/* Header file for GDB compile C++ language support.
Copyright (C) 2016-2020 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 Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see . */
#ifndef COMPILE_COMPILE_CPLUS_H
#define COMPILE_COMPILE_CPLUS_H
#include "gdbsupport/enum-flags.h"
#include "gcc-cp-plugin.h"
#include "symtab.h"
struct type;
struct block;
/* enum-flags wrapper */
DEF_ENUM_FLAGS_TYPE (enum gcc_cp_qualifiers, gcc_cp_qualifiers_flags);
DEF_ENUM_FLAGS_TYPE (enum gcc_cp_ref_qualifiers, gcc_cp_ref_qualifiers_flags);
DEF_ENUM_FLAGS_TYPE (enum gcc_cp_symbol_kind, gcc_cp_symbol_kind_flags);
class compile_cplus_instance;
/* A single component of a type's scope. Type names are broken into
"components," a series of unqualified names comprising the type name,
e.g., "namespace1", "namespace2", "myclass". */
struct scope_component
{
/* The unqualified name of this scope. */
std::string name;
/* The block symbol for this type/scope. */
struct block_symbol bsymbol;
};
/* Comparison operators for scope_components. */
bool operator== (const scope_component &lhs, const scope_component &rhs);
bool operator!= (const scope_component &lhs, const scope_component &rhs);
/* A single compiler scope used to define a type.
A compile_scope is a list of scope_components, where all leading
scope_components are namespaces, followed by a single non-namespace
type component (the actual type we are converting). */
class compile_scope : private std::vector
{
public:
using std::vector::push_back;
using std::vector::pop_back;
using std::vector::back;
using std::vector::empty;
using std::vector::size;
using std::vector::begin;
using std::vector::end;
using std::vector::operator[];
compile_scope ()
: m_nested_type (GCC_TYPE_NONE), m_pushed (false)
{
}
/* Return the gcc_type of the type if it is a nested definition.
Returns GCC_TYPE_NONE if this type was not nested. */
gcc_type nested_type ()
{
return m_nested_type;
}
private:
/* compile_cplus_instance is a friend class so that it can set the
following private members when compile_scopes are created. */
friend compile_cplus_instance;
/* If the type was actually a nested type, this will hold that nested
type after the scope is pushed. */
gcc_type m_nested_type;
/* If true, this scope was pushed to the compiler and all namespaces
must be popped when leaving the scope. */
bool m_pushed;
};
/* Comparison operators for compile_scopes. */
bool operator== (const compile_scope &lhs, const compile_scope &rhs);
bool operator!= (const compile_scope &lhs, const compile_scope &rhs);
/* Convert TYPENAME into a vector of namespace and top-most/super
composite scopes.
For example, for the input "Namespace::classB::classInner", the
resultant vector will contain the tokens "Namespace" and
"classB". */
compile_scope type_name_to_scope (const char *type_name,
const struct block *block);
/* A callback suitable for use as the GCC C++ symbol oracle. */
extern gcc_cp_oracle_function gcc_cplus_convert_symbol;
/* A callback suitable for use as the GCC C++ address oracle. */
extern gcc_cp_symbol_address_function gcc_cplus_symbol_address;
/* A subclass of compile_instance that is specific to the C++ front
end. */
class compile_cplus_instance : public compile_instance
{
public:
explicit compile_cplus_instance (struct gcc_cp_context *gcc_cp)
: compile_instance (&gcc_cp->base, m_default_cflags),
m_plugin (gcc_cp)
{
m_plugin.set_callbacks (gcc_cplus_convert_symbol,
gcc_cplus_symbol_address,
gcc_cplus_enter_scope, gcc_cplus_leave_scope,
this);
}
/* Convert a gdb type, TYPE, to a GCC type.
If this type was defined in another type, NESTED_ACCESS should indicate
the accessibility of this type (or GCC_CP_ACCESS_NONE if not a nested
type). GCC_CP_ACCESS_NONE is the default nested access.
The new GCC type is returned. */
gcc_type convert_type
(struct type *type,
enum gcc_cp_symbol_kind nested_access = GCC_CP_ACCESS_NONE);
/* Return a handle for the GCC plug-in. */
gcc_cp_plugin &plugin () { return m_plugin; }
/* Factory method to create a new scope based on TYPE with name TYPE_NAME.
[TYPE_NAME could be TYPE_NAME or SYMBOL_NATURAL_NAME.]
If TYPE is a nested or local definition, nested_type () will return
the gcc_type of the conversion.
Otherwise, nested_type () is GCC_TYPE_NONE. */
compile_scope new_scope (const char *type_name, struct type *type);
/* Enter the given NEW_SCOPE. */
void enter_scope (compile_scope &&scope);
/* Leave the current scope. */
void leave_scope ();
/* Add the qualifiers given by QUALS to BASE. */
gcc_type convert_qualified_base (gcc_type base,
gcc_cp_qualifiers_flags quals);
/* Convert TARGET into a pointer type. */
gcc_type convert_pointer_base (gcc_type target);
/* Convert BASE into a reference type. RQUALS describes the reference. */
gcc_type convert_reference_base (gcc_type base,
enum gcc_cp_ref_qualifiers rquals);
/* Return the declaration name of the symbol named NATURAL.
This returns a name with no function arguments or template parameters,
suitable for passing to the compiler plug-in. */
static gdb::unique_xmalloc_ptr decl_name (const char *natural);
private:
/* Callbacks suitable for use as the GCC C++ enter/leave scope requests. */
static gcc_cp_enter_leave_user_expr_scope_function gcc_cplus_enter_scope;
static gcc_cp_enter_leave_user_expr_scope_function gcc_cplus_leave_scope;
/* Default compiler flags for C++. */
static const char *m_default_cflags;
/* The GCC plug-in. */
gcc_cp_plugin m_plugin;
/* A list of scopes we are processing. */
std::vector m_scopes;
};
/* Get the access flag for the NUM'th method of TYPE's FNI'th
fieldlist. */
enum gcc_cp_symbol_kind get_method_access_flag (const struct type *type,
int fni, int num);
#endif /* COMPILE_COMPILE_CPLUS_H */