return tarval_bad;
}
+/**
+ * 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)
{
- if ((get_SymConst_kind(n) ==symconst_size) &&
+ if ((get_SymConst_kind(n) == symconst_size) &&
(get_type_state(get_SymConst_type(n))) == layout_fixed)
- return new_tarval_from_long(get_type_size_bytes(get_SymConst_type(n)), mode_Is);
+ return new_tarval_from_long(get_type_size_bytes(get_SymConst_type(n)), get_irn_mode(n));
return tarval_bad;
}
} else {
tarval *v;
- if ( (tarval_classify ((v = computed_value (a))) == TV_CLASSIFY_NULL)
- || (tarval_classify ((v = computed_value (b))) == TV_CLASSIFY_NULL)) {
+ if ( (classify_tarval ((v = computed_value (a))) == TV_CLASSIFY_NULL)
+ || (classify_tarval ((v = computed_value (b))) == TV_CLASSIFY_NULL)) {
return v;
}
}
return tarval_or (ta, tb);
} else {
tarval *v;
- if ( (tarval_classify ((v = computed_value (a))) == TV_CLASSIFY_ALL_ONE)
- || (tarval_classify ((v = computed_value (b))) == TV_CLASSIFY_ALL_ONE)) {
+ if ( (classify_tarval ((v = computed_value (a))) == TV_CLASSIFY_ALL_ONE)
+ || (classify_tarval ((v = computed_value (b))) == TV_CLASSIFY_ALL_ONE)) {
return v;
}
}
tarval *tb = value_of(b);
if ((ta != tarval_bad) && (tb != tarval_bad)) {
- /* return tarval_rot (ta, tb); */
+ return tarval_rot (ta, tb);
}
return tarval_bad;
}
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) {
+ switch (get_irn_opcode(a)) {
+ case iro_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
+ /* 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 (get_Proj_proj(n) & flags, mode_b);
}
} else { /* check for 3.: */
- ir_node *aaa = skip_nop(skip_Proj(aa));
- ir_node *aba = skip_nop(skip_Proj(ab));
+ 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)
return new_tarval_from_long (get_Proj_proj(n) & Ne, mode_b);
}
}
- } else if (get_irn_op(a) == op_DivMod) {
+ 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)== 0) /* Div */
+ if (get_Proj_proj(n)== pn_DivMod_res_div)
return tarval_div(ta, tb);
- else /* Mod */
+ else if (get_Proj_proj(n)== pn_DivMod_res_mod)
return tarval_mod(ta, tb);
}
+ 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);
+ }
+ 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);
+ }
+ break;
+ }
+
+ default:
+ return tarval_bad;
}
return 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)
{
{
ir_node *oldn = n;
- /* The Block constructor does not call optimize, but mature_block
+ /* The Block constructor does not call optimize, but mature_immBlock
calls the optimization. */
assert(get_Block_matured(n));
Remaining Phi nodes are just Ids. */
if ((get_Block_n_cfgpreds(n) == 1) &&
(get_irn_op(get_Block_cfgpred(n, 0)) == op_Jmp)) {
- ir_node *predblock = get_nodes_Block(get_Block_cfgpred(n, 0));
+ 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;
}
else if ((get_Block_n_cfgpreds(n) == 1) &&
(get_irn_op(skip_Proj(get_Block_cfgpred(n, 0))) == op_Cond)) {
- ir_node *predblock = get_nodes_Block(get_Block_cfgpred(n, 0));
+ 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;
(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;
}
} else if (get_opt_unreachable_code() &&
(n != current_ir_graph->start_block) &&
{
/* GL: Why not same for op_Raise?? */
/* unreachable code elimination */
- if (is_Bad(get_nodes_Block(n)))
+ if (is_Bad(get_nodes_block(n)))
n = new_Bad();
return n;
/* If this predecessors constant value is zero, the operation is
unnecessary. Remove it: */
- if (tarval_classify (tv) == TV_CLASSIFY_NULL) {
+ if (classify_tarval (tv) == TV_CLASSIFY_NULL) {
n = on; DBG_OPT_ALGSIM1;
}
ir_node *a = get_binop_left(n);
ir_node *b = get_binop_right(n);
- if (tarval_classify(computed_value(b)) == TV_CLASSIFY_NULL) {
+ if (classify_tarval(computed_value(b)) == TV_CLASSIFY_NULL) {
n = a; DBG_OPT_ALGSIM1;
