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It really depends on what kind of operations you do in your code (especially in each block and in the part where you "merge" them). Most times, sqrt should work. In this case, don't be fooled by the "magic number" 700. You can see that the solution passed with 4992 ms, which is almost TLE. It just happens sometimes. That means maybe you should optimize time complexity or a major part in your code that might cause slowness (maybe delete asserts? use pairs of pairs instead of tuples? are you doing Mo's algorithm in an actual correct way? is sorting correct?).
Use C++17 with a 64-bit compiler.
Your submission is already pretty close to the time limit, so I wouldn't be surprised if normal run-to-run variation is what caused the TLE.
You can try resubmitting it with the 64-bit compiler, it makes stuff run a lot faster in general. Here's your TLE code getting accepted on the 64-bit compiler: #11415445
As an aside, compilers can optimize integer division by a constant value away into shifts and additions. This speeds up division by a lot, so IMHO best practice for square root decomposition problems is to pick a block size and declare it as a constant integer, unless using a fixed block size is not possible for some specific reason.
EDIT: typos and wording
One of the main reasons to fix the block size is that division by constants are well optimized by compilers. In this case I picked N = 450. https://godbolt.org/z/eEfjYPnze You can check the assembly here. In the
div
function, it gets optimized to a few additions, shifts and subtractions. But in thediv1
function where its not constant its plain old division. In Mo's for the sorting order, you divide by block size which isn't constant. So in general make the block size a constant value.By pre-define such constant block size, it will be optimized in multiplying, dividing, mod-ing, ,,,