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      1 /* debug.h -- Describe generic debugging information.
      2    Copyright (C) 1995-2014 Free Software Foundation, Inc.
      3    Written by Ian Lance Taylor <ian (at) cygnus.com>.
      4 
      5    This file is part of GNU Binutils.
      6 
      7    This program is free software; you can redistribute it and/or modify
      8    it under the terms of the GNU General Public License as published by
      9    the Free Software Foundation; either version 3 of the License, or
     10    (at your option) any later version.
     11 
     12    This program is distributed in the hope that it will be useful,
     13    but WITHOUT ANY WARRANTY; without even the implied warranty of
     14    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     15    GNU General Public License for more details.
     16 
     17    You should have received a copy of the GNU General Public License
     18    along with this program; if not, write to the Free Software
     19    Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA
     20    02110-1301, USA.  */
     21 
     22 #ifndef DEBUG_H
     23 #define DEBUG_H
     24 
     25 /* This header file describes a generic debugging information format.
     26    We may eventually have readers which convert different formats into
     27    this generic format, and writers which write it out.  The initial
     28    impetus for this was writing a converter from stabs to HP IEEE-695
     29    debugging format.  */
     30 
     31 /* Different kinds of types.  */
     32 
     33 enum debug_type_kind
     34 {
     35   /* Not used.  */
     36   DEBUG_KIND_ILLEGAL,
     37   /* Indirect via a pointer.  */
     38   DEBUG_KIND_INDIRECT,
     39   /* Void.  */
     40   DEBUG_KIND_VOID,
     41   /* Integer.  */
     42   DEBUG_KIND_INT,
     43   /* Floating point.  */
     44   DEBUG_KIND_FLOAT,
     45   /* Complex.  */
     46   DEBUG_KIND_COMPLEX,
     47   /* Boolean.  */
     48   DEBUG_KIND_BOOL,
     49   /* Struct.  */
     50   DEBUG_KIND_STRUCT,
     51   /* Union.  */
     52   DEBUG_KIND_UNION,
     53   /* Class.  */
     54   DEBUG_KIND_CLASS,
     55   /* Union class (can this really happen?).  */
     56   DEBUG_KIND_UNION_CLASS,
     57   /* Enumeration type.  */
     58   DEBUG_KIND_ENUM,
     59   /* Pointer.  */
     60   DEBUG_KIND_POINTER,
     61   /* Function.  */
     62   DEBUG_KIND_FUNCTION,
     63   /* Reference.  */
     64   DEBUG_KIND_REFERENCE,
     65   /* Range.  */
     66   DEBUG_KIND_RANGE,
     67   /* Array.  */
     68   DEBUG_KIND_ARRAY,
     69   /* Set.  */
     70   DEBUG_KIND_SET,
     71   /* Based pointer.  */
     72   DEBUG_KIND_OFFSET,
     73   /* Method.  */
     74   DEBUG_KIND_METHOD,
     75   /* Const qualified type.  */
     76   DEBUG_KIND_CONST,
     77   /* Volatile qualified type.  */
     78   DEBUG_KIND_VOLATILE,
     79   /* Named type.  */
     80   DEBUG_KIND_NAMED,
     81   /* Tagged type.  */
     82   DEBUG_KIND_TAGGED
     83 };
     84 
     85 /* Different kinds of variables.  */
     86 
     87 enum debug_var_kind
     88 {
     89   /* Not used.  */
     90   DEBUG_VAR_ILLEGAL,
     91   /* A global variable.  */
     92   DEBUG_GLOBAL,
     93   /* A static variable.  */
     94   DEBUG_STATIC,
     95   /* A local static variable.  */
     96   DEBUG_LOCAL_STATIC,
     97   /* A local variable.  */
     98   DEBUG_LOCAL,
     99   /* A register variable.  */
    100   DEBUG_REGISTER
    101 };
    102 
    103 /* Different kinds of function parameters.  */
    104 
    105 enum debug_parm_kind
    106 {
    107   /* Not used.  */
    108   DEBUG_PARM_ILLEGAL,
    109   /* A stack based parameter.  */
    110   DEBUG_PARM_STACK,
    111   /* A register parameter.  */
    112   DEBUG_PARM_REG,
    113   /* A stack based reference parameter.  */
    114   DEBUG_PARM_REFERENCE,
    115   /* A register reference parameter.  */
    116   DEBUG_PARM_REF_REG
    117 };
    118 
    119 /* Different kinds of visibility.  */
    120 
    121 enum debug_visibility
    122 {
    123   /* A public field (e.g., a field in a C struct).  */
    124   DEBUG_VISIBILITY_PUBLIC,
    125   /* A protected field.  */
    126   DEBUG_VISIBILITY_PROTECTED,
    127   /* A private field.  */
