Fixed length records
Fixed length read/write
You are encouraged to solve this task according to the task description, using any language you may know.
Before terminals, computers commonly used punch card readers or paper tape input.
A common format before these devices were superseded by terminal technology was based on the Hollerith code, Hollerith code.
These input devices handled 80 columns per card and had a limited character set, encoded by punching holes in one or more rows of the card for each column.
These devices assumed/demanded a fixed line width of 80 characters, newlines were not required (and could not even be encoded in some systems).
- Task
Write a program to read 80 column fixed length records (no newline terminators (but newline characters allowed in the data)) and then write out the reverse of each line as fixed length 80 column records.
Samples here use printable characters, but that is not a given with fixed length data. Filenames used are sample.txt, infile.dat, outfile.dat.
Note: There are no newlines, inputs and outputs are fixed at 80 columns, no more, no less, space padded. Fixed length data is 8 bit complete. NUL bytes of zero are allowed.
These fixed length formats are still in wide use on mainframes, with JCL and with COBOL (which commonly use EBCDIC encoding and not ASCII). Most of the large players in day to day financial transactions know all about fixed length records and the expression logical record length.
- Sample data
To create the sample input file, use an editor that supports fixed length records or use a conversion utility. For instance, most GNU/Linux versions of dd support blocking and unblocking records with a conversion byte size.
Line 1...1.........2.........3.........4.........5.........6.........7.........8 Line 2 Line 3 Line 4 Line 6 Line 7 Indented line 8............................................................ Line 9 RT MARGIN
prompt$ dd if=sample.txt of=infile.dat cbs=80 conv=block
will create a fixed length record file of 80 bytes given newline delimited text input.
prompt$ dd if=infile.dat cbs=80 conv=unblock
will display a file with 80 byte logical record lengths to standard out as standard text with newlines.
- Bonus round
Forth systems often include BLOCK words. A block is 1024 bytes. Source code is stored as 16 lines of 64 characters each (again, no newline character or sequence to mark the end of a line).
Write a program to convert a block file to text (using newlines). Trailing spaces should be excluded from the output.
Also demonstrate how to convert from a normal text file to block form. All lines either truncated or padded to 64 characters with no newline terminators. The last block filled to be exactly 1024 characters by adding blanks if needed. Assume a full range of 8 bit byte values for each character.
The COBOL example uses forth.txt and forth.blk filenames.
Ada
Ada string type is a fixed-length string. <lang Ada> with Ada.Text_IO; use Ada.Text_IO;
procedure Main is
subtype Block is String (1 .. 80); Infile_Name : String := "infile.dat"; outfile_Name : String := "outfile.dat"; Infile : File_Type; outfile : File_Type;
Line : Block := (Others => ' ');
begin
Open (File => Infile, Mode => In_File, Name => Infile_Name); Create (File => outfile, Mode => Out_File, Name => outfile_Name);
Put_Line("Input data:"); New_Line; while not End_Of_File (Infile) loop Get (File => Infile, Item => Line); Put(Line); New_Line; for I in reverse Line'Range loop Put (File => outfile, Item => Line (I)); end loop; end loop; Close (Infile); Close (outfile);
Open(File => infile, Mode => In_File, Name => outfile_name); New_Line; Put_Line("Output data:"); New_Line; while not End_Of_File(Infile) loop Get(File => Infile, Item => Line); Put(Line); New_Line; end loop;
end Main; </lang>
- Output:
Input data: Line 1...1.........2.........3.........4.........5.........6.........7.........8 Line 2 Line 3 Line 4 Line 6 Line 7 Indented line 8............................................................ Line 9 RT MARGIN Output data: 8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
AWK
<lang AWK>
- syntax: GAWK -f FIXED_LENGTH_RECORDS.AWK
BEGIN {
vlr_fn = "FIXED_LENGTH_RECORDS.TXT" flr_fn = "FIXED_LENGTH_RECORDS.TMP" print("bef:") while (getline rec <vlr_fn > 0) { # read variable length records printf("%-80.80s",rec) >flr_fn # write fixed length records without CR/LF printf("%s\n",rec) } close(vlr_fn) close(flr_fn) print("aft:") getline rec <flr_fn # read entire file while (length(rec) > 0) { printf("%s\n",revstr(substr(rec,1,80),80)) rec = substr(rec,81) } exit(0)
} function revstr(str,start) {
if (start == 0) { return("") } return( substr(str,start,1) revstr(str,start-1) )
} </lang>
- Output:
bef: Line 1...1.........2.........3.........4.........5.........6.........7.........8 Line 2 Line 3 Line 4 Line 6 Line 7 Indented line 8............................................................ Line 9 RT MARGIN aft: 8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
C++
<lang cpp>#include <algorithm>
- include <cstdlib>
- include <fstream>
- include <iostream>
void reverse(std::istream& in, std::ostream& out) {
constexpr size_t record_length = 80; char record[record_length]; while (in.read(record, record_length)) { std::reverse(std::begin(record), std::end(record)); out.write(record, record_length); } out.flush();
}
int main(int argc, char** argv) {
std::ifstream in("infile.dat", std::ios_base::binary); if (!in) { std::cerr << "Cannot open input file\n"; return EXIT_FAILURE; } std::ofstream out("outfile.dat", std::ios_base::binary); if (!out) { std::cerr << "Cannot open output file\n"; return EXIT_FAILURE; } try { in.exceptions(std::ios_base::badbit); out.exceptions(std::ios_base::badbit); reverse(in, out); } catch (const std::exception& ex) { std::cerr << "I/O error: " << ex.what() << '\n'; return EXIT_FAILURE; } return EXIT_SUCCESS;
}</lang>
- Output:
After converting with dd:
8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
COBOL
<lang cobol> *> Rosetta Code, fixed length records
*> Tectonics: *> cobc -xj lrecl80.cob identification division. program-id. lrecl80.
