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1 // Protocol Buffers - Google's data interchange format
2 // Copyright 2008 Google Inc.  All rights reserved.
3 // https://developers.google.com/protocol-buffers/
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30 
31 // All Rights Reserved.
32 //
33 // Author: Maxim Lifantsev
34 //
35 // Useful integer and floating point limits and type traits.
36 //
37 // This partially replaces/duplictes numeric_limits<> from <limits>.
38 // We get a Google-style class that we have a greater control over
39 // and thus can add new features to it or fix whatever happens to be broken in
40 // numeric_limits for the compilers we use.
41 //
42 
43 #ifndef UTIL_MATH_MATHLIMITS_H__
44 #define UTIL_MATH_MATHLIMITS_H__
45 
46 // <math.h> lacks a lot of prototypes. However, this file needs <math.h> to
47 // access old-fashioned isinf et al. Even worse more: this file must not
48 // include <cmath> because that breaks the definition of isinf with gcc 4.9.
49 //
50 // TODO(mec): after C++11 everywhere, use <cmath> and std::isinf in this file.
51 #include <math.h>
52 #include <string.h>
53 
54 #include <cfloat>
55 
56 #include <google/protobuf/stubs/common.h>
57 
58 // ========================================================================= //
59 
60 // Useful integer and floating point limits and type traits.
61 // This is just for the documentation;
62 // real members are defined in our specializations below.
63 namespace google {
64 namespace protobuf {
65 template<typename T> struct MathLimits {
66   // Type name.
67   typedef T Type;
68   // Unsigned version of the Type with the same byte size.
69   // Same as Type for floating point and unsigned types.
70   typedef T UnsignedType;
71   // If the type supports negative values.
72   static const bool kIsSigned;
73   // If the type supports only integer values.
74   static const bool kIsInteger;
75   // Magnitude-wise smallest representable positive value.
76   static const Type kPosMin;
77   // Magnitude-wise largest representable positive value.
78   static const Type kPosMax;
79   // Smallest representable value.
80   static const Type kMin;
81   // Largest representable value.
82   static const Type kMax;
83   // Magnitude-wise smallest representable negative value.
84   // Present only if kIsSigned.
85   static const Type kNegMin;
86   // Magnitude-wise largest representable negative value.
87   // Present only if kIsSigned.
88   static const Type kNegMax;
89   // Smallest integer x such that 10^x is representable.
90   static const int kMin10Exp;
91   // Largest integer x such that 10^x is representable.
92   static const int kMax10Exp;
93   // Smallest positive value such that Type(1) + kEpsilon != Type(1)
94   static const Type kEpsilon;
95   // Typical rounding error that is enough to cover
96   // a few simple floating-point operations.
97   // Slightly larger than kEpsilon to account for a few rounding errors.
98   // Is zero if kIsInteger.
99   static const Type kStdError;
100   // Number of decimal digits of mantissa precision.
101   // Present only if !kIsInteger.
102   static const int kPrecisionDigits;
103   // Not a number, i.e. result of 0/0.
104   // Present only if !kIsInteger.
105   static const Type kNaN;
106   // Positive infinity, i.e. result of 1/0.
107   // Present only if !kIsInteger.
108   static const Type kPosInf;
109   // Negative infinity, i.e. result of -1/0.
110   // Present only if !kIsInteger.
111   static const Type kNegInf;
112 
113   // NOTE: Special floating point values behave
114   // in a special (but mathematically-logical) way
115   // in terms of (in)equalty comparison and mathematical operations
116   // -- see out unittest for examples.
117 
118   // Special floating point value testers.
119   // Present in integer types for convenience.
120   static bool IsFinite(const Type x);
121   static bool IsNaN(const Type x);
122   static bool IsInf(const Type x);
123   static bool IsPosInf(const Type x);
124   static bool IsNegInf(const Type x);
125 };
126 
127 // ========================================================================= //
128 
129 // All #define-s below are simply to refactor the declarations of
130 // MathLimits template specializations.
