Compare length of two strings: Difference between revisions
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{{Strings}}
<br><br>
=={{header|AArch64 Assembly}}==
{{works with|as|Raspberry Pi 3B version Buster 64 bits <br> or android 64 bits with application Termux }}
<syntaxhighlight lang AArch64 Assembly>
/* ARM assembly AARCH64 Raspberry PI 3B */
/* program complength64.s */
/************************************/
/* Constantes */
/************************************/
/* for this file see task include a file in language AArch64 assembly */
.include "../includeConstantesARM64.inc"
/************************************/
/* structures */
/************************************/
.struct 0
list_string: // string address
.struct list_string + 8
list_length: // string length
.struct list_length + 8
list_end:
/*********************************/
/* Initialized data */
/*********************************/
.data
szMessResult: .asciz "@ length : @\n"
szCarriageReturn: .asciz "\n"
szLibSort: .asciz "\nAfter sort\n"
szString1: .asciz "abcd"
szString2: .asciz "123456789"
szString3: .asciz "abcdef"
szString4: .asciz "1234567"
.align 4
tabStrings: .quad szString1 // string address array
.quad 0
.quad szString2
.quad 0
.quad szString3
.quad 0
.quad szString4
.quad 0
.equ NBTABSTRINGS, (. - tabStrings) / list_end // compute items number
/*********************************/
/* UnInitialized data */
/*********************************/
.bss
sZoneConv: .skip 24
/*********************************/
/* code section */
/*********************************/
.text
.global main
main: // entry of program
ldr x4,qAdrtabStrings // string array address
mov x5,#0 // indice
mov x6,#list_end // structure size
1: // item loop
madd x3,x5,x6,x4 // compute item address
ldr x0,[x3,#list_string] // load string address
bl stringRoutine // length string compute
str x0,[x3,#list_length] // store result in array
add x5,x5,#1 // increment indice
cmp x5,#NBTABSTRINGS // end ?
blt 1b // no -> loop
mov x0,x4 // string array address
mov x1,#0 // first item
mov x2,#NBTABSTRINGS // item number
bl insertionSort // sort
ldr x0,qAdrszLibSort
bl affichageMess
mov x0,x4 // string array address
mov x5,#0 // indice
mov x6,#list_end
2: // item loop
madd x3,x5,x6,x4
ldr x0,[x3,#list_string]
bl stringRoutine // use same routine for display result after sort
add x5,x5,#1
cmp x5,#NBTABSTRINGS // end ?
blt 2b // no -> loop
100: // standard end of the program
mov x0, #0 // return code
mov x8,EXIT
svc #0 // perform the system call
qAdrszCarriageReturn: .quad szCarriageReturn
qAdrszMessResult: .quad szMessResult
qAdrsZoneConv: .quad sZoneConv
qAdrtabStrings: .quad tabStrings
qAdrszLibSort: .quad szLibSort
/***************************************************/
/* string exec */
/***************************************************/
// x0 contains string address
// x0 return length
stringRoutine:
stp x1,lr,[sp,-16]! // save registers
stp x2,x3,[sp,-16]! // save registers
mov x3,x0 // save string address
mov x1,x0
ldr x0,qAdrszMessResult
bl strInsertAtCharInc // insert string in result message
mov x2,x0 // save new message address
mov x0,x3 // restaur string address
bl stringlength // compute length
mov x3,x0
ldr x1,qAdrsZoneConv
bl conversion10 // call decimal conversion
mov x0,x2
ldr x1,qAdrsZoneConv // insert conversion in message
bl strInsertAtCharInc
bl affichageMess // display result message
mov x0,x3
100:
ldp x2,x3,[sp],16 // restaur registers
ldp x1,lr,[sp],16 // restaur registers
ret
/***************************************************/
/* compute string length */
/***************************************************/
// x0 contains string address
stringlength:
stp x1,lr,[sp,-16]! // save registers
stp x2,x3,[sp,-16]! // save registers
mov x1,#-1 // init counter
1: // loop
add x1,x1,#1 // increment counter
ldrb w2,[x0,x1] // load byte string
cmp w2,#0 // zero final ?
bne 1b // no -> loop
mov x0,x1 // return length
100:
ldp x2,x3,[sp],16 // restaur registers
ldp x1,lr,[sp],16 // restaur registers
ret
/******************************************************************/
/* insertion sort */
/******************************************************************/
/* x0 contains the address of table */
/* x1 contains the first element */
/* x2 contains the number of element */
insertionSort:
stp x1,lr,[sp,-16]! // save registers
stp x2,x3,[sp,-16]! // save registers
stp x4,x5,[sp,-16]! // save registers
stp x6,x7,[sp,-16]! // save registers
stp x8,x9,[sp,-16]! // save registers
stp x10,x11,[sp,-16]! // save registers
mov x6,x0
mov x7,#list_end
add x3,x1,#1 // start index i
1: // start loop
madd x8,x7,x3,x6
ldr x10,[x8,#list_length] // load value A[i]
ldr x0,[x8,#list_string] // load string address A[i]
sub x5,x3,#1 // index j
2:
madd x9,x7,x5,x6
ldr x4,[x9,#list_length] // load value A[j]
cmp x4,x10 // compare value
bge 3f
add x5,x5,#1 // increment index j
madd x8,x7,x5,x6
str x4,[x8,#list_length] // store value A[j+1]
ldr x4,[x9,#list_string] // load string address
str x4,[x8,#list_string] // store string address
subs x5,x5,#2 // j = i - 1
cmp x5,x1 // compare with first item
bge 2b // loop if j >= first item
3:
add x5,x5,#1 // increment index j
madd x9,x7,x5,x6
str x10,[x9,#list_length] // store value A[i] in A[j+1]
str x0,[x9,#list_string] // and store string address
add x3,x3,#1 // increment index i
cmp x3,x2 // end ?
blt 1b // no -> loop
100:
ldp x10,x11,[sp],16 // restaur registers
ldp x8,x9,[sp],16 // restaur registers
ldp x6,x7,[sp],16 // restaur registers
ldp x4,x5,[sp],16 // restaur registers
ldp x2,x3,[sp],16 // restaur registers
ldp x1,lr,[sp],16 // restaur registers
ret
/***************************************************/
/* ROUTINES INCLUDE */
/***************************************************/
/* for this file see task include a file in language AArch64 assembly */
.include "../includeARM64.inc"
</syntaxhighlight>
<pre>
abcd length : 4
123456789 length : 9
abcdef length : 6
1234567 length : 7
After sort
123456789 length : 9
1234567 length : 7
abcdef length : 6
abcd length : 4
</pre>
=={{header|Ada}}==
<
procedure compare_lengths is
package string_vector is new ada.containers.indefinite_vectors
Line 39 ⟶ 248:
end loop;
end compare_lengths;
</syntaxhighlight>
{{out}}
./compare_lengths Like sands through the hourglass these are the days of our lives
Line 60 ⟶ 269:
Algol 68 does not have an in-built "LENGTH" operator, it does have operators LWB and UPB which return the lower bound and upper bound of an array and as strings are arrays of characters, LENGTH can easily be constructed from these.<br>
In most Algol 68 implementations such as Algol 68G and Rutgers Algol 68, the CHAR type is an 8-bit byte.
