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I have a buffer ( e.g. char buffer[1024] ) which gets filled with some data. Now I want to search for a substring in this buffer. Since it should be a case insenstive search I am using boost::algorithm::ifind_first.

So I call the function like this:

boost::iterator_range<char*> buf_iterator;
buf_iterator = boost::algorithm::ifind_first(buffer ,"substring");

This actually works fine. But my concern is the following:

I pass the function just a char pointer, so ifind_first should have no idea where my buffer ends, but it still works tho.

Now my first idea was that the function searches until a string-termination character. But in the Boost Documentation the function is defined like this:

template<typename Range1T, typename Range2T> 
  iterator_range< typename range_iterator< Range1T >::type > 
  find_first(Range1T & Input, const Range2T & Search);

Since it works with template parameters I actually doubt that it is working with null termination?

So my question is how does ifind_first know where to stop? Or to be more precise, how can I give it a range? As already mentioned it works just fine with a char* but I'm not quite sure if I wasn't just lucky - I mean in the worst case the function is called and doesn't know where to stop and goes into undefined memory...


Now in an answer there was mentioned that it depends on the type I pass to the function. Now this would mean if I work with a char buffer I have to always make sure it`s 0-terminated...?

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If the docs state the method it's very well hidden! –  CapelliC Feb 20 '12 at 14:25
Please do not sign your posts. –  Lightness Races in Orbit Feb 20 '12 at 15:09

1 Answer 1

up vote 5 down vote accepted

It uses a technique where the length of an array is a template argument, ie:

template< typename T, size_t L >
void foo( T (&arr)[L] )

As a string literal has known length L can be deduced, such as foo( "test" ) being foo< char, 5 >(). I bet there's an overload for const char* where it's assumed that the argument is a c-string, where strlen() can be used to determine the length.

EDIT: Better explanation demonstration how ifind_first will fail, and why it won't if you're careful

What decides whether ifind_first will fail or not in this case is whether either subject or search degenerates into a char*. In this case you've passed a string literal as the search directly, ifind_first will try and guess will conclude that it's const char[ 10 ] ( length of "substring" + 1 for NULL terminator ). However, for the search it does not matter, because even if it degenerates to const char* ifind_first will guess that it's a NULL terminated c string, and a string literal is a NULL terminated c string an therefor works dandy.

In this case you're really asking for char buffer[1024], in your case it does not degenerate to char*. But if instead you would've had lets say char* buffer = new char[1024]; the type of buffer is char* and it's not guaranteed to be NULL terminated. In this case ifind_first will fail in mysterious ways depending on what's after the area you've filled.

So, to conclude, as the type of buffer is char[1024] in your case it will not touch memory past the end of buffer, BUT, it will also not care about whether there's a NULL terminator in there ( it doesn't look for it, as you've passed it a char[1024] it knows the length at compile time ). So if lets say you fill buffer with 12 characters followed by NULL it will still search the whole buffer.

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This doesn't explain why it seems to be working with a non-null terminated char buffer, where strlen() won't help. –  nabulke Feb 20 '12 at 14:52
So that means for example: If I have a buffer with 1024 Bytes I should initialize my buffer with char buffer[1025] = {0} so I make sure it is always null terminated ( even when I receive exactly 1024 bytes )... ? –  Toby Feb 20 '12 at 14:53
@nabulke: No, char buffer[1024] is fixed size, it's not char* ( although it can degenerate into char* if you're not careful ). Try buf_iterator = boost::algorithm::ifind_first((char*)buffer ,"substring"); –  Ylisar Feb 20 '12 at 16:35
+1: your answer seems informed. Did you analyzed the source or could you add a link to some relevant doc? I failed to find the info in boost docs (either string_algo or range). –  CapelliC Feb 20 '12 at 17:56
I took a look at the source, it uses boost::as_literal ( check boost/range/detail/as_literal.hpp ). It then goes to str_begin / str_end -> range_begin / range_end . range_begin is straightforward, but range_end goes through a couple of layers of indirection to finally end up at range/detail/implementation_help.hpp where the above mentioned technique kicks in at line 63 / 69. –  Ylisar Feb 20 '12 at 20:09

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