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I want to convert a hex string to a 32 bit signed integer in C++.
So, for example, I have the hex string "fffefffe". The binary representation of this is 11111111111111101111111111111110. The signed integer representation of this is: -65538.
How do I do this conversion in C++? This also needs to work for non-negative numbers. For example, the hex string "0000000A", which is 00000000000000000000000000001010 in binary, and 10 in decimal.
use std::stringstream
unsigned int x;
std::stringstream ss;
ss << std::hex << "fffefffe";
ss >> x;
the following example produces -65538 as its result:
#include <sstream>
#include <iostream>
int main() {
unsigned int x;
std::stringstream ss;
ss << std::hex << "fffefffe";
ss >> x;
// output it as a signed type
std::cout << static_cast<int>(x) << std::endl;
}
In the new C++11 standard, there are a few new utility functions which you can make use of! specifically, there is a family of "string to number" functions (http://en.cppreference.com/w/cpp/string/basic_string/stol and http://en.cppreference.com/w/cpp/string/basic_string/stoul). These are essentially thin wrappers around C's string to number conversion functions, but know how to deal with a std::string
So, the simplest answer for newer code would probably look like this:
std::string s = "0xfffefffe";
unsigned int x = std::stoul(s, nullptr, 16);
NOTE: Below is my original answer, which as the edit says is not a complete answer. For a functional solution, stick the code above the line :-).
It appears that since lexical_cast<> is defined to have stream conversion semantics. Sadly, streams don't understand the "0x" notation. So both the boost::lexical_cast and my hand rolled one don't deal well with hex strings. The above solution which manually sets the input stream to hex will handle it just fine.
Boost has some stuff to do this as well, which has some nice error checking capabilities as well. You can use it like this:
try {
unsigned int x = lexical_cast<int>("0x0badc0de");
} catch(bad_lexical_cast &) {
// whatever you want to do...
}
If you don't feel like using boost, here's a light version of lexical cast which does no error checking:
template<typename T2, typename T1>
inline T2 lexical_cast(const T1 &in) {
T2 out;
std::stringstream ss;
ss << in;
ss >> out;
return out;
}
which you can use like this:
// though this needs the 0x prefix so it knows it is hex
unsigned int x = lexical_cast<unsigned int>("0xdeadbeef");
For a method that works with both C and C++, you might want to consider using the standard library function strtol().
#include <cstdlib>
#include <iostream>
using namespace std;
int main() {
string s = "abcd";
char * p;
long n = strtol( s.c_str(), & p, 16 );
if ( * p != 0 ) { //my bad edit was here
cout << "not a number" << endl;
}
else {
cout << n << endl;
}
}
Andy Buchanan, as far as sticking to C++ goes, I liked yours, but I have a few mods:
template <typename ElemT>
struct HexTo {
ElemT value;
operator ElemT() const {return value;}
friend std::istream& operator>>(std::istream& in, HexTo& out) {
in >> std::hex >> out.value;
return in;
}
};
Used like
uint32_t value = boost::lexical_cast<HexTo<uint32_t> >("0x2a");
That way you don't need one impl per int type.
Working example with strtoul will be:
#include <cstdlib>
#include <iostream>
using namespace std;
int main() {
string s = "fffefffe";
char * p;
long n = strtoul( s.c_str(), & p, 16 );
if ( * p != 0 ) {
cout << "not a number" << endl;
} else {
cout << n << endl;
}
}
strtol converts string to long. On my computer numeric_limits<long>::max() gives 0x7fffffff. Obviously that 0xfffefffe is greater than 0x7fffffff. So strtol returns MAX_LONG instead of wanted value. strtoul converts string to unsigned long that's why no overflow in this case.
Ok, strtol is considering input string not as 32-bit signed integer before convertation. Funny sample with strtol:
#include <cstdlib>
#include <iostream>
using namespace std;
int main() {
string s = "-0x10002";
char * p;
long n = strtol( s.c_str(), & p, 16 );
if ( * p != 0 ) {
cout << "not a number" << endl;
} else {
cout << n << endl;
}
}
The code above prints -65538 in console.
