Merge pull request #97 from joshtriplett/remove-more-generated-files Remove more generated files
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diff --git a/doc/libffi.info b/doc/libffi.info
deleted file mode 100644
index de69aaf..0000000
--- a/doc/libffi.info
+++ /dev/null
@@ -1,618 +0,0 @@
-This is libffi.info, produced by makeinfo version 5.1 from libffi.texi.
-
-This manual is for Libffi, a portable foreign-function interface
-library.
-
- Copyright (C) 2008, 2010, 2011 Red Hat, Inc.
-
- Permission is granted to copy, distribute and/or modify this
- document under the terms of the GNU General Public License as
- published by the Free Software Foundation; either version 2, or (at
- your option) any later version. A copy of the license is included
- in the section entitled "GNU General Public License".
-
-INFO-DIR-SECTION Development
-START-INFO-DIR-ENTRY
-* libffi: (libffi). Portable foreign-function interface library.
-END-INFO-DIR-ENTRY
-
-
-File: libffi.info, Node: Top, Next: Introduction, Up: (dir)
-
-libffi
-******
-
-This manual is for Libffi, a portable foreign-function interface
-library.
-
- Copyright (C) 2008, 2010, 2011 Red Hat, Inc.
-
- Permission is granted to copy, distribute and/or modify this
- document under the terms of the GNU General Public License as
- published by the Free Software Foundation; either version 2, or (at
- your option) any later version. A copy of the license is included
- in the section entitled "GNU General Public License".
-
-* Menu:
-
-* Introduction:: What is libffi?
-* Using libffi:: How to use libffi.
-* Missing Features:: Things libffi can't do.
-* Index:: Index.
-
-
-File: libffi.info, Node: Introduction, Next: Using libffi, Prev: Top, Up: Top
-
-1 What is libffi?
-*****************
-
-Compilers for high level languages generate code that follow certain
-conventions. These conventions are necessary, in part, for separate
-compilation to work. One such convention is the "calling convention".
-The calling convention is a set of assumptions made by the compiler
-about where function arguments will be found on entry to a function. A
-calling convention also specifies where the return value for a function
-is found. The calling convention is also sometimes called the "ABI" or
-"Application Binary Interface".
-
- Some programs may not know at the time of compilation what arguments
-are to be passed to a function. For instance, an interpreter may be
-told at run-time about the number and types of arguments used to call a
-given function. 'Libffi' can be used in such programs to provide a
-bridge from the interpreter program to compiled code.
-
- The 'libffi' library provides a portable, high level programming
-interface to various calling conventions. This allows a programmer to
-call any function specified by a call interface description at run time.
-
- FFI stands for Foreign Function Interface. A foreign function
-interface is the popular name for the interface that allows code written
-in one language to call code written in another language. The 'libffi'
-library really only provides the lowest, machine dependent layer of a
-fully featured foreign function interface. A layer must exist above
-'libffi' that handles type conversions for values passed between the two
-languages.
-
-
-File: libffi.info, Node: Using libffi, Next: Missing Features, Prev: Introduction, Up: Top
-
-2 Using libffi
-**************
-
-* Menu:
-
-* The Basics:: The basic libffi API.
-* Simple Example:: A simple example.
-* Types:: libffi type descriptions.
-* Multiple ABIs:: Different passing styles on one platform.
-* The Closure API:: Writing a generic function.
-* Closure Example:: A closure example.
-
-
-File: libffi.info, Node: The Basics, Next: Simple Example, Up: Using libffi
-
-2.1 The Basics
-==============
-
-'Libffi' assumes that you have a pointer to the function you wish to
-call and that you know the number and types of arguments to pass it, as
-well as the return type of the function.
-
- The first thing you must do is create an 'ffi_cif' object that
-matches the signature of the function you wish to call. This is a
-separate step because it is common to make multiple calls using a single
-'ffi_cif'. The "cif" in 'ffi_cif' stands for Call InterFace. To
-prepare a call interface object, use the function 'ffi_prep_cif'.
-
- -- Function: ffi_status ffi_prep_cif (ffi_cif *CIF, ffi_abi ABI,
- unsigned int NARGS, ffi_type *RTYPE, ffi_type **ARGTYPES)
- This initializes CIF according to the given parameters.
