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asciimat

Converts an array of text into ASCII/UTF8 codes, and reciprocally

Syntax

unicodes = asciimat(text)
text = asciimat(unicodes)

Arguments

text
single text, or vector, matrix or hypermatrix of texts. Text elements may have various lengths, and may include UTF-8 extended characters.

asciimat(…) always concatenates the columns of text along rows, as input or output argument.

unicodes
single integer ASCII code, or vector, matrix or hypermatrix of ASCII or unicode 1-byte numbers.

Description

asciimat(…) converts an array of text into an array of related 1-byte ascii or UTF-8 unicodes, and reciprocally.

asciimat(…) is an Octave/Matlab compatibility function, aiming to provide in the m2sci Matlab-to-Scilab code converter an equivalence for the addition and subtraction between some character strings or with numbers. Thus,

>> ['ab' 'c' ; 'd' 'ef'] + 4
ans =
   101   102   103
   104   105   106

>> ['ab';'cd'] + ['ef';'gh']
ans =
   198   200
   202   204

>> ['ab';'cd'] - ['ef';'gh']
ans =
  -4  -4
  -4  -4

can be performed by the Matlab-to-Scilab converter with

asciimat(['ab' 'c' ; 'd' 'ef']) + 4
asciimat(['ab';'cd']) + asciimat(['ef';'gh'])
asciimat(['ab';'cd']) - asciimat(['ef';'gh'])

asciimat(…) should not be used out of the M2Sci converter.

unicodes = asciimat(text)

For a scalar or row text, asciimat(text) is equal to ascii(text). All strings are glued together before building the row vector of codes of their characters.

For any text array of any sizes, made only of empty strings "", asciimat(text) returns []. Indeed, asciimat(…) considers "" as a void vector of (indexed) characters as in Octave/Matlab, not as a Scilab text object.

For a 2D matrix text, asciimat(text) builds a unique column of text by gluing text columns along rows.

Then, for each row/string of the column, the row vector of ASCII or UTF-8 codes of all its characters is computed.

Finally, all resulting row vectors of codes are vertically concatenated to build the unicodes matrix. Too short vectors of codes are beforehand padded with the ascii(" ")==32 code.

For an hypermatrix of text, the processing is basically the same, as if all text rows over all dimensions > 2 were beforehand stacked into a 2D matrix. The resulting 2D unicodes matrix is finally reshaped into an hypermatrix..

The sizes of unicodes and text arrays differ only by their number of columns.

text = asciimat(unicodes)

For a scalar or a row unicodes, asciimat(unicodes) is equal to ascii(unicodes). It returns the character string whose characters have the given codes.

Zeros stand for the code of the empty character "", as the true ascii(0) character is currently not supported in Scilab 6.

For a column, matrix or hypermatrix unicodes, each unicodes row is processed separately and builds a single Scilab character string.

All trailing ascii(32) spaces of built character strings are trimmed.

Finally, text has the size of unicodes, except that size(text,2)==1.

Examples

asciimat([])
asciimat("")
asciimat(0)

r = asciimat("A")
asciimat(r)

// With an input ROW:
r = asciimat(["A" "BC"])
asciimat(r)

r = asciimat(["A" "" "BC"])      // "" in rows are ignored
asciimat(r)
--> asciimat([])
 ans  =
    []
--> asciimat("")
 ans  =
    []
--> asciimat(0)
 ans  =
  ""

--> r = asciimat("A")
 r  =
   65.
--> asciimat(r)
 ans  =
  "A"

--> // With an input ROW:
--> r = asciimat(["A" "BC"])
 r  =
   65.   66.   67.

--> asciimat(r)
 ans  =
  "ABC"

--> r = asciimat(["A" "" "BC"])      // "" in rows are ignored
 r  =
   65.   66.   67.

--> asciimat(r)
 ans  =
  "ABC"

With an input column:

asciimat(["" ; ""])
asciimat((97:110)')'
strsplit("a":"n")'

r = asciimat(["ABC" ; "" ; "D"]) // Padding short rows with 32
asciimat(r)
r = asciimat(["AB" ; "αβ"])      // 1-byte UTF-8 coding is used
asciimat(r)                      // Trailing ascii(32) spaces are trimmed
--> asciimat(["" ; ""])
 ans  =
    []

--> asciimat((97:110)')'
 ans  =
  "a"  "b"  "c"  "d"  "e"  "f"  "g"  "h"  "i"  "j"  "k"  "l"  "m"  "n"

--> strsplit("a":"n")'
 ans  =
  "a"  "b"  "c"  "d"  "e"  "f"  "g"  "h"  "i"  "j"  "k"  "l"  "m"  "n"

--> r = asciimat(["ABC" ; "" ; "D"]) // Padding short rows with 32
 r  =
   65.   66.   67.
   32.   32.   32.
   68.   32.   32.

--> asciimat(r)
 ans  =
  "ABC"
  ""
  "D"

--> r = asciimat(["AB" ; "αβ"])      // 1-byte UTF-8 coding is used
 r  =
   65.    66.    32.    32.
   206.   177.   206.   178.

--> asciimat(r)                      // Trailing ascii(32) spaces are trimmed
 ans  =
  "AB"
  "αβ"

With a 2D input matrix:

r = asciimat([" AB", " ", "CD " ; "α", "βγ", " "])
asciimat(r)
--> r = asciimat([" AB", " ", "CD " ; "α", "βγ", " "])
 r  =
   32.    65.    66.    32.    67.    68.    32.
   206.   177.   206.   178.   206.   179.   32.

--> asciimat(r)
 ans  =
  " AB CD"
  "αβγ"

With a 3D input hypermatrix:

x = ["a €" "" ; "" "" ;  "" "" ];
x2 = [" α" "βδc" ; "" "" ; "ε4" ""];
h = cat(3, x, x2)
r = asciimat(h)
asciimat(r)
--> h = cat(3, x, x2)
 h  =
(:,:,1)
  "a €"  "bδ "
  ""     ""
  ""     ""
(:,:,2)
  " α"  "βδc"
  ""    ""
  "ε4"  ""

--> r = asciimat(h)
 r  =
(:,:,1)
   97.   32.   226.   130.   172.   98.   206.   180.   32.
   32.   32.   32.    32.    32.    32.   32.    32.    32.
   32.   32.   32.    32.    32.    32.   32.    32.    32.
(:,:,2)
   32.    206.   177.   206.   178.   206.   180.   99.   32.
   32.    32.    32.    32.    32.    32.    32.    32.   32.
   206.   181.   52.    32.    32.    32.    32.    32.   32.

--> asciimat(r)
 ans  =
(:,:,1)
  "a €bδ"
  ""
  ""
(:,:,2)
  " αβδc"
  ""
  "ε4"

See also

  • ascii — string ASCII conversions
  • char — converts in a character array

History

VersionDescription
6.1.1
  • Text components with various lengths or/and including UTF-8 characters are accepted. Padding with the ascii(" ")==32 code implemented.
  • asciimat(unicodes) trims all trailing spaces.
  • For any unicodes hypermatrix, r = asciimat(unicodes) no longer squeezes size(r,2).
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Last updated:
Thu Oct 24 11:16:04 CEST 2024