1 /* PSPP - a program for statistical analysis.
2 Copyright (C) 1997-9, 2000, 2009, 2010 Free Software Foundation, Inc.
4 This program is free software: you can redistribute it and/or modify
5 it under the terms of the GNU General Public License as published by
6 the Free Software Foundation, either version 3 of the License, or
7 (at your option) any later version.
9 This program is distributed in the hope that it will be useful,
10 but WITHOUT ANY WARRANTY; without even the implied warranty of
11 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 GNU General Public License for more details.
14 You should have received a copy of the GNU General Public License
15 along with this program. If not, see <http://www.gnu.org/licenses/>. */
18 #include <data/value.h>
20 #include <data/val-type.h>
21 #include <data/variable.h>
22 #include <libpspp/hash-functions.h>
23 #include <libpspp/pool.h>
24 #include <libpspp/str.h>
25 #include <gl/unistr.h>
30 /* Copies the contents of string value SRC with width SRC_WIDTH
31 to string value DST with width DST_WIDTH. If SRC_WIDTH is
32 greater than DST_WIDTH, then only the first DST_WIDTH bytes
33 are copied; if DST_WIDTH is greater than SRC_WIDTH, then DST
34 is padded on the right with PAD bytes.
36 SRC and DST must be string values; that is, SRC_WIDTH and
37 DST_WIDTH must both be positive.
39 It is important that SRC_WIDTH and DST_WIDTH be the actual
40 widths with which SRC and DST were initialized. Passing,
41 e.g., smaller values in order to copy only a prefix of SRC or
42 modify only a prefix of DST will not work in every case. */
44 value_copy_rpad (union value *dst, int dst_width,
45 const union value *src, int src_width,
48 u8_buf_copy_rpad (value_str_rw (dst, dst_width), dst_width,
49 value_str (src, src_width), src_width,
53 /* Copies the contents of null-terminated string SRC to string
54 value DST with width DST_WIDTH. If SRC is more than DST_WIDTH
55 bytes long, then only the first DST_WIDTH bytes are copied; if
56 DST_WIDTH is greater than the length of SRC, then DST is
57 padded on the right with PAD bytes.
59 DST must be a string value; that is, DST_WIDTH must be
62 It is important that DST_WIDTH be the actual width with which
63 DST was initialized. Passing, e.g., a smaller value in order
64 to modify only a prefix of DST will not work in every case. */
66 value_copy_str_rpad (union value *dst, int dst_width, const uint8_t *src,
69 value_copy_buf_rpad (dst, dst_width, src, u8_strlen (src), pad);
72 /* Copies the SRC_LEN bytes at SRC to string value DST with width
73 DST_WIDTH. If SRC_LEN is greater than DST_WIDTH, then only
74 the first DST_WIDTH bytes are copied; if DST_WIDTH is greater
75 than SRC_LEN, then DST is padded on the right with PAD bytes.
77 DST must be a string value; that is, DST_WIDTH must be
80 It is important that DST_WIDTH be the actual width with which
81 DST was initialized. Passing, e.g., a smaller value in order
82 to modify only a prefix of DST will not work in every case. */
84 value_copy_buf_rpad (union value *dst, int dst_width,
85 const uint8_t *src, size_t src_len, char pad)
87 u8_buf_copy_rpad (value_str_rw (dst, dst_width), dst_width, src, src_len, pad);
90 /* Sets V to the system-missing value for data of the given
93 value_set_missing (union value *v, int width)
100 memset (value_str_rw (v, width), ' ', width);
104 /* Compares A and B, which both have the given WIDTH, and returns
105 a strcmp()-type result. */
107 value_compare_3way (const union value *a, const union value *b, int width)
109 return (width == -1 ? 0
110 : width == 0 ? (a->f < b->f ? -1 : a->f > b->f)
111 : memcmp (value_str (a, width), value_str (b, width), width));
114 /* Returns true if A and B, which must both have the given WIDTH,
115 have equal contents, false if their contents differ. */
117 value_equal (const union value *a, const union value *b, int width)
119 return (width == -1 ? true
120 : width == 0 ? a->f == b->f
121 : !memcmp (value_str (a, width), value_str (b, width), width));
124 /* Returns a hash of the data in VALUE, which must have the given
125 WIDTH, folding BASIS into the hash value calculation. */
