-/* Copyright (C) 1998 - 2000 by Universitaet Karlsruhe
-** All rights reserved.
-**
-** Authors: Christian Schaefer, Goetz Lindenmaier
-**
-** iropt --- optimizations intertwined with IR construction.
-*/
+/*
+ * Project: libFIRM
+ * File name: ir/ir/iropt.c
+ * Purpose: iropt --- optimizations intertwined with IR construction.
+ * Author: Christian Schaefer
+ * Modified by: Goetz Lindenmaier, Michael Beck
+ * Created:
+ * CVS-ID: $Id$
+ * Copyright: (c) 1998-2005 Universität Karlsruhe
+ * Licence: This file protected by GPL - GNU GENERAL PUBLIC LICENSE.
+ */
-/* $Id$ */
+#ifdef HAVE_CONFIG_H
+# include "config.h"
+#endif
+
+#ifdef HAVE_ALLOCA_H
+#include <alloca.h>
+#endif
+#ifdef HAVE_MALLOC_H
+#include <malloc.h>
+#endif
+#ifdef HAVE_STRING_H
+#include <string.h>
+#endif
+
+#include "irnode_t.h"
+#include "irgraph_t.h"
+#include "iredges_t.h"
+#include "irmode_t.h"
+#include "iropt_t.h"
+#include "ircons_t.h"
+#include "irgmod.h"
+#include "irvrfy.h"
+#include "tv_t.h"
+#include "dbginfo_t.h"
+#include "iropt_dbg.h"
+#include "irflag_t.h"
+#include "irhooks.h"
+#include "irarch.h"
+#include "hashptr.h"
+#include "archop.h"
+#include "opt_polymorphy.h"
+#include "opt_confirms.h"
+
+/* Make types visible to allow most efficient access */
+# include "entity_t.h"
+
+/**
+ * return the value of a Constant
+ */
+static tarval *computed_value_Const(ir_node *n)
+{
+ return get_Const_tarval(n);
+}
+
+/**
+ * return the value of a 'sizeof' SymConst
+ */
+static tarval *computed_value_SymConst(ir_node *n)
+{
+ ir_type *type;
+
+ switch (get_SymConst_kind(n)) {
+ case symconst_type_size:
+ type = get_SymConst_type(n);
+ if (get_type_state(type) == layout_fixed)
+ return new_tarval_from_long(get_type_size_bytes(type), get_irn_mode(n));
+ break;
+ case symconst_type_align:
+ type = get_SymConst_type(n);
+ if (get_type_state(type) == layout_fixed)
+ return new_tarval_from_long(get_type_alignment_bytes(type), get_irn_mode(n));
+ break;
+ default:
+ break;
+ }
+ return tarval_bad;
+}
+
+/**
+ * return the value of an Add
+ */
+static tarval *computed_value_Add(ir_node *n)
+{
+ ir_node *a = get_Add_left(n);
+ ir_node *b = get_Add_right(n);
+
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ if ((ta != tarval_bad) && (tb != tarval_bad) && (get_irn_mode(a) == get_irn_mode(b)))
+ return tarval_add(ta, tb);
+
+ return tarval_bad;
+}
+
+/**
+ * return the value of a Sub
+ * Special case: a - a
+ */
+static tarval *computed_value_Sub(ir_node *n)
+{
+ ir_node *a = get_Sub_left(n);
+ ir_node *b = get_Sub_right(n);
+ tarval *ta;
+ tarval *tb;
+
+ /* a - a */
+ if (a == b && !is_Bad(a))
+ return get_mode_null(get_irn_mode(n));
+
+ ta = value_of(a);
+ tb = value_of(b);
+
+ if ((ta != tarval_bad) && (tb != tarval_bad) && (get_irn_mode(a) == get_irn_mode(b)))
+ return tarval_sub(ta, tb);
+
+ return tarval_bad;
+}
+
+/**
+ * return the value of a Carry
+ * Special : a op 0, 0 op b
+ */
+static tarval *computed_value_Carry(ir_node *n)
+{
+ ir_node *a = get_binop_left(n);
+ ir_node *b = get_binop_right(n);
+ ir_mode *m = get_irn_mode(n);
+
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ if ((ta != tarval_bad) && (tb != tarval_bad)) {
+ tarval_add(ta, tb);
+ return tarval_carry() ? get_mode_one(m) : get_mode_null(m);
+ } else {
+ if ( (classify_tarval(ta) == TV_CLASSIFY_NULL)
+ || (classify_tarval(tb) == TV_CLASSIFY_NULL))
+ return get_mode_null(m);
+ }
+ return tarval_bad;
+}
+
+/**
+ * return the value of a Borrow
+ * Special : a op 0
+ */
+static tarval *computed_value_Borrow(ir_node *n)
+{
+ ir_node *a = get_binop_left(n);
+ ir_node *b = get_binop_right(n);
+ ir_mode *m = get_irn_mode(n);
+
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ if ((ta != tarval_bad) && (tb != tarval_bad)) {
+ return tarval_cmp(ta, tb) == pn_Cmp_Lt ? get_mode_one(m) : get_mode_null(m);
+ } else if (classify_tarval(ta) == TV_CLASSIFY_NULL) {
+ return get_mode_null(m);
+ }
+ return tarval_bad;
+}
+
+/**
+ * return the value of an unary Minus
+ */
+static tarval *computed_value_Minus(ir_node *n)
+{
+ ir_node *a = get_Minus_op(n);
+ tarval *ta = value_of(a);
+
+ if ((ta != tarval_bad) && mode_is_signed(get_irn_mode(a)))
+ return tarval_neg(ta);
+
+ return tarval_bad;
+}
+
+/**
+ * return the value of a Mul
+ */
+static tarval *computed_value_Mul(ir_node *n)
+{
+ ir_node *a = get_Mul_left(n);
+ ir_node *b = get_Mul_right(n);
+
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ if ((ta != tarval_bad) && (tb != tarval_bad) && (get_irn_mode(a) == get_irn_mode(b))) {
+ return tarval_mul(ta, tb);
+ } else {
+ /* a*0 = 0 or 0*b = 0:
+ calls computed_value recursive and returns the 0 with proper
+ mode. */
+ if ((ta != tarval_bad) && (ta == get_mode_null(get_tarval_mode(ta))))
+ return ta;
+ if ((tb != tarval_bad) && (tb == get_mode_null(get_tarval_mode(tb))))
+ return tb;
+ }
+ return tarval_bad;
+}
+
+/**
+ * return the value of a floating point Quot
+ */
+static tarval *computed_value_Quot(ir_node *n)
+{
+ ir_node *a = get_Quot_left(n);
+ ir_node *b = get_Quot_right(n);
+
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ /* This was missing in original implementation. Why? */
+ if ((ta != tarval_bad) && (tb != tarval_bad) && (get_irn_mode(a) == get_irn_mode(b))) {
+ if (tb != get_mode_null(get_tarval_mode(tb))) /* div by zero: return tarval_bad */
+ return tarval_quo(ta, tb);
+ }
+ return tarval_bad;
+}
+
+/**
+ * calculate the value of an integer Div of two nodes
+ * Special case: 0 / b
+ */
+static tarval *do_computed_value_Div(ir_node *a, ir_node *b)
+{
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ /* Compute c1 / c2 or 0 / a, a != 0 */
+ if (ta != tarval_bad) {
+ if ((tb != tarval_bad) && (tb != get_mode_null(get_irn_mode(b)))) /* div by zero: return tarval_bad */
+ return tarval_div(ta, tb);
+ else if (ta == get_mode_null(get_tarval_mode(ta))) /* 0 / b == 0 */
+ return ta;
+ }
+ return tarval_bad;
+}
+
+/**
+ * return the value of an integer Div
+ */
+static tarval *computed_value_Div(ir_node *n)
+{
+ return do_computed_value_Div(get_Div_left(n), get_Div_right(n));
+}
+
+/**
+ * calculate the value of an integer Mod of two nodes
+ * Special case: a % 1
+ */
+static tarval *do_computed_value_Mod(ir_node *a, ir_node *b)
+{
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ /* Compute c1 % c2 or a % 1 */
+ if (tb != tarval_bad) {
+ if ((ta != tarval_bad) && (tb != get_mode_null(get_tarval_mode(tb)))) /* div by zero: return tarval_bad */
+ return tarval_mod(ta, tb);
+ else if (tb == get_mode_one(get_tarval_mode(tb))) /* x mod 1 == 0 */
+ return get_mode_null(get_irn_mode(a));
+ }
+
+ return tarval_bad;
+}
+
+/**
+ * return the value of an integer Mod
+ */
+static tarval *computed_value_Mod(ir_node *n)
+{
+ return do_computed_value_Mod(get_Mod_left(n), get_Mod_right(n));
+}
+
+/**
+ * return the value of an Abs
+ */
+static tarval *computed_value_Abs(ir_node *n)
+{
+ ir_node *a = get_Abs_op(n);
+ tarval *ta = value_of(a);
+
+ if (ta != tarval_bad)
+ return tarval_abs(ta);
+
+ return tarval_bad;
+}
+
+/**
+ * return the value of an And
+ * Special case: a & 0, 0 & b
+ */
+static tarval *computed_value_And(ir_node *n)
+{
+ ir_node *a = get_And_left(n);
+ ir_node *b = get_And_right(n);
+
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ if ((ta != tarval_bad) && (tb != tarval_bad)) {
+ return tarval_and (ta, tb);
+ } else {
+ tarval *v;
+
+ if ( (classify_tarval ((v = ta)) == TV_CLASSIFY_NULL)
+ || (classify_tarval ((v = tb)) == TV_CLASSIFY_NULL)) {
+ return v;
+ }
+ }
+ return tarval_bad;
+}
+
+/**
+ * return the value of an Or
+ * Special case: a | 1...1, 1...1 | b
+ */
+static tarval *computed_value_Or(ir_node *n)
+{
+ ir_node *a = get_Or_left(n);
+ ir_node *b = get_Or_right(n);
+
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ if ((ta != tarval_bad) && (tb != tarval_bad)) {
+ return tarval_or (ta, tb);
+ } else {
+ tarval *v;
+ if ( (classify_tarval ((v = ta)) == TV_CLASSIFY_ALL_ONE)
+ || (classify_tarval ((v = tb)) == TV_CLASSIFY_ALL_ONE)) {
+ return v;
+ }
+ }
+ return tarval_bad;
+}
+
+/**
+ * return the value of an Eor
+ */
+static tarval *computed_value_Eor(ir_node *n)
+{
+ ir_node *a = get_Eor_left(n);
+ ir_node *b = get_Eor_right(n);
+
+ tarval *ta, *tb;
+
+ if (a == b)
+ return get_mode_null(get_irn_mode(n));
+
+ ta = value_of(a);
+ tb = value_of(b);
+
+ if ((ta != tarval_bad) && (tb != tarval_bad)) {
+ return tarval_eor (ta, tb);
+ }
+ return tarval_bad;
+}
+
+/**
+ * return the value of a Not
+ */
+static tarval *computed_value_Not(ir_node *n)
+{
+ ir_node *a = get_Not_op(n);
+ tarval *ta = value_of(a);
+
+ if (ta != tarval_bad)
+ return tarval_not(ta);
+
+ return tarval_bad;
+}
+
+/**
+ * return the value of a Shl
+ */
+static tarval *computed_value_Shl(ir_node *n)
+{
+ ir_node *a = get_Shl_left(n);
+ ir_node *b = get_Shl_right(n);
+
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ if ((ta != tarval_bad) && (tb != tarval_bad)) {
+ return tarval_shl (ta, tb);
+ }
+ return tarval_bad;
+}
+
+/**
+ * return the value of a Shr
+ */
+static tarval *computed_value_Shr(ir_node *n)
+{
+ ir_node *a = get_Shr_left(n);
+ ir_node *b = get_Shr_right(n);
+
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ if ((ta != tarval_bad) && (tb != tarval_bad)) {
+ return tarval_shr (ta, tb);
+ }
+ return tarval_bad;
+}
+
+/**
+ * return the value of a Shrs
+ */
+static tarval *computed_value_Shrs(ir_node *n)
+{
+ ir_node *a = get_Shrs_left(n);
+ ir_node *b = get_Shrs_right(n);
+
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ if ((ta != tarval_bad) && (tb != tarval_bad)) {
+ return tarval_shrs (ta, tb);
+ }
+ return tarval_bad;
+}
+
+/**
+ * return the value of a Rot
+ */
+static tarval *computed_value_Rot(ir_node *n)
+{
+ ir_node *a = get_Rot_left(n);
+ ir_node *b = get_Rot_right(n);
+
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ if ((ta != tarval_bad) && (tb != tarval_bad)) {
+ return tarval_rot (ta, tb);
+ }
+ return tarval_bad;
+}
+
+/**
+ * return the value of a Conv
+ */
+static tarval *computed_value_Conv(ir_node *n)
+{
+ ir_node *a = get_Conv_op(n);
+ tarval *ta = value_of(a);
+
+ if (ta != tarval_bad)
+ return tarval_convert_to(ta, get_irn_mode(n));
+
+ return tarval_bad;
+}
+
+/**
+ * return the value of a Proj(Cmp)
+ *
+ * This performs a first step of unreachable code elimination.
+ * Proj can not be computed, but folding a Cmp above the Proj here is
+ * not as wasteful as folding a Cmp into a Tuple of 16 Consts of which
+ * only 1 is used.
+ * There are several case where we can evaluate a Cmp node, see later.
+ */
+static tarval *computed_value_Proj_Cmp(ir_node *n)
+{
+ ir_node *a = get_Proj_pred(n);
+ ir_node *aa = get_Cmp_left(a);
+ ir_node *ab = get_Cmp_right(a);
+ long proj_nr = get_Proj_proj(n);
+
+ /*
+ * BEWARE: a == a is NOT always True for floating Point values, as
+ * NaN != NaN is defined, so we must check this here.
+ */
+ if (aa == ab && (
+ !mode_is_float(get_irn_mode(aa)) || proj_nr == pn_Cmp_Lt || proj_nr == pn_Cmp_Gt)
+ ) { /* 1.: */
+
+ /* This is a trick with the bits used for encoding the Cmp
+ Proj numbers, the following statement is not the same:
+ return new_tarval_from_long (proj_nr == pn_Cmp_Eq, mode_b) */
+ return new_tarval_from_long (proj_nr & pn_Cmp_Eq, mode_b);
+ }
+ else {
+ tarval *taa = value_of(aa);
+ tarval *tab = value_of(ab);
+ ir_mode *mode = get_irn_mode(aa);
+
+ /*
+ * The predecessors of Cmp are target values. We can evaluate
+ * the Cmp.
+ */
+ if ((taa != tarval_bad) && (tab != tarval_bad)) {
+ /* strange checks... */
+ pn_Cmp flags = tarval_cmp(taa, tab);
+ if (flags != pn_Cmp_False) {
+ return new_tarval_from_long (proj_nr & flags, mode_b);
+ }
+ }
+ /* for integer values, we can check against MIN/MAX */
+ else if (mode_is_int(mode)) {
+ /* MIN <=/> x. This results in true/false. */
+ if (taa == get_mode_min(mode)) {
+ /* a compare with the MIN value */
+ if (proj_nr == pn_Cmp_Le)
+ return get_tarval_b_true();
+ else if (proj_nr == pn_Cmp_Gt)
+ return get_tarval_b_false();
+ }
+ /* x >=/< MIN. This results in true/false. */
+ else
+ if (tab == get_mode_min(mode)) {
+ /* a compare with the MIN value */
+ if (proj_nr == pn_Cmp_Ge)
+ return get_tarval_b_true();
+ else if (proj_nr == pn_Cmp_Lt)
+ return get_tarval_b_false();
+ }
+ /* MAX >=/< x. This results in true/false. */
+ else if (taa == get_mode_max(mode)) {
+ if (proj_nr == pn_Cmp_Ge)
+ return get_tarval_b_true();
+ else if (proj_nr == pn_Cmp_Lt)
+ return get_tarval_b_false();
+ }
+ /* x <=/> MAX. This results in true/false. */
+ else if (tab == get_mode_max(mode)) {
+ if (proj_nr == pn_Cmp_Le)
+ return get_tarval_b_true();
+ else if (proj_nr == pn_Cmp_Gt)
+ return get_tarval_b_false();
+ }
+ }
+ /*
+ * The predecessors are Allocs or (void*)(0) constants. Allocs never
+ * return NULL, they raise an exception. Therefore we can predict
+ * the Cmp result.
+ */
+ else {
+ ir_node *aaa = skip_Id(skip_Proj(aa));
+ ir_node *aba = skip_Id(skip_Proj(ab));
+
+ if ( ( (/* aa is ProjP and aaa is Alloc */
+ (get_irn_op(aa) == op_Proj)
+ && (mode_is_reference(get_irn_mode(aa)))
+ && (get_irn_op(aaa) == op_Alloc))
+ && ( (/* ab is NULL */
+ (get_irn_op(ab) == op_Const)
+ && (mode_is_reference(get_irn_mode(ab)))
+ && (get_Const_tarval(ab) == get_mode_null(get_irn_mode(ab))))
+ || (/* ab is other Alloc */
+ (get_irn_op(ab) == op_Proj)
+ && (mode_is_reference(get_irn_mode(ab)))
+ && (get_irn_op(aba) == op_Alloc)
+ && (aaa != aba))))
+ || (/* aa is NULL and aba is Alloc */
+ (get_irn_op(aa) == op_Const)
+ && (mode_is_reference(get_irn_mode(aa)))
+ && (get_Const_tarval(aa) == get_mode_null(get_irn_mode(aa)))
+ && (get_irn_op(ab) == op_Proj)
+ && (mode_is_reference(get_irn_mode(ab)))
+ && (get_irn_op(aba) == op_Alloc)))
+ /* 3.: */
+ return new_tarval_from_long(proj_nr & pn_Cmp_Ne, mode_b);
+ }
+ }
+ return computed_value_Cmp_Confirm(a, aa, ab, proj_nr);
+}
+
+/**
+ * return the value of a Proj, handle Proj(Cmp), Proj(Div), Proj(Mod), Proj(DivMod)
+ */
+static tarval *computed_value_Proj(ir_node *n)
+{
+ ir_node *a = get_Proj_pred(n);
+ long proj_nr;
+
+ switch (get_irn_opcode(a)) {
+ case iro_Cmp:
+ return computed_value_Proj_Cmp(n);
+
+ case iro_DivMod:
+ /* compute either the Div or the Mod part */
+ proj_nr = get_Proj_proj(n);
+ if (proj_nr == pn_DivMod_res_div)
+ return do_computed_value_Div(get_DivMod_left(a), get_DivMod_right(a));
+ else if (proj_nr == pn_DivMod_res_mod)
+ return do_computed_value_Mod(get_DivMod_left(a), get_DivMod_right(a));
+ break;
+
+ case iro_Div:
+ if (get_Proj_proj(n) == pn_Div_res)
+ return computed_value(a);
+ break;
+
+ case iro_Mod:
+ if (get_Proj_proj(n) == pn_Mod_res)
+ return computed_value(a);
+ break;
+
+ default:
+ return tarval_bad;
+ }
+ return tarval_bad;
+}
+
+/**
+ * calculate the value of a Mux: can be evaluated, if the
+ * sel and the right input are known
+ */
+static tarval *computed_value_Mux(ir_node *n)
+{
+ ir_node *sel = get_Mux_sel(n);
+ tarval *ts = value_of(sel);
+
+ if (ts == get_tarval_b_true()) {
+ ir_node *v = get_Mux_true(n);
+ return value_of(v);
+ }
+ else if (ts == get_tarval_b_false()) {
+ ir_node *v = get_Mux_false(n);
+ return value_of(v);
+ }
+ return tarval_bad;
+}
+
+/**
+ * Calculate the value of a Psi: can be evaluated, if a condition is true
+ * and all previous conditions are false. If all conditions are false
+ * we evaluate to the default one.
+ */
+static tarval *computed_value_Psi(ir_node *n)
+{
+ if (is_Mux(n))
+ return computed_value_Mux(n);
+ return tarval_bad;
+}
+
+/**
+ * calculate the value of a Confirm: can be evaluated,
+ * if it has the form Confirm(x, '=', Const).
+ */
+static tarval *computed_value_Confirm(ir_node *n)
+{
+ return get_Confirm_cmp(n) == pn_Cmp_Eq ?
+ value_of(get_Confirm_bound(n)) : tarval_bad;
+}
+
+/**
+ * If the parameter n can be computed, return its value, else tarval_bad.
+ * Performs constant folding.
+ *
+ * @param n The node this should be evaluated
+ */
+tarval *computed_value(ir_node *n)
+{
+ if (n->op->ops.computed_value)
+ return n->op->ops.computed_value(n);
+ return tarval_bad;
+}
+
+/**
+ * set the default computed_value evaluator in an ir_op_ops.
