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/* Parser definitions for GDB.
Copyright (C) 1986-2021 Free Software Foundation, Inc.
Modified from expread.y by the Department of Computer Science at the
State University of New York at Buffalo.
This file is part of GDB.
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 <http://www.gnu.org/licenses/>. */
#if !defined (PARSER_DEFS_H)
#define PARSER_DEFS_H 1
#include "expression.h"
#include "symtab.h"
#include "expop.h"
struct block;
struct language_defn;
struct internalvar;
class innermost_block_tracker;
extern bool parser_debug;
/* A class that can be used to build a "struct expression". */
struct expr_builder
{
/* Constructor. LANG is the language used to parse the expression.
And GDBARCH is the gdbarch to use during parsing. */
expr_builder (const struct language_defn *lang,
struct gdbarch *gdbarch);
DISABLE_COPY_AND_ASSIGN (expr_builder);
/* Resize the allocated expression to the correct size, and return
it as an expression_up -- passing ownership to the caller. */
ATTRIBUTE_UNUSED_RESULT expression_up release ();
/* Return the gdbarch that was passed to the constructor. */
struct gdbarch *gdbarch ()
{
return expout->gdbarch;
}
/* Return the language that was passed to the constructor. */
const struct language_defn *language ()
{
return expout->language_defn;
}
/* Set the root operation of the expression that is currently being
built. */
void set_operation (expr::operation_up &&op)
{
expout->op = std::move (op);
}
/* The expression related to this parser state. */
expression_up expout;
};
/* This is used for expression completion. */
struct expr_completion_state
{
/* The last struct expression directly before a '.' or '->'. This
is set when parsing and is only used when completing a field
name. It is nullptr if no dereference operation was found. */
expr::structop_base_operation *expout_last_op = nullptr;
/* If we are completing a tagged type name, this will be nonzero. */
enum type_code expout_tag_completion_type = TYPE_CODE_UNDEF;
/* The token for tagged type name completion. */
gdb::unique_xmalloc_ptr<char> expout_completion_name;
};
/* An instance of this type is instantiated during expression parsing,
and passed to the appropriate parser. It holds both inputs to the
parser, and result. */
struct parser_state : public expr_builder
{
/* Constructor. LANG is the language used to parse the expression.
And GDBARCH is the gdbarch to use during parsing. */
parser_state (const struct language_defn *lang,
struct gdbarch *gdbarch,
const struct block *context_block,
CORE_ADDR context_pc,
int comma,
const char *input,
int completion,
innermost_block_tracker *tracker,
bool void_p)
: expr_builder (lang, gdbarch),
expression_context_block (context_block),
expression_context_pc (context_pc),
comma_terminates (comma),
lexptr (input),
parse_completion (completion),
block_tracker (tracker),
void_context_p (void_p)
{
}
DISABLE_COPY_AND_ASSIGN (parser_state);
/* Begin counting arguments for a function call,
saving the data about any containing call. */
void start_arglist ()
{
m_funcall_chain.push_back (arglist_len);
arglist_len = 0;
}
/* Return the number of arguments in a function call just terminated,
and restore the data for the containing function call. */
int end_arglist ()
{
int val = arglist_len;
arglist_len = m_funcall_chain.back ();
m_funcall_chain.pop_back ();
return val;
}
/* Mark the given operation as the starting location of a structure
expression. This is used when completing on field names. */
void mark_struct_expression (expr::structop_base_operation *op);
/* Indicate that the current parser invocation is completing a tag.
