Align columns: Difference between revisions
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?></lang> |
?></lang> |
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=={{header|Picat}}== |
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<lang Picat>import util. |
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main => |
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Text = |
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"Given$a$text$file$of$many$lines,$where$fields$within$a$line$ |
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are$delineated$by$a$single$'dollar'$character,$write$a$program |
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that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ |
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column$are$separated$by$at$least$one$space. |
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Further,$allow$for$each$word$in$a$column$to$be$either$left$ |
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justified,$right$justified,$or$center$justified$within$its$column.", |
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Lines = split(Text,"\n"), |
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Lines = [Line1|_], |
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N = len(split(strip(Line1,"$ "), "$")), % number of columns |
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WidthArr = {0 : _ in 1..N}, |
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foreach (Line in Lines) |
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Words = split(strip(Line,"$ "), "$"), |
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foreach ({I,Word} in zip(1..N, Words)) |
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WidthArr[I] := max(WidthArr[I], len(Word)) |
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end |
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end, |
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foreach (I in 1..N) |
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WidthArr[I] := WidthArr[I]+1 % separate cols by at least one space |
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end, |
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foreach (Align in [left, right, center]) |
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output_lines(Lines,N,WidthArr,Align), |
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nl,nl |
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end. |
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output_lines(Lines,N,WidthArr,Align) => |
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foreach (Line in Lines) |
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Words = split(strip(Line,"$ "), "$"), |
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foreach ({I,Word} in zip(1..N, Words)) |
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output_word(Word,WidthArr[I],Align) |
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end, |
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nl |
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end. |
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output_word(Word,Width,left) => |
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printf("%-*s",Width,Word). |
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output_word(Word,Width,right) => |
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printf("%*s",Width,Word). |
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output_word(Word,Width,_) => |
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Pad = len(Word)-Width, |
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Pad1 is Pad div 2, |
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Pad2 is Pad-Pad1, |
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printf("%*s%s%*s",Pad1,"",Word,Pad2,""). |
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</lang> |
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{{out}} |
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<pre> |
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Given a text file of many lines, where fields within a line |
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are delineated by a single 'dollar' character, write a program |
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that aligns each column of fields by ensuring that words in each |
|||
column are separated by at least one space. |
|||
Further, allow for each word in a column to be either left |
|||
justified, right justified, or center justified within its column. |
|||
Given a text file of many lines, where fields within a line |
|||
are delineated by a single 'dollar' character, write a program |
|||
that aligns each column of fields by ensuring that words in each |
|||
column are separated by at least one space. |
|||
Further, allow for each word in a column to be either left |
|||
justified, right justified, or center justified within its column. |
|||
Given a text file of many lines, where fields within a line |
|||
are delineated by a single 'dollar' character, write a program |
|||
that aligns each column of fields by ensuring that words in each |
|||
column are separated by at least one space. |
|||
Further, allow for each word in a column to be either left |
|||
justified, right justified, or center justified within its column. |
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</pre> |
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=={{header|PicoLisp}}== |
=={{header|PicoLisp}}== |
Revision as of 16:28, 29 May 2022
You are encouraged to solve this task according to the task description, using any language you may know.
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Use the following text to test your programs:
Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.
Note that:
- The example input texts lines may, or may not, have trailing dollar characters.
- All columns should share the same alignment.
- Consecutive space characters produced adjacent to the end of lines are insignificant for the purposes of the task.
- Output text will be viewed in a mono-spaced font on a plain text editor or basic terminal.
- The minimum space between columns should be computed from the text and not hard-coded.
- It is not a requirement to add separating characters between or around columns.
- Metrics
- Counting
- Word frequency
- Letter frequency
- Jewels and stones
- I before E except after C
- Bioinformatics/base count
- Count occurrences of a substring
- Count how many vowels and consonants occur in a string
- Remove/replace
- XXXX redacted
- Conjugate a Latin verb
- Remove vowels from a string
- String interpolation (included)
- Strip block comments
- Strip comments from a string
- Strip a set of characters from a string
- Strip whitespace from a string -- top and tail
- Strip control codes and extended characters from a string
- Anagrams/Derangements/shuffling
- Word wheel
- ABC problem
- Sattolo cycle
- Knuth shuffle
- Ordered words
- Superpermutation minimisation
- Textonyms (using a phone text pad)
- Anagrams
- Anagrams/Deranged anagrams
- Permutations/Derangements
- Find/Search/Determine
- ABC words
- Odd words
- Word ladder
- Semordnilap
- Word search
- Wordiff (game)
- String matching
- Tea cup rim text
- Alternade words
- Changeable words
- State name puzzle
- String comparison
- Unique characters
- Unique characters in each string
- Extract file extension
- Levenshtein distance
- Palindrome detection
- Common list elements
- Longest common suffix
- Longest common prefix
- Compare a list of strings
- Longest common substring
- Find common directory path
- Words from neighbour ones
- Change e letters to i in words
- Non-continuous subsequences
- Longest common subsequence
- Longest palindromic substrings
- Longest increasing subsequence
- Words containing "the" substring
- Sum of the digits of n is substring of n
- Determine if a string is numeric
- Determine if a string is collapsible
- Determine if a string is squeezable
- Determine if a string has all unique characters
- Determine if a string has all the same characters
- Longest substrings without repeating characters
- Find words which contains all the vowels
- Find words which contains most consonants
- Find words which contains more than 3 vowels
- Find words which first and last three letters are equals
- Find words which odd letters are consonants and even letters are vowels or vice_versa
- Formatting
- Substring
- Rep-string
- Word wrap
- String case
- Align columns
- Literals/String
- Repeat a string
- Brace expansion
- Brace expansion using ranges
- Reverse a string
- Phrase reversals
- Comma quibbling
- Special characters
- String concatenation
- Substring/Top and tail
- Commatizing numbers
- Reverse words in a string
- Suffixation of decimal numbers
- Long literals, with continuations
- Numerical and alphabetical suffixes
- Abbreviations, easy
- Abbreviations, simple
- Abbreviations, automatic
- Song lyrics/poems/Mad Libs/phrases
- Mad Libs
- Magic 8-ball
- 99 Bottles of Beer
- The Name Game (a song)
- The Old lady swallowed a fly
- The Twelve Days of Christmas
- Tokenize
- Text between
- Tokenize a string
- Word break problem
- Tokenize a string with escaping
- Split a character string based on change of character
- Sequences
11l
<lang 11l>V txt = ‘Given$a$txt$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.’
V parts = txt.split("\n").map(line -> line.rtrim(‘$’).split(‘$’)) V max_widths = [0] * parts[0].len L(line) parts
L(word) line max_widths[L.index] = max(max_widths[L.index], word.len)
((String, Int) -> String) ljust = (s, w) -> s‘’(‘ ’ * (w - s.len)) ((String, Int) -> String) centr = (s, w) -> (‘ ’ * (w - s.len - (w I/ 2 - s.len I/ 2)))‘’s‘’(‘ ’ * (w I/ 2 - s.len I/ 2)) ((String, Int) -> String) rjust = (s, w) -> (‘ ’ * (w - s.len))‘’s
L(justify) [ljust, centr, rjust]
print([‘Left’, ‘Center’, ‘Right’][L.index]‘ column-aligned output:’) L(line) parts L(word) line print(justify(word, max_widths[L.index]), end' ‘ ’) print() print(‘- ’ * 52)</lang>
360 Assembly
<lang 360asm>* Align columns 12/04/2019 ALICOL CSECT
USING ALICOL,R13 base register B 72(R15) skip savearea DC 17F'0' savearea SAVE (14,12) save previous context ST R13,4(R15) link backward ST R15,8(R13) link forward LR R13,R15 set addressability LA R8,1 i=1 DO WHILE=(C,R8,LE,=A(NI)) do r=1 to hbound(t) LA R7,1 j=1 LA R6,L'T i=length(t) DO WHILE=(C,R6,GE,=A(1)) do i=length(t) to 1 by -1 LR R1,R8 r MH R1,=AL2(L'T) ~ LA R4,T-L'T(R1) t(r) BCTR R4,0 -1 AR R4,R6 +i MVC CI,0(R4) ci=substr(t(r),i,1) CLI CI,C' ' if ci=' ' BE ITERI1 then iterate i CLI CI,C'$' if ci='$' BE ITERI1 then iterate i LR R7,R6 j=i B LEAVEI1 leave i
ITERI1 BCTR R6,0 i--
ENDDO , enddo i
LEAVEI1 LR R1,R8 r
MH R1,=AL2(L'T) ~ LA R4,T-L'T(R1) @t(r) LA R2,WT @wt LR R5,R7 j ICM R5,B'1000',=C' ' padding LA R3,L'T length(wt) MVCL R2,R4 wt=substr(t(r),1,j) LA R0,1 1 ST R0,I0 i0=1 SR R9,R9 c=0 LA R6,1 i=1 DO WHILE=(CR,R6,LE,R7) do i=1 to j LA R4,WT-1 @wt AR R4,R6 i MVC CI(1),0(R4) ci=substr(wt,i,1) IF CLI,CI,EQ,C'$' THEN if ci='$' then BAL R14,SEQ call seq LR R2,R6 i LA R2,1(R2) +1 ST R2,I0 i0=i+1 ENDIF , endif LA R6,1(R6) i++ ENDDO , enddo i BAL R14,SEQ call seq IF C,R9,GT,COLS THEN if c>cols then ST R9,COLS cols=c ENDIF , endif LA R8,1(R8) r++ ENDDO , enddo r LR R2,R8 r BCTR R2,0 -1 ST R2,ROWS rows=r-1 LA R7,1 j=1 DO WHILE=(C,R7,LE,=A(3)) do j=1 to 3 XPRNT =C'--',2 print LA R8,1 r=1 DO WHILE=(C,R8,LE,ROWS) do r=1 to rows MVC PG,=CL120' ' pg=' ' LA R0,1 1 ST R0,IB ib=1 LA R9,1 c=1 DO WHILE=(C,R9,LE,COLS) do c=1 to cols LR R1,R8 r BCTR R1,0 -1 MH R1,=AL2(NJ) ~ AR R1,R9 c MH R1,=AL2(L'WOR) ~ LA R4,WOR-L'WOR(R1) @wor(r,c) MVC W,0(R4) w=wor(r,c) LA R6,L'W i=length(w) DO WHILE=(C,R6,GE,=A(1)) do i=length(w) to 1 by -1 LA R4,W-1 @w AR R4,R6 i MVC CI,0(R4) ci=substr(w,i,1) CLI CI,C' ' if ci^=' ' BNE LEAVEI2 then goto leavei2; BCTR R6,0 i-- ENDDO , enddo i
LEAVEI2 EQU * ~
IF LTR,R6,Z,R6 THEN if i=0 then LA R10,1 l=1 ELSE , else LR R10,R6 l=i ENDIF , endif IF C,R7,EQ,=F'1' THEN if j=1 then L R11,IB ibx=ib ENDIF , endif IF C,R7,EQ,=F'2' THEN if j=2 then LR R1,R9 c SLA R1,2 ~ L R11,WID-L'WID(R1) wid(c) A R11,IB +ib SR R11,R10 ibx=ib+wid(c)-l ENDIF , endif IF C,R7,EQ,=F'3' THEN if j=3 then LR R1,R9 c SLA R1,2 ~ L R11,WID-L'WID(R1) wid(c) SR R11,R10 -l SRA R11,1 /2 A R11,IB ibx=ib+(wid(c)-l)/2 ENDIF , endif LA R2,PG-1 @pg AR R2,R11 +ibx LR R3,R10 l LA R4,W @w LR R5,R10 l MVCL R2,R4 substr(pg,ibx,l)=substr(w,1,l) LR R1,R9 c SLA R1,2 ~ L R2,WID-L'WID(R1) wid(c) A R2,IB +ib LA R2,1(R2) +1 ST R2,IB ib=ib+wid(c)+1 LA R9,1(R9) c++ ENDDO , enddo c XPRNT PG,L'PG print LA R8,1(R8) r++ ENDDO , enddo r LA R7,1(R7) j++ ENDDO , enddo j L R13,4(0,R13) restore previous savearea pointer RETURN (14,12),RC=0 restore registers from calling sav
SEQ EQU * --begin seq
LA R9,1(R9) c=c+1 LR R10,R6 i S R10,I0 l=i-i0 LA R4,WT-1 @wt A R4,I0 +i0 LR R5,R10 l ICM R5,B'1000',=C' ' padding LR R1,R8 r BCTR R1,0 -1 MH R1,=AL2(NJ) ~ AR R1,R9 +c MH R1,=AL2(L'WOR) ~ LA R2,WOR-L'WOR(R1) @wor(r,c) LA R3,L'WOR length(wor) MVCL R2,R4 wor(r,c)=substr(wt,i0,l) LR R1,R9 c SLA R1,2 ~ L R2,WID-L'WID(R1) wid(c) IF CR,R2,LT,R10 THEN if l>wid(c) then LR R1,R9 c SLA R1,2 ~ ST R10,WID-L'WID(R1) wid(c)=l ENDIF , endif BR R14 --end seq
NI EQU 6 ni NJ EQU 12 nj T DC CL68'Given$a$text$file$of$many$lines,$where$fields$within$a$line$'
DC CL68'are$delineated$by$a$single$dollar$character,$write$a$progX ramm' DC CL68'that$aligns$each$column$of$fields$by$ensuring$that$words$in$eX ach$' DC CL68'column$are$separated$by$at$least$one$space.' DC CL68'Further,$allow$for$each$word$in$a$column$to$be$either$left$' DC CL68'justified,$right$justified,$or$center$justified$within$its$coX lumn.'
WOR DC (NI*NJ)CL10' ' wor(ni,nj) char(10) WID DC 16F'0' wid(16) COLS DC F'0' ROWS DC F'0' WT DS CL(L'T) W DS CL(L'WOR) CI DS CL1 I0 DS F IB DS F PG DS CL120
REGEQU END ALICOL </lang>
- Output:
-- Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a programm that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. -- Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a programm that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. -- Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a programm that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
8th
<lang Forth> quote | Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.| var, raw-text
[] var, data var width
- read-and-parse \ --
raw-text @ ( "$" s:/ data @ swap a:push drop ) s:eachline ;
- find-widest \ -- n
data @ ( ( swap s:len nip n:max ) swap a:reduce ) 0 a:reduce ;
- print-data \ fmt --
width @ swap s:strfmt >r data @ ( nip ( nip r@ s:strfmt . ) a:each drop
cr ) a:each drop rdrop ;
- app:main
read-and-parse
\ find widest column, and add one for the space: find-widest n:1+ width !
\ print the data cr "right:" . cr "%%>%ds" print-data cr "left:" . cr "%%<%ds" print-data cr "center:" . cr "%%|%ds" print-data bye ;
</lang>
- Output:
right: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. left: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. center: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
AArch64 Assembly
<lang AArch64 Assembly> /* ARM assembly AARCH64 Raspberry PI 3B or android 64 bits */ /* program alignColumn64.s */
/*******************************************/ /* Constantes file */ /*******************************************/ /* for this file see task include a file in language AArch64 assembly*/ .include "../includeConstantesARM64.inc"
.equ BUFFERSIZE, 16 * 10
/*********************************/ /* Initialized data */ /*********************************/ .data szMessLeft: .asciz "LEFT :\n" szMessRight: .asciz "\nRIGHT :\n" szMessCenter: .asciz "\nCENTER :\n" szCarriageReturn: .asciz "\n"
szLine1: .asciz "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" szLine2: .asciz "are$delineated$by$a$single$'dollar'$character,$write$a$program" szLine3: .asciz "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" szLine4: .asciz "column$are$separated$by$at$least$one$space." szLine5: .asciz "Further,$allow$for$each$word$in$a$column$to$be$either$left$" szLine6: .asciz "justified,$right$justified,$or$center$justified$within$its$column."
.align 8 qtbPtLine: .quad szLine1,szLine2,szLine3,szLine4,szLine5,szLine6
.equ NBLINES, (. - qtbPtLine) / 8
/*********************************/ /* UnInitialized data */ /*********************************/ .bss /*********************************/ /* code section */ /*********************************/ .text .global main main: // entry of program
ldr x0,qAdrqtbPtLine bl computeMaxiLengthWords mov x19,x0 // column counter ldr x0,qAdrszMessLeft bl affichageMess ldr x0,qAdrqtbPtLine mov x1,x19 // column size bl alignLeft ldr x0,qAdrszMessRight bl affichageMess ldr x0,qAdrqtbPtLine mov x1,x19 // column size bl alignRight ldr x0,qAdrszMessCenter bl affichageMess ldr x0,qAdrqtbPtLine mov x1,x19 // column size bl alignCenter
100: // standard end of the program
mov x0, #0 // return code mov x8, #EXIT // request to exit program svc #0 // perform the system call
qAdrszCarriageReturn: .quad szCarriageReturn qAdrszMessLeft: .quad szMessLeft qAdrszMessRight: .quad szMessRight qAdrszMessCenter: .quad szMessCenter qAdrqtbPtLine: .quad qtbPtLine /******************************************************************/ /* compute maxi words */ /******************************************************************/ /* x0 contains adresse pointer array */ computeMaxiLengthWords:
stp fp,lr,[sp,-16]! // save registres mov x2,#0 // indice pointer array mov x3,#0 // maxi length words
1:
ldr x1,[x0,x2,lsl #3] // load pointer mov x4,#0 // length words counter mov x5,#0 // indice line character
2:
ldrb w6,[x1,x5] // load a line character cmp x6,#0 // line end ? beq 4f cmp x6,#'$' // separator ? bne 3f cmp x4,x3 csel x3,x4,x3,gt // if greather replace maxi mov x4,#-1 // raz length counter
3:
add x4,x4,#1 add x5,x5,#1 // increment character indice b 2b // and loop
4: // end line
cmp x4,x3 // compare word counter and maxi csel x3,x4,x3,gt // if greather replace maxi add x2,x2,#1 // increment indice line pointer cmp x2,#NBLINES // maxi ? blt 1b // no -> loop
mov x0,x3 // return maxi length counter
100:
ldp fp,lr,[sp],16 // restaur des 2 registres ret
/******************************************************************/ /* align left */ /******************************************************************/ /* x0 contains the address of pointer array*/ /* x1 contains column size */ alignLeft:
stp fp,lr,[sp,-16]! // save registres sub sp,sp,#BUFFERSIZE // reserve place for output buffer mov fp,sp mov x5,x0 // array address mov x2,#0 // indice array
1:
ldr x3,[x5,x2,lsl #3] // load line pointer mov x4,#0 // line character indice mov x7,#0 // output buffer character indice mov x6,#0 // word lenght
2:
ldrb w0,[x3,x4] // load a character line strb w0,[fp,x7] // store in buffer cmp w0,#0 // line end ? beq 6f cmp w0,#'$' // separator ? bne 5f mov x0,#' ' strb w0,[fp,x7] // replace $ by space
3:
cmp x6,x1 // length word >= length column bge 4f add x7,x7,#1 mov x0,#' ' strb w0,[fp,x7] // add space to buffer add x6,x6,#1 b 3b // and loop
4:
mov x6,#-1 // raz word length
5:
add x4,x4,#1 // increment line indice add x7,x7,#1 // increment buffer indice add x6,x6,#1 // increment word length b 2b
6:
mov x0,#'\n' strb w0,[fp,x7] // return line add x7,x7,#1 mov x0,#0 strb w0,[fp,x7] // final zéro mov x0,fp bl affichageMess // display output buffer add x2,x2,#1 cmp x2,#NBLINES blt 1b
100:
add sp,sp,#BUFFERSIZE ldp fp,lr,[sp],16 // restaur des 2 registres ret
/******************************************************************/ /* align right */ /******************************************************************/ /* x0 contains the address of pointer array*/ /* x1 contains column size */ alignRight:
stp fp,lr,[sp,-16]! // save registres sub sp,sp,#BUFFERSIZE // reserve place for output buffer mov fp,sp mov x5,x0 // array address mov x2,#0 // indice array
1:
ldr x3,[x5,x2,lsl #3] // load line pointer mov x4,#0 // line character indice mov x7,#0 // output buffer character indice mov x6,#0 // word lenght mov x8,x3 // word begin address
2: // compute word length
ldrb w0,[x3,x4] // load a character line cmp w0,#0 // line end ? beq 3f cmp w0,#'$' // separator ? beq 3f add x4,x4,#1 // increment line indice add x6,x6,#1 // increment word length b 2b
3:
cmp x6,#0 beq 4f sub x6,x1,x6 // compute left spaces to add
4: // loop add spaces to buffer
cmp x6,#0 blt 5f mov x0,#' ' strb w0,[fp,x7] // add space to buffer add x7,x7,#1 sub x6,x6,#1 b 4b // and loop
5:
mov x9,#0
6: // copy loop word to buffer
ldrb w0,[x8,x9] cmp x0,#'$' beq 7f cmp x0,#0 // line end beq 8f strb w0,[fp,x7] add x7,x7,#1 add x9,x9,#1 b 6b
7:
add x8,x8,x9 add x8,x8,#1 // new word begin mov x6,#0 // raz word length add x4,x4,#1 // increment line indice b 2b
8:
mov x0,#'\n' strb w0,[fp,x7] // return line add x7,x7,#1 mov x0,#0 strb w0,[fp,x7] // final zéro mov x0,fp bl affichageMess // display output buffer add x2,x2,#1 cmp x2,#NBLINES blt 1b
100:
add sp,sp,#BUFFERSIZE ldp fp,lr,[sp],16 // restaur des 2 registres ret
/******************************************************************/ /* align center */ /******************************************************************/ /* x0 contains the address of pointer array*/ /* x1 contains column size */ alignCenter:
stp fp,lr,[sp,-16]! // save registres sub sp,sp,#BUFFERSIZE // reserve place for output buffer mov fp,sp mov x5,x0 // array address mov x2,#0 // indice array
1:
ldr x3,[x5,x2,lsl #3] // load line pointer mov x4,#0 // line character indice mov x7,#0 // output buffer character indice mov x6,#0 // word length mov x8,x3 // word begin address
2: // compute word length
ldrb w0,[x3,x4] // load a character line cmp w0,#0 // line end ? beq 3f cmp w0,#'$' // separator ? beq 3f add x4,x4,#1 // increment line indice add x6,x6,#1 // increment word length b 2b
3:
cmp x6,#0 beq 5f sub x6,x1,x6 // total spaces number to add mov x12,x6 lsr x6,x6,#1 // divise by 2 = left spaces number
4:
cmp x6,#0 blt 5f mov x0,#' ' strb w0,[fp,x7] // add space to buffer add x7,x7,#1 // increment output indice sub x6,x6,#1 // decrement number space b 4b // and loop
5:
mov x9,#0
6: // copy loop word to buffer
ldrb w0,[x8,x9] cmp x0,#'$' // séparator ? beq 7f cmp x0,#0 // line end ? beq 10f strb w0,[fp,x7] add x7,x7,#1 add x9,x9,#1 b 6b
7:
lsr x6,x12,#1 // divise total spaces by 2 sub x6,x12,x6 // and compute number spaces to right side
8: // loop to add right spaces
cmp x6,#0 ble 9f mov x0,#' ' strb w0,[fp,x7] // add space to buffer add x7,x7,#1 sub x6,x6,#1 b 8b // and loop
9:
add x8,x8,x9 add x8,x8,#1 // new address word begin mov x6,#0 // raz word length add x4,x4,#1 // increment line indice b 2b // and loop new word
10:
mov x0,#'\n' strb w0,[fp,x7] // return line add x7,x7,#1 mov x0,#0 strb w0,[fp,x7] // final zéro mov x0,fp bl affichageMess // display output buffer add x2,x2,#1 // increment line indice cmp x2,#NBLINES // maxi ? blt 1b // loop
100:
add sp,sp,#BUFFERSIZE ldp fp,lr,[sp],16 // restaur des 2 registres ret
/********************************************************/ /* File Include fonctions */ /********************************************************/ /* for this file see task include a file in language AArch64 assembly */ .include "../includeARM64.inc" </lang>
LEFT : Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. RIGHT : Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. CENTER : Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
ABAP
<lang ABAP>report z_align no standard page header. start-of-selection.
data: lt_strings type standard table of string,
lv_strings type string.
append: 'Given$a$text$file$of$many$lines,$where$fields$within$a$line$' to lt_strings,
'are$delineated$by$a$single$dollar$character,$write$a$program' to lt_strings, 'that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$' to lt_strings, 'column$are$separated$by$at$least$one$space.' to lt_strings, 'Further,$allow$for$each$word$in$a$column$to$be$either$left$' to lt_strings, 'justified,$right$justified,$or$center$justified$within$its$column.' to lt_strings.
types ty_strings type standard table of string.
perform align_col using 'LEFT' lt_strings. skip. perform align_col using 'RIGHT' lt_strings. skip. perform align_col using 'CENTER' lt_strings.
form align_col using iv_just type string iv_strings type ty_strings.
constants: c_del value '$'. data: lv_string type string, lt_strings type table of string, lt_tables like table of lt_strings, lv_first type string, lv_second type string, lv_longest type i value 0, lv_off type i value 0, lv_len type i. " Loop through the supplied text. It is expected at the input is a table of strings, with each " entry in the table representing a new line of the input. loop at iv_strings into lv_string. " Split the current line at the delimiter. split lv_string at c_del into lv_first lv_second. " Loop through the line splitting at every delimiter. do. append lv_first to lt_strings. lv_len = strlen( lv_first ). " Check if the length of the new string is greater than the currently stored length. if lv_len > lv_longest. lv_longest = lv_len. endif. if lv_second na c_del. " Check if the string is longer than the recorded maximum. lv_len = strlen( lv_second ). if lv_len > lv_longest. lv_longest = lv_len. endif. append lv_second to lt_strings. exit. endif. split lv_second at c_del into lv_first lv_second. enddo.
append lt_strings to lt_tables. clear lt_strings. endloop.
" Loop through each line of input. loop at lt_tables into lt_strings. " Loop through each word in the line (Separated by specified delimiter). loop at lt_strings into lv_string. lv_off = ( sy-tabix - 1 ) * ( lv_longest + 2 ). case iv_just. when 'LEFT'. write : at (lv_longest) lv_string left-justified. when 'RIGHT'. write at (lv_longest) lv_string right-justified. when 'CENTER'. write at (lv_longest) lv_string centered. endcase. endloop. skip. sy-linno = sy-linno - 1. endloop.
endform.</lang>
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Action!
Atari 8-bit computer is able to show only 40 characters per line. The user has to press left/right arrow keys to scroll the content of whole text. <lang Action!>DEFINE LINES_COUNT="10" DEFINE COLUMNS_COUNT="20" DEFINE WORDS_COUNT="100" DEFINE BUFFER_SIZE="2000" DEFINE LINE_WIDTH="40" DEFINE PTR="CARD"
PTR ARRAY lines(LINES_COUNT) BYTE ARRAY wordStart(WORDS_COUNT) BYTE ARRAY wordLen(WORDS_COUNT) BYTE ARRAY firstWordInLine(LINES_COUNT) BYTE ARRAY wordsInLine(LINES_COUNT) BYTE ARRAY colWidths(COLUMNS_COUNT) BYTE ARRAY buffer(BUFFER_SIZE) BYTE lineCount,colCount,wordCount
CHAR sep=['$]
PROC AddLine(CHAR ARRAY line)
lines(lineCount)=line lineCount==+1
RETURN
PROC InitData()
lineCount=0 AddLine("Given$a$text$file$of$many$lines,$where$fields$within$a$line$") AddLine("are$delineated$by$a$single$'dollar'$character,$write$a$program") AddLine("that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$") AddLine("column$are$separated$by$at$least$one$space.") AddLine("Further,$allow$for$each$word$in$a$column$to$be$either$left$") AddLine("justified,$right$justified,$or$center$justified$within$its$column.")
