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|
/* $Xorg: token.c,v 1.4 2000/08/17 19:46:34 cpqbld Exp $ */
/* Copyright International Business Machines,Corp. 1991
* All Rights Reserved
*
* License to use, copy, modify, and distribute this software
* and its documentation for any purpose and without fee is
* hereby granted, provided that the above copyright notice
* appear in all copies and that both that copyright notice and
* this permission notice appear in supporting documentation,
* and that the name of IBM not be used in advertising or
* publicity pertaining to distribution of the software without
* specific, written prior permission.
*
* IBM PROVIDES THIS SOFTWARE "AS IS", WITHOUT ANY WARRANTIES
* OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING, BUT NOT
* LIMITED TO ANY IMPLIED WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE, AND NONINFRINGEMENT OF
* THIRD PARTY RIGHTS. THE ENTIRE RISK AS TO THE QUALITY AND
* PERFORMANCE OF THE SOFTWARE, INCLUDING ANY DUTY TO SUPPORT
* OR MAINTAIN, BELONGS TO THE LICENSEE. SHOULD ANY PORTION OF
* THE SOFTWARE PROVE DEFECTIVE, THE LICENSEE (NOT IBM) ASSUMES
* THE ENTIRE COST OF ALL SERVICING, REPAIR AND CORRECTION. IN
* NO EVENT SHALL IBM BE LIABLE FOR ANY SPECIAL, INDIRECT OR
* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING
* FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF
* CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
* OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
* SOFTWARE.
*/
/* $XFree86: xc/lib/font/Type1/token.c,v 1.5 2001/01/17 19:43:24 dawes Exp $ */
/* Authors: Sig Nin & Carol Thompson IBM Almaden Research Laboratory */
#include "t1stdio.h"
#include "util.h"
#include "digit.h"
#include "token.h"
#include "tokst.h"
#include "hdigit.h"
/*
* -------------------------------------------------------------------
* Globals
* -------------------------------------------------------------------
*/
/* These variables are set by the caller */
char *tokenStartP; /* Pointer to token buffer in VM */
char *tokenMaxP; /* Pointer to last byte in buffer + 1 */
/* These variables are set by TOKEN */
int tokenLength; /* Characters in token */
boolean tokenTooLong; /* Token too long for buffer */
int tokenType; /* Type of token identified */
psvalue tokenValue; /* Token value */
/*
* -------------------------------------------------------------------
* Private variables
* -------------------------------------------------------------------
*/
static FILE *inputFileP; /* Current input file */
/* Token */
static char *tokenCharP; /* Pointer to next character in token */
/*
* -------------------------------------------------------------------
* Private routines for manipulating numbers
* -------------------------------------------------------------------
*/
#define Exp10(e) \
((e) == 0\
? (double)(1.0)\
: (-64 <= (e) && (e) <= 63\
? Exp10T[(e)+64]\
: P10(e)\
)\
)
static double Exp10T[128] = {
1e-64, 1e-63, 1e-62, 1e-61, 1e-60, 1e-59, 1e-58, 1e-57,
1e-56, 1e-55, 1e-54, 1e-53, 1e-52, 1e-51, 1e-50, 1e-49,
1e-48, 1e-47, 1e-46, 1e-45, 1e-44, 1e-43, 1e-42, 1e-41,
1e-40, 1e-39, 1e-38, 1e-37, 1e-36, 1e-35, 1e-34, 1e-33,
1e-32, 1e-31, 1e-30, 1e-29, 1e-28, 1e-27, 1e-26, 1e-25,
1e-24, 1e-23, 1e-22, 1e-21, 1e-20, 1e-19, 1e-18, 1e-17,
1e-16, 1e-15, 1e-14, 1e-13, 1e-12, 1e-11, 1e-10, 1e-9,
1e-8, 1e-7, 1e-6, 1e-5, 1e-4, 1e-3, 1e-2, 1e-1,
1e0, 1e1, 1e2, 1e3, 1e4, 1e5, 1e6, 1e7,
1e8, 1e9, 1e10, 1e11, 1e12, 1e13, 1e14, 1e15,
1e16, 1e17, 1e18, 1e19, 1e20, 1e21, 1e22, 1e23,
1e24, 1e25, 1e26, 1e27, 1e28, 1e29, 1e30, 1e31,
1e32, 1e33, 1e34, 1e35, 1e36, 1e37, 1e38, 1e39,
1e40, 1e41, 1e42, 1e43, 1e44, 1e45, 1e46, 1e47,
1e48, 1e49, 1e50, 1e51, 1e52, 1e53, 1e54, 1e55,
