/* debug.h -- Describe generic debugging information. Copyright (C) 1995, 1996 Free Software Foundation, Inc. Written by Ian Lance Taylor <ian@cygnus.com>. This file is part of GNU Binutils. 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 2 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, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifndef DEBUG_H #define DEBUG_H /* This header file describes a generic debugging information format. We may eventually have readers which convert different formats into this generic format, and writers which write it out. The initial impetus for this was writing a convertor from stabs to HP IEEE-695 debugging format. */ /* Different kinds of types. */ enum debug_type_kind { /* Not used. */ DEBUG_KIND_ILLEGAL, /* Indirect via a pointer. */ DEBUG_KIND_INDIRECT, /* Void. */ DEBUG_KIND_VOID, /* Integer. */ DEBUG_KIND_INT, /* Floating point. */ DEBUG_KIND_FLOAT, /* Complex. */ DEBUG_KIND_COMPLEX, /* Boolean. */ DEBUG_KIND_BOOL, /* Struct. */ DEBUG_KIND_STRUCT, /* Union. */ DEBUG_KIND_UNION, /* Class. */ DEBUG_KIND_CLASS, /* Union class (can this really happen?). */ DEBUG_KIND_UNION_CLASS, /* Enumeration type. */ DEBUG_KIND_ENUM, /* Pointer. */ DEBUG_KIND_POINTER, /* Function. */ DEBUG_KIND_FUNCTION, /* Reference. */ DEBUG_KIND_REFERENCE, /* Range. */ DEBUG_KIND_RANGE, /* Array. */ DEBUG_KIND_ARRAY, /* Set. */ DEBUG_KIND_SET, /* Based pointer. */ DEBUG_KIND_OFFSET, /* Method. */ DEBUG_KIND_METHOD, /* Const qualified type. */ DEBUG_KIND_CONST, /* Volatile qualified type. */ DEBUG_KIND_VOLATILE, /* Named type. */ DEBUG_KIND_NAMED, /* Tagged type. */ DEBUG_KIND_TAGGED }; /* Different kinds of variables. */ enum debug_var_kind { /* Not used. */ DEBUG_VAR_ILLEGAL, /* A global variable. */ DEBUG_GLOBAL, /* A static variable. */ DEBUG_STATIC, /* A local static variable. */ DEBUG_LOCAL_STATIC, /* A local variable. */ DEBUG_LOCAL, /* A register variable. */ DEBUG_REGISTER }; /* Different kinds of function parameters. */ enum debug_parm_kind { /* Not used. */ DEBUG_PARM_ILLEGAL, /* A stack based parameter. */ DEBUG_PARM_STACK, /* A register parameter. */ DEBUG_PARM_REG, /* A stack based reference parameter. */ DEBUG_PARM_REFERENCE, /* A register reference parameter. */ DEBUG_PARM_REF_REG }; /* Different kinds of visibility. */ enum debug_visibility { /* A public field (e.g., a field in a C struct). */ DEBUG_VISIBILITY_PUBLIC, /* A protected field. */ DEBUG_VISIBILITY_PROTECTED, /* A private field. */ DEBUG_VISIBILITY_PRIVATE, /* A field which should be ignored. */ DEBUG_VISIBILITY_IGNORE }; /* A type. */ typedef struct debug_type *debug_type; #define DEBUG_TYPE_NULL ((debug_type) NULL) /* A field in a struct or union. */ typedef struct debug_field *debug_field; #define DEBUG_FIELD_NULL ((debug_field) NULL) /* A base class for an object. */ typedef struct debug_baseclass *debug_baseclass; #define DEBUG_BASECLASS_NULL ((debug_baseclass) NULL) /* A method of an object. */ typedef struct debug_method *debug_method; #define DEBUG_METHOD_NULL ((debug_method) NULL) /* The arguments to a method function of an object. These indicate which method to run. */ typedef struct debug_method_variant *debug_method_variant; #define DEBUG_METHOD_VARIANT_NULL ((debug_method_variant) NULL) /* This structure is passed to debug_write. It holds function pointers that debug_write will call based on the accumulated debugging information. */ struct debug_write_fns { /* This is called at the start of each new compilation unit with the name of the main file in the new unit. */ boolean (*start_compilation_unit) PARAMS ((PTR, const char *)); /* This is called at the start of each source file within a compilation unit, before outputting any global information for that file. The argument is the name of the file. */ boolean (*start_source) PARAMS ((PTR, const char *)); /* Each writer must keep a stack of types. */ /* Push an empty type onto the type stack. This type can appear if there is a reference to a type which is never defined. */ boolean (*empty_type) PARAMS ((PTR)); /* Push a void type onto the type stack. */ boolean (*void_type) PARAMS ((PTR)); /* Push an integer type onto the type stack, given the size and whether it is unsigned. */ boolean (*int_type) PARAMS ((PTR, unsigned int, boolean)); /* Push a floating type onto the type stack, given the size. */ boolean (*float_type) PARAMS ((PTR, unsigned int)); /* Push a complex type onto the type stack, given the size. */ boolean (*complex_type) PARAMS ((PTR, unsigned int)); /* Push a boolean type onto the type stack, given the size. */ boolean (*bool_type) PARAMS ((PTR, unsigned int)); /* Push an enum type