count = 0;

    // push samples from main loop
    bool done = false;
    while (!done) {
        // generate and push audio samples...
        int num_frames = saudio_expect();
        for (int i = 0; i < num_frames; i++) {
            // simple square wave generator
            buf[buf_pos++] = (count++ & (1<<3)) ? 0.5f : -0.5f;
            if (buf_pos == BUF_SIZE) {
                buf_pos = 0;
                saudio_push(buf, BUF_SIZE);
            }
        }
        // handle other per-frame stuff...
        ...
    }

    // shutdown sokol-audio
    saudio_shutdown();
    return 0;
}
```

# sokol_fetch.h

Load entire files, or stream data asynchronously over HTTP (emscripten/wasm)
or the local filesystem (all native platforms).

Simple C99 example loading a file into a static buffer:

```c
#include "sokol_fetch.h"

static void response_callback(const sfetch_response*);

#define MAX_FILE_SIZE (1024*1024)
static uint8_t buffer[MAX_FILE_SIZE];

// application init
static void init(void) {
    ...
    // setup sokol-fetch with default config:
    sfetch_setup(&(sfetch_desc_t){0});

    // start loading a file into a statically allocated buffer:
    sfetch_send(&(sfetch_request_t){
        .path = "hello_world.txt",
        .callback = response_callback
        .buffer_ptr = buffer,
        .buffer_size = sizeof(buffer)
    });
}

// per frame...
static void frame(void) {
    ...
    // need to call sfetch_dowork() once per frame to 'turn the gears':
    sfetch_dowork();
    ...
}

// the response callback is where the interesting stuff happens:
static void reponse_callback(const sfetch_response_t* response) {
    if (response->fetched) {
        // data has been loaded into the provided buffer, do something
        // with the data...
        const void* data = response->buffer_ptr;
        uint64_t data_size = response->fetched_size;
    }
    // the finished flag is set both on success and failure
    if (response->failed) {
        // oops, something went wrong
        switch (response->error_code) {
            SFETCH_ERROR_FILE_NOT_FOUND: ...
            SFETCH_ERROR_BUFFER_TOO_SMALL: ...
            ...
        }
    }
}

// application shutdown
static void shutdown(void) {
    ...
    sfetch_shutdown();
    ...
}
```

# sokol_time.h:

Simple cross-platform time measurement:

```c
#include "sokol_time.h"
...
/* initialize sokol_time */
stm_setup();

/* take start timestamp */
uint64_t start = stm_now();

...some code to measure...

/* compute elapsed time */
uint64_t elapsed = stm_since(start);

/* convert to time units */
double seconds = stm_sec(elapsed);
double milliseconds = stm_ms(elapsed);
double microseconds = stm_us(elapsed);
double nanoseconds = stm_ns(elapsed);

/* difference between 2 time stamps */
uint64_t start = stm_now();
...
uint64_t end = stm_now();
uint64_t elapsed = stm_diff(end, start);

/* compute a 'lap time' (e.g. for fps) */
uint64_t last_time = 0;
while (!done) {
    ...render something...
    double frame_time_ms = stm_ms(stm_laptime(&last_time));
}
```

# sokol_args.h

Unified argument parsing for web and native apps. Uses argc/argv on native
platforms and the URL query string on the web.

Example URL with one arg:

https://floooh.github.io/tiny8bit/kc85.html?type=kc85_4

The same as command line app:

> kc85 type=kc85_4

Parsed like this:

