lsd10.y

Description du code

Fichier Yacc du langage LSD₀10 Compilateur LSD₀10
Code source ou contenu du fichier

Code Bison (lsd10.y) (759 lignes)
%{
/*
 * lsd10.y : lexical parsing file for Bison
 * Part of the compiler project for LSD10 language
 * Gaudry Stéphane
 * More information on http://www.gaudry.be/langages-yacc.html
 */
#include <stdio.h>
#include <stdlib.h>
#if(VERBOSE_LEVEL<=DEB_E)
	#include <errno.h>
#endif
#if(VERBOSE_LEVEL<=DEB_EXEC)
	#include <time.h>
#endif
#include <sys/types.h>
#include <dirent.h>
#include "common.h"
#ifdef WIN32
	#define FILE_SEPARATLEXICAL_OR "\\"
#else
	#define FILE_SEPARATLEXICAL_OR "/"
#endif
 
extern int lexLinesCount;
//extern int lexCharsLineCountBeforeToken;
extern int lexTotalCharsCount;
extern char* yytext;
extern int *yylineno;
extern FILE *yyin;
/**
 * Position of a detected error
 */
DebugInfo *debugInfo;
 
 
AstNode *rootNode;
 
// to avoid 'implicit definition'
int yylex(void);
int yyerror(char *str);
 
%}
 
%union{
	int nval;
	char *text;
	struct astNode *node;
}
%error-verbose
%locations
%token LEXICAL_BOOLEAN_TYPE LEXICAL_INTEGER_TYPE LEXICAL_VOID_TYPE LEXICAL_INSTACK_TYPE
%token <nval> NUMBER
%token LEXICAL_TRUE_VAL LEXICAL_FALSE_VAL
%token LEXICAL_AND LEXICAL_OR LEXICAL_ANDLAZY LEXICAL_ORLAZY LEXICAL_NOT LEXICAL_EQUALS LEXICAL_LESS_EQUALS LEXICAL_LESS
%token LEXICAL_AFFECTATION
%token LEXICAL_PLUS LEXICAL_MINUS LEXICAL_MULT LEXICAL_DIV LEXICAL_MOD
%token L_PARENTHESIS LSQUI_BRACKET LSQUA_BRACKET POINT RSQUA_BRACKET R_PARENTHESIS RSQUI_BRACKET 
%token LEXICAL_GET_OPS LEXICAL_ISEMPTY_OPS LEXICAL_WRITE_OPS LEXICAL_READ_OPS LEXICAL_PUT_OPS LEXICAL_RETURN_STMT
%token LEXICAL_IF_STMT LEXICAL_ELSE_STMT LEXICAL_WHILE_STMT LEXICAL_FOR_STMT
%token COLON SEMICOLON COMMA
%token LEXICAL_VAR 
%token <text>ID 
 
%type <node> Prg Function Functions PostFixeFunction
%type <node> ArgDeclaration ParamList  ParamList_FunctionCall
%type <node> FuncOrVar VarIds
%type <node> Declarations Declaration
%type <node> Statements Statement
%type <node> iteration_while if_instruction iteration_for
%type <node> LExpr RExpr
%type <nval> FunctionType VarType
 
%left LEXICAL_AND LEXICAL_OR LEXICAL_ANDLAZY LEXICAL_ORLAZY
%right LEXICAL_NOT
%left LEXICAL_EQUALS LEXICAL_LESS_EQUALS LEXICAL_LESS
%left LEXICAL_PLUS LEXICAL_MINUS
%left LEXICAL_MULT LEXICAL_DIV LEXICAL_MOD 
 
%start Prg
 
%%
	Prg: 	Functions {
		rootNode=$1;//createASTNode(10,createASTNodeInfo("Root", NODE_TYPE_NOTHING, NO_VAL),$1,NULL);
		}
	;
 
