AOO410/main/rsc/source/rscpp/cpp5.c - openoffice - Git at Google

 /**************************************************************
  *
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements.  See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership.  The ASF licenses this file
  * to you under the Apache License, Version 2.0 (the
  * "License"); you may not use this file except in compliance
  * with the License.  You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing,
  * software distributed under the License is distributed on an
  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
  * KIND, either express or implied.  See the License for the
  * specific language governing permissions and limitations
  * under the License.
  *
  *************************************************************/


 #include	<stdio.h>
 #include	<ctype.h>
 #include	"cppdef.h"
 #include	"cpp.h"

 /*
  * Evaluate an #if expression.
  */

 static char	*opname[] = {		/* For debug and error messages	*/
 "end of expression", "val", "id",
   "+",   "-",  "*",  "/",  "%",
   "<<", ">>",  "&",  "|",  "^",
   "==", "!=",  "<", "<=", ">=",  ">",
   "&&", "||",  "?",  ":",  ",",
   "unary +", "unary -", "~", "!",  "(",  ")", "(none)",
 };

 /*
  * opdope[] has the operator precedence:
  *     Bits
  *	  7	Unused (so the value is always positive)
  *	6-2	Precedence (000x .. 017x)
  *	1-0	Binary op. flags:
  *	    01	The binop flag should be set/cleared when this op is seen.
  *	    10	The new value of the binop flag.
  * Note:  Expected, New binop
  * constant	0	1	Binop, end, or ) should follow constants
  * End of line	1	0	End may not be preceeded by an operator
  * binary	1	0	Binary op follows a value, value follows.
  * unary	0	0	Unary op doesn't follow a value, value follows
  *   (		0	0	Doesn't follow value, value or unop follows
  *   )		1	1	Follows value.  Op follows.
  */

 static char	opdope[OP_MAX] = {
   0001,					/* End of expression		*/
   0002,					/* Digit			*/
   0000,					/* Letter (identifier)		*/
   0141, 0141, 0151, 0151, 0151,		/* ADD, SUB, MUL, DIV, MOD	*/
   0131, 0131, 0101, 0071, 0071,		/* ASL, ASR, AND,  OR, XOR	*/
   0111, 0111, 0121, 0121, 0121,	0121,	/*  EQ,  NE,  LT,  LE,  GE,  GT	*/
   0061, 0051, 0041, 0041, 0031,		/* ANA, ORO, QUE, COL, CMA	*/
 /*
  * Unary op's follow
  */
   0160, 0160, 0160, 0160,		/* NEG, PLU, COM, NOT		*/
   0170, 0013, 0023,			/* LPA, RPA, END		*/
 };
 /*
  * OP_QUE and OP_RPA have alternate precedences:
  */
 #define	OP_RPA_PREC	0013
 #define OP_QUE_PREC	0034

 /*
  * S_ANDOR and S_QUEST signal "short-circuit" boolean evaluation, so that
  *	#if FOO != 0 && 10 / FOO ...
  * doesn't generate an error message.  They are stored in optab.skip.
  */
 #define S_ANDOR		2
 #define S_QUEST		1

 typedef struct optab {
     char	op;			/* Operator			*/
     char	prec;			/* Its precedence		*/
     char	skip;			/* Short-circuit: TRUE to skip	*/
 } OPTAB;
 static int	evalue;			/* Current value from evallex()	*/

 #ifdef	nomacargs
 FILE_LOCAL int
 isbinary(op)
 register int	op;
 {
 	return (op >= FIRST_BINOP && op <= LAST_BINOP);
 }

 FILE_LOCAL int
 isunary(op)
 register int	op;
 {
 	return (op >= FIRST_UNOP && op <= LAST_UNOP);
 }
 #else
 #define	isbinary(op)	(op >= FIRST_BINOP && op <= LAST_BINOP)
 #define	isunary(op)	(op >= FIRST_UNOP  && op <= LAST_UNOP)
 #endif

 /*
  * The following definitions are used to specify basic variable sizes.
  */

 #ifndef	S_CHAR
 #define	S_CHAR		(sizeof (char))
 #endif
 #ifndef	S_SINT
 #define	S_SINT		(sizeof (short int))
 #endif
 #ifndef	S_INT
 #define	S_INT		(sizeof (int))
 #endif
 #ifndef	S_LINT
 #define	S_LINT		(sizeof (long int))
 #endif
 #ifndef	S_FLOAT
 #define	S_FLOAT		(sizeof (float))
 #endif
 #ifndef	S_DOUBLE
 #define	S_DOUBLE	(sizeof (double))
 #endif
 #ifndef	S_PCHAR
 #define	S_PCHAR		(sizeof (char *))
 #endif
 #ifndef	S_PSINT
 #define	S_PSINT		(sizeof (short int *))
 #endif
 #ifndef	S_PINT
 #define	S_PINT		(sizeof (int *))
 #endif
 #ifndef	S_PLINT
 #define	S_PLINT		(sizeof (long int *))
 #endif
 #ifndef	S_PFLOAT
 #define	S_PFLOAT	(sizeof (float *))
 #endif
 #ifndef	S_PDOUBLE
 #define	S_PDOUBLE	(sizeof (double *))
 #endif
 #ifndef	S_PFPTR
 #define S_PFPTR		(sizeof (int (*)()))
 #endif

 typedef struct types {
     short	type;			/* This is the bit if		*/
     char	*name;			/* this is the token word	*/
 } TYPES;

 static TYPES basic_types[] = {
 	{ T_CHAR,	"char",		},
 	{ T_INT,	"int",		},
 	{ T_FLOAT,	"float",	},
 	{ T_DOUBLE,	"double",	},
 	{ T_SHORT,	"short",	},
 	{ T_LONG,	"long",		},
 	{ T_SIGNED,	"signed",	},
 	{ T_UNSIGNED,	"unsigned",	},
 	{ 0,		NULL,		},	/* Signal end		*/
 };

 /*
  * Test_table[] is used to test for illegal combinations.
  */
 static short test_table[] = {
 	T_FLOAT | T_DOUBLE | T_LONG | T_SHORT,
 	T_FLOAT | T_DOUBLE | T_CHAR | T_INT,
 	T_FLOAT | T_DOUBLE | T_SIGNED | T_UNSIGNED,
 	T_LONG  | T_SHORT  | T_CHAR,
 	0						/* end marker	*/
 };