1e56, 1e57, 1e58, 1e59, 1e60, 1e61, 1e62, 1e63
};
static double
P10(long exponent)
{
double value, power;
if (exponent < 0) {
power = 0.1;
value = (exponent & 1 ? power : 1.0);
exponent++;
exponent = -(exponent >> 1); /* portable C for -(exponent/2) */
}
else {
power = 10.0;
value = (exponent & 1 ? power : 1.0);
exponent = exponent >> 1;
}
while(exponent > 0) {
power *= power;
if (exponent & 1)
value *= power;
exponent >>= 1;
}
return(value);
}
/*
* -------------------------------------------------------------------
* Private routines and macros for manipulating the input
* -------------------------------------------------------------------
*/
/* Get next character from the input --
*
*/
#define next_ch() (_XT1getc(inputFileP))
/* Push a character back into the input --
*
* Ungetc of EOF will fail, but that's ok: the next getc will
* return EOF.
*
* NOTE: These macros are presently written to return the character
* pushed, or EOF if none was pushed. However, they are not
* required to return anything in particular, and callers should
* not rely on the returned value.
*/
#define back_ch(ch) (T1Ungetc(ch, inputFileP))
/* Push a character back into the input if it was not white space.
* If it is a carriage return (\r) then check next char for
* linefeed and consume them both, otherwise put next char back.
*
*/
#define back_ch_not_white(ch) \
(\
isWHITE_SPACE(ch)\
? ((ch == '\r')\
? (((ch = next_ch()) == '\n')\
? EOF\
: back_ch(ch)\
)\
: EOF\
)\
: back_ch(ch)\
)
/*
* -------------------------------------------------------------------
* Private routines and macros for manipulating the token buffer
* -------------------------------------------------------------------
*/
/* Add a character to the token
* ---- use ONLY when you KNOW that this character will
* be stored within the token buffer.
*/
#define save_unsafe_ch(ch) (*tokenCharP++ = ch)
/* Add a character to the token, if not too long to fit */
#define save_ch(ch) \
((tokenCharP < tokenMaxP)\
? save_unsafe_ch(ch)\
: (tokenTooLong = TRUE)\
)
#define save_ch_no_inc(ch) \
((tokenCharP < tokenMaxP) && (*tokenCharP = ch))
/*
* -------------------------------------------------------------------
* Action Routines
*
* These routines all
* -- take int ch as a parameter
* -- return int ch if no token was recognized, DONE otherwise
* -- leave the next character in the input, if returning DONE
* -------------------------------------------------------------------
*/
#define DONE (256)
/* Get the next input character */
static int
next_char(int ch)
{
return(next_ch());
}
/* Add character to token */
static int
add_char(int ch)
{
save_ch(ch);
return(next_ch());
}
/* -------------------------------------------------------------------
* Skip white space and comments
*/
/* Skip white space */
static int
skip_space(int ch)
{
do {
ch = next_ch();
} while(isWHITE_SPACE(ch));
return(ch);
}
/* Skip comments */
static int
skip_comment(int ch)
{
do {
ch = next_ch();
} while(isCOMMENT(ch));
return(ch);
}
/* -------------------------------------------------------------------
* Collect value elements for a number
*/
/* decimal integer or real number mantissa */
static int m_sign;
static long m_value;
static long m_scale;
/* real number exponent */
static int e_sign;
static long e_value;
static long e_scale;
/* radix number */
static long r_base;
static long r_value;
static long r_scale;
static int
add_sign(int ch)
{
m_sign = ch;
save_unsafe_ch(ch);
return(next_ch());
}
static int
add_1st_digits(int ch)
{
m_sign = '+';
return(add_digits(ch));
}
static int
add_digits(int ch)
{
long value, p_value, scale;
int digit;
/* On entry, expect m_sign to be set to '+' or '-';
* ch is a decimal digit.
