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|
%option reentrant
%option bison-bridge
%option noyywrap
%{
// $Id$
//
// Copyright (C) 2001-2010 Randal Henne, Greg Landrum and Rational Discovery LLC
//
// @@ All Rights Reserved @@
//
#if defined(__CYGWIN__) && !defined(fileno)
// -std=c++11 turns off recent posix features
extern "C" int fileno(FILE*);
#endif
#include <cstdio>
#ifdef WIN32
#include <io.h>
#endif
#include <RDGeneral/Exceptions.h>
#include <RDGeneral/types.h>
#include <GraphMol/GraphMol.h>
#include <GraphMol/Atom.h>
#include <GraphMol/Bond.h>
#include <GraphMol/PeriodicTable.h>
#include <GraphMol/RDKitQueries.h>
#include <string>
#include <cstring>
#include "smiles.tab.hpp"
using namespace RDKit;
#define YY_FATAL_ERROR(msg) smiles_lexer_error(msg)
void smiles_lexer_error(const char *msg) {
BOOST_LOG(rdErrorLog) << msg<<std::endl;
throw ValueErrorException(msg);
}
size_t setup_smiles_string(const std::string &text,yyscan_t yyscanner){
// YY_BUFFER_STATE buff=yysmiles__scan_string(text.c_str()+pos,yyscanner);
// Faster implementation of yysmiles__scan_string that handles trimming
YY_BUFFER_STATE b;
char *buf;
yyconst char * yybytes = text.c_str();
yy_size_t _yybytes_len=text.size(), n, start, end;
/* Get memory for full buffer, including space for trailing EOB's. */
n = _yybytes_len + 2;
buf = (char *) yysmiles_alloc(n ,yyscanner );
if ( ! buf )
smiles_lexer_error( "out of dynamic memory in yysmiles__scan_bytes()" );
// ltrim
for(start = 0 ; start < _yybytes_len; ++start) {
if (yybytes[start] > 32) break;
}
for(end = _yybytes_len ; end > start; --end) {
if (yybytes[end] > 32) break;
}
_yybytes_len = end-start+1;
n = _yybytes_len + 2;
memcpy(buf, yybytes+start, _yybytes_len);
buf[_yybytes_len] = buf[_yybytes_len+1] = YY_END_OF_BUFFER_CHAR;
b = yysmiles__scan_buffer(buf,n ,yyscanner);
if ( ! b )
smiles_lexer_error( "bad buffer in yysmiles__scan_bytes()" );
/* It's okay to grow etc. this buffer, and we should throw it
* away when we're done.
*/
b->yy_is_our_buffer = 1;
POSTCONDITION(b,"invalid buffer");
return start;
}
%}
%s IN_ATOM_STATE
%%
%{
if (start_token)
{
int t = start_token;
start_token = 0;
return t;
}
%}
@[' ']*TH |
@[' ']*AL |
@[' ']*SQ |
@[' ']*BP |
@[' ']*OH { return CHI_CLASS_TOKEN; }
@ { return AT_TOKEN; }
<IN_ATOM_STATE>He { yylval->atom = new Atom(2); return ATOM_TOKEN; }
<IN_ATOM_STATE>Li { yylval->atom = new Atom(3); return ATOM_TOKEN; }
<IN_ATOM_STATE>Be { yylval->atom = new Atom(4); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ne { yylval->atom = new Atom(10); return ATOM_TOKEN; }
<IN_ATOM_STATE>Na { yylval->atom = new Atom(11); return ATOM_TOKEN; }
<IN_ATOM_STATE>Mg { yylval->atom = new Atom(12); return ATOM_TOKEN; }
<IN_ATOM_STATE>Al { yylval->atom = new Atom(13); return ATOM_TOKEN; }
<IN_ATOM_STATE>Si { yylval->atom = new Atom(14); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ar { yylval->atom = new Atom(18); return ATOM_TOKEN; }
<IN_ATOM_STATE>K { yylval->atom = new Atom(19); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ca { yylval->atom = new Atom(20); return ATOM_TOKEN; }