environment division. configuration section. repository. function all intrinsic.
input-output section. file-control. select infile assign to infile-name organization is sequential file status is infile-status . select outfile assign to outfile-name organization is sequential file status is outfile-status .
data division. file section. fd infile. 01 input-text pic x(80).
fd outfile. 01 output-text pic x(80).
working-storage section. 01 infile-name. 05 value "infile.dat". 01 infile-status pic xx. 88 ok-input value '00'. 88 eof-input value '10'.
01 outfile-name. 05 value "outfile.dat". 01 outfile-status pic xx. 88 ok-output value '00'.
procedure division.
open input infile if not ok-input then display "error opening input " infile-name upon syserr goback end-if
open output outfile if not ok-output display "error opening output " outfile-name upon syserr goback end-if
*> read lrecl 80 and write the reverse as lrecl 80 read infile perform until not ok-input move function reverse(input-text) to output-text
write output-text if not ok-output then display "error writing: " output-text upon syserr end-if read infile end-perform
close infile outfile
*> from fixed length to normal text, outfile is now the input file open input outfile if not ok-output then display "error opening input " outfile-name upon syserr goback end-if
read outfile perform until not ok-output display function trim(output-text trailing) read outfile end-perform
close outfile
goback. end program lrecl80.</lang>
Given a starting file sample.txt of
Line 1...1.........2.........3.........4.........5.........6.........7.........8 Line 2 Line 3 Line 4 Line 6 Line 7 Indented line 8............................................................ Line 9 RT MARGIN
And a setup pass of
prompt$ dd if=sample.txt of=infile.dat cbs=80 conv=block
- Output:
prompt$ cobc -xj fixed-length.cob 8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ..............................................................8 enil fo tuO NIGRAM TR 9 eniL
prompt$ file outfile.dat outfile.dat: ASCII text, with very long lines, with no line terminators
blocks
Demonstrate text to Forth source block form.
<lang cobol> *> Rosetta Code fixed length records, text to Forth block
identification division. program-id. blocking.
environment division. configuration section. repository. function all intrinsic.
input-output section. file-control. select infile assign to infile-name organization is line sequential file status is infile-status . select outfile assign to outfile-name organization is sequential file status is outfile-status .
data division. file section. fd infile. 01 input-text pic x(64).
fd outfile. 01 output-text pic x(64).
working-storage section. 01 infile-name. 05 value "forth.txt". 01 infile-status pic xx. 88 ok-input value '00'. 88 eof-input value '10'.
01 outfile-name. 05 value "forth.blk". 01 outfile-status pic xx. 88 ok-output value '00'.
procedure division.
*> read a line, padded to or truncated at 64 as defined in FD open input infile if not ok-input then display "error opening input " infile-name upon syserr goback end-if
open output outfile if not ok-output display "error opening output " outfile-name upon syserr goback end-if
move 0 to tally read infile perform until not ok-input move input-text to output-text
write output-text if not ok-output then display "error writing: " output-text upon syserr end-if
add 1 to tally if tally > 15 then move 0 to tally end-if
read infile end-perform
*> Output up to next 1024 byte boundary if tally > 0 then compute tally = 16 - tally move spaces to output-text
perform tally times write output-text if not ok-output then display "error writing: " output-text upon syserr end-if end-perform end-if
close infile outfile
goback. end program blocking.</lang>
Demonstrate Forth source block to text form.
<lang cobol> *> Rosetta Code fixed length records, Forth blocks to text.
identification division. program-id. unblocking.
environment division. configuration section. repository. function all intrinsic.
input-output section. file-control. select infile assign to infile-name organization is sequential file status is infile-status . select outfile assign to outfile-name organization is line sequential file status is outfile-status .
data division. file section. fd infile. 01 input-text pic x(64).
fd outfile. 01 output-text pic x(64).
working-storage section. 01 infile-name. 05 value "forth.blk". 01 infile-status pic xx. 88 ok-input value '00'. 88 eof-input value '10'.
