/* Copyright (C) 1995,1996,1998,1999,2000,2001, 2006 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "libguile/_scm.h" #include "libguile/eq.h" #include "libguile/root.h" #include "libguile/strings.h" #include "libguile/lang.h" #include "libguile/validate.h" #include "libguile/vectors.h" #include "libguile/unif.h" #include "libguile/ramap.h" #include "libguile/srfi-4.h" #include "libguile/strings.h" #include "libguile/srfi-13.h" #include "libguile/dynwind.h" #include "libguile/deprecation.h" #define VECTOR_MAX_LENGTH (SCM_T_BITS_MAX >> 8) int scm_is_vector (SCM obj) { if (SCM_I_IS_VECTOR (obj)) return 1; if (SCM_I_ARRAYP (obj) && SCM_I_ARRAY_NDIM (obj) == 1) { SCM v = SCM_I_ARRAY_V (obj); return SCM_I_IS_VECTOR (v); } return 0; } int scm_is_simple_vector (SCM obj) { return SCM_I_IS_VECTOR (obj); } const SCM * scm_vector_elements (SCM vec, scm_t_array_handle *h, size_t *lenp, ssize_t *incp) { scm_generalized_vector_get_handle (vec, h); if (lenp) { scm_t_array_dim *dim = scm_array_handle_dims (h); *lenp = dim->ubnd - dim->lbnd + 1; *incp = dim->inc; } return scm_array_handle_elements (h); } SCM * scm_vector_writable_elements (SCM vec, scm_t_array_handle *h, size_t *lenp, ssize_t *incp) { scm_generalized_vector_get_handle (vec, h); if (lenp) { scm_t_array_dim *dim = scm_array_handle_dims (h); *lenp = dim->ubnd - dim->lbnd + 1; *incp = dim->inc; } return scm_array_handle_writable_elements (h); } SCM_DEFINE (scm_vector_p, "vector?", 1, 0, 0, (SCM obj), "Return @code{#t} if @var{obj} is a vector, otherwise return\n" "@code{#f}.") #define FUNC_NAME s_scm_vector_p { return scm_from_bool (scm_is_vector (obj)); } #undef FUNC_NAME SCM_GPROC (s_vector_length, "vector-length", 1, 0, 0, scm_vector_length, g_vector_length); /* Returns the number of elements in @var{vector} as an exact integer. */ SCM scm_vector_length (SCM v) { if (SCM_I_IS_VECTOR (v)) return scm_from_size_t (SCM_I_VECTOR_LENGTH (v)); else if (SCM_I_ARRAYP (v) && SCM_I_ARRAY_NDIM (v) == 1) { scm_t_array_dim *dim = SCM_I_ARRAY_DIMS (v); return scm_from_size_t (dim->ubnd - dim->lbnd + 1); } else SCM_WTA_DISPATCH_1 (g_vector_length, v, 1, NULL); } size_t scm_c_vector_length (SCM v) { if (SCM_I_IS_VECTOR (v)) return SCM_I_VECTOR_LENGTH (v); else return scm_to_size_t (scm_vector_length (v)); } SCM_REGISTER_PROC (s_list_to_vector, "list->vector", 1, 0, 0, scm_vector); /* "Return a newly created vector initialized to the elements of" "the list @var{list}.\n\n" "@lisp\n" "(vector->list '#(dah dah didah)) @result{} (dah dah didah)\n" "(list->vector '(dididit dah)) @result{} #(dididit dah)\n" "@end lisp") */ SCM_DEFINE (scm_vector, "vector", 0, 0, 1, (SCM l), "@deffnx {Scheme Procedure} list->vector l\n" "Return a newly allocated vector composed of the\n" "given arguments. Analogous to @code{list}.\n" "\n" "@lisp\n" "(vector 'a 'b 'c) @result{} #(a b c)\n" "@end lisp") #define FUNC_NAME s_scm_vector { SCM res; SCM *data; long i, len; scm_t_array_handle handle; SCM_VALIDATE_LIST_COPYLEN (1, l, len); res = scm_c_make_vector (len, SCM_UNSPECIFIED); data = scm_vector_writable_elements (res, &handle, NULL, NULL); i = 0; while (scm_is_pair (l) && i < len) { data[i] = SCM_CAR (l); l = SCM_CDR (l); i += 1; } scm_array_handle_release (&handle); return res; } #undef FUNC_NAME SCM_GPROC (s_vector_ref, "vector-ref", 2, 0, 0, scm_vector_ref, g_vector_ref); /* "@var{k} must be a valid index of @var{vector}.