/* Copyright (C) 1996, 1998, 2000, 2001, 2004, 2005, 2006, 2008, 2009, * 2010, 2011, 2012, 2013, 2014 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 3 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., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301 USA */ #ifdef HAVE_CONFIG_H # include #endif #include "libguile/_scm.h" #include "libguile/strings.h" #include "libguile/arrays.h" #include "libguile/smob.h" #include "libguile/chars.h" #include "libguile/eq.h" #include "libguile/eval.h" #include "libguile/feature.h" #include "libguile/root.h" #include "libguile/vectors.h" #include "libguile/bitvectors.h" #include "libguile/srfi-4.h" #include "libguile/generalized-arrays.h" #include "libguile/validate.h" #include "libguile/array-map.h" /* The WHAT argument for `scm_gc_malloc ()' et al. */ static const char vi_gc_hint[] = "array-indices"; static SCM AREF (SCM v, size_t pos) { return scm_c_array_ref_1 (v, pos); } static void ASET (SCM v, size_t pos, SCM val) { scm_c_array_set_1_x (v, val, pos); } static SCM make1array (SCM v, ssize_t inc) { SCM a = scm_i_make_array (1); SCM_I_ARRAY_SET_BASE (a, 0); SCM_I_ARRAY_DIMS (a)->lbnd = 0; SCM_I_ARRAY_DIMS (a)->ubnd = scm_c_array_length (v) - 1; SCM_I_ARRAY_DIMS (a)->inc = inc; SCM_I_ARRAY_SET_V (a, v); return a; } /* Linear index of not-unrolled index set. */ static size_t cindk (SCM ra, ssize_t *ve, int kend) { if (SCM_I_ARRAYP (ra)) { int k; size_t i = SCM_I_ARRAY_BASE (ra); for (k = 0; k < kend; ++k) i += (ve[k] - SCM_I_ARRAY_DIMS (ra)[k].lbnd) * SCM_I_ARRAY_DIMS (ra)[k].inc; return i; } else return 0; /* this is BASE */ } /* array mapper: apply cproc to each dimension of the given arrays?. int (*cproc) (); procedure to call on unrolled arrays? cproc (dest, source list) or cproc (dest, data, source list). SCM data; data to give to cproc or unbound. SCM ra0; destination array. SCM lra; list of source arrays. const char *what; caller, for error reporting. */ #define LBND(ra, k) SCM_I_ARRAY_DIMS (ra)[k].lbnd #define UBND(ra, k) SCM_I_ARRAY_DIMS (ra)[k].ubnd int scm_ramapc (void *cproc_ptr, SCM data, SCM ra0, SCM lra, const char *what) { int (*cproc) () = cproc_ptr; SCM z, va0, lva, *plva; int k, kmax, kroll; ssize_t *vi, inc; size_t len; /* Prepare reference argument. */ if (SCM_I_ARRAYP (ra0)) { kmax = SCM_I_ARRAY_NDIM (ra0)-1; inc = kmax < 0 ? 0 : SCM_I_ARRAY_DIMS (ra0)[kmax].inc; va0 = make1array (SCM_I_ARRAY_V (ra0), inc); /* Find unroll depth */ for (kroll = max(0, kmax); kroll > 0; --kroll) { inc *= (UBND (ra0, kroll) - LBND (ra0, kroll) + 1); if (inc != SCM_I_ARRAY_DIMS (ra0)[kroll-1].inc) break; } } else { kroll = kmax = 0; va0 = ra0 = make1array (ra0, 1); } /* Prepare rest arguments. */ lva = SCM_EOL; plva = &lva; for (z = lra; !scm_is_null (z); z = SCM_CDR (z)) { SCM va1, ra1 = SCM_CAR (z); if (SCM_I_ARRAYP (ra1)) { if (kmax != SCM_I_ARRAY_NDIM (ra1) - 1) scm_misc_error (what, "array shape mismatch: ~S", scm_list_1 (ra0)); inc = kmax < 0 ? 