01 outfile-name. 05 value "forth.txt". 01 outfile-status pic xx. 88 ok-output value '00'.
procedure division.
open input infile if not ok-input then display "error opening input " trim(infile-name) upon syserr goback end-if
open output outfile if not ok-output display "error opening write " trim(outfile-name) upon syserr goback end-if
*> read a fixed length line, 64 characters read infile perform until not ok-input move trim(input-text) to output-text
write output-text if not ok-output then display "error writing: " output-text upon syserr end-if read infile end-perform
close infile outfile
goback. end program unblocking.</lang>
Delphi
See Pascal
Free Pascal
See Pascal
FreeBASIC
<lang freebasic> Const As Byte longRegistro = 80 Const archivoEntrada As String = "infile.dat" Const archivoSalida As String = "outfile.dat"
Dim As String linea
'Abre el archivo origen para lectura Open archivoEntrada For Input As #1 'Abre el archivo destino para escritura Open archivoSalida For Output As #2
Print !"Datos de entrada:\n" Do While Not Eof(1)
Line Input #1, linea 'lee una linea Print linea 'imprime por pantalla esa linea For i As Integer = longRegistro To 1 Step -1 Print #2, Chr(Asc(linea, i)); 'escribe el inverso de la linea Next i Print #2, Chr(13);
Loop Close #1, #2
Dim As Integer a Open archivoSalida For Input As #2
Print !"\nDatos de salida:\n" Do While Not Eof(2)
Line Input #2, linea For j As Integer = 0 To Len(linea)-1 Print Chr(linea[j]); a += 1: If a = longRegistro Then a = 0 : Print Chr(13) Next j
Loop Close Sleep </lang>
Go
<lang go>package main
import (
"fmt" "log" "os" "os/exec"
)
func reverseBytes(bytes []byte) {
for i, j := 0, len(bytes)-1; i < j; i, j = i+1, j-1 { bytes[i], bytes[j] = bytes[j], bytes[i] }
}
func check(err error) {
if err != nil { log.Fatal(err) }
}
func main() {
in, err := os.Open("infile.dat") check(err) defer in.Close()
out, err := os.Create("outfile.dat") check(err)
record := make([]byte, 80) empty := make([]byte, 80) for { n, err := in.Read(record) if err != nil { if n == 0 { break // EOF reached } else { out.Close() log.Fatal(err) } } reverseBytes(record) out.Write(record) copy(record, empty) } out.Close()
// Run dd from within program to write output.dat // to standard output as normal text with newlines. cmd := exec.Command("dd", "if=outfile.dat", "cbs=80", "conv=unblock") bytes, err := cmd.Output() check(err) fmt.Println(string(bytes))
}</lang>
- Output:
8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
Bonus round
<lang go>package main
import (
"bufio" "fmt" "log" "os" "strings"
)
func check(err error) {
if err != nil { log.Fatal(err) }
}
func block2text(inputFile, outputFile string) {
in, err := os.Open(inputFile) check(err) defer in.Close()
out, err := os.Create(outputFile) check(err) defer out.Close()
line := make([]byte, 64) empty := make([]byte, 64) for { n, err := in.Read(line) if err != nil { if n == 0 { break // EOF reached } else { log.Fatal(err) } } str := string(line) str = strings.TrimRight(str, " \000") out.WriteString(str + "\n") copy(line, empty) }
}
func text2block(inputFile, outputFile string) {
in, err := os.Open(inputFile) check(err) defer in.Close()
out, err := os.Create(outputFile) check(err) defer out.Close()
scanner := bufio.NewScanner(in) count := 0 for scanner.Scan() { str := scanner.Text() count++ le := len(str) if le > 64 { str = str[0:64] } else if le < 64 { str = fmt.Sprintf("%-64s", str) } out.WriteString(str) } if rem := count % 16; rem > 0 { str := strings.Repeat(" ", (16-rem)*64) out.WriteString(str) }
}
func main() {
block2text("block.dat", "block.txt") text2block("block.txt", "block2.dat")
}</lang>
J
Solution:
Using the 720 byte input file linked to in the Raku entry. <lang j> _80 ]\ fread 'flr-infile.dat' NB. reads the file into a n by 80 array
_80 |.\ fread 'flr-infile.dat' NB. as above but reverses each 80 byte chunk 'flr-outfile.dat' fwrite~ , _80 |.\ fread 'flr-infile.dat' NB. as above but writes result to file (720 bytes) processFixLenFile=: fwrite~ [: , _80 |.\ fread NB. represent operation as a verb/function</lang>
Example Usage:
<lang j> 'flr-outfile.dat' processFixLenFile 'flr-infile.dat' NB. returns number of bytes written 720</lang>
jq
To read the raw input and write out raw strings, the command-line options -R (raw input), -s ("slurp"), and -r (raw output) options are necessary:
jq -Rrs -f program.jq infile.dat
program.jq:
For the sake of generality, we define `cut` with an argument corresponding to the number of columns. To illustrate that an efficient recursive definition is possible, we define an inner helper function, `c`, with arity 0, as currently jq's tail-call optimization is restricted to zero-arity filters:
<lang jq>def cut($n):
def c: if length==0 then empty else .[:$n] , (.[$n:] | c) end; c;
cut(80) | explode | reverse | implode;</lang>
Julia
The program reads from an "infile.dat" file created with dd, as described in the task instructions. <lang julia> function processfixedlengthrecords(infname, blocksize, outfname)
inf = open(infname) outf = open(outfname, "w") filedata = [ read(inf, blocksize) for _ in 1:10 ] for line in filedata s = join([Char(c) for c in line], "") @assert(length(s) == blocksize) write(outf, s) end
end
processfixedlengthrecords("infile.dat", 80, "outfile.dat") </lang>
Lua
<lang lua>-- prep: convert given sample text to fixed length "infile.dat" local sample = [[ Line 1...1.........2.........3.........4.........5.........6.........7.........8 Line 2 Line 3 Line 4
Line 6 Line 7
Indented line 8............................................................
