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/*
* Author: Sven Gothel <sgothel@jausoft.com>
* Copyright (c) 2021 Gothel Software e.K.
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
* LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
* OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
* WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#ifndef JAU_STRING_UTIL_HPP_
#define JAU_STRING_UTIL_HPP_
#include <cstdint>
#include <cstring>
#include <string>
#include <cstdarg>
#include <string_view>
#include <type_traits>
#include <vector>
#include <jau/byte_util.hpp>
#include <jau/cpp_lang_util.hpp>
#include <jau/packed_attribute.hpp>
#include <jau/type_traits_queries.hpp>
#include <jau/int_types.hpp>
#include <jau/int_math.hpp>
#include <jau/string_cfmt.hpp>
namespace jau {
/** @defgroup StringUtils String Utilities
* String utilities for type conversion and manipulation.
*
* @{
*/
/**
* Returns a C++ String taken from buffer with maximum length of min(max_len, max_len).
* <p>
* The maximum length only delimits the string length and does not contain the EOS null byte.
* An EOS null byte will will be added.
* </p>
* <p>
* The source string within buffer is not required to contain an EOS null byte;
* </p>
*/
std::string get_string(const uint8_t *buffer, nsize_t const buffer_len, nsize_t const max_len) noexcept;
/** trim in place */
void trimInPlace(std::string &s) noexcept;
/** trim copy */
std::string trim(const std::string &s) noexcept;
/** Split given string `str` at `separator` into the resulting std::vector excluding the separator sequence . */
std::vector<std::string> split_string(const std::string& str, const std::string& separator) noexcept;
std::string& toLowerInPlace(std::string& s) noexcept;
std::string toLower(const std::string& s) noexcept;
/**
// *************************************************
// *************************************************
// *************************************************
*/
/**
* Converts a given hexadecimal string representation into a byte vector.
*
* In case a non valid hexadecimal digit appears in the given string,
* conversion ends and fills the byte vector up until the violation.
*
* If string is in MSB first (default w/ leading 0x) and platform jau::is_little_endian(),
* lsbFirst = false shall be passed.
*
* In case hexstr contains an odd number of hex-nibbles, it will be interpreted as follows
* - 0xf12 = 0x0f12 = { 0x12, 0x0f } - msb, 1st single low-nibble is most significant
* - 12f = 0xf012 = { 0x12, 0xf0 } - lsb, last single high-nibble is most significant
*
* @param out the byte vector sink
* @param hexstr the hexadecimal string representation
* @param lsbFirst low significant byte first
* @param checkLeading0x if true, checks for a leading `0x` and removes it, otherwise not.
* @return the length of the matching byte vector
*/
size_t hexStringBytes(std::vector<uint8_t>& out, const std::string& hexstr, const bool lsbFirst, const bool checkLeading0x) noexcept;
/** See hexStringBytes() */
size_t hexStringBytes(std::vector<uint8_t>& out, const uint8_t hexstr[], const size_t hexstr_len, const bool lsbFirst, const bool checkLeading0x) noexcept;
/**
* Converts a given hexadecimal string representation into a uint64_t value according to hexStringBytes().
*
* If string is in MSB first (default w/ leading 0x) and platform jau::is_little_endian(),
* lsbFirst = false shall be passed (default).
*
* @param s the hexadecimal string representation
* @param lsbFirst low significant byte first
* @param checkLeading0x if true, checks for a leading `0x` and removes it, otherwise not.
* @return the uint64_t value
* @see hexStringBytes()
* @see to_hexstring()
*/
uint64_t from_hexstring(std::string const & s, const bool lsbFirst=!jau::is_little_endian(), const bool checkLeading0x=true) noexcept;
/**
* Produce a hexadecimal string representation of the given byte values.
* <p>
* If lsbFirst is true, orders LSB left -> MSB right, usual for byte streams. Result will not have a leading `0x`.<br>
* Otherwise orders MSB left -> LSB right, usual for readable integer values. Result will have a leading `0x` if !skipLeading0x (default).
