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/*
This file is part of solidity .
solidity is free software : you can redistribute it and / or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation , either version 3 of the License , or
( at your option ) any later version .
solidity is distributed in the hope that it will be useful ,
but WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
GNU General Public License for more details .
You should have received a copy of the GNU General Public License
along with solidity . If not , see < http : //www.gnu.org/licenses/>.
*/
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// SPDX-License-Identifier: GPL-3.0
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/** @file StringUtils.h
* @ author Balajiganapathi S < balajiganapathi . s @ gmail . com >
* @ date 2017
*
* String routines
*/
# pragma once
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# include <libsolutil/CommonData.h>
# include <libsolutil/Numeric.h>
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# include <algorithm>
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# include <limits>
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# include <locale>
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# include <string>
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# include <vector>
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namespace solidity : : util
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{
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// Calculates the Damerau– Levenshtein distance between _str1 and _str2 and returns true if that distance is not greater than _maxDistance
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// if _lenThreshold > 0 and the product of the strings length is greater than _lenThreshold, the function will return false
bool stringWithinDistance ( std : : string const & _str1 , std : : string const & _str2 , size_t _maxDistance , size_t _lenThreshold = 0 ) ;
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// Calculates the Damerau– Levenshtein distance between _str1 and _str2
size_t stringDistance ( std : : string const & _str1 , std : : string const & _str2 ) ;
// Return a string having elements of suggestions as quoted, alternative suggestions. e.g. "a", "b" or "c"
std : : string quotedAlternativesList ( std : : vector < std : : string > const & suggestions ) ;
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/// @returns a string containing a comma-separated list of variable names consisting of @a _baseName suffixed
/// with increasing integers in the range [@a _startSuffix, @a _endSuffix), if @a _startSuffix < @a _endSuffix,
/// and with decreasing integers in the range [@a _endSuffix, @a _startSuffix), if @a _endSuffix < @a _startSuffix.
/// If @a _startSuffix == @a _endSuffix, the empty string is returned.
std : : string suffixedVariableNameList ( std : : string const & _baseName , size_t _startSuffix , size_t _endSuffix ) ;
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/// Joins collection of strings into one string with separators between, last separator can be different.
/// @param _list collection of strings to join
/// @param _separator defaults to ", "
/// @param _lastSeparator (optional) will be used to separate last two strings instead of _separator
/// @example join(vector<string>{"a", "b", "c"}, "; ", " or ") == "a; b or c"
template < class T >
std : : string joinHumanReadable
(
T const & _list ,
std : : string const & _separator = " , " ,
std : : string const & _lastSeparator = " "
)
{
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auto const itEnd = end ( _list ) ;
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std : : string result ;
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for ( auto it = begin ( _list ) ; it ! = itEnd ; )
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{
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std : : string element = * it ;
bool first = ( it = = begin ( _list ) ) ;
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+ + it ;
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if ( ! first )
{
if ( it = = itEnd & & ! _lastSeparator . empty ( ) )
result + = _lastSeparator ; // last iteration
else
result + = _separator ;
}
result + = std : : move ( element ) ;
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}
return result ;
}
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/// Joins collection of strings just like joinHumanReadable, but prepends the separator
/// unless the collection is empty.
template < class T >
std : : string joinHumanReadablePrefixed
(
T const & _list ,
std : : string const & _separator = " , " ,
std : : string const & _lastSeparator = " "
)
{
if ( begin ( _list ) = = end ( _list ) )
return { } ;
else
return _separator + joinHumanReadable ( _list , _separator , _lastSeparator ) ;
}
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/// Formats large numbers to be easily readable by humans.
/// Returns decimal representation for smaller numbers; hex for large numbers.
/// "Special" numbers, powers-of-two and powers-of-two minus 1, are returned in
/// formulaic form like 0x01 * 2**24 - 1.
/// @a T will typically by unsigned, u160, u256 or bigint.
