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This commit brings all the changes made by running gdb/copyright.py as per GDB's Start of New Year Procedure. For the avoidance of doubt, all changes in this commits were performed by the script.
429 lines
14 KiB
C++
429 lines
14 KiB
C++
/* Code dealing with blocks for GDB.
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Copyright (C) 2003-2022 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 BLOCK_H
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#define BLOCK_H
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#include "dictionary.h"
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/* Opaque declarations. */
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struct symbol;
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struct compunit_symtab;
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struct block_namespace_info;
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struct using_direct;
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struct obstack;
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struct addrmap;
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/* Blocks can occupy non-contiguous address ranges. When this occurs,
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startaddr and endaddr within struct block (still) specify the lowest
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and highest addresses of all ranges, but each individual range is
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specified by the addresses in struct blockrange. */
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struct blockrange
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{
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blockrange (CORE_ADDR startaddr_, CORE_ADDR endaddr_)
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: startaddr (startaddr_),
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endaddr (endaddr_)
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{
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}
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/* Lowest address in this range. */
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CORE_ADDR startaddr;
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/* One past the highest address in the range. */
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CORE_ADDR endaddr;
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};
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/* Two or more non-contiguous ranges in the same order as that provided
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via the debug info. */
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struct blockranges
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{
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int nranges;
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struct blockrange range[1];
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};
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/* All of the name-scope contours of the program
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are represented by `struct block' objects.
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All of these objects are pointed to by the blockvector.
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Each block represents one name scope.
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Each lexical context has its own block.
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The blockvector begins with some special blocks.
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The GLOBAL_BLOCK contains all the symbols defined in this compilation
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whose scope is the entire program linked together.
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The STATIC_BLOCK contains all the symbols whose scope is the
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entire compilation excluding other separate compilations.
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Blocks starting with the FIRST_LOCAL_BLOCK are not special.
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Each block records a range of core addresses for the code that
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is in the scope of the block. The STATIC_BLOCK and GLOBAL_BLOCK
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give, for the range of code, the entire range of code produced
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by the compilation that the symbol segment belongs to.
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The blocks appear in the blockvector
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in order of increasing starting-address,
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and, within that, in order of decreasing ending-address.
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This implies that within the body of one function
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the blocks appear in the order of a depth-first tree walk. */
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struct block
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{
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/* Addresses in the executable code that are in this block. */
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CORE_ADDR startaddr;
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CORE_ADDR endaddr;
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/* The symbol that names this block, if the block is the body of a
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function (real or inlined); otherwise, zero. */
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struct symbol *function;
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/* The `struct block' for the containing block, or 0 if none.
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The superblock of a top-level local block (i.e. a function in the
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case of C) is the STATIC_BLOCK. The superblock of the
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STATIC_BLOCK is the GLOBAL_BLOCK. */
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const struct block *superblock;
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/* This is used to store the symbols in the block. */
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struct multidictionary *multidict;
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/* Contains information about namespace-related info relevant to this block:
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using directives and the current namespace scope. */
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struct block_namespace_info *namespace_info;
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/* Address ranges for blocks with non-contiguous ranges. If this
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is NULL, then there is only one range which is specified by
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startaddr and endaddr above. */
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struct blockranges *ranges;
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};
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/* The global block is singled out so that we can provide a back-link
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to the compunit symtab. */
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struct global_block
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{
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/* The block. */
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struct block block;
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/* This holds a pointer to the compunit symtab holding this block. */
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struct compunit_symtab *compunit_symtab;
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};
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#define BLOCK_START(bl) (bl)->startaddr
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#define BLOCK_END(bl) (bl)->endaddr
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#define BLOCK_FUNCTION(bl) (bl)->function
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#define BLOCK_SUPERBLOCK(bl) (bl)->superblock
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#define BLOCK_MULTIDICT(bl) (bl)->multidict
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#define BLOCK_NAMESPACE(bl) (bl)->namespace_info
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/* Accessor for ranges field within block BL. */
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#define BLOCK_RANGES(bl) (bl)->ranges
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/* Number of ranges within a block. */
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#define BLOCK_NRANGES(bl) (bl)->ranges->nranges
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/* Access range array for block BL. */
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#define BLOCK_RANGE(bl) (bl)->ranges->range
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/* Are all addresses within a block contiguous? */
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#define BLOCK_CONTIGUOUS_P(bl) (BLOCK_RANGES (bl) == nullptr \
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|| BLOCK_NRANGES (bl) <= 1)
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/* Obtain the start address of the Nth range for block BL. */
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#define BLOCK_RANGE_START(bl,n) (BLOCK_RANGE (bl)[n].startaddr)
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/* Obtain the end address of the Nth range for block BL. */
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#define BLOCK_RANGE_END(bl,n) (BLOCK_RANGE (bl)[n].endaddr)
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/* Define the "entry pc" for a block BL to be the lowest (start) address
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for the block when all addresses within the block are contiguous. If
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non-contiguous, then use the start address for the first range in the
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block.