* </p>
* @param data pointer to the first byte to print
* @param length number of bytes to print
* @param lsbFirst true having the least significant byte printed first (lowest addressed byte to highest),
* otherwise have the most significant byte printed first (highest addressed byte to lowest).
* A leading `0x` will be prepended if `lsbFirst == false`.
* @param lowerCase true to use lower case hex-chars (default), otherwise capital letters are being used.
* @param skipLeading0x false to add leading `0x` if !lsbFirst (default), true to not add (skip)..
* @return the hex-string representation of the data
*/
std::string bytesHexString(const void* data, const nsize_t length,
const bool lsbFirst, const bool lowerCase=true, const bool skipLeading0x=false) noexcept;
template< class uint8_container_type,
std::enable_if_t<std::is_integral_v<typename uint8_container_type::value_type> &&
std::is_convertible_v<typename uint8_container_type::value_type, uint8_t>,
bool> = true>
std::string bytesHexString(const uint8_container_type& bytes,
const bool lsbFirst, const bool lowerCase=true, const bool skipLeading0x=false) noexcept {
return bytesHexString((const uint8_t *)bytes.data(), bytes.size(), lsbFirst, lowerCase, skipLeading0x);
}
/**
* Produce a hexadecimal string representation of the given byte value.
* @param dest the std::string reference destination to append
* @param value the byte value to represent
* @param lowerCase true to use lower case hex-chars, otherwise capital letters are being used.
* @return the given std::string reference for chaining
*/
std::string& byteHexString(std::string& dest, const uint8_t value, const bool lowerCase) noexcept;
/**
* Produce a lower-case hexadecimal string representation with leading `0x` in MSB of the given pointer.
* @tparam value_type a pointer type
* @param v the pointer of given pointer type
* @param skipLeading0x false to add leading `0x` (default), true to not add (skip)..
* @return the hex-string representation of the value
* @see bytesHexString()
* @see from_hexstring()
*/
template< class value_type,
std::enable_if_t<std::is_pointer_v<value_type>,
bool> = true>
inline std::string to_hexstring(value_type const & v, const bool skipLeading0x=false) noexcept
{
#if defined(__EMSCRIPTEN__) // jau::os::is_generic_wasm()
static_assert( is_little_endian() ); // Bug in emscripten, unable to deduce uint16_t, uint32_t or uint64_t override of cpu_to_le() or bswap()
const uintptr_t v_le = reinterpret_cast<uintptr_t>(v);
return bytesHexString(pointer_cast<const uint8_t*>(&v_le), sizeof(v), // NOLINT(bugprone-sizeof-expression): Intended
false /* lsbFirst */, true /* lowerCase */, skipLeading0x);
#else
const uintptr_t v_le = jau::cpu_to_le( reinterpret_cast<uintptr_t>(v) );
return bytesHexString(pointer_cast<const uint8_t*>(&v_le), sizeof(v), // NOLINT(bugprone-sizeof-expression): Intended
false /* lsbFirst */, true /* lowerCase */, skipLeading0x);
#endif
}
/**
* Produce a lower-case hexadecimal string representation with leading `0x` in MSB of the given value with standard layout.
* @tparam value_type a standard layout value type
* @param v the value of given standard layout type
* @param skipLeading0x false to add leading `0x` (default), true to not add (skip)..
* @return the hex-string representation of the value
* @see bytesHexString()
* @see from_hexstring()
*/
template< class value_type,
std::enable_if_t<!std::is_pointer_v<value_type> &&
std::is_standard_layout_v<value_type>,
bool> = true>
inline std::string to_hexstring(value_type const & v, const bool skipLeading0x=false) noexcept
{
if constexpr( is_little_endian() ) {
return bytesHexString(pointer_cast<const uint8_t*>(&v), sizeof(v),
false /* lsbFirst */, true /* lowerCase */, skipLeading0x);
} else {
const value_type v_le = jau::bswap(v);
return bytesHexString(pointer_cast<const uint8_t*>(&v_le), sizeof(v),
false /* lsbFirst */, true /* lowerCase */, skipLeading0x);
}
}
/**
// *************************************************
// *************************************************
// *************************************************
*/
/**
* Produce a decimal string representation of an integral integer value.
