# include "iropt_dbg.h"
# include "irflag_t.h"
# include "firmstat.h"
+# include "irarch.h"
/* Make types visible to allow most efficient access */
# include "entity_t.h"
return n;
}
-/**
- * Returns the tarval of a Const node or tarval_bad for all other nodes.
- */
-static INLINE tarval *
-value_of (ir_node *n)
-{
- if ((n != NULL) && (get_irn_op(n) == op_Const))
- return get_Const_tarval(n); /* might return tarval_bad */
- else
- return tarval_bad;
-}
-
/**
* return the value of a Constant
*/
return tarval_bad;
}
+/**
+ * return the value of an Add
+ */
static tarval *computed_value_Add(ir_node *n)
{
ir_node *a = get_Add_left(n);
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);
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);
return tarval_bad;
}
+/**
+ * return the value of a Mul
+ */
static tarval *computed_value_Mul(ir_node *n)
{
ir_node *a = get_Mul_left(n);
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);
return tarval_bad;
}
-static tarval *computed_value_Div(ir_node *n)
+/**
+ * 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)
{
- ir_node *a = get_Div_left(n);
- ir_node *b = get_Div_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 */
+ /* Compute c1 / c2 or 0 / a, a != 0 */
+ if ((ta != tarval_bad) && (tb != get_mode_null(get_irn_mode(b)))) {
+ if (tb != tarval_bad) /* 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;
}
-static tarval *computed_value_Mod(ir_node *n)
+/**
+ * return the value of an integer Div
+ */
+static tarval *computed_value_Div(ir_node *n)
{
- ir_node *a = get_Mod_left(n);
- ir_node *b = get_Mod_right(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);
- /* 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 */
+ /* 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);
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);
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);
return tarval_bad;
}
+/**
+ * return the value of an Eor
+ */
static tarval *computed_value_Eor(ir_node *n)
{
ir_node *a = get_Eor_left(n);
return tarval_bad;
}
+/**
+ * return the value of a Not
+ */
static tarval *computed_value_Not(ir_node *n)
{
ir_node *a = get_Not_op(n);
return tarval_bad;
}
+/**
+ * return the value of a Shl
+ */
static tarval *computed_value_Shl(ir_node *n)
{
ir_node *a = get_Shl_left(n);
return tarval_bad;
}
+/**
+ * return the value of a Shr
+ */
static tarval *computed_value_Shr(ir_node *n)
{
ir_node *a = get_Shr_left(n);
return tarval_bad;
}
+/**
+ * return the value of a Shrs
+ */
static tarval *computed_value_Shrs(ir_node *n)
{
ir_node *a = get_Shrs_left(n);
return tarval_bad;
}
+/**
+ * return the value of a Rot
+ */
static tarval *computed_value_Rot(ir_node *n)
{
ir_node *a = get_Rot_left(n);
return tarval_bad;
}
+/**
+ * return the value of a Conv
+ */
static tarval *computed_value_Conv(ir_node *n)
{
ir_node *a = get_Conv_op(n);
return tarval_bad;
}
+/**
+ * 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), *b;
+ ir_node *a = get_Proj_pred(n);
ir_node *aa, *ab;
+ long proj_nr;
/* Optimize Cmp nodes.
This performs a first step of unreachable code elimination.
