From: Aldy Hernandez Date: Tue, 4 Aug 2020 10:31:23 +0000 (+0200) Subject: Decouple adjust_range_from_scev from vr_values and value_range_equiv. X-Git-Tag: upstream/12.2.0~14210 X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=ea95ba8d582e967cdbfce95993e9bb6ad769c047;p=platform%2Fupstream%2Fgcc.git Decouple adjust_range_from_scev from vr_values and value_range_equiv. gcc/ChangeLog: * vr-values.c (check_for_binary_op_overflow): Change type of store to range_query. (vr_values::adjust_range_with_scev): Abstract most of the code... (range_of_var_in_loop): ...here. Remove value_range_equiv uses. (simplify_using_ranges::simplify_using_ranges): Change type of store to range_query. * vr-values.h (class range_query): New. (class simplify_using_ranges): Use range_query. (class vr_values): Add OVERRIDE to get_value_range. (range_of_var_in_loop): New. --- diff --git a/gcc/vr-values.c b/gcc/vr-values.c index fe51a6f..9b21441 100644 --- a/gcc/vr-values.c +++ b/gcc/vr-values.c @@ -1006,7 +1006,7 @@ vr_values::extract_range_from_comparison (value_range_equiv *vr, overflow. */ static bool -check_for_binary_op_overflow (vr_values *store, +check_for_binary_op_overflow (range_query *store, enum tree_code subcode, tree type, tree op0, tree op1, bool *ovf) { @@ -1736,42 +1736,40 @@ compare_range_with_value (enum tree_code comp, const value_range *vr, gcc_unreachable (); } -/* Given a range VR, a LOOP and a variable VAR, determine whether it - would be profitable to adjust VR using scalar evolution information - for VAR. If so, update VR with the new limits. */ -void -vr_values::adjust_range_with_scev (value_range_equiv *vr, class loop *loop, - gimple *stmt, tree var) +/* Given a VAR in STMT within LOOP, determine the bounds of the + variable and store it in MIN/MAX and return TRUE. If no bounds + could be determined, return FALSE. */ + +bool +bounds_of_var_in_loop (tree *min, tree *max, range_query *query, + class loop *loop, gimple *stmt, tree var) { - tree init, step, chrec, tmin, tmax, min, max, type, tem; + tree init, step, chrec, tmin, tmax, type = TREE_TYPE (var); enum ev_direction dir; - /* TODO. Don't adjust anti-ranges. An anti-range may provide - better opportunities than a regular range, but I'm not sure. */ - if (vr->kind () == VR_ANTI_RANGE) - return; - chrec = instantiate_parameters (loop, analyze_scalar_evolution (loop, var)); /* Like in PR19590, scev can return a constant function. */ if (is_gimple_min_invariant (chrec)) { - vr->set (chrec); - return; + *min = *max = chrec; + return true; } if (TREE_CODE (chrec) != POLYNOMIAL_CHREC) - return; + return false; init = initial_condition_in_loop_num (chrec, loop->num); - tem = op_with_constant_singleton_value_range (init); - if (tem) - init = tem; step = evolution_part_in_loop_num (chrec, loop->num); - tem = op_with_constant_singleton_value_range (step); - if (tem) - step = tem; + + /* If INIT is an SSA with a singleton range, set INIT to said + singleton, otherwise leave INIT alone. */ + if (TREE_CODE (init) == SSA_NAME) + query->get_value_range (init, stmt)->singleton_p (&init); + /* Likewise for step. */ + if (TREE_CODE (step) == SSA_NAME) + query->get_value_range (step, stmt)->singleton_p (&step); /* If STEP is symbolic, we can't know whether INIT will be the minimum or maximum value in the range. Also, unless INIT is @@ -1780,7 +1778,7 @@ vr_values::adjust_range_with_scev (value_range_equiv *vr, class loop *loop, if (step == NULL_TREE || !is_gimple_min_invariant (step) || !valid_value_p (init)) - return; + return false; dir = scev_direction (chrec); if (/* Do not adjust ranges if we do not know whether the iv increases @@ -1789,9 +1787,8 @@ vr_values::adjust_range_with_scev (value_range_equiv *vr, class loop *loop, /* ... or if it may