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|
/* srfi-4.c --- Homogeneous numeric vector datatypes.
*
* Copyright (C) 2001, 2004 Free Software Foundation, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <libguile.h>
#include <string.h>
#include <stdio.h>
#include "libguile/srfi-4.h"
#include "libguile/error.h"
#include "libguile/read.h"
#include "libguile/ports.h"
#include "libguile/chars.h"
/* Smob type code for homogeneous numeric vectors. */
int scm_tc16_uvec = 0;
/* Accessor macros for the three components of a homogeneous numeric
vector:
- The type tag (one of the symbolic constants below).
- The vector's length (counted in elements).
- The address of the data area (holding the elements of the
vector). */
#define SCM_UVEC_TYPE(u) (SCM_CELL_WORD_1(u))
#define SCM_UVEC_LENGTH(u) ((size_t)SCM_CELL_WORD_2(u))
#define SCM_UVEC_BASE(u) ((void *)SCM_CELL_WORD_3(u))
/* Symbolic constants encoding the various types of homogeneous
numeric vectors. */
#define SCM_UVEC_U8 0
#define SCM_UVEC_S8 1
#define SCM_UVEC_U16 2
#define SCM_UVEC_S16 3
#define SCM_UVEC_U32 4
#define SCM_UVEC_S32 5
#define SCM_UVEC_U64 6
#define SCM_UVEC_S64 7
#define SCM_UVEC_F32 8
#define SCM_UVEC_F64 9
#define SCM_UVEC_C32 10
#define SCM_UVEC_C64 11
/* This array maps type tags to the size of the elements. */
static const int uvec_sizes[12] = {
1, 1,
2, 2,
4, 4,
8, 8,
sizeof(float), sizeof(double),
2*sizeof(float), 2*sizeof(double)
};
static const char *uvec_tags[12] = {
"u8", "s8",
"u16", "s16",
"u32", "s32",
"u64", "s64",
"f32", "f64",
"c32", "c64",
};
static const char *uvec_names[12] = {
"u8vector", "s8vector",
"u16vector", "s16vector",
"u32vector", "s32vector",
"u64vector", "s64vector",
"f32vector", "f64vector",
"c32vector", "c64vector"
};
/* ================================================================ */
/* SMOB procedures. */
/* ================================================================ */
/* Smob print hook for homogeneous vectors. */
static int
uvec_print (SCM uvec, SCM port, scm_print_state *pstate)
{
union {
scm_t_uint8 *u8;
scm_t_int8 *s8;
scm_t_uint16 *u16;
scm_t_int16 *s16;
scm_t_uint32 *u32;
scm_t_int32 *s32;
#if SCM_HAVE_T_INT64
scm_t_uint64 *u64;
scm_t_int64 *s64;
#endif
float *f32;
double *f64;
} np;
size_t i = 0;
const size_t uvlen = SCM_UVEC_LENGTH (uvec);
void *uptr = SCM_UVEC_BASE (uvec);
switch (SCM_UVEC_TYPE (uvec))
{
case SCM_UVEC_U8: np.u8 = (scm_t_uint8 *) uptr; break;
case SCM_UVEC_S8: np.s8 = (scm_t_int8 *) uptr; break;
case SCM_UVEC_U16: np.u16 = (scm_t_uint16 *) uptr; break;
case SCM_UVEC_S16: np.s16 = (scm_t_int16 *) uptr; break;
case SCM_UVEC_U32: np.u32 = (scm_t_uint32 *) uptr; break;
case SCM_UVEC_S32: np.s32 = (scm_t_int32 *) uptr; break;
#if SCM_HAVE_T_INT64
case SCM_UVEC_U64: np.u64 = (scm_t_uint64 *) uptr; break;
case SCM_UVEC_S64: np.s64 = (scm_t_int64 *) uptr; break;
#endif
case SCM_UVEC_F32: np.f32 = (float *) uptr; break;
case SCM_UVEC_F64: np.f64 = (double *) uptr; break;
case SCM_UVEC_C32: np.f32 = (float *) uptr; break;
case SCM_UVEC_C64: np.f64 = (double *) uptr; break;