Line 9 RT MARGIN]] local txtfile = io.open("sample.txt", "w") txtfile:write(sample) txtfile:close() os.execute("dd if=sample.txt of=infile.dat cbs=80 conv=block > /dev/null 2>&1")
-- task: convert fixed length "infile.dat" to fixed length "outfile.dat" (reversed lines) local infile = io.open("infile.dat", "rb") local outfile = io.open("outfile.dat", "wb") while true do
local line = infile:read(80) if not line then break end outfile:write(string.reverse(line))
end infile:close() outfile:close()
-- output: os.execute("dd if=outfile.dat cbs=80 conv=unblock")</lang>
- Output:
8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL 1+1 records in 1+1 records out
M2000 Interpreter
Fixed length Record
Form Buffer object (hold a memory block) we can read a byte at offset. So Print Eval(Line80,3) return the 4th byte, and Return Line80, 2:=255,5:=0 set two bytes (unsigned, we place any number and interpreter convert it to byte).
<lang M2000 Interpreter> Module FixedFile {
Read fixed$ OldLocale=Locale \\ chr$(string_argument$) \\ use Locale to convert from Ansi to Utf-16LE \\ Read Ansi form files also use Locale Locale 1032 Try ok { \\ Make the file first Const Center=2 Font "Courier New" Bold 0 Italic 0 Def long m, z=1, f Def text2read$,test3write$ Form 100, 50 ' 100 by 60 characters Document txt$={Line 1...1.........2.........3.........4.........5.........6.........7.........8 Line 2 Line 3 Line 4 Line 6 Line 7 Indented line 8............................................................ Line 9 RT MARGIN } \\ use Help Open in M2000 console for details \\ Method one Report Center, "Make file" \\ for WIDE Random \\ for Utf-16 Open fixed$ for Random Exclusive as #f len=80 m=Paragraph(txt$, 0) z=1 If forward(txt$, m) then while m, z<10 text2write$=Paragraph$(txt$,(m)) Print format$("Len:{0}, Data: {1}",Len(text2write$),text2write$) Put #f, text2write$ , z \\ record number from 1 \\ if number is total records plus one \\ we append a record z++ End while End If Print "Press any key" Push Key$ : Drop Form 80, 40 Report Center, "Method1" For z=1 to 9 Get #f, text2read$, z text2read$=StrRev$(text2read$) Put #f, text2read$, z Print text2read$ Next z Close #f Report Center, "Method2" \\ Method2 \\ Buffer Clear Line80 ... \\ to clear memory \\ here we write all bytes so not needed Buffer Line80 as byte*80 m=filelen(fixed$) If m mod 80=0 Then m=1 \\ now Get/Put read write at byte position \\ we have to use seek to move to byte position \\ This way used for Binary files Open fixed$ for Input as #f1 Open fixed$ for Append as #f2 while not eof(#f1) seek #f1, m Rem Print seek(#f) Get #f1, Line80 Return line80,0:=Str$(StrRev$(Chr$(Eval$(line80,0,80)))) seek #f2, m Put #f2, Line80 seek #f1, m Get #f1, Line80 Print Chr$(Eval$(line80,0,80)) m+=80 End While Close #f1 Close #f2 End if } \\ use Close with no parameters for close all files if something happen If error then Close: Print Error$ Locale OldLocale
} FixedFile "fixed.random"
</lang>
Forth Blocks
<lang M2000 Interpreter> Form 80,50 Print "Forth's Blocks" \\ Forth Blocks Structure Line16 {
a`Line as byte*64
} NewBlock=lambda Line16 -> {
Buffer a`Block as Line16*16 \\ fill spaces Return a`Block, 0:=str$(string$(" ",1024)) =a`Block
} \\ Events are value types, but for closures and groups are reference types Event Doit {
Read something$
} Header=Doit DisplayBlock= Lambda NewBlock, Line16, Doit, Header (Blocks`File$,Block`Number, UseLocale=1033)->{
Page1=NewBlock() Open Blocks`File$ for input as #f Seek #f, 1024*(Block`Number-1)+1 Get #f,Page1 Close #f Document NewDoc$ \\ need to convert from Ansi Call Event Header, "Block:"+Str$(Block`Number) oldlocale=locale locale UseLocale For i=0 to 15 lineAny$=chr$(Eval$(Page1,i, Len(Line16))) Call Event Doit, format$("{0::-2} {1}",i,chr$(Eval$(Page1,i, Len(Line16)))) Next i locale oldlocale
} Document ForthCode$={( Large letter F)
: STAR [CHAR] * EMIT ; : STARS 0 DO STAR LOOP ; : MARGIN CR 30 SPACES ; : BLIP MARGIN STAR ; : BAR MARGIN 5 STARS ; : F BAR BLIP BAR BLIP BLIP CR ; }
\\ Make Document bigger than 16 lines \\ doc.par(ForthCode$) return paragraphs (here we have no wrap) \\ actuall lines per layer can be found from Report (the renderer) \\ using Reportlines. layer can be the printer page. ForthCode$=string$(ForthCode$,5) Print "Make Block" Page1=NewBlock() Locale 1033 Blocks`File$="Forth Blocks" Block`Number=1 \\ Apppend three times same blocks For Pass=1 to 3