Here's a simple and working method I found elsewhere:
string hexString = "7FF";
int hexNumber;
sscanf(hexString.c_str(), "%x", &hexNumber);
Please note that you might prefer using unsigned long integer/long integer, to receive the value.
Another note, the c_str() function just converts the std::string to const char* .
So if you have a const char* ready, just go ahead with using that variable name directly, as shown below [I am also showing the usage of the unsigned long variable for a larger hex number. Do not confuse it with the case of having const char* instead of string]:
const char *hexString = "7FFEA5"; //Just to show the conversion of a bigger hex number
unsigned long hexNumber; //In case your hex number is going to be sufficiently big.
sscanf(hexString, "%x", &hexNumber);
This works just perfectly fine (provided you use appropriate data types per your need).
I had the same problem today, here's how I solved it so I could keep lexical_cast<>
typedef unsigned int uint32;
typedef signed int int32;
class uint32_from_hex // For use with boost::lexical_cast
{
uint32 value;
public:
operator uint32() const { return value; }
friend std::istream& operator>>( std::istream& in, uint32_from_hex& outValue )
{
in >> std::hex >> outValue.value;
}
};
class int32_from_hex // For use with boost::lexical_cast
{
uint32 value;
public:
operator int32() const { return static_cast<int32>( value ); }
friend std::istream& operator>>( std::istream& in, int32_from_hex& outValue )
{
in >> std::hex >> outvalue.value;
}
};
uint32 material0 = lexical_cast<uint32_from_hex>( "0x4ad" );
uint32 material1 = lexical_cast<uint32_from_hex>( "4ad" );
uint32 material2 = lexical_cast<uint32>( "1197" );
int32 materialX = lexical_cast<int32_from_hex>( "0xfffefffe" );
int32 materialY = lexical_cast<int32_from_hex>( "fffefffe" );
// etc...
(Found this page when I was looking for a less sucky way :-)
Cheers,
A.
just use stoi/stol/stoll
for example:
std::cout << std::stol("fffefffe", nullptr, 16) << std::endl;
output: 4294901758
This worked for me:
string string_test = "80123456";
unsigned long x;
signed long val;
std::stringstream ss;
ss << std::hex << string_test;
ss >> x;
// ss >> val; // if I try this val = 0
val = (signed long)x; // However, if I cast the unsigned result I get val = 0x80123456
Try this. This solution is a bit risky. There are no checks. The string must only have hex values and the string length must match the return type size. But no need for extra headers.
char hextob(char ch)
{
if (ch >= '0' && ch <= '9') return ch - '0';
if (ch >= 'A' && ch <= 'F') return ch - 'A' + 10;
if (ch >= 'a' && ch <= 'f') return ch - 'a' + 10;
return 0;
}
template<typename T>
T hextot(char* hex)
{
T value = 0;
for (size_t i = 0; i < sizeof(T)*2; ++i)
value |= hextob(hex[i]) << (8*sizeof(T)-4*(i+1));
return value;
};
Usage:
int main()
{
char str[4] = {'f','f','f','f'};
std::cout << hextot<int16_t>(str) << "\n";
}
Note: the length of the string must be divisible by 2
For those looking to convert number base for unsigned numbers, it is pretty trivial to do yourself in both C/C++ with minimal dependency (only operator not provided by the language itself is pow() function).
In mathematical terms, a positive ordinal number d in base b with n number of digits can be converted to base 10 using:
Example: Converting base 16 number 00f looks like:
= 0*16^2 + 0*16^1 + 16*16^0 = 15
C/C++ Example:
#include <math.h>
unsigned int to_base10(char *d_str, int len, int base)
{
if (len < 1) {
return 0;
}
char d = d_str[0];
// chars 0-9 = 48-57, chars a-f = 97-102
int val = (d > 57) ? d - ('a' - 10) : d - '0';
int result = val * pow(base, (len - 1));
d_str++; // increment pointer
return result + to_base10(d_str, len - 1, base);
}
int main(int argc, char const *argv[])
{
char n[] = "00f"; // base 16 number of len = 3
printf("%d\n", to_base10(n, 3, 16));
}
Hello I want to process Arabic language in my C++ code.