RETURN
PROC ProcessData()
BYTE i,pos,len,start,w,col CHAR ARRAY line
colCount=0 wordCount=0 FOR i=0 TO lineCount-1 DO line=lines(i) len=line(0) firstWordInLine(i)=wordCount wordsInLine(i)=0 pos=1 col=0 WHILE pos<=len DO start=pos WHILE pos<=len AND line(pos)#sep DO pos==+1 OD w=pos-start wordStart(wordCount)=start wordLen(wordCount)=w wordCount==+1 wordsInLine(i)==+1 IF col=colCount THEN colWidths(col)=w colCount==+1 ELSEIF w>colWidths(col) THEN colWidths(col)=w FI col==+1 pos==+1 OD OD
RETURN
BYTE FUNC GetBufLineLength()
BYTE i,res
res=0 FOR i=0 TO colCount-1 DO res==+colWidths(i)+1 OD res==+1
RETURN (res)
BYTE FUNC AtasciiToInternal(CHAR c)
BYTE c2
c2=c&$7F IF c2<32 THEN RETURN (c+64) ELSEIF c2<96 THEN RETURN (c-32) FI
RETURN (c)
PROC GenerateLine(BYTE index BYTE align BYTE POINTER p)
BYTE wordIndex,last,left,right,start,len,colW INT i,j CHAR ARRAY line
line=lines(index) wordIndex=firstWordInLine(index) last=wordIndex+wordsInLine(index)-1 FOR i=0 TO colCount-1 DO colW=colWidths(i)
p^=124 p==+1 IF wordIndex<=last THEN start=wordStart(wordIndex) len=wordLen(wordIndex) IF align=0 THEN left=0 right=colW-len ELSEIF align=1 THEN left=(colW-len)/2 right=colW-left-len ELSE left=colW-len right=0 FI
p==+left for j=start TO start+len-1 DO p^=AtasciiToInternal(line(j)) p==+1 OD p==+right ELSE p==+colW FI
wordIndex==+1 OD p^=124
RETURN
PROC FillBuffer(BYTE lineWidth)
BYTE i,align BYTE POINTER p
p=buffer Zero(p,BUFFER_SIZE) FOR align=0 TO 2 DO FOR i=0 TO lineCount-1 DO GenerateLine(i,align,p) p==+lineWidth OD OD
RETURN
BYTE FUNC GetMaxOffset()
BYTE res
res=GetBufLineLength()-LINE_WIDTH
RETURN (res)
PROC Update(BYTE offset,lineWidth)
BYTE POINTER srcPtr,dstPtr BYTE i
srcPtr=buffer+offset dstPtr=PeekC(88)+3*LINE_WIDTH FOR i=0 TO 3*lineCount-1 DO MoveBlock(dstPtr,srcPtr,LINE_WIDTH) srcPtr==+lineWidth dstPtr==+LINE_WIDTH IF i=lineCount-1 OR i=2*lineCount-1 THEN dstPtr==+LINE_WIDTH FI OD
RETURN
PROC Main()
BYTE lineWidth,offset,maxOffset,k, CH=$02FC, ;Internal hardware value for last key pressed CRSINH=$02F0 ;Controls visibility of cursor
CRSINH=1 ;hide cursor InitData() ProcessData() lineWidth=GetBufLineLength() FillBuffer(lineWidth)
Position(2,1) Print("Press left/right arrow key to scroll")
maxOffset=lineWidth-LINE_WIDTH offset=0 Update(offset,lineWidth) DO k=CH IF k#$FF THEN CH=$FF FI
IF k=134 AND offset>0 THEN offset==-1 Update(offset,lineWidth) ELSEIF k=135 AND offset<maxOffset THEN offset==+1 Update(offset,lineWidth) ELSEIF k=28 THEN EXIT FI OD
RETURN</lang>
- Output:
Screenshot from Atari 8-bit computer
Press left/right arrow key to scroll |Given |a |text |file |of |many |lines, |where |fields |within |a |line| |are |delineated|by |a |single|'dollar' |character,|write |a |program| | | |that |aligns |each |column|of |fields |by |ensuring|that |words |in |each| |column |are |separated |by |at |least |one |space. | | | | | |Further, |allow |for |each |word |in |a |column |to |be |either|left| |justified,|right |justified,|or |center|justified|within |its |column.| | | | | Given | a | text | file | of | many | lines, | where |fields |within | a |line| | are |delineated| by | a |single|'dollar' |character,| write | a |program| | | | that | aligns | each |column| of | fields | by |ensuring| that | words | in |each| | column | are |separated | by | at | least | one | space. | | | | | | Further, | allow | for | each | word | in | a | column | to | be |either|left| |justified,| right |justified,| or |center|justified| within | its |column.| | | | | Given| a| text| file| of| many| lines,| where| fields| within| a|line| | are|delineated| by| a|single| 'dollar'|character,| write| a|program| | | | that| aligns| each|column| of| fields| by|ensuring| that| words| in|each| | column| are| separated| by| at| least| one| space.| | | | | | Further,| allow| for| each| word| in| a| column| to| be|either|left| |justified,| right|justified,| or|center|justified| within| its|column.| | | |
Ada
<lang ada>with Ada.Characters.Latin_1; use Ada.Characters.Latin_1; with Ada.Text_IO; use Ada.Text_IO; with Strings_Edit; use Strings_Edit;
procedure Column_Aligner is
Text : constant String := "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" & NUL & "are$delineated$by$a$single$'dollar'$character,$write$a$program" & NUL & "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" & NUL & "column$are$separated$by$at$least$one$space." & NUL & "Further,$allow$for$each$word$in$a$column$to$be$either$left$" & NUL & "justified,$right$justified,$or$center$justified$within$its$column." & NUL; File : File_Type; Width : array (1..1_000) of Natural := (others => 0); Line : String (1..200); Column : Positive := 1; Start : Positive := 1; Pointer : Positive;
begin
Create (File, Out_File, "columned.txt"); -- Determining the widths of columns for I in Text'Range loop case Text (I) is when '$' | NUL => Width (Column) := Natural'Max (Width (Column), I - Start + 1); Start := I + 1; if Text (I) = NUL then Column := 1; else Column := Column + 1; end if; when others => null; end case; end loop; -- Formatting for Align in Alignment loop Column := 1; Start := 1; Pointer := 1; for I in Text'Range loop case Text (I) is when '$' | NUL => Put -- Formatted output of a word ( Destination => Line, Pointer => Pointer, Value => Text (Start..I - 1), Field => Width (Column), Justify => Align ); Start := I + 1; if Text (I) = NUL then Put_Line (File, Line (1..Pointer - 1)); Pointer := 1; Column := 1; else Column := Column + 1; end if; when others => null; end case; end loop; end loop; Close (File);
end Column_Aligner;</lang> Formatted file sample:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Aime
<lang aime>data b; file f; text n, t; list c, r, s; integer a, i, k, m, w;
b = "Given$a$text$file$of$many$lines,$where$fields$within$a$line$\n"
"are$delineated$by$a$single$'dollar'$character,$write$a$program\n" "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$\n" "column$are$separated$by$at$least$one$space.\n" "Further,$allow$for$each$word$in$a$column$to$be$either$left$\n" "justified,$right$justified,$or$center$justified$within$its$column.";
f.b_affix(b);
m = 0;
while (f.news(r, 0, 0, "$") ^ -1) {
c.append(r); m = max(m, ~r);
}
i = 0; while (i < m) {
w = 0; for (, r in c) { if (i < ~r) { w = max(w, length(r[i])); } } s.append(w + 1); i += 1;
}
for (k, t in list("left", "center", "right")) {
o_(t, " justified\n"); for (, r in c) { for (i, n in r) { m = s[i] - ~n; o_form("/w~3/~/w~1/", a = (2 - k) * m >> 1, "", m - a, "", n); } o_newline(); } o_newline();
}</lang>
- Output:
left justified Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. center justified Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. right justified Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
ALGOL 68
<lang algol68>STRING nl = REPR 10; STRING text in list := "Given$a$text$file$of$many$lines,$where$fields$within$a$line$"+nl+
"are$delineated$by$a$single$'dollar'$character,$write$a$program"+nl+ "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$"+nl+ "column$are$separated$by$at$least$one$space."+nl+ "Further,$allow$for$each$word$in$a$column$to$be$either$left$"+nl+ "justified,$right$justified,$or$center$justified$within$its$column.";
MODE PAGE = FLEX[0,0]STRING; PAGE page;
PROC flex page = (PAGE in page, INT row, col)PAGE:(
HEAP FLEX[row, col]STRING out page; out page[:1 UPB in page, :2 UPB in page] := in page; FOR r TO row DO FOR c FROM 2 UPB in page + 1 TO col DO out page[r,c]:="" OD OD; FOR r FROM 1 UPB in page + 1 TO row DO FOR c FROM 1 TO col DO out page[r,c]:="" OD OD; out page
);
FILE text in file; associate(text in file, text in list); make term(text in file, "$");
on physical file end(text in file, (REF FILE skip)BOOL: stop iteration); on logical file end(text in file, (REF FILE skip)BOOL: stop iteration); FOR row DO
on line end(text in file, (REF FILE skip)BOOL: stop iteration); FOR col DO STRING tok; getf(text in file, ($gx$,tok)); IF row > 1 UPB page THEN page := flex page(page, row, 2 UPB page) FI; IF col > 2 UPB page THEN page := flex page(page, 1 UPB page, col) FI; page[row,col]:=tok OD; stop iteration: SKIP
OD; stop iteration:
SKIP;
BEGIN
PROC aligner = (PAGE in page, PROC (STRING,INT)STRING aligner)VOID:( PAGE page := in page; [2 UPB page]INT max width; FOR col TO 2 UPB page DO INT max len:=0; FOR row TO UPB page DO IF UPB page[row,col]>max len THEN max len:=UPB page[row,col] FI OD; FOR row TO UPB page DO page[row,col] := aligner(page[row,col], maxlen) OD OD; printf(($n(UPB page)(n(2 UPB page -1)(gx)gl)$,page)) );
PROC left = (STRING in, INT len)STRING: in + " "*(len - UPB in), right = (STRING in, INT len)STRING: " "*(len - UPB in) + in, centre = (STRING in, INT len)STRING: ( INT pad=len-UPB in; pad%2*" "+ in + (pad-pad%2)*" " ); []STRUCT(STRING name, PROC(STRING,INT)STRING align) aligners = (("Left",left), ("Left",right), ("Centre",centre)); FOR index TO UPB aligners DO print((new line, "# ",name OF aligners[index]," Column-aligned output:",new line)); aligner(page, align OF aligners[index]) OD
END</lang>
Amazing Hopper
<lang Amazing Hopper>
- define IGet(__N__,__X__) [__N__]SGet(__X__)
- include <hbasic.h>
- define MAX_LINE 1000
Begin
Option Stack 15 Declare as Numeric ( fd, i, index, max token ) as Numeric ( num tokens, size Column, tCells ) as Alpha ( line ) as Numeric ( display Left, display Right, display Center ) GetParam(script, file to edit, separator)
// get statistics of file: #lines, #total chars, line more long, and num tokens from first line. Token Sep( separator ) Stat( file to edit, dats ) // declare arrays to work: Dim ( IGet(1,dats), Add(IGet(4,dats),10) ) for Fill Array("",cells) Clear(dats) MStore ( cells, display Left, display Right, display Center ) // read each line as array, get # of elements, and put into array cells: Open(OPEN_READ, file to edit ) (fd) When( File Error ){ Stop }
index=1 While Not Eof(fd) ReadRow(MAX_LINE)(fd) and Copy to (line); get Length, and Move to (num tokens) Set Interval [index, 1:num tokens]; Take( line ) and SPut(cells) When ( var( max token) Is Lt (num tokens) ) { max token = num tokens } ++index Wend Close(fd)
// formatting... For Up( i:=1, max token, 1 ) Set Interval [1:end,i], and Let ( size Column := MaxValue( Len(Get(cells)) ) Plus(1) ) Let ( tCells := Get(cells) ) LPad$( " ", size Column, tCells ), and Put(display Left) RPad$( " ", size Column, tCells ), and Put(display Right) CPad$( " ", size Column, tCells ), and Put(display Center) Next
// display: Token Sep ("") Print("Left Pad:\n", display Left, Newl, "Right Pad:\n", display Right, Newl, "Center Pad:\n", display Center,Newl)
End </lang>
- Output:
Sample String was saved into "sample.txt" file.
$ hopper src/acolumns.bas sample.txt "$" Left Pad: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Right Pad: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Center Pad: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. $
AppleScript
Probably not the first language in which you would really choose to do this kind of thing, but certainly possible, and can be readily easily assembled from a set of generic primitives.
<lang AppleScript>-- COLUMN ALIGNMENTS ---------------------------------------------------------
property pstrLines : ¬
"Given$a$text$file$of$many$lines,$where$fields$within$a$line$\n" & ¬ "are$delineated$by$a$single$'dollar'$character,$write$a$program\n" & ¬ "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$\n" & ¬ "column$are$separated$by$at$least$one$space.\n" & ¬ "Further,$allow$for$each$word$in$a$column$to$be$either$left$\n" & ¬ "justified,$right$justified,$or$center$justified$within$its$column."
property eLeft : -1 property eCenter : 0 property eRight : 1
-- columnsAligned :: EnumValue -> String -> String on columnsAligned(eAlign, lstCols)
-- padwords :: Int -> [String] -> String script padwords on |λ|(n, lstWords) -- pad :: String -> String script pad on |λ|(str) set lngPad to n - (length of str) if eAlign = my eCenter then set lngHalf to lngPad div 2 {replicate(lngHalf, space), str, ¬ replicate(lngPad - lngHalf, space)} else if eAlign = my eLeft then {"", str, replicate(lngPad, space)} else {replicate(lngPad, space), str, ""} end if end if end |λ| end script map(pad, lstWords) end |λ| end script unlines(map(my unwords, ¬ transpose(zipWith(padwords, ¬ map(my widest, lstCols), lstCols))))
end columnsAligned
-- lineColumns :: String -> String -> String on lineColumns(strColDelim, strText)
-- _words :: Text -> [Text] script _words on |λ|(str) splitOn(strColDelim, str) end |λ| end script set lstRows to map(_words, splitOn(linefeed, pstrLines)) set nCols to widest(lstRows) -- fullRow :: a -> a script fullRow on |λ|(lst) lst & replicate(nCols - (length of lst), {""}) end |λ| end script transpose(map(fullRow, lstRows))
end lineColumns
-- widest [a] -> Int on widest(xs)
|length|(maximumBy(comparing(my |length|), xs))
end widest
-- TEST ---------------------------------------------------------------------- on run
set lstCols to lineColumns("$", pstrLines) script testAlignment on |λ|(eAlign) columnsAligned(eAlign, lstCols) end |λ| end script intercalate(return & return, ¬ map(testAlignment, {eLeft, eRight, eCenter}))
end run
-- GENERIC FUNCTIONS ---------------------------------------------------------
-- comparing :: (a -> b) -> (a -> a -> Ordering) on comparing(f)
set mf to mReturn(f) script on |λ|(a, b) set x to mf's |λ|(a) set y to mf's |λ|(b) if x < y then -1 else if x > y then 1 else 0 end if end if end |λ| end script
end comparing
-- foldl :: (a -> b -> a) -> a -> [b] -> a on foldl(f, startValue, xs)
tell mReturn(f) set v to startValue set lng to length of xs repeat with i from 1 to lng set v to |λ|(v, item i of xs, i, xs) end repeat return v end tell
end foldl
-- Text -> [Text] -> Text on intercalate(strText, lstText)
set {dlm, my text item delimiters} to {my text item delimiters, strText} set strJoined to lstText as text set my text item delimiters to dlm return strJoined
end intercalate
-- length :: [a] -> Int on |length|(xs)
length of xs
end |length|
-- Lift 2nd class handler function into 1st class script wrapper -- mReturn :: Handler -> Script on mReturn(f)
if class of f is script then f else script property |λ| : f end script end if
end mReturn
-- map :: (a -> b) -> [a] -> [b] on map(f, xs)
tell mReturn(f) set lng to length of xs set lst to {} repeat with i from 1 to lng set end of lst to |λ|(item i of xs, i, xs) end repeat return lst end tell
end map
-- maximumBy :: (a -> a -> Ordering) -> [a] -> a on maximumBy(f, xs)
set cmp to mReturn(f) script max on |λ|(a, b) if a is missing value or cmp's |λ|(a, b) < 0 then b else a end if end |λ| end script foldl(max, missing value, xs)
end maximumBy
-- min :: Ord a => a -> a -> a on min(x, y)
if y < x then y else x end if
end min
-- Egyptian multiplication - progressively doubling a list, appending -- stages of doubling to an accumulator where needed for binary -- assembly of a target length
-- replicate :: Int -> a -> [a] on replicate(n, a)
if class of a is string then set out to "" else set out to {} end if if n < 1 then return out set dbl to a repeat while (n > 1) if (n mod 2) > 0 then set out to out & dbl set n to (n div 2) set dbl to (dbl & dbl) end repeat return out & dbl
end replicate
-- Text -> Text -> [Text] on splitOn(strDelim, strMain)
set {dlm, my text item delimiters} to {my text item delimiters, strDelim} set lstParts to text items of strMain set my text item delimiters to dlm return lstParts
end splitOn
-- transpose :: a -> a on transpose(xss)
script column on |λ|(_, iCol) script row on |λ|(xs) item iCol of xs end |λ| end script map(row, xss) end |λ| end script map(column, item 1 of xss)
end transpose
-- [Text] -> Text on unlines(lstLines)
intercalate(linefeed, lstLines)
end unlines
-- [Text] -> Text on unwords(lstWords)
intercalate(" ", lstWords)
end unwords
-- zipWith :: (a -> b -> c) -> [a] -> [b] -> [c] on zipWith(f, xs, ys)
set lng to min(length of xs, length of ys) set lst to {} tell mReturn(f) repeat with i from 1 to lng set end of lst to |λ|(item i of xs, item i of ys) end repeat return lst end tell
end zipWith</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
ARM Assembly
<lang ARM Assembly> /* ARM assembly Raspberry PI */ /* program alignColumn.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" .equ BUFFERSIZE, 20 * 10
/*********************************/ /* Initialized data */ /*********************************/ .data szMessLeft: .asciz "LEFT :\n" szMessRight: .asciz "\nRIGHT :\n" szMessCenter: .asciz "\nCENTER :\n" szCarriageReturn: .asciz "\n"
szLine1: .asciz "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" szLine2: .asciz "are$delineated$by$a$single$'dollar'$character,$write$a$program" szLine3: .asciz "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" szLine4: .asciz "column$are$separated$by$at$least$one$space." szLine5: .asciz "Further,$allow$for$each$word$in$a$column$to$be$either$left$" szLine6: .asciz "justified,$right$justified,$or$center$justified$within$its$column."
itbPtLine: .int szLine1,szLine2,szLine3,szLine4,szLine5,szLine6
.equ NBLINES, (. - itbPtLine) / 4
/*********************************/ /* UnInitialized data */ /*********************************/ .bss /*********************************/ /* code section */ /*********************************/ .text .global main main: @ entry of program
ldr r0,iAdritbPtLine bl computeMaxiLengthWords mov r10,r0 @ column counter ldr r0,iAdrszMessLeft bl affichageMess ldr r0,iAdritbPtLine mov r1,r10 @ column size bl alignLeft ldr r0,iAdrszMessRight bl affichageMess ldr r0,iAdritbPtLine mov r1,r10 @ column size bl alignRight ldr r0,iAdrszMessCenter bl affichageMess ldr r0,iAdritbPtLine mov r1,r10 @ column size bl alignCenter
100: @ standard end of the program
mov r0, #0 @ return code mov r7, #EXIT @ request to exit program svc #0 @ perform the system call
iAdrszCarriageReturn: .int szCarriageReturn iAdrszMessLeft: .int szMessLeft iAdrszMessRight: .int szMessRight iAdrszMessCenter: .int szMessCenter iAdritbPtLine: .int itbPtLine /******************************************************************/ /* compute maxi words */ /******************************************************************/ /* r0 contains adresse pointer array */ computeMaxiLengthWords:
push {r1-r6,lr} @ save registers mov r2,#0 @ indice pointer array mov r3,#0 @ maxi length words
1:
ldr r1,[r0,r2,lsl #2] @ load pointer mov r4,#0 @ length words counter mov r5,#0 @ indice line character
2:
ldrb r6,[r1,r5] @ load a line character cmp r6,#0 @ line end ? beq 4f cmp r6,#'$' @ separator ? bne 3f cmp r4,r3 movgt r3,r4 @ ig greather replace maxi mov r4,#-1 @ raz length counter
3:
add r4,r4,#1 add r5,r5,#1 @ increment character indice b 2b @ and loop
4: @ end line
cmp r4,r3 @ compare word counter and maxi movgt r3,r4 @ if greather replace maxi add r2,r2,#1 @ increment indice line pointer cmp r2,#NBLINES @ maxi ? blt 1b @ no -> loop
mov r0,r3 @ return maxi length counter
100:
pop {r1-r6,pc}
/******************************************************************/ /* align left */ /******************************************************************/ /* r0 contains the address of pointer array*/ /* r1 contains column size */ alignLeft:
push {r4-r7,fp,lr} @ save registers sub sp,sp,#BUFFERSIZE @ reserve place for output buffer mov fp,sp mov r5,r0 @ array address mov r2,#0 @ indice array
1:
ldr r3,[r5,r2,lsl #2] @ load line pointer mov r4,#0 @ line character indice mov r7,#0 @ output buffer character indice mov r6,#0 @ word lenght
2:
ldrb r0,[r3,r4] @ load a character line strb r0,[fp,r7] @ store in buffer cmp r0,#0 @ line end ? beq 6f cmp r0,#'$' @ separator ? bne 5f mov r0,#' ' strb r0,[fp,r7] @ replace $ by space
3:
cmp r6,r1 @ length word >= length column bge 4f add r7,r7,#1 mov r0,#' ' strb r0,[fp,r7] @ add space to buffer add r6,r6,#1 b 3b @ and loop
4:
mov r6,#-1 @ raz word length
5:
add r4,r4,#1 @ increment line indice add r7,r7,#1 @ increment buffer indice add r6,r6,#1 @ increment word length b 2b
6:
mov r0,#'\n' strb r0,[fp,r7] @ return line add r7,r7,#1 mov r0,#0 strb r0,[fp,r7] @ final zéro mov r0,fp bl affichageMess @ display output buffer add r2,r2,#1 cmp r2,#NBLINES blt 1b
100:
add sp,sp,#BUFFERSIZE pop {r4-r7,fp,pc}
/******************************************************************/ /* align right */ /******************************************************************/ /* r0 contains the address of pointer array*/ /* r1 contains column size */ alignRight:
push {r4-r9,fp,lr} @ save registers sub sp,sp,#BUFFERSIZE @ reserve place for output buffer mov fp,sp mov r5,r0 @ array address mov r2,#0 @ indice array
1:
ldr r3,[r5,r2,lsl #2] @ load line pointer mov r4,#0 @ line character indice mov r7,#0 @ output buffer character indice mov r6,#0 @ word lenght mov r8,r3 @ word begin address
2: @ compute word length
ldrb r0,[r3,r4] @ load a character line cmp r0,#0 @ line end ? beq 3f cmp r0,#'$' @ separator ? beq 3f add r4,r4,#1 @ increment line indice add r6,r6,#1 @ increment word length b 2b
3:
cmp r6,#0 beq 4f sub r6,r1,r6 @ compute left spaces to add
4: @ loop add spaces to buffer
cmp r6,#0 blt 5f mov r0,#' ' strb r0,[fp,r7] @ add space to buffer add r7,r7,#1 sub r6,r6,#1 b 4b @ and loop
5:
mov r9,#0
6: @ copy loop word to buffer
ldrb r0,[r8,r9] cmp r0,#'$' beq 7f cmp r0,#0 @ line end beq 8f strb r0,[fp,r7] add r7,r7,#1 add r9,r9,#1 b 6b
7:
add r8,r8,r9 add r8,r8,#1 @ new word begin mov r6,#0 @ raz word length add r4,r4,#1 @ increment line indice b 2b
8:
mov r0,#'\n' strb r0,[fp,r7] @ return line add r7,r7,#1 mov r0,#0 strb r0,[fp,r7] @ final zéro mov r0,fp bl affichageMess @ display output buffer add r2,r2,#1 cmp r2,#NBLINES blt 1b
100:
add sp,sp,#BUFFERSIZE pop {r4-r9,fp,pc}
/******************************************************************/ /* align center */ /******************************************************************/ /* r0 contains the address of pointer array*/ /* r1 contains column size */ alignCenter:
push {r4-r12,lr} @ save registers sub sp,sp,#BUFFERSIZE @ reserve place for output buffer mov fp,sp mov r5,r0 @ array address mov r2,#0 @ indice array
1:
ldr r3,[r5,r2,lsl #2] @ load line pointer mov r4,#0 @ line character indice mov r7,#0 @ output buffer character indice mov r6,#0 @ word length mov r8,r3 @ word begin address
2: @ compute word length
ldrb r0,[r3,r4] @ load a character line cmp r0,#0 @ line end ? beq 3f cmp r0,#'$' @ separator ? beq 3f add r4,r4,#1 @ increment line indice add r6,r6,#1 @ increment word length b 2b
3:
cmp r6,#0 beq 5f sub r6,r1,r6 @ total spaces number to add mov r12,r6 lsr r6,r6,#1 @ divise by 2 = left spaces number
4:
cmp r6,#0 blt 5f mov r0,#' ' strb r0,[fp,r7] @ add space to buffer add r7,r7,#1 @ increment output indice sub r6,r6,#1 @ decrement number space b 4b @ and loop
5:
mov r9,#0
6: @ copy loop word to buffer
ldrb r0,[r8,r9] cmp r0,#'$' @ séparator ? beq 7f cmp r0,#0 @ line end ? beq 10f strb r0,[fp,r7] add r7,r7,#1 add r9,r9,#1 b 6b
7:
lsr r6,r12,#1 @ divise total spaces by 2 sub r6,r12,r6 @ and compute number spaces to right side
8: @ loop to add right spaces
cmp r6,#0 ble 9f mov r0,#' ' strb r0,[fp,r7] @ add space to buffer add r7,r7,#1 sub r6,r6,#1 b 8b @ and loop
9:
add r8,r8,r9 add r8,r8,#1 @ new address word begin mov r6,#0 @ raz word length add r4,r4,#1 @ increment line indice b 2b @ and loop new word
10:
mov r0,#'\n' strb r0,[fp,r7] @ return line add r7,r7,#1 mov r0,#0 strb r0,[fp,r7] @ final zéro mov r0,fp bl affichageMess @ display output buffer add r2,r2,#1 @ increment line indice cmp r2,#NBLINES @ maxi ? blt 1b @ loop
100:
add sp,sp,#BUFFERSIZE pop {r4-r12,pc}
/***************************************************/ /* ROUTINES INCLUDE */ /***************************************************/ .include "../affichage.inc" </lang>
LEFT : Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. RIGHT : Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. CENTER : Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Arturo
<lang rebol>text: {
Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.
}
output: map split.lines text => [split.by:"$"]
loop output 'line [
loop line 'word -> prints pad word 12 print ""
]</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
AutoHotkey
<lang AutoHotkey>Alignment := "L" ; Options: L, R, C Text = ( LTrim Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. )
Loop, Parse, Text ; calculate column's width If A_LoopField in $,`n If (N > W) W := N, N := 0 Else N := 0 Else ++N Width := ++W
Loop, Parse, Text, `n ; process each line { Words := StrSplit(A_LoopField, "$") For i, Word in Words ; process each word Line .= Align(Word, Alignment, Width) Result .= RTrim(Line) . "`n" Line := "" }
Clipboard := Result ; present results MsgBox, The results are in the Clipboard
Align(Pal, How, Width) { ; function for alignment Length := StrLen(Pal) If (How = "L") Return Pal . Spc(Width - Length) Else If (How = "R") Return Spc(Width - Length) . Pal Else If (How = "C") Return Spc((Width - Length)//2) . Pal . Spc(Width - Length - (Width - Length)//2) }
Spc(Number) { ; function to concatenate space characters Loop, %Number% Ret .= A_Space Return Ret } </lang>
AutoIt
<lang AutoIt>
- == If the given text is in an file, it will read with
- include <File.au3>
Global $aRead _FileReadToArray($sPath, $aRead) ; == $aRead[0] includes count of lines, every line stored in one item (without linebreak)
- == For example we get the same result with StringSplit()
Global $sText = _ "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" & @CRLF & _ "are$delineated$by$a$single$'dollar'$character,$write$a$program" & @CRLF & _ "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" & @CRLF & _ "column$are$separated$by$at$least$one$space." & @CRLF & _ "Further,$allow$for$each$word$in$a$column$to$be$either$left$" & @CRLF & _ "justified,$right$justified,$or$center$justified$within$its$column." & @CRLF
$aRead = StringSplit($sText, @CRLF, 1)
- == strip leading and trailing "$" and trailing spaces, count remaining "$" to get max column number
Global $iMaxColumn = 0, $iLines = 0 For $i = 1 To $aRead[0] If $aRead[$i] = Then ContinueLoop ; skip empty lines $iLines += 1 $aRead[$i] = StringRegExpReplace(StringRegExpReplace(StringRegExpReplace($aRead[$i], '^\$', ), '\$$', ), '\s*$', ) StringReplace($aRead[$i], '$', '$') If @extended +1 > $iMaxColumn Then $iMaxColumn = @extended +1 Next
- == build array to store all fields and length of every item
Global $aFields[$iLines][$iMaxColumn +1][2]
- == and store the max. length of item in columns
Global $aColLen[$iMaxColumn]
- == fill the array
Global $aSplitLine $iLines = 0 For $i = 1 To $aRead[0] If $aRead[$i] = Then ContinueLoop ; skip empty lines $iMaxColLen = 0 $aSplitLine = StringSplit($aRead[$i], '$') For $j = 1 To $aSplitLine[0] $aFields[$iLines][$j-1][0] = $aSplitLine[$j] $aFields[$iLines][$j-1][1] = StringLen($aSplitLine[$j]) If $aFields[$iLines][$j-1][1] > $aColLen[$j-1] Then $aColLen[$j-1] = $aFields[$iLines][$j-1][1] Next $iLines += 1 Next
- == let the user select the alignment for every column
$sAlign = InputBox('Column alignment', 'There are ' & $iMaxColumn & ' columns.' & @LF & '0 = left 1 = center 2 = right' & @LF & _
'Input alignment for all columns without delimiters.' & @LF & 'Let it empty, to align all left.')
If $sAlign = Then For $i = 1 To $iMaxColumn $sAlign &= '0' Next EndIf Global $aAlignment = StringSplit($sAlign, , 2)
- == output all to console
Global $sLineOut For $i = 0 To UBound($aFields) -1 $sLineOut = For $j = 0 To $iMaxColumn -1 If $aFields[$i][$j][0] = Then ContinueLoop $sLineOut &= _GetAligned($aFields[$i][$j][0], $aFields[$i][$j][1], $aAlignment[$j], $aColLen[$j]) Next ConsoleWrite(StringTrimRight($sLineOut, 1) & @LF) Next
Func _GetAligned($_sString, $_iLen, $_iAlign, $_iMaxLen) Local $sSpace = For $i = 1 To $_iMaxLen $sSpace &= ' ' Next Switch $_iAlign Case 0 Return $_sString & StringLeft($sSpace, $_iMaxLen - $_iLen +1) Case 1 Local $iLenLeft = Int(($_iMaxLen - $_iLen)/2) Local $iLenRight = $_iMaxLen - $iLenLeft - $_iLen Return StringLeft($sSpace, $iLenLeft) & $_sString & StringLeft($sSpace, $iLenRight) & ' ' Case 2 Return StringLeft($sSpace, $_iMaxLen - $_iLen) & $_sString & ' ' EndSwitch EndFunc ;==>_GetAligned </lang> Example output in Alignment: left - center - right - left - center - right - left - center - right - left - center - right
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
AWK
<lang AWK>
- syntax: GAWK -f ALIGN_COLUMNS.AWK ALIGN_COLUMNS.TXT
BEGIN {
colsep = " " # separator between columns report("raw data")
} { printf("%s\n",$0)
arr[NR] = $0 n = split($0,tmp_arr,"$") for (j=1; j<=n; j++) { width = max(width,length(tmp_arr[j])) }
} END {
report("left justified") report("right justified") report("center justified") exit(0)
} function report(text, diff,i,j,l,n,r,tmp_arr) {
printf("\nreport: %s\n",text) for (i=1; i<=NR; i++) { n = split(arr[i],tmp_arr,"$") if (tmp_arr[n] == "") { n-- } for (j=1; j<=n; j++) { if (text ~ /^[Ll]/) { # left printf("%-*s%s",width,tmp_arr[j],colsep) } else if (text ~ /^[Rr]/) { # right printf("%*s%s",width,tmp_arr[j],colsep) } else if (text ~ /^[Cc]/) { # center diff = width - length(tmp_arr[j]) l = r = int(diff / 2) if (diff != l + r) { r++ } printf("%*s%s%*s%s",l,"",tmp_arr[j],r,"",colsep) } } printf("\n") }
} function max(x,y) { return((x > y) ? x : y) } </lang>
Output:
report: raw data Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. report: left justified Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. report: right justified Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. report: center justified Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
BaCon
<lang freebasic> DECLARE in$[] = { "Given$a$text$file$of$many$lines,$where$fields$within$a$line$", \
"are$delineated$by$a$single$'dollar'$character,$write$a$program", \ "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$", \ "column$are$separated$by$at$least$one$space.", \ "Further,$allow$for$each$word$in$a$column$to$be$either$left$", \ "justified,$right$justified,$or$center$justified$within$its$column." }
OPTION DELIM "$"
CONST items = 6
SUB Print_In_Columns(style)
' Find widest column FOR y = 0 TO items-1 FOR x = 1 TO AMOUNT(in$[y]) IF LEN(TOKEN$(in$[y], x)) > max THEN max = LEN(TOKEN$(in$[y], x)) NEXT NEXT
' Print aligned FOR y = 0 TO items-1 FOR x = 1 TO AMOUNT(in$[y]) PRINT ALIGN$(TOKEN$(in$[y], x), max+1, style); NEXT PRINT NEXT PRINT
END SUB
Print_In_Columns(0) Print_In_Columns(1) Print_In_Columns(2) </lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
BASIC
BBC BASIC
<lang bbcbasic> DATA 6
DATA "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" DATA "are$delineated$by$a$single$'dollar'$character,$write$a$program" DATA "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" DATA "column$are$separated$by$at$least$one$space." DATA "Further,$allow$for$each$word$in$a$column$to$be$either$left$" DATA "justified,$right$justified,$or$center$justified$within$its$column." REM First find the maximum length of a 'word': max% = 0 READ nlines% FOR Line% = 1 TO nlines% READ text$ REPEAT word$ = FNword(text$, "$") IF LEN(word$) > max% THEN max% = LEN(word$) UNTIL word$ = "" NEXT Line% @% = max% : REM set column width REM Now display the aligned text: RESTORE READ nlines% FOR Line% = 1 TO nlines% READ text$ REPEAT word$ = FNword(text$, "$") PRINT FNjustify(word$, max%, "left"),; UNTIL word$ = "" PRINT NEXT Line% END DEF FNword(text$, delim$) PRIVATE delim% LOCAL previous% IF delim% = 0 THEN previous% = 1 ELSE previous% = delim% + LEN(delim$) ENDIF delim% = INSTR(text$+delim$, delim$, previous%) IF delim% = 0 THEN = "" ELSE = MID$(text$, previous%, delim%-previous%) + " " ENDIF DEF FNjustify(word$, field%, mode$) IF word$ = "" THEN = "" CASE mode$ OF WHEN "center": = STRING$((field%-LEN(word$)) DIV 2, " ") + word$ WHEN "right": = STRING$(field%-LEN(word$), " ") + word$ ENDCASE = word$</lang>
Commodore BASIC
<lang basic>10 rem ******************************** 20 rem print words in columns 30 rem commodore basic 2.0 40 rem ******************************** 50 print chr$(14) : rem change to upper/lower case set 60 gosub 140 : rem find length of longest word 70 algn$ = "left" 80 gosub 260 : rem print aligned text 90 algn$ = "center" 100 gosub 260 110 algn$ = "right" 120 gosub 260 130 end 140 rem *** find length of longest word 150 mx=0 160 for i=1 to 6 170 read a$ 180 n=1 190 for j=1 to len(a$) 200 if mid$(a$,j,1)<>"$" then n=n+1: goto 230 210 if mx<n then mx=n 220 n=1 230 next 240 next 250 return 260 rem print aligned text 270 restore : rem reset data read pointer 280 s$ = " " 290 print : print algn$;"-aligned" 300 c=1 : rem column counter 310 for i=1 to 6 320 read a$ 330 n=1 340 for j=1 to len(a$) 350 if mid$(a$,j,1)<>"$" then n=n+1 : goto 380 360 gosub 440 : rem print word 370 n=1 380 next 390 if n>1 then gosub 440 400 next 410 print 420 return 430 rem ********* print word ********** 440 b$ = mid$(a$,j-n+1,n-1) 450 b = len(b$) 460 if algn$ = "center" then 520 470 if algn$ = "right" then 570 480 if c+b<40 and c+mx>40 then print b$: c=1: return 490 if c+mx>40 then print : c=1 500 print b$;left$(s$,mx-b);: c=c+mx 510 return 520 if c+mx>40 then print : c=1 530 bb=(mx-b)/2 : ba=bb 540 if bb>1 and int(bb)=bb then ba=bb-1 550 print left$(s$,ba);b$;left$(s$,bb);: c=c+mx 560 return 570 if c+mx>40 then print : c=1 580 print left$(s$,mx-b);b$;: c=c+mx 590 return 600 rem *********** the words ********* 610 data "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" 620 data "are$delineated$by$a$single$'dollar'$character,$write$a$program" 630 data "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" 640 data "column$are$separated$by$at$least$one$space." 650 data "Further,$allow$for$each$word$in$a$column$to$be$either$left$" 660 data "justified,$right$justified,$or$center$justified$within$its$column"</lang>
Batch File
<lang dos>@echo off setlocal enabledelayedexpansion mode con cols=103
echo Given$a$text$file$of$many$lines,$where$fields$within$a$line$ >file.txt echo are$delineated$by$a$single$'dollar'$character,$write$a$program! >>file.txt echo that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$>>file.txt echo column$are$separated$by$at$least$one$space.>>file.txt echo Further,$allow$for$each$word$in$a$column$to$be$either$left$>>file.txt echo justified,$right$justified,$or$center$justified$within$its$column.>>file.txt
for /f "tokens=1-13 delims=$" %%a in ('type file.txt') do (
call:maxlen %%a %%b %%c %%d %%e %%f %%g %%h %%i %%j %%k %%l %%m )
echo. for /f "tokens=1-13 delims=$" %%a in ('type file.txt') do (
call:align 1 %%a %%b %%c %%d %%e %%f %%g %%h %%i %%j %%k %%l %%m )
echo. for /f "tokens=1-13 delims=$" %%a in ('type file.txt') do (
call:align 2 %%a %%b %%c %%d %%e %%f %%g %%h %%i %%j %%k %%l %%m )
echo. for /f "tokens=1-13 delims=$" %%a in ('type file.txt') do (
call:align 3 %%a %%b %%c %%d %%e %%f %%g %%h %%i %%j %%k %%l %%m )
exit /B
- maxlen &::sets variables len1 to len13
set "cnt=1"
- loop1
if "%1"=="" exit /b call:strlen %1 length if !len%cnt%! lss !length! set len%cnt%=!length! set /a cnt+=1 shift goto loop1
- align
setlocal set cnt=1 set print=
- loop2
if "%2"=="" echo(%print%&endlocal & exit /b set /a width=len%cnt%,cnt+=1 set arr=%2 if %1 equ 1 call:left %width% arr if %1 equ 2 call:right %width% arr if %1 equ 3 call:center %width% arr set "print=%print%%arr% " shift /2 goto loop2
- left %num% &string
setlocal set "arr=!%2! " set arr=!arr:~0,%1! endlocal & set %2=%arr%
exit /b
- right %num% &string
setlocal set "arr= !%2!" set arr=!arr:~-%1! endlocal & set %2=%arr%
exit /b
- center %num% &string
setlocal
set /a width=%1-1 set arr=!%2! :loop3 if "!arr:~%width%,1!"=="" set "arr=%arr% " if "!arr:~%width%,1!"=="" set "arr= %arr%" if "!arr:~%width%,1!"=="" goto loop3
endlocal & set %2=%arr% exit /b
- strlen StrVar &RtnVar
setlocal EnableDelayedExpansion set "s=#%~1" set "len=0" for %%N in (4096 2048 1024 512 256 128 64 32 16 8 4 2 1) do ( if "!s:~%%N,1!" neq "" set /a "len+=%%N" & set "s=!s:~%%N!" ) endlocal & set %~2=%len%
exit /b</lang>
- Output:
Given a text file of many lines where fields within a line are delineated by a single 'dollar' character write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further allow for each word in a column to be either left justified right justified or center justified within its column. Given a text file of many lines where fields within a line are delineated by a single 'dollar' character write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further allow for each word in a column to be either left justified right justified or center justified within its column. Given a text file of many lines where fields within a line are delineated by a single 'dollar' character write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further allow for each word in a column to be either left justified right justified or center justified within its column.