0 : SCM_I_ARRAY_DIMS (ra1)[kmax].inc; va1 = make1array (SCM_I_ARRAY_V (ra1), inc); /* Check unroll depth. */ for (k = kmax; k > kroll; --k) { ssize_t l0 = LBND (ra0, k), u0 = UBND (ra0, k); if (l0 < LBND (ra1, k) || u0 > UBND (ra1, k)) scm_misc_error (what, "array shape mismatch: ~S", scm_list_1 (ra0)); inc *= (u0 - l0 + 1); if (inc != SCM_I_ARRAY_DIMS (ra1)[k-1].inc) { kroll = k; break; } } /* Check matching of not-unrolled axes. */ for (; k>=0; --k) if (LBND (ra0, k) < LBND (ra1, k) || UBND (ra0, k) > UBND (ra1, k)) scm_misc_error (what, "array shape mismatch: ~S", scm_list_1 (ra0)); } else { if (kmax != 0) scm_misc_error (what, "array shape mismatch: ~S", scm_list_1 (ra0)); va1 = make1array (ra1, 1); if (LBND (ra0, 0) < LBND (va1, 0) || UBND (ra0, 0) > UBND (va1, 0)) scm_misc_error (what, "array shape mismatch: ~S", scm_list_1 (ra0)); } *plva = scm_cons (va1, SCM_EOL); plva = SCM_CDRLOC (*plva); } /* Check emptiness of not-unrolled axes. */ for (k = 0; k < kroll; ++k) if (0 == (UBND (ra0, k) - LBND (ra0, k) + 1)) return 1; /* Set unrolled size. */ for (len = 1; k <= kmax; ++k) len *= (UBND (ra0, k) - LBND (ra0, k) + 1); UBND (va0, 0) = len - 1; for (z = lva; !scm_is_null (z); z = SCM_CDR (z)) UBND (SCM_CAR (z), 0) = len - 1; /* Set starting indices and go. */ vi = scm_gc_malloc_pointerless (sizeof(ssize_t) * kroll, vi_gc_hint); for (k = 0; k < kroll; ++k) vi[k] = LBND (ra0, k); do { if (k == kroll) { SCM y = lra; SCM_I_ARRAY_SET_BASE (va0, cindk (ra0, vi, kroll)); for (z = lva; !scm_is_null (z); z = SCM_CDR (z), y = SCM_CDR (y)) SCM_I_ARRAY_SET_BASE (SCM_CAR (z), cindk (SCM_CAR (y), vi, kroll)); if (! (SCM_UNBNDP (data) ? cproc (va0, lva) : cproc (va0, data, lva))) return 0; --k; } else if (vi[k] < UBND (ra0, k)) { ++vi[k]; ++k; } else { vi[k] = LBND (ra0, k) - 1; --k; } } while (k >= 0); return 1; } #undef UBND #undef LBND static int rafill (SCM dst, SCM fill) { scm_t_array_handle h; size_t n, i; ssize_t inc; scm_array_get_handle (SCM_I_ARRAY_V (dst), &h); i = SCM_I_ARRAY_BASE (dst); inc = SCM_I_ARRAY_DIMS (dst)->inc; n = (SCM_I_ARRAY_DIMS (dst)->ubnd - SCM_I_ARRAY_DIMS (dst)->lbnd + 1); dst = SCM_I_ARRAY_V (dst); for (; n-- > 0; i += inc) h.vset (h.vector, i, fill); scm_array_handle_release (&h); return 1; } SCM_DEFINE (scm_array_fill_x, "array-fill!", 2, 0, 0, (SCM ra, SCM fill), "Store @var{fill} in every element of array @var{ra}. The value\n" "returned is unspecified.") #define FUNC_NAME s_scm_array_fill_x { scm_ramapc (rafill, fill, ra, SCM_EOL, FUNC_NAME); return SCM_UNSPECIFIED; } #undef FUNC_NAME static int racp (SCM src, SCM dst) { scm_t_array_handle h_s, h_d; size_t n, i_s, i_d; ssize_t inc_s, inc_d; dst = SCM_CAR (dst); i_s = SCM_I_ARRAY_BASE (src); i_d = SCM_I_ARRAY_BASE (dst); inc_s = SCM_I_ARRAY_DIMS (src)->inc; inc_d = SCM_I_ARRAY_DIMS (dst)->inc; n = (SCM_I_ARRAY_DIMS (src)->ubnd - SCM_I_ARRAY_DIMS (src)->lbnd + 1); src = SCM_I_ARRAY_V (src); dst = SCM_I_ARRAY_V (dst); scm_array_get_handle (src, &h_s); scm_array_get_handle (dst, &h_d); if (h_s.element_type == SCM_ARRAY_ELEMENT_TYPE_SCM && h_d.element_type == SCM_ARRAY_ELEMENT_TYPE_SCM) { SCM const * el_s = h_s.elements; SCM * el_d = h_d.writable_elements; for (; n-- > 0; i_s += inc_s, i_d += inc_d) el_d[i_d] = el_s[i_s]; } else for (; n-- > 0; i_s += inc_s, i_d += inc_d) h_d.vset (h_d.vector, i_d, h_s.vref (h_s.vector, i_s)); scm_array_handle_release (&h_d); scm_array_handle_release (&h_s); return 1; } SCM_REGISTER_PROC(s_array_copy_in_order_x, "array-copy-in-order!", 2, 0, 0, scm_array_copy_x); SCM_DEFINE (scm_array_copy_x, "array-copy!", 2, 0, 0, (SCM src, SCM dst), "@deffnx {Scheme Procedure} array-copy-in-order! src dst\n" "Copy every element from vector or array @var{src} to the\n" "corresponding element of @var{dst}. @var{dst} must have the\n" "same rank as @var{src}, and be at least as large in each\n" "dimension. The order is unspecified.") #define FUNC_NAME s_scm_array_copy_x { scm_ramapc (racp, SCM_UNDEFINED, src, scm_cons (dst, SCM_EOL), FUNC_NAME); return SCM_UNSPECIFIED; } #undef FUNC_NAME #if SCM_ENABLE_DEPRECATED == 1 /* to be used as cproc in scm_ramapc to fill an array dimension with "fill". */ int scm_array_fill_int (SCM ra, SCM fill, SCM ignore SCM_UNUSED) { unsigned long i; unsigned long n = SCM_I_ARRAY_DIMS (ra)->ubnd - SCM_I_ARRAY_DIMS (ra)->lbnd + 1; long inc = SCM_I_ARRAY_DIMS (ra)->inc; unsigned long base = SCM_I_ARRAY_BASE (ra); ra = SCM_I_ARRAY_V (ra); for (i = base; n--; i += inc) ASET (ra, i, fill); return 1; } /* Functions callable by ARRAY-MAP! */ int scm_ra_eqp (SCM ra0, SCM ras) { SCM ra1 = SCM_CAR (ras), ra2 = SCM_CAR (SCM_CDR (ras)); scm_t_array_handle ra0_handle; scm_t_array_dim *ra0_dims; size_t n; ssize_t inc0; size_t i0 = 0; unsigned long i1 = SCM_I_ARRAY_BASE (ra1), i2 = SCM_I_ARRAY_BASE (ra2); long inc1 = SCM_I_ARRAY_DIMS (ra1)->inc; long inc2 = SCM_I_ARRAY_DIMS (ra1)->inc; ra1 = SCM_I_ARRAY_V (ra1); ra2 = SCM_I_ARRAY_V (ra2); scm_array_get_handle (ra0, &ra0_handle); ra0_dims = scm_array_handle_dims (&ra0_handle); n = ra0_dims[0].ubnd - ra0_dims[0].lbnd + 1; inc0 = ra0_dims[0].inc; { for (; n-- > 0; i0 += inc0, i1 += inc1, i2 += inc2) if (scm_is_true (scm_array_handle_ref (&ra0_handle, i0))) if (!scm_is_eq (AREF (ra1, i1), AREF (ra2, i2))) scm_array_handle_set (&ra0_handle, i0, SCM_BOOL_F); } scm_array_handle_release (&ra0_handle); return 1; } /* opt 0 means <, nonzero means >= */ static int ra_compare (SCM ra0, SCM ra1, SCM ra2, int opt) { scm_t_array_handle ra0_handle; scm_t_array_dim *ra0_dims; size_t n; ssize_t inc0; size_t i0 = 0; unsigned long i1 = SCM_I_ARRAY_BASE (ra1), i2 = SCM_I_ARRAY_BASE (ra2); long inc1 = SCM_I_ARRAY_DIMS (ra1)->inc; long inc2 = SCM_I_ARRAY_DIMS (ra1)->inc; ra1 = SCM_I_ARRAY_V (ra1); ra2 = SCM_I_ARRAY_V (ra2); scm_array_get_handle (ra0, &ra0_handle); ra0_dims = scm_array_handle_dims (&ra0_handle); n = ra0_dims[0].ubnd - ra0_dims[0].lbnd + 1; inc0 = ra0_dims[0].inc; { for (; n-- > 0; i0 += inc0, i1 += inc1, i2 += inc2) if (scm_is_true (scm_array_handle_ref (&ra0_handle, i0))) if (opt ? scm_is_true (scm_less_p (AREF (ra1, i1), AREF (ra2, i2))) : scm_is_false (scm_less_p (AREF (ra1, i1), AREF (ra2, i2)))) scm_array_handle_set (&ra0_handle, i0, SCM_BOOL_F); } scm_array_handle_release (&ra0_handle); return 1; } int scm_ra_lessp (SCM ra0, SCM ras) { return ra_compare (ra0, SCM_CAR (ras), SCM_CAR (SCM_CDR (ras)), 0); } int scm_ra_leqp (SCM ra0, SCM ras) { return ra_compare (ra0, SCM_CAR (SCM_CDR (ras)), SCM_CAR (ras), 1); } int scm_ra_grp (SCM ra0, SCM ras) { return ra_compare (ra0, SCM_CAR (SCM_CDR (ras)), SCM_CAR (ras), 0); } int scm_ra_greqp (SCM ra0, SCM ras) { return ra_compare (ra0, SCM_CAR (ras), SCM_CAR (SCM_CDR (ras)), 1); } int scm_ra_sum (SCM ra0, SCM ras) { long n = SCM_I_ARRAY_DIMS (ra0)->ubnd - SCM_I_ARRAY_DIMS (ra0)->lbnd + 1; unsigned long i0 = SCM_I_ARRAY_BASE (ra0); long inc0 = SCM_I_ARRAY_DIMS (ra0)->inc; ra0 = SCM_I_ARRAY_V (ra0); if (!scm_is_null(ras)) { SCM ra1 = SCM_CAR (ras); unsigned long i1 = SCM_I_ARRAY_BASE (ra1); long inc1 = SCM_I_ARRAY_DIMS (ra1)->inc; ra1 = SCM_I_ARRAY_V (ra1); switch (SCM_TYP7 (ra0) == SCM_TYP7 (ra1) ? SCM_TYP7 (ra0) : 0) { default: { for (; n-- > 0; i0 += inc0, i1 += inc1) ASET (ra0, i0, scm_sum (AREF(ra0, i0), AREF(ra1, i1))); break; } } } return 1; } int scm_ra_difference (SCM ra0, SCM ras) { long n = SCM_I_ARRAY_DIMS (ra0)->ubnd - SCM_I_ARRAY_DIMS (ra0)->lbnd + 1; unsigned long i0 = SCM_I_ARRAY_BASE (ra0); long inc0 = SCM_I_ARRAY_DIMS (ra0)->inc; ra0 = SCM_I_ARRAY_V (ra0); if (scm_is_null (ras)) { switch (SCM_TYP7 (ra0)) { default: { for (; n-- > 0; i0 += inc0) ASET (ra0, i0, scm_difference (AREF(ra0, i0), SCM_UNDEFINED)); break; } } } else { SCM ra1 = SCM_CAR (ras); unsigned long i1 = SCM_I_ARRAY_BASE (ra1); long inc1 = SCM_I_ARRAY_DIMS (ra1)->inc; ra1 = SCM_I_ARRAY_V (ra1); switch (SCM_TYP7 (ra0) == SCM_TYP7 (ra1) ? SCM_TYP7 (ra0) : 0) { default: { for (; n-- > 0; i0 += inc0, i1 += inc1) ASET (ra0, i0, scm_difference (AREF (ra0, i0), AREF (ra1, i1))); break; } } } return 1; } int scm_ra_product (SCM ra0, SCM ras) { long n = SCM_I_ARRAY_DIMS (ra0)->ubnd - SCM_I_ARRAY_DIMS (ra0)->lbnd + 1; unsigned long i0 = SCM_I_ARRAY_BASE (ra0); long inc0 = SCM_I_ARRAY_DIMS (ra0)->inc; ra0 = SCM_I_ARRAY_V (ra0); if (!scm_is_null (ras)) { SCM ra1 = SCM_CAR (ras); unsigned long i1 = SCM_I_ARRAY_BASE (ra1); long inc1 = SCM_I_ARRAY_DIMS (ra1)->inc; ra1 = SCM_I_ARRAY_V (ra1); switch (SCM_TYP7 (ra0) == SCM_TYP7 (ra1) ? SCM_TYP7 (ra0) : 0) { default: { for (; n-- > 0; i0 += inc0, i1 += inc1) ASET (ra0, i0, scm_product (AREF (ra0, i0), AREF (ra1, i1))); } } } return 1; } int scm_ra_divide (SCM ra0, SCM ras) { long n = SCM_I_ARRAY_DIMS (ra0)->ubnd - SCM_I_ARRAY_DIMS (ra0)->lbnd + 1; unsigned long i0 = SCM_I_ARRAY_BASE (ra0); long inc0 = SCM_I_ARRAY_DIMS (ra0)->inc; ra0 = SCM_I_ARRAY_V (ra0); if (scm_is_null (ras)) { switch (SCM_TYP7 (ra0)) { default: { for (; n-- > 0; i0 += inc0) ASET (ra0, i0, scm_divide (AREF (ra0, i0), SCM_UNDEFINED)); break; } } } else { SCM ra1 = SCM_CAR (ras); unsigned long i1 = SCM_I_ARRAY_BASE (ra1); long inc1 = SCM_I_ARRAY_DIMS (ra1)->inc; ra1 = SCM_I_ARRAY_V (ra1); switch (SCM_TYP7 (ra0) == SCM_TYP7 (ra1) ? SCM_TYP7 (ra0) : 0) { default: { for (; n-- > 0; i0 += inc0, i1 += inc1) { SCM res = scm_divide (AREF (ra0, i0), AREF (ra1, i1)); ASET (ra0, i0, res); } break; } } } return 1; } int scm_array_identity (SCM dst, SCM src) { return racp (SCM_CAR (src), scm_cons (dst, SCM_EOL)); } #endif /* SCM_ENABLE_DEPRECATED */ static int ramap (SCM ra0, SCM proc, SCM ras) { scm_t_array_handle h0; size_t n, i0; ssize_t i, inc0; i0 = SCM_I_ARRAY_BASE (ra0); inc0 = SCM_I_ARRAY_DIMS (ra0)->inc; i = SCM_I_ARRAY_DIMS (ra0)->lbnd; n = SCM_I_ARRAY_DIMS (ra0)->ubnd - i + 1; ra0 = SCM_I_ARRAY_V (ra0); scm_array_get_handle (ra0, &h0); if (scm_is_null (ras)) for (; n--; i0 += inc0) h0.vset (h0.vector, i0, scm_call_0 (proc)); else { SCM ra1 = SCM_CAR (ras); scm_t_array_handle h1; size_t i1; ssize_t inc1; i1 = SCM_I_ARRAY_BASE (ra1); inc1 = SCM_I_ARRAY_DIMS (ra1)->inc; ras = SCM_CDR (ras); ra1 = SCM_I_ARRAY_V (ra1); scm_array_get_handle (ra1, &h1); if (scm_is_null (ras)) for (; n--; i0 += inc0, i1 += inc1) h0.vset (h0.vector, i0, scm_call_1 (proc, h1.vref (h1.vector, i1))); else { ras = scm_vector (ras); for (; n--; i0 += inc0, i1 += inc1, ++i) { SCM args = SCM_EOL; unsigned long k; for (k = scm_c_vector_length (ras); k--;) args = scm_cons (AREF (scm_c_vector_ref (ras, k), i), args); h0.vset (h0.vector, i0, scm_apply_1 (proc, h1.vref (h1.vector, i1), args)); } } scm_array_handle_release (&h1); } scm_array_handle_release (&h0); return 1; } SCM_REGISTER_PROC(s_array_map_in_order_x, "array-map-in-order!", 2, 0, 1, scm_array_map_x); SCM_SYMBOL (sym_b, "b"); SCM_DEFINE (scm_array_map_x, "array-map!", 2, 0, 1, (SCM ra0, SCM proc, SCM lra), "@deffnx {Scheme Procedure} array-map-in-order! ra0 proc . lra\n" "@var{array1}, @dots{} must have the same number of dimensions\n" "as @var{ra0} and have a range for each index which includes the\n" "range for the corresponding index in @var{ra0}. @var{proc} is\n" "applied to each tuple of elements of @var{array1}, @dots{} and\n" "the result is stored as the corresponding element in @var{ra0}.