```c
#include "sokol_args.h"

int main(int argc, char* argv[]) {
    sargs_setup(&(sargs_desc){ .argc=argc, .argv=argv });
    if (sargs_exists("type")) {
        if (sargs_equals("type", "kc85_4")) {
            // start as KC85/4
        }
        else if (sargs_equals("type", "kc85_3")) {
            // start as KC85/3
        }
        else {
            // start as KC85/2
        }
    }
    sargs_shutdown();
    return 0;
}
```

See the sokol_args.h header for a more complete documentation, and the [Tiny
Emulators](https://floooh.github.io/tiny8bit/) for more interesting usage examples.

# Overview of planned features

A list of things I'd like to do next:

## sokol_gfx.h planned features:

- 2 small additions to the per-pool-slot generation counters in sokol_gfx.h:
    - an sg_setup() option to disable a pool slot when it's generation
      counter overflows, this makes the dangling-check for resource ids
      watertight at the cost that the pool will run out of slots at some point
    - instead of the 16/16-bit split in the resource ids for unique-tag vs
      slot-index, only use as many bits as necessary for the slot-index
      (based on the number of slots in the pool), and the remaining bits
      for the unique-tag

## sokol_app.h planned features:

Mainly some "missing features" for desktop apps:

- define an application icon
- change the window title on existing window
- allow to programmatically activate and deactivate fullscreen
- pointer lock
- show/hide mouse cursor
- allow to change mouse cursor image (at first only switch between system-provided standard images)

## sokol_audio.h planned features:

- implement an alternative WebAudio backend using Audio Worklets and WASM threads

# Updates

- **18-Jul-2019**:
    - sokol_fetch.h has been fixed and can be used again :)

- **11-Jul-2019**:
    - Don't use sokol_fetch.h for now, the current version assumes that
      it is possible to obtain the content size of a file from the
      HTTP server without downloading the entire file first. Turns out
      that's not possible with vanilla HTTP when the web server serves
      files compressed (in that case the Content-Length is the _compressed_
      size, yet JS/WASM only has access to the uncompressed data).
      Long story short, I need to go back to the drawing board :)

- **06-Jul-2019**:
    - new header [sokol_fetch.h](https://github.com/floooh/sokol/blob/master/sokol_fetch.h) for asynchronously loading data.
        - make sure to carefully read the embedded documentation
        for making the best use of the header
        - two new samples: [simple PNG file loadng with stb_image.h](https://floooh.github.io/sokol-html5/loadpng-sapp.html) and  [MPEG1 streaming with pl_mpeg.h](https://floooh.github.io/sokol-html5/plmpeg-sapp.html)
    - sokol_gfx.h: increased SG_MAX_SHADERSTAGE_BUFFERS configuration
    constant from 4 to 8.

- **10-Jun-2019**: sokol_app.h now has proper "application quit handling":
    - a pending quit can be intercepted, for instance to show a "Really Quit?" dialog box
    - application code can now initiate a "soft quit" (interceptable) or
      "hard quit" (not interceptable)
    - on the web platform, the standard "Leave Site?" dialog box implemented
      by browsers can be shown when the user leaves the site
    - Android and iOS currently don't have any of those features (since the
      operating system may decide to terminate mobile applications at any time
      anyway, if similar features are added they will most likely have
      similar limitations as the web platform)
  For details, search for 'APPLICATION QUIT' in the sokol_app.h documentation
  header: https://github.com/floooh/sokol/blob/master/sokol_app.h

  The [imgui-highdpi-sapp](https://github.com/floooh/sokol-samples/tree/master/sapp)
  contains sample code for all new quit-related features.

- **08-Jun-2019**: some new stuff in sokol_app.h:
    - the ```sapp_event``` struct has a new field ```bool key_repeat```
    which is true when a keyboard event is a key-repeat (for the
    event types ```SAPP_EVENTTYPE_KEY_DOWN``` and ```SAPP_EVENTTYPE_CHAR```).
    Many thanks to [Scott Lembcke](https://github.com/slembcke) for
    the pull request!
    - a new function to poll the internal frame counter:
    ```uint64_t sapp_frame_count(void)```, previously the frame counter