    128   DEBUG_VISIBILITY_PRIVATE,
    129   /* A field which should be ignored.  */
    130   DEBUG_VISIBILITY_IGNORE
    131 };
    132 
    133 /* A type.  */
    134 
    135 typedef struct debug_type_s *debug_type;
    136 
    137 #define DEBUG_TYPE_NULL ((debug_type) NULL)
    138 
    139 /* A field in a struct or union.  */
    140 
    141 typedef struct debug_field_s *debug_field;
    142 
    143 #define DEBUG_FIELD_NULL ((debug_field) NULL)
    144 
    145 /* A base class for an object.  */
    146 
    147 typedef struct debug_baseclass_s *debug_baseclass;
    148 
    149 #define DEBUG_BASECLASS_NULL ((debug_baseclass) NULL)
    150 
    151 /* A method of an object.  */
    152 
    153 typedef struct debug_method_s *debug_method;
    154 
    155 #define DEBUG_METHOD_NULL ((debug_method) NULL)
    156 
    157 /* The arguments to a method function of an object.  These indicate
    158    which method to run.  */
    159 
    160 typedef struct debug_method_variant_s *debug_method_variant;
    161 
    162 #define DEBUG_METHOD_VARIANT_NULL ((debug_method_variant) NULL)
    163 
    164 /* This structure is passed to debug_write.  It holds function
    165    pointers that debug_write will call based on the accumulated
    166    debugging information.  */
    167 
    168 struct debug_write_fns
    169 {
    170   /* This is called at the start of each new compilation unit with the
    171      name of the main file in the new unit.  */
    172   bfd_boolean (*start_compilation_unit) (void *, const char *);
    173 
    174   /* This is called at the start of each source file within a
    175      compilation unit, before outputting any global information for
    176      that file.  The argument is the name of the file.  */
    177   bfd_boolean (*start_source) (void *, const char *);
    178 
    179   /* Each writer must keep a stack of types.  */
    180 
    181   /* Push an empty type onto the type stack.  This type can appear if
    182      there is a reference to a type which is never defined.  */
    183   bfd_boolean (*empty_type) (void *);
    184 
    185   /* Push a void type onto the type stack.  */
    186   bfd_boolean (*void_type) (void *);
    187 
    188   /* Push an integer type onto the type stack, given the size and
    189      whether it is unsigned.  */
    190   bfd_boolean (*int_type) (void *, unsigned int, bfd_boolean);
    191 
    192   /* Push a floating type onto the type stack, given the size.  */
    193   bfd_boolean (*float_type) (void *, unsigned int);
    194 
    195   /* Push a complex type onto the type stack, given the size.  */
    196   bfd_boolean (*complex_type) (void *, unsigned int);
    197 
    198   /* Push a bfd_boolean type onto the type stack, given the size.  */
    199   bfd_boolean (*bool_type) (void *, unsigned int);
    200 
    201   /* Push an enum type onto the type stack, given the tag, a NULL
    202      terminated array of names and the associated values.  If there is
    203      no tag, the tag argument will be NULL.  If this is an undefined
    204      enum, the names and values arguments will be NULL.  */
    205   bfd_boolean (*enum_type)
    206     (void *, const char *, const char **, bfd_signed_vma *);
    207 
    208   /* Pop the top type on the type stack, and push a pointer to that
    209      type onto the type stack.  */
    210   bfd_boolean (*pointer_type) (void *);
    211 
    212   /* Push a function type onto the type stack.  The second argument
    213      indicates the number of argument types that have been pushed onto
    214      the stack.  If the number of argument types is passed as -1, then
    215      the argument types of the function are unknown, and no types have
    216      been pushed onto the stack.  The third argument is TRUE if the
    217      function takes a variable number of arguments.  The return type
    218      of the function is pushed onto the type stack below the argument
    219      types, if any.  */
    220   bfd_boolean (*function_type) (void *, int, bfd_boolean);
    221 
    222   /* Pop the top type on the type stack, and push a reference to that
    223      type onto the type stack.  */
    224   bfd_boolean (*reference_type) (void *);
    225 