* Expect at most one character saved at this point,
* a sign. This routine will save up to 10 more
* characters without checking the buffer boundary.
*/
value = ch - '0';
save_unsafe_ch(ch);
ch = next_ch();
while(isDECIMAL_DIGIT(ch) && value < (MAX_INTEGER/10)) {
value = (value << 3) + (value << 1) + (ch - '0');
save_unsafe_ch(ch);
ch = next_ch();
}
/* Quick exit for small integers --
* |x| <= 10*((MAX_INTEGER/10)-1)+9
* |x| <= 2,147,483,639 for 32 bit integers
*/
if (isNUMBER_ENDER(ch)) {
back_ch_not_white(ch);
tokenValue.integer = (m_sign == '-' ? -value : value);
tokenType = TOKEN_INTEGER;
return(DONE);
}
/* Handle additional digits. Beyond the boundary case,
* 10*(MAX_INTEGER/10) <= |number| <= MAX_INTEGER
* just count the digits: the number is too large to
* represent as an integer and will be returned as a real.
* The mantissa of a real holds fewer bits than an integer.
*/
p_value = value;
value = (m_sign == '-' ? -value : value);
scale = 0;
if (isDECIMAL_DIGIT(ch)) {
/* Handle the boundary case */
if (p_value == (MAX_INTEGER/10)) {
digit = ch - '0';
/* Must handle positive and negative values separately */
/* for 2's complement arithmetic */
if (value > 0) {
if (digit <= MAX_INTEGER%10)
value = (value << 3) + (value << 1) + digit;
else
++scale; /* Too big, just count it */
}
else {
/* Use positive % operands for portability */
if (digit <= -(MIN_INTEGER+10)%10)
value = (value << 3) + (value << 1) - digit;
else
++scale; /* Too big, just count it */
}
}
else
++scale; /* Not boundary case, just count digit */
save_unsafe_ch(ch);
ch = next_ch();
/* Continue scanning digits, but can't store them */
while(isDECIMAL_DIGIT(ch)) {
++scale;
save_ch(ch);
ch = next_ch();
}
}
/* Continue from here scanning radix integer or real */
m_value = value;
m_scale = scale;
/* Initialize for possible real */
e_sign = '+';
e_value = 0;
e_scale = 0;
return(ch);
}
static int
add_1st_decpt(int ch)
{
m_sign = '+';
return(add_decpt(ch));
}
static int
add_decpt(int ch)
{
/* On entry, expect m_sign to be set to '+' or '-' */
m_value = 0;
m_scale = 0;
save_unsafe_ch(ch);
return(next_ch());
}
static int
add_fraction(int ch)
{
long value, scale;
int digit;
/* On entry, expect m_value and m_scale to be initialized,
* and m_sign to be set to '+' or '-'. Expect m_value and m_sign
* to be consistent (this is not checked).
