piumarta
/
dynapeg


								%{


								#include <stdio.h>

								#include <string.h>

								#include <stdlib.h>

								#include "inputBuffer.c"

								;

								enum op { String, Query, Star, Plus, Or, And, Class, Dot, Exc } ;


								typedef union Node Node;


								struct String  { enum op type;  char *string; int len; };

								struct Query   { enum op type;  Node *children[1]; };

								struct Star    { enum op type;  Node *children[1]; };

								struct Plus    { enum op type;  Node *children[1]; };

								struct Or      { enum op type;  Node *children[2]; };

								struct And     { enum op type;  Node *children[2]; };

								struct Class   { enum op type;  char *stringValue; int len; };

								struct Dot     { enum op type;};

								struct Exc     { enum op type;  Node *children[1]; };


								union Node {

								    enum op type;

								    struct String String;

								    struct Query Query;

								    struct Star Star;

								    struct Plus Plus;

								    struct Or Or;

								    struct And And;

								    struct Class Class;

								    struct Dot Dot;

								    struct Exc Exc;

								};


								#define new(type)			mkNode(sizeof(struct type),type)


								Node *mkNode(size_t size,enum op type)

								{

								    Node *node= calloc(1, size);

								    node->type= type;

								    return node;

								}


								Node *mkString(char *s)

								{

								    Node *node= new(String);

								    node->String.string= strdup(s);

								    node->String.len=strlen(s);

								    return node;

								}


								Node *mkQuery(Node *n)

								{

								    Node *node= new(Query);

								    node->Query.children[0]= n;

								    return node;

								}


								Node *mkOr(Node *node1, Node *node2)

								{

								    Node *node= new(Or);

								    node->Or.children[0]= node1;

								    node->Or.children[1]= node2;

								    return node;

								}


								Node *mkAnd(Node *node1, Node *node2)

								{

								    Node *node= new(And);

								    node->And.children[0]= node1;

								    node->And.children[1]= node2;

								    return node;

								}


								Node *mkStar(Node *n)

								{

								    Node *node= new(Star);

								    node->Star.children[0]= n;

								    return node;

								}


								Node *mkClass(char* str)

								{

								    Node *node= new(Class);

								    node->Class.stringValue= str;

								    node->Class.len=strlen(str);

								    return node;

								}


								Node *mkPlus(Node *n)

								{

								    Node *node= new(Plus);

								    node->Plus.children[0]= n;

								    return node;

								}


								Node *mkDot()

								{

								    Node *node= new(Dot);

								    return node;

								}


								Node *mkExc(Node *n)

								{

								    Node *node= new(Exc);

								    node->Exc.children[0]= n;

								    return node;

								}


								void print(Node *node)

								{

								    switch (node->type) {

								      case String:

								        printf("\"%s\"", node->String.string);

								        return;

								      case Query:

								        print(node->Query.children[0]);

								        printf("?");

								        return;

								      case Star:

								        print(node->Query.children[0]);

								        printf("*");

								        return;

								      case Plus:

								        print(node->Query.children[0]);

								        return;

								      case Or:

								        print(node->Or.children[0]);

								        printf("Or");

								        print(node->Or.children[1]);

								        return;

								      case And:

								        print(node->And.children[0]);

								        printf("And");

								        print(node->And.children[1]);

								        return;

								      case Class:

								        printf("Class");

								        printf("\"%s\"", node->Class.stringValue);

								        return;

								      case Dot:

								        printf("Dot");

								        return;

								      case Exc:

								        printf("!");

								        print(node->Exc.children[0]);

								        return;

								    }

								    abort();

								}


								void println(Node *node)

								{

								    print(node);

								    printf("\n");

								}

								InputBuffer *inputBuffer=0;


								#define YY_INPUT(buff,result,maxSize) \

								{if (atEnd(inputBuffer)){ \

								    result=0; \

								} \

								else { \

								    *buff=currentChar(inputBuffer); \

								    advance(inputBuffer,1); \

								    result=1; \

								}}


								#define YYSTYPE Node *

								YYSTYPE yylval = 0;