    226   /* Pop the top type on the type stack, and push a range of that type
    227      with the given lower and upper bounds onto the type stack.  */
    228   bfd_boolean (*range_type) (void *, bfd_signed_vma, bfd_signed_vma);
    229 
    230   /* Push an array type onto the type stack.  The top type on the type
    231      stack is the range, and the next type on the type stack is the
    232      element type.  These should be popped before the array type is
    233      pushed.  The arguments are the lower bound, the upper bound, and
    234      whether the array is a string.  */
    235   bfd_boolean (*array_type)
    236     (void *, bfd_signed_vma, bfd_signed_vma, bfd_boolean);
    237 
    238   /* Pop the top type on the type stack, and push a set of that type
    239      onto the type stack.  The argument indicates whether this set is
    240      a bitstring.  */
    241   bfd_boolean (*set_type) (void *, bfd_boolean);
    242 
    243   /* Push an offset type onto the type stack.  The top type on the
    244      type stack is the target type, and the next type on the type
    245      stack is the base type.  These should be popped before the offset
    246      type is pushed.  */
    247   bfd_boolean (*offset_type) (void *);
    248 
    249   /* Push a method type onto the type stack.  If the second argument
    250      is TRUE, the top type on the stack is the class to which the
    251      method belongs; otherwise, the class must be determined by the
    252      class to which the method is attached.  The third argument is the
    253      number of argument types; these are pushed onto the type stack in
    254      reverse order (the first type popped is the last argument to the
    255      method).  A value of -1 for the third argument means that no
    256      argument information is available.  The fourth argument is TRUE
    257      if the function takes a variable number of arguments.  The next
    258      type on the type stack below the domain and the argument types is
    259      the return type of the method.  All these types must be popped,
    260      and then the method type must be pushed.  */
    261   bfd_boolean (*method_type) (void *, bfd_boolean, int, bfd_boolean);
    262 
    263   /* Pop the top type off the type stack, and push a const qualified
    264      version of that type onto the type stack.  */
    265   bfd_boolean (*const_type) (void *);
    266 
    267   /* Pop the top type off the type stack, and push a volatile
    268      qualified version of that type onto the type stack.  */
    269   bfd_boolean (*volatile_type) (void *);
    270 
    271   /* Start building a struct.  This is followed by calls to the
    272      struct_field function, and finished by a call to the
    273      end_struct_type function.  The second argument is the tag; this
    274      will be NULL if there isn't one.  If the second argument is NULL,
    275      the third argument is a constant identifying this struct for use
    276      with tag_type.  The fourth argument is TRUE for a struct, FALSE
    277      for a union.  The fifth argument is the size.  If this is an
    278      undefined struct or union, the size will be 0 and struct_field
    279      will not be called before end_struct_type is called.  */
    280   bfd_boolean (*start_struct_type)
    281     (void *, const char *, unsigned int, bfd_boolean, unsigned int);
    282 
    283   /* Add a field to the struct type currently being built.  The type
    284      of the field should be popped off the type stack.  The arguments
    285      are the name, the bit position, the bit size (may be zero if the
    286      field is not packed), and the visibility.  */
    287   bfd_boolean (*struct_field)
    288     (void *, const char *, bfd_vma, bfd_vma, enum debug_visibility);
    289 
    290   /* Finish building a struct, and push it onto the type stack.  */
    291   bfd_boolean (*end_struct_type) (void *);
    292 
    293   /* Start building a class.  This is followed by calls to several
    294      functions: struct_field, class_static_member, class_baseclass,
    295      class_start_method, class_method_variant,
    296      class_static_method_variant, and class_end_method.  The class is
    297      finished by a call to end_class_type.  The first five arguments