127 value_hash (const union value *value, int width, unsigned int basis)
129 return (width == -1 ? basis
130 : width == 0 ? hash_double (value->f, basis)
131 : hash_bytes (value_str (value, width), width, basis));
134 /* Tests whether VALUE may be resized from OLD_WIDTH to
135 NEW_WIDTH, using the following rules that match those for
136 resizing missing values and value labels. First, OLD_WIDTH
137 and NEW_WIDTH must be both numeric or both string. Second, if
138 NEW_WIDTH is less than OLD_WIDTH, then the bytes that would be
139 trimmed off the right end of VALUE must be all spaces. */
141 value_is_resizable (const union value *value, int old_width, int new_width)
143 if (old_width == new_width)
145 else if (val_type_from_width (old_width) != val_type_from_width (new_width))
149 const uint8_t *str = value_str (value, old_width);
152 for (i = new_width; i < old_width; i++)
159 /* Resizes VALUE from OLD_WIDTH to NEW_WIDTH. The arguments must
160 satisfy the rules specified above for value_is_resizable. */
162 value_resize (union value *value, int old_width, int new_width)
164 assert (value_is_resizable (value, old_width, new_width));
165 if (new_width != old_width)
168 value_init (&tmp, new_width);
169 value_copy_rpad (&tmp, new_width, value, old_width, ' ');
170 value_destroy (value, old_width);
175 /* Returns true if resizing a value from OLD_WIDTH to NEW_WIDTH
176 actually changes anything, false otherwise. If false is
177 returned, calls to value_resize() with the specified
178 parameters may be omitted without any ill effects.
180 This is generally useful only if many values can skip being
181 resized from OLD_WIDTH to NEW_WIDTH. Otherwise you might as
182 well just call value_resize directly. */
184 value_needs_resize (int old_width, int new_width)
186 assert (val_type_from_width (old_width) == val_type_from_width (new_width));
188 /* We need to call value_resize if either the new width is
189 longer than the old width (in which case the new characters
190 must be set to spaces) or if either width is a long string.
191 (We could omit resizing if both the old and new widths were
192 long and the new width was shorter, but we choose to do so
193 anyway in hopes of saving memory.) */
194 return (old_width != new_width
195 && (new_width > old_width
196 || old_width > MAX_SHORT_STRING
197 || new_width > MAX_SHORT_STRING));
200 /* Same as value_init, except that memory for VALUE (if
201 necessary) is allocated from POOL and will be freed
202 automatically when POOL is destroyed.
204 VALUE must not be freed manually by calling value_destroy. If
205 it needs to be resized, it must be done using
206 value_resize_pool instead of value_resize. */
208 value_init_pool (struct pool *pool, union value *value, int width)
210 if (width > MAX_SHORT_STRING)
211 value->long_string = pool_alloc_unaligned (pool, width);
214 /* Same as value_clone(), except that memory for VALUE (if necessary) is
215 allocated from POOL and will be freed automatically when POOL is destroyed.
217 VALUE must not be freed manually by calling value_destroy(). If it needs to
218 be resized, it must be done using value_resize_pool() instead of
221 value_clone_pool (struct pool *pool,
222 union value *value, const union value *src, int width)
224 if (width > MAX_SHORT_STRING)
225 value->long_string = pool_clone_unaligned (pool, src->long_string, width);
230 /* Same as value_resize, except that VALUE must have been
231 allocated from POOL using value_init_pool.
233 This function causes some memory in POOL to be wasted in some
234 cases (until the pool is freed), so it should only be done if
235 this is acceptable. */
237 value_resize_pool (struct pool *pool, union value *value,
238 int old_width, int new_width)
240 assert (value_is_resizable (value, old_width, new_width));
241 if (new_width > old_width)
243 if (new_width > MAX_SHORT_STRING)
245 uint8_t *new_long_string = pool_alloc_unaligned (pool, new_width);
246 memcpy (new_long_string, value_str (value, old_width), old_width);
247 value->long_string = new_long_string;
249 memset (value_str_rw (value, new_width) + old_width, ' ',
250 new_width - old_width);