-
- ABI is the ABI to use; normally 'FFI_DEFAULT_ABI' is what you want.
- *note Multiple ABIs:: for more information.
-
- NARGS is the number of arguments that this function accepts.
-
- RTYPE is a pointer to an 'ffi_type' structure that describes the
- return type of the function. *Note Types::.
-
- ARGTYPES is a vector of 'ffi_type' pointers. ARGTYPES must have
- NARGS elements. If NARGS is 0, this argument is ignored.
-
- 'ffi_prep_cif' returns a 'libffi' status code, of type
- 'ffi_status'. This will be either 'FFI_OK' if everything worked
- properly; 'FFI_BAD_TYPEDEF' if one of the 'ffi_type' objects is
- incorrect; or 'FFI_BAD_ABI' if the ABI parameter is invalid.
-
- If the function being called is variadic (varargs) then
-'ffi_prep_cif_var' must be used instead of 'ffi_prep_cif'.
-
- -- Function: ffi_status ffi_prep_cif_var (ffi_cif *CIF, ffi_abi varabi,
- unsigned int NFIXEDARGS, unsigned int varntotalargs, ffi_type
- *RTYPE, ffi_type **ARGTYPES)
- This initializes CIF according to the given parameters for a call
- to a variadic function. In general it's operation is the same as
- for 'ffi_prep_cif' except that:
-
- NFIXEDARGS is the number of fixed arguments, prior to any variadic
- arguments. It must be greater than zero.
-
- NTOTALARGS the total number of arguments, including variadic and
- fixed arguments.
-
- Note that, different cif's must be prepped for calls to the same
- function when different numbers of arguments are passed.
-
- Also note that a call to 'ffi_prep_cif_var' with
- NFIXEDARGS=NOTOTALARGS is NOT equivalent to a call to
- 'ffi_prep_cif'.
-
- To call a function using an initialized 'ffi_cif', use the 'ffi_call'
-function:
-
- -- Function: void ffi_call (ffi_cif *CIF, void *FN, void *RVALUE, void
- **AVALUES)
- This calls the function FN according to the description given in
- CIF. CIF must have already been prepared using 'ffi_prep_cif'.
-
- RVALUE is a pointer to a chunk of memory that will hold the result
- of the function call. This must be large enough to hold the
- result, no smaller than the system register size (generally 32 or
- 64 bits), and must be suitably aligned; it is the caller's
- responsibility to ensure this. If CIF declares that the function
- returns 'void' (using 'ffi_type_void'), then RVALUE is ignored.
-
- AVALUES is a vector of 'void *' pointers that point to the memory
- locations holding the argument values for a call. If CIF declares
- that the function has no arguments (i.e., NARGS was 0), then
- AVALUES is ignored. Note that argument values may be modified by
- the callee (for instance, structs passed by value); the burden of
- copying pass-by-value arguments is placed on the caller.
-
-
-File: libffi.info, Node: Simple Example, Next: Types, Prev: The Basics, Up: Using libffi
-
-2.2 Simple Example
-==================
-
-Here is a trivial example that calls 'puts' a few times.
-
- #include <stdio.h>
- #include <ffi.h>
-
- int main()
- {
- ffi_cif cif;
- ffi_type *args[1];
- void *values[1];
- char *s;
- ffi_arg rc;
-
- /* Initialize the argument info vectors */
- args[0] = &ffi_type_pointer;
- values[0] = &s;
-
- /* Initialize the cif */
- if (ffi_prep_cif(&cif, FFI_DEFAULT_ABI, 1,
- &ffi_type_sint, args) == FFI_OK)
- {
- s = "Hello World!";
- ffi_call(&cif, puts, &rc, values);
- /* rc now holds the result of the call to puts */
-
- /* values holds a pointer to the function's arg, so to
- call puts() again all we need to do is change the
- value of s */
- s = "This is cool!";
- ffi_call(&cif, puts, &rc, values);
- }
-
- return 0;
- }
-
-
-File: libffi.info, Node: Types, Next: Multiple ABIs, Prev: Simple Example, Up: Using libffi
-
-2.3 Types
-=========
-
-* Menu:
-
-* Primitive Types:: Built-in types.
-* Structures:: Structure types.