    was only available via ```sapp_event```.
    - also check out the new [event-inspector sample](https://floooh.github.io/sokol-html5/wasm/events-sapp.html)

- **04-Jun-2019**: All sokol headers now recognize a config-define ```SOKOL_DLL```
  if sokol should be compiled into a DLL (when used with ```SOKOL_IMPL```)
  or used as a DLL. On Windows, this will prepend the public function declarations
  with ```__declspec(dllexport)``` or ```__declspec(dllimport)```.

- **31-May-2019**: if you're working with emscripten and fips, please note the
  following changes:

    https://github.com/floooh/fips#public-service-announcements

- **27-May-2019**: some D3D11 updates:
    - The shader-cross-compiler can now generate D3D bytecode when
    running on Windows, see the [sokol-shdc docs](https://github.com/floooh/sokol-tools/blob/master/docs/sokol-shdc.md) for more
details.
    - sokol_gfx.h no longer needs to be compiled with a
    SOKOL_D3D11_SHADER_COMPILER define to enable shader compilation in the
    D3D11 backend. Instead, the D3D shader compiler DLL (d3dcompiler_47.dll)
    will be loaded on-demand when the first HLSL shader needs to be compiled.
    If an application only uses D3D shader byte code, the compiler DLL won't
    be loaded into the process.

- **24-May-2019** The shader-cross-compiler can now generate Metal byte code
for macOS or iOS when the build is running on macOS. This is enabled
automatically with the fips-integration files in [sokol-tools-bin](https://github.com/floooh/sokol-tools-bin),
see the [sokol-shdc docs](https://github.com/floooh/sokol-tools/blob/master/docs/sokol-shdc.md) for more
details.

- **16-May-2019** two new utility headers: *sokol_cimgui.h* and *sokol_gfx_cimgui.h*,
those are the same as their counterparts sokol_imgui.h and sokol_gfx_imgui.h, but
use the [cimgui](https://github.com/cimgui/cimgui) C-API for Dear ImGui. This
is useful if you don't want to - or cannot - use C++ for creating Dear ImGui UIs.

    Many thanks to @prime31 for contributing those!

    sokol_cimgui.h [is used
here](https://floooh.github.io/sokol-html5/wasm/cimgui-sapp.html), and
sokol_gfx_cimgui.h is used for the [debugging UI
here](https://floooh.github.io/sokol-html5/wasm/sgl-microui-sapp-ui.html)

- **15-May-2019** there's now an optional shader-cross-compiler solution for
sokol_gfx.h: [see here for details](https://github.com/floooh/sokol-tools/blob/master/docs/sokol-shdc.md).
This is "V1.0" with two notable features missing:

    - an include-file feature for GLSL shaders
    - compilation to Metal- and D3D-bytecode (currently
      only source-code generation is supported)

    The [sokol-app samples](https://floooh.github.io/sokol-html5/) have been
    ported to the new shader-cross-compilation, follow the ```src``` and
    ```glsl``` links on the specific sample webpages to see the C- and GLSL-
    source-code.

- **02-May-2019** sokol_gfx.h has a new function ```sg_query_backend()```, this
will return an enum ```sg_backend``` identifying the backend sokol-gfx is
currently running on, which is one of the following values:

    - SG_BACKEND_GLCORE33
    - SG_BACKEND_GLES2
    - SG_BACKEND_GLES3
    - SG_BACKEND_D3D11
    - SG_BACKEND_METAL_MACOS
    - SG_BACKEND_METAL_IOS

    When compiled with SOKOL_GLES3, sg_query_backend() may return SG_BACKEND_GLES2
    when the runtime platform doesn't support GLES3/WebGL2 and had to fallback
    to GLES2/WebGL2.

    When compiled with SOKOL_METAL, sg_query_backend() will return SG_BACKEND_METAL_MACOS
    when the compile target is macOS, and SG_BACKEND_METAL_IOS when the target is iOS.

- **26-Apr-2019** Small but breaking change in **sokol_gfx.h** how the vertex
layout definition in sg_pipeline_desc works:

    Vertex component names and semantics (needed by the GLES2 and D3D11 backends) have moved from ```sg_pipeline_desc``` into ```sg_shader_desc```.

    This may seem like a rather pointless small detail to change, expecially
    for breaking existing code, but the whole thing will make a bit more
    sense when the new shader-cross-compiler will be integrated which I'm
    currently working on (here: https://github.com/floooh/sokol-tools).

    While working on getting reflection data out of the shaders (e.g. what
    uniform blocks and textures the shader uses), it occurred to me that