+ *
+ * @param code the opcode for the default operation
+ * @param ops the operations initialized
+ *
+ * @return
+ * The operations.
+ */
+static ir_op_ops *firm_set_default_computed_value(opcode code, ir_op_ops *ops)
+{
+#define CASE(a) \
+ case iro_##a: \
+ ops->computed_value = computed_value_##a; \
+ break
+
+ switch (code) {
+ CASE(Const);
+ CASE(SymConst);
+ CASE(Add);
+ CASE(Sub);
+ CASE(Minus);
+ CASE(Mul);
+ CASE(Quot);
+ CASE(Div);
+ CASE(Mod);
+ CASE(Abs);
+ CASE(And);
+ CASE(Or);
+ CASE(Eor);
+ CASE(Not);
+ CASE(Shl);
+ CASE(Shr);
+ CASE(Shrs);
+ CASE(Rot);
+ CASE(Carry);
+ CASE(Borrow);
+ CASE(Conv);
+ CASE(Proj);
+ CASE(Mux);
+ CASE(Psi);
+ CASE(Confirm);
+ default:
+ /* leave NULL */;
+ }
+
+ return ops;
+#undef CASE
+}
+
+/**
+ * Returns a equivalent block for another block.
+ * If the block has only one predecessor, this is
+ * the equivalent one. If the only predecessor of a block is
+ * the block itself, this is a dead block.
+ *
+ * If both predecessors of a block are the branches of a binary
+ * Cond, the equivalent block is Cond's block.
+ *
+ * If all predecessors of a block are bad or lies in a dead
+ * block, the current block is dead as well.
+ *
+ * Note, that blocks are NEVER turned into Bad's, instead
+ * the dead_block flag is set. So, never test for is_Bad(block),
+ * always use is_dead_Block(block).
+ */
+static ir_node *equivalent_node_Block(ir_node *n)
+{
+ ir_node *oldn = n;
+ int n_preds = get_Block_n_cfgpreds(n);
+
+ /* The Block constructor does not call optimize, but mature_immBlock
+ calls the optimization. */
+ assert(get_Block_matured(n));
+
+ /* Straightening: a single entry Block following a single exit Block
+ can be merged, if it is not the Start block. */
+ /* !!! Beware, all Phi-nodes of n must have been optimized away.
+ This should be true, as the block is matured before optimize is called.
+ But what about Phi-cycles with the Phi0/Id that could not be resolved?
+ Remaining Phi nodes are just Ids. */
+ if ((n_preds == 1) && (get_irn_op(get_Block_cfgpred(n, 0)) == op_Jmp)) {
+ ir_node *predblock = get_nodes_block(get_Block_cfgpred(n, 0));
+ if (predblock == oldn) {
+ /* Jmp jumps into the block it is in -- deal self cycle. */
+ n = set_Block_dead(n);
+ DBG_OPT_DEAD_BLOCK(oldn, n);
+ } else if (get_opt_control_flow_straightening()) {
+ n = predblock;
+ DBG_OPT_STG(oldn, n);
+ }
+ }
+ else if ((n_preds == 1) &&
+ (get_irn_op(skip_Proj(get_Block_cfgpred(n, 0))) == op_Cond)) {
+ ir_node *predblock = get_Block_cfgpred_block(n, 0);
+ if (predblock == oldn) {
+ /* Jmp jumps into the block it is in -- deal self cycle. */
+ n = set_Block_dead(n);
+ DBG_OPT_DEAD_BLOCK(oldn, n);
+ }
+ }
+ else if ((n_preds == 2) &&
+ (get_opt_control_flow_weak_simplification())) {
+ /* Test whether Cond jumps twice to this block
+ * The more general case which more than 2 predecessors is handles
+ * in optimize_cf(), we handle only this special case for speed here.
+ */
+ ir_node *a = get_Block_cfgpred(n, 0);
+ ir_node *b = get_Block_cfgpred(n, 1);
+
+ if ((get_irn_op(a) == op_Proj) &&
+ (get_irn_op(b) == op_Proj) &&
+ (get_Proj_pred(a) == get_Proj_pred(b)) &&
+ (get_irn_op(get_Proj_pred(a)) == op_Cond) &&
+ (get_irn_mode(get_Cond_selector(get_Proj_pred(a))) == mode_b)) {
+ /* Also a single entry Block following a single exit Block. Phis have
+ twice the same operand and will be optimized away. */
+ n = get_nodes_block(get_Proj_pred(a));
+ DBG_OPT_IFSIM1(oldn, a, b, n);
+ }
+ }
+ else if (get_opt_unreachable_code() &&
+ (n != get_irg_start_block(current_ir_graph)) &&
+ (n != get_irg_end_block(current_ir_graph)) ) {
+ int i;
+
+ /* If all inputs are dead, this block is dead too, except if it is
+ the start or end block. This is one step of unreachable code
+ elimination */
+ for (i = get_Block_n_cfgpreds(n) - 1; i >= 0; --i) {
+ ir_node *pred = get_Block_cfgpred(n, i);
+ ir_node *pred_blk;
+
+ if (is_Bad(pred)) continue;
+ pred_blk = get_nodes_block(skip_Proj(pred));
+
+ if (is_Block_dead(pred_blk)) continue;
+
+ if (pred_blk != n) {
+ /* really found a living input */
+ break;
+ }
+ }
+ if (i < 0) {
+ n = set_Block_dead(n);
+ DBG_OPT_DEAD_BLOCK(oldn, n);
+ }
+ }
+
+ return n;
+}
+
+/**
+ * Returns a equivalent node for a Jmp, a Bad :-)
+ * Of course this only happens if the Block of the Jmp is dead.
+ */
+static ir_node *equivalent_node_Jmp(ir_node *n)
+{
+ /* unreachable code elimination */
+ if (is_Block_dead(get_nodes_block(n)))
+ n = new_Bad();
+
+ return n;
+}
+
+/** Raise is handled in the same way as Jmp. */
+#define equivalent_node_Raise equivalent_node_Jmp
+
+
+/* We do not evaluate Cond here as we replace it by a new node, a Jmp.
+ See transform_node_Proj_Cond(). */
+
+/**
+ * optimize operations that are commutative and have neutral 0,
+ * so a op 0 = 0 op a = a.
+ */
+static ir_node *equivalent_node_neutral_zero(ir_node *n)
+{
+ ir_node *oldn = n;
+
+ ir_node *a = get_binop_left(n);
+ ir_node *b = get_binop_right(n);
+
+ tarval *tv;
+ ir_node *on;
+
+ /* After running compute_node there is only one constant predecessor.
+ Find this predecessors value and remember the other node: */
+ if ((tv = value_of(a)) != tarval_bad) {
+ on = b;
+ } else if ((tv = value_of(b)) != tarval_bad) {
+ on = a;
+ } else
+ return n;
+
+ /* If this predecessors constant value is zero, the operation is
+ * unnecessary. Remove it.
+ *
+ * Beware: If n is a Add, the mode of on and n might be different
+ * which happens in this rare construction: NULL + 3.
+ * Then, a Conv would be needed which we cannot include here.
+ */
+ if (classify_tarval (tv) == TV_CLASSIFY_NULL) {
+ if (get_irn_mode(on) == get_irn_mode(n)) {
+ n = on;
+
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_NEUTRAL_0);
+ }
+ }
+
+ return n;
+}
+
+/**
+ * Eor is commutative and has neutral 0.
+ */
+#define equivalent_node_Eor equivalent_node_neutral_zero
+
+/*
+ * Optimize a - 0 and (a - x) + x (for modes with wrap-around).
+ *
+ * The second one looks strange, but this construct
+ * is used heavily in the LCC sources :-).
+ *
+ * Beware: The Mode of an Add may be different than the mode of its
+ * predecessors, so we could not return a predecessors in all cases.
+ */
+static ir_node *equivalent_node_Add(ir_node *n)
+{
+ ir_node *oldn = n;
+ ir_node *left, *right;
+
+ n = equivalent_node_neutral_zero(n);
+ if (n != oldn)
+ return n;
+
+ left = get_Add_left(n);
+ right = get_Add_right(n);
+
+ if (get_irn_op(left) == op_Sub) {
+ if (get_Sub_right(left) == right) {
+ /* (a - x) + x */
+
+ n = get_Sub_left(left);
+ if (get_irn_mode(oldn) == get_irn_mode(n)) {
+ DBG_OPT_ALGSIM1(oldn, left, right, n, FS_OPT_ADD_SUB);
+ return n;
+ }
+ }
+ }
+ if (get_irn_op(right) == op_Sub) {
+ if (get_Sub_right(right) == left) {
+ /* x + (a - x) */
+
+ n = get_Sub_left(right);
+ if (get_irn_mode(oldn) == get_irn_mode(n)) {
+ DBG_OPT_ALGSIM1(oldn, left, right, n, FS_OPT_ADD_SUB);
+ return n;
+ }
+ }
+ }
+ return n;
+}
+
+/**
+ * optimize operations that are not commutative but have neutral 0 on left,
+ * so a op 0 = a.
+ */
+static ir_node *equivalent_node_left_zero(ir_node *n)
+{
+ ir_node *oldn = n;
+
+ ir_node *a = get_binop_left(n);
+ ir_node *b = get_binop_right(n);
+
+ if (classify_tarval(value_of(b)) == TV_CLASSIFY_NULL) {
+ n = a;
+
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_NEUTRAL_0);
+ }
+
+ return n;
+}
+
+#define equivalent_node_Shl equivalent_node_left_zero
+#define equivalent_node_Shr equivalent_node_left_zero
+#define equivalent_node_Shrs equivalent_node_left_zero
+#define equivalent_node_Rot equivalent_node_left_zero
+
+/**
+ * Optimize a - 0 and (a + x) - x (for modes with wrap-around).
+ *
+ * The second one looks strange, but this construct
+ * is used heavily in the LCC sources :-).
+ *
+ * Beware: The Mode of a Sub may be different than the mode of its
+ * predecessors, so we could not return a predecessors in all cases.
+ */
+static ir_node *equivalent_node_Sub(ir_node *n)
+{
+ ir_node *oldn = n;
+
+ ir_node *a = get_Sub_left(n);
+ ir_node *b = get_Sub_right(n);
+
+ /* Beware: modes might be different */
+ if (classify_tarval(value_of(b)) == TV_CLASSIFY_NULL) {
+ if (get_irn_mode(n) == get_irn_mode(a)) {
+ n = a;
+
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_NEUTRAL_0);
+ }
+ }
+ else if (get_irn_op(a) == op_Add) {
+ ir_mode *mode = get_irn_mode(n);
+
+ if (mode_wrap_around(mode)) {
+ ir_node *left = get_Add_left(a);
+ ir_node *right = get_Add_right(a);
+
+ if (left == b) {
+ if (get_irn_mode(n) == get_irn_mode(right)) {
+ n = right;
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_ADD_SUB);
+ }
+ }
+ else if (right == b) {
+ if (get_irn_mode(n) == get_irn_mode(left)) {
+ n = left;
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_ADD_SUB);
+ }
+ }
+ }
+ }
+
+ return n;
+}
+
+
+/**
+ * Optimize an "idempotent unary op", ie op(op(n)) = n.
+ *
+ * @todo
+ * -(-a) == a, but might overflow two times.
+ * We handle it anyway here but the better way would be a
+ * flag. This would be needed for Pascal for instance.
+ */
+static ir_node *equivalent_node_idempotent_unop(ir_node *n)
+{
+ ir_node *oldn = n;
+ ir_node *pred = get_unop_op(n);
+
+ /* optimize symmetric unop */
+ if (get_irn_op(pred) == get_irn_op(n)) {
+ n = get_unop_op(pred);
+ DBG_OPT_ALGSIM2(oldn, pred, n);
+ }
+ return n;
+}
+
+/** Not(Not(x)) == x */
+#define equivalent_node_Not equivalent_node_idempotent_unop
+
+/** --x == x ??? Is this possible or can --x raise an
+ out of bounds exception if min =! max? */
+#define equivalent_node_Minus equivalent_node_idempotent_unop
+
+/**
+ * Optimize a * 1 = 1 * a = a.
+ */
+static ir_node *equivalent_node_Mul(ir_node *n)
+{
+ ir_node *oldn = n;
+
+ ir_node *a = get_Mul_left(n);
+ ir_node *b = get_Mul_right(n);
+
+ /* Mul is commutative and has again an other neutral element. */
+ if (classify_tarval(value_of(a)) == TV_CLASSIFY_ONE) {
+ n = b;
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_NEUTRAL_1);
+ } else if (classify_tarval(value_of(b)) == TV_CLASSIFY_ONE) {
+ n = a;
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_NEUTRAL_1);
+ }
+ return n;
+}
+
+/**
+ * Optimize a / 1 = a.
+ */
+static ir_node *equivalent_node_Div(ir_node *n)
+{
+ ir_node *a = get_Div_left(n);
+ ir_node *b = get_Div_right(n);
+
+ /* Div is not commutative. */
+ if (classify_tarval(value_of(b)) == TV_CLASSIFY_ONE) { /* div(x, 1) == x */
+ /* Turn Div into a tuple (mem, bad, a) */
+ ir_node *mem = get_Div_mem(n);
+ turn_into_tuple(n, pn_Div_max);
+ set_Tuple_pred(n, pn_Div_M, mem);
+ set_Tuple_pred(n, pn_Div_X_except, new_Bad()); /* no exception */
+ set_Tuple_pred(n, pn_Div_res, a);
+ }
+ return n;
+}
+
+/**
+ * Optimize a / 1 = a.
+ */
+static ir_node *equivalent_node_DivMod(ir_node *n)
+{
+ ir_node *a = get_DivMod_left(n);
+ ir_node *b = get_DivMod_right(n);
+
+ /* Div is not commutative. */
+ if (classify_tarval(value_of(b)) == TV_CLASSIFY_ONE) { /* div(x, 1) == x */
+ /* Turn DivMod into a tuple (mem, bad, a, 0) */
+ ir_node *mem = get_Div_mem(n);
+ ir_mode *mode = get_irn_mode(b);
+
+ turn_into_tuple(n, pn_DivMod_max);
+ set_Tuple_pred(n, pn_DivMod_M, mem);
+ set_Tuple_pred(n, pn_DivMod_X_except, new_Bad()); /* no exception */
+ set_Tuple_pred(n, pn_DivMod_res_div, a);
+ set_Tuple_pred(n, pn_DivMod_res_mod, new_Const(mode, get_mode_null(mode)));
+ }
+ return n;
+}
+
+/**
+ * Use algebraic simplification a | a = a | 0 = 0 | a = a.
+ */
+static ir_node *equivalent_node_Or(ir_node *n)
+{
+ ir_node *oldn = n;
+
+ ir_node *a = get_Or_left(n);
+ ir_node *b = get_Or_right(n);
+
+ if (a == b) {
+ n = a; /* Or has it's own neutral element */
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_OR);
+ } else if (classify_tarval(value_of(a)) == TV_CLASSIFY_NULL) {
+ n = b;
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_OR);
+ } else if (classify_tarval(value_of(b)) == TV_CLASSIFY_NULL) {
+ n = a;
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_OR);
+ }
+
+ return n;
+}
+
+/**
+ * Optimize a & 0b1...1 = 0b1...1 & a = a & a = a.
+ */
+static ir_node *equivalent_node_And(ir_node *n)
+{
+ ir_node *oldn = n;
+
+ ir_node *a = get_And_left(n);
+ ir_node *b = get_And_right(n);
+
+ if (a == b) {
+ n = a; /* And has it's own neutral element */
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_AND);
+ } else if (classify_tarval(value_of(a)) == TV_CLASSIFY_ALL_ONE) {
+ n = b;
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_AND);
+ } else if (classify_tarval(value_of(b)) == TV_CLASSIFY_ALL_ONE) {
+ n = a;
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_AND);
+ }
+ return n;
+}
+
+/**
+ * Try to remove useless Conv's:
+ */
+static ir_node *equivalent_node_Conv(ir_node *n)
+{
+ ir_node *oldn = n;
+ ir_node *a = get_Conv_op(n);
+ ir_node *b;
+
+ ir_mode *n_mode = get_irn_mode(n);
+ ir_mode *a_mode = get_irn_mode(a);
+
+ if (n_mode == a_mode) { /* No Conv necessary */
+ n = a;
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_CONV);
+ } else if (get_irn_op(a) == op_Conv) { /* Conv(Conv(b)) */
+ ir_mode *b_mode;
+
+ b = get_Conv_op(a);
+ n_mode = get_irn_mode(n);
+ b_mode = get_irn_mode(b);
+
+ if (n_mode == b_mode) {
+ if (n_mode == mode_b) {
+ n = b; /* Convb(Conv*(xxxb(...))) == xxxb(...) */
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_CONV);
+ }
+ else if (mode_is_int(n_mode) || mode_is_character(n_mode)) {
+ if (smaller_mode(b_mode, a_mode)){
+ n = b; /* ConvS(ConvL(xxxS(...))) == xxxS(...) */
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_CONV);
+ }
+ }
+ }
+ }
+ return n;
+}
+
+/**
+ * A Cast may be removed if the type of the previous node
+ * is already the type of the Cast.
+ */
+static ir_node *equivalent_node_Cast(ir_node *n) {
+ ir_node *oldn = n;
+ ir_node *pred = get_Cast_op(n);
+
+ if (get_irn_type(pred) == get_Cast_type(n)) {
+ n = pred;
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_CAST);
+ }
+ return n;
+}
+
+/**
+ Several optimizations:
+ - no Phi in start block.
+ - remove Id operators that are inputs to Phi
+ - fold Phi-nodes, iff they have only one predecessor except
+ themselves.
+ */
+static ir_node *equivalent_node_Phi(ir_node *n)
+{
+ int i, n_preds;
+
+ ir_node *oldn = n;
+ ir_node *block = NULL; /* to shutup gcc */
+ ir_node *first_val = NULL; /* to shutup gcc */
+
+ if (!get_opt_normalize()) return n;
+
+ n_preds = get_Phi_n_preds(n);
+
+ block = get_nodes_block(n);
+ /* @@@ fliegt 'raus, sollte aber doch immer wahr sein!!!
+ assert(get_irn_arity(block) == n_preds && "phi in wrong block!"); */
+ if ((is_Block_dead(block)) || /* Control dead */
+ (block == get_irg_start_block(current_ir_graph))) /* There should be no Phi nodes */
+ return new_Bad(); /* in the Start Block. */
+
+ if (n_preds == 0) return n; /* Phi of dead Region without predecessors. */
+
+ /* If the Block has a Bad pred, we also have one. */
+ for (i = 0; i < n_preds; ++i)
+ if (is_Bad(get_Block_cfgpred(block, i)))
+ set_Phi_pred(n, i, new_Bad());
+
+ /* Find first non-self-referencing input */
+ for (i = 0; i < n_preds; ++i) {
+ first_val = get_Phi_pred(n, i);
+ if ( (first_val != n) /* not self pointer */
+#if 1
+ && (! is_Bad(first_val))
+#endif
+ ) { /* value not dead */
+ break; /* then found first value. */
+ }
+ }
+
+ if (i >= n_preds) {
+ /* A totally Bad or self-referencing Phi (we didn't break the above loop) */
+ return new_Bad();
+ }
+
+ /* search for rest of inputs, determine if any of these
+ are non-self-referencing */
+ while (++i < n_preds) {
+ ir_node *scnd_val = get_Phi_pred(n, i);
+ if ( (scnd_val != n)
+ && (scnd_val != first_val)
+#if 1
+ && (! is_Bad(scnd_val))
+#endif
+ ) {
+ break;
+ }
+ }
+
+ if (i >= n_preds) {
+ /* Fold, if no multiple distinct non-self-referencing inputs */
+ n = first_val;
+ DBG_OPT_PHI(oldn, n);
+ }
+ return n;
+}
+
+/**
+ Several optimizations:
+ - no Sync in start block.
+ - fold Sync-nodes, iff they have only one predecessor except
+ themselves.
