/* The AST produced by parsing of the pattern definitions. */
struct dt_operand;
+struct capture_info;
/* The base class for operands. */
operand (enum op_type type_) : type (type_) {}
enum op_type type;
virtual void gen_transform (FILE *, const char *, bool, int,
- const char *, dt_operand ** = 0)
+ const char *, capture_info *,
+ dt_operand ** = 0,
+ bool = true)
{ gcc_unreachable (); }
};
{
expr (id_base *operation_, bool is_commutative_ = false)
: operand (OP_EXPR), operation (operation_),
- ops (vNULL), expr_type (NULL), is_commutative (is_commutative_) {}
+ ops (vNULL), expr_type (NULL), is_commutative (is_commutative_),
+ is_generic (false) {}
void append_op (operand *op) { ops.safe_push (op); }
/* The operator and its operands. */
id_base *operation;
/* Whether the operation is to be applied commutatively. This is
later lowered to two separate patterns. */
bool is_commutative;
+ /* Whether the expression is expected to be in GENERIC form. */
+ bool is_generic;
virtual void gen_transform (FILE *f, const char *, bool, int,
- const char *, dt_operand ** = 0);
+ const char *, capture_info *,
+ dt_operand ** = 0, bool = true);
};
/* An operator that is represented by native C code. This is always
/* The identifier replacement vector. */
vec<id_tab> ids;
virtual void gen_transform (FILE *f, const char *, bool, int,
- const char *, dt_operand **);
+ const char *, capture_info *,
+ dt_operand ** = 0, bool = true);
};
/* A wrapper around another operand that captures its value. */
/* The captured value. */
operand *what;
virtual void gen_transform (FILE *f, const char *, bool, int,
- const char *, dt_operand ** = 0);
+ const char *, capture_info *,
+ dt_operand ** = 0, bool = true);
};
template<>
}
}
+/* Lower the compare operand of COND_EXPRs and VEC_COND_EXPRs to a
+ GENERIC and a GIMPLE variant. */
+
+static vec<operand *>
+lower_cond (operand *o)
+{
+ vec<operand *> ro = vNULL;
+
+ if (capture *c = dyn_cast<capture *> (o))
+ {
+ if (c->what)
+ {
+ vec<operand *> lop = vNULL;
+ lop = lower_cond (c->what);
+
+ for (unsigned i = 0; i < lop.length (); ++i)
+ ro.safe_push (new capture (c->where, lop[i]));
+ return ro;
+ }
+ }
+
+ expr *e = dyn_cast<expr *> (o);
+ if (!e || e->ops.length () == 0)
+ {
+ ro.safe_push (o);
+ return ro;
+ }
+
+ vec< vec<operand *> > ops_vector = vNULL;
+ for (unsigned i = 0; i < e->ops.length (); ++i)
+ ops_vector.safe_push (lower_cond (e->ops[i]));
+
+ auto_vec< vec<operand *> > result;
+ auto_vec<operand *> v (e->ops.length ());
+ v.quick_grow_cleared (e->ops.length ());
+ cartesian_product (ops_vector, result, v, 0);
+
+ for (unsigned i = 0; i < result.length (); ++i)
+ {
+ expr *ne = new expr (e->operation);
+ for (unsigned j = 0; j < result[i].length (); ++j)
+ ne->append_op (result[i][j]);
+ ro.safe_push (ne);
+ /* If this is a COND with a captured expression or an
+ expression with two operands then also match a GENERIC
+ form on the compare. */
+ if ((*e->operation == COND_EXPR
+ || *e->operation == VEC_COND_EXPR)
+ && ((is_a <capture *> (e->ops[0])
+ && as_a <capture *> (e->ops[0])->what
+ && is_a <expr *> (as_a <capture *> (e->ops[0])->what)
+ && as_a <expr *>
+ (as_a <capture *> (e->ops[0])->what)->ops.length () == 2)