\n" "@samp{Vector-ref} returns the contents of element @var{k} of\n" "@var{vector}.\n\n" "@lisp\n" "(vector-ref '#(1 1 2 3 5 8 13 21) 5) @result{} 8\n" "(vector-ref '#(1 1 2 3 5 8 13 21)\n" " (let ((i (round (* 2 (acos -1)))))\n" " (if (inexact? i)\n" " (inexact->exact i)\n" " i))) @result{} 13\n" "@end lisp" */ SCM scm_vector_ref (SCM v, SCM k) #define FUNC_NAME s_vector_ref { return scm_c_vector_ref (v, scm_to_size_t (k)); } #undef FUNC_NAME SCM scm_c_vector_ref (SCM v, size_t k) { if (SCM_I_IS_VECTOR (v)) { if (k >= SCM_I_VECTOR_LENGTH (v)) scm_out_of_range (NULL, scm_from_size_t (k)); return (SCM_I_VECTOR_ELTS(v))[k]; } else if (SCM_I_ARRAYP (v) && SCM_I_ARRAY_NDIM (v) == 1) { scm_t_array_dim *dim = SCM_I_ARRAY_DIMS (v); SCM vv = SCM_I_ARRAY_V (v); if (SCM_I_IS_VECTOR (vv)) { if (k >= dim->ubnd - dim->lbnd + 1) scm_out_of_range (NULL, scm_from_size_t (k)); k = SCM_I_ARRAY_BASE (v) + k*dim->inc; return (SCM_I_VECTOR_ELTS (vv))[k]; } scm_wrong_type_arg_msg (NULL, 0, v, "non-uniform vector"); } else SCM_WTA_DISPATCH_2 (g_vector_ref, v, scm_from_size_t (k), 2, NULL); } SCM_GPROC (s_vector_set_x, "vector-set!", 3, 0, 0, scm_vector_set_x, g_vector_set_x); /* "@var{k} must be a valid index of @var{vector}.\n" "@code{Vector-set!} stores @var{obj} in element @var{k} of @var{vector}.\n" "The value returned by @samp{vector-set!} is unspecified.\n" "@lisp\n" "(let ((vec (vector 0 '(2 2 2 2) "Anna")))\n" " (vector-set! vec 1 '("Sue" "Sue"))\n" " vec) @result{} #(0 ("Sue" "Sue") "Anna")\n" "(vector-set! '#(0 1 2) 1 "doe") @result{} @emph{error} ; constant vector\n" "@end lisp" */ SCM scm_vector_set_x (SCM v, SCM k, SCM obj) #define FUNC_NAME s_vector_set_x { scm_c_vector_set_x (v, scm_to_size_t (k), obj); return SCM_UNSPECIFIED; } #undef FUNC_NAME void scm_c_vector_set_x (SCM v, size_t k, SCM obj) { if (SCM_I_IS_VECTOR (v)) { if (k >= SCM_I_VECTOR_LENGTH (v)) scm_out_of_range (NULL, scm_from_size_t (k)); (SCM_I_VECTOR_WELTS(v))[k] = obj; } else if (SCM_I_ARRAYP (v) && SCM_I_ARRAY_NDIM (v) == 1) { scm_t_array_dim *dim = SCM_I_ARRAY_DIMS (v); SCM vv = SCM_I_ARRAY_V (v); if (SCM_I_IS_VECTOR (vv)) { if (k >= dim->ubnd - dim->lbnd + 1) scm_out_of_range (NULL, scm_from_size_t (k)); k = SCM_I_ARRAY_BASE (v) + k*dim->inc; (SCM_I_VECTOR_WELTS (vv))[k] = obj; } else scm_wrong_type_arg_msg (NULL, 0, v, "non-uniform vector"); } else { if (SCM_UNPACK (g_vector_set_x)) scm_apply_generic (g_vector_set_x, scm_list_3 (v, scm_from_size_t (k), obj)); else scm_wrong_type_arg_msg (NULL, 0, v, "vector"); } } SCM_DEFINE (scm_make_vector, "make-vector", 1, 1, 0, (SCM k, SCM fill), "Return a newly allocated vector of @var{k} elements. If a\n" "second argument is given, then each position is initialized to\n" "@var{fill}. Otherwise the initial contents of each position is\n" "unspecified.") #define FUNC_NAME