+ @fixme: are there loop's in Sync's
+ */
+static ir_node *equivalent_node_Sync(ir_node *n)
+{
+ int i, n_preds;
+
+ ir_node *oldn = n;
+ ir_node *first_val = NULL; /* to shutup gcc */
+
+ if (!get_opt_normalize()) return n;
+
+ n_preds = get_Sync_n_preds(n);
+
+ /* Find first non-self-referencing input */
+ for (i = 0; i < n_preds; ++i) {
+ first_val = get_Sync_pred(n, i);
+ if ((first_val != n) /* not self pointer */ &&
+ (! is_Bad(first_val))
+ ) { /* value not dead */
+ break; /* then found first value. */
+ }
+ }
+
+ if (i >= n_preds)
+ /* A totally Bad or self-referencing Sync (we didn't break the above loop) */
+ return new_Bad();
+
+ /* search the rest of inputs, determine if any of these
+ are non-self-referencing */
+ while (++i < n_preds) {
+ ir_node *scnd_val = get_Sync_pred(n, i);
+ if ((scnd_val != n) &&
+ (scnd_val != first_val) &&
+ (! is_Bad(scnd_val))
+ )
+ break;
+ }
+
+ if (i >= n_preds) {
+ /* Fold, if no multiple distinct non-self-referencing inputs */
+ n = first_val;
+ DBG_OPT_SYNC(oldn, n);
+ }
+ return n;
+}
+
+/**
+ * optimize Proj(Tuple) and gigo() for ProjX in Bad block,
+ * ProjX(Load) and ProjX(Store)
+ */
+static ir_node *equivalent_node_Proj(ir_node *n)
+{
+ ir_node *oldn = n;
+
+ ir_node *a = get_Proj_pred(n);
+
+ if ( get_irn_op(a) == op_Tuple) {
+ /* Remove the Tuple/Proj combination. */
+ if ( get_Proj_proj(n) <= get_Tuple_n_preds(a) ) {
+ n = get_Tuple_pred(a, get_Proj_proj(n));
+ DBG_OPT_TUPLE(oldn, a, n);
+ } else {
+ assert(0); /* This should not happen! */
+ n = new_Bad();
+ }
+ }
+ else if (get_irn_mode(n) == mode_X) {
+ if (is_Block_dead(get_nodes_block(skip_Proj(n)))) {
+ /* Remove dead control flow -- early gigo(). */
+ n = new_Bad();
+ }
+ else if (get_opt_ldst_only_null_ptr_exceptions()) {
+ ir_op *op = get_irn_op(a);
+
+ if (op == op_Load || op == op_Store) {
+ /* get the load/store address */
+ ir_node *addr = get_irn_n(a, 1);
+ if (value_not_null(addr)) {
+ /* this node may float if it did not depend on a Confirm */
+ set_irn_pinned(a, op_pin_state_floats);
+ DBG_OPT_EXC_REM(n);
+ return new_Bad();
+ }
+ }
+ }
+ }
+
+ return n;
+}
+
+/**
+ * Remove Id's.
+ */
+static ir_node *equivalent_node_Id(ir_node *n)
+{
+ ir_node *oldn = n;
+
+ do {
+ n = get_Id_pred(n);
+ } while (get_irn_op(n) == op_Id);
+
+ DBG_OPT_ID(oldn, n);
+ return n;
+}
+
+/**
+ * optimize a Mux
+ */
+static ir_node *equivalent_node_Mux(ir_node *n)
+{
+ ir_node *oldn = n, *sel = get_Mux_sel(n);
+ tarval *ts = value_of(sel);
+
+ /* Mux(true, f, t) == t */
+ if (ts == tarval_b_true) {
+ n = get_Mux_true(n);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_MUX_C);
+ }
+ /* Mux(false, f, t) == f */
+ else if (ts == tarval_b_false) {
+ n = get_Mux_false(n);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_MUX_C);
+ }
+ /* Mux(v, x, x) == x */
+ else if (get_Mux_false(n) == get_Mux_true(n)) {
+ n = get_Mux_true(n);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_MUX_EQ);
+ }
+ else if (get_irn_op(sel) == op_Proj && !mode_honor_signed_zeros(get_irn_mode(n))) {
+ ir_node *cmp = get_Proj_pred(sel);
+ long proj_nr = get_Proj_proj(sel);
+ ir_node *b = get_Mux_false(n);
+ ir_node *a = get_Mux_true(n);
+
+ /*
+ * Note: normalization puts the constant on the right site,
+ * so we check only one case.
+ *
+ * Note further that these optimization work even for floating point
+ * with NaN's because -NaN == NaN.
+ * However, if +0 and -0 is handled differently, we cannot use the first one.
+ */
+ if (get_irn_op(cmp) == op_Cmp && get_Cmp_left(cmp) == a) {
+ if (classify_Const(get_Cmp_right(cmp)) == CNST_NULL) {
+ /* Mux(a CMP 0, X, a) */
+ if (get_irn_op(b) == op_Minus && get_Minus_op(b) == a) {
+ /* Mux(a CMP 0, -a, a) */
+ if (proj_nr == pn_Cmp_Eq) {
+ /* Mux(a == 0, -a, a) ==> -a */
+ n = b;
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_MUX_TRANSFORM);
+ }
+ else if (proj_nr == pn_Cmp_Lg || proj_nr == pn_Cmp_Ne) {
+ /* Mux(a != 0, -a, a) ==> a */
+ n = a;
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_MUX_TRANSFORM);
+ }
+ }
+ else if (classify_Const(b) == CNST_NULL) {
+ /* Mux(a CMP 0, 0, a) */
+ if (proj_nr == pn_Cmp_Lg || proj_nr == pn_Cmp_Ne) {
+ /* Mux(a != 0, 0, a) ==> a */
+ n = a;
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_MUX_TRANSFORM);
+ }
+ else if (proj_nr == pn_Cmp_Eq) {
+ /* Mux(a == 0, 0, a) ==> 0 */
+ n = b;
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_MUX_TRANSFORM);
+ }
+ }
+ }
+ }
+ }
+ return n;
+}
+
+/**
+ * Returns a equivalent node of a Psi: if a condition is true
+ * and all previous conditions are false we know its value.
+ * If all conditions are false its value is the default one.
+ */
+static ir_node *equivalent_node_Psi(ir_node *n) {
+ if (is_Mux(n))
+ return equivalent_node_Mux(n);
+ return n;
+}
+
+/**
+ * Optimize -a CMP -b into b CMP a.
+ * This works only for for modes where unary Minus
+ * cannot Overflow.
+ * Note that two-complement integers can Overflow
+ * so it will NOT work.
+ */
+static ir_node *equivalent_node_Cmp(ir_node *n)
+{
+ ir_node *left = get_Cmp_left(n);
+ ir_node *right = get_Cmp_right(n);
+
+ if (get_irn_op(left) == op_Minus && get_irn_op(right) == op_Minus &&
+ !mode_overflow_on_unary_Minus(get_irn_mode(left))) {
+ left = get_Minus_op(left);
+ right = get_Minus_op(right);
+ set_Cmp_left(n, right);
+ set_Cmp_right(n, left);
+ }
+ return n;
+}
+
+/**
+ * Remove Confirm nodes if setting is on.
+ * Replace Confirms(x, '=', Constlike) by Constlike.
+ */
+static ir_node *equivalent_node_Confirm(ir_node *n)
+{
+ ir_node *pred = get_Confirm_value(n);
+ pn_Cmp pnc = get_Confirm_cmp(n);
+
+ if (get_irn_op(pred) == op_Confirm && pnc == get_Confirm_cmp(pred)) {
+ /*
+ * rare case: two identical Confirms one after another,
+ * replace the second one with the first.
+ */
+ n = pred;
+ }
+ if (pnc == pn_Cmp_Eq) {
+ ir_node *bound = get_Confirm_bound(n);
+
+ /*
+ * Optimize a rare case:
+ * Confirm(x, '=', Constlike) ==> Constlike
+ */
+ if (is_irn_constlike(bound)) {
+ DBG_OPT_CONFIRM(n, bound);
+ return bound;
+ }
+ }
+ return get_opt_remove_confirm() ? get_Confirm_value(n) : n;
+}
+
+/**
+ * Optimize CopyB(mem, x, x) into a Nop
+ */
+static ir_node *equivalent_node_CopyB(ir_node *n)
+{
+ ir_node *a = get_CopyB_dst(n);
+ ir_node *b = get_CopyB_src(n);
+
+ if (a == b) {
+ /* Turn CopyB into a tuple (mem, bad, bad) */
+ ir_node *mem = get_CopyB_mem(n);
+ turn_into_tuple(n, pn_CopyB_max);
+ set_Tuple_pred(n, pn_CopyB_M, mem);
+ set_Tuple_pred(n, pn_CopyB_X_except, new_Bad()); /* no exception */
+ set_Tuple_pred(n, pn_CopyB_M_except, new_Bad());
+ }
+ return n;
+}
+
+/**
+ * Optimize Bounds(idx, idx, upper) into idx.
+ */
+static ir_node *equivalent_node_Bound(ir_node *n)
+{
+ ir_node *idx = get_Bound_index(n);
+ ir_node *lower = get_Bound_lower(n);
+ int ret_tuple = 0;
+
+ /* By definition lower < upper, so if idx == lower -->
+ lower <= idx && idx < upper */
+ if (idx == lower) {
+ /* Turn Bound into a tuple (mem, bad, idx) */
+ ret_tuple = 1;
+ }
+ else {
+ ir_node *pred = skip_Proj(idx);
+
+ if (get_irn_op(pred) == op_Bound) {
+ /*
+ * idx was Bounds_check previously, it is still valid if
+ * lower <= pred_lower && pred_upper <= upper.
+ */
+ ir_node *upper = get_Bound_upper(n);
+ if (get_Bound_lower(pred) == lower &&
+ get_Bound_upper(pred) == upper) {
+ /*
+ * One could expect that we simply return the previous
+ * Bound here. However, this would be wrong, as we could
+ * add an exception Proj to a new location than.
+ * So, we must turn in into a tuple
+ */
+ ret_tuple = 1;
+ }
+ }
+ }
+ if (ret_tuple) {
+ /* Turn Bound into a tuple (mem, bad, idx) */
+ ir_node *mem = get_Bound_mem(n);
+ turn_into_tuple(n, pn_Bound_max);
+ set_Tuple_pred(n, pn_Bound_M, mem);
+ set_Tuple_pred(n, pn_Bound_X_except, new_Bad()); /* no exception */
+ set_Tuple_pred(n, pn_Bound_res, idx);
+ }
+ return n;
+}
+
+/**
+ * equivalent_node() returns a node equivalent to input n. It skips all nodes that
+ * perform no actual computation, as, e.g., the Id nodes. It does not create
+ * new nodes. It is therefore safe to free n if the node returned is not n.
+ * If a node returns a Tuple we can not just skip it. If the size of the
+ * in array fits, we transform n into a tuple (e.g., Div).
+ */
+ir_node *
+equivalent_node(ir_node *n)
+{
+ if (n->op->ops.equivalent_node)
+ return n->op->ops.equivalent_node(n);
+ return n;
+}
+
+/**
+ * sets the default equivalent node operation for an ir_op_ops.
+ *
+ * @param code the opcode for the default operation
+ * @param ops the operations initialized
+ *
+ * @return
+ * The operations.
+ */
+static ir_op_ops *firm_set_default_equivalent_node(opcode code, ir_op_ops *ops)
+{
+#define CASE(a) \
+ case iro_##a: \
+ ops->equivalent_node = equivalent_node_##a; \
+ break
+
+ switch (code) {
+ CASE(Block);
+ CASE(Jmp);
+ CASE(Raise);
+ CASE(Or);
+ CASE(Add);
+ CASE(Eor);
+ CASE(Sub);
+ CASE(Shl);
+ CASE(Shr);
+ CASE(Shrs);
+ CASE(Rot);
+ CASE(Not);
+ CASE(Minus);
+ CASE(Mul);
+ CASE(Div);
+ CASE(DivMod);
+ CASE(And);
+ CASE(Conv);
+ CASE(Cast);
+ CASE(Phi);
+ CASE(Sync);
+ CASE(Proj);
+ CASE(Id);
+ CASE(Mux);
+ CASE(Psi);
+ CASE(Cmp);
+ CASE(Confirm);
+ CASE(CopyB);
+ CASE(Bound);
+ default:
+ /* leave NULL */;
+ }
+
+ return ops;
+#undef CASE
+}
+
+/**
+ * Do node specific optimizations of nodes predecessors.
+ */
+static void
+optimize_preds(ir_node *n) {
+ ir_node *a = NULL, *b = NULL;
+
+ /* get the operands we will work on for simple cases. */
+ if (is_binop(n)) {
+ a = get_binop_left(n);
+ b = get_binop_right(n);
+ } else if (is_unop(n)) {
+ a = get_unop_op(n);
+ }
+
+ switch (get_irn_opcode(n)) {
+
+ case iro_Cmp:
+ /* We don't want Cast as input to Cmp. */
+ if (get_irn_op(a) == op_Cast) {
+ a = get_Cast_op(a);
+ set_Cmp_left(n, a);
+ }
+ if (get_irn_op(b) == op_Cast) {
+ b = get_Cast_op(b);
+ set_Cmp_right(n, b);
+ }
+ break;
+
+ default: break;
+ } /* end switch */
+}
+
+/**
+ * Returns non-zero if all Phi predecessors are constants
+ */
+static int is_const_Phi(ir_node *phi) {
+ int i;
+
+ for (i = get_irn_arity(phi) - 1; i >= 0; --i)
+ if (! is_Const(get_irn_n(phi, i)))
+ return 0;
+ return 1;
+}
+
+/**
+ * Transform AddP(P, ConvIs(Iu)), AddP(P, ConvIu(Is)) and
+ * SubP(P, ConvIs(Iu)), SubP(P, ConvIu(Is)).
+ * If possible, remove the Conv's.
+ */
+static ir_node *transform_node_AddSub(ir_node *n)
+{
+ ir_mode *mode = get_irn_mode(n);
+
+ if (mode_is_reference(mode)) {
+ ir_node *left = get_binop_left(n);
+ ir_node *right = get_binop_right(n);
+ int ref_bits = get_mode_size_bits(mode);
+
+ if (get_irn_op(left) == op_Conv) {
+ ir_mode *mode = get_irn_mode(left);
+ int bits = get_mode_size_bits(mode);
+
+ if (ref_bits == bits &&
+ mode_is_int(mode) &&
+ get_mode_arithmetic(mode) == irma_twos_complement) {
+ ir_node *pre = get_Conv_op(left);
+ ir_mode *pre_mode = get_irn_mode(pre);
+
+ if (mode_is_int(pre_mode) &&
+ get_mode_size_bits(pre_mode) == bits &&
+ get_mode_arithmetic(pre_mode) == irma_twos_complement) {
+ /* ok, this conv just changes to sign, moreover the calculation
+ * is done with same number of bits as our address mode, so
+ * we can ignore the conv as address calculation can be viewed
+ * as either signed or unsigned
+ */
+ set_binop_left(n, pre);
+ }
+ }
+ }
+
+ if (get_irn_op(right) == op_Conv) {
+ ir_mode *mode = get_irn_mode(right);
+ int bits = get_mode_size_bits(mode);
+
+ if (ref_bits == bits &&
+ mode_is_int(mode) &&
+ get_mode_arithmetic(mode) == irma_twos_complement) {
+ ir_node *pre = get_Conv_op(right);
+ ir_mode *pre_mode = get_irn_mode(pre);
+
+ if (mode_is_int(pre_mode) &&
+ get_mode_size_bits(pre_mode) == bits &&
+ get_mode_arithmetic(pre_mode) == irma_twos_complement) {
+ /* ok, this conv just changes to sign, moreover the calculation
+ * is done with same number of bits as our address mode, so
+ * we can ignore the conv as address calculation can be viewed
+ * as either signed or unsigned
+ */
+ set_binop_right(n, pre);
+ }
+ }
+ }
+ }
+ return n;
+}
+
+/**
+ * Do the AddSub optimization, then Transform
+ * Add(a,a) -> Mul(a, 2)
+ * Add(Mul(a, x), a) -> Mul(a, x+1)
+ * if the mode is integer or float.
+ * Transform Add(a,-b) into Sub(a,b).
+ * Reassociation might fold this further.
+ */
+static ir_node *transform_node_Add(ir_node *n)
+{
+ ir_mode *mode;
+ ir_node *oldn = n;
+
+ n = transform_node_AddSub(n);
+
+ mode = get_irn_mode(n);
+ if (mode_is_num(mode)) {
+ ir_node *a = get_Add_left(n);
+ ir_node *b = get_Add_right(n);
+
+ if (a == b) {
+ ir_node *block = get_irn_n(n, -1);
+
+ n = new_rd_Mul(
+ get_irn_dbg_info(n),
+ current_ir_graph,
+ block,
+ a,
+ new_r_Const_long(current_ir_graph, block, mode, 2),
+ mode);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_ADD_A_A);
+ }
+ else if (get_irn_op(a) == op_Minus) {
+ n = new_rd_Sub(
+ get_irn_dbg_info(n),
+ current_ir_graph,
+ get_irn_n(n, -1),
+ b,
+ get_Minus_op(a),
+ mode);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_ADD_A_MINUS_B);
+ }
+ else if (get_irn_op(b) == op_Minus) {
+ n = new_rd_Sub(
+ get_irn_dbg_info(n),
+ current_ir_graph,
+ get_irn_n(n, -1),
+ a,
+ get_Minus_op(b),
+ mode);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_ADD_A_MINUS_B);
+ }
+ /* do NOT execute this code if reassociation is enabled, it does the inverse! */
+ else if (!get_opt_reassociation() && get_irn_op(a) == op_Mul) {
+ ir_node *ma = get_Mul_left(a);
+ ir_node *mb = get_Mul_right(a);
+
+ if (b == ma) {
+ ir_node *blk = get_irn_n(n, -1);
+ n = new_rd_Mul(
+ get_irn_dbg_info(n), current_ir_graph, blk,
+ ma,
+ new_rd_Add(
+ get_irn_dbg_info(n), current_ir_graph, blk,
+ mb,
+ new_r_Const_long(current_ir_graph, blk, mode, 1),
+ mode),
+ mode);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_ADD_MUL_A_X_A);
+ }
+ else if (b == mb) {
+ ir_node *blk = get_irn_n(n, -1);
+ n = new_rd_Mul(
+ get_irn_dbg_info(n), current_ir_graph, blk,
+ mb,
+ new_rd_Add(
+ get_irn_dbg_info(n), current_ir_graph, blk,
+ ma,
+ new_r_Const_long(current_ir_graph, blk, mode, 1),
+ mode),
+ mode);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_ADD_MUL_A_X_A);
+ }
+ }
+ /* do NOT execute this code if reassociation is enabled, it does the inverse! */
+ else if (!get_opt_reassociation() && get_irn_op(b) == op_Mul) {
+ ir_node *ma = get_Mul_left(b);
+ ir_node *mb = get_Mul_right(b);
+
+ if (a == ma) {
+ ir_node *blk = get_irn_n(n, -1);
+ n = new_rd_Mul(
+ get_irn_dbg_info(n), current_ir_graph, blk,
+ ma,
+ new_rd_Add(
+ get_irn_dbg_info(n), current_ir_graph, blk,
+ mb,
+ new_r_Const_long(current_ir_graph, blk, mode, 1),
+ mode),
+ mode);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_ADD_MUL_A_X_A);
+ }
+ else if (a == mb) {
+ ir_node *blk = get_irn_n(n, -1);
+ n = new_rd_Mul(
+ get_irn_dbg_info(n), current_ir_graph, blk,
+ mb,
+ new_rd_Add(
+ get_irn_dbg_info(n), current_ir_graph, blk,
+ ma,
+ new_r_Const_long(current_ir_graph, blk, mode, 1),
+ mode),
+ mode);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_ADD_MUL_A_X_A);
+ }
+ }
+ }
+ return n;
+}
+
+/**
+ * Do the AddSub optimization, then Transform
+ * Sub(0,a) -> Minus(a)
+ * Sub(Mul(a, x), a) -> Mul(a, x-1)
+ */
+static ir_node *transform_node_Sub(ir_node *n)
+{
+ ir_mode *mode;
+ ir_node *oldn = n;
+ ir_node *a, *b;
+
+ n = transform_node_AddSub(n);
+
+ mode = get_irn_mode(n);
+ a = get_Sub_left(n);
+ b = get_Sub_right(n);
+ if (mode_is_num(mode) && (classify_Const(a) == CNST_NULL)) {
+ n = new_rd_Minus(
+ get_irn_dbg_info(n),
+ current_ir_graph,
+ get_irn_n(n, -1),
+ b,
+ mode);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_SUB_0_A);
+ }
+ /* do NOT execute this code if reassociation is enabled, it does the inverse! */
+ else if (get_opt_reassociation() && get_irn_op(a) == op_Mul) {
+ ir_node *ma = get_Mul_left(a);
+ ir_node *mb = get_Mul_right(a);
+
+ if (ma == b) {
+ ir_node *blk = get_irn_n(n, -1);
+ n = new_rd_Mul(
+ get_irn_dbg_info(n),
+ current_ir_graph, blk,
+ ma,
+ new_rd_Sub(
+ get_irn_dbg_info(n),
+ current_ir_graph, blk,
+ mb,
+ new_r_Const_long(current_ir_graph, blk, mode, 1),
+ mode),
+ mode);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_SUB_MUL_A_X_A);
+ }
+ else if (mb == b) {
+ ir_node *blk = get_irn_n(n, -1);
+ n = new_rd_Mul(
+ get_irn_dbg_info(n),
+ current_ir_graph, blk,
+ mb,
+ new_rd_Sub(
+ get_irn_dbg_info(n),
+ current_ir_graph, blk,
+ ma,
+ new_r_Const_long(current_ir_graph, blk, mode, 1),
+ mode),
+ mode);
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_SUB_MUL_A_X_A);
+ }
+ }
+
+ return n;
+}
+
+/**
+ * Transform Mul(a,-1) into -a.