	Functions: 	
		{$$=NULL;}
		| Function Functions { 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Functions node", __FILE__, __LINE__);
			#endif
			// Avoid building an unneeded node
			if($1==NULL && $2!=NULL)
			{
				$$=$2;
			}
			else if($2==NULL && $1!=NULL)
			{
				$$=$1;
			}
			else
			{
				$$=createASTNode(&@1,NODE_TYPE_FUNCTIONS, createASTNodeInfo("Functions", NODE_TYPE_NOTHING, NO_VAL), $2, $1);
			}
		}
	;
 
	Function: FunctionType ID L_PARENTHESIS ParamList R_PARENTHESIS PostFixeFunction{
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Function node", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&@2,NODE_TYPE_FUNCTION, createASTNodeInfo($2, $1, NO_VAL), $4, $6);
		} 
	;
 
	PostFixeFunction: 
		LSQUI_BRACKET LSQUI_BRACKET Declarations RSQUI_BRACKET Statements RSQUI_BRACKET { 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"PostFixeFunction node", __FILE__, __LINE__);
			#endif
 
			// Avoid building an unneeded node
			if($3==NULL)
			{
				$$=$5==NULL?NULL:$5;
			}
			else if($5==NULL)
			{
				$$=$3;
			}
			else
			{
				$$=createASTNode(&yylloc,NODE_TYPE_CONTAINER, createASTNodeInfo("{{decl}statement}", NODE_TYPE_NOTHING, NO_VAL), $3, $5);
			}
		}
	;
 
	Declarations: {
			$$=NULL;
		} 
		| Declaration Declarations { 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Declarations node", __FILE__, __LINE__);
			#endif
			// Avoid building an unneeded node
			if($2==NULL)
			{
				$$=$1;
			}
			else
			{
				$$=createASTNode(&yylloc,NODE_TYPE_DECLARATIONS, createASTNodeInfo("Declarations node", NODE_TYPE_NOTHING, NO_VAL), $1, $2);
			}
		}
	;
 
	Declaration: 
		LEXICAL_VOID_TYPE ID L_PARENTHESIS ParamList R_PARENTHESIS PostFixeFunction { 
			/*void function*/
			$$ = createASTNode(&@2,NODE_TYPE_FUNCTION, createASTNodeInfo($2, AST_VOID_VAR_TYPE, NO_VAL), $4, $6);
			//setNodeSubType($$, SUBFUNCTION);
		}
		| VarType ID FuncOrVar {
			if($3==NULL || $3->type==NODE_TYPE_VAR_DECL)
			{
				// multiple variables declarations like "integer i j;"
				// we must set the type for each variable
				AstNode *tempNode = $3;
				while(tempNode!=NULL)
				{
					//printf("\nVar ids: %s (on %s %d)\n", varNode->info->name, __FILE__, __LINE__);
					setComputedType(tempNode,$1);
					tempNode=tempNode->left;
				}
 
				$$=createASTNode(&yylloc,NODE_TYPE_VAR_DECL, createASTNodeInfo($2, $1, NO_VAL), $3, NULL);
				setComputedType($$,$1);
			}
			else
			{
				// function declaration
				$$ = createASTNode(&yylloc,NODE_TYPE_FUNCTION, createASTNodeInfo($2, $1, NO_VAL), $3->right, $3->left);
				setComputedType($$,$1);
				//setNodeSubType($$, SUBFUNCTION);
				free($3);
			}
		}
	;
 
	FuncOrVar: 
		L_PARENTHESIS ParamList R_PARENTHESIS PostFixeFunction {
			$$=createASTNode(&yylloc,NODE_DECL_PVAL, createASTNodeInfo("function", NODE_TYPE_NOTHING, NO_VAL), $2, $4);
		}
		| VarIds SEMICOLON {
			$$=$1;
		}
	;
 
	VarIds: 		
		{$$=NULL;}
		| ID VarIds {
			$$=createASTNode(&yylloc,NODE_TYPE_VAR_DECL, createASTNodeInfo($1, NODE_TYPE_NOTHING, NO_VAL), $2, NULL);
		}
	;
 