    vertex-attribute-names and -semantics are actually part of the reflection
    info and belong to the shader, not to the vertex layout in the pipeline
    object (which only describes how the incoming vertex data maps to
    vertex-component **slots**. Instead of (optionally) mapping this
    association through a name, the pipeline's vertex layout is now always
    strictly defined in terms of numeric 'bind slots' for **all** sokol_gfx.h
    backends. For 3D APIs where the vertex component slot isn't explicitely
    defined in the shader language (GLES2/WebGL, D3D11, and optionally
    GLES3/GL), the shader merely offers a lookup table how vertex-layout
    slot-indices map to names/semantics (and the underlying 3D API than maps
    those names back to slot indices, which shows that Metal and GL made the
    right choice defining the slots right in the shader).

    Here's how the code changes (taken from the triangle-sapp.c sample):

    **OLD**:
    ```c
    /* create a shader */
    sg_shader shd = sg_make_shader(&(sg_shader_desc){
        .vs.source = vs_src,
        .fs.source = fs_src,
    });

    /* create a pipeline object (default render states are fine for triangle) */
    pip = sg_make_pipeline(&(sg_pipeline_desc){
        /* if the vertex layout doesn't have gaps, don't need to provide strides and offsets */
        .shader = shd,
        .layout = {
            .attrs = {
                [0] = { .name="position", .sem_name="POS", .format=SG_VERTEXFORMAT_FLOAT3 },
                [1] = { .name="color0", .sem_name="COLOR", .format=SG_VERTEXFORMAT_FLOAT4 }
            }
        },
    });
    ```

    **NEW**:
    ```c
        /* create a shader */
        sg_shader shd = sg_make_shader(&(sg_shader_desc){
            .attrs = {
                [0] = { .name="position", .sem_name="POS" },
                [1] = { .name="color0", .sem_name="COLOR" }
            },
            .vs.source = vs_src,
            .fs.source = fs_src,
        });

        /* create a pipeline object (default render states are fine for triangle) */
        pip = sg_make_pipeline(&(sg_pipeline_desc){
            /* if the vertex layout doesn't have gaps, don't need to provide strides and offsets */
            .shader = shd,
            .layout = {
                .attrs = {
                    [0].format=SG_VERTEXFORMAT_FLOAT3,
                    [1].format=SG_VERTEXFORMAT_FLOAT4
                }
            },
        });
    ```

    ```sg_shader_desc``` has a new embedded struct ```attrs``` which
    contains a vertex attribute _name_ (for GLES2/WebGL) and
    _sem_name/sem_index_ (for D3D11). For the Metal backend this struct is
    ignored completely, and for GLES3/GL it is optional, and not required
    when the vertex shader inputs are annotated with ```layout(location=N)```.

    The remaining attribute description members in ```sg_pipeline_desc``` are:
    - **.format**: the format of input vertex data (this can be different
          from the vertex shader's inputs when data is extended during
          vertex fetch (e.g. input can be vec3 while the vertex shader
          expects vec4)
    - **.offset**: optional offset of the vertex component data (not needed
          when the input vertex has no gaps between the components)
    - **.buffer**: the vertex buffer bind slot if the vertex data is coming
          from different buffers

    Also check out the various samples:

    - for GLSL (explicit slots via ```layout(location=N)```): https://github.com/floooh/sokol-samples/tree/master/glfw
    - for D3D11 (semantic names/indices): https://github.com/floooh/sokol-samples/tree/master/d3d11
    - for GLES2: (vertex attribute names): https://github.com/floooh/sokol-samples/tree/master/html5
    - for Metal: (explicit slots): https://github.com/floooh/sokol-samples/tree/master/metal
    - ...and all of the above combined: https://github.com/floooh/sokol-samples/tree/master/sapp

- **19-Apr-2019** I have replaced the rather inflexible render-state handling
in **sokol_gl.h** with a *pipeline stack* (like the GL matrix stack, but with
pipeline-state-objects), along with a couple of other minor API tweaks.

    These are the new pipeline-stack functions:
    ```c
    sgl_pipeline sgl_make_pipeline(const sg_pipeline_desc* desc);
    void sgl_destroy_pipeline(sgl_pipeline pip);