/// @param _value to be formatted
/// @param _useTruncation if true, internal truncation is also applied,
/// like 0x5555...{+56 more}...5555
/// @example formatNumber((u256)0x7ffffff)
template < class T >
inline std : : string formatNumberReadable (
T const & _value ,
bool _useTruncation = false
)
{
static_assert (
std : : is_same < bigint , T > : : value | | ! std : : numeric_limits < T > : : is_signed ,
" only unsigned types or bigint supported "
) ; //bigint does not carry sign bit on shift
// smaller numbers return as decimal
if ( _value < = 0x1000000 )
return _value . str ( ) ;
HexCase hexcase = HexCase : : Mixed ;
HexPrefix prefix = HexPrefix : : Add ;
// when multiple trailing zero bytes, format as N * 2**x
int i = 0 ;
T v = _value ;
for ( ; ( v & 0xff ) = = 0 ; v > > = 8 )
+ + i ;
if ( i > 2 )
{
// 0x100 yields 2**8 (N is 1 and redundant)
if ( v = = 1 )
return " 2** " + std : : to_string ( i * 8 ) ;
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return toHex ( toCompactBigEndian ( v ) , prefix , hexcase ) +
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" * 2** " +
std : : to_string ( i * 8 ) ;
}
// when multiple trailing FF bytes, format as N * 2**x - 1
i = 0 ;
for ( v = _value ; ( v & 0xff ) = = 0xff ; v > > = 8 )
+ + i ;
if ( i > 2 )
{
// 0xFF yields 2**8 - 1 (v is 0 in that case)
if ( v = = 0 )
return " 2** " + std : : to_string ( i * 8 ) + " - 1 " ;
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return toHex ( toCompactBigEndian ( T ( v + 1 ) ) , prefix , hexcase ) +
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" * 2** " + std : : to_string ( i * 8 ) +
" - 1 " ;
}
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std : : string str = toHex ( toCompactBigEndian ( _value ) , prefix , hexcase ) ;
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if ( _useTruncation )
{
// return as interior-truncated hex.
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size_t len = str . size ( ) ;
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if ( len < 24 )
return str ;
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size_t const initialChars = ( prefix = = HexPrefix : : Add ) ? 6 : 4 ;
size_t const finalChars = 4 ;
size_t numSkipped = len - initialChars - finalChars ;
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return str . substr ( 0 , initialChars ) +
" ...{+ " +
std : : to_string ( numSkipped ) +
" more}... " +
str . substr ( len - finalChars , len ) ;
}
// otherwise, show whole value.
return str ;
}
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/// Safely converts an usigned integer as string into an unsigned int type.
///
/// @return the converted number or nullopt in case of an failure (including if it would not fit).
inline std : : optional < unsigned > toUnsignedInt ( std : : string const & _value )
{
try
{
auto const ulong = stoul ( _value ) ;
if ( ulong > std : : numeric_limits < unsigned > : : max ( ) )
return std : : nullopt ;
return static_cast < unsigned > ( ulong ) ;
}
catch ( . . . )
{
return std : : nullopt ;
}
}
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/// Converts parameter _c to its lowercase equivalent if c is an uppercase letter and has a lowercase equivalent. It uses the classic "C" locale semantics.
/// @param _c value to be converted
/// @return the converted value
inline char toLower ( char _c )
{
return tolower ( _c , std : : locale : : classic ( ) ) ;
}
/// Converts parameter _c to its uppercase equivalent if c is an lowercase letter and has a uppercase equivalent. It uses the classic "C" locale semantics.
/// @param _c value to be converted
/// @return the converted value
inline char toUpper ( char _c )
{
return toupper ( _c , std : : locale : : classic ( ) ) ;
}
/// Converts parameter _s to its lowercase equivalent. It uses the classic "C" locale semantics.
/// @param _s value to be converted
/// @return the converted value
inline std : : string toLower ( std : : string _s )
{
std : : transform ( _s . begin ( ) , _s . end ( ) , _s . begin ( ) , [ ] ( char _c ) {
return toLower ( _c ) ;
} ) ;
return _s ;
}
/// Checks whether _c is a decimal digit character. It uses the classic "C" locale semantics.
/// @param _c character to be checked
/// @return true if _c is a decimal digit character, false otherwise
inline bool isDigit ( char _c )
{
return isdigit ( _c , std : : locale : : classic ( ) ) ;
}
// Checks if character is printable using classic "C" locale
/// @param _c character to be checked
/// @return true if _c is a printable character, false otherwise.
inline bool isPrint ( char _c )
{
return isprint ( _c , std : : locale : : classic ( ) ) ;
}
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}