s_scm_make_vector { size_t l = scm_to_unsigned_integer (k, 0, VECTOR_MAX_LENGTH); if (SCM_UNBNDP (fill)) fill = SCM_UNSPECIFIED; return scm_c_make_vector (l, fill); } #undef FUNC_NAME SCM scm_c_make_vector (size_t k, SCM fill) #define FUNC_NAME s_scm_make_vector { SCM v; SCM *base; if (k > 0) { unsigned long int j; SCM_ASSERT_RANGE (1, scm_from_ulong (k), k <= VECTOR_MAX_LENGTH); base = scm_gc_malloc (k * sizeof (SCM), "vector"); for (j = 0; j != k; ++j) base[j] = fill; } else base = NULL; v = scm_cell ((k << 8) | scm_tc7_vector, (scm_t_bits) base); scm_remember_upto_here_1 (fill); return v; } #undef FUNC_NAME SCM_DEFINE (scm_vector_copy, "vector-copy", 1, 0, 0, (SCM vec), "Return a copy of @var{vec}.") #define FUNC_NAME s_scm_vector_copy { scm_t_array_handle handle; size_t i, len; ssize_t inc; const SCM *src; SCM *dst; src = scm_vector_elements (vec, &handle, &len, &inc); dst = scm_gc_malloc (len * sizeof (SCM), "vector"); for (i = 0; i < len; i++, src += inc) dst[i] = *src; scm_array_handle_release (&handle); return scm_cell ((len << 8) | scm_tc7_vector, (scm_t_bits) dst); } #undef FUNC_NAME void scm_i_vector_free (SCM vec) { scm_gc_free (SCM_I_VECTOR_WELTS (vec), SCM_I_VECTOR_LENGTH (vec) * sizeof(SCM), "vector"); } /* Allocate memory for a weak vector on behalf of the caller. The allocated * vector will be of the given weak vector subtype. It will contain size * elements which are initialized with the 'fill' object, or, if 'fill' is * undefined, with an unspecified object. */ SCM scm_i_allocate_weak_vector (scm_t_bits type, SCM size, SCM fill) { size_t c_size; SCM *base; SCM v; c_size = scm_to_unsigned_integer (size, 0, VECTOR_MAX_LENGTH); if (c_size > 0) { size_t j; if (SCM_UNBNDP (fill)) fill = SCM_UNSPECIFIED; base = scm_gc_malloc (c_size * sizeof (SCM), "weak vector"); for (j = 0; j != c_size; ++j) base[j] = fill; } else base = NULL; v = scm_double_cell ((c_size << 8) | scm_tc7_wvect, (scm_t_bits) base, type, SCM_UNPACK (SCM_EOL)); scm_remember_upto_here_1 (fill); return v; } SCM_DEFINE (scm_vector_to_list, "vector->list", 1, 0, 0, (SCM v), "Return a newly allocated list composed of the elements of @var{v}.\n" "\n" "@lisp\n" "(vector->list '#(dah dah didah)) @result{} (dah dah didah)\n" "(list->vector '(dididit dah)) @result{} #(dididit dah)\n" "@end lisp") #define FUNC_NAME s_scm_vector_to_list { SCM res = SCM_EOL; const SCM *data; scm_t_array_handle handle; size_t i, count, len; ssize_t inc; data = scm_vector_elements (v, &handle, &len, &inc); for (i = (len - 1) * inc, count = 0; count < len; i -= inc, count++) res = scm_cons (data[i], res); scm_array_handle_release (&handle); return res; } #undef FUNC_NAME SCM_DEFINE (scm_vector_fill_x, "vector-fill!", 2, 0, 0, (SCM v, SCM fill), "Store @var{fill} in every position of @var{vector}. The value\n" "returned by @code{vector-fill!