mirror of
https://github.com/KolibriOS/kolibrios.git
synced 2024-12-15 11:22:34 +03:00
2f54c7de00
git-svn-id: svn://kolibrios.org@8097 a494cfbc-eb01-0410-851d-a64ba20cac60
465 lines
7.9 KiB
Plaintext
465 lines
7.9 KiB
Plaintext
(*
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BSD 2-Clause License
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Copyright (c) 2020, Anton Krotov
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All rights reserved.
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*)
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MODULE FPU;
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CONST
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INF = 07F800000H;
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NINF = 0FF800000H;
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NAN = 07FC00000H;
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PROCEDURE div2 (b, a: INTEGER): INTEGER;
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VAR
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n, e, r, s: INTEGER;
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BEGIN
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s := ORD(BITS(a) / BITS(b) - {0..30});
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e := (a DIV 800000H) MOD 256 - (b DIV 800000H) MOD 256 + 127;
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a := a MOD 800000H + 800000H;
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b := b MOD 800000H + 800000H;
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n := 800000H;
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r := 0;
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IF a < b THEN
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a := a * 2;
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DEC(e)
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END;
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WHILE (a > 0) & (n > 0) DO
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IF a >= b THEN
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INC(r, n);
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DEC(a, b)
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END;
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a := a * 2;
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n := n DIV 2
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END;
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IF e <= 0 THEN
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e := 0;
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r := 800000H;
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s := 0
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ELSIF e >= 255 THEN
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e := 255;
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r := 800000H
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END
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RETURN (r - 800000H) + e * 800000H + s
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END div2;
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PROCEDURE mul2 (b, a: INTEGER): INTEGER;
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VAR
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e, r, s: INTEGER;
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BEGIN
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s := ORD(BITS(a) / BITS(b) - {0..30});
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e := (a DIV 800000H) MOD 256 + (b DIV 800000H) MOD 256 - 127;
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a := a MOD 800000H + 800000H;
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b := b MOD 800000H + 800000H;
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r := a * (b MOD 256);
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b := b DIV 256;
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r := LSR(r, 8);
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INC(r, a * (b MOD 256));
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b := b DIV 256;
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r := LSR(r, 8);
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INC(r, a * (b MOD 256));
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r := LSR(r, 7);
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IF r >= 1000000H THEN
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r := r DIV 2;
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INC(e)
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END;
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IF e <= 0 THEN
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e := 0;
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r := 800000H;
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s := 0
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ELSIF e >= 255 THEN
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e := 255;
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r := 800000H
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END
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RETURN (r - 800000H) + e * 800000H + s
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END mul2;
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PROCEDURE add2 (b, a: INTEGER): INTEGER;
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VAR
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ea, eb, e, d, r: INTEGER;
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BEGIN
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ea := (a DIV 800000H) MOD 256;
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eb := (b DIV 800000H) MOD 256;
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d := ea - eb;
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a := a MOD 800000H + 800000H;
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b := b MOD 800000H + 800000H;
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IF d > 0 THEN
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IF d < 24 THEN
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b := LSR(b, d)
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ELSE
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b := 0
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END;
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e := ea
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ELSIF d < 0 THEN
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IF d > -24 THEN
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a := LSR(a, -d)
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ELSE
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a := 0
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END;
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e := eb
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ELSE
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e := ea
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END;
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r := a + b;
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IF r >= 1000000H THEN
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r := r DIV 2;
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INC(e)
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END;
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IF e >= 255 THEN
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e := 255;
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r := 800000H
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END
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RETURN (r - 800000H) + e * 800000H
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END add2;
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PROCEDURE sub2 (b, a: INTEGER): INTEGER;
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VAR
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ea, eb, e, d, r, s: INTEGER;
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BEGIN
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ea := (a DIV 800000H) MOD 256;
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eb := (b DIV 800000H) MOD 256;
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a := a MOD 800000H + 800000H;
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b := b MOD 800000H + 800000H;
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d := ea - eb;
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IF (d > 0) OR (d = 0) & (a >= b) THEN
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s := 0
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ELSE
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ea := eb;
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d := -d;
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r := a;
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a := b;
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b := r;
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s := 80000000H
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END;
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e := ea;
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IF d > 0 THEN
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IF d < 24 THEN
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b := LSR(b, d)
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ELSE
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b := 0
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END
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END;
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r := a - b;
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IF r = 0 THEN
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e := 0;
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r := 800000H;
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s := 0
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ELSE
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WHILE r < 800000H DO
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r := r * 2;
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DEC(e)
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END
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END;
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IF e <= 0 THEN
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e := 0;
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r := 800000H;
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s := 0
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END
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RETURN (r - 800000H) + e * 800000H + s
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END sub2;
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PROCEDURE zero (VAR x: INTEGER);
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BEGIN
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IF BITS(x) * {23..30} = {} THEN
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x := 0
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END
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END zero;
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PROCEDURE isNaN (a: INTEGER): BOOLEAN;
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RETURN (a > INF) OR (a < 0) & (a > NINF)
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END isNaN;
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PROCEDURE isInf (a: INTEGER): BOOLEAN;
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RETURN (a = INF) OR (a = NINF)
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END isInf;
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PROCEDURE isNormal (a: INTEGER): BOOLEAN;
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RETURN (BITS(a) * {23..30} # {23..30}) & (BITS(a) * {23..30} # {})
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END isNormal;
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PROCEDURE add* (b, a: INTEGER): INTEGER;
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VAR
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r: INTEGER;
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BEGIN
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zero(a); zero(b);
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IF isNormal(a) & isNormal(b) THEN
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IF (a > 0) & (b > 0) THEN
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r := add2(b, a)
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ELSIF (a < 0) & (b < 0) THEN
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r := add2(b, a) + 80000000H
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ELSIF (a > 0) & (b < 0) THEN
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r := sub2(b, a)
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ELSIF (a < 0) & (b > 0) THEN