onto the type stack, given the tag, a NULL terminated array of names and the associated values. If there is no tag, the tag argument will be NULL. If this is an undefined enum, the names and values arguments will be NULL. */ boolean (*enum_type) PARAMS ((PTR, const char *, const char **, bfd_signed_vma *)); /* Pop the top type on the type stack, and push a pointer to that type onto the type stack. */ boolean (*pointer_type) PARAMS ((PTR)); /* Push a function type onto the type stack. The second argument indicates the number of argument types that have been pushed onto the stack. If the number of argument types is passed as -1, then the argument types of the function are unknown, and no types have been pushed onto the stack. The third argument is true if the function takes a variable number of arguments. The return type of the function is pushed onto the type stack below the argument types, if any. */ boolean (*function_type) PARAMS ((PTR, int, boolean)); /* Pop the top type on the type stack, and push a reference to that type onto the type stack. */ boolean (*reference_type) PARAMS ((PTR)); /* Pop the top type on the type stack, and push a range of that type with the given lower and upper bounds onto the type stack. */ boolean (*range_type) PARAMS ((PTR, bfd_signed_vma, bfd_signed_vma)); /* Push an array type onto the type stack. The top type on the type stack is the range, and the next type on the type stack is the element type. These should be popped before the array type is pushed. The arguments are the lower bound, the upper bound, and whether the array is a string. */ boolean (*array_type) PARAMS ((PTR, bfd_signed_vma, bfd_signed_vma, boolean)); /* Pop the top type on the type stack, and push a set of that type onto the type stack. The argument indicates whether this set is a bitstring. */ boolean (*set_type) PARAMS ((PTR, boolean)); /* Push an offset type onto the type stack. The top type on the type stack is the target type, and the next type on the type stack is the base type. These should be popped before the offset type is pushed. */ boolean (*offset_type) PARAMS ((PTR)); /* Push a method type onto the type stack. If the second argument is true, the top type on the stack is the class to which the method belongs; otherwise, the class must be determined by the class to which the method is attached. The third argument is the number of argument types; these are pushed onto the type stack in reverse order (the first type popped is the last argument to the method). A value of -1 for the third argument means that no argument information is available. The fourth argument is true if the function takes a variable number of arguments. The next type on the type stack below the domain and the argument types is the return type of the method. All these types must be popped, and then the method type must be pushed. */ boolean (*method_type) PARAMS ((PTR, boolean, int, boolean)); /* Pop the top type off the type stack, and push a const qualified version of that type onto the type stack. */ boolean (*const_type) PARAMS ((PTR)); /* Pop the top type off the type stack, and push a volatile qualified version of that type onto the type stack. */ boolean (*volatile_type) PARAMS ((PTR)); /* Start building a struct. This is followed by calls to the struct_field function, and finished by a call to the end_struct_type function. The second argument is the tag; this will be NULL if there isn't one. If the second argument is NULL, the third argument is a constant identifying this struct for use with tag_type. The fourth argument is true for a struct, false for a union. The fifth argument is the size. If this is an undefined struct or union, the size will be 0 and struct_field will not be called before end_struct_type is called. */ boolean (*start_struct_type) PARAMS ((PTR, const char *, unsigned int, boolean, unsigned int)); /* Add a field to the struct type currently being built. The type of the field should be popped off the type stack. The arguments are the name, the bit position, the bit size (may be zero if the field is not packed), and the visibility. */ boolean (*struct_field) PARAMS ((PTR, const char *, bfd_vma, bfd_vma, enum debug_visibility)); /* Finish building a struct, and push it onto the type stack. */ boolean (*end_struct_type) PARAMS ((PTR)); /* Start building a class. This is followed by calls to several functions: struct_field, class_static_member, class_baseclass, class_start_method, class_method_variant, class_static_method_variant, and class_end_method. The class is finished by a call to end_class_type. The first five arguments are the same as for