 /*
  * The order of this table is important -- it is also referenced by
  * the command line processor to allow run-time overriding of the
  * built-in size values.  The order must not be changed:
  *	char, short, int, long, float, double (func pointer)
  */
 SIZES size_table[] = {
     { T_CHAR,	S_CHAR,		S_PCHAR		},	/* char		*/
     { T_SHORT,	S_SINT,		S_PSINT		},	/* short int	*/
     { T_INT,	S_INT,		S_PINT		},	/* int		*/
     { T_LONG,	S_LINT,		S_PLINT		},	/* long		*/
     { T_FLOAT,	S_FLOAT,	S_PFLOAT	},	/* float	*/
     { T_DOUBLE,	S_DOUBLE,	S_PDOUBLE	},	/* double	*/
     { T_FPTR,	0,		S_PFPTR		},	/* int (*()) 	*/
     { 0,	0,		0		},	/* End of table	*/
 };


 void InitCpp5()
 {

 }


 int
 eval()
 /*
  * Evaluate an expression.  Straight-forward operator precedence.
  * This is called from control() on encountering an #if statement.
  * It calls the following routines:
  * evallex	Lexical analyser -- returns the type and value of
  *		the next input token.
  * evaleval	Evaluate the current operator, given the values on
  *		the value stack.  Returns a pointer to the (new)
  *		value stack.
  * For compatiblity with older cpp's, this return returns 1 (TRUE)
  * if a syntax error is detected.
  */
 {
 	register int	op;		/* Current operator		*/
 	register int	*valp;		/* -> value vector		*/
 	register OPTAB	*opp;		/* Operator stack		*/
 	int		prec;		/* Op precedence		*/
 	int		binop;		/* Set if binary op. needed	*/
 	int		op1;		/* Operand from stack		*/
 	int		skip;		/* For short-circuit testing	*/
 	int		value[NEXP];	/* Value stack			*/
 	OPTAB		opstack[NEXP];	/* Operand stack		*/
 #ifndef ZTC  /* BP */
     extern int  *evaleval();    /* Does actual evaluation   */
 #endif
 	valp = value;
 	opp = opstack;
 	opp->op = OP_END;		/* Mark bottom of stack		*/
 	opp->prec = opdope[OP_END];	/* And its precedence		*/
 	opp->skip = 0;			/* Not skipping now		*/
 	binop = 0;
 again:	;
 #ifdef	DEBUG_EVAL
     fprintf( pCppOut, "In #if at again: skip = %d, binop = %d, line is: %s",
 	    opp->skip, binop, infile->bptr);
 #endif
 	if ((op = evallex(opp->skip)) == OP_SUB && binop == 0)
 	    op = OP_NEG;			/* Unary minus		*/
 	else if (op == OP_ADD && binop == 0)
 	    op = OP_PLU;			/* Unary plus		*/
 	else if (op == OP_FAIL)
 	    return (1);				/* Error in evallex	*/
 #ifdef	DEBUG_EVAL
     fprintf( pCppOut, "op = %s, opdope = %03o, binop = %d, skip = %d\n",
 	    opname[op], opdope[op], binop, opp->skip);
 #endif
 	if (op == DIG) {			/* Value?		*/
 	    if (binop != 0) {
 		cerror("misplaced constant in #if", NULLST);
 		return (1);
 	    }
 	    else if (valp >= &value[NEXP-1]) {
 		cerror("#if value stack overflow", NULLST);
 		return (1);
 	    }
 	    else {
 #ifdef	DEBUG_EVAL
         fprintf( pCppOut, "pushing %d onto value stack[%d]\n",
 		    evalue, valp - value);
 #endif
 		*valp++ = evalue;
 		binop = 1;
 	    }
 	    goto again;
 	}
 	else if (op > OP_END) {
 	    cerror("Illegal #if line", NULLST);
 	    return (1);
 	}
 	prec = opdope[op];
 	if (binop != (prec & 1)) {
 	    cerror("Operator %s in incorrect context", opname[op]);
 	    return (1);
 	}
 	binop = (prec & 2) >> 1;
 	for (;;) {
 #ifdef	DEBUG_EVAL
         fprintf( pCppOut, "op %s, prec %d., stacked op %s, prec %d, skip %d\n",
 		opname[op], prec, opname[opp->op], opp->prec, opp->skip);
 #endif
 	    if (prec > opp->prec) {
 		if (op == OP_LPA)
 		    prec = OP_RPA_PREC;
 		else if (op == OP_QUE)
 		    prec = OP_QUE_PREC;
 		op1 = opp->skip;		/* Save skip for test	*/
 		/*
 		 * Push operator onto op. stack.
 		 */
 		opp++;
 		if (opp >= &opstack[NEXP]) {
 		    cerror("expression stack overflow at op \"%s\"",
 			opname[op]);
 		    return (1);
 		}
 		opp->op = (char)op;
 		opp->prec = (char)prec;
 		skip = (valp[-1] != 0);		/* Short-circuit tester	*/
 		/*
 		 * Do the short-circuit stuff here.  Short-circuiting
 		 * stops automagically when operators are evaluated.
 		 */
 		if ((op == OP_ANA && !skip)
 		 || (op == OP_ORO && skip))
 		    opp->skip = S_ANDOR;	/* And/or skip starts	*/
 		else if (op == OP_QUE)		/* Start of ?: operator	*/
 		    opp->skip = (char)((op1 & S_ANDOR) | ((!skip) ? S_QUEST : 0));
 		else if (op == OP_COL) {	/* : inverts S_QUEST	*/
 		    opp->skip = (char)((op1 & S_ANDOR)
 			      | (((op1 & S_QUEST) != 0) ? 0 : S_QUEST));
 		}
 		else {				/* Other ops leave	*/
 		    opp->skip = (char)op1;		/*  skipping unchanged.	*/
 		}
 #ifdef	DEBUG_EVAL
         fprintf( pCppOut, "stacking %s, valp[-1] == %d at %s",
 		    opname[op], valp[-1], infile->bptr);
 		dumpstack(opstack, opp, value, valp);
 #endif
 		goto again;
 	    }
 	    /*
 	     * Pop operator from op. stack and evaluate it.
 	     * End of stack and '(' are specials.
 	     */
 	    skip = opp->skip;			/* Remember skip value	*/
 	    switch ((op1 = opp->op)) {		/* Look at stacked op	*/
 	    case OP_END:			/* Stack end marker	*/
 		if (op == OP_EOE)
 		    return (valp[-1]);		/* Finished ok.		*/
 		goto again;			/* Read another op.	*/

 	    case OP_LPA:			/* ( on stack		*/
 		if (op != OP_RPA) {		/* Matches ) on input	*/
 		    cerror("unbalanced paren's, op is \"%s\"", opname[op]);
 		    return (1);
 		}
 		opp--;				/* Unstack it		*/
 		/* goto again;			-- Fall through		*/

 	    case OP_QUE:
 		goto again;			/* Evaluate true expr.	*/

 	    case OP_COL:			/* : on stack.		*/
 		opp--;				/* Unstack :		*/
 		if (opp->op != OP_QUE) {	/* Matches ? on stack?	*/
 		    cerror("Misplaced '?' or ':', previous operator is %s",
                    opname[(int)opp->op]);
 		    return (1);
 		}
 		/*
 		 * Evaluate op1.
 		 */
 	    default:				/* Others:		*/
 		opp--;				/* Unstack the operator	*/
 #ifdef	DEBUG_EVAL
         fprintf( pCppOut, "Stack before evaluation of %s\n", opname[op1]);
 		dumpstack(opstack, opp, value, valp);
 #endif
 		valp = evaleval(valp, op1, skip);
 #ifdef	DEBUG_EVAL
         fprintf( pCppOut, "Stack after evaluation\n");
 		dumpstack(opstack, opp, value, valp);
 #endif
 	    }					/* op1 switch end	*/
 	}					/* Stack unwind loop	*/
 }