    298      are the same as for start_struct_type.  The sixth argument is
    299      TRUE if there is a virtual function table; if there is, the
    300      seventh argument is TRUE if the virtual function table can be
    301      found in the type itself, and is FALSE if the type of the object
    302      holding the virtual function table should be popped from the type
    303      stack.  */
    304   bfd_boolean (*start_class_type)
    305     (void *, const char *, unsigned int, bfd_boolean, unsigned int,
    306      bfd_boolean, bfd_boolean);
    307 
    308   /* Add a static member to the class currently being built.  The
    309      arguments are the field name, the physical name, and the
    310      visibility.  The type must be popped off the type stack.  */
    311   bfd_boolean (*class_static_member)
    312     (void *, const char *, const char *, enum debug_visibility);
    313 
    314   /* Add a baseclass to the class currently being built.  The type of
    315      the baseclass must be popped off the type stack.  The arguments
    316      are the bit position, whether the class is virtual, and the
    317      visibility.  */
    318   bfd_boolean (*class_baseclass)
    319     (void *, bfd_vma, bfd_boolean, enum debug_visibility);
    320 
    321   /* Start adding a method to the class currently being built.  This
    322      is followed by calls to class_method_variant and
    323      class_static_method_variant to describe different variants of the
    324      method which take different arguments.  The method is finished
    325      with a call to class_end_method.  The argument is the method
    326      name.  */
    327   bfd_boolean (*class_start_method) (void *, const char *);
    328 
    329   /* Describe a variant to the class method currently being built.
    330      The type of the variant must be popped off the type stack.  The
    331      second argument is the physical name of the function.  The
    332      following arguments are the visibility, whether the variant is
    333      const, whether the variant is volatile, the offset in the virtual
    334      function table, and whether the context is on the type stack
    335      (below the variant type).  */
    336   bfd_boolean (*class_method_variant)
    337     (void *, const char *, enum debug_visibility, bfd_boolean,
    338      bfd_boolean, bfd_vma, bfd_boolean);
    339 
    340   /* Describe a static variant to the class method currently being
    341      built.  The arguments are the same as for class_method_variant,
    342      except that the last two arguments are omitted.  The type of the
    343      variant must be popped off the type stack.  */
    344   bfd_boolean (*class_static_method_variant)
    345     (void *, const char *, enum debug_visibility, bfd_boolean,
    346      bfd_boolean);
    347 
    348   /* Finish describing a class method.  */
    349   bfd_boolean (*class_end_method) (void *);
    350 
    351   /* Finish describing a class, and push it onto the type stack.  */
    352   bfd_boolean (*end_class_type) (void *);
    353 
    354   /* Push a type on the stack which was given a name by an earlier
    355      call to typdef.  */
    356   bfd_boolean (*typedef_type) (void *, const char *);
    357 
    358   /* Push a tagged type on the stack which was defined earlier.  If
    359      the second argument is not NULL, the type was defined by a call
    360      to tag.  If the second argument is NULL, the type was defined by
    361      a call to start_struct_type or start_class_type with a tag of
    362      NULL and the number of the third argument.  Either way, the
    363      fourth argument is the tag kind.  Note that this may be called
    364      for a struct (class) being defined, in between the call to
    365      start_struct_type (start_class_type) and the call to
    366      end_struct_type (end_class_type).  */
    367   bfd_boolean (*tag_type)
    368     (void *, const char *, unsigned int, enum debug_type_kind);
    369 
    370   /* Pop the type stack, and typedef it to the given name.  */
    371   bfd_boolean (*typdef) (void *, const char *);
    372 
    373   /* Pop the type stack, and declare it as a tagged struct or union or