start_struct_type. The sixth argument is true if there is a virtual function table; if there is, the seventh argument is true if the virtual function table can be found in the type itself, and is false if the type of the object holding the virtual function table should be popped from the type stack. */ boolean (*start_class_type) PARAMS ((PTR, const char *, unsigned int, boolean, unsigned int, boolean, boolean)); /* Add a static member to the class currently being built. The arguments are the field name, the physical name, and the visibility. The type must be popped off the type stack. */ boolean (*class_static_member) PARAMS ((PTR, const char *, const char *, enum debug_visibility)); /* Add a baseclass to the class currently being built. The type of the baseclass must be popped off the type stack. The arguments are the bit position, whether the class is virtual, and the visibility. */ boolean (*class_baseclass) PARAMS ((PTR, bfd_vma, boolean, enum debug_visibility)); /* Start adding a method to the class currently being built. This is followed by calls to class_method_variant and class_static_method_variant to describe different variants of the method which take different arguments. The method is finished with a call to class_end_method. The argument is the method name. */ boolean (*class_start_method) PARAMS ((PTR, const char *)); /* Describe a variant to the class method currently being built. The type of the variant must be popped off the type stack. The second argument is the physical name of the function. The following arguments are the visibility, whether the variant is const, whether the variant is volatile, the offset in the virtual function table, and whether the context is on the type stack (below the variant type). */ boolean (*class_method_variant) PARAMS ((PTR, const char *, enum debug_visibility, boolean, boolean, bfd_vma, boolean)); /* Describe a static variant to the class method currently being built. The arguments are the same as for class_method_variant, except that the last two arguments are omitted. The type of the variant must be popped off the type stack. */ boolean (*class_static_method_variant) PARAMS ((PTR, const char *, enum debug_visibility, boolean, boolean)); /* Finish describing a class method. */ boolean (*class_end_method) PARAMS ((PTR)); /* Finish describing a class, and push it onto the type stack. */ boolean (*end_class_type) PARAMS ((PTR)); /* Push a type on the stack which was given a name by an earlier call to typdef. */ boolean (*typedef_type) PARAMS ((PTR, const char *)); /* Push a tagged type on the stack which was defined earlier. If the second argument is not NULL, the type was defined by a call to tag. If the second argument is NULL, the type was defined by a call to start_struct_type or start_class_type with a tag of NULL and the number of the third argument. Either way, the fourth argument is the tag kind. Note that this may be called for a struct (class) being defined, in between the call to start_struct_type (start_class_type) and the call to end_struct_type (end_class_type). */ boolean (*tag_type) PARAMS ((PTR, const char *, unsigned int, enum debug_type_kind)); /* Pop the type stack, and typedef it to the given name. */ boolean (*typdef) PARAMS ((PTR, const char *)); /* Pop the type stack, and declare it as a tagged struct or union or enum or whatever. The tag passed down here is redundant, since was also passed when enum_type, start_struct_type, or start_class_type was called. */ boolean (*tag) PARAMS ((PTR, const char *)); /* This is called to record a named integer constant. */ boolean (*int_constant) PARAMS ((PTR, const char *, bfd_vma)); /* This is called to record a named floating point constant. */ boolean (*float_constant) PARAMS ((PTR, const char *, double)); /* This is called to record a typed integer constant. The type is popped off the type stack. */ boolean (*typed_constant) PARAMS ((PTR, const char *, bfd_vma)); /* This is called to record a variable. The type is popped off the type stack. */ boolean (*variable) PARAMS ((PTR, const char *, enum debug_var_kind, bfd_vma)); /* Start writing out a function. The return type must be popped off the stack. The boolean is true if the function is global. This is followed by calls to function_parameter, followed by block information. */ boolean (*start_function) PARAMS ((PTR, const char *, boolean)); /* Record a function parameter for the current function. The type must be popped off the stack. */ boolean (*function_parameter) PARAMS ((PTR, const char *, enum debug_parm_kind, bfd_vma)); /* Start writing out a block. There is at least one top level block per