+ * Do architecture dependent optimizations on Mul nodes
+ */
+static ir_node *transform_node_Mul(ir_node *n) {
+ ir_node *oldn = n;
+ ir_mode *mode = get_irn_mode(n);
+
+ if (mode_is_signed(mode)) {
+ ir_node *r = NULL;
+ ir_node *a = get_Mul_left(n);
+ ir_node *b = get_Mul_right(n);
+
+ if (value_of(a) == get_mode_minus_one(mode))
+ r = b;
+ else if (value_of(b) == get_mode_minus_one(mode))
+ r = a;
+ if (r) {
+ n = new_rd_Minus(get_irn_dbg_info(n), current_ir_graph, get_irn_n(n, -1), r, mode);
+ DBG_OPT_ALGSIM1(oldn, a, b, n, FS_OPT_MUL_MINUS_1);
+ return n;
+ }
+ }
+ return arch_dep_replace_mul_with_shifts(n);
+}
+
+/**
+ * transform a Div Node
+ */
+static ir_node *transform_node_Div(ir_node *n)
+{
+ tarval *tv = value_of(n);
+ ir_node *value = n;
+
+ /* BEWARE: it is NOT possible to optimize a/a to 1, as this may cause a exception */
+
+ if (tv != tarval_bad) {
+ value = new_Const(get_tarval_mode(tv), tv);
+
+ DBG_OPT_CSTEVAL(n, value);
+ }
+ else /* Try architecture dependent optimization */
+ value = arch_dep_replace_div_by_const(n);
+
+ if (value != n) {
+ /* Turn Div into a tuple (mem, bad, value) */
+ ir_node *mem = get_Div_mem(n);
+
+ turn_into_tuple(n, pn_Div_max);
+ set_Tuple_pred(n, pn_Div_M, mem);
+ set_Tuple_pred(n, pn_Div_X_except, new_Bad());
+ set_Tuple_pred(n, pn_Div_res, value);
+ }
+ return n;
+}
+
+/**
+ * transform a Mod node
+ */
+static ir_node *transform_node_Mod(ir_node *n)
+{
+ tarval *tv = value_of(n);
+ ir_node *value = n;
+
+ /* BEWARE: it is NOT possible to optimize a%a to 0, as this may cause a exception */
+
+ if (tv != tarval_bad) {
+ value = new_Const(get_tarval_mode(tv), tv);
+
+ DBG_OPT_CSTEVAL(n, value);
+ }
+ else /* Try architecture dependent optimization */
+ value = arch_dep_replace_mod_by_const(n);
+
+ if (value != n) {
+ /* Turn Mod into a tuple (mem, bad, value) */
+ ir_node *mem = get_Mod_mem(n);
+
+ turn_into_tuple(n, pn_Mod_max);
+ set_Tuple_pred(n, pn_Mod_M, mem);
+ set_Tuple_pred(n, pn_Mod_X_except, new_Bad());
+ set_Tuple_pred(n, pn_Mod_res, value);
+ }
+ return n;
+}
+
+/**
+ * transform a DivMod node
+ */
+static ir_node *transform_node_DivMod(ir_node *n)
+{
+ int evaluated = 0;
+
+ ir_node *a = get_DivMod_left(n);
+ ir_node *b = get_DivMod_right(n);
+ ir_mode *mode = get_irn_mode(a);
+ tarval *ta = value_of(a);
+ tarval *tb = value_of(b);
+
+ if (!(mode_is_int(mode) && mode_is_int(get_irn_mode(b))))
+ return n;
+
+ /* BEWARE: it is NOT possible to optimize a/a to 1, as this may cause a exception */
+
+ if (tb != tarval_bad) {
+ if (tb == get_mode_one(get_tarval_mode(tb))) {
+ b = new_Const (mode, get_mode_null(mode));
+ evaluated = 1;
+
+ DBG_OPT_CSTEVAL(n, b);
+ }
+ else if (ta != tarval_bad) {
+ tarval *resa, *resb;
+ resa = tarval_div (ta, tb);
+ if (resa == tarval_bad) return n; /* Causes exception!!! Model by replacing through
+ Jmp for X result!? */
+ resb = tarval_mod (ta, tb);
+ if (resb == tarval_bad) return n; /* Causes exception! */
+ a = new_Const (mode, resa);
+ b = new_Const (mode, resb);
+ evaluated = 1;
+
+ DBG_OPT_CSTEVAL(n, a);
+ DBG_OPT_CSTEVAL(n, b);
+ }
+ else { /* Try architecture dependent optimization */
+ arch_dep_replace_divmod_by_const(&a, &b, n);
+ evaluated = a != NULL;
+ }
+ } else if (ta == get_mode_null(mode)) {
+ /* 0 / non-Const = 0 */
+ b = a;
+ evaluated = 1;
+ }
+
+ if (evaluated) { /* replace by tuple */
+ ir_node *mem = get_DivMod_mem(n);
+ turn_into_tuple(n, pn_DivMod_max);
+ set_Tuple_pred(n, pn_DivMod_M, mem);
+ set_Tuple_pred(n, pn_DivMod_X_except, new_Bad()); /* no exception */
+ set_Tuple_pred(n, pn_DivMod_res_div, a);
+ set_Tuple_pred(n, pn_DivMod_res_mod, b);
+ }
+
+ return n;
+}
+
+/**
+ * Optimize Abs(x) into x if x is Confirmed >= 0
+ * Optimize Abs(x) into -x if x is Confirmed <= 0
+ */
+static ir_node *transform_node_Abs(ir_node *n)
+{
+ ir_node *oldn = n;
+ ir_node *a = get_Abs_op(n);
+ value_classify sign = classify_value_sign(a);
+
+ if (sign == VALUE_NEGATIVE) {
+ ir_mode *mode = get_irn_mode(n);
+
+ /*
+ * We can replace the Abs by -x here.
+ * We even could add a new Confirm here.
+ *
+ * Note that -x would create a new node, so we could
+ * not run it in the equivalent_node() context.
+ */
+ n = new_rd_Minus(get_irn_dbg_info(n), current_ir_graph,
+ get_irn_n(n, -1), a, mode);
+
+ DBG_OPT_CONFIRM(oldn, n);
+ }
+ else if (sign == VALUE_POSITIVE) {
+ /* n is positive, Abs is not needed */
+ n = a;
+
+ DBG_OPT_CONFIRM(oldn, n);
+ }
+
+ return n;
+}
+
+/**
+ * transform a Cond node
+ */
+static ir_node *transform_node_Cond(ir_node *n)
+{
+ /* Replace the Cond by a Jmp if it branches on a constant
+ condition. */
+ ir_node *jmp;
+ ir_node *a = get_Cond_selector(n);
+ tarval *ta = value_of(a);
+
+ /* we need block info which is not available in floating irgs */
+ if (get_irg_pinned(current_ir_graph) == op_pin_state_floats)
+ return n;
+
+ if ((ta != tarval_bad) &&
+ (get_irn_mode(a) == mode_b) &&
+ (get_opt_unreachable_code())) {
+ /* It's a boolean Cond, branching on a boolean constant.
+ Replace it by a tuple (Bad, Jmp) or (Jmp, Bad) */
+ jmp = new_r_Jmp(current_ir_graph, get_nodes_block(n));
+ turn_into_tuple(n, pn_Cond_max);
+ if (ta == tarval_b_true) {
+ set_Tuple_pred(n, pn_Cond_false, new_Bad());
+ set_Tuple_pred(n, pn_Cond_true, jmp);
+ } else {
+ set_Tuple_pred(n, pn_Cond_false, jmp);
+ set_Tuple_pred(n, pn_Cond_true, new_Bad());
+ }
+ /* We might generate an endless loop, so keep it alive. */
+ add_End_keepalive(get_irg_end(current_ir_graph), get_nodes_block(n));
+ }
+ return n;
+}
+
+/**
+ * Transform an Eor.
+ */
+static ir_node *transform_node_Eor(ir_node *n)
+{
+ ir_node *oldn = n;
+ ir_node *a = get_Eor_left(n);
+ ir_node *b = get_Eor_right(n);
+ ir_mode *mode = get_irn_mode(n);
+
+ if (a == b) {
+ /* a ^ a = 0 */
+ n = new_rd_Const(get_irn_dbg_info(n), current_ir_graph, get_irn_n(n, -1),
+ mode, get_mode_null(mode));
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_EOR_A_A);
+ }
+ else if ((mode == mode_b)
+ && (get_irn_op(a) == op_Proj)
+ && (get_irn_mode(a) == mode_b)
+ && (classify_tarval (value_of(b)) == TV_CLASSIFY_ONE)
+ && (get_irn_op(get_Proj_pred(a)) == op_Cmp)) {
+ /* The Eor negates a Cmp. The Cmp has the negated result anyways! */
+ n = new_r_Proj(current_ir_graph, get_irn_n(n, -1), get_Proj_pred(a),
+ mode_b, get_negated_pnc(get_Proj_proj(a), mode));
+
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_EOR_TO_NOT_BOOL);
+ }
+ else if ((mode == mode_b)
+ && (classify_tarval (value_of(b)) == TV_CLASSIFY_ONE)) {
+ /* The Eor is a Not. Replace it by a Not. */
+ /* ????!!!Extend to bitfield 1111111. */
+ n = new_r_Not(current_ir_graph, get_irn_n(n, -1), a, mode_b);
+
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_EOR_TO_NOT);
+ }
+
+ return n;
+}
+
+/**
+ * Transform a boolean Not.
+ */
+static ir_node *transform_node_Not(ir_node *n)
+{
+ ir_node *oldn = n;
+ ir_node *a = get_Not_op(n);
+
+ if ( (get_irn_mode(n) == mode_b)
+ && (get_irn_op(a) == op_Proj)
+ && (get_irn_mode(a) == mode_b)
+ && (get_irn_op(get_Proj_pred(a)) == op_Cmp)) {
+ /* We negate a Cmp. The Cmp has the negated result anyways! */
+ n = new_r_Proj(current_ir_graph, get_irn_n(n, -1), get_Proj_pred(a),
+ mode_b, get_negated_pnc(get_Proj_proj(a), mode_b));
+ DBG_OPT_ALGSIM0(oldn, n, FS_OPT_NOT_CMP);
+ }
+
+ return n;
+}
+
+/**
+ * Transform a Cast_type(Const) into a new Const_type
+ */
+static ir_node *transform_node_Cast(ir_node *n) {
+ ir_node *oldn = n;
+ ir_node *pred = get_Cast_op(n);
+ ir_type *tp = get_irn_type(n);
+
+ if (get_irn_op(pred) == op_Const && get_Const_type(pred) != tp) {
+ n = new_rd_Const_type(NULL, current_ir_graph, get_irn_n(pred, -1), get_irn_mode(pred),
+ get_Const_tarval(pred), tp);
+ DBG_OPT_CSTEVAL(oldn, n);
+ } else if ((get_irn_op(pred) == op_SymConst) && (get_SymConst_value_type(pred) != tp)) {
+ n = new_rd_SymConst_type(NULL, current_ir_graph, get_irn_n(pred, -1), get_SymConst_symbol(pred),
+ get_SymConst_kind(pred), tp);
+ DBG_OPT_CSTEVAL(oldn, n);
+ }
+
+ return n;
+}
+
+/**
+ * Transform a Proj(Div) with a non-zero value.
+ * Removes the exceptions and routes the memory to the NoMem node.
+ */
+static ir_node *transform_node_Proj_Div(ir_node *proj)
+{
+ ir_node *n = get_Proj_pred(proj);
+ ir_node *b = get_Div_right(n);
+ long proj_nr;
+
+ if (value_not_zero(b)) {
+ /* div(x, y) && y != 0 */
+ proj_nr = get_Proj_proj(proj);
+
+ /* this node may float if it did not depend on a Confirm */
+ set_irn_pinned(n, op_pin_state_floats);
+
+ if (proj_nr == pn_Div_X_except) {
+ /* we found an exception handler, remove it */
+ DBG_OPT_EXC_REM(proj);
+ return new_Bad();
+ }
+ else if (proj_nr == pn_Div_M) {
+ ir_node *res = get_Div_mem(n);
+ /* the memory Proj can only be removed if we divide by a
+ real constant, but the node never produce a new memory */
+ if (value_of(b) != tarval_bad) {
+ /* this is a Div by a const, we can remove the memory edge */
+ set_Div_mem(n, get_irg_no_mem(current_ir_graph));
+ }
+ return res;
+ }
+ }
+ return proj;
+}
+
+/**
+ * Transform a Proj(Mod) with a non-zero value.
+ * Removes the exceptions and routes the memory to the NoMem node.
+ */
+static ir_node *transform_node_Proj_Mod(ir_node *proj)
+{
+ ir_node *n = get_Proj_pred(proj);
+ ir_node *b = get_Mod_right(n);
+ long proj_nr;
+
+ if (value_not_zero(b)) {
+ /* mod(x, y) && y != 0 */
+ proj_nr = get_Proj_proj(proj);
+
+ /* this node may float if it did not depend on a Confirm */
+ set_irn_pinned(n, op_pin_state_floats);
+
+ if (proj_nr == pn_Mod_X_except) {
+ /* we found an exception handler, remove it */
+ DBG_OPT_EXC_REM(proj);
+ return new_Bad();
+ } else if (proj_nr == pn_Mod_M) {
+ ir_node *res = get_Mod_mem(n);
+ /* the memory Proj can only be removed if we divide by a
+ real constant, but the node never produce a new memory */
+ if (value_of(b) != tarval_bad) {
+ /* this is a Mod by a const, we can remove the memory edge */
+ set_Mod_mem(n, get_irg_no_mem(current_ir_graph));
+ }
+ return res;
+ }
+ else if (proj_nr == pn_Mod_res && get_Mod_left(n) == b) {
+ /* a % a = 0 if a != 0 */
+ ir_mode *mode = get_irn_mode(proj);
+ ir_node *res = new_Const(mode, get_mode_null(mode));
+
+ DBG_OPT_CSTEVAL(n, res);
+ return res;
+ }
+ }
+ return proj;
+}
+
+/**
+ * Transform a Proj(DivMod) with a non-zero value.
+ * Removes the exceptions and routes the memory to the NoMem node.
+ */
+static ir_node *transform_node_Proj_DivMod(ir_node *proj)
+{
+ ir_node *n = get_Proj_pred(proj);
+ ir_node *b = get_DivMod_right(n);
+ long proj_nr;
+
+ if (value_not_zero(b)) {
+ /* DivMod(x, y) && y != 0 */
+ proj_nr = get_Proj_proj(proj);
+
+ /* this node may float if it did not depend on a Confirm */
+ set_irn_pinned(n, op_pin_state_floats);
+
+ if (proj_nr == pn_DivMod_X_except) {
+ /* we found an exception handler, remove it */
+ DBG_OPT_EXC_REM(proj);
+ return new_Bad();
+ }
+ else if (proj_nr == pn_DivMod_M) {
+ ir_node *res = get_DivMod_mem(n);
+ /* the memory Proj can only be removed if we divide by a
+ real constant, but the node never produce a new memory */
+ if (value_of(b) != tarval_bad) {
+ /* this is a DivMod by a const, we can remove the memory edge */
+ set_DivMod_mem(n, get_irg_no_mem(current_ir_graph));
+ }
+ return res;
+ }
+ else if (proj_nr == pn_DivMod_res_mod && get_DivMod_left(n) == b) {
+ /* a % a = 0 if a != 0 */
+ ir_mode *mode = get_irn_mode(proj);
+ ir_node *res = new_Const(mode, get_mode_null(mode));
+
+ DBG_OPT_CSTEVAL(n, res);
+ return res;
+ }
+ }
+ return proj;
+}
+
+/**
+ * Optimizes jump tables (CondIs or CondIu) by removing all impossible cases.
+ */
+static ir_node *transform_node_Proj_Cond(ir_node *proj)
+{
+ if (get_opt_unreachable_code()) {
+ ir_node *n = get_Proj_pred(proj);
+ ir_node *b = get_Cond_selector(n);
+
+ if (mode_is_int(get_irn_mode(b))) {
+ tarval *tb = value_of(b);
+
+ if (tb != tarval_bad) {
+ /* we have a constant switch */
+ long num = get_Proj_proj(proj);
+
+ if (num != get_Cond_defaultProj(n)) { /* we cannot optimize default Proj's yet */
+ if (get_tarval_long(tb) == num) {
+ /* Do NOT create a jump here, or we will have 2 control flow ops
+ * in a block. This case is optimized away in optimize_cf(). */
+ return proj;
+ }
+ else {
+ /* this case will NEVER be taken, kill it */
+ return new_Bad();
+ }
+ }
+ }
+ }
+ }
+ return proj;
+}
+
+/**
+ * Normalizes and optimizes Cmp nodes.
+ */
+static ir_node *transform_node_Proj_Cmp(ir_node *proj)
+{
+ if (get_opt_reassociation()) {
+ ir_node *n = get_Proj_pred(proj);
+ ir_node *left = get_Cmp_left(n);
+ ir_node *right = get_Cmp_right(n);
+ ir_node *c = NULL;
+ tarval *tv = NULL;
+ int changed = 0;
+ ir_mode *mode = NULL;
+ long proj_nr = get_Proj_proj(proj);
+
+ /*
+ * First step: normalize the compare op
+ * by placing the constant on the right site
+ * or moving the lower address node to the left.
+ * We ignore the case that both are constants
+ * this case should be optimized away.
+ */
+ if (get_irn_op(right) == op_Const)
+ c = right;
+ else if (get_irn_op(left) == op_Const) {
+ c = left;
+ left = right;
+ right = c;
+
+ proj_nr = get_inversed_pnc(proj_nr);
+ changed |= 1;
+ }
+ else if (get_irn_idx(left) > get_irn_idx(right)) {
+ ir_node *t = left;
+
+ left = right;
+ right = t;
+
+ proj_nr = get_inversed_pnc(proj_nr);
+ changed |= 1;
+ }
+
+ /*
+ * Second step: Try to reduce the magnitude
+ * of a constant. This may help to generate better code
+ * later and may help to normalize more compares.
+ * Of course this is only possible for integer values.
+ */
+ if (c) {
+ mode = get_irn_mode(c);
+ tv = get_Const_tarval(c);
+
+ if (tv != tarval_bad) {
+ /* the following optimization is possible on modes without Overflow
+ * on Unary Minus or on == and !=:
+ * -a CMP c ==> a swap(CMP) -c
+ *
+ * Beware: for two-complement Overflow may occur, so only == and != can
+ * be optimized, see this:
+ * -MININT < 0 =/=> MININT > 0 !!!
+ */
+ if (get_opt_constant_folding() && get_irn_op(left) == op_Minus &&
+ (!mode_overflow_on_unary_Minus(mode) ||
+ (mode_is_int(mode) && (proj_nr == pn_Cmp_Eq || proj_nr == pn_Cmp_Lg)))) {
+ left = get_Minus_op(left);
+ tv = tarval_sub(get_mode_null(mode), tv);
+
+ proj_nr = get_inversed_pnc(proj_nr);
+ changed |= 2;
+ }
+
+ /* for integer modes, we have more */
+ if (mode_is_int(mode)) {
+ /* Ne includes Unordered which is not possible on integers.
