61baf725ec
This applies the second part of GDB's End of Year Procedure, which updates the copyright year range in all of GDB's files. gdb/ChangeLog: Update copyright year range in all GDB files.
438 lines
12 KiB
C
438 lines
12 KiB
C
/* Convert types from GDB to GCC
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Copyright (C) 2014-2017 Free Software Foundation, Inc.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#include "defs.h"
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#include "gdbtypes.h"
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#include "compile-internal.h"
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/* An object that maps a gdb type to a gcc type. */
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struct type_map_instance
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{
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/* The gdb type. */
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struct type *type;
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/* The corresponding gcc type handle. */
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gcc_type gcc_type_handle;
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};
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/* Hash a type_map_instance. */
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static hashval_t
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hash_type_map_instance (const void *p)
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{
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const struct type_map_instance *inst = (const struct type_map_instance *) p;
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return htab_hash_pointer (inst->type);
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}
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/* Check two type_map_instance objects for equality. */
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static int
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eq_type_map_instance (const void *a, const void *b)
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{
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const struct type_map_instance *insta = (const struct type_map_instance *) a;
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const struct type_map_instance *instb = (const struct type_map_instance *) b;
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return insta->type == instb->type;
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}
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/* Insert an entry into the type map associated with CONTEXT that maps
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from the gdb type TYPE to the gcc type GCC_TYPE. It is ok for a
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given type to be inserted more than once, provided that the exact
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same association is made each time. This simplifies how type
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caching works elsewhere in this file -- see how struct type caching
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is handled. */
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static void
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insert_type (struct compile_c_instance *context, struct type *type,
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gcc_type gcc_type)
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{
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struct type_map_instance inst, *add;
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void **slot;
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inst.type = type;
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inst.gcc_type_handle = gcc_type;
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slot = htab_find_slot (context->type_map, &inst, INSERT);
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add = (struct type_map_instance *) *slot;
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/* The type might have already been inserted in order to handle
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recursive types. */
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if (add != NULL && add->gcc_type_handle != gcc_type)
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error (_("Unexpected type id from GCC, check you use recent enough GCC."));
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if (add == NULL)
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{
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add = XNEW (struct type_map_instance);
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*add = inst;
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*slot = add;
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}
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}
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/* Convert a pointer type to its gcc representation. */
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static gcc_type
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convert_pointer (struct compile_c_instance *context, struct type *type)
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{
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gcc_type target = convert_type (context, TYPE_TARGET_TYPE (type));
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return C_CTX (context)->c_ops->build_pointer_type (C_CTX (context),
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target);
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}
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/* Convert an array type to its gcc representation. */
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static gcc_type
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convert_array (struct compile_c_instance *context, struct type *type)
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{
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gcc_type element_type;
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struct type *range = TYPE_INDEX_TYPE (type);
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element_type = convert_type (context, TYPE_TARGET_TYPE (type));
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if (TYPE_LOW_BOUND_KIND (range) != PROP_CONST)
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return C_CTX (context)->c_ops->error (C_CTX (context),
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_("array type with non-constant"
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" lower bound is not supported"));
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if (TYPE_LOW_BOUND (range) != 0)
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return C_CTX (context)->c_ops->error (C_CTX (context),
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_("cannot convert array type with "
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"non-zero lower bound to C"));
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if (TYPE_HIGH_BOUND_KIND (range) == PROP_LOCEXPR
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|| TYPE_HIGH_BOUND_KIND (range) == PROP_LOCLIST)
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{
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gcc_type result;
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char *upper_bound;
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if (TYPE_VECTOR (type))
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return C_CTX (context)->c_ops->error (C_CTX (context),
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_("variably-sized vector type"
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" is not supported"));
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upper_bound = c_get_range_decl_name (&TYPE_RANGE_DATA (range)->high);
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result = C_CTX (context)->c_ops->build_vla_array_type (C_CTX (context),
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element_type,
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upper_bound);
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xfree (upper_bound);
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return result;
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}
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else
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{
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LONGEST low_bound, high_bound, count;
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if (get_array_bounds (type, &low_bound, &high_bound) == 0)
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count = -1;
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else
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{
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gdb_assert (low_bound == 0); /* Ensured above. */
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count = high_bound + 1;
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}
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if (TYPE_VECTOR (type))
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return C_CTX (context)->c_ops->build_vector_type (C_CTX (context),
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element_type,
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count);
