unleashed-firmware/applications/system/js_app/modules/js_math.c

#include "../js_modules.h"
#include "furi_hal_random.h"
#include <float.h>

#define JS_MATH_PI ((double)M_PI)
#define JS_MATH_E ((double)M_E)
#define JS_MATH_EPSILON ((double)DBL_EPSILON)

#define TAG "JsMath"

static void ret_bad_args(struct mjs* mjs, const char* error) {
    mjs_prepend_errorf(mjs, MJS_BAD_ARGS_ERROR, "%s", error);
    mjs_return(mjs, MJS_UNDEFINED);
}

static bool check_args(struct mjs* mjs, size_t count) {
    size_t num_args = mjs_nargs(mjs);
    if(num_args != count) {
        ret_bad_args(mjs, "Wrong argument count");
        return false;
    }
    for(size_t i = 0; i < count; i++) {
        if(!mjs_is_number(mjs_arg(mjs, i))) {
            ret_bad_args(mjs, "Wrong argument type");
            return false;
        }
    }
    return true;
}

void js_math_is_equal(struct mjs* mjs) {
    if(!check_args(mjs, 3)) {
        return;
    }

    double a = mjs_get_double(mjs, mjs_arg(mjs, 0));
    double b = mjs_get_double(mjs, mjs_arg(mjs, 1));
    double e = mjs_get_double(mjs, mjs_arg(mjs, 2));
    double f = fabs(a - b);

    mjs_return(mjs, mjs_mk_boolean(mjs, (f <= e)));
}

void js_math_abs(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));

    mjs_return(mjs, mjs_mk_number(mjs, fabs(x)));
}

void js_math_acos(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));
    if(x < (double)-1. || x > (double)1.) {
        ret_bad_args(mjs, "Invalid input value for math.acos");
        return;
    }

    mjs_return(mjs, mjs_mk_number(mjs, acos(x)));
}

void js_math_acosh(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));
    if(x < (double)1.) {
        ret_bad_args(mjs, "Invalid input value for math.acosh");
        return;
    }

    mjs_return(mjs, mjs_mk_number(mjs, log(x + sqrt(x * x - (double)1.))));
}

void js_math_asin(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));

    mjs_return(mjs, mjs_mk_number(mjs, asin(x)));
}

void js_math_asinh(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));

    mjs_return(mjs, mjs_mk_number(mjs, log(x + sqrt(x * x + (double)1.))));
}

void js_math_atan(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));

    mjs_return(mjs, mjs_mk_number(mjs, atan(x)));
}

void js_math_atan2(struct mjs* mjs) {
    if(!check_args(mjs, 2)) {
        return;
    }

    double y = mjs_get_double(mjs, mjs_arg(mjs, 0));
    double x = mjs_get_double(mjs, mjs_arg(mjs, 1));

    mjs_return(mjs, mjs_mk_number(mjs, atan2(y, x)));
}

void js_math_atanh(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));
    if(x < (double)-1. || x > (double)1.) {
        ret_bad_args(mjs, "Invalid input value for math.atanh");
        return;
    }

    mjs_return(mjs, mjs_mk_number(mjs, (double)0.5 * log(((double)1. + x) / ((double)1. - x))));
}

void js_math_cbrt(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));

    mjs_return(mjs, mjs_mk_number(mjs, cbrt(x)));
}

void js_math_ceil(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));
    mjs_return(mjs, mjs_mk_number(mjs, ceil(x)));
}

void js_math_clz32(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    unsigned int x = (unsigned int)mjs_get_int(mjs, mjs_arg(mjs, 0));
    int count = 0;
    while(x) {
        x >>= 1;
        count++;
    }

    mjs_return(mjs, mjs_mk_number(mjs, 32 - count));
}

void js_math_cos(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));

    mjs_return(mjs, mjs_mk_number(mjs, cos(x)));
}

void js_math_exp(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));

    mjs_return(mjs, mjs_mk_number(mjs, exp(x)));
}

void js_math_floor(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));

    mjs_return(mjs, mjs_mk_number(mjs, floor(x)));
}

void js_math_log(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));
    if(x <= 0) {
        ret_bad_args(mjs, "Invalid input value for math.log");
        return;
    }

    mjs_return(mjs, mjs_mk_number(mjs, log(x)));
}

void js_math_max(struct mjs* mjs) {
    if(!check_args(mjs, 2)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));
    double y = mjs_get_double(mjs, mjs_arg(mjs, 1));

    mjs_return(mjs, mjs_mk_number(mjs, x > y ? x : y));
}

void js_math_min(struct mjs* mjs) {
    if(!check_args(mjs, 2)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));
    double y = mjs_get_double(mjs, mjs_arg(mjs, 1));

    mjs_return(mjs, mjs_mk_number(mjs, x < y ? x : y));
}

void js_math_pow(struct mjs* mjs) {
    if(!check_args(mjs, 2)) {
        return;
    }

    double base = mjs_get_double(mjs, mjs_arg(mjs, 0));
    double exponent = mjs_get_double(mjs, mjs_arg(mjs, 1));

    mjs_return(mjs, mjs_mk_number(mjs, pow(base, exponent)));
}

void js_math_random(struct mjs* mjs) {
    if(!check_args(mjs, 0)) {
        return;
    }