My code
int main() {
wchar_t s[] = "ﺳﺄﻟﺘﻚِ ﺏﺎﻠﻠﻫ - ﻳﺎ ﻥﻭﺭ ﻊﻴﻨﻳ -\nﺏﺩﻮﻨﻳ ﻫﻞ ﻒﻳ ﺍﻟﺤﻴﺎﺓِ ﺣﻴﺎﺓ ؟\nﺖﻋﺎﻠ";
for (auto ch : s) {
cout << ch;
}
}
I received an error
error: int-array initialized from non-wide string
Also I tried wstring
int main() {
wstring s = "ﺳﺄﻟﺘﻚِ ﺏﺎﻠﻠﻫ - ﻳﺎ ﻥﻭﺭ ﻊﻴﻨﻳ -\nﺏﺩﻮﻨﻳ ﻫﻞ ﻒﻳ ﺍﻟﺤﻴﺎﺓِ ﺣﻴﺎﺓ ؟\nﺖﻋﺎﻠ";
for (wchar_t ch : s) {
cout << ch;
}
}
But received error
conversion from ‘const char [148]’ to non-scalar type ‘std::__cxx11::wstring {aka std::__cxx11::basic_string<wchar_t>}’ requested
You could do it like this:
wchar_t s[] =L"ﺳﺄﻟﺘﻚِ ﺏﺎﻠﻠﻫ - ﻳﺎ ﻥﻭﺭ ﻊﻴﻨﻳ -\nﺏﺩﻮﻨﻳ ﻫﻞ ﻒﻳ ﺍﻟﺤﻴﺎﺓِ ﺣﻴﺎﺓ ؟\nﺖﻋﺎﻠ";
The whole program is here :
#include <iostream>
int main() {
wchar_t s[] =L"ﺳﺄﻟﺘﻚِ ﺏﺎﻠﻠﻫ - ﻳﺎ ﻥﻭﺭ ﻊﻴﻨﻳ -\nﺏﺩﻮﻨﻳ ﻫﻞ ﻒﻳ ﺍﻟﺤﻴﺎﺓِ ﺣﻴﺎﺓ ؟\nﺖﻋﺎﻠ";
for (auto ch : s) {
std::cout << ch;
}
}
The ouput of the execution is a list of wchar_t:
6520365156652476517665242161632651676516665248652486525932453265267651663265253652616519732652266526865256652673245106516765193652626525665267326525965246326523465267326516565247651886526865166651711616326518765268651666517132156710651746522765166652480
Wide character literals and wide character string literals in C and C++ must be prefixed by L. For example: L'A', L"hello". Also, in this particular case, you likely will need to output into std::wcout.
I want to convert a hex string to a 32 bit signed integer in C++.
So, for example, I have the hex string "fffefffe". The binary representation of this is 11111111111111101111111111111110. The signed integer representation of this is: -65538.
How do I do this conversion in C++? This also needs to work for non-negative numbers. For example, the hex string "0000000A", which is 00000000000000000000000000001010 in binary, and 10 in decimal.
use std::stringstream
unsigned int x;
std::stringstream ss;
ss << std::hex << "fffefffe";
ss >> x;
the following example produces -65538 as its result:
#include <sstream>
#include <iostream>
int main() {
unsigned int x;
std::stringstream ss;
ss << std::hex << "fffefffe";
ss >> x;
// output it as a signed type
std::cout << static_cast<int>(x) << std::endl;
}
In the new C++11 standard, there are a few new utility functions which you can make use of! specifically, there is a family of "string to number" functions (http://en.cppreference.com/w/cpp/string/basic_string/stol and http://en.cppreference.com/w/cpp/string/basic_string/stoul). These are essentially thin wrappers around C's string to number conversion functions, but know how to deal with a std::string
So, the simplest answer for newer code would probably look like this:
std::string s = "0xfffefffe";
unsigned int x = std::stoul(s, nullptr, 16);
NOTE: Below is my original answer, which as the edit says is not a complete answer. For a functional solution, stick the code above the line :-).