-* Type Example:: Structure type example.
-
-
-File: libffi.info, Node: Primitive Types, Next: Structures, Up: Types
-
-2.3.1 Primitive Types
----------------------
-
-'Libffi' provides a number of built-in type descriptors that can be used
-to describe argument and return types:
-
-'ffi_type_void'
- The type 'void'. This cannot be used for argument types, only for
- return values.
-
-'ffi_type_uint8'
- An unsigned, 8-bit integer type.
-
-'ffi_type_sint8'
- A signed, 8-bit integer type.
-
-'ffi_type_uint16'
- An unsigned, 16-bit integer type.
-
-'ffi_type_sint16'
- A signed, 16-bit integer type.
-
-'ffi_type_uint32'
- An unsigned, 32-bit integer type.
-
-'ffi_type_sint32'
- A signed, 32-bit integer type.
-
-'ffi_type_uint64'
- An unsigned, 64-bit integer type.
-
-'ffi_type_sint64'
- A signed, 64-bit integer type.
-
-'ffi_type_float'
- The C 'float' type.
-
-'ffi_type_double'
- The C 'double' type.
-
-'ffi_type_uchar'
- The C 'unsigned char' type.
-
-'ffi_type_schar'
- The C 'signed char' type. (Note that there is not an exact
- equivalent to the C 'char' type in 'libffi'; ordinarily you should
- either use 'ffi_type_schar' or 'ffi_type_uchar' depending on
- whether 'char' is signed.)
-
-'ffi_type_ushort'
- The C 'unsigned short' type.
-
-'ffi_type_sshort'
- The C 'short' type.
-
-'ffi_type_uint'
- The C 'unsigned int' type.
-
-'ffi_type_sint'
- The C 'int' type.
-
-'ffi_type_ulong'
- The C 'unsigned long' type.
-
-'ffi_type_slong'
- The C 'long' type.
-
-'ffi_type_longdouble'
- On platforms that have a C 'long double' type, this is defined. On
- other platforms, it is not.
-
-'ffi_type_pointer'
- A generic 'void *' pointer. You should use this for all pointers,
- regardless of their real type.
-
- Each of these is of type 'ffi_type', so you must take the address
-when passing to 'ffi_prep_cif'.
-
-
-File: libffi.info, Node: Structures, Next: Type Example, Prev: Primitive Types, Up: Types
-
-2.3.2 Structures
-----------------
-
-Although 'libffi' has no special support for unions or bit-fields, it is
-perfectly happy passing structures back and forth. You must first
-describe the structure to 'libffi' by creating a new 'ffi_type' object
-for it.
-
- -- Data type: ffi_type
- The 'ffi_type' has the following members:
- 'size_t size'
- This is set by 'libffi'; you should initialize it to zero.
-
- 'unsigned short alignment'
- This is set by 'libffi'; you should initialize it to zero.
-
- 'unsigned short type'
- For a structure, this should be set to 'FFI_TYPE_STRUCT'.
-
- 'ffi_type **elements'
- This is a 'NULL'-terminated array of pointers to 'ffi_type'
- objects. There is one element per field of the struct.
-
-
-File: libffi.info, Node: Type Example, Prev: Structures, Up: Types
-
-2.3.3 Type Example
-------------------
-
-The following example initializes a 'ffi_type' object representing the
-'tm' struct from Linux's 'time.h'.
-
- Here is how the struct is defined:
-
- struct tm {
- int tm_sec;
- int tm_min;
- int tm_hour;
- int tm_mday;
- int tm_mon;
- int tm_year;
- int tm_wday;
- int tm_yday;
- int tm_isdst;
- /* Those are for future use. */
- long int __tm_gmtoff__;
- __const char *__tm_zone__;
- };
-
- Here is the corresponding code to describe this struct to 'libffi':
-
- {
- ffi_type tm_type;
- ffi_type *tm_type_elements[12];
- int i;
-
- tm_type.size = tm_type.alignment = 0;
- tm_type.type = FFI_TYPE_STRUCT;
- tm_type.elements = &tm_type_elements;
-
- for (i = 0; i < 9; i++)
- tm_type_elements[i] = &ffi_type_sint;
-
- tm_type_elements[9] = &ffi_type_slong;
- tm_type_elements[10] = &ffi_type_pointer;
- tm_type_elements[11] = NULL;
-
- /* tm_type can now be used to represent tm argument types and
- return types for ffi_prep_cif() */
- }
-
-
-File: libffi.info, Node: Multiple ABIs, Next: The Closure API, Prev: Types, Up: Using libffi
-
-2.4 Multiple ABIs
-=================
-
-A given platform may provide multiple different ABIs at once. For
-instance, the x86 platform has both 'stdcall' and 'fastcall' functions.