<
# returns the length of s using the builtin UPB and LWB operators #
OP LENGTH = ( STRING s )INT: ( UPB s + 1 ) - LWB s;
Line 71 ⟶ 280:
print string( not shorter );
IF LENGTH shorter <= LENGTH not shorter THEN print string( shorter ) FI
END</
{{out}}
<pre>
Line 80 ⟶ 289:
=={{header|APL}}==
For a good intro to APL, see [https://archive.org/details/apl-2-at-a-glance-brown-pakin-polivka/mode/2up APL2 At A Glance]
<syntaxhighlight lang="apl">
sv ← 'defg' 'hijklm' 'abc' 'abcd'
⍉(⍴¨sv[⍒sv]),[0.5]sv[⍒sv]
Line 87 ⟶ 296:
4 abcd
3 abc
</syntaxhighlight>
=={{header|ARM Assembly}}==
{{works with|as|Raspberry Pi <br> or android 32 bits with application Termux}}
<syntaxhighlight lang ARM Assembly>
/* ARM assembly Raspberry PI or android 32 bits */
/* program complength.s */
/* REMARK 1 : this program use routines in a include file
see task Include a file language arm assembly
for the routine affichageMess conversion10
see at end of this program the instruction include */
/* for constantes see task include a file in arm assembly */
/************************************/
/* Constantes */
/************************************/
.include "../constantes.inc"
/************************************/
/* structures */
/************************************/
.struct 0
list_string: @ string address
.struct list_string + 4
list_length: @ string length
.struct list_length + 4
list_end:
/*********************************/
/* Initialized data */
/*********************************/
.data
szMessResult: .asciz "@ length : @\n"
szCarriageReturn: .asciz "\n"
szLibSort: .asciz "\nAfter sort\n"
szString1: .asciz "abcd"
szString2: .asciz "123456789"
szString3: .asciz "abcdef"
szString4: .asciz "1234567"
.align 4
tabStrings: .int szString1 @ string address array
.int 0
.int szString2
.int 0
.int szString3
.int 0
.int szString4
.int 0
.equ NBTABSTRINGS, (. - tabStrings) / list_end @ compute items number
/*********************************/
/* UnInitialized data */
/*********************************/
.bss
sZoneConv: .skip 24
/*********************************/
/* code section */
/*********************************/
.text
.global main
main: @ entry of program
ldr r4,iAdrtabStrings @ string array address
mov r5,#0 @ indice
mov r6,#list_end @ structure size
1: @ item loop
mla r3,r5,r6,r4 @ compute item address
ldr r0,[r3,#list_string] @ load string address
bl stringRoutine @ length string compute
str r0,[r3,#list_length] @ store result in array
add r5,#1 @ increment indice
cmp r5,#NBTABSTRINGS @ end ?
blt 1b @ no -> loop
mov r0,r4 @ string array address
mov r1,#0 @ first item
mov r2,#NBTABSTRINGS @ item number
bl insertionSort @ sort
ldr r0,iAdrszLibSort
bl affichageMess
mov r0,r4 @ string array address
mov r5,#0 @ indice
mov r6,#list_end
2: @ item loop
mla r3,r5,r6,r4
ldr r0,[r3,#list_string]
bl stringRoutine @ use same routine for display result after sort
add r5,#1
cmp r5,#NBTABSTRINGS @ end ?
blt 2b @ no -> loop
100: @ standard end of the program
mov r0, #0 @ return code
mov r7, #EXIT @ request to exit program
svc #0 @ perform the system call
iAdrszCarriageReturn: .int szCarriageReturn
iAdrszMessResult: .int szMessResult
iAdrsZoneConv: .int sZoneConv
iAdrtabStrings: .int tabStrings
iAdrszLibSort: .int szLibSort
/***************************************************/
/* string exec */
/***************************************************/
// r0 contains string address
// r0 return length
stringRoutine:
push {r1-r3,lr} @ save registers
mov r3,r0 @ save string address
mov r1,r0
ldr r0,iAdrszMessResult
bl strInsertAtCharInc @ insert string in result message
mov r2,r0 @ save new message address
mov r0,r3 @ restaur string address
bl stringlength @ compute length
mov r3,r0
ldr r1,iAdrsZoneConv
bl conversion10 @ call decimal conversion
mov r0,r2
ldr r1,iAdrsZoneConv @ insert conversion in message
bl strInsertAtCharInc
bl affichageMess @ display result message
mov r0,r3
100:
pop {r1-r3,pc} @ restaur registers
/***************************************************/
/* compute string length */
/***************************************************/
// r0 contains string address
stringlength:
push {r1-r2,lr} @ save registers
mov r1,#-1 @ init counter
1: @ loop
add r1,#1 @ increment counter
ldrb r2,[r0,r1] @ load byte string
cmp r2,#0 @ zero final ?
bne 1b @ no -> loop
mov r0,r1 @ return length
100:
pop {r1-r2,pc} @ restaur registers
/******************************************************************/
/* insertion sort */
/******************************************************************/
/* r0 contains the address of table */
/* r1 contains the first element */
/* r2 contains the number of element */
insertionSort:
push {r1-r10,lr} @ save registers
mov r6,r0
mov r7,#list_end
add r3,r1,#1 @ start index i
1: @ start loop
mla r8,r7,r3,r6
ldr r10,[r8,#list_length] @ load value A[i]
ldr r0,[r8,#list_string] @ load string address A[i]
sub r5,r3,#1 @ index j
2:
mla r9,r7,r5,r6
ldr r4,[r9,#list_length] @ load value A[j]
cmp r4,r10 @ compare value
bge 3f
add r5,#1 @ increment index j
mla r8,r7,r5,r6
str r4,[r8,#list_length] @ store value A[j+1]
ldr r4,[r9,#list_string] @ load string address
str r4,[r8,#list_string] @ store string address
subs r5,#2 @ j = i - 1
cmp r5,r1 @ compare with first item
bge 2b @ loop if j >= first item
3:
add r5,#1 @ increment index j
mla r9,r7,r5,r6
str r10,[r9,#list_length] @ store value A[i] in A[j+1]
str r0,[r9,#list_string] @ and store string address
add r3,#1 @ increment index i
cmp r3,r2 @ end ?
blt 1b @ no -> loop
100:
pop {r1-r10,lr}
bx lr
/***************************************************/
/* ROUTINES INCLUDE */
/***************************************************/
.include "../affichage.inc"
</syntaxhighlight>
<pre>
abcd length : 4
123456789 length : 9
abcdef length : 6
1234567 length : 7
After sort
123456789 length : 9
1234567 length : 7
abcdef length : 6
abcd length : 4
</pre>
=={{header|Arturo}}==
<
map sort.descending.by:'v
map strs 'str -> #[s: str, v: size str]
Line 112 ⟶ 518:
]
print ["sorted strings (by length):" sortByLength ["abcd" "123456789" "abcdef" "1234567"]]</
{{out}}
Line 120 ⟶ 526:
=={{header|Asymptote}}==
<
void comp(string A, string B) {
Line 132 ⟶ 538:
}
comp("abcd", "123456789");</
{{out}}
<pre>123456789 9
Line 138 ⟶ 544:
=={{header|AutoHotkey}}==
<
sorted := []
Line 156 ⟶ 562:
}
}
MsgBox % result</
{{out}}
<pre>"123456789" has length 9 and is the longest string.
