old-cross-binutils/gdb/d-support.c
Iain Buclaw 50367cd2ad Move D demangling routines out of d-lang.c and into d-support.c, which
is intended to house other D language support functions.

gdb/ChangeLog:
2014-01-17  Iain Buclaw  <ibuclaw@gdcproject.org>

    * Makefile.in (SFILES): Add d-support.c.
    (COMMON_OBS): Add d-support.o.
    * d-lang.h (d_parse_symbol): Add comment, now defined in
    d-support.c.
    * d-lang.c (parse_call_convention)
    (parse_attributes, parse_function_types)
    (parse_function_args, parse_type, parse_identifier)
    (call_convention_p, d_parse_symbol): Move functions to ...
    * d-support.c: ... New file.
2014-01-18 18:11:24 +00:00

621 lines
15 KiB
C

/* Helper routines for D support in GDB.
Copyright (C) 2014 Free Software Foundation, Inc.
This file is part of GDB.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>. */
#include "defs.h"
#include "d-lang.h"
#include "gdb_obstack.h"
#include "safe-ctype.h"
static const char *parse_function_args (struct obstack *, const char *);
static const char *parse_type (struct obstack *, const char *);
/* Demangle the calling convention from MANGLE and append it to TEMPBUF.
Return the remaining string on success or NULL on failure. */
static const char *
parse_call_convention (struct obstack *tempbuf, const char *mangle)
{
if ((mangle == NULL) || (*mangle == '\0'))
return mangle;
switch (*mangle)
{
case 'F': /* (D) */
mangle++;
break;
case 'U': /* (C) */
mangle++;
obstack_grow_str (tempbuf, "extern(C) ");
break;
case 'W': /* (Windows) */
mangle++;
obstack_grow_str (tempbuf, "extern(Windows) ");
break;
case 'V': /* (Pascal) */
mangle++;
obstack_grow_str (tempbuf, "extern(Pascal) ");
break;
case 'R': /* (C++) */
mangle++;
obstack_grow_str (tempbuf, "extern(C++) ");
break;
default:
return NULL;
}
return mangle;
}
/* Demangle the D function attributes from MANGLE and append it to TEMPBUF.
Return the remaining string on success or NULL on failure. */
static const char *
parse_attributes (struct obstack *tempbuf, const char *mangle)
{
if ((mangle == NULL) || (*mangle == '\0'))
return mangle;
while (*mangle == 'N')
{
mangle++;
switch (*mangle)
{
case 'a': /* pure */
mangle++;
obstack_grow_str (tempbuf, "pure ");
continue;
case 'b': /* nothrow */
mangle++;
obstack_grow_str (tempbuf, "nothrow ");
continue;
case 'c': /* ref */
mangle++;
obstack_grow_str (tempbuf, "ref ");
continue;
case 'd': /* @property */
mangle++;
obstack_grow_str (tempbuf, "@property ");
continue;
case 'e': /* @trusted */
mangle++;
obstack_grow_str (tempbuf, "@trusted ");
continue;
case 'f': /* @safe */
mangle++;
obstack_grow_str (tempbuf, "@safe ");
continue;
case 'g':
case 'h':
/* inout parameter is represented as 'Ng'.
vector parameter is represented as 'Nh'.
If we see this, then we know we're really in the
parameter list. Rewind and break. */
mangle--;
}
break;
}
return mangle;
}
/* Demangle the function type from MANGLE and append it to TEMPBUF.