+ || (is_a <expr *> (e->ops[0])
+ && as_a <expr *> (e->ops[0])->ops.length () == 2)))
+ {
+ expr *ne = new expr (e->operation);
+ for (unsigned j = 0; j < result[i].length (); ++j)
+ ne->append_op (result[i][j]);
+ if (capture *c = dyn_cast <capture *> (ne->ops[0]))
+ {
+ expr *ocmp = as_a <expr *> (c->what);
+ expr *cmp = new expr (ocmp->operation);
+ for (unsigned j = 0; j < ocmp->ops.length (); ++j)
+ cmp->append_op (ocmp->ops[j]);
+ cmp->is_generic = true;
+ ne->ops[0] = new capture (c->where, cmp);
+ }
+ else
+ {
+ expr *ocmp = as_a <expr *> (ne->ops[0]);
+ expr *cmp = new expr (ocmp->operation);
+ for (unsigned j = 0; j < ocmp->ops.length (); ++j)
+ cmp->append_op (ocmp->ops[j]);
+ cmp->is_generic = true;
+ ne->ops[0] = cmp;
+ }
+ ro.safe_push (ne);
+ }
+ }
+
+ return ro;
+}
+
+/* Lower the compare operand of COND_EXPRs and VEC_COND_EXPRs to a
+ GENERIC and a GIMPLE variant. */
+
+static void
+lower_cond (simplify *s, vec<simplify *>& simplifiers)
+{
+ vec<operand *> matchers = lower_cond (s->match);
+ for (unsigned i = 0; i < matchers.length (); ++i)
+ {
+ simplify *ns = new simplify (matchers[i], s->match_location,
+ s->result, s->result_location, s->ifexpr_vec,
+ s->for_vec, s->capture_ids);
+ simplifiers.safe_push (ns);
+ }
+}
+
/* In AST operand O replace operator ID with operator WITH. */
operand *
/* Lower the AST for everything in SIMPLIFIERS. */
static void
-lower (vec<simplify *>& simplifiers)
+lower (vec<simplify *>& simplifiers, bool gimple)
{
- auto_vec<simplify *> out_simplifiers0;
+ auto_vec<simplify *> out_simplifiers;
for (unsigned i = 0; i < simplifiers.length (); ++i)
- lower_opt_convert (simplifiers[i], out_simplifiers0);
+ lower_opt_convert (simplifiers[i], out_simplifiers);
+
+ simplifiers.truncate (0);
+ for (unsigned i = 0; i < out_simplifiers.length (); ++i)
+ lower_commutative (out_simplifiers[i], simplifiers);
+
+ out_simplifiers.truncate (0);
+ if (gimple)
+ for (unsigned i = 0; i < simplifiers.length (); ++i)
+ lower_cond (simplifiers[i], out_simplifiers);
+ else
+ out_simplifiers.safe_splice (simplifiers);
- auto_vec<simplify *> out_simplifiers1;
- for (unsigned i = 0; i < out_simplifiers0.length (); ++i)
- lower_commutative (out_simplifiers0[i], out_simplifiers1);
simplifiers.truncate (0);
- for (unsigned i = 0; i < out_simplifiers1.length (); ++i)
- lower_for (out_simplifiers1[i], simplifiers);
+ for (unsigned i = 0; i < out_simplifiers.length (); ++i)
+ lower_for (out_simplifiers[i], simplifiers);
}
{
expr *e1 = static_cast<expr *>(o1);
expr *e2 = static_cast<expr *>(o2);
- return e1->operation == e2->operation;
+ return (e1->operation == e2->operation
+ && e1->is_generic == e2->is_generic);
}
else
return false;
}
+/* For GENERIC we have to take care of wrapping multiple-used
+ expressions with side-effects in save_expr and preserve side-effects
+ of expressions with omit_one_operand. Analyze captures in
+ match, result and with expressions and perform early-outs
+ on the outermost match expression operands for cases we cannot
+ handle. */
+
+struct capture_info
+{
+ capture_info (simplify *s);
+ void walk_match (operand *o, unsigned toplevel_arg, bool, bool);
+ void walk_result (operand *o, bool);
+ void walk_c_expr (c_expr *);
+
+ struct cinfo