} is unspecified.") #define FUNC_NAME s_scm_vector_fill_x { scm_t_array_handle handle; SCM *data; size_t i, len; ssize_t inc; data = scm_vector_writable_elements (v, &handle, &len, &inc); for (i = 0; i < len; i += inc) data[i] = fill; scm_array_handle_release (&handle); return SCM_UNSPECIFIED; } #undef FUNC_NAME SCM scm_i_vector_equal_p (SCM x, SCM y) { long i; for (i = SCM_I_VECTOR_LENGTH (x) - 1; i >= 0; i--) if (scm_is_false (scm_equal_p (SCM_I_VECTOR_ELTS (x)[i], SCM_I_VECTOR_ELTS (y)[i]))) return SCM_BOOL_F; return SCM_BOOL_T; } SCM_DEFINE (scm_vector_move_left_x, "vector-move-left!", 5, 0, 0, (SCM vec1, SCM start1, SCM end1, SCM vec2, SCM start2), "Copy elements from @var{vec1}, positions @var{start1} to @var{end1},\n" "to @var{vec2} starting at position @var{start2}. @var{start1} and\n" "@var{start2} are inclusive indices; @var{end1} is exclusive.\n\n" "@code{vector-move-left!} copies elements in leftmost order.\n" "Therefore, in the case where @var{vec1} and @var{vec2} refer to the\n" "same vector, @code{vector-move-left!} is usually appropriate when\n" "@var{start1} is greater than @var{start2}.") #define FUNC_NAME s_scm_vector_move_left_x { scm_t_array_handle handle1, handle2; const SCM *elts1; SCM *elts2; size_t len1, len2; ssize_t inc1, inc2; size_t i, j, e; elts1 = scm_vector_elements (vec1, &handle1, &len1, &inc1); elts2 = scm_vector_writable_elements (vec2, &handle2, &len2, &inc2); i = scm_to_unsigned_integer (start1, 0, len1); e = scm_to_unsigned_integer (end1, i, len1); j = scm_to_unsigned_integer (start2, 0, len2 - (i-e)); i *= inc1; e *= inc1; j *= inc2; for (; i < e; i += inc1, j += inc2) elts2[j] = elts1[i]; scm_array_handle_release (&handle2); scm_array_handle_release (&handle1); return SCM_UNSPECIFIED; } #undef FUNC_NAME SCM_DEFINE (scm_vector_move_right_x, "vector-move-right!", 5, 0, 0, (SCM vec1, SCM start1, SCM end1, SCM vec2, SCM start2), "Copy elements from @var{vec1}, positions @var{start1} to @var{end1},\n" "to @var{vec2} starting at position @var{start2}. @var{start1} and\n" "@var{start2} are inclusive indices; @var{end1} is exclusive.\n\n" "@code{vector-move-right!} copies elements in rightmost order.\n" "Therefore, in the case where @var{vec1} and @var{vec2} refer to the\n" "same vector, @code{vector-move-right!} is usually appropriate when\n" "@var{start1} is less than @var{start2}.") #define FUNC_NAME s_scm_vector_move_right_x { scm_t_array_handle handle1, handle2; const SCM *elts1; SCM *elts2; size_t len1, len2; ssize_t inc1, inc2; size_t i, j, e; elts1 = scm_vector_elements (vec1, &handle1, &len1, &inc1); elts2 = scm_vector_writable_elements (vec2, &handle2, &len2, &inc2); i = scm_to_unsigned_integer (start1, 0, len1); e = scm_to_unsigned_integer (end1, i, len1); j = scm_to_unsigned_integer (start2, 0, len2 - (i-e)); i *= inc1; e *= inc1; j *= inc2; while (i < e) { e -= inc1; j -= inc2; elts2[j] = elts1[e]; } scm_array_handle_release (&handle2); scm_array_handle_release (&handle1); return SCM_UNSPECIFIED; } #undef FUNC_NAME /* Generalized vectors. */ int scm_is_generalized_vector (SCM obj) { return (scm_is_vector (obj) || scm_is_string (obj) || scm_is_bitvector (obj) || scm_is_uniform_vector (obj)); } SCM_DEFINE (scm_generalized_vector_p, "generalized-vector?", 1, 0, 0, (SCM obj), "Return @code{#t} if @var{obj} is a vector, string,\n" "bitvector, or uniform numeric vector.") #define FUNC_NAME