*/
value = m_value;
scale = m_scale;
/* Scan leading zeroes */
if (value == 0) {
while(ch == '0') {
--scale;
save_ch(ch);
ch = next_ch();
}
/* Scan first significant digit */
if (isDECIMAL_DIGIT(ch)) {
--scale;
value = ch - '0';
value = (m_sign == '-' ? -value : value);
save_ch(ch);
ch = next_ch();
}
else
/* no significant digits -- number is zero */
scale = 0;
}
/* value != 0 || value == 0 && !isDECIMAL_DIGIT(ch) */
/* Scan additional significant digits */
if (isDECIMAL_DIGIT(ch)) {
if (value > 0) {
while(isDECIMAL_DIGIT(ch) && value < (MAX_INTEGER/10)) {
--scale;
value = (value << 3) + (value << 1) + (ch - '0');
save_ch(ch);
ch = next_ch();
}
/* Check boundary case */
if (isDECIMAL_DIGIT(ch) && value == (MAX_INTEGER/10)) {
digit = ch - '0';
if (digit <= MAX_INTEGER%10) {
--scale;
value = (value << 3) + (value << 1) + digit;
save_ch(ch);
ch = next_ch();
}
}
}
else {
/* value < 0 */
while(isDECIMAL_DIGIT(ch) && value > -(-(MIN_INTEGER+10)/10+1)) {
/* Use positive / operands for portability */
--scale;
value = (value << 3) + (value << 1) - (ch - '0');
save_ch(ch);
ch = next_ch();
}
/* Check boundary case */
if (isDECIMAL_DIGIT(ch)
&& value == -(-(MIN_INTEGER+10)/10+1)) {
digit = ch - '0';
if (digit <= -(MIN_INTEGER+10)%10) {
/* Use positive % operands for portability */
--scale;
value = (value << 3) + (value << 1) - digit;
save_ch(ch);
ch = next_ch();
}
}
}
/* Additional digits can be discarded */
while(isDECIMAL_DIGIT(ch)) {
save_ch(ch);
ch = next_ch();
}
}
/* Store results */
m_value = value;
m_scale = scale;
/* Initialize for possible real */
e_sign = '+';
e_value = 0;
e_scale = 0;
return(ch);
}
static int
add_e_sign(int ch)
{
e_sign = ch;
save_ch(ch);
return(next_ch());
}
static int
add_exponent(int ch)
{
long value, p_value;
long scale = 0;
int digit;
/* On entry, expect e_sign to be set to '+' or '-' */
value = ch - '0';
save_ch(ch);
ch = next_ch();
while(isDECIMAL_DIGIT(ch) && value < (MAX_INTEGER/10)) {
value = (value << 3) + (value << 1) + (ch - '0');
save_ch(ch);
ch = next_ch();
}
p_value = value;
value = (e_sign == '-' ? -value : value);
/* Handle additional digits. Beyond the boundary case,
* 10*(MAX_INTEGER/10) <= |number| <= MAX_INTEGER
* just count the digits: the number is too large to
* represent as an integer.
*/
if (isDECIMAL_DIGIT(ch)) {
/* Examine boundary case */
if (p_value == (MAX_INTEGER/10)) {
digit = ch - '0';
/* Must handle positive and negative values separately */
/* for 2's complement arithmetic */
if (value > 0) {
if (digit <= MAX_INTEGER%10)
value = (value << 3) + (value << 1) + digit;
else
++scale; /* Too big, just count it */
}
else {
/* Use positive % operands for portability */
if (digit <= -(MIN_INTEGER+10)%10)
value = (value << 3) + (value << 1) - digit;
else
++scale; /* Too big, just count it */
}
}
else
++scale; /* Not boundary case, just count digit */
save_ch(ch);
ch = next_ch();
/* Continue scanning digits, but can't store any more */
while(isDECIMAL_DIGIT(ch)) {
++scale;
save_ch(ch);
ch = next_ch();
}
}
/* Store results */
e_value = value;
e_scale = scale;
return(ch);
}
static int
add_radix(int ch)
{
if (2 <= m_value && m_value <= 36 && m_scale == 0) {
r_base = m_value;
save_ch(ch);
return(next_ch());
}
else {
/* Radix invalid, complete a name token */
return(AAH_NAME(ch));
}
}
static int
add_r_digits(int ch)
{
unsigned long value;
long radix, scale;
int digit;
/* NOTE: The syntax of a radix number allows only for
* values of zero or more. The value will be stored as
* a 32 bit integer, which PostScript then interprets
* as signed. This means, for example, that the numbers:
*
* 8#37777777777
* 10#4294967295
* 16#FFFFFFFF
* 36#1Z141Z3
*
* are all interpreted as -1. This routine implements this
* idea explicitly: it accumulates the number's value
* as unsigned, then casts it to signed when done.