 FILE_LOCAL int
 evallex(int skip)
 /*
  * Return next eval operator or value.  Called from eval().  It
  * calls a special-purpose routines for 'char' strings and
  * numeric values:
  * evalchar	called to evaluate 'x'
  * evalnum	called to evaluate numbers.
  */
 {
 	register int	c, c1, t;

 again:  do {					/* Collect the token	*/
 	    c = skipws();
 	    if ((c = macroid(c)) == EOF_CHAR || c == '\n') {
 		unget();
 		return (OP_EOE);		/* End of expression	*/
 	    }
 	} while ((t = type[c]) == LET && catenate());
 	if (t == INV) {				/* Total nonsense	*/
 	    if (!skip) {
 		if (isascii(c) && isprint(c))
 		    cierror("illegal character '%c' in #if", c);
 		else
 		    cierror("illegal character (%d decimal) in #if", c);
 	    }
 	    return (OP_FAIL);
 	}
 	else if (t == QUO) {			/* ' or "		*/
 	    if (c == '\'') {			/* Character constant	*/
 		evalue = evalchar(skip);	/* Somewhat messy	*/
 #ifdef	DEBUG_EVAL
         fprintf( pCppOut, "evalchar returns %d.\n", evalue);
 #endif
 		return (DIG);			/* Return a value	*/
 	    }
 	    cerror("Can't use a string in an #if", NULLST);
 	    return (OP_FAIL);
 	}
 	else if (t == LET) {			/* ID must be a macro	*/
 	    if (streq(token, "defined")) {	/* Or defined name	*/
 		c1 = c = skipws();
 		if (c == '(')			/* Allow defined(name)	*/
 		    c = skipws();
 		if (type[c] == LET) {
 		    evalue = (lookid(c) != NULL);
 		    if (c1 != '('		/* Need to balance	*/
 		     || skipws() == ')')	/* Did we balance?	*/
 			return (DIG);		/* Parsed ok		*/
 		}
 		cerror("Bad #if ... defined() syntax", NULLST);
 		return (OP_FAIL);
 	    }
 	    else if (streq(token, "sizeof"))	/* New sizeof hackery	*/
 		return (dosizeof());		/* Gets own routine	*/
 	    /*
 	     * The Draft ANSI C Standard says that an undefined symbol
 	     * in an #if has the value zero.  We are a bit pickier,
 	     * warning except where the programmer was careful to write
 	     * 		#if defined(foo) ? foo : 0
 	     */
 #ifdef STRICT_UNDEF
 	    if (!skip)
 		cwarn("undefined symbol \"%s\" in #if, 0 used", token);
 #endif
 	    evalue = 0;
 	    return (DIG);
 	}
 	else if (t == DIG) {			/* Numbers are harder	*/
 	    evalue = evalnum(c);
 #ifdef	DEBUG_EVAL
         fprintf( pCppOut, "evalnum returns %d.\n", evalue);
 #endif
 	}
 	else if (strchr("!=<>&|\\", c) != NULL) {
 	    /*
 	     * Process a possible multi-byte lexeme.
 	     */
 	    c1 = cget();			/* Peek at next char	*/
 	    switch (c) {
 	    case '!':
 		if (c1 == '=')
 		    return (OP_NE);
 		break;

 	    case '=':
 		if (c1 != '=') {		/* Can't say a=b in #if	*/
 		    unget();
 		    cerror("= not allowed in #if", NULLST);
 		    return (OP_FAIL);
 		}
 		return (OP_EQ);

 	    case '>':
 	    case '<':
 		if (c1 == c)
 		    return ((c == '<') ? OP_ASL : OP_ASR);
 		else if (c1 == '=')
 		    return ((c == '<') ? OP_LE  : OP_GE);
 		break;

 	    case '|':
 	    case '&':
 		if (c1 == c)
 		    return ((c == '|') ? OP_ORO : OP_ANA);
 		break;

 	    case '\\':
 		if (c1 == '\n')			/* Multi-line if	*/
 		    goto again;
 		cerror("Unexpected \\ in #if", NULLST);
 		return (OP_FAIL);
 	    }
 	    unget();
 	}
 	return (t);
 }

 FILE_LOCAL int
 dosizeof()
 /*
  * Process the sizeof (basic type) operation in an #if string.
  * Sets evalue to the size and returns
  *	DIG		success
  *	OP_FAIL		bad parse or something.
  */
 {
 	register int	c;
 	register TYPES	*tp;
 	register SIZES	*sizp;
 	register short	*testp;
 	short		typecode;

 	if ((c = skipws()) != '(')
 	    goto nogood;
 	/*
 	 * Scan off the tokens.
 	 */
 	typecode = 0;
 	while (0 != (c = skipws())) {
 	    if ((c = macroid(c)) == EOF_CHAR || c == '\n')
 		goto nogood;			/* End of line is a bug	*/
 	    else if (c == '(') {		/* thing (*)() func ptr	*/
 		if (skipws() == '*'
 		 && skipws() == ')') {		/* We found (*)		*/
 		    if (skipws() != '(')	/* Let () be optional	*/
 			unget();
 		    else if (skipws() != ')')
 			goto nogood;
 		    typecode |= T_FPTR;		/* Function pointer	*/
 		}
 		else {				/* Junk is a bug	*/
 		    goto nogood;
 		}
 	    }
 	    else if (type[c] != LET)		/* Exit if not a type	*/
 		break;
 	    else if (!catenate()) {		/* Maybe combine tokens	*/
 		/*
 		 * Look for this unexpandable token in basic_types.
 		 * The code accepts "int long" as well as "long int"
 		 * which is a minor bug as bugs go (and one shared with
 		 * a lot of C compilers).
 		 */
 		for (tp = basic_types; tp->name != NULLST; tp++) {
 		    if (streq(token, tp->name))
 			break;
 		}
 		if (tp->name == NULLST) {
 		    cerror("#if sizeof, unknown type \"%s\"", token);
 		    return (OP_FAIL);
 		}
 		typecode |= tp->type;		/* Or in the type bit	*/
 	    }
 	}
 	/*
 	 * We are at the end of the type scan.  Chew off '*' if necessary.
 	 */
 	if (c == '*') {
 	    typecode |= T_PTR;
 	    c = skipws();
 	}
 	if (c == ')') {				/* Last syntax check	*/
 	    for (testp = test_table; *testp != 0; testp++) {
 		if (!bittest(typecode & *testp)) {
 		    cerror("#if ... sizeof: illegal type combination", NULLST);
 		    return (OP_FAIL);
 		}
 	    }
 	    /*
 	     * We assume that all function pointers are the same size:
 	     *		sizeof (int (*)()) == sizeof (float (*)())
 	     * We assume that signed and unsigned don't change the size:
 	     *		sizeof (signed int) == (sizeof unsigned int)
 	     */
 	    if ((typecode & T_FPTR) != 0)	/* Function pointer	*/
 		typecode = T_FPTR | T_PTR;
 	    else {				/* Var or var * datum	*/
 		typecode &= ~(T_SIGNED | T_UNSIGNED);
 		if ((typecode & (T_SHORT | T_LONG)) != 0)
 		    typecode &= ~T_INT;
 	    }
 	    if ((typecode & ~T_PTR) == 0) {
 		cerror("#if sizeof() error, no type specified", NULLST);
 		return (OP_FAIL);
 	    }
 	    /*
 	     * Exactly one bit (and possibly T_PTR) may be set.
 	     */
 	    for (sizp = size_table; sizp->bits != 0; sizp++) {
 		if ((typecode & ~T_PTR) == sizp->bits) {
 		    evalue = ((typecode & T_PTR) != 0)
 			? sizp->psize : sizp->size;
 		    return (DIG);
 		}
 	    }					/* We shouldn't fail	*/
 	    cierror("#if ... sizeof: bug, unknown type code 0x%x", typecode);
 	    return (OP_FAIL);
 	}

 nogood:	unget();
 	cerror("#if ... sizeof() syntax error", NULLST);
 	return (OP_FAIL);
 }

