* gcc.dg/store-motion-fgcse-sm.c (dg-final): Cleanup
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT LIBRARY COMPONENTS --
4 -- --
5 -- ADA.CONTAINERS.GENERIC_CONSTRAINED_ARRAY_SORT --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 2004-2009, Free Software Foundation, Inc. --
10 -- --
11 -- GNAT is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 3, or (at your option) any later ver- --
14 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
15 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
16 -- or FITNESS FOR A PARTICULAR PURPOSE. --
17 -- --
18 -- As a special exception under Section 7 of GPL version 3, you are granted --
19 -- additional permissions described in the GCC Runtime Library Exception, --
20 -- version 3.1, as published by the Free Software Foundation. --
21 -- --
22 -- You should have received a copy of the GNU General Public License and --
23 -- a copy of the GCC Runtime Library Exception along with this program; --
24 -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
25 -- <http://www.gnu.org/licenses/>. --
26 -- --
27 -- This unit was originally developed by Matthew J Heaney. --
28 ------------------------------------------------------------------------------
30 -- This algorithm was adapted from GNAT.Heap_Sort_G (see g-hesorg.ad[sb])
32 with System;
34 procedure Ada.Containers.Generic_Constrained_Array_Sort
35 (Container : in out Array_Type)
37 type T is range System.Min_Int .. System.Max_Int;
39 function To_Index (J : T) return Index_Type;
40 pragma Inline (To_Index);
42 procedure Sift (S : T);
44 A : Array_Type renames Container;
46 --------------
47 -- To_Index --
48 --------------
50 function To_Index (J : T) return Index_Type is
51 K : constant T'Base := Index_Type'Pos (A'First) + J - T'(1);
52 begin
53 return Index_Type'Val (K);
54 end To_Index;
56 Max : T := A'Length;
57 Temp : Element_Type;
59 ----------
60 -- Sift --
61 ----------
63 procedure Sift (S : T) is
64 C : T := S;
65 Son : T;
67 begin
68 loop
69 Son := 2 * C;
71 exit when Son > Max;
73 declare
74 Son_Index : Index_Type := To_Index (Son);
76 begin
77 if Son < Max then
78 if A (Son_Index) < A (Index_Type'Succ (Son_Index)) then
79 Son := Son + 1;
80 Son_Index := Index_Type'Succ (Son_Index);
81 end if;
82 end if;
84 A (To_Index (C)) := A (Son_Index); -- Move (Son, C);
85 end;
87 C := Son;
88 end loop;
90 while C /= S loop
91 declare
92 Father : constant T := C / 2;
93 begin
94 if A (To_Index (Father)) < Temp then -- Lt (Father, 0)
95 A (To_Index (C)) := A (To_Index (Father)); -- Move (Father, C)
96 C := Father;
97 else
98 exit;
99 end if;
100 end;
101 end loop;
103 A (To_Index (C)) := Temp; -- Move (0, C);
104 end Sift;
106 -- Start of processing for Generic_Constrained_Array_Sort
108 begin
109 for J in reverse 1 .. Max / 2 loop
110 Temp := Container (To_Index (J)); -- Move (J, 0);
111 Sift (J);
112 end loop;
114 while Max > 1 loop
115 Temp := A (To_Index (Max)); -- Move (Max, 0);
116 A (To_Index (Max)) := A (A'First); -- Move (1, Max);
118 Max := Max - 1;
119 Sift (1);
120 end loop;
121 end Ada.Containers.Generic_Constrained_Array_Sort;