*/
/* Expect r_base to be initialized */
radix = r_base;
value = 0;
scale = 0;
/* Scan leading zeroes */
while(ch == '0') {
save_ch(ch);
ch = next_ch();
}
/* Handle first non-zero digit */
if ((digit=digit_value[ch]) < radix) {
value = digit;
save_ch(ch);
ch = next_ch();
/* Add digits until boundary case reached */
while((digit=digit_value[ch]) < radix
&& value < (MAX_ULONG / radix)) {
value = value * radix + digit;
save_ch(ch);
ch = next_ch();
};
/* Scan remaining digits */
if ((digit=digit_value[ch]) < radix) {
/* Examine boundary case ---
* radix*(MAX_ULONG/radix) <= number <= MAX_ULONG
*/
if (value == (MAX_ULONG/radix) && digit <= MAX_ULONG%radix)
value = value * radix + digit;
else
++scale;
/* Continue scanning digits, but can't store them */
save_ch(ch);
ch = next_ch();
while(digit_value[ch] < radix) {
++scale;
save_ch(ch);
ch = next_ch();
}
}
}
/* Store result */
r_value = (long) value; /* result is signed */
r_scale = scale;
return(ch);
}
/* -------------------------------------------------------------------
* Complete a number; set token type and done flag.
* Put current input character back, if it is not white space.
*/
/* Done: Radix Number */
static int
RADIX_NUMBER(int ch)
{
back_ch_not_white(ch);
if (r_scale == 0) {
tokenValue.integer = r_value;
tokenType = TOKEN_INTEGER;
}
else {
tokenType = TOKEN_NAME;
}
return(DONE);
}
/* Done: Integer */
static int
INTEGER(int ch)
{
back_ch_not_white(ch);
if (m_scale == 0) {
tokenValue.integer = m_value;
tokenType = TOKEN_INTEGER;
}
else {
tokenValue.real = (double)(m_value) * Exp10(m_scale);
tokenType = TOKEN_REAL;
}
return(DONE);
}
/* Done: Real */
static int
REAL(int ch)
{
double temp;
back_ch_not_white(ch);
/* NOTE: ignore e_scale, since e_value alone will cause
* exponent overflow if e_scale > 0.
*/
/* HAZARD: exponent overflow of intermediate result
* (e.g., in 370 floating point); this should not be a problem
* with IEEE floating point. Reduce exponent overflow hazard by
* combining m_scale and e_value first, if they have different signs,
* or multiplying m_value and one of the other factors, if both
* m_scale and e_value are negative.
*/
if ((m_scale >= 0 && e_value <= 0)
|| (m_scale <= 0 && e_value >= 0)) {
tokenValue.real = (double)(m_value) * Exp10(m_scale + e_value);
}
else {
temp = (double)(m_value) * Exp10(m_scale);
tokenValue.real = temp * Exp10(e_value);
}
tokenType = TOKEN_REAL;
return(DONE);
}
/* -------------------------------------------------------------------
* Assemble a hex string; set token type and done flag.
*/
/* Done: Hex String */
static int
HEX_STRING(int ch)
{
int value;
while(TRUE) {
/* Process odd digit */
ch = next_ch();
if (!isHEX_DIGIT(ch)) {
/* Skip white space */
while(isWHITE_SPACE(ch))
ch = next_ch();
/* Check for terminator */
if (!isHEX_DIGIT(ch)) {
break;
}
}
value = digit_value[ch] << 4;
/* Process even digit */
ch = next_ch();
if (!isHEX_DIGIT(ch)) {
/* Skip white space */
while(isWHITE_SPACE(ch))
ch = next_ch();
/* Check for terminator */
if (!isHEX_DIGIT(ch)) {
save_ch(value);
break;
}
}
save_ch(value + digit_value[ch]);
}
/* Classify result, based on why loop ended */
if (ch == '>')
tokenType = TOKEN_HEX_STRING;
else {
/* save the invalid character for error reporting */
save_ch(ch);
tokenType = TOKEN_INVALID;
}
return(DONE);
}
/* -------------------------------------------------------------------
* Assemble a string; set token type and done flag
*/
/* Save a backslash-coded character in a string --
*
* Store the proper character for special cases
* "\b", "\f", "\n", "\r", and "\t".