\n" "The value returned is unspecified. The order of application is\n" "unspecified.") #define FUNC_NAME s_scm_array_map_x { SCM_VALIDATE_PROC (2, proc); SCM_VALIDATE_REST_ARGUMENT (lra); scm_ramapc (ramap, proc, ra0, lra, FUNC_NAME); return SCM_UNSPECIFIED; } #undef FUNC_NAME static int rafe (SCM ra0, SCM proc, SCM ras) { ssize_t i = SCM_I_ARRAY_DIMS (ra0)->lbnd; size_t n = SCM_I_ARRAY_DIMS (ra0)->ubnd - i + 1; scm_t_array_handle h0; size_t i0; ssize_t inc0; i0 = SCM_I_ARRAY_BASE (ra0); inc0 = SCM_I_ARRAY_DIMS (ra0)->inc; ra0 = SCM_I_ARRAY_V (ra0); scm_array_get_handle (ra0, &h0); if (scm_is_null (ras)) for (; n--; i0 += inc0) scm_call_1 (proc, h0.vref (h0.vector, i0)); else { ras = scm_vector (ras); for (; n--; i0 += inc0, ++i) { SCM args = SCM_EOL; unsigned long k; for (k = scm_c_vector_length (ras); k--;) args = scm_cons (AREF (scm_c_vector_ref (ras, k), i), args); scm_apply_1 (proc, h0.vref (h0.vector, i0), args); } } scm_array_handle_release (&h0); return 1; } SCM_DEFINE (scm_array_for_each, "array-for-each", 2, 0, 1, (SCM proc, SCM ra0, SCM lra), "Apply @var{proc} to each tuple of elements of @var{ra0} @dots{}\n" "in row-major order. The value returned is unspecified.") #define FUNC_NAME s_scm_array_for_each { SCM_VALIDATE_PROC (1, proc); SCM_VALIDATE_REST_ARGUMENT (lra); scm_ramapc (rafe, proc, ra0, lra, FUNC_NAME); return SCM_UNSPECIFIED; } #undef FUNC_NAME static void array_index_map_1 (SCM ra, SCM proc) { scm_t_array_handle h; ssize_t i, inc; size_t p; scm_array_get_handle (ra, &h); inc = h.dims[0].inc; for (i = h.dims[0].lbnd, p = h.base; i <= h.dims[0].ubnd; ++i, p += inc) h.vset (h.vector, p, scm_call_1 (proc, scm_from_ssize_t (i))); scm_array_handle_release (&h); } /* Here we assume that the array is a scm_tc7_array, as that is the only kind of array in Guile that supports rank > 1. */ static void array_index_map_n (SCM ra, SCM proc) { scm_t_array_handle h; size_t i; int k, kmax = SCM_I_ARRAY_NDIM (ra) - 1; ssize_t *vi; SCM **si; SCM args = SCM_EOL; SCM *p = &args; vi = scm_gc_malloc_pointerless (sizeof(ssize_t) * (kmax + 1), vi_gc_hint); si = scm_gc_malloc_pointerless (sizeof(SCM *) * (kmax + 1), vi_gc_hint); for (k = 0; k <= kmax; k++) { vi[k] = SCM_I_ARRAY_DIMS (ra)[k].lbnd; if (vi[k] > SCM_I_ARRAY_DIMS (ra)[k].ubnd) return; *p = scm_cons (scm_from_ssize_t (vi[k]), SCM_EOL); si[k] = SCM_CARLOC (*p); p = SCM_CDRLOC (*p); } scm_array_get_handle (ra, &h); k = kmax; do { if (k == kmax) { vi[kmax] = SCM_I_ARRAY_DIMS (ra)[kmax].lbnd; i = cindk (ra, vi, kmax+1); for (; vi[kmax] <= SCM_I_ARRAY_DIMS (ra)[kmax].ubnd; ++vi[kmax]) { *(si[kmax]) = scm_from_ssize_t (vi[kmax]); h.vset (h.vector, i, scm_apply_0 (proc, args)); i += SCM_I_ARRAY_DIMS (ra)[kmax].inc; } k--; } else if (vi[k] < SCM_I_ARRAY_DIMS (ra)[k].ubnd) { *(si[k]) = scm_from_ssize_t (++vi[k]); k++; } else { vi[k] = SCM_I_ARRAY_DIMS (ra)[k].lbnd - 1; k--; } } while (k >= 0); scm_array_handle_release (&h); } SCM_DEFINE (scm_array_index_map_x, "array-index-map!", 2, 0, 0, (SCM ra, SCM proc), "Apply @var{proc} to the indices of each element of @var{ra} in\n" "turn, storing the result in the corresponding element. The value\n" "returned and the order of application are unspecified.