<IN_ATOM_STATE>Sc { yylval->atom = new Atom(21); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ti { yylval->atom = new Atom(22); return ATOM_TOKEN; }
<IN_ATOM_STATE>V { yylval->atom = new Atom(23); return ATOM_TOKEN; }
<IN_ATOM_STATE>Cr { yylval->atom = new Atom(24); return ATOM_TOKEN; }
<IN_ATOM_STATE>Mn { yylval->atom = new Atom(25); return ATOM_TOKEN; }
<IN_ATOM_STATE>Fe { yylval->atom = new Atom(26); return ATOM_TOKEN; }
<IN_ATOM_STATE>Co { yylval->atom = new Atom(27); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ni { yylval->atom = new Atom(28); return ATOM_TOKEN; }
<IN_ATOM_STATE>Cu { yylval->atom = new Atom(29); return ATOM_TOKEN; }
<IN_ATOM_STATE>Zn { yylval->atom = new Atom(30); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ga { yylval->atom = new Atom(31); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ge { yylval->atom = new Atom(32); return ATOM_TOKEN; }
<IN_ATOM_STATE>As { yylval->atom = new Atom(33); return ATOM_TOKEN; }
<IN_ATOM_STATE>Se { yylval->atom = new Atom(34); return ATOM_TOKEN; }
<IN_ATOM_STATE>Kr { yylval->atom = new Atom(36); return ATOM_TOKEN; }
<IN_ATOM_STATE>Rb { yylval->atom = new Atom(37); return ATOM_TOKEN; }
<IN_ATOM_STATE>Sr { yylval->atom = new Atom(38); return ATOM_TOKEN; }
<IN_ATOM_STATE>Y { yylval->atom = new Atom(39); return ATOM_TOKEN; }
<IN_ATOM_STATE>Zr { yylval->atom = new Atom(40); return ATOM_TOKEN; }
<IN_ATOM_STATE>Nb { yylval->atom = new Atom(41); return ATOM_TOKEN; }
<IN_ATOM_STATE>Mo { yylval->atom = new Atom(42); return ATOM_TOKEN; }
<IN_ATOM_STATE>Tc { yylval->atom = new Atom(43); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ru { yylval->atom = new Atom(44); return ATOM_TOKEN; }
<IN_ATOM_STATE>Rh { yylval->atom = new Atom(45); return ATOM_TOKEN; }
<IN_ATOM_STATE>Pd { yylval->atom = new Atom(46); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ag { yylval->atom = new Atom(47); return ATOM_TOKEN; }
<IN_ATOM_STATE>Cd { yylval->atom = new Atom(48); return ATOM_TOKEN; }
<IN_ATOM_STATE>In { yylval->atom = new Atom(49); return ATOM_TOKEN; }
<IN_ATOM_STATE>Sn { yylval->atom = new Atom(50); return ATOM_TOKEN; }
<IN_ATOM_STATE>Sb { yylval->atom = new Atom(51); return ATOM_TOKEN; }
<IN_ATOM_STATE>Te { yylval->atom = new Atom(52); return ATOM_TOKEN; }
<IN_ATOM_STATE>Xe { yylval->atom = new Atom(54); return ATOM_TOKEN; }
<IN_ATOM_STATE>Cs { yylval->atom = new Atom(55); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ba { yylval->atom = new Atom(56); return ATOM_TOKEN; }
<IN_ATOM_STATE>La { yylval->atom = new Atom(57); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ce { yylval->atom = new Atom(58); return ATOM_TOKEN; }
<IN_ATOM_STATE>Pr { yylval->atom = new Atom(59); return ATOM_TOKEN; }
<IN_ATOM_STATE>Nd { yylval->atom = new Atom(60); return ATOM_TOKEN; }
<IN_ATOM_STATE>Pm { yylval->atom = new Atom(61); return ATOM_TOKEN; }
<IN_ATOM_STATE>Sm { yylval->atom = new Atom(62); return ATOM_TOKEN; }
<IN_ATOM_STATE>Eu { yylval->atom = new Atom(63); return ATOM_TOKEN; }
<IN_ATOM_STATE>Gd { yylval->atom = new Atom(64); return ATOM_TOKEN; }