case iro_Cmp:
aa = get_Cmp_left(a);
ab = get_Cmp_right(a);
+ proj_nr = get_Proj_proj(n);
if (aa == ab) { /* 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 ((get_Proj_proj(n) == Eq), mode_b) */
- return new_tarval_from_long ((get_Proj_proj(n) & Eq), mode_b);
+ return new_tarval_from_long (proj_nr == Eq, mode_b) */
+ return new_tarval_from_long (proj_nr & Eq, mode_b);
} else {
tarval *taa = computed_value (aa);
tarval *tab = computed_value (ab);
/* strange checks... */
pnc_number flags = tarval_cmp (taa, tab);
if (flags != False) {
- return new_tarval_from_long (get_Proj_proj(n) & flags, mode_b);
+ return new_tarval_from_long (proj_nr & flags, mode_b);
}
} else { /* check for 3.: */
ir_node *aaa = skip_Id(skip_Proj(aa));
&& (mode_is_reference(get_irn_mode(ab)))
&& (get_irn_op(aba) == op_Alloc)))
/* 3.: */
- return new_tarval_from_long (get_Proj_proj(n) & Ne, mode_b);
+ return new_tarval_from_long (proj_nr & Ne, mode_b);
}
}
break;
case iro_DivMod:
- {
- tarval *tb = value_of(b = get_DivMod_right(a));
- tarval *ta = value_of(a = get_DivMod_left(a));
-
- 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_bad;
- if (get_Proj_proj(n)== pn_DivMod_res_div)
- return tarval_div(ta, tb);
- else if (get_Proj_proj(n)== pn_DivMod_res_mod)
- return tarval_mod(ta, tb);
- }
+ /* 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:
- {
- tarval *tb = value_of(b = get_Div_right(a));
- tarval *ta = value_of(a = get_Div_left(a));
-
- 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_bad;
- if (get_Proj_proj(n)== pn_Div_res)
- return tarval_div(ta, tb);
- }
+ if (get_Proj_proj(n) == pn_Div_res)
+ return computed_value(a);
break;
- }
case iro_Mod:
- {
- tarval *tb = value_of(b = get_Mod_right(a));
- tarval *ta = value_of(a = get_Mod_left(a));
-
- 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_bad;
- if (get_Proj_proj(n)== pn_Mod_res)
- return tarval_mod(ta, tb);
- }
+ if (get_Proj_proj(n) == pn_Mod_res)
+ return computed_value(a);
break;
- }
default:
return tarval_bad;
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 = new_Bad(); DBG_OPT_DEAD;
+ n = new_Bad();
+ DBG_OPT_DEAD(oldn, n);
} else if (get_opt_control_flow_straightening()) {
- n = predblock; DBG_OPT_STG;
+ n = predblock;
+ DBG_OPT_STG(oldn, n);
}
}
else if ((get_Block_n_cfgpreds(n) == 1) &&
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 = new_Bad(); DBG_OPT_DEAD;
+ n = new_Bad();
+ DBG_OPT_DEAD(oldn, n);
}
}
else if ((get_Block_n_cfgpreds(n) == 2) &&
(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(a); DBG_OPT_IFSIM;
+ n = get_nodes_block(a);
+ DBG_OPT_IFSIM(oldn, a, b, n);
}
} else if (get_opt_unreachable_code() &&
(n != current_ir_graph->start_block) &&
/* remove a v a */
if (a == b) {
- n = a; DBG_OPT_ALGSIM1;
+ n = a;
+
+ DBG_OPT_ALGSIM1(oldn, a, b, n);
}
return n;
/* If this predecessors constant value is zero, the operation is
unnecessary. Remove it: */
if (classify_tarval (tv) == TV_CLASSIFY_NULL) {
- n = on; DBG_OPT_ALGSIM1;
+ n = on;
+
+ DBG_OPT_ALGSIM1(oldn, a, b, n);
}
return n;
ir_node *b = get_binop_right(n);
if (classify_tarval(computed_value(b)) == TV_CLASSIFY_NULL) {
- n = a; DBG_OPT_ALGSIM1;
+ n = a;
+
+ DBG_OPT_ALGSIM1(oldn, a, b, n);
}
return n;
/* optimize symmetric unop */
if (get_irn_op(pred) == get_irn_op(n)) {
- n = get_unop_op(pred); DBG_OPT_ALGSIM2;
+ n = get_unop_op(pred);
+ DBG_OPT_ALGSIM2(oldn, pred, n);
}
return n;
}
/* Mul is commutative and has again an other neutral element. */
if (classify_tarval (computed_value (a)) == TV_CLASSIFY_ONE) {
- n = b; DBG_OPT_ALGSIM1;
+ n = b;
+ DBG_OPT_ALGSIM1(oldn, a, b, n);
} else if (classify_tarval (computed_value (b)) == TV_CLASSIFY_ONE) {
- n = a; DBG_OPT_ALGSIM1;
+ n = a;
+ DBG_OPT_ALGSIM1(oldn, a, b, n);
}
return n;
}
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(computed_value(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, 4);
+ 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;
+}
+
/**
* Optimize a & 0b1...1 = 0b1...1 & a = a & a = a.