    374      enum or whatever.  The tag passed down here is redundant, since
    375      was also passed when enum_type, start_struct_type, or
    376      start_class_type was called.  */
    377   bfd_boolean (*tag) (void *, const char *);
    378 
    379   /* This is called to record a named integer constant.  */
    380   bfd_boolean (*int_constant) (void *, const char *, bfd_vma);
    381 
    382   /* This is called to record a named floating point constant.  */
    383   bfd_boolean (*float_constant) (void *, const char *, double);
    384 
    385   /* This is called to record a typed integer constant.  The type is
    386      popped off the type stack.  */
    387   bfd_boolean (*typed_constant) (void *, const char *, bfd_vma);
    388 
    389   /* This is called to record a variable.  The type is popped off the
    390      type stack.  */
    391   bfd_boolean (*variable)
    392     (void *, const char *, enum debug_var_kind, bfd_vma);
    393 
    394   /* Start writing out a function.  The return type must be popped off
    395      the stack.  The bfd_boolean is TRUE if the function is global.  This
    396      is followed by calls to function_parameter, followed by block
    397      information.  */
    398   bfd_boolean (*start_function) (void *, const char *, bfd_boolean);
    399 
    400   /* Record a function parameter for the current function.  The type
    401      must be popped off the stack.  */
    402   bfd_boolean (*function_parameter)
    403     (void *, const char *, enum debug_parm_kind, bfd_vma);
    404 
    405   /* Start writing out a block.  There is at least one top level block
    406      per function.  Blocks may be nested.  The argument is the
    407      starting address of the block.  */
    408   bfd_boolean (*start_block) (void *, bfd_vma);
    409 
    410   /* Finish writing out a block.  The argument is the ending address
    411      of the block.  */
    412   bfd_boolean (*end_block) (void *, bfd_vma);
    413 
    414   /* Finish writing out a function.  */
    415   bfd_boolean (*end_function) (void *);
    416 
    417   /* Record line number information for the current compilation unit.  */
    418   bfd_boolean (*lineno) (void *, const char *, unsigned long, bfd_vma);
    419 };
    420 
    421 /* Exported functions.  */
    422 
    423 /* The first argument to most of these functions is a handle.  This
    424    handle is returned by the debug_init function.  The purpose of the
    425    handle is to permit the debugging routines to not use static
    426    variables, and hence to be reentrant.  This would be useful for a
    427    program which wanted to handle two executables simultaneously.  */
    428 
    429 /* Return a debugging handle.  */
    430 
    431 extern void *debug_init (void);
    432 
    433 /* Set the source filename.  This implicitly starts a new compilation
    434    unit.  */
    435 
    436 extern bfd_boolean debug_set_filename (void *, const char *);
    437 
    438 /* Change source files to the given file name.  This is used for
    439    include files in a single compilation unit.  */
    440 
    441 extern bfd_boolean debug_start_source (void *, const char *);
    442 
    443 /* Record a function definition.  This implicitly starts a function
    444    block.  The debug_type argument is the type of the return value.
    445    The bfd_boolean indicates whether the function is globally visible.
    446    The bfd_vma is the address of the start of the function.  Currently
    447    the parameter types are specified by calls to
    448    debug_record_parameter.  */
    449 
    450 extern bfd_boolean debug_record_function
    451   (void *, const char *, debug_type, bfd_boolean, bfd_vma);
    452 
    453 /* Record a parameter for the current function.  */
    454 
    455 extern bfd_boolean debug_record_parameter
    456   (void *, const char *, debug_type, enum debug_parm_kind, bfd_vma);
    457 
    458 /* End a function definition.  The argument is the address where the
    459    function ends.  */
    460 
    461 extern bfd_boolean debug_end_function (void *, bfd_vma);
    462 
    463 /* Start a block in a function.  All local information will be
    464    recorded in this block, until the matching call to debug_end_block.