	FunctionType: 
		LEXICAL_BOOLEAN_TYPE {
			$$=AST_BOOLEAN_VAR_TYPE;
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"FunctionType node : boolean", __FILE__, __LINE__);
			#endif
		}
		| LEXICAL_INTEGER_TYPE  {
			$$=AST_INTEGER_VAR_TYPE;
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"FunctionType node : integer", __FILE__, __LINE__);
			#endif
		}
		| LEXICAL_VOID_TYPE {	
			$$=AST_VOID_VAR_TYPE;
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"FunctionType node : void", __FILE__, __LINE__);
			#endif
		} 
	;
 
	ParamList: 
		ArgDeclaration COMMA ParamList {
			$$=createASTNode(&yylloc,NODE_TYPE_PARAM_LIST, createASTNodeInfo(NO_NAME, NODE_TYPE_NOTHING, NO_VAL), $1, $3);
		}
		| ArgDeclaration {
			$$=createASTNode(&yylloc,NODE_TYPE_PARAM_LIST, createASTNodeInfo(NO_NAME, NODE_TYPE_NOTHING, NO_VAL), $1, NULL);
		}
		| {$$=NULL;}
	;
 
	ArgDeclaration: 
		LEXICAL_VAR VarType ID 	{ 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"LEXICAL_VAR VarType ID node", __FILE__, __LINE__);
			#endif
			$$ = createASTNode(&yylloc,NODE_TYPE_PARAM_DECL, createASTNodeInfo($3, $2, NO_VAL), NULL, NULL);
			setNodeSubType($$, LEXICAL_VAR);
		}
		| VarType ID 	{ 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"VarType ID node", __FILE__, __LINE__);
			#endif
			$$ = createASTNode(&yylloc,NODE_TYPE_PARAM_DECL, createASTNodeInfo($2, $1, NO_VAL), NULL, NULL);
			setNodeSubType($$, ID);
			setComputedType($$, $1);
		}
	;
 
 
	VarType: 
		LEXICAL_BOOLEAN_TYPE  {
			$$=AST_BOOLEAN_VAR_TYPE;
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"VarType node : boolean", __FILE__, __LINE__);
			#endif
		} 
		| LEXICAL_INTEGER_TYPE {
			$$=AST_INTEGER_VAR_TYPE;
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"VarType node : integer", __FILE__, __LINE__);
			#endif
		}
		| LEXICAL_INSTACK_TYPE {
			$$=AST_INSTACK_VAR_TYPE;
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"VarType node : instack", __FILE__, __LINE__);
			#endif
		} 
		|  LEXICAL_INTEGER_TYPE LSQUA_BRACKET NUMBER RSQUA_BRACKET{
			$$=AST_INTEGER_ARRAY_VAR_TYPE;
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"VarType node : integer", __FILE__, __LINE__);
			#endif
		} 
		| LEXICAL_BOOLEAN_TYPE LSQUA_BRACKET NUMBER RSQUA_BRACKET{
			$$=AST_BOOLEAN_ARRAY_VAR_TYPE;
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"VarType node : integer", __FILE__, __LINE__);
			#endif
		}
	;
 