+ * However, frontends often use this wrong, so fix it here */
+ if (proj_nr & pn_Cmp_Uo) {
+ proj_nr &= ~pn_Cmp_Uo;
+ set_Proj_proj(proj, proj_nr);
+ }
+
+ /* c > 0 : a < c ==> a <= (c-1) a >= c ==> a > (c-1) */
+ if ((proj_nr == pn_Cmp_Lt || proj_nr == pn_Cmp_Ge) &&
+ tarval_cmp(tv, get_mode_null(mode)) == pn_Cmp_Gt) {
+ tv = tarval_sub(tv, get_mode_one(mode));
+
+ proj_nr ^= pn_Cmp_Eq;
+ changed |= 2;
+ }
+ /* c < 0 : a > c ==> a >= (c+1) a <= c ==> a < (c+1) */
+ else if ((proj_nr == pn_Cmp_Gt || proj_nr == pn_Cmp_Le) &&
+ tarval_cmp(tv, get_mode_null(mode)) == pn_Cmp_Lt) {
+ tv = tarval_add(tv, get_mode_one(mode));
+
+ proj_nr ^= pn_Cmp_Eq;
+ changed |= 2;
+ }
+
+ /* the following reassociations work only for == and != */
+ if (proj_nr == pn_Cmp_Eq || proj_nr == pn_Cmp_Lg) {
+
+ /* a-b == 0 ==> a == b, a-b != 0 ==> a != b */
+ if (classify_tarval(tv) == TV_CLASSIFY_NULL && get_irn_op(left) == op_Sub) {
+ right = get_Sub_right(left);
+ left = get_Sub_left(left);
+
+ tv = value_of(right);
+ changed = 1;
+ }
+
+ if (tv != tarval_bad) {
+ ir_op *op = get_irn_op(left);
+
+ /* a-c1 == c2 ==> a == c2+c1, a-c1 != c2 ==> a != c2+c1 */
+ if (op == op_Sub) {
+ ir_node *c1 = get_Sub_right(left);
+ tarval *tv2 = value_of(c1);
+
+ if (tv2 != tarval_bad) {
+ tv2 = tarval_add(tv, value_of(c1));
+
+ if (tv2 != tarval_bad) {
+ left = get_Sub_left(left);
+ tv = tv2;
+ changed |= 2;
+ }
+ }
+ }
+ /* a+c1 == c2 ==> a == c2-c1, a+c1 != c2 ==> a != c2-c1 */
+ else if (op == op_Add) {
+ ir_node *a_l = get_Add_left(left);
+ ir_node *a_r = get_Add_right(left);
+ ir_node *a;
+ tarval *tv2;
+
+ if (get_irn_op(a_l) == op_Const) {
+ a = a_r;
+ tv2 = value_of(a_l);
+ }
+ else {
+ a = a_l;
+ tv2 = value_of(a_r);
+ }
+
+ if (tv2 != tarval_bad) {
+ tv2 = tarval_sub(tv, tv2);
+
+ if (tv2 != tarval_bad) {
+ left = a;
+ tv = tv2;
+ changed |= 2;
+ }
+ }
+ }
+ /* -a == c ==> a == -c, -a != c ==> a != -c */
+ else if (op == op_Minus) {
+ tarval *tv2 = tarval_sub(get_mode_null(mode), tv);
+
+ if (tv2 != tarval_bad) {
+ left = get_Minus_op(left);
+ tv = tv2;
+ changed |= 2;
+ }
+ }
+ }
+ } /* == or != */
+ /* the following reassociations work only for <= */
+ else if (proj_nr == pn_Cmp_Le || proj_nr == pn_Cmp_Lt) {
+ if (tv != tarval_bad) {
+ ir_op *op = get_irn_op(left);
+
+ /* c >= 0 : Abs(a) <= c ==> (unsigned)(a + c) <= 2*c */
+ if (op == op_Abs) {
+ }
+ }
+ }
+ } /* mode_is_int */
+
+ /*
+ * optimization for AND:
+ * Optimize:
+ * And(x, C) == C ==> And(x, C) != 0
+ * And(x, C) != C ==> And(X, C) == 0
+ *
+ * if C is a single Bit constant.
+ */
+ if ((proj_nr == pn_Cmp_Eq || proj_nr == pn_Cmp_Lg) &&
+ (get_irn_op(left) == op_And)) {
+ if (is_single_bit_tarval(tv)) {
+ /* check for Constant's match. We have check hare the tarvals,
+ because our const might be changed */
+ ir_node *la = get_And_left(left);
+ ir_node *ra = get_And_right(left);
+ if ((is_Const(la) && get_Const_tarval(la) == tv) ||
+ (is_Const(ra) && get_Const_tarval(ra) == tv)) {
+ /* fine: do the transformation */
+ tv = get_mode_null(get_tarval_mode(tv));
+ proj_nr ^= pn_Cmp_Leg;
+ changed |= 2;
+ }
+ }
+ }
+ } /* tarval != bad */
+ }
+
+ if (changed) {
+ ir_node *block = get_irn_n(n, -1); /* Beware of get_nodes_Block() */
+
+ if (changed & 2) /* need a new Const */
+ right = new_Const(mode, tv);
+
+ /* create a new compare */
+ n = new_rd_Cmp(get_irn_dbg_info(n), current_ir_graph, block,
+ left, right);
+
+ set_Proj_pred(proj, n);
+ set_Proj_proj(proj, proj_nr);
+ }
+ }
+ return proj;
+}
+
+/**
+ * Does all optimizations on nodes that must be done on it's Proj's
+ * because of creating new nodes.
+ */
+static ir_node *transform_node_Proj(ir_node *proj)
+{
+ ir_node *n = get_Proj_pred(proj);
+
+ switch (get_irn_opcode(n)) {
+ case iro_Div:
+ return transform_node_Proj_Div(proj);
+
+ case iro_Mod:
+ return transform_node_Proj_Mod(proj);
+
+ case iro_DivMod:
+ return transform_node_Proj_DivMod(proj);
+
+ case iro_Cond:
+ return transform_node_Proj_Cond(proj);
+
+ case iro_Cmp:
+ return transform_node_Proj_Cmp(proj);
+
+ case iro_Tuple:
+ /* should not happen, but if it does will be optimized away */
+ return equivalent_node_Proj(proj);
+
+ default:
+ /* do nothing */
+ return proj;
+ }
+}
+
+/**
+ * Move Confirms down through Phi nodes.
+ */
+static ir_node *transform_node_Phi(ir_node *phi) {
+ int i, n;
+ ir_mode *mode = get_irn_mode(phi);
+
+ if (mode_is_reference(mode)) {
+ n = get_irn_arity(phi);
+
+ /* Beware of Phi0 */
+ if (n > 0) {
+ ir_node *pred = get_irn_n(phi, 0);
+ ir_node *bound;
+ pn_Cmp pnc;
+
+ if (! is_Confirm(pred))
+ return phi;
+
+ bound = get_Confirm_bound(pred);
+ pnc = get_Confirm_cmp(pred);
+
+ for (i = 1; i < n; ++i) {
+ pred = get_irn_n(phi, i);
+
+ if (! is_Confirm(pred) ||
+ get_Confirm_bound(pred) != bound ||
+ get_Confirm_cmp(pred) != pnc)
+ return phi;
+ }
+ return new_r_Confirm(current_ir_graph, get_irn_n(phi, -1), phi, bound, pnc);
+ }
+ }
+ return phi;
+}
+
+/**
+ * returns the operands of a commutative bin-op, if one operand is
+ * a const, it is returned as the second one.
+ */
+static void get_comm_Binop_Ops(ir_node *binop, ir_node **a, ir_node **c)
+{
+ ir_node *op_a = get_binop_left(binop);
+ ir_node *op_b = get_binop_right(binop);
+
+ assert(is_op_commutative(get_irn_op(binop)));
+
+ if (get_irn_op(op_a) == op_Const) {
+ *a = op_b;
+ *c = op_a;
+ }
+ else {
+ *a = op_a;
+ *c = op_b;
+ }
+}
+
+/**
+ * Optimize a Or(And(Or(And(v,c4),c3),c2),c1) pattern if possible.
+ * Such pattern may arise in bitfield stores.
+ *
+ * value c4 value c4 & c2
+ * AND c3 AND c1 | c3
+ * OR c2 ===> OR
+ * AND c1
+ * OR
+ */
+static ir_node *transform_node_Or_bf_store(ir_node *or)
+{
+ ir_node *and, *c1;
+ ir_node *or_l, *c2;
+ ir_node *and_l, *c3;
+ ir_node *value, *c4;
+ ir_node *new_and, *new_const, *block;
+ ir_mode *mode = get_irn_mode(or);
+
+ tarval *tv1, *tv2, *tv3, *tv4, *tv, *n_tv4, *n_tv2;
+
+ get_comm_Binop_Ops(or, &and, &c1);
+ if ((get_irn_op(c1) != op_Const) || (get_irn_op(and) != op_And))
+ return or;
+
+ get_comm_Binop_Ops(and, &or_l, &c2);
+ if ((get_irn_op(c2) != op_Const) || (get_irn_op(or_l) != op_Or))
+ return or;
+
+ get_comm_Binop_Ops(or_l, &and_l, &c3);
+ if ((get_irn_op(c3) != op_Const) || (get_irn_op(and_l) != op_And))
+ return or;
+
+ get_comm_Binop_Ops(and_l, &value, &c4);
+ if (get_irn_op(c4) != op_Const)
+ return or;
+
+ /* ok, found the pattern, check for conditions */
+ assert(mode == get_irn_mode(and));
+ assert(mode == get_irn_mode(or_l));
+ assert(mode == get_irn_mode(and_l));
+
+ tv1 = get_Const_tarval(c1);
+ tv2 = get_Const_tarval(c2);
+ tv3 = get_Const_tarval(c3);
+ tv4 = get_Const_tarval(c4);
+
+ tv = tarval_or(tv4, tv2);
+ if (classify_tarval(tv) != TV_CLASSIFY_ALL_ONE) {
+ /* have at least one 0 at the same bit position */
+ return or;
+ }
+
+ n_tv4 = tarval_not(tv4);
+ if (tv3 != tarval_and(tv3, n_tv4)) {
+ /* bit in the or_mask is outside the and_mask */
+ return or;
+ }
+
+ n_tv2 = tarval_not(tv2);
+ if (tv1 != tarval_and(tv1, n_tv2)) {
+ /* bit in the or_mask is outside the and_mask */
+ return or;
+ }
+
+ /* ok, all conditions met */
+ block = get_irn_n(or, -1);
+
+ new_and = new_r_And(current_ir_graph, block,
+ value, new_r_Const(current_ir_graph, block, mode, tarval_and(tv4, tv2)), mode);
+
+ new_const = new_r_Const(current_ir_graph, block, mode, tarval_or(tv3, tv1));
+
+ set_Or_left(or, new_and);
+ set_Or_right(or, new_const);
+
+ /* check for more */
+ return transform_node_Or_bf_store(or);
+}
+
+/**
+ * Optimize an Or(shl(x, c), shr(x, bits - c)) into a Rot
+ */
+static ir_node *transform_node_Or_Rot(ir_node *or)
+{
+ ir_mode *mode = get_irn_mode(or);
+ ir_node *shl, *shr, *block;
+ ir_node *irn, *x, *c1, *c2, *v, *sub, *n;
+ tarval *tv1, *tv2;
+
+ if (! mode_is_int(mode))
+ return or;
+
+ shl = get_binop_left(or);
+ shr = get_binop_right(or);
+
+ if (get_irn_op(shl) == op_Shr) {
+ if (get_irn_op(shr) != op_Shl)
+ return or;
+
+ irn = shl;
+ shl = shr;
+ shr = irn;
+ }
+ else if (get_irn_op(shl) != op_Shl)
+ return or;
+ else if (get_irn_op(shr) != op_Shr)
+ return or;
+
+ x = get_Shl_left(shl);
+ if (x != get_Shr_left(shr))
+ return or;
+
+ c1 = get_Shl_right(shl);
+ c2 = get_Shr_right(shr);
+ if (get_irn_op(c1) == op_Const && get_irn_op(c2) == op_Const) {
+ tv1 = get_Const_tarval(c1);
+ if (! tarval_is_long(tv1))
+ return or;
+
+ tv2 = get_Const_tarval(c2);
+ if (! tarval_is_long(tv2))
+ return or;
+
+ if (get_tarval_long(tv1) + get_tarval_long(tv2)
+ != get_mode_size_bits(mode))
+ return or;
+
+ /* yet, condition met */
+ block = get_irn_n(or, -1);
+
+ n = new_r_Rot(current_ir_graph, block, x, c1, mode);
+
+ DBG_OPT_ALGSIM1(or, shl, shr, n, FS_OPT_OR_SHFT_TO_ROT);
+ return n;
+ }
+ else if (get_irn_op(c1) == op_Sub) {
+ v = c2;
+ sub = c1;
+
+ if (get_Sub_right(sub) != v)
+ return or;
+
+ c1 = get_Sub_left(sub);
+ if (get_irn_op(c1) != op_Const)
+ return or;
+
+ tv1 = get_Const_tarval(c1);
+ if (! tarval_is_long(tv1))
+ return or;
+
+ if (get_tarval_long(tv1) != get_mode_size_bits(mode))
+ return or;
+
+ /* yet, condition met */
+ block = get_nodes_block(or);
+
+ /* a Rot right is not supported, so use a rot left */
+ n = new_r_Rot(current_ir_graph, block, x, sub, mode);
-#ifdef HAVE_CONFIG_H
-# include <config.h>
-#endif
+ DBG_OPT_ALGSIM0(or, n, FS_OPT_OR_SHFT_TO_ROT);
+ return n;
+ }
+ else if (get_irn_op(c2) == op_Sub) {
+ v = c1;
+ sub = c2;
-# include "irnode_t.h"
-# include "irgraph_t.h"
-# include "iropt_t.h"
-# include "ircons.h"
-# include "irgmod.h"
-# include "irvrfy.h"
-# include "tv.h"
-# include "tune.h"
-# include "dbginfo_t.h"
-# include "iropt_dbg.c"
+ c1 = get_Sub_left(sub);
+ if (get_irn_op(c1) != op_Const)
+ return or;
-/* Make types visible to allow most efficient access */
-# include "entity_t.h"
+ tv1 = get_Const_tarval(c1);
+ if (! tarval_is_long(tv1))
+ return or;
-/* Trivial INLINEable routine for copy propagation.
- Does follow Ids, needed to optimize INLINEd code. */
-static INLINE ir_node *
-follow_Id (ir_node *n)
-{
- while (get_irn_op (n) == op_Id) n = get_Id_pred (n);
- return n;
+ if (get_tarval_long(tv1) != get_mode_size_bits(mode))
+ return or;
+
+ /* yet, condition met */
+ block = get_irn_n(or, -1);
+
+ /* a Rot Left */
+ n = new_r_Rot(current_ir_graph, block, x, v, mode);
+
+ DBG_OPT_ALGSIM0(or, n, FS_OPT_OR_SHFT_TO_ROT);
+ return n;
+ }
+
+ return or;
}
-static INLINE tarval *
-value_of (ir_node *n)
+/**
+ * Optimize an Or
+ */
+static ir_node *transform_node_Or(ir_node *or)
{
- if ((n != NULL) && (get_irn_op(n) == op_Const))
- return get_Const_tarval(n);
- else
- return NULL;
+ or = transform_node_Or_bf_store(or);
+ or = transform_node_Or_Rot(or);
+
+ return or;
}
-/* if n can be computed, return the value, else NULL. Performs
- constant folding. GL: Only if n is arithmetic operator? */
-tarval *
-computed_value (ir_node *n)
-{
- tarval *res;
+/* forward */
+static ir_node *transform_node(ir_node *n);
- ir_node *a = NULL, *b = NULL; /* initialized to shut up gcc */
- tarval *ta = NULL, *tb = NULL; /* initialized to shut up gcc */
+/**
+ * Optimize (a >> c1) >> c2), works for Shr, Shrs, Shl.
+ *
+ * Should be moved to reassociation?
+ */
+static ir_node *transform_node_shift(ir_node *n)
+{
+ ir_node *left, *right;
+ tarval *tv1, *tv2, *res;
+ ir_mode *mode;
+ int modulo_shf, flag;
- res = NULL;
+ left = get_binop_left(n);
- /* get the operands we will work on for simple cases. */
- if (is_binop(n)) {
- a = get_binop_left(n);
- b = get_binop_right(n);
- } else if (is_unop(n)) {
- a = get_unop_op(n);
- }
+ /* different operations */
+ if (get_irn_op(left) != get_irn_op(n))
+ return n;
- /* if the operands are constants, get the target value, else set it NULL.
- (a and b may be NULL if we treat a node that is no computation.) */
- ta = value_of (a);
- tb = value_of (b);
+ right = get_binop_right(n);
+ tv1 = value_of(right);
+ if (tv1 == tarval_bad)
+ return n;
- /* Perform the constant evaluation / computation. */
- switch (get_irn_opcode(n)) {
- case iro_Const:
- res = get_Const_tarval(n);
- break;
- case iro_SymConst:
- if ((get_SymConst_kind(n) == size) &&
- (get_type_state(get_SymConst_type(n))) == layout_fixed)
- res = tarval_from_long (mode_i, get_type_size(get_SymConst_type(n)));
- break;
- case iro_Add:
- if (ta && tb && (get_irn_mode(a) == get_irn_mode(b))
- && (get_irn_mode(a) != mode_p)) {
- res = tarval_add (ta, tb);
- }
- break;
- case iro_Sub:
- if (ta && tb && (get_irn_mode(a) == get_irn_mode(b))
- && (get_irn_mode(a) != mode_p)) {
- res = tarval_sub (ta, tb);
- } else if (a == b) {
- res = tarval_mode_null [get_irn_modecode (n)];
- }
- break;
- case iro_Minus:
- if (ta && mode_is_float(get_irn_mode(a)))
- res = tarval_neg (ta);
- break;
- case iro_Mul:
- if (ta && tb) /* tarval_mul tests for equivalent modes itself */ {
- res = tarval_mul (ta, tb);
- } else {
- /* a*0 = 0 or 0*b = 0:
- calls computed_value recursive and returns the 0 with proper
- mode. */
- tarval *v;
- if ( (tarval_classify ((v = computed_value (a))) == 0)
- || (tarval_classify ((v = computed_value (b))) == 0)) {
- res = v;
- }
- }
- break;
- case iro_Quot:
- /* This was missing in original implementation. Why? */
- if (ta && tb && (get_irn_mode(a) == get_irn_mode(b))) {
- if (tarval_classify(tb) == 0) {res = NULL; break;}
- res = tarval_quo(ta, tb);
- }
- break;
- case iro_Div:
- /* This was missing in original implementation. Why? */
- if (ta && tb && (get_irn_mode(a) == get_irn_mode(b))) {
- if (tarval_classify(tb) == 0) {res = NULL; break;}
- res = tarval_div(ta, tb);
- }
- break;
- case iro_Mod:
- /* This was missing in original implementation. Why? */
- if (ta && tb && (get_irn_mode(a) == get_irn_mode(b))) {
- if (tarval_classify(tb) == 0) {res = NULL; break;}
- res = tarval_mod(ta, tb);
- }
- break;
- /* for iro_DivMod see iro_Proj */
- case iro_Abs:
- if (ta)
- res = tarval_abs (ta);
- break;
- case iro_And:
- if (ta && tb) {
- res = tarval_and (ta, tb);
- } else {
- tarval *v;
- if ( (tarval_classify ((v = computed_value (a))) == 0)
- || (tarval_classify ((v = computed_value (b))) == 0)) {
- res = v;
- }
- }
- break;
- case iro_Or:
- if (ta && tb) {
- res = tarval_or (ta, tb);
- } else {
- tarval *v;
- if ( (tarval_classify ((v = computed_value (a))) == -1)
- || (tarval_classify ((v = computed_value (b))) == -1)) {
- res = v;
- }
- }
- break;
- case iro_Eor: if (ta && tb) { res = tarval_eor (ta, tb); } break;
- case iro_Not: if (ta) { res = tarval_neg (ta); } break;
- case iro_Shl: if (ta && tb) { res = tarval_shl (ta, tb); } break;
- /* tarval_shr is faulty !! */
- case iro_Shr: if (ta && tb) { res = tarval_shr (ta, tb); } break;
- case iro_Shrs:if (ta && tb) { /*res = tarval_shrs (ta, tb)*/; } break;
- case iro_Rot: if (ta && tb) { /*res = tarval_rot (ta, tb)*/; } break;
- case iro_Conv:if (ta) { res = tarval_convert_to (ta, get_irn_mode (n)); }
- break;
- case iro_Proj: /* iro_Cmp */
- {
- ir_node *aa, *ab;
-
- a = get_Proj_pred(n);
- /* Optimize Cmp nodes.
- This performs a first step of unreachable code elimination.
- Proj can not be computed, but folding a Cmp above the Proj here is
- not as wasteful as folding a Cmp into a Tuple of 16 Consts of which
- only 1 is used.
- There are several case where we can evaluate a Cmp node:
- 1. The nodes compared are both the same. If we compare for
- equal, this will return true, else it will return false.
- This step relies on cse.
- 2. The predecessors of Cmp are target values. We can evaluate
- the Cmp.