-
- 'libffi' provides some support for this. However, this is
-necessarily platform-specific.
-
-
-File: libffi.info, Node: The Closure API, Next: Closure Example, Prev: Multiple ABIs, Up: Using libffi
-
-2.5 The Closure API
-===================
-
-'libffi' also provides a way to write a generic function - a function
-that can accept and decode any combination of arguments. This can be
-useful when writing an interpreter, or to provide wrappers for arbitrary
-functions.
-
- This facility is called the "closure API". Closures are not supported
-on all platforms; you can check the 'FFI_CLOSURES' define to determine
-whether they are supported on the current platform.
-
- Because closures work by assembling a tiny function at runtime, they
-require special allocation on platforms that have a non-executable heap.
-Memory management for closures is handled by a pair of functions:
-
- -- Function: void *ffi_closure_alloc (size_t SIZE, void **CODE)
- Allocate a chunk of memory holding SIZE bytes. This returns a
- pointer to the writable address, and sets *CODE to the
- corresponding executable address.
-
- SIZE should be sufficient to hold a 'ffi_closure' object.
-
- -- Function: void ffi_closure_free (void *WRITABLE)
- Free memory allocated using 'ffi_closure_alloc'. The argument is
- the writable address that was returned.
-
- Once you have allocated the memory for a closure, you must construct
-a 'ffi_cif' describing the function call. Finally you can prepare the
-closure function:
-
- -- Function: ffi_status ffi_prep_closure_loc (ffi_closure *CLOSURE,
- ffi_cif *CIF, void (*FUN) (ffi_cif *CIF, void *RET, void
- **ARGS, void *USER_DATA), void *USER_DATA, void *CODELOC)
- Prepare a closure function.
-
- CLOSURE is the address of a 'ffi_closure' object; this is the
- writable address returned by 'ffi_closure_alloc'.
-
- CIF is the 'ffi_cif' describing the function parameters.
-
- USER_DATA is an arbitrary datum that is passed, uninterpreted, to
- your closure function.
-
- CODELOC is the executable address returned by 'ffi_closure_alloc'.
-
- FUN is the function which will be called when the closure is
- invoked. It is called with the arguments:
- CIF
- The 'ffi_cif' passed to 'ffi_prep_closure_loc'.
-
- RET
- A pointer to the memory used for the function's return value.
- FUN must fill this, unless the function is declared as
- returning 'void'.
-
- ARGS
- A vector of pointers to memory holding the arguments to the
- function.
-
- USER_DATA
- The same USER_DATA that was passed to 'ffi_prep_closure_loc'.
-
- 'ffi_prep_closure_loc' will return 'FFI_OK' if everything went ok,
- and something else on error.
-
- After calling 'ffi_prep_closure_loc', you can cast CODELOC to the
- appropriate pointer-to-function type.
-
- You may see old code referring to 'ffi_prep_closure'. This function
-is deprecated, as it cannot handle the need for separate writable and
-executable addresses.
-
-
-File: libffi.info, Node: Closure Example, Prev: The Closure API, Up: Using libffi
-
-2.6 Closure Example
-===================
-
-A trivial example that creates a new 'puts' by binding 'fputs' with
-'stdin'.
