xref: /openbmc/qemu/qobject/qnum.c (revision f764718d)
1 /*
2  * QNum Module
3  *
4  * Copyright (C) 2009 Red Hat Inc.
5  *
6  * Authors:
7  *  Luiz Capitulino <lcapitulino@redhat.com>
8  *  Anthony Liguori <aliguori@us.ibm.com>
9  *  Marc-André Lureau <marcandre.lureau@redhat.com>
10  *
11  * This work is licensed under the terms of the GNU LGPL, version 2.1 or later.
12  * See the COPYING.LIB file in the top-level directory.
13  */
14 
15 #include "qemu/osdep.h"
16 #include "qapi/error.h"
17 #include "qapi/qmp/qnum.h"
18 #include "qapi/qmp/qobject.h"
19 #include "qemu-common.h"
20 
21 /**
22  * qnum_from_int(): Create a new QNum from an int64_t
23  *
24  * Return strong reference.
25  */
26 QNum *qnum_from_int(int64_t value)
27 {
28     QNum *qn = g_new(QNum, 1);
29 
30     qobject_init(QOBJECT(qn), QTYPE_QNUM);
31     qn->kind = QNUM_I64;
32     qn->u.i64 = value;
33 
34     return qn;
35 }
36 
37 /**
38  * qnum_from_uint(): Create a new QNum from an uint64_t
39  *
40  * Return strong reference.
41  */
42 QNum *qnum_from_uint(uint64_t value)
43 {
44     QNum *qn = g_new(QNum, 1);
45 
46     qobject_init(QOBJECT(qn), QTYPE_QNUM);
47     qn->kind = QNUM_U64;
48     qn->u.u64 = value;
49 
50     return qn;
51 }
52 
53 /**
54  * qnum_from_double(): Create a new QNum from a double
55  *
56  * Return strong reference.
57  */
58 QNum *qnum_from_double(double value)
59 {
60     QNum *qn = g_new(QNum, 1);
61 
62     qobject_init(QOBJECT(qn), QTYPE_QNUM);
63     qn->kind = QNUM_DOUBLE;
64     qn->u.dbl = value;
65 
66     return qn;
67 }
68 
69 /**
70  * qnum_get_try_int(): Get an integer representation of the number
71  *
72  * Return true on success.
73  */
74 bool qnum_get_try_int(const QNum *qn, int64_t *val)
75 {
76     switch (qn->kind) {
77     case QNUM_I64:
78         *val = qn->u.i64;
79         return true;
80     case QNUM_U64:
81         if (qn->u.u64 > INT64_MAX) {
82             return false;
83         }
84         *val = qn->u.u64;
85         return true;
86     case QNUM_DOUBLE:
87         return false;
88     }
89 
90     assert(0);
91     return false;
92 }
93 
94 /**
95  * qnum_get_int(): Get an integer representation of the number
96  *
97  * assert() on failure.
98  */
99 int64_t qnum_get_int(const QNum *qn)
100 {
101     int64_t val;
102     bool success = qnum_get_try_int(qn, &val);
103     assert(success);
104     return val;
105 }
106 
107 /**
108  * qnum_get_uint(): Get an unsigned integer from the number
109  *
110  * Return true on success.
111  */
112 bool qnum_get_try_uint(const QNum *qn, uint64_t *val)
113 {
114     switch (qn->kind) {
115     case QNUM_I64:
116         if (qn->u.i64 < 0) {
117             return false;
118         }
119         *val = qn->u.i64;
120         return true;
121     case QNUM_U64:
122         *val = qn->u.u64;
123         return true;
124     case QNUM_DOUBLE:
125         return false;
126     }
127 
128     assert(0);
129     return false;
130 }
131 
132 /**
133  * qnum_get_uint(): Get an unsigned integer from the number
134  *
135  * assert() on failure.
136  */
137 uint64_t qnum_get_uint(const QNum *qn)
138 {
139     uint64_t val;
140     bool success = qnum_get_try_uint(qn, &val);
141     assert(success);
142     return val;
143 }
144 
145 /**
146  * qnum_get_double(): Get a float representation of the number
147  *
148  * qnum_get_double() loses precision for integers beyond 53 bits.