}
ir_node *b = get_Mul_right(n);
/* Mul is commutative and has again an other neutral element. */
- if (tarval_classify (computed_value (a)) == TV_CLASSIFY_ONE) {
+ if (classify_tarval (computed_value (a)) == TV_CLASSIFY_ONE) {
n = b; DBG_OPT_ALGSIM1;
- } else if (tarval_classify (computed_value (b)) == TV_CLASSIFY_ONE) {
+ } else if (classify_tarval (computed_value (b)) == TV_CLASSIFY_ONE) {
n = a; DBG_OPT_ALGSIM1;
}
return n;
ir_node *b = get_Div_right(n);
/* Div is not commutative. */
- if (tarval_classify(computed_value(b)) == TV_CLASSIFY_ONE) { /* div(x, 1) == x */
+ if (classify_tarval(computed_value(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, 3);
if (a == b) {
n = a; /* And has it's own neutral element */
- } else if (tarval_classify(computed_value(a)) == TV_CLASSIFY_ALL_ONE) {
+ } else if (classify_tarval(computed_value(a)) == TV_CLASSIFY_ALL_ONE) {
n = b;
- } else if (tarval_classify(computed_value(b)) == TV_CLASSIFY_ALL_ONE) {
+ } else if (classify_tarval(computed_value(b)) == TV_CLASSIFY_ALL_ONE) {
n = a;
}
if (n != oldn) DBG_OPT_ALGSIM1;
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();
+// assert(0); /* This should not happen! */
+// n = new_Bad();
+ dump_ir_block_graph(current_ir_graph, "-CRASH");
+ printf(">>>%d\n", get_irn_node_nr(n));
+ exit(1);
}
} else if (get_irn_mode(n) == mode_X &&
- is_Bad(get_nodes_Block(n))) {
+ is_Bad(get_nodes_block(n))) {
/* Remove dead control flow -- early gigo. */
n = new_Bad();
}
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);
- assert(get_nodes_Block(n));
+ assert(get_nodes_block(n));
}
return n;
(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));
+ jmp = new_r_Jmp(current_ir_graph, get_nodes_block(n));
turn_into_tuple(n, 2);
if (ta == tarval_b_true) {
set_Tuple_pred(n, pn_Cond_false, new_Bad());
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));
+ add_End_keepalive(get_irg_end(current_ir_graph), get_nodes_block(n));
} else if ((ta != tarval_bad) &&
(get_irn_mode(a) == mode_Iu) &&
(get_Cond_kind(n) == dense) &&
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)));
+ 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));
+ add_End_keepalive(get_irg_end(current_ir_graph), get_nodes_block(n));
} else if ((get_irn_op(a) == op_Eor)
&& (get_irn_mode(a) == mode_b)
- && (tarval_classify(computed_value(get_Eor_right(a))) == TV_CLASSIFY_ONE)) {
+ && (classify_tarval(computed_value(get_Eor_right(a))) == TV_CLASSIFY_ONE)) {
/* 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),
+ set_irn_link(n, new_r_Cond(current_ir_graph, get_nodes_block(n),
get_Eor_left(a)));
} else if ((get_irn_op(a) == op_Not)
&& (get_irn_mode(a) == 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),
+ set_irn_link(n, new_r_Cond(current_ir_graph, get_nodes_block(n),
get_Not_op(a)));
}
return 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)) == TV_CLASSIFY_ONE)
+ && (classify_tarval (computed_value (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_nodes_Block(n), get_Proj_pred(a),
+ 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)) == TV_CLASSIFY_ONE))
+ && (classify_tarval (computed_value (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_nodes_Block(n), a, mode_b);
+ n = new_r_Not(current_ir_graph, get_nodes_block(n), a, mode_b);
return n;
}
&& (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),
+ n = new_r_Proj(current_ir_graph, get_nodes_block(n), get_Proj_pred(a),
mode_b, get_negated_pnc(get_Proj_proj(a)));
return n;
b = get_Div_right(n);
tb = computed_value(b);
- if (tb != tarval_bad && tarval_classify(tb) != TV_CLASSIFY_NULL) { /* div(x, c) && c != 0 */
+ if (tb != tarval_bad && classify_tarval(tb) != TV_CLASSIFY_NULL) { /* div(x, c) && c != 0 */