    465    debug_start_block and debug_end_block may be nested.  The argument
    466    is the address at which this block starts.  */
    467 
    468 extern bfd_boolean debug_start_block (void *, bfd_vma);
    469 
    470 /* Finish a block in a function.  This matches the call to
    471    debug_start_block.  The argument is the address at which this block
    472    ends.  */
    473 
    474 extern bfd_boolean debug_end_block (void *, bfd_vma);
    475 
    476 /* Associate a line number in the current source file with a given
    477    address.  */
    478 
    479 extern bfd_boolean debug_record_line (void *, unsigned long, bfd_vma);
    480 
    481 /* Start a named common block.  This is a block of variables that may
    482    move in memory.  */
    483 
    484 extern bfd_boolean debug_start_common_block (void *, const char *);
    485 
    486 /* End a named common block.  */
    487 
    488 extern bfd_boolean debug_end_common_block (void *, const char *);
    489 
    490 /* Record a named integer constant.  */
    491 
    492 extern bfd_boolean debug_record_int_const (void *, const char *, bfd_vma);
    493 
    494 /* Record a named floating point constant.  */
    495 
    496 extern bfd_boolean debug_record_float_const (void *, const char *, double);
    497 
    498 /* Record a typed constant with an integral value.  */
    499 
    500 extern bfd_boolean debug_record_typed_const
    501   (void *, const char *, debug_type, bfd_vma);
    502 
    503 /* Record a label.  */
    504 
    505 extern bfd_boolean debug_record_label
    506   (void *, const char *, debug_type, bfd_vma);
    507 
    508 /* Record a variable.  */
    509 
    510 extern bfd_boolean debug_record_variable
    511   (void *, const char *, debug_type, enum debug_var_kind, bfd_vma);
    512 
    513 /* Make an indirect type.  The first argument is a pointer to the
    514    location where the real type will be placed.  The second argument
    515    is the type tag, if there is one; this may be NULL; the only
    516    purpose of this argument is so that debug_get_type_name can return
    517    something useful.  This function may be used when a type is
    518    referenced before it is defined.  */
    519 
    520 extern debug_type debug_make_indirect_type
    521   (void *, debug_type *, const char *);
    522 
    523 /* Make a void type.  */
    524 
    525 extern debug_type debug_make_void_type (void *);
    526 
    527 /* Make an integer type of a given size.  The bfd_boolean argument is TRUE
    528    if the integer is unsigned.  */
    529 
    530 extern debug_type debug_make_int_type (void *, unsigned int, bfd_boolean);
    531 
    532 /* Make a floating point type of a given size.  FIXME: On some
    533    platforms, like an Alpha, you probably need to be able to specify
    534    the format.  */
    535 
    536 extern debug_type debug_make_float_type (void *, unsigned int);
    537 
    538 /* Make a boolean type of a given size.  */
    539 
    540 extern debug_type debug_make_bool_type (void *, unsigned int);
    541 
    542 /* Make a complex type of a given size.  */
    543 
    544 extern debug_type debug_make_complex_type (void *, unsigned int);
    545 
    546 /* Make a structure type.  The second argument is TRUE for a struct,
    547    FALSE for a union.  The third argument is the size of the struct.
    548    The fourth argument is a NULL terminated array of fields.  */
    549 
    550 extern debug_type debug_make_struct_type
    551   (void *, bfd_boolean, bfd_vma, debug_field *);
    552 
    553 /* Make an object type.  The first three arguments after the handle
    554    are the same as for debug_make_struct_type.  The next arguments are
    555    a NULL terminated array of base classes, a NULL terminated array of
    556    methods, the type of the object holding the virtual function table
    557    if it is not this object, and a bfd_boolean which is TRUE if this
    558    object has its own virtual function table.  */
    559 
    560 extern debug_type debug_make_object_type
    561   (void *, bfd_boolean, bfd_vma, debug_field *, debug_baseclass *,
    562    debug_method *, debug_type, bfd_boolean);
    563 
    564 /* Make an enumeration type.  The arguments are a null terminated
    565    array of strings, and an array of corresponding values.  */
    566 
    567 extern debug_type debug_make_enum_type
    568   (void *, const char **, bfd_signed_vma *);
    569 
    570 /* Make a pointer to a given type.  */
    571 
    572 extern debug_type debug_make_pointer_type (void *, debug_type);
    573 
    574 /* Make a function type.  The second argument is the return type.  The
    575    third argument is a NULL terminated array of argument types.  The
    576    fourth argument is TRUE if the function takes a variable number of
    577    arguments.  If the third argument is NULL, then the argument types