<IN_ATOM_STATE>Tb { yylval->atom = new Atom(65); return ATOM_TOKEN; }
<IN_ATOM_STATE>Dy { yylval->atom = new Atom(66); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ho { yylval->atom = new Atom(67); return ATOM_TOKEN; }
<IN_ATOM_STATE>Er { yylval->atom = new Atom(68); return ATOM_TOKEN; }
<IN_ATOM_STATE>Tm { yylval->atom = new Atom(69); return ATOM_TOKEN; }
<IN_ATOM_STATE>Yb { yylval->atom = new Atom(70); return ATOM_TOKEN; }
<IN_ATOM_STATE>Lu { yylval->atom = new Atom(71); return ATOM_TOKEN; }
<IN_ATOM_STATE>Hf { yylval->atom = new Atom(72); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ta { yylval->atom = new Atom(73); return ATOM_TOKEN; }
<IN_ATOM_STATE>W { yylval->atom = new Atom(74); return ATOM_TOKEN; }
<IN_ATOM_STATE>Re { yylval->atom = new Atom(75); return ATOM_TOKEN; }
<IN_ATOM_STATE>Os { yylval->atom = new Atom(76); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ir { yylval->atom = new Atom(77); return ATOM_TOKEN; }
<IN_ATOM_STATE>Pt { yylval->atom = new Atom(78); return ATOM_TOKEN; }
<IN_ATOM_STATE>Au { yylval->atom = new Atom(79); return ATOM_TOKEN; }
<IN_ATOM_STATE>Hg { yylval->atom = new Atom(80); return ATOM_TOKEN; }
<IN_ATOM_STATE>Tl { yylval->atom = new Atom(81); return ATOM_TOKEN; }
<IN_ATOM_STATE>Pb { yylval->atom = new Atom(82); return ATOM_TOKEN; }
<IN_ATOM_STATE>Bi { yylval->atom = new Atom(83); return ATOM_TOKEN; }
<IN_ATOM_STATE>Po { yylval->atom = new Atom(84); return ATOM_TOKEN; }
<IN_ATOM_STATE>At { yylval->atom = new Atom(85); return ATOM_TOKEN; }
<IN_ATOM_STATE>Rn { yylval->atom = new Atom(86); return ATOM_TOKEN; }
<IN_ATOM_STATE>Fr { yylval->atom = new Atom(87); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ra { yylval->atom = new Atom(88); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ac { yylval->atom = new Atom(89); return ATOM_TOKEN; }
<IN_ATOM_STATE>Th { yylval->atom = new Atom(90); return ATOM_TOKEN; }
<IN_ATOM_STATE>Pa { yylval->atom = new Atom(91); return ATOM_TOKEN; }
<IN_ATOM_STATE>U { yylval->atom = new Atom(92); return ATOM_TOKEN; }
<IN_ATOM_STATE>Np { yylval->atom = new Atom(93); return ATOM_TOKEN; }
<IN_ATOM_STATE>Pu { yylval->atom = new Atom(94); return ATOM_TOKEN; }
<IN_ATOM_STATE>Am { yylval->atom = new Atom(95); return ATOM_TOKEN; }
<IN_ATOM_STATE>Cm { yylval->atom = new Atom(96); return ATOM_TOKEN; }
<IN_ATOM_STATE>Bk { yylval->atom = new Atom(97); return ATOM_TOKEN; }
<IN_ATOM_STATE>Cf { yylval->atom = new Atom(98); return ATOM_TOKEN; }
<IN_ATOM_STATE>Es { yylval->atom = new Atom(99); return ATOM_TOKEN; }
<IN_ATOM_STATE>Fm { yylval->atom = new Atom(100); return ATOM_TOKEN; }
<IN_ATOM_STATE>Md { yylval->atom = new Atom(101); return ATOM_TOKEN; }
<IN_ATOM_STATE>No { yylval->atom = new Atom(102); return ATOM_TOKEN; }
<IN_ATOM_STATE>Lr { yylval->atom = new Atom(103); return ATOM_TOKEN; }
<IN_ATOM_STATE>Rf { yylval->atom = new Atom(104); return ATOM_TOKEN; }
<IN_ATOM_STATE>Db { yylval->atom = new Atom(105); return ATOM_TOKEN; }
<IN_ATOM_STATE>Sg { yylval->atom = new Atom(106); return ATOM_TOKEN; }
