What is a good clean way to convert a std::vector<int> intVec to std::vector<double> doubleVec. Or, more generally, to convert two vectors of convertible types?

3 Answers 3


Use std::vector's range constructor:

std::vector<int> intVec;
std::vector<double> doubleVec(intVec.begin(), intVec.end());
  • 1
    So, you could also use the std::copy(...) function then? Could you add that to the answer? Jun 18, 2011 at 22:16
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    @Lex: copy(v_int.begin(), v_int.end(), back_inserter(v_float));, or v_float.resize(v_int.size()); copy(v_int.begin(), v_int.end(), v_float.begin());
    – Jon Purdy
    Jun 18, 2011 at 22:31
  • 2
    bad idea, because the constructor version will presize the vector by using the iterator category to note that those are random access iterators and then reserving enough space. Resizing prior to copy is a wasteful zero initialization. Jun 18, 2011 at 22:57
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    @MichaelGoldshteyn I don't understand - if you don't specify the size beforehand, then it will be resized automatically whenever the capacity is exceeded (which copies all the elements over and over again). Okay, this is amortized linear time, but I bet that's still a lot slower than a single 0-initialization. Am I missing something about your argument?
    – Algoman
    May 11, 2018 at 9:42
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    @Algoman see std::distance() "If it is a random-access iterator, the function uses operator- to calculate this. Otherwise, the function uses the increase operator (operator++) repeatedly." So in this case the amount of elements could be found by subtracting the iterators. Whether the standard library is implemented to use std::distance for an initial reserve() is another question, but godbolt.org/z/6mcUFh at least contains a call to std::distance(). May 3, 2019 at 12:33

Use std::transform algorithm:

std::transform(intVec.begin(), intVec.end(), doubleVec.begin(), [](int x) { return (double)x;});
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    good solution but I believe it is safer to use static_cast<double>() over (double) as it would check if casting is possible in compile time Mar 9, 2023 at 10:48
  • Are there any differences between this answer and the accepted answer in terms of performance or memory usage? Dec 17, 2023 at 2:45
  • @OrHirshfeld: Better yet is no cast at all: [](int x) -> double { return x; }
    – Ben Voigt
    Dec 21, 2023 at 16:28
  • @BenVoigt I would say, this solution is the worst, because the cast is hidden.
    – tommsch
    Feb 2 at 21:06
  • @tommsch: It's not a hidden cast. It will not do any of the dangerous things that a cast can do. It is just an implicit type conversion.
    – Ben Voigt
    Feb 2 at 21:16

Since c++20, u have std::span, which is simply composed of a pointer and size, and can be used to look at a contiguous block of memory without making a copy, but with all the conveniences of a stl containers (methods, iterator, etc).

std::vector<int> int_vec = { 1, 2, 3, 4 };

constexpr size_t DOUBLE_INT_SIZE_RATIO = sizeof(double) / sizeof(int);
std::span<double> dbl_span(
    int_vec.size() / DOUBLE_INT_SIZE_RATIO 

for (const double dbl : dbl_span) {

NOTE: A span does not take ownership of the memory it points to, so if the vector is destroyed or moved from, or if the internal buffer is reallocated, your span will point to invalid memory.

  • 1
    This is just a (wrong, violates strict aliasing) view of the same memory, without performing the conversion. Question does mention conversion even if not directly.
    – Ben Voigt
    Dec 20, 2023 at 19:40
  • Doesn’t this simply reinterpret the original vector’s bits instead of converting them from integer to double format? If so, then the values read out of dbl_span would probably not be what the questioner wanted. Dec 20, 2023 at 19:41
  • @BenVoigt My bad, I misunderstood the question. If conversion is necessary then obviously this would not work. The use case for me was with audio processing, when dealing w/ 16bit audio for example. I received a vector<uint8> from a file/network and wanted to look at it as a sequence of 16bit samples. I didn't know about the strict aliasing rule. How would u tackle the problem I described?
    – OmerMarom
    Dec 21, 2023 at 7:59
  • @OmerMarom: This is one of the reasons I/O APIs use caller-supplied buffers, instead of allocating and returning std::vector<std::byte>. Pass uint16_t * in, and strict aliasing allows the I/O library to use std::byte when writing to it and the program to process 16-bit samples.
    – Ben Voigt
    Dec 21, 2023 at 16:27
  • @BenVoigt Don't mean to take up more of ur time but one last question: What if I'm receiving data over udp and each packet is composed of a header and audio. It makes sense to read the header as a sequence of bytes and the audio as a sequence of 16bit samples. Seeing as udp is message oriented, I can't grab parts of the packet w different buffer types as the packet is discarded at the first recv. Thoughts?
    – OmerMarom
    Dec 22, 2023 at 9:47

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