Subversion Repositories Games.Carmageddon

#include "backend.h"

#include "harness/config.h"

#include "miniaudio/miniaudio.h"

#include "resource.h"

#include "s3_defs.h"

#include <assert.h>

#include <stdio.h>

#include <string.h>

typedef struct tS3_sample_struct_miniaudio {

    ma_audio_buffer_ref buffer_ref;

    ma_sound sound;

    int init_volume;

    int init_pan;

    int init_new_rate;

    int initialized;

} tS3_sample_struct_miniaudio;

// dethrace

ma_engine miniaudio_engine;

tAudioBackend_error_code AudioBackend_Init(void) {

    ma_result result;

    ma_engine_config engineConfig;

    engineConfig = ma_engine_config_init();

    result = ma_engine_init(&engineConfig, &miniaudio_engine);

    if (result != MA_SUCCESS) {

        printf("Failed to initialize audio engine.");

        return eAB_error;

    }

    ma_engine_set_volume(&miniaudio_engine, harness_game_config.volume_multiplier);

    return eAB_success;

}

tAudioBackend_error_code AudioBackend_InitCDA(void) {

    return eAB_error;

}

void AudioBackend_UnInit(void) {

    ma_engine_uninit(&miniaudio_engine);

}

void AudioBackend_UnInitCDA(void) {

}

void* AudioBackend_AllocateSampleTypeStruct(void) {

    tS3_sample_struct_miniaudio* sample_struct;

    sample_struct = S3MemAllocate(sizeof(tS3_sample_struct_miniaudio), kMem_S3_DOS_SOS_channel);

    if (sample_struct == NULL) {

        return 0;

    }

    memset(sample_struct, 0, sizeof(tS3_sample_struct_miniaudio));

    return sample_struct;

}

tAudioBackend_error_code AudioBackend_PlaySample(tS3_channel* chan) {

    tS3_sample_struct_miniaudio* miniaudio;

    tS3_sample* sample_data;

    ma_result result;

    ma_int32 flags;

    miniaudio = (tS3_sample_struct_miniaudio*)chan->type_struct_sample;

    assert(miniaudio != NULL);

    sample_data = (tS3_sample*)chan->descriptor->sound_data;

    assert(sample_data != NULL);

    result = ma_audio_buffer_ref_init(ma_format_u8, sample_data->channels, sample_data->dataptr, sample_data->size / sample_data->channels, &miniaudio->buffer_ref);

    miniaudio->buffer_ref.sampleRate = sample_data->rate;

    if (result != MA_SUCCESS) {

        return eAB_error;

    }

    flags = MA_SOUND_FLAG_DECODE | MA_SOUND_FLAG_NO_SPATIALIZATION;

    result = ma_sound_init_from_data_source(&miniaudio_engine, &miniaudio->buffer_ref, flags, NULL, &miniaudio->sound);

    if (result != MA_SUCCESS) {

        return eAB_error;

    }

    miniaudio->initialized = 1;

    if (miniaudio->init_volume > 0)

    {

       AudioBackend_SetVolume (chan, miniaudio->init_volume);

       AudioBackend_SetPan (chan, miniaudio->init_pan);

       AudioBackend_SetFrequency (chan, miniaudio->init_new_rate);

    }

    ma_sound_set_looping(&miniaudio->sound, chan->repetitions == 0);

    ma_sound_start(&miniaudio->sound);

    return eAB_success;

}

int AudioBackend_SoundIsPlaying(tS3_channel* chan) {

    tS3_sample_struct_miniaudio* miniaudio;

    miniaudio = (tS3_sample_struct_miniaudio*)chan->type_struct_sample;

    assert(miniaudio != NULL);

    if (ma_sound_is_playing(&miniaudio->sound)) {

        return 1;

    }

    return 0;

}

tAudioBackend_error_code AudioBackend_SetVolume(tS3_channel* chan, int volume) {

    tS3_sample_struct_miniaudio* miniaudio;

    float linear_volume;

    miniaudio = (tS3_sample_struct_miniaudio*)chan->type_struct_sample;

    assert(miniaudio != NULL);

    if (!miniaudio->initialized)

    {

       miniaudio->init_volume = volume;

       return eAB_success;

    }

    linear_volume = volume / 510.0f;

    ma_sound_set_volume(&miniaudio->sound, linear_volume);

    return eAB_success;

}

tAudioBackend_error_code AudioBackend_SetPan(tS3_channel* chan, int pan) {

    tS3_sample_struct_miniaudio* miniaudio;

    miniaudio = (tS3_sample_struct_miniaudio*)chan->type_struct_sample;

    assert(miniaudio != NULL);

    if (!miniaudio->initialized)

    {

       miniaudio->init_pan = pan;

       return eAB_success;

    }

    // convert from directsound -10000 - 10000 pan scale

    ma_sound_set_pan(&miniaudio->sound, pan / 10000.0f);

    return eAB_success;

}

tAudioBackend_error_code AudioBackend_SetFrequency(tS3_channel* chan, int rate) {

    tS3_sample_struct_miniaudio* miniaudio;

    tS3_sample* sample_data;

    miniaudio = (tS3_sample_struct_miniaudio*)chan->type_struct_sample;

    assert(miniaudio != NULL);

    if (!miniaudio->initialized)

    {

       miniaudio->init_new_rate = rate;

       return eAB_success;

    }

    sample_data = (tS3_sample*)chan->descriptor->sound_data;

    // convert from directsound frequency to linear pitch scale

    ma_sound_set_pitch(&miniaudio->sound, (rate / (float)sample_data->rate));

    return eAB_success;

}

tAudioBackend_error_code AudioBackend_StopSample(tS3_channel* chan) {

    tS3_sample_struct_miniaudio* miniaudio;

    miniaudio = (tS3_sample_struct_miniaudio*)chan->type_struct_sample;

    assert(miniaudio != NULL);

    if (miniaudio->initialized) {

        ma_sound_stop(&miniaudio->sound);

        ma_sound_uninit(&miniaudio->sound);

        ma_audio_buffer_ref_uninit(&miniaudio->buffer_ref);

        miniaudio->initialized = 0;

    }

    return eAB_success;

}