default:
abort (); /* Sanity check. */
break;
}
scm_putc ('#', port);
scm_puts (uvec_tags [SCM_UVEC_TYPE (uvec)], port);
scm_putc ('(', port);
while (i < uvlen)
{
if (i != 0) scm_puts (" ", port);
switch (SCM_UVEC_TYPE (uvec))
{
case SCM_UVEC_U8: scm_uintprint (*np.u8, 10, port); np.u8++; break;
case SCM_UVEC_S8: scm_intprint (*np.s8, 10, port); np.s8++; break;
case SCM_UVEC_U16: scm_uintprint (*np.u16, 10, port); np.u16++; break;
case SCM_UVEC_S16: scm_intprint (*np.s16, 10, port); np.s16++; break;
case SCM_UVEC_U32: scm_uintprint (*np.u32, 10, port); np.u32++; break;
case SCM_UVEC_S32: scm_intprint (*np.s32, 10, port); np.s32++; break;
#if SCM_HAVE_T_INT64
case SCM_UVEC_U64: scm_uintprint (*np.u64, 10, port); np.u64++; break;
case SCM_UVEC_S64: scm_intprint (*np.s64, 10, port); np.s64++; break;
#endif
case SCM_UVEC_F32: scm_i_print_double (*np.f32, port); np.f32++; break;
case SCM_UVEC_F64: scm_i_print_double (*np.f64, port); np.f64++; break;
case SCM_UVEC_C32:
scm_i_print_complex (np.f32[0], np.f32[1], port);
np.f32 += 2;
break;
case SCM_UVEC_C64:
scm_i_print_complex (np.f64[0], np.f64[1], port);
np.f64 += 2;
break;
default:
abort (); /* Sanity check. */
break;
}
i++;
}
scm_remember_upto_here_1 (uvec);
scm_puts (")", port);
return 1;
}
const char *
scm_i_uniform_vector_tag (SCM uvec)
{
return uvec_tags[SCM_UVEC_TYPE (uvec)];
}
static SCM
uvec_equalp (SCM a, SCM b)
{
SCM result = SCM_BOOL_T;
if (SCM_UVEC_TYPE (a) != SCM_UVEC_TYPE (b))
result = SCM_BOOL_F;
else if (SCM_UVEC_LENGTH (a) != SCM_UVEC_LENGTH (b))
result = SCM_BOOL_F;
else if (memcmp (SCM_UVEC_BASE (a), SCM_UVEC_BASE (b),
SCM_UVEC_LENGTH (a) * uvec_sizes[SCM_UVEC_TYPE(a)]) != 0)
result = SCM_BOOL_F;
scm_remember_upto_here_2 (a, b);
return result;
}
/* Smob free hook for homogeneous numeric vectors. */
static size_t
uvec_free (SCM uvec)
{
int type = SCM_UVEC_TYPE (uvec);
scm_gc_free (SCM_UVEC_BASE (uvec),
SCM_UVEC_LENGTH (uvec) * uvec_sizes[type],
uvec_names[type]);
return 0;
}
/* ================================================================ */
/* Utility procedures. */
/* ================================================================ */
static SCM_C_INLINE int
is_uvec (int type, SCM obj)
{
return (SCM_SMOB_PREDICATE (scm_tc16_uvec, obj)
&& SCM_UVEC_TYPE (obj) == type);
}
static SCM_C_INLINE SCM
uvec_p (int type, SCM obj)
{
return scm_from_bool (is_uvec (type, obj));
}
static SCM_C_INLINE void
uvec_assert (int type, SCM obj)
{
if (!is_uvec (type, obj))
scm_wrong_type_arg_msg (NULL, 0, obj, uvec_names[type]);
}
static SCM
take_uvec (int type, const void *base, size_t len)
{
SCM_RETURN_NEWSMOB3 (scm_tc16_uvec, type, len, (scm_t_bits) base);
}
/* Create a new, uninitialized homogeneous numeric vector of type TYPE
with space for LEN elements. */
static SCM
alloc_uvec (int type, size_t len)
{
void *base = scm_gc_malloc (len * uvec_sizes[type], uvec_names[type]);
return take_uvec (type, base, len);
}
/* GCC doesn't seem to want to optimize unused switch clauses away,
so we use a big 'if' in the next two functions.