It appears that since lexical_cast<> is defined to have stream conversion semantics. Sadly, streams don't understand the "0x" notation. So both the boost::lexical_cast and my hand rolled one don't deal well with hex strings. The above solution which manually sets the input stream to hex will handle it just fine.
Boost has some stuff to do this as well, which has some nice error checking capabilities as well. You can use it like this:
try {
unsigned int x = lexical_cast<int>("0x0badc0de");
} catch(bad_lexical_cast &) {
// whatever you want to do...
}
If you don't feel like using boost, here's a light version of lexical cast which does no error checking:
template<typename T2, typename T1>
inline T2 lexical_cast(const T1 &in) {
T2 out;
std::stringstream ss;
ss << in;
ss >> out;
return out;
}
which you can use like this:
// though this needs the 0x prefix so it knows it is hex
unsigned int x = lexical_cast<unsigned int>("0xdeadbeef");
For a method that works with both C and C++, you might want to consider using the standard library function strtol().
#include <cstdlib>
#include <iostream>
using namespace std;
int main() {
string s = "abcd";
char * p;
long n = strtol( s.c_str(), & p, 16 );
if ( * p != 0 ) { //my bad edit was here
cout << "not a number" << endl;
}
else {
cout << n << endl;
}
}
Andy Buchanan, as far as sticking to C++ goes, I liked yours, but I have a few mods:
template <typename ElemT>
struct HexTo {
ElemT value;
operator ElemT() const {return value;}
friend std::istream& operator>>(std::istream& in, HexTo& out) {
in >> std::hex >> out.value;
return in;
}
};
Used like
uint32_t value = boost::lexical_cast<HexTo<uint32_t> >("0x2a");
That way you don't need one impl per int type.
Working example with strtoul will be:
#include <cstdlib>
#include <iostream>
using namespace std;
int main() {
string s = "fffefffe";
char * p;
long n = strtoul( s.c_str(), & p, 16 );
if ( * p != 0 ) {
cout << "not a number" << endl;
} else {
cout << n << endl;
}
}
strtol converts string to long. On my computer numeric_limits<long>::max() gives 0x7fffffff. Obviously that 0xfffefffe is greater than 0x7fffffff. So strtol returns MAX_LONG instead of wanted value. strtoul converts string to unsigned long that's why no overflow in this case.
Ok, strtol is considering input string not as 32-bit signed integer before convertation. Funny sample with strtol:
#include <cstdlib>
#include <iostream>
using namespace std;
int main() {
string s = "-0x10002";
char * p;
long n = strtol( s.c_str(), & p, 16 );
if ( * p != 0 ) {
cout << "not a number" << endl;
} else {
cout << n << endl;
}
}
The code above prints -65538 in console.
Here's a simple and working method I found elsewhere:
string hexString = "7FF";
int hexNumber;
sscanf(hexString.c_str(), "%x", &hexNumber);
Please note that you might prefer using unsigned long integer/long integer, to receive the value.
Another note, the c_str() function just converts the std::string to const char* .
So if you have a const char* ready, just go ahead with using that variable name directly, as shown below [I am also showing the usage of the unsigned long variable for a larger hex number. Do not confuse it with the case of having const char* instead of string]:
const char *hexString = "7FFEA5"; //Just to show the conversion of a bigger hex number
unsigned long hexNumber; //In case your hex number is going to be sufficiently big.
sscanf(hexString, "%x", &hexNumber);
This works just perfectly fine (provided you use appropriate data types per your need).
I had the same problem today, here's how I solved it so I could keep lexical_cast<>
typedef unsigned int uint32;
typedef signed int int32;
class uint32_from_hex // For use with boost::lexical_cast
{
uint32 value;
public:
operator uint32() const { return value; }
friend std::istream& operator>>( std::istream& in, uint32_from_hex& outValue )
{
in >> std::hex >> outValue.value;
}
};
class int32_from_hex // For use with boost::lexical_cast
{
uint32 value;
public:
operator int32() const { return static_cast<int32>( value ); }
friend std::istream& operator>>( std::istream& in, int32_from_hex& outValue )
{
in >> std::hex >> outvalue.value;
}
};
uint32 material0 = lexical_cast<uint32_from_hex>( "0x4ad" );
uint32 material1 = lexical_cast<uint32_from_hex>( "4ad" );
uint32 material2 = lexical_cast<uint32>( "1197" );
int32 materialX = lexical_cast<int32_from_hex>( "0xfffefffe" );
int32 materialY = lexical_cast<int32_from_hex>( "fffefffe" );
// etc...