Beads
<lang beads>beads 1 program 'Align columns'
const text = Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.
var words : array^2 of str widths : array of num
calc div_line var s = '+' loop across:widths val:w s = s & str_repeat('-',w) & '+' log s
calc show_table( justify ) loop across:words index:i var s = '|' loop across:widths index:j val:w var word = words[i,j] if word == U word = case justify | RIGHT s = s & pad_left(word,w) | LEFT s = s & pad_right(word,w) | CENTER w = w - str_len(word) s = s & str_repeat(' ',idiv(w,2)) & word & str_repeat(' ',idiv(w,2)+mod(w,2)) s = s & '|' log s div_line
calc main_init var w split_lines_words (text, words, delim:'$') loop across:words index:i loop across:words[i] index:j w = str_len(words[i,j]) widths[j] = max(w,widths[j]) loop across:[LEFT CENTER RIGHT] val:v log "\n{v} justified\n" div_line show_table(v)</lang>
- Output:
LEFT justified +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |Given |a |text |file |of |many |lines, |where |fields |within |a |line| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |are |delineated|by |a |single|'dollar' |character,|write |a |program| | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |that |aligns |each |column|of |fields |by |ensuring|that |words |in |each| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |column |are |separated |by |at |least |one |space. | | | | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |Further, |allow |for |each |word |in |a |column |to |be |either|left| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |justified,|right |justified,|or |center|justified|within |its |column.| | | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ CENTER justified +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | Given | a | text | file | of | many | lines, | where |fields |within | a |line| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | are |delineated| by | a |single|'dollar' |character,| write | a |program| | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | that | aligns | each |column| of | fields | by |ensuring| that | words | in |each| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | column | are |separated | by | at | least | one | space. | | | | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | Further, | allow | for | each | word | in | a | column | to | be |either|left| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |justified,| right |justified,| or |center|justified| within | its |column.| | | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ RIGHT justified +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | Given| a| text| file| of| many| lines,| where| fields| within| a|line| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | are|delineated| by| a|single| 'dollar'|character,| write| a|program| | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | that| aligns| each|column| of| fields| by|ensuring| that| words| in|each| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | column| are| separated| by| at| least| one| space.| | | | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | Further,| allow| for| each| word| in| a| column| to| be|either|left| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |justified,| right|justified,| or|center|justified| within| its|column.| | | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+
BQN
A function which returns a rectangular 2D array which represents the lines. <lang bqn>Split ← (⊢-˜+`׬)∘=⊔⊢ PadRow ← {
w‿t𝕊𝕩: # t → type. # 0 → left # 1 → right # 2 → center pstyle←t⊑⟨{0‿𝕩},{𝕩‿0},{⟨⌊𝕩÷2,⌈𝕩÷2⟩}⟩ 𝕩{(⊣∾𝕨∾⊢)´(Pstyle 𝕩)/¨<w}¨(⌈´-⊢)≠¨𝕩
} Align ← {{𝕨∾' '∾𝕩}´˘⍉" "‿𝕨⊸PadRow˘⍉>⟨""⟩‿0 PadRow '$' Split¨(@+10) Split 𝕩}
1 Align text</lang> <lang bqn>┌─ ╵" Given a text file of many lines, where fields within a line
are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. " ┘</lang>
C
See Column Aligner/C
C#
Old version
Uses a delegate, which were added to the language in C# 2, to define left-, right-, or center-justified.
<lang csharp>using System; class ColumnAlignerProgram {
delegate string Justification(string s, int width);
static string[] AlignColumns(string[] lines, Justification justification) { const char Separator = '$'; // build input table and calculate columns count string[][] table = new string[lines.Length][]; int columns = 0; for (int i = 0; i < lines.Length; i++) { string[] row = lines[i].TrimEnd(Separator).Split(Separator); if (columns < row.Length) columns = row.Length; table[i] = row; } // create formatted table string[][] formattedTable = new string[table.Length][]; for (int i = 0; i < formattedTable.Length; i++) { formattedTable[i] = new string[columns]; } for (int j = 0; j < columns; j++) { // get max column width int columnWidth = 0; for (int i = 0; i < table.Length; i++) { if (j < table[i].Length && columnWidth < table[i][j].Length) columnWidth = table[i][j].Length; } // justify column cells for (int i = 0; i < formattedTable.Length; i++) { if (j < table[i].Length) formattedTable[i][j] = justification(table[i][j], columnWidth); else formattedTable[i][j] = new String(' ', columnWidth); } } // create result string[] result = new string[formattedTable.Length]; for (int i = 0; i < result.Length; i++) { result[i] = String.Join(" ", formattedTable[i]); } return result; }
static string JustifyLeft(string s, int width) { return s.PadRight(width); } static string JustifyRight(string s, int width) { return s.PadLeft(width); } static string JustifyCenter(string s, int width) { return s.PadLeft((width + s.Length) / 2).PadRight(width); }
static void Main() { string[] input = { "Given$a$text$file$of$many$lines,$where$fields$within$a$line$", "are$delineated$by$a$single$'dollar'$character,$write$a$program", "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$", "column$are$separated$by$at$least$one$space.", "Further,$allow$for$each$word$in$a$column$to$be$either$left$", "justified,$right$justified,$or$center$justified$within$its$column.", };
foreach (string line in AlignColumns(input, JustifyCenter)) { Console.WriteLine(line); } }
}</lang>
Newer version
Uses features of newer versions, like LINQ, lambdas and switch expressions.
<lang csharp>using System; using System.Linq;
enum Justification { Left, Center, Right }
public class Program {
static void Main() { string text =
@"Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.";
AlignColumns(text, Justification.Left); Console.WriteLine(); AlignColumns(text, Justification.Center); Console.WriteLine(); AlignColumns(text, Justification.Right); }
public static void AlignColumns(string text, Justification justification) => AlignColumns(text.Split(Environment.NewLine), justification);
public static void AlignColumns(string[] lines, Justification justification) => AlignColumns(lines.Select(line => line.Split('$')).ToArray(), justification);
public static void AlignColumns(string[][] table, Justification justification) { Console.WriteLine(justification + ":"); int columns = table.Max(line => line.Length); var columnWidths = Enumerable.Range(0, columns) .Select(i => table.Max(line => i < line.Length ? line[i].Length : 0) ).ToArray(); foreach (var line in table) { Console.WriteLine(string.Join(" ", Enumerable.Range(0, line.Length) .Select(i => justification switch { Justification.Left => line[i].PadRight(columnWidths[i]), Justification.Right => line[i].PadLeft(columnWidths[i]), _ => line[i].PadLeft(columnWidths[i] / 2).PadRight(columnWidths[i]) }) )); } }
}</lang>
- Output:
Left: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Center: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Right: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
C++
Clojure
<lang Clojure> (ns rosettacode.align-columns
(:require [clojure.contrib.string :as str]))
(def data "Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.")
(def table (map #(str/split #"\$" %) (str/split-lines data)))
(defn col-width [n table] (reduce max (map #(try (count (nth % n))
(catch Exception _ 0)) table)))
(defn spaces [n] (str/repeat n " ")) (defn add-padding
"if the string is too big turncate it, else return a string with padding" [string width justification] (if (>= (count string) width) (str/take width string) (let [pad-len (int (- width (count string))) ;we don't want rationals half-pad-len (int (/ pad-len 2))] (case justification :right (str (spaces pad-len) string) :left (str string (spaces pad-len)) :center (str (spaces half-pad-len) string (spaces (- pad-len half-pad-len)))))))
(defn aligned-table
"get the width of each column, then generate a new table with propper padding for eath item" ([table justification] (let [col-widths (map #(+ 2 (col-width % table)) (range (count(first table))))] (map (fn [row] (map #(add-padding %1 %2 justification) row col-widths)) table))))
(defn print-table
[table] (do (println) (print (str/join "" (flatten (interleave table (repeat "\n")))))))
(print-table (aligned-table table :center)) </lang>
COBOL
<lang cobol>
identification division. program-id. AlignColumns.
data division. working-storage section. *>-> Constants 78 MAX-LINES value 6. 78 MAX-LINE-SIZE value 66. 78 MAX-COLUMNS value 12. 78 MAX-COLUMN-SIZE value 16. *>-> Indexes 01 w-idx pic is 9(2). 01 w-idy pic is 9(2). 01 w-pos pic is 9(3). *>-> Data structures 01 w-lines. 05 w-line pic is x(MAX-LINE-SIZE) occurs MAX-LINES. 01 w-column-sizes. 05 w-column-size pic is 99 occurs MAX-COLUMNS value zeros. 01 w-matrix. 05 filler occurs MAX-LINES. 10 filler occurs MAX-COLUMNS. 15 w-content pic is x(MAX-COLUMN-SIZE). *>-> Output 01 w-line-out pic is x(120). *>-> Data alignment 01 w-alignment pic is x(1). 88 alignment-left value is "L". 88 alignment-center value is "C". 88 alignment-right value is "R".
procedure division. main. move "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" to w-line(1) move "are$delineated$by$a$single$'dollar'$character,$write$a$program" to w-line(2) move "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" to w-line(3) move "column$are$separated$by$at$least$one$space." to w-line(4) move "Further,$allow$for$each$word$in$a$column$to$be$either$left$" to w-line(5) move "justified,$right$justified,$or$center$justified$within$its$column." to w-line(6) perform calculate-size-columns set alignment-left to true perform show-content set alignment-center to true perform show-content set alignment-right to true perform show-content goback . calculate-size-columns. perform varying w-idx from 1 by 1 until w-idx > MAX-LINES unstring w-line(w-idx) delimited by "$" into w-content(w-idx, 1), w-content(w-idx, 2), w-content(w-idx, 3), w-content(w-idx, 4), w-content(w-idx, 5), w-content(w-idx, 6), w-content(w-idx, 7), w-content(w-idx, 8), w-content(w-idx, 9), w-content(w-idx, 10), w-content(w-idx, 11), w-content(w-idx, 12), perform varying w-idy from 1 by 1 until w-idy > MAX-COLUMNS if function stored-char-length(w-content(w-idx, w-idy)) > w-column-size(w-idy) move function stored-char-length(w-content(w-idx, w-idy)) to w-column-size(w-idy) end-if end-perform end-perform . show-content. move all "-" to w-line-out display w-line-out perform varying w-idx from 1 by 1 until w-idx > MAX-LINES move spaces to w-line-out move 1 to w-pos perform varying w-idy from 1 by 1 until w-idy > MAX-COLUMNS call "C$JUSTIFY" using w-content(w-idx, w-idy)(1:w-column-size(w-idy)), w-alignment move w-content(w-idx, w-idy) to w-line-out(w-pos:w-column-size(w-idy)) compute w-pos = w-pos + w-column-size(w-idy) + 1 end-perform display w-line-out end-perform .
</lang>
- Output:
<lang>
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left
justified, right justified, or center justified within its column.
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left
justified, right justified, or center justified within its column. </lang>
CoffeeScript
<lang coffeescript> pad = (n) ->
s = while n > 0 s += ' ' n -= 1 s
align = (input, alignment = 'center') ->
tokenized_lines = (line.split '$' for line in input) col_widths = {} for line in tokenized_lines for token, i in line if !col_widths[i]? or token.length > col_widths[i] col_widths[i] = token.length padders = center: (s, width) -> excess = width - s.length left = Math.floor excess / 2 right = excess - left pad(left) + s + pad(right) right: (s, width) -> excess = width - s.length pad(excess) + s left: (s, width) -> excess = width - s.length s + pad(excess)
padder = padders[alignment] for line in tokenized_lines padded_tokens = (padder(token, col_widths[i]) for token, i in line) console.log padded_tokens.join ' '
input = [
"Given$a$text$file$of$many$lines,$where$fields$within$a$line$" "are$delineated$by$a$single$'dollar'$character,$write$a$program" "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" "column$are$separated$by$at$least$one$space." "Further,$allow$for$each$word$in$a$column$to$be$either$left$" "justified,$right$justified,$or$center$justified$within$its$column."
]
for alignment in ['center', 'right', 'left']
console.log "\n----- #{alignment}" align input, alignment
</lang>
- Output:
<lang> > coffee align_columns.coffee
center
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left
justified, right justified, or center justified within its column.
right
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left
justified, right justified, or center justified within its column.
left
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. </lang>
Common Lisp
<lang lisp>(defun nonempty (seq)
(position-if (lambda (x) (declare (ignore x)) t) seq))
(defun split (delim seq)
"Splits seq on delim into a list of subsequences. Trailing empty
subsequences are removed."
(labels ((f (seq &aux (pos (position delim seq))) (if pos (cons (subseq seq 0 pos) (f (subseq seq (1+ pos)))) (list seq)))) (let* ((list (f seq)) (end (position-if #'nonempty list :from-end t))) (subseq list 0 (1+ end)))))
(defun lengthen (list minlen filler-elem &aux (len (length list)))
"Destructively pads list with filler-elem up to minlen." (if (< len minlen) (nconc list (make-list (- minlen len) :initial-element filler-elem)) list))
(defun align-columns (text
&key (align :left) &aux (fmtmod (case align (:left "@") (:right ":") (:center "@:") (t (error "Invalid alignment.")))) (fields (mapcar (lambda (line) (split #\$ line)) (split #\Newline text))) (mostcols (loop for l in fields maximize (length l))) widest) (setf fields (mapcar (lambda (l) (lengthen l mostcols "")) fields)) (setf widest (loop for col below (length (first fields)) collect (loop for row in fields maximize (length (elt row col))))) (format nil (with-output-to-string (s) (princ "~{~{" s) (dolist (w widest) (format s "~~~d~a<~~a~~>" (1+ w) fmtmod)) (princ "~}~%~}" s)) fields))</lang>
D
<lang d>void main() {
import std.stdio, std.string, std.algorithm, std.range, std.typetuple;
immutable data =
"Given$a$txt$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column."
.split.map!(r => r.chomp("$").split("$")).array;
size_t[size_t] maxWidths; foreach (const line; data) foreach (immutable i, const word; line) maxWidths[i] = max(maxWidths.get(i, 0), word.length);
foreach (immutable just; TypeTuple!(leftJustify, center, rightJustify)) foreach (immutable line; data) writefln("%-(%s %)", line.length.iota .map!(i => just(line[i], maxWidths[i], ' ')));
}</lang>
- Output:
Given a txt file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a txt file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a txt file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Delphi
<lang Delphi> USES
StdCtrls, Classes, SysUtils, StrUtils, Contnrs;
procedure AlignByColumn(Output: TMemo; Align: TAlignment); const
TextToAlign = 'Given$a$text$file$of$many$lines,$where$fields$within$a$line$'#$D#$A + 'are$delineated$by$a$single$dollar$character,$write$a$program'#$D#$A + 'that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$'#$D#$A + 'column$are$separated$by$at$least$one$space.'#$D#$A + 'Further,$allow$for$each$word$in$a$column$to$be$either$left$'#$D#$A + 'justified,$right$justified,$or$center$justified$within$its$column.';
var
TextLine, TempTString: TStringlist; TextLines: TObjectList; MaxLength, i, j: Byte; OutPutString, EmptyString, Item: String;
begin
TRY MaxLength := 0; TextLines := TObjectList.Create(True); TextLine := TStringList.Create; TextLine.text := TextToAlign; for i:= 0 to TextLine.Count - 1 do begin TempTString := TStringlist.create; TempTString.text :=AnsiReplaceStr(TextLine[i], '$', #$D#$A); TextLines.Add(TempTString); end; for i := 0 to TextLines.Count - 1 do for j := 0 to TStringList(TextLines.Items[i]).Count - 1 do If Length(TStringList(TextLines.Items[i])[j]) > MaxLength then MaxLength := Length(TStringList(TextLines.Items[i])[j]); If MaxLength > 0 then MaxLength := MaxLength + 2; // Add to empty spaces to it for i := 0 to TextLines.Count - 1 do begin OutPutString := ; for j := 0 to TStringList(TextLines.Items[i]).Count - 1 do begin EmptyString := StringOfChar(' ', MaxLength); Item := TStringList(TextLines.Items[i])[j]; case Align of taLeftJustify: Move(Item[1], EmptyString[2], Length(Item)); taRightJustify: Move(Item[1], EmptyString[MaxLength - Length(Item) + 1], Length(Item)); taCenter: Move(Item[1], EmptyString[(MaxLength - Length(Item) + 1) div 2 + 1], Length(Item)); end; OutPutString := OutPutString + EmptyString; end; Output.Lines.Add(OutPutString); end; FINALLY FreeAndNil(TextLine); FreeAndNil(TextLines); END;
end; </lang>
E
<lang e>pragma.enable("accumulator")
def left(width, word) {
return word + " " * (width - word.size())
}
def center(width, word) {
def leftCount := (width - word.size()) // 2 return " " * leftCount + word + " " * (width - word.size() - leftCount)
}
def right(width, word) {
return " " * (width - word.size()) + word
}
def alignColumns(align, text) {
def split := accum [] for line in text.split("\n") { _.with(line.split("$")) } var widths := [] for line in split { for i => word in line { widths with= (i, widths.fetch(i, fn{0}).max(word.size())) } } return accum "" for line in split { _ + accum "" for i => word in line { _ + align(widths[i] + 1, word) } + "\n" }
}</lang>
<lang e>? def text := "Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column."; null
? println(alignColumns(left, text)) Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
? println(alignColumns(center, text))
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left
justified, right justified, or center justified within its column.
? println(alignColumns(right, text))
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.</lang>
Elixir
The String module of Elixir doesn't have the function of the center position adjusting. It calls and processes the function of 'Erlang'. <lang elixir>defmodule Align do
def columns(text, alignment) do fieldsbyrow = String.split(text, "\n", trim: true) |> Enum.map(fn row -> String.split(row, "$", trim: true) end) maxfields = Enum.map(fieldsbyrow, fn field -> length(field) end) |> Enum.max colwidths = Enum.map(fieldsbyrow, fn field -> field ++ List.duplicate("", maxfields - length(field)) end) |> List.zip |> Enum.map(fn column -> Tuple.to_list(column) |> Enum.map(fn col-> String.length(col) end) |> Enum.max end) Enum.each(fieldsbyrow, fn row -> Enum.zip(row, colwidths) |> Enum.map(fn {field, width} -> adjust(field, width, alignment) end) |> Enum.join(" ") |> IO.puts end) end defp adjust(field, width, :Left), do: String.pad_trailing(field, width) defp adjust(field, width, :Right), do: String.pad_leading(field, width) defp adjust(field, width, _), do: :string.centre(String.to_charlist(field), width)
end
text = """ Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. """
Enum.each([:Left, :Right, :Center], fn alignment ->
IO.puts "\n# #{alignment} Column-aligned output:" Align.columns(text, alignment)
end)</lang>
- Output:
# Left Column-aligned output: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. # Right Column-aligned output: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. # Center Column-aligned output: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Erlang
<lang erlang> -module (align_columns).
-export([align_left/0, align_right/0, align_center/0]). -define (Lines,
["Given\$a\$text\$file\$of\$many\$lines\$where\$fields\$within\$a\$line\$", "are\$delineated\$by\$a\$single\$'dollar'\$character,\$write\$a\$program", "that\$aligns\$each\$column\$of\$fields\$by\$ensuring\$that\$words\$in\$each\$", "column\$are\$separated\$by\$at\$least\$one\$space.", "Further,\$allow\$for\$each\$word\$in\$a\$column\$to\$be\$either\$left\$", "justified,\$right\$justified,\$or\$center\$justified\$within\$its\$column."].
align_left()-> align_columns(left). align_right()-> align_columns(right). align_center()-> align_columns(centre). align_columns(Alignment) ->
Words = [ string:tokens(Line, "\$") || Line <- ?Lines ], Words_length = lists:foldl( fun max_length/2, [], Words), Result = [prepare_line(Words_line, Words_length, Alignment) || Words_line <- Words], [ io:fwrite("~s~n", [lists:flatten(Line)]) || Line <- Result], ok.
max_length(Words_of_a_line, Acc_maxlength) ->
Line_lengths = [length(W) || W <- Words_of_a_line ], Max_nb_of_length = lists:max([length(Acc_maxlength), length(Line_lengths)]), Line_lengths_prepared = adjust_list (Line_lengths, Max_nb_of_length, 0), Acc_maxlength_prepared = adjust_list(Acc_maxlength, Max_nb_of_length, 0), Two_lengths =lists:zip(Line_lengths_prepared, Acc_maxlength_prepared), [ lists:max([A, B]) || {A, B} <- Two_lengths].
adjust_list(L, Desired_length, Elem) ->
L++lists:duplicate(Desired_length - length(L), Elem).
prepare_line(Words_line, Words_length, Alignment) ->
All_words = adjust_list(Words_line, length(Words_length), ""), Zipped = lists:zip (All_words, Words_length), [ apply(string, Alignment, [Word, Length + 1, $\s]) || {Word, Length} <- Zipped]. </lang>
- Output:
1> c(align_columns). {ok,align_columns} 2> align_columns:align_center(). Given a text file of many lines where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. ok 3> align_columns:align_left(). Given a text file of many lines where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. ok 4> align_columns:align_right(). Given a text file of many lines where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. ok
Euphoria
<lang euphoria>constant data = {
"Given$a$text$file$of$many$lines,$where$fields$within$a$line$", "are$delineated$by$a$single$'dollar'$character,$write$a$program", "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$", "column$are$separated$by$at$least$one$space.", "Further,$allow$for$each$word$in$a$column$to$be$either$left$", "justified,$right$justified,$or$center$justified$within$its$column."
}
function split(sequence s, integer c)
sequence out integer first, delim out = {} first = 1 while first<=length(s) do delim = find_from(c,s,first) if delim = 0 then delim = length(s)+1 end if out = append(out,s[first..delim-1]) first = delim + 1 end while return out
end function
function align(sequence s, integer width, integer alignment)
integer n n = width - length(s) if n <= 0 then return s elsif alignment < 0 then return s & repeat(' ', n) elsif alignment > 0 then return repeat(' ', n) & s else return repeat(' ', floor(n/2)) & s & repeat(' ', floor(n/2+0.5)) end if
end function
integer maxlen sequence lines maxlen = 0 lines = repeat(0,length(data)) for i = 1 to length(data) do
lines[i] = split(data[i],'$') for j = 1 to length(lines[i]) do if length(lines[i][j]) > maxlen then maxlen = length(lines[i][j]) end if end for
end for
for a = -1 to 1 do
for i = 1 to length(lines) do for j = 1 to length(lines[i]) do puts(1, align(lines[i][j],maxlen,a) & ' ') end for puts(1,'\n') end for puts(1,'\n')
end for</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
F#
<lang fsharp>open System open System.IO
let tableFromPath path =
let lines = [ for line in File.ReadAllLines(path) -> (line.TrimEnd('$').Split('$')) ] let width = List.fold (fun max (line : string[]) -> if max < line.Length then line.Length else max) 0 lines List.map (fun (a : string[]) -> (List.init width (fun i -> if i < a.Length then a.[i] else ""))) lines
let rec trans m =
match m with | []::_ -> [] | _ -> (List.map List.head m) :: trans (List.map List.tail m)
let colWidth table =
List.map (fun col -> List.max (List.map String.length col)) (trans table)
let left = (fun (s : string) n -> s.PadRight(n)) let right = (fun (s : string) n -> s.PadLeft(n)) let center = (fun (s : string) n -> s.PadLeft((n + s.Length) / 2).PadRight(n))
[<EntryPoint>] let main argv =
let table = tableFromPath argv.[0] let width = Array.ofList (colWidth table) let format table align = List.map (fun (row : string list) -> List.mapi (fun i s -> sprintf "%s" (align s width.[i])) row) table |> List.iter (fun row -> printfn "%s" (String.Join(" ", Array.ofList row)))
for align in [ left; right; center ] do format table align printfn "%s" (new String('-', (Array.sum width) + width.Length - 1)) 0</lang>
Output, when called with a file containing the sample input
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. -------------------------------------------------------------------------------------------------------- Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. -------------------------------------------------------------------------------------------------------- Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. --------------------------------------------------------------------------------------------------------
Factor
<lang factor>USING: fry io kernel math math.functions math.order sequences splitting strings ; IN: rosetta.column-aligner
CONSTANT: example-text "Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column."
- split-and-pad ( text -- lines )
"\n" split [ "$" split harvest ] map dup [ length ] [ max ] map-reduce '[ _ "" pad-tail ] map ;
- column-widths ( columns -- widths )
[ [ length ] [ max ] map-reduce ] map ;
SINGLETONS: +left+ +middle+ +right+ ;
GENERIC: align-string ( str n alignment -- str' )
M: +left+ align-string drop CHAR: space pad-tail ; M: +right+ align-string drop CHAR: space pad-head ;
M: +middle+ align-string
drop over length - 2 / [ floor CHAR: space <string> ] [ ceiling CHAR: space <string> ] bi surround ;
- align-columns ( columns alignment -- columns' )
[ dup column-widths ] dip '[ [ _ align-string ] curry map ] 2map ;
- print-aligned ( text alignment -- )
[ split-and-pad flip ] dip align-columns flip [ [ write " " write ] each nl ] each ;</lang>
example-text { +left+ +middle+ +right+ } [ print-aligned ] with each
FBSL
Using a multiline string: <lang qbasic>#APPTYPE CONSOLE
DIM s = "Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column."
DIM lines[] = SPLIT(s, CRLF), tokens[], l, t, length, margin, justify = "center"
FOREACH l IN lines tokens = SPLIT(l, "$") FOREACH t IN tokens IF STRLEN(t) > length THEN length = INCR(STRLEN) NEXT NEXT
FOREACH l IN lines tokens = SPLIT(l, "$") FOREACH t IN tokens SELECT CASE justify CASE "left" PRINT t, SPACE(length - STRLEN(t)); CASE "center" margin = (length - STRLEN(t)) \ 2 PRINT SPACE(margin), t, SPACE(length - STRLEN - margin); CASE "right" PRINT SPACE(length - STRLEN(t)), t; END SELECT NEXT PRINT NEXT
PAUSE</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Press any key to continue...
Forth
<lang forth>\ align columns
- split ( addr len char -- addr len1 addr len-len1 )
>r 2dup r> scan 2swap 2 pick - ;
variable column
- for-each-line ( file len xt -- )
>r begin #lf split r@ execute 1 /string dup 0<= until 2drop rdrop ;
- for-each-field ( line len xt -- )
0 column ! >r begin '$ split r@ execute 1 column +! 1 /string dup 0<= until 2drop rdrop ;
0 value num-columns
- count-columns ( line len -- )
['] 2drop for-each-field num-columns column @ max to num-columns ;
- find-num-columns ( file len -- )
0 to num-columns ['] count-columns for-each-line ;
0 value column-widths
- column-width ( field len -- )
column-widths column @ + c@ max column-widths column @ + c! drop ;
- measure-widths ( line len -- )
['] column-width for-each-field ;
- find-column-widths ( file len -- )
num-columns allocate throw to column-widths column-widths num-columns erase ['] measure-widths for-each-line ;
\ type aligned, same naming convention as standard numeric U.R, .R
- type.l ( addr len width -- )
over - >r type r> spaces ;
- type.c ( addr len width -- )
over - dup 2/ spaces >r type r> 1+ 2/ spaces ;
- type.r ( addr len width -- )
over - spaces type ;
defer type.aligned
- print-field ( field len -- )
column-widths column @ + c@ type.aligned space ;
- print-line ( line len -- ) cr ['] print-field for-each-field ;
- print-fields ( file len -- ) ['] print-line for-each-line ;
\ read file
s" columns.txt" slurp-file ( file len )
\ scan once to determine num-columns 2dup find-num-columns
\ scan again to determine column-widths 2dup find-column-widths
\ print columns, once for each alignment type ' type.l is type.aligned 2dup print-fields cr ' type.c is type.aligned 2dup print-fields cr ' type.r is type.aligned 2dup print-fields cr
\ cleanup nip free throw column-widths free throw</lang>
Fortran
For the general situation, a utility has no knowledge of the maximum number of fields in a record nor the maximum length of a record, still less knowledge of the sizes of the fields in the records. Decent file systems (for example, that of the Burroughs 6700) make available the MaxRecordLength of a file when a file is opened, but many systems are less than helpful. It is possible to open a file as UNFORMATTED and then simply read sequences of binary data to be interpreted to taste, but in the ASCII world that means deciding on record markers being CR, CRLF, LF, or LFCR and I have encountered files with mixtures... In any case, a file with a fixed record length will likely not contain any such markers.
The plan here is to read the file to find out. But, given that the maximum record length is unknown, reading records into some storage area is problematical. Some systems can create a "string" variable via the read statement that will be of the proper size, but older Fortran works always with storage sizes fixed at compile time. However, after F77 started being extended, a common extension was the Q-element in FORMAT statements, which instead of interpreting the content of a record, reports instead the number of characters yet unread in a record. Thus, a statement like READ(in,"(Q)") L
will read a record of input and the first action is to place in variable L the number of characters yet to be processed of that record. Since the content of the record is not being transferred, there is no need for a CHARACTER area of sufficient size to receive all of it. Indeed here, nothing is read. As for the LF/CRLF/LFCR/CR issue, with FORMATTED input the file system makes its decision and presents record content without incorporating such out-of-context data.
