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/*
	soapcpp2_lex.l

	Flex/Lex tokenizer.

--------------------------------------------------------------------------------
gSOAP XML Web services tools
Copyright (C) 2000-2013, Robert van Engelen, Genivia Inc. All Rights Reserved.
This part of the software is released under ONE of the following licenses:
GPL or Genivia's license for commercial use.
--------------------------------------------------------------------------------
GPL license.

This program 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 2 of the License, or (at your option) any later
version.

This program 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.

You should have received a copy of the GNU General Public License along with
this program; if not, write to the Free Software Foundation, Inc., 59 Temple
Place, Suite 330, Boston, MA 02111-1307 USA

Author contact information:
engelen@genivia.com / engelen@acm.org

This program is released under the GPL with the additional exemption that
compiling, linking, and/or using OpenSSL is allowed.
--------------------------------------------------------------------------------
A commercial use license is available from Genivia, Inc., contact@genivia.com
--------------------------------------------------------------------------------
*/

%{
#include "soapcpp2.h"

#ifdef HAVE_CONFIG_H
#include "soapcpp2_yacc.h"
#else
#include "soapcpp2_yacc.tab.h"
#endif

#ifdef WITH_BISON
YYSTYPE yylval;
#undef YY_INPUT
#define YY_INPUT(buf, result, max_size) \
	{ \
	int c = getc(yyin); \
	result = (c == EOF) ? YY_NULL : (buf[0] = c, 1); \
	}
#endif

#ifndef WITH_LEX
#define MAX_IMPORT_DEPTH 16
static struct importlist { struct importlist *next; char name[1]; } *importlist = NULL;
static char fnstk[MAX_IMPORT_DEPTH][1024];
static int lnstk[MAX_IMPORT_DEPTH];
static char *imstk[MAX_IMPORT_DEPTH];
static YY_BUFFER_STATE instk[MAX_IMPORT_DEPTH];
#endif
int imports = 0;
char *imported = NULL;
static void check_id(const char*);
static Token install_id(void);
static Token install_tag(void);
static Token install_int(void);
static Token install_hex(void);
static Token install_num(void);
static Token install_chr(void);
static Token install_str(void);
static Token install_pragma(void);
static void directive(void), option(void);
static Token error_chr(void);
static Token error_str(void);
static int convchar(int*);
static int hexchar(int*);
static int octchar(int*);
static void module(const char *name, const char *fullname);
static void import(const char *file);
static int magic(const char *name);
%}
ws		[ \t\v\r\f\n\x1A\xA0]
digit		[0-9]
alpha		[a-zA-Z_]
id		({alpha}|:{alpha})({alpha}|{digit}|::|:{alpha})*
tag		`[^`\t\v\r\f\n>]+`
int		{digit}+
hex		0[xX][0-9a-fA-F]+
num		{int}(\.{int}([Ee][+-]?{int})?|(\.{int})?[Ee][+-]?{int})
chr		'(\\'|[^'\n])*'
str		L?\"(\\\"|\\\n|[^"])*\"
module		#module{ws}+.*\n
import		#import{ws}+.*\n
%x MLCOMMENT
%%
{ws}			{ /* skip white space */ }
"/*"			{ BEGIN(MLCOMMENT); }
<MLCOMMENT>.|\n		{ }
<MLCOMMENT>"*/"		{ BEGIN(INITIAL); }
<MLCOMMENT><<EOF>>	{ execerror("Unclosed multiline comment at the end of file"); }
"//"\/*"gsoapopt".*\n	{ option(); }
"//"\/*"gsoap".*\n	{ directive(); }
"//".*\n		{ /* skip single line comment */ }
"+="			{ return PA; }
"-="			{ return NA; }
"*="			{ return TA; }
"/="			{ return DA; }
"%="			{ return MA; }
"&="			{ return AA; }
"^="			{ return XA; }
"|="			{ return OA; }
"<<="			{ return LA; }
">>="			{ return RA; }
"||"			{ return OR; }
"&&"			{ return AN; }
"=="			{ return EQ; }
"!="			{ return NE; }
"<="			{ return LE; }
">="			{ return GE; }
"<<"			{ return LS; }
">>"			{ return RS; }
"++"			{ return PP; }
"--"			{ return NN; }
"->"			{ return AR; }
[;,:=|^&<>+\-*/%!?~(){}\[\].@$]	{ return yytext[0]; }
{id}			{ return install_id(); }
{tag}			{ return install_tag(); }
{int}			{ return install_int(); }
{hex}			{ return install_hex(); }
{num}			{ return install_num(); }
{chr}			{ return install_chr(); }
{str}			{ return install_str(); }
{module}		{ char *s, *t, buf[1024];
			  s = strchr(yytext, '"');
			  if (!s)
			    t = yytext+7;
			  else
			  { strcpy(buf, s+1);
			    s = strchr(buf, '"');
			    *s = '\0';
			    t = strchr(s+1, '"');
			    if (t)
			    { t++;
			      s = strchr(t+1, '"');
			      if (s)
			        *s = '\0';
			    }
			  }
			  module(buf, t);
			}
{import}		{ char *s, buf[1024];
			  s = strchr(yytext, '"');
			  if (s)
			  { strcpy(buf, s+1);
			    s = strchr(buf, '"');
			    *s = '\0';
			    import(buf);
			  }
			  else
		            lexerror("Invalid import directive");
			}
#.*\n			{ return install_pragma(); }
'[^'\n]*/\n		{ return error_chr(); }
\"[^"\n]*/\n		{ return error_str(); }
.			{ lexerror("Skipping unknown symbol"); }
<<EOF>>			{ /* when Lex complains: remove this line and below */
#ifndef WITH_LEX
			  if (--imports < 0)
			    yyterminate();
			  else
			  { yy_delete_buffer(YY_CURRENT_BUFFER);
			    yy_switch_to_buffer(instk[imports]);
			    strcpy(filename, fnstk[imports]);
			    yylineno = lnstk[imports];
			    imported = imstk[imports];
			  }
#endif
			}
%%

