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1/*
2******************************************************************************
3*
73c04bcf 4* Copyright (C) 1997-2006, International Business Machines
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5* Corporation and others. All Rights Reserved.
6*
7******************************************************************************
8*
9* FILE NAME : putilimp.h
10*
11* Date Name Description
12* 10/17/04 grhoten Move internal functions from putil.h to this file.
13******************************************************************************
14*/
15
16#ifndef PUTILIMP_H
17#define PUTILIMP_H
18
19#include "unicode/utypes.h"
20#include "unicode/putil.h"
21
22/*==========================================================================*/
23/* Platform utilities */
24/*==========================================================================*/
25
26/**
27 * Platform utilities isolates the platform dependencies of the
28 * libarary. For each platform which this code is ported to, these
29 * functions may have to be re-implemented.
30 */
31
32/**
33 * Floating point utility to determine if a double is Not a Number (NaN).
34 * @internal
35 */
36U_INTERNAL UBool U_EXPORT2 uprv_isNaN(double d);
37/**
38 * Floating point utility to determine if a double has an infinite value.
39 * @internal
40 */
41U_INTERNAL UBool U_EXPORT2 uprv_isInfinite(double d);
42/**
43 * Floating point utility to determine if a double has a positive infinite value.
44 * @internal
45 */
46U_INTERNAL UBool U_EXPORT2 uprv_isPositiveInfinity(double d);
47/**
48 * Floating point utility to determine if a double has a negative infinite value.
49 * @internal
50 */
51U_INTERNAL UBool U_EXPORT2 uprv_isNegativeInfinity(double d);
52/**
53 * Floating point utility that returns a Not a Number (NaN) value.
54 * @internal
55 */
56U_INTERNAL double U_EXPORT2 uprv_getNaN(void);
57/**
58 * Floating point utility that returns an infinite value.
59 * @internal
60 */
61U_INTERNAL double U_EXPORT2 uprv_getInfinity(void);
62
63/**
64 * Floating point utility to truncate a double.
65 * @internal
66 */
67U_INTERNAL double U_EXPORT2 uprv_trunc(double d);
68/**
69 * Floating point utility to calculate the floor of a double.
70 * @internal
71 */
72U_INTERNAL double U_EXPORT2 uprv_floor(double d);
73/**
74 * Floating point utility to calculate the ceiling of a double.
75 * @internal
76 */
77U_INTERNAL double U_EXPORT2 uprv_ceil(double d);
78/**
79 * Floating point utility to calculate the absolute value of a double.
80 * @internal
81 */
82U_INTERNAL double U_EXPORT2 uprv_fabs(double d);
83/**
84 * Floating point utility to calculate the fractional and integer parts of a double.
85 * @internal
86 */
87U_INTERNAL double U_EXPORT2 uprv_modf(double d, double* pinteger);
88/**
89 * Floating point utility to calculate the remainder of a double divided by another double.
90 * @internal
91 */
92U_INTERNAL double U_EXPORT2 uprv_fmod(double d, double y);
93/**
94 * Floating point utility to calculate d to the power of exponent (d^exponent).
95 * @internal
96 */
97U_INTERNAL double U_EXPORT2 uprv_pow(double d, double exponent);
98/**
99 * Floating point utility to calculate 10 to the power of exponent (10^exponent).
100 * @internal
101 */
102U_INTERNAL double U_EXPORT2 uprv_pow10(int32_t exponent);
103/**
104 * Floating point utility to calculate the maximum value of two doubles.
105 * @internal
106 */
107U_INTERNAL double U_EXPORT2 uprv_fmax(double d, double y);
108/**
109 * Floating point utility to calculate the minimum value of two doubles.
110 * @internal
111 */
112U_INTERNAL double U_EXPORT2 uprv_fmin(double d, double y);
113/**
114 * Private utility to calculate the maximum value of two integers.
115 * @internal
116 */
117U_INTERNAL int32_t U_EXPORT2 uprv_max(int32_t d, int32_t y);
118/**
119 * Private utility to calculate the minimum value of two integers.
120 * @internal
121 */
122U_INTERNAL int32_t U_EXPORT2 uprv_min(int32_t d, int32_t y);
123
124#if U_IS_BIG_ENDIAN
125# define uprv_isNegative(number) (*((signed char *)&(number))<0)
126#else
127# define uprv_isNegative(number) (*((signed char *)&(number)+sizeof(number)-1)<0)
128#endif
129
130/**
131 * Return the largest positive number that can be represented by an integer
132 * type of arbitrary bit length.
133 * @internal
134 */
135U_INTERNAL double U_EXPORT2 uprv_maxMantissa(void);
136
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137/**
138 * Floating point utility to calculate the logarithm of a double.
139 * @internal
140 */
141U_INTERNAL double U_EXPORT2 uprv_log(double d);
142
143/**
144 * Does common notion of rounding e.g. uprv_floor(x + 0.5);
145 * @param x the double number
146 * @return the rounded double
147 * @internal
148 */
149U_INTERNAL double U_EXPORT2 uprv_round(double x);
150
151#if 0
152/**
153 * Returns the number of digits after the decimal point in a double number x.
154 *
155 * @param x the double number
156 * @return the number of digits after the decimal point in a double number x.
157 * @internal
158 */
159/*U_INTERNAL int32_t U_EXPORT2 uprv_digitsAfterDecimal(double x);*/
160#endif
161
162/**
163 * Time zone utilities
164 *
165 * Wrappers for C runtime library functions relating to timezones.
