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good_upscaler
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import math

from typing import Any, Callable, Mapping

DEFAULT_FLOAT = ("FLOAT", {"default": 0.0})

FLOAT_UNARY_OPERATIONS: Mapping[str, Callable[[float], float]] = {
    "Neg": lambda a: -a,
    "Inc": lambda a: a + 1,
    "Dec": lambda a: a - 1,
    "Abs": lambda a: abs(a),
    "Sqr": lambda a: a * a,
    "Cube": lambda a: a * a * a,
    "Sqrt": lambda a: math.sqrt(a),
    "Exp": lambda a: math.exp(a),
    "Ln": lambda a: math.log(a),
    "Log10": lambda a: math.log10(a),
    "Log2": lambda a: math.log2(a),
    "Sin": lambda a: math.sin(a),
    "Cos": lambda a: math.cos(a),
    "Tan": lambda a: math.tan(a),
    "Asin": lambda a: math.asin(a),
    "Acos": lambda a: math.acos(a),
    "Atan": lambda a: math.atan(a),
    "Sinh": lambda a: math.sinh(a),
    "Cosh": lambda a: math.cosh(a),
    "Tanh": lambda a: math.tanh(a),
    "Asinh": lambda a: math.asinh(a),
    "Acosh": lambda a: math.acosh(a),
    "Atanh": lambda a: math.atanh(a),
    "Round": lambda a: round(a),
    "Floor": lambda a: math.floor(a),
    "Ceil": lambda a: math.ceil(a),
    "Trunc": lambda a: math.trunc(a),
    "Erf": lambda a: math.erf(a),
    "Erfc": lambda a: math.erfc(a),
    "Gamma": lambda a: math.gamma(a),
    "Radians": lambda a: math.radians(a),
    "Degrees": lambda a: math.degrees(a),
}

FLOAT_UNARY_CONDITIONS: Mapping[str, Callable[[float], bool]] = {
    "IsZero": lambda a: a == 0.0,
    "IsPositive": lambda a: a > 0.0,
    "IsNegative": lambda a: a < 0.0,
    "IsNonZero": lambda a: a != 0.0,
    "IsPositiveInfinity": lambda a: math.isinf(a) and a > 0.0,
    "IsNegativeInfinity": lambda a: math.isinf(a) and a < 0.0,
    "IsNaN": lambda a: math.isnan(a),
    "IsFinite": lambda a: math.isfinite(a),
    "IsInfinite": lambda a: math.isinf(a),
    "IsEven": lambda a: a % 2 == 0.0,
    "IsOdd": lambda a: a % 2 != 0.0,
}

FLOAT_BINARY_OPERATIONS: Mapping[str, Callable[[float, float], float]] = {
    "Add": lambda a, b: a + b,
    "Sub": lambda a, b: a - b,
    "Mul": lambda a, b: a * b,
    "Div": lambda a, b: a / b,
    "Mod": lambda a, b: a % b,
    "Pow": lambda a, b: a**b,
    "FloorDiv": lambda a, b: a // b,
    "Max": lambda a, b: max(a, b),
    "Min": lambda a, b: min(a, b),
    "Log": lambda a, b: math.log(a, b),
    "Atan2": lambda a, b: math.atan2(a, b),
}

FLOAT_BINARY_CONDITIONS: Mapping[str, Callable[[float, float], bool]] = {
    "Eq": lambda a, b: a == b,
    "Neq": lambda a, b: a != b,
    "Gt": lambda a, b: a > b,
    "Gte": lambda a, b: a >= b,
    "Lt": lambda a, b: a < b,
    "Lte": lambda a, b: a <= b,
}


class FloatUnaryOperation:
    @classmethod
    def INPUT_TYPES(cls) -> Mapping[str, Any]:
        return {
            "required": {
                "op": (list(FLOAT_UNARY_OPERATIONS.keys()),),
                "a": DEFAULT_FLOAT,
            }
        }

    RETURN_TYPES = ("FLOAT",)
    FUNCTION = "op"
    CATEGORY = "math/float"

    def op(self, op: str, a: float) -> tuple[float]:
        return (FLOAT_UNARY_OPERATIONS[op](a),)


class FloatUnaryCondition:
    @classmethod
    def INPUT_TYPES(cls) -> Mapping[str, Any]:
        return {
            "required": {
                "op": (list(FLOAT_UNARY_CONDITIONS.keys()),),
                "a": DEFAULT_FLOAT,
            }
        }

    RETURN_TYPES = ("BOOL",)
    FUNCTION = "op"
    CATEGORY = "math/float"

    def op(self, op: str, a: float) -> tuple[bool]:
        return (FLOAT_UNARY_CONDITIONS[op](a),)


class FloatBinaryOperation:
    @classmethod
    def INPUT_TYPES(cls) -> Mapping[str, Any]:
        return {
            "required": {
                "op": (list(FLOAT_BINARY_OPERATIONS.keys()),),
                "a": DEFAULT_FLOAT,
                "b": DEFAULT_FLOAT,
            }
        }

    RETURN_TYPES = ("FLOAT",)
    FUNCTION = "op"
    CATEGORY = "math/float"

    def op(self, op: str, a: float, b: float) -> tuple[float]:
        return (FLOAT_BINARY_OPERATIONS[op](a, b),)


class FloatBinaryCondition:
    @classmethod
    def INPUT_TYPES(cls) -> Mapping[str, Any]:
        return {
            "required": {
                "op": (list(FLOAT_BINARY_CONDITIONS.keys()),),
                "a": DEFAULT_FLOAT,
                "b": DEFAULT_FLOAT,
            }
        }

    RETURN_TYPES = ("BOOL",)
    FUNCTION = "op"
    CATEGORY = "math/float"

    def op(self, op: str, a: float, b: float) -> tuple[bool]:
        return (FLOAT_BINARY_CONDITIONS[op](a, b),)


NODE_CLASS_MAPPINGS = {
    "CM_FloatUnaryOperation": FloatUnaryOperation,
    "CM_FloatUnaryCondition": FloatUnaryCondition,
    "CM_FloatBinaryOperation": FloatBinaryOperation,
    "CM_FloatBinaryCondition": FloatBinaryCondition,
}