/*
	install_id - lookup identifier in symbol table. If found, return token
	and symbol table entry. If not found, create entry in symbol table and
	return ID token.
*/ 
static Token
install_id()
{	Symbol *p = lookup(yytext);
	if (!p)
	{	int i, flag = 0;
		p = install(yytext, ID);
		/* [_](x|X)(m|M)(l|L)__ is OK */
		/* [_](x|X)(m|M)(l|L).* is not OK */
		/* .*__(x|X)(m|M)(l|L) is not OK */
		/* .*::(x|X)(m|M)(l|L) is not OK */
		for (i = 0; i < yyleng; i++)
		{	if ((yytext[i] == '_' && yytext[i+1] == '_')
			 || (yytext[i] == ':' && yytext[i+1] == ':'))
			{	flag = 1;
				check_id(yytext + i + 2);
			}
		}
		if (!flag && strcmp(yytext, "XML"))
			check_id(yytext);
	}
	yylval.sym = p;
	return p->token;
}

/*
	install_tag - 
	return TAG token.
*/ 
static Token
install_tag()
{	yylval.s = emalloc(yyleng-1);	/* yyleng = length(yytext) */
	strcpy(yylval.s, yytext+1);
	yylval.s[yyleng-2] = '\0';
	return TAG;
}

/*
	check_id - check for (x|X)(m|M)(l|L)
*/
static void
check_id(const char *s)
{	while (*s == '_')
		s++;
	if ((s[0] == 'x' || s[0] == 'X')
	 && (s[1] == 'm' || s[1] == 'M')
	 && (s[2] == 'l' || s[2] == 'L'))
	{	sprintf(errbuf, "identifier '%s' starts with or embeds '%3.3s' character sequence exclusively reserved for the XML standard (for enum constants: please ignore this warning)", yytext, s);
		semwarn(errbuf);
	}
}

/*
	install_int - convert digits to integer and return LNG token.
*/
static Token
install_int(void)
{
	sscanf(yytext, SOAP_ULONG_FORMAT, &yylval.i);
	return LNG;
}

