ack/lang/m2/libm2/RealConver.mod
1989-03-20 12:46:25 +00:00

324 lines
6.8 KiB
Modula-2

(*
(c) copyright 1988 by the Vrije Universiteit, Amsterdam, The Netherlands.
See the copyright notice in the ACK home directory, in the file "Copyright".
*)
(*$R-*)
IMPLEMENTATION MODULE RealConversions;
(*
Module: string-to-real and real-to-string conversions
Author: Ceriel J.H. Jacobs
Version: $Header$
*)
PROCEDURE RealToString(arg: REAL;
width, digits: INTEGER;
VAR str: ARRAY OF CHAR;
VAR ok: BOOLEAN);
BEGIN
LongRealToString(LONG(arg), width, digits, str, ok);
END RealToString;
TYPE
Powers = RECORD
pval: LONGREAL;
rpval: LONGREAL;
exp: INTEGER
END;
VAR Powers10: ARRAY[1..6] OF Powers;
PROCEDURE LongRealToString(arg: LONGREAL;
width, digits: INTEGER;
VAR str: ARRAY OF CHAR;
VAR ok: BOOLEAN);
VAR pointpos: INTEGER;
i: CARDINAL;
ecvtflag: BOOLEAN;
r: LONGREAL;
ind1, ind2 : CARDINAL;
sign: BOOLEAN;
ndigits: CARDINAL;
BEGIN
r := arg;
IF digits < 0 THEN
ecvtflag := TRUE;
ndigits := -digits;
ELSE
ecvtflag := FALSE;
ndigits := digits;
END;
IF (HIGH(str) < ndigits + 3) THEN
str[0] := 0C; ok := FALSE; RETURN
END;
pointpos := 0;
sign := r < 0.0D;
IF sign THEN r := -r END;
IF r # 0.0D THEN
IF r >= 10.0D THEN
FOR i := 1 TO 6 DO
WITH Powers10[i] DO
WHILE r >= pval DO
r := r * rpval;
INC(pointpos, exp)
END;
END;
END;
END;
IF r < 1.0D THEN
FOR i := 1 TO 6 DO
WITH Powers10[i] DO
WHILE r*pval < 10.0D DO
r := r * pval;
DEC(pointpos, exp)
END;
END;
END;
END;
(* Now, we have r in [1.0, 10.0) *)
INC(pointpos);
END;
ind1 := 0;
ok := TRUE;
ind2 := ndigits+1;
IF NOT ecvtflag THEN
IF INTEGER(ind2) + pointpos < 0 THEN
ind2 := 0;
ELSE
ind2 := INTEGER(ind2) + pointpos
END;
END;
IF ind2 > HIGH(str) THEN
ok := FALSE;
str[0] := 0C;
RETURN;
END;
WHILE ind1 < ind2 DO
str[ind1] := CHR(TRUNC(r)+ORD('0'));
r := 10.0D * (r - FLOATD(TRUNC(r)));
INC(ind1);
END;
IF ind2 > 0 THEN
DEC(ind2);
ind1 := ind2;
str[ind2] := CHR(ORD(str[ind2])+5);
WHILE str[ind2] > '9' DO
str[ind2] := '0';
IF ind2 > 0 THEN
DEC(ind2);
str[ind2] := CHR(ORD(str[ind2])+1);
ELSE
str[ind2] := '1';
INC(pointpos);
IF NOT ecvtflag THEN
IF ind1 > 0 THEN str[ind1] := '0'; END;
INC(ind1);
END;
END;
END;
END;
IF ecvtflag THEN
FOR i := ind1 TO 2 BY -1 DO
str[i] := str[i-1];
END;
str[1] := '.';
INC(ind1);
IF sign THEN
FOR i := ind1 TO 1 BY -1 DO
str[i] := str[i-1];
END;
INC(ind1);
str[0] := '-';
END;
IF (ind1 + 4) > HIGH(str) THEN
str[0] := 0C;
ok := FALSE;
RETURN;
END;
str[ind1] := 'E'; INC(ind1);
IF r # 0.0D THEN DEC(pointpos); END;
IF pointpos < 0 THEN
pointpos := -pointpos;
str[ind1] := '-';
ELSE
str[ind1] := '+';
END;
INC(ind1);
str[ind1] := CHR(ORD('0') + CARDINAL(pointpos DIV 100));
pointpos := pointpos MOD 100;
INC(ind1);
str[ind1] := CHR(ORD('0') + CARDINAL(pointpos DIV 10));
INC(ind1);
str[ind1] := CHR(ORD('0') + CARDINAL(pointpos MOD 10));
ELSE
IF pointpos <= 0 THEN
FOR i := ind1 TO 1 BY -1 DO
str[i+CARDINAL(-pointpos)] := str[i-1];
END;
FOR i := 0 TO CARDINAL(-pointpos) DO
str[i] := '0';
END;
ind1 := ind1 + CARDINAL(1 - pointpos);
pointpos := 1;
END;
FOR i := ind1 TO CARDINAL(pointpos+1) BY -1 DO
str[i] := str[i-1];
END;
IF ndigits = 0 THEN
str[pointpos] := 0C;
ELSE
str[pointpos] := '.';
END;