*
* Decode and store octal-coded character, up to
* three octal digits, "\o", "\oo", and "\ooo".
*
* The sequence "\<newline>" is a line continuation,
* so consume both without storing anything.
*
* The sequence "\<EOF>" is an error; exit without
* storing anything and let the caller handle it.
*
* For other characters, including the sequences
* "\\", "\(", and "\)", simply store the second
* character.
*/
static void
save_digraph(int ch)
{
int value;
switch (ch) {
case 'b': /* backspace */
ch = '\b';
break;
case 'f': /* formfeed */
ch = '\f';
break;
case 'n': /* newline */
ch = '\n';
break;
case 'r': /* carriage return */
ch = '\r';
break;
case 't': /* horizontal tab */
ch = '\t';
break;
case '\n': /* line continuation -- consume it */
return;
case '\r': /* carriage return -- consume it */
ch = next_ch(); /* look at next character, is it \n? */
if (ch == '\n') return;
back_ch(ch); /* if not a line feed, then return it */
return;
case EOF: /* end of file -- forget it */
return;
default:
/* scan up to three octal digits to get value */
if (isOCTAL_DIGIT(ch)) {
value = digit_value[ch];
ch = next_ch();
if (isOCTAL_DIGIT(ch)) {
value = (value << 3) + digit_value[ch];
ch = next_ch();
if (isOCTAL_DIGIT(ch))
value = (value << 3) + digit_value[ch];
else
back_ch(ch);
}
else
back_ch(ch);
ch = value;
}
}
/* Found a character to save */
save_ch(ch);
}
/* Done: String */
static int
STRING(int ch)
{
int nest_level = 1;
tokenType = TOKEN_STRING;
do {
ch = next_ch();
while(!isSTRING_SPECIAL(ch)) {
save_ch(ch);
ch = next_ch();
};
switch (ch) {
case '(':
++nest_level;
save_ch(ch);
break;
case ')':
if (--nest_level > 0)
save_ch(ch);
break;
case '\\':
save_digraph(next_ch());
break;
case '\r':
/* All carriage returns (\r) are turned into linefeeds (\n)*/
ch = next_ch(); /* get the next one, is it \n? */
if (ch != '\n') { /* if not, then put it back. */
back_ch(ch);
}
save_ch('\n'); /* in either case, save a linefeed */
break;
case EOF:
tokenType = TOKEN_INVALID; /* Unterminated string */
nest_level = 0;
break;
}
} while(nest_level > 0);
/* If there's room, add a 0-byte termination without increasing string
length. This fixes certain dependencies on 0-terminated strings */
save_ch_no_inc(0);
return(DONE);
}
/* -------------------------------------------------------------------
* Assemble a name; set token type and done flag.
* Put current input character back, if it is not white space.
*/
/* Done: Name
* (Safe version used to complete name tokens that
* start out looking like something else).
*/
static int
AAH_NAME(int ch)
{
do {
save_ch(ch);
ch = next_ch();
} while(isNAME(ch));
back_ch_not_white(ch);
tokenType = TOKEN_NAME;
return(DONE);
}
/* Done: Name */
static int
NAME(int ch)
{
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
while(isNAME(ch)) {
save_ch(ch);
ch = next_ch();
}
}
}
}
}
}
}
back_ch_not_white(ch);
tokenType = TOKEN_NAME;
return(DONE);
}
/* Done: Literal Name */
static int
LITERAL_NAME(int ch)
{
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
while(isNAME(ch)) {
save_ch(ch);
ch = next_ch();
}
}
}
}
}
}
}
back_ch_not_white(ch);
tokenType = TOKEN_LITERAL_NAME;
return(DONE);
}
/* Done: immediate Name */
static int
IMMED_NAME(int ch)
{
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
if (isNAME(ch)) {
save_unsafe_ch(ch);
ch = next_ch();
while(isNAME(ch)) {
save_ch(ch);
ch = next_ch();
}
}
}
}
}
}
}
back_ch_not_white(ch);
tokenType = TOKEN_IMMED_NAME;
return(DONE);
}
/* Done: Name found while looking for something else */
static int
OOPS_NAME(int ch)
{
back_ch_not_white(ch);
tokenType = TOKEN_NAME;
return(DONE);
}
/* -------------------------------------------------------------------
* Complete a miscellaneous token; set token type and done flag.