 FILE_LOCAL int
 bittest(int value)
 /*
  * TRUE if value is zero or exactly one bit is set in value.
  */
 {
 #if (4096 & ~(-4096)) == 0
 	return ((value & ~(-value)) == 0);
 #else
 	/*
 	 * Do it the hard way (for non 2's complement machines)
 	 */
 	return (value == 0 || value ^ (value - 1) == (value * 2 - 1));
 #endif
 }

 FILE_LOCAL int
 evalnum(int c)
 /*
  * Expand number for #if lexical analysis.  Note: evalnum recognizes
  * the unsigned suffix, but only returns a signed int value.
  */
 {
 	register int	value;
 	register int	base;
 	register int	c1;

 	if (c != '0')
 	    base = 10;
 	else if ((c = cget()) == 'x' || c == 'X') {
 		base = 16;
 		c = cget();
 	}
 	else base = 8;
 	value = 0;
 	for (;;) {
 	    c1 = c;
 	    if (isascii(c) && isupper(c1))
 		c1 = tolower(c1);
 #ifdef EBCDIC
 	    if (c1 <= 'f')
 #else
 	    if (c1 >= 'a')
 #endif
 		c1 -= ('a' - 10);
 	    else c1 -= '0';
 	    if (c1 < 0 || c1 >= base)
 		break;
 	    value *= base;
 	    value += c1;
 	    c = cget();
 	}
 	if (c == 'u' || c == 'U')	/* Unsigned nonsense		*/
 	    c = cget();
 	unget();
 	return (value);
 }

 FILE_LOCAL int
 evalchar(int skip)
 /*
  * Get a character constant
  */
 {
 	register int	c;
 	register int	value;
 	register int	count;

 	instring = TRUE;
 	if ((c = cget()) == '\\') {
 	    switch ((c = cget())) {
 	    case 'a':				/* New in Standard	*/
 #if ('a' == '\a' || '\a' == ALERT)
 		value = ALERT;			/* Use predefined value	*/
 #else
 		value = '\a';			/* Use compiler's value	*/
 #endif
 		break;

 	    case 'b':
 		value = '\b';
 		break;

 	    case 'f':
 		value = '\f';
 		break;

 	    case 'n':
 		value = '\n';
 		break;

 	    case 'r':
 		value = '\r';
 		break;

 	    case 't':
 		value = '\t';
 		break;

 	    case 'v':				/* New in Standard	*/
 #if ('v' == '\v' || '\v' == VT)
 		value = VT;			/* Use predefined value	*/
 #else
 		value = '\v';			/* Use compiler's value	*/
 #endif
 		break;

 	    case 'x':				/* '\xFF'		*/
 		count = 3;
 		value = 0;
 		while ((((c = get()) >= '0' && c <= '9')
 		     || (c >= 'a' && c <= 'f')
 		     || (c >= 'A' && c <= 'F'))
 		    && (--count >= 0)) {
 			value *= 16;
 #ifdef EBCDIC
 			value += (c <= '9') ? (c - '0') : ((c & 0xF) + 9);
 #else
 			value += (c >= '0') ? (c - '0') : ((c & 0xF) + 9);
 #endif
 		}
 		unget();
 		break;

 	    default:
 		if (c >= '0' && c <= '7') {
 		    count = 3;
 		    value = 0;
 		    while (c >= '0' && c <= '7' && --count >= 0) {
 			value *= 8;
 			value += (c - '0');
 			c = get();
 		    }
 		    unget();
 		}
 		else value = c;
 		break;
 	    }
 	}
 	else if (c == '\'')
 	    value = 0;
 	else value = c;
 	/*
 	 * We warn on multi-byte constants and try to hack
 	 * (big|little)endian machines.
 	 */
 #if BIG_ENDIAN
 	count = 0;
 #endif
 	while ((c = get()) != '\'' && c != EOF_CHAR && c != '\n') {
 	    if (!skip)
 		ciwarn("multi-byte constant '%c' isn't portable", c);
 #if BIG_ENDIAN
 	    count += BITS_CHAR;
 	    value += (c << count);
 #else
 	    value <<= BITS_CHAR;
 	    value += c;
 #endif
 	}
 	instring = FALSE;
 	return (value);
 }

 FILE_LOCAL int *
 evaleval(int* valp, int op, int skip)
 /*
  * Apply the argument operator to the data on the value stack.
  * One or two values are popped from the value stack and the result
  * is pushed onto the value stack.
  *
  * OP_COL is a special case.
  *
  * evaleval() returns the new pointer to the top of the value stack.
  */
 {
 	register int	v1, v2 = 0;

 	if (isbinary(op))
 	    v2 = *--valp;
 	v1 = *--valp;
 #ifdef	DEBUG_EVAL
     fprintf( pCppOut, "%s op %s", (isbinary(op)) ? "binary" : "unary",
 	    opname[op]);
 	if (isbinary(op))
         fprintf( pCppOut, ", v2 = %d.", v2);
     fprintf( pCppOut, ", v1 = %d.\n", v1);
 #endif
 	switch (op) {
 	case OP_EOE:
 	     break;

 	case OP_ADD:
 	    v1 += v2;
 	    break;

 	case OP_SUB:
 	    v1 -= v2;
 	    break;

 	case OP_MUL:
 	    v1 *= v2;
 	    break;

 	case OP_DIV:
 	case OP_MOD:
 	    if (v2 == 0) {
 		if (!skip) {
 		    cwarn("%s by zero in #if, zero result assumed",
 			(op == OP_DIV) ? "divide" : "mod");
 		}
 		v1 = 0;
 	    }
 	    else if (op == OP_DIV)
 		v1 /= v2;
 	    else
 		v1 %= v2;
 	    break;

 	case OP_ASL:
 	    v1 <<= v2;
 	    break;

 	case OP_ASR:
 	    v1 >>= v2;
 	    break;

 	case OP_AND:
 	    v1 &= v2;
 	    break;

 	case OP_OR:
 	    v1 |= v2;
 	    break;

 	case OP_XOR:
 	    v1 ^= v2;
 	    break;

 	case OP_EQ:
 	    v1 = (v1 == v2);
 	    break;

 	case OP_NE:
 	    v1 = (v1 != v2);
 	    break;

 	case OP_LT:
 	    v1 = (v1 < v2);
 	    break;

 	case OP_LE:
 	    v1 = (v1 <= v2);
 	    break;

 	case OP_GE:
 	    v1 = (v1 >= v2);
 	    break;

 	case OP_GT:
 	    v1 = (v1 > v2);
 	    break;

 	case OP_ANA:
 	    v1 = (v1 && v2);
 	    break;

 	case OP_ORO:
 	    v1 = (v1 || v2);
 	    break;

 	case OP_COL:
 	    /*
 	     * v1 has the "true" value, v2 the "false" value.
 	     * The top of the value stack has the test.
 	     */
 	    v1 = (*--valp) ? v1 : v2;
 	    break;

 	case OP_NEG:
 	    v1 = (-v1);
 	    break;

 	case OP_PLU:
 	    break;

 	case OP_COM:
 	    v1 = ~v1;
 	    break;

 	case OP_NOT:
 	    v1 = !v1;
 	    break;

 	default:
 	    cierror("#if bug, operand = %d.", op);
 	    v1 = 0;
 	}
 	*valp++ = v1;
 	return (valp);
 }