(Found this page when I was looking for a less sucky way :-)
Cheers,
A.
just use stoi/stol/stoll
for example:
std::cout << std::stol("fffefffe", nullptr, 16) << std::endl;
output: 4294901758
This worked for me:
string string_test = "80123456";
unsigned long x;
signed long val;
std::stringstream ss;
ss << std::hex << string_test;
ss >> x;
// ss >> val; // if I try this val = 0
val = (signed long)x; // However, if I cast the unsigned result I get val = 0x80123456
Try this. This solution is a bit risky. There are no checks. The string must only have hex values and the string length must match the return type size. But no need for extra headers.
char hextob(char ch)
{
if (ch >= '0' && ch <= '9') return ch - '0';
if (ch >= 'A' && ch <= 'F') return ch - 'A' + 10;
if (ch >= 'a' && ch <= 'f') return ch - 'a' + 10;
return 0;
}
template<typename T>
T hextot(char* hex)
{
T value = 0;
for (size_t i = 0; i < sizeof(T)*2; ++i)
value |= hextob(hex[i]) << (8*sizeof(T)-4*(i+1));
return value;
};
Usage:
int main()
{
char str[4] = {'f','f','f','f'};
std::cout << hextot<int16_t>(str) << "\n";
}
Note: the length of the string must be divisible by 2
For those looking to convert number base for unsigned numbers, it is pretty trivial to do yourself in both C/C++ with minimal dependency (only operator not provided by the language itself is pow() function).
In mathematical terms, a positive ordinal number d in base b with n number of digits can be converted to base 10 using:
Example: Converting base 16 number 00f looks like:
= 0*16^2 + 0*16^1 + 16*16^0 = 15
C/C++ Example:
#include <math.h>
unsigned int to_base10(char *d_str, int len, int base)
{
if (len < 1) {
return 0;
}
char d = d_str[0];
// chars 0-9 = 48-57, chars a-f = 97-102
int val = (d > 57) ? d - ('a' - 10) : d - '0';
int result = val * pow(base, (len - 1));
d_str++; // increment pointer
return result + to_base10(d_str, len - 1, base);
}
int main(int argc, char const *argv[])
{
char n[] = "00f"; // base 16 number of len = 3
printf("%d\n", to_base10(n, 3, 16));
}
I need to define a character in C++. Right now I have:
#define ENQ (char)5
Is there a way to define a character similar to how you can define a long using the l suffix (e.g. 5l)?
The cast is fine, it has no run-time impact, but you can define character constants of any value directly using the \x escape sequence to specify characters by their hexadecimal character code - useful for non-printing or extended characters.
#define ASCII_ENQ `\x5`
But in C++ you'd do better to use a const (which has explicit type):
static const char ASCII_ENQ = 5 ;
or
static const char ASCII_ENQ = '\x5' ;
if you strive for complete type agreement (not really necessary).
that would be a character literal 'a' for instance:
#define ALPHA 'a'
#define FIVE_CHAR '5'
You can also use an User-defined literals and write something like this:
#include <iostream>
const char operator ""_ch( unsigned long long i) {
return i;
}
int main() {
char enq = 5_ch;
char alpha = 65_ch;
cout << alpha << '\n';
return 0;
}
But it's a bit of overkill for something you can more easily express with:
const char ENQ = 5;
Unless you are actually trying to do things as tricky as:
#include <iostream>
// convert a number (a figure) to its ASCII code
const char operator ""_ch( unsigned long long i) {
return i < 10 ? i + 48 : 48;
}
int main() {
char num_as_char = 5_ch;
std::cout << num_as_char << '\n';
// which outputs 5
return 0;
}
I am working on some code that reads in a data file. The file frequently contains numeric values of various lengths encoded in ASCII that I need to convert to integers. The problem is that they are not null-terminated, which of course causes problems with atoi. The solution I have been using is to manually append a null to the character sequence, and then convert it.