ir_node *div, *proj;
ir_node *a = get_Div_left(n);
ir_node *mem = get_Div_mem(n);
set_optimize(0);
{
div = new_rd_Div(get_irn_dbg_info(n), current_ir_graph,
- get_nodes_Block(n), get_irg_initial_mem(current_ir_graph), a, b);
+ get_nodes_block(n), get_irg_initial_mem(current_ir_graph), a, b);
- proj = new_r_Proj(current_ir_graph, get_nodes_Block(n), div, get_irn_mode(a), pn_Div_res);
+ proj = new_r_Proj(current_ir_graph, get_nodes_block(n), div, get_irn_mode(a), pn_Div_res);
}
set_optimize(rem);
b = get_Mod_right(n);
tb = computed_value(b);
- if (tb != tarval_bad && tarval_classify(tb) != TV_CLASSIFY_NULL) { /* mod(x, c) && c != 0 */
+ if (tb != tarval_bad && classify_tarval(tb) != TV_CLASSIFY_NULL) { /* mod(x, c) && c != 0 */
ir_node *mod, *proj;
ir_node *a = get_Mod_left(n);
ir_node *mem = get_Mod_mem(n);
set_optimize(0);
{
mod = new_rd_Mod(get_irn_dbg_info(n), current_ir_graph,
- get_nodes_Block(n), get_irg_initial_mem(current_ir_graph), a, b);
+ get_nodes_block(n), get_irg_initial_mem(current_ir_graph), a, b);
- proj = new_r_Proj(current_ir_graph, get_nodes_Block(n), mod, get_irn_mode(a), pn_Mod_res);
+ proj = new_r_Proj(current_ir_graph, get_nodes_block(n), mod, get_irn_mode(a), pn_Mod_res);
}
set_optimize(rem);
b = get_DivMod_right(n);
tb = computed_value(b);
- if (tb != tarval_bad && tarval_classify(tb) != TV_CLASSIFY_NULL) { /* DivMod(x, c) && c != 0 */
+ if (tb != tarval_bad && classify_tarval(tb) != TV_CLASSIFY_NULL) { /* DivMod(x, c) && c != 0 */
ir_node *div_mod, *proj_div, *proj_mod;
ir_node *a = get_Mod_left(n);
ir_node *mem = get_Mod_mem(n);
set_optimize(0);
{
div_mod = new_rd_DivMod(get_irn_dbg_info(n), current_ir_graph,
- get_nodes_Block(n), get_irg_initial_mem(current_ir_graph), a, b);
+ get_nodes_block(n), get_irg_initial_mem(current_ir_graph), a, b);
- proj_div = new_r_Proj(current_ir_graph, get_nodes_Block(n), div_mod, get_irn_mode(a), pn_DivMod_res_div);
- proj_mod = new_r_Proj(current_ir_graph, get_nodes_Block(n), div_mod, get_irn_mode(a), pn_DivMod_res_mod);
+ proj_div = new_r_Proj(current_ir_graph, get_nodes_block(n), div_mod, get_irn_mode(a), pn_DivMod_res_div);
+ proj_mod = new_r_Proj(current_ir_graph, get_nodes_block(n), div_mod, get_irn_mode(a), pn_DivMod_res_mod);
}
set_optimize(rem);
set_Tuple_pred(n, pn_DivMod_res_mod, proj_mod);
}
break;
+
+ case iro_Cond:
+ if (get_opt_unreachable_code()) {
+ b = get_Cond_selector(n);
+ tb = computed_value(b);
+
+ if (tb != tarval_bad && mode_is_int(get_tarval_mode(tb))) {
+ /* 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
+ return new_Bad();
+ }
+ }
+ }
+ return proj;
+
default:
/* do nothing */
return proj;
tv4 = get_Const_tarval(c4);
tv = tarval_or(tv4, tv2);
- if (tarval_classify(tv) != TV_CLASSIFY_ALL_ONE) {
+ if (classify_tarval(tv) != TV_CLASSIFY_ALL_ONE) {
/* have at least one 0 at the same bit position */
return or;
}
CASE(Eor);
CASE(Not);
CASE(Proj);
- CASE(Store);
+ CASE(Store); /* dangerous, see todo */
CASE(Or);
default:
op->transform_node = NULL;
if (irn_arity_a != get_irn_arity(b))
return 1;
- /* for block-local cse and pinned nodes: */
- if (!get_opt_global_cse() || (get_op_pinned(get_irn_op(a)) == pinned)) {
+ /* 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_irn_n(a, -1) != get_irn_n(b, -1))
return 1;
}
}
/**
- * During construction we set the pinned flag in the graph right when the
+ * 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.
*/
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;
}
/** 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_cons (current_ir_graph->value_table, 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
+ 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);
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