*/
static SCM_C_INLINE SCM
uvec_fast_ref (int type, void *base, size_t c_idx)
{
if (type == SCM_UVEC_U8)
return scm_from_uint8 (((scm_t_uint8*)base)[c_idx]);
else if (type == SCM_UVEC_S8)
return scm_from_int8 (((scm_t_int8*)base)[c_idx]);
else if (type == SCM_UVEC_U16)
return scm_from_uint16 (((scm_t_uint16*)base)[c_idx]);
else if (type == SCM_UVEC_S16)
return scm_from_int16 (((scm_t_int16*)base)[c_idx]);
else if (type == SCM_UVEC_U32)
return scm_from_uint32 (((scm_t_uint32*)base)[c_idx]);
else if (type == SCM_UVEC_S32)
return scm_from_int32 (((scm_t_int32*)base)[c_idx]);
#if SCM_HAVE_T_INT64
else if (type == SCM_UVEC_U64)
return scm_from_uint64 (((scm_t_uint64*)base)[c_idx]);
else if (type == SCM_UVEC_S64)
return scm_from_int64 (((scm_t_int64*)base)[c_idx]);
#endif
else if (type == SCM_UVEC_F32)
return scm_from_double (((float*)base)[c_idx]);
else if (type == SCM_UVEC_F64)
return scm_from_double (((double*)base)[c_idx]);
else if (type == SCM_UVEC_C32)
return scm_c_make_rectangular (((float*)base)[2*c_idx],
((float*)base)[2*c_idx+1]);
else if (type == SCM_UVEC_C64)
return scm_c_make_rectangular (((double*)base)[2*c_idx],
((double*)base)[2*c_idx+1]);
else
return SCM_BOOL_F;
}
static SCM_C_INLINE void
uvec_fast_set_x (int type, void *base, size_t c_idx, SCM val)
{
if (type == SCM_UVEC_U8)
(((scm_t_uint8*)base)[c_idx]) = scm_to_uint8 (val);
else if (type == SCM_UVEC_S8)
(((scm_t_int8*)base)[c_idx]) = scm_to_int8 (val);
else if (type == SCM_UVEC_U16)
(((scm_t_uint16*)base)[c_idx]) = scm_to_uint16 (val);
else if (type == SCM_UVEC_S16)
(((scm_t_int16*)base)[c_idx]) = scm_to_int16 (val);
else if (type == SCM_UVEC_U32)
(((scm_t_uint32*)base)[c_idx]) = scm_to_uint32 (val);
else if (type == SCM_UVEC_S32)
(((scm_t_int32*)base)[c_idx]) = scm_to_int32 (val);
#if SCM_HAVE_T_INT64
else if (type == SCM_UVEC_U64)
(((scm_t_uint64*)base)[c_idx]) = scm_to_uint64 (val);
else if (type == SCM_UVEC_S64)
(((scm_t_int64*)base)[c_idx]) = scm_to_int64 (val);
#endif
else if (type == SCM_UVEC_F32)
(((float*)base)[c_idx]) = scm_to_double (val);
else if (type == SCM_UVEC_F64)
(((double*)base)[c_idx]) = scm_to_double (val);
else if (type == SCM_UVEC_C32)
{
(((float*)base)[2*c_idx]) = scm_c_real_part (val);
(((float*)base)[2*c_idx+1]) = scm_c_imag_part (val);
}
else if (type == SCM_UVEC_C64)
{
(((double*)base)[2*c_idx]) = scm_c_real_part (val);
(((double*)base)[2*c_idx+1]) = scm_c_imag_part (val);
}
}
static SCM_C_INLINE SCM
make_uvec (int type, SCM len, SCM fill)
{
size_t c_len = scm_to_unsigned_integer (len, 0,
SCM_I_SIZE_MAX / uvec_sizes[type]);
SCM uvec = alloc_uvec (type, c_len);
if (!SCM_UNBNDP (fill))
{
size_t idx;
void *base = SCM_UVEC_BASE (uvec);
for (idx = 0; idx < c_len; idx++)
uvec_fast_set_x (type, base, idx, fill);
}
return uvec;
}
static SCM_C_INLINE SCM
uvec_length (int type, SCM uvec)
{
uvec_assert (type, uvec);
return scm_from_size_t (SCM_UVEC_LENGTH (uvec));
}
static SCM_C_INLINE SCM
uvec_ref (int type, SCM uvec, SCM idx)
{
size_t c_idx;
SCM res;
uvec_assert (type, uvec);
c_idx = scm_to_unsigned_integer (idx, 0, SCM_UVEC_LENGTH (uvec)-1);