	RExpr: 
		LEXICAL_NOT RExpr { 
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_BOOLEAN_VAR_TYPE, NO_VAL),NULL, $2);
			setNodeSubType($$, LEXICAL_NOT);
		}
		|
		RExpr LEXICAL_AND RExpr { 
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_BOOLEAN_VAR_TYPE, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_AND);
		}
		| RExpr LEXICAL_OR RExpr {
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_BOOLEAN_VAR_TYPE, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_OR);
		}
		| RExpr LEXICAL_ANDLAZY RExpr { 
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_BOOLEAN_VAR_TYPE, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_ANDLAZY);
		}
		| RExpr LEXICAL_ORLAZY RExpr { 
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_BOOLEAN_VAR_TYPE, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_ORLAZY);
		}
		| LEXICAL_TRUE_VAL { 
			$$=createASTNode(&yylloc,LEXICAL_TRUE_VAL, createASTNodeInfo(NO_NAME, AST_BOOLEAN_VAR_TYPE, NO_VAL),NULL, NULL);
			setNodeSubType($$, LEXICAL_TRUE_VAL);
		}
		| LEXICAL_FALSE_VAL { 
			$$=createASTNode(&yylloc,LEXICAL_FALSE_VAL, createASTNodeInfo(NO_NAME, AST_BOOLEAN_VAR_TYPE, NO_VAL),NULL, NULL);
			setNodeSubType($$, LEXICAL_FALSE_VAL);
		}
		| LEXICAL_ISEMPTY_OPS L_PARENTHESIS ID R_PARENTHESIS { 
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_BOOLEAN_VAR_TYPE, NO_VAL),
					NULL,
					createASTNode(&yylloc,NODE_TYPE_ID, createASTNodeInfo($3, NODE_TYPE_TODO, NO_VAL),NULL, NULL)
					);
			setNodeSubType($$, LEXICAL_ISEMPTY_OPS);
		}
		| LEXICAL_GET_OPS L_PARENTHESIS ID R_PARENTHESIS { 
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_INTEGER_VAR_TYPE, NO_VAL),
					NULL,
					createASTNode(&yylloc,NODE_TYPE_ID, createASTNodeInfo($3, NODE_TYPE_TODO, NO_VAL),NULL, NULL) 
					);
			setNodeSubType($$, LEXICAL_GET_OPS);
		}
		| RExpr LEXICAL_EQUALS RExpr { 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"=", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_BOOLEAN_VAR_TYPE, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_EQUALS);
		}
		| RExpr LEXICAL_LESS_EQUALS RExpr { 
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_BOOLEAN_VAR_TYPE, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_LESS_EQUALS);
			#if(VERBOSE_LEVEL<=DEB_Y)  
				//printf(";\ttest subtype %d",$$->subtype);
				printMsg(DEB_Y,"<=", __FILE__, __LINE__);
			#endif
		}
		| RExpr LEXICAL_LESS RExpr { 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"<", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_BOOLEAN_VAR_TYPE, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_LESS);
		}
		| RExpr LEXICAL_PLUS RExpr { 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"+", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_INTEGER_VAR_TYPE, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_PLUS);
		}
		| RExpr LEXICAL_MINUS RExpr{ 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"-", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_INTEGER_VAR_TYPE, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_MINUS);
		}
		| RExpr LEXICAL_MULT RExpr 	{ 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"*", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_INTEGER_VAR_TYPE, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_MULT);
		}
		| RExpr LEXICAL_DIV RExpr { 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"LEXICAL_DIV", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_INTEGER_VAR_TYPE, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_DIV);
		}
		| RExpr LEXICAL_MOD RExpr 	{ 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"LEXICAL_MOD", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, AST_INTEGER_VAR_TYPE, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_MOD);
		}
		| L_PARENTHESIS RExpr R_PARENTHESIS { 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"(RExpr)", __FILE__, __LINE__);
			#endif
			$$=$2;//createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, NODE_TYPE_TODO, NO_VAL),NULL, $2);
		}
		| LExpr { 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"LExpr", __FILE__, __LINE__);
			#endif
			$$=$1;//createASTNode(&yylloc,NODE_TYPE_REXP, createASTNodeInfo(NO_NAME, NODE_TYPE_TODO, NO_VAL),$1, NULL);
		}
		| ID L_PARENTHESIS ParamList_FunctionCall R_PARENTHESIS { 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Function call with parameters", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,NODE_TYPE_FUNCTION_CALL, createASTNodeInfo($1, NODE_TYPE_TODO, NO_VAL),$3, NULL);
		} 
		| ID L_PARENTHESIS  R_PARENTHESIS { 
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Function call without parameters", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,NODE_TYPE_FUNCTION_CALL, createASTNodeInfo($1, NODE_TYPE_TODO, NO_VAL),NULL, NULL);
		}  
		| NUMBER { 
			$$=createASTNode(&yylloc,NUMBER, createASTNodeInfo("CONSTANT, NUMBER", AST_INTEGER_VAR_TYPE, $1),NULL, NULL);
		}   
		| LEXICAL_MINUS NUMBER  { 
			$$=createASTNode(&yylloc,NUMBER, createASTNodeInfo("CONSTANT, NEGATIVE NUMBER", AST_INTEGER_VAR_TYPE, 0-$2),NULL, NULL);
		}  
//		| Statement { 
//			$$=$1;
//		}  
	;
 
	LExpr: 
		ID {
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"ID node", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,NODE_TYPE_ID, createASTNodeInfo($1, NODE_TYPE_NOTHING, NO_VAL),NULL, NULL);
		} 
		| ID LSQUA_BRACKET RExpr RSQUA_BRACKET {
			$$=createASTNode(&yylloc,NODE_TYPE_ID,createASTNodeInfo($1, NODE_TYPE_NOTHING, NO_VAL),$3,NULL);
			setNodeSubType($$, LEXICAL_INSTACK_TYPE);
		} 
	;
 
	ParamList_FunctionCall: 
		RExpr COMMA ParamList_FunctionCall {
			$$=createASTNode(&yylloc,NODE_TYPE_PARAM_LIST, createASTNodeInfo(NO_NAME, NODE_TYPE_NOTHING, NO_VAL),$1, $3);
		} 
		| RExpr {
			$$=$1;
			setNodeType($$, NODE_TYPE_PARAM);
		} 
	;
 
	Statements: 
		Statement Statements{
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Statements node", __FILE__, __LINE__);
			#endif
			// Avoid building an unneeded node
			if($2==NULL)
			{
				$$=$1;
			}
			else
			{
				$$=createASTNode(&yylloc,NODE_TYPE_FUNCTION_BODY, createASTNodeInfo("Statements node", NODE_TYPE_TODO, NO_VAL),$1, $2);
			}
		} 
		| { $$=NULL;}
	;
 
	Statement: 
		SEMICOLON {
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Statement : ';'", __FILE__, __LINE__);
			#endif
			$$=NULL;
		} 
		| RExpr SEMICOLON {
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Statement : 'RExpr;'", __FILE__, __LINE__);
			#endif
			$$=$1;
		} 
		| LExpr LEXICAL_AFFECTATION RExpr SEMICOLON {
			$$=createASTNode(&yylloc,NODE_TYPE_STATEMENT, createASTNodeInfo("Statement : 'LExpr = RExpr;'", NODE_TYPE_CHECK, NO_VAL),$1, $3);
			setNodeSubType($$, LEXICAL_AFFECTATION);
		}
		| if_instruction {
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Statement : 'if'", __FILE__, __LINE__);
			#endif
			$$=$1;//createASTNode(&yylloc,NODE_TYPE_STATEMENT, createASTNodeInfo("Statement : 'if'", NODE_TYPE_NOTHING, NO_VAL),$1, NULL);
		} 
		| iteration_while {
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Statement : 'while'", __FILE__, __LINE__);
			#endif
			$$=$1;
		} 
		| iteration_for {
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Statement : 'for'", __FILE__, __LINE__);
			#endif
			$$=$1;
		} 
		| LEXICAL_WRITE_OPS L_PARENTHESIS RExpr R_PARENTHESIS SEMICOLON {
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Statement : 'WRITE (RExpr);'", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,LEXICAL_WRITE_OPS, createASTNodeInfo("Statement : 'WRITE (RExpr);'", AST_INTEGER_VAR_TYPE, NO_VAL),NULL, $3);
		} 
		| LEXICAL_READ_OPS L_PARENTHESIS LExpr R_PARENTHESIS SEMICOLON {
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Statement : 'READ (LExpr);'", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,LEXICAL_READ_OPS, createASTNodeInfo("Statement : 'READ (LExpr);'", AST_INTEGER_VAR_TYPE, NO_VAL),NULL, $3);
		} 
		| LEXICAL_PUT_OPS L_PARENTHESIS ID COMMA RExpr R_PARENTHESIS SEMICOLON {
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Statement : 'PUT (ID, RExpr);'", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,
					LEXICAL_PUT_OPS, 
					createASTNodeInfo("Statement : 'PUT;'", NODE_TYPE_NOTHING, NO_VAL),
					createASTNode(&yylloc,NODE_TYPE_ID, createASTNodeInfo($3, NODE_TYPE_NOTHING, NO_VAL),NULL, NULL), 
					$5
					);
		}
		| LEXICAL_RETURN_STMT L_PARENTHESIS RExpr R_PARENTHESIS SEMICOLON {
			#if(VERBOSE_LEVEL<=DEB_Y)  
				printMsg(DEB_Y,"Statement : 'LEXICAL_RETURN_STMT(RExpr);'", __FILE__, __LINE__);
			#endif
			$$=createASTNode(&yylloc,LEXICAL_RETURN_STMT, createASTNodeInfo("Statement : 'LEXICAL_RETURN_STMT(RExpr);'", NODE_TYPE_NOTHING, NO_VAL),NULL, $3);
		} 
	;
 
	iteration_for: LEXICAL_FOR_STMT L_PARENTHESIS Statements COLON RExpr COLON Statements R_PARENTHESIS LSQUI_BRACKET Statements  RSQUI_BRACKET  {
			AstNode *forBoundariesNode = createASTNode(&yylloc,NODE_TYPE_CONTAINER,createASTNodeInfo(NO_NAME, NODE_TYPE_NOTHING, NO_VAL),$3,$7);
			AstNode *forNode = createASTNode(&yylloc,NODE_TYPE_CONTAINER,createASTNodeInfo(NO_NAME, NODE_TYPE_NOTHING, NO_VAL),forBoundariesNode, $10);
			//AstNode *forConditionNode = createASTNode(&yylloc,NODE_TYPE_REXP,createASTNodeInfo(NO_NAME, NODE_TYPE_NOTHING, NO_VAL),$5,NULL);
 
			$$ = createASTNode(&yylloc,NODE_TYPE_STATEMENT,createASTNodeInfo(NO_NAME, NODE_TYPE_NOTHING, NO_VAL),
					$5,
					forNode
					);
			setNodeSubType($$, LEXICAL_FOR_STMT);
		} 
	;
 
	iteration_while: LEXICAL_WHILE_STMT L_PARENTHESIS RExpr R_PARENTHESIS LSQUI_BRACKET Statements RSQUI_BRACKET {
			$$=createASTNode(&yylloc,NODE_TYPE_STATEMENT,createASTNodeInfo("while(RExpr){Statement}", NODE_TYPE_NOTHING, NO_VAL),$3, $6);
			setNodeSubType($$, LEXICAL_WHILE_STMT);
		} 
	;
 
	if_instruction: 
		LEXICAL_IF_STMT L_PARENTHESIS RExpr R_PARENTHESIS LSQUI_BRACKET Statements RSQUI_BRACKET LEXICAL_ELSE_STMT LSQUI_BRACKET Statements RSQUI_BRACKET {
 
			AstNode *ifNode = $6;
			AstNode *elseNode = $10;
			$$=createASTNode(&yylloc,
				NODE_TYPE_STATEMENT, 
				createASTNodeInfo("if(RExpr){Statement}else{Statement}", NODE_TYPE_NOTHING, NO_VAL),
				$3, 
				createASTNode(&yylloc,
					NODE_TYPE_CONTAINER,
					createASTNodeInfo(NO_NAME, NODE_TYPE_NOTHING, NO_VAL),
					ifNode, 
					elseNode
					)
				);
			setNodeSubType($$, AST_IF_ELSE_STMT);
		} 
		| LEXICAL_IF_STMT L_PARENTHESIS RExpr R_PARENTHESIS LSQUI_BRACKET Statements RSQUI_BRACKET {
			$$=createASTNode(&yylloc,NODE_TYPE_STATEMENT,createASTNodeInfo("if(RExpr){Statement}", NODE_TYPE_NOTHING, NO_VAL),$3, $6);
			setNodeSubType($$, LEXICAL_IF_STMT);
		} 
	;
 
%%
 
void finalizeYacc()
{
	#if(SYMTABLE_PRINT_REQUESTED==1 || VERBOSE_LEVEL<=DEB_I) 
		printSymbolsTableFooter(); 
	#endif
	#if(VERBOSE_LEVEL<=DEB_EXEC)  
		printMsg(DEB_EXEC,"Cleaning memory...", __FILE__, __LINE__);
	#endif
	// finalizeSymbolsTable MUST be called BELEXICAL_FOR_STMTE finalizeAST to avoid double free or corruption
	finalizeSymbolsTable(); 
	finalizeAST();
 
//	if(psnBeforeToken!=NULL)
//	{
//		free(psnBeforeToken);
//	}
//	if(psnAfterToken!=NULL)
//	{
//		free(psnAfterToken);
//	}
	yylex_destroy();
	#if(VERBOSE_LEVEL<=DEB_EXEC)
		printMsg(DEB_EXEC,"...OK Memory cleaned\n;\n;", __FILE__, __LINE__); 
	#endif
}
 
int testFile(char *path)
{
	#if(VERBOSE_LEVEL<=DEB_EXEC)  
		time_t startTime = time(NULL);
		printf(";****************************************************************************************");
		printMsg(DEB_EXEC,"Creating Symbols Table",__FILE__, __LINE__);
	#endif
 
	initializeSymbolsTable();
	#if(SYMTABLE_PRINT_REQUESTED==1) 
		printSymbolsTableHeader(); 
	#endif
	#if(SYMTABLE_PRINT_REQUESTED!=1 && VERBOSE_LEVEL<=DEB_EXEC)  
		printMsg(DEB_W,"Print Symbols table not requested (use DEB_I level minimum to print it)", __FILE__, __LINE__);
	#endif
 
	if(path==NULL || !(yyin=fopen(path,"r")))
	{
		#if(VERBOSE_LEVEL<=DEB_EXEC)  
			printMsg(DEB_EXEC,"Using Test file...false", __FILE__, __LINE__);
			printMsg(DEB_E, (char *)strerror(errno), __FILE__, __LINE__);
			printMsg(DEB_EXEC,"Calling yyparse()", __FILE__, __LINE__);
		#endif
		yyparse();
	}
	else
	{
		#if(VERBOSE_LEVEL<=DEB_EXEC)  
			printMsg(DEB_EXEC,"Using Test file...true", __FILE__, __LINE__);
			printf(";  Parsing %s file...", path);
			printMsg(DEB_EXEC,"Calling yyparse()", __FILE__, __LINE__);
		#endif
		yyparse();/*retourne un booleen?*/
		fclose(yyin);
	}
	#if(VERBOSE_LEVEL<=DEB_EXEC)  
		printMsg(DEB_EXEC,"End of yyparse execution;", __FILE__, __LINE__);
	#endif
	#if(AST_PRINT_REQUESTED==1) 
		printTree(); 
	#endif
	#if(AST_PRINT_REQUESTED!=1 && VERBOSE_LEVEL<=DEB_EXEC)  
		printMsg(DEB_W,"Print tree not requested (use DEB_I level minimum to print it)", __FILE__, __LINE__);
	#endif
	checkAST();
	#if(AST_IMAGE_REQUESTED!=0)
		printGraph();
	#endif
 