-
- #include <stdio.h>
- #include <ffi.h>
-
- /* Acts like puts with the file given at time of enclosure. */
- void puts_binding(ffi_cif *cif, void *ret, void* args[],
- void *stream)
- {
- *(ffi_arg *)ret = fputs(*(char **)args[0], (FILE *)stream);
- }
-
- typedef int (*puts_t)(char *);
-
- int main()
- {
- ffi_cif cif;
- ffi_type *args[1];
- ffi_closure *closure;
-
- void *bound_puts;
- int rc;
-
- /* Allocate closure and bound_puts */
- closure = ffi_closure_alloc(sizeof(ffi_closure), &bound_puts);
-
- if (closure)
- {
- /* Initialize the argument info vectors */
- args[0] = &ffi_type_pointer;
-
- /* Initialize the cif */
- if (ffi_prep_cif(&cif, FFI_DEFAULT_ABI, 1,
- &ffi_type_sint, args) == FFI_OK)
- {
- /* Initialize the closure, setting stream to stdout */
- if (ffi_prep_closure_loc(closure, &cif, puts_binding,
- stdout, bound_puts) == FFI_OK)
- {
- rc = ((puts_t)bound_puts)("Hello World!");
- /* rc now holds the result of the call to fputs */
- }
- }
- }
-
- /* Deallocate both closure, and bound_puts */
- ffi_closure_free(closure);
-
- return 0;
- }
-
-
-File: libffi.info, Node: Missing Features, Next: Index, Prev: Using libffi, Up: Top
-
-3 Missing Features
-******************
-
-'libffi' is missing a few features. We welcome patches to add support
-for these.
-
- * Variadic closures.
-
- * There is no support for bit fields in structures.
-
- * The closure API is
-
- * The "raw" API is undocumented.
-
- Note that variadic support is very new and tested on a relatively
-small number of platforms.
-
-
-File: libffi.info, Node: Index, Prev: Missing Features, Up: Top
-
-Index
-*****
-
- [index ]
-* Menu:
-
-* ABI: Introduction. (line 13)
-* Application Binary Interface: Introduction. (line 13)
-* calling convention: Introduction. (line 13)
-* cif: The Basics. (line 14)
-* closure API: The Closure API. (line 13)
-* closures: The Closure API. (line 13)
-* FFI: Introduction. (line 31)
-* ffi_call: The Basics. (line 62)
-* FFI_CLOSURES: The Closure API. (line 13)
-* ffi_closure_alloc: The Closure API. (line 19)
-* ffi_closure_free: The Closure API. (line 26)
-* ffi_prep_cif: The Basics. (line 16)
-* ffi_prep_cif_var: The Basics. (line 39)
-* ffi_prep_closure_loc: The Closure API. (line 34)
-* ffi_status: The Basics. (line 16)
-* ffi_status <1>: The Basics. (line 39)
-* ffi_status <2>: The Closure API. (line 34)
-* ffi_type: Structures. (line 11)
-* ffi_type <1>: Structures. (line 11)
-* ffi_type_double: Primitive Types. (line 41)
-* ffi_type_float: Primitive Types. (line 38)
-* ffi_type_longdouble: Primitive Types. (line 71)
-* ffi_type_pointer: Primitive Types. (line 75)
-* ffi_type_schar: Primitive Types. (line 47)
-* ffi_type_sint: Primitive Types. (line 62)
-* ffi_type_sint16: Primitive Types. (line 23)
-* ffi_type_sint32: Primitive Types. (line 29)
-* ffi_type_sint64: Primitive Types. (line 35)
-* ffi_type_sint8: Primitive Types. (line 17)
-* ffi_type_slong: Primitive Types. (line 68)
-* ffi_type_sshort: Primitive Types. (line 56)
-* ffi_type_uchar: Primitive Types. (line 44)
-* ffi_type_uint: Primitive Types. (line 59)
-* ffi_type_uint16: Primitive Types. (line 20)
-* ffi_type_uint32: Primitive Types. (line 26)
-* ffi_type_uint64: Primitive Types. (line 32)
-* ffi_type_uint8: Primitive Types. (line 14)
-* ffi_type_ulong: Primitive Types. (line 65)
-* ffi_type_ushort: Primitive Types. (line 53)
-* ffi_type_void: Primitive Types. (line 10)
-* Foreign Function Interface: Introduction. (line 31)
-* void: The Basics. (line 62)
-* void <1>: The Closure API. (line 19)
-* void <2>: The Closure API. (line 26)
-
-
-
-Tag Table:
-Node: Top682
-Node: Introduction1429
-Node: Using libffi3061
-Node: The Basics3547
-Node: Simple Example7198
-Node: Types8229
-Node: Primitive Types8512
-Node: Structures10333
-Node: Type Example11207
-Node: Multiple ABIs12473
-Node: The Closure API12844
-Node: Closure Example15788
-Node: Missing Features17396
-Node: Index17849
-
-End Tag Table
diff --git a/doc/stamp-vti b/doc/stamp-vti
deleted file mode 100644
index 39d9d1d..0000000
--- a/doc/stamp-vti
+++ /dev/null
@@ -1,4 +0,0 @@
-@set UPDATED 8 February 2014
-@set UPDATED-MONTH February 2014
-@set EDITION 3.0.14-rc0
-@set VERSION 3.0.14-rc0
diff --git a/fficonfig.h.in b/fficonfig.h.in
deleted file mode 100644
index cac4b86..0000000
--- a/fficonfig.h.in
+++ /dev/null
@@ -1,211 +0,0 @@
-/* fficonfig.h.in. Generated from configure.ac by autoheader. */
-
-/* Define if building universal (internal helper macro) */
-#undef AC_APPLE_UNIVERSAL_BUILD
-
-/* Define to one of `_getb67', `GETB67', `getb67' for Cray-2 and Cray-YMP
- systems. This function is required for `alloca.c' support on those systems.
