path: root/gcc/m2/gm2-libs-log/RealInOut.mod

(* RealInOut.mod provides a compatible RealInOut PIM 234 module.

Copyright (C) 2004-2025 Free Software Foundation, Inc.
Contributed by Gaius Mulley <gaius.mulley@southwales.ac.uk>.

This file is part of GNU Modula-2.

GNU Modula-2 is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.

GNU Modula-2 is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
General Public License for more details.

Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.

You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see
<http://www.gnu.org/licenses/>.  *)

IMPLEMENTATION MODULE RealInOut ;

FROM DynamicStrings IMPORT String, InitString, KillString, RemoveWhitePrefix,
                           Length, Mult, InitStringChar, Mark, ConCat,
                           InitStringDB, InitStringCharStarDB,
                           InitStringCharDB, MultDB, DupDB, SliceDB ;

FROM StringConvert IMPORT StringToLongreal, LongrealToString ;
FROM SYSTEM IMPORT ADR, BYTE ;
IMPORT InOut ;

VAR
   DecimalPlacesLength: CARDINAL ;

(*
 #define InitString(X) InitStringDB(X, __FILE__, __LINE__)
 #define InitStringCharStar(X) InitStringCharStarDB(X, __FILE__, __LINE__)
 #define InitStringChar(X) InitStringCharDB(X, __FILE__, __LINE__)
 #define Mult(X,Y) MultDB(X, Y, __FILE__, __LINE__)
 #define Dup(X) DupDB(X, __FILE__, __LINE__)
 #define Slice(X,Y,Z) SliceDB(X, Y, Z, __FILE__, __LINE__)
*)

(*
   SetNoOfDecimalPlaces - number of decimal places WriteReal and
                          WriteLongReal should emit.  This procedure
                          can be used to override the default
                          DefaultDecimalPlaces constant.
*)

PROCEDURE SetNoOfDecimalPlaces (places: CARDINAL) ;
BEGIN
   DecimalPlacesLength := places
END SetNoOfDecimalPlaces ;


(*
   Pad - return a padded string with prefixed white space to ensure
         that at least, n, characters are used.
*)

PROCEDURE Pad (s: String; n: CARDINAL) : String ;
BEGIN
   IF Length(s)<n
   THEN
      s := ConCat(Mult(Mark(InitStringChar(' ')), n-Length(s)), Mark(s))
   END ;
   RETURN( s )
END Pad ;


(*
   ReadReal - reads a real number, legal syntaxes include:
              100, 100.0, 100e0, 100E0, 100E-1, E2, +1E+2, 1e+2
*)

PROCEDURE ReadReal (VAR x: REAL) ;
VAR
   s: String ;
BEGIN
   s := RemoveWhitePrefix(InOut.ReadS()) ;
   IF InOut.Done
   THEN
      x := VAL(REAL, StringToLongreal(s, Done))
   ELSE
      Done := FALSE
   END ;
   s := KillString(s)
END ReadReal ;


(*
   WriteReal - writes a real to the terminal. The real number
               is right justified and, n, is the minimum field
               width.
*)

PROCEDURE WriteReal (x: REAL; n: CARDINAL) ;
VAR
   s: String ;
BEGIN
   s := LongrealToString(VAL(LONGREAL, x), 0, DecimalPlacesLength) ;
   s := Pad(s, n) ;
   s := KillString(InOut.WriteS(s)) ;
   Done := TRUE
END WriteReal ;


(*
   WriteRealOct - writes the real to terminal in octal words.
*)

PROCEDURE WriteRealOct (x: REAL) ;
VAR
   p: POINTER TO BYTE ;
   i: CARDINAL ;
BEGIN
   p := ADR(x) ;
   i := 0 ;
   WHILE i<SIZE(x) DO
      InOut.WriteOct(VAL(CARDINAL, p^), 3) ;
      INC(p) ;
      INC(i)
   END
END WriteRealOct ;


(*
   ReadLongReal - reads a LONGLONGREAL number, legal syntaxes include:
                  100, 100.0, 100e0, 100E0, 100E-1, E2, +1E+2, 1e+2
*)

PROCEDURE ReadLongReal (VAR x: LONGREAL) ;
VAR
   s: String ;
BEGIN
   s := RemoveWhitePrefix(InOut.ReadS()) ;
   IF InOut.Done
   THEN
      x := StringToLongreal(s, Done)
   ELSE
      Done := FALSE
   END ;
   s := KillString(s)
END ReadLongReal ;


(*
   WriteLongReal - writes a real to the terminal. The real number
                   is right justified and, n, is the minimum field
                   width.
*)

PROCEDURE WriteLongReal (x: LONGREAL; n: CARDINAL) ;
VAR
   s: String ;
BEGIN
   s := LongrealToString(VAL(LONGREAL, x), 0, DecimalPlacesLength) ;
   s := Pad(s, n) ;
   s := KillString(InOut.WriteS(s)) ;
   Done := TRUE
END WriteLongReal ;


(*
   WriteLongRealOct - writes the real to terminal in octal words.
*)

PROCEDURE WriteLongRealOct (x: LONGREAL) ;
VAR
   p: POINTER TO BYTE ;
   i: CARDINAL ;
BEGIN
   p := ADR(x) ;
   i := 0 ;
   WHILE i<SIZE(x) DO
      InOut.WriteOct(VAL(CARDINAL, p^), 3) ;
      INC(p) ;
      INC(i)
   END
END WriteLongRealOct ;


(*
   ReadShortReal - reads a SHORTREAL number, legal syntaxes include:
                   100, 100.0, 100e0, 100E0, 100E-1, E2, +1E+2, 1e+2
*)

PROCEDURE ReadShortReal (VAR x: SHORTREAL) ;
VAR
   s: String ;
BEGIN
   s := RemoveWhitePrefix(InOut.ReadS()) ;
   IF InOut.Done
   THEN
      x := VAL(SHORTREAL, StringToLongreal(s, Done))
   ELSE
      Done := FALSE
   END ;
   s := KillString(s)
END ReadShortReal ;


(*
   WriteShortReal - writes a real to the terminal. The real number
                    is right justified and, n, is the minimum field
                    width.
*)

PROCEDURE WriteShortReal (x: SHORTREAL; n: CARDINAL) ;
VAR
   s: String ;
BEGIN
   s := LongrealToString(VAL(LONGREAL, x), 0, DecimalPlacesLength) ;
   s := Pad(s, n) ;
   s := KillString(InOut.WriteS(s)) ;
   Done := TRUE
END WriteShortReal ;


(*
   WriteShortRealOct - writes the real to terminal in octal words.
*)

PROCEDURE WriteShortRealOct (x: SHORTREAL) ;
VAR
   p: POINTER TO BYTE ;
   i: CARDINAL ;
BEGIN
   p := ADR(x) ;
   i := 0 ;
   WHILE i<SIZE(x) DO
      InOut.WriteOct(VAL(CARDINAL, p^), 3) ;
      INC(p) ;
      INC(i)
   END
END WriteShortRealOct ;


BEGIN
   DecimalPlacesLength := DefaultDecimalPlaces
END RealInOut.