function. Blocks may be nested. The argument is the starting address of the block. */ boolean (*start_block) PARAMS ((PTR, bfd_vma)); /* Finish writing out a block. The argument is the ending address of the block. */ boolean (*end_block) PARAMS ((PTR, bfd_vma)); /* Finish writing out a function. */ boolean (*end_function) PARAMS ((PTR)); /* Record line number information for the current compilation unit. */ boolean (*lineno) PARAMS ((PTR, const char *, unsigned long, bfd_vma)); }; /* Exported functions. */ /* The first argument to most of these functions is a handle. This handle is returned by the debug_init function. The purpose of the handle is to permit the debugging routines to not use static variables, and hence to be reentrant. This would be useful for a program which wanted to handle two executables simultaneously. */ /* Return a debugging handle. */ extern PTR debug_init PARAMS ((void)); /* Set the source filename. This implicitly starts a new compilation unit. */ extern boolean debug_set_filename PARAMS ((PTR, const char *)); /* Change source files to the given file name. This is used for include files in a single compilation unit. */ extern boolean debug_start_source PARAMS ((PTR, const char *)); /* Record a function definition. This implicitly starts a function block. The debug_type argument is the type of the return value. The boolean indicates whether the function is globally visible. The bfd_vma is the address of the start of the function. Currently the parameter types are specified by calls to debug_record_parameter. */ extern boolean debug_record_function PARAMS ((PTR, const char *, debug_type, boolean, bfd_vma)); /* Record a parameter for the current function. */ extern boolean debug_record_parameter PARAMS ((PTR, const char *, debug_type, enum debug_parm_kind, bfd_vma)); /* End a function definition. The argument is the address where the function ends. */ extern boolean debug_end_function PARAMS ((PTR, bfd_vma)); /* Start a block in a function. All local information will be recorded in this block, until the matching call to debug_end_block. debug_start_block and debug_end_block may be nested. The argument is the address at which this block starts. */ extern boolean debug_start_block PARAMS ((PTR, bfd_vma)); /* Finish a block in a function. This matches the call to debug_start_block. The argument is the address at which this block ends. */ extern boolean debug_end_block PARAMS ((PTR, bfd_vma)); /* Associate a line number in the current source file with a given address. */ extern boolean debug_record_line PARAMS ((PTR, unsigned long, bfd_vma)); /* Start a named common block. This is a block of variables that may move in memory. */ extern boolean debug_start_common_block PARAMS ((PTR, const char *)); /* End a named common block. */ extern boolean debug_end_common_block PARAMS ((PTR, const char *)); /* Record a named integer constant. */ extern boolean debug_record_int_const PARAMS ((PTR, const char *, bfd_vma)); /* Record a named floating point constant. */ extern boolean debug_record_float_const PARAMS ((PTR, const char *, double)); /* Record a typed constant with an integral value. */ extern boolean debug_record_typed_const PARAMS ((PTR, const char *, debug_type, bfd_vma)); /* Record a label. */ extern boolean debug_record_label PARAMS ((PTR, const char *, debug_type, bfd_vma)); /* Record a variable. */ extern boolean debug_record_variable PARAMS ((PTR, const char *, debug_type, enum debug_var_kind, bfd_vma)); /* Make an indirect type. The first argument is a pointer to the location where the real type will be placed. The second argument is the type tag, if there is one; this may be NULL; the only purpose of this argument is so that debug_get_type_name can return something useful. This function may be used when a type is referenced before it is defined. */ extern debug_type debug_make_indirect_type PARAMS ((PTR, debug_type *, const char *)); /* Make a void type. */ extern debug_type debug_make_void_type PARAMS ((PTR)); /* Make an integer type of a given size. The boolean argument is true if the integer is unsigned. */ extern debug_type debug_make_int_type PARAMS ((PTR, unsigned int, boolean)); /* Make a floating point type of a given size. FIXME: On some platforms, like an Alpha, you probably need to be able to specify the format. */ extern debug_type debug_make_float_type PARAMS ((PTR, unsigned int)); /* Make a boolean type of a given size. */ extern debug_type debug_make_bool_type PARAMS ((PTR, unsigned int)); /* Make a complex type of a given size. */ extern debug_type debug_make_complex_type PARAMS ((PTR, unsigned int)); /* Make a structure type. The