Line 164 ⟶ 570:
=={{header|AWK}}==
<syntaxhighlight lang="awk">
# syntax: GAWK -f COMPARE_LENGTH_OF_TWO_STRINGS.AWK
BEGIN {
Line 185 ⟶ 591:
}
}
</syntaxhighlight>
{{out}}
<pre>
Line 200 ⟶ 606:
5 hello
</pre>
=={{header|BASIC}}==
==={{header|Applesoft BASIC}}===
Printing CHR$(14) does nothing by default in Applesoft BASIC. Commodore BASIC appends spaces to numbers, but otherwise the [[Compare_length_of_two_strings#Commodore_BASIC]] code works the same in Applesoft BASIC.
{{out}}
<pre>*** (1) TWO STRINGS ***
LONGER STRING (13)
SHORT STRING (12)
*** (2) MORE THAN 2 STRINGS***
SHE DOESN'T STUDY GERMAN ON MONDAY (34)
EVERY CHILD LIKES AN ICE CREAM (30)
THE COURSE STARTS NEXT SUNDAY (29)
DOES SHE LIVE IN PARIS? (23)
SHE SWIMS EVERY MORNING (23)
THE EARTH IS SPHERICAL (22)
WE SEE THEM EVERY WEEK (22)
HE DOESN'T TEACH MATH (21)
CATS HATE WATER (15)
I LIKE TEA (10)
</pre>
==={{header|Commodore BASIC}}===
{{works with|Applesoft BASIC}}
{{works with|Commodore BASIC|2.0}}
{{works with|Commodore BASIC|3.5}}
<syntaxhighlight lang="gwbasic">0 REM ROSETTACODE.ORG
1 REM COMPARE LENGTH OF TWO STRINGS
2 REM GIVEN TWO STRINGS OF DIFFERENT
3 REM LENGTH, DETERMINE WHICH STRING IS
4 REM LONGER OR SHORTER.
5 REM PRINT BOTH STRINGS AND THEIR
6 REM LENGTH, ONE ON EACH LINE. PRINT
7 REM THE LONGER ONE FIRST.
8 REM
9 REM ********************************
10 REM
20 REM PRINT CHR$(14): REM CHANGE TO LOWER/UPPER CASE CHAR SET
30 GOSUB 200: REM 1 - COMPARE LENGTH OF 2 STRINGS
40 GOSUB 300: REM 2- MORE THAN 2 STRINGS
50 END
200 PRINT"*** (1) TWO STRINGS ***"
210 A$ = "SHORT STRING"
220 B$ = "LONGER STRING"
230 A = LEN(A$)
240 B = LEN(B$)
250 IF A>B THEN PRINT A$;" (";A;")": PRINT B$;" (";B;")"
260 IF A<=B THEN PRINT B$;" (";B;")": PRINT A$;" (";A;")"
270 PRINT: PRINT
280 RETURN
300 PRINT"*** (2) MORE THAN 2 STRINGS***"
310 DIM C$(100)
320 N = 0
330 READ A$
340 IF A$ = "$$$" THEN 400
350 N = N+1
360 C$(N) = A$
370 IF N = 100 THEN 400
380 GOTO 330
390 REM SORT THE STRINGS
400 FOR J=1 TO N-1
410 FOR I=1 TO N-J
420 IF LEN(C$(I)) < LEN(C$(I+1)) THEN A$=C$(I): C$(I)=C$(I+1): C$(I+1)=A$
430 NEXT
440 NEXT
450 REM PRINT OUT THE STRINGS
460 FOR I=1 TO N
470 PRINT C$(I);" (";LEN(C$(I));")"
480 NEXT
490 PRINT: PRINT
500 RETURN
1000 DATA "DOES SHE LIVE IN PARIS?"
1010 DATA "HE DOESN'T TEACH MATH"
1020 DATA "CATS HATE WATER"
1030 DATA "SHE DOESN'T STUDY GERMAN ON MONDAY"
1040 DATA "EVERY CHILD LIKES AN ICE CREAM"
1050 DATA "THE EARTH IS SPHERICAL"
1060 DATA "THE COURSE STARTS NEXT SUNDAY"
1070 DATA "SHE SWIMS EVERY MORNING"
1080 DATA "I LIKE TEA"
1090 DATA "WE SEE THEM EVERY WEEK"
1100 DATA "$$$"</syntaxhighlight>
{{out}}
<pre>
*** (1) TWO STRINGS ***
LONGER STRING ( 13 )
SHORT STRING ( 12 )
*** (2) MORE THAN 2 STRINGS***
SHE DOESN'T STUDY GERMAN ON MONDAY ( 34
)
EVERY CHILD LIKES AN ICE CREAM ( 30 )
THE COURSE STARTS NEXT SUNDAY ( 29 )
DOES SHE LIVE IN PARIS? ( 23 )
SHE SWIMS EVERY MORNING ( 23 )
THE EARTH IS SPHERICAL ( 22 )
WE SEE THEM EVERY WEEK ( 22 )
HE DOESN'T TEACH MATH ( 21 )
CATS HATE WATER ( 15 )
I LIKE TEA ( 10 )
</pre>
==={{header|BASIC256}}===
<syntaxhighlight lang="basic256">subroutine comp(A$, B$)
if length(A$) >= length(B$) then
print A$, length(A$)
print B$, length(B$)
else
print B$, length(B$)
print A$, length(A$)
end if
end subroutine
call comp("abcd", "123456789")</syntaxhighlight>
==={{header|Chipmunk Basic}}===
{{works with|Chipmunk Basic|3.6.4}}
The [[#True BASIC|True BASIC]] solution works without any changes.
==={{header|Gambas}}===
<syntaxhighlight lang="vbnet">Public Sub Main()
Compare("abcd", "123456789")
End
Sub Compare(A As String, B As String)
If Len(A) >= Len(B) Then
Print A, Len(A)
Print B, Len(B)
Else
Print B, Len(B)
Print A, Len(A)
End If
End Sub</syntaxhighlight>
==={{header|GW-BASIC}}===
{{works with|BASICA}}
{{works with|QBasic|1.1}}
{{works with|QuickBasic|4.5}}
{{works with|True BASIC}}
<syntaxhighlight lang="basic">
10 'SAVE "SSTRING",A
20 ' Length of a group of strings
30 OPTION BASE 1
40 DIM SSTRING$(10)
50 I=0: J=1
60 ' Begin of program cycle
70 CLS
80 PRINT "This program shows the length of up to 10 captured strings."
90 PRINT "Enter an empty string to finish anytime."
100 PRINT
110 ' Do
120 PRINT "Capture the string";STR$(J);": ";
130 INPUT "", SSTRING$(J)
140 IF SSTRING$(J)="" THEN 180 ' Exit Do
150 IF J>1 THEN GOSUB 280 ' Autosort
160 J = J + 1
170 IF J < 11 THEN 110 ' Loop
180 ' Show results
190 CLS
200 J = J - 1
210 IF J<1 THEN PRINT "You entered no strings.": GOTO 260
220 PRINT "You entered";J;"strings. Lengths are as follows:"
230 FOR I=1 TO J
240 PRINT USING "##. &: ## chars."; I;SSTRING$(I);LEN(SSTRING$(I))
250 NEXT I
260 PRINT: PRINT "End of program execution."
270 END
280 ' Autosort subroutine
290 I=J
300 WHILE I>1
310 IF LEN(SSTRING$(I)) > LEN(SSTRING$(I-1)) THEN SWAP SSTRING$(I), SSTRING$(I-1)
320 I=I-1
330 WEND
340 RETURN
</syntaxhighlight>
{{out}}
The user enters a list of up to 10 strings
<pre>
This program shows the length of up to 10 captured strings.
