Here's a shell solution. The best algorithm seems to be #4. It filters out all words that are of incorrect length. Then, it sums the words using a simple substitution cipher (a=1, b=2, A=27, ...). If the sums match, then it will actually do the original sort and compare.
On my system, it can churn through ~235k words looking for "bat" in just under 1/2 second.
I'm providing all of my solutions so you can see the different approaches.

Update: not shown, but I also tried putting the sum inside the first bin of the histogram approach I tried, but it was even slower than the histograms without. I thought it would function as a short circuit, but it didn't work.

Update2: I tried the awk solution and it runs in about 1/3 the time of my best shell solution or ~0.126s versus ~0.490s. The perl solution runs ~1.1s.

```
#!/bin/bash
word=$1
#dict=words
dict=/usr/share/dict/words
#dict=/usr/dict/words
alg1() {
sortedWord=`echo $word | grep -o . | sort | tr -d '\n'`
while read line
do
sortedLine=`echo $line | grep -o . | sort | tr -d '\n'`
if [ "$sortedWord" == "$sortedLine" ]
then
echo $line
fi
done < $dict
}
check_sorted_versus_not() {
local word=$1
local line=`echo $2 | grep -o . | sort | tr -d '\n'`
if [ "$word" == "$line" ]
then
echo $2
fi
}
# Filter out all words of incorrect length
alg2() {
sortedWord=`echo $word | grep -o . | sort | tr -d '\n'`
grep_string="^`echo -n $word | tr 'a-zA-Z' '.'`\$"
grep "$grep_string" "$dict" | \
while read line
do
sortedLine=`echo $line | grep -o . | sort | tr -d '\n'`
if [ "$sortedWord" == "$sortedLine" ]
then
echo $line
fi
done
}
# Create a lot of variables like this:
# _a=1, _b=2, ... _z=26, _A=27, _B=28, ... _Z=52
gen_chars() {
# [ -n "$GEN_CHARS" ] && return
GEN_CHARS=1
local alpha="abcdefghijklmnopqrstuvwxyz"
local upperalpha=`echo -n $alpha | tr 'a-z' 'A-Z'`
local both="$alpha$upperalpha"
for ((i=0; i < ${#both}; i++))
do
ACHAR=${both:i:1}
eval "_$ACHAR=$((i+1))"
done
}
# I think it's faster to return the value in a var then to echo it in a sub process.
# Try summing the word one char at a time by building an arithmetic expression
# and then evaluate that expression.
# Requires: gen_chars
sum_word() {
SUM=0
local s=""
# parsing input one character at a time
for ((i=0; i < ${#1}; i++))
do
ACHAR=${1:i:1}
s="$s\$_$ACHAR+"
done
SUM=$(( $(eval echo -n ${s}0) ))
}
# I think it's faster to return the value in a var then to echo it in a sub process.
# Try summing the word one char at a time using a case statement.
sum_word2() {
SUM=0
local s=""
# parsing input one character at a time
for ((i=0; i < ${#1}; i++))
do
ACHAR=${1:i:1}
case $ACHAR in
a) SUM=$((SUM+ 1));;
b) SUM=$((SUM+ 2));;
c) SUM=$((SUM+ 3));;
d) SUM=$((SUM+ 4));;
e) SUM=$((SUM+ 5));;
f) SUM=$((SUM+ 6));;
g) SUM=$((SUM+ 7));;
h) SUM=$((SUM+ 8));;
i) SUM=$((SUM+ 9));;
j) SUM=$((SUM+ 10));;
k) SUM=$((SUM+ 11));;
l) SUM=$((SUM+ 12));;
m) SUM=$((SUM+ 13));;
n) SUM=$((SUM+ 14));;
o) SUM=$((SUM+ 15));;
p) SUM=$((SUM+ 16));;
q) SUM=$((SUM+ 17));;
r) SUM=$((SUM+ 18));;
s) SUM=$((SUM+ 19));;
t) SUM=$((SUM+ 20));;
u) SUM=$((SUM+ 21));;
v) SUM=$((SUM+ 22));;
w) SUM=$((SUM+ 23));;
x) SUM=$((SUM+ 24));;
y) SUM=$((SUM+ 25));;
z) SUM=$((SUM+ 26));;
A) SUM=$((SUM+ 27));;
B) SUM=$((SUM+ 28));;
C) SUM=$((SUM+ 29));;
D) SUM=$((SUM+ 30));;
E) SUM=$((SUM+ 31));;
F) SUM=$((SUM+ 32));;
G) SUM=$((SUM+ 33));;
H) SUM=$((SUM+ 34));;
I) SUM=$((SUM+ 35));;
J) SUM=$((SUM+ 36));;
K) SUM=$((SUM+ 37));;
L) SUM=$((SUM+ 38));;
M) SUM=$((SUM+ 39));;
N) SUM=$((SUM+ 40));;
O) SUM=$((SUM+ 41));;
P) SUM=$((SUM+ 42));;
Q) SUM=$((SUM+ 43));;
R) SUM=$((SUM+ 44));;
S) SUM=$((SUM+ 45));;
T) SUM=$((SUM+ 46));;
U) SUM=$((SUM+ 47));;
V) SUM=$((SUM+ 48));;
W) SUM=$((SUM+ 49));;
X) SUM=$((SUM+ 50));;
Y) SUM=$((SUM+ 51));;
Z) SUM=$((SUM+ 52));;
*) SUM=0; return;;
