tp-langages-formels/syntaxique/lang.y

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%{
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
int yylex();
void yyerror(char *s)
{
fflush(stdout);
fprintf(stderr, "%s\n", s);
}
/***************************************************************************/
/* Data structures for storing a programme. */
typedef struct var // a variable
{
char *name;
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int class;
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int value; // 0 = bool, 1 = int
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struct var *next;
} var;
typedef struct varlist // variable reference (used for print statement)
{
struct var *var;
struct varlist *next;
} varlist;
typedef struct expr // boolean expression
{
int type; // TRUE, FALSE, OR, AND, EQUIV, NOT, 0 (variable), PLUS, TIMES, INT, EQUALS, LT
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int class; // 0 = bool, 1 = int, 2 = both
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var *var;
struct expr *left, *right;
} expr;
typedef struct stmt // command
{
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int type; // ASSIGN, ';', WHILE, IF, PRINT
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var *var;
expr *expr;
struct stmt *left, *right;
varlist *list;
} stmt;
/****************************************************************************/
/* All data pertaining to the programme are accessible from these two vars. */
var *program_vars;
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var *program_ints;
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stmt *program_stmts;
/****************************************************************************/
/* Functions for settting up data structures at parse time. */
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var* make_ident (char *s, int class) // type = 0 for a boolean var, type = 1 for an int var
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{
var *v = malloc(sizeof(var));
v->name = s;
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v->class = class;
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v->value = 0; // make variable false initially
v->next = NULL;
return v;
}
var* find_ident (char *s)
{
var *v = program_vars;
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while (v && strcmp(v->name,s))
v = v->next;
if (!v) {
// Check in int vars
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v = program_ints;
while (v && strcmp(v->name, s))
v = v->next;
}
if (!v) {
yyerror("undeclared variable");
exit(1);
}
return v;
}
var* make_int(int val)
{
var *v = malloc(sizeof(var));
v->name = NULL;
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v->class = 1; // int
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v->value = val;
v->next = NULL;
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return v;
}
varlist* make_varlist (char *s)
{
var *v = find_ident(s);
varlist *l = malloc(sizeof(varlist));
l->var = v;
l->next = NULL;
return l;
}
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expr* make_expr (int type, int class, var *var, expr *left, expr *right)
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{
expr *e = malloc(sizeof(expr));
e->type = type;
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e->class = class;
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e->var = var;
e->left = left;
e->right = right;
return e;
}
stmt* make_stmt (int type, var *var, expr *expr,
stmt *left, stmt *right, varlist *list)
{
stmt *s = malloc(sizeof(stmt));
s->type = type;
s->var = var;
s->expr = expr;
s->left = left;
s->right = right;
s->list = list;
return s;
}
%}
/****************************************************************************/
/* types used by terminals and non-terminals */
%union {
char *i;
var *v;
varlist *l;
expr *e;
stmt *s;
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int val;
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}
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%type <v> bool_declist
%type <v> int_declist
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%type <l> varlist
%type <e> expr
%type <s> stmt assign
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%token BOOL TYPE_INT WHILE DO OD IF THEN ELSE FI ASSIGN PRINT OR AND XOR NOT TRUE FALSE
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%token <i> IDENT
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%token <val> INT
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%left ';'
%left OR XOR
%left AND
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%left EQUIV
%left EQUALS
%left LT
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%left PLUS
%left TIMES
%right NOT
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%%
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prog : bools ints stmt { program_stmts = $3; }
| bools stmt { program_stmts = $2; }
| ints stmt { program_stmts = $2; }
| stmt { program_stmts = $1; }
bools : BOOL bool_declist ';' { program_vars = $2; }
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bool_declist : IDENT { $$ = make_ident($1, 0); }
| bool_declist ',' IDENT { ($$ = make_ident($3, 0))->next = $1; }
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ints : TYPE_INT int_declist ';' { program_ints = $2; }
int_declist : IDENT { $$ = make_ident($1, 1); }
| int_declist ',' IDENT { ($$ = make_ident($3, 1))->next = $1; }
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stmt : assign
| stmt ';' stmt
{ $$ = make_stmt(';',NULL,NULL,$1,$3,NULL); }
| WHILE expr DO stmt OD
{ $$ = make_stmt(WHILE,NULL,$2,$4,NULL,NULL); }
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| IF expr THEN stmt ELSE stmt FI
{ $$ = make_stmt(IF,NULL,$2,$4,$6,NULL); }
| IF expr THEN stmt FI
{ $$ = make_stmt(IF,NULL,$2,$4,NULL,NULL); }
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| PRINT varlist
{ $$ = make_stmt(PRINT,NULL,NULL,NULL,NULL,$2); }
assign : IDENT ASSIGN expr
{ $$ = make_stmt(ASSIGN,find_ident($1),$3,NULL,NULL,NULL); }
varlist : IDENT { $$ = make_varlist($1); }
| varlist ',' IDENT { ($$ = make_varlist($3))->next = $1; }
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expr : IDENT { $$ = make_expr(0, 2, find_ident($1), NULL, NULL); }
| expr XOR expr { $$ = make_expr(XOR, 0, NULL, $1, $3); }
| expr OR expr { $$ = make_expr(OR, 0, NULL, $1, $3); }
| expr AND expr { $$ = make_expr(AND, 0, NULL, $1, $3); }
| expr EQUIV expr { $$ = make_expr(EQUIV, 0, NULL, $1, $3); }
| NOT expr { $$ = make_expr(NOT, 0, NULL, $2, NULL); }
| TRUE { $$ = make_expr(TRUE, 0, NULL, NULL, NULL); }
| FALSE { $$ = make_expr(FALSE, 0, NULL, NULL, NULL); }
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| '(' expr ')' { $$ = $2; }
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| INT { $$ = make_expr(INT, 1, make_int($1), NULL, NULL); }
| expr TIMES expr { $$ = make_expr(TIMES, 1, NULL, $1, $3); }
| expr PLUS expr { $$ = make_expr(PLUS, 1, NULL, $1, $3); }
| expr LT expr { $$ = make_expr(LT, 0, NULL, $1, $3); }
| expr EQUALS expr { $$ = make_expr(EQUALS, 0, NULL, $1, $3); }
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%%
#include "langlex.c"
/****************************************************************************/
/* programme interpreter : */
int eval (expr *e)
{
switch (e->type)
{
case TRUE: return 1;
case FALSE: return 0;
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case XOR: {
if (e->left->class != 0 || e->right->class != 0) {
yyerror("An expression has wrong types");
exit(-1);
}
return eval(e->left) ^ eval(e->right);
}
case OR: {
if (e->left->class != 0 || e->right != NULL && e->right->class != 0) {
yyerror("An expression has wrong types");
exit(-1);
}
return eval(e->left) || eval(e->right);
}
case AND: {
if (e->left->class != 0 || e->right->class != 0) {
yyerror("An expression has wrong types");
exit(-1);
}
return eval(e->left) && eval(e->right);
}
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case EQUIV: {
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if (e->left->class != 0 || e->right->class != 0) {
yyerror("An expression has wrong types");
exit(-1);
}
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int right = eval(e->right);
int left = eval(e->left);
return (right && left) || (!right && !left); // Équivalent avec left == right avec la définition.
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// Toutefois, on privilégie cette forme car faux = 0 et vrai = tout entier non nul
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}
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case NOT: {
if (e->left->class != 0) {
yyerror("An expression has wrong types");
exit(-1);
}
return !eval(e->left);
}
case PLUS: {
if (e->left->class != 1 || e->right->class != 1) {
yyerror("An expression has wrong types");
exit(-1);
}
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return eval(e->left) + eval(e->right);
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}
case TIMES: {
if (e->left->class != 1 || e->right->class != 1) {
yyerror("An expression has wrong types");
exit(-1);
}
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return eval(e->left) * eval(e->right);
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}
case EQUALS: {
if (e->left->class != 1 || e->right->class != 1) {
yyerror("An expression has wrong types");
exit(-1);
}
printf("%d, %d\n", eval(e->left), eval(e->right));
return eval(e->left) == eval(e->right) ? 1 : 0;
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}
case LT: {
if (e->left->class != 1 || e->right->class != 1) {
yyerror("An expression has wrong types");
exit(-1);
}
return eval(e->left) < eval(e->right) ? 1 : 0;
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}
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case INT:
case 0:
return e->var->value;
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}
}
void print_vars (varlist *l)
{
// Attention, varlist is in reverse order (this was easier to set up
// at parse time, see the code for varlist in the grammar).
if (!l) return;
print_vars(l->next);
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if (l->var->class == 0)
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printf("%s = %c ", l->var->name, l->var->value ? 'T' : 'F');
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else if (l->var->class == 1)
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printf("%s = %d ", l->var->name, l->var->value);
else
fprintf(stderr, "The type of the var %s is unknown", l->var->name);
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}
void execute (stmt *s)
{
switch(s->type)
{
case ASSIGN:
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if (s->var->class != s->expr->class) {
yyerror("An assignment has the wrong type");
exit(-1);
}
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s->var->value = eval(s->expr);
break;
case ';':
execute(s->left);
execute(s->right);
break;
case WHILE:
while (eval(s->expr)) execute(s->left);
break;
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case IF:
if (eval(s->expr))
execute(s->left);
else if (s->right != NULL)
execute(s->right);
break;
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case PRINT:
print_vars(s->list);
puts("");
break;
}
}
/****************************************************************************/
int main (int argc, char **argv)
{
if (argc <= 1) { yyerror("no file specified"); exit(1); }
yyin = fopen(argv[1],"r");
if (!yyparse()) execute(program_stmts);
}