<IN_ATOM_STATE>Bh { yylval->atom = new Atom(107); return ATOM_TOKEN; }
<IN_ATOM_STATE>Hs { yylval->atom = new Atom(108); return ATOM_TOKEN; }
<IN_ATOM_STATE>Mt { yylval->atom = new Atom(109); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ds { yylval->atom = new Atom(110); return ATOM_TOKEN; }
<IN_ATOM_STATE>Rg { yylval->atom = new Atom(111); return ATOM_TOKEN; }
<IN_ATOM_STATE>Cn { yylval->atom = new Atom(112); return ATOM_TOKEN; }
<IN_ATOM_STATE>Nh { yylval->atom = new Atom(113); return ATOM_TOKEN; }
<IN_ATOM_STATE>Fl { yylval->atom = new Atom(114); return ATOM_TOKEN; }
<IN_ATOM_STATE>Mc { yylval->atom = new Atom(115); return ATOM_TOKEN; }
<IN_ATOM_STATE>Lv { yylval->atom = new Atom(116); return ATOM_TOKEN; }
<IN_ATOM_STATE>Ts { yylval->atom = new Atom(117); return ATOM_TOKEN; }
<IN_ATOM_STATE>Og { yylval->atom = new Atom(118); return ATOM_TOKEN; }
<IN_ATOM_STATE>Uun { yylval->atom = new Atom(110); return ATOM_TOKEN; }
<IN_ATOM_STATE>Uuu { yylval->atom = new Atom(111); return ATOM_TOKEN; }
<IN_ATOM_STATE>Uub { yylval->atom = new Atom(112); return ATOM_TOKEN; }
<IN_ATOM_STATE>Uut { yylval->atom = new Atom(113); return ATOM_TOKEN; }
<IN_ATOM_STATE>Uuq { yylval->atom = new Atom(114); return ATOM_TOKEN; }
<IN_ATOM_STATE>Uup { yylval->atom = new Atom(115); return ATOM_TOKEN; }
<IN_ATOM_STATE>Uuh { yylval->atom = new Atom(116); return ATOM_TOKEN; }
<IN_ATOM_STATE>Uus { yylval->atom = new Atom(117); return ATOM_TOKEN; }
<IN_ATOM_STATE>Uuo { yylval->atom = new Atom(118); return ATOM_TOKEN; }
B { yylval->atom = new Atom(5);return ORGANIC_ATOM_TOKEN; }
C { yylval->atom = new Atom(6);return ORGANIC_ATOM_TOKEN; }
N { yylval->atom = new Atom(7);return ORGANIC_ATOM_TOKEN; }
O { yylval->atom = new Atom(8);return ORGANIC_ATOM_TOKEN; }
P { yylval->atom = new Atom(15);return ORGANIC_ATOM_TOKEN; }
S { yylval->atom = new Atom(16);return ORGANIC_ATOM_TOKEN; }
F { yylval->atom = new Atom(9);return ORGANIC_ATOM_TOKEN; }
Cl { yylval->atom = new Atom(17);return ORGANIC_ATOM_TOKEN; }
Br { yylval->atom = new Atom(35);return ORGANIC_ATOM_TOKEN; }
I { yylval->atom = new Atom(53);return ORGANIC_ATOM_TOKEN; }
H {
return H_TOKEN;
}
b { yylval->atom = new Atom ( 5 );
yylval->atom->setIsAromatic(true);
return AROMATIC_ATOM_TOKEN;
}
c { yylval->atom = new Atom ( 6 );
yylval->atom->setIsAromatic(true);
return AROMATIC_ATOM_TOKEN;
}
n { yylval->atom = new Atom( 7 );
yylval->atom->setIsAromatic(true);
return AROMATIC_ATOM_TOKEN;
}
o { yylval->atom = new Atom( 8 );
yylval->atom->setIsAromatic(true);
return AROMATIC_ATOM_TOKEN;
}
p { yylval->atom = new Atom( 15 );
yylval->atom->setIsAromatic(true);
return AROMATIC_ATOM_TOKEN;
}
s { yylval->atom = new Atom( 16 );
yylval->atom->setIsAromatic(true);
return AROMATIC_ATOM_TOKEN;
}
<IN_ATOM_STATE>si { yylval->atom = new Atom( 14 );
yylval->atom->setIsAromatic(true);
return AROMATIC_ATOM_TOKEN;
}
<IN_ATOM_STATE>as { yylval->atom = new Atom( 33 );
yylval->atom->setIsAromatic(true);
return AROMATIC_ATOM_TOKEN;
}
<IN_ATOM_STATE>se { yylval->atom = new Atom( 34 );
yylval->atom->setIsAromatic(true);
return AROMATIC_ATOM_TOKEN;
