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+%% @copyright 2007 Mochi Media, Inc.
+%% @author Bob Ippolito <bob@mochimedia.com>
+
+%% @doc Useful numeric algorithms for floats that cover some deficiencies
+%% in the math module. More interesting is digits/1, which implements
+%% the algorithm from:
+%% http://www.cs.indiana.edu/~burger/fp/index.html
+%% See also "Printing Floating-Point Numbers Quickly and Accurately"
+%% in Proceedings of the SIGPLAN '96 Conference on Programming Language
+%% Design and Implementation.
+
+-module(mochinum).
+-author("Bob Ippolito <bob@mochimedia.com>").
+-export([digits/1, frexp/1, int_pow/2, int_ceil/1]).
+
+%% IEEE 754 Float exponent bias
+-define(FLOAT_BIAS, 1022).
+-define(MIN_EXP, -1074).
+-define(BIG_POW, 4503599627370496).
+
+%% External API
+
+%% @spec digits(number()) -> string()
+%% @doc Returns a string that accurately represents the given integer or float
+%% using a conservative amount of digits. Great for generating
+%% human-readable output, or compact ASCII serializations for floats.
+digits(N) when is_integer(N) ->
+ integer_to_list(N);
+digits(0.0) ->
+ "0.0";
+digits(Float) ->
+ {Frac, Exp} = frexp(Float),
+ Exp1 = Exp - 53,
+ Frac1 = trunc(abs(Frac) * (1 bsl 53)),
+ [Place | Digits] = digits1(Float, Exp1, Frac1),
+ R = insert_decimal(Place, [$0 + D || D <- Digits]),
+ case Float < 0 of
+ true ->
+ [$- | R];
+ _ ->
+ R
+ end.
+
+%% @spec frexp(F::float()) -> {Frac::float(), Exp::float()}
+%% @doc Return the fractional and exponent part of an IEEE 754 double,
+%% equivalent to the libc function of the same name.
+%% F = Frac * pow(2, Exp).
+frexp(F) ->
+ frexp1(unpack(F)).
+
+%% @spec int_pow(X::integer(), N::integer()) -> Y::integer()
+%% @doc Moderately efficient way to exponentiate integers.
+%% int_pow(10, 2) = 100.
+int_pow(_X, 0) ->
+ 1;
+int_pow(X, N) when N > 0 ->
+ int_pow(X, N, 1).
+
+%% @spec int_ceil(F::float()) -> integer()
+%% @doc Return the ceiling of F as an integer. The ceiling is defined as
+%% F when F == trunc(F);
+%% trunc(F) when F &lt; 0;
+%% trunc(F) + 1 when F &gt; 0.
+int_ceil(X) ->
+ T = trunc(X),
+ case (X - T) of
+ Neg when Neg < 0 -> T;
+ Pos when Pos > 0 -> T + 1;
+ _ -> T
+ end.
+
+
+%% Internal API
+
+int_pow(X, N, R) when N < 2 ->
+ R * X;
+int_pow(X, N, R) ->
+ int_pow(X * X, N bsr 1, case N band 1 of 1 -> R * X; 0 -> R end).
+
+insert_decimal(0, S) ->
+ "0." ++ S;
+insert_decimal(Place, S) when Place > 0 ->
+ L = length(S),
+ case Place - L of
+ 0 ->
+ S ++ ".0";
+ N when N < 0 ->
+ {S0, S1} = lists:split(L + N, S),
+ S0 ++ "." ++ S1;
+ N when N < 6 ->
+ %% More places than digits
+ S ++ lists:duplicate(N, $0) ++ ".0";
+ _ ->
+ insert_decimal_exp(Place, S)
+ end;
+insert_decimal(Place, S) when Place > -6 ->
+ "0." ++ lists:duplicate(abs(Place), $0) ++ S;
+insert_decimal(Place, S) ->
+ insert_decimal_exp(Place, S).
+
+insert_decimal_exp(Place, S) ->
+ [C | S0] = S,
+ S1 = case S0 of
+ [] ->
+ "0";
+ _ ->
+ S0
+ end,
+ Exp = case Place < 0 of
+ true ->
+ "e-";
+ false ->
+ "e+"
+ end,
+ [C] ++ "." ++ S1 ++ Exp ++ integer_to_list(abs(Place - 1)).