If Doc.Len(ForthCode$)>0 then For i=1 to Doc.par(ForthCode$)-1 \\ we give order number but Paragraph$ use unique number for paragraphs \\ if we didn't delete or insert lines, then these two are the same Print Paragraph$(ForthCode$, Paragraph(ForthCode$,i)) \\ convert to Ansi using Locale \\ offset from 0, so minus 1 \\ offset 1 is at len(Line16) \\ Page1(0) is the real address, but here doesn't matter Return Page1, (i-1) mod 16:=Str$(Paragraph$(ForthCode$, Paragraph(ForthCode$,i))) if i mod 16=0 then Gosub SaveBlock Next i i-- if Not i mod 16=0 then Gosub SaveBlock End if
Next Pass \\ now we read from disk Class DocumentKeeper {
Document Text$ Function AppendLine(aline$) { \\ right trim$ .Text$<=Mid$(Trim$("*"+aline$),2)+{ } }
} Function Disp(aline$) {
Print aline$
} DocumentKeeper=DocumentKeeper() Event Doit New Disp() Event Header New Disp() For i=1 to Block`Number-1
Call DisplayBlock(Blocks`File$, i) Print "Press any key" Push key$ : Drop
Next i Event Doit Drop Disp() Event Doit New DocumentKeeper.AppendLine() Event Header Hold For i=1 to Block`Number-1
Call DisplayBlock(Blocks`File$, i)
Next i Report DocumentKeeper.Text$
End SaveBlock:
Print "Save as Number ";Block`Number If Exist(Blocks`File$) then \\ check if there is space for this block If Not filelen(Blocks`File$) div 1024>=Block`Number-1 Then Error "Wrong Block Number" End if Else Print "not exist" Open Blocks`File$ for output as #f Close #f Wait 100 \\ or Error "Empty File" if we wish only read If Block`Number<>1 then Error "Wrong Block Number" End if Open Blocks`File$ for append as #f Seek #f, Block`Number*1024-1023 ' so we seek to first byte Put #f, Page1 Close #f Block`Number++ Page1=NewBlock()
Return </lang>
Mathematica / Wolfram Language
<lang Mathematica> FixedRecordReverse[inFile_File, outFile_File, length_ : 80] :=
Module[{inStream, outStream, line, byte}, WithCleanup[ inStream = OpenRead[inFile, BinaryFormat -> True]; outStream = OpenWrite[outFile, BinaryFormat -> True]; , While[True, line = {}; Do[ byte = BinaryRead[inStream, "Byte"]; AppendTo[line, byte] , length ]; If[byte === EndOfFile, Break[]]; line = Reverse[line]; BinaryWrite[outStream, line] ] , Close[outStream]; Close[inStream]; ]; (* Verify the result *) RunProcess[{"dd", "if=" <> outFile1, "cbs=" <> ToString[length], "conv=unblock"}, "StandardOutput"] ];
</lang>
This function will both return the reversed string in the notebook AND write the record to outfile.dat:
- Input:
In[]:= FixedRecordReverse[File["infile.dat"], File["outfile.dat"]]
- Output:
Out[]= "\ 8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL "
Neko
<lang ActionScript>/**
fixed length records, in Neko
- /
var LRECL = 80
var reverse = function(s) {
var len = $ssize(s) if len < 2 return s
var reverse = $smake(len) var pos = 0 while len > 0 $sset(reverse, pos ++= 1, $sget(s, len -= 1)) return reverse
}
var file_open = $loader.loadprim("std@file_open", 2) var file_read = $loader.loadprim("std@file_read", 4) var file_write = $loader.loadprim("std@file_write", 4) var file_close = $loader.loadprim("std@file_close", 1)
var input = file_open("infile.dat", "r") var output = file_open("outfile.dat", "w")
var len var pos = 0 var record = $smake(LRECL)
while true {
try { len = file_read(input, record, pos, LRECL) if len != LRECL $throw("Invalid read")
len = file_write(output, reverse(record), pos, LRECL) if len != LRECL $throw("Invalid write") } catch a break;
} file_close(input) file_close(output)</lang>
- Output:
prompt$ dd if=infile.txt cbs=80 conv=block status=none of=infile.dat prompt$ nekoc fixed-length.neko prompt$ neko fixed-length prompt$ dd if=outfile.dat cbs=80 conv=unblock status=none 8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
Nim
Task: fixed length records
<lang Nim>import algorithm
proc reverse(infile, outfile: string) =
let input = infile.open(fmRead) defer: input.close() let output = outfile.open(fmWrite) defer: output.close()
var buffer: array[80, byte] while not input.endOfFile: let countRead = input.readBytes(buffer, 0, 80) if countRead < 80: raise newException(IOError, "truncated data when reading") buffer.reverse() let countWrite = output.writeBytes(buffer, 0, 80) if countWrite < 80: raise newException(IOError, "truncated data when writing")