 #ifdef	DEBUG_EVAL
 dumpstack(opstack, opp, value, valp)
 OPTAB		opstack[NEXP];	/* Operand stack		*/
 register OPTAB	*opp;		/* Operator stack		*/
 int		value[NEXP];	/* Value stack			*/
 register int	*valp;		/* -> value vector		*/
 {
     fprintf( pCppOut, "index op prec skip name -- op stack at %s", infile->bptr);
 	while (opp > opstack) {
         fprintf( pCppOut, " [%2d] %2d  %03o    %d %s\n", opp - opstack,
 		opp->op, opp->prec, opp->skip, opname[opp->op]);
 	    opp--;
 	}
 	while (--valp >= value) {
         fprintf( pCppOut, "value[%d] = %d\n", (valp - value), *valp);
 	}
 }
 #endif
	/**************************************************************
	*
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache License, Version 2.0 (the
	* "License"); you may not use this file except in compliance
	* with the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*
	*************************************************************/



	#include <stdio.h>
	#include <ctype.h>
	#include "cppdef.h"
	#include "cpp.h"

	/*
	* Evaluate an #if expression.
	*/

	static char opname[] = { / For debug and error messages */
	"end of expression", "val", "id",
	"+", "-", "*", "/", "%",
	"<<", ">>", "&", "\|", "^",
	"==", "!=", "<", "<=", ">=", ">",
	"&&", "\|\|", "?", ":", ",",
	"unary +", "unary -", "~", "!", "(", ")", "(none)",
	};

	/*
	* opdope[] has the operator precedence:
	* Bits
	* 7 Unused (so the value is always positive)
	* 6-2 Precedence (000x .. 017x)
	* 1-0 Binary op. flags:
	* 01 The binop flag should be set/cleared when this op is seen.
	* 10 The new value of the binop flag.
	* Note: Expected, New binop
	* constant 0 1 Binop, end, or ) should follow constants
	* End of line 1 0 End may not be preceeded by an operator
	* binary 1 0 Binary op follows a value, value follows.
	* unary 0 0 Unary op doesn't follow a value, value follows
	* ( 0 0 Doesn't follow value, value or unop follows
	* ) 1 1 Follows value. Op follows.
	*/

	static char opdope[OP_MAX] = {
	0001, /* End of expression */
	0002, /* Digit */
	0000, /* Letter (identifier) */
	0141, 0141, 0151, 0151, 0151, /* ADD, SUB, MUL, DIV, MOD */
	0131, 0131, 0101, 0071, 0071, /* ASL, ASR, AND, OR, XOR */
	0111, 0111, 0121, 0121, 0121, 0121, /* EQ, NE, LT, LE, GE, GT */
	0061, 0051, 0041, 0041, 0031, /* ANA, ORO, QUE, COL, CMA */
	/*
	* Unary op's follow
	*/
	0160, 0160, 0160, 0160, /* NEG, PLU, COM, NOT */
	0170, 0013, 0023, /* LPA, RPA, END */
	};
	/*
	* OP_QUE and OP_RPA have alternate precedences:
	*/
	#define OP_RPA_PREC 0013
	#define OP_QUE_PREC 0034

	/*
	* S_ANDOR and S_QUEST signal "short-circuit" boolean evaluation, so that
	* #if FOO != 0 && 10 / FOO ...
	* doesn't generate an error message. They are stored in optab.skip.
	*/
	#define S_ANDOR 2
	#define S_QUEST 1

	typedef struct optab {
	char op; /* Operator */
	char prec; /* Its precedence */
	char skip; /* Short-circuit: TRUE to skip */
	} OPTAB;
	static int evalue; /* Current value from evallex() */

	#ifdef nomacargs
	FILE_LOCAL int
	isbinary(op)
	register int op;
	{
	return (op >= FIRST_BINOP && op <= LAST_BINOP);
	}

	FILE_LOCAL int
	isunary(op)
	register int op;
	{
	return (op >= FIRST_UNOP && op <= LAST_UNOP);
	}
	#else
	#define isbinary(op) (op >= FIRST_BINOP && op <= LAST_BINOP)
	#define isunary(op) (op >= FIRST_UNOP && op <= LAST_UNOP)
	#endif

	/*
	* The following definitions are used to specify basic variable sizes.
	*/

	#ifndef S_CHAR
	#define S_CHAR (sizeof (char))
	#endif
	#ifndef S_SINT
	#define S_SINT (sizeof (short int))
	#endif
	#ifndef S_INT
	#define S_INT (sizeof (int))
	#endif
	#ifndef S_LINT
	#define S_LINT (sizeof (long int))
	#endif
	#ifndef S_FLOAT
	#define S_FLOAT (sizeof (float))
	#endif
	#ifndef S_DOUBLE
	#define S_DOUBLE (sizeof (double))
	#endif
	#ifndef S_PCHAR
	#define S_PCHAR (sizeof (char *))
	#endif
	#ifndef S_PSINT
	#define S_PSINT (sizeof (short int *))
	#endif
	#ifndef S_PINT
	#define S_PINT (sizeof (int *))
	#endif
	#ifndef S_PLINT
	#define S_PLINT (sizeof (long int *))
	#endif
	#ifndef S_PFLOAT
	#define S_PFLOAT (sizeof (float *))
	#endif
	#ifndef S_PDOUBLE
	#define S_PDOUBLE (sizeof (double *))
	#endif
	#ifndef S_PFPTR
	#define S_PFPTR (sizeof (int (*)()))
	#endif

	typedef struct types {
	short type; /* This is the bit if */
	char name; / this is the token word */
	} TYPES;

	static TYPES basic_types[] = {
	{ T_CHAR, "char", },
	{ T_INT, "int", },
	{ T_FLOAT, "float", },
	{ T_DOUBLE, "double", },
	{ T_SHORT, "short", },
	{ T_LONG, "long", },
	{ T_SIGNED, "signed", },
	{ T_UNSIGNED, "unsigned", },
	{ 0, NULL, }, /* Signal end */
	};

	/*
	* Test_table[] is used to test for illegal combinations.
	*/
	static short test_table[] = {
	T_FLOAT \| T_DOUBLE \| T_LONG \| T_SHORT,
	T_FLOAT \| T_DOUBLE \| T_CHAR \| T_INT,
	T_FLOAT \| T_DOUBLE \| T_SIGNED \| T_UNSIGNED,
	T_LONG \| T_SHORT \| T_CHAR,
	0 /* end marker */
	};