+
+
+digits1(Float, Exp, Frac) ->
+ Round = ((Frac band 1) =:= 0),
+ case Exp >= 0 of
+ true ->
+ BExp = 1 bsl Exp,
+ case (Frac =/= ?BIG_POW) of
+ true ->
+ scale((Frac * BExp * 2), 2, BExp, BExp,
+ Round, Round, Float);
+ false ->
+ scale((Frac * BExp * 4), 4, (BExp * 2), BExp,
+ Round, Round, Float)
+ end;
+ false ->
+ case (Exp =:= ?MIN_EXP) orelse (Frac =/= ?BIG_POW) of
+ true ->
+ scale((Frac * 2), 1 bsl (1 - Exp), 1, 1,
+ Round, Round, Float);
+ false ->
+ scale((Frac * 4), 1 bsl (2 - Exp), 2, 1,
+ Round, Round, Float)
+ end
+ end.
+
+scale(R, S, MPlus, MMinus, LowOk, HighOk, Float) ->
+ Est = int_ceil(math:log10(abs(Float)) - 1.0e-10),
+ %% Note that the scheme implementation uses a 326 element look-up table
+ %% for int_pow(10, N) where we do not.
+ case Est >= 0 of
+ true ->
+ fixup(R, S * int_pow(10, Est), MPlus, MMinus, Est,
+ LowOk, HighOk);
+ false ->
+ Scale = int_pow(10, -Est),
+ fixup(R * Scale, S, MPlus * Scale, MMinus * Scale, Est,
+ LowOk, HighOk)
+ end.
+
+fixup(R, S, MPlus, MMinus, K, LowOk, HighOk) ->
+ TooLow = case HighOk of
+ true ->
+ (R + MPlus) >= S;
+ false ->
+ (R + MPlus) > S
+ end,
+ case TooLow of
+ true ->
+ [(K + 1) | generate(R, S, MPlus, MMinus, LowOk, HighOk)];
+ false ->
+ [K | generate(R * 10, S, MPlus * 10, MMinus * 10, LowOk, HighOk)]
+ end.
+
+generate(R0, S, MPlus, MMinus, LowOk, HighOk) ->
+ D = R0 div S,
+ R = R0 rem S,
+ TC1 = case LowOk of
+ true ->
+ R =< MMinus;
+ false ->
+ R < MMinus
+ end,
+ TC2 = case HighOk of
+ true ->
+ (R + MPlus) >= S;
+ false ->
+ (R + MPlus) > S
+ end,
+ case TC1 of
+ false ->
+ case TC2 of
+ false ->
+ [D | generate(R * 10, S, MPlus * 10, MMinus * 10,
+ LowOk, HighOk)];
+ true ->
+ [D + 1]
+ end;
+ true ->
+ case TC2 of
+ false ->
+ [D];
+ true ->
+ case R * 2 < S of
+ true ->
+ [D];
+ false ->
+ [D + 1]
+ end
+ end
+ end.
+
+unpack(Float) ->
+ <<Sign:1, Exp:11, Frac:52>> = <<Float:64/float>>,
+ {Sign, Exp, Frac}.
+
+frexp1({_Sign, 0, 0}) ->
+ {0.0, 0};
+frexp1({Sign, 0, Frac}) ->
+ Exp = log2floor(Frac),
+ <<Frac1:64/float>> = <<Sign:1, ?FLOAT_BIAS:11, (Frac-1):52>>,
+ {Frac1, -(?FLOAT_BIAS) - 52 + Exp};
+frexp1({Sign, Exp, Frac}) ->
+ <<Frac1:64/float>> = <<Sign:1, ?FLOAT_BIAS:11, Frac:52>>,
+ {Frac1, Exp - ?FLOAT_BIAS}.
+
+log2floor(Int) ->
+ log2floor(Int, 0).
+
+log2floor(0, N) ->
+ N;
+log2floor(Int, N) ->
+ log2floor(Int bsr 1, 1 + N).