}
<IN_ATOM_STATE>te { yylval->atom = new Atom( 52 );
yylval->atom->setIsAromatic(true);
return AROMATIC_ATOM_TOKEN;
}
\* { yylval->atom = new Atom( 0 );
yylval->atom->setProp(common_properties::dummyLabel,
std::string("*"));
// must be ORGANIC_ATOM_TOKEN because
// we aren't in square brackets:
return ORGANIC_ATOM_TOKEN;
}
<IN_ATOM_STATE>\: { return COLON_TOKEN; }
<IN_ATOM_STATE>\# { return HASH_TOKEN; }
%{
// The next block is a workaround for a pathlogy in the SMILES produced
// by some Biovia tools
%}
<IN_ATOM_STATE>\'Rf\' { yylval->atom = new Atom(104); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Db\' { yylval->atom = new Atom(105); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Sg\' { yylval->atom = new Atom(106); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Bh\' { yylval->atom = new Atom(107); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Hs\' { yylval->atom = new Atom(108); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Mt\' { yylval->atom = new Atom(109); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Ds\' { yylval->atom = new Atom(110); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Rg\' { yylval->atom = new Atom(111); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Cn\' { yylval->atom = new Atom(112); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Nh\' { yylval->atom = new Atom(113); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Fl\' { yylval->atom = new Atom(114); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Mc\' { yylval->atom = new Atom(115); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Lv\' { yylval->atom = new Atom(116); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Ts\' { yylval->atom = new Atom(117); return ATOM_TOKEN; }
<IN_ATOM_STATE>\'Og\' { yylval->atom = new Atom(118); return ATOM_TOKEN; }
\= { yylval->bond = new Bond(Bond::DOUBLE);
return BOND_TOKEN; }
\# { yylval->bond = new Bond(Bond::TRIPLE);
return BOND_TOKEN; }
\: { yylval->bond = new Bond(Bond::AROMATIC);
yylval->bond->setIsAromatic(true);
return BOND_TOKEN; }
\-\> { yylval->bond = new Bond(Bond::DATIVER);
return BOND_TOKEN; }
\<\- { yylval->bond = new Bond(Bond::DATIVEL);
return BOND_TOKEN; }
\~ { yylval->bond = new QueryBond();
yylval->bond->setQuery(makeBondNullQuery());
return BOND_TOKEN; }
[\\]{1,2} { yylval->bond = new Bond(Bond::SINGLE);
yylval->bond->setBondDir(Bond::ENDDOWNRIGHT);
return BOND_TOKEN; }
[\/] { yylval->bond = new Bond(Bond::SINGLE);
yylval->bond->setBondDir(Bond::ENDUPRIGHT);
return BOND_TOKEN; }
\- { return MINUS_TOKEN; }
\+ { return PLUS_TOKEN; }
\( { return GROUP_OPEN_TOKEN; }
\) { return GROUP_CLOSE_TOKEN; }
\[ { BEGIN IN_ATOM_STATE; return ATOM_OPEN_TOKEN; }
<IN_ATOM_STATE>\] { BEGIN INITIAL; return ATOM_CLOSE_TOKEN; }
\. { return SEPARATOR_TOKEN; }
\% { return PERCENT_TOKEN; }
[0] { yylval->ival = 0; return ZERO_TOKEN; }
[1-9] { yylval->ival = atoi( yytext ); return NONZERO_DIGIT_TOKEN; }
\n return 0;
<<EOF>> { return EOS_TOKEN; }
. return yytext[0];
%%
#undef yysmiles_wrap
int yysmiles_wrap( void ) { return 1; }
|