\n\n" "One can implement @var{array-indexes} as\n" "@lisp\n" "(define (array-indexes array)\n" " (let ((ra (apply make-array #f (array-shape array))))\n" " (array-index-map! ra (lambda x x))\n" " ra))\n" "@end lisp\n" "Another example:\n" "@lisp\n" "(define (apl:index-generator n)\n" " (let ((v (make-uniform-vector n 1)))\n" " (array-index-map! v (lambda (i) i))\n" " v))\n" "@end lisp") #define FUNC_NAME s_scm_array_index_map_x { SCM_VALIDATE_PROC (2, proc); switch (scm_c_array_rank (ra)) { case 0: scm_array_set_x (ra, scm_call_0 (proc), SCM_EOL); break; case 1: array_index_map_1 (ra, proc); break; default: array_index_map_n (ra, proc); break; } return SCM_UNSPECIFIED; } #undef FUNC_NAME static int array_compare (scm_t_array_handle *hx, scm_t_array_handle *hy, size_t dim, unsigned long posx, unsigned long posy) { if (dim == scm_array_handle_rank (hx)) return scm_is_true (scm_equal_p (scm_array_handle_ref (hx, posx), scm_array_handle_ref (hy, posy))); else { long incx, incy; size_t i; if (hx->dims[dim].lbnd != hy->dims[dim].lbnd || hx->dims[dim].ubnd != hy->dims[dim].ubnd) return 0; i = hx->dims[dim].ubnd - hx->dims[dim].lbnd + 1; incx = hx->dims[dim].inc; incy = hy->dims[dim].inc; posx += (i - 1) * incx; posy += (i - 1) * incy; for (; i > 0; i--, posx -= incx, posy -= incy) if (!array_compare (hx, hy, dim + 1, posx, posy)) return 0; return 1; } } SCM scm_array_equal_p (SCM x, SCM y) { scm_t_array_handle hx, hy; SCM res; scm_array_get_handle (x, &hx); scm_array_get_handle (y, &hy); res = scm_from_bool (hx.ndims == hy.ndims && hx.element_type == hy.element_type); if (scm_is_true (res)) res = scm_from_bool (array_compare (&hx, &hy, 0, 0, 0)); scm_array_handle_release (&hy); scm_array_handle_release (&hx); return res; } static SCM scm_i_array_equal_p (SCM, SCM, SCM); SCM_DEFINE (scm_i_array_equal_p, "array-equal?", 0, 2, 1, (SCM ra0, SCM ra1, SCM rest), "Return @code{#t} iff all arguments are arrays with the same\n" "shape, the same type, and have corresponding elements which are\n" "either @code{equal?} or @code{array-equal?}. This function\n" "differs from @code{equal?} in that all arguments must be arrays.") #define FUNC_NAME s_scm_i_array_equal_p { if (SCM_UNBNDP (ra0) || SCM_UNBNDP (ra1)) return SCM_BOOL_T; while (!scm_is_null (rest)) { if (scm_is_false (scm_array_equal_p (ra0, ra1))) return SCM_BOOL_F; ra0 = ra1; ra1 = scm_car (rest); rest = scm_cdr (rest); } return scm_array_equal_p (ra0, ra1); } #undef FUNC_NAME void scm_init_array_map (void) { #include "libguile/array-map.x" scm_add_feature (s_scm_array_for_each); } /* Local Variables: c-file-style: "gnu" End: */