Enter an empty string to finish anytime.
Capture the string 1: abcd
Capture the string 2: 123456789
Capture the string 3: abcdef
Capture the string 4: 1234567
Capture the string 5:
You entered 4 strings. Lengths are as follows:
1. 123456789: 9 chars.
2. 1234567: 7 chars.
3. abcdef: 6 chars.
4. abcd: 4 chars.
End of program execution.
</pre>
==={{header|MSX Basic}}===
{{works with|MSX BASIC|any}}
{{works with|Applesoft BASIC}}
{{works with|BASICA}}
{{works with|Chipmunk Basic}}
{{works with|Just BASIC}}
{{works with|PC-BASIC|any}}
{{works with|QBasic}}
{{works with|True BASIC}}
{{trans|True BASIC}}
<syntaxhighlight lang="qbasic">100 LET A$ = "abcd"
110 LET B$ = "123456789"
120 GOSUB 140
130 END
140 REM SUB comp(A$, B$)
150 IF LEN(A$) >= LEN(B$) THEN PRINT A$,LEN(A$) : PRINT B$,LEN(B$)
180 IF LEN(A$) < LEN(B$) THEN PRINT B$,LEN(B$) : PRINT A$,LEN(A$)
220 RETURN</syntaxhighlight>
==={{header|PureBasic}}===
<syntaxhighlight lang="purebasic">Procedure comp(A.s, B.s)
If Len(A) >= Len(B)
PrintN(A + #TAB$ + Str(Len(A)))
PrintN(B + #TAB$ + Str(Len(B)))
Else
PrintN(B + #TAB$ + Str(Len(B)))
PrintN(A + #TAB$ + Str(Len(A)))
EndIf
EndProcedure
OpenConsole()
comp("abcd", "123456789")
Input()
CloseConsole()</syntaxhighlight>
==={{header|QBasic}}===
{{works with|QBasic|1.1}}
{{works with|QuickBasic|4.5}}
{{works with|Chipmunk Basic}}
{{works with|True BASIC}}
<syntaxhighlight lang="qbasic">SUB comp(A$, B$)
IF LEN(A$) >= LEN(B$) THEN
PRINT A$, LEN(A$)
PRINT B$, LEN(B$)
ELSE
PRINT B$, LEN(B$)
PRINT A$, LEN(A$)
END IF
END SUB
CALL comp("abcd", "123456789")
END</syntaxhighlight>
==={{header|Run BASIC}}===
<syntaxhighlight lang="runbasic">sub comp A$, B$
if len(A$) >= len(B$) then
print A$; chr$(9); len(A$)
print B$; chr$(9); len(B$)
else
print B$; chr$(9); len(B$)
print A$; chr$(9); len(A$)
end if
end sub
call comp "abcd", "123456789"</syntaxhighlight>
==={{header|SmallBASIC}}===
<syntaxhighlight lang="qbasic">
func compfun(x, y)
if(len(x) == len(y))
return 0
elseif(len(x) > len(y))
return -1
else
return 1
endif
end
list = ["abcd","123456789","abcdef","1234567"]
sort list use compfun(x, y)
for s in list
print s, len(s)
next
</syntaxhighlight>
==={{header|True BASIC}}===
{{works with|QBasic}}
{{works with|Chipmunk Basic}}
<syntaxhighlight lang="qbasic">SUB comp(A$, B$)
IF LEN(A$) >= LEN(B$) THEN
PRINT A$, LEN(A$)
PRINT B$, LEN(B$)
ELSE
PRINT B$, LEN(B$)
PRINT A$, LEN(A$)
END IF
END SUB
CALL comp("abcd", "123456789")
END</syntaxhighlight>
{{out}}
<pre>Igual que la entrada de FreeBASIC.
</pre>
==={{header|XBasic}}===
{{works with|Windows XBasic}}
<syntaxhighlight lang="qbasic">PROGRAM "Compare length of two strings"
VERSION "0.0000"
DECLARE FUNCTION Entry ()
DECLARE FUNCTION comp (A$, B$)
FUNCTION Entry ()
comp("abcd", "123456789")
END FUNCTION
FUNCTION comp (A$, B$)
IF LEN(A$) >= LEN(B$) THEN
PRINT A$, LEN(A$)
PRINT B$, LEN(B$)
ELSE
PRINT B$, LEN(B$)
PRINT A$, LEN(A$)
END IF
END FUNCTION
END PROGRAM</syntaxhighlight>
==={{header|Yabasic}}===
<syntaxhighlight lang="yabasic">sub comp(A$, B$)
if len(A$) >= len(B$) then
print A$, chr$(9), len(A$)
print B$, chr$(9), len(B$)
else
print B$, chr$(9), len(B$)
print A$, chr$(9), len(A$)
end if
end sub
comp("abcd", "123456789")</syntaxhighlight>
==={{header|FreeBASIC}}===
<syntaxhighlight lang="freebasic">sub comp( A as string, B as string )
if len(A)>=len(B) then
print A, len(A)
print B, len(B)
else
print B, len(B)
print A, len(A)
end if
end sub
comp( "abcd", "123456789" )</syntaxhighlight>
{{out}}<pre>123456789 9
abcd 4</pre>
=={{header|BQN}}==
BQN's grade functions(similar to APL) produces the indices to sort an array. We grade the lengths, then use those to
<
•Show Compare ⟨"hello", "person"⟩
•Show Compare ⟨"abcd", "123456789", "abcdef", "1234567"⟩</
<syntaxhighlight lang="text">┌─
╵ 6 "person"
5 "hello"
Line 217 ⟶ 984:
6 "abcdef"
4 "abcd"
┘</
=={{header|C}}==
{{Works with|C11}}
<
#include <stdlib.h>
#include <string.h>
Line 283 ⟶ 1,050:
return EXIT_SUCCESS;
}</
{{output}}
<pre>
Line 293 ⟶ 1,060:
=={{header|C++}}==
<
#include <algorithm>
#include <string>
Line 342 ⟶ 1,109:
return EXIT_SUCCESS;
}</
{{output}}
Line 351 ⟶ 1,118:
</pre>
=={{header|C sharp|C#}}==
{{works with|C sharp|C#|10+}}
<syntaxhighlight lang="csharp">
void WriteSorted(string[] strings)
{
var sorted = strings.OrderByDescending(x => x.Length);
foreach(var s in sorted) Console.WriteLine($"{s.Length}: {s}");
}
WriteSorted(new string[] { "abcd", "123456789", "abcdef", "1234567" });
</syntaxhighlight>
{{output}}
<pre>
9: 123456789
7: 1234567
6: abcdef
4: abcd
</pre>
=={{header|CFEngine}}==
<
bundle agent __main__
{
Line 424 ⟶ 1,151:
"'$(sorted[$(sort_idx)])' is $(sort_idx) characters in length.";
}
</syntaxhighlight>
{{output}}
Line 434 ⟶ 1,161:
</pre>
=={{header|
<syntaxhighlight lang="lisp">
(defun sort-and-print-strings (strings)
(dolist (s (sort (copy-list strings) #'> :key #'length))
(format t "~A ~A~%" (length s) s)))
(sort-and-print-strings '("Lisp" "stands" "for" "List" "Processing"))
</syntaxhighlight>
{{out}}
<pre>
10 Processing
6 stands
4 Lisp
4 List
3 for
</pre>
=={{header|Delphi}}==
{{works with|Delphi|6.0}}
{{libheader|Classes,StdCtrls,SysUtils}}
Uses the Standard Delphi component TList compile the list of pointers to the strings and then sort them using a custom sort comparison.
