/* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". */ /* $Header$ */ /* Lint main routines */ #include "lint.h" #ifdef LINT #include /* for st_free */ #include "assert.h" #include "arith.h" /* definition arith */ #include "label.h" /* definition label */ #include "expr.h" #include "idf.h" #include "def.h" #include "code.h" /* RVAL etc */ #include "LLlex.h" #include "Lpars.h" #include "stack.h" #include "type.h" #include "level.h" #include "nofloat.h" #include "l_lint.h" #include "l_state.h" #include "l_outdef.h" extern char options[128]; extern char *symbol2str(); static struct expr_state *lint_expr(); static struct expr_state *lint_value(); static struct expr_state *lint_oper(); lint_init() { /* Allocate some memory for the global stack_bottom * and some other initializations */ extern struct lint_stack_entry stack_bottom; stack_bottom.ls_current = new_state(); } pre_lint_expr(expr, val, used) struct expr *expr; int val; /* LVAL or RVAL */ int used; { /* Introduced to dispose the returned expression states */ register struct expr_state *esp; esp = lint_expr(expr, val, used); free_expr_states(esp); } free_expr_states(esp) register struct expr_state *esp; { register struct expr_state *esp2; while (esp) { esp2 = esp; esp = esp->next; free_expr_state(esp2); } } static struct expr_state * lint_expr(expr, val, used) register struct expr *expr; int val; int used; { /* Main function to process an expression tree. * It returns a structure containing information about which variables * are set and which are used in the expression. * In addition it sets 'used' and 'set' fields of the corresponding * variables in the current state. * If the value of an operation without side-effects is not used, * a warning is given. */ if (used == IGNORED) { expr_ignored(expr); } switch (expr->ex_class) { case Value: return lint_value(expr, val); case Oper: return lint_oper(expr, val, used); default: /* String Float Type */ return 0; } } static struct expr_state * lint_value(expr, val) register struct expr *expr; { switch (expr->VL_CLASS) { case Const: case Label: return 0; case Name: { register struct idf *idf = expr->VL_IDF; struct expr_state *esp1 = 0; if (!idf || !idf->id_def) return 0; if ( val == LVAL || ( val == RVAL && expr->ex_type->tp_fund == POINTER && !expr->ex_lvalue ) ) { change_state(idf, SET); idf->id_def->df_file = Salloc(dot.tk_file, strlen(dot.tk_file) + 1); idf->id_def->df_line = dot.tk_line; } if (val == RVAL) { change_state(idf, USED); add_expr_state(expr->EX_VALUE, USED, &esp1); } return esp1; } default: NOTREACHED(); /* NOTREACHED */ } } static struct expr_state * lint_oper(expr, val, used) struct expr *expr; int val; int used; { register int oper = expr->OP_OPER; register struct expr *left = expr->OP_LEFT; register struct expr *right = expr->OP_RIGHT; struct expr_state *esp1 = 0; struct expr_state *esp2 = 0; switch (oper) { case '=': case PLUSAB: case MINAB: case TIMESAB: case DIVAB: case MODAB: case LEFTAB: case RIGHTAB: case ANDAB: case XORAB: case ORAB: lint_conversion(oper, right->ex_type, left->ex_type); /* for cases like i += l; */ esp1 = lint_expr(right, RVAL, USED); if (oper != '=') { /* i += 1; is interpreted as i = i + 1; */ esp2 = lint_expr(left, RVAL, USED); check_and_merge(&esp1, esp2, oper); } esp2 = lint_expr(left, LVAL, USED); /* for cases like i = i + 1; and i not set, this ** order is essential */ check_and_merge(&esp1, esp2, oper); if ( left->ex_class == Value && left->VL_CLASS == Name ) { add_expr_state(left->EX_VALUE, SET, &esp1); } return esp1; case POSTINCR: case POSTDECR: case PLUSPLUS: case MINMIN: /* i++; is parsed as i = i + 1; * This isn't quite correct : * The first statement doesn't USE i, * the second does. */ esp1 = lint_expr(left, RVAL, USED); esp2 = lint_expr(left, LVAL, USED); check_and_merge(&esp1, esp2, oper); if ( left->ex_class == Value && left->VL_CLASS == Name ) { add_expr_state(left->EX_VALUE, SET, &esp1); add_expr_state(left->EX_VALUE, USED, &esp1); } return esp1; case '-': case '*': if (left == 0) /* unary */ return lint_expr(right, RVAL, USED); esp1 = lint_expr(left, RVAL, USED); esp2 = lint_expr(right, RVAL, USED); check_and_merge(&esp1, esp2, oper); return esp1; case '(': if (right != 0) { /* function call with parameters */ register struct expr *ex = right; while ( ex->ex_class == Oper && ex->OP_OPER == PARCOMMA ) { esp2 = lint_expr(ex->OP_RIGHT, RVAL, USED); check_and_merge(&esp1, esp2, oper); ex = ex->OP_LEFT; } esp2 = lint_expr(ex, RVAL, USED); check_and_merge(&esp1, esp2, oper); } if ( left->ex_class == Value && left->VL_CLASS == Name ) { fill_outcall(expr, expr->ex_type->tp_fund == VOID ? VOIDED : used ); outcall(); left->VL_IDF->id_def->df_used = 1; } else { esp2 = lint_expr(left, val, USED); check_and_merge(&esp1, esp2, oper); } return esp1; case '.': return lint_expr(left, val, USED); case ARROW: return lint_expr(left, RVAL, USED); case '~': case '!': return lint_expr(right, RVAL, USED); case '?': esp1 = lint_expr(left, RVAL, USED); esp2 = lint_expr(right->OP_LEFT, RVAL, USED); check_and_merge(&esp1, esp2, 0); esp2 = lint_expr(right->OP_RIGHT, RVAL, USED); check_and_merge(&esp1, esp2, 0); return esp1; case INT2INT: case INT2FLOAT: case FLOAT2INT: case FLOAT2FLOAT: lint_conversion(oper, right->ex_type, left->ex_type); return lint_expr(right, RVAL, USED); case '<': case '>': case LESSEQ: case GREATEREQ: case EQUAL: case NOTEQUAL: lint_relop(left, right, oper); lint_relop(right, left, oper == '<' ? '>' : oper == '>' ? '<' : oper == LESSEQ ? GREATEREQ : oper == GREATEREQ ? LESSEQ : oper ); /*FALLTHROUGH*/ case '+': case '/': case '%': case ',': case LEFT: case RIGHT: case '&': case '|': case '^': case OR: case AND: esp1 = lint_expr(left, RVAL, oper == ',' ? IGNORED : USED); esp2 = lint_expr(right, RVAL, oper == ',' ? used : USED); if (oper == OR || oper == AND || oper == ',') check_and_merge(&esp1, esp2, 0); else check_and_merge(&esp1, esp2, oper); return esp1; default: return 0; /* for initcomma */ } } expr_ignored(expr) struct expr *expr; { switch (expr->ex_class) { case Oper: switch (expr->OP_OPER) { case '=': case TIMESAB: case DIVAB: case MODAB: case LEFTAB: case RIGHTAB: case ANDAB: case XORAB: case ORAB: case AND: /* doubtful but useful */ case OR: /* doubtful but useful */ case '(': case '?': case ',': break; case PLUSAB: case MINAB: case POSTINCR: case POSTDECR: case PLUSPLUS: case MINMIN: /* may hide the operator * */ if ( /* operation on a pointer */ expr->OP_TYPE->tp_fund == POINTER && /* the result is dereferenced, e.g. *p++; */ expr->ex_type == expr->OP_TYPE->tp_up ) { hwarning("result of * ignored"); } break; default: hwarning("result of %s ignored", symbol2str(expr->OP_OPER)); break; } break; case Value: hwarning("identifier as statement"); break; default: /* String Float */ hwarning("constant as statement"); break; } } #endif LINT