    578    are unknown.  */
    579 
    580 extern debug_type debug_make_function_type
    581   (void *, debug_type, debug_type *, bfd_boolean);
    582 
    583 /* Make a reference to a given type.  */
    584 
    585 extern debug_type debug_make_reference_type (void *, debug_type);
    586 
    587 /* Make a range of a given type from a lower to an upper bound.  */
    588 
    589 extern debug_type debug_make_range_type
    590   (void *, debug_type, bfd_signed_vma, bfd_signed_vma);
    591 
    592 /* Make an array type.  The second argument is the type of an element
    593    of the array.  The third argument is the type of a range of the
    594    array.  The fourth and fifth argument are the lower and upper
    595    bounds, respectively (if the bounds are not known, lower should be
    596    0 and upper should be -1).  The sixth argument is TRUE if this
    597    array is actually a string, as in C.  */
    598 
    599 extern debug_type debug_make_array_type
    600   (void *, debug_type, debug_type, bfd_signed_vma, bfd_signed_vma,
    601    bfd_boolean);
    602 
    603 /* Make a set of a given type.  For example, a Pascal set type.  The
    604    bfd_boolean argument is TRUE if this set is actually a bitstring, as in
    605    CHILL.  */
    606 
    607 extern debug_type debug_make_set_type (void *, debug_type, bfd_boolean);
    608 
    609 /* Make a type for a pointer which is relative to an object.  The
    610    second argument is the type of the object to which the pointer is
    611    relative.  The third argument is the type that the pointer points
    612    to.  */
    613 
    614 extern debug_type debug_make_offset_type (void *, debug_type, debug_type);
    615 
    616 /* Make a type for a method function.  The second argument is the
    617    return type.  The third argument is the domain.  The fourth
    618    argument is a NULL terminated array of argument types.  The fifth
    619    argument is TRUE if the function takes a variable number of
    620    arguments, in which case the array of argument types indicates the
    621    types of the first arguments.  The domain and the argument array
    622    may be NULL, in which case this is a stub method and that
    623    information is not available.  Stabs debugging uses this, and gets
    624    the argument types from the mangled name.  */
    625 
    626 extern debug_type debug_make_method_type
    627   (void *, debug_type, debug_type, debug_type *, bfd_boolean);
    628 
    629 /* Make a const qualified version of a given type.  */
    630 
    631 extern debug_type debug_make_const_type (void *, debug_type);
    632 
    633 /* Make a volatile qualified version of a given type.  */
    634 
    635 extern debug_type debug_make_volatile_type (void *, debug_type);
    636 
    637 /* Make an undefined tagged type.  For example, a struct which has
    638    been mentioned, but not defined.  */
    639 
    640 extern debug_type debug_make_undefined_tagged_type
    641   (void *, const char *, enum debug_type_kind);
    642 
    643 /* Make a base class for an object.  The second argument is the base
    644    class type.  The third argument is the bit position of this base
    645    class in the object.  The fourth argument is whether this is a
    646    virtual class.  The fifth argument is the visibility of the base
    647    class.  */
    648 
    649 extern debug_baseclass debug_make_baseclass
    650   (void *, debug_type, bfd_vma, bfd_boolean, enum debug_visibility);
    651 
    652 /* Make a field for a struct.  The second argument is the name.  The
    653    third argument is the type of the field.  The fourth argument is
    654    the bit position of the field.  The fifth argument is the size of
    655    the field (it may be zero).  The sixth argument is the visibility
    656    of the field.  */
    657 
    658 extern debug_field debug_make_field
    659   (void *, const char *, debug_type, bfd_vma, bfd_vma, enum debug_visibility);
    660 
    661 /* Make a static member of an object.  The second argument is the
    662    name.  The third argument is the type of the member.  The fourth
    663    argument is the physical name of the member (i.e., the name as a
    664    global variable).  The fifth argument is the visibility of the
    665    member.  */
    666 
    667 extern debug_field debug_make_static_member
    668   (void *, const char *, debug_type, const char *, enum debug_visibility);
    669 
    670 /* Make a method.  The second argument is the name, and the third
    671    argument is a NULL terminated array of method variants.  Each
    672    method variant is a method with this name but with different
    673    argument types.  */
    674 
    675 extern debug_method debug_make_method
    676   (void *, const char *, debug_method_variant *);
    677 
    678 /* Make a method variant.  The second argument is the physical name of