res = uvec_fast_ref (type, SCM_UVEC_BASE(uvec), c_idx);
scm_remember_upto_here_1 (uvec);
return res;
}
static SCM_C_INLINE SCM
uvec_set_x (int type, SCM uvec, SCM idx, SCM val)
{
size_t c_idx;
uvec_assert (type, uvec);
c_idx = scm_to_unsigned_integer (idx, 0, SCM_UVEC_LENGTH (uvec)-1);
uvec_fast_set_x (type, SCM_UVEC_BASE(uvec), c_idx, val);
scm_remember_upto_here_1 (uvec);
return SCM_UNSPECIFIED;
}
static SCM_C_INLINE SCM
uvec_to_list (int type, SCM uvec)
{
size_t c_idx;
void *base;
SCM res = SCM_EOL;
uvec_assert (type, uvec);
c_idx = SCM_UVEC_LENGTH (uvec);
base = SCM_UVEC_BASE (uvec);
while (c_idx-- > 0)
res = scm_cons (uvec_fast_ref (type, base, c_idx), res);
scm_remember_upto_here_1 (uvec);
return res;
}
static SCM_C_INLINE SCM
list_to_uvec (int type, SCM list)
{
SCM uvec;
void *base;
long idx;
long len = scm_ilength (list);
if (len < 0)
scm_wrong_type_arg_msg (NULL, 0, list, "proper list");
uvec = alloc_uvec (type, len);
base = SCM_UVEC_BASE (uvec);
idx = 0;
while (scm_is_pair (list) && idx < len)
{
uvec_fast_set_x (type, base, idx, SCM_CAR (list));
list = SCM_CDR (list);
idx++;
}
return uvec;
}
static SCM
coerce_to_uvec (int type, SCM obj)
{
if (is_uvec (type, obj))
return obj;
else if (scm_is_pair (obj))
return list_to_uvec (type, obj);
else if (scm_is_true (scm_vector_p (obj)))
{
SCM len = scm_vector_length (obj);
SCM uvec = make_uvec (type, len, SCM_UNDEFINED);
size_t clen = scm_to_size_t (len), i;
void *base = SCM_UVEC_BASE (uvec);
for (i = 0; i < clen; i++)
uvec_fast_set_x (type, base, i, SCM_VECTOR_REF (obj, i));
return uvec;
}
else if (scm_is_uniform_vector (obj))
{
SCM len = scm_uniform_vector_length (obj);
SCM uvec = make_uvec (type, len, SCM_UNDEFINED);
size_t clen = scm_to_size_t (len), i;
void *base = SCM_UVEC_BASE (uvec);
for (i = 0; i < clen; i++)
uvec_fast_set_x (type, base, i,
scm_uniform_vector_ref (obj, scm_from_size_t (i)));
return uvec;
}
else
scm_wrong_type_arg_msg (NULL, 0, obj, "list, vector, or uniform vector");
}
static SCM *uvec_proc_vars[12] = {
&scm_i_proc_make_u8vector,
&scm_i_proc_make_s8vector,
&scm_i_proc_make_u16vector,
&scm_i_proc_make_s16vector,
&scm_i_proc_make_u32vector,
&scm_i_proc_make_s32vector,
&scm_i_proc_make_u64vector,
&scm_i_proc_make_s64vector,
&scm_i_proc_make_f32vector,
&scm_i_proc_make_f64vector,
&scm_i_proc_make_c32vector,
&scm_i_proc_make_c64vector
};
SCM
scm_i_uniform_vector_creator (SCM uvec)
{
return *(uvec_proc_vars[SCM_UVEC_TYPE(uvec)]);
}
int
scm_is_uniform_vector (SCM obj)
{
return SCM_SMOB_PREDICATE (scm_tc16_uvec, obj);
}
size_t
scm_c_uniform_vector_length (SCM v)
{
if (scm_is_uniform_vector (v))
return SCM_UVEC_LENGTH (v);
else
scm_wrong_type_arg_msg (NULL, 0, v, "uniform vector");
}
size_t
scm_c_uniform_vector_size (SCM v)
{
if (scm_is_uniform_vector (v))
return SCM_UVEC_LENGTH (v) * uvec_sizes[SCM_UVEC_TYPE (v)];
else
scm_wrong_type_arg_msg (NULL, 0, v, "uniform vector");
}
SCM_DEFINE (scm_uniform_vector_p, "uniform-vector?", 1, 0, 0,
(SCM obj),
"Return @code{#t} if @var{obj} is a uniform vector.")