TAG is the type code of the tag, and PTR and LENGTH represent the
start of the tag name. */
void mark_completion_tag (enum type_code tag, const char *ptr, int length);
/* Push an operation on the stack. */
void push (expr::operation_up &&op)
{
m_operations.push_back (std::move (op));
}
/* Create a new operation and push it on the stack. */
template<typename T, typename... Arg>
void push_new (Arg... args)
{
m_operations.emplace_back (new T (std::forward<Arg> (args)...));
}
/* Push a new C string operation. */
void push_c_string (int, struct stoken_vector *vec);
/* Push a symbol reference. If SYM is nullptr, look for a minimal
symbol. */
void push_symbol (const char *name, block_symbol sym);
/* Push a reference to $mumble. This may result in a convenience
variable, a history reference, or a register. */
void push_dollar (struct stoken str);
/* Pop an operation from the stack. */
expr::operation_up pop ()
{
expr::operation_up result = std::move (m_operations.back ());
m_operations.pop_back ();
return result;
}
/* Pop N elements from the stack and return a vector. */
std::vector<expr::operation_up> pop_vector (int n)
{
std::vector<expr::operation_up> result (n);
for (int i = 1; i <= n; ++i)
result[n - i] = pop ();
return result;
}
/* A helper that pops an operation, wraps it in some other
operation, and pushes it again. */
template<typename T>
void wrap ()
{
using namespace expr;
operation_up v = ::expr::make_operation<T> (pop ());
push (std::move (v));
}
/* A helper that pops two operations, wraps them in some other
operation, and pushes the result. */
template<typename T>
void wrap2 ()
{
expr::operation_up rhs = pop ();
expr::operation_up lhs = pop ();
push (expr::make_operation<T> (std::move (lhs), std::move (rhs)));
}
/* If this is nonzero, this block is used as the lexical context for
symbol names. */
const struct block * const expression_context_block;
/* If expression_context_block is non-zero, then this is the PC
within the block that we want to evaluate expressions at. When
debugging C or C++ code, we use this to find the exact line we're
at, and then look up the macro definitions active at that
point. */
const CORE_ADDR expression_context_pc;
/* Nonzero means stop parsing on first comma (if not within parentheses). */
int comma_terminates;
/* During parsing of a C expression, the pointer to the next character
is in this variable. */
const char *lexptr;
/* After a token has been recognized, this variable points to it.
Currently used only for error reporting. */
const char *prev_lexptr = nullptr;
/* Number of arguments seen so far in innermost function call. */
int arglist_len = 0;
/* True if parsing an expression to attempt completion. */
int parse_completion;
/* Completion state is updated here. */
expr_completion_state m_completion_state;
/* The innermost block tracker. */
innermost_block_tracker *block_tracker;
/* True if no value is expected from the expression. */
bool void_context_p;
private:
/* Data structure for saving values of arglist_len for function calls whose
arguments contain other function calls. */
std::vector<int> m_funcall_chain;
/* Stack of operations. */
std::vector<expr::operation_up> m_operations;
};
/* When parsing expressions we track the innermost block that was
referenced. */
class innermost_block_tracker
{
public:
innermost_block_tracker (innermost_block_tracker_types types
= INNERMOST_BLOCK_FOR_SYMBOLS)
: m_types (types),
m_innermost_block (NULL)
{ /* Nothing. */ }
/* Update the stored innermost block if the new block B is more inner
than the currently stored block, or if no block is stored yet. The
type T tells us whether the block B was for a symbol or for a
register. The stored innermost block is only updated if the type T is
a type we are interested in, the types we are interested in are held
in M_TYPES and set during RESET. */
void update (const struct block *b, innermost_block_tracker_types t);
/* Overload of main UPDATE method which extracts the block from BS. */
void update (const struct block_symbol &bs)
{
update (bs.block, INNERMOST_BLOCK_FOR_SYMBOLS);
}
/* Return the stored innermost block. Can be nullptr if no symbols or
registers were found during an expression parse, and so no innermost
block was defined. */
const struct block *block () const
{
return m_innermost_block;
}
private:
/* The type of innermost block being looked for. */
innermost_block_tracker_types m_types;
/* The currently stored innermost block found while parsing an
expression. */
const struct block *m_innermost_block;
};
/* A string token, either a char-string or bit-string. Char-strings are
used, for example, for the names of symbols. */
struct stoken
{
/* Pointer to first byte of char-string or first bit of bit-string. */
const char *ptr;
/* Length of string in bytes for char-string or bits for bit-string. */
int length;
};
struct typed_stoken
{
/* A language-specific type field. */
int type;
/* Pointer to first byte of char-string or first bit of bit-string. */
char *ptr;
/* Length of string in bytes for char-string or bits for bit-string. */
int length;
};
struct stoken_vector
{
int len;
struct typed_stoken *tokens;
};
struct ttype
{
struct stoken stoken;
struct type *type;
};
struct symtoken
{
struct stoken stoken;
struct block_symbol sym;
int is_a_field_of_this;
};
struct objc_class_str
{
struct stoken stoken;
struct type *type;
int theclass;
};
extern const char *find_template_name_end (const char *);
extern std::string copy_name (struct stoken);
extern bool parse_float (const char *p, int len,
const struct type *type, gdb_byte *data);
/* Function used to avoid direct calls to fprintf
in the code generated by the bison parser. */
extern void parser_fprintf (FILE *, const char *, ...) ATTRIBUTE_PRINTF (2, 3);
extern int exp_uses_objfile (struct expression *exp, struct objfile *objfile);
#endif /* PARSER_DEFS_H */
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