- 3. The predecessors are Allocs or void* constants. Allocs never
- return NULL, they raise an exception. Therefore we can predict
- the Cmp result. */
- if (get_irn_op(a) == op_Cmp) {
- aa = get_Cmp_left(a);
- ab = get_Cmp_right(a);
- if (aa == ab) { /* 1.: */
- /* This is a tric with the bits used for encoding the Cmp
- Proj numbers, the following statement is not the same:
- res = tarval_from_long (mode_b, (get_Proj_proj(n) == Eq)): */
- res = tarval_from_long (mode_b, (get_Proj_proj(n) & irpn_Eq));
- } else {
- tarval *taa = computed_value (aa);
- tarval *tab = computed_value (ab);
- if (taa && tab) { /* 2.: */
- /* strange checks... */
- ir_pncmp flags = tarval_comp (taa, tab);
- if (flags != irpn_False) {
- res = tarval_from_long (mode_b, get_Proj_proj(n) & flags);
- }
- } else { /* check for 3.: */
- ir_node *aaa = skip_nop(skip_Proj(aa));
- ir_node *aba = skip_nop(skip_Proj(ab));
- if ( ( (/* aa is ProjP and aaa is Alloc */
- (get_irn_op(aa) == op_Proj)
- && (get_irn_mode(aa) == mode_p)
- && (get_irn_op(aaa) == op_Alloc))
- && ( (/* ab is constant void */
- (get_irn_op(ab) == op_Const)
- && (get_irn_mode(ab) == mode_p)
- && (get_Const_tarval(ab) == tarval_p_void))
- || (/* ab is other Alloc */
- (get_irn_op(ab) == op_Proj)
- && (get_irn_mode(ab) == mode_p)
- && (get_irn_op(aba) == op_Alloc)
- && (aaa != aba))))
- || (/* aa is void and aba is Alloc */
- (get_irn_op(aa) == op_Const)
- && (get_irn_mode(aa) == mode_p)
- && (get_Const_tarval(aa) == tarval_p_void)
- && (get_irn_op(ab) == op_Proj)
- && (get_irn_mode(ab) == mode_p)
- && (get_irn_op(aba) == op_Alloc)))
- /* 3.: */
- res = tarval_from_long (mode_b, get_Proj_proj(n) & irpn_Ne);
- }
- }
- } else if (get_irn_op(a) == op_DivMod) {
- ta = value_of(get_DivMod_left(a));
- tb = value_of(get_DivMod_right(a));
- if (ta && tb && (get_irn_mode(a) == get_irn_mode(b))) {
- if (tarval_classify(tb) == 0) {res = NULL; break;}
- if (get_Proj_proj(n)== 0) /* Div */
- res = tarval_div(ta, tb);
- else /* Mod */
- res = tarval_mod(ta, tb);
- }
- }
- }
- break;
- default: ;
- }
+ tv2 = value_of(get_binop_right(left));
+ if (tv2 == tarval_bad)
+ return n;
- return res;
-} /* compute node */
+ res = tarval_add(tv1, tv2);
+ /* beware: a simple replacement works only, if res < modulo shift */
+ mode = get_irn_mode(n);
+ flag = 0;
-/* returns 1 if the a and b are pointers to different locations. */
-bool
-different_identity (ir_node *a, ir_node *b)
-{
- assert (get_irn_mode (a) == mode_p
- && get_irn_mode (b) == mode_p);
+ modulo_shf = get_mode_modulo_shift(mode);
+ if (modulo_shf > 0) {
+ tarval *modulo = new_tarval_from_long(modulo_shf, get_tarval_mode(res));
- if (get_irn_op (a) == op_Proj && get_irn_op(b) == op_Proj) {
- ir_node *a1 = get_Proj_pred (a);
- ir_node *b1 = get_Proj_pred (b);
- if (a1 != b1 && get_irn_op (a1) == op_Alloc
- && get_irn_op (b1) == op_Alloc)
- return 1;
+ if (tarval_cmp(res, modulo) & pn_Cmp_Lt)
+ flag = 1;
}
- return 0;
-}
+ else
+ flag = 1;
+ if (flag) {
+ /* ok, we can replace it */
+ ir_node *in[2], *irn, *block = get_irn_n(n, -1);
-/* equivalent_node returns a node equivalent to N. It skips all nodes that
- perform no actual computation, as, e.g., the Id nodes. It does not create
- new nodes. It is therefore safe to free N if the node returned is not N.
- If a node returns a Tuple we can not just skip it. If the size of the
- in array fits, we transform n into a tuple (e.g., Div). */
-ir_node *
-equivalent_node (ir_node *n)
-{
- int ins;
- ir_node *a = NULL; /* to shutup gcc */
- ir_node *b = NULL; /* to shutup gcc */
- ir_node *c = NULL; /* to shutup gcc */
- ir_node *oldn = n;
+ in[0] = get_binop_left(left);
+ in[1] = new_r_Const(current_ir_graph, block, get_tarval_mode(res), res);
- ins = get_irn_arity (n);
+ irn = new_ir_node(NULL, current_ir_graph, block, get_irn_op(n), mode, 2, in);
- /* get the operands we will work on */
- if (is_binop(n)) {
- a = get_binop_left(n);
- b = get_binop_right(n);
- } else if (is_unop(n)) {
- a = get_unop_op(n);
+ DBG_OPT_ALGSIM0(n, irn, FS_OPT_REASSOC_SHIFT);
+
+ return transform_node(irn);
}
+ return n;
+}
- /* skip unnecessary nodes. */
- switch (get_irn_opcode (n)) {
- case iro_Block:
- {
- /* The Block constructor does not call optimize, but mature_block
- calls the optimization. */
- assert(get_Block_matured(n));
-
- /* Straightening: a single entry Block following a single exit Block
- can be merged, if it is not the Start block. */
- /* !!! Beware, all Phi-nodes of n must have been optimized away.
- This should be true, as the block is matured before optimize is called.
- But what about Phi-cycles with the Phi0/Id that could not be resolved?
- Remaining Phi nodes are just Ids. */
- if ((get_Block_n_cfgpreds(n) == 1) &&
- (get_irn_op(get_Block_cfgpred(n, 0)) == op_Jmp) &&
- (get_opt_control_flow())) {
- n = get_nodes_Block(get_Block_cfgpred(n, 0)); DBG_OPT_STG;
-
- } else if ((get_Block_n_cfgpreds(n) == 2) &&
- (get_opt_control_flow())) {
- /* Test whether Cond jumps twice to this block
- @@@ we could do this also with two loops finding two preds from several ones. */
- a = get_Block_cfgpred(n, 0);
- b = get_Block_cfgpred(n, 1);
- if ((get_irn_op(a) == op_Proj) &&
- (get_irn_op(b) == op_Proj) &&
- (get_Proj_pred(a) == get_Proj_pred(b)) &&
- (get_irn_op(get_Proj_pred(a)) == op_Cond)) {
- /* Also a single entry Block following a single exit Block. Phis have
- twice the same operand and will be optimized away. */
- n = get_nodes_Block(a); DBG_OPT_IFSIM;
- }
- } else if (get_opt_unreachable_code() &&
- (n != current_ir_graph->start_block) &&
- (n != current_ir_graph->end_block) ) {
- int i;
- /* If all inputs are dead, this block is dead too, except if it is
- the start or end block. This is a step of unreachable code
- elimination */
- for (i = 0; i < get_Block_n_cfgpreds(n); i++) {
- if (!is_Bad(get_Block_cfgpred(n, i))) break;
- }
- if (i == get_Block_n_cfgpreds(n))
- n = new_Bad();
+#define transform_node_Shr transform_node_shift
+#define transform_node_Shrs transform_node_shift
+#define transform_node_Shl transform_node_shift
+
+/**
+ * Remove dead blocks and nodes in dead blocks
+ * in keep alive list. We do not generate a new End node.
+ */
+static ir_node *transform_node_End(ir_node *n) {
+ int i, n_keepalives = get_End_n_keepalives(n);
+
+ for (i = 0; i < n_keepalives; ++i) {
+ ir_node *ka = get_End_keepalive(n, i);
+ if (is_Block(ka)) {
+ if (is_Block_dead(ka)) {
+ set_End_keepalive(n, i, new_Bad());
}
}
- break;
+ else if (is_irn_pinned_in_irg(ka) && is_Block_dead(get_nodes_block(ka)))
+ set_End_keepalive(n, i, new_Bad());
+ }
+ return n;
+}
- case iro_Jmp: /* GL: Why not same for op_Raise?? */
- /* unreachable code elimination */
- if (is_Bad(get_nodes_Block(n))) n = new_Bad();
- break;
- /* We do not evaluate Cond here as we replace it by a new node, a Jmp.
- See cases for iro_Cond and iro_Proj in transform_node. */
- /** remove stuff as x+0, x*1 x&true ... constant expression evaluation **/
- case iro_Or: if (a == b) {n = a; break;}
- case iro_Add:
- case iro_Eor: {
- tarval *tv;
- ir_node *on;
- /* After running compute_node there is only one constant predecessor.
- Find this predecessors value and remember the other node: */
- if ((tv = computed_value (a))) {
- on = b;
- } else if ((tv = computed_value (b))) {
- on = a;
- } else break;
-
- /* If this predecessors constant value is zero, the operation is
- unnecessary. Remove it: */
- if (tarval_classify (tv) == 0) {
- n = on; DBG_OPT_ALGSIM1;
- }
- } break;
- case iro_Sub:
- case iro_Shl:
- case iro_Shr:
- case iro_Shrs:
- case iro_Rot:
- /* these operations are not commutative. Test only one predecessor. */
- if (tarval_classify (computed_value (b)) == 0) {
- n = a; DBG_OPT_ALGSIM1;
- /* Test if b > #bits of a ==> return 0 / divide b by #bits
- --> transform node? */
- }
- break;
- case iro_Not: /* NotNot x == x */
- case iro_Minus: /* --x == x */ /* ??? Is this possible or can --x raise an
- out of bounds exception if min =! max? */
- if (get_irn_op(get_unop_op(n)) == get_irn_op(n)) {
- n = get_unop_op(get_unop_op(n)); DBG_OPT_ALGSIM2
- }
- break;
- case iro_Mul:
- /* Mul is commutative and has again an other neutral element. */
- if (tarval_classify (computed_value (a)) == 1) {
- n = b; DBG_OPT_ALGSIM1
- } else if (tarval_classify (computed_value (b)) == 1) {
- n = a; DBG_OPT_ALGSIM1
- }
- break;
- case iro_Div:
- /* Div is not commutative. */
- if (tarval_classify (computed_value (b)) == 1) { /* div(x, 1) == x */
- /* Turn Div into a tuple (mem, bad, a) */
- ir_node *mem = get_Div_mem(n);
- turn_into_tuple(n, 3);
- set_Tuple_pred(n, 0, mem);
- set_Tuple_pred(n, 1, new_Bad());
- set_Tuple_pred(n, 2, a);
- }
- break;
- /* GL: Why are they skipped? DivMod allocates new nodes --> it's
- treated in transform node.
- case iro_Mod, Quot, DivMod
- */
- case iro_And:
- if (a == b) {
- n = a; /* And has it's own neutral element */
- } else if (tarval_classify (computed_value (a)) == -1) {
- n = b;
- } else if (tarval_classify (computed_value (b)) == -1) {
- n = a;
- }
- if (n != oldn) DBG_OPT_ALGSIM1;
- break;
- case iro_Conv:
- if (get_irn_mode(n) == get_irn_mode(a)) { /* No Conv necessary */
- n = a; DBG_OPT_ALGSIM3;
- } else if (get_irn_mode(n) == mode_b) {
- if (get_irn_op(a) == op_Conv &&
- get_irn_mode (get_Conv_op(a)) == mode_b) {
- n = get_Conv_op(a); /* Convb(Conv*(xxxb(...))) == xxxb(...) */ DBG_OPT_ALGSIM2;
+/**
+ * Optimize a Mux into some simpler cases.
+ */
+static ir_node *transform_node_Mux(ir_node *n)
+{
+ ir_node *oldn = n, *sel = get_Mux_sel(n);
+ ir_mode *mode = get_irn_mode(n);
+
+ if (get_irn_op(sel) == op_Proj && !mode_honor_signed_zeros(mode)) {
+ ir_node *cmp = get_Proj_pred(sel);
+ long proj_nr = get_Proj_proj(sel);
+ ir_node *f = get_Mux_false(n);
+ ir_node *t = get_Mux_true(n);
+
+ if (get_irn_op(cmp) == op_Cmp && classify_Const(get_Cmp_right(cmp)) == CNST_NULL) {
+ ir_node *block = get_irn_n(n, -1);
+
+ /*
+ * Note: normalization puts the constant on the right site,
+ * so we check only one case.
+ *
+ * Note further that these optimization work even for floating point
+ * with NaN's because -NaN == NaN.
+ * However, if +0 and -0 is handled differently, we cannot use the first one.
+ */
+ if (get_irn_op(f) == op_Minus &&
+ get_Minus_op(f) == t &&
+ get_Cmp_left(cmp) == t) {
+
+ if (proj_nr == pn_Cmp_Ge || proj_nr == pn_Cmp_Gt) {
+ /* Mux(a >=/> 0, -a, a) ==> Abs(a) */
+ n = new_rd_Abs(get_irn_dbg_info(n),
+ current_ir_graph,
+ block,
+ t, mode);
+ DBG_OPT_ALGSIM1(oldn, cmp, sel, n, FS_OPT_MUX_TO_ABS);
+ return n;
+ }
+ else if (proj_nr == pn_Cmp_Le || proj_nr == pn_Cmp_Lt) {
+ /* Mux(a <=/< 0, -a, a) ==> Minus(Abs(a)) */
+ n = new_rd_Abs(get_irn_dbg_info(n),
+ current_ir_graph,
+ block,
+ t, mode);
+ n = new_rd_Minus(get_irn_dbg_info(n),
+ current_ir_graph,
+ block,
+ n, mode);
+
+ DBG_OPT_ALGSIM1(oldn, cmp, sel, n, FS_OPT_MUX_TO_ABS);
+ return n;
+ }
+ }
+ else if (get_irn_op(t) == op_Minus &&
+ get_Minus_op(t) == f &&
+ get_Cmp_left(cmp) == f) {
+
+ if (proj_nr == pn_Cmp_Le || proj_nr == pn_Cmp_Lt) {
+ /* Mux(a <=/< 0, a, -a) ==> Abs(a) */
+ n = new_rd_Abs(get_irn_dbg_info(n),
+ current_ir_graph,
+ block,
+ f, mode);
+ DBG_OPT_ALGSIM1(oldn, cmp, sel, n, FS_OPT_MUX_TO_ABS);
+ return n;
+ }
+ else if (proj_nr == pn_Cmp_Ge || proj_nr == pn_Cmp_Gt) {
+ /* Mux(a >=/> 0, a, -a) ==> Minus(Abs(a)) */
+ n = new_rd_Abs(get_irn_dbg_info(n),
+ current_ir_graph,
+ block,
+ f, mode);
+ n = new_rd_Minus(get_irn_dbg_info(n),
+ current_ir_graph,
+ block,
+ n, mode);
+
+ DBG_OPT_ALGSIM1(oldn, cmp, sel, n, FS_OPT_MUX_TO_ABS);
+ return n;
+ }
+ }
+
+ if (mode_is_int(mode) && mode_is_signed(mode) &&
+ get_mode_arithmetic(mode) == irma_twos_complement) {
+ ir_node *x = get_Cmp_left(cmp);
+
+ /* the following optimization works only with signed integer two-complement mode */
+
+ if (mode == get_irn_mode(x)) {
+ /*
+ * FIXME: this restriction is two rigid, as it would still
+ * work if mode(x) = Hs and mode == Is, but at least it removes
+ * all wrong cases.
+ */
+ if ((proj_nr == pn_Cmp_Lt || proj_nr == pn_Cmp_Le) &&
+ classify_Const(t) == CNST_ALL_ONE &&
+ classify_Const(f) == CNST_NULL) {
+ /*
+ * Mux(x:T </<= 0, 0, -1) -> Shrs(x, sizeof_bits(T) - 1)
+ * Conditions:
+ * T must be signed.
+ */
+ n = new_rd_Shrs(get_irn_dbg_info(n),
+ current_ir_graph, block, x,
+ new_r_Const_long(current_ir_graph, block, mode_Iu,
+ get_mode_size_bits(mode) - 1),
+ mode);
+ DBG_OPT_ALGSIM1(oldn, cmp, sel, n, FS_OPT_MUX_TO_SHR);
+ return n;
+ }
+ else if ((proj_nr == pn_Cmp_Gt || proj_nr == pn_Cmp_Ge) &&
+ classify_Const(t) == CNST_ONE &&
+ classify_Const(f) == CNST_NULL) {
+ /*
+ * Mux(x:T >/>= 0, 0, 1) -> Shr(-x, sizeof_bits(T) - 1)
+ * Conditions:
+ * T must be signed.
+ */
+ n = new_rd_Shr(get_irn_dbg_info(n),
+ current_ir_graph, block,
+ new_r_Minus(current_ir_graph, block, x, mode),
+ new_r_Const_long(current_ir_graph, block, mode_Iu,
+ get_mode_size_bits(mode) - 1),
+ mode);
+ DBG_OPT_ALGSIM1(oldn, cmp, sel, n, FS_OPT_MUX_TO_SHR);
+ return n;
+ }
+ }
}
}
- break;
+ }
+ return arch_transform_node_Mux(n);
+}
- case iro_Phi:
- {
- /* Several optimizations:
- - no Phi in start block.
- - remove Id operators that are inputs to Phi
- - fold Phi-nodes, iff they have only one predecessor except
- themselves.
- */
- int i, n_preds;
+/**
+ * Optimize a Psi into some simpler cases.
+ */
+static ir_node *transform_node_Psi(ir_node *n) {
+ if (is_Mux(n))
+ return transform_node_Mux(n);
- ir_node *block = NULL; /* to shutup gcc */
- ir_node *first_val = NULL; /* to shutup gcc */
- ir_node *scnd_val = NULL; /* to shutup gcc */
+ return n;
+}
- n_preds = get_Phi_n_preds(n);
+/**
+ * Tries several [inplace] [optimizing] transformations and returns an
+ * equivalent node. The difference to equivalent_node() is that these
+ * transformations _do_ generate new nodes, and thus the old node must
+ * not be freed even if the equivalent node isn't the old one.
+ */
+static ir_node *transform_node(ir_node *n)
+{
+ if (n->op->ops.transform_node)
+ n = n->op->ops.transform_node(n);
+ return n;
+}
- block = get_nodes_Block(n);
- if ((is_Bad(block)) || /* Control dead */
- (block == current_ir_graph->start_block)) /* There should be no Phi nodes */
- return new_Bad(); /* in the Start Block. */
+/**
+ * sSets the default transform node operation for an ir_op_ops.
+ *
+ * @param code the opcode for the default operation
+ * @param ops the operations initialized
+ *
+ * @return
+ * The operations.