reverse("infile.dat", "outfile.dat")</lang>
- Output:
Contents of file “result.txt" created by command dd if=outfile.dat of=result.txt cbs=80 conv=unblock
:
8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
Bonus: Forth blocks
<lang Nim>import strutils
const EmptyRecord = repeat(' ', 64)
- ---------------------------------------------------------------------------------------------------
proc textToBlock(infile, outfile: string) =
## Read lines of a text file and write them as 64 bytes records.
let input = infile.open(fmRead) defer: input.close() let output = outfile.open(fmWrite) defer: output.close()
var count = 0 while not input.endOfFile: var record = input.readLine() if record.len > 64: record.setLen(64) # Truncate to 64 bytes. elif record.len < 64: record &= repeat(' ', 64 - record.len) # Pad to 64 bytes. if output.writeChars(record, 0, 64) != 64: raise newException(IOError, "error while writing block file") inc count
# Complete block with empty records. let rem = count mod 16 if rem != 0: for _ in 1..(16 - rem): if output.writeChars(EmptyRecord, 0, 64) != 64: raise newException(IOError, "error while writing block file")
- ---------------------------------------------------------------------------------------------------
proc blockToText(infile, outfile: string) =
## Read 64 bytes records and write them as lines trimming spaces.
let input = infile.open(fmRead) defer: input.close() let output = outfile.open(fmWrite) defer: output.close()
var line: string while not input.endOfFile: line.setLen(64) # Allocate space for the 64 bytes to read. if input.readChars(line, 0, 64) != 64: raise newException(IOError, "error while reading block file") line = line.strip(leading = false, trailing = true) & '\n' output.write(line)
- ———————————————————————————————————————————————————————————————————————————————————————————————————
when isMainModule:
textToBlock("block1.txt", "block.dat") blockToText("block.dat", "block2.txt")</lang>
Pascal
<lang pascal>program reverseFixedLines(input, output, stdErr); const lineLength = 80; var // in Pascal, `string[n]` is virtually an alias for `array[1..n] of char` line: string[lineLength]; i: integer; begin while not eof() do begin for i := 1 to lineLength do begin read(line[i]); end;
for i := lineLength downto 1 do begin write(line[i]); end; writeLn(); end; end.</lang>
Perl
<lang perl>open $in, '<', 'flr-infile.dat'; open $out, '>', 'flr-outfile.dat';
while ($n=sysread($in, $record, 80)) { # read in fixed sized binary chunks
syswrite $out, reverse $record; # write reversed records to file print reverse($record)."\n" # display reversed records, line-by-line
} close $out;</lang>
- Output:
8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
There Is More Than One Way To Do It
Read with standard <> using $/ set to a ref-to-int to read a fixed block size. <lang perl>{ local ($/, @ARGV) = (\80, 'infile.dat'); open my $out, '>', 'outfile.dat' or die $!; print $out scalar reverse while <>; # can read fixed length too :) close $out; }</lang> Slurp and reverse each line in place. <lang perl>use Path::Tiny; path('outfile.dat')->spew(path('infile.dat')->slurp =~ s/.{80}/reverse $&/gesr);</lang> Double reverse. <lang perl>use Path::Tiny; path('outfile.dat')->spew(reverse unpack '(a80)*', reverse path('infile.dat')->slurp); </lang> Bonus round: convert the sample file to Forth Block format. <lang perl>use Path::Tiny; path('outfile.dat')->spew(pack '(A64)16', split /\n/, path('sample.txt')->slurp);</lang> Bonus Round: convert Forth Block format to plain text format. <lang perl>use Path::Tiny; path('sample2.txt')->spew(map "$_\n", unpack '(A64)16', path('outfile.dat')->slurp);</lang>
Phix
You might want to investigate using builtins such as get_text() and read_lines(), but they were never really designed for fixed length record handling and for me, for this task, their limits outweight any advantages. To simplify matters, this creates any files needed on the fly. <lang Phix>constant sample_text = """ Line 1...1.........2.........3.........4.........5.........6.........7.........8 Line 2 Line 3 Line 4
Line 6 Line 7
Indented line 8............................................................
