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C++: How do I cast an int to an unsigned long and not change any bits? I want to pack and unpack values into memory. The word size is 64 bits.

This snippet illustrates the problem:

int v1 = -2; // 0xfe
unsigned long v2=(unsigned long)v1; // 0xfffe, I want 0x00fe

The simple solution is:

unsigned long v2=(unsigned int)v1; // 0x00fe

However, this code is in a template where the target type is a parameter, so I had to resort to this:

uint64 target = mem[index] & mask;
uint64 v;
if (value < 0) {
    switch (bits) {
    case 8:
        v = (uint8)value;
    case 16:
        v = (uint16)value;
    case 32:
        v = (uint32)value;
} else {
    v = value;
v = v << lShift;
target |= v;
mem[index] = target;

Assume, for example, the type for "value" is an int (16 bits) and bits=16. The goal is to mask the bits in memory for value and replace them.

Does anyone know an easier way?

share|improve this question
You have a word size of 64 bits and an int is 16? That's special. –  Hans Passant Aug 5 '11 at 23:45
What is the method signature? You give only partial information thus only expect a partially good solution. But I suspect you can use boost::type_traits to help. –  Loki Astari Aug 5 '11 at 23:48
The way you do it is not portable. If you want to preserve the bits portably, you need to resort to type punning: unsigned long v2= *(unsigned int*)&v1;. Otherwise you get a value conversion which is allowed to change bits depending on the sign representation. –  Johannes Schaub - litb Aug 7 '11 at 10:07

6 Answers 6

Assuming you have C++0x support:

#include <type_traits>
v= static_cast<std::make_unsigned<decltype(value)>::type>(value);

I'm assuming that you are parameterizing on the type of value, otherwise this doesn't make any sense.

EDIT: making it more C++-ish by using static_cast instead of a C cast. I suppose that's what got me a downvote.

share|improve this answer
Very nice, good to know there's already a trait for that! –  Kerrek SB Aug 6 '11 at 0:01

If you don't mind the typing, a trait class comes to mind:

template <typename IType> struct ToULong;

template <> struct ToULong<signed char>
  static inline unsigned long int get(signed char c) { return (unsigned char)(c); }

template <> struct ToULong<signed short int>
  static inline unsigned long int get(signed short int c) { return (unsigned short int)(c); }

/* ... signed int, signed long int, signed long long int ... */


template <typename IType>
struct Foo
  unsigned lont int get_data() const { return ToULong<IType>::get(m_data); }
  IType m_data;

Update: Even simpler, you could just make a bunch of overloads:

unsigned long int toULong(            char c) { return (unsigned      char)(c); }
unsigned long int toULong(signed      char c) { return (unsigned      char)(c); }
unsigned long int toULong(signed short int c) { return (unsigned short int)(c); }
unsigned long int toULong(signed       int c) { return (unsigned       int)(c); }
unsigned long int toULong(signed  long int c) { return (unsigned  long int)(c); }

2nd update: You should probably say static_cast<T>(x) rather than (T)(x) if you want to be even more C++-like.

share|improve this answer
Downvoter, care to explain your objection? –  Kerrek SB Aug 6 '11 at 9:49
This looks really promising since the compiler is doing the work that my example does at runtime. So instead of the phrase "if (value < 0)" I'll add "v = ToULong<IntType>(value);" where "IntType" the the type for the value variable. –  Michael Fitzpatrick Aug 7 '11 at 7:10
You need to call the static member function, ToULong<IntType>::get(value) -- but I think the overloaded free functions should work just as well and they're a little simpler conceptually. The trait class gives you some extra type safety though, because the free functions might also work for (unambiguously) implicitly convertible types, which may be unexpected. –  Kerrek SB Aug 7 '11 at 9:51

How about union?

union u1 {
    short int si;
    unsigned long int uli;

    unsigned long int stub;

    operator unsigned long int () {return uli;};
    u1(short int nsi) : stub(0) {si = nsi;}

share|improve this answer
If sizeof(int) != sizeof(long int) then the top bits of the unsigned long might be undefined. –  Rudy Velthuis Aug 6 '11 at 0:23
@Rudy Velthuis Please note stub member. –  outmind Aug 6 '11 at 22:13
Oh, OK, I see now. –  Rudy Velthuis Aug 6 '11 at 22:17

Using the idea put forth by "Kerrek SB" I came up with a solution.

template <typename Tint> uint64 ToMemdata(Tint value) {
    return (uint64)value;};
template <> uint64 ToMemdata<int8>(int8 value) {
    return (uint64)((uint8)value);};
template <> uint64 ToMemdata<int16>(int16 value) {
    return (uint64)((uint16)value);};
template <> uint64 ToMemdata<int32>(int32 value) {
    return (uint64)((uint32)value);};
template <> uint64 ToMemdata<int64>(int64 value) {
    return (uint64)((uint64)value);};

template <typename Tint> void packedWrite(Tint value, int vectorIndex, uint64* pData) {

    uint64 v = ToMemdata(value);
    // This call eliminates a run time test for minus and a switch statement
    // Instead the compiler does it based on the template specialization

    uint64 aryix, itemofs;
    vectorArrayIndex(vectorIndex, &aryix, &itemofs); // get the memory index and the byte offset
    uint64 mask = vectorItemMask(itemofs); // get the mask for the particular byte
    uint64 aryData = pData[aryix]; // get the word in memory
    aryData &= mask; // mask it
    uint64 lShift = (uint64)(itemofs * sizeof(Tint) * 8); 
    uint64 d = v << lShift; // shift the value into the byte position
    aryData |= d; // put the value into memory
    pData[aryix] = aryData;

Using this concept I was able to make other improvements to the code. For example, the call to vectorItemMask() is now templateized also.

share|improve this answer

To cast without changing bits, take a reference and then dereference with appropriate type:

int v1 = -2; // 0xfe
unsigned long v2=*(unsigned long *)&v1;

This assumes the sizes are the same. It has undefined behavior if sizeof(int) != sizeof(unsigned long). You probably want unsigned int.

Edit: realized i answered wrong question.

Boost type_traits has something (i believe it is make_unsigned) to convert an int type to the unsigned version (if it is signed) and do nothing if it is unsigned.

share|improve this answer
Casting int* to unsigned long* and dereferencing is undefined behaviour if I remember correctly. –  Kerrek SB Aug 5 '11 at 23:29
With some compilers, int and unsigned long have the same size, which means there's no undefined behavior. This is perfectly analogous to a union. –  Foo Bah Aug 6 '11 at 2:15
@Foo - Except that it breaks strict aliasing rules. Accessing one type through a pointer to another type is UB. –  Bo Persson Aug 6 '11 at 7:04
@Bo is *reinterpret_cast<unsigned long *>&v1 UB? –  Foo Bah Aug 6 '11 at 14:34
@Foo - The reinterpret_cast would have to be implementation defined. Otherwise we don't know what it does. The standard leaves casting between different pointer types up to the implementation. –  Bo Persson Aug 6 '11 at 14:45

I believe that you could use a bitwise-AND to get the desired result.

unsigned long v2 = 0;
v2 = v2 | v1;
share|improve this answer
Shouldn't that be bitwise or? That's always going to yield 0. –  Alex Aug 5 '11 at 23:28
And you would still get a promotion to a common type before doing the op. –  Bo Persson Aug 6 '11 at 7:06

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