#ifndef DYNAMIC_DEPTH_INTERNAL_STRINGS_NUMBERS_H_ // NOLINT #define DYNAMIC_DEPTH_INTERNAL_STRINGS_NUMBERS_H_ // NOLINT #include <stddef.h> #include <stdlib.h> #include <string.h> #include <time.h> #include <functional> #include <limits> #include <string> #include "base/integral_types.h" #include "base/port.h" #include "strings/ascii_ctype.h" namespace dynamic_depth { namespace strings { // Convert strings to numeric values, with strict error checking. // Leading and trailing spaces are allowed. // Negative inputs are not allowed for unsigned ints (unlike strtoul). // // Base must be [0, 2-36]. // Base 0: // auto-select base from first two chars: // "0x" -> hex // "0" -> octal // else -> decimal // Base 16: // Number can start with "0x" // // On error, returns false, and sets *value to: // std::numeric_limits<T>::max() on overflow // std::numeric_limits<T>::min() on underflow // conversion of leading substring if available ("123@@@" -> 123) // 0 if no leading substring available // The effect on errno is unspecified. // Do not depend on testing errno. bool safe_strto32_base(const string& text, int32* value, int base); bool safe_strto64_base(const string& text, int64* value, int base); bool safe_strtou32_base(const string& text, uint32* value, int base); bool safe_strtou64_base(const string& text, uint64* value, int base); bool safe_strtosize_t_base(const string& text, size_t* value, int base); // Convenience functions with base == 10. inline bool safe_strto32(const string& text, int32* value) { return safe_strto32_base(text, value, 10); } inline bool safe_strto64(const string& text, int64* value) { return safe_strto64_base(text, value, 10); } inline bool safe_strtou32(const string& text, uint32* value) { return safe_strtou32_base(text, value, 10); } inline bool safe_strtou64(const string& text, uint64* value) { return safe_strtou64_base(text, value, 10); } // Convert strings to floating point values. // Leading and trailing spaces are allowed. // Values may be rounded on over- and underflow. bool safe_strtof(const string& str, float* value); bool safe_strtod(const string& str, double* value); // Previously documented minimums -- the buffers provided must be at least this // long, though these numbers are subject to change: // Int32, UInt32: 12 bytes // Int64, UInt64, Int, Uint: 22 bytes // Time: 30 bytes // Use kFastToBufferSize rather than hardcoding constants. static const int kFastToBufferSize = 32; // ---------------------------------------------------------------------- // FastInt32ToBufferLeft() // FastUInt32ToBufferLeft() // FastInt64ToBufferLeft() // FastUInt64ToBufferLeft() // // Like the Fast*ToBuffer() functions above, these are intended for speed. // Unlike the Fast*ToBuffer() functions, however, these functions write // their output to the beginning of the buffer (hence the name, as the // output is left-aligned). The caller is responsible for ensuring that // the buffer has enough space to hold the output. // // Returns a pointer to the end of the string (i.e. the null character // terminating the string). // ---------------------------------------------------------------------- char* FastInt32ToBufferLeft(int32 i, char* buffer); // at least 12 bytes char* FastUInt32ToBufferLeft(uint32 i, char* buffer); // at least 12 bytes char* FastInt64ToBufferLeft(int64 i, char* buffer); // at least 22 bytes char* FastUInt64ToBufferLeft(uint64 i, char* buffer); // at least 22 bytes // ---------------------------------------------------------------------- // SimpleFtoa() // Description: converts a double or float to a string which, if passed to // strtod() or strtof() respectively, will produce the exact same original // double or float. Exception: for NaN values, strtod(SimpleDtoa(NaN)) or // strtof(SimpleFtoa(NaN)) may produce any NaN value, not necessarily the // exact same original NaN value. // // The output string is not guaranteed to be as short as possible. // // The output string, including terminating NUL, will have length // less than or equal to kFastToBufferSize defined above. Of course, // we would prefer that your code not depend on this property of // the output string. This guarantee derives from a similar guarantee // from the previous generation of char-buffer-based functions. // We had to carry it forward to preserve compatibility. // ---------------------------------------------------------------------- string SimpleFtoa(float value); // ---------------------------------------------------------------------- // SimpleItoa() // Description: converts an integer to a string. // Faster than printf("%d"). // // Return value: string // ---------------------------------------------------------------------- inline string SimpleItoa(int32 i) { char buf[16]; // Longest is -2147483648 return string(buf, FastInt32ToBufferLeft(i, buf)); } // We need this overload because otherwise SimpleItoa(5U) wouldn't compile. inline string SimpleItoa(uint32 i) { char buf[16]; // Longest is 4294967295 return string(buf, FastUInt32ToBufferLeft(i, buf)); } inline string SimpleItoa(int64 i) { char buf[32]; // Longest is -9223372036854775808 return string(buf, FastInt64ToBufferLeft(i, buf)); } // We need this overload because otherwise SimpleItoa(5ULL) wouldn't compile. inline string SimpleItoa(uint64 i) { char buf[32]; // Longest is 18446744073709551615 return string(buf, FastUInt64ToBufferLeft(i, buf)); } inline string SimpleItoa(long i) { // NOLINT long is OK here if (sizeof(i) == 64 / 8) { return SimpleItoa(static_cast<int64>(i)); } else if (sizeof(i) == 32 / 8) { return SimpleItoa(static_cast<int32>(i)); } } inline string SimpleItoa(unsigned long i) { // NOLINT long is OK here if (sizeof(i) == 64 / 8) { return SimpleItoa(static_cast<uint64>(i)); } else if (sizeof(i) == 32 / 8) { return SimpleItoa(static_cast<uint32>(i)); } } // Required buffer size for FloatToBuffer is kFastToBufferSize. char* FloatToBuffer(float i, char* buffer); } // namespace strings } // namespace dynamic_depth #endif // DYNAMIC_DEPTH_INTERNAL_STRINGS_NUMBERS_H_ // NOLINT