When data are being read into a CHARACTER variable, once the receiver is filled subsequent data in a long record will be ignored, and if the input record was smaller than the variable, trailing spaces will be supplied to fill out the variable. It is for this reason that the read statement is READ (IN,11,END = 20) L,ACARD(1:L)
so that, on-the-fly, the length of the record is determined, and then only that number of characters are placed in ACARD with no (possibly large number of) trailing spaces being appended. Naturally, subsequent inspection of ACARD will have to be careful not to look beyond character L, where detritus from previous usage will languish.
Once the main programme has ascertained the maximum record length, subroutine RAKE can be invoked with this as a parameter. From F90 on, as introduced by Algol in the 1960s, functions and subroutines have been allowed to declare arrays of a size specified by a variable and so the "surely big enough" issue is reduced. Thus, given a maximum length of M, a record containing M field delimiters can represent M + 1 fields, all null. The last field's delimiter is the end-of-record, so one more. It is also possible to use ALLOCATE(...) to request storage of suitable dimension for a variable within a routine, but that introduces verbiage. So, a programme can request just enough storage for its particular tasks and thereby possibly succeed on a problem too large for an always-big-enough storage scheme, but on the other hand, the fixed storage allocation scheme doesn't suddenly run out in the middle of a job.
Accordingly, a second scan of the records of the text file can be made, with a view to ascertaining the maximum widths for the first, second, etc. columns. This is done by storing in array C the positions of the delimiters in the text, so the content of a field i on a record will be starting with C(I - 1) + 1, and ending with C(I) - 1, - that is, the first character following a delimiter to the last character before a delimiter. In other words, the delimiter is not a part of the field's content. For convenience in this, C(0) = 0, since the first field is number one, and the last field's delimiter is one past the end of the record. Having an array start with non-default bounds is a feature of F90, similarly the array assignment that tracks the maximum field widths in array W. The specification makes no call for leading or trailing spaces in a field's content to be trimmed; if it did then two sets of fingers would be used to mark the first and last position of each text. Happily, there is also no call to recognise quoted texts, that might contain delimiter characters that are not delimiters.
Equipped at last with knowledge of each column's maximum width, yet another pass can be made through the file to produce the output. A feature of the format code Aw is that text is aligned to the right within the width of w. So, concoct a FORMAT text with suitable Aw entries, also augmenting the width by one for each column to meet the requirement that each column's content is separated from the others by at least one space. This concoction is easy enough, and could be improved by taking advantage of the "factoring" that format statements allow so that for example "A7,A7" can be replaced by "2A7", and further, bracketing of sequences is allowed and with repeat counts for them also. Alas, finding the minimum sequence is in general a very difficult problem, so no attempt is made. As for "sufficient storage" for the FORMAT variable, a two-digit width specification seems sufficient so each field's format code would be "Add," - four characters. Only later Fortran allows the I0 format code, meaning that an integer will be written only with sufficient digits, not a fixed "sufficiency" of digits. A pity the code for this isn't just "I" rather than "I0" which implies a width of zero.
A difficulty now arises in terminating the format text with the closing bracket. This is done by searching for the sequence ", " and replacing the comma by the closing bracket. This is present only because format 21 specifies <MF> as a repeat count. If it were say 666 instead, after the last W value was written the format processing would cycle back to its next repetition, write out an "A", then stop since there is no W value to write via the "I0" format code. Thus, the format text ends ",A" and the INDEX fails to find the desired ", ". It could instead search for ",A " (just ",A" would stop on the second field's format code) but ", " seems clear. The <MF> usage is standard only for recent Fortran. Formatted output opportunities are many and options numerous. Other schemes could be used, such as the write statement specifying the text literals in its items, but that would require an implied-DO output list and it seemed nicer to be able to use the array specification W(1:MF) instead.
Given a FORMAT text that produces output in aligned columns makes it easy enough to meet the other requirements. To cause texts to be aligned left, append sufficient spaces to each output text, and for centred text, half that number. This relies on the special intrinsic function REPEAT(text,n) returning a varying number of characters - CHARACTER functions have to return a fixed number of characters, until the standardisation of varying-length strings in F2003 et seq. Earlier Fortrans lack the REPEAT function, but its effect can be gained via something like CHARACTER*66 SPACE, where SPACE is set to spaces, and SPACE(1:N) is used where REPEAT(" ",N) is desired. And if messing with variable FORMAT is unwanted, the REPEAT scheme can be used for the right-justified output also. <lang Fortran>
SUBROUTINE RAKE(IN,M,X,WAY) !Casts forth text in fixed-width columns.
Collates column widths so that each column is wide enough for its widest member.
INTEGER IN !Fingers the input file. INTEGER M !Maximum record length thereof. CHARACTER*1 X !The delimiter, possibly a comma. INTEGER WAY !Alignment style. INTEGER W(M + 1) !If every character were X in the maximum-length record, INTEGER C(0:M + 1) !Then M + 1 would be the maximum number of fields possible. CHARACTER*(M) ACARD !A scratchpad big enough for the biggest. CHARACTER*(28 + 4*M) FORMAT !Guess. Allow for "Ann," per field. INTEGER I !A stepper. INTEGER L,LF !Text fingers. INTEGER NF,MF !Field counts. CHARACTER*6 WAYNESS(-1:+1) !Some annotation may be helpful. PARAMETER (WAYNESS = (/"Left","Centre","Right"/)) !Using normal language. INTEGER LINPR !The mouthpiece. COMMON LINPR !Used all over. W = 0 !Maximum field widths so far seen. MF = 0 !Maximum number of fields to a record. C(0) = 0 !Syncopation for the first field's predecessor. WRITE (LINPR,*) !Some separation. WRITE (LINPR,*) "Align ",WAYNESS(MIN(MAX(WAY,-1),+1)) !Explain, cautiously.
Chase through the file assessing the lengths of each field.
10 READ (IN,11,END = 20) L,ACARD(1:L) !Grab a record. 11 FORMAT (Q,A) !Working only up to its end. CALL LIZZIEBORDEN !Find the chop points. W(1:NF) = MAX(W(1:NF),C(1:NF) - C(0:NF - 1) - 1) !Thereby the lengths between. MF = MAX(MF,NF) !Also want to know the most number of chops. GO TO 10 !Get the next record.
Concoct a FORMAT based on the maximum size of each field. Plus one.
20 REWIND(IN) !Back to the beginning. WRITE (FORMAT,21) W(1:MF) + 1 !Add one to meet the specified at least one space between columns. 21 FORMAT ("(",<MF>("A",I0,",")) !Generates a sequence of An, items. LF = INDEX(FORMAT,", ") !The last one has a trailing comma. IF (LF.LE.0) STOP "Format trouble!" !Or, maybe not! FORMAT(LF:LF) = ")" !Convert it to the closing bracket. WRITE (LINPR,*) "Format",FORMAT(1:LF) !Present it.
Chug afresh, this time knowing the maximum length of each field.
30 READ (IN,11,END = 40) L,ACARD(1:L) !Place just the record's content. CALL LIZZIEBORDEN !Find the chop points. SELECT CASE(WAY) !What is to be done? CASE(-1) !Shove leftwards by appending spaces. WRITE (LINPR,FORMAT) (ACARD(C(I - 1) + 1:C(I) - 1)// !The chopped text. 1 REPEAT(" ",W(I) - C(I) + C(I - 1) + 1),I = 1,NF) !Some spaces. CASE( 0) !Centre by appending half as many spaces. WRITE (LINPR,FORMAT) (ACARD(C(I - 1) + 1:C(I) - 1)// !The chopped text. 1 REPEAT(" ",(W(I) - C(I) + C(I - 1) + 1)/2),I = 1,NF) !Some spaces. CASE(+1) !Align rightwards is the default style. WRITE (LINPR,FORMAT) (ACARD(C(I - 1) + 1:C(I) - 1),I = 1,NF) !So, just the texts. CASE DEFAULT !This shouldn't happen. WRITE (LINPR,*) "Huh? WAY=",WAY !But if it does, STOP "Unanticipated value for WAY!" !Explain. END SELECT !So much for that record. GO TO 30 !Go for another.
Closedown
40 REWIND(IN) !Be polite. CONTAINS !This also marks the end of source for RAKE... SUBROUTINE LIZZIEBORDEN !Take an axe to ACARD, chopping at X. NF = 0 !No strokes so far. DO I = 1,L !So, step away. IF (ICHAR(ACARD(I:I)).EQ.ICHAR(X)) THEN !Here? NF = NF + 1 !Yes! C(NF) = I !The place! END IF !So much for that. END DO !On to the next. NF = NF + 1 !And the end of ACARD is also a chop point. C(NF) = L + 1 !As if here. END SUBROUTINE LIZZIEBORDEN !She was aquitted. END SUBROUTINE RAKE !So much raking over.
INTEGER L,M,N !To be determined the hard way. INTEGER LINPR,IN !I/O unit numbers. COMMON LINPR !Some of general note. LINPR = 6 !Standard output via this unit number. IN = 10 !Some unit number for the input file. OPEN (IN,FILE="Rake.txt",STATUS="OLD",ACTION="READ") !For formatted input. N = 0 !No records read. M = 0 !Longest record so far.
1 READ (IN,2,END = 10) L !How long is this record? 2 FORMAT (Q) !Obviously, Q specifies the length, not a content field. N = N + 1 !Anyway, another record has been read. M = MAX(M,L) !And this is the longest so far. GO TO 1 !Go back for more.
10 REWIND (IN) !We're ready now. WRITE (LINPR,*) N,"Recs, longest rec. length is ",M CALL RAKE(IN,M,"$",-1) !Align left. CALL RAKE(IN,M,"$", 0) !Centre. CALL RAKE(IN,M,"$",+1) !Align right. END !That's all.
</lang> Every line of output starts with a space, and if it were to be sent to a lineprinter, this would be used as the carriage control character (meaning, advance one line then print the rest) - the first column does not need to be set off by one space from the previous column, but rather than devise special treatment it is spaced off anyway. The free-format output statements also start with a space. Output:
6 Recs, longest rec. length is 66 Align Left Format(A11,A11,A11,A7,A7,A10,A11,A9,A8,A8,A7,A5,A1) Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Align Centre Format(A11,A11,A11,A7,A7,A10,A11,A9,A8,A8,A7,A5,A1) Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Align Right Format(A11,A11,A11,A7,A7,A10,A11,A9,A8,A8,A7,A5,A1) Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
FreeBASIC
<lang freebasic>' FB 1.05.0 Win64
Sub Split(s As String, sep As String, result() As String)
Dim As Integer i, j, count = 0 Dim temp As String Dim As Integer position(Len(s) + 1) position(0) = 0 For i = 0 To Len(s) - 1 For j = 0 To Len(sep) - 1 If s[i] = sep[j] Then count += 1 position(count) = i + 1 End If Next j Next i position(count + 1) = Len(s) + 1 Redim result(count) For i = 1 To count + 1 result(i - 1) = Mid(s, position(i - 1) + 1, position(i) - position(i - 1) - 1) Next
End Sub
Sub CSet(buffer As String, s As Const String)
Dim As Integer bLength = Len(buffer) Dim As Integer sLength = Len(s) Dim As Integer diff, lSpaces If sLength >= bLength Then LSet buffer, s Else diff = bLength - sLength lSpaces = diff \ 2 LSet buffer, Space(lSpaces) + s End If
End Sub
Dim lines() As String Dim count As Integer = 0
Open "align_columns.txt" For Input As #1
While Not Eof(1)
Redim Preserve lines(count) Line Input #1, lines(count) count +=1
Wend
Close #1
Dim As Integer i,j, length, numColumns = 0 Dim As Integer numLines = UBound(lines) + 1 Dim fields() As String
' Work out the maximum number of columns For i = 0 To numLines - 1
Erase fields Split RTrim(lines(i), "$"), "$", fields() length = UBound(fields) + 1 If length > numColumns Then numColumns = length
Next
' Split lines into fields and work out maximum size of each column Dim matrix(numLines - 1, numColumns - 1) As String Dim columnSizes(numColumns - 1) As Integer
For i = 0 To numLines - 1
Erase fields Split RTrim(lines(i), "$"), "$", fields() For j = 0 To UBound(fields) matrix(i, j) = fields(j) length = Len(fields(j)) If length > columnSizes(j) Then columnSizes(j) = length Next j
Next i
Dim buffer As String
'Separate each column by 2 spaces Open "align_left_columns.txt" For Output As #1 Open "align_right_columns.txt" For Output As #2 Open "align_center_columns.txt" For Output As #3
For i = 0 To UBound(matrix, 1)
For j = 0 To UBound(matrix, 2) buffer = Space(columnSizes(j)) LSet buffer, matrix(i, j) Print #1, buffer; RSet buffer, matrix(i, j) Print #2, buffer; CSet buffer, matrix(i, j) Print #3, buffer; If j < UBound(matrix, 2) Then Print #1, " "; : Print #2, " "; : Print #3, " "; End If Next j Print #1, : Print #2, : Print #3,
Next i
Close #1 : Close #2 : Close #3</lang>
- Output:
--- align_columns.txt Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. --- align_left_columns.txt Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. --- align_right_columns.txt Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. --- align_center_columns.txt Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Gambas
Click this link to run this code <lang gambas>Public Sub Main() 'Written in Gambas 3.9.2 as a Command line Application - 15/03/2017 Dim siCount, siCounter, siLength As Short 'Counters Dim siLongest As Short = -1 'To store the longest 'Word' Dim sLine, sRows As New String[] 'Arrays Dim sTemp, sAlign As String 'Temp strings Dim sInput As String = "Given$a$text$file$of$many$lines, $where$fields$within$a$line$" & "\n" "are$delineated$by$a$single$ 'dollar'$character,$write$a$program" & "\n" "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" & "\n" "column$are$separated$by$at$least$one$space." & "\n" "Further, $allow$for$each$word$in$a$column$to$be$either$left$" & "\n" "justified, $right$justified, $or$center$justified$within$its$column." 'Main string (with End Of Line characters added)
For Each sTemp In Split(sInput, "\n") 'For each Line (split by End of Line character)..
sLine.add(sTemp) 'Add the Line to sLine array
Next
For siCount = 0 To sLine.Max 'For each of Lines in the array..
For Each sTemp In Split(sLine[siCount], "$") 'For each 'Word' in the Line (Split by the '$') siLength = Len(sTemp) 'Store the length of the current 'Word' If siLength > siLongest Then siLongest = siLength 'Make sure siLength has the length of the longest 'Word' sRows.add(Trim(sTemp)) 'Create an array of the 'Words' Next sRows.add("\n") 'Add a End Of Line character to the sRows array
Next
For siCounter = 0 To 2 'For each alignment (Left, Right and Centre)
For Each sTemp In sRows 'For each 'Word' in the sRows array.. If sTemp = "\n" Then 'If it's a End Of Line character then.. Print 'Print Continue 'Jump to the next iteration of the For Next Loop Endif If siCounter = 0 Then Print sTemp & Space(siLongest - Len(sTemp)); 'Print control for Left align If siCounter = 1 Then Print Space(siLongest - Len(sTemp)) & sTemp; 'Print control for Right align If siCounter = 2 Then 'Print control for Centre align siCount = (siLongest - Len(sTemp)) / 2 'Difference between the length of the longest 'Word' and the current 'Word' / 2 sAlign = Space(siCount) & sTemp & Space(siCount) 'Put the string together for printing If Len(sAlign) < siLongest Then sAlign &= " " 'Check it's the correct length if not add a space on the end Print sAlign; 'Print the 'Word' Endif Next Print 'Print an empty line between each alignment list
Next
End</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Go
<lang go>package main
import (
"fmt" "strings"
)
const text = `Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.`
type formatter struct {
text [][]string width []int
}
func newFormatter(text string) *formatter {
var f formatter for _, line := range strings.Split(text, "\n") { words := strings.Split(line, "$") for words[len(words)-1] == "" { words = words[:len(words)-1] } f.text = append(f.text, words) for i, word := range words { if i == len(f.width) { f.width = append(f.width, len(word)) } else if len(word) > f.width[i] { f.width[i] = len(word) } } } return &f
}
const (
left = iota middle right
)
func (f formatter) print(j int) {
for _, line := range f.text { for i, word := range line { fmt.Printf("%-*s ", f.width[i], fmt.Sprintf("%*s", len(word)+(f.width[i]-len(word))*j/2, word)) } fmt.Println("") } fmt.Println("")
}
func main() {
f := newFormatter(text) f.print(left) f.print(middle) f.print(right)
}</lang>
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Groovy
Solution: <lang groovy>def alignColumns = { align, rawText ->
def lines = rawText.tokenize('\n') def words = lines.collect { it.tokenize(/\$/) } def maxLineWords = words.collect {it.size()}.max() words = words.collect { line -> line + [] * (maxLineWords - line.size()) } def columnWidths = words.transpose().collect{ column -> column.collect { it.size() }.max() }
def justify = [ Right : { width, string -> string.padLeft(width) }, Left : { width, string -> string.padRight(width) }, Center : { width, string -> string.center(width) } ] def padAll = { pad, colWidths, lineWords -> [colWidths, lineWords].transpose().collect { pad(it) + ' ' } }
words.each { padAll(justify[align], columnWidths, it).each { print it }; println() }
}</lang>
Test Program: <lang groovy>def rawTextInput = Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.
['Left', 'Center', 'Right'].each { align ->
println "${align} Justified:" alignColumns(align, rawTextInput) println()
}</lang>
- Output:
Left Justified: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Center Justified: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Right Justified: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Harbour
<lang visualfoxpro> PROCEDURE Main()
LOCAL a := { "Given$a$text$file$of$many$lines,$where$fields$within$a$line$",; "are$delineated$by$a$single$'dollar'$character,$write$a$program",; "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$",; "column$are$separated$by$at$least$one$space.",; "Further,$allow$for$each$word$in$a$column$to$be$either$left$",; "justified,$right$justified,$or$center$justified$within$its$column." } LOCAL e, nMax // remove trailing dollars AEval( a, {|e,n| Iif( Right(e,1)=="$", a[n] := hb_StrShrink( e, 1 ), NIL ) } ) // find max word length nMax := 0 AEval( a, {|e| AEval( hb_Atokens( e, "$"), {|i| nMax := Max( nMax, Len(i) )} ) } ) nMax++ // start printing, padding words as needed ? ? "----Left aligned columns----" FOR EACH e IN a ? AEval( hb_Atokens( e, "$"), {|i| QQout( PadR(i, nMax) )} ) NEXT ? ? "----Center aligned columns----" FOR EACH e IN a ? AEval( hb_Atokens( e, "$"), {|i| QQout( PadC(i, nMax) )} ) NEXT ? ? "----Right aligned columns----" FOR EACH e IN a ? AEval( hb_Atokens( e, "$"), {|i| QQout( PadL(i, nMax) )} ) NEXT RETURN
</lang> Output: <lang text>----Left aligned columns---- Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Center aligned columns----
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left
justified, right justified, or center justified within its column.
Right aligned columns----
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.</lang>
Haskell
<lang haskell>import Data.List (unfoldr, transpose) import Control.Arrow (second)
dat =
"Given$a$text$file$of$many$lines,$where$fields$within$a$line$\n" ++ "are$delineated$by$a$single$'dollar'$character,$write$a$program\n" ++ "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$\n" ++ "column$are$separated$by$at$least$one$space.\n" ++ "Further,$allow$for$each$word$in$a$column$to$be$either$left$\n" ++ "justified,$right$justified,$or$center$justified$within$its$column.\n"
brkdwn =
takeWhile (not . null) . unfoldr (Just . second (drop 1) . span ('$' /=))
format j ls = map (unwords . zipWith align colw) rows
where rows = map brkdwn $ lines ls colw = map (maximum . map length) . transpose $ rows align cw w = case j of 'c' -> replicate l ' ' ++ w ++ replicate r ' ' 'r' -> replicate dl ' ' ++ w 'l' -> w ++ replicate dl ' ' where dl = cw - length w (l, r) = (dl `div` 2, dl - l)</lang>
- Output:
*Main> mapM_ putStrLn $ format 'c' dat Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Or, using Text and its functions as an alternative to [Char] strings:
<lang haskell>import Prelude as P import Data.Text as T
(Text, pack, unpack, splitOn, unlines, unwords, length, justifyLeft, justifyRight, center)
import Data.List (transpose, zip, maximumBy) import Data.Ord (comparing)
rows :: Text rows =
(splitOn (pack "$") . pack) <$> [ "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" , "are$delineated$by$a$single$'dollar'$character,$write$a$program" , "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" , "column$are$separated$by$at$least$one$space." , "Further,$allow$for$each$word$in$a$column$to$be$either$left$" , "justified,$right$justified,$or$center$justified$within$its$column." ]
cols :: Text cols =
transpose $ ((++) <*> (flip P.replicate (pack []) . (-) (maximum (P.length <$> rows)) . P.length)) <$> rows
main :: IO () main =
mapM_ putStrLn $ [ (\cols f -> (unpack . T.unlines) $ T.unwords <$> transpose ((\(xs, n) -> f (n + 1) ' ' <$> xs) <$> cols)) (zip cols ((T.length . maximumBy (comparing T.length)) <$> cols)) ] <*> [justifyLeft, justifyRight, center]</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
HicEst
A file opened with a Format option describing the column format(s) can be addressed like a standard in-memory array. In addition the DLG function (MatrixExplorer) allows this text/numeric file to be edited or visualized in many ways, but string columns are always left adjusted while numeric columns are right adjusted. Export is possible. <lang HicEst> CHARACTER Fnam = "\HicEst\Rosetta\Align columns.txt"
OPEN(FIle=Fnam, Format="12$", LENgth=rows)
! call the DLG function in MatrixExplorer mode:
DLG(Edit=Fnam, Format='12A10') ! left adjusted, 12 columns, 10 spaces each
! or the standard way:
CALL Align( "LLLLLLLLLLL ", Fnam, rows) ! left align CALL Align( "CCCCCCCCCCC ", Fnam, rows) ! center align CALL Align( "RRRRRRRRRRR ", Fnam, rows) ! right align
END
SUBROUTINE Align(picture, filename, rows)
CHARACTER picture, filename CHARACTER out*400, txt*20
W = LEN(picture) DO i = 1, rows out = " " DO j = 0, 100 txt = filename(i, j+1, *9) ! on error branch to label 9 WRITE(Text=out(j*W+1 : ), Format=picture) txt ENDDO 9 CONTINUE WRITE() out ENDDO
END</lang>
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Icon and Unicon
An argument of left, center, or right controls the column alignment. The default is left-alignment. <lang icon>global width
procedure main(args)
lines := [] width := 0 format := left match("left"|"right"|"center", format <- !args) every put(lines,prepare(!&input)) display(lines, proc(format,3))
end
procedure prepare(lines)
line := [] lines ? { while (not pos(0)) & (field := tab(upto('$')|0)) do { put(line, field) width <:= *field move(1) } } return line
end
procedure display(lines, format)
width +:= 1 every line := !lines do { every writes(format(!line, width)) write() }
end</lang>
Sample run:
->align right <align.txt Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. ->
J
Here, we rely on J's built-in formatting mechanism for boxed arrays, with spaces to separate the columns.
(J's 9!:n series of conjunctions queries (even) or sets (odd) session parameters. 9!:6 queries the box display characters, and 9!:7 sets them. Here, we use spaces with 9!:7 (discarding the blank rows). Meanwhile 9!:17 determines whether box contents are left justified, center justified or right justified, and we also use that. There's some additional discussion of this approach on the talk page.)
Solution
<lang j>'LEFT CENTER RIGHT'=: i.3 NB. justification constants
NB.* alignCols v Format delimited text in justified columns NB. y: text to format NB. rows marked by last character in text NB. columns marked by $ NB. optional x: justification. Default is LEFT NB. result: text table alignCols=: verb define
LEFT alignCols y NB. default
global=. dyad def'9!:x y'each oldbox=. 6 16 global ; NB. save settings 7 17 global (11#' ');,~x NB. apply new settings result=. _2{:\ ": <;._2 @:,&'$';._2 y NB. parse & format text 7 17 global oldbox NB. restore settings result
)</lang>
Example: <lang j> text=: noun define Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. )
alignCols text NB. default justification Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
CENTER alignCols text NB. specify desired justification as left argument Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.</lang>
Java
<lang Java>import java.io.IOException; import java.nio.charset.StandardCharsets; import java.nio.file.Files; import java.nio.file.Paths; import java.util.ArrayList; import java.util.List;
import org.apache.commons.lang3.StringUtils;
/**
* Aligns fields into columns, separated by "|" */
public class ColumnAligner {
private List<String[]> words = new ArrayList<>(); private int columns = 0; private List<Integer> columnWidths = new ArrayList<>();
/** * Initialize columns aligner from lines in a single string * * @param s * lines in a single string. Empty string does form a column. */ public ColumnAligner(String s) { String[] lines = s.split("\\n"); for (String line : lines) { processInputLine(line); } }
/** * Initialize columns aligner from lines in a list of strings * * @param lines * lines in a single string. Empty string does form a column. */ public ColumnAligner(List<String> lines) { for (String line : lines) { processInputLine(line); } }
private void processInputLine(String line) { String[] lineWords = line.split("\\$"); words.add(lineWords); columns = Math.max(columns, lineWords.length); for (int i = 0; i < lineWords.length; i++) { String word = lineWords[i]; if (i >= columnWidths.size()) { columnWidths.add(word.length()); } else { columnWidths.set(i, Math.max(columnWidths.get(i), word.length())); } } }
interface AlignFunction { String align(String s, int length); }
/** * Left-align all columns * * @return Lines, terminated by "\n" of columns, separated by "|" */ public String alignLeft() { return align(new AlignFunction() { @Override public String align(String s, int length) { return StringUtils.rightPad(s, length); } }); }
/** * Right-align all columns * * @return Lines, terminated by "\n" of columns, separated by "|" */ public String alignRight() { return align(new AlignFunction() { @Override public String align(String s, int length) { return StringUtils.leftPad(s, length); } }); }
/** * Center-align all columns * * @return Lines, terminated by "\n" of columns, separated by "|" */ public String alignCenter() { return align(new AlignFunction() { @Override public String align(String s, int length) { return StringUtils.center(s, length); } }); }
private String align(AlignFunction a) { StringBuilder result = new StringBuilder(); for (String[] lineWords : words) { for (int i = 0; i < lineWords.length; i++) { String word = lineWords[i]; if (i == 0) { result.append("|"); } result.append(a.align(word, columnWidths.get(i)) + "|"); } result.append("\n"); } return result.toString(); }
public static void main(String args[]) throws IOException { if (args.length < 1) { System.out.println("Usage: ColumnAligner file [left|right|center]"); return; } String filePath = args[0]; String alignment = "left"; if (args.length >= 2) { alignment = args[1]; } ColumnAligner ca = new ColumnAligner(Files.readAllLines(Paths.get(filePath), StandardCharsets.UTF_8)); switch (alignment) { case "left": System.out.print(ca.alignLeft()); break; case "right": System.out.print(ca.alignRight()); break; case "center": System.out.print(ca.alignCenter()); break; default: System.err.println(String.format("Error! Unknown alignment: '%s'", alignment)); break; } }
}</lang>
JavaScript
Imperative
<lang JavaScript> var justification="center", input=["Given$a$text$file$of$many$lines,$where$fields$within$a$line$", "are$delineated$by$a$single$'dollar'$character,$write$a$program", "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$", "column$are$separated$by$at$least$one$space.", "Further,$allow$for$each$word$in$a$column$to$be$either$left$", "justified,$right$justified,$or$center$justified$within$its$column."], x,y,cols,max,cols=0,diff,left,right
String.prototype.repeat=function(n){return new Array(1 + parseInt(n)).join(this);}
for(x=0;x<input.length;x++) {
input[x]=input[x].split("$"); if(input[x].length>cols) cols=input[x].length;
} for(x=0;x<cols;x++) {
max=0; for(y=0;y<input.length;y++) if(input[y][x]&&max<input[y][x].length) max=input[y][x].length; for(y=0;y<input.length;y++) if(input[y][x]) { diff=(max-input[y][x].length)/2; left=" ".repeat(Math.floor(diff)); right=" ".repeat(Math.ceil(diff)); if(justification=="left") {right+=left;left=""} if(justification=="right") {left+=right;right=""} input[y][x]=left+input[y][x]+right; }
} for(x=0;x<input.length;x++) input[x]=input[x].join(" "); input=input.join("\n"); document.write(input);</lang>
Functional
<lang JavaScript>//break up each string by '$'. The assumption is that the user wants the trailing $. var data = [
"Given$a$text$file$of$many$lines,$where$fields$within$a$line$", "are$delineated$by$a$single$'dollar'$character,$write$a$program", "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$", "column$are$separated$by$at$least$one$space.", "Further,$allow$for$each$word$in$a$column$to$be$either$left$", "justified,$right$justified,$or$center$justified$within$its$column."
].map(function (str) { return str.split('$'); })
//boilerplate: get longest array or string in array var getLongest = function (arr) {
return arr.reduce(function (acc, item) { return acc.length > item.length ? acc : item; }, 0);
};
//boilerplate: this function would normally be in a library like underscore, lodash, or ramda var zip = function (items, toInsert) {
toInsert = (toInsert === undefined) ? null : toInsert; var longestItem = getLongest(items); return longestItem.map(function (_unused, index) { return items.map(function (item) { return item[index] === undefined ? toInsert : item[index]; }); });
};
//here's the part that's not boilerplate var makeColumns = function (formatting, data) {
var zipData = zip(data, ); var makeSpaces = function (num) { return new Array(num + 1).join(' '); }; var formattedCols = zipData.map(function (column) { var maxLen = getLongest(column).length;//find the maximum word length if (formatting === 'left') { return column.map(function (word) { return word + makeSpaces(maxLen - word.length); }); } else if (formatting === 'right') { return column.map(function (word) { return makeSpaces(maxLen - word.length) + word; }); } else { return column.map(function (word) { var spaces = maxLen - word.length, first = ~~(spaces / 2), last = spaces - first; return makeSpaces(first) + word + makeSpaces(last); }); } });
return zip(formattedCols).map(function (row) { return row.join(' '); }).join('\n');
};</lang>
Or (ES5) using transpose and zipWith:
<lang JavaScript>(function (strText) {
'use strict'; // a -> a function transpose(lst) { return lst[0].map(function (_, iCol) { return lst.map(function (row) { return row[iCol]; }) }); } // (a -> b -> c) -> [a] -> [b] -> [c] function zipWith(f, xs, ys) { return xs.length === ys.length ? ( xs.map(function (x, i) { return f(x, ys[i]); }) ) : undefined; } // (a -> a -> Ordering) -> [a] -> a function maximumBy(f, xs) { return xs.reduce(function (a, x) { return a === undefined ? x : ( f(x) > f(a) ? x : a ); }, undefined) } // [String] -> String function widest(lst) { return maximumBy(length, lst) .length; } // a -> a function fullRow(lst, n) { return lst.concat(Array.apply(null, Array(n - lst.length)) .map(function () { return })); } // String -> Int -> String function nreps(s, n) { var o = ; if (n < 1) return o; while (n > 1) { if (n & 1) o += s; n >>= 1; s += s; } return o + s; } // [String] -> String function unwords(xs) { return xs.join(' '); } // [String] -> String function unlines(xs) { return xs.join('\n'); } // [a] -> Int function length(xs) { return xs.length; } // -- Int -> [String] -> String function padWords(n, lstWords, eAlign) { return lstWords.map(function (w) { var lngPad = n - w.length; return ( (eAlign === eCenter) ? (function () { var lngHalf = Math.floor(lngPad / 2); return [ nreps(' ', lngHalf), w, nreps(' ', lngPad - lngHalf) ]; })() : (eAlign === eLeft) ? [, w, nreps(' ', lngPad)] : [nreps(' ', lngPad), w, ] ) .join(); }); } // MAIN var eLeft = -1, eCenter = 0, eRight = 1; var lstRows = strText.split('\n') .map(function (x) { return x.split('$'); }), lngCols = widest(lstRows), lstCols = transpose(lstRows.map(function (r) { return fullRow(r, lngCols) })), lstColWidths = lstCols.map(widest); // THREE PARAGRAPHS, WITH VARIOUS WORD COLUMN ALIGNMENTS: return [eLeft, eRight, eCenter] .map(function (eAlign) { var fPad = function (n, lstWords) { return padWords(n, lstWords, eAlign); }; return transpose( zipWith(fPad, lstColWidths, lstCols) ) .map(unwords); }) .map(unlines) .join('\n\n');
})(
"Given$a$text$file$of$many$lines,$where$fields$within$a$line$\n\
are$delineated$by$a$single$'dollar'$character,$write$a$program\n\ that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$\n\ column$are$separated$by$at$least$one$space.\n\ Further,$allow$for$each$word$in$a$column$to$be$either$left$\n\ justified,$right$justified,$or$center$justified$within$its$column." );</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
jq
The key to the following implementation is the filter named "transpose", which is defined to work on a possibly jagged matrix. It is provided as a built-in in jq 1.5 and later. <lang jq># transpose a possibly jagged matrix def transpose:
if . == [] then [] else (.[1:] | transpose) as $t | .[0] as $row | reduce range(0; [($t|length), (.[0]|length)] | max) as $i ([]; . + [ [ $row[$i] ] + $t[$i] ]) end;
- left/right/center justification of strings:
def ljust(width): . + " " * (width - length);
def rjust(width): " " * (width - length) + .;
def center(width):
(width - length) as $pad | if $pad <= 0 then . else ($pad / 2 | floor) as $half | $half * " " + . + ($pad-$half) * " " end ;
- input: a single string, which includes newlines to separate lines, and $ to separate phrases;
- method must be "left" "right" or anything else for central justification.
def format(method):
def justify(width): if method == "left" then ljust(width) elif method == "right" then rjust(width) else center(width) end;
# max_widths: input: an array of strings, each with "$" as phrase-separator; # return the appropriate column-wise maximum lengths def max_widths: map(split("$") | map(length)) | transpose | map(max) ;
split("\n") as $input | $input | (max_widths | map(.+1)) as $widths | map( split("$") | . as $line | reduce range(0; length) as $i (""; . + ($line[$i]|justify($widths[$i])) )) | join("\n")
- </lang>
Example: <lang jq>"Center:", format("center"), "", "Left:", format("left"), "", "Right:", format("right")</lang>
- Output:
Center:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left
justified, right justified, or center justified within its column.