*/
n = a; /* And has it's own neutral element */
} else if (classify_tarval(computed_value(a)) == TV_CLASSIFY_ALL_ONE) {
n = b;
+ DBG_OPT_ALGSIM1(oldn, a, b, n);
} else if (classify_tarval(computed_value(b)) == TV_CLASSIFY_ALL_ONE) {
n = a;
+ DBG_OPT_ALGSIM1(oldn, a, b, n);
}
- if (n != oldn) DBG_OPT_ALGSIM1;
return n;
}
ir_mode *a_mode = get_irn_mode(a);
if (n_mode == a_mode) { /* No Conv necessary */
- n = a; DBG_OPT_ALGSIM3;
+ n = a;
+ DBG_OPT_ALGSIM3(oldn, a, n);
} else if (get_irn_op(a) == op_Conv) { /* Conv(Conv(b)) */
ir_mode *b_mode;
if (n_mode == b_mode) {
if (n_mode == mode_b) {
- n = b; /* Convb(Conv*(xxxb(...))) == xxxb(...) */ DBG_OPT_ALGSIM1;
+ n = b; /* Convb(Conv*(xxxb(...))) == xxxb(...) */
+ DBG_OPT_ALGSIM1(oldn, a, b, n);
}
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;
+ n = b; /* ConvS(ConvL(xxxS(...))) == xxxS(...) */
+ DBG_OPT_ALGSIM1(oldn, a, b, n);
}
}
}
/* Fold, if no multiple distinct non-self-referencing inputs */
if (i >= n_preds) {
- n = first_val; DBG_OPT_PHI;
+ n = first_val;
+ DBG_OPT_PHI(oldn, first_val, n);
} else {
/* skip the remaining Ids (done in get_Phi_pred). */
/* superfluous, since we walk all to propagate Block's Bads.
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;
+ 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();
{
ir_node *oldn = n;
- n = follow_Id(n); DBG_OPT_ID;
+ n = follow_Id(n);
+ DBG_OPT_ID(oldn, n);
return n;
}
CASE(Minus);
CASE(Mul);
CASE(Div);
+ CASE(DivMod);
CASE(And);
CASE(Conv);
CASE(Phi);
} /* end switch */
}
+static ir_node *transform_node_Mul(ir_node *n)
+{
+ return arch_dep_replace_mul_with_shifts(n);
+}
+
static ir_node *transform_node_Div(ir_node *n)
{
tarval *tv = computed_value(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) {
+ if (tv != tarval_bad)
+ value = new_Const(get_tarval_mode(tv), tv);
+ else /* Try architecture dependand optimization */
+ value = arch_dep_replace_div_with_shifts(n);
+
+ if (value != n) {
/* Turn Div into a tuple (mem, bad, value) */
ir_node *mem = get_Div_mem(n);
turn_into_tuple(n, 3);
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, new_Const(get_tarval_mode(tv), tv));
+ set_Tuple_pred(n, pn_Div_res, value);
}
return n;
}
static ir_node *transform_node_Mod(ir_node *n)
{
tarval *tv = computed_value(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) {
+ if (tv != tarval_bad)
+ value = new_Const(get_tarval_mode(tv), tv);
+ else /* Try architecture dependand optimization */
+ value = arch_dep_replace_mod_with_shifts(n);
+
+ if (value != n) {
/* Turn Mod into a tuple (mem, bad, value) */
ir_node *mem = get_Mod_mem(n);
+
turn_into_tuple(n, 3);
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, new_Const(get_tarval_mode(tv), tv));
+ set_Tuple_pred(n, pn_Mod_res, value);
}
return n;
}
b = new_Const (mode, resb);
evaluated = 1;
}
+ else { /* Try architecture dependand optimization */
+ arch_dep_replace_divmod_with_shifts(&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, 4);
}
/**
- * Transfor a boolean Not.
+ * Transform a boolean Not.
*/
static ir_node *transform_node_Not(ir_node *n)
{
* Transform a Div/Mod/DivMod with a non-zero constant. Must be
* done here instead of equivalent node because in creates new
* nodes.
+ * Removes the exceptions and routes the memory to the initial mem.
+ *
+ * Further, it optimizes jump tables by removing all impossible cases.
