-module(gleam@float). -compile(no_auto_import). -export([parse/1, to_string/1, clamp/3, compare/2, loosely_compare/3, min/2, max/2, ceiling/1, floor/1, round/1, truncate/1, absolute_value/1, power/2, square_root/1, negate/1, sum/1, product/1]). -spec parse(binary()) -> {ok, float()} | {error, nil}. parse(String) -> gleam_stdlib:parse_float(String). -spec to_string(float()) -> binary(). to_string(F) -> _pipe = F, _pipe@1 = gleam@string_builder:from_float(_pipe), gleam@string_builder:to_string(_pipe@1). -spec clamp(float(), float(), float()) -> float(). clamp(N, Min_bound, Max_bound) -> _pipe = N, _pipe@1 = min(_pipe, Max_bound), max(_pipe@1, Min_bound). -spec compare(float(), float()) -> gleam@order:order(). compare(A, B) -> case A =:= B of true -> eq; false -> case A < B of true -> lt; false -> gt end end. -spec loosely_compare(float(), float(), float()) -> gleam@order:order(). loosely_compare(A, B, Tolerance) -> Diff = absolute_value(A - B), case Diff =< Tolerance of true -> eq; false -> compare(A, B) end. -spec min(float(), float()) -> float(). min(A, B) -> case A < B of true -> A; false -> B end. -spec max(float(), float()) -> float(). max(A, B) -> case A > B of true -> A; false -> B end. -spec ceiling(float()) -> float(). ceiling(Float) -> math:ceil(Float). -spec floor(float()) -> float(). floor(Float) -> math:floor(Float). -spec round(float()) -> integer(). round(Float) -> erlang:round(Float). -spec truncate(float()) -> integer(). truncate(Float) -> erlang:trunc(Float). -spec absolute_value(float()) -> float(). absolute_value(Float) -> case Float >= 0.0 of true -> Float; _@1 -> 0.0 - Float end. -spec power(float(), float()) -> float(). power(Base, Exponent) -> math:pow(Base, Exponent). -spec square_root(float()) -> {ok, float()} | {error, nil}. square_root(Number) -> case Number < 0.0 of true -> {error, nil}; false -> {ok, power(Number, 0.5)} end. -spec negate(float()) -> float(). negate(X) -> -1.0 * X. -spec sum(list(float())) -> float(). sum(Numbers) -> _pipe = Numbers, do_sum(_pipe, 0.0). -spec do_sum(list(float()), float()) -> float(). do_sum(Numbers, Initial) -> case Numbers of [] -> Initial; [X | Rest] -> do_sum(Rest, X + Initial) end. -spec product(list(float())) -> float(). product(Numbers) -> case Numbers of [] -> 0.0; _@1 -> do_product(Numbers, 1.0) end. -spec do_product(list(float()), float()) -> float(). do_product(Numbers, Initial) -> case Numbers of [] -> Initial; [X | Rest] -> do_product(Rest, X * Initial) end.