Left: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Right:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.</lang>
Jsish
From Javascript ES5 entry. <lang javascript>/* Align columns, in Jsish */ function alignColumns(phrases:array, just:string) {
var x, y, max, diff, left, right, cols=0; for(x=0; x<phrases.length; x++) { phrases[x] = phrases[x].split("$"); if (phrases[x].length>cols) cols=phrases[x].length; } for (x=0; x<cols; x++) { max = 0; for (y=0; y<phrases.length; y++) if (phrases[y][x] && max<phrases[y][x].length) max = phrases[y][x].length; for (y=0; y<phrases.length; y++) { if (phrases[y][x]) { diff = (max-phrases[y][x].length)/2; left = " ".repeat(Math.floor(diff)); right = " ".repeat(Math.ceil(diff)); if (just == "left") { right += left; left=""; } if (just == "right") { left += right; right=""; } phrases[y][x] = left + phrases[y][x] + right; } } } for (x=0; x<phrases.length; x++) phrases[x] = phrases[x].join(" "); phrases = phrases.join("\n"); return phrases;
}
if (Interp.conf('unitTest')) {
var phrases = ["Given$a$text$file$of$many$lines,$where$fields$within$a$line$", "are$delineated$by$a$single$'dollar'$character,$write$a$program", "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$", "column$are$separated$by$at$least$one$space.", "Further,$allow$for$each$word$in$a$column$to$be$either$left$", "justified,$right$justified,$or$center$justified$within$its$column."];
for (var just of ['left', 'center', 'right']) { var trial = phrases.slice(0); puts(just); puts(alignColumns(trial, just), '\n'); }
}</lang>
- Output:
prompt$ jsish --U alignColumns.jsi left Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. center Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. right Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Julia
<lang julia>txt = """Given\$a\$txt\$file\$of\$many\$lines,\$where\$fields\$within\$a\$line\$ are\$delineated\$by\$a\$single\$'dollar'\$character,\$write\$a\$program that\$aligns\$each\$column\$of\$fields\$by\$ensuring\$that\$words\$in\$each\$ column\$are\$separated\$by\$at\$least\$one\$space. Further,\$allow\$for\$each\$word\$in\$a\$column\$to\$be\$either\$left\$ justified,\$right\$justified,\$or\$center\$justified\$within\$its\$column."""
- left/right/center justification of strings:
ljust(s, width) = s * " "^max(0, width - length(s)) rjust(s, width) = " "^max(0, width - length(s)) * s function center(s, width)
pad = width - length(s) if pad <= 0 return s else pad2 = div(pad, 2) return " "^pad2 * s * " "^(pad - pad2) end
end
parts = [split(rstrip(line, '$'), '$') for line in split(txt, '\n')]
max_widths = zeros(Int, maximum(length, parts)) for line in parts
for (i, word) in enumerate(line) max_widths[i] = max(max_widths[i], length(word)) end
end max_widths += 1 # separate cols by at least one space
for (label, justify) in (("Left", ljust), ("Right",rjust), ("Center",center))
println(label, " column-aligned output:") for line in parts for (j, word) in enumerate(line) print(justify(word, max_widths[j])) end println() end println("-"^sum(max_widths))
end</lang>
- Output:
Left column-aligned output: Given a txt file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. --------------------------------------------------------------------------------------------------------- Right column-aligned output: Given a txt file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. --------------------------------------------------------------------------------------------------------- Center column-aligned output: Given a txt file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. ---------------------------------------------------------------------------------------------------------
Kotlin
<lang scala>import java.nio.charset.StandardCharsets import java.nio.file.Files import java.nio.file.Paths
enum class AlignFunction {
LEFT { override fun invoke(s: String, l: Int) = ("%-" + l + 's').format(("%" + s.length + 's').format(s)) }, RIGHT { override fun invoke(s: String, l: Int) = ("%-" + l + 's').format(("%" + l + 's').format(s)) }, CENTER { override fun invoke(s: String, l: Int) = ("%-" + l + 's').format(("%" + ((l + s.length) / 2) + 's').format(s)) };
abstract operator fun invoke(s: String, l: Int): String
}
/** Aligns fields into columns, separated by "|".
* @constructor Initializes columns aligner from lines in a list of strings. * @property lines Lines in a single string. Empty string does form a column. */
class ColumnAligner(val lines: List<String>) {
operator fun invoke(a: AlignFunction) : String { var result = "" for (lineWords in words) { for (i in lineWords.indices) { if (i == 0) result += '|' result += a(lineWords[i], column_widths[i]) result += '|' } result += '\n' } return result }
private val words = arrayListOf<Array<String>>() private val column_widths = arrayListOf<Int>()
init { lines.forEach { val lineWords = java.lang.String(it).split("\\$") words += lineWords for (i in lineWords.indices) { if (i >= column_widths.size) { column_widths += lineWords[i].length } else { column_widths[i] = Math.max(column_widths[i], lineWords[i].length) } } } }
}
fun main(args: Array<String>) {
if (args.isEmpty()) { println("Usage: ColumnAligner file [L|R|C]") return } val ca = ColumnAligner(Files.readAllLines(Paths.get(args[0]), StandardCharsets.UTF_8)) val alignment = if (args.size >= 2) args[1] else "L" when (alignment) { "L" -> print(ca(AlignFunction.LEFT)) "R" -> print(ca(AlignFunction.RIGHT)) "C" -> print(ca(AlignFunction.CENTER)) else -> System.err.println("Error! Unknown alignment: " + alignment) }
}</lang>
Lambdatalk
The input data is a sequence of characters where words are supposed to be separated by $ and lines be ended by \$. A HTML table is used to format the output left, centered or right justified.
<lang scheme> {def txt Given$a$text$file$of$many$lines,$where$fields$within$a$line\$are$delineated$by$a$single$'dollar'$character,$write$a$program\$that$aligns$each$column$of$fields$by$ensuring$that$words$in$each\$column$are$separated$by$at$least$one$space.\$Further,$allow$for$each$word$in$a$column$to$be$either$left\$justified,$right$justified,$or$center$justified$within$its$column.} -> txt {def columns // function's name
{def columns.r // loop function {lambda {:just :a :b} {if {A.empty? :a} // end of loop then :b // return the string else {columns.r :just // justification {A.rest :a}. // loop on next char {if {W.equal? {A.first :a} \} // if end of line then < tr> :b // open a table row else {if {W.equal? {A.first :a} $} // if space between words then < td style="text-align::just;">:b // open a table data with justif else {A.first :a}:b }} } }}} // else add character
{lambda {:just :txt} // main function {table // open an HTML table {columns.r // call the loop function :just // justification {A.reverse {A.split ${:txt}}} // split and reverse . // end point
}}}} -> columns
{columns left txt}
-> Given a text file of many lines, where fields within a line
are delineated by a single 'dollar' character, write a program
that aligns each column of fields by ensuring that words in each
column are separated by at least one space.
Further, allow for each word in a column to be either left
justified, right justified, or center justified within its column..
{columns center txt} and {columns right txt} outputs can be seen in this website: http://lambdaway.free.fr/lambdawalks/?view=align_columns </lang>
Lasso
<lang Lasso>#!/usr/bin/lasso9
local(text = "Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. ")
define go_left(text::array, width::integer) => {
local(output = string)
with row in #text do {
with word in #row do {
#output -> append(string(#word) -> padtrailing(#width + 1)&)
}
#output -> append('\n')
}
return #output
}
define go_right(text::array, width::integer) => { local(output = string) with row in #text do { with word in #row do { #output -> append(string(#word) -> padleading(#width + 1)&) } #output -> append('\n') } return #output }
define go_center(text::array, width::integer) => { local(output = string) with row in #text do { with word in #row do { local( padlength = (#width + 1 - #word -> size), padleft = (' ' * (#padlength / 2)), padright = (' ' * (#padlength - #padleft -> size)) ) #output -> append(#padleft + string(#word) + #padright) } #output -> append('\n') } return #output }
define prepcols(text::string) => { local( result = array, maxwidth = 0 ) with row in #text -> split('\n') do { #row -> removetrailing('$') #result -> insert(#row -> split('$')) } with word in delve(#result) do { #word -> size > #maxwidth ? #maxwidth = #word -> size } stdoutnl('Left aligned result: \n' + go_left(#result, #maxwidth)) stdoutnl('Right aligned result: \n' + go_right(#result, #maxwidth)) stdoutnl('Centered result: \n' + go_center(#result, #maxwidth)) }
prepcols(#text)</lang>
- Output:
Left aligned result: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Right aligned result: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Centered result: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Liberty BASIC
<lang lb>mainwin 140 32
CRLF$ =chr$( 13) maxlen =0
read y
Dim txt$( y)
For i =1 To y Read i$ print i$ if right$( i$, 1) <>"$" then i$ =i$ +"$" txt$( i) =i$ x =max( CountDollars( txt$( i)), x) Next i
print x
Dim matrix$( x, y)
Print CRLF$; " ---- Left ----" For yy =1 To y For xx =1 To x matrix$( xx, yy) =word$( txt$( yy), xx, "$") print matrix$( xx, yy), "|"; maxlen =max( maxlen, Len( matrix$( xx, yy))) Next xx print "" Next yy
Print CRLF$; " ---- Right ----" For yy =1 To y For xx =1 To x Print right$( " " +matrix$( xx, yy), maxlen +1); "|"; ' will truncate column words longer than 20. Change to use maxlen.... Next xx Print "" Next yy
Print CRLF$ +" ---- Center ----" For yy =1 to y For xx =1 to x wordLen =Len( matrix$( xx, yy)) padNeeded =maxlen -wordLen +4 LeftSpaces =padNeeded /2
if LeftSpaces =int( LeftSpaces) then RightSpaces =LeftSpaces else RightSpaces =LeftSpaces -1 end if
Print space$( LeftSpaces); matrix$( xx, yy); space$( RightSpaces); "|"; Next xx Print "" Next yy
wait
Data 6
Data "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" Data "are$delineated$by$a$single$'dollar'$character,$write$a$program" Data "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" Data "column$are$separated$by$at$least$one$space." Data "Further,$allow$for$each$word$in$a$column$to$be$either$left$" Data "justified,$right$justified,$or$center$justified$within$its$column."
function CountDollars( src$) c =0 for j =1 to len( src$) if mid$( src$, j, 1) ="$" then c =c +1 next j CountDollars =c end function
end</lang>
Lua
<lang lua> local tWord = {} -- word table local tColLen = {} -- maximum word length in a column local rowCount = 0 -- row counter --store maximum column lengths at 'tColLen'; save words into 'tWord' table local function readInput(pStr)
for line in pStr:gmatch("([^\n]+)[\n]-") do -- read until '\n' character rowCount = rowCount + 1 tWord[rowCount] = {} -- create new row local colCount = 0 for word in line:gmatch("[^$]+") do -- read non '$' character colCount = colCount + 1 tColLen[colCount] = math.max((tColLen[colCount] or 0), #word) -- store column length tWord[rowCount][colCount] = word -- store words end--for word end--for line
end--readInput --repeat space to align the words in the same column local align = {
["left"] = function (pWord, pColLen) local n = (pColLen or 0) - #pWord + 1 return pWord .. (" "):rep(n) end;--["left"] ["right"] = function (pWord, pColLen) local n = (pColLen or 0) - #pWord + 1 return (" "):rep(n) .. pWord end;--["right"] ["center"] = function (pWord, pColLen) local n = (pColLen or 0) - #pWord + 1 local n1 = math.floor(n/2) return (" "):rep(n1) .. pWord .. (" "):rep(n-n1) end;--["center"]
} --word table padder local function padWordTable(pAlignment)
local alignFunc = align[pAlignment] -- selecting the spacer function for rowCount, tRow in ipairs(tWord) do for colCount, word in ipairs(tRow) do tRow[colCount] = alignFunc(word, tColLen[colCount]) -- save the padded words into the word table end--for colCount, word end--for rowCount, tRow
end--padWordTable --main interface
[]
function alignColumn(pStr, pAlignment, pFileName)
[]
readInput(pStr) -- store column lengths and words padWordTable(pAlignment or "left") -- pad the stored words local output = "" for rowCount, tRow in ipairs(tWord) do local line = table.concat(tRow) -- concatenate words in one row print(line) -- print the line output = output .. line .. "\n" -- concatenate the line for output, add line break end--for rowCount, tRow if (type(pFileName) == "string") then local file = io.open(pFileName, "w+") file:write(output) -- write output to file file:close() end--if type(pFileName) return output
end--alignColumn </lang>
Usage Example:
<lang lua> input = [[Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.]]
outputLeft = alignColumn(input)
outputRight = alignColumn(input, "right")
alignColumn(input, "center", "output.txt")
</lang>
M2000 Interpreter
<lang M2000 Interpreter> Module Align_Columns { a$={Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. } const cr$=chr$(13), lf$=chr$(10) def c1=0, cmax=0, p1=-1, i flush ' empty stack for i=1 to len(a$) select case mid$(a$,i,1) case "$", cr$ if p1<>-1 then data (p1, c1): p1=-1: cmax=max(c1,cmax):c1=0 case lf$ data (-1,0) ' push to end of stack an array of two items (a tuple in m2000) else case if p1=-1 then p1=i :c1=1 else c1++ end select next if p1<>-1 then push (p1, c1): cmax=max(c1,cmax):c1=0 \\ so now stack of values hold all tuples. Dim Words(), AlignType$(1 to 3) AlignType$(1)=lambda$ (a$,wd)->field$(a$, wd) AlignType$(2)=lambda$ (a$,wd)->{ a$=left$(a$, wd) =left$(string$(" ", (len(a$)-wd) div 2)+a$+string$(" ",wd),wd) } AlignType$(3)= lambda$ (a$,wd)->format$("{0:"+str$(-wd)+"}", a$) \\ [] return a stack object, reference and leave current stack of values a new stack \\ Array( stack_object) empty the stack object moving items to an array Words()=Array([]) document export$ def aline$ cmax++ ' add one space For al=1 to 3 For i=0 to len(Words())-1 if Words(i)(0)=-1 then ' we use rtrim$() to cut trailing spaces export$=rtrim$(aline$)+cr$+lf$ : aline$="" else aline$+=AlignType$(al)(mid$(a$,Words(i)(0), Words(i)(1)),cmax) end if next i next \\ export to clipboard Clipboard export$ Rem Form 140, 60 Rem Print #-2, export$ ' render text to console without using console's columns } Align_Columns </lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Maple
Assign the sample data. <lang Maple> txt := "Given$a$text$file$of$many$lines,$where$fields$within$a$line$\n" "are$delineated$by$a$single$'dollar'$character,$write$a$program\n" "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$\n" "column$are$separated$by$at$least$one$space.\n" "Further,$allow$for$each$word$in$a$column$to$be$either$left$\n" "justified,$right$justified,$or$center$justified$within$its$column.\n": </lang> The following procedure solves the problem. It takes the string to be operated on as input, and an optional alignment parameter, which defaults to centred alignment. The aligned text is returned, as a string, which can then be printed. <lang Maple> AlignColumns := proc( txt, align :: { "left", "right", "centre" } := "centre" ) uses StringTools;
# Get a list of lists of fields local A := map( Split, Split( txt ), "$" );
# Calculate the column width local width := 1 + max( map( L -> max( map( length, L ) ), A ) );
# Add spacing according to the requested type of alignment if align = "left" then local J := map( line -> map( PadRight, line, width ), A ) elif align = "right" then J := map( line -> map( PadLeft, line, width ), A ) else J := map( line -> map( Center, line, width ), A ) end if;
# Join up the fields in each line. J := map( cat@op, J );
# Re-assemble the lines into a single string. Join( J, "\n" ) end proc: </lang> For the sample text, we get the following results. <lang Maple> > printf( "%s\n", AlignColumns( txt ) ):
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
> printf( "%s\n", AlignColumns( txt, "center" ) ): # same as above
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
> printf( "%s\n", AlignColumns( txt, "left" ) ): Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. > printf( "%s\n", AlignColumns( txt, "right" ) ):
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
</lang> Alternatively, this could be printed to a file (using fprintf instead of printf).
Mathematica / Wolfram Language
<lang Mathematica>TableForm[StringSplit[StringSplit[a,"\n"],"$"],TableAlignments -> Center]</lang> Output with example text :
MATLAB / Octave
center-justified formatting is not implemented here <lang Matlab> function r = align_columns(f)
fid = fopen('align_column_data.txt', 'r'); D = {}; M = 0; while ~feof(fid) s = fgetl(fid); strsplit(s,'$');
m = diff([0,find(s=='$')])-1; M = max([M,zeros(1,length(m)-length(M))], [m,zeros(1,length(M)-length(m))]);
D{end+1}=s; end fclose(fid);
fprintf(1,'%%-- right-justified --%%\n') FMT = sprintf('%%%ds ',M); for k=1:length(D)
d = strsplit(D{k},'$');
fprintf(1,FMT,d{:}); fprintf(1,'\n'); end
fprintf(1,'%%-- left-justified --%%\n') FMT = sprintf('%%-%ds ',M); for k=1:length(D)
d = strsplit(D{k},'$');
fprintf(1,FMT,d{:}); fprintf(1,'\n'); end
end; </lang>
- Output:
align_columns %-- right-justified --% Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. %-- left-justified --% Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
ML/I
In this example, ML/I reads its macros first, then switches input to the file containing the data to be formatted. Output is to 'standard output' or similar. Note the presetting of P102 to indicate the alignment required.
<lang ML/I>MCSKIP "WITH" NL "" Align columns - assumes macros on input stream 1, data on stream 2 MCPVAR 102 "" Set P102 to alignment required: "" 1 = centre "" 2 = left "" 3 = right MCSET P102 = 1 MCSKIP MT,<> MCINS %. MCSKIP SL WITH * "" Assume no more than 100 columns - P101 used for max number of fields "" Set P variables 1-101 to 0 MCDEF ZEROPS WITHS NL AS <MCSET T1=1 %L1.MCSET PT1=0 MCSET T1=T1+1 MCGO L1 UNLESS T1 EN 102 > ZEROPS "" First pass - macro to accumulate max columns, and max widths MCDEF SL N1 OPT $ N1 OR $ WITHS NL OR SPACE WITHS NL OR NL ALL AS <MCGO L3 UNLESS T1 GR P101 MCSET P101=T1 %L3.MCSET T2=1 %L1.MCGO L0 IF T2 GR T1 MCSET T3=MCLENG(%WBT2.) MCGO L2 UNLESS T3 GR PT2 MCSET PT2=T3 %L2.MCSET T2=T2+1 MCGO L1 > MCSET S1=1
- MCSET S10=2
- MCSET S1=0
MCSET S4=1 ""MCNOTE Max field is %P101. ""MCDEF REP NL AS <MCSET T1=1 ""%L1.%PT1. MCSET T1=T1+1 ""MCGO L1 UNLESS T1 GR P101 ""> ""REP MCDEF SL N1 OPT $ N1 OR $ WITHS NL OR SPACE WITHS NL OR NL ALL AS <MCSET T2=1 %L5.MCGO L6 IF T2 GR T1 MCGO LP102 %L1.MCSET T3=%%%PT2.-MCLENG(%WBT2.)./2. MCGO L7 IF T3 EN 0 MCSUB(< >,1,T3)%L7.%WBT2."" MCSUB(< >,1,PT2-T3-MCLENG(%WBT2.)+1)MCGO L4 %L2.MCSUB(%WBT2.< >,1,PT2)MCGO L4 %L3.MCSUB(< >%WBT2.,1-PT2,0)"" %L4. MCSET T2=T2+1 MCGO L5 %L6. > MCSET S1=1
- MCSET S10=102</lang>
ML/I
In this example, ML/I reads its macros first, then switches input to the file containing the data to be formatted. Output is to 'standard output' or similar. Note the presetting of P102 to indicate the alignment required.
<lang ML/I>MCSKIP "WITH" NL "" Align columns - assumes macros on input stream 1, data on stream 2 MCPVAR 102 "" Set P102 to alignment required: "" 1 = centre "" 2 = left "" 3 = right MCSET P102 = 1 MCSKIP MT,<> MCINS %. MCSKIP SL WITH * "" Assume no more than 100 columns - P101 used for max number of fields "" Set P variables 1-101 to 0 MCDEF ZEROPS WITHS NL AS <MCSET T1=1 %L1.MCSET PT1=0 MCSET T1=T1+1 MCGO L1 UNLESS T1 EN 102 > ZEROPS "" First pass - macro to accumulate max columns, and max widths MCDEF SL N1 OPT $ N1 OR $ WITHS NL OR SPACE WITHS NL OR NL ALL AS <MCGO L3 UNLESS T1 GR P101 MCSET P101=T1 %L3.MCSET T2=1 %L1.MCGO L0 IF T2 GR T1 MCSET T3=MCLENG(%WBT2.) MCGO L2 UNLESS T3 GR PT2 MCSET PT2=T3 %L2.MCSET T2=T2+1 MCGO L1 > MCSET S1=1
- MCSET S10=2
- MCSET S1=0
MCSET S4=1 ""MCNOTE Max field is %P101. ""MCDEF REP NL AS <MCSET T1=1 ""%L1.%PT1. MCSET T1=T1+1 ""MCGO L1 UNLESS T1 GR P101 ""> ""REP MCDEF SL N1 OPT $ N1 OR $ WITHS NL OR SPACE WITHS NL OR NL ALL AS <MCSET T2=1 %L5.MCGO L6 IF T2 GR T1 MCGO LP102 %L1.MCSET T3=%%%PT2.-MCLENG(%WBT2.)./2. MCGO L7 IF T3 EN 0 MCSUB(< >,1,T3)%L7.%WBT2."" MCSUB(< >,1,PT2-T3-MCLENG(%WBT2.)+1)MCGO L4 %L2.MCSUB(%WBT2.< >,1,PT2)MCGO L4 %L3.MCSUB(< >%WBT2.,1-PT2,0)"" %L4. MCSET T2=T2+1 MCGO L5 %L6. > MCSET S1=1
- MCSET S10=102</lang>
MUMPS
<lang MUMPS>columns(how) ; how = "Left", "Center" or "Right" New col,half,ii,max,spaces,word Set ii=0 Set ii=ii+1,line(ii)="Given$a$text$file$of$many$lines,$where$fields$within$a$line$" Set ii=ii+1,line(ii)="are$delineated$by$a$single$'dollar'$character,$write$a$program" Set ii=ii+1,line(ii)="that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" Set ii=ii+1,line(ii)="column$are$separated$by$at$least$one$space." Set ii=ii+1,line(ii)="Further,$allow$for$each$word$in$a$column$to$be$either$left$" Set ii=ii+1,line(ii)="justified,$right$justified,$or$center$justified$within$its$column." Set ii="" For Set ii=$Order(line(ii)) Quit:ii="" Do . For col=1:1:$Length(line(ii),"$") Do . . Set max=$Length($Piece(line(ii),"$",col)) . . Set:max>$Get(max(col)) max(col)=max . . Quit . Quit Set ii="" For Set ii=$Order(line(ii)) Quit:ii="" Do . Write ! For col=1:1:$Length(line(ii),"$") Do:$Get(max(col)) . . Set word=$Piece(line(ii),"$",col) . . Set spaces=$Justify("",max(col)-$Length(word)) . . If how="Left" Write word,spaces," " Quit . . If how="Right" Write spaces,word," " Quit . . Set half=$Length(spaces)\2 . . Write $Extract(spaces,1,half),word,$Extract(spaces,half+1,$Length(spaces))," " . . Quit . Quit Write ! Quit Do columns("Left")
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Do columns("Center")
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left
justified, right justified, or center justified within its column.
Do columns("Right")
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left
justified, right justified, or center justified within its column.</lang>
Nim
<lang nim>from strutils import splitLines, split from sequtils import mapIt from strfmt import format, write
let textinfile = """Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column."""
var words = textinfile.splitLines.mapIt(it.split '$') var maxs = newSeq[int](max words.mapIt(it.len))
for line in words:
for j,w in line: maxs[j] = max(maxs[j], w.len+1)
for i, align in ["<",">","^"]:
echo(["Left", "Right", "Center"][i], " column-aligned output:") for line in words: for j,w in line: stdout.write(w.format align & $maxs[j]) stdout.write "\n" stdout.write "\n"</lang>
- Output:
Left column-aligned output: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Right column-aligned output: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Center column-aligned output: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Nit
Source: the official Nit’s repository
<lang nit># Task: Align columns
- Uses `Text::justify` from the standard library.
module align_columns
fun aligner(text: String, left: Float) do # Each row is a sequence of fields var rows = new Array[Array[String]] for line in text.split('\n') do rows.add line.split("$") end
# Compute the final length of each column var lengths = new Array[Int] for fields in rows do var i = 0 for field in fields do var fl = field.length if lengths.length <= i or fl > lengths[i] then lengths[i] = fl end i += 1 end end
# Process each line and align each field for fields in rows do var line = new Array[String] var i = 0 for field in fields do line.add field.justify(lengths[i], left) i += 1 end print line.join(" ") end end
var text = """ Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column."""
aligner(text, 0.0) aligner(text, 1.0) aligner(text, 0.5)</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Oberon-2
works with oo2c version 2. <lang oberon2> MODULE Columns; IMPORT
NPCT:Tools, Object, Out;
TYPE
Parts = ARRAY 32 OF STRING; Formatter = PROCEDURE (s: STRING; len: LONGINT): STRING;
VAR
lines: ARRAY 6 OF STRING; words: ARRAY 6 OF Parts; columnWidth: ARRAY 128 OF INTEGER; lineIdx: INTEGER; (* * Size: returns de number of words in a line *) PROCEDURE Size(p: Parts): INTEGER; VAR i: INTEGER; BEGIN i := 0; WHILE (i < LEN(p)) & (p[i] # NIL) DO INC(i); END; RETURN i END Size; (* * Max: returns maximum number of words in the lines *) PROCEDURE Max(w: ARRAY OF Parts): INTEGER; VAR i, max, resp: INTEGER; BEGIN i := 0;resp := 0; WHILE (i < LEN(w)) DO max := Size(w[i]); IF (max > resp) THEN resp := max END; INC(i) END; RETURN resp; END Max; (* * MaxColumnWidth: returns the maximum width of a column *) PROCEDURE MaxColumnWidth(w: ARRAY OF Parts;column: INTEGER): INTEGER; VAR line,max: LONGINT; BEGIN line := 0; max := MIN(INTEGER); WHILE (line < LEN(w)) DO; IF (w[line,column] # NIL) & (w[line,column](Object.String8).length > max) THEN max := w[line,column](Object.String8).length END; INC(line) END; RETURN SHORT(max) END MaxColumnWidth; (* * PrintWords: prints the words in 'w' using the formatter passed in 'format' *) PROCEDURE PrintWords(w: ARRAY OF Parts; format: Formatter); VAR i,j: INTEGER; BEGIN i := 0; WHILE (i < LEN(words)) DO j := 0; WHILE (j < Max(words)) & (words[i,j] # NIL) DO Out.Object(format(words[i,j],columnWidth[j] + 1)); INC(j) END; Out.Ln; INC(i) END; Out.Ln END PrintWords;
BEGIN lines[0] := "Given$a$text$file$of$many$lines,$where$fields$within$a$line$"; lines[1] := "are$delineated$by$a$single$'dollar'$character,$write$a$program"; lines[2] := "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$"; lines[3] := "column$are$separated$by$at$least$one$space."; lines[4] := "Further,$allow$for$each$word$in$a$column$to$be$either$left$"; lines[5] := "justified,$right$justified,$or$center$justified$within$its$column.";
(* Split line in words *) lineIdx := 0; WHILE lineIdx < LEN(lines) DO
Tools.Split(lines[lineIdx],"$",words[lineIdx]); INC(lineIdx)
END;
(* Calculate width of the column *) lineIdx := 0; WHILE (lineIdx < Max(words)) DO
columnWidth[lineIdx] := MaxColumnWidth(words,lineIdx); INC(lineIdx)
END;
(* Print Results *) PrintWords(words,Tools.AdjustLeft); PrintWords(words,Tools.AdjustCenter); PrintWords(words,Tools.AdjustRight); END Columns.
</lang>
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
OCaml
<lang ocaml>#load "str.cma" open Str
let input = "\ Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column."
let () =
let lines = split (regexp_string "\n") input in let fields_l = List.map (split (regexp_string "$")) lines in let fields_l = List.map Array.of_list fields_l in let n = (* number of columns *) List.fold_left (fun n fields -> max n (Array.length fields)) 0 fields_l in let pads = Array.make n 0 in List.iter ( (* calculate the max padding for each column *) Array.iteri (fun i word -> pads.(i) <- max pads.(i) (String.length word)) ) fields_l;
let print f = List.iter (fun fields -> Array.iteri (fun i word -> f word (pads.(i) - (String.length word)) ) fields; print_newline() ) fields_l; in
(* left column-aligned output *) print (fun word pad -> let spaces = String.make pad ' ' in Printf.printf "%s%s " word spaces);
(* right column-aligned output *) print (fun word pad -> let spaces = String.make pad ' ' in Printf.printf "%s%s " spaces word);
(* center column-aligned output *) print (fun word pad -> let pad1 = pad / 2 in let pad2 = pad - pad1 in let sp1 = String.make pad1 ' ' in let sp2 = String.make pad2 ' ' in Printf.printf "%s%s%s " sp1 word sp2);
- </lang>
Oforth
<lang oforth>import: mapping import: file
- <<nbl \ stream n -- stream
#[ ' ' <<c ] times ;
String method: justify( n just -- s ) | l m |
n self size - dup ->l 2 / ->m String new just $RIGHT if=: [ l <<nbl self << return ] just $LEFT if=: [ self << l <<nbl return ] m <<nbl self << l m - <<nbl
- align( file just -- )
| lines maxsize |
#[ wordsWith( '$' ) ] file File new map ->lines 0 #[ apply( #[ size max ] ) ] lines apply ->maxsize #[ apply( #[ justify( maxsize , just) . ] ) printcr ] lines apply
- </lang>
- Output:
>"align.txt" $LEFT align Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. ok >
ooRexx
<lang ooRexx> text = .array~of("Given$a$text$file$of$many$lines,$where$fields$within$a$line$", -
"are$delineated$by$a$single$'dollar'$character,$write$a$program", - "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$", - "column$are$separated$by$at$least$one$space.", - "Further,$allow$for$each$word$in$a$column$to$be$either$left$", - "justified,$right$justified,$or$center$justified$within$its$column.")
columns = 0 parsedText = .array~new -- split each line of text into words and figure out how many columns we need loop line over text
parsedLine = line~makearray("$") parsedText~append(parsedLine) columns = max(columns, parsedLine~items)
end
-- now figure out how wide we need to make each column columnWidths = .array~new(columns) linelength = 0 loop i = 1 to columns
width = 0 loop line over parsedText word = line[i] if word \= .nil then width = max(width, word~length) end columnWidths[i] = width -- keep track of the total width, including space for a separator linelength += width + 1
end
say "align left:" say out = .mutableBuffer~new(linelength) loop line over parsedText
-- mutable buffers are more efficient than repeated string concats -- reset the working buffer to zero out~setbuffersize(0) loop col = 1 to line~items word = line[col] if word == .nil then word = out~append(word~left(columnwidths[col] + 1)) end say out~string
end say say "align right:" say
loop line over parsedText
-- mutable buffers are more efficient than repeated string concats -- reset the working buffer to zero out~setbuffersize(0) loop col = 1 to line~items word = line[col] if word == .nil then word = out~append(word~right(columnwidths[col] + 1)) end say out~string
end say say "align center:" say
loop line over parsedText
-- mutable buffers are more efficient than repeated string concats -- reset the working buffer to zero out~setbuffersize(0) loop col = 1 to line~items word = line[col] if word == .nil then word = out~append(word~center(columnwidths[col] + 1)) end say out~string
end </lang>
align left: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. align right: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. align center: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
OpenEdge/Progress
<lang progress>FUNCTION alignColumns RETURNS CHAR (
i_c AS CHAR, i_calign AS CHAR
):
DEF VAR ipass AS INT. DEF VAR iline AS INT. DEF VAR icol AS INT. DEF VAR iwidth AS INT EXTENT. DEF VAR cword AS CHAR. DEF VAR cspace AS CHAR. DEF VAR cresult AS CHAR.