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At the moment, this almost matches what DWARF specifies as the entry
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pc. (The missing bit is support for DW_AT_entry_pc which should be
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preferred over range data and the low_pc.)
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Once support for DW_AT_entry_pc is added, I expect that an entry_pc
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field will be added to one of these data structures. Once that's done,
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the entry_pc field can be set from the dwarf reader (and other readers
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too). BLOCK_ENTRY_PC can then be redefined to be less DWARF-centric. */
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#define BLOCK_ENTRY_PC(bl) (BLOCK_CONTIGUOUS_P (bl) \
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? BLOCK_START (bl) \
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: BLOCK_RANGE_START (bl,0))
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struct blockvector
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{
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/* Number of blocks in the list. */
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int nblocks;
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/* An address map mapping addresses to blocks in this blockvector.
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This pointer is zero if the blocks' start and end addresses are
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enough. */
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struct addrmap *map;
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/* The blocks themselves. */
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struct block *block[1];
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};
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#define BLOCKVECTOR_NBLOCKS(blocklist) (blocklist)->nblocks
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#define BLOCKVECTOR_BLOCK(blocklist,n) (blocklist)->block[n]
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#define BLOCKVECTOR_MAP(blocklist) ((blocklist)->map)
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/* Return the objfile of BLOCK, which must be non-NULL. */
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extern struct objfile *block_objfile (const struct block *block);
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/* Return the architecture of BLOCK, which must be non-NULL. */
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extern struct gdbarch *block_gdbarch (const struct block *block);
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extern struct symbol *block_linkage_function (const struct block *);
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extern struct symbol *block_containing_function (const struct block *);
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extern int block_inlined_p (const struct block *block);
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/* Return true if block A is lexically nested within block B, or if a
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and b have the same pc range. Return false otherwise. If
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ALLOW_NESTED is true, then block A is considered to be in block B
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if A is in a nested function in B's function. If ALLOW_NESTED is
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false (the default), then blocks in nested functions are not
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considered to be contained. */
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extern bool contained_in (const struct block *a, const struct block *b,
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bool allow_nested = false);
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extern const struct blockvector *blockvector_for_pc (CORE_ADDR,
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const struct block **);
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extern const struct blockvector *
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blockvector_for_pc_sect (CORE_ADDR, struct obj_section *,
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const struct block **, struct compunit_symtab *);
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extern int blockvector_contains_pc (const struct blockvector *bv, CORE_ADDR pc);
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extern struct call_site *call_site_for_pc (struct gdbarch *gdbarch,
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CORE_ADDR pc);
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extern const struct block *block_for_pc (CORE_ADDR);
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extern const struct block *block_for_pc_sect (CORE_ADDR, struct obj_section *);
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extern const char *block_scope (const struct block *block);
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extern void block_set_scope (struct block *block, const char *scope,
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struct obstack *obstack);
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extern struct using_direct *block_using (const struct block *block);
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extern void block_set_using (struct block *block,
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struct using_direct *using_decl,
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struct obstack *obstack);
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extern const struct block *block_static_block (const struct block *block);
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extern const struct block *block_global_block (const struct block *block);
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extern struct block *allocate_block (struct obstack *obstack);
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extern struct block *allocate_global_block (struct obstack *obstack);
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extern void set_block_compunit_symtab (struct block *,
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struct compunit_symtab *);
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/* Return a property to evaluate the static link associated to BLOCK.
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In the context of nested functions (available in Pascal, Ada and GNU C, for
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instance), a static link (as in DWARF's DW_AT_static_link attribute) for a
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function is a way to get the frame corresponding to the enclosing function.
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Note that only objfile-owned and function-level blocks can have a static
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link. Return NULL if there is no such property. */
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extern struct dynamic_prop *block_static_link (const struct block *block);
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/* A block iterator. This structure should be treated as though it
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were opaque; it is only defined here because we want to support
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stack allocation of iterators. */
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struct block_iterator
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{
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/* If we're iterating over a single block, this holds the block.
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Otherwise, it holds the canonical compunit. */
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union
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{
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struct compunit_symtab *compunit_symtab;
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const struct block *block;
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} d;
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/* If we're iterating over a single block, this is always -1.
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Otherwise, it holds the index of the current "included" symtab in
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the canonical symtab (that is, d.symtab->includes[idx]), with -1
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meaning the canonical symtab itself. */
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int idx;
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/* Which block, either static or global, to iterate over. If this
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is FIRST_LOCAL_BLOCK, then we are iterating over a single block.
