#include "playback_backend.hpp"
void PlaybackBackend::init(const char *filename, int idx) {
    load(filename);
    switch_stream(idx);
}
void PlaybackBackend::load(const char *filename) {}
void PlaybackBackend::switch_stream(int idx) {}
void PlaybackBackend::cleanup() { }
size_t PlaybackBackend::render(void *buf, size_t maxlen) {
    return 0;
}
PlaybackBackend::map PlaybackBackend::backends = PlaybackBackend::map();
std::map<int, audio_data_t> data;
void init_audio_data() {
    audio_data_t tmp;
    tmp.size = sizeof(float);
    tmp.endian = false;
    tmp.is_float = true;
    tmp.is_signed = true;
    data[AUDIO_F32LSB] = tmp;
    tmp.endian = true;
    data[AUDIO_F32MSB] = tmp;
    tmp.size = sizeof(int32_t);
    tmp.is_float = false;
    data[AUDIO_S32MSB] = tmp;
    tmp.endian = false;
    data[AUDIO_S32LSB] = tmp;
    tmp.size = sizeof(int16_t);
    data[AUDIO_S16LSB] = tmp;
    tmp.endian = true;
    data[AUDIO_S16MSB] = tmp;
    tmp.is_signed = false;
    data[AUDIO_U16MSB] = tmp;
    tmp.endian = false;
    data[AUDIO_U16LSB] = tmp;
    tmp.size = sizeof(uint8_t);
    data[AUDIO_U8] = tmp;
    tmp.is_signed = true;
    data[AUDIO_S8] = tmp;
}
size_t size_of_sample_type(int type) {
    return data[type].size;
}
#define SAMPLE_TYPE_HAS_ENDIAN(type) (data[type].size > 1)
bool sample_type_has_endian(int type) {
    return SAMPLE_TYPE_HAS_ENDIAN(type);
}
bool sample_type_endian_msb(int type) {
    return SAMPLE_TYPE_HAS_ENDIAN(type) && data[type].endian;
}
bool sample_type_endian_lsb(int type) {
    return SAMPLE_TYPE_HAS_ENDIAN(type) && (!data[type].endian);
}
bool sample_type_is_float(int type) {
    return data[type].is_float;
}
bool sample_type_is_integer(int type) {
    return !data[type].is_float;
}
bool sample_type_is_signed(int type) {
    return data[type].is_signed;
}
bool sample_type_is_unsigned(int type) {
    return !data[type].is_signed;
}
int sample_spec_to_sdl(audio_data_t spec) {
    if (spec.is_float) {
        return spec.endian ? AUDIO_F32MSB : AUDIO_F32LSB;
    } else {
        switch (spec.size) {
            case 1:
                return spec.is_signed ? AUDIO_S8 : AUDIO_U8;
            case 2:
                if (spec.is_signed) {
                    return spec.endian ? AUDIO_S16MSB : AUDIO_S16LSB;
                } else {
                    return spec.endian ? AUDIO_U16MSB : AUDIO_U16LSB;
                }
            case 4:
                return spec.endian ? AUDIO_S32MSB : AUDIO_S32LSB;
        }
    }
    return 0;
}
audio_data_t sdl_to_sample_spec(int type) {
    return data[type];
}
std::string sdl_to_str(int type) {
    audio_data_t data = sdl_to_sample_spec(type);
    std::string signed_text[3] = {"Unsigned", "Signed", "Float"};
    char *bit_text_buf = (char*)calloc(8, 1);
    snprintf(bit_text_buf, 8, " %d-bit", (int)(data.size * 8));
    std::string bit_text = bit_text_buf;
    free(bit_text_buf);
    std::string endian_text[2] = {" (Little Endian", " (Big Endian"};
    if (AUDIO_U16SYS == AUDIO_U16LSB) {
        endian_text[0] += ", System";
    } else {
        endian_text[1] += ", System";
    }
    endian_text[0] += ")";
    endian_text[1] += ")";
    if (data.size == 1) {
        return signed_text[data.is_signed ? 1 : 0] + bit_text;
    } else {
        return signed_text[data.is_float ? 2 : data.is_signed ? 1 : 0] + bit_text + endian_text[data.endian ? 1 : 0];
    }
}