/*
	install_hex - convert hexadecimal digits to integer and return LNG
*/
static Token
install_hex(void)
{
	sscanf(yytext, SOAP_XLONG_FORMAT, &yylval.i);
	return LNG;
}

/*
	install_num - convert digits to floating point number and return DBL
*/
static Token
install_num(void)
{	sscanf(yytext, "%lf", &yylval.r);
	return DBL;
}

/*
	install_chr - convert character constant and return CHR.
*/
static Token
install_chr(void)
{	int i = 2;
	if (yytext[1] == '\\')
		yylval.c = convchar(&i);
	else	yylval.c = yytext[i-1];
	if (yytext[i] != '\'')
		lexerror("Illegal character constant");
	return CHR;
}

/*
	install_str - convert and store string in memory. Return STR.
*/
static Token
install_str(void)
{	int i, j = 0;
	yylval.s = emalloc(yyleng-1);	/* yyleng = length(yytext) */
	for (i = 1 + (yytext[0] == 'L'); i < yyleng-1; i++)
		if (yytext[i] == '\\')
		{	if (yytext[++i] != '\n')
			{	yylval.s[j++] = convchar(&i);
				i--;
			}
		}
		else
			yylval.s[j++] = yytext[i];
	yylval.s[j] = '\0';
	return STR;
}

/*
	install_pragma - store pragma in string. Return PRAGMA.
*/
static Token
install_pragma(void)
{	yylval.s = emalloc(yyleng);	/* yyleng = length(yytext) */
	strncpy(yylval.s, yytext, strlen(yytext)-1);
	yylval.s[strlen(yytext)-1] = '\0';
	return PRAGMA;
}