#define FUNC_NAME s_scm_uniform_vector_p
{
return scm_from_bool (scm_is_uniform_vector (obj));
}
#undef FUNC_NAME
SCM_DEFINE (scm_uniform_vector_ref, "uniform-vector-ref", 2, 0, 0,
(SCM v, SCM idx),
"Return the element at index @var{idx} of the\n"
"homogenous numeric vector @var{v}.")
#define FUNC_NAME s_scm_uniform_vector_ref
{
/* Support old argument convention.
*/
if (scm_is_pair (idx))
{
if (!scm_is_null (SCM_CDR (idx)))
scm_wrong_num_args (NULL);
idx = SCM_CAR (idx);
}
if (scm_is_uniform_vector (v))
return uvec_ref (SCM_UVEC_TYPE (v), v, idx);
else
scm_wrong_type_arg_msg (NULL, 0, v, "uniform vector");
}
#undef FUNC_NAME
SCM_DEFINE (scm_uniform_vector_set_x, "uniform-vector-set!", 3, 0, 0,
(SCM v, SCM idx, SCM val),
"Set the element at index @var{idx} of the\n"
"homogenous numeric vector @var{v} to @var{val}.")
#define FUNC_NAME s_scm_uniform_vector_set_x
{
/* Support old argument convention.
*/
if (scm_is_pair (idx))
{
if (!scm_is_null (SCM_CDR (idx)))
scm_wrong_num_args (NULL);
idx = SCM_CAR (idx);
}
if (scm_is_uniform_vector (v))
return uvec_set_x (SCM_UVEC_TYPE (v), v, idx, val);
else
scm_wrong_type_arg_msg (NULL, 0, v, "uniform vector");
}
#undef FUNC_NAME
SCM_DEFINE (scm_uniform_vector_to_list, "uniform-vector->list", 1, 0, 0,
(SCM uvec),
"Convert the homogeneous numeric vector @var{uvec} to a list.")
#define FUNC_NAME s_uniform_vector_to_list
{
if (scm_is_uniform_vector (uvec))
return uvec_to_list (SCM_UVEC_TYPE (uvec), uvec);
else
scm_wrong_type_arg_msg (NULL, 0, uvec, "uniform vector");
}
#undef FUNC_NAME
void *
scm_uniform_vector_elements (SCM uvec)
{
if (scm_is_uniform_vector (uvec))
return SCM_UVEC_BASE (uvec);
else
scm_wrong_type_arg_msg (NULL, 0, uvec, "uniform vector");
}
void
scm_uniform_vector_release (SCM uvec)
{
/* Nothing to do right now, but this function might come in handy
when uniform vectors need to be locked when giving away a pointer
to their elements.
Also, a call to scm_uniform_vector acts like
scm_remember_upto_here, which is needed in any case.
*/
}
void
scm_frame_uniform_vector_release (SCM uvec)
{
scm_frame_unwind_handler_with_scm (scm_uniform_vector_release, uvec,
SCM_F_WIND_EXPLICITLY);
}
size_t
scm_uniform_vector_element_size (SCM uvec)
{
if (scm_is_uniform_vector (uvec))
return uvec_sizes[SCM_UVEC_TYPE (uvec)];
else
scm_wrong_type_arg_msg (NULL, 0, uvec, "uniform vector");
}
/* return the size of an element in a uniform array or 0 if type not
found. */
size_t
scm_uniform_element_size (SCM obj)
{
if (scm_is_uniform_vector (obj))
return scm_uniform_vector_element_size (obj);
else if (SCM_BITVECTOR_P (obj))
return sizeof (long);
else
return 0;
}
SCM_DEFINE (scm_uniform_vector_length, "uniform-vector-length", 1, 0, 0,
(SCM v),
"Return the number of elements in @var{uve}.")