Return the remaining string on success or NULL on failure. */
static const char *
parse_function_type (struct obstack *tempbuf, const char *mangle)
{
struct obstack obattr, obargs, obtype;
char *attr, *args, *type;
size_t szattr, szargs, sztype;
if ((mangle == NULL) || (*mangle == '\0'))
return mangle;
/* The order of the mangled string is:
TypeFunction ::
CallConvention FuncAttrs Arguments ArgClose Type
The demangled string is re-ordered as:
CallConvention Type Arguments FuncAttrs
*/
obstack_init (&obattr);
obstack_init (&obargs);
obstack_init (&obtype);
/* Function call convention. */
mangle = parse_call_convention (tempbuf, mangle);
/* Function attributes. */
mangle = parse_attributes (&obattr, mangle);
szattr = obstack_object_size (&obattr);
attr = obstack_finish (&obattr);
/* Function arguments. */
mangle = parse_function_args (&obargs, mangle);
szargs = obstack_object_size (&obargs);
args = obstack_finish (&obargs);
/* Function return type. */
mangle = parse_type (&obtype, mangle);
sztype = obstack_object_size (&obtype);
type = obstack_finish (&obtype);
/* Append to buffer in order. */
obstack_grow (tempbuf, type, sztype);
obstack_grow_str (tempbuf, "(");
obstack_grow (tempbuf, args, szargs);
obstack_grow_str (tempbuf, ") ");
obstack_grow (tempbuf, attr, szattr);
obstack_free (&obattr, NULL);
obstack_free (&obargs, NULL);
obstack_free (&obtype, NULL);
return mangle;
}
/* Demangle the argument list from MANGLE and append it to TEMPBUF.
Return the remaining string on success or NULL on failure. */
static const char *
parse_function_args (struct obstack *tempbuf, const char *mangle)
{
size_t n = 0;
while ((mangle != NULL) && (*mangle != '\0'))
{
switch (*mangle)
{
case 'X': /* (variadic T t...) style. */
mangle++;
obstack_grow_str (tempbuf, "...");
return mangle;
case 'Y': /* (variadic T t, ...) style. */
mangle++;
obstack_grow_str (tempbuf, ", ...");
return mangle;
case 'Z': /* Normal function. */
mangle++;
return mangle;
}
if (n++)
obstack_grow_str (tempbuf, ", ");
if (*mangle == 'M') /* scope(T) */
{
mangle++;
obstack_grow_str (tempbuf, "scope ");
}
switch (*mangle)
{
case 'J': /* out(T) */
mangle++;
obstack_grow_str (tempbuf, "out ");
break;
case 'K': /* ref(T) */
mangle++;
obstack_grow_str (tempbuf, "ref ");
break;
case 'L': /* lazy(T) */
mangle++;
obstack_grow_str (tempbuf, "lazy ");
break;
}
mangle = parse_type (tempbuf, mangle);
}
return mangle;
}
/* Demangle the type from MANGLE and append it to TEMPBUF.
Return the remaining string on success or NULL on failure. */
static const char *
parse_type (struct obstack *tempbuf, const char *mangle)
{
if ((mangle == NULL) || (*mangle == '\0'))
return mangle;
switch (*mangle)
{
case 'O': /* shared(T) */
mangle++;
obstack_grow_str (tempbuf, "shared(");
mangle = parse_type (tempbuf, mangle);
obstack_grow_str (tempbuf, ")");
return mangle;
case 'x': /* const(T) */
mangle++;
obstack_grow_str (tempbuf, "const(");
mangle = parse_type (tempbuf, mangle);
obstack_grow_str (tempbuf, ")");
return mangle;
case 'y': /* immutable(T) */
mangle++;
obstack_grow_str (tempbuf, "immutable(");
mangle = parse_type (tempbuf, mangle);
obstack_grow_str (tempbuf, ")");
return mangle;
case 'N':
mangle++;
if (*mangle == 'g') /* wild(T) */
{
mangle++;
obstack_grow_str (tempbuf, "inout(");
mangle = parse_type (tempbuf, mangle);
obstack_grow_str (tempbuf, ")");
return mangle;
}
else if (*mangle == 'h') /* vector(T) */
{
mangle++;
/* The basetype for vectors are always static arrays. */
if (*mangle != 'G')
return NULL;