- */
-#undef CRAY_STACKSEG_END
-
-/* Define to 1 if using `alloca.c'. */
-#undef C_ALLOCA
-
-/* Define to the flags needed for the .section .eh_frame directive. */
-#undef EH_FRAME_FLAGS
-
-/* Define this if you want extra debugging. */
-#undef FFI_DEBUG
-
-/* Cannot use PROT_EXEC on this target, so, we revert to alternative means */
-#undef FFI_EXEC_TRAMPOLINE_TABLE
-
-/* Define this if you want to enable pax emulated trampolines */
-#undef FFI_MMAP_EXEC_EMUTRAMP_PAX
-
-/* Cannot use malloc on this target, so, we revert to alternative means */
-#undef FFI_MMAP_EXEC_WRIT
-
-/* Define this if you do not want support for the raw API. */
-#undef FFI_NO_RAW_API
-
-/* Define this if you do not want support for aggregate types. */
-#undef FFI_NO_STRUCTS
-
-/* Define to 1 if you have `alloca', as a function or macro. */
-#undef HAVE_ALLOCA
-
-/* Define to 1 if you have <alloca.h> and it should be used (not on Ultrix).
- */
-#undef HAVE_ALLOCA_H
-
-/* Define if your assembler supports .ascii. */
-#undef HAVE_AS_ASCII_PSEUDO_OP
-
-/* Define if your assembler supports .cfi_* directives. */
-#undef HAVE_AS_CFI_PSEUDO_OP
-
-/* Define if your assembler supports .register. */
-#undef HAVE_AS_REGISTER_PSEUDO_OP
-
-/* Define if your assembler and linker support unaligned PC relative relocs.
- */
-#undef HAVE_AS_SPARC_UA_PCREL
-
-/* Define if your assembler supports .string. */
-#undef HAVE_AS_STRING_PSEUDO_OP
-
-/* Define if your assembler supports unwind section type. */
-#undef HAVE_AS_X86_64_UNWIND_SECTION_TYPE
-
-/* Define if your assembler supports PC relative relocs. */
-#undef HAVE_AS_X86_PCREL
-
-/* Define to 1 if you have the <dlfcn.h> header file. */
-#undef HAVE_DLFCN_H
-
-/* Define if __attribute__((visibility("hidden"))) is supported. */
-#undef HAVE_HIDDEN_VISIBILITY_ATTRIBUTE
-
-/* Define to 1 if you have the <inttypes.h> header file. */
-#undef HAVE_INTTYPES_H
-
-/* Define if you have the long double type and it is bigger than a double */
-#undef HAVE_LONG_DOUBLE
-
-/* Define if you support more than one size of the long double type */
-#undef HAVE_LONG_DOUBLE_VARIANT
-
-/* Define to 1 if you have the `memcpy' function. */
-#undef HAVE_MEMCPY
-
-/* Define to 1 if you have the <memory.h> header file. */
-#undef HAVE_MEMORY_H
-
-/* Define to 1 if you have the `mmap' function. */
-#undef HAVE_MMAP
-
-/* Define if mmap with MAP_ANON(YMOUS) works. */
-#undef HAVE_MMAP_ANON
-
-/* Define if mmap of /dev/zero works. */
-#undef HAVE_MMAP_DEV_ZERO
-
-/* Define if read-only mmap of a plain file works. */
-#undef HAVE_MMAP_FILE
-
-/* Define if .eh_frame sections should be read-only. */
-#undef HAVE_RO_EH_FRAME
-
-/* Define to 1 if you have the <stdint.h> header file. */
-#undef HAVE_STDINT_H
-
-/* Define to 1 if you have the <stdlib.h> header file. */
-#undef HAVE_STDLIB_H
-