s_scm_generalized_vector_p { return scm_from_bool (scm_is_generalized_vector (obj)); } #undef FUNC_NAME void scm_generalized_vector_get_handle (SCM vec, scm_t_array_handle *h) { scm_array_get_handle (vec, h); if (scm_array_handle_rank (h) != 1) scm_wrong_type_arg_msg (NULL, 0, vec, "vector"); } size_t scm_c_generalized_vector_length (SCM v) { if (scm_is_vector (v)) return scm_c_vector_length (v); else if (scm_is_string (v)) return scm_c_string_length (v); else if (scm_is_bitvector (v)) return scm_c_bitvector_length (v); else if (scm_is_uniform_vector (v)) return scm_c_uniform_vector_length (v); else scm_wrong_type_arg_msg (NULL, 0, v, "generalized vector"); } SCM_DEFINE (scm_generalized_vector_length, "generalized-vector-length", 1, 0, 0, (SCM v), "Return the length of the generalized vector @var{v}.") #define FUNC_NAME s_scm_generalized_vector_length { return scm_from_size_t (scm_c_generalized_vector_length (v)); } #undef FUNC_NAME SCM scm_c_generalized_vector_ref (SCM v, size_t idx) { if (scm_is_vector (v)) return scm_c_vector_ref (v, idx); else if (scm_is_string (v)) return scm_c_string_ref (v, idx); else if (scm_is_bitvector (v)) return scm_c_bitvector_ref (v, idx); else if (scm_is_uniform_vector (v)) return scm_c_uniform_vector_ref (v, idx); else scm_wrong_type_arg_msg (NULL, 0, v, "generalized vector"); } SCM_DEFINE (scm_generalized_vector_ref, "generalized-vector-ref", 2, 0, 0, (SCM v, SCM idx), "Return the element at index @var{idx} of the\n" "generalized vector @var{v}.") #define FUNC_NAME s_scm_generalized_vector_ref { return scm_c_generalized_vector_ref (v, scm_to_size_t (idx)); } #undef FUNC_NAME void scm_c_generalized_vector_set_x (SCM v, size_t idx, SCM val) { if (scm_is_vector (v)) scm_c_vector_set_x (v, idx, val); else if (scm_is_string (v)) scm_c_string_set_x (v, idx, val); else if (scm_is_bitvector (v)) scm_c_bitvector_set_x (v, idx, val); else if (scm_is_uniform_vector (v)) scm_c_uniform_vector_set_x (v, idx, val); else scm_wrong_type_arg_msg (NULL, 0, v, "generalized vector"); } SCM_DEFINE (scm_generalized_vector_set_x, "generalized-vector-set!", 3, 0, 0, (SCM v, SCM idx, SCM val), "Set the element at index @var{idx} of the\n" "generalized vector @var{v} to @var{val}.") #define FUNC_NAME s_scm_generalized_vector_set_x { scm_c_generalized_vector_set_x (v, scm_to_size_t (idx), val); return SCM_UNSPECIFIED; } #undef FUNC_NAME SCM_DEFINE (scm_generalized_vector_to_list, "generalized-vector->list", 1, 0, 0, (SCM v), "Return a new list whose elements are the elements of the\n" "generalized vector @var{v}.") #define FUNC_NAME s_scm_generalized_vector_to_list { if (scm_is_vector (v)) return scm_vector_to_list (v); else if (scm_is_string (v)) return scm_string_to_list (v); else if (scm_is_bitvector (v)) return scm_bitvector_to_list (v); else if (scm_is_uniform_vector (v)) return scm_uniform_vector_to_list (v); else scm_wrong_type_arg_msg (NULL, 0, v, "generalized vector"); } #undef FUNC_NAME void scm_init_vectors () { scm_nullvect = scm_c_make_vector (0, SCM_UNDEFINED); #include "libguile/vectors.x" } /* Local Variables: c-file-style: "gnu" End: */