*/
static ir_node *transform_node_Proj(ir_node *proj)
{
/* we found an exception handler, remove it */
return new_Bad();
}
- else if (proj_nr == pn_Div_M) {
+ else {
/* the memory Proj can be removed */
ir_node *res = get_Div_mem(n);
set_Div_mem(n, get_irg_initial_mem(current_ir_graph));
- return res;
+ if (proj_nr == pn_Div_M)
+ return res;
}
}
break;
/* we found an exception handler, remove it */
return new_Bad();
}
- else if (proj_nr == pn_Mod_M) {
+ else {
/* the memory Proj can be removed */
ir_node *res = get_Mod_mem(n);
set_Mod_mem(n, get_irg_initial_mem(current_ir_graph));
- return res;
+ if (proj_nr == pn_Mod_M)
+ return res;
}
}
break;
proj_nr = get_Proj_proj(proj);
if (proj_nr == pn_DivMod_X_except) {
+ /* we found an exception handler, remove it */
return new_Bad();
}
- else if (proj_nr == pn_DivMod_M) {
+ else {
/* the memory Proj can be removed */
ir_node *res = get_DivMod_mem(n);
set_DivMod_mem(n, get_irg_initial_mem(current_ir_graph));
- return res;
+ if (proj_nr == pn_DivMod_M)
+ return res;
}
}
break;
break
switch (op->code) {
+ CASE(Mul);
CASE(Div);
CASE(Mod);
CASE(DivMod);
in a graph. */
#define N_IR_NODES 512
+/** 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));
}
+/** 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);
}
+/** 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);
}
+/** 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);
+ || (get_irn_alloc_attr(a).type != get_irn_alloc_attr(b).type);
}
+/** 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) != get_irn_free_attr(b));
}
+/** 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);
}
+/** 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));
}
+/** Compares the attributes of two FuncCall nodes. */
static int node_cmp_attr_FuncCall(ir_node *a, ir_node *b)
{
return (get_irn_funccall_attr(a) != get_irn_funccall_attr(b));
}
+/** 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)
+ 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);
+ || (get_irn_sel_attr(a).ent->type != get_irn_sel_attr(b).ent->type);
}
+/** 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);
}
+/** 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 ||
return get_Load_mode(a) != get_Load_mode(b);
}
+/** 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 1;
/* for block-local cse and op_pin_state_pinned nodes: */
- if (!get_opt_global_cse() || (get_op_pinned(get_irn_op(a)) == op_pin_state_pinned)) {
+ if (!get_opt_global_cse() || (get_irn_pinned(a) == op_pin_state_pinned)) {
if (get_irn_n(a, -1) != get_irn_n(b, -1))
return 1;
}
if (!value_table) return n;
- /* TODO: use a generic commutative attribute */
if (get_opt_reassociation()) {
if (is_op_commutative(get_irn_op(n))) {
ir_node *l = get_binop_left(n);
o = pset_find (value_table, n, ir_node_hash (n));
if (!o) return n;
+ DBG_OPT_CSE(n, o);
+
return o;
}
* if it isn't there yet.
*/
static ir_node *
-identify_remember (pset *value_table, ir_node *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);
+ if (get_opt_cse() && (get_irn_opcode(node) != iro_Block))
+ identify_remember (value_table, node);
}
/**
ir_node *oldn = n;
opcode iro = get_irn_opcode(n);
- /* Allways optimize Phi nodes: part of the construction. */
+ /* Always optimize Phi nodes: part of the construction. */
if ((!get_opt_optimize()) && (iro != iro_Phi)) return n;
/* constant expression evaluation / constant folding */
* for DBG_OPT_ALGSIM0
*/
int node_size = offsetof(ir_node, attr) + n->op->attr_size;
- ir_node *x = alloca(node_size);
+ oldn = alloca(node_size);
+
+ memcpy(oldn, n, node_size);
+ CLONE_ARR_A(ir_node *, oldn->in, n->in);
- memcpy(x, n, node_size);
- oldn = x;
+ /* ARG, copy the in array, we need it for statistics */
+ memcpy(oldn->in, n->in, ARR_LEN(n->in) * sizeof(n->in[0]));
/* evaluation was successful -- replace the node. */
obstack_free (current_ir_graph->obst, n);
n = new_Const (get_tarval_mode (tv), tv);
- DBG_OPT_ALGSIM0;
+
+ DBG_OPT_ALGSIM0(oldn, n);
return n;
}
}
if ((get_irn_mode(n) != mode_T) && (tv != tarval_bad)) {
/* evaluation was successful -- replace the node. */
n = new_Const (get_tarval_mode (tv), tv);
- DBG_OPT_ALGSIM0;
+
+ DBG_OPT_ALGSIM0(oldn, n);
return n;
}
}