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I have a const vector<uint8_t>>, and I need to pass it to a function that takes a const unsigned char*. The two types are the same size, etc., so I'm guessing that there is an good way to coerce the types here. What's the idiomatic way of handling this type of problem?

My first instinct is to use reinterpret_cast, but after the cast the data isn't the same. Here is my code:

shared_ptr<const vector<uint8_t>> data = operation.getData();
const unsigned char* data2 = reinterpret_cast<const unsigned char*>(&data);
myFunction(data2, data->size());

Chances are I've confused a pointer for a value here, but maybe my entire approach is incorrect.

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Or rather: data->data() –  Benjamin Lindley Aug 28 '13 at 22:38
vector::data() returns a pointer to the actual data within the vector. –  Mats Petersson Aug 28 '13 at 22:38
@BenjaminLindley, Why? Why? I must be going crazy. How on earth did operator-> not come to mind? –  chris Aug 28 '13 at 22:43

2 Answers 2

up vote 4 down vote accepted

reinterpret_cast is almost never the right solution, unless you know exactly what you’re doing, and even then usually not.

In your case, you just want a pointer to the contiguous data storage inside the vector (but not the vector itself, as you’ve noticed! That stores other data as well, such as the size & capacity). That’s easy enough, it’s the pointer of the first element of the data:


So your code would look as follows:

myFunction(&(*data)[0], data->size());
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Thank you for the clear explanation. The note about reinterpret_cast is also memorable; I will keep it far from me until I've figured out the rest of the tools that I've been cutting my hands on :) –  Justin R. Aug 28 '13 at 22:44
It is also possible to use, and sometimes more readable, to use std::vector::front(). en.cppreference.com/w/cpp/container/vector/front –  Zyx 2000 Aug 28 '13 at 23:04

Just use vector<unsigned char> to begin with. On all platforms, unsigned char will have at least 8 bits. On platforms that have an 8-bit unsigned integral type, uint8_t will be a synonym for unsigned char; on platforms that do not have an 8-bit unsigned integral type, uint8_t will not exist, but unsigned char will.

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Could you provide a reference for "uint8_t will be a synonym for unsigned char"? Couldn't it also be a typedef for char or even for an extended unsigned integer type? –  dyp Aug 28 '13 at 23:51
@DyP - you're right, uint8_t could be a synonym for char with a compiler that makes char unsigned. Unless your code requires an exact 8 bit type, don't use uint8_t. That's a rather rare requirement. –  Pete Becker Aug 29 '13 at 8:58

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