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------------------------------------------------------------------------------
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-- --
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-- GNAT RUN-TIME COMPONENTS --
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-- --
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-- G N A T . H E A P _ S O R T _ G --
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-- --
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-- B o d y --
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-- --
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-- Copyright (C) 1995-2010, AdaCore --
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-- --
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-- GNAT is free software; you can redistribute it and/or modify it under --
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-- terms of the GNU General Public License as published by the Free Soft- --
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-- ware Foundation; either version 3, or (at your option) any later ver- --
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-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
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-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
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-- or FITNESS FOR A PARTICULAR PURPOSE. --
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-- --
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-- As a special exception under Section 7 of GPL version 3, you are granted --
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-- additional permissions described in the GCC Runtime Library Exception, --
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-- version 3.1, as published by the Free Software Foundation. --
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-- --
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-- You should have received a copy of the GNU General Public License and --
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-- a copy of the GCC Runtime Library Exception along with this program; --
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-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
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-- <http://www.gnu.org/licenses/>. --
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-- --
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-- GNAT was originally developed by the GNAT team at New York University. --
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-- Extensive contributions were provided by Ada Core Technologies Inc. --
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-- --
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------------------------------------------------------------------------------
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package body GNAT.Heap_Sort_G is
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----------
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-- Sort --
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----------
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-- We are using the classical heapsort algorithm (i.e. Floyd's Treesort3)
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-- as described by Knuth ("The Art of Programming", Volume III, first
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-- edition, section 5.2.3, p. 145-147) with the modification that is
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-- mentioned in exercise 18. For more details on this algorithm, see
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-- Robert B. K. Dewar PhD thesis "The use of Computers in the X-ray
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-- Phase Problem". University of Chicago, 1968, which was the first
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-- publication of the modification, which reduces the number of compares
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-- from 2NlogN to NlogN.
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procedure Sort (N : Natural) is
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Max : Natural := N;
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-- Current Max index in tree being sifted
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procedure Sift (S : Positive);
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-- This procedure sifts up node S, i.e. converts the subtree rooted
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-- at node S into a heap, given the precondition that any sons of
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-- S are already heaps. On entry, the contents of node S is found
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-- in the temporary (index 0), the actual contents of node S on
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-- entry are irrelevant. This is just a minor optimization to avoid
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-- what would otherwise be two junk moves in phase two of the sort.
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----------
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-- Sift --
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----------
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procedure Sift (S : Positive) is
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C : Positive := S;
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Son : Positive;
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Father : Positive;
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-- Note: by making the above all Positive, we ensure that a test
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-- against zero for the temporary location can be resolved on the
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-- basis of types when the routines are inlined.
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begin
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-- This is where the optimization is done, normally we would do a
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-- comparison at each stage between the current node and the larger
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-- of the two sons, and continue the sift only if the current node
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-- was less than this maximum. In this modified optimized version,
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-- we assume that the current node will be less than the larger
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-- son, and unconditionally sift up. Then when we get to the bottom
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-- of the tree, we check parents to make sure that we did not make
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-- a mistake. This roughly cuts the number of comparisons in half,
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-- since it is almost always the case that our assumption is correct.
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-- Loop to pull up larger sons
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loop
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Son := 2 * C;
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if Son < Max then
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if Lt (Son, Son + 1) then
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Son := Son + 1;
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end if;
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elsif Son > Max then
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exit;
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end if;
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Move (Son, C);
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C := Son;
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end loop;
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-- Loop to check fathers
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while C /= S loop
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Father := C / 2;
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if Lt (Father, 0) then
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Move (Father, C);
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C := Father;
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else
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exit;
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end if;
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end loop;
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-- Last step is to pop the sifted node into place
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Move (0, C);
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end Sift;
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-- Start of processing for Sort
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begin
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-- Phase one of heapsort is to build the heap. This is done by
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-- sifting nodes N/2 .. 1 in sequence.
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for J in reverse 1 .. N / 2 loop
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Move (J, 0);
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Sift (J);
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end loop;
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-- In phase 2, the largest node is moved to end, reducing the size
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-- of the tree by one, and the displaced node is sifted down from
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-- the top, so that the largest node is again at the top.
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while Max > 1 loop
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Move (Max, 0);
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Move (1, Max);
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Max := Max - 1;
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Sift (1);
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end loop;
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end Sort;
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end GNAT.Heap_Sort_G;
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