static void directive(void)
{	int i, j, k;
	char *s;
	Service *sp;
	Method *m;
	Data *d;
	int service;
	for (i = 7; yytext[i]; i++)
		if (yytext[i] > 32)
			break;
	for (j = i; yytext[j]; j++)
		if (yytext[j] <= 32)
			break;
	if (i == j)
		return;
	s = (char*)emalloc(j-i+1);
	for (k = 0; k < j-i; k++)
	{ s[k] = yytext[k+i];
	  if (s[k] == '_')
	    s[k] = '-';
	}
	s[k] = '\0';
	for (sp = services; sp; sp = sp->next)
		if (!strcmp(sp->ns, s))
			break;
	if (!sp)
	{	sp = (Service*)emalloc(sizeof(Service));
		sp->next = services;
		sp->ns = s;
		sp->name = NULL;
		sp->porttype = NULL;
		sp->portname = NULL;
		sp->binding = NULL;
		sp->definitions = NULL;
		sp->transport = NULL;
		sp->URL = NULL;
		sp->URI = NULL;
		sp->URI2 = NULL;
		sp->WSDL = NULL;
		sp->style = NULL;
		sp->encoding = NULL;
		sp->protocol = NULL;
		sp->xsi_type = 0;
		sp->elementForm = NULL;
		sp->attributeForm = NULL;
		sp->executable = NULL;
		sp->import = NULL;
		sp->documentation = NULL;
		sp->list = NULL;
		sp->data = NULL;
		services = sp;
	}
	for (i = j; yytext[i]; i++)
		if (yytext[i] > 32)
			break;
	if (!strncmp(yytext+i, "service", 7) || !strncmp(yytext+i, "schema", 6))
	{	service = strncmp(yytext+i, "schema", 6);
		for (i += 7; yytext[i]; i++)
			if (yytext[i] > 32)
				break;
		for (j = i; yytext[j]; j++)
			if (yytext[j] <= 32)
				break;
		for (; yytext[j]; j++)
			if (yytext[j] > 32)
				break;
		for (k = j; yytext[k]; k++)
			if (yytext[k] <= 32)
				break;
		/*
		if (j == k)
			return;
		*/
		s = (char*)emalloc(k-j+1);
		strncpy(s, yytext+j, k-j);
		s[k-j] = '\0';
		if (!strncmp(yytext+i, "name:", 5))
		{	sp->name = s;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] == 10 || yytext[k] == 13)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			sp->documentation = s;
		}
		else if (!strncmp(yytext+i, "type:", 5) || !strncmp(yytext+i, "portType:", 9) || !strncmp(yytext+i, "interface:", 10))
			sp->porttype = s;
		else if (!strncmp(yytext+i, "portName:", 9))
			sp->portname = s;
		else if (!strncmp(yytext+i, "binding:", 8))
			sp->binding = s;
		else if (!strncmp(yytext+i, "definitions:", 12))
			sp->definitions = s;
		else if (!strncmp(yytext+i, "documentation:", 14))
		{	for (k = j; yytext[k]; k++)
				if (yytext[k] == 10 || yytext[k] == 13)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			sp->documentation = s;
		}
		else if (!strncmp(yytext+i, "transport:", 10))
			sp->transport = s;
		else if (!strncmp(yytext+i, "location:", 9) || !strncmp(yytext+i, "endpoint:", 9) || !strncmp(yytext+i, "port:", 5))
		{	if (sp->URL)
			{	char *t = (char*)emalloc(strlen(sp->URL) + strlen(s) + 2);
				strcpy(t, sp->URL);
				strcat(t, " ");
				strcat(t, s);
				sp->URL = t;
			}
			else
				sp->URL = s;
			if (!service && !sp->import)
				sp->import = s;
		}
		else if (!strncmp(yytext+i, "executable:", 11))
			sp->executable = s;
		else if (!strncmp(yytext+i, "namespace:", 10))
		{	if (service)
			{	if (!sp->URI)
					sp->URI = s;
				sp->WSDL = s;
			}
			else if (!strcmp(sp->ns, "SOAP-ENV"))
			{	if (vflag > 0)
					semwarn("option -1 or -2 overrides SOAP-ENV namespace");
				else
					envURI = s;
				sp->URI = envURI;
			}
			else if (!strcmp(sp->ns, "SOAP-ENC"))
			{	if (vflag > 0)
					semwarn("option -1 or -2 overrides SOAP-ENC namespace");
				else
					encURI = s;
				sp->URI = encURI;
			}
			else
				sp->URI = s;
		}
		else if (!strncmp(yytext+i, "namespace2:", 11))
		{	sp->URI2 = s;
		}
		else if (!strncmp(yytext+i, "typed:", 6))
		{	sp->xsi_type = (*s == 'y');
		}
		else if (!strncmp(yytext+i, "form:", 5))
		{	sp->elementForm = s;
			sp->attributeForm = s;
		}
		else if (!strncmp(yytext+i, "elementForm:", 12))
			sp->elementForm = s;
		else if (!strncmp(yytext+i, "attributeForm:", 14))
			sp->attributeForm = s;
		else if (!strncmp(yytext+i, "import:", 7))
		{	if (!sp->URI)
				sp->URI = s;
			sp->import = s;
		}
		else if (!strncmp(yytext+i, "encoding:", 9))
		{	if (!strcmp(s, "encoded"))
				sp->encoding = "";
			else
				sp->encoding = s;
		}
		else if (!strncmp(yytext+i, "style:", 6))
			sp->style = s;
		else if (!strncmp(yytext+i, "protocol:", 9))
			sp->protocol = s;
		else if (!strncmp(yytext+i, "method-protocol:", 16))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = PROTOCOL;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] == 10 || yytext[k] == 13)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-style:", 13))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = STYLE;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] == 10 || yytext[k] == 13)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-encoding:", 16))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = ENCODING;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] == 10 || yytext[k] == 13)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
		 	if (strcmp(s, "encoded"))
				m->part = s;
			else
				m->part = "";
		}
		else if (!strncmp(yytext+i, "method-response-encoding:", 25))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = RESPONSE_ENCODING;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] == 10 || yytext[k] == 13)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
		 	if (strcmp(s, "encoded"))
				m->part = s;
			else
				m->part = "";
		}
		else if (!strncmp(yytext+i, "method-documentation:", 21))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = COMMENT;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] == 10 || yytext[k] == 13)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-action:", 14))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = ACTION;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] == 10 || yytext[k] == 13)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-input-action:", 20))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = REQUEST_ACTION;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] == 10 || yytext[k] == 13)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-output-action:", 21))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = RESPONSE_ACTION;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] == 10 || yytext[k] == 13)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-fault-action:", 20))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = FAULT_ACTION;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] == 10 || yytext[k] == 13)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-mime-type:", 17))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = MIMEIN | MIMEOUT;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] <= 32)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-input-mime-type:", 23))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = MIMEIN;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] <= 32)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-output-mime-type:", 24))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = MIMEOUT;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] <= 32)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-header-part:", 19))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = HDRIN | HDROUT;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] <= 32)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-input-header-part:", 25))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = HDRIN;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] <= 32)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-output-header-part:", 26))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = HDROUT;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] <= 32)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "method-fault:", 13))
		{	m = (Method*)emalloc(sizeof(Method));
			m->name = s;
			m->mess = FAULT;
			m->part = NULL;
			m->next = sp->list;
			sp->list = m;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] <= 32)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			m->part = s;
		}
		else if (!strncmp(yytext+i, "type-documentation:", 19))
		{	d = (Data*)emalloc(sizeof(Data));
			d->name = s;
			d->text = NULL;
			d->next = sp->data;
			sp->data = d;
			for (j = k; yytext[j]; j++)
				if (yytext[j] > 32)
					break;
			for (k = j; yytext[k]; k++)
				if (yytext[k] == 10 || yytext[k] == 13)
					break;
			if (j == k)
				return;
			s = (char*)emalloc(k-j+1);
			strncpy(s, yytext+j, k-j);
			s[k-j] = '\0';
			d->text = s;
		}
		else
                {	sprintf(errbuf, "unrecognized gsoap directive: %s", yytext+i);
			semwarn(errbuf);
		}
	}
	else
        {	sprintf(errbuf, "unrecognized gsoap directive: %s", yytext);
		semwarn(errbuf);
	}
}