* @tparam T an integral integer type
* @param v the integral integer value
* @param separator if not 0, use as separation character, otherwise no separation characters are being used
* @param width the minimum number of characters to be printed. Add padding with blank space if result is shorter.
* @return the string representation of the integral integer value
*/
template< class value_type,
std::enable_if_t< std::is_integral_v<value_type>,
bool> = true>
std::string to_decstring(const value_type& v, const char separator=',', const nsize_t width=0) noexcept {
const snsize_t v_sign = jau::sign<value_type>(v);
const nsize_t digit10_count1 = jau::digits10<value_type>(v, v_sign, true /* sign_is_digit */);
const nsize_t digit10_count2 = v_sign < 0 ? digit10_count1 - 1 : digit10_count1; // less sign
const nsize_t comma_count = 0 == separator ? 0 : ( digit10_count1 - 1 ) / 3;
const nsize_t net_chars = digit10_count1 + comma_count;
const nsize_t total_chars = std::max<nsize_t>(width, net_chars);
std::string res(total_chars, ' ');
value_type n = v;
nsize_t char_iter = 0;
for(nsize_t digit10_iter = 0; digit10_iter < digit10_count2 /* && char_iter < total_chars */; digit10_iter++ ) {
const int digit = v_sign < 0 ? invert_sign( n % 10 ) : n % 10;
n /= 10;
if( 0 < digit10_iter && 0 == digit10_iter % 3 ) {
res[total_chars-1-(char_iter++)] = separator;
}
res[total_chars-1-(char_iter++)] = '0' + digit;
}
if( v_sign < 0 /* && char_iter < total_chars */ ) {
res[total_chars-1-(char_iter++)] = '-';
}
return res;
}
/**
// *************************************************
// *************************************************
// *************************************************
*/
/**
* Returns a string according to `vprintf()` formatting rules
* using `va_list` instead of a variable number of arguments.
* @param format `printf()` compliant format string
* @param ap `va_list` arguments
*/
std::string vformat_string(const char* format, va_list ap);
/**
* Returns a string according to `printf()` formatting rules
* and variable number of arguments following the `format` argument.
* @param format `printf()` compliant format string
*/
std::string format_string(const char* format, ...);
/**
* Safely returns a string according to `printf()` formatting rules
* and variable number of arguments following the `format` argument.
*
* jau::cfmt2::check() is utilize to pre-validate the given arguments
* against the format string. If invalid, method returns an empty string.
* Otherwise std::snprintf() is being utilized.
*
* @param maxStrLen maximum resulting string length
* @param format `printf()` compliant format string
* @param args optional arguments matching the format string
*/
template <typename... Args>
constexpr std::string format_string_v(const std::size_t maxStrLen, const std::string_view format, const Args &...args) {
if ( jau::cfmt::check2<Args...>(format) ) {
std::string str;
str.reserve(maxStrLen + 1); // incl. EOS
str.resize(maxStrLen); // excl. EOS
// -Wformat=2 -> -Wformat -Wformat-nonliteral -Wformat-security -Wformat-y2k
// -Wformat=2 -Wformat-overflow=2 -Wformat-signedness
PRAGMA_DISABLE_WARNING_PUSH
PRAGMA_DISABLE_WARNING_FORMAT_NONLITERAL
const size_t nchars = std::snprintf(&str[0], maxStrLen + 1, format.data(), args...);
PRAGMA_DISABLE_WARNING_POP
if( nchars < maxStrLen + 1 ) {
str.resize(nchars);
str.shrink_to_fit();
} // else truncated w/ nchars > MaxStrLen
return str;
} else {
return "";
}
}
/**
// *************************************************
// *************************************************
// *************************************************
*/
template< class value_type,
std::enable_if_t< std::is_integral_v<value_type> ||
std::is_floating_point_v<value_type>,
bool> = true>
inline std::string to_string(const value_type & ref)
{
return std::to_string(ref);
}
template< class value_type,
