/* Data structure definitions for a generic GCC target.
- Copyright (C) 2001-2017 Free Software Foundation, Inc.
+ Copyright (C) 2001-2020 Free Software Foundation, Inc.
This program is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
struct ddg;
/* This is defined in cfgloop.h . */
-struct loop;
+class loop;
/* This is defined in ifcvt.h. */
struct noce_if_info;
/* This is defined in tree-ssa-alias.h. */
-struct ao_ref;
+class ao_ref;
/* This is defined in tree-vectorizer.h. */
-struct _stmt_vec_info;
+class _stmt_vec_info;
+
+/* This is defined in calls.h. */
+class function_arg_info;
+
+/* This is defined in function-abi.h. */
+class predefined_function_abi;
/* These are defined in tree-vect-stmts.c. */
-extern tree stmt_vectype (struct _stmt_vec_info *);
-extern bool stmt_in_inner_loop_p (struct _stmt_vec_info *);
+extern tree stmt_vectype (class _stmt_vec_info *);
+extern bool stmt_in_inner_loop_p (class vec_info *, class _stmt_vec_info *);
/* Assembler instructions for creating various kinds of integer object. */
struct asm_int_op
{
const char *hi;
+ const char *psi;
const char *si;
+ const char *pdi;
const char *di;
+ const char *pti;
const char *ti;
};
scalar_store,
vector_stmt,
vector_load,
+ vector_gather_load,
unaligned_load,
unaligned_store,
vector_store,
+ vector_scatter_store,
vec_to_scalar,
scalar_to_vec,
cond_branch_not_taken,
vect_epilogue = 2
};
-/* The type to use for vector permutes with a constant permute vector.
- Each entry is an index into the concatenated input vectors. */
-typedef vec<unsigned short> vec_perm_indices;
+class vec_perm_indices;
+
+/* The type to use for lists of vector sizes. */
+typedef vec<machine_mode> vector_modes;
-/* Same, but can be used to construct local permute vectors that are
+/* Same, but can be used to construct local lists that are
automatically freed. */
-typedef auto_vec<unsigned short, 32> auto_vec_perm_indices;
+typedef auto_vec<machine_mode, 8> auto_vector_modes;
+
+/* First argument of targetm.omp.device_kind_arch_isa. */
+enum omp_device_kind_arch_isa {
+ omp_device_kind,
+ omp_device_arch,
+ omp_device_isa
+};
+
+/* Flags returned by TARGET_VECTORIZE_AUTOVECTORIZE_VECTOR_MODES:
+
+ VECT_COMPARE_COSTS
+ Tells the loop vectorizer to try all the provided modes and
+ pick the one with the lowest cost. By default the vectorizer
+ will choose the first mode that works. */
+const unsigned int VECT_COMPARE_COSTS = 1U << 0;
+
+/* The contexts in which the use of a type T can be checked by
+ TARGET_VERIFY_TYPE_CONTEXT. */
+enum type_context_kind {
+ /* Directly measuring the size of T. */
+ TCTX_SIZEOF,
+
+ /* Directly measuring the alignment of T. */
+ TCTX_ALIGNOF,
+
+ /* Creating objects of type T with static storage duration. */
+ TCTX_STATIC_STORAGE,
+
+ /* Creating objects of type T with thread-local storage duration. */
+ TCTX_THREAD_STORAGE,
+
+ /* Creating a field of type T. */
+ TCTX_FIELD,
+
+ /* Creating an array with elements of type T. */
+ TCTX_ARRAY_ELEMENT,
+
+ /* Adding to or subtracting from a pointer to T, or computing the
+ difference between two pointers when one of them is a pointer to T. */
+ TCTX_POINTER_ARITH,
+
+ /* Dynamically allocating objects of type T. */
+ TCTX_ALLOCATION,
+
+ /* Dynamically deallocating objects of type T. */
+ TCTX_DEALLOCATION,
+
+ /* Throwing or catching an object of type T. */
+ TCTX_EXCEPTIONS,
+
+ /* Capturing objects of type T by value in a closure. */
+ TCTX_CAPTURE_BY_COPY
+};
+
+extern bool verify_type_context (location_t, type_context_kind, const_tree,
+ bool = false);
/* The target structure. This holds all the backend hooks. */
#define DEFHOOKPOD(NAME, DOC, TYPE, INIT) TYPE NAME;
extern struct gcc_target targetm;
+/* Return an estimate of the runtime value of X, for use in things
+ like cost calculations or profiling frequencies. Note that this
+ function should never be used in situations where the actual
+ runtime value is needed for correctness, since the function only
+ provides a rough guess. */
+
+static inline HOST_WIDE_INT
+estimated_poly_value (poly_int64 x)
+{
+ if (NUM_POLY_INT_COEFFS == 1)
+ return x.coeffs[0];
+ else
+ return targetm.estimated_poly_value (x);
+}
+
#ifdef GCC_TM_H
#ifndef CUMULATIVE_ARGS_MAGIC