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2

If you allow yourself vectorization using the SSE (or better, AVX) instruction set, you can perform 4/8 comparisons in a go, do this twice, 'and' the results, and retrieve the 4 results (-1 or 0). At the same time, this unrolls the loop. // Preload the bounds __m128 lo= _mm_set_ps(lower); __m128 up= _mm_set_ps(upper); int srcIndex, dstIndex= 0; for ...


2

Eliminate the pair of output arrays. Instead only advance the 'number written' by 1 if you want to keep the result, otherwise just keep overwriting the 'one past the end' index. Ie, retval[destIndex]=curIndex; destIndex+= isInArray; -- better coherancy and less wasted memory. Write two versions: one that supports a fixed array length (of say 1024 or ...


2

I see about a 10% speedup from this: int destIndex = 0; // replace destIndices int isInInterval = (srcArr[srcInd] <= upper) == (srcArr[srcInd] >= lower); destArr[1][destIndex] = srcInd; destIndex += isInInterval;


2

Thinking of the integer range check optimization of turning a <= x && x < b into ((unsigned)(x-a)) < b-a, a floating point variant comes to mind: You could try something like const float radius = (b-a)/2; if( fabs( x-(a+radius) ) < radius ) ... to reduce the check to one conditional.


0

Using pointers seems reasonable. Here's a suggested API that you could implement: class WidgetDatabase { public: // Returns true if widget was inserted. // If there is a Widget in *this with the same name and/or id, // widget is not inserted. bool Insert(const std::string& name, int id, const Widget& widget); // Caller does NOT own ...


1

According to §30.4.1.2/2: The mutex types shall meet the Lockable requirements (30.2.5.3). §30.4.1.2/3, however, adds: The mutex types shall be DefaultConstructible and Destructible. If initialization of an object of a mutex type fails, an exception of type system_error shall be thrown. The mutex types shall not be copyable or movable. ...


0

Have you considered an in-memory SQLite database? SQL gives you many ways of accessing the same data. For example, your schema might look like this: CREATE TABLE Widgets { -- Different ways of referring to the same thing. name STRING, id INTEGER, -- Non-identifying characteristics. mass_kg FLOAT, length_m FLOAT, cost_cents INTEGER, hue ...


0

What you list looks okay to me, but a couple things to check... The second fgets call will return immediately if: the end of input is reached (e.g., stdin is coming from a file that has only one line). the first line of input (counting the linefeed) is longer than 999 characters.


1

When you modified the example to remove std::random_device, you changed: std::mt19937 gen(rd()); which declares a object of type std::mt19937 named gen to: std::mt19937 gen(); which is an instance of the dreaded "most vexing parse", so gen is a function declaration instead of a declaration of an mt19937 object. Change that line of code to: ...


0

I thought the answer is fairly simple, combine set with another iteratable structure (say, queue). If you like to iterate the set in the order that the element been inserted, push the elements in queue first, do your work on the front element, then pop out, put into set.


0

In C++03, you must write like this: std::pair< map<int, int>::iterator, bool > res = mymap.insert(std::make_pair(42, 1));


17

std::tie from the <tuple> header is what you want. std::tie(it, b) = mymap.insert(std::make_pair(42, 1)); "magic" :) Note: This is a C++11 feature.


4

Your push_back is invalidating the iterator you're using in the for loop, because the vector is reallocating its memory, which invalidates all iterators to elements of the vector. The idiomatic solution for this is to use an insert_iterator, like the one you get from calling std::back_insterter on the vector. Then you can do: #include <iostream> ...


10

A vector stores its elements in contiguous memory. If that memory block needs to be reallocated, iterators become invalid. If you need to modify the vector's size while iterating, iterate by index instead of iterator. Another option is to use a different container with a different iterator behavior, for example a list will allow you to continue iterating ...



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