131 // They are all #undef-ined below.
132 
133 // The hoop-jumping in *_INT_(MAX|MIN) below is so that the compiler does not
134 // get an overflow while computing the constants.
135 
136 #define SIGNED_INT_MAX(Type) \
137   (((Type(1) << (sizeof(Type)*8 - 2)) - 1) + (Type(1) << (sizeof(Type)*8 - 2)))
138 
139 #define SIGNED_INT_MIN(Type) \
140   (-(Type(1) << (sizeof(Type)*8 - 2)) - (Type(1) << (sizeof(Type)*8 - 2)))
141 
142 #define UNSIGNED_INT_MAX(Type) \
143   (((Type(1) << (sizeof(Type)*8 - 1)) - 1) + (Type(1) << (sizeof(Type)*8 - 1)))
144 
145 // Compile-time selected log10-related constants for integer types.
146 #define SIGNED_MAX_10_EXP(Type) \
147   (sizeof(Type) == 1 ? 2 : ( \
148     sizeof(Type) == 2 ? 4 : ( \
149       sizeof(Type) == 4 ? 9 : ( \
150         sizeof(Type) == 8 ? 18 : -1))))
151 
152 #define UNSIGNED_MAX_10_EXP(Type) \
153   (sizeof(Type) == 1 ? 2 : ( \
154     sizeof(Type) == 2 ? 4 : ( \
155       sizeof(Type) == 4 ? 9 : ( \
156         sizeof(Type) == 8 ? 19 : -1))))
157 
158 #define DECL_INT_LIMIT_FUNCS \
159   static bool IsFinite(const Type /*x*/) { return true; } \
160   static bool IsNaN(const Type /*x*/) { return false; } \
161   static bool IsInf(const Type /*x*/) { return false; } \
162   static bool IsPosInf(const Type /*x*/) { return false; } \
163   static bool IsNegInf(const Type /*x*/) { return false; }
164 
165 #define DECL_SIGNED_INT_LIMITS(IntType, UnsignedIntType) \
166 template<> \
167 struct LIBPROTOBUF_EXPORT MathLimits<IntType> { \
168   typedef IntType Type; \
169   typedef UnsignedIntType UnsignedType; \
170   static const bool kIsSigned = true; \
171   static const bool kIsInteger = true; \
172   static const Type kPosMin = 1; \
173   static const Type kPosMax = SIGNED_INT_MAX(Type); \
174   static const Type kMin = SIGNED_INT_MIN(Type); \
175   static const Type kMax = kPosMax; \
176   static const Type kNegMin = -1; \
177   static const Type kNegMax = kMin; \
178   static const int kMin10Exp = 0; \
179   static const int kMax10Exp = SIGNED_MAX_10_EXP(Type); \
180   static const Type kEpsilon = 1; \
181   static const Type kStdError = 0; \
182   DECL_INT_LIMIT_FUNCS \
183 };
184 
185 #define DECL_UNSIGNED_INT_LIMITS(IntType) \
186 template<> \
187 struct LIBPROTOBUF_EXPORT MathLimits<IntType> { \
188   typedef IntType Type; \
189   typedef IntType UnsignedType; \
190   static const bool kIsSigned = false; \
191   static const bool kIsInteger = true; \
192   static const Type kPosMin = 1; \
193   static const Type kPosMax = UNSIGNED_INT_MAX(Type); \
194   static const Type kMin = 0; \
195   static const Type kMax = kPosMax; \
196   static const int kMin10Exp = 0; \
197   static const int kMax10Exp = UNSIGNED_MAX_10_EXP(Type); \
198   static const Type kEpsilon = 1; \
199   static const Type kStdError = 0; \
200   DECL_INT_LIMIT_FUNCS \
201 };
202 
203 DECL_SIGNED_INT_LIMITS(signed char, unsigned char)
204 DECL_SIGNED_INT_LIMITS(signed short int, unsigned short int)
205 DECL_SIGNED_INT_LIMITS(signed int, unsigned int)
206 DECL_SIGNED_INT_LIMITS(signed long int, unsigned long int)