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return C_CTX (context)->c_ops->build_array_type (C_CTX (context),
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element_type, count);
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}
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}
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/* Convert a struct or union type to its gcc representation. */
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static gcc_type
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convert_struct_or_union (struct compile_c_instance *context, struct type *type)
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{
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int i;
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gcc_type result;
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/* First we create the resulting type and enter it into our hash
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table. This lets recursive types work. */
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if (TYPE_CODE (type) == TYPE_CODE_STRUCT)
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result = C_CTX (context)->c_ops->build_record_type (C_CTX (context));
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else
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{
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gdb_assert (TYPE_CODE (type) == TYPE_CODE_UNION);
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result = C_CTX (context)->c_ops->build_union_type (C_CTX (context));
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}
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insert_type (context, type, result);
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for (i = 0; i < TYPE_NFIELDS (type); ++i)
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{
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gcc_type field_type;
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unsigned long bitsize = TYPE_FIELD_BITSIZE (type, i);
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field_type = convert_type (context, TYPE_FIELD_TYPE (type, i));
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if (bitsize == 0)
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bitsize = 8 * TYPE_LENGTH (TYPE_FIELD_TYPE (type, i));
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C_CTX (context)->c_ops->build_add_field (C_CTX (context), result,
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TYPE_FIELD_NAME (type, i),
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field_type,
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bitsize,
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TYPE_FIELD_BITPOS (type, i));
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}
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C_CTX (context)->c_ops->finish_record_or_union (C_CTX (context), result,
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TYPE_LENGTH (type));
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return result;
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}
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/* Convert an enum type to its gcc representation. */
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static gcc_type
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convert_enum (struct compile_c_instance *context, struct type *type)
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{
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gcc_type int_type, result;
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int i;
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struct gcc_c_context *ctx = C_CTX (context);
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int_type = ctx->c_ops->int_type (ctx,
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TYPE_UNSIGNED (type),
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TYPE_LENGTH (type));
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result = ctx->c_ops->build_enum_type (ctx, int_type);
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for (i = 0; i < TYPE_NFIELDS (type); ++i)
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{
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ctx->c_ops->build_add_enum_constant (ctx,
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result,
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TYPE_FIELD_NAME (type, i),
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TYPE_FIELD_ENUMVAL (type, i));
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}
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ctx->c_ops->finish_enum_type (ctx, result);
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return result;
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}
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/* Convert a function type to its gcc representation. */
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static gcc_type
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convert_func (struct compile_c_instance *context, struct type *type)
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{
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int i;
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gcc_type result, return_type;
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struct gcc_type_array array;
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int is_varargs = TYPE_VARARGS (type) || !TYPE_PROTOTYPED (type);
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/* This approach means we can't make self-referential function
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types. Those are impossible in C, though. */
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return_type = convert_type (context, TYPE_TARGET_TYPE (type));
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array.n_elements = TYPE_NFIELDS (type);
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array.elements = XNEWVEC (gcc_type, TYPE_NFIELDS (type));
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for (i = 0; i < TYPE_NFIELDS (type); ++i)
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array.elements[i] = convert_type (context, TYPE_FIELD_TYPE (type, i));
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result = C_CTX (context)->c_ops->build_function_type (C_CTX (context),
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return_type,
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&array, is_varargs);
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xfree (array.elements);
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return result;
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}
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/* Convert an integer type to its gcc representation. */
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static gcc_type
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convert_int (struct compile_c_instance *context, struct type *type)
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{
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return C_CTX (context)->c_ops->int_type (C_CTX (context),
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TYPE_UNSIGNED (type),
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TYPE_LENGTH (type));
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}
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/* Convert a floating-point type to its gcc representation. */
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static gcc_type
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convert_float (struct compile_c_instance *context, struct type *type)
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{
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return C_CTX (context)->c_ops->float_type (C_CTX (context),
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TYPE_LENGTH (type));
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}
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/* Convert the 'void' type to its gcc representation. */
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static gcc_type
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convert_void (struct compile_c_instance *context, struct type *type)
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{
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return C_CTX (context)->c_ops->void_type (C_CTX (context));
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}
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/* Convert a boolean type to its gcc representation. */
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static gcc_type
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convert_bool (struct compile_c_instance *context, struct type *type)
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{
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return C_CTX (context)->c_ops->bool_type (C_CTX (context));
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}
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/* Convert a qualified type to its gcc representation. */
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static gcc_type
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convert_qualified (struct compile_c_instance *context, struct type *type)
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{