	/*
	* The order of this table is important -- it is also referenced by
	* the command line processor to allow run-time overriding of the
	* built-in size values. The order must not be changed:
	* char, short, int, long, float, double (func pointer)
	*/
	SIZES size_table[] = {
	{ T_CHAR, S_CHAR, S_PCHAR }, /* char */
	{ T_SHORT, S_SINT, S_PSINT }, /* short int */
	{ T_INT, S_INT, S_PINT }, /* int */
	{ T_LONG, S_LINT, S_PLINT }, /* long */
	{ T_FLOAT, S_FLOAT, S_PFLOAT }, /* float */
	{ T_DOUBLE, S_DOUBLE, S_PDOUBLE }, /* double */
	{ T_FPTR, 0, S_PFPTR }, /* int (()) /
	{ 0, 0, 0 }, /* End of table */
	};


	void InitCpp5()
	{

	}



	int
	eval()
	/*
	* Evaluate an expression. Straight-forward operator precedence.
	* This is called from control() on encountering an #if statement.
	* It calls the following routines:
	* evallex Lexical analyser -- returns the type and value of
	* the next input token.
	* evaleval Evaluate the current operator, given the values on
	* the value stack. Returns a pointer to the (new)
	* value stack.
	* For compatiblity with older cpp's, this return returns 1 (TRUE)
	* if a syntax error is detected.
	*/
	{
	register int op; /* Current operator */
	register int valp; / -> value vector */
	register OPTAB opp; / Operator stack */
	int prec; /* Op precedence */
	int binop; /* Set if binary op. needed */
	int op1; /* Operand from stack */
	int skip; /* For short-circuit testing */
	int value[NEXP]; /* Value stack */
	OPTAB opstack[NEXP]; /* Operand stack */
	#ifndef ZTC /* BP */
	extern int evaleval(); / Does actual evaluation */
	#endif
	valp = value;
	opp = opstack;
	opp->op = OP_END; /* Mark bottom of stack */
	opp->prec = opdope[OP_END]; /* And its precedence */
	opp->skip = 0; /* Not skipping now */
	binop = 0;
	again: ;
	#ifdef DEBUG_EVAL
	fprintf( pCppOut, "In #if at again: skip = %d, binop = %d, line is: %s",
	opp->skip, binop, infile->bptr);
	#endif
	if ((op = evallex(opp->skip)) == OP_SUB && binop == 0)
	op = OP_NEG; /* Unary minus */
	else if (op == OP_ADD && binop == 0)
	op = OP_PLU; /* Unary plus */
	else if (op == OP_FAIL)
	return (1); /* Error in evallex */
	#ifdef DEBUG_EVAL
	fprintf( pCppOut, "op = %s, opdope = %03o, binop = %d, skip = %d\n",
	opname[op], opdope[op], binop, opp->skip);
	#endif
	if (op == DIG) { /* Value? */
	if (binop != 0) {
	cerror("misplaced constant in #if", NULLST);
	return (1);
	}
	else if (valp >= &value[NEXP-1]) {
	cerror("#if value stack overflow", NULLST);
	return (1);
	}
	else {
	#ifdef DEBUG_EVAL
	fprintf( pCppOut, "pushing %d onto value stack[%d]\n",
	evalue, valp - value);
	#endif
	*valp++ = evalue;
	binop = 1;
	}
	goto again;
	}
	else if (op > OP_END) {
	cerror("Illegal #if line", NULLST);
	return (1);
	}
	prec = opdope[op];
	if (binop != (prec & 1)) {
	cerror("Operator %s in incorrect context", opname[op]);
	return (1);
	}
	binop = (prec & 2) >> 1;
	for (;;) {
	#ifdef DEBUG_EVAL
	fprintf( pCppOut, "op %s, prec %d., stacked op %s, prec %d, skip %d\n",
	opname[op], prec, opname[opp->op], opp->prec, opp->skip);
	#endif
	if (prec > opp->prec) {
	if (op == OP_LPA)
	prec = OP_RPA_PREC;
	else if (op == OP_QUE)
	prec = OP_QUE_PREC;
	op1 = opp->skip; /* Save skip for test */
	/*
	* Push operator onto op. stack.
	*/
	opp++;
	if (opp >= &opstack[NEXP]) {
	cerror("expression stack overflow at op \"%s\"",
	opname[op]);
	return (1);
	}
	opp->op = (char)op;
	opp->prec = (char)prec;
	skip = (valp[-1] != 0); /* Short-circuit tester */
	/*
	* Do the short-circuit stuff here. Short-circuiting
	* stops automagically when operators are evaluated.
	*/
	if ((op == OP_ANA && !skip)
	\|\| (op == OP_ORO && skip))
	opp->skip = S_ANDOR; /* And/or skip starts */
	else if (op == OP_QUE) /* Start of ?: operator */
	opp->skip = (char)((op1 & S_ANDOR) \| ((!skip) ? S_QUEST : 0));
	else if (op == OP_COL) { /* : inverts S_QUEST */
	opp->skip = (char)((op1 & S_ANDOR)
	\| (((op1 & S_QUEST) != 0) ? 0 : S_QUEST));
	}
	else { /* Other ops leave */
	opp->skip = (char)op1; /* skipping unchanged. */
	}
	#ifdef DEBUG_EVAL
	fprintf( pCppOut, "stacking %s, valp[-1] == %d at %s",
	opname[op], valp[-1], infile->bptr);
	dumpstack(opstack, opp, value, valp);
	#endif
	goto again;
	}
	/*
	* Pop operator from op. stack and evaluate it.
	* End of stack and '(' are specials.
	*/
	skip = opp->skip; /* Remember skip value */
	switch ((op1 = opp->op)) { /* Look at stacked op */
	case OP_END: /* Stack end marker */
	if (op == OP_EOE)
	return (valp[-1]); /* Finished ok. */
	goto again; /* Read another op. */

	case OP_LPA: /* ( on stack */
	if (op != OP_RPA) { /* Matches ) on input */
	cerror("unbalanced paren's, op is \"%s\"", opname[op]);
	return (1);
	}
	opp--; /* Unstack it */
	/* goto again; -- Fall through */

	case OP_QUE:
	goto again; /* Evaluate true expr. */

	case OP_COL: /* : on stack. */
	opp--; /* Unstack : */
	if (opp->op != OP_QUE) { /* Matches ? on stack? */
	cerror("Misplaced '?' or ':', previous operator is %s",
	opname[(int)opp->op]);
	return (1);
	}
	/*
	* Evaluate op1.
	*/
	default: /* Others: */
	opp--; /* Unstack the operator */
	#ifdef DEBUG_EVAL
	fprintf( pCppOut, "Stack before evaluation of %s\n", opname[op1]);
	dumpstack(opstack, opp, value, valp);
	#endif
	valp = evaleval(valp, op1, skip);
	#ifdef DEBUG_EVAL
	fprintf( pCppOut, "Stack after evaluation\n");
	dumpstack(opstack, opp, value, valp);
	#endif
	} /* op1 switch end */
	} /* Stack unwind loop */
	}