esac
done
}
# I think it's faster to return the value in a var then to echo it in a sub process.
# Try summing the word by building an arithmetic expression using sed and then evaluating
# the expression.
# Requires: gen_chars
sum_word3() {
SUM=$(( $(eval echo -n `echo -n $1 | sed -E -ne 's,.,$_&+,pg'`) 0))
#echo "SUM($1)=$SUM"
}
# Filter out all words of incorrect length
# Sum the characters in the word: i.e. a=1, b=2, ... and "abbc" = 1+2+2+3 = 8
alg3() {
gen_chars
sortedWord=`echo $word | grep -o . | sort | tr -d '\n'`
sum_word $word
word_sum=$SUM
grep_string="^`echo -n $word | tr 'a-zA-Z' '.'`\$"
grep "$grep_string" "$dict" | \
while read line
do
sum_word $line
line_sum=$SUM
if [ $word_sum == $line_sum ]
then
check_sorted_versus_not $sortedWord $line
fi
done
}
# Filter out all words of incorrect length
# Sum the characters in the word: i.e. a=1, b=2, ... and "abbc" = 1+2+2+3 = 8
# Use sum_word2
alg4() {
sortedWord=`echo $word | grep -o . | sort | tr -d '\n'`
sum_word2 $word
word_sum=$SUM
grep_string="^`echo -n $word | tr 'a-zA-Z' '.'`\$"
grep "$grep_string" "$dict" | \
while read line
do
sum_word2 $line
line_sum=$SUM
if [ $word_sum == $line_sum ]
then
check_sorted_versus_not $sortedWord $line
fi
done
}
# Filter out all words of incorrect length
# Sum the characters in the word: i.e. a=1, b=2, ... and "abbc" = 1+2+2+3 = 8
# Use sum_word3
alg5() {
gen_chars
sortedWord=`echo $word | grep -o . | sort | tr -d '\n'`
sum_word3 $word
word_sum=$SUM
grep_string="^`echo -n $word | tr 'a-zA-Z' '.'`\$"
grep "$grep_string" "$dict" | \
while read line
do
sum_word3 $line
line_sum=$SUM
if [ $word_sum == $line_sum ]