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struct type *unqual = make_unqualified_type (type);
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gcc_type unqual_converted;
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gcc_qualifiers_flags quals = 0;
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unqual_converted = convert_type (context, unqual);
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if (TYPE_CONST (type))
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quals |= GCC_QUALIFIER_CONST;
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if (TYPE_VOLATILE (type))
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quals |= GCC_QUALIFIER_VOLATILE;
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if (TYPE_RESTRICT (type))
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quals |= GCC_QUALIFIER_RESTRICT;
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return C_CTX (context)->c_ops->build_qualified_type (C_CTX (context),
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unqual_converted,
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quals);
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}
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/* Convert a complex type to its gcc representation. */
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static gcc_type
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convert_complex (struct compile_c_instance *context, struct type *type)
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{
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gcc_type base = convert_type (context, TYPE_TARGET_TYPE (type));
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return C_CTX (context)->c_ops->build_complex_type (C_CTX (context), base);
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}
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/* A helper function which knows how to convert most types from their
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gdb representation to the corresponding gcc form. This examines
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the TYPE and dispatches to the appropriate conversion function. It
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returns the gcc type. */
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static gcc_type
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convert_type_basic (struct compile_c_instance *context, struct type *type)
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{
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/* If we are converting a qualified type, first convert the
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unqualified type and then apply the qualifiers. */
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if ((TYPE_INSTANCE_FLAGS (type) & (TYPE_INSTANCE_FLAG_CONST
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| TYPE_INSTANCE_FLAG_VOLATILE
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| TYPE_INSTANCE_FLAG_RESTRICT)) != 0)
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return convert_qualified (context, type);
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switch (TYPE_CODE (type))
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{
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case TYPE_CODE_PTR:
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return convert_pointer (context, type);
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case TYPE_CODE_ARRAY:
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return convert_array (context, type);
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case TYPE_CODE_STRUCT:
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case TYPE_CODE_UNION:
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return convert_struct_or_union (context, type);
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case TYPE_CODE_ENUM:
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return convert_enum (context, type);
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case TYPE_CODE_FUNC:
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return convert_func (context, type);
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case TYPE_CODE_INT:
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return convert_int (context, type);
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case TYPE_CODE_FLT:
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return convert_float (context, type);
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case TYPE_CODE_VOID:
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return convert_void (context, type);
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case TYPE_CODE_BOOL:
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return convert_bool (context, type);
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case TYPE_CODE_COMPLEX:
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return convert_complex (context, type);
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}
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return C_CTX (context)->c_ops->error (C_CTX (context),
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_("cannot convert gdb type "
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"to gcc type"));
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}
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/* See compile-internal.h. */
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gcc_type
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convert_type (struct compile_c_instance *context, struct type *type)
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{
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struct type_map_instance inst, *found;
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gcc_type result;
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/* We don't ever have to deal with typedefs in this code, because
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those are only needed as symbols by the C compiler. */
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type = check_typedef (type);
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inst.type = type;
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found = (struct type_map_instance *) htab_find (context->type_map, &inst);
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if (found != NULL)
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return found->gcc_type_handle;
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result = convert_type_basic (context, type);
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insert_type (context, type, result);
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return result;
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}
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/* Delete the compiler instance C. */
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static void
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delete_instance (struct compile_instance *c)
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{
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struct compile_c_instance *context = (struct compile_c_instance *) c;
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context->base.fe->ops->destroy (context->base.fe);
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htab_delete (context->type_map);
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if (context->symbol_err_map != NULL)
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htab_delete (context->symbol_err_map);
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xfree (context);
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}
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/* See compile-internal.h. */
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struct compile_instance *
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new_compile_instance (struct gcc_c_context *fe)
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{
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struct compile_c_instance *result = XCNEW (struct compile_c_instance);
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result->base.fe = &fe->base;
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result->base.destroy = delete_instance;
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result->base.gcc_target_options = ("-std=gnu11"
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/* Otherwise the .o file may need
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"_Unwind_Resume" and
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"__gcc_personality_v0". */
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" -fno-exceptions");
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result->type_map = htab_create_alloc (10, hash_type_map_instance,
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eq_type_map_instance,
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xfree, xcalloc, xfree);
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fe->c_ops->set_callbacks (fe, gcc_convert_symbol,
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gcc_symbol_address, result);
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return &result->base;
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}
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