second argument is true for a struct, false for a union. The third argument is the size of the struct. The fourth argument is a NULL terminated array of fields. */ extern debug_type debug_make_struct_type PARAMS ((PTR, boolean, bfd_vma, debug_field *)); /* Make an object type. The first three arguments after the handle are the same as for debug_make_struct_type. The next arguments are a NULL terminated array of base classes, a NULL terminated array of methods, the type of the object holding the virtual function table if it is not this object, and a boolean which is true if this object has its own virtual function table. */ extern debug_type debug_make_object_type PARAMS ((PTR, boolean, bfd_vma, debug_field *, debug_baseclass *, debug_method *, debug_type, boolean)); /* Make an enumeration type. The arguments are a null terminated array of strings, and an array of corresponding values. */ extern debug_type debug_make_enum_type PARAMS ((PTR, const char **, bfd_signed_vma *)); /* Make a pointer to a given type. */ extern debug_type debug_make_pointer_type PARAMS ((PTR, debug_type)); /* Make a function type. The second argument is the return type. The third argument is a NULL terminated array of argument types. The fourth argument is true if the function takes a variable number of arguments. If the third argument is NULL, then the argument types are unknown. */ extern debug_type debug_make_function_type PARAMS ((PTR, debug_type, debug_type *, boolean)); /* Make a reference to a given type. */ extern debug_type debug_make_reference_type PARAMS ((PTR, debug_type)); /* Make a range of a given type from a lower to an upper bound. */ extern debug_type debug_make_range_type PARAMS ((PTR, debug_type, bfd_signed_vma, bfd_signed_vma)); /* Make an array type. The second argument is the type of an element of the array. The third argument is the type of a range of the array. The fourth and fifth argument are the lower and upper bounds, respectively (if the bounds are not known, lower should be 0 and upper should be -1). The sixth argument is true if this array is actually a string, as in C. */ extern debug_type debug_make_array_type PARAMS ((PTR, debug_type, debug_type, bfd_signed_vma, bfd_signed_vma, boolean)); /* Make a set of a given type. For example, a Pascal set type. The boolean argument is true if this set is actually a bitstring, as in CHILL. */ extern debug_type debug_make_set_type PARAMS ((PTR, debug_type, boolean)); /* Make a type for a pointer which is relative to an object. The second argument is the type of the object to which the pointer is relative. The third argument is the type that the pointer points to. */ extern debug_type debug_make_offset_type PARAMS ((PTR, debug_type, debug_type)); /* Make a type for a method function. The second argument is the return type. The third argument is the domain. The fourth argument is a NULL terminated array of argument types. The fifth argument is true if the function takes a variable number of arguments, in which case the array of argument types indicates the types of the first arguments. The domain and the argument array may be NULL, in which case this is a stub method and that information is not available. Stabs debugging uses this, and gets the argument types from the mangled name. */ extern debug_type debug_make_method_type PARAMS ((PTR, debug_type, debug_type, debug_type *, boolean)); /* Make a const qualified version of a given type. */ extern debug_type debug_make_const_type PARAMS ((PTR, debug_type)); /* Make a volatile qualified version of a given type. */ extern debug_type debug_make_volatile_type PARAMS ((PTR, debug_type)); /* Make an undefined tagged type. For example, a struct which has been mentioned, but not defined. */ extern debug_type debug_make_undefined_tagged_type PARAMS ((PTR, const char *, enum debug_type_kind)); /* Make a base class for an object. The second argument is the base class type. The third argument is the bit position of this base class in the object. The fourth argument is whether this is a virtual class. The fifth argument is the visibility of the base class. */ extern debug_baseclass debug_make_baseclass PARAMS ((PTR, debug_type, bfd_vma, boolean, enum debug_visibility)); /* Make a field for a struct. The second argument is the name. The third argument is the type of the field. The fourth argument is the bit position of the field. The fifth argument is the size of the field (it may be zero). The sixth argument is the visibility of the field. */ extern debug_field debug_make_field PARAMS ((PTR, const char *, debug_type, bfd_vma, bfd_vma, enum debug_visibility)); /* Make a static