	FILE_LOCAL int
	evallex(int skip)
	/*
	* Return next eval operator or value. Called from eval(). It
	* calls a special-purpose routines for 'char' strings and
	* numeric values:
	* evalchar called to evaluate 'x'
	* evalnum called to evaluate numbers.
	*/
	{
	register int c, c1, t;

	again: do { /* Collect the token */
	c = skipws();
	if ((c = macroid(c)) == EOF_CHAR \|\| c == '\n') {
	unget();
	return (OP_EOE); /* End of expression */
	}
	} while ((t = type[c]) == LET && catenate());
	if (t == INV) { /* Total nonsense */
	if (!skip) {
	if (isascii(c) && isprint(c))
	cierror("illegal character '%c' in #if", c);
	else
	cierror("illegal character (%d decimal) in #if", c);
	}
	return (OP_FAIL);
	}
	else if (t == QUO) { /* ' or " */
	if (c == '\'') { /* Character constant */
	evalue = evalchar(skip); /* Somewhat messy */
	#ifdef DEBUG_EVAL
	fprintf( pCppOut, "evalchar returns %d.\n", evalue);
	#endif
	return (DIG); /* Return a value */
	}
	cerror("Can't use a string in an #if", NULLST);
	return (OP_FAIL);
	}
	else if (t == LET) { /* ID must be a macro */
	if (streq(token, "defined")) { /* Or defined name */
	c1 = c = skipws();
	if (c == '(') /* Allow defined(name) */
	c = skipws();
	if (type[c] == LET) {
	evalue = (lookid(c) != NULL);
	if (c1 != '(' /* Need to balance */
	\|\| skipws() == ')') /* Did we balance? */
	return (DIG); /* Parsed ok */
	}
	cerror("Bad #if ... defined() syntax", NULLST);
	return (OP_FAIL);
	}
	else if (streq(token, "sizeof")) /* New sizeof hackery */
	return (dosizeof()); /* Gets own routine */
	/*
	* The Draft ANSI C Standard says that an undefined symbol
	* in an #if has the value zero. We are a bit pickier,
	* warning except where the programmer was careful to write
	* #if defined(foo) ? foo : 0
	*/
	#ifdef STRICT_UNDEF
	if (!skip)
	cwarn("undefined symbol \"%s\" in #if, 0 used", token);
	#endif
	evalue = 0;
	return (DIG);
	}
	else if (t == DIG) { /* Numbers are harder */
	evalue = evalnum(c);
	#ifdef DEBUG_EVAL
	fprintf( pCppOut, "evalnum returns %d.\n", evalue);
	#endif
	}
	else if (strchr("!=<>&\|\\", c) != NULL) {
	/*
	* Process a possible multi-byte lexeme.
	*/
	c1 = cget(); /* Peek at next char */
	switch (c) {
	case '!':
	if (c1 == '=')
	return (OP_NE);
	break;

	case '=':
	if (c1 != '=') { /* Can't say a=b in #if */
	unget();
	cerror("= not allowed in #if", NULLST);
	return (OP_FAIL);
	}
	return (OP_EQ);

	case '>':
	case '<':
	if (c1 == c)
	return ((c == '<') ? OP_ASL : OP_ASR);
	else if (c1 == '=')
	return ((c == '<') ? OP_LE : OP_GE);
	break;

	case '\|':
	case '&':
	if (c1 == c)
	return ((c == '\|') ? OP_ORO : OP_ANA);
	break;

	case '\\':
	if (c1 == '\n') /* Multi-line if */
	goto again;
	cerror("Unexpected \\ in #if", NULLST);
	return (OP_FAIL);
	}
	unget();
	}
	return (t);
	}

	FILE_LOCAL int
	dosizeof()
	/*
	* Process the sizeof (basic type) operation in an #if string.
	* Sets evalue to the size and returns
	* DIG success
	* OP_FAIL bad parse or something.
	*/
	{
	register int c;
	register TYPES *tp;
	register SIZES *sizp;
	register short *testp;
	short typecode;

	if ((c = skipws()) != '(')
	goto nogood;
	/*
	* Scan off the tokens.
	*/
	typecode = 0;
	while (0 != (c = skipws())) {
	if ((c = macroid(c)) == EOF_CHAR \|\| c == '\n')
	goto nogood; /* End of line is a bug */
	else if (c == '(') { /* thing ()() func ptr /
	if (skipws() == '*'
	&& skipws() == ')') { /* We found () /
	if (skipws() != '(') /* Let () be optional */
	unget();
	else if (skipws() != ')')
	goto nogood;
	typecode \|= T_FPTR; /* Function pointer */
	}
	else { /* Junk is a bug */
	goto nogood;
	}
	}
	else if (type[c] != LET) /* Exit if not a type */
	break;
	else if (!catenate()) { /* Maybe combine tokens */
	/*
	* Look for this unexpandable token in basic_types.
	* The code accepts "int long" as well as "long int"
	* which is a minor bug as bugs go (and one shared with
	* a lot of C compilers).
	*/
	for (tp = basic_types; tp->name != NULLST; tp++) {
	if (streq(token, tp->name))
	break;
	}
	if (tp->name == NULLST) {
	cerror("#if sizeof, unknown type \"%s\"", token);
	return (OP_FAIL);
	}
	typecode \|= tp->type; /* Or in the type bit */
	}
	}
	/*
	* We are at the end of the type scan. Chew off '*' if necessary.
	*/
	if (c == '*') {
	typecode \|= T_PTR;
	c = skipws();
	}
	if (c == ')') { /* Last syntax check */
	for (testp = test_table; *testp != 0; testp++) {
	if (!bittest(typecode & *testp)) {
	cerror("#if ... sizeof: illegal type combination", NULLST);
	return (OP_FAIL);
	}
	}
	/*
	* We assume that all function pointers are the same size:
	* sizeof (int ()()) == sizeof (float ()())
	* We assume that signed and unsigned don't change the size:
	* sizeof (signed int) == (sizeof unsigned int)
	*/
	if ((typecode & T_FPTR) != 0) /* Function pointer */
	typecode = T_FPTR \| T_PTR;
	else { /* Var or var * datum */
	typecode &= ~(T_SIGNED \| T_UNSIGNED);
	if ((typecode & (T_SHORT \| T_LONG)) != 0)
	typecode &= ~T_INT;
	}
	if ((typecode & ~T_PTR) == 0) {
	cerror("#if sizeof() error, no type specified", NULLST);
	return (OP_FAIL);
	}
	/*
	* Exactly one bit (and possibly T_PTR) may be set.
	*/
	for (sizp = size_table; sizp->bits != 0; sizp++) {
	if ((typecode & ~T_PTR) == sizp->bits) {
	evalue = ((typecode & T_PTR) != 0)
	? sizp->psize : sizp->size;
	return (DIG);
	}
	} /* We shouldn't fail */
	cierror("#if ... sizeof: bug, unknown type code 0x%x", typecode);
	return (OP_FAIL);
	}

	nogood: unget();
	cerror("#if ... sizeof() syntax error", NULLST);
	return (OP_FAIL);
	}