wrap. */ || scev_probably_wraps_p (NULL_TREE, init, step, stmt, get_chrec_loop (chrec), true)) - return; + return false; - type = TREE_TYPE (var); if (POINTER_TYPE_P (type) || !TYPE_MIN_VALUE (type)) tmin = lower_bound_in_type (type, type); else @@ -1806,7 +1803,7 @@ vr_values::adjust_range_with_scev (value_range_equiv *vr, class loop *loop, if (TREE_CODE (step) == INTEGER_CST && is_gimple_val (init) && (TREE_CODE (init) != SSA_NAME - || get_value_range (init, stmt)->kind () == VR_RANGE)) + || query->get_value_range (init, stmt)->kind () == VR_RANGE)) { widest_int nit; @@ -1829,21 +1826,29 @@ vr_values::adjust_range_with_scev (value_range_equiv *vr, class loop *loop, && (sgn == UNSIGNED || wi::gts_p (wtmp, 0) == wi::gts_p (wi::to_wide (step), 0))) { - value_range_equiv maxvr; - tem = wide_int_to_tree (TREE_TYPE (init), wtmp); - extract_range_from_binary_expr (&maxvr, PLUS_EXPR, - TREE_TYPE (init), init, tem); + value_range maxvr, vr0, vr1; + if (TREE_CODE (init) == SSA_NAME) + vr0 = *(query->get_value_range (init, stmt)); + else if (is_gimple_min_invariant (init)) + vr0.set (init); + else + vr0.set_varying (TREE_TYPE (init)); + tree tem = wide_int_to_tree (TREE_TYPE (init), wtmp); + vr1.set (tem, tem); + range_fold_binary_expr (&maxvr, PLUS_EXPR, + TREE_TYPE (init), &vr0, &vr1); + /* Likewise if the addition did. */ if (maxvr.kind () == VR_RANGE) { value_range initvr; if (TREE_CODE (init) == SSA_NAME) - initvr = *(get_value_range (init, stmt)); + initvr = *(query->get_value_range (init, stmt)); else if (is_gimple_min_invariant (init)) initvr.set (init); else - return; + return false; /* Check if init + nit * step overflows. Though we checked scev {init, step}_loop doesn't wrap, it is not enough @@ -1853,7 +1858,7 @@ vr_values::adjust_range_with_scev (value_range_equiv *vr, class loop *loop, && compare_values (maxvr.min (), initvr.min ()) != -1) || (dir == EV_DIR_GROWS && compare_values (maxvr.max (), initvr.max ()) != 1)) - return; + return false; tmin = maxvr.min (); tmax = maxvr.max (); @@ -1862,66 +1867,62 @@ vr_values::adjust_range_with_scev (value_range_equiv *vr, class loop *loop, } } - if (vr->varying_p () || vr->undefined_p ()) - { - min = tmin; - max = tmax; + *min = tmin; + *max = tmax; + if (dir == EV_DIR_DECREASES) + *max = init; + else + *min = init; - /* For VARYING or UNDEFINED ranges, just about anything we get - from scalar evolutions should be better. */ + /* Even for valid range info, sometimes overflow flag will leak in. + As GIMPLE IL should have no constants with TREE_OVERFLOW set, we + drop them. */ + if (TREE_OVERFLOW_P (*min)) + *min = drop_tree_overflow (*min); + if (TREE_OVERFLOW_P (*max)) + *max = drop_tree_overflow (*max); - if (dir == EV_DIR_DECREASES) - max = init; - else - min = init; - } - else if (vr->kind () == VR_RANGE) - { - min = vr->min (); - max = vr->max (); + gcc_checking_assert (compare_values (*min, *max) != 1); + return true; +} + +/* Given a range VR, a LOOP and a variable VAR, determine whether it + would be profitable to adjust VR using scalar evolution information + for VAR. If so, update VR with the new limits. */ - if (dir == EV_DIR_DECREASES) +void +vr_values::adjust_range_with_scev (value_range_equiv *vr, class loop *loop, + gimple *stmt, tree var) +{ + tree min, max; + if (bounds_of_var_in_loop (&min, &max, this, loop, stmt, var)) + { + if (vr->undefined_p () || vr->varying_p ()) { - /* INIT is the maximum value. If INIT is lower than VR->MAX () - but no smaller than VR->MIN (), set VR->MAX () to INIT. */ - if (compare_values (init, max) == -1) - max = init; + /* For VARYING or UNDEFINED ranges, just about anything we get + from scalar evolutions should be better. */ + vr->update (min, max); + } + else if (vr->kind () == VR_RANGE) + { + /* Start