<syntaxhighlight lang="Delphi">
var SA1: array [0..1] of string = ('Very Long String','short string');
var SA2: array [0..11] of string = ('Like','sands','through','the','hourglass',
'these','are','the','days','of','our','lives');
function Compare(P1,P2: pointer): integer;
{Compare for quick sort}
begin
Result:=Length(PString(P2)^)-Length(PString(P1)^);
end;
procedure ShowStringLengths(SA: array of string; Memo: TMemo);
{Sort strings by length and display string and length}
var List: TList;
var I: integer;
var S: string;
begin
List:=TList.Create;
try
for I:=0 to High(SA) do
List.Add(@SA[I]);
List.Sort(Compare);
for I:=0 to List.Count-1 do
begin
S:=PString(List[I])^;
Memo.Lines.Add(IntToStr(Length(S))+': '+S);
end;
finally List.Free; end;
end;
procedure SortedStringLists(Memo: TMemo);
{Test two different string arrays}
begin
Memo.Lines.Add('Two word test: ');
Memo.Lines.Add('');
ShowStringLengths(SA1,Memo);
Memo.Lines.Add('');
Memo.Lines.Add('Twelve word test: ');
Memo.Lines.Add('');
ShowStringLengths(SA2,Memo);
end;
</syntaxhighlight>
{{out}}
<pre>
Two word test:
16: Very Long String
12: short string
Twelve word test:
9: hourglass
7: through
5: lives
5: these
5: sands
4: days
4: Like
3: our
3: are
3: the
3: the
2: of
</pre>
=={{header|EasyLang}}==
<syntaxhighlight lang="easylang">
proc scmp a$ b$ . .
if len a$ < len b$
swap a$ b$
.
print a$ & " - " & len a$
print b$ & " - " & len b$
print ""
.
scmp "Easy" "Language"
scmp "Rosetta" "Code"
</syntaxhighlight>
<syntaxhighlight lang="lisp">
(defun sort-list-by-string-length (list-of-strings)
"Order LIST-OF-STRINGS from longest to shortest."
(sort list-of-strings 'longer-string)) ; sort by "longer-string" function below
(defun longer-string (string-1 string-2)
"Test if STRING-1 is longer than STRING-2."
(> (length string-1) (length string-2))) ; is STRING-1 longer than STRING-2?
</syntaxhighlight>
{{out}}
(sort-list-by-string-length '("abcd" "123456789" "abcdef" "1234567"))
<pre>
("123456789" "1234567" "abcdef" "abcd")
</pre>
<syntaxhighlight lang="emal">
List list = text["abcd","123456789","abcdef","1234567", "Привет, мир"]
^|this solves the task doing the comparison by using the diamond operator|^
fun comparator = int by text a, text b do return b.length <> a.length end
List sorted = list.sort(comparator)
writeLine("text".padEnd(15, " ") + "units".padStart(6, " ") + "bytes".padStart(6, " "))
for each text value in sorted
writeLine(value.padEnd(15, " ") +
(text!value.length).padStart(6, " ") +
^|conversion from text to blob uses utf8 encoding|^
(text!(blob!value).length).padStart(6, " "))
end
</syntaxhighlight>
{{out}}
<pre>
text units bytes
Привет, мир 11 20
123456789 9 9
1234567 7 7
abcdef 6 6
abcd 4 4
</pre>
=={{header|Factor}}==
{{works with|Factor|0.99 2022-04-03}}
<syntaxhighlight lang=factor>USING: formatting io kernel qw sequences sorting ;
: .length ( str -- ) dup length "%u has length %d\n" printf ;
"I am a string" "I am a string too"
[ longer .length ] [ shorter .length ] 2bi nl
qw{ abcd 123456789 abcdef 1234567 } dup [ length ] inv-sort-with
"%u sorted by descending length:\n%u\n" printf</syntaxhighlight>
{{out}}
<pre>
"I am a string too" has length 17
"I am a string" has length 13
{ "123456789" "1234567" "abcdef" "abcd" }
</pre>
{{works with|gforth|0.7.3}}
Traditionally, Forth strings are "counted strings" (as opposed to null-terminated strings like C). So, there is no need to search the length, we just need to swap strings if necessary before printing.
<syntaxhighlight lang="Forth">
: say dup . ." : " type ;
: comp-strings
2 pick over
> if 2swap then
cr say
;
</syntaxhighlight>
{{out}}<pre>s" shortest string" s" longest string" comp-strings
15 : shortest string
14 : longest string
ok
s" longest string" s" shortest string" comp-strings
15 : shortest string
14 : longest string
ok
</pre>
=={{header|Fortran}}==
Line 647 ⟶ 1,352:
remain self-contained, created (a very inefficient) sort_int()
procedure.
<
program demo_sort_indexed
implicit none
Line 673 ⟶ 1,378:
end program demo_sort_indexed
</syntaxhighlight>
{{out}}
<pre>
Line 697 ⟶ 1,402:
=={{header|FutureBasic}}==
<
NSComparisonResult result = NSOrderedDescending
if len(obj1) >= len(obj2) then result = NSOrderedAscending
Line 727 ⟶ 1,432:
fn DoIt
HandleEvents</
Output:
Line 739 ⟶ 1,444:
=={{header|Go}}==
{{works with|Go|1.8+}}
<
import (
Line 769 ⟶ 1,474:
fmt.Printf("%d: %s\n", len(s), s)
}
}</
sort.SliceStable takes comparison function "less" as a second argument. As long as the function satisfies Interface type's Less method you can use it for comparison, see [https://pkg.go.dev/sort?utm_source=gopls#SliceStable SliceStable]
<
return len(strings[i]) > len(strings[j])
}
sort.SliceStable(strings, comparisonFunction)</
{{output}}
.\main.exe
Line 794 ⟶ 1,499:
=={{header|Harbour}}==
We can, easily, realize this task with Harbour, utilizing its strong array-handling set of functions.
