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69896a2cd1
These methods now take/return a type_instance_flags instead of a raw integer, so rename them accordingly. gdb/ChangeLog: * c-typeprint.c (c_type_print_modifier): Adjust to rename. * gdbtypes.c (address_space_name_to_int): Rename to ... (address_space_name_to_type_instance_flags): ... this. (address_space_int_to_name): Rename to ... (address_space_type_instance_flags_to_name): ... this. * gdbtypes.h (address_space_name_to_int): Rename to ... (address_space_name_to_type_instance_flags): ... this. (address_space_int_to_name): Rename to ... (address_space_type_instance_flags_to_name): ... this. * type-stack.c (type_stack::insert): Adjust to rename. * type-stack.h (type_stack::insert): Likewise.
207 lines
5.5 KiB
C++
207 lines
5.5 KiB
C++
/* Type stack for GDB parser.
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Copyright (C) 1986-2020 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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#ifndef TYPE_STACK_H
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#define TYPE_STACK_H
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#include "gdbtypes.h"
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#include <vector>
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struct type;
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struct expr_builder;
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/* For parsing of complicated types.
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An array should be preceded in the list by the size of the array. */
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enum type_pieces
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{
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tp_end = -1,
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tp_pointer,
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tp_reference,
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tp_rvalue_reference,
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tp_array,
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tp_function,
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tp_function_with_arguments,
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tp_const,
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tp_volatile,
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tp_space_identifier,
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tp_atomic,
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tp_restrict,
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tp_type_stack,
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tp_kind
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};
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/* The stack can contain either an enum type_pieces or an int. */
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union type_stack_elt
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{
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enum type_pieces piece;
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int int_val;
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struct type_stack *stack_val;
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std::vector<struct type *> *typelist_val;
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};
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/* The type stack is an instance of this structure. */
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struct type_stack
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{
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public:
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type_stack () = default;
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DISABLE_COPY_AND_ASSIGN (type_stack);
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type_stack *create ()
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{
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type_stack *result = new type_stack ();
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result->m_elements = std::move (m_elements);
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return result;
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}
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/* Insert a new type, TP, at the bottom of the type stack. If TP is
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tp_pointer, tp_reference or tp_rvalue_reference, it is inserted at the
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bottom. If TP is a qualifier, it is inserted at slot 1 (just above a
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previous tp_pointer) if there is anything on the stack, or simply pushed
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if the stack is empty. Other values for TP are invalid. */
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void insert (enum type_pieces tp);
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void push (enum type_pieces tp)
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{
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type_stack_elt elt;
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elt.piece = tp;
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m_elements.push_back (elt);
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}
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void push (int n)
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{
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type_stack_elt elt;
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elt.int_val = n;
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m_elements.push_back (elt);
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}
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/* Push the type stack STACK as an element on this type stack. */
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void push (struct type_stack *stack)
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{
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type_stack_elt elt;
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elt.stack_val = stack;
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m_elements.push_back (elt);
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push (tp_type_stack);
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}
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/* Push a function type with arguments onto the global type stack.
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LIST holds the argument types. If the final item in LIST is NULL,
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then the function will be varargs. */
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void push (std::vector<struct type *> *list)
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{
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type_stack_elt elt;
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elt.typelist_val = list;
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m_elements.push_back (elt);
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push (tp_function_with_arguments);
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}
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enum type_pieces pop ()
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{
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if (m_elements.empty ())
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return tp_end;
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type_stack_elt elt = m_elements.back ();
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m_elements.pop_back ();
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return elt.piece;
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}
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int pop_int ()
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{
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if (m_elements.empty ())
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{
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/* "Can't happen". */
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return 0;
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}
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type_stack_elt elt = m_elements.back ();
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m_elements.pop_back ();
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return elt.int_val;
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}
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std::vector<struct type *> *pop_typelist ()
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{
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gdb_assert (!m_elements.empty ());
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type_stack_elt elt = m_elements.back ();
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m_elements.pop_back ();
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return elt.typelist_val;
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}
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/* Pop a type_stack element. */
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struct type_stack *pop_type_stack ()
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{
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gdb_assert (!m_elements.empty ());
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type_stack_elt elt = m_elements.back ();
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m_elements.pop_back ();
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return elt.stack_val;
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}
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/* Insert a tp_space_identifier and the corresponding address space
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value into the stack. STRING is the name of an address space, as
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recognized by address_space_name_to_type_instance_flags. If the
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stack is empty, the new elements are simply pushed. If the stack
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is not empty, this function assumes that the first item on the
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stack is a tp_pointer, and the new values are inserted above the
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first item. */
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void insert (struct expr_builder *pstate, const char *string);
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/* Append the elements of the type stack FROM to the type stack
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THIS. Always returns THIS. */
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struct type_stack *append (struct type_stack *from)
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{
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m_elements.insert (m_elements.end (), from->m_elements.begin (),
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from->m_elements.end ());
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return this;
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}
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/* Pop the type stack and return a type_instance_flags that
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corresponds the const/volatile qualifiers on the stack. This is
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called by the C++ parser when parsing methods types, and as such no
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other kind of type in the type stack is expected. */
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type_instance_flags follow_type_instance_flags ();
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/* Pop the type stack and return the type which corresponds to
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FOLLOW_TYPE as modified by all the stuff on the stack. */
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struct type *follow_types (struct type *follow_type);
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private:
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/* A helper function for insert_type and insert_type_address_space.
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This does work of expanding the type stack and inserting the new
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element, ELEMENT, into the stack at location SLOT. */
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void insert_into (int slot, union type_stack_elt element)
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{
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gdb_assert (slot <= m_elements.size ());
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m_elements.insert (m_elements.begin () + slot, element);
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}
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/* Elements on the stack. */
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std::vector<union type_stack_elt> m_elements;
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};
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#endif /* TYPE_STACK_H */
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