Line 9 RT MARGIN"""
constant indat = "infile.dat",
outdat = "outfile.dat"
if not file_exists(indat) then
object text = get_text("sample.txt") if text=-1 then text = sample_text end if sequence s = split(text,'\n') integer fn = open(indat,"wb") for i=1 to length(s) do puts(fn,s[i]&repeat(' ',80-length(s[i]))) end for close(fn) printf(1,"%s created (%d bytes)\n",{indat,get_file_size(indat)})
end if
function get_block(integer fn, size)
string res = "" for i=1 to size do res &= getc(fn) end for return res
end function
integer fn = open(indat,"rb"),
isize = get_file_size(indat)
puts(1,"reversed:\n") for i=1 to isize by 80 do
?reverse(get_block(fn,80))
end for close(fn)
-- Bonus part, 16*64 (=1024) block handling:
procedure put_block(integer fn, sequence lines)
lines &= repeat("",16-length(lines)) for i=1 to length(lines) do string li = lines[i] if length(li)>64 then li = li[1..64] else li &= repeat(' ',64-length(li)) end if puts(fn,li) end for
end procedure
fn = open(outdat,"wb") put_block(fn,split(sample_text,'\n')) close(fn) integer osize = get_file_size(outdat) printf(1,"\n%s created (%d bytes):\n",{outdat,osize}) fn = open(outdat,"rb") sequence lines = {} for i=1 to osize by 64 do
string line = get_block(fn,64) ?line lines = append(lines,trim_tail(line,' '))
end for lines = trim_tail(lines,{""}) puts(1,"\ntrimmed:\n") pp(lines,{pp_Nest,1}) {} = delete_file(indat) -- (for consistent 2nd run)</lang>
- Output:
infile.dat created (720 bytes) reversed: "8.........7.........6.........5.........4.........3.........2.........1...1 eniL" " 2 eniL" " 3 eniL" " 4 eniL" " " " 6 eniL" " 7 eniL" "............................................................8 enil detnednI " "NIGRAM TR 9 eniL" outfile.dat created (1024 bytes): "Line 1...1.........2.........3.........4.........5.........6...." "Line 2 " "Line 3 " "Line 4 " " " "Line 6 " "Line 7 " " Indented line 8............................................" "Line 9 " " " " " " " " " " " " " " " trimmed: {"Line 1...1.........2.........3.........4.........5.........6....", "Line 2", "Line 3", "Line 4", {}, "Line 6", "Line 7", " Indented line 8............................................", "Line 9"}
Python
<lang Python> infile = open('infile.dat', 'rb') outfile = open('outfile.dat', 'wb')
while True:
onerecord = infile.read(80) if len(onerecord) < 80: break onerecordreversed = bytes(reversed(onerecord)) outfile.write(onerecordreversed)
infile.close() outfile.close() </lang>
Output:
dd if=outfile.dat cbs=80 conv=unblock 8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL 1+1 records in 1+1 records out
Raku
(formerly Perl 6) Link to a copy of the input file used: flr-infile.dat
Essentially the same as task Selective_File_Copy except more boring.