	FILE_LOCAL int
	bittest(int value)
	/*
	* TRUE if value is zero or exactly one bit is set in value.
	*/
	{
	#if (4096 & ~(-4096)) == 0
	return ((value & ~(-value)) == 0);
	#else
	/*
	* Do it the hard way (for non 2's complement machines)
	*/
	return (value == 0 \|\| value ^ (value - 1) == (value * 2 - 1));
	#endif
	}

	FILE_LOCAL int
	evalnum(int c)
	/*
	* Expand number for #if lexical analysis. Note: evalnum recognizes
	* the unsigned suffix, but only returns a signed int value.
	*/
	{
	register int value;
	register int base;
	register int c1;

	if (c != '0')
	base = 10;
	else if ((c = cget()) == 'x' \|\| c == 'X') {
	base = 16;
	c = cget();
	}
	else base = 8;
	value = 0;
	for (;;) {
	c1 = c;
	if (isascii(c) && isupper(c1))
	c1 = tolower(c1);
	#ifdef EBCDIC
	if (c1 <= 'f')
	#else
	if (c1 >= 'a')
	#endif
	c1 -= ('a' - 10);
	else c1 -= '0';
	if (c1 < 0 \|\| c1 >= base)
	break;
	value *= base;
	value += c1;
	c = cget();
	}
	if (c == 'u' \|\| c == 'U') /* Unsigned nonsense */
	c = cget();
	unget();
	return (value);
	}

	FILE_LOCAL int
	evalchar(int skip)
	/*
	* Get a character constant
	*/
	{
	register int c;
	register int value;
	register int count;

	instring = TRUE;
	if ((c = cget()) == '\\') {
	switch ((c = cget())) {
	case 'a': /* New in Standard */
	#if ('a' == '\a' \|\| '\a' == ALERT)
	value = ALERT; /* Use predefined value */
	#else
	value = '\a'; /* Use compiler's value */
	#endif
	break;

	case 'b':
	value = '\b';
	break;

	case 'f':
	value = '\f';
	break;

	case 'n':
	value = '\n';
	break;

	case 'r':
	value = '\r';
	break;

	case 't':
	value = '\t';
	break;

	case 'v': /* New in Standard */
	#if ('v' == '\v' \|\| '\v' == VT)
	value = VT; /* Use predefined value */
	#else
	value = '\v'; /* Use compiler's value */
	#endif
	break;

	case 'x': /* '\xFF' */
	count = 3;
	value = 0;
	while ((((c = get()) >= '0' && c <= '9')
	\|\| (c >= 'a' && c <= 'f')
	\|\| (c >= 'A' && c <= 'F'))
	&& (--count >= 0)) {
	value *= 16;
	#ifdef EBCDIC
	value += (c <= '9') ? (c - '0') : ((c & 0xF) + 9);
	#else
	value += (c >= '0') ? (c - '0') : ((c & 0xF) + 9);
	#endif
	}
	unget();
	break;

	default:
	if (c >= '0' && c <= '7') {
	count = 3;
	value = 0;
	while (c >= '0' && c <= '7' && --count >= 0) {
	value *= 8;
	value += (c - '0');
	c = get();
	}
	unget();
	}
	else value = c;
	break;
	}
	}
	else if (c == '\'')
	value = 0;
	else value = c;
	/*
	* We warn on multi-byte constants and try to hack
	* (big\|little)endian machines.
	*/
	#if BIG_ENDIAN
	count = 0;
	#endif
	while ((c = get()) != '\'' && c != EOF_CHAR && c != '\n') {
	if (!skip)
	ciwarn("multi-byte constant '%c' isn't portable", c);
	#if BIG_ENDIAN
	count += BITS_CHAR;
	value += (c << count);
	#else
	value <<= BITS_CHAR;
	value += c;
	#endif
	}
	instring = FALSE;
	return (value);
	}

	FILE_LOCAL int *
	evaleval(int* valp, int op, int skip)
	/*
	* Apply the argument operator to the data on the value stack.
	* One or two values are popped from the value stack and the result
	* is pushed onto the value stack.
	*
	* OP_COL is a special case.
	*
	* evaleval() returns the new pointer to the top of the value stack.
	*/
	{
	register int v1, v2 = 0;

	if (isbinary(op))
	v2 = *--valp;
	v1 = *--valp;
	#ifdef DEBUG_EVAL
	fprintf( pCppOut, "%s op %s", (isbinary(op)) ? "binary" : "unary",
	opname[op]);
	if (isbinary(op))
	fprintf( pCppOut, ", v2 = %d.", v2);
	fprintf( pCppOut, ", v1 = %d.\n", v1);
	#endif
	switch (op) {
	case OP_EOE:
	break;

	case OP_ADD:
	v1 += v2;
	break;

	case OP_SUB:
	v1 -= v2;
	break;

	case OP_MUL:
	v1 *= v2;
	break;

	case OP_DIV:
	case OP_MOD:
	if (v2 == 0) {
	if (!skip) {
	cwarn("%s by zero in #if, zero result assumed",
	(op == OP_DIV) ? "divide" : "mod");
	}
	v1 = 0;
	}
	else if (op == OP_DIV)
	v1 /= v2;
	else
	v1 %= v2;
	break;

	case OP_ASL:
	v1 <<= v2;
	break;

	case OP_ASR:
	v1 >>= v2;
	break;

	case OP_AND:
	v1 &= v2;
	break;

	case OP_OR:
	v1 \|= v2;
	break;

	case OP_XOR:
	v1 ^= v2;
	break;

	case OP_EQ:
	v1 = (v1 == v2);
	break;

	case OP_NE:
	v1 = (v1 != v2);
	break;

	case OP_LT:
	v1 = (v1 < v2);
	break;

	case OP_LE:
	v1 = (v1 <= v2);
	break;

	case OP_GE:
	v1 = (v1 >= v2);
	break;

	case OP_GT:
	v1 = (v1 > v2);
	break;

	case OP_ANA:
	v1 = (v1 && v2);
	break;

	case OP_ORO:
	v1 = (v1 \|\| v2);
	break;

	case OP_COL:
	/*
	* v1 has the "true" value, v2 the "false" value.
	* The top of the value stack has the test.
	*/
	v1 = (*--valp) ? v1 : v2;
	break;

	case OP_NEG:
	v1 = (-v1);
	break;

	case OP_PLU:
	break;

	case OP_COM:
	v1 = ~v1;
	break;

	case OP_NOT:
	v1 = !v1;
	break;

	default:
	cierror("#if bug, operand = %d.", op);
	v1 = 0;
	}
	*valp++ = v1;
	return (valp);
	}

	#ifdef DEBUG_EVAL
	dumpstack(opstack, opp, value, valp)
	OPTAB opstack[NEXP]; /* Operand stack */
	register OPTAB opp; / Operator stack */
	int value[NEXP]; /* Value stack */
	register int valp; / -> value vector */
	{
	fprintf( pCppOut, "index op prec skip name -- op stack at %s", infile->bptr);
	while (opp > opstack) {
	fprintf( pCppOut, " [%2d] %2d %03o %d %s\n", opp - opstack,
	opp->op, opp->prec, opp->skip, opname[opp->op]);
	opp--;
	}
	while (--valp >= value) {
	fprintf( pCppOut, "value[%d] = %d\n", (valp - value), *valp);
	}
	}
	#endif