I was solving this segment tree problem . I cannot understand what am I missing here? My solution in Ideone
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I was solving this segment tree problem . I cannot understand what am I missing here? My solution in Ideone
Hello folks, being a beginner I have no idea how 2D segment tree works, complexity etc. Can anyone provide me tutorials, video lecture or anything about its working and implementation? Thanks
UPD: If you cannot help, please stay away from this post and please do not downvote. Because each time you downvote it, this post becomes less valuable and I and many other beginners may not get a chance to learn. And anyone who is polite enough to help, your welcome.
I am solving problem Electrification Pan in TimusOJ. My approach was to calculate shortest path between any pair using Floyd warshall algo and then calculate min cost from each vertex to the vertices with power station and add them . But unfortunately it gives WA. My Solution in Ideone. Please point out my mistake :) Thanks UPD: Still I cannot solve this problem( 19/08/2015 )
I was solving problem Chef and Sets in Codechef, but i could not solve it fully. I looked the editorial and found out that it was solvable through Treaps, a data structure i never heard of. I just wanted to ask what are the advanced data structures am i missing? It will be great help if anyone of you would list the important ds for the competitive contests. Here are some ds , i am aware of : 1.Array 2.List 3.Stack 4.Queue 5.Binary Tree 6.BST 7.Heap 8.Hash 9.Segment Tree( 1D only ) 10.Graphs
P.S It will be helpful if you could list the missing ds with their tutorial links or study material. P.S Positive responses are appreciated.
I was solving problem Metro in TimusOJ using DP but it get TLE verdict.How do i optimize my solution. My Solution in Ideone . Thanks Sorry for wrong link. UPD: Accepted, Thank you codeforces community :)
I had submitted the solution to problem 535B - Tavas and SaDDas . My submission 11633964 . I get the correct output on my PC but different on Codeforces. I cannot figure out the problem with my code? Is my code buggy? Thanks.
UPD: Accepted 11665314 Thank You
I was having trouble understanding Bitmask, then I found an unknown pdf about Bitmask on google. I would like to help the beginners like me in understanding Bitmasks and their uses. Here we go :
#### MOTIVATION
Suppose you have a set of objects and you want some way to represent which objects to pick and which ones not to
pick. How do you represent that in in a program? More generally, how do you represent a subest of a set?One way is to use a Map to associate with each object a boolean value indicating whether the object is picked. Alternatively,if the object can be indexed ``by integers, you can use a boolean array. However, this takes up a lot of memory and can be slow due to the overhead of Map and array. If the size of the set is not too large, a bitmask is much more efficient (and convenient)!
#### WHAT IS BITMASKS ?
Bitmasks a.k.a. lightweight, small sets of Booleans (native support in C/C++/Java). An integer is stored in a computer’s memory as a sequence/string of bits. Thus, we can use integers to represent a lightweight small set of Boolean values. All set operations then involve only the bitwise manipulation of the corresponding integer, which makes it a much more efficient choice when compared with the C++ STL vector, bitset, or set options. Such speed is important in competitive programming.
We know an integer is just a bunch of bits stringed together. The 1st bit will represent whether the 1st object is picked, the 2nd bit will represent whether the 2nd object is picked or not, etc. For example, suppose in a set of 5 objects, we have picked the 1st , 3rd , and 4th object. The bitmask to represent this in binary is 01101 or 13 in decimal (in the notes, the 1 st bit will always be the least significant bit and will always appear at the very right).
#### MANIPULATING BITMASKS
1. REPRESENTATION: A 32 (or 64)-bit signed integer for up to 32 (or 64) items. ( To avoid issues with the two’s complement representation, use a 32-bit/64-bit signed integer to represent bitmasks of up to 30/62 items only, respectively ). For example: 5| 4 | 3 | 2 | 1 | 0 <- 0-based indexing from right 32| 16 | 8 | 4 | 2 | 1 <- power of 2 A= 34 (base 10) = 1 | 0 | 0 | 0 | 1 | 0 <- in binary F | E | D | C | B | A <- alternative alphabet label In the example above,the integer A = 34 or 100010 in binary also represents a small set {1, 5} with a 0-based indexing scheme in increasing digit significance ( or {B, F} using the alternative alphabet label )because the second and the sixth bits (counting from the right) of A are on ( 1 ). 2. To multiply/divide an integer by 2: We only need to shift the bits in the integer left/right, respectively. Notice that the truncation in the shift right operation automatically rounds the division-by-2 down, e.g. 17/2 = 8. For example: A = 34 (base 10) = 100010 (base 2) A = A << 1 = A * 2 = 68 (base 10) = 1000100 (base 2) A = A >> 2 = A / 4 = 17 (base 10) = 10001 (base 2) A = A >> 1 = A / 2 = 8 (base 10) = 1000 (base 2) <- LSB( Least Significant Bit )is gone 3. Add the jth object to the subset (set the jth bit from 0 to 1): use the bitwise OR operation A |= (1 << j). For example: A = 34 (base 10) = 100010 (base 2) j = 3, 1 << j = 001000 <- bit ‘1’ is shifted to the left 3 times -------- OR (true if either of the bits is true) A = 42 (base 10) = 101010 (base 2) // update A to this new value 42 4. Remove the jth object from the subset (set the jth bit from 1 to 0): use the bitwise AND operation A &= ∼(1 << j). For example: A = 42 (base 10) = 101010 (base 2) j = 1, ~(1 << j) = 111101 <- ‘~’ is the bitwise NOT operation -------- AND A = 40 (base 10) = 101000 (base 2) // update A to this new value 40 5. Check whether the jth object is in the subset (check whether jth bit is 1): use the bitwise AND operation T = A & (1 << j). If T = 0, then the j-th item of the set is off. If T != 0 (to be precise, T = (1 << j)), then the j-th item of the set is on. For example: A = 42 (base 10) = 101010 (base 2) j = 3, 1 << j = 001000 <- bit ‘1’ is shifted to the left 3 times -------- AND (only true if both bits are true) T = 8 (base 10) = 001000 (base 2) -> not zero, the 3rd item is on 6. To toggle (flip the status of) the j-th item of the set: use the bitwise XOR operation A ∧ = (1 << j). For example: A = 40 (base 10) = 101000 (base 2) j = 2, (1 << j) = 000100 <- bit ‘1’ is shifted to the left 2 times -------- XOR <- true if both bits are different A = 44 (base 10) = 101100 (base 2) // update A to this new value 44 7. To get the value of the least significant bit that is on (first from the right): use T = (A & (-A)). For example: A = 40 (base 10) = 000...000101000 (32 bits, base 2) -A = -40 (base 10) = 111...111011000 (two’s complement) ----------------- AND T = 8 (base 10) = 000...000001000 (3rd bit from right is on) 8. To turn on all bits in a set of size n: