/* Simple expression parser */ %{ #ifndef NDEBUG #define YYDEBUG 1 #endif #include #include #include #include "util/debug.h" #define IN_EXPR_Y 1 #include "expr.h" #include "expr-bison.h" int expr_lex(YYSTYPE * yylval_param , void *yyscanner); %} %define api.pure full %parse-param { double *final_val } %parse-param { struct expr_parse_ctx *ctx } %parse-param { bool compute_ids } %parse-param {void *scanner} %lex-param {void* scanner} %union { double num; char *str; struct ids { /* * When creating ids, holds the working set of event ids. NULL * implies the set is empty. */ struct hashmap *ids; /* * The metric value. When not creating ids this is the value * read from a counter, a constant or some computed value. When * creating ids the value is either a constant or BOTTOM. NAN is * used as the special BOTTOM value, representing a "set of all * values" case. */ double val; } ids; } %token ID NUMBER MIN MAX IF ELSE LITERAL D_RATIO SOURCE_COUNT HAS_EVENT STRCMP_CPUID_STR EXPR_ERROR %left MIN MAX IF %left '|' %left '^' %left '&' %left '<' '>' %left '-' '+' %left '*' '/' '%' %left NEG NOT %type NUMBER LITERAL %type ID %destructor { free ($$); } %type expr if_expr %destructor { ids__free($$.ids); } %{ static void expr_error(double *final_val __maybe_unused, struct expr_parse_ctx *ctx __maybe_unused, bool compute_ids __maybe_unused, void *scanner __maybe_unused, const char *s) { pr_debug("%s\n", s); } /* * During compute ids, the special "bottom" value uses NAN to represent the set * of all values. NAN is selected as it isn't a useful constant value. */ #define BOTTOM NAN /* During computing ids, does val represent a constant (non-BOTTOM) value? */ static bool is_const(double val) { return isfinite(val); } static struct ids union_expr(struct ids ids1, struct ids ids2) { struct ids result = { .val = BOTTOM, .ids = ids__union(ids1.ids, ids2.ids), }; return result; } static struct ids handle_id(struct expr_parse_ctx *ctx, char *id, bool compute_ids, bool source_count) { struct ids result; if (!compute_ids) { /* * Compute the event's value from ID. If the ID isn't known then * it isn't used to compute the formula so set to NAN. */ struct expr_id_data *data; result.val = NAN; if (expr__resolve_id(ctx, id, &data) == 0) { result.val = source_count ? expr_id_data__source_count(data) : expr_id_data__value(data); } result.ids = NULL; free(id); } else { /* * Set the value to BOTTOM to show that any value is possible * when the event is computed. Create a set of just the ID. */ result.val = BOTTOM; result.ids = ids__new(); if (!result.ids || ids__insert(result.ids, id)) { pr_err("Error creating IDs for '%s'", id); free(id); } } return result; } /* * If we're not computing ids or $1 and $3 are constants, compute the new * constant value using OP. Its invariant that there are no ids. If computing * ids for non-constants union the set of IDs that must be computed. */ #define BINARY_OP(RESULT, OP, LHS, RHS) \ if (!compute_ids || (is_const(LHS.val) && is_const(RHS.val))) { \ assert(LHS.ids == NULL); \ assert(RHS.ids == NULL); \ if (isnan(LHS.val) || isnan(RHS.val)) { \ RESULT.val = NAN; \ } else { \ RESULT.val = LHS.val OP RHS.val; \ } \ RESULT.ids = NULL; \ } else { \ RESULT = union_expr(LHS, RHS); \ } %} %% start: if_expr { if (compute_ids) ctx->ids = ids__union($1.ids, ctx->ids); if (final_val) *final_val = $1.val; } ; if_expr: expr IF expr ELSE if_expr { if (fpclassify($3.val) == FP_ZERO) { /* * The IF expression evaluated to 0 so treat as false, take the * ELSE and discard everything else. */ $$.val = $5.val; $$.ids = $5.ids; ids__free($1.ids); ids__free($3.ids); } else if (!compute_ids || is_const($3.val)) { /* * If ids aren't computed then treat the expression as true. If * ids are being computed and the IF expr is a non-zero * constant, then also evaluate the true case. */ $$.val = $1.val; $$.ids = $1.ids; ids__free($3.ids); ids__free($5.ids); } else if ($1.val == $5.val) { /* * LHS == RHS, so both are an identical constant. No need to * evaluate any events. */ $$.val = $1.val; $$.ids = NULL; ids__free($1.ids); ids__free($3.ids); ids__free($5.ids); } else { /* * Value is either the LHS or RHS and we need the IF expression * to compute it. */ $$ = union_expr($1, union_expr($3, $5)); } } | expr ; expr: NUMBER { $$.val = $1; $$.ids = NULL; } | ID { $$ = handle_id(ctx, $1, compute_ids, /*source_count=*/false); } | SOURCE_COUNT '(' ID ')' { $$ = handle_id(ctx, $3, compute_ids, /*source_count=*/true); } | HAS_EVENT '(' ID ')' { $$.val = expr__has_event(ctx, compute_ids, $3); $$.ids = NULL; free($3); } | STRCMP_CPUID_STR '(' ID ')' { $$.val = expr__strcmp_cpuid_str(ctx, compute_ids, $3); $$.ids = NULL; free($3); } | expr '|' expr { if (is_const($1.val) && is_const($3.val)) { assert($1.ids == NULL); assert($3.ids == NULL); $$.ids = NULL; $$.val = (fpclassify($1.val) == FP_ZERO && fpclassify($3.val) == FP_ZERO) ? 0 : 1; } else if (is_const($1.val)) { assert($1.ids == NULL); if (fpclassify($1.val) == FP_ZERO) { $$ = $3; } else { $$.val = 1; $$.ids = NULL; ids__free($3.ids); } } else if (is_const($3.val)) { assert($3.ids == NULL); if (fpclassify($3.val) == FP_ZERO) { $$ = $1; } else { $$.val = 1; $$.ids = NULL; ids__free($1.ids); } } else { $$ = union_expr($1, $3); } } | expr '&' expr { if (is_const($1.val) && is_const($3.val)) { assert($1.ids == NULL); assert($3.ids == NULL); $$.val = (fpclassify($1.val) != FP_ZERO && fpclassify($3.val) != FP_ZERO) ? 1 : 0; $$.ids = NULL; } else if (is_const($1.val)) { assert($1.ids == NULL); if (fpclassify($1.val) != FP_ZERO) { $$ = $3; } else { $$.val = 0; $$.ids = NULL; ids__free($3.ids); } } else if (is_const($3.val)) { assert($3.ids == NULL); if (fpclassify($3.val) != FP_ZERO) { $$ = $1; } else { $$.val = 0; $$.ids = NULL; ids__free($1.ids); } } else { $$ = union_expr($1, $3); } } | expr '^' expr { if (is_const($1.val) && is_const($3.val)) { assert($1.ids == NULL); assert($3.ids == NULL); $$.val = (fpclassify($1.val) == FP_ZERO) != (fpclassify($3.val) == FP_ZERO) ? 1 : 0; $$.ids = NULL; } else { $$ = union_expr($1, $3); } } | expr '<' expr { BINARY_OP($$, <, $1, $3); } | expr '>' expr { BINARY_OP($$, >, $1, $3); } | expr '+' expr { BINARY_OP($$, +, $1, $3); } | expr '-' expr { BINARY_OP($$, -, $1, $3); } | expr '*' expr { BINARY_OP($$, *, $1, $3); } | expr '/' expr { if (fpclassify($3.val) == FP_ZERO) { pr_debug("division by zero\n"); assert($3.ids == NULL); if (compute_ids) ids__free($1.ids); $$.val = NAN; $$.ids = NULL; } else if (!compute_ids || (is_const($1.val) && is_const($3.val))) { assert($1.ids == NULL); assert($3.ids == NULL); $$.val = $1.val / $3.val; $$.ids = NULL; } else { /* LHS and/or RHS need computing from event IDs so union. */ $$ = union_expr($1, $3); } } | expr '%' expr { if (fpclassify($3.val) == FP_ZERO) { pr_debug("division by zero\n"); YYABORT; } else if (!compute_ids || (is_const($1.val) && is_const($3.val))) { assert($1.ids == NULL); assert($3.ids == NULL); $$.val = (long)$1.val % (long)$3.val; $$.ids = NULL; } else { /* LHS and/or RHS need computing from event IDs so union. */ $$ = union_expr($1, $3); } } | D_RATIO '(' expr ',' expr ')' { if (fpclassify($5.val) == FP_ZERO) { /* * Division by constant zero always yields zero and no events * are necessary. */ assert($5.ids == NULL); $$.val = 0.0; $$.ids = NULL; ids__free($3.ids); } else if (!compute_ids || (is_const($3.val) && is_const($5.val))) { assert($3.ids == NULL); assert($5.ids == NULL); $$.val = $3.val / $5.val; $$.ids = NULL; } else { /* LHS and/or RHS need computing from event IDs so union. */ $$ = union_expr($3, $5); } } | '-' expr %prec NEG { $$.val = -$2.val; $$.ids = $2.ids; } | '(' if_expr ')' { $$ = $2; } | MIN '(' expr ',' expr ')' { if (!compute_ids) { $$.val = $3.val < $5.val ? $3.val : $5.val; $$.ids = NULL; } else { $$ = union_expr($3, $5); } } | MAX '(' expr ',' expr ')' { if (!compute_ids) { $$.val = $3.val > $5.val ? $3.val : $5.val; $$.ids = NULL; } else { $$ = union_expr($3, $5); } } | LITERAL { $$.val = $1; $$.ids = NULL; } ; %%