    void sgl_default_pipeline(void);
    void sgl_load_pipeline(sgl_pipeline pip);
    void sgl_push_pipeline(void);
    void sgl_pop_pipeline(void);
    ```

    A pipeline object is created just like in sokol_gfx.h, but without shaders,
    vertex layout, pixel formats, primitive-type and sample count (these details
    are filled in by the ```sgl_make_pipeline()``` wrapper function. For instance
    to create a pipeline object for additive transparency:

    ```c
    sgl_pipeline additive_pip = sgl_make_pipeline(&(sg_pipeline_desc){
        .blend = {
            .enabled = true,
            .src_factor_rgb = SG_BLENDFACTOR_ONE,
            .dst_factor_rgb = SG_BLENDFACTOR_ONE
        }
    });
    ```

    And to render with this, simply call ```sgl_load_pipeline()```:

    ```c
    sgl_load_pipeline(additive_pip);
    sgl_begin_triangles();
    ...
    sgl_end();
    ```

    Or to preserve and restore the previously active pipeline state:

    ```c
    sgl_push_pipeline();
    sgl_load_pipeline(additive_pip);
    sgl_begin_quads();
    ...
    sgl_end();
    sgl_pop_pipeline();
    ```

    You can also load the 'default pipeline' explicitely on the top of the
    pipeline stack with ```sgl_default_pipeline()```.

    The other API change is:

    - ```sgl_state_texture(bool b)``` has been replaced with ```sgl_enable_texture()```
      and ```sgl_disable_texture()```

    The code samples have been updated accordingly:

    - [sgl-sapp.c](https://github.com/floooh/sokol-samples/blob/master/sapp/sgl-sapp.c)
    - [sgl-lines-sapp.c](https://github.com/floooh/sokol-samples/blob/master/sapp/sgl-lines-sapp.c)
    - [sgl-microui-sapp.c](https://github.com/floooh/sokol-samples/blob/master/sapp/sgl-microui-sapp.c)

- **01-Apr-2019** (not an April Fool's joke): There's a new **sokol_gl.h**
util header which implements an 'OpenGL-1.x-in-spirit' rendering API on top
of sokol_gfx.h (vertex specification via begin/end, and a matrix stack). This is
only a small subset of OpenGL 1.x, mainly intended for debug-visualization or
simple tasks like 2D UI rendering. As always, sample code is in the
[sokol-samples](https://github.com/floooh/sokol-samples) project.

- **15-Mar-2019**: various Dear ImGui related changes:
    - there's a new utility header sokol_imgui.h with a simple drop-in
      renderer for Dear ImGui on top of sokol_gfx.h and sokol_app.h
      (sokol_app.h is optional, and only used for input handling)
    - the sokol_gfx_imgui.h debug inspection header no longer
      depends on internal data structures and functions of sokol_gfx.h, as such
      it is now a normal *utility header* and has been moved to the *utils*
      directory
    - the implementation macro for sokol_gfx_imgui.h has been changed
      from SOKOL_IMPL to SOKOL_GFX_IMGUI_IMPL (so when you suddenly get
      unresolved linker errors, that's the reason)
    - all headers now have two preprocessor defines for the declaration
      and implementation (for instance in sokol_gfx.h: SOKOL_GFX_INCLUDED
      and SOKOL_GFX_IMPL_INCLUDED) these are checked in the utility-headers
      to provide useful error message when dependent headers are missing

- **05-Mar-2019**: sokol_gfx.h now has a 'trace hook' API, and I have started
implementing optional debug-inspection-UI headers on top of Dear ImGui:
    - sokol_gfx.h has a new function *sg_install_trace_hooks()*, this allows
      you to install a callback function for each public sokol_gfx.h function
      (and a couple of error callbacks). For more details, search for "TRACE HOOKS"
      in sokol_gfx.h
    - when creating sokol_gfx.h resources, you can now set a 'debug label'
      in the desc structure, this is ignored by sokol_gfx.h itself, but is
      useful for debuggers or profilers hooking in via the new trace hooks
    - likewise, two new functions *sg_push_debug_group()* and *sg_pop_debug_group()*
      can be used to group related drawing functions under a name, this
      is also ignored by sokol_gfx.h itself and only useful when hooking
      into the API calls
    - I have started a new 'subproject' in the 'imgui' directory, this will
      contain a slowly growing set of optional debug-inspection-UI headers
      which allow to peek under the hood of the Sokol headers. The UIs are
      implemented with [Dear ImGui](https://github.com/ocornut/imgui). Again,