+ {
+ bool expr_p;
+ bool cse_p;
+ bool force_no_side_effects_p;
+ bool cond_expr_cond_p;
+ unsigned long toplevel_msk;
+ int result_use_count;
+ };
+
+ auto_vec<cinfo> info;
+ unsigned long force_no_side_effects;
+};
+
+/* Analyze captures in S. */
+
+capture_info::capture_info (simplify *s)
+{
+ expr *e;
+ if (!s->result
+ || ((e = dyn_cast <expr *> (s->result))
+ && is_a <predicate_id *> (e->operation)))
+ {
+ force_no_side_effects = -1;
+ return;
+ }
+
+ force_no_side_effects = 0;
+ info.safe_grow_cleared (s->capture_max + 1);
+ e = as_a <expr *> (s->match);
+ for (unsigned i = 0; i < e->ops.length (); ++i)
+ walk_match (e->ops[i], i,
+ (i != 0 && *e->operation == COND_EXPR)
+ || *e->operation == TRUTH_ANDIF_EXPR
+ || *e->operation == TRUTH_ORIF_EXPR,
+ i == 0
+ && (*e->operation == COND_EXPR
+ || *e->operation == VEC_COND_EXPR));
+
+ walk_result (s->result, false);
+
+ for (unsigned i = 0; i < s->ifexpr_vec.length (); ++i)
+ if (s->ifexpr_vec[i].is_with)
+ walk_c_expr (as_a <c_expr *>(s->ifexpr_vec[i].cexpr));
+}
+
+/* Analyze captures in the match expression piece O. */
+
+void
+capture_info::walk_match (operand *o, unsigned toplevel_arg,
+ bool conditional_p, bool cond_expr_cond_p)
+{
+ if (capture *c = dyn_cast <capture *> (o))
+ {
+ info[c->where].toplevel_msk |= 1 << toplevel_arg;
+ info[c->where].force_no_side_effects_p |= conditional_p;
+ info[c->where].cond_expr_cond_p |= cond_expr_cond_p;
+ /* Mark expr (non-leaf) captures and recurse. */
+ if (c->what
+ && is_a <expr *> (c->what))
+ {
+ info[c->where].expr_p = true;
+ walk_match (c->what, toplevel_arg, conditional_p, false);
+ }
+ }
+ else if (expr *e = dyn_cast <expr *> (o))
+ {
+ for (unsigned i = 0; i < e->ops.length (); ++i)
+ {
+ bool cond_p = conditional_p;
+ bool cond_expr_cond_p = false;
+ if (i != 0 && *e->operation == COND_EXPR)
+ cond_p = true;
+ else if (*e->operation == TRUTH_ANDIF_EXPR
+ || *e->operation == TRUTH_ORIF_EXPR)
+ cond_p = true;
+ if (i == 0
+ && (*e->operation == COND_EXPR
+ || *e->operation == VEC_COND_EXPR))
+ cond_expr_cond_p = true;
+ walk_match (e->ops[i], toplevel_arg, cond_p, cond_expr_cond_p);
+ }
+ }
+ else if (is_a <predicate *> (o))
+ {
+ /* Mark non-captured leafs toplevel arg for checking. */
+ force_no_side_effects |= 1 << toplevel_arg;
+ }
+ else
+ gcc_unreachable ();
+}
+
+/* Analyze captures in the result expression piece O. */
+
+void
+capture_info::walk_result (operand *o, bool conditional_p)
+{
+ if (capture *c = dyn_cast <capture *> (o))
+ {
+ info[c->where].result_use_count++;
+ /* If we substitute an expression capture we don't know
+ which captures this will end up using (well, we don't
+ compute that). Force the uses to be side-effect free
+ which means forcing the toplevels that reach the
+ expression side-effect free. */
+ if (info[c->where].expr_p)
+ force_no_side_effects |= info[c->where].toplevel_msk;
+ /* Mark CSE capture capture uses as forced to have
+ no side-effects. */
+ if (c->what
+ && is_a <expr *> (c->what))
+ {
+ info[c->where].cse_p = true;
+ walk_result (c->what, true);
+ }
+ }
+ else if (expr *e = dyn_cast <expr *> (o))
+ {
+ for (unsigned i = 0; i < e->ops.length (); ++i)
+ {
+ bool cond_p = conditional_p;
+ if (i != 0 && *e->operation == COND_EXPR)
