Files
jak-project/third-party/SDL/examples/audio/02-simple-playback-callback/simple-playback-callback.c
T
Tyler Wilding 1f6438e517 deps: update to SDL3 (#3852)
This PR updates to SDL3, and with it, adds a handful of new features.
Everything seems to work but I'm going to look over the code once last
time before merging, some of the API changes are hard to spot.

Fixes #2773

### Pressure sensitivity support for DS3 Controllers

SDL3 adds pressure sensitivity support for DS3 controllers on windows. I
have not tested on linux. The option is disabled by default.

On windows you will need https://docs.nefarius.at/projects/DsHidMini/
and to be using SXS mode.

### DualSense and Xbox One Trigger Effects

If enabled, Jak 2 will have certain trigger effects.  They are:
   - xbox1:
     - small vibrate when collecting dark eco
     - big vibrate when changing to dark jak
     - vibrate when shooting gun, proportional to gun type
   - ps5:
     - resistance when changing to dark jak
     - different gun shooting effects
       - red (resistance)
       - yellow (weapon trigger)
       - blue (vibrates)
       - purple (less resistance)
> **Gun Shooting effects are only enabled if the new "Swap R1 and R2"
option is enabled**

There are more effects that could be used in `dualsense_effects.cpp`,
but I only exposed the ones I needed to OpenGOAL. If a modder wants to
use some of the others and wires them up end-to-end, please consider
contributing that upstream.

### New ImGUI Menu

Added new imgui options for selecting the active controller, for those
people that struggle to select the initial controller.


![image](https://github.com/user-attachments/assets/48ff2985-d9ef-417a-b1f2-a25c74595935)

### Testing

The highlights of what I tested successfully:
   - display
     - [x] all mode switch permutations
     - [x] launch with all modes saved
- [x] switch monitors / unplug monitor that was active, how does it
handle it
     - [x] load with alternate monitor saved and all modes
     - [x] allowing hidpi doesnt break macos
   - controls
     - [x] keyboard and mouse still work
     - [x] pressure sensitivity on linux
2025-03-02 16:36:22 -05:00

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/*
* This example code creates a simple audio stream for playing sound, and
* generates a sine wave sound effect for it to play as time goes on. Unlike
* the previous example, this uses a callback to generate sound.
*
* This might be the path of least resistance if you're moving an SDL2
* program's audio code to SDL3.
*
* This code is public domain. Feel free to use it for any purpose!
*/
#define SDL_MAIN_USE_CALLBACKS 1 /* use the callbacks instead of main() */
#include <SDL3/SDL.h>
#include <SDL3/SDL_main.h>
/* We will use this renderer to draw into this window every frame. */
static SDL_Window *window = NULL;
static SDL_Renderer *renderer = NULL;
static SDL_AudioStream *stream = NULL;
static int current_sine_sample = 0;
/* this function will be called (usually in a background thread) when the audio stream is consuming data. */
static void SDLCALL FeedTheAudioStreamMore(void *userdata, SDL_AudioStream *astream, int additional_amount, int total_amount)
{
/* total_amount is how much data the audio stream is eating right now, additional_amount is how much more it needs
than what it currently has queued (which might be zero!). You can supply any amount of data here; it will take what
it needs and use the extra later. If you don't give it enough, it will take everything and then feed silence to the
hardware for the rest. Ideally, though, we always give it what it needs and no extra, so we aren't buffering more
than necessary. */
additional_amount /= sizeof (float); /* convert from bytes to samples */
while (additional_amount > 0) {
float samples[128]; /* this will feed 128 samples each iteration until we have enough. */
const int total = SDL_min(additional_amount, SDL_arraysize(samples));
int i;
/* generate a 440Hz pure tone */
for (i = 0; i < total; i++) {
const int freq = 440;
const float phase = current_sine_sample * freq / 8000.0f;
samples[i] = SDL_sinf(phase * 2 * SDL_PI_F);
current_sine_sample++;
}
/* wrapping around to avoid floating-point errors */
current_sine_sample %= 8000;
/* feed the new data to the stream. It will queue at the end, and trickle out as the hardware needs more data. */
SDL_PutAudioStreamData(astream, samples, total * sizeof (float));
additional_amount -= total; /* subtract what we've just fed the stream. */
}
}
/* This function runs once at startup. */
SDL_AppResult SDL_AppInit(void **appstate, int argc, char *argv[])
{
SDL_AudioSpec spec;
SDL_SetAppMetadata("Example Simple Audio Playback Callback", "1.0", "com.example.audio-simple-playback-callback");
if (!SDL_Init(SDL_INIT_VIDEO | SDL_INIT_AUDIO)) {
SDL_Log("Couldn't initialize SDL: %s", SDL_GetError());
return SDL_APP_FAILURE;
}
/* we don't _need_ a window for audio-only things but it's good policy to have one. */
if (!SDL_CreateWindowAndRenderer("examples/audio/simple-playback-callback", 640, 480, 0, &window, &renderer)) {
SDL_Log("Couldn't create window/renderer: %s", SDL_GetError());
return SDL_APP_FAILURE;
}
/* We're just playing a single thing here, so we'll use the simplified option.
We are always going to feed audio in as mono, float32 data at 8000Hz.
The stream will convert it to whatever the hardware wants on the other side. */
spec.channels = 1;
spec.format = SDL_AUDIO_F32;
spec.freq = 8000;
stream = SDL_OpenAudioDeviceStream(SDL_AUDIO_DEVICE_DEFAULT_PLAYBACK, &spec, FeedTheAudioStreamMore, NULL);
if (!stream) {
SDL_Log("Couldn't create audio stream: %s", SDL_GetError());
return SDL_APP_FAILURE;
}
/* SDL_OpenAudioDeviceStream starts the device paused. You have to tell it to start! */
SDL_ResumeAudioStreamDevice(stream);
return SDL_APP_CONTINUE; /* carry on with the program! */
}
/* This function runs when a new event (mouse input, keypresses, etc) occurs. */
SDL_AppResult SDL_AppEvent(void *appstate, SDL_Event *event)
{
if (event->type == SDL_EVENT_QUIT) {
return SDL_APP_SUCCESS; /* end the program, reporting success to the OS. */
}
return SDL_APP_CONTINUE; /* carry on with the program! */
}
/* This function runs once per frame, and is the heart of the program. */
SDL_AppResult SDL_AppIterate(void *appstate)
{
/* we're not doing anything with the renderer, so just blank it out. */
SDL_RenderClear(renderer);
SDL_RenderPresent(renderer);
/* all the work of feeding the audio stream is happening in a callback in a background thread. */
return SDL_APP_CONTINUE; /* carry on with the program! */
}
/* This function runs once at shutdown. */
void SDL_AppQuit(void *appstate, SDL_AppResult result)
{
/* SDL will clean up the window/renderer for us. */
}