	#if(VERBOSE_LEVEL<=DEB_EXEC && PCODE_GENERATION_BYPASS) 		
		printMsg(DEB_EXEC,"P-code generation not requested.", __FILE__, __LINE__);
	#endif
	#if(!PCODE_GENERATION_BYPASS)
		#if(VERBOSE_LEVEL<=DEB_EXEC) 
			printMsg(DEB_EXEC,"Generating p-code...", __FILE__, __LINE__);
		#endif	
		generatePCode();
		#if(VERBOSE_LEVEL<=DEB_EXEC) 
			printMsg(DEB_EXEC,"...OK P-code generated;", __FILE__, __LINE__); 
		#endif
	#endif
	#if(VAR_USAGE_REPORT_REQUESTED)
		printSymbolsUsage();
	#endif
	finalizeYacc();
	#if(VERBOSE_LEVEL<=DEB_EXEC)
		time_t endTime = time(NULL);
 
		char str[1024];//todo: minimize length
		sprintf(
				str, 
				"Parsing started at %s;\t%d lines %d chars parsed in %g seconds\n;\tVerbose set on \"%s\" level", 
				asctime(localtime(&startTime)), 
				lexLinesCount, 
				lexTotalCharsCount,
				difftime(endTime, startTime),
				debugLevelToString(VERBOSE_LEVEL)
				);
		printMsg(DEB_EXEC,str, __FILE__, __LINE__);
	#endif
	//fprintf(stderr,"OK\n");
	return EXIT_SUCCESS;
}
 
int main()
{	
	DIR *dir = NULL;
	struct dirent *file = NULL;
	char *path="tests";
 
	#if(VERBOSE_LEVEL<=DEB_EXEC)  
		printMsg(DEB_EXEC,"\n;\n;\tLSD010 Compiler [SSHD09]\n;\n;", __FILE__, __LINE__);
	#endif
 
	if((dir = opendir(path)) == NULL)
	{
		testFile(NULL);
	}
	else
	{
		char *filePath;
		while((file = readdir(dir)) != NULL)
		{
			if(strcmp(file->d_name, ".") && strcmp(file->d_name, ".."))
			{
				filePath = malloc(strlen(path) + strlen(file->d_name) + 2);
				sprintf(filePath, "%s%s%s", path, FILE_SEPARATLEXICAL_OR, file->d_name);
				//printf("\n;  Opening %s file...", filePath);
				if(testFile(filePath) != EXIT_SUCCESS)
				{
					return EXIT_FAILURE;
				}
			}
		}
		closedir(dir);
		free(filePath);
	}
	#if(VERBOSE_LEVEL<=DEB_EXEC)  
		printMsg(DEB_EXEC,"That's All Folks!", __FILE__, __LINE__);
	#endif
 
 
	fprintf(stderr,"OK\n");
	return EXIT_SUCCESS;
}
 
int yyerror(char *str)
{
	fprintf(stderr,"KO\n");
	if(yytext!=NULL)
	{
		fprintf(stderr,";\n;\tError : \"%s\" On parsed code, Line %d : UNRECOGNISED '%s'\n\n", str, lexLinesCount, yytext);
	}else if(debugInfo!=NULL)
	{
		fprintf(
				stderr,
				";\n;\tError : \"%s\" On %s, Line %d col %d\n\n", 
				str, 
				debugInfo->file, 
				debugInfo->line, 
				debugInfo->linePsn
				);
	}
//	else if(lexLinesCount>0)
//	{
//		fprintf(stderr,";\n;\tError : \"%s\" On parsed code, Line %d\n\n", str, lexLinesCount);
//	}
	else
	{
		fprintf(stderr,";\n;\tError : \"%s\"\n\n", str);
	}
	finalizeYacc();
	//failure for the parsed code, but success for the compiler (it must stop here)
	exit(EXIT_SUCCESS);
}
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Dokument erstellt 05/10/2009, zuletzt geändert 28/10/2018
Quelle des gedruckten Dokuments:https://www.gaudry.be/de/sniplet-rf-lsd010/project/source/lsd10.y.html
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