+ cond_p = true;
+ else if (*e->operation == TRUTH_ANDIF_EXPR
+ || *e->operation == TRUTH_ORIF_EXPR)
+ cond_p = true;
+ walk_result (e->ops[i], cond_p);
+ }
+ }
+ else if (c_expr *e = dyn_cast <c_expr *> (o))
+ walk_c_expr (e);
+ else
+ gcc_unreachable ();
+}
+
+/* Look for captures in the C expr E. */
+
+void
+capture_info::walk_c_expr (c_expr *e)
+{
+ /* Give up for C exprs mentioning captures not inside TREE_TYPE (). */
+ unsigned p_depth = 0;
+ for (unsigned i = 0; i < e->code.length (); ++i)
+ {
+ const cpp_token *t = &e->code[i];
+ const cpp_token *n = i < e->code.length () - 1 ? &e->code[i+1] : NULL;
+ if (t->type == CPP_NAME
+ && strcmp ((const char *)CPP_HASHNODE
+ (t->val.node.node)->ident.str, "TREE_TYPE") == 0
+ && n->type == CPP_OPEN_PAREN)
+ p_depth++;
+ else if (t->type == CPP_CLOSE_PAREN
+ && p_depth > 0)
+ p_depth--;
+ else if (p_depth == 0
+ && t->type == CPP_ATSIGN
+ && (n->type == CPP_NUMBER
+ || n->type == CPP_NAME)
+ && !(n->flags & PREV_WHITE))
+ {
+ const char *id;
+ if (n->type == CPP_NUMBER)
+ id = (const char *)n->val.str.text;
+ else
+ id = (const char *)CPP_HASHNODE (n->val.node.node)->ident.str;
+ info[*e->capture_ids->get(id)].force_no_side_effects_p = true;
+ }
+ }
+}
+
/* Code generation off the decision tree and the refered AST nodes. */
void
expr::gen_transform (FILE *f, const char *dest, bool gimple, int depth,
- const char *in_type, dt_operand **indexes)
+ const char *in_type, capture_info *cinfo,
+ dt_operand **indexes, bool)
{
bool conversion_p = is_conversion (operation);
const char *type = expr_type;
const char *optype
= get_operand_type (operation, in_type, expr_type,
i == 0 ? NULL : op0type);
- ops[i]->gen_transform (f, dest, gimple, depth + 1, optype, indexes);
+ ops[i]->gen_transform (f, dest, gimple, depth + 1, optype, cinfo, indexes,
+ ((!(*operation == COND_EXPR)
+ && !(*operation == VEC_COND_EXPR))
+ || i != 0));
}
const char *opr;
void
c_expr::gen_transform (FILE *f, const char *dest,
- bool, int, const char *, dt_operand **)
+ bool, int, const char *, capture_info *,
+ dt_operand **, bool)
{
if (dest && nr_stmts == 1)
fprintf (f, "%s = ", dest);
void
capture::gen_transform (FILE *f, const char *dest, bool gimple, int depth,
- const char *in_type, dt_operand **indexes)
+ const char *in_type, capture_info *cinfo,
+ dt_operand **indexes, bool expand_compares)
{
if (what && is_a<expr *> (what))
{
{
char buf[20];
sprintf (buf, "captures[%u]", where);
- what->gen_transform (f, buf, gimple, depth, in_type, NULL);
+ what->gen_transform (f, buf, gimple, depth, in_type, cinfo, NULL);
}
}
fprintf (f, "%s = captures[%u];\n", dest, where);
+
+ /* ??? Stupid tcc_comparison GENERIC trees in COND_EXPRs. Deal
+ with substituting a capture of that.
+ ??? Returning false here will also not allow any other patterns
+ to match. */
+ if (gimple && expand_compares
+ && cinfo->info[where].cond_expr_cond_p)
+ fprintf (f, "if (COMPARISON_CLASS_P (%s))\n"
+ " {\n"
+ " if (!seq) return false;\n"
+ " %s = gimple_build (seq, TREE_CODE (%s),"
+ " TREE_TYPE (%s), TREE_OPERAND (%s, 0),"
+ " TREE_OPERAND (%s, 1));\n"
+ " }\n", dest, dest, dest, dest, dest, dest);
}
/* Return the name of the operand representing the decision tree node.