166 * The t_tzset() function (similar to tzset) uses the current setting
167 * of the environment variable TZ to assign values to three global
168 * variables: daylight, timezone, and tzname. These variables have the
169 * following meanings, and are declared in &lt;time.h&gt;.
170 *
171 * daylight Nonzero if daylight-saving-time zone (DST) is specified
172 * in TZ; otherwise, 0. Default value is 1.
173 * timezone Difference in seconds between coordinated universal
174 * time and local time. E.g., -28,800 for PST (GMT-8hrs)
175 * tzname(0) Three-letter time-zone name derived from TZ environment
176 * variable. E.g., "PST".
177 * tzname(1) Three-letter DST zone name derived from TZ environment
178 * variable. E.g., "PDT". If DST zone is omitted from TZ,
179 * tzname(1) is an empty string.
180 *
181 * Notes: For example, to set the TZ environment variable to correspond
182 * to the current time zone in Germany, you can use one of the
183 * following statements:
184 *
185 * set TZ=GST1GDT
186 * set TZ=GST+1GDT
187 *
188 * If the TZ value is not set, t_tzset() attempts to use the time zone
189 * information specified by the operating system. Under Windows NT
190 * and Windows 95, this information is specified in the Control Panel's
191 * Date/Time application.
192 * @internal
193 */
194U_INTERNAL void U_EXPORT2 uprv_tzset(void);
195
196/**
197 * Difference in seconds between coordinated universal
198 * time and local time. E.g., -28,800 for PST (GMT-8hrs)
199 * @return the difference in seconds between coordinated universal time and local time.
200 * @internal
201 */
202U_INTERNAL int32_t U_EXPORT2 uprv_timezone(void);
203
204/**
205 * tzname(0) Three-letter time-zone name derived from TZ environment
206 * variable. E.g., "PST".
207 * tzname(1) Three-letter DST zone name derived from TZ environment
208 * variable. E.g., "PDT". If DST zone is omitted from TZ,
209 * tzname(1) is an empty string.
210 * @internal
211 */
212U_INTERNAL const char* U_EXPORT2 uprv_tzname(int n);
213
214/**
215 * Get UTC (GMT) time measured in milliseconds since 0:00 on 1/1/1970.
216 * @return the UTC time measured in milliseconds
217 * @internal
218 */
219U_INTERNAL UDate U_EXPORT2 uprv_getUTCtime(void);
220
221/**
222 * Determine whether a pathname is absolute or not, as defined by the platform.
223 * @param path Pathname to test
224 * @return TRUE if the path is absolute
225 * @internal (ICU 3.0)
226 */
227U_INTERNAL UBool U_EXPORT2 uprv_pathIsAbsolute(const char *path);
228
229/**
230 * Maximum value of a (void*) - use to indicate the limit of an 'infinite' buffer.
231 * In fact, buffer sizes must not exceed 2GB so that the difference between
232 * the buffer limit and the buffer start can be expressed in an int32_t.
233 *
234 * The definition of U_MAX_PTR must fulfill the following conditions:
235 * - return the largest possible pointer greater than base
236 * - return a valid pointer according to the machine architecture (AS/400, 64-bit, etc.)
237 * - avoid wrapping around at high addresses
238 * - make sure that the returned pointer is not farther from base than 0x7fffffff
239 *
240 * @param base The beginning of a buffer to find the maximum offset from
241 * @internal
242 */
243#ifndef U_MAX_PTR
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244# if defined(OS390) && !defined(_LP64)
245 /* We have 31-bit pointers. */
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246# define U_MAX_PTR(base) ((void *)0x7fffffff)
247# elif defined(OS400)
248/*
249 * With the provided macro we should never be out of range of a given segment
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250 * (a traditional/typical segment that is). Our segments have 5 bytes for the
251 * id and 3 bytes for the offset. The key is that the casting takes care of
252 * only retrieving the offset portion minus x1000. Hence, the smallest offset
253 * seen in a program is x001000 and when casted to an int would be 0.
254 * That's why we can only add 0xffefff. Otherwise, we would exceed the segment.
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255 *
256 * Currently, 16MB is the current addressing limitation on as/400. This macro
257 * may eventually be changed to use 2GB addressability for the newer version of
258 * as/400 machines.
259 */
260# define U_MAX_PTR(base) ((void *)(((char *)base)-((int32_t)(base))+((int32_t)0xffefff)))
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261# elif defined(__GNUC__) && __GNUC__ >= 4
262/*
263 * Due to a compiler optimization bug, gcc 4 causes test failures when doing
264 * this math arithmetic on pointers on some platforms. It seems like the
265 * pointers are considered signed instead of unsigned. The uintptr_t type
266 * isn't available on all platforms (i.e MSVC 6) and pointers aren't always
267 * a scalar value (i.e. i5/OS in the lines above).
268 */
269# define U_MAX_PTR(base) \
270 ((void *)(((uintptr_t)(base)+0x7fffffffu) > (uintptr_t)(base) \
271 ? ((uintptr_t)(base)+0x7fffffffu) \
272 : (uintptr_t)-1))
374ca955 273# else
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274# define U_MAX_PTR(base) \
275 ((char *)(((char *)(base)+0x7fffffffu) > (char *)(base) \
276 ? ((char *)(base)+0x7fffffffu) \
277 : (char *)-1))
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278# endif
279#endif
280
281#endif