EXTENT( iwidth ) = NUM-ENTRIES( ENTRY( 1, i_c, "~n" ), "$" ).
DO ipass = 0 TO 1: DO iline = 1 TO NUM-ENTRIES( i_c, "~n" ): DO icol = 1 TO NUM-ENTRIES( ENTRY( iline, i_c, "~n" ), "$" ): cword = ENTRY( icol, ENTRY( iline, i_c, "~n" ), "$" ). IF ipass = 0 THEN iwidth = MAXIMUM( LENGTH( cword ), iwidth[ icol ] ). ELSE DO: cspace = FILL( " ", iwidth[ icol ] - LENGTH( cword ) ). CASE i_calign: WHEN "left" THEN cresult = cresult + cword + cspace. WHEN "right" THEN cresult = cresult + cspace + cword. WHEN "center" THEN DO: cword = FILL( " ", INTEGER( LENGTH( cspace ) / 2 ) ) + cword. cresult = cresult + cword + FILL( " ", iwidth[icol] - LENGTH( cword ) ). END. END CASE. /* i_calign */ cresult = cresult + " ". END. END. /* DO icol = 1 TO ... */ IF ipass = 1 THEN cresult = cresult + "~n". END. /* DO iline = 1 TO ... */ END. /* DO ipass = 0 TO 1 */
RETURN cresult.
END FUNCTION.
DEF VAR cc AS CHAR.
cc = SUBSTITUTE(
"&1~n&2~n&3~n&4~n&5~n&6", "Given$a$text$file$of$many$lines,$where$fields$within$a$line$", "are$delineated$by$a$single$'dollar'$character,$write$a$program", "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$", "column$are$separated$by$at$least$one$space.", "Further,$allow$for$each$word$in$a$column$to$be$either$left$", "justified,$right$justified,$or$center$justified$within$its$column." ).
MESSAGE
alignColumns( cc, "left" ) SKIP alignColumns( cc, "right" ) SKIP alignColumns( cc, "center" )
VIEW-AS ALERT-BOX.</lang>
- Output:
--------------------------- Message --------------------------- Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. --------------------------- OK ---------------------------
OxygenBasic
'================ Class AlignedText '================ indexbase 1 string buf, bufo, cr, tab, jus sys Cols, Rows, ColWidth[200], TotWidth, ColPad method SetText(string s) cr=chr(13)+chr(10) tab=chr(9) jus=string 200,"L" buf=s measure end method method measure() sys a, b, wa, wb, cm, c, cw a=1 : b=1 Cols=0 : Rows=0 : ColPad=3 do wb=b a=instr b,buf,cr if a=0 then exit do cm=0 c++ do wa=instr wb,buf,"$" if wa=0 or wa>a then exit do cm++ if cm>cols then cols=cm cw=wa-wb if cw > ColWidth[cm] then ColWidth[cm]=cw wb=wa+1 end do b=a+len cr end do rows=c ' c=0 for i=1 to cols ColWidth[ i ]+=ColPad c+=ColWidth[ i ] next TotWidth=c+len cr 'print ShowMetrics end method method ShowMetrics() as string pr="METRICS:" cr cr pr+=rows tab cols tab totwidth cr cr pr+="column" tab "spacing" cr for i=1 to cols pr+=i tab ColWidth[ i ] cr next return pr end method method justify(string j) mid jus,1,j end method method layout() as string sys a, b, wa, wb, wl, cm, lpos, cpos bufo=space Rows*TotWidth a=1 : b=1 do wb=b a=instr(b,buf,cr) if a=0 then exit do cm=0 cpos=1 do wa=instr(wb,buf,"$") if wa=0 or wa>a then exit do ' cm++ ' 'JUSTIFICATION ' wl=wa-wb p=lpos+cpos 'default "L" LEFT ALIGN ' select case asc(jus,cm) case "R" : p=lpos+cpos+ColWidth[cm]-wl-Colpad case "C" : p=lpos+cpos+( ColWidth[cm]-wl-Colpad )*.5 end select ' mid bufo,p, mid buf,wb,wl cpos+=colwidth[cm] wb=wa+1 end do b=a+len cr lpos+=TotWidth if lpos<len(bufo) then mid bufo,lpos-1,cr end do return bufo end method end class '#recordof AlignedText '==== 'TEST '==== AlignedText tt tt.SetText quote """ Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. """ 'print tt.ShowMetrics tt.justify "LLLLCCCRRRRR" putfile "t.txt", tt.layout
Oz
<lang oz>declare
%% Lines: list of strings %% Alignment: function like fun {Left Txt ExtraSpace} ... end %% Returns: list of aligned (virtual) strings fun {Align Lines Alignment} ParsedLines = {Map Lines ParseLine} NumColumns = {Maximum {Map ParsedLines Record.width}} %% maps column index to column width: WidthOfColumn = {Record.map {TupleRange NumColumns} fun {$ ColumnIndex} fun {LengthOfThisColumn ParsedLine} {Length {CondSelect ParsedLine ColumnIndex nil}} end in {Maximum {Map ParsedLines LengthOfThisColumn}} end} in {Map ParsedLines fun {$ Columns} {Record.mapInd Columns fun {$ ColumnIndex ColumnText} Extra = WidthOfColumn.ColumnIndex - {Length ColumnText} in {Alignment ColumnText Extra}#" " end} end} end
%% A parsed line is a tuple of columns. %% "a$b$c" -> '#'(1:"a" 2:"b" 3:"c") fun {ParseLine Line} {List.toTuple '#' {String.tokens Line &$}} end
%% possible alignments: fun {Left Txt Extra} Txt#{Spaces Extra} end
fun {Right Txt Extra} {Spaces Extra}#Txt end
fun {Center Txt Extra} Half = Extra div 2 in {Spaces Half}#Txt#{Spaces Half + Extra mod 2} end
%% helpers: %% 3 -> unit(1 2 3) fun {TupleRange Max} {List.toTuple unit {List.number 1 Max 1}} end
fun {Maximum X|Xr} {FoldL Xr Value.max X} end
fun {Spaces N} case N of 0 then nil else & |{Spaces N-1} end end
Lines = ["Given$a$text$file$of$many$lines,$where$fields$within$a$line$" "are$delineated$by$a$single$'dollar'$character,$write$a$program" "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" "column$are$separated$by$at$least$one$space." "Further,$allow$for$each$word$in$a$column$to$be$either$left$" "justified,$right$justified,$or$center$justified$within$its$column."]
in
{ForAll {Align Lines Left} System.showInfo}</lang>
Pascal
See Delphi
modified to
<lang pascal>program Project1;
{$H+}//Use ansistrings uses
Classes, SysUtils, StrUtils;
procedure AlignByColumn(Align: TAlignment); const TextToAlign = 'Given$a$text$file$of$many$lines,$where$fields$within$a$line$'#$D#$A + 'are$delineated$by$a$single$dollar$character,$write$a$program'#$D#$A + 'that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$'#$D#$A + 'column$are$separated$by$at$least$one$space.'#$D#$A + 'Further,$allow$for$each$word$in$a$column$to$be$either$left$'#$D#$A + 'justified,$right$justified,$or$center$justified$within$its$column.'; var TextLine: TStringList; TextLines: array of TStringList; OutPutString, EmptyString, Item: string; MaxLength, i, j: Int32; begin try MaxLength := 0; TextLine := TStringList.Create; TextLine.Text := TextToAlign; setlength(Textlines, TextLine.Count); for i := 0 to TextLine.Count - 1 do begin Textlines[i] := TStringList.Create; Textlines[i].Text := AnsiReplaceStr(TextLine[i], '$', #$D#$A); end;
for i := 0 to High(TextLines) do for j := 0 to Textlines[i].Count - 1 do if MaxLength < Length(TextLines[i][j]) then MaxLength := Length(TextLines[i][j]); if MaxLength > 0 then MaxLength := MaxLength + 2; // Add two empty spaces to it
for i := 0 to High(TextLines) do begin OutPutString := ; for j := 0 to Textlines[i].Count - 1 do begin EmptyString := StringOfChar(' ', MaxLength); if j <> 0 then EmptyString[1] := '|'; Item := TextLines[i][j]; case Align of taLeftJustify: Move(Item[1], EmptyString[2], Length(Item)); taRightJustify: Move(Item[1], EmptyString[MaxLength - Length(Item) + 1], Length(Item)); taCenter: Move(Item[1], EmptyString[(MaxLength - Length(Item) + 1) div 2 + 1], Length(Item)); end; OutPutString := OutPutString + EmptyString; end; writeln(OutPutString); end; finally writeln; FreeAndNil(TextLine); for i := High(TextLines) downto 0 do FreeAndNil(TextLines[i]); end; end;
begin
AlignByColumn(taLeftJustify); AlignByColumn(taCenter); AlignByColumn(taRightJustify);
end.</lang>
- Output:
Given |a |text |file |of |many |lines, |where |fields |within |a |line are |delineated |by |a |single |'dollar' |character, |write |a |program that |aligns |each |column |of |fields |by |ensuring |that |words |in |each column |are |separated |by |at |least |one |space. Further, |allow |for |each |word |in |a |column |to |be |either |left justified, |right |justified, |or |center |justified |within |its |column. Given | a | text | file | of | many | lines, | where | fields | within | a | line are |delineated | by | a | single | 'dollar' |character, | write | a | program that | aligns | each | column | of | fields | by | ensuring | that | words | in | each column | are | separated | by | at | least | one | space. Further, | allow | for | each | word | in | a | column | to | be | either | left justified, | right |justified, | or | center | justified | within | its | column. Given| a| text| file| of| many| lines,| where| fields| within| a| line are| delineated| by| a| single| 'dollar'| character,| write| a| program that| aligns| each| column| of| fields| by| ensuring| that| words| in| each column| are| separated| by| at| least| one| space. Further,| allow| for| each| word| in| a| column| to| be| either| left justified,| right| justified,| or| center| justified| within| its| column.
Perl
<lang Perl>#/usr/bin/perl -w use strict ;
die "Call : perl columnaligner.pl <inputfile> <printorientation>!\n" unless
@ARGV == 2 ; #$ARGV[ 0 ] contains example file , $ARGV[1] any of 'left' , 'right' or 'center'
die "last argument must be one of center, left or right!\n" unless
$ARGV[ 1 ] =~ /center|left|right/ ;
sub printLines( $$$ ) ; open INFILE , "<" , "$ARGV[ 0 ]" or die "Can't open $ARGV[ 0 ]!\n" ; my @lines = <INFILE> ; close INFILE ; chomp @lines ; my @fieldwidths = map length, split /\$/ , $lines[ 0 ] ; foreach my $i ( 1..$#lines ) {
my @words = split /\$/ , $lines[ $i ] ; foreach my $j ( 0..$#words ) { if ( $j <= $#fieldwidths ) { if ( length $words[ $j ] > $fieldwidths[ $j ] ) { $fieldwidths[ $j ] = length $words[ $j ] ; } } else { push @fieldwidths, length $words[ $j ] ; } }
} printLine( $_ , $ARGV[ 1 ] , \@fieldwidths ) foreach @lines ;
- ####
sub printLine {
my $line = shift ; my $orientation = shift ; my $widthref = shift ; my @words = split /\$/, $line ; foreach my $k ( 0..$#words ) { my $printwidth = $widthref->[ $k ] + 1 ; if ( $orientation eq 'center' ) { $printwidth++ ; } if ( $orientation eq 'left' ) { print $words[ $k ] ; print " " x ( $printwidth - length $words[ $k ] ) ; } elsif ( $orientation eq 'right' ) { print " " x ( $printwidth - length $words[ $k ] ) ; print $words[ $k ] ; } elsif ( $orientation eq 'center' ) { my $left = int( ( $printwidth - length $words[ $k ] ) / 2 ) ; my $right = $printwidth - length( $words[ $k ] ) - $left ; print " " x $left ; print $words[ $k ] ; print " " x $right ; } } print "\n" ;
}</lang> a shorter solution <lang perl>use List::Util qw(max);
sub columns {
my @lines = map [split /\$/] => split /\n/ => shift; my $pos = {qw/left 0 center 1 right 2/}->{+shift}; for my $col (0 .. max map {$#$_} @lines) { my $max = max my @widths = map {length $_->[$col]} @lines; for my $row (0 .. $#lines) { my @pad = map {' ' x $_, ' ' x ($_ + 0.5)} ($max - $widths[$row]) / 2; for ($lines[$row][$col]) {$_ = join => @pad[0 .. $pos-1], $_, @pad[$pos .. $#pad]} } } join => map {"@$_\n"} @lines
}
print columns <<'END', $_ for qw(left right center); Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. END</lang>
Phix
constant data = { "Given$a$text$file$of$many$lines,$where$fields$within$a$line$", "are$delineated$by$a$single$'dollar'$character,$write$a$program", "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$", "column$are$separated$by$at$least$one$space.", "Further,$allow$for$each$word$in$a$column$to$be$either$left$", "justified,$right$justified,$or$center$justified$within$its$column." } function split(sequence s, integer c) sequence out = {} integer first = 1, delim while first<=length(s) do delim = find_from(c,s,first) if delim = 0 then delim = length(s)+1 end if out = append(out,s[first..delim-1]) first = delim + 1 end while return out end function function align(sequence s, integer width, integer alignment) integer n = width-length(s) if n<=0 then return s elsif alignment<0 then return s & repeat(' ', n) elsif alignment>0 then return repeat(' ', n) & s else -- (PL if I'd written this, I'd have n-floor(n/2) on the rhs) return repeat(' ', floor(n/2)) & s & repeat(' ', floor(n/2+0.5)) end if end function procedure AlignColumns() integer llij sequence lines, li sequence maxlens = {} lines = repeat(0,length(data)) for i=1 to length(data) do li = split(data[i],'$') lines[i] = li if length(li)>length(maxlens) then maxlens &= repeat(0,length(li)-length(maxlens)) end if for j=1 to length(li) do llij = length(li[j]) if llij>maxlens[j] then maxlens[j] = llij end if end for end for for a=-1 to 1 do -- (alignment = left/centre/right) for i=1 to length(lines) do for j=1 to length(lines[i]) do puts(1, align(lines[i][j],maxlens[j],a) & ' ') end for puts(1,'\n') end for puts(1,'\n') end for if getc(0) then end if end procedure AlignColumns()
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Phixmonti
<lang Phixmonti>include ..\Utilitys.pmt
0 40 repeat var gap
( "Given$a$text$file$of$many$lines,$where$fields$within$a$line$"
"are$delineated$by$a$single$'dollar'$character,$write$a$program" "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" "column$are$separated$by$at$least$one$space." "Further,$allow$for$each$word$in$a$column$to$be$either$left$" "justified,$right$justified,$or$center$justified$within$its$column." )
len var lines
def alignWords /# -1/0/1 for left/center/right #/
>ps lines for get len for >ps tps get gap ps> get nip 1 + tps -1 == if -1 * align else tps 0 == if tostr align else tps 1 == if align else drop drop "Wrong!" exitfor endif endif endif print endfor drop nl endfor ps> drop
enddef
lines for var i
i get "$" " " subst split len for var j j get len dup gap j get rot < if swap j set else swap drop endif var gap drop endfor i set
endfor
-1 alignWords nl 0 alignWords nl 1 alignWords nl drop</lang>
PHP
<lang php><?php $j2justtype = array('L' => STR_PAD_RIGHT,
'R' => STR_PAD_LEFT, 'C' => STR_PAD_BOTH);
/**
Justify columns of textual tabular input where the record separator is the newline and the field separator is a 'dollar' character. justification can be L, R, or C; (Left, Right, or Centered). Return the justified output as a string
- /
function aligner($str, $justification = 'L') {
global $j2justtype; assert(array_key_exists($justification, $j2justtype)); $justtype = $j2justtype[$justification];
$fieldsbyrow = array(); foreach (explode("\n", $str) as $line) $fieldsbyrow[] = explode('$', $line); $maxfields = max(array_map('count', $fieldsbyrow));
foreach (range(0, $maxfields - 1) as $col) { $maxwidth = 0; foreach ($fieldsbyrow as $fields) $maxwidth = max($maxwidth, strlen(array_key_exists($col, $fields) ? $fields[$col] : 0)); foreach ($fieldsbyrow as &$fields) $fields[$col] = str_pad(array_key_exists($col, $fields) ? $fields[$col] : "", $maxwidth, ' ', $justtype); unset($fields); // see http://bugs.php.net/29992 } $result = ; foreach ($fieldsbyrow as $fields) $result .= implode(' ', $fields) . "\n"; return $result;
}
$textinfile = 'Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$\'dollar\'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.';
foreach (array('L', 'R', 'C') as $j)
echo aligner($textinfile, $j);
?></lang>
Picat
<lang Picat>import util.
main =>
Text =
"Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.",
Lines = split(Text,"\n"), Lines = [Line1|_], N = len(split(strip(Line1,"$ "), "$")), % number of columns WidthArr = {0 : _ in 1..N}, foreach (Line in Lines) Words = split(strip(Line,"$ "), "$"), foreach ({I,Word} in zip(1..N, Words)) WidthArr[I] := max(WidthArr[I], len(Word)) end end, foreach (I in 1..N) WidthArr[I] := WidthArr[I]+1 % separate cols by at least one space end, foreach (Align in [left, right, center]) output_lines(Lines,N,WidthArr,Align), nl,nl end.
output_lines(Lines,N,WidthArr,Align) =>
foreach (Line in Lines) Words = split(strip(Line,"$ "), "$"), foreach ({I,Word} in zip(1..N, Words)) output_word(Word,WidthArr[I],Align) end, nl end.
output_word(Word,Width,left) =>
printf("%-*s",Width,Word).
output_word(Word,Width,right) =>
printf("%*s",Width,Word).
output_word(Word,Width,_) =>
Pad = len(Word)-Width, Pad1 is Pad div 2, Pad2 is Pad-Pad1, printf("%*s%s%*s",Pad1,"",Word,Pad2,"").
</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
PicoLisp
<lang PicoLisp>(let Sizes NIL # Build a list of sizes
(let Lines # and of lines (make (in "input.txt" # Reading input file (while (split (line) "$") # delimited by '$' (let (L (link (mapcar pack @)) S Sizes) (setq Sizes # Maintain sizes (make (while (or L S) (link (max (inc (length (pop 'L))) (pop 'S) ) ) ) ) ) ) ) ) ) (for L Lines # Print lines (prinl (apply align L (mapcar - Sizes))) ) # left aligned (prinl) (for L Lines (prinl (apply align L Sizes)) ) # right aligned (prinl) (for L Lines (prinl (apply center L Sizes)) ) ) ) # and centered</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
PL/I
<lang PL/I> declare text character (300) varying; declare word character (20) varying; declare justification character (1); declare k fixed binary; declare input file, output file output;
open file (input) title ( '/CENTER.DAT,type(text),recsize(1000)' ); open file (output) title ( '/OUT.TXT,type(text),recsize(1000)' ); on endfile (input) stop;
display ('Specify whether justification is left, centered, or right'); display ('Reply with a single letter: L, C, or R'); get edit (justification) (A(1));
do forever;
get file (input) edit (text) (L); put skip list (text); text = trim(text, '$', '$'); do until (k = 0); k = index(text, '$'); if k = 0 then /* last word in line */ word = text; else do; word = substr(text, 1, k-1); text = substr(text, k); text = trim(text, '$'); end; select (justification); when ('C', 'c') word = center(word, maxlength(word)); when ('R', 'r') word = right (word, maxlength(word)); otherwise ; /* The default is left adjusted. */ end; put file (output) edit (word) (a(maxlength(word))); end; put file (output) skip;
end; </lang>
PowerShell
<lang PowerShell> $file = @' Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. '@.Split("`n")
$arr = @() $file | foreach {
$line = $_ $i = 0 $hash = [ordered]@{} $line.split('$') | foreach{ $hash["$i"] = "$_" $i++ } $arr += @([pscustomobject]$hash)
} $arr | Format-Table -HideTableHeaders -Wrap * </lang> Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Prolog
Works with SWI-Prolog. <lang Prolog>aligner :- L ="Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.",
% read the lines and the words % compute the length of the longuest word. % LP is the list of lines, % each line is a list of words parse(L, 0, N, LP, []),
% we need to add 1 to aligned N1 is N+1, % words will be left aligned sformat(AL, '~~w~~t~~~w|', [N1]), % words will be centered sformat(AC, '~~t~~w~~t~~~w|', [N1]), % words will be right aligned sformat(AR, '~~t~~w~~~w|', [N1]),
write('Left justified :'), nl, maplist(affiche(AL), LP), nl, write('Centered justified :'), nl, maplist(affiche(AC), LP), nl, write('Right justified :'), nl, maplist(affiche(AR), LP), nl.
affiche(F, L) :- maplist(my_format(F), L), nl.
my_format(_F, [13]) :- nl.
my_format(F, W) :- string_to_atom(W,AW), sformat(AF, F, [AW]), write(AF).
parse([], Max, Max) --> [].
parse(T, N, Max) --> { parse_line(T, 0, N1, T1, L, []), ( N1 > N -> N2 = N1; N2 = N)}, [L], parse(T1, N2, Max).
parse_line([], NF, NF, []) --> [].
parse_line([H|TF], NF, NF, TF) --> {code_type(H, end_of_line), !}, [].
parse_line(T, N, NF, TF) -->
{ parse_word(T, 0, N1, T1, W, []),
( N1 > N -> N2 = N1; N2 = N)},
[W],
parse_line(T1, N2, NF, TF).
% 36 is the code of '$' parse_word([36|T], N, N, T) --> {!}, [].
parse_word([H|T], N, N, [H|T]) --> {code_type(H, end_of_line), !}, [].
parse_word([], N, N, []) --> [].
parse_word([H|T], N1, NF, TF) --> [H], {N2 is N1 + 1}, parse_word(T, N2, NF, TF). </lang>
- Output:
?- aligner. Left justified : Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Centered justified : Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Right justified : Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. true .
PureBasic
<lang PureBasic>Declare max(a,b)
If OpenConsole()
Define a, i, x, y, maxlen Dim txt.s(0) Restore lines ; Get address of the first data block Read.i a ReDim txt(a) For i=0 To a ; Read the raw data lines Read.s txt(i) txt(i)=Trim(txt(i),"$") ; Remove any bad '$' that may be useless in the end... x=max(CountString(txt(i),"$"),x) Next y=a Dim matrix.s(x,y) ; Set up a nice matrix to work with, each word cleanly separated For x=0 To ArraySize(matrix(),1) For y=0 To ArraySize(matrix(),2) matrix(x,y)=StringField(txt(y),x+1,"$") maxlen=max(maxlen,Len(matrix(x,y))) Next Next If maxlen%2 maxlen+1 ; Just to make sure that 'centered' output looks nice.... EndIf PrintN(#CRLF$+"---- Right ----") For y=0 To ArraySize(matrix(),2) For x=0 To ArraySize(matrix(),1) Print(RSet(matrix(x,y),maxlen+1)) Next PrintN("") Next PrintN(#CRLF$+"---- Left ----") For y=0 To ArraySize(matrix(),2) For x=0 To ArraySize(matrix(),1) Print(LSet(matrix(x,y),maxlen+1)) Next PrintN("") Next PrintN(#CRLF$+"---- Center ----") For y=0 To ArraySize(matrix(),2) For x=0 To ArraySize(matrix(),1) a=maxlen-Len(matrix(x,y)) Print(LSet(RSet(matrix(x,y),maxlen-a/2),maxlen)) Next PrintN("") Next PrintN(#CRLF$+#CRLF$+"Press ENTER to quit."): Input() CloseConsole()
EndIf
Procedure max(x,y)
If x>=y ProcedureReturn x Else ProcedureReturn y EndIf
EndProcedure
DataSection
lines:
Data.i 5 ; e.g. 6-1 since first line is equal to 'zero'.
text:
Data.s "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" Data.s "are$delineated$by$a$single$'dollar'$character,$write$a$program" Data.s "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" Data.s "column$are$separated$by$at$least$one$space." Data.s "Further,$allow$for$each$word$in$a$column$oo$be$either$left$" Data.s "justified,$right$justified,$or$center$justified$within$its$column."
EndDataSection</lang>
Python
Procedural
Using f-strings
<lang python>from itertools import zip_longest
txt = """Given$a$txt$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column."""
parts = [line.rstrip("$").split("$") for line in txt.splitlines()] widths = [max(len(word) for word in col)
for col in zip_longest(*parts, fillvalue=)]
for justify in "<_Left ^_Center >_Right".split():
j, jtext = justify.split('_') print(f"{jtext} column-aligned output:\n") for line in parts: print(' '.join(f"{wrd:{j}{wdth}}" for wdth, wrd in zip(widths, line))) print("- " * 52)
</lang>
- Output:
Left column-aligned output: Given a txt file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Center column-aligned output: Given a txt file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Right column-aligned output: Given a txt file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Using StringIO
<lang python>from StringIO import StringIO
textinfile = Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.
j2justifier = dict(L=str.ljust, R=str.rjust, C=str.center)
def aligner(infile, justification = 'L'):
\ Justify columns of textual tabular input where the row separator is the newline and the field separator is a 'dollar' character. justification can be L, R, or C; (Left, Right, or Centered). Return the justified output as a string assert justification in j2justifier, "justification can be L, R, or C; (Left, Right, or Centered)." justifier = j2justifier[justification] fieldsbyrow= [line.strip().split('$') for line in infile] # pad to same number of fields per row maxfields = max(len(row) for row in fieldsbyrow) fieldsbyrow = [fields + []*(maxfields - len(fields)) for fields in fieldsbyrow] # rotate fieldsbycolumn = zip(*fieldsbyrow) # calculate max fieldwidth per column colwidths = [max(len(field) for field in column) for column in fieldsbycolumn] # pad fields in columns to colwidth with spaces fieldsbycolumn = [ [justifier(field, width) for field in column] for width, column in zip(colwidths, fieldsbycolumn) ] # rotate again fieldsbyrow = zip(*fieldsbycolumn) return "\n".join( " ".join(row) for row in fieldsbyrow)
for align in 'Left Right Center'.split():
infile = StringIO(textinfile) print "\n# %s Column-aligned output:" % align print aligner(infile, align[0])</lang>
- Output:
# Left Column-aligned output: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. # Right Column-aligned output: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. # Center Column-aligned output: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Brief native version
Works with Python 2 and 3.
<lang python> cat <<'EOF' > align_columns.dat Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. EOF
for align in '<^>':
rows = [ line.strip().split('$') for line in open('align_columns.dat') ] fmts = [ '{:%s%d}' % (align, max( len(row[i]) if i < len(row) else 0 for row in rows )) for i in range(max(map(len, rows))) ] for row in rows: print(' '.join(fmts).format(*(row + [] * len(fmts)))) print()</lang>
Alternative
<lang python>txt = """Given$a$txt$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column."""
parts = [line.rstrip("$").split("$") for line in txt.splitlines()]
max_widths = {} for line in parts:
for i, word in enumerate(line): max_widths[i] = max(max_widths.get(i, 0), len(word))
for i, justify in enumerate([str.ljust, str.center, str.rjust]):
print(["Left", "Center", "Right"][i], " column-aligned output:\n") for line in parts: for j, word in enumerate(line): print(justify(word, max_widths[j]), end=' ') print() print("- " * 52)</lang>
Functional
As a fold
A fold/reduce between two transpositions.
(Selection of string justification methods via getattr):
<lang python>Variously aligned columns
from delimited text.
from functools import reduce from itertools import repeat
- TEST ----------------------------------------------------
- main :: IO ()
def main():
Test of three alignments.
txt = Given$a$text$file$of$many$lines,$where$fields$within$a$line$
are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.
rows = [x.split('$') for x in txt.splitlines()] table = paddedRows(max(map(len, rows)))()(rows)
print('\n\n'.join(map( alignedTable(table)(' '), [-1, 0, 1] # Left, Center, Right )))
- alignedTable :: String -> Alignment -> String -> String
def alignedTable(rows):
Tabulation of rows of cells, with cell alignment specified by: eAlign -1 = left eAlign 0 = center eAlign 1 = right and separator between columns supplied by the `sep` argument. def go(sep, eAlign): lcr = ['ljust', 'center', 'rjust'][1 + eAlign]
# nextAlignedCol :: String -> [String] -> String def nextAlignedCol(cols, col): w = max(len(cell) for cell in col) return cols + [ [getattr(s, lcr)(w, ' ') for s in col] ]
return '\n'.join([ sep.join(cells) for cells in zip(*reduce(nextAlignedCol, zip(*rows), [])) ]) return lambda sep: lambda eAlign: go(sep, eAlign)
- GENERIC -------------------------------------------------
def paddedRows(n):
A list of rows of even length, in which each may be padded (but not truncated) to length n with appended copies of value v. def go(v, xs): def pad(x): d = n - len(x) return (x + list(repeat(v, d))) if 0 < d else x return [pad(row) for row in xs] return lambda v: lambda xs: go(v, xs) if xs else []
- MAIN ---
if __name__ == '__main__':
main()</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
q
<lang q>text:(
"Given$a$text$file$of$many$lines,$where$fields$within$a$line$"; "are$delineated$by$a$single$'dollar'$character,$write$a$program"; "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$"; "column$are$separated$by$at$least$one$space."; "Further,$allow$for$each$word$in$a$column$to$be$either$left$"; "justified,$right$justified,$or$center$justified$within$its$column." )
ta:{[aln;txt] / tabulate aligned
sl:(count)s:"$"vs/:txt; / strings and their lengths cw:{rl#\:max x@/:\:til max rl:count each x}sl; / cell widths ps:$[aln=`R;-1-cw;1+cw]$s; / padded strings ps:$[aln=`C;(neg(cw-sl)div 2)rotateps;ps]; / center 1,[;"\n\n"]"\n"sv raze each ps; } / print</lang>
- Output:
q)ta[`L]text Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. q)ta[`R]text Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. q)ta[`C]text Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
R
<lang R># Read in text lines <- readLines(tc <- textConnection("Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.")); close(tc)
- Split words by the dollar
words <- strsplit(lines, "\\$")
- Reformat
maxlen <- max(sapply(words, length)) words <- lapply(words, function(x) {length(x) <- maxlen; x}) block <- matrix(unlist(words), byrow=TRUE, ncol=maxlen) block[is.na(block)] <- "" leftjust <- format(block) rightjust <- format(block, justify="right") centrejust <- format(block, justify="centre")
print0 <- function(x) invisible(apply(x, 1, function(x) cat(x, "\n"))) print0(leftjust) print0(rightjust) print0(centrejust)</lang> Right justified output shown.
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Racket
<lang Racket>
- lang racket
(define (display-aligned text #:justify [justify 'left])
(define lines (for/list ([line (regexp-split #rx"\n" text)]) (regexp-split #rx"\\$" line))) (define width (add1 (for*/fold ([m 0]) ([line lines] [word line]) (max m (string-length word))))) (define spaces (make-string width #\space)) (for ([line lines]) (for* ([word line] [strs (let ([spc (substring spaces (string-length word))]) (case justify [(left) (list word spc)] [(right) (list spc word)] [(center) (let ([i (quotient (string-length spc) 2)]) (list (substring spc i) word (substring spc 0 i)))]))]) (display strs)) (newline)))
(define text
"Given$a$text$file$of$many$lines,$where$fields$within$a$line$
are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.")
(display-aligned text) (display-aligned #:justify 'right text) (display-aligned #:justify 'center text) </lang>
Raku
(formerly Perl 6)
Call with parameter left (default), center or right.