static void option(void)
{	int i;
	if (imports)
        {	sprintf(errbuf, "options directive: %s ignored in imported file(s)", yytext);
		semwarn(errbuf);
		return;
	}
	for (i = 10; yytext[i]; i++)
		if (yytext[i] > 32)
			break;
	for (; yytext[i]; i++)
		switch (yytext[i])
		{	case 'a':
				aflag = 1;
				break;
			case 'c':
				cflag = 1;
				break;
		 	case 'e':
				eflag = 1;
				break;
		 	case 'n':
				nflag = 1;
				break;
		 	case 'l':
				lflag = 1;
				break;
		 	case 't':
				tflag = 1;
				break;
		 	case 'w':
				wflag = 1;
				break;
			default:
				if (yytext[i] <= 32)
					return;
		}
}

/*
	error_chr - lexical error in character constant. Return character 0 to
	allow parsing to continue
*/
static Token
error_chr(void)
{	lexerror("Ending-' missing in character constant");
	yylval.c = '\0';
	return CHR;
}

/*
	error_str - lexical error in string. Return empty string to allow
	parsing to continue
*/
static Token
error_str(void)
{	lexerror("Ending-\" missing in string");
	yylval.s = "";
	return STR;
}

/*
	Character conversion functions
*/
static int
convchar(int *p)
{	switch (yytext[(*p)++])
	{	case 'a':	return '\a';
		case 'b':	return '\b';
		case 'f':	return '\f';
		case 'n':	return '\n';
		case 'r':	return '\r';
		case 't':	return '\t';
		case 'v':	return '\v';
		case 'x':	return hexchar(p);
		case '0':
		case '1':
		case '2':
		case '3':
		case '4':
		case '5':
		case '6':
		case '7':	(*p)--;
				return octchar(p);
		default:	return yytext[*p-1];
	}
}

static int
hexchar(int *p)
{	int i, d, c = 0;
	for (i = 0; isxdigit(d = yytext[*p]) && i < 2; i++)
	{	c = (c << 4) + (d <= '9' ? d - '0' : toupper(d) - '7');
		(*p)++;
	}
	return c;
}