if (id->kind == id_base::CODE)
{
- if (*id == REALPART_EXPR || *id == IMAGPART_EXPR
+ if (e->is_generic
+ || *id == REALPART_EXPR || *id == IMAGPART_EXPR
|| *id == BIT_FIELD_REF || *id == VIEW_CONVERT_EXPR)
{
/* ??? If this is a memory operation we can't (and should not)
}
-/* For GENERIC we have to take care of wrapping multiple-used
- expressions with side-effects in save_expr and preserve side-effects
- of expressions with omit_one_operand. Analyze captures in
- match, result and with expressions and perform early-outs
- on the outermost match expression operands for cases we cannot
- handle. */
-
-struct capture_info
-{
- capture_info (simplify *s);
- void walk_match (operand *o, unsigned toplevel_arg, bool);
- void walk_result (operand *o, bool);
- void walk_c_expr (c_expr *);
-
- struct cinfo
- {
- bool expr_p;
- bool cse_p;
- bool force_no_side_effects_p;
- unsigned long toplevel_msk;
- int result_use_count;
- };
-
- auto_vec<cinfo> info;
- unsigned long force_no_side_effects;
-};
-
-/* Analyze captures in S. */
-
-capture_info::capture_info (simplify *s)
-{
- expr *e;
- if (!s->result
- || ((e = dyn_cast <expr *> (s->result))
- && is_a <predicate_id *> (e->operation)))
- {
- force_no_side_effects = -1;
- return;
- }
-
- force_no_side_effects = 0;
- info.safe_grow_cleared (s->capture_max + 1);
- e = as_a <expr *> (s->match);
- for (unsigned i = 0; i < e->ops.length (); ++i)
- walk_match (e->ops[i], i,
- (i != 0 && *e->operation == COND_EXPR)
- || *e->operation == TRUTH_ANDIF_EXPR
- || *e->operation == TRUTH_ORIF_EXPR);
-
- walk_result (s->result, false);
-
- for (unsigned i = 0; i < s->ifexpr_vec.length (); ++i)
- if (s->ifexpr_vec[i].is_with)
- walk_c_expr (as_a <c_expr *>(s->ifexpr_vec[i].cexpr));
-}
-
-/* Analyze captures in the match expression piece O. */
-
-void
-capture_info::walk_match (operand *o, unsigned toplevel_arg, bool conditional_p)
-{
- if (capture *c = dyn_cast <capture *> (o))
- {
- info[c->where].toplevel_msk |= 1 << toplevel_arg;
- info[c->where].force_no_side_effects_p |= conditional_p;
- /* Mark expr (non-leaf) captures and recurse. */
- if (c->what
- && is_a <expr *> (c->what))
- {
- info[c->where].expr_p = true;
- walk_match (c->what, toplevel_arg, conditional_p);
- }
- }
- else if (expr *e = dyn_cast <expr *> (o))
- {
- for (unsigned i = 0; i < e->ops.length (); ++i)
- {
- bool cond_p = conditional_p;
- if (i != 0 && *e->operation == COND_EXPR)
- cond_p = true;
- else if (*e->operation == TRUTH_ANDIF_EXPR
- || *e->operation == TRUTH_ORIF_EXPR)
- cond_p = true;
- walk_match (e->ops[i], toplevel_arg, cond_p);
- }
- }
- else if (is_a <predicate *> (o))
- {
- /* Mark non-captured leafs toplevel arg for checking. */
- force_no_side_effects |= 1 << toplevel_arg;
- }
- else
- gcc_unreachable ();
-}
-
-/* Analyze captures in the result expression piece O. */
-
-void
-capture_info::walk_result (operand *o, bool conditional_p)
-{
- if (capture *c = dyn_cast <capture *> (o))
- {
- info[c->where].result_use_count++;
- /* If we substitute an expression capture we don't know
- which captures this will end up using (well, we don't
- compute that). Force the uses to be side-effect free
- which means forcing the toplevels that reach the
- expression side-effect free. */
- if (info[c->where].expr_p)
- force_no_side_effects |= info[c->where].toplevel_msk;
- /* Mark CSE capture capture uses as forced to have
- no side-effects. */
- if (c->what
- && is_a <expr *> (c->what))
- {
- info[c->where].cse_p = true;
- walk_result (c->what, true);
- }
- }
- else if (expr *e = dyn_cast <expr *> (o))
- {
- for (unsigned i = 0; i < e->ops.length (); ++i)
- {
- bool cond_p = conditional_p;
- if (i != 0 && *e->operation == COND_EXPR)
- cond_p = true;
- else if (*e->operation == TRUTH_ANDIF_EXPR
- || *e->operation == TRUTH_ORIF_EXPR)
- cond_p = true;
- walk_result (e->ops[i], cond_p);
- }
- }
- else if (c_expr *e = dyn_cast <c_expr *> (o))
- walk_c_expr (e);
- else
- gcc_unreachable ();
-}