<lang perl6>my @lines = q|Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. |.lines;
my @widths;
for @lines { for .split('$').kv { @widths[$^key] max= $^word.chars; } } for @lines { say |.split('$').kv.map: { (align @widths[$^key], $^word) ~ " "; } }
sub align($column_width, $word, $aligment = @*ARGS[0]) {
my $lr = $column_width - $word.chars; my $c = $lr / 2; given ($aligment) { when "center" { " " x $c.ceiling ~ $word ~ " " x $c.floor } when "right" { " " x $lr ~ $word } default { $word ~ " " x $lr } }
}</lang>
Or a more functional version, called like ./align.p6 left input.txt
, which however only supports left and right alignment (not center):
<lang perl6>sub MAIN ($alignment where 'left'|'right', $file) {
my @lines := $file.IO.lines.map(*.split('$').cache).cache; my @widths = roundrobin(|@lines).map(*».chars.max); my $align = {left=>'-', right=>}{$alignment}; my $format = @widths.map( '%' ~ ++$ ~ '$' ~ $align ~ * ~ 's' ).join(' ') ~ "\n"; printf $format, |$_ for @lines;
}</lang>
RapidQ
<lang vb> Dim MText as QMemorystream
MText.WriteLine "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" MText.WriteLine "are$delineated$by$a$single$'dollar'$character,$write$a$program" MText.WriteLine "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" MText.WriteLine "column$are$separated$by$at$least$one$space." MText.WriteLine "Further,$allow$for$each$word$in$a$column$to$be$either$left$" MText.WriteLine "justified,$right$justified,$or$center$justified$within$its$column."
DefStr TextLeft, TextRight, TextCenter DefStr MLine, LWord, Newline = chr$(13)+chr$(10) DefInt ColWidth(100), ColCount DefSng NrSpaces
'Find column widths MText.position = 0 for x = 0 to MText.linecount -1
MLine = MText.ReadLine for y = 0 to Tally(MLine, "$") LWord = Field$(MLine, "$", y+1) ColWidth(y) = iif (ColWidth(y) < len(LWord), len(LWord), ColWidth(y)) next
next
'Create aligned wordlists MText.position = 0 for x = 0 to MText.linecount -1
MLine = MText.ReadLine for y = 0 to Tally(MLine, "$") LWord = Field$(MLine, "$", y+1) NrSpaces = ColWidth(y) - len(LWord) 'left align TextLeft = TextLeft + LWord + Space$(NrSpaces+1) 'Right align TextRight = TextRight + Space$(NrSpaces+1) + LWord 'Center TextCenter = TextCenter + Space$(floor((NrSpaces)/2)+1) + LWord + Space$(Ceil((NrSpaces)/2)) next TextLeft = TextLeft + Newline TextRight = TextRight + Newline TextCenter = TextCenter + Newline
next </lang>
- Output:
TextLeft contains: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. TextRight contains: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. TextCenter contains: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
REBOL
<lang rebol>REBOL [ Title: "Align Columns" URL: http://rosettacode.org/wiki/Align_columns ]
specimen: {Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.}
- Parse specimen into data grid.
data: copy [] foreach line parse specimen to-string lf [ ; Break into lines. append/only data parse line "$" ; Break into columns. ]
- Compute independent widths for each column.
widths: copy [] insert/dup widths 0 length? data/1 foreach line data [ forall line [ i: index? line widths/:i: max widths/:i length? line/1 ] ]
pad: func [n /local x][x: copy "" insert/dup x " " n x]
- These formatting functions are passed as arguments to entable.
right: func [n s][rejoin [pad n - length? s s]]
left: func [n s][rejoin [s pad n - length? s]]
centre: func [n s /local h][ h: round/down (n - length? s) / 2 rejoin [pad h s pad n - h - length? s] ]
- Display data as table.
entable: func [data format] [ foreach line data [ forall line [ prin rejoin [format pick widths index? line line/1 " "] ] print "" ] ]
- Format data table.
foreach i [left centre right] [ print ["^/Align" i "...^/"] entable data get i] </lang>
- Output:
Align left ... Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Align centre ... Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Align right ... Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Red
<lang Red>Red [
Title: "Align Columns" Original-Author: oofoe
]
text: {Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.}
- Parse specimen into data grid.
data: copy [] foreach line split text lf [
append/only data split line "$"
]
- Compute independent widths for each column.
widths: copy [] foreach line data [
forall line [ i: index? line if i > length? widths [append widths 0] widths/:i: max widths/:i length? line/1 ]
]
pad: function [n] [x: copy "" insert/dup x " " n x]
- These formatting functions are passed as arguments to entable.
right: func [n s][rejoin [pad n - length? s s]]
left: func [n s][rejoin [s pad n - length? s]]
centre: function [n s] [
d: n - length? s h: round/down d / 2 rejoin [pad h s pad d - h]
]
- Display data as table.
entable: func [data format] [
foreach line data [ forall line [ prin rejoin [format pick widths index? line line/1 " "] ] print "" ]
]
- Format data table.
foreach i [left centre right] [
print [newline "Align" i "..." newline] entable data get i]</lang>
REXX
(no output)
<lang rexx>/*REXX*/ z.1 = "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" z.2 = "are$delineated$by$a$single$'dollar'$character,$write$a$program" z.3 = "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" z.4 = "column$are$separated$by$at$least$one$space." z.5 = "Further,$allow$for$each$word$in$a$column$to$be$either$left$" z.6 = "justified,$right$justified,$or$center$justified$within$its$column."
word. = "" width. = 0 maxcol = 0 do row = 1 to 6
line = z.row do col = 1 by 1 until length(line) = 0 parse var line word.row.col "$" line if length(word.row.col) > width.col then width.col = length(word.row.col) end if col > maxcol then maxcol = col
end
say "align left:" say do row = 1 to 6
out = "" do col = 1 to maxcol out = out || left(word.row.col,width.col+1) end say out
end say say "align right:" say do row = 1 to 6
out = "" do col = 1 to maxcol out = out || right(word.row.col,width.col+1) end say out
end say say "align center:" say do row = 1 to 6
out = "" do col = 1 to maxcol out = out || center(word.row.col,width.col+1) end say out
end</lang>
(with output)
<lang rexx>/*REXX program displays various alignments for words in an array of text strings. */ size= 0; t.=; cols= 0; wid.= 0; @.= /*zero or nullify some variables. */
t.1 = "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" t.2 = "are$delineated$by$a$single$'dollar'$character,$write$a$program" t.3 = "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" t.4 = "column$are$separated$by$at$least$one$space." t.5 = "Further,$allow$for$each$word$in$a$column$to$be$either$left$" t.6 = "justified,$right$justified,$or$center$justified$within$its$column." do r=1 while t.r\== /* [↓] process all the text lines. */ _= strip(t.r,,'$') /*strip leading & trailing dollar signs*/ do c=1 until _== /* [↓] process each of the words. */ parse var _ @.r.c '$' _ /*extract the words from a line of text*/ wid.c= max(wid.c, length(@.r.c) ) /*find the maximum word width.*/ end /*c*/ cols= max(cols, c) /*use the maximum COLS found. */ end /*r*/
do k=1 for cols; size= size + wid.k; end /*find the width of the biggest line. */
rows= r - 1 /*adjust ROWS because of the DO loop.*/
do j=1 for 3; say; say /*show two blank lines for a separator.*/ say center(word('left right center', j) "aligned", size+cols-1, "═") /*show title*/ do r=1 for rows; _= /*construct row by row. */ do c=1 for cols; x= @.r.c /* " col " col. */ if j==1 then _= _ left(x, wid.c) /*justified left. */ if j==2 then _= _ right(x, wid.c) /* " right. */ if j==3 then _= _ center(x, wid.c) /* " center. */ end /*c*/ say substr(_, 2) /*ignore the leading extra blank. */ end /*r*/ end /*j*/ /*stick a fork in it, we're all done. */</lang>
- output when using the default input:
══════════════════════════════════════════════left aligned══════════════════════════════════════════════ Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. ═════════════════════════════════════════════right aligned══════════════════════════════════════════════ Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. ═════════════════════════════════════════════center aligned═════════════════════════════════════════════ Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
(boxed output)
Note: this version boxes each column of output to better show the columns. <lang rexx>/*REXX program displays various alignments for words in an array of text strings. */ size= 0; t.=; cols= 0; wid.= 0; @.= /*zero or nullify some variables. */
t.1 = "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" t.2 = "are$delineated$by$a$single$'dollar'$character,$write$a$program" t.3 = "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" t.4 = "column$are$separated$by$at$least$one$space." t.5 = "Further,$allow$for$each$word$in$a$column$to$be$either$left$" t.6 = "justified,$right$justified,$or$center$justified$within$its$column." do r=1 while t.r\== /* [↓] process all the text lines. */ _= strip(t.r,,'$') /*strip leading & trailing dollar signs*/ do c=1 until _== /* [↓] process each of the words. */ parse var _ @.r.c '$' _ /*extract the words from a line of text*/ wid.c= max(wid.c, length(@.r.c) ) /*find the maximum word width.*/ end /*c*/ cols= max(cols, c) /*use the maximum COLS found. */ end /*r*/
do k=1 for cols; size= size + wid.k; end /*find the width of the biggest line. */
rows= r - 1 /*adjust ROWS because of the DO loop.*/
do j=1 for 3; say; say /*show two blank lines for a separator.*/ say center(word('left right center', j) "aligned", size+cols+1, "═") /*show title*/
do r=0 to rows; _=; != '│'; if r==0 then != '┬' do c=1 for cols; x= @.r.c if r==0 then x= copies("─", wid.c + 1) if j==1 then _= _ || ! || left(x, wid.c) /*justify left*/ if j==2 then _= _ || ! || right(x, wid.c) /* " ruggt*/ if j==3 then _= _ || ! || center(x, wid.c) /* " ctr.*/ end /*c*/ if r==0 then do; _= '┌'substr(_, 2, length(_) - 1)"┐" /*top line.*/ bot= '└'substr(_, 2, length(_) - 2)"┘" /*bot " */ end else _= _ || ! /*append trailing end boxing character.*/ say _ end /*r*/ /* [↑] shows words in boxes. */ say translate(bot, '┴', "┬") /*display the bottom line of the box. */ end /*j*/ /*stick a fork in it, we're all done. */</lang>
- output when using the default input:
═══════════════════════════════════════════════left aligned═══════════════════════════════════════════════ ┌──────────┬──────────┬──────────┬──────┬──────┬─────────┬──────────┬────────┬───────┬───────┬──────┬────┐ │Given │a │text │file │of │many │lines, │where │fields │within │a │line│ │are │delineated│by │a │single│'dollar' │character,│write │a │program│ │ │ │that │aligns │each │column│of │fields │by │ensuring│that │words │in │each│ │column │are │separated │by │at │least │one │space. │ │ │ │ │ │Further, │allow │for │each │word │in │a │column │to │be │either│left│ │justified,│right │justified,│or │center│justified│within │its │column.│ │ │ │ └──────────┴──────────┴──────────┴──────┴──────┴─────────┴──────────┴────────┴───────┴───────┴──────┴────┘ ══════════════════════════════════════════════right aligned═══════════════════════════════════════════════ ┌──────────┬──────────┬──────────┬──────┬──────┬─────────┬──────────┬────────┬───────┬───────┬──────┬────┐ │ Given│ a│ text│ file│ of│ many│ lines,│ where│ fields│ within│ a│line│ │ are│delineated│ by│ a│single│ 'dollar'│character,│ write│ a│program│ │ │ │ that│ aligns│ each│column│ of│ fields│ by│ensuring│ that│ words│ in│each│ │ column│ are│ separated│ by│ at│ least│ one│ space.│ │ │ │ │ │ Further,│ allow│ for│ each│ word│ in│ a│ column│ to│ be│either│left│ │justified,│ right│justified,│ or│center│justified│ within│ its│column.│ │ │ │ └──────────┴──────────┴──────────┴──────┴──────┴─────────┴──────────┴────────┴───────┴───────┴──────┴────┘ ══════════════════════════════════════════════center aligned══════════════════════════════════════════════ ┌──────────┬──────────┬──────────┬──────┬──────┬─────────┬──────────┬────────┬───────┬───────┬──────┬────┐ │ Given │ a │ text │ file │ of │ many │ lines, │ where │fields │within │ a │line│ │ are │delineated│ by │ a │single│'dollar' │character,│ write │ a │program│ │ │ │ that │ aligns │ each │column│ of │ fields │ by │ensuring│ that │ words │ in │each│ │ column │ are │separated │ by │ at │ least │ one │ space. │ │ │ │ │ │ Further, │ allow │ for │ each │ word │ in │ a │ column │ to │ be │either│left│ │justified,│ right │justified,│ or │center│justified│ within │ its │column.│ │ │ │ └──────────┴──────────┴──────────┴──────┴──────┴─────────┴──────────┴────────┴───────┴───────┴──────┴────┘
Ruby
<lang ruby>J2justifier = {Left: :ljust, Right: :rjust, Center: :center}
=begin Justify columns of textual tabular input where the record separator is the newline and the field separator is a 'dollar' character. justification can be Symbol; (:Left, :Right, or :Center).
Return the justified output as a string =end def aligner(infile, justification = :Left)
fieldsbyrow = infile.map {|line| line.strip.split('$')} # pad to same number of fields per record maxfields = fieldsbyrow.map(&:length).max fieldsbyrow.map! {|row| row + []*(maxfields - row.length)} # calculate max fieldwidth per column colwidths = fieldsbyrow.transpose.map {|column| column.map(&:length).max } # pad fields in columns to colwidth with spaces justifier = J2justifier[justification] fieldsbyrow.map {|row| row.zip(colwidths).map {|field, width| field.send(justifier, width) }.join(" ") }.join("\n")
end
require 'stringio'
textinfile = <<END Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. END
for align in [:Left, :Right, :Center]
infile = StringIO.new(textinfile) puts "\n# %s Column-aligned output:" % align puts aligner(infile, align)
end </lang>
- Output:
# Left Column-aligned output: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. # Right Column-aligned output: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. # Center Column-aligned output: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Run BASIC
<lang Runbasic>theString$ = "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" _ + "are$delineated$by$a$single$'dollar'$character,$write$a$program" _ + "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$"_ + "column$are$separated$by$at$least$one$space." _ + "Further,$allow$for$each$word$in$a$column$to$be$either$left$" _ + "justified,$right$justified,$or$center$justified$within$its$column."
x = shoTable(theString$,"left",6) x = shoTable(theString$,"right",6) x = shoTable(theString$,"center",6) end
FUNCTION shoTable(theString$,align$,across) print "------------ align:";align$;" -- across:";across;" ------------" dim siz(across) b$ = " " while word$(theString$,i+1,"$") <> "" siz(i mod across) = max(siz(i mod across),len(word$(theString$,i + 1,"$"))) i = i + 1 wend for i = 0 to across - 1 siz(i) = siz(i) + 1 if siz(i) and 1 then siz(i) = siz(i) + 1 next i
i = 0 a$ = word$(theString$,i+1,"$") while a$ <> ""
s = siz(i mod across) - len(a$)
if align$ = "right" then a$ = left$(b$,s);a$ if align$ = "left" then a$ = a$;left$(b$,s) if align$ = "center" then a$ = left$(b$,int(s / 2));a$;left$(b$,int(s / 2) + (s and 1)) print "|";a$; i = i + 1 if i mod across = 0 then print "|" a$ = word$(theString$,i+1,"$") wend print end function</lang>
- Output:
------------ align:left -- across:6 ------------ |Given |a |text |file |of |many | |lines, |where |fields |within |a |line | |are |delineated |by |a |single |'dollar' | |character, |write |a |programthat |aligns |each | |column |of |fields |by |ensuring |that | |words |in |each |column |are |separated | |by |at |least |one |space.Further, |allow | |for |each |word |in |a |column | |to |be |either |left |justified, |right | |justified, |or |center |justified |within |its | |column. ------------ align:right -- across:6 ------------ | Given| a| text| file| of| many| | lines,| where| fields| within| a| line| | are| delineated| by| a| single| 'dollar'| | character,| write| a| programthat| aligns| each| | column| of| fields| by| ensuring| that| | words| in| each| column| are| separated| | by| at| least| one| space.Further,| allow| | for| each| word| in| a| column| | to| be| either| left| justified,| right| | justified,| or| center| justified| within| its| | column. ------------ align:center -- across:6 ------------ | Given | a | text | file | of | many | | lines, | where | fields | within | a | line | | are | delineated | by | a | single | 'dollar' | | character, | write | a |programthat | aligns | each | | column | of | fields | by | ensuring | that | | words | in | each | column | are |separated | | by | at | least | one | space.Further, | allow | | for | each | word | in | a | column | | to | be | either | left | justified, | right | | justified, | or | center | justified | within | its | | column.
Rust
<lang rust>use std::iter::{repeat, Extend};
enum AlignmentType {
Left, Center, Right,
}
fn get_column_widths(text: &str) -> Vec<usize> {
let mut widths = Vec::new(); for line in text .lines() .map(|s| s.trim_matches(' ').trim_end_matches('$')) { let lens = line.split('$').map(|s| s.chars().count()); for (idx, len) in lens.enumerate() { if idx < widths.len() { widths[idx] = std::cmp::max(widths[idx], len); } else { widths.push(len); } } } widths
}
fn align_columns(text: &str, alignment: AlignmentType) -> String {
let widths = get_column_widths(text); let mut result = String::new(); for line in text .lines() .map(|s| s.trim_matches(' ').trim_end_matches('$')) { for (s, w) in line.split('$').zip(widths.iter()) { let blank_count = w - s.chars().count(); let (pre, post) = match alignment { AlignmentType::Left => (0, blank_count), AlignmentType::Center => (blank_count / 2, (blank_count + 1) / 2), AlignmentType::Right => (blank_count, 0), }; result.extend(repeat(' ').take(pre)); result.push_str(s); result.extend(repeat(' ').take(post)); result.push(' '); } result.push_str("\n"); } result
}
fn main() {
let text = r#"Given$a$text$file$of$many$lines,$where$fields$within$a$line$
are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column."#;
println!("{}", align_columns(text, AlignmentType::Left)); println!("{}", repeat('-').take(110).collect::<String>()); println!("{}", align_columns(text, AlignmentType::Center)); println!("{}", repeat('-').take(110).collect::<String>()); println!("{}", align_columns(text, AlignmentType::Right));
}</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. --------------------------------------------------------------------------------------------------------- Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. --------------------------------------------------------------------------------------------------------- Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Scala
For Scala 2.7, change from fromPath to fromFile, and remove the extra parameter to Source's getLines.
<lang scala>object ColumnAligner {
val eol = System.getProperty("line.separator") def getLines(filename: String) = scala.io.Source.fromPath(filename).getLines(eol) def splitter(line: String) = line split '$' def getTable(filename: String) = getLines(filename) map splitter def fieldWidths(fields: Array[String]) = fields map (_ length) def columnWidths(txt: Iterator[Array[String]]) = (txt map fieldWidths).toList.transpose map (_ max)
def alignField(alignment: Char)(width: Int)(field: String) = alignment match { case 'l' | 'L' => "%-"+width+"s" format field case 'r' | 'R' => "%"+width+"s" format field case 'c' | 'C' => val padding = (width - field.length) / 2; " "*padding+"%-"+(width-padding)+"s" format field case _ => throw new IllegalArgumentException }
def align(aligners: List[String => String])(fields: Array[String]) = aligners zip fields map Function.tupled(_ apply _) def alignFile(filename: String, alignment: Char) = { def table = getTable(filename) val aligners = columnWidths(table) map alignField(alignment) table map align(aligners) map (_ mkString " ") } def printAlignedFile(filename: String, alignment: Char) { alignFile(filename, alignment) foreach println }
}</lang>
Another take:
<lang scala>def pad(s:String, i:Int, d:String) = {
val padsize = (i-s.length).max(0) d match { case "left" => s+" "*padsize case "right" => " "*padsize+s case "center" => " "*(padsize/2) + s + " "*(padsize-padsize/2) }
}
val lines = scala.io.Source.fromFile("c:\\text.txt").getLines.map(_.trim()) val words = lines.map(_.split("\\$").toList).toList val lens = words.map(l => l.map(_.length)).toList
var maxlens = Map[Int,Int]() withDefaultValue 0 lens foreach (l =>
for(i <- (0 until l.length)){ maxlens += i -> l(i).max(maxlens(i)) }
)
val padded = words map ( _.zipWithIndex.map{case(s,i)=>pad(s,maxlens(i),"center")+" "} ) padded map (_.reduceLeft(_ + _)) foreach println</lang>
Scheme
<lang scheme> (import (scheme base)
(scheme write) (srfi 1) (except (srfi 13) string-for-each string-map) (srfi 14))
- text is a list of lines, alignment is left/right/center
- displays the aligned text in columns with a single space gap
(define (align-columns text alignment)
(define (split line) ; splits string on $ into list of strings (string-tokenize line (char-set-complement (->char-set "$")))) (define (extend lst n) ; extends list to length n, by adding "" to end (append lst (make-list (- n (length lst)) ""))) (define (align-word word width) ; align single word to fit width (case alignment ((left) (string-pad-right word width)) ((right) (string-pad word width)) ((center) (let ((rem (- width (string-length word)))) (string-pad-right (string-pad word (- width (truncate (/ rem 2)))) width))))) ; (display alignment) (newline) (let* ((text-list (map split text)) (max-line-len (fold (lambda (text val) (max (length text) val)) 0 text-list)) (text-lines (map (lambda (line) (extend line max-line-len)) text-list)) (min-col-widths (map (lambda (col) (fold (lambda (line val) (max (string-length (list-ref line col)) val)) 0 text-lines)) (iota max-line-len)))) (map (lambda (line) (map (lambda (word width) (display (string-append (align-word word width) " "))) line min-col-widths) (newline)) text-lines)) (newline))
- show example
(define *example*
'("Given$a$text$file$of$many$lines,$where$fields$within$a$line$" "are$delineated$by$a$single$'dollar'$character,$write$a$program" "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" "column$are$separated$by$at$least$one$space." "Further,$allow$for$each$word$in$a$column$to$be$either$left$" "justified,$right$justified,$or$center$justified$within$its$column."))
(align-columns *example* 'left) (align-columns *example* 'center) (align-columns *example* 'right) </lang>
- Output:
left Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. center Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. right Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
sed
The code allows to left (by default) or right justify colums. Centering is not supported. Requires about 2x<size of input> bytes of memory (each line duplicated). <lang sed>
- !/bin/sed -nrf
- Format: <master-pattern>\n<line1>\n<line1-as-pattern>\n<line2>\n<line2-as-pattern>...
- After reading whole file <master-pattern> contains max number of fields of max width each.
- If no $ at start or end of a line -- add them
/^\$/! s/^/$/ /\$$/! s/$/$/
- First line saved as three lines in hold space:
- <line1-as-pattern>\n<line1>\n<line1-as-pattern>
1{
h s/[^$]/ /g H G x # Restart -- go to next line b
}
- For lines 2,3,...
H
- Current line -> pattern
- (each character replaced by constant symbol (e.g. space) so that we can count them)
s/[^$]/ /g H G
- Add two markers
s/\$/1$/ s/(\n[^$]*)\$/\12$/
- Compare patterns
- cmp
s/(1\$([^$\n]*)([^$\n]*)[^2]*2\$\2)/\1\3/ /1\$\n/ bout # Advance markers s/1(\$[^12$\n]*)/\11/ s/2(\$[^12$\n]*)/\12/ # Add one more field /^[^2]*2\$\n/{ s/^([^2]*)2\$\n/\12$$\n/; } bcmp
- out
- Remove first line
s/[^\n]*\n//
- Remove 2$-marker
s/2\$/$/ x
${
- We are on the last line -- start printing
x; # Add a line for aligned string s/^/\n/ :nextline # Add marker again (only one this time) s/\$/1$/ :align # 1. look up missing spaces, # 2. put first word of 2nd line before first newline adding missing spaces # 3. cut first word of 2nd and 3rd lines. # Replace \5\3 by \3\5 for RIGHT ALIGNMENT s/(\n[^\n]*)1\$([^$\n]*)([^$\n]*)\$([^\n]*\n)\$([^$\n]*)([^\n]*\n)\$\2\$/\5\3 \1$\2\31$\4\6$/ talign # We ate 2nd and 3rd lines completely, except newlines -- remove them s/\$\n\$\n\$\n/$\n/ # Print the first line in pattern space P # ... and remove it s/^[^\n]*// # Remove marker s/1\$/$/ # If no more lines -- exit /\$\n\$$/q bnextline } </lang> Example:
$ cat align.txt Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. $ ./align-columns.sed align.txt Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Seed7
<lang seed7>$ include "seed7_05.s7i";
const array string: inputLines is [] (
"Given$a$text$file$of$many$lines,$where$fields$within$a$line$", "are$delineated$by$a$single$'dollar'$character,$write$a$program", "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$", "column$are$separated$by$at$least$one$space.", "Further,$allow$for$each$word$in$a$column$to$be$either$left$", "justified,$right$justified,$or$center$justified$within$its$column.");
const func array integer: computeColumnWidths (in array string: inputLines) is func
result var array integer: columnWidths is 0 times 0; local var string: line is ""; var array string: lineFields is 0 times ""; var integer: index is 0; begin for line range inputLines do lineFields := split(line, "$"); if length(lineFields) > length(columnWidths) then columnWidths &:= (length(lineFields) - length(columnWidths)) times 0; end if; for index range 1 to length(lineFields) do if length(lineFields[index]) > columnWidths[index] then columnWidths[index] := length(lineFields[index]); end if; end for; end for; end func;
const func string: center (in string: stri, in integer: length) is
return ("" lpad (length - length(stri)) div 2 <& stri) rpad length;
const proc: main is func
local var array integer: columnWidths is 0 times 0; var string: line is ""; var array string: lineFields is 0 times ""; var integer: index is 0; begin columnWidths := computeColumnWidths(inputLines); for line range inputLines do lineFields := split(line, "$"); for index range 1 to length(lineFields) do # write(lineFields[index] rpad columnWidths[index] <& " "); # Left justify # write(lineFields[index] lpad columnWidths[index] <& " "); # Right justify write(center(lineFields[index], columnWidths[index]) <& " "); end for; writeln; end for; end func;</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Shiny
<lang shiny>text: 'Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$\'dollar\'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.'
align: action text; position;
# split text into 2D array of lines and words lines : { for text.split ~\$?\r?\n~ { for a.split '$' a end } end }
# calculate max required width for each column widths: { for lines for a here[b]: a.length.max here[b]? ends }
spaces: action out ("%%%ds" in).format end
# formatting functions left: action word; width; pad: width-word.length print "%s%s " word spaces pad end right: action word; width; pad: width-word.length print "%s%s " spaces pad word end center: action word; width; pad: (width-word.length)/2 print "%s%s%s " spaces pad.floor word spaces pad.ceil end
if position.match ~^(left|center|right)$~ for lines for a local[position] a widths[b] end say ends say
end
align text 'left' align text 'center' align text 'right'</lang>
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Sidef
<lang ruby>class Format(text, width) {
method align(j) { text.map { |row| row.range.map { |i| '%-*s ' % (width[i], '%*s' % (row[i].len + (width[i]-row[i].len * j/2), row[i])); }.join(""); }.join("\n") + "\n"; }
}
func Formatter(text) {
var textArr = []; var widthArr = [];
text.each_line { var words = .split('$'); textArr.append(words);
words.each_kv { |i, word| if (i == widthArr.len) { widthArr.append(word.len); } elsif (word.len > widthArr[i]) { widthArr[i] = word.len; } } }
return Format(textArr, widthArr);
}
enum |left, middle, right|; const text = <<'EOT'; Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. EOT
var f = Formatter(text);
say f.align(left); say f.align(middle); say f.align(right);</lang>
Smalltalk
the following works with Smalltalk/X, but should also in other dialects (may have to add "centerPadded" to the String class).
<lang smalltalk>text := 'Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$dollar$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. '.
printSep :=
[:colLengths | Stdout nextPut:$+. colLengths do:[:len | Stdout next:len put:$-; nextPut:$+ ]. Stdout cr. ].
printRows :=
[:text :box :justifyEach | lines := StringCollection fromString:text. rowSet := lines collect:[:line | line splitBy:$$ ]. maxNumCols := (rowSet collect:[:row | row size]) max. maxLengths := rowSet inject:(Array new:maxNumCols withAll:0) into:[:maxesSoFar :row| maxesSoFar with:(row paddedTo:maxNumCols with:) collect:[:maxLen :col | maxLen max: col size]]. rowSet do:[:row | |first|
box ifTrue:[ printSep value:maxLengths ]. first := true. (box ifTrue:[row paddedTo:maxLengths size with:] ifFalse:[row]) with: (box ifTrue:[maxLengths] ifFalse:[maxLengths to:row size]) do:[:col :len | first ifTrue:[ box ifTrue:[Stdout nextPutAll:'|']. first := false.]. Stdout print:(justifyEach value:col value:len). Stdout nextPutAll:(box ifTrue:'|' ifFalse:' ') ]. Stdout cr. ]. box ifTrue:[ printSep value:maxLengths ]. ].
printRightJustified :=
[:text :box | printRows value:text value:box value:[:col :len | (col leftPaddedTo:len)]].
printLeftJustified :=
[:text :box | printRows value:text value:box value:[:col :len | (col paddedTo:len)]].
printCentered :=
[:text :box | printRows value:text value:box value:[:col :len | col centerPaddedTo:len]].
Stdout printCR:'Left justified:'. printLeftJustified value:text value:false.
Stdout cr; printCR:'Right justified:'. printRightJustified value:text value:false.
Stdout cr; printCR:'Centered:'. printCentered value:text value:false.
Stdout cr; printCR:'Left justified with box:'. printLeftJustified value:text value:true.
Stdout cr; printCR:'Right justified with box:'. printRightJustified value:text value:true.
Stdout cr; printCR:'Centered with box:'. printCentered value:text value:true.</lang>
- Output:
Left justified: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Right justified: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Centered: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Left justified with box: +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |Given |a |text |file |of |many |lines, |where |fields |within |a |line| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |are |delineated|by |a |single|'dollar' |character,|write |a |program| | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |that |aligns |each |column|of |fields |by |ensuring|that |words |in |each| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |column |are |separated |by |at |least |one |space. | | | | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |Further, |allow |for |each |word |in |a |column |to |be |either|left| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |justified,|right |justified,|or |center|justified|within |its |column.| | | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ Right justified with box: +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | Given| a| text| file| of| many| lines,| where| fields| within| a|line| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | are|delineated| by| a|single| 'dollar'|character,| write| a|program| | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | that| aligns| each|column| of| fields| by|ensuring| that| words| in|each| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | column| are| separated| by| at| least| one| space.| | | | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | Further,| allow| for| each| word| in| a| column| to| be|either|left| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |justified,| right|justified,| or|center|justified| within| its|column.| | | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ Centered with box: +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | Given | a | text | file | of | many | lines, | where |fields |within | a |line| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | are |delineated| by | a |single|'dollar' |character,| write | a |program| | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | that | aligns | each |column| of | fields | by |ensuring| that | words | in |each| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | column | are |separated | by | at | least | one | space. | | | | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ | Further, | allow | for | each | word | in | a | column | to | be |either|left| +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+ |justified,| right |justified,| or |center|justified| within | its |column.| | | | +----------+----------+----------+------+------+---------+----------+--------+-------+-------+------+----+
Snobol
<lang snobol>* Since we don't know how much text we'll be reading in,
- we store the words and field widths in tables
Words = TABLE() Widths = TABLE()
- Match text from start of string to the first dollar sign
WordPat = POS(0) BREAK('$') . Word LEN(1) REM . Rest
- We output the results aligned three different ways; these are the
- labels for those sections of output:
Labels = ARRAY(3) Labels<1> = "Left-justified" Labels<2> = "Right-justified" Labels<3> = "Centered"
- There are built-in functions for left- and right- justification,
- but not necessarily one for centering (depending on
- implementation). So we define one.