    // double clearly provides more bits for entropy then we pack
    // 32bit should be enough for now, but fix it maybe
    const uint32_t random_val = furi_hal_random_get();
    double rnd = (double)random_val / (double)FURI_HAL_RANDOM_MAX;

    mjs_return(mjs, mjs_mk_number(mjs, rnd));
}

void js_math_sign(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));

    mjs_return(
        mjs,
        mjs_mk_number(
            mjs, fabs(x) <= JS_MATH_EPSILON ? 0 : (x < (double)0. ? (double)-1.0 : (double)1.0)));
}

void js_math_sin(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));

    mjs_return(mjs, mjs_mk_number(mjs, sin(x)));
}

void js_math_sqrt(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));
    if(x < (double)0.) {
        ret_bad_args(mjs, "Invalid input value for math.sqrt");
        return;
    }

    mjs_return(mjs, mjs_mk_number(mjs, sqrt(x)));
}

void js_math_trunc(struct mjs* mjs) {
    if(!check_args(mjs, 1)) {
        return;
    }

    double x = mjs_get_double(mjs, mjs_arg(mjs, 0));

    mjs_return(mjs, mjs_mk_number(mjs, x < (double)0. ? ceil(x) : floor(x)));
}

static void* js_math_create(struct mjs* mjs, mjs_val_t* object) {
    mjs_val_t math_obj = mjs_mk_object(mjs);
    mjs_set(mjs, math_obj, "is_equal", ~0, MJS_MK_FN(js_math_is_equal));
    mjs_set(mjs, math_obj, "abs", ~0, MJS_MK_FN(js_math_abs));
    mjs_set(mjs, math_obj, "acos", ~0, MJS_MK_FN(js_math_acos));
    mjs_set(mjs, math_obj, "acosh", ~0, MJS_MK_FN(js_math_acosh));
    mjs_set(mjs, math_obj, "asin", ~0, MJS_MK_FN(js_math_asin));
    mjs_set(mjs, math_obj, "asinh", ~0, MJS_MK_FN(js_math_asinh));
    mjs_set(mjs, math_obj, "atan", ~0, MJS_MK_FN(js_math_atan));
    mjs_set(mjs, math_obj, "atan2", ~0, MJS_MK_FN(js_math_atan2));
    mjs_set(mjs, math_obj, "atanh", ~0, MJS_MK_FN(js_math_atanh));
    mjs_set(mjs, math_obj, "cbrt", ~0, MJS_MK_FN(js_math_cbrt));
    mjs_set(mjs, math_obj, "ceil", ~0, MJS_MK_FN(js_math_ceil));
    mjs_set(mjs, math_obj, "clz32", ~0, MJS_MK_FN(js_math_clz32));
    mjs_set(mjs, math_obj, "cos", ~0, MJS_MK_FN(js_math_cos));
    mjs_set(mjs, math_obj, "exp", ~0, MJS_MK_FN(js_math_exp));
    mjs_set(mjs, math_obj, "floor", ~0, MJS_MK_FN(js_math_floor));
    mjs_set(mjs, math_obj, "log", ~0, MJS_MK_FN(js_math_log));
    mjs_set(mjs, math_obj, "max", ~0, MJS_MK_FN(js_math_max));
    mjs_set(mjs, math_obj, "min", ~0, MJS_MK_FN(js_math_min));
    mjs_set(mjs, math_obj, "pow", ~0, MJS_MK_FN(js_math_pow));
    mjs_set(mjs, math_obj, "random", ~0, MJS_MK_FN(js_math_random));
    mjs_set(mjs, math_obj, "sign", ~0, MJS_MK_FN(js_math_sign));
    mjs_set(mjs, math_obj, "sin", ~0, MJS_MK_FN(js_math_sin));
    mjs_set(mjs, math_obj, "sqrt", ~0, MJS_MK_FN(js_math_sqrt));
    mjs_set(mjs, math_obj, "trunc", ~0, MJS_MK_FN(js_math_trunc));
    mjs_set(mjs, math_obj, "PI", ~0, mjs_mk_number(mjs, JS_MATH_PI));
    mjs_set(mjs, math_obj, "E", ~0, mjs_mk_number(mjs, JS_MATH_E));
    mjs_set(mjs, math_obj, "EPSILON", ~0, mjs_mk_number(mjs, JS_MATH_EPSILON));
    *object = math_obj;
    return (void*)1;
}

static const JsModuleDescriptor js_math_desc = {
    "math",
    js_math_create,
    NULL,
};

static const FlipperAppPluginDescriptor plugin_descriptor = {
    .appid = PLUGIN_APP_ID,
    .ep_api_version = PLUGIN_API_VERSION,
    .entry_point = &js_math_desc,
};

const FlipperAppPluginDescriptor* js_math_ep(void) {
    return &plugin_descriptor;
}