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[/] [openrisc/] [trunk/] [gnu-src/] [gdb-7.1/] [gdb/] [dwarf2expr.h] - Blame information for rev 280

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1 227 jeremybenn
/* DWARF 2 Expression Evaluator.
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   Copyright (C) 2001, 2002, 2003, 2005, 2007, 2008, 2009, 2010
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   Free Software Foundation, Inc.
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   Contributed by Daniel Berlin <dan@dberlin.org>.
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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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#if !defined (DWARF2EXPR_H)
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#define DWARF2EXPR_H
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/* The location of a value.  */
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enum dwarf_value_location
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{
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  /* The piece is in memory.
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     The value on the dwarf stack is its address.  */
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  DWARF_VALUE_MEMORY,
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  /* The piece is in a register.
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     The value on the dwarf stack is the register number.  */
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  DWARF_VALUE_REGISTER,
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  /* The piece is on the dwarf stack.  */
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  DWARF_VALUE_STACK,
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  /* The piece is a literal.  */
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  DWARF_VALUE_LITERAL
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};
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/* The dwarf expression stack.  */
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struct dwarf_stack_value
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{
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  CORE_ADDR value;
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  /* Non-zero if the piece is in memory and is known to be
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     on the program's stack.  It is always ok to set this to zero.
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     This is used, for example, to optimize memory access from the target.
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     It can vastly speed up backtraces on long latency connections when
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     "set stack-cache on".  */
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  int in_stack_memory;
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};
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/* The expression evaluator works with a dwarf_expr_context, describing
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   its current state and its callbacks.  */
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struct dwarf_expr_context
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{
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  /* The stack of values, allocated with xmalloc.  */
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  struct dwarf_stack_value *stack;
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  /* The number of values currently pushed on the stack, and the
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     number of elements allocated to the stack.  */
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  int stack_len, stack_allocated;
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  /* Target architecture to use for address operations.  */
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  struct gdbarch *gdbarch;
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  /* Target address size in bytes.  */
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  int addr_size;
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  /* An opaque argument provided by the caller, which will be passed
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     to all of the callback functions.  */
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  void *baton;
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  /* Return the value of register number REGNUM.  */
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  CORE_ADDR (*read_reg) (void *baton, int regnum);
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  /* Read LENGTH bytes at ADDR into BUF.  */
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  void (*read_mem) (void *baton, gdb_byte *buf, CORE_ADDR addr, size_t length);
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  /* Return the location expression for the frame base attribute, in
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     START and LENGTH.  The result must be live until the current
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     expression evaluation is complete.  */
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  void (*get_frame_base) (void *baton, gdb_byte **start, size_t *length);
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  /* Return the CFA for the frame.  */
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  CORE_ADDR (*get_frame_cfa) (void *baton);
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  /* Return the thread-local storage address for
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     DW_OP_GNU_push_tls_address.  */
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  CORE_ADDR (*get_tls_address) (void *baton, CORE_ADDR offset);
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#if 0
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  /* Not yet implemented.  */
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  /* Return the location expression for the dwarf expression
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     subroutine in the die at OFFSET in the current compilation unit.
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     The result must be live until the current expression evaluation
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     is complete.  */
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  unsigned char *(*get_subr) (void *baton, off_t offset, size_t *length);
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  /* Return the `object address' for DW_OP_push_object_address.  */
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  CORE_ADDR (*get_object_address) (void *baton);
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#endif
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  /* The current depth of dwarf expression recursion, via DW_OP_call*,
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     DW_OP_fbreg, DW_OP_push_object_address, etc., and the maximum
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     depth we'll tolerate before raising an error.  */
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  int recursion_depth, max_recursion_depth;
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  /* Location of the value.  */
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  enum dwarf_value_location location;
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  /* For VALUE_LITERAL, a the current literal value's length and
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     data.  */
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  ULONGEST len;
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  gdb_byte *data;
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  /* Initialization status of variable: Non-zero if variable has been
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     initialized; zero otherwise.  */
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  int initialized;
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  /* An array of pieces.  PIECES points to its first element;
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     NUM_PIECES is its length.
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     Each time DW_OP_piece is executed, we add a new element to the
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     end of this array, recording the current top of the stack, the
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     current location, and the size given as the operand to
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     DW_OP_piece.  We then pop the top value from the stack, reset the
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     location, and resume evaluation.
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     The Dwarf spec doesn't say whether DW_OP_piece pops the top value
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     from the stack.  We do, ensuring that clients of this interface
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     expecting to see a value left on the top of the stack (say, code
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     evaluating frame base expressions or CFA's specified with
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     DW_CFA_def_cfa_expression) will get an error if the expression
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     actually marks all the values it computes as pieces.
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     If an expression never uses DW_OP_piece, num_pieces will be zero.
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     (It would be nice to present these cases as expressions yielding
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     a single piece, so that callers need not distinguish between the
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     no-DW_OP_piece and one-DW_OP_piece cases.  But expressions with
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     no DW_OP_piece operations have no value to place in a piece's
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     'size' field; the size comes from the surrounding data.  So the
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     two cases need to be handled separately.)  */
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  int num_pieces;
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  struct dwarf_expr_piece *pieces;
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};
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/* A piece of an object, as recorded by DW_OP_piece.  */
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struct dwarf_expr_piece
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{
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  enum dwarf_value_location location;
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  union
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  {
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    struct
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    {
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      /* This piece's address or register number.  */
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      CORE_ADDR value;
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      /* Non-zero if the piece is known to be in memory and on
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         the program's stack.  */
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      int in_stack_memory;
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    } expr;
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    struct
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    {
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      /* A pointer to the data making up this piece, for literal
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         pieces.  */
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      gdb_byte *data;
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      /* The length of the available data.  */
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      ULONGEST length;
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    } literal;
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  } v;
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  /* The length of the piece, in bytes.  */
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  ULONGEST size;
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};
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struct dwarf_expr_context *new_dwarf_expr_context (void);
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void free_dwarf_expr_context (struct dwarf_expr_context *ctx);
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struct cleanup *
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    make_cleanup_free_dwarf_expr_context (struct dwarf_expr_context *ctx);
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void dwarf_expr_push (struct dwarf_expr_context *ctx, CORE_ADDR value,
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                      int in_stack_memory);
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void dwarf_expr_pop (struct dwarf_expr_context *ctx);
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void dwarf_expr_eval (struct dwarf_expr_context *ctx, unsigned char *addr,
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                      size_t len);
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CORE_ADDR dwarf_expr_fetch (struct dwarf_expr_context *ctx, int n);
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int dwarf_expr_fetch_in_stack_memory (struct dwarf_expr_context *ctx, int n);
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gdb_byte *read_uleb128 (gdb_byte *buf, gdb_byte *buf_end, ULONGEST * r);
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gdb_byte *read_sleb128 (gdb_byte *buf, gdb_byte *buf_end, LONGEST * r);
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CORE_ADDR dwarf2_read_address (struct gdbarch *gdbarch, gdb_byte *buf,
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                               gdb_byte *buf_end, int addr_size);
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#endif /* dwarf2expr.h */

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