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r := sub2(a, b)
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END
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ELSIF isNaN(a) OR isNaN(b) THEN
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r := NAN
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ELSIF isInf(a) & isInf(b) THEN
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IF a = b THEN
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r := a
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ELSE
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r := NAN
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END
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ELSIF isInf(a) THEN
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r := a
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ELSIF isInf(b) THEN
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r := b
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ELSIF a = 0 THEN
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r := b
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ELSIF b = 0 THEN
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r := a
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END
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RETURN r
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END add;
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PROCEDURE sub* (b, a: INTEGER): INTEGER;
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VAR
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r: INTEGER;
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BEGIN
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zero(a); zero(b);
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IF isNormal(a) & isNormal(b) THEN
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IF (a > 0) & (b > 0) THEN
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r := sub2(b, a)
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ELSIF (a < 0) & (b < 0) THEN
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r := sub2(a, b)
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ELSIF (a > 0) & (b < 0) THEN
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r := add2(b, a)
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ELSIF (a < 0) & (b > 0) THEN
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r := add2(b, a) + 80000000H
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END
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ELSIF isNaN(a) OR isNaN(b) THEN
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r := NAN
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ELSIF isInf(a) & isInf(b) THEN
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IF a # b THEN
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r := a
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ELSE
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r := NAN
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END
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ELSIF isInf(a) THEN
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r := a
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ELSIF isInf(b) THEN
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r := INF + ORD(BITS(b) / {31} - {0..30})
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ELSIF (a = 0) & (b = 0) THEN
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r := 0
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ELSIF a = 0 THEN
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r := ORD(BITS(b) / {31})
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ELSIF b = 0 THEN
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r := a
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END
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RETURN r
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END sub;
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PROCEDURE mul* (b, a: INTEGER): INTEGER;
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VAR
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r: INTEGER;
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BEGIN
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zero(a); zero(b);
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IF isNormal(a) & isNormal(b) THEN
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r := mul2(b, a)
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ELSIF isNaN(a) OR isNaN(b) THEN
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r := NAN
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ELSIF (isInf(a) & (b = 0)) OR (isInf(b) & (a = 0)) THEN
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r := NAN
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ELSIF isInf(a) OR isInf(b) THEN
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r := INF + ORD(BITS(a) / BITS(b) - {0..30})
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ELSIF (a = 0) OR (b = 0) THEN
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r := 0
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END
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RETURN r
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END mul;
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PROCEDURE _div* (b, a: INTEGER): INTEGER;
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VAR
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r: INTEGER;
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BEGIN
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zero(a); zero(b);
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IF isNormal(a) & isNormal(b) THEN
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r := div2(b, a)
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ELSIF isNaN(a) OR isNaN(b) THEN
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r := NAN
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ELSIF isInf(a) & isInf(b) THEN
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r := NAN
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ELSIF isInf(a) THEN
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r := INF + ORD(BITS(a) / BITS(b) - {0..30})
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ELSIF isInf(b) THEN
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r := 0
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ELSIF a = 0 THEN
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IF b = 0 THEN
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r := NAN
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ELSE
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r := 0
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END
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ELSIF b = 0 THEN
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IF a > 0 THEN
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r := INF
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ELSE
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r := NINF
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END
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END
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RETURN r
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END _div;
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PROCEDURE cmp* (op, b, a: INTEGER): BOOLEAN;
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VAR
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res: BOOLEAN;
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BEGIN
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zero(a); zero(b);
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IF isNaN(a) OR isNaN(b) THEN
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res := op = 1
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ELSIF (a < 0) & (b < 0) THEN
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CASE op OF
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|0: res := a = b
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|1: res := a # b
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|2: res := a > b
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|3: res := a >= b
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|4: res := a < b
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|5: res := a <= b
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END
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ELSE
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CASE op OF
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|0: res := a = b
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|1: res := a # b
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|2: res := a < b
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|3: res := a <= b
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|4: res := a > b
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|5: res := a >= b
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END
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END
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RETURN res
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END cmp;
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PROCEDURE flt* (x: INTEGER): INTEGER;
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VAR
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n, y, r, s: INTEGER;
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BEGIN
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IF x = 0 THEN
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s := 0;
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r := 800000H;
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n := -126
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ELSIF x = 80000000H THEN
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s := 80000000H;
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r := 800000H;
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n := 32
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ELSE
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IF x < 0 THEN
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s := 80000000H
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ELSE
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s := 0
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END;
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n := 0;
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y := ABS(x);
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r := y;
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WHILE y > 0 DO
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y := y DIV 2;
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INC(n)
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END;
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IF n > 24 THEN
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r := LSR(r, n - 24)
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ELSE
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r := LSL(r, 24 - n)
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END
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END
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RETURN (r - 800000H) + (n + 126) * 800000H + s
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END flt;
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PROCEDURE floor* (x: INTEGER): INTEGER;
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VAR
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r, e: INTEGER;
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BEGIN
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zero(x);
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e := (x DIV 800000H) MOD 256 - 127;
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r := x MOD 800000H + 800000H;
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IF (0 <= e) & (e <= 22) THEN
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r := LSR(r, 23 - e) + ORD((x < 0) & (LSL(r, e + 9) # 0))
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ELSIF (23 <= e) & (e <= 54) THEN
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r := LSL(r, e - 23)
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ELSIF (e < 0) & (x < 0) THEN
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r := 1
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ELSE
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r := 0
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END;
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IF x < 0 THEN
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r := -r
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END
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RETURN r
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END floor;
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END FPU. |