#define FUNC_NAME s_scm_uniform_vector_length
{
if (scm_is_uniform_vector (v))
return scm_from_size_t (SCM_UVEC_LENGTH (v));
else if (scm_is_string (v))
return scm_string_length (v);
else if (scm_is_true (scm_vector_p (v)))
return scm_vector_length (v);
else if (SCM_BITVECTOR_P (v))
return scm_from_size_t (SCM_BITVECTOR_LENGTH (v));
else
scm_wrong_type_arg (NULL, 0, v);
}
#undef FUNC_NAME
/* ================================================================ */
/* Exported procedures. */
/* ================================================================ */
#define TYPE SCM_UVEC_U8
#define TAG u8
#define CTYPE scm_t_uint8
#include "libguile/srfi-4.i.c"
#define TYPE SCM_UVEC_S8
#define TAG s8
#define CTYPE scm_t_int8
#include "libguile/srfi-4.i.c"
#define TYPE SCM_UVEC_U16
#define TAG u16
#define CTYPE scm_t_uint16
#include "libguile/srfi-4.i.c"
#define TYPE SCM_UVEC_S16
#define TAG s16
#define CTYPE scm_t_int16
#include "libguile/srfi-4.i.c"
#define TYPE SCM_UVEC_U32
#define TAG u32
#define CTYPE scm_t_uint32
#include "libguile/srfi-4.i.c"
#define TYPE SCM_UVEC_S32
#define TAG s32
#define CTYPE scm_t_int32
#include "libguile/srfi-4.i.c"
#define TYPE SCM_UVEC_U64
#define TAG u64
#define CTYPE scm_t_uint64
#include "libguile/srfi-4.i.c"
#define TYPE SCM_UVEC_S64
#define TAG s64
#define CTYPE scm_t_int64
#include "libguile/srfi-4.i.c"
#define TYPE SCM_UVEC_F32
#define TAG f32
#define CTYPE float
#include "libguile/srfi-4.i.c"
#define TYPE SCM_UVEC_F64
#define TAG f64
#define CTYPE double
#include "libguile/srfi-4.i.c"
#define TYPE SCM_UVEC_C32
#define TAG c32
#define CTYPE float
#include "libguile/srfi-4.i.c"
#define TYPE SCM_UVEC_C64
#define TAG c64
#define CTYPE double
#include "libguile/srfi-4.i.c"
SCM scm_i_proc_make_u8vector;
SCM scm_i_proc_make_s8vector;
SCM scm_i_proc_make_u16vector;
SCM scm_i_proc_make_s16vector;
SCM scm_i_proc_make_u32vector;
SCM scm_i_proc_make_s32vector;
SCM scm_i_proc_make_u64vector;
SCM scm_i_proc_make_s64vector;
SCM scm_i_proc_make_f32vector;
SCM scm_i_proc_make_f64vector;
SCM scm_i_proc_make_c32vector;
SCM scm_i_proc_make_c64vector;
/* Create the smob type for homogeneous numeric vectors and install
the primitives. */
void
scm_init_srfi_4 (void)
{
scm_tc16_uvec = scm_make_smob_type ("uvec", 0);
scm_set_smob_equalp (scm_tc16_uvec, uvec_equalp);
scm_set_smob_free (scm_tc16_uvec, uvec_free);
scm_set_smob_print (scm_tc16_uvec, uvec_print);
#include "libguile/srfi-4.x"
#define GETPROC(tag) \
scm_i_proc_make_##tag##vector = \
scm_variable_ref (scm_c_lookup ("make-"#tag"vector"))
GETPROC (u8);
GETPROC (s8);
GETPROC (u16);
GETPROC (s16);
GETPROC (u32);
GETPROC (s32);
GETPROC (u64);
GETPROC (s64);
GETPROC (f32);
GETPROC (f64);
GETPROC (c32);
GETPROC (c64);
}
/* End of srfi-4.c. */
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