+ */
+static ir_op_ops *firm_set_default_transform_node(opcode code, ir_op_ops *ops)
+{
+#define CASE(a) \
+ case iro_##a: \
+ ops->transform_node = transform_node_##a; \
+ break
+
+ switch (code) {
+ CASE(Add);
+ CASE(Sub);
+ CASE(Mul);
+ CASE(Div);
+ CASE(Mod);
+ CASE(DivMod);
+ CASE(Abs);
+ CASE(Cond);
+ CASE(Eor);
+ CASE(Not);
+ CASE(Cast);
+ CASE(Proj);
+ CASE(Phi);
+ CASE(Sel);
+ CASE(Or);
+ CASE(Shr);
+ CASE(Shrs);
+ CASE(Shl);
+ CASE(End);
+ CASE(Mux);
+ CASE(Psi);
+ default:
+ /* leave NULL */;
+ }
- if (n_preds == 0) break; /* Phi of dead Region without predecessors. */
+ return ops;
+#undef CASE
+}
-#if 0
- /* first we test for a special case: */
- /* Confirm is a special node fixing additional information for a
- value that is known at a certain point. This is useful for
- dataflow analysis. */
- if (n_preds == 2) {
- ir_node *a = follow_Id (get_Phi_pred(n, 0));
- ir_node *b = follow_Id (get_Phi_pred(n, 1));
- if ( (get_irn_op(a) == op_Confirm)
- && (get_irn_op(b) == op_Confirm)
- && (follow_Id (get_irn_n(a, 0)) == follow_Id(get_irn_n(b, 0)))
- && (get_irn_n(a, 1) == get_irn_n (b, 1))
- && (a->data.num == (~b->data.num & irpn_True) )) {
- n = follow_Id (get_irn_n(a, 0));
- break;
- }
- }
-#endif
- /* Find first non-self-referencing input */
- for (i = 0; i < n_preds; ++i) {
- first_val = follow_Id(get_Phi_pred(n, i));
- /* skip Id's */
- set_Phi_pred(n, i, first_val);
- if ( (first_val != n) /* not self pointer */
- && (get_irn_op(first_val) != op_Bad) /* value not dead */
- && !(is_Bad (get_Block_cfgpred(block, i))) ) { /* not dead control flow */
- break; /* then found first value. */
- }
- }
+/* **************** Common Subexpression Elimination **************** */
- /* A totally Bad or self-referencing Phi (we didn't break the above loop) */
- if (i >= n_preds) { n = new_Bad(); break; }
-
- scnd_val = NULL;
-
- /* follow_Id () for rest of inputs, determine if any of these
- are non-self-referencing */
- while (++i < n_preds) {
- scnd_val = follow_Id(get_Phi_pred(n, i));
- /* skip Id's */
- set_Phi_pred(n, i, scnd_val);
- if ( (scnd_val != n)
- && (scnd_val != first_val)
- && (get_irn_op(scnd_val) != op_Bad)
- && !(is_Bad (get_Block_cfgpred(block, i))) ) {
- break;
- }
- }
+/** The size of the hash table used, should estimate the number of nodes
+ in a graph. */
+#define N_IR_NODES 512
- /* Fold, if no multiple distinct non-self-referencing inputs */
- if (i >= n_preds) {
- n = first_val; DBG_OPT_PHI;
- } else {
- /* skip the remaining Ids. */
- while (++i < n_preds) {
- set_Phi_pred(n, i, follow_Id(get_Phi_pred(n, i)));
- }
- }
- }
- break;
+/** Compares the attributes of two Const nodes. */
+static int node_cmp_attr_Const(ir_node *a, ir_node *b)
+{
+ return (get_Const_tarval(a) != get_Const_tarval(b))
+ || (get_Const_type(a) != get_Const_type(b));
+}
- case iro_Load:
- {
-#if 0 /* Is an illegal transformation: different nodes can
- represent the same pointer value!! */
- a = skip_Proj(get_Load_mem(n));
- b = get_Load_ptr(n);
-
- if (get_irn_op(a) == op_Store) {
- if ( different_identity (b, get_Store_ptr(a))) {
- /* load and store use different pointers, therefore load
- needs not take store's memory but the state before. */
- set_Load_mem (n, get_Store_mem(a));
- } else if (( 0 /* ???didn't get cryptic test that returns 0 */ )) {
- }
- }
-#endif
- }
- break;
- case iro_Store:
- /* remove unnecessary store. */
- {
- a = skip_Proj(get_Store_mem(n));
- b = get_Store_ptr(n);
- c = skip_Proj(get_Store_value(n));
-
- if (get_irn_op(a) == op_Store
- && get_Store_ptr(a) == b
- && skip_Proj(get_Store_value(a)) == c) {
- /* We have twice exactly the same store -- a write after write. */
- n = a; DBG_OPT_WAW;
- } else if (get_irn_op(c) == op_Load
- && (a == c || skip_Proj(get_Load_mem(c)) == a)
- && get_Load_ptr(c) == b ) {
- /* We just loaded the value from the same memory, i.e., the store
- doesn't change the memory -- a write after read. */
- a = get_Store_mem(n);
- turn_into_tuple(n, 2);
- set_Tuple_pred(n, 0, a);
- set_Tuple_pred(n, 1, new_Bad()); DBG_OPT_WAR;
- }
- }
- break;
+/** Compares the attributes of two Proj nodes. */
+static int node_cmp_attr_Proj(ir_node *a, ir_node *b)
+{
+ return get_irn_proj_attr (a) != get_irn_proj_attr (b);
+}
- case iro_Proj:
- {
- a = get_Proj_pred(n);
-
- if ( get_irn_op(a) == op_Tuple) {
- /* Remove the Tuple/Proj combination. */
- if ( get_Proj_proj(n) <= get_Tuple_n_preds(a) ) {
- n = get_Tuple_pred(a, get_Proj_proj(n)); DBG_OPT_TUPLE;
- } else {
- assert(0); /* This should not happen! */
- n = new_Bad();
- }
- } else if (get_irn_mode(n) == mode_X &&
- is_Bad(get_nodes_Block(n))) {
- /* Remove dead control flow. */
- n = new_Bad();
- }
- }
- break;
+/** Compares the attributes of two Filter nodes. */
+static int node_cmp_attr_Filter(ir_node *a, ir_node *b)
+{
+ return get_Filter_proj(a) != get_Filter_proj(b);
+}
- case iro_Id:
- n = follow_Id (n); DBG_OPT_ID;
- break;
+/** Compares the attributes of two Alloc nodes. */
+static int node_cmp_attr_Alloc(ir_node *a, ir_node *b)
+{
+ return (get_irn_alloc_attr(a).where != get_irn_alloc_attr(b).where)
+ || (get_irn_alloc_attr(a).type != get_irn_alloc_attr(b).type);
+}
- default: break;
- }
+/** Compares the attributes of two Free nodes. */
+static int node_cmp_attr_Free(ir_node *a, ir_node *b)
+{
+ return (get_irn_free_attr(a).where != get_irn_free_attr(b).where)
+ || (get_irn_free_attr(a).type != get_irn_free_attr(b).type);
+}
- return n;
-} /* end equivalent_node() */
+/** Compares the attributes of two SymConst nodes. */
+static int node_cmp_attr_SymConst(ir_node *a, ir_node *b)
+{
+ return (get_irn_symconst_attr(a).num != get_irn_symconst_attr(b).num)
+ || (get_irn_symconst_attr(a).sym.type_p != get_irn_symconst_attr(b).sym.type_p)
+ || (get_irn_symconst_attr(a).tp != get_irn_symconst_attr(b).tp);
+}
+/** Compares the attributes of two Call nodes. */
+static int node_cmp_attr_Call(ir_node *a, ir_node *b)
+{
+ return (get_irn_call_attr(a) != get_irn_call_attr(b));
+}
-/* tries several [inplace] [optimizing] transformations and returns an
- equivalent node. The difference to equivalent_node is that these
- transformations _do_ generate new nodes, and thus the old node must
- not be freed even if the equivalent node isn't the old one. */
-static ir_node *
-transform_node (ir_node *n)
+/** Compares the attributes of two Sel nodes. */
+static int node_cmp_attr_Sel(ir_node *a, ir_node *b)
{
+ return (get_irn_sel_attr(a).ent->kind != get_irn_sel_attr(b).ent->kind)
+ || (get_irn_sel_attr(a).ent->name != get_irn_sel_attr(b).ent->name)
+ || (get_irn_sel_attr(a).ent->owner != get_irn_sel_attr(b).ent->owner)
+ || (get_irn_sel_attr(a).ent->ld_name != get_irn_sel_attr(b).ent->ld_name)
+ || (get_irn_sel_attr(a).ent->type != get_irn_sel_attr(b).ent->type);
+}
- ir_node *a = NULL, *b;
- tarval *ta, *tb;
+/** Compares the attributes of two Phi nodes. */
+static int node_cmp_attr_Phi(ir_node *a, ir_node *b)
+{
+ return get_irn_phi_attr (a) != get_irn_phi_attr (b);
+}
- switch (get_irn_opcode(n)) {
- case iro_Div: {
- ta = computed_value(n);
- if (ta) {
- /* Turn Div into a tuple (mem, bad, value) */
- ir_node *mem = get_Div_mem(n);
- turn_into_tuple(n, 3);
- set_Tuple_pred(n, 0, mem);
- set_Tuple_pred(n, 1, new_Bad());
- set_Tuple_pred(n, 2, new_Const(get_tv_mode(ta), ta));
- }
- } break;
- case iro_Mod: {
- ta = computed_value(n);
- if (ta) {
- /* Turn Div into a tuple (mem, bad, value) */
- ir_node *mem = get_Mod_mem(n);
- turn_into_tuple(n, 3);
- set_Tuple_pred(n, 0, mem);
- set_Tuple_pred(n, 1, new_Bad());
- set_Tuple_pred(n, 2, new_Const(get_tv_mode(ta), ta));
- }
- } break;
- case iro_DivMod: {
+/** Compares the attributes of two Cast nodes. */
+static int node_cmp_attr_Cast(ir_node *a, ir_node *b)
+{
+ return get_Cast_type(a) != get_Cast_type(b);
+}
+
+/** Compares the attributes of two Load nodes. */
+static int node_cmp_attr_Load(ir_node *a, ir_node *b)
+{
+ if (get_Load_volatility(a) == volatility_is_volatile ||
+ get_Load_volatility(b) == volatility_is_volatile)
+ /* NEVER do CSE on volatile Loads */
+ return 1;
- int evaluated = 0;
- ir_mode *mode;
+ return get_Load_mode(a) != get_Load_mode(b);
+}
- a = get_DivMod_left(n);
- b = get_DivMod_right(n);
- mode = get_irn_mode(a);
+/** Compares the attributes of two Store nodes. */
+static int node_cmp_attr_Store(ir_node *a, ir_node *b)
+{
+ /* NEVER do CSE on volatile Stores */
+ return (get_Store_volatility(a) == volatility_is_volatile ||
+ get_Store_volatility(b) == volatility_is_volatile);
+}
- if (!(mode_is_int(get_irn_mode(a)) &&
- mode_is_int(get_irn_mode(b))))
- break;
+/** Compares the attributes of two Confirm nodes. */
+static int node_cmp_attr_Confirm(ir_node *a, ir_node *b)
+{
+ return (get_Confirm_cmp(a) != get_Confirm_cmp(b));
+}
- if (a == b) {
- a = new_Const (mode, tarval_from_long (mode, 1));
- b = new_Const (mode, tarval_from_long (mode, 0));
- evaluated = 1;
- } else {
- ta = value_of(a);
- tb = value_of(b);
-
- if (tb) {
- if (tarval_classify(tb) == 1) {
- b = new_Const (mode, tarval_from_long (mode, 0));
- evaluated = 1;
- } else if (ta) {
- tarval *resa, *resb;
- resa = tarval_div (ta, tb);
- if (!resa) break; /* Causes exception!!! Model by replacing through
- Jmp for X result!? */
- resb = tarval_mod (ta, tb);
- if (!resb) break; /* Causes exception! */
- a = new_Const (mode, resa);
- b = new_Const (mode, resb);
- evaluated = 1;
- }
- } else if (tarval_classify (ta) == 0) {
- b = a;
- evaluated = 1;
- }
- }
- if (evaluated) { /* replace by tuple */
- ir_node *mem = get_DivMod_mem(n);
- turn_into_tuple(n, 4);
- set_Tuple_pred(n, 0, mem);
- set_Tuple_pred(n, 1, new_Bad()); /* no exception */
- set_Tuple_pred(n, 2, a);
- set_Tuple_pred(n, 3, b);
- assert(get_nodes_Block(n));
- }
- }
- break;
-
- case iro_Cond: {
- /* Replace the Cond by a Jmp if it branches on a constant
- condition. */
- ir_node *jmp;
- a = get_Cond_selector(n);
- ta = value_of(a);
-
- if (ta &&
- (get_irn_mode(a) == mode_b) &&
- (get_opt_unreachable_code())) {
- /* It's a boolean Cond, branching on a boolean constant.
- Replace it by a tuple (Bad, Jmp) or (Jmp, Bad) */
- jmp = new_r_Jmp(current_ir_graph, get_nodes_Block(n));
- turn_into_tuple(n, 2);
- if (tv_val_b(ta) == 1) /* GL: I hope this returns 1 if true */ {
- set_Tuple_pred(n, 0, new_Bad());
- set_Tuple_pred(n, 1, jmp);
- } else {
- set_Tuple_pred(n, 0, jmp);
- set_Tuple_pred(n, 1, new_Bad());
- }
- /* We might generate an endless loop, so keep it alive. */
- add_End_keepalive(get_irg_end(current_ir_graph), get_nodes_Block(n));
- } else if (ta &&
- (get_irn_mode(a) == mode_I) &&
- (get_Cond_kind(n) == dense) &&
- (get_opt_unreachable_code())) {
- /* I don't want to allow Tuples smaller than the biggest Proj.
- Also this tuple might get really big...
- I generate the Jmp here, and remember it in link. Link is used
- when optimizing Proj. */
- set_irn_link(n, new_r_Jmp(current_ir_graph, get_nodes_Block(n)));
- /* We might generate an endless loop, so keep it alive. */
- add_End_keepalive(get_irg_end(current_ir_graph), get_nodes_Block(n));
- } else if ((get_irn_op(get_Cond_selector(n)) == op_Eor)
- && (get_irn_mode(get_Cond_selector(n)) == mode_b)
- && (tarval_classify(computed_value(get_Eor_right(a))) == 1)) {
- /* The Eor is a negate. Generate a new Cond without the negate,
- simulate the negate by exchanging the results. */
- set_irn_link(n, new_r_Cond(current_ir_graph, get_nodes_Block(n),
- get_Eor_left(a)));
- } else if ((get_irn_op(get_Cond_selector(n)) == op_Not)
- && (get_irn_mode(get_Cond_selector(n)) == mode_b)) {
- /* A Not before the Cond. Generate a new Cond without the Not,
- simulate the Not by exchanging the results. */
- set_irn_link(n, new_r_Cond(current_ir_graph, get_nodes_Block(n),
- get_Not_op(a)));
- }
- }
- break;
-
- case iro_Proj: {
- a = get_Proj_pred(n);
-
- if ((get_irn_op(a) == op_Cond)
- && get_irn_link(a)
- && get_irn_op(get_irn_link(a)) == op_Cond) {
- /* Use the better Cond if the Proj projs from a Cond which get's
- its result from an Eor/Not. */
- assert (((get_irn_op(get_Cond_selector(a)) == op_Eor)
- || (get_irn_op(get_Cond_selector(a)) == op_Not))
- && (get_irn_mode(get_Cond_selector(a)) == mode_b)
- && (get_irn_op(get_irn_link(a)) == op_Cond)
- && (get_Cond_selector(get_irn_link(a)) == get_Eor_left(get_Cond_selector(a))));
- set_Proj_pred(n, get_irn_link(a));
- if (get_Proj_proj(n) == 0)
- set_Proj_proj(n, 1);
- else
- set_Proj_proj(n, 0);
- } else if ((get_irn_op(a) == op_Cond)
- && (get_irn_mode(get_Cond_selector(a)) == mode_I)
- && value_of(a)
- && (get_Cond_kind(a) == dense)
- && (get_opt_unreachable_code())) {
- /* The Cond is a Switch on a Constant */
- if (get_Proj_proj(n) == tv_val_CHIL(value_of(a))) {
- /* The always taken branch, reuse the existing Jmp. */
- if (!get_irn_link(a)) /* well, if it exists ;-> */
- set_irn_link(a, new_r_Jmp(current_ir_graph, get_nodes_Block(n)));
- assert(get_irn_op(get_irn_link(a)) == op_Jmp);
- n = get_irn_link(a);
- } else {/* Not taken control flow, but be careful with the default! */
- if (get_Proj_proj(n) < a->attr.c.default_proj){
- /* a never taken branch */
- n = new_Bad();
- } else {
- a->attr.c.default_proj = get_Proj_proj(n);
- }
- }
- }
- } break;
- case iro_Eor: { /* @@@ not tested as boolean Eor not allowed any more. */
- a = get_Eor_left(n);
- b = get_Eor_right(n);
-
- if ((get_irn_mode(n) == mode_b)
- && (get_irn_op(a) == op_Proj)
- && (get_irn_mode(a) == mode_b)
- && (tarval_classify (computed_value (b)) == 1)
- && (get_irn_op(get_Proj_pred(a)) == op_Cmp))
- /* The Eor negates a Cmp. The Cmp has the negated result anyways! */
- n = new_r_Proj(current_ir_graph, get_nodes_Block(n), get_Proj_pred(a),
- mode_b, get_negated_pnc(get_Proj_proj(a)));
- else if ((get_irn_mode(n) == mode_b)
- && (tarval_classify (computed_value (b)) == 1))
- /* The Eor is a Not. Replace it by a Not. */
- /* ????!!!Extend to bitfield 1111111. */
- n = new_r_Not(current_ir_graph, get_nodes_Block(n), a, mode_b);
- }
- break;
- case iro_Not: {
- a = get_Not_op(n);
-
- if ( (get_irn_mode(n) == mode_b)
- && (get_irn_op(a) == op_Proj)
- && (get_irn_mode(a) == mode_b)
- && (get_irn_op(get_Proj_pred(a)) == op_Cmp))
- /* We negate a Cmp. The Cmp has the negated result anyways! */
- n = new_r_Proj(current_ir_graph, get_nodes_Block(n), get_Proj_pred(a),
- mode_b, get_negated_pnc(get_Proj_proj(a)));
- }
- break;
- default: ;
+/**
+ * Set the default node attribute compare operation for an ir_op_ops.
+ *
+ * @param code the opcode for the default operation
+ * @param ops the operations initialized
+ *
+ * @return
+ * The operations.
+ */
+static ir_op_ops *firm_set_default_node_cmp_attr(opcode code, ir_op_ops *ops)
+{
+#define CASE(a) \
+ case iro_##a: \
+ ops->node_cmp_attr = node_cmp_attr_##a; \
+ break
+
+ switch (code) {
+ CASE(Const);
+ CASE(Proj);
+ CASE(Filter);
+ CASE(Alloc);
+ CASE(Free);
+ CASE(SymConst);
+ CASE(Call);
+ CASE(Sel);
+ CASE(Phi);
+ CASE(Cast);
+ CASE(Load);
+ CASE(Store);
+ CASE(Confirm);
+ default:
+ /* leave NULL */;
}
- return n;
-}
-/* **************** Common Subexpression Elimination **************** */
+ return ops;
+#undef CASE
+}
-/* Compare function for two nodes in the hash table. Gets two */
-/* nodes as parameters. Returns 0 if the nodes are a cse. */
-static int
-vt_cmp (const void *elt, const void *key)
+/*
+ * Compare function for two nodes in the hash table. Gets two
+ * nodes as parameters. Returns 0 if the nodes are a cse.
+ */
+int identities_cmp(const void *elt, const void *key)
{
ir_node *a, *b;
- int i;
+ int i, irn_arity_a;
a = (void *)elt;
b = (void *)key;
if ((get_irn_op(a) != get_irn_op(b)) ||
(get_irn_mode(a) != get_irn_mode(b))) return 1;
- /* compare if a's in and b's in are equal */
- if (get_irn_arity (a) != get_irn_arity(b))
+ /* compare if a's in and b's in are of equal length */
+ irn_arity_a = get_irn_intra_arity (a);
+ if (irn_arity_a != get_irn_intra_arity(b))
return 1;
- /* for block-local cse and pinned nodes: */
- if (!get_opt_global_cse() || (get_op_pinned(get_irn_op(a)) == pinned)) {
- if (get_irn_n(a, -1) != get_irn_n(b, -1))
+ /* for block-local cse and op_pin_state_pinned nodes: */
+ if (!get_opt_global_cse() || (get_irn_pinned(a) == op_pin_state_pinned)) {
+ if (get_irn_intra_n(a, -1) != get_irn_intra_n(b, -1))
return 1;
}
/* compare a->in[0..ins] with b->in[0..ins] */
- for (i = 0; i < get_irn_arity(a); i++)
- if (get_irn_n(a, i) != get_irn_n(b, i))
+ for (i = 0; i < irn_arity_a; i++)
+ if (get_irn_intra_n(a, i) != get_irn_intra_n(b, i))
return 1;
- switch (get_irn_opcode(a)) {
- case iro_Const:
- return get_irn_const_attr (a) != get_irn_const_attr (b);
- case iro_Proj:
- return get_irn_proj_attr (a) != get_irn_proj_attr (b);
- case iro_Filter:
- return get_Filter_proj(a) != get_Filter_proj(b);
- case iro_Alloc:
- return (get_irn_alloc_attr(a).where != get_irn_alloc_attr(b).where)
- || (get_irn_alloc_attr(a).type != get_irn_alloc_attr(b).type);
- case iro_Free:
- return (get_irn_free_attr(a) != get_irn_free_attr(b));
- case iro_SymConst:
- return (get_irn_symconst_attr(a).num != get_irn_symconst_attr(b).num)
- || (get_irn_symconst_attr(a).tori.typ != get_irn_symconst_attr(b).tori.typ);
- case iro_Call:
- return (get_irn_call_attr(a) != get_irn_call_attr(b));
- case iro_Sel:
- return (get_irn_sel_attr(a).ent->kind != get_irn_sel_attr(b).ent->kind)
- || (get_irn_sel_attr(a).ent->name != get_irn_sel_attr(b).ent->name)
- || (get_irn_sel_attr(a).ent->owner != get_irn_sel_attr(b).ent->owner)
- || (get_irn_sel_attr(a).ent->ld_name != get_irn_sel_attr(b).ent->ld_name)
- || (get_irn_sel_attr(a).ent->type != get_irn_sel_attr(b).ent->type);
- case iro_Phi:
- return get_irn_phi_attr (a) != get_irn_phi_attr (b);
- default: ;
- }
+ /*
+ * here, we already now that the nodes are identical except their
+ * attributes
+ */
+ if (a->op->ops.node_cmp_attr)
+ return a->op->ops.node_cmp_attr(a, b);
return 0;
}
-static unsigned
+/*
+ * Calculate a hash value of a node.