								%}


								start	= - o:or		{ yylval = o }


								or	= a:and - "|" - o:or	{$$ = mkOr(o, a) }

									| a:and			{ $$ = a }


								and	= p:prefix a:and	{ $$ = mkAnd(p, a); }

									| p:prefix		{ $$ = p }


								prefix = "!"- p : postfix    {$$ = mkExc(p)}

								    | p: postfix             {$$ = p}


								postfix	= s:atom ( "?" -	{ s = mkQuery(s) }

									  	 | "*" -	{ s = mkStar(s) }

										 | "+" -	{ s = mkPlus(s) }

										 )?		{ $$ = s}


								atom    = string | class | dot


								string	= '"' < [^"]* > '"'     { $$ = mkString(yytext) } -


								class	= '['-<(!']'string)*> ']'  { $$=mkClass(yytext) } -


								dot = -'.'-               {$$=mkDot()} -


								-	= space*


								space	= [ \t] | '\n' '\r'* | '\r' '\n'*


								%%


								Node *_checktype(Node *object, enum op type)

								{

								    if (object->type == type) return object;

								    fprintf(stderr, "\naccesing type %i as if it were a %i\n", object->type, type);

								    exit(1);

								    return 0;

								}


								#define get(object, type, member)	(_checktype(object, type)->type.member)


								int execute(Node *node, InputBuffer *in)

								{

								    switch (node->type) {

								      case String: {

								      if (strncmp(currentText(in), get(node,String,string), get(node,String,len))) {

								        return 0;

								      }

								      advance(in, get(node,String,len));

								      return 1;

								      }

								      case And: {

								      int pos= getPosition(in);

								      if (!execute(get(node,And,children[0]), in)) //si il y a eu une erreur

								      {

								          return 0;

								      } //si ça s'est bien passé

								      if (!execute(get(node,And,children[1]), in)) {

								          setPosition(in, pos);

								          return 0;

								      }

								      return 1;

								      }

								      case Or: {

								      if (execute(get(node,Or,children[0]), in)) {

								          return 1;

								      }

								      return execute(get(node,Or,children[1]), in);

								      }

								      case Star: {

								      while (execute(get(node,Star,children[0]), in));

								      return 1;

								      }

								      case Plus: {

								      if (!execute(get(node,Plus,children[0]), in)) {

								        return 0;

								      }

								      while (execute(get(node,Plus,children[0]), in));

								      return 1;

								      }

								      case Class: {

								      if (!currentChar(in)) {

								        return 0;

								      }

								      if (strchr(get(node,Class,stringValue), currentChar(in))) {

								        advance(in, 1);

								        return 1;

								      }

								      return 0;

								      }

								      case Query: {

								      execute(get(node,Query,children[0]), in);

								      return 1;

								      }

								      case Exc: {

								      int pos= getPosition(in);

								      if (!execute(get(node,Exc,children[0]), in)) {

								        return 1;

								      }

								      setPosition(in, pos);

								      return 0;

								      }

								      case Dot: {

								      if (atEnd(in)) {

								        return 0;

								      }

								      advance(in, 1);

								      return 1;

								      }

								    }

								    printf("this cannot happen\n");

								    abort();

								}


								int main(int argc, char **argv)

								{

								    if(argc<2) return 0;


								    inputBuffer = mkInputBuffer(argv[1]);


								    if (!yyparse()) {

								        printf("Error\n");

								        return 1;

								    }

								    println(yylval);

								    char *line=0;

								    size_t line_max=0;

								    ssize_t line_len=0;

								    while((line_len=getline(&line,&line_max,stdin))>=0){

								        if(line_len>0 && line[line_len-1]=='\n'){

								            line[line_len-1]=0;

								        }

								        initInputBuffer(inputBuffer,line);

								        if (!execute(yylval, inputBuffer) || !atEnd(inputBuffer)){

								            printf("no match, current position : %i\n", getPosition(inputBuffer));

								        }

								        else{

								            printf("match, current position : %i\n", getPosition(inputBuffer));

								        }// 0 => no match, 1 => match

								    }


								    return 0;


								    (void)yySet;

								    (void)yyPop;

								    (void)yyPush;

								    (void)yyAccept;

								    (void)yymatchDot;

								    (void)yymatchString;

								    (void)yymatchChar;

								}