207 DECL_SIGNED_INT_LIMITS(signed long long int, unsigned long long int)
208 DECL_UNSIGNED_INT_LIMITS(unsigned char)
209 DECL_UNSIGNED_INT_LIMITS(unsigned short int)
210 DECL_UNSIGNED_INT_LIMITS(unsigned int)
211 DECL_UNSIGNED_INT_LIMITS(unsigned long int)
212 DECL_UNSIGNED_INT_LIMITS(unsigned long long int)
213 
214 #undef DECL_SIGNED_INT_LIMITS
215 #undef DECL_UNSIGNED_INT_LIMITS
216 #undef SIGNED_INT_MAX
217 #undef SIGNED_INT_MIN
218 #undef UNSIGNED_INT_MAX
219 #undef SIGNED_MAX_10_EXP
220 #undef UNSIGNED_MAX_10_EXP
221 #undef DECL_INT_LIMIT_FUNCS
222 
223 // ========================================================================= //
224 #ifdef WIN32  // Lacks built-in isnan() and isinf()
225 #define DECL_FP_LIMIT_FUNCS \
226   static bool IsFinite(const Type x) { return _finite(x); } \
227   static bool IsNaN(const Type x) { return _isnan(x); } \
228   static bool IsInf(const Type x) { return (_fpclass(x) & (_FPCLASS_NINF | _FPCLASS_PINF)) != 0; } \
229   static bool IsPosInf(const Type x) { return _fpclass(x) == _FPCLASS_PINF; } \
230   static bool IsNegInf(const Type x) { return _fpclass(x) == _FPCLASS_NINF; }
231 #else
232 #define DECL_FP_LIMIT_FUNCS \
233   static bool IsFinite(const Type x) { return !isinf(x) && !isnan(x); } \
234   static bool IsNaN(const Type x) { return isnan(x); } \
235   static bool IsInf(const Type x) { return isinf(x); } \
236   static bool IsPosInf(const Type x) { return isinf(x) && x > 0; } \
237   static bool IsNegInf(const Type x) { return isinf(x) && x < 0; }
238 #endif
239 
240 // We can't put floating-point constant values in the header here because
241 // such constants are not considered to be primitive-type constants by gcc.
242 // CAVEAT: Hence, they are going to be initialized only during
243 // the global objects construction time.
244 #define DECL_FP_LIMITS(FP_Type, PREFIX) \
245 template<> \
246 struct LIBPROTOBUF_EXPORT MathLimits<FP_Type> { \
247   typedef FP_Type Type; \
248   typedef FP_Type UnsignedType; \
249   static const bool kIsSigned = true; \
250   static const bool kIsInteger = false; \
251   static const Type kPosMin; \
252   static const Type kPosMax; \
253   static const Type kMin; \
254   static const Type kMax; \
255   static const Type kNegMin; \
256   static const Type kNegMax; \
257   static const int kMin10Exp = PREFIX##_MIN_10_EXP; \
258   static const int kMax10Exp = PREFIX##_MAX_10_EXP; \
259   static const Type kEpsilon; \
260   static const Type kStdError; \
261   static const int kPrecisionDigits = PREFIX##_DIG; \
262   static const Type kNaN; \
263   static const Type kPosInf; \
264   static const Type kNegInf; \
265   DECL_FP_LIMIT_FUNCS \
266 };
267 
268 DECL_FP_LIMITS(float, FLT)
269 DECL_FP_LIMITS(double, DBL)
270 DECL_FP_LIMITS(long double, LDBL)
271 
272 #undef DECL_FP_LIMITS
273 #undef DECL_FP_LIMIT_FUNCS
274 
275 // ========================================================================= //
276 }  // namespace protobuf
277 }  // namespace google
278 
279 #endif  // UTIL_MATH_MATHLIMITS_H__
280