then
check_sorted_versus_not $sortedWord $line
fi
done
}
# I think it's faster to return the value in a var then to echo it in a sub process.
# Try summing the word one char at a time using a case statement.
# Place results in a histogram
sum_word4() {
SUM=(0 0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0 0
0 0 0 0 0 0
0 0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0 0
0 0 0 0 0 0
0)
# parsing input one character at a time
for ((i=0; i < ${#1}; i++))
do
ACHAR=${1:i:1}
case $ACHAR in
a) SUM[1]=$((SUM[ 1] + 1));;
b) SUM[2]=$((SUM[ 2] + 1));;
c) SUM[3]=$((SUM[ 3] + 1));;
d) SUM[4]=$((SUM[ 4] + 1));;
e) SUM[5]=$((SUM[ 5] + 1));;
f) SUM[6]=$((SUM[ 6] + 1));;
g) SUM[7]=$((SUM[ 7] + 1));;
h) SUM[8]=$((SUM[ 8] + 1));;
i) SUM[9]=$((SUM[ 9] + 1));;
j) SUM[10]=$((SUM[10] + 1));;
k) SUM[11]=$((SUM[11] + 1));;
l) SUM[12]=$((SUM[12] + 1));;
m) SUM[13]=$((SUM[13] + 1));;
n) SUM[14]=$((SUM[14] + 1));;
o) SUM[15]=$((SUM[15] + 1));;
p) SUM[16]=$((SUM[16] + 1));;
q) SUM[17]=$((SUM[17] + 1));;
r) SUM[18]=$((SUM[18] + 1));;
s) SUM[19]=$((SUM[19] + 1));;
t) SUM[20]=$((SUM[20] + 1));;
u) SUM[21]=$((SUM[21] + 1));;
v) SUM[22]=$((SUM[22] + 1));;
w) SUM[23]=$((SUM[23] + 1));;
x) SUM[24]=$((SUM[24] + 1));;
y) SUM[25]=$((SUM[25] + 1));;
z) SUM[26]=$((SUM[26] + 1));;
A) SUM[27]=$((SUM[27] + 1));;
B) SUM[28]=$((SUM[28] + 1));;
C) SUM[29]=$((SUM[29] + 1));;
D) SUM[30]=$((SUM[30] + 1));;
E) SUM[31]=$((SUM[31] + 1));;
F) SUM[32]=$((SUM[32] + 1));;
G) SUM[33]=$((SUM[33] + 1));;
H) SUM[34]=$((SUM[34] + 1));;
I) SUM[35]=$((SUM[35] + 1));;
J) SUM[36]=$((SUM[36] + 1));;
K) SUM[37]=$((SUM[37] + 1));;
L) SUM[38]=$((SUM[38] + 1));;
M) SUM[39]=$((SUM[39] + 1));;
N) SUM[40]=$((SUM[40] + 1));;
O) SUM[41]=$((SUM[41] + 1));;
P) SUM[42]=$((SUM[42] + 1));;
Q) SUM[43]=$((SUM[43] + 1));;
R) SUM[44]=$((SUM[44] + 1));;
S) SUM[45]=$((SUM[45] + 1));;
T) SUM[46]=$((SUM[46] + 1));;
U) SUM[47]=$((SUM[47] + 1));;
V) SUM[48]=$((SUM[48] + 1));;
W) SUM[49]=$((SUM[49] + 1));;
X) SUM[50]=$((SUM[50] + 1));;
Y) SUM[51]=$((SUM[51] + 1));;
Z) SUM[52]=$((SUM[52] + 1));;
*) SUM[53]=-1; return;;
esac
done
#echo ${SUM[*]}
}
# Check if two histograms are equal
hist_are_equal() {
# Array sizes differ?
[ ${#_h1[*]} != ${#SUM[*]} ] && return 1
# parsing input one index at a time
for ((i=0; i < ${#_h1[*]}; i++))
do
[ ${_h1[i]} != ${SUM[i]} ] && return 1
done
return 0
}
# Check if two histograms are equal
hist_are_equal2() {
# Array sizes differ?
local size=${#_h1[*]}
[ $size != ${#SUM[*]} ] && return 1
# parsing input one index at a time
for ((i=0; i < $size; i++))
do
[ ${_h1[i]} != ${SUM[i]} ] && return 1
done
return 0
}
# Filter out all words of incorrect length
# Use sum_word4 which generates a histogram of character frequency
alg6() {
sum_word4 $word
_h1=${SUM[*]}
grep_string="^`echo -n $word | tr 'a-zA-Z' '.'`\$"
grep "$grep_string" "$dict" | \
while read line
do
sum_word4 $line
if hist_are_equal
then
echo $line
fi
done
}
# Filter out all words of incorrect length
# Use sum_word4 which generates a histogram of character frequency
alg7() {
sum_word4 $word
_h1=${SUM[*]}
grep_string="^`echo -n $word | tr 'a-zA-Z' '.'`\$"
grep "$grep_string" "$dict" | \
while read line
do
sum_word4 $line
if hist_are_equal2
then
echo $line
fi
done
}
run_test() {
echo alg$1
eval time alg$1
}
#run_test 1
#run_test 2
#run_test 3
run_test 4
#run_test 5
run_test 6
#run_test 7
```

`look => kolo,look`

due to the double o's.