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This is used to select which field of 'd' is in use. */
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enum block_enum which;
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/* The underlying multidictionary iterator. */
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struct mdict_iterator mdict_iter;
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};
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/* Initialize ITERATOR to point at the first symbol in BLOCK, and
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return that first symbol, or NULL if BLOCK is empty. */
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extern struct symbol *block_iterator_first (const struct block *block,
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struct block_iterator *iterator);
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/* Advance ITERATOR, and return the next symbol, or NULL if there are
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no more symbols. Don't call this if you've previously received
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NULL from block_iterator_first or block_iterator_next on this
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iteration. */
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extern struct symbol *block_iterator_next (struct block_iterator *iterator);
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/* Initialize ITERATOR to point at the first symbol in BLOCK whose
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search_name () matches NAME, and return that first symbol, or
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NULL if there are no such symbols. */
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extern struct symbol *block_iter_match_first (const struct block *block,
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const lookup_name_info &name,
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struct block_iterator *iterator);
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/* Advance ITERATOR to point at the next symbol in BLOCK whose
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search_name () matches NAME, or NULL if there are no more such
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symbols. Don't call this if you've previously received NULL from
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block_iterator_match_first or block_iterator_match_next on this
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iteration. And don't call it unless ITERATOR was created by a
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previous call to block_iter_match_first with the same NAME. */
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extern struct symbol *block_iter_match_next
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(const lookup_name_info &name, struct block_iterator *iterator);
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/* Return true if symbol A is the best match possible for DOMAIN. */
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extern bool best_symbol (struct symbol *a, const domain_enum domain);
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/* Return symbol B if it is a better match than symbol A for DOMAIN.
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Otherwise return A. */
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extern struct symbol *better_symbol (struct symbol *a, struct symbol *b,
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const domain_enum domain);
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/* Search BLOCK for symbol NAME in DOMAIN. */
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extern struct symbol *block_lookup_symbol (const struct block *block,
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const char *name,
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symbol_name_match_type match_type,
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const domain_enum domain);
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/* Search BLOCK for symbol NAME in DOMAIN but only in primary symbol table of
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BLOCK. BLOCK must be STATIC_BLOCK or GLOBAL_BLOCK. Function is useful if
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one iterates all global/static blocks of an objfile. */
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extern struct symbol *block_lookup_symbol_primary (const struct block *block,
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const char *name,
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const domain_enum domain);
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/* The type of the MATCHER argument to block_find_symbol. */
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typedef int (block_symbol_matcher_ftype) (struct symbol *, void *);
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/* Find symbol NAME in BLOCK and in DOMAIN that satisfies MATCHER.
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DATA is passed unchanged to MATCHER.
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BLOCK must be STATIC_BLOCK or GLOBAL_BLOCK. */
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extern struct symbol *block_find_symbol (const struct block *block,
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const char *name,
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const domain_enum domain,
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block_symbol_matcher_ftype *matcher,
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void *data);
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/* A matcher function for block_find_symbol to find only symbols with
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non-opaque types. */
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extern int block_find_non_opaque_type (struct symbol *sym, void *data);
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/* A matcher function for block_find_symbol to prefer symbols with
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non-opaque types. The way to use this function is as follows:
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struct symbol *with_opaque = NULL;
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struct symbol *sym
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= block_find_symbol (block, name, domain,
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block_find_non_opaque_type_preferred, &with_opaque);
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At this point if SYM is non-NULL then a non-opaque type has been found.
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Otherwise, if WITH_OPAQUE is non-NULL then an opaque type has been found.
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Otherwise, the symbol was not found. */
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extern int block_find_non_opaque_type_preferred (struct symbol *sym,
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void *data);
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/* Macro to loop through all symbols in BLOCK, in no particular
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order. ITER helps keep track of the iteration, and must be a
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struct block_iterator. SYM points to the current symbol. */
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#define ALL_BLOCK_SYMBOLS(block, iter, sym) \
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for ((sym) = block_iterator_first ((block), &(iter)); \
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(sym); \
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(sym) = block_iterator_next (&(iter)))
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/* Macro to loop through all symbols in BLOCK with a name that matches
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NAME, in no particular order. ITER helps keep track of the
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iteration, and must be a struct block_iterator. SYM points to the
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current symbol. */
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#define ALL_BLOCK_SYMBOLS_WITH_NAME(block, name, iter, sym) \
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for ((sym) = block_iter_match_first ((block), (name), &(iter)); \
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(sym) != NULL; \
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(sym) = block_iter_match_next ((name), &(iter)))
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/* Given a vector of pairs, allocate and build an obstack allocated
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blockranges struct for a block. */
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struct blockranges *make_blockranges (struct objfile *objfile,
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const std::vector<blockrange> &rangevec);
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#endif /* BLOCK_H */
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