*/
/* Done: Unmatched Right Angle-Bracket */
static int
RIGHT_ANGLE(int ch)
{
tokenType = TOKEN_RIGHT_ANGLE;
return(DONE);
}
/* Done: Unmatched Right Parenthesis */
static int
RIGHT_PAREN(int ch)
{
tokenType = TOKEN_RIGHT_PAREN;
return(DONE);
}
/* Done: Left Brace */
static int
LEFT_BRACE(int ch)
{
tokenType = TOKEN_LEFT_BRACE;
return(DONE);
}
/* Done: Right Brace */
static int
RIGHT_BRACE(int ch)
{
tokenType = TOKEN_RIGHT_BRACE;
return(DONE);
}
/* Done: Left Bracket */
static int
LEFT_BRACKET(int ch)
{
save_unsafe_ch(ch);
tokenType = TOKEN_LEFT_BRACKET;
return(DONE);
}
/* Done: Right Bracket */
static int
RIGHT_BRACKET(int ch)
{
save_unsafe_ch(ch);
tokenType = TOKEN_RIGHT_BRACKET;
return(DONE);
}
/* Done: Break */
static int
BREAK_SIGNAL(int ch)
{
tokenType = TOKEN_BREAK;
return(DONE);
}
/* Done: No Token Found */
static int
NO_TOKEN(int ch)
{
tokenType = TOKEN_EOF;
return(DONE);
}
/*
* -------------------------------------------------------------------
* scan_token -- scan one token from the input. It uses a simple
* finite state machine to recognize token classes.
*
* The input is from a file.
*
* On entry --
*
* inputP -> input PostScript object, a file.
* tokenStartP -> buffer in VM for accumulating the token.
* tokenMaxP -> last character in the token buffer
*
* On exit --
*
* tokenLength = number of characters in the token
* tokenTooLong = TRUE if the token did not fit in the buffer
* tokenType = code for the type of token parsed.
* tokenValue = converted value of a numeric token.
*
*
* -------------------------------------------------------------------
*/
void
scan_token(psobj *inputP)
{
int ch;
unsigned char *stateP = s0;
unsigned char entry;
int (*actionP)(int);
/* Define input source */
inputFileP = inputP->data.fileP;
if (inputFileP == NULL) {
tokenType = TOKEN_EOF;
return;
}
/* Ensure enough space for most cases
* (so we don't have to keep checking)
* The length needs to cover the maximum number
* of save_unsafe_ch() calls that might be executed.
* That number is 11 (a sign and 10 decimal digits, e.g.,
* when scanning -2147483648), but use MAX_NAME_LEN
* in case someone changes that without checking.
*/
tokenStartP = vm_next_byte();
tokenMaxP = tokenStartP + MIN(vm_free_bytes(), MAX_STRING_LEN);
if ((tokenMaxP-tokenStartP) < (MAX_NAME_LEN)) {
tokenLength = 0;
tokenTooLong = TRUE;
tokenType = TOKEN_NONE;
tokenValue.integer = 0;
return;
}
/* Reset token */
tokenCharP = tokenStartP;
tokenTooLong = FALSE;
/* Scan one token */
ch = next_ch();
do {
entry = stateP[ch];
stateP = classActionTable[entry].nextStateP;
actionP = classActionTable[entry].actionRoutineP;
ch = (*actionP)(ch);
} while(ch != DONE);
/* Return results */
tokenLength = tokenCharP - tokenStartP;
}
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