-
-/* Look for captures in the C expr E. */
-
-void
-capture_info::walk_c_expr (c_expr *e)
-{
- /* Give up for C exprs mentioning captures not inside TREE_TYPE (). */
- unsigned p_depth = 0;
- for (unsigned i = 0; i < e->code.length (); ++i)
- {
- const cpp_token *t = &e->code[i];
- const cpp_token *n = i < e->code.length () - 1 ? &e->code[i+1] : NULL;
- if (t->type == CPP_NAME
- && strcmp ((const char *)CPP_HASHNODE
- (t->val.node.node)->ident.str, "TREE_TYPE") == 0
- && n->type == CPP_OPEN_PAREN)
- p_depth++;
- else if (t->type == CPP_CLOSE_PAREN
- && p_depth > 0)
- p_depth--;
- else if (p_depth == 0
- && t->type == CPP_ATSIGN
- && (n->type == CPP_NUMBER
- || n->type == CPP_NAME)
- && !(n->flags & PREV_WHITE))
- {
- const char *id;
- if (n->type == CPP_NUMBER)
- id = (const char *)n->val.str.text;
- else
- id = (const char *)CPP_HASHNODE (n->val.node.node)->ident.str;
- info[*e->capture_ids->get(id)].force_no_side_effects_p = true;
- }
- }
-}
-
/* Generate code for the '(if ...)', '(with ..)' and actual transform
step of a '(simplify ...)' or '(match ...)'. This handles everything
{
fprintf (f, "{\n");
output_line_directive (f, w.location);
- w.cexpr->gen_transform (f, NULL, true, 1, "type");
+ w.cexpr->gen_transform (f, NULL, true, 1, "type", NULL);
n_braces++;
}
else
fprintf (f, "if (");
if (i == s->ifexpr_vec.length () - 1
|| s->ifexpr_vec[i+1].is_with)
- w.cexpr->gen_transform (f, NULL, true, 1, "type");
+ w.cexpr->gen_transform (f, NULL, true, 1, "type", NULL);
else
{
unsigned j = i;
}
fprintf (f, "(");
s->ifexpr_vec[j].cexpr->gen_transform (f, NULL,
- true, 1, "type");
+ true, 1, "type",
+ NULL);
fprintf (f, ")");
++j;
}
"type", e->expr_type,
j == 0
? NULL : "TREE_TYPE (res_ops[0])");
- e->ops[j]->gen_transform (f, dest, true, 1, optype, indexes);
+ /* We need to expand GENERIC conditions we captured from
+ COND_EXPRs. */
+ bool expand_generic_cond_exprs_p
+ = (!is_predicate
+ /* But avoid doing that if the GENERIC condition is
+ valid - which it is in the first operand of COND_EXPRs
+ and VEC_COND_EXRPs. */
+ && ((!(*e->operation == COND_EXPR)
+ && !(*e->operation == VEC_COND_EXPR))
+ || j != 0));
+ e->ops[j]->gen_transform (f, dest, true, 1, optype, &cinfo,
+ indexes, expand_generic_cond_exprs_p);
}
/* Re-fold the toplevel result. It's basically an embedded
else if (result->type == operand::OP_CAPTURE
|| result->type == operand::OP_C_EXPR)
{
- result->gen_transform (f, "res_ops[0]", true, 1, "type", indexes);
+ result->gen_transform (f, "res_ops[0]", true, 1, "type",
+ &cinfo, indexes, false);
fprintf (f, "*res_code = TREE_CODE (res_ops[0]);\n");
+ if (is_a <capture *> (result)
+ && cinfo.info[as_a <capture *> (result)->where].cond_expr_cond_p)
+ {
+ /* ??? Stupid tcc_comparison GENERIC trees in COND_EXPRs. Deal
+ with substituting a capture of that. */
+ fprintf (f, "if (COMPARISON_CLASS_P (res_ops[0]))\n"
+ " {\n"
+ " tree tem = res_ops[0];\n"
+ " res_ops[0] = TREE_OPERAND (tem, 0);\n"
+ " res_ops[1] = TREE_OPERAND (tem, 1);\n"
+ " }\n");
+ }
}
else
gcc_unreachable ();
"type", e->expr_type,
j == 0
? NULL : "TREE_TYPE (res_op0)");
- e->ops[j]->gen_transform (f, dest, false, 1, optype, indexes);
+ e->ops[j]->gen_transform (f, dest, false, 1, optype,
+ &cinfo, indexes);
}
if (is_predicate)
fprintf (f, "return true;\n");
{
fprintf (f, " tree res;\n");
- s->result->gen_transform (f, " res", false, 1, "type", indexes);
+ s->result->gen_transform (f, " res", false, 1, "type",
+ &cinfo, indexes);
}
else
gcc_unreachable ();
for (unsigned i = 0; i < p.user_predicates.length (); ++i)
{
predicate_id *pred = p.user_predicates[i];
- lower (pred->matchers);
+ lower (pred->matchers, gimple);
if (verbose)
for (unsigned i = 0; i < pred->matchers.length (); ++i)
}
/* Lower the main simplifiers and generate code for them. */
- lower (p.simplifiers);
+ lower (p.simplifiers, gimple);
if (verbose)
for (unsigned i = 0; i < p.simplifiers.length (); ++i)
projects / thirdparty / gcc.git / commitdiff
