ref: 0e233a0d60a1fcce5d12b6e926ae56e39f60cbcd
dir: /awk/sort.awk/
#!/bin/awk -f
# 1988, aho, kernighan and weinberger: the awk programming language, pp 153-174
function swap(X, a, b, t)
{
t = X[a]
X[a] = X[b]
X[b] = t
}
# quicksort
function qsort(X, left, right, i, last){
if(left >= right)
return
swap(X, left, left + int((right - left + 1) * rand()))
last = left
for(i=left+1; i<=right; i++)
if(X[i] < X[left])
swap(X, ++last, i)
swap(X, left, last)
qsort(X, left, last-1)
qsort(X, last+1, right)
}
function heapify(X, left, right, p, c){
for(p=left; (c=2*p)<=right; p=c){
if(c < right && X[c+1] > X[c])
c++
if(X[p] < X[c])
swap(X, c, p)
}
}
# heapsort
function hsort(X, n, i){
for(i=int(n/2); i>=1; i--) # phase 1
heapify(X, i, n)
for(i=n; i>1; i--){ # phase 2
swap(X, 1, i)
heapify(X, 1, i-1)
}
}
# insertion sort
function isort(X, n, i, j, t){
for(i=2; i<=n; i++)
for(j=i; j>1 && X[j-1] > X[j]; j--)
swap(X, j-1, j)
}
# graph topological sorting
# input: predecessor successor pairs
# representation: 3 tables:
# pcnt, scnt: predecessor and successor counts for a node
# slist[a,i]: ith successor of a node
function addnode(a, b){
if(!(a in pcnt))
pcnt[a] = 0 # add a to pcnt
pcnt[b]++
slist[a, ++scnt[a]] = b # add b to a's successors
}
# breadth-first search
# no topological sort is possible if graph has cycles
function bfs(){
# queue nodes with no predecessors
for(node in pcnt){
nodecnt++
if(pcnt[node] == 0)
X[++back] = node
}
# pop nodes, queue new nodes with no predecessors
for(front=1; front<=back; front++){
node = X[front]
for(i=1; i<=scnt[node]; i++)
if(--pcnt[slist[node,i]] == 0)
q[++back] = slist[node,i]
}
# nodes never queued up are involved in a cycle
if(back != nodecnt)
print "error: cyclic graph"
}
# depth-first search for cycles
function dfs(node, i, s){
visited[node] = 1
for(i=1; i<=scnt[node]; i++)
if(visited[s = slist[node,i]] == 0)
dfs(s)
else if(visited[s] == 1)
print "cycle with back edge (" node ", " s ")"
visited[node] = 2
X[pncnt++] = node
}
# depth-first (reverse) topological sort
function rtsort(){
for(node in pcnt){
nodecnt++
if(pcnt[node] == 0)
dfs(node)
}
if(pncnt != nodecnt)
print "error: cyclic graph"
}