<lang perl6>$*OUT = './flr-outfile.dat'.IO.open(:w, :bin) orelse .die; # open a file in binary mode for writing while my $record = $*IN.read(80) { # read in fixed sized binary chunks
$*OUT.write: $record.=reverse; # write reversed records out to $outfile $*ERR.say: $record.decode('ASCII'); # display decoded records on STDERR
} close $*OUT;</lang>
- Output:
8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
REBOL
<lang REBOL> inp: open %infile.dat out: open/new %outfile.dat
while [ not empty? line: copy/part inp 80 ][ write out reverse line ]
close inp close out </lang>
REXX
<lang rexx>/*REXX pgm reads fixed─length 80 byte records; reverses each record, displays to term. */ iFID= 'FIXEDLEN.TXT' /*the file's filename (used for input).*/ call charin iFID, 1, 0 /*open the file, point rec pointer to 1*/
/* [+] just to be safe, position file.*/ do j=1 while chars(iFID) >= 80 /*read data records of LRECL ≡ eighty. */ @.j= charin(iFID, , 80) /*read a data record of eighty bytes. */ end /*j*/
- = j - 1 /*adjust # of records (J is 1 too high)*/
do k=1 for # /* [↓] process all the records read. */ say reverse(@.k) /* reverse a record and write to term. */ end /*k*/ /*stick a fork in it, we're all done. */</lang>
- output when using the default input file:
- Output:
8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
Rust
<lang rust>use std::fs::File; use std::io::prelude::*; use std::io::{BufReader, BufWriter};
fn reverse_file(
input_filename: &str, output_filename: &str, record_len: usize,
) -> std::io::Result<()> {
let mut input = BufReader::new(File::open(input_filename)?); let mut output = BufWriter::new(File::create(output_filename)?); let mut buffer = vec![0; record_len]; while input.read(&mut buffer)? == record_len { buffer.reverse(); output.write_all(&buffer)?; } output.flush()?; Ok(())
}
fn main() {
match reverse_file("infile.dat", "outfile.dat", 80) { Ok(()) => {} Err(error) => eprintln!("I/O error: {}", error), }
}</lang>
- Output:
After converting with dd:
8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
Tcl
<lang tcl>chan configure stdin -translation binary chan configure stdout -translation binary
set lines [regexp -inline -all {.{80}} [read stdin]] puts -nonewline [join [lmap line $lines {string reverse $line}] ""]
- More "traditional" way
- while {[set line [read stdin 80]] ne ""} {
- puts -nonewline [string reverse $line]
- }</lang>
- Output:
$ exec 2>/dev/null $ dd if=sample.txt cbs=80 conv=block | tclsh flr.tcl | dd cbs=80 conv=unblock 8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
Wren
<lang ecmascript>import "io" for File import "/str" for Str
var records = File.read("infile.dat") File.create("outfile.dat") { |f|
for (record in Str.chunks(records, 80)) { record = record[-1..0] f.writeBytes(record) }
} records = File.read("outfile.dat") for (record in Str.chunks(records, 80)) System.print(record)</lang>
- Output:
8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
Bonus round
<lang ecmascript>import "/ioutil" for File, FileUtil import "/str" for Str
var blockToText = Fn.new { |blockFileName, textFileName|
var block = File.read(blockFileName) var lb = FileUtil.lineBreak File.create(textFileName) { |f| for (chunk in Str.chunks(block, 64)) { f.writeBytes(chunk.trimEnd() + lb) } }
}
var textToBlock = Fn.new { |textFileName, blockFileName|
var lines = FileUtil.readLines(textFileName).where { |l| l != "" }.toList var text = lines.map { |l| (l.count < 64) ? l + (" " * (64-l.count)) : l[0..63] }.join() var rem = text.count % 1024 if (rem > 0) text = text + (" " * (1024 - rem)) File.create(blockFileName) { |f| f.writeBytes(text) }
}
// create a block file File.create("data.blk") { |f|
f.writeBytes("a" * 1024) f.writeBytes("b" * 1024) f.writeBytes("c" * 1024) f.writeBytes("d" * 1024)
}
blockToText.call("data.blk", "data.txt") textToBlock.call("data.txt", "data2.blk") System.print(FileUtil.areDuplicates("data.blk", "data2.blk"))</lang>
- Output:
true
zkl
Reading from the dd formatted file, which is 720 characters:
Line 1...1.........2.........3.........4.........5.........6.........7.........8Line 2 Line 3 Line 4 Line 6 Line 7 Indented line 8............................................................Line 9 RT MARGIN
<lang zkl>File("infile.dat","rb") // could contain nulls and newlines
// Since we are writing to a ASCII terminal, ignore nulls
.walker(3).chunk(80,String).pump(Console.println,"reverse"); // 3-->read chars</lang>
- Output:
8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL ............................................................8 enil detnednI NIGRAM TR 9 eniL
To write to a file (as one big line), preserving nulls: <lang zkl>in,out := File("infile.dat","rb"), File("outfile.dat","wb"); in.walker(0).chunk(80).pump(out,"reverse"); // may contain nulls and newlines // 0-->read bytes, chunk to list of bytes, reverse and write the bytes in.close(); out.close();</lang> outfile.dat:
- Output:
8.........7.........6.........5.........4.........3.........2.........1...1 eniL 2 eniL 3 eniL 4 eniL 6 eniL 7 eniL............................................................8 enil detnednI NIGRAM TR 9 eniL
Bonus Round <lang zkl>// read block file (as in read a file of blocks) to text fcn readFourthBlock(inFileNm){
out,f,buf := Sink(String), File(inFileNm,"rb"), Data(1024); while(f.read(1024,buf,False)){ // read 64 chars from buf, strip ws from right side, repeat buf.walker(3).chunk(64,String).pump(out,T("strip",1),'+("\n")); } f.close(); out.close();
}</lang> <lang zkl>// read text file and write as block to file fcn formatToFourthBlock(inFileNm,outFileNm){
n,blk,in,out := 0, Data(), File(inFileNm,"r"), File(outFileNm,"wb"); foreach line in (in.walker(11)){ // right side stripped if(not line) blk.write(" "*64); else blk.write(line.walker().chunk(64,String).pump(String,"%-64s".fmt)); if(blk.len()==1024){ out.write(blk); blk.clear(); } } if(blk) out.write(blk, " "*(1024 - blk.len())); f.close(); out.close();
}</lang>