    679    the function.  The third argument is the type of the function,
    680    probably constructed by debug_make_method_type.  The fourth
    681    argument is the visibility.  The fifth argument is whether this is
    682    a const function.  The sixth argument is whether this is a volatile
    683    function.  The seventh argument is the index in the virtual
    684    function table, if any.  The eighth argument is the virtual
    685    function context.  */
    686 
    687 extern debug_method_variant debug_make_method_variant
    688   (void *, const char *, debug_type, enum debug_visibility, bfd_boolean,
    689    bfd_boolean, bfd_vma, debug_type);
    690 
    691 /* Make a static method argument.  The arguments are the same as for
    692    debug_make_method_variant, except that the last two are omitted
    693    since a static method can not also be virtual.  */
    694 
    695 extern debug_method_variant debug_make_static_method_variant
    696   (void *, const char *, debug_type, enum debug_visibility, bfd_boolean,
    697    bfd_boolean);
    698 
    699 /* Name a type.  This returns a new type with an attached name.  */
    700 
    701 extern debug_type debug_name_type (void *, const char *, debug_type);
    702 
    703 /* Give a tag to a type, such as a struct or union.  This returns a
    704    new type with an attached tag.  */
    705 
    706 extern debug_type debug_tag_type (void *, const char *, debug_type);
    707 
    708 /* Record the size of a given type.  */
    709 
    710 extern bfd_boolean debug_record_type_size (void *, debug_type, unsigned int);
    711 
    712 /* Find a named type.  */
    713 
    714 extern debug_type debug_find_named_type (void *, const char *);
    715 
    716 /* Find a tagged type.  */
    717 
    718 extern debug_type debug_find_tagged_type
    719   (void *, const char *, enum debug_type_kind);
    720 
    721 /* Get the kind of a type.  */
    722 
    723 extern enum debug_type_kind debug_get_type_kind (void *, debug_type);
    724 
    725 /* Get the name of a type.  */
    726 
    727 extern const char *debug_get_type_name (void *, debug_type);
    728 
    729 /* Get the size of a type.  */
    730 
    731 extern bfd_vma debug_get_type_size (void *, debug_type);
    732 
    733 /* Get the return type of a function or method type.  */
    734 
    735 extern debug_type debug_get_return_type (void *, debug_type);
    736 
    737 /* Get the NULL terminated array of parameter types for a function or
    738    method type (actually, parameter types are not currently stored for
    739    function types).  This may be used to determine whether a method
    740    type is a stub method or not.  The last argument points to a
    741    bfd_boolean which is set to TRUE if the function takes a variable
    742    number of arguments.  */
    743 
    744 extern const debug_type *debug_get_parameter_types
    745   (void *, debug_type, bfd_boolean *);
    746 
    747 /* Get the target type of a pointer or reference or const or volatile
    748    type.  */
    749 
    750 extern debug_type debug_get_target_type (void *, debug_type);
    751 
    752 /* Get the NULL terminated array of fields for a struct, union, or
    753    class.  */
    754 
    755 extern const debug_field *debug_get_fields (void *, debug_type);
    756 
    757 /* Get the type of a field.  */
    758 
    759 extern debug_type debug_get_field_type (void *, debug_field);
    760 
    761 /* Get the name of a field.  */
    762 
    763 extern const char *debug_get_field_name (void *, debug_field);
    764 
    765 /* Get the bit position of a field within the containing structure.
    766    If the field is a static member, this will return (bfd_vma) -1.  */
    767 
    768 extern bfd_vma debug_get_field_bitpos (void *, debug_field);
    769 
    770 /* Get the bit size of a field.  If the field is a static member, this
    771    will return (bfd_vma) -1.  */
    772 
    773 extern bfd_vma debug_get_field_bitsize (void *, debug_field);
    774 
    775 /* Get the visibility of a field.  */
    776 
    777 extern enum debug_visibility debug_get_field_visibility (void *, debug_field);
    778 
    779 /* Get the physical name of a field, if it is a static member.  If the
    780    field is not a static member, this will return NULL.  */
    781 
    782 extern const char *debug_get_field_physname (void *, debug_field);
    783 
    784 /* Write out the recorded debugging information.  This takes a set of
    785    function pointers which are called to do the actual writing.  The
    786    first void * is the debugging handle.  The second void * is a handle
    787    which is passed to the functions.  */
    788 
    789 extern bfd_boolean debug_write
    790   (void *, const struct debug_write_fns *, void *);
    791 
    792 #endif /* DEBUG_H */
    793