std::enable_if_t<!std::is_integral_v<value_type> &&
!std::is_floating_point_v<value_type> &&
std::is_base_of_v<std::string, value_type>,
bool> = true>
inline std::string to_string(const value_type & ref) {
return ref;
}
template< class value_type,
std::enable_if_t<!std::is_integral_v<value_type> &&
!std::is_floating_point_v<value_type> &&
!std::is_base_of_v<std::string, value_type> &&
std::is_base_of_v<std::string_view, value_type>,
bool> = true>
inline std::string to_string(const value_type & ref) {
return std::string(ref);
}
template< class value_type,
std::enable_if_t<!std::is_integral_v<value_type> &&
!std::is_floating_point_v<value_type> &&
!std::is_base_of_v<std::string, value_type> &&
!std::is_base_of_v<std::string_view, value_type> &&
std::is_pointer_v<value_type>,
bool> = true>
inline std::string to_string(const value_type & ref)
{
return to_hexstring((void*)ref); // NOLINT(bugprone-multi-level-implicit-pointer-conversion)
}
template< class value_type,
std::enable_if_t<!std::is_integral_v<value_type> &&
!std::is_floating_point_v<value_type> &&
!std::is_base_of_v<std::string, value_type> &&
!std::is_base_of_v<std::string_view, value_type> &&
!std::is_pointer_v<value_type> &&
jau::has_toString_v<value_type>,
bool> = true>
inline std::string to_string(const value_type & ref) {
return ref.toString();
}
template< class value_type,
std::enable_if_t<!std::is_integral_v<value_type> &&
!std::is_floating_point_v<value_type> &&
!std::is_base_of_v<std::string, value_type> &&
!std::is_base_of_v<std::string_view, value_type> &&
!std::is_pointer_v<value_type> &&
!jau::has_toString_v<value_type> &&
jau::has_to_string_v<value_type>,
bool> = true>
inline std::string to_string(const value_type & ref) {
return ref.to_string();
}
template< class value_type,
std::enable_if_t<!std::is_integral_v<value_type> &&
!std::is_floating_point_v<value_type> &&
!std::is_base_of_v<std::string, value_type> &&
!std::is_base_of_v<std::string_view, value_type> &&
!std::is_pointer_v<value_type> &&
!jau::has_toString_v<value_type> &&
!jau::has_to_string_v<value_type> &&
jau::has_member_of_pointer_v<value_type>,
bool> = true>
inline std::string to_string(const value_type & ref) {
return to_hexstring((void*)ref.operator->());
}
template< class value_type,
std::enable_if_t<!std::is_integral_v<value_type> &&
!std::is_floating_point_v<value_type> &&
!std::is_base_of_v<std::string, value_type> &&
!std::is_base_of_v<std::string_view, value_type> &&
!std::is_pointer_v<value_type> &&
!jau::has_toString_v<value_type> &&
!jau::has_to_string_v<value_type> &&
!jau::has_member_of_pointer_v<value_type>,
bool> = true>
inline std::string to_string(const value_type & ref) {
(void)ref;
return "jau::to_string<T> n/a for type "+type_cue<value_type>::to_string();
}
template<typename T>
std::string to_string(std::vector<T> const &list, const std::string& delim)
{
if ( list.empty() ) {
return std::string();
}
bool need_delim = false;
std::string res;
for(const T& e : list) {
if( need_delim ) {
res.append( delim );
}
res.append( to_string( e ) );
need_delim = true;
}
return res;
}
template<typename T>
std::string to_string(std::vector<T> const &list) { return to_string<T>(list, ", "); }
bool to_integer(long long & result, const std::string& str, const char limiter='\0', const char *limiter_pos=nullptr);
bool to_integer(long long & result, const char * str, size_t str_len, const char limiter='\0', const char *limiter_pos=nullptr);
/**@}*/
} // namespace jau
#define jau_format_string_static(...) \
jau::format_string(__VA_ARGS__); \
static_assert( 0 <= jau::cfmt::checkR(__VA_ARGS__).argCount() ); // compile time validation!
/** \example test_intdecstring01.cpp
* This C++ unit test validates the jau::to_decstring implementation
*/
#endif /* JAU_STRING_UTIL_HPP_ */
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