149  */
150 double qnum_get_double(QNum *qn)
151 {
152     switch (qn->kind) {
153     case QNUM_I64:
154         return qn->u.i64;
155     case QNUM_U64:
156         return qn->u.u64;
157     case QNUM_DOUBLE:
158         return qn->u.dbl;
159     }
160 
161     assert(0);
162     return 0.0;
163 }
164 
165 char *qnum_to_string(QNum *qn)
166 {
167     char *buffer;
168     int len;
169 
170     switch (qn->kind) {
171     case QNUM_I64:
172         return g_strdup_printf("%" PRId64, qn->u.i64);
173     case QNUM_U64:
174         return g_strdup_printf("%" PRIu64, qn->u.u64);
175     case QNUM_DOUBLE:
176         /* FIXME: snprintf() is locale dependent; but JSON requires
177          * numbers to be formatted as if in the C locale. Dependence
178          * on C locale is a pervasive issue in QEMU. */
179         /* FIXME: This risks printing Inf or NaN, which are not valid
180          * JSON values. */
181         /* FIXME: the default precision of 6 for %f often causes
182          * rounding errors; we should be using DBL_DECIMAL_DIG (17),
183          * and only rounding to a shorter number if the result would
184          * still produce the same floating point value.  */
185         buffer = g_strdup_printf("%f" , qn->u.dbl);
186         len = strlen(buffer);
187         while (len > 0 && buffer[len - 1] == '0') {
188             len--;
189         }
190 
191         if (len && buffer[len - 1] == '.') {
192             buffer[len - 1] = 0;
193         } else {
194             buffer[len] = 0;
195         }
196 
197         return buffer;
198     }
199 
200     assert(0);
201     return NULL;
202 }
203 
204 /**
205  * qobject_to_qnum(): Convert a QObject into a QNum
206  */
207 QNum *qobject_to_qnum(const QObject *obj)
208 {
209     if (!obj || qobject_type(obj) != QTYPE_QNUM) {
210         return NULL;
211     }
212     return container_of(obj, QNum, base);
213 }
214 
215 /**
216  * qnum_is_equal(): Test whether the two QNums are equal
217  *
218  * Negative integers are never considered equal to unsigned integers,
219  * but positive integers in the range [0, INT64_MAX] are considered
220  * equal independently of whether the QNum's kind is i64 or u64.
221  *
222  * Doubles are never considered equal to integers.
223  */
224 bool qnum_is_equal(const QObject *x, const QObject *y)
225 {
226     QNum *num_x = qobject_to_qnum(x);
227     QNum *num_y = qobject_to_qnum(y);
228 
229     switch (num_x->kind) {
230     case QNUM_I64:
231         switch (num_y->kind) {
232         case QNUM_I64:
233             /* Comparison in native int64_t type */
234             return num_x->u.i64 == num_y->u.i64;
235         case QNUM_U64:
236             /* Implicit conversion of x to uin64_t, so we have to
237              * check its sign before */
238             return num_x->u.i64 >= 0 && num_x->u.i64 == num_y->u.u64;
239         case QNUM_DOUBLE:
240             return false;
241         }
242         abort();
243     case QNUM_U64:
244         switch (num_y->kind) {
245         case QNUM_I64:
246             return qnum_is_equal(y, x);
247         case QNUM_U64:
248             /* Comparison in native uint64_t type */
249             return num_x->u.u64 == num_y->u.u64;
250         case QNUM_DOUBLE:
251             return false;
252         }
253         abort();
254     case QNUM_DOUBLE:
255         switch (num_y->kind) {
256         case QNUM_I64:
257         case QNUM_U64:
258             return false;
259         case QNUM_DOUBLE:
260             /* Comparison in native double type */
261             return num_x->u.dbl == num_y->u.dbl;
262         }
263         abort();
264     }
265 
266     abort();
267 }
268 
269 /**
270  * qnum_destroy_obj(): Free all memory allocated by a
271  * QNum object
272  */
273 void qnum_destroy_obj(QObject *obj)
274 {
275     assert(obj != NULL);
276     g_free(qobject_to_qnum(obj));
277 }
278