obstack_grow_str (tempbuf, "__vector(");
mangle = parse_type (tempbuf, mangle);
obstack_grow_str (tempbuf, ")");
return mangle;
}
else
return NULL;
case 'A': /* dynamic array (T[]) */
mangle++;
mangle = parse_type (tempbuf, mangle);
obstack_grow_str (tempbuf, "[]");
return mangle;
case 'G': /* static array (T[N]) */
{
const char *numptr;
size_t num = 0;
mangle++;
numptr = mangle;
while (ISDIGIT (*mangle))
{
num++;
mangle++;
}
mangle = parse_type (tempbuf, mangle);
obstack_grow_str (tempbuf, "[");
obstack_grow (tempbuf, numptr, num);
obstack_grow_str (tempbuf, "]");
return mangle;
}
case 'H': /* associative array (T[T]) */
{
struct obstack obtype;
char *type;
size_t sztype;
mangle++;
obstack_init (&obtype);
mangle = parse_type (&obtype, mangle);
sztype = obstack_object_size (&obtype);
type = obstack_finish (&obtype);
mangle = parse_type (tempbuf, mangle);
obstack_grow_str (tempbuf, "[");
obstack_grow (tempbuf, type, sztype);
obstack_grow_str (tempbuf, "]");
obstack_free (&obtype, NULL);
return mangle;
}
case 'P': /* pointer (T*) */
mangle++;
mangle = parse_type (tempbuf, mangle);
obstack_grow_str (tempbuf, "*");
return mangle;
case 'I': /* ident T */
case 'C': /* class T */
case 'S': /* struct T */
case 'E': /* enum T */
case 'T': /* typedef T */
mangle++;
return d_parse_symbol (tempbuf, mangle);
case 'D': /* delegate T */
mangle++;
mangle = parse_function_type (tempbuf, mangle);
obstack_grow_str (tempbuf, "delegate");
return mangle;
case 'B': /* tuple T */
/* TODO: Handle this. */
return NULL;
/* Function types */
case 'F': case 'U': case 'W':
case 'V': case 'R':
mangle = parse_function_type (tempbuf, mangle);
obstack_grow_str (tempbuf, "function");
return mangle;
/* Basic types */
case 'n':
mangle++;
obstack_grow_str (tempbuf, "none");
return mangle;
case 'v':
mangle++;
obstack_grow_str (tempbuf, "void");
return mangle;
case 'g':
mangle++;
obstack_grow_str (tempbuf, "byte");
return mangle;
case 'h':
mangle++;
obstack_grow_str (tempbuf, "ubyte");
return mangle;
case 's':
mangle++;
obstack_grow_str (tempbuf, "short");
return mangle;
case 't':
mangle++;
obstack_grow_str (tempbuf, "ushort");
return mangle;
case 'i':
mangle++;
obstack_grow_str (tempbuf, "int");
return mangle;
case 'k':
mangle++;
obstack_grow_str (tempbuf, "uint");
return mangle;
case 'l':
mangle++;
obstack_grow_str (tempbuf, "long");
return mangle;
case 'm':
mangle++;
obstack_grow_str (tempbuf, "ulong");
return mangle;
case 'f':
mangle++;
obstack_grow_str (tempbuf, "float");
return mangle;
case 'd':
mangle++;
obstack_grow_str (tempbuf, "double");
return mangle;
case 'e':
mangle++;
obstack_grow_str (tempbuf, "real");
return mangle;
/* Imaginary and Complex types */
case 'o':
mangle++;
obstack_grow_str (tempbuf, "ifloat");
return mangle;
case 'p':
mangle++;
obstack_grow_str (tempbuf, "idouble");
return mangle;
case 'j':
mangle++;
obstack_grow_str (tempbuf, "ireal");
return mangle;
case 'q':
mangle++;
obstack_grow_str (tempbuf, "cfloat");
return mangle;
case 'r':
mangle++;
obstack_grow_str (tempbuf, "cdouble");
return mangle;
case 'c':
mangle++;
obstack_grow_str (tempbuf, "creal");
return mangle;
/* Other types */
case 'b':
mangle++;
obstack_grow_str (tempbuf, "bool");
return mangle;
case 'a':
mangle++;
obstack_grow_str (tempbuf, "char");
return mangle;
case 'u':
mangle++;
obstack_grow_str (tempbuf, "wchar");
return mangle;
case 'w':
mangle++;
obstack_grow_str (tempbuf, "dchar");
return mangle;
default: /* unhandled */
return NULL;
}
}
/* Extract the identifier from MANGLE and append it to TEMPBUF.