DEFINE('CPAD(Word,Width)Z,Left') :(END_CPAD)
CPAD Z = SIZE(Word)
Left = Z + (Width - Z) / 2 CPAD = RPAD(LPAD(Word, Left), Width) :(RETURN)
END_CPAD
- Read in our text a line at a time and split into words on '$'
InLineLoop Line = INPUT :F(DoneReading)
LineCount = LineCount + 1 Column = 0
InWordLoop Column = Column + 1
- Separate Line into Word, Line=Rest at first dollar sign
Line WordPat = Rest :S(CheckMax)
- If there was no '$', the whole line is the next word
Word = Line Line =
- Keep track of the largest number of columns on any line
CheckMax LE(Column, MaxColumn) :S(StoreWord)
MaxColumn = Column
StoreWord Words<LineCount ',' Column> = Word
- And the size of the longest word in each column
GT(SIZE(Word),Widths<Column>) :F(NoNewMaxWidth) Widths<Column> = SIZE(Word)
- Loop if the line isn't empty yet
NoNewMaxWidth GT(Size(Line)) :S(InWordLoop) F(InLineLoop) DoneReading
- Now we print the results out in the three justification styles
Style = 0
StyleLoop Style = Style + 1
GT(Style, 3) :S(END) OUTPUT = OUTPUT = Labels<Style> ':'
I = 0
OutLineLoop I = I + 1
GT(I, LineCount) :S(StyleLoop)
- Build up the output line by fields starting with the null string
Line = J = 0
OutWordLoop J = J + 1
GT(J, MaxColumn) :S(PrintLine) Word = Words GT(SIZE(Word)) :F(PrintLine)
- Place the word within the column according to the pass we're on
EQ(Style, 1) :F(NotLeft)
- Left-justified
Word = RPAD(Word, Widths<J>) :(AddWord)
NotLeft EQ(Style, 2) :F(NotRight)
- Right-justified
Word = LPAD(Word, Widths<J>) :(AddWord)
- Centered
NotRight Word = CPAD(Word, Widths<J>)
- Add word to line and loop
AddWord Line = Line GT(SIZE(Line)) ' '
Line = Line Word :(OutWordLoop)
- Print the line
PrintLine OUTPUT = Line :(OutLineLoop)
END </lang>
- Output:
Left-justified: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Right-justified: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Centered: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Standard ML
<lang sml>fun curry f x y = f (x, y) fun uncurry f (x, y) = f x y
fun maxWidths ([], widths) = widths
| maxWidths (strings, []) = map size strings | maxWidths (s :: ss, w :: ws) = Int.max (size s, w) :: maxWidths (ss, ws)
val alignL = uncurry (StringCvt.padRight #" ") and alignR = uncurry (StringCvt.padLeft #" ")
fun alignC (w, s) =
alignL (w, alignR ((w + size s) div 2, s))
fun formatTable tab =
let val columnWidths = foldl maxWidths [] tab in fn f => String.concatWith "\n" (map (String.concatWith " " o curry (ListPair.map f) columnWidths) tab) end
val readTable =
map (String.fields (curry op= #"$")) o String.tokens (curry op= #"\n") o TextIO.inputAll
(* test stdin with all alignments *) val () = print (String.concatWith "\n\n"
(map (formatTable (readTable TextIO.stdIn)) [alignL, alignC, alignR]) ^ "\n")</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Swift
<lang swift>import Foundation
extension String {
func dropLastIf(_ char: Character) -> String { if last == char { return String(dropLast()) } else { return self } }
}
enum Align {
case left, center, right
}
func getLines(input: String) -> [String] {
input .components(separatedBy: "\n") .map({ $0.replacingOccurrences(of: " ", with: "").dropLastIf("$") })
}
func getColWidths(from: String) -> [Int] {
var widths = [Int]() let lines = getLines(input: from)
for line in lines { let lens = line.components(separatedBy: "$").map({ $0.count })
for (i, len) in lens.enumerated() { if i < widths.count { widths[i] = max(widths[i], len) } else { widths.append(len) } } }
return widths
}
func alignCols(input: String, align: Align = .left) -> String {
let widths = getColWidths(from: input) let lines = getLines(input: input) var res = ""
for line in lines { for (str, width) in zip(line.components(separatedBy: "$"), widths) { let blanks = width - str.count let pre: Int, post: Int
switch align { case .left: (pre, post) = (0, blanks) case .center: (pre, post) = (blanks / 2, (blanks + 1) / 2) case .right: (pre, post) = (blanks, 0) }
res += String(repeating: " ", count: pre) res += str res += String(repeating: " ", count: post) res += " " }
res += "\n" }
return res
}
let input = """
Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. """
print(alignCols(input: input)) print() print(alignCols(input: input, align: .center)) print() print(alignCols(input: input, align: .right))</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Tcl
<lang tcl>package require Tcl 8.5
set text {Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.}
array set max {} foreach line [split $text \n] {
set col 0 set thisline [split $line \$] lappend words $thisline foreach word $thisline { set max([incr col]) [expr {[info exists max($col)] ? max($max($col), [string length $word]) : [string length $word] }] }
}
proc justify {word position width} {
switch -exact -- $position { left { return [format "%-*s" $width $word] } center { set lpadw [expr {($width - [string length $word])/2}] return [format "%s%-*s" [string repeat " " $lpadw] [incr width -$lpadw] $word] } right { return [format "%*s" $width $word] } }
}
foreach position {left center right} {
foreach thisline $words { set col 0 set line "" foreach word $thisline { append line [justify $word $position $max([incr col])] " " } puts [string trimright $line] } puts ""
}</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Transd
Transd has built-in support for "left" and "right" formatting, but not "centered", which added quite a bit of code.
<lang scheme>#lang transd
MainModule : {
txt:
"Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.",
tabl: Table(), n: 0, colWidths: Vector<Int>(),
print: (λ centered Bool(false) (for n in Seq(0 (num-rows tabl)) do (with row (get-row tabl n) (for m in Seq(0 (num-cols tabl)) do (with wid (+ 1.0 (get colWidths @idx)) word (get row m) wl 0.0 lef 0 (if centered (= wl (size String(word))) (= lef (/ (- wid wl) 2.0)) (textout width: lef "" width: wl word width: (- wid (+ wl lef)) "") else (textout width: wid (get row m))))) (lout "")) ) ),
_start: (λ (load-table tabl txt fieldSep: "$" :emptyEls)
(for i in Seq(0 (num-cols tabl)) do (= n 0) (tsd-query tabl reduce: [i] as: String() using: (λ (set n (max (size (get @row 0)) n)))) (append colWidths n) ) (textout :right "") (print) (lout :left "") (print) (lout "") (print true) )
}</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program a line that aligns each column of fields by ensuring that words in each column are separated by at least one space. that words in each Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. be either left Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program a line that aligns each column of fields by ensuring that words in each column are separated by at least one space. that words in each Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. be either left Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program a line that aligns each column of fields by ensuring that words in each column are separated by at least one space. that words in each Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. be either left
TSE SAL
<lang TSESAL> INTEGER PROC FNBlockChangeColumnAlignLeftB( INTEGER columnTotalI, INTEGER spaceTotalI, INTEGER buffer1I )
INTEGER B = FALSE INTEGER downB = TRUE INTEGER minI = 1 INTEGER I = 0 INTEGER J = 0 INTEGER K = 0 INTEGER L = 0 INTEGER buffer2I = 0 STRING s[255] = "" INTEGER wordRightB = FALSE STRING s1[255] = Query( WordSet ) IF ( NOT ( IsBlockInCurrFile() ) ) Warn( "Please mark a block" ) B = FALSE RETURN( B ) ENDIF // return from the current procedure if no block is marked Set( BREAK, ON ) PushPosition() PushBlock() Set( WordSet, ChrSet( "a-zA-Z0-9_,." ) ) PushPosition() buffer2I = CreateTempBuffer() PopPosition() PushPosition() PushBlock() DO 100 TIMES AddLine( "", buffer2I ) ENDDO PopBlock() PopPosition() GotoBlockBegin() I = minI - 1 WHILE ( ( IsCursorInBlock() ) AND ( downB ) ) IF NOT LFind( "^$", "cgx" ) BegLine() REPEAT s = GetWord() IF NOT ( s == "" ) s = Trim( s ) I = I + 1 IF ( I > columnTotalI ) I = minI ENDIF J = Length( s ) PushPosition() PushBlock() GotoBufferId( buffer2I ) GotoLine( I ) // IF ( CurrLineLen() == 0 ) BegLine() InsertText( Format( Str( J ), " " ), _INSERT_ ) ELSE K = Val( Trim( GetText( 1, MAXSTRINGLEN ) ) ) IF ( J > K ) BegLine() DelToEol() BegLine() InsertText( Str( J ), _INSERT_ ) ENDIF ENDIF PopBlock() PopPosition() wordRightB = WordRight() ENDIF UNTIL ( s == "" ) OR ( NOT wordRightB ) ENDIF downB = Down() ENDWHILE GotoBlockBegin() I = minI - 1 L = 1 K = 1 WHILE ( ( IsCursorInBlock() ) AND ( downB ) ) IF NOT LFind( "^$", "cgx" ) BegLine() REPEAT B = FALSE s = GetWord() IF NOT ( s == "" ) s = Trim( s ) I = I + 1 IF ( I > columnTotalI ) I = minI K = 1 L = L + 1 ENDIF // PushPosition() PushBlock() GotoBufferId( buffer2I ) GotoLine( I ) J = Val( Trim( GetText( 1, MAXSTRINGLEN ) ) ) PopPosition() PopBlock() PushPosition() PushBlock() GotoBufferId( buffer1I ) GotoLine( L ) GotoColumn( K ) InsertText( s, _INSERT_ ) K = K + J + spaceTotalI PopBlock() PopPosition() wordRightB = WordRight() ENDIF UNTIL ( s == "" ) OR ( NOT wordRightB ) ENDIF AddLine( "", buffer1I ) downB = Down() ENDWHILE OneWindow() VWindow() GotoWindow( 1 ) GotoBufferId( buffer2I ) GotoWindow( 2 ) GotoBufferId( buffer1I ) B = TRUE Set( WordSet, s1 ) PopPosition() PopBlock() RETURN( B )
END // PROC Main()
STRING s1[255] = "12" // change this STRING s2[255] = "2" // change this INTEGER bufferI = 0 PushPosition() bufferI = CreateTempBuffer() PopPosition() IF ( NOT ( Ask( "block: change: column: align: left: columnTotalI = ", s1, _EDIT_HISTORY_ ) ) AND ( Length( s1 ) > 0 ) ) RETURN() ENDIF IF ( NOT ( Ask( "block: change: column: align: left: spaceTotalI = ", s2, _EDIT_HISTORY_ ) ) AND ( Length( s2 ) > 0 ) ) RETURN() ENDIF Message( FNBlockChangeColumnAlignLeftB( Val( s1 ), Val( s2 ), bufferI ) ) // gives e.g. TRUE GotoBufferId( bufferI )
END </lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single dollar character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
TUSCRIPT
<lang tuscript> $$ MODE TUSCRIPT MODE DATA $$ SET exampletext=* Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. $$ MODE TUSCRIPT SET nix=SPLIT (exampletext,":$:",c1,c2,c3,c4,c5,c6,c7,c8,c9,c10,c11,c12) LOOP l1=1,12 SET colum=CONCAT ("c",l1) SET newcolum=CONCAT ("new",l1) SET @newcolum="", length=MAX LENGTH (@colum), space=length+2
LOOP n,l2=@colum SET newcell=CENTER (l2,space) SET @newcolum=APPEND (@newcolum,"~",newcell) ENDLOOP SET @newcolum=SPLIT (@newcolum,":~:")
ENDLOOP SET exampletext=JOIN(new1,"$",new2,new3,new4,new5,new6,new7,new8,new9,new10,new11,new12) </lang>
- Output:
Given $ a $ text $ file $ of $ many $ lines, $ where $ fields $ within $ a $ line$ are $ delineated $ by $ a $ single $ 'dollar' $ character, $ write $ a $ program $ $ that $ aligns $ each $ column $ of $ fields $ by $ ensuring $ that $ words $ in $ each$ column $ are $ separated $ by $ at $ least $ one $ space. $ $ $ $ Further, $ allow $ for $ each $ word $ in $ a $ column $ to $ be $ either $ left$ justified, $ right $ justified, $ or $ center $ justified $ within $ its $ column. $ $ $
TXR
<lang txr>@(collect) @ (coll)@{item /[^$]+/}@(end) @(end) @; nc = number of columns @; pi = padded items (data with row lengths equalized with empty strings) @; cw = vector of max column widths @; ce = center padding @(bind nc @[apply max [mapcar length item]]) @(bind pi @(mapcar (op append @1 (repeat '("") (- nc (length @1)))) item)) @(bind cw @(vector-list
(mapcar (op apply max [mapcar length @1]) ;; matrix transpose trick cols become rows: [apply mapcar [cons list pi]])))
@(bind ns "") @(output) @ (repeat) @ (rep :counter i)@{pi @[cw i]} @(end) @ (end) @ (repeat) @ (rep :counter i)@{pi @(- [cw i])} @(end) @ (end) @ (repeat) @ (rep :counter i)@\
@{ns @(trunc (- [cw i] (length pi)) 2)}@\ @{pi @(- [cw i] (trunc (- [cw i] (length pi)) 2))} @(end)
@ (end) @(end)</lang>
$ txr align-columns.txr align-columns.dat Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
UNIX Shell
This is a draft implementation of the "align columns" problem using Unix shell commands. The key tool for left and right justified text is the "rs" command. Centered text is a little more complex, since this is not a feature currently in "rs" (The centered solution will be added later.) <lang bash> cat <<EOF_OUTER > just-nocenter.sh
- !/bin/sh
td() { cat <<'EOF' Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column. EOF }
rows=$( td | wc -l )
- get the number of fields
fields=$(td | rs -c'$' -g1 -h | awk '{print $2}')
- get the max of the value widths
cwidth=$(td | rs -c'$' -g1 -w1 2>/dev/null | awk 'BEGIN{w=0}{if(length>w){w=length}}END{print w}')
- compute the minimum line width for the columns
lwidth=$(( (1 + cwidth) * fields ))
- left adjusted columns
td | rs -c'$' -g1 -zn -w$lwidth
echo ""
- right adjusted columns
td | rs -c'$' -g1 -znj -w$lwidth
echo ""
exit EOF_OUTER </lang>
- Output:
<lang sh> $ ./just-nocenter.sh Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left
justified, right justified, or center justified within its column. </lang>
The centered output will be added later, when I've more time. I did this in about 10 minutes.
Using column(1)
Note that the left-justified case can be handled trivially by the column command, which ships with modern Linux and macOS systems:
<lang sh>tr '$' ' ' | column -t</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Ursala
The algorithm is to lex the text to a list of lists of strings assuming $ as a separator, then pad the lists out to the length of the maximum length list, transpose, do the same with each column, and transpose again. For left justification, nothing further but concatenation is needed. For right justification, each word's string of trailing blanks is moved to the beginning, and for center justification, the trailing blanks are divided equally between the beginning and end of each word. <lang Ursala>#import std
text =
-[Given$a$text$file$of$many$lines,$where$fields$within$a$line$ are$delineated$by$a$single$'dollar'$character,$write$a$program that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$ column$are$separated$by$at$least$one$space. Further,$allow$for$each$word$in$a$column$to$be$either$left$ justified,$right$justified,$or$center$justified$within$its$column.]-
pad = sep`$*; @FS ~&rSSSK7+ (zipp` ^*D\~& leql$^)*rSSK7+ zipp0^*D/leql$^ ~&
just_left = mat` *+ pad just_right = mat` *+ pad; ==` ~-rlT** just_center = mat` *+ pad; ==` ~-rK30PlrK31PTT**
- show+
main = mat0 <.just_left,just_center,just_right> text</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
VBA
Call subroutine "TestSplit" with arguments align (one of: "left", "right", "center") and spacing (an integer) between columns. Both arguments are optional and default to "left" and 1 respectively.
<lang vb> Public Sub TestSplit(Optional align As String = "left", Optional spacing As Integer = 1)
Dim word() As String Dim colwidth() As Integer Dim ncols As Integer Dim lines(6) As String Dim nlines As Integer 'check arguments If Not (align = "left" Or align = "right" Or align = "center") Then MsgBox "TestSplit: wrong argument 'align': " & align Exit Sub End If If spacing < 0 Then MsgBox "TestSplit: wrong argument: 'spacing' cannot be negative." Exit Sub End If ' Sample Input (should be from a file) nlines = 6 lines(1) = "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" lines(2) = "are$delineated$by$a$single$'dollar'$character,$write$a$program" lines(3) = "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" lines(4) = "column$are$separated$by$at$least$one$space." lines(5) = "Further,$allow$for$each$word$in$a$column$to$be$either$left$" lines(6) = "justified,$right$justified,$or$center$justified$within$its$column." 'first pass: count columns and column widths 'the words are not kept in memory ncols = -1 For l = 1 To nlines word = Split(RTrim(lines(l)), "$") If UBound(word) > ncols Then ncols = UBound(word) ReDim Preserve colwidth(ncols) End If For i = 0 To UBound(word) If Len(word(i)) > colwidth(i) Then colwidth(i) = Len(word(i)) Next i Next l 'discard possibly empty columns at the right '(this assumes there is at least one non-empty column) While colwidth(ncols) = 0 ncols = ncols - 1 Wend 'second pass: print in columns For l = 1 To nlines word = Split(RTrim(lines(l)), "$") For i = 0 To UBound(word) a = word(i) w = colwidth(i) If align = "left" Then Debug.Print a + String$(w - Len(a), " "); ElseIf align = "right" Then Debug.Print String$(w - Len(a), " ") + a; ElseIf align = "center" Then d = Int((w - Len(a)) / 2) Debug.Print String$(d, " ") + a + String$(w - (d + Len(a)), " "); End If If i < ncols Then Debug.Print Spc(spacing); Next i Debug.Print Next l
End Sub </lang>
- Output:
testsplit , 4 'default alignment, non-default spacing Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. testsplit "center" 'non-default alignment, default spacing Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
VBScript
<lang vb>' Align columns - RC - VBScript Const nr=16, nc=16 ReDim d(nc),t(nr), wor(nr,nc) i=i+1: t(i) = "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" i=i+1: t(i) = "are$delineated$by$a$single$'dollar'$character,$write$a$program" i=i+1: t(i) = "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" i=i+1: t(i) = "column$are$separated$by$at$least$one$space." i=i+1: t(i) = "Further,$allow$for$each$word$in$a$column$To$be$either$left$" i=i+1: t(i) = "justified,$right$justified,$or$center$justified$within$its$column." For r=1 to nr If t(r)="" Then Exit For w=xRTrim(t(r),"$") m=Split(w,"$") For c=1 To UBound(m)+1 wor(r,c)=m(c-1) If Len(wor(r,c))>d(c) Then d(c)=Len(wor(r,c)) Next 'c If c>cols Then cols=c Next 'r rows=r-1 tt=Array("Left","Right","Center") For n=1 To 3 Wscript.Echo Wscript.Echo "*****" & tt(n-1) & "*****" For r=1 To rows w="" For c=1 To cols x=wor(r,c): s=Space(d(c)) Select Case n Case 1: w=w &" "& Left (x & s,d(c)) Case 2: w=w &" "& Right (s & x,d(c)) Case 3: w=w &" "& xCentre(x,d(c)," ") End Select 'n Next 'c Wscript.Echo Mid(w,2) Next 'r Next 'n
Function xCentre(c, n, Pad)
Dim j If n > Len(c) Then
j = (n - Len(c)) \ 2 If (n - Len(c)) Mod 2 <> 0 Then j = j + 1 xCentre = Mid(String(j, Pad) & c & String(j, Pad), 1, n)
Else
xCentre = c
End If
End Function 'xCentre
Function xRTrim(c, Pad) Dim i2, l, cc cc = "": l = Len(c) If l > 0 Then i2 = l Do While (Mid(c, i2, 1) = Pad And i2 > 1) i2 = i2 - 1 Loop If i2 = 1 And Mid(c, i2, 1) = Pad Then i2 = 0 If i2 > 0 Then cc = Mid(c, 1, i2) End If xRTrim = cc End Function 'xRTrim </lang>
- Output:
*****Left***** Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column To be either left justified, right justified, or center justified within its column. *****Right***** Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column To be either left justified, right justified, or center justified within its column. *****Center***** Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column To be either left justified, right justified, or center justified within its column.
Vedit macro language
This implementation converts the file currently being edited. The file can then be saved with different filename if required. <lang vedit>RS(10, "$") // Field separator
- 11 = 1 // Align: 1 = left, 2 = center, 3 = right
// Reset column widths. Max 50 columns for (#1=40; #1<90; #1++) { #@1 = 0 }
// Find max width of each column BOF Repeat(ALL) {
for (#1=40; #1<90; #1++) { Match(@10, ADVANCE) // skip field separator if any
#2 = Cur_Pos Search("|{|@(10),|N}", NOERR) // field separator or end of line #3 = Cur_Pos - #2 // width of text if (#3 > #@1) { #@1 = #3 } if (At_EOL) { Break }
} Line(1, ERRBREAK)
}
// Convert lines BOF Repeat(ALL) {
for (#1=40; #1<90; #1++) {
#2 = Cur_Pos Search("|{|@(10),|N}", NOERR) if (At_EOL==0) { Del_Char(Chars_Matched) } #3 = #@1 - Cur_Pos + #2 // number of spaces to insert #4 = 0 if (#11 == 2) { #4 = #3/2; #3 -= #4 } // Center if (#11 == 3) { #4 = #3; #3 = 0 } // Right justify Set_Marker(1, Cur_Pos) Goto_Pos(#2) Ins_Char(' ', COUNT, #4) // add spaces before the word Goto_Pos(Marker(1)) Ins_Char(' ', COUNT, #3+1) // add spaces after the word if (At_EOL) { Break }
} Line(1, ERRBREAK)
}</lang>
- Output:
-- Left: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. -- Center: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. -- Right: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Visual Basic
<lang vb>Sub AlignCols(Lines, Optional Align As AlignmentConstants, Optional Sep$ = "$", Optional Sp% = 1) Dim i&, j&, D&, L&, R&: ReDim W(UBound(Lines)): ReDim C&(0)
For j = 0 To UBound(W) W(j) = Split(Lines(j), Sep) If UBound(W(j)) > UBound(C) Then ReDim Preserve C(UBound(W(j))) For i = 0 To UBound(W(j)): If Len(W(j)(i)) > C(i) Then C(i) = Len(W(j)(i)) Next i, j
For j = 0 To UBound(W): For i = 0 To UBound(W(j)) D = C(i) - Len(W(j)(i)) L = Choose(Align + 1, 0, D, D \ 2) R = Choose(Align + 1, D, 0, D - L) + Sp Debug.Print Space(L); W(j)(i); Space(R); IIf(i < UBound(W(j)), "", vbLf); Next i, j
End Sub</lang> Usage:<lang vb>Sub Main() 'usage of the above Const Text$ = "Given$a$text$file$of$many$lines,$where$fields$within$a$line$" & vbLf & _
"are$delineated$by$a$single$'dollar'$character,$write$a$program" & vbLf & _ "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$" & vbLf & _ "column$are$separated$by$at$least$one$space." & vbLf & _ "Further,$allow$for$each$word$in$a$column$to$be$either$left$" & vbLf & _ "justified,$right$justified,$or$center$justified$within$its$column." Debug.Print vbLf; "-- Left:": AlignCols Split(Text, vbLf), vbLeftJustify Debug.Print vbLf; "-- Center:": AlignCols Split(Text, vbLf), vbCenter Debug.Print vbLf; "-- Right:": AlignCols Split(Text, vbLf), vbRightJustify
End Sub</lang>
- Output:
-- Left: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. -- Center: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. -- Right: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Visual Basic .NET
<lang vb>Module Module1
Private Delegate Function Justification(s As String, width As Integer) As String
Private Function AlignColumns(lines As String(), justification As Justification) As String() Const Separator As Char = "$"c ' build input container table and calculate columns count Dim containerTbl As String()() = New String(lines.Length - 1)() {} Dim columns As Integer = 0 For i As Integer = 0 To lines.Length - 1 Dim row As String() = lines(i).TrimEnd(Separator).Split(Separator) If columns < row.Length Then columns = row.Length End If containerTbl(i) = row Next ' create formatted container table Dim formattedTable As String()() = New String(containerTbl.Length - 1)() {} For i As Integer = 0 To formattedTable.Length - 1 formattedTable(i) = New String(columns - 1) {} Next For j As Integer = 0 To columns - 1 ' get max column width Dim columnWidth As Integer = 0 For i As Integer = 0 To containerTbl.Length - 1 If j < containerTbl(i).Length AndAlso columnWidth < containerTbl(i)(j).Length Then columnWidth = containerTbl(i)(j).Length End If Next ' justify column cells For i As Integer = 0 To formattedTable.Length - 1 If j < containerTbl(i).Length Then formattedTable(i)(j) = justification(containerTbl(i)(j), columnWidth) Else formattedTable(i)(j) = New [String](" "c, columnWidth) End If Next Next ' create result Dim result As String() = New String(formattedTable.Length - 1) {} For i As Integer = 0 To result.Length - 1 result(i) = [String].Join(" ", formattedTable(i)) Next Return result End Function
Private Function JustifyLeft(s As String, width As Integer) As String Return s.PadRight(width) End Function Private Function JustifyRight(s As String, width As Integer) As String Return s.PadLeft(width) End Function Private Function JustifyCenter(s As String, width As Integer) As String Return s.PadLeft((width + s.Length) / 2).PadRight(width) End Function
Sub Main() Dim input As String() = {"Given$a$text$file$of$many$lines,$where$fields$within$a$line$", "are$delineated$by$a$single$'dollar'$character,$write$a$program", "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$", "column$are$separated$by$at$least$one$space.", "Further,$allow$for$each$word$in$a$column$to$be$either$left$", "justified,$right$justified,$or$center$justified$within$its$column."}
For Each line As String In AlignColumns(input, AddressOf JustifyLeft) Console.WriteLine(line) Next Console.ReadLine() End Sub
End Module</lang>
- Output:
-- Left: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. -- Center: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. -- Right: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Vlang
Currently (5/2022) vlang uses string interpolation so `$` have to be escaped. Variables in formatting aren't currently allowed, and if they were only right/left are currently valid options <lang vlang> const text = "Given\$a\$text\$file\$of\$many\$lines,\$where\$fields\$within\$a\$line\$ are\$delineated\$by\$a\$single\$'dollar'\$character,\$write\$a\$program that\$aligns\$each\$column\$of\$fields\$by\$ensuring\$that\$words\$in\$each\$ column\$are\$separated\$by\$at\$least\$one\$space. Further,\$allow\$for\$each\$word\$in\$a\$column\$to\$be\$either\$left\$ justified,\$right\$justified,\$or\$center\$justified\$within\$its\$column."
struct Formatter { mut:
text [][]string width []int
}
fn new_formatter(text string) Formatter {
mut f := Formatter{} for line in text.split_into_lines() { mut words := line.split("\$") for words[words.len-1] == "" { words = words[..words.len-1] } f.text << words for i, word in words { if i == f.width.len { f.width << word.len } else if word.len > f.width[i] { f.width[i] = word.len } } } return f
}
enum Justify {
left = 0 middle right
}
fn (f Formatter) print(j Justify) {
for line in f.text { for i, word in line { match j { .left { print('$word${' '.repeat(f.width[i]-word.len)} ') } .middle { mut extra := 0 if (f.width[i]%2==1 && word.len%2==0) || (f.width[i]%2==0 && word.len%2==1) { extra++ } print('${' '.repeat((f.width[i]-word.len)/2)}$word${' '.repeat((f.width[i]-word.len)/2+extra)} ') } .right { print('${' '.repeat(f.width[i]-word.len)}$word ') } } } println("") } println("")
}
fn main() {
f := new_formatter(text) f.print(Justify.left) f.print(Justify.middle) f.print(Justify.right)
}</lang>
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
Wren
<lang ecmascript>import "io" for File import "/fmt" for Fmt
var LEFT = 0 var RIGHT = 1 var CENTER = 2 var justStrs = ["LEFT", "RIGHT", "CENTER"]
// Gets a list of lines in the file with each line split into fields. var getLines = Fn.new { |fileName|
var contents = File.read(fileName) var lines = contents.split("\n") // use "\r\n" on Windows for (i in 0...lines.count) { lines[i] = lines[i].trim().trimEnd("$") if (lines[i] == "") { // get rid of final blank line, if any lines = lines[0..-2] break } lines[i] = lines[i].split("$") } return lines
}
var alignCols = Fn.new { |lines, just|
// find maximum number of columns var nCols = lines.reduce(0) { |acc, line| (line.count > acc) ? line.count : acc } // find maximum width for each column var maxWids = List.filled(nCols, 0) for (line in lines) { for (i in 0...line.count) { var width = line[i].count if (width > maxWids[i]) maxWids[i] = width } } System.print("With %(justStrs[just]) justification:") for (line in lines) { for (i in 0...line.count) { var width = maxWids[i] + 1 if (just == LEFT) { System.write(Fmt.s(-width, line[i])) } else if (just == RIGHT) { System.write(Fmt.s(width, line[i])) } else if (just == CENTER) { System.write(Fmt.m(width, line[i])) } } System.print() } System.print()
}
var fileName = "align_cols.txt" var lines = getLines.call(fileName) for (i in 0..2) alignCols.call(lines, i)</lang>
- Output:
With LEFT justification: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. With RIGHT justification: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. With CENTER justification: Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
zkl
<lang zkl>fcn format(text,how){
words:=text.split("$").apply("split").flatten(); max:=words.reduce(fcn(p,n){ n=n.len(); n>p and n or p },0); wordsPerCol:=80/(max+1); fmt:=(switch(how){ case(-1){ "%%-%ds ".fmt(max).fmt } case(0) { fcn(max,w){ a:=(max-w.len())/2; b:=max-w.len() - a; String(" "*a,w," "*b); }.fp(max) } case(1){ "%%%ds ".fmt(max).fmt } }); w:=words.walker(); d:=Data(0,Int); do{ w.pump(wordsPerCol,d,fmt).append("\n") } while(not w.atEnd); d.text;
}</lang> <lang zkl>text:= "Given$a$text$file$of$many$lines,$where$fields$within$a$line$\n" "are$delineated$by$a$single$'dollar'$character,$write$a$program\n" "that$aligns$each$column$of$fields$by$ensuring$that$words$in$each$\n" "column$are$separated$by$at$least$one$space.\n" "Further,$allow$for$each$word$in$a$column$to$be$either$left$\n" "justified,$right$justified,$or$center$justified$within$its$column.\n";
format(text,-1).print(); format(text, 0).print(); format(text, 1).print();</lang> Blow apart the text into a list of words, find max len of any word, calc how many words will fit on a 80 col line, format all words into a bit bucket line at a time. Formatting is "%-ms" or "%ms" for left & right justify (m is field width), calculated for center. fmt is the string format method or center calc function, depending. Where string formatting can be used, it would be better to format all words in a line in one go but the code would be longer.
- Output:
Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column. Given a text file of many lines, where fields within a line are delineated by a single 'dollar' character, write a program that aligns each column of fields by ensuring that words in each column are separated by at least one space. Further, allow for each word in a column to be either left justified, right justified, or center justified within its column.
ZX Spectrum Basic
The max width (without 'hack') of ZX Spectrum screen is 32 characters. The text sample is adapted for this feature. <lang zxbasic> 5 BORDER 2 10 DATA 6 20 DATA "The$problem$of$Speccy$" 30 DATA "is$the$screen.$" 40 DATA "Need$adapt$text$sample$" 50 DATA "for$show$the$result$" 60 DATA "without$problem$,right?$" 70 DATA "But$see$the$code.$" 80 REM First find the maximum length of a 'word' 90 LET max=0: LET d$="$" 100 READ nlines 110 FOR l=1 TO nlines 120 READ t$ 130 GO SUB 1000 150 NEXT l 155 LET s$=" "( TO max) 160 REM Now display the aligned text: 170 LET m$="l": GO SUB 2000: PRINT 180 LET m$="r": GO SUB 2000: PRINT 190 LET m$="c": GO SUB 2000 200 STOP 1000 REM Maximum length of a word 1010 LET lt=LEN t$: LET p=1: LET lw=0 1020 FOR i=1 TO lt 1030 IF t$(i)=d$ THEN LET lw=i-p: LET p=i: IF lw>max THEN LET max=lw 1040 NEXT i 1050 RETURN 2000 REM Show aligned text 2010 RESTORE 20 2020 FOR l=1 TO nlines 2030 READ t$ 2040 GO SUB 3000 2050 NEXT l 2060 RETURN 3000 REM Show words 3010 LET lt=LEN t$: LET p=1: LET lw=0 3020 FOR i=1 TO lt 3030 IF t$(i)<>d$ THEN GO TO 3090 3035 LET lw=i-p 3040 LET p$=t$(p TO i-1): LET p=i+1: LET z$=s$ 3050 IF m$="l" THEN LET z$( TO lw)=p$ 3060 IF m$="r" THEN LET z$(max-lw+1 TO )=p$ 3070 IF m$="c" THEN LET z$((max/2)-(lw/2) TO )=p$ 3080 PRINT z$; 3090 NEXT i 3095 PRINT 3100 RETURN</lang>
- Output:
Left alignement example
The problem of Speccy is the screen. Need adapt text sample for show the result without problem ,right? But see the code.
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