<
PROCEDURE Main()
Line 820 ⟶ 1,525:
hb_strFormat( "(length = %d chars)", Len(e) ) ) } )
RETURN NIL
</syntaxhighlight>
Output:
<pre>
Line 845 ⟶ 1,550:
=={{header|Haskell}}==
Using native String type:
<
let strs = if length s1 > length s2 then [s1, s2] else [s2, s1]
mapM_ (\s -> putStrLn $ show (length s) ++ "\t" ++ show s) strs</
<pre>λ> task "short string" "longer string"
Line 860 ⟶ 1,565:
or more practically useful Text:
<
taskT s1 s2 = do
let strs = if T.length s1 > T.length s2 then [s1, s2] else [s2, s1]
mapM_ (\s -> putStrLn $ show (T.length s) ++ "\t" ++ show s) strs</
<pre>λ> :set -XOverloadedStrings
Line 872 ⟶ 1,577:
=={{header|J}}==
<syntaxhighlight lang=J>
NB. solution
chars=: 9&u:@>
longestFirst=: \: #@chars
lengthAndString=: ([:":@,.#@chars),.' ',.chars
NB. `Haruno-umi Hinemosu-Notari Notarikana'
NB. Spring ocean ; Swaying gently ; All day long.
7 ひねもすのたり
lengthAndString longestFirst '1234567';'abcd';'123456789';'abcdef'
9 123456789
7 1234567
6 abcdef
4 abcd
</syntaxhighlight>
=={{header|Java}}==
<syntaxhighlight lang="java">
import java.util.ArrayList;
import java.util.Comparator;
import java.util.List;
</syntaxhighlight>
<syntaxhighlight lang="java">
void printCompare(String stringA, String stringB) {
if (stringA.length() > stringB.length()) {
System.out.printf("%d %s%n", stringA.length(), stringA);
System.out.printf("%d %s%n", stringB.length(), stringB);
} else {
System.out.printf("%d %s%n", stringB.length(), stringB);
System.out.printf("%d %s%n", stringA.length(), stringA);
}
}
void printDescending(String... strings) {
List<String> list = new ArrayList<>(List.of(strings));
list.sort(Comparator.comparingInt(String::length).reversed());
for (String string : list)
System.out.printf("%d %s%n", string.length(), string);
}
</syntaxhighlight>
<pre>
4 abcd
3 abc
</pre>
<pre>
9 123456789
7 1234567
6 abcdef
4 abcd
</pre>
<br />
An alternate demonstration
{{Works with| Java | 11 }}
{{Works with| Java | 17 }}
<
import java.io.PrintStream;
Line 991 ⟶ 1,689:
}
}
}</
{{output}}
Line 1,001 ⟶ 1,699:
=={{header|JavaScript}}==
JavaScript (ECMA Script) file stringlensort.js.
<
* Compare and report strings lengths.
*
Line 1,068 ⟶ 1,766:
document.getElementById("input").value = "abcd\n123456789\nabcdef\n1234567";
compareStringsLength(input, output);</
HTML file (with embeded CSS) to run the script.
<
<head>
Line 1,116 ⟶ 1,814:
</body>
</html></
{{Output}}
<pre>"123456789" has length 9 and is the longest string
Line 1,130 ⟶ 1,828:
The Char data type in Julia is a 32-bit, potentially Unicode data type, so that if we enumerate a String
as a Char array, we get a series of 32-bit characters:
<
println("Position Char Bytes\n==============================")
for (i, c) in enumerate(s)
println("$i $c $(sizeof(c))")
end
</
<pre>
Position Char Bytes
Line 1,150 ⟶ 1,848:
one byte, an error is thrown for bad indexing. This can be demonstrated by casting
the above string to codeunits:
<
for (i, c) in enumerate(codeunits(s))
println("$i $(string(c, base=16)) $(sizeof(c))")
end
</
<pre>
Position Codeunit Bytes
Line 1,168 ⟶ 1,866:
of "niño" as codeunits (ie, 8 bit bytes) is 5. Indexing into the 4th position
results in an error:
<
julia> s[4]
ERROR: StringIndexError: invalid index [4], valid nearby indices [3]=>'ñ', [5]=>'o'
</syntaxhighlight>
So, whether a string is longer or shorter depends on the encoding, as below:
<
length(codeunits("ñññ")) > length(codeunits("nnnn")) # true as well
</syntaxhighlight>
=={{header|jq}}==
{{works with|jq}}
'''Works with gojq, the Go implementation of jq'''
<syntaxhighlight lang="jq">
def s1: "longer";
def s2: "shorter😀";
Line 1,191 ⟶ 1,889:
| "\"\(.)\" has length (codepoints) \(length) and utf8 byte length \(utf8bytelength)."
</syntaxhighlight>
{{out}}
<pre>
Line 1,202 ⟶ 1,900:
Using these primitives we define 2 helper functions, [L.new, L.disp], to build and display a list according to a chosen format.
<syntaxhighlight lang="scheme">
{def L.new
{lambda {:s}
Line 1,217 ⟶ 1,915:
{L.disp {P.right :l}}}}}
-> L.disp
</syntaxhighlight>
For instance
<syntaxhighlight lang="scheme">
{def B {L.new abcd 123456789 abcdef 1234567}}
-> B
Line 1,231 ⟶ 1,929:
6 : abcdef
7 : 1234567
</syntaxhighlight>
Then we define the L.sort function waiting for a predicate function and a list.
<syntaxhighlight lang="scheme">
{def L.sort
{lambda {:filter :l}
Line 1,253 ⟶ 1,951:
{L.insert :x :filter {P.right :l}}}}}}}
-> L.insert
</syntaxhighlight>
Using the following predicate function (which could be anonymous) testing the length of 2 words
<syntaxhighlight lang="scheme">
{def filter
{lambda {:a :b}
{> {W.length :a} {W.length :b}}}}
-> filter
</syntaxhighlight>
we display the B list sorted according to the length of its elements.
<syntaxhighlight lang="scheme">
{L.disp {L.sort filter {B}}}
->
Line 1,273 ⟶ 1,971:
6 : abcdef
4 : abcd
</syntaxhighlight>
Note that in lambdatalk words (and numbers) don't need to be quoted.
=={{header|Lua}}==
<
table.sort(list, function(a,b) return #a > #b end)
for _,s in ipairs(list) do print(#s, s) end
end
test{"abcd", "123456789", "abcdef", "1234567"}</
{{out}}
<pre>9 123456789
Line 1,290 ⟶ 1,988:
=={{header|Mathematica}} / {{header|Wolfram Language}}==
<
Reverse@SortBy[list, StringLength] // TableForm</
{{out}}<pre>
Line 1,298 ⟶ 1,996:
abcdef
abcd
</pre>
=={{header|MiniScript}}==
<syntaxhighlight lang="miniscript">
// Simple version
print "Simple version:"
s2 = "This is the first string."
s1 = "This is string number two."
if s1.len > s2.len then
print s1.len + ": " + s1
print s2.len + ": " + s2
else
print s2.len + ": " + s2
print s1.len + ": " + s1
end if
// Extra credit. More than 2 strings
strings = ["qwerty", "abc", "#FFFFFFFF", "255,255,255,255", "3.14159"]
pairs = []
for string in strings
pairs.push([string, string.len])
end for
// sort by index descending
pairs.sort(1, false)
print
print "Extra credit:"
for pair in pairs
print pair[1] + ": " + pair[0]
end for
</syntaxhighlight>
{{out}}
<pre>Simple version:
26: This is string number two.