This is the code that I have been using; it works fine, but it seems very kludgy.
char *append_null(const char *chars, const int size)
{
char *tmp = new char[size + 2];
memcpy(tmp, chars, size);
tmp[size + 1] = '\0';
return tmp;
}
int atoi2(const char *chars, const int size)
{
char *tmp = append_null(chars, size);
int result = atoi(tmp);
delete[] tmp;
return result;
}
int main()
{
char *test = new char[20];
test[0] = '1';
test[1] = '2';
test[2] = '3';
test[3] = '4';
cout << atoi2(test, 4) << endl;
}
I am wondering if there is a better way to approach this problem.
Fixed-format integer conversion is still well within handroll range where the library won't do:
size_t mem_tozd_rjzf(const char *buf, size_t len) // digits only
{
int n=0;
while (len--)
n = n*10 + *buf++ - '0';
return n;
}
long mem_told(const char *buf, size_t len) // spaces, sign, digits
{
long n=0, sign=1;
while ( len && isspace(*buf) )
--len, ++buf;
if ( len ) switch(*buf) {
case '-': sign=-1; \
case '+': --len, ++buf;
}
while ( len-- && isdigit(*buf) )
n = n*10 + *buf++ -'0';
return n*sign;
}
In C++11, you can say std::stoi(std::string(chars, size)), all from <string>.
int i = atoi(std::string(chars, size).c_str());
Your method will work, although you should only need size+1 for appending the null and the null will go at position size. Currently, your test code doesn't actually make the function call, but I'll assume that you have a way to determine when the null-terminated characters end. If possibly, I'd recommend making the null termination there so that you don't have to worry about catching cases where you hit an exception before you can deallocate the memory (memory which, honestly, may or may not have been allocated if you start catching exceptions).
std::string str = "1234";
boost::lexical_cast<int>(str); // 1234
The problem as formulated requires to construct a string given an array of known size, then converting its text into a numeric value.
To convert text into values, C++ has a unified mechanism: streams.
In your case, you can do the following:
int i = 0;
std::stringstream(std::string(yourbuffer, yoursize)) >> i;
This will completely avoid any plain old C reference.
But, since -as you say- all values come from a file... why just don't read the file itself as a stream via std::fstream ?
The question says (emph mine):
The file frequently contains numeric values of various lengths encoded
in ASCII that I need to convert to integers. The problem is that they
are not null-terminated, which of course causes problems with atoi.
This does not really pose a problem, as, if we look at the docs for atoi or strtol, they clearly state:
Function discards any whitespace characters until first non-whitespace
character is found. Then it takes as many characters as possible to
form a valid integer number representation and converts them to
integer value.
That means, it doesn't matter at all that the numbers aren't null terminated, as long as they are delimited by something that stops conversion.
And if they are not delimited, then you have to know the size, and when you know the size, I would also recommend a hand-coded solution like in the other answer.
I know this answer is not answering OP's question, but it helps if your source of char* is a char array with known size.
Live demo
#include <fmt/core.h>
#include <type_traits>
#include <iostream>
// SFINAE fallback
template<typename T, typename =
std::enable_if< std::is_pointer<T>::value >
>
int charArrayToInt(const T arr){ // Fall back for user friendly compiler errors
static_assert(false == std::is_pointer<T>::value, "`charArrayToInt()` dosen't allow conversion from pointer!");
return -1;
}
// Valid for both null or non-null-terminated char array
template<size_t sz>
int charArrayToInt(const char(&arr)[sz]){
// It doesn't matter whether it's null terminated or not
std::string str(arr, sz);
return std::stof(str);
}
int main() {
char number[2] = {'4','2'};
int ret = charArrayToInt(number);
fmt::print("The answer is {}. ", ret);
return 0;
}