with the input range... */ + tree vrmin = vr->min (); + tree vrmax = vr->max (); - /* According to the loop information, the variable does not - overflow. */ - if (compare_values (min, tmin) == -1) - min = tmin; + /* ...and narrow it down with what we got from SCEV. */ + if (compare_values (min, vrmin) == 1) + vrmin = min; + if (compare_values (max, vrmax) == -1) + vrmax = max; + vr->update (vrmin, vrmax); } - else + else if (vr->kind () == VR_ANTI_RANGE) { - /* If INIT is bigger than VR->MIN (), set VR->MIN () to INIT. */ - if (compare_values (init, min) == 1) - min = init; - - if (compare_values (tmax, max) == -1) - max = tmax; + /* ?? As an enhancement, if VR, MIN, and MAX are constants, one + could just intersect VR with a range of [MIN,MAX]. */ } } - else - return; - - /* If we just created an invalid range with the minimum - greater than the maximum, we fail conservatively. - This should happen only in unreachable - parts of code, or for invalid programs. */ - if (compare_values (min, max) == 1) - return; - - /* Even for valid range info, sometimes overflow flag will leak in. - As GIMPLE IL should have no constants with TREE_OVERFLOW set, we - drop them. */ - if (TREE_OVERFLOW_P (min)) - min = drop_tree_overflow (min); - if (TREE_OVERFLOW_P (max)) - max = drop_tree_overflow (max); - - vr->update (min, max); } /* Dump value ranges of all SSA_NAMEs to FILE. */ @@ -4216,7 +4217,7 @@ simplify_using_ranges::two_valued_val_range_p (tree var, tree *a, tree *b) return false; } -simplify_using_ranges::simplify_using_ranges (vr_values *store) +simplify_using_ranges::simplify_using_ranges (range_query *store) : store (store) { to_remove_edges = vNULL; diff --git a/gcc/vr-values.h b/gcc/vr-values.h index 330b460..7051e13 100644 --- a/gcc/vr-values.h +++ b/gcc/vr-values.h @@ -22,16 +22,26 @@ along with GCC; see the file COPYING3. If not see #include "value-range-equiv.h" +// Abstract class to return a range for a given SSA. + +class range_query +{ +public: + virtual const value_range_equiv *get_value_range (const_tree, + gimple * = NULL) = 0; + virtual ~range_query () { } +}; + // Class to simplify a statement using range information. // // The constructor takes a full vr_values, but all it needs is // get_value_range() from it. This class could be made to work with // any range repository. -class simplify_using_ranges +class simplify_using_ranges : public range_query { public: - simplify_using_ranges (class vr_values *); + simplify_using_ranges (class range_query *); ~simplify_using_ranges (); bool simplify (gimple_stmt_iterator *); @@ -44,7 +54,7 @@ public: private: const value_range_equiv *get_value_range (const_tree op, - gimple *stmt = NULL); + gimple *stmt = NULL) OVERRIDE; bool simplify_truth_ops_using_ranges (gimple_stmt_iterator *, gimple *); bool simplify_div_or_mod_using_ranges (gimple_stmt_iterator *, gimple *); bool simplify_abs_using_ranges (gimple_stmt_iterator *, gimple *); @@ -79,7 +89,7 @@ private: vec to_remove_edges; vec to_update_switch_stmts; - class vr_values *store; + class range_query *store; }; /* The VR_VALUES class holds the current view of range information @@ -96,7 +106,7 @@ private: gets attached to an SSA_NAME. It's unclear how useful that global information will be in a world where we can compute context sensitive range information fast or perform on-demand queries. */ -class vr_values +class vr_values : public range_query { public: vr_values (void); @@ -177,4 +187,7 @@ extern tree get_output_for_vrp (gimple *); // FIXME: Move this to tree-vrp.c. void simplify_cond_using_ranges_2 (class vr_values *, gcond *); +extern bool bounds_of_var_in_loop (tree *min, tree *max, range_query *, + class loop *loop, gimple *stmt, tree var); + #endif /* GCC_VR_VALUES_H */