+
+
+%%
+%% Tests
+%%
+-include_lib("eunit/include/eunit.hrl").
+-ifdef(TEST).
+
+int_ceil_test() ->
+ 1 = int_ceil(0.0001),
+ 0 = int_ceil(0.0),
+ 1 = int_ceil(0.99),
+ 1 = int_ceil(1.0),
+ -1 = int_ceil(-1.5),
+ -2 = int_ceil(-2.0),
+ ok.
+
+int_pow_test() ->
+ 1 = int_pow(1, 1),
+ 1 = int_pow(1, 0),
+ 1 = int_pow(10, 0),
+ 10 = int_pow(10, 1),
+ 100 = int_pow(10, 2),
+ 1000 = int_pow(10, 3),
+ ok.
+
+digits_test() ->
+ ?assertEqual("0",
+ digits(0)),
+ ?assertEqual("0.0",
+ digits(0.0)),
+ ?assertEqual("1.0",
+ digits(1.0)),
+ ?assertEqual("-1.0",
+ digits(-1.0)),
+ ?assertEqual("0.1",
+ digits(0.1)),
+ ?assertEqual("0.01",
+ digits(0.01)),
+ ?assertEqual("0.001",
+ digits(0.001)),
+ ?assertEqual("1.0e+6",
+ digits(1000000.0)),
+ ?assertEqual("0.5",
+ digits(0.5)),
+ ?assertEqual("4503599627370496.0",
+ digits(4503599627370496.0)),
+ %% small denormalized number
+ %% 4.94065645841246544177e-324
+ <<SmallDenorm/float>> = <<0,0,0,0,0,0,0,1>>,
+ ?assertEqual("4.9406564584124654e-324",
+ digits(SmallDenorm)),
+ ?assertEqual(SmallDenorm,
+ list_to_float(digits(SmallDenorm))),
+ %% large denormalized number
+ %% 2.22507385850720088902e-308
+ <<BigDenorm/float>> = <<0,15,255,255,255,255,255,255>>,
+ ?assertEqual("2.225073858507201e-308",
+ digits(BigDenorm)),
+ ?assertEqual(BigDenorm,
+ list_to_float(digits(BigDenorm))),
+ %% small normalized number
+ %% 2.22507385850720138309e-308
+ <<SmallNorm/float>> = <<0,16,0,0,0,0,0,0>>,
+ ?assertEqual("2.2250738585072014e-308",
+ digits(SmallNorm)),
+ ?assertEqual(SmallNorm,
+ list_to_float(digits(SmallNorm))),
+ %% large normalized number
+ %% 1.79769313486231570815e+308
+ <<LargeNorm/float>> = <<127,239,255,255,255,255,255,255>>,
+ ?assertEqual("1.7976931348623157e+308",
+ digits(LargeNorm)),
+ ?assertEqual(LargeNorm,
+ list_to_float(digits(LargeNorm))),
+ ok.
+
+frexp_test() ->
+ %% zero
+ {0.0, 0} = frexp(0.0),
+ %% one
+ {0.5, 1} = frexp(1.0),
+ %% negative one
+ {-0.5, 1} = frexp(-1.0),
+ %% small denormalized number
+ %% 4.94065645841246544177e-324
+ <<SmallDenorm/float>> = <<0,0,0,0,0,0,0,1>>,
+ {0.5, -1073} = frexp(SmallDenorm),
+ %% large denormalized number
+ %% 2.22507385850720088902e-308
+ <<BigDenorm/float>> = <<0,15,255,255,255,255,255,255>>,
+ {0.99999999999999978, -1022} = frexp(BigDenorm),
+ %% small normalized number
+ %% 2.22507385850720138309e-308
+ <<SmallNorm/float>> = <<0,16,0,0,0,0,0,0>>,
+ {0.5, -1021} = frexp(SmallNorm),
+ %% large normalized number
+ %% 1.79769313486231570815e+308
+ <<LargeNorm/float>> = <<127,239,255,255,255,255,255,255>>,
+ {0.99999999999999989, 1024} = frexp(LargeNorm),
+ ok.
+
+-endif.