member of an object. The second argument is the name. The third argument is the type of the member. The fourth argument is the physical name of the member (i.e., the name as a global variable). The fifth argument is the visibility of the member. */ extern debug_field debug_make_static_member PARAMS ((PTR, const char *, debug_type, const char *, enum debug_visibility)); /* Make a method. The second argument is the name, and the third argument is a NULL terminated array of method variants. Each method variant is a method with this name but with different argument types. */ extern debug_method debug_make_method PARAMS ((PTR, const char *, debug_method_variant *)); /* Make a method variant. The second argument is the physical name of the function. The third argument is the type of the function, probably constructed by debug_make_method_type. The fourth argument is the visibility. The fifth argument is whether this is a const function. The sixth argument is whether this is a volatile function. The seventh argument is the offset in the virtual function table, if any. The eighth argument is the virtual function context. */ extern debug_method_variant debug_make_method_variant PARAMS ((PTR, const char *, debug_type, enum debug_visibility, boolean, boolean, bfd_vma, debug_type)); /* Make a static method argument. The arguments are the same as for debug_make_method_variant, except that the last two are omitted since a static method can not also be virtual. */ extern debug_method_variant debug_make_static_method_variant PARAMS ((PTR, const char *, debug_type, enum debug_visibility, boolean, boolean)); /* Name a type. This returns a new type with an attached name. */ extern debug_type debug_name_type PARAMS ((PTR, const char *, debug_type)); /* Give a tag to a type, such as a struct or union. This returns a new type with an attached tag. */ extern debug_type debug_tag_type PARAMS ((PTR, const char *, debug_type)); /* Record the size of a given type. */ extern boolean debug_record_type_size PARAMS ((PTR, debug_type, unsigned int)); /* Find a named type. */ extern debug_type debug_find_named_type PARAMS ((PTR, const char *)); /* Find a tagged type. */ extern debug_type debug_find_tagged_type PARAMS ((PTR, const char *, enum debug_type_kind)); /* Get the kind of a type. */ extern enum debug_type_kind debug_get_type_kind PARAMS ((PTR, debug_type)); /* Get the name of a type. */ extern const char *debug_get_type_name PARAMS ((PTR, debug_type)); /* Get the size of a type. */ extern bfd_vma debug_get_type_size PARAMS ((PTR, debug_type)); /* Get the return type of a function or method type. */ extern debug_type debug_get_return_type PARAMS ((PTR, debug_type)); /* Get the NULL terminated array of parameter types for a function or method type (actually, parameter types are not currently stored for function types). This may be used to determine whether a method type is a stub method or not. The last argument points to a boolean which is set to true if the function takes a variable number of arguments. */ extern const debug_type *debug_get_parameter_types PARAMS ((PTR, debug_type, boolean *)); /* Get the target type of a pointer or reference or const or volatile type. */ extern debug_type debug_get_target_type PARAMS ((PTR, debug_type)); /* Get the NULL terminated array of fields for a struct, union, or class. */ extern const debug_field *debug_get_fields PARAMS ((PTR, debug_type)); /* Get the type of a field. */ extern debug_type debug_get_field_type PARAMS ((PTR, debug_field)); /* Get the name of a field. */ extern const char *debug_get_field_name PARAMS ((PTR, debug_field)); /* Get the bit position of a field within the containing structure. If the field is a static member, this will return (bfd_vma) -1. */ extern bfd_vma debug_get_field_bitpos PARAMS ((PTR, debug_field)); /* Get the bit size of a field. If the field is a static member, this will return (bfd_vma) -1. */ extern bfd_vma debug_get_field_bitsize PARAMS ((PTR, debug_field)); /* Get the visibility of a field. */ extern enum debug_visibility debug_get_field_visibility PARAMS ((PTR, debug_field)); /* Get the physical name of a field, if it is a static member. If the field is not a static member, this will return NULL. */ extern const char *debug_get_field_physname PARAMS ((PTR, debug_field)); /* Write out the recorded debugging information. This takes a set of function pointers which are called to do the actual writing. The first PTR is the debugging handle. The second PTR is a handle which is passed to the functions. */ extern boolean debug_write PARAMS ((PTR, const struct debug_write_fns *, PTR)); #endif /* DEBUG_H */