Return the remaining string on success or NULL on failure. */
static const char *
parse_identifier (struct obstack *tempbuf, const char *mangle)
{
if ((mangle == NULL) || (*mangle == '\0'))
return mangle;
if (ISDIGIT (*mangle))
{
char *endptr;
long i = strtol (mangle, &endptr, 10);
if (i <= 0 || strlen (endptr) < i)
return NULL;
mangle = endptr;
/* No support for demangling templates. */
if (i >= 5 && strncmp (mangle, "__T", 3) == 0)
return NULL;
if (strncmp (mangle, "__ctor", i) == 0)
{
/* Constructor symbol for a class/struct. */
obstack_grow_str (tempbuf, "this");
mangle += i;
return mangle;
}
else if (strncmp (mangle, "__dtor", i) == 0)
{
/* Destructor symbol for a class/struct. */
obstack_grow_str (tempbuf, "~this");
mangle += i;
return mangle;
}
else if (strncmp (mangle, "__postblit", i) == 0)
{
/* Postblit symbol for a struct. */
obstack_grow_str (tempbuf, "this(this)");
mangle += i;
return mangle;
}
else if (strncmp (mangle, "__initZ", i+1) == 0)
{
/* The static initialiser for a given symbol. */
obstack_grow_str (tempbuf, "init$");
mangle += i + 1;
return mangle;
}
else if (strncmp (mangle, "__ClassZ", i+1) == 0)
{
/* The classinfo symbol for a given class. */
obstack_grow_str (tempbuf, "classinfo$");
mangle += i + 1;
return mangle;
}
else if (strncmp (mangle, "__vtblZ", i+1) == 0)
{
/* The vtable symbol for a given class. */
obstack_grow_str (tempbuf, "vtbl$");
mangle += i + 1;
return mangle;
}
else if (strncmp (mangle, "__InterfaceZ", i+1) == 0)
{
/* The interface symbol for a given class. */
obstack_grow_str (tempbuf, "interface$");
mangle += i + 1;
return mangle;
}
else if (strncmp (mangle, "__ModuleInfoZ", i+1) == 0)
{
/* The ModuleInfo symbol for a given module. */
obstack_grow_str (tempbuf, "moduleinfo$");
mangle += i + 1;
return mangle;
}
obstack_grow (tempbuf, mangle, i);
mangle += i;
}
else
return NULL;
return mangle;
}
/* Test whether the current position of MANGLE is pointing to the
beginning of a mangled function parameter list, which starts with
the calling convention. Returns 1 on success or 0 on failure. */
static int
call_convention_p (const char *mangle)
{
size_t i;
if ((mangle == NULL) || (*mangle == '\0'))
return 0;
switch (*mangle)
{
case 'F': case 'U': case 'V':
case 'W': case 'R':
return 1;
case 'M': /* Prefix for functions needing 'this'. */
i = 1;
if (mangle[i] == 'x')
i++;
switch (mangle[i])
{
case 'F': case 'U': case 'V':
case 'W': case 'R':
return 1;
}
default:
return 0;
}
}
/* Extract and demangle the symbol in MANGLE and append it to TEMPBUF.
Return the remaining signature on success or NULL on failure. */
const char *
d_parse_symbol (struct obstack *tempbuf, const char *mangle)
{
size_t n = 0;
do
{
if (n++)
obstack_grow_str (tempbuf, ".");
mangle = parse_identifier (tempbuf, mangle);
if (call_convention_p (mangle))
{
char *saved;
/* Skip over 'this' parameter. */
if (*mangle == 'M')
mangle += (mangle[1] == 'x') ? 2 : 1;
/* Skip over calling convention and attributes in qualified name. */
saved = obstack_next_free (tempbuf);
mangle = parse_call_convention (tempbuf, mangle);
mangle = parse_attributes (tempbuf, mangle);
obstack_next_free (tempbuf) = saved;
obstack_grow_str (tempbuf, "(");
mangle = parse_function_args (tempbuf, mangle);
obstack_grow_str (tempbuf, ")");
/* Demangle the function return type as a kind of sanity test. */
if ((mangle != NULL) && !ISDIGIT (*mangle))
{
saved = obstack_next_free (tempbuf);
mangle = parse_type (tempbuf, mangle);
obstack_next_free (tempbuf) = saved;
}
}
}
while ((mangle != NULL) && ISDIGIT (*mangle));
return mangle;
}