static int
octchar(int *p)
{	int i, d, c = 0;
	for (i = 0; (d = yytext[*p]) >= '0' && d <= '7' && i < 3; i++)
	{	c = (c << 3) + d - '0';
		(*p)++;
	}
	return c;
}

static void module(const char *name, const char *fullname)
{ if (!fullname)
    fullname = name;
  if (imports)
  { Pragma **pp;
    char *s = emalloc(strlen(fullname)+15);
    sprintf(s, "#include \"%sH.h\"", fullname);
    for (pp = &pragmas; *pp; pp = &(*pp)->next)
      if (!strcmp((*pp)->pragma, s))
        break;
    if (!*pp)
    { *pp = (Pragma*)emalloc(sizeof(Pragma));
      (*pp)->pragma = s;
      (*pp)->next = NULL;
    }
    imported = (char*)emalloc(strlen(fullname)+1);
    strcpy(imported, fullname);
    fprintf(stderr, "Importing module '%s'\n\n", fullname);
  }
  else
  { lflag = 1;
    typeNO = magic(name);
    prefix = (char*)emalloc(strlen(fullname)+1);
    strcpy(prefix, fullname);
    fprintf(stderr, "Compiling module '%s' (magic number = %d)\n\n", fullname, typeNO);
  }
}

static int magic(const char *name)
{ size_t i;
  int n;
  if (strlen(name) > 4)
    semerror("#module name length must not exceed four characters");
  n = 0;
  for (i = 0; i < strlen(name); i++)
    if (name[i] >= 'a' && name[i] <= 'z')
      n = 26*n + name[i] - 'a';
    else if (name[i] >= 'A' && name[i] <= 'Z')
      n = 26*n + name[i] - 'A';
    else
      semerror("#module name must be alphabetic and the length must not exceed four characters.\nUse '#module name longname' for longer names.");
  return 4699*n + 153424;
}

#ifdef WITH_LEX
static void import(const char *file)
{ execerror("Cannot #import: soapcpp2 not compiled with flex (replace lex with flex)");
}
#else
static void import(const char *file)
{ char buf[1024];
  struct importlist *p;
  for (p = importlist; p; p = p->next)
    if (!strcmp(p->name, file))
      return;
  if (imports >= MAX_IMPORT_DEPTH)
    execerror("Imports nested too deep");
  instk[imports] = YY_CURRENT_BUFFER;
  strcpy(fnstk[imports], filename);
  lnstk[imports] = yylineno;
  imstk[imports] = imported;
  yylineno = 1;
  /* imported = NULL; this is useful to change the semantics of #import to NOT consider non-module imports to be part of the current module */
  imports++;
  if (!(yyin = fopen(file, "r")))
  { if (importpath)
    { char *s, *t;
      s = importpath;
      do
      { size_t n;
        t = strstr(s, SOAP_PATHSEP);
        if (t)
        { if (t - s >= sizeof(buf))
	    t = s + sizeof(buf) - 1;
	  strncpy(buf, s, t - s);
	  buf[t - s] = '\0';
	  s = t + sizeof(SOAP_PATHSEP) - 1;
	}
	else
        { strcpy(buf, s);
          s = NULL;
	}
        n = strlen(buf) - 1;
#ifdef __VMS
        if (buf[n] != ']' && buf[n] != ':')
          strcat(buf, ":");
#else
        if (buf[n] != SOAP_PATHCAT[0])
	  strcat(buf, SOAP_PATHCAT);
#endif
        strcat(buf, file);
        yyin = fopen(buf, "r");
      }
      while (s && !yyin);
    }
    if (!yyin)
    { sprintf(errbuf, "#import: Cannot open file \"%s\" for reading.\nHint: use option -I<path> (for example -Igsoap/import"SOAP_PATHSEP"gsoap/custom:.)", file);
      execerror(errbuf);
    }
  }
  p = (struct importlist*)malloc(sizeof(struct importlist) + strlen(file)); /* has already + 1 byte size */
  strcpy(p->name, file);
  p->next = importlist;
  importlist = p;
  strcpy(filename, file);
  yy_switch_to_buffer(yy_create_buffer(yyin, YY_BUF_SIZE));
}
#endif