+ */
+unsigned
ir_node_hash (ir_node *node)
{
unsigned h;
- int i;
-
- /* hash table value = 9*(9*(9*(9*(9*arity+in[0])+in[1])+ ...)+mode)+code */
- h = get_irn_arity(node);
+ int i, irn_arity;
+
+ if (node->op == op_Const) {
+ /* special value for const, as they only differ in their tarval. */
+ h = HASH_PTR(node->attr.con.tv);
+ h = 9*h + HASH_PTR(get_irn_mode(node));
+ } else if (node->op == op_SymConst) {
+ /* special value for const, as they only differ in their symbol. */
+ h = HASH_PTR(node->attr.i.sym.type_p);
+ h = 9*h + HASH_PTR(get_irn_mode(node));
+ } else {
+
+ /* hash table value = 9*(9*(9*(9*(9*arity+in[0])+in[1])+ ...)+mode)+code */
+ h = irn_arity = get_irn_intra_arity(node);
+
+ /* consider all in nodes... except the block if not a control flow. */
+ for (i = is_cfop(node) ? -1 : 0; i < irn_arity; i++) {
+ h = 9*h + HASH_PTR(get_irn_intra_n(node, i));
+ }
- /* consider all in nodes... except the block. */
- for (i = 0; i < get_irn_arity(node); i++) {
- h = 9*h + (unsigned long)get_irn_n(node, i);
+ /* ...mode,... */
+ h = 9*h + HASH_PTR(get_irn_mode(node));
+ /* ...and code */
+ h = 9*h + HASH_PTR(get_irn_op(node));
}
- /* ...mode,... */
- h = 9*h + (unsigned long) get_irn_mode (node);
- /* ...and code */
- h = 9*h + (unsigned long) get_irn_op (node);
-
return h;
}
pset *
-new_identities (void)
-{
- return new_pset (vt_cmp, TUNE_NIR_NODES);
+new_identities(void) {
+ return new_pset(identities_cmp, N_IR_NODES);
}
void
-del_identities (pset *value_table)
-{
- del_pset (value_table);
+del_identities(pset *value_table) {
+ del_pset(value_table);
}
-/* Return the canonical node computing the same value as n.
- Looks up the node in a hash table. */
-static INLINE ir_node *
-identify (pset *value_table, ir_node *n)
+/**
+ * Return the canonical node computing the same value as n.
+ * Looks up the node in a hash table.
+ *
+ * For Const nodes this is performed in the constructor, too. Const
+ * nodes are extremely time critical because of their frequent use in
+ * constant string arrays.
+ */
+static INLINE ir_node *identify(pset *value_table, ir_node *n)
{
ir_node *o = NULL;
if (!value_table) return n;
if (get_opt_reassociation()) {
- switch (get_irn_opcode (n)) {
- case iro_Add:
- case iro_Mul:
- case iro_Or:
- case iro_And:
- case iro_Eor:
- {
- /* for commutative operators perform a OP b == b OP a */
- if (get_binop_left(n) > get_binop_right(n)) {
- ir_node *h = get_binop_left(n);
- set_binop_left(n, get_binop_right(n));
- set_binop_right(n, h);
- }
+ if (is_op_commutative(get_irn_op(n))) {
+ ir_node *l = get_binop_left(n);
+ ir_node *r = get_binop_right(n);
+
+ /* for commutative operators perform a OP b == b OP a */
+ if (get_irn_idx(l) > get_irn_idx(r)) {
+ set_binop_left(n, r);
+ set_binop_right(n, l);
}
- break;
- default: break;
}
}
- o = pset_find (value_table, n, ir_node_hash (n));
+ o = pset_find(value_table, n, ir_node_hash (n));
if (!o) return n;
+ DBG_OPT_CSE(n, o);
+
return o;
}
-/* During construction we set the pinned flag in the graph right when the
- optimizatin is performed. The flag turning on procedure global cse could
- be changed between two allocations. This way we are safe. */
-static INLINE ir_node *
-identify_cons (pset *value_table, ir_node *n) {
+/**
+ * During construction we set the op_pin_state_pinned flag in the graph right when the
+ * optimization is performed. The flag turning on procedure global cse could
+ * be changed between two allocations. This way we are safe.
+ */
+static INLINE ir_node *identify_cons(pset *value_table, ir_node *n) {
ir_node *old = n;
+
n = identify(value_table, n);
if (get_irn_n(old, -1) != get_irn_n(n, -1))
- set_irg_pinned(current_ir_graph, floats);
+ set_irg_pinned(current_ir_graph, op_pin_state_floats);
return n;
}
-/* Return the canonical node computing the same value as n.
- Looks up the node in a hash table, enters it in the table
- if it isn't there yet. */
-static ir_node *
-identify_remember (pset *value_table, ir_node *node)
+/*
+ * Return the canonical node computing the same value as n.
+ * Looks up the node in a hash table, enters it in the table
+ * if it isn't there yet.
+ */
+ir_node *identify_remember(pset *value_table, ir_node *n)
{
ir_node *o = NULL;
- if (!value_table) return node;
+ if (!value_table) return n;
+
+ if (get_opt_reassociation()) {
+ if (is_op_commutative(get_irn_op(n))) {
+ ir_node *l = get_binop_left(n);
+ ir_node *r = get_binop_right(n);
+
+ /* for commutative operators perform a OP b == b OP a */
+ if (l > r) {
+ set_binop_left(n, r);
+ set_binop_right(n, l);
+ }
+ }
+ }
/* lookup or insert in hash table with given hash key. */
- o = pset_insert (value_table, node, ir_node_hash (node));
+ o = pset_insert (value_table, n, ir_node_hash (n));
- if (o == node) return node;
+ if (o != n) {
+ DBG_OPT_CSE(n, o);
+ }
return o;
}
-void
-add_identities (pset *value_table, ir_node *node) {
- identify_remember (value_table, node);
+/* Add a node to the identities value table. */
+void add_identities(pset *value_table, ir_node *node) {
+ if (get_opt_cse() && is_no_Block(node))
+ identify_remember(value_table, node);
}
-/* garbage in, garbage out. If a node has a dead input, i.e., the
- Bad node is input to the node, return the Bad node. */
-static INLINE ir_node *
-gigo (ir_node *node)
+/* Visit each node in the value table of a graph. */
+void visit_all_identities(ir_graph *irg, irg_walk_func visit, void *env) {
+ ir_node *node;
+ ir_graph *rem = current_ir_graph;
+
+ current_ir_graph = irg;
+ foreach_pset(irg->value_table, node)
+ visit(node, env);
+ current_ir_graph = rem;
+}
+
+/**
+ * garbage in, garbage out. If a node has a dead input, i.e., the
+ * Bad node is input to the node, return the Bad node.
+ */
+static INLINE ir_node *gigo(ir_node *node)
{
- int i;
- ir_op* op = get_irn_op(node);
+ int i, irn_arity;
+ ir_op *op = get_irn_op(node);
+
+ /* remove garbage blocks by looking at control flow that leaves the block
+ and replacing the control flow by Bad. */
+ if (get_irn_mode(node) == mode_X) {
+ ir_node *block = get_nodes_block(skip_Proj(node));
+
+ /* Don't optimize nodes in immature blocks. */
+ if (!get_Block_matured(block)) return node;
+ /* Don't optimize End, may have Bads. */
+ if (op == op_End) return node;
+
+ if (is_Block(block)) {
+ irn_arity = get_irn_arity(block);
+ for (i = 0; i < irn_arity; i++) {
+ if (!is_Bad(get_irn_n(block, i)))
+ break;
+ }
+ if (i == irn_arity) return new_Bad();
+ }
+ }
/* Blocks, Phis and Tuples may have dead inputs, e.g., if one of the
blocks predecessors is dead. */
if ( op != op_Block && op != op_Phi && op != op_Tuple) {
- for (i = -1; i < get_irn_arity(node); i++) {
- if (is_Bad(get_irn_n(node, i))) {
+ irn_arity = get_irn_arity(node);
+
+ /*
+ * Beware: we can only read the block of a non-floating node.
+ */
+ if (is_irn_pinned_in_irg(node) &&
+ is_Block_dead(get_nodes_block(node)))
+ return new_Bad();
+
+ for (i = 0; i < irn_arity; i++) {
+ ir_node *pred = get_irn_n(node, i);
+
+ if (is_Bad(pred))
return new_Bad();
- }
+#if 0
+ /* Propagating Unknowns here seems to be a bad idea, because
+ sometimes we need a node as a input and did not want that
+ it kills it's user.
+ However, i might be useful to move this into a later phase
+ (it you thing optimizing such code is useful). */
+ if (is_Unknown(pred) && mode_is_data(get_irn_mode(node)))
+ return new_Unknown(get_irn_mode(node));
+#endif
}
}
#if 0
+ /* With this code we violate the agreement that local_optimize
+ only leaves Bads in Block, Phi and Tuple nodes. */
/* If Block has only Bads as predecessors it's garbage. */
/* If Phi has only Bads as predecessors it's garbage. */
- if (op == op_Block || op == op_Phi) {
- for (i = 0; i < get_irn_arity(node); i++) {
+ if ((op == op_Block && get_Block_matured(node)) || op == op_Phi) {
+ irn_arity = get_irn_arity(node);
+ for (i = 0; i < irn_arity; i++) {
if (!is_Bad(get_irn_n(node, i))) break;
}
- if (i = get_irn_arity(node)) node = new_Bad();
+ if (i == irn_arity) node = new_Bad();
}
#endif
return node;
}
-
-/* These optimizations deallocate nodes from the obstack.
- It can only be called if it is guaranteed that no other nodes
- reference this one, i.e., right after construction of a node. */
-ir_node *
-optimize (ir_node *n)
+/**
+ * These optimizations deallocate nodes from the obstack.
+ * It can only be called if it is guaranteed that no other nodes
+ * reference this one, i.e., right after construction of a node.
+ *
+ * current_ir_graph must be set to the graph of the node!
+ */
+ir_node *optimize_node(ir_node *n)
{
tarval *tv;
- ir_node *old_n = n;
+ ir_node *oldn = n;
+ opcode iro = get_irn_opcode(n);
- /* Allways optimize Phi nodes: part of the construction. */
- if ((!get_optimize()) && (get_irn_op(n) != op_Phi)) return n;
+ /* Always optimize Phi nodes: part of the construction. */
+ if ((!get_opt_optimize()) && (iro != iro_Phi)) return n;
/* constant expression evaluation / constant folding */
if (get_opt_constant_folding()) {
- /* constants can not be evaluated */
- if (get_irn_op(n) != op_Const) {
+ /* neither constants nor Tuple values can be evaluated */
+ if (iro != iro_Const && (get_irn_mode(n) != mode_T)) {
/* try to evaluate */
- tv = computed_value (n);
- if ((get_irn_mode(n) != mode_T) && (tv != NULL)) {
- /* evaluation was succesful -- replace the node. */
- obstack_free (current_ir_graph->obst, n);
- return new_Const (get_tv_mode (tv), tv);
+ tv = computed_value(n);
+ if (tv != tarval_bad) {
+ ir_node *nw;
+ ir_type *old_tp = get_irn_type(n);
+ int i, arity = get_irn_arity(n);
+ int node_size;
+
+ /*
+ * Try to recover the type of the new expression.
+ */
+ for (i = 0; i < arity && !old_tp; ++i)
+ old_tp = get_irn_type(get_irn_n(n, i));
+
+ /*
+ * we MUST copy the node here temporary, because it's still needed
+ * for DBG_OPT_CSTEVAL
+ */
+ node_size = offsetof(ir_node, attr) + n->op->attr_size;
+ oldn = alloca(node_size);
+
+ memcpy(oldn, n, node_size);
+ CLONE_ARR_A(ir_node *, oldn->in, n->in);
+
+ /* ARG, copy the in array, we need it for statistics */
+ memcpy(oldn->in, n->in, ARR_LEN(n->in) * sizeof(n->in[0]));
+
+ /* note the inplace edges module */
+ edges_node_deleted(n, current_ir_graph);
+
+ /* evaluation was successful -- replace the node. */
+ irg_kill_node(current_ir_graph, n);
+ nw = new_Const(get_tarval_mode (tv), tv);
+
+ if (old_tp && get_type_mode(old_tp) == get_tarval_mode (tv))
+ set_Const_type(nw, old_tp);
+ DBG_OPT_CSTEVAL(oldn, nw);
+ return nw;
}
}
}
/* remove unnecessary nodes */
if (get_opt_constant_folding() ||
- (get_irn_op(n) == op_Phi) || /* always optimize these nodes. */
- (get_irn_op(n) == op_Id) ||
- (get_irn_op(n) == op_Proj) ||
- (get_irn_op(n) == op_Block) ) /* Flags tested local. */
+ (iro == iro_Phi) || /* always optimize these nodes. */
+ (iro == iro_Id) ||
+ (iro == iro_Proj) ||
+ (iro == iro_Block) ) /* Flags tested local. */
n = equivalent_node (n);
- /** common subexpression elimination **/
- /* Checks whether n is already available. */
- /* The block input is used to distinguish different subexpressions. Right
- now all nodes are pinned to blocks, i.e., the cse only finds common
- subexpressions within a block. */
+ optimize_preds(n); /* do node specific optimizations of nodes predecessors. */
+
+ /* Common Subexpression Elimination.
+ *
+ * Checks whether n is already available.
+ * The block input is used to distinguish different subexpressions. Right
+ * now all nodes are op_pin_state_pinned to blocks, i.e., the CSE only finds common
+ * subexpressions within a block.
+ */
if (get_opt_cse())
n = identify_cons (current_ir_graph->value_table, n);
- if (n != old_n) {
+ if (n != oldn) {
+ edges_node_deleted(oldn, current_ir_graph);
+
/* We found an existing, better node, so we can deallocate the old node. */
- obstack_free (current_ir_graph->obst, old_n);
+ irg_kill_node(current_ir_graph, oldn);
+ return n;
}
/* Some more constant expression evaluation that does not allow to
free the node. */
+ iro = get_irn_opcode(n);
if (get_opt_constant_folding() ||
- (get_irn_op(n) == op_Cond) ||
- (get_irn_op(n) == op_Proj)) /* Flags tested local. */
+ (iro == iro_Cond) ||
+ (iro == iro_Proj) ||
+ (iro == iro_Sel)) /* Flags tested local. */
n = transform_node (n);
/* Remove nodes with dead (Bad) input.
Run always for transformation induced Bads. */
n = gigo (n);
- /* Now we can verify the node, as it has no dead inputs any more. */
- irn_vrfy(n);
-
- /* Now we have a legal, useful node. Enter it in hash table for cse */
+ /* Now we have a legal, useful node. Enter it in hash table for CSE */
if (get_opt_cse() && (get_irn_opcode(n) != iro_Block)) {
n = identify_remember (current_ir_graph->value_table, n);
}
}
-/* These optimizations never deallocate nodes. This can cause dead
- nodes lying on the obstack. Remove these by a dead node elimination,
- i.e., a copying garbage collection. */
-ir_node *
-optimize_in_place_2 (ir_node *n)
+/**
+ * These optimizations never deallocate nodes (in place). This can cause dead
+ * nodes lying on the obstack. Remove these by a dead node elimination,
+ * i.e., a copying garbage collection.
+ */
+ir_node *optimize_in_place_2(ir_node *n)
{
tarval *tv;
- ir_node *old_n = n;
-
- if (!get_optimize() && (get_irn_op(n) != op_Phi)) return n;
-
- /* if not optimize return n */
- if (n == NULL) {
- assert(0);
- /* Here this is possible. Why? */
- return n;
- }
+ ir_node *oldn = n;
+ opcode iro = get_irn_opcode(n);
+ if (!get_opt_optimize() && (get_irn_op(n) != op_Phi)) return n;
/* constant expression evaluation / constant folding */
if (get_opt_constant_folding()) {
- /* constants can not be evaluated */
- if (get_irn_op(n) != op_Const) {
+ /* neither constants nor Tuple values can be evaluated */
+ if (iro != iro_Const && get_irn_mode(n) != mode_T) {
/* try to evaluate */
- tv = computed_value (n);
- if ((get_irn_mode(n) != mode_T) && (tv != NULL)) {
- /* evaluation was succesful -- replace the node. */
- n = new_Const (get_tv_mode (tv), tv);
- __dbg_info_merge_pair(n, old_n, dbg_const_eval);
- return n;
+ tv = computed_value(n);
+ if (tv != tarval_bad) {
+ /* evaluation was successful -- replace the node. */
+ ir_type *old_tp = get_irn_type(n);
+ int i, arity = get_irn_arity(n);
+
+ /*
+ * Try to recover the type of the new expression.
+ */
+ for (i = 0; i < arity && !old_tp; ++i)
+ old_tp = get_irn_type(get_irn_n(n, i));
+
+ n = new_Const(get_tarval_mode(tv), tv);
+
+ if (old_tp && get_type_mode(old_tp) == get_tarval_mode(tv))
+ set_Const_type(n, old_tp);
+
+ DBG_OPT_CSTEVAL(oldn, n);
+ return n;
}
}
}
/* remove unnecessary nodes */
- /*if (get_opt_constant_folding()) */
if (get_opt_constant_folding() ||
- (get_irn_op(n) == op_Phi) || /* always optimize these nodes. */
- (get_irn_op(n) == op_Id) || /* ... */
- (get_irn_op(n) == op_Proj) || /* ... */
- (get_irn_op(n) == op_Block) ) /* Flags tested local. */
- n = equivalent_node (n);
+ (iro == iro_Phi) || /* always optimize these nodes. */
+ (iro == iro_Id) || /* ... */
+ (iro == iro_Proj) || /* ... */
+ (iro == iro_Block) ) /* Flags tested local. */
+ n = equivalent_node(n);
+
+ optimize_preds(n); /* do node specific optimizations of nodes predecessors. */
/** common subexpression elimination **/
/* Checks whether n is already available. */
/* The block input is used to distinguish different subexpressions. Right
- now all nodes are pinned to blocks, i.e., the cse only finds common
+ now all nodes are op_pin_state_pinned to blocks, i.e., the cse only finds common
subexpressions within a block. */
if (get_opt_cse()) {
- n = identify (current_ir_graph->value_table, n);
+ n = identify(current_ir_graph->value_table, n);
}
/* Some more constant expression evaluation. */
+ iro = get_irn_opcode(n);
if (get_opt_constant_folding() ||
- (get_irn_op(n) == op_Cond) ||
- (get_irn_op(n) == op_Proj)) /* Flags tested local. */
- n = transform_node (n);
+ (iro == iro_Cond) ||
+ (iro == iro_Proj) ||
+ (iro == iro_Sel)) /* Flags tested local. */
+ n = transform_node(n);
/* Remove nodes with dead (Bad) input.
Run always for transformation induced Bads. */
- n = gigo (n);
+ n = gigo(n);
/* Now we can verify the node, as it has no dead inputs any more. */
irn_vrfy(n);
Blocks should be unique anyways. (Except the successor of start:
is cse with the start block!) */
if (get_opt_cse() && (get_irn_opcode(n) != iro_Block))
- n = identify_remember (current_ir_graph->value_table, n);
+ n = identify_remember(current_ir_graph->value_table, n);
return n;
}
-/* Wrapper for external use, set proper status bits after optimization */
-ir_node *
-optimize_in_place (ir_node *n) {
+/**
+ * Wrapper for external use, set proper status bits after optimization.
+ */
+ir_node *optimize_in_place(ir_node *n)
+{
/* Handle graph state */
assert(get_irg_phase_state(current_ir_graph) != phase_building);
+
if (get_opt_global_cse())
- set_irg_pinned(current_ir_graph, floats);
+ set_irg_pinned(current_ir_graph, op_pin_state_floats);
if (get_irg_outs_state(current_ir_graph) == outs_consistent)
set_irg_outs_inconsistent(current_ir_graph);
- /* Maybe we could also test whether optimizing the node can
+
+ /* FIXME: Maybe we could also test whether optimizing the node can
change the control graph. */
- if (get_irg_dom_state(current_ir_graph) == dom_consistent)
- set_irg_dom_inconsistent(current_ir_graph);
+ set_irg_doms_inconsistent(current_ir_graph);
return optimize_in_place_2 (n);
}
+
+/*
+ * Sets the default operation for an ir_ops.
+ */
+ir_op_ops *firm_set_default_operations(opcode code, ir_op_ops *ops)
+{
+ ops = firm_set_default_computed_value(code, ops);
+ ops = firm_set_default_equivalent_node(code, ops);
+ ops = firm_set_default_transform_node(code, ops);
+ ops = firm_set_default_node_cmp_attr(code, ops);
+ ops = firm_set_default_get_type(code, ops);
+ ops = firm_set_default_get_type_attr(code, ops);
+ ops = firm_set_default_get_entity_attr(code, ops);
+
+ return ops;
+}