      see the README in the 'imgui' directory and the headers in there
      for details, and check out the live demos on the [Sokol Sample Webpage](https://floooh.github.io/sokol-html5/)
      (click on the little UI buttons in the top right corner of each thumbnail)

- **21-Feb-2019**: sokol_app.h and sokol_audio.h now have an alternative
set of callbacks with user_data arguments. This is useful if you don't
want or cannot store your own application state in global variables.
See the header documentation in sokol_app.h and sokol_audio.h for details,
and check out the samples *sapp/noentry-sapp.c* and *sapp/modplay-sapp.c*
in https://github.com/floooh/sokol-samples

- **19-Feb-2019**: sokol_app.h now has an alternative mode where it doesn't
"hijack" the platform's main() function. Search for SOKOL_NO_ENTRY in
sokol_app.h for details and documentation.

- **26-Jan-2019**: sokol_app.h now has an Android backend contributed by
  [Gustav Olsson](https://github.com/gustavolsson)!
  See the [sokol-samples readme](https://github.com/floooh/sokol-samples/blob/master/README.md)
  for build instructions.

- **21-Jan-2019**: sokol_gfx.h - pool-slot-generation-counters and a dummy backend:
    - Resource pool slots now have a generation-counter for the resource-id
      unique-tag, instead of a single counter for the whole pool. This allows
      to create many more unique handles.
    - sokol_gfx.h now has a dummy backend, activated by defining SOKOL_DUMMY_BACKEND
      (instead of SOKOL_METAL, SOKOL_D3D11, ...), this allows to write
      'headless' tests (and there's now a sokol-gfx-test in the sokol-samples
      repository which mainly tests the resource pool system)

- **12-Jan-2019**: sokol_gfx.h - setting the pipeline state and resource
bindings now happens in separate calls, specifically:
    - *sg_apply_draw_state()* has been replaced with *sg_apply_pipeline()* and
    *sg_apply_bindings()*
    - the *sg_draw_state* struct has been replaced with *sg_bindings*
    - *sg_apply_uniform_block()* has been renamed to *sg_apply_uniforms()*

All existing code will still work. See [this blog
post](https://floooh.github.io/2019/01/12/sokol-apply-pipeline.html) for
details.

- **29-Oct-2018**:
    - sokol_gfx.h has a new function **sg_append_buffer()** which allows to
    append new data to a buffer multiple times per frame and interleave this
    with draw calls. This basically implements the
    D3D11_MAP_WRITE_NO_OVERWRITE update strategy for buffer objects. For
    example usage, see the updated Dear ImGui samples in the [sokol_samples
    repo](https://github.com/floooh/sokol-samples)
    - the GL state cache in sokol_gfx.h handles buffers bindings in a
    more robust way, previously it might have happened that the
    buffer binding gets confused when creating buffers or updating
    buffer contents in the render loop

- **17-Oct-2018**: sokol_args.h added

- **26-Sep-2018**: sokol_audio.h ready for prime time :)

- **11-May-2018**: sokol_gfx.h now autodetects iOS vs MacOS in the Metal
backend during compilation using the standard define TARGET_OS_IPHONE defined
in the TargetConditionals.h system header, please replace the old
backend-selection defines SOKOL_METAL_MACOS and SOKOL_METAL_IOS with
**SOKOL_METAL**

- **20-Apr-2018**: 3 new context-switching functions have been added
to make it possible to use sokol together with applications that
use multiple GL contexts. On D3D11 and Metal, the functions are currently
empty. See the new section ```WORKING WITH CONTEXTS``` in the sokol_gfx.h
header documentation, and the new sample [multiwindow-glfw](https://github.com/floooh/sokol-samples/blob/master/glfw/multiwindow-glfw.c)

- **31-Jan-2018**: The vertex layout declaration in sg\_pipeline\_desc had
some fairly subtle flaws and has been changed to work like Metal or Vulkan.
The gist is that the vertex-buffer-layout properties (vertex stride,
vertex-step-rate and -step-function for instancing) is now defined in a
separate array from the vertex attributes. This removes some brittle backend
code which tries to guess the right vertex attribute slot if no attribute
names are given, and which was wrong for shader-code-generation pipelines
which reorder the vertex attributes (I stumbled over this when porting the
Oryol Gfx module over to sokol-gfx). Some code samples:

```c
// a complete vertex layout declaration with a single input buffer
// with two vertex attributes
sg_pipeline pip = sg_make_pipeline(&(sg_pipeline_desc){
    .layout = {
        .buffers = {
            [0] = {
                .stride = 20,
                .step_func = SG_VERTEXSTEP_PER_VERTEX,
                .step_rate = 1
            }
        },
        .attrs = {
            [0] = {
                .name = "pos",
                .offset = 0,
                .format = SG_VERTEXFORMAT_FLOAT3,
                .buffer_index = 0
            },
            [1] = {
                .name = "uv",
                .offset = 12,
                .format = SG_VERTEXFORMAT_FLOAT2,
                .buffer_index = 0
            }
        }
    },
    ...
});

// if the vertex layout has no gaps, we can get rid of the strides and offsets:
sg_pipeline pip = sg_make_pipeline(&(sg_pipeline_desc){
    .layout = {
        .buffers = {
            [0] = {
                .step_func = SG_VERTEXSTEP_PER_VERTEX,
                .step_rate=1
            }
        },
        .attrs = {
            [0] = {
                .name = "pos",
                .format = SG_VERTEXFORMAT_FLOAT3,
                .buffer_index = 0
            },
            [1] = {
                .name = "uv",
                .format = SG_VERTEXFORMAT_FLOAT2,
                .buffer_index = 0
            }
        }
    },
    ...
});

// we can also get rid of the other default-values, which leaves buffers[0]
// as all-defaults, so it can disappear completely:
sg_pipeline pip = sg_make_pipeline(&(sg_pipeline_desc){
    .layout = {
        .attrs = {
            [0] = { .name = "pos", .format = SG_VERTEXFORMAT_FLOAT3 },
            [1] = { .name = "uv", .format = SG_VERTEXFORMAT_FLOAT2 }
        }
    },
    ...
});

// and finally on GL3.3 and Metal and we don't need the attribute names
// (on D3D11, a semantic name and index must be provided though)
sg_pipeline pip = sg_make_pipeline(&(sg_pipeline_desc){
    .layout = {
        .attrs = {
            [0] = { .format = SG_VERTEXFORMAT_FLOAT3 },
            [1] = { .format = SG_VERTEXFORMAT_FLOAT2 }
        }
    },
    ...
});
```

Please check the sample code in https://github.com/floooh/sokol-samples for
more examples!

Enjoy!