-/* Define to 1 if you have the <strings.h> header file. */
-#undef HAVE_STRINGS_H
-
-/* Define to 1 if you have the <string.h> header file. */
-#undef HAVE_STRING_H
-
-/* Define to 1 if you have the <sys/mman.h> header file. */
-#undef HAVE_SYS_MMAN_H
-
-/* Define to 1 if you have the <sys/stat.h> header file. */
-#undef HAVE_SYS_STAT_H
-
-/* Define to 1 if you have the <sys/types.h> header file. */
-#undef HAVE_SYS_TYPES_H
-
-/* Define to 1 if you have the <unistd.h> header file. */
-#undef HAVE_UNISTD_H
-
-/* Define to the sub-directory in which libtool stores uninstalled libraries.
- */
-#undef LT_OBJDIR
-
-/* Define to 1 if your C compiler doesn't accept -c and -o together. */
-#undef NO_MINUS_C_MINUS_O
-
-/* Name of package */
-#undef PACKAGE
-
-/* Define to the address where bug reports for this package should be sent. */
-#undef PACKAGE_BUGREPORT
-
-/* Define to the full name of this package. */
-#undef PACKAGE_NAME
-
-/* Define to the full name and version of this package. */
-#undef PACKAGE_STRING
-
-/* Define to the one symbol short name of this package. */
-#undef PACKAGE_TARNAME
-
-/* Define to the home page for this package. */
-#undef PACKAGE_URL
-
-/* Define to the version of this package. */
-#undef PACKAGE_VERSION
-
-/* The size of `double', as computed by sizeof. */
-#undef SIZEOF_DOUBLE
-
-/* The size of `long double', as computed by sizeof. */
-#undef SIZEOF_LONG_DOUBLE
-
-/* The size of `size_t', as computed by sizeof. */
-#undef SIZEOF_SIZE_T
-
-/* If using the C implementation of alloca, define if you know the
- direction of stack growth for your system; otherwise it will be
- automatically deduced at runtime.
- STACK_DIRECTION > 0 => grows toward higher addresses
- STACK_DIRECTION < 0 => grows toward lower addresses
- STACK_DIRECTION = 0 => direction of growth unknown */
-#undef STACK_DIRECTION
-
-/* Define to 1 if you have the ANSI C header files. */
-#undef STDC_HEADERS
-
-/* Define if symbols are underscored. */
-#undef SYMBOL_UNDERSCORE
-
-/* Define this if you are using Purify and want to suppress spurious messages.
- */
-#undef USING_PURIFY
-
-/* Version number of package */
-#undef VERSION
-
-/* Define WORDS_BIGENDIAN to 1 if your processor stores words with the most
- significant byte first (like Motorola and SPARC, unlike Intel). */
-#if defined AC_APPLE_UNIVERSAL_BUILD
-# if defined __BIG_ENDIAN__
-# define WORDS_BIGENDIAN 1
-# endif
-#else
-# ifndef WORDS_BIGENDIAN
-# undef WORDS_BIGENDIAN
-# endif
-#endif
-
-/* Define to `unsigned int' if <sys/types.h> does not define. */
-#undef size_t
-
-
-#ifdef HAVE_HIDDEN_VISIBILITY_ATTRIBUTE
-#ifdef LIBFFI_ASM
-#define FFI_HIDDEN(name) .hidden name
-#else
-#define FFI_HIDDEN __attribute__ ((visibility ("hidden")))
-#endif
-#else
-#ifdef LIBFFI_ASM
-#define FFI_HIDDEN(name)
-#else
-#define FFI_HIDDEN
-#endif
-#endif
-