- 27A59F78F058FCD385EC1B2E7EDEF7D2A8936EE3BF81338A64C786BC5B208BEFA8FB424EABD630F4042E4B32FFC5D6222778837BD04EAD9BFF096BA12BC32EA1
+ A207AFCFF3ED13797843CA0F376E2E78404E8A2D695E06F4C8C1D3346FDAFB75B6BD507AEEB85CFD93D9CFF955FCD312C60BAFA2AA869EAB10500BBD6CB800EE
ffa/libffa/fz_arith.adb
(19 . 9)(19 . 52)
 24 
 25 with Word_Ops; use Word_Ops;
 26 
 27 
 28 -- Fundamental Arithmetic operators on FZ:
 29 package body FZ_Arith is
 30    
 31    -- Destructive Add: X := X + Y; Overflow := Carry; optional OF_In
 32    procedure FZ_Add_D(X          : in out FZ;
 33                       Y          : in     FZ;
 34                       Overflow   : out    WBool;
 35                       OF_In      : in     WBool := 0) is
 36       Carry : WBool := OF_In;
 37    begin
 38       for i in 0 .. Word_Index(X'Length - 1) loop
 39          declare
 40             A : constant Word := X(X'First + i);
 41             B : constant Word := Y(Y'First + i);
 42             S : constant Word := A + B + Carry;
 43          begin
 44             X(X'First + i) := S;
 45             Carry          := W_Carry(A, B, S);
 46          end;
 47       end loop;
 48       Overflow := Carry;
 49    end FZ_Add_D;
 50    pragma Inline_Always(FZ_Add_D);
 51    
 52    
 53    -- Destructive Add: X := X + W; Overflow := Carry
 54    procedure FZ_Add_D_W(X        : in out FZ;
 55                         W        : in     Word;
 56                         Overflow : out    WBool) is
 57       Carry : Word := W;
 58    begin
 59       for i in X'Range loop
 60          declare
 61             A : constant Word := X(I);
 62             S : constant Word := A + Carry;
 63          begin
 64             X(i)  := S;
 65             Carry := W_Carry(A, 0, S);
 66          end;
 67       end loop;
 68       Overflow := Carry;
 69    end FZ_Add_D_W;
 70    pragma Inline_Always(FZ_Add_D_W);
 71 
 72    
 73    -- Sum := X + Y; Overflow := Carry
 74    procedure FZ_Add(X          : in  FZ;
 75                     Y          : in  FZ;
(29 . 13)(72 . 13)
 77                     Overflow   : out WBool) is
 78       Carry : WBool := 0;
 79    begin
 80       for i in X'Range loop
 81       for i in 0 .. Word_Index(X'Length - 1) loop
 82          declare
 83             A : constant Word := X(I);
 84             B : constant Word := Y(I);
 85             A : constant Word := X(X'First + i);
 86             B : constant Word := Y(Y'First + i);
 87             S : constant Word := A + B + Carry;
 88          begin
 89             Sum(i) := S;
 90             Sum(Sum'First + i) := S;
 91             Carry  := W_Carry(A, B, S);
 92          end;
 93       end loop;
(103 . 4)(146 . 49)
 95    end FZ_Sub;
 96    pragma Inline_Always(FZ_Sub);
 97    
 98    
 99    -- Destructive: If Cond is 1, NotN := ~N; otherwise NotN := N.
100    procedure FZ_Not_Cond_D(N    : in out FZ;
101                            Cond : in     WBool)is
102       
103       -- The inversion mask
104       Inv : constant Word := 0 - Cond;
105       
106    begin
107       
108       for i in N'Range loop
109          
110          -- Invert (or, if Cond is 0, do nothing)
111          N(i) := N(i) xor Inv;
112          
113       end loop;
114       
115    end FZ_Not_Cond_D;
116    pragma Inline_Always(FZ_Not_Cond_D);
117    
118    
119    -- Subtractor that gets absolute value if underflowed, in const. time
120    procedure FZ_Sub_Abs(X          : in FZ;
121                         Y          : in FZ;
122                         Difference : out FZ;
123                         Underflow  : out WBool) is
124       
125       O : Word := 0;
126       pragma Unreferenced(O);
127       
128    begin
129       
130       -- First, we subtract normally
131       FZ_Sub(X, Y, Difference, Underflow);
132       
133       -- If borrow - negate,
134       FZ_Not_Cond_D(Difference, Underflow);
135       
136       -- ... and also increment.
137       FZ_Add_D_W(Difference, Underflow, O);
138       
139    end FZ_Sub_Abs;
140    pragma Inline_Always(FZ_Sub_Abs);
141    
142    
143 end FZ_Arith;