25: This is the first string.
Extra credit:
15: 255,255,255,255
9: #FFFFFFFF
7: 3.14159
6: qwerty
3: abc
</pre>
Line 1,306 ⟶ 2,047:
If we want to manage a string as a Unicode sequence of code points, we have to use the module <code>unicode</code>. We can convert a string in a sequence of runes, each rune being a unicode UTF-32 value. The length of this sequence is the number of code points.
<
const
Line 1,313 ⟶ 2,054:
echo &"“{S2}”, byte length = {S2.len}, code points: {S2.toRunes.len}"
echo &"“{S1}”, byte length = {S1.len}, code points: {S1.toRunes.len}"</
{{out}}
<pre>“marché”, byte length = 7, code points: 6
“marche”, byte length = 6, code points: 6</pre>
=={{header|OCaml}}==
<syntaxhighlight lang="ocaml">let () =
["abcd"; "123456789"; "abcdef"; "1234567"]
|> List.rev_map (fun s -> String.length s, s)
|> List.sort (Fun.flip compare)
|> List.iter (fun (l, s) -> Printf.printf "%u %s\n" l s)</syntaxhighlight>
{{out}}
<pre>
9 123456789
7 1234567
6 abcdef
4 abcd
</pre>
=={{header|Pascal}}==
{{works with|Extended Pascal}}
<
const
Line 1,383 ⟶ 2,138:
analyzeLengths;
printSortedByLengths
end.</
{{out}}
<pre> 11 RosettaCode
Line 1,391 ⟶ 2,146:
=={{header|Perl}}==
<
use strict; # https://rosettacode.org/wiki/Compare_length_of_two_strings
Line 1,401 ⟶ 2,156:
printf "length %d: %s\n", length(), $_
for sort { length $b <=> length $a } split;
}</
{{out}}
<pre>
Line 1,418 ⟶ 2,173:
=={{header|Phix}}==
Lengths are in bytes, for codepoints use length(utf8_to_utf32()) or similar.
<!--<
<span style="color: #008080;">with</span> <span style="color: #008080;">javascript_semantics</span>
<span style="color: #004080;">sequence</span> <span style="color: #000000;">list</span> <span style="color: #0000FF;">=</span> <span style="color: #0000FF;">{</span><span style="color: #008000;">"abcd"</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"123456789"</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"abcdef"</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"1234567"</span><span style="color: #0000FF;">},</span>
Line 1,424 ⟶ 2,179:
<span style="color: #000000;">tags</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">reverse</span><span style="color: #0000FF;">(</span><span style="color: #7060A8;">custom_sort</span><span style="color: #0000FF;">(</span><span style="color: #000000;">lens</span><span style="color: #0000FF;">,</span><span style="color: #7060A8;">tagset</span><span style="color: #0000FF;">(</span><span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">lens</span><span style="color: #0000FF;">))))</span>
<span style="color: #7060A8;">papply</span><span style="color: #0000FF;">(</span><span style="color: #004600;">true</span><span style="color: #0000FF;">,</span><span style="color: #7060A8;">printf</span><span style="color: #0000FF;">,{</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,{</span><span style="color: #008000;">"%s (length %d)\n"</span><span style="color: #0000FF;">},</span><span style="color: #7060A8;">columnize</span><span style="color: #0000FF;">({</span><span style="color: #7060A8;">extract</span><span style="color: #0000FF;">(</span><span style="color: #000000;">list</span><span style="color: #0000FF;">,</span><span style="color: #000000;">tags</span><span style="color: #0000FF;">),</span><span style="color: #7060A8;">extract</span><span style="color: #0000FF;">(</span><span style="color: #000000;">lens</span><span style="color: #0000FF;">,</span><span style="color: #000000;">tags</span><span style="color: #0000FF;">)})})</span>
<!--</
{{out}}
<pre>
Line 1,432 ⟶ 2,187:
abcd (length 4)
</pre>
=={{header|Phixmonti}}==
<syntaxhighlight lang="Phixmonti">/# Rosetta Code problem: http://rosettacode.org/wiki/Compare_length_of_two_strings
by Galileo, 10/2022 #/
include ..\Utilitys.pmt
def getlen len swap 2 tolist enddef
( "abcd" "123456789" "abcdef" "1234567" ) getid getlen map
sort reverse lprint</syntaxhighlight>
{{out}}
<pre>[9, "123456789"][7, "1234567"][6, "abcdef"][4, "abcd"]
=== Press any key to exit ===</pre>
=={{header|PHP}}==
<syntaxhighlight lang="php">
<?php
Line 1,535 ⟶ 2,305:
</body>
</html></
=={{header|PL/I}}==
<syntaxhighlight lang="pl/i">
declare (S1, S2) character (20) varying; /* 11 Aug 2022 */
get (S1, S2);
if length(S1) > length(S2) then
put (length(S1), S1);
else
put (length(S2), S2);
</syntaxhighlight>
=={{header|Python}}==
===Naive solution===
{{works with | Python | 3.8}}
<
B = 'I am string too'
Line 1,551 ⟶ 2,331:
else:
print('"' + A + '"', 'has length', len(A), 'and it is as long as the second string')
print('"' + B + '"', 'has length', len(B), 'and it is as long as the second string')</
{{output}}
<pre>
Line 1,563 ⟶ 2,343:
The solution below has some imperfection. When the longest strings of characters are of equal length, instead of describing them as "''one of the longest''" they are described as "''the longest''". This works similarly for the shortest strings. Also, if all strings (in this case where there is only one) have the same length it is not printed that they are the shortest strings. Of course, this could be improved.
<syntaxhighlight lang="python">"""
An example code for the task "Compare length of two strings" (Rosseta Code).
Line 1,645 ⟶ 2,425:
compare_and_report_length(*LIST)
print()
</syntaxhighlight>
{{out}}
Line 1,663 ⟶ 2,443:
=={{header|QB64}}==
<syntaxhighlight lang="qb64">
Dim Words(1 To 4) As String
Dim Lengths As Integer, Index As Integer, Position As Integer, Done As String, Index2 As Integer
Line 1,686 ⟶ 2,465:
Print Words(Position), Len(Words(Position))
Next Index2
</syntaxhighlight>
=={{header|Quackery}}==
<
$ "A slightly longer string of"
Line 1,707 ⟶ 2,486:
sortwith [ size dip size < ]
witheach [ echo$ cr ] </
{{out}}
Line 1,722 ⟶ 2,501:
Beneath the pool,
By water cool,
</pre>
=={{header|Racket}}==
<syntaxhighlight lang="racket">
#lang racket
(define strings '("abcd" "123456789" "abcdef" "1234567"))
(for ([i (sort strings > #:key string-length)])
(printf "'~a' is length ~a~n" i (string-length i)))
</syntaxhighlight>
{{out}}
<pre>
'123456789' is length 9
'1234567' is length 7
'abcdef' is length 6
'abcd' is length 4
</pre>
Line 1,729 ⟶ 2,525:
In the modern world, string "length" is pretty much a useless measurement, especially in the absence of a specified encoding; hence Raku not even having an operator: "length" for strings.
<syntaxhighlight lang="raku"
say "$_: characters:{.chars}, Unicode code points:{.codes}, UTF-8 bytes:{.encode('UTF8').bytes}, UTF-16 bytes:{.encode('UTF16').bytes}" for <👨👩👧👦 BOGUS! 🤔🇺🇸>.sort: -*.chars;</
{{out}}
<pre>Strings (👨👩👧👦, 🤔🇺🇸, BOGUS!) sorted: "longest" first:
Line 1,738 ⟶ 2,534:
=={{header|REXX}}==
<
list = '"abcd","123456789","abcdef","1234567"'
Do i=1 By 1 While list>''
Line 1,762 ⟶ 2,558:
o:
Say length(arg(1)) arg(1)
Return</
{{out}}
<pre>9 123456789
Line 1,771 ⟶ 2,567:
=={{header|Ring}}==
===Two strings===
<
see "working..." + nl
Line 1,786 ⟶ 2,582:
see "" + first + " len = " + len(first) + nl + second + " len = " + len(second) + nl
see "done..." + nl
</syntaxhighlight>
{{out}}
<pre>
Line 1,796 ⟶ 2,592:
</pre>
===More than two strings===
<
see "working..." + nl
Line 1,814 ⟶ 2,610:
next
see "done..." + nl
</syntaxhighlight>
{{out}}
<pre>
Line 1,824 ⟶ 2,620:
abcd len = 4
done...
</pre>
=={{header|RPL}}==
{{works with|Halcyon Calc|4.2.7}}
{| class="wikitable"
! Code
! Comments
|-
|
≪ " [" OVER SIZE →STR "]" + + +
≫ ''''FormatString'''' STO
≪
'''IF''' OVER SIZE OVER SIZE > '''THEN''' SWAP '''END'''
'''FormatString''' SWAP '''FormatString'''
≫ ''''SRT2S'''' STO
≪
LIST→ → len
≪ len 1 '''FOR''' n
1 n 1 - '''START'''
'''IF''' OVER SIZE OVER SIZE <
'''THEN''' SWAP '''END'''
n ROLLD
'''NEXT'''
n ROLLD
-1 '''STEP'''
1 len '''START''' len ROLL '''FormatString''' '''NEXT'''
≫ ≫ ''''SRTLS'''' STO
|
''( "string" -- "string [length]" )''
''( "s1" "s2" -- "s1 [l1]" "s2 [l2]" )''
Swap strings if necessary
Format strings
''( { strings } -- { strings } )''
Push list in the stack
Use selection sort algorithm (favouring code size to execution time)
Format each string in the stack
|}
The following lines of code deliver what is required:
"AB" "ABCD" '''STR2S'''
{ "ABC" "AB" "ABCD" } '''SRTLS'''
{{out}}
<pre>
5: "ABCD [4]"
4: "AB [2]"
3: "ABCD [4]"
2: "ABC [3]"
1: "AB [2]"
</pre>
=={{header|Ruby}}==
<syntaxhighlight lang="ruby">
a, b = "Given two strings", "of different length"
[a,b].sort_by{|s| - s.size }.each{|s| puts s + " (size: #{s.size})"}
Line 1,833 ⟶ 2,689:
list = ["abcd","123456789","abcdef","1234567"]
puts list.sort_by{|s|- s.size}
</syntaxhighlight>
{{out}}
<pre>of different length (size: 19)
Line 1,843 ⟶ 2,699:
=={{header|Rust}}==
<syntaxhighlight lang="rust">
fn compare_and_report<T: ToString>(string1: T, string2: T) -> String {
let strings = [string1.to_string(), string2.to_string()];
Line 1,861 ⟶ 2,717:
println!("\n{}", compare_and_report("f", "gh"));
}
</syntaxhighlight>
{{out}}
Line 1,874 ⟶ 2,730:
</pre>
=={{header|
{{trans|Java}}
<syntaxhighlight lang="Scala">
object Example extends App {
val strings = Array("abcd", "123456789", "abcdef", "1234567")
compareAndReportStringsLength(strings)
def compareAndReportStringsLength(strings: Array[String]): Unit = {
if (strings.nonEmpty) {
val Q = '"'
val hasLength = " has length "
val predicateMax = " and is the longest string"
val predicateMin = " and is the shortest string"
val predicateAve = " and is neither the longest nor the shortest string"
val sortedStrings = strings.sortBy(-_.length)
val maxLength = sortedStrings.head.length
val minLength = sortedStrings.last.length
sortedStrings.foreach { str =>
val length = str.length
val predicate = length match {
case `maxLength` => predicateMax
case `minLength` => predicateMin
case _ => predicateAve
}
println(s"$Q$str$Q$hasLength$length$predicate")
}
}
}
}
</syntaxhighlight>
{{out}}
<pre>
"123456789" has length 9 and is the longest string
"1234567" has length 7 and is neither the longest nor the shortest string
"abcdef" has length 6 and is neither the longest nor the shortest string
"abcd" has length 4 and is the shortest string
</pre>
=={{header|Transd}}==
<syntaxhighlight lang="Scheme">#lang transd
MainModule: {
v: ["abcd","123456789","abcdef","1234567"],
_start: (λ
(for s in (sort v (λ l String() r String()
(ret (< (size r) (size l))))) do
(lout width: 10 s " : " (size s) " code points") )
)
}</syntaxhighlight>
{{out}}
<pre>
123456789 : 9 code points
1234567 : 7 code points
abcdef : 6 code points
abcd : 4 code points
</pre>
=={{header|V (Vlang)}}==
<syntaxhighlight lang="go">// Compare lenth of two strings, in V
// Tectonics: v run compare-length-of-two-strings.v
module main
Line 1,895 ⟶ 2,813:
println("${strs[i]}: with length ${strs[i].len}")
}
}</
{{out}}
Line 1,918 ⟶ 2,836:
Unicode grapheme clusters, where what appears to be a single 'character' may in fact be an amalgam of several codepoints, are not directly supported by Wren but it is possible to measure the length in grapheme clusters of a string (i.e. the number of ''user perceived characters'') using the ''Graphemes.clusterCount'' method of the Wren-upc module.
<
var printCounts = Fn.new { |s1, s2, c1, c2|
Line 1,957 ⟶ 2,875:
System.write("Sorting in descending order by length in codepoints:\n%(list) -> ")
list.sort { |a, b| a.count > b.count }
System.print(list)</
{{out}}
Line 1,990 ⟶ 2,908:
=={{header|XPL0}}==
<
func StrLen(A); \Return number of characters in an ASCIIZ string
Line 2,011 ⟶ 2,929:
List(SN, 0):= 0; \truncate largest string
];
]</
{{out}}
Line 2,022 ⟶ 2,940:
=={{header|Z80 Assembly}}==
<
PrintChar equ &BB5A ;Amstrad CPC BIOS call, prints accumulator to screen as an ASCII character.
Line 2,145 ⟶ 3,063:
add a,&F0
adc a,&40 ;This sequence converts a 4-bit hex digit to its ASCII equivalent.
jp PrintChar</
{{out}}
|