IF sign THEN
FOR i := ind1 TO 0 BY -1 DO
str[i+1] := str[i];
END;
str[0] := '-';
INC(ind1);
END;
END;
IF (ind1+1) <= HIGH(str) THEN str[ind1+1] := 0C; END;
IF ind1 >= CARDINAL(width) THEN
ok := FALSE;
RETURN;
END;
IF width > 0 THEN
DEC(width);
END;
IF (width > 0) AND (ind1 < CARDINAL(width)) THEN
FOR i := ind1 TO 0 BY -1 DO
str[i + CARDINAL(width) - ind1] := str[i];
END;
FOR i := 0 TO CARDINAL(width)-(ind1+1) DO
str[i] := ' ';
END;
ind1 := CARDINAL(width);
IF (ind1+1) <= HIGH(str) THEN
FOR ind1 := ind1+1 TO HIGH(str) DO
str[ind1] := 0C;
END;
END;
END;
END LongRealToString;
PROCEDURE StringToReal(str: ARRAY OF CHAR;
VAR r: REAL; VAR ok: BOOLEAN);
VAR x: LONGREAL;
BEGIN
StringToLongReal(str, x, ok);
IF ok THEN
r := x;
END;
END StringToReal;
PROCEDURE StringToLongReal(str: ARRAY OF CHAR;
VAR r: LONGREAL; VAR ok: BOOLEAN);
CONST BIG = 1.0D17;
TYPE SETOFCHAR = SET OF CHAR;
VAR pow10 : INTEGER;
i : INTEGER;
e : LONGREAL;
ch : CHAR;
signed: BOOLEAN;
signedexp: BOOLEAN;
iB: CARDINAL;
BEGIN
r := 0.0D;
pow10 := 0;
iB := 0;
ok := TRUE;
signed := FALSE;
WHILE (str[iB] = ' ') OR (str[iB] = CHR(9)) DO
INC(iB);
IF iB > HIGH(str) THEN
ok := FALSE;
RETURN;
END;
END;
IF str[iB] = '-' THEN signed := TRUE; INC(iB)
ELSIF str[iB] = '+' THEN INC(iB)
END;
ch := str[iB]; INC(iB);
IF NOT (ch IN SETOFCHAR{'0'..'9'}) THEN ok := FALSE; RETURN END;
REPEAT
IF r>BIG THEN INC(pow10) ELSE r:= 10.0D*r+FLOATD(ORD(ch)-ORD('0')) END;
IF iB <= HIGH(str) THEN
ch := str[iB]; INC(iB);
END;
UNTIL (iB > HIGH(str)) OR NOT (ch IN SETOFCHAR{'0'..'9'});
IF (ch = '.') AND (iB <= HIGH(str)) THEN
ch := str[iB]; INC(iB);
IF NOT (ch IN SETOFCHAR{'0'..'9'}) THEN ok := FALSE; RETURN END;
REPEAT
IF r < BIG THEN
r := 10.0D * r + FLOATD(ORD(ch)-ORD('0'));
DEC(pow10);
END;
IF iB <= HIGH(str) THEN
ch := str[iB]; INC(iB);
END;
UNTIL (iB > HIGH(str)) OR NOT (ch IN SETOFCHAR{'0'..'9'});
END;
IF (ch = 'E') THEN
IF iB > HIGH(str) THEN
ok := FALSE;
RETURN;
ELSE
ch := str[iB]; INC(iB);
END;
i := 0;
signedexp := FALSE;
IF (ch = '-') OR (ch = '+') THEN
signedexp := ch = '-';
IF iB > HIGH(str) THEN
ok := FALSE;
RETURN;
ELSE
ch := str[iB]; INC(iB);
END;
END;
IF NOT (ch IN SETOFCHAR{'0'..'9'}) THEN ok := FALSE; RETURN END;
REPEAT
i := i*10 + INTEGER(ORD(ch) - ORD('0'));
IF iB <= HIGH(str) THEN
ch := str[iB]; INC(iB);
END;
UNTIL (iB > HIGH(str)) OR NOT (ch IN SETOFCHAR{'0'..'9'});
IF signedexp THEN i := -i END;
pow10 := pow10 + i;
END;
IF pow10 < 0 THEN i := -pow10; ELSE i := pow10; END;
e := 1.0D;
DEC(i);
WHILE i >= 10 DO
e := e * 10000000000.0D;
DEC(i,10);
END;
WHILE i >= 0 DO
e := e * 10.0D;
DEC(i)
END;
IF pow10<0 THEN
r := r / e;
ELSE
r := r * e;
END;
IF signed THEN r := -r; END;
IF (iB <= HIGH(str)) AND (ORD(ch) > ORD(' ')) THEN ok := FALSE; END
END StringToLongReal;
BEGIN
WITH Powers10[1] DO pval := 1.0D32; rpval := 1.0D-32; exp := 32 END;
WITH Powers10[2] DO pval := 1.0D16; rpval := 1.0D-16; exp := 16 END;
WITH Powers10[3] DO pval := 1.0D8; rpval := 1.0D-8; exp := 8 END;
WITH Powers10[4] DO pval := 1.0D4; rpval := 1.0D-4; exp := 4 END;
WITH Powers10[5] DO pval := 1.0D2; rpval := 1.0D-2; exp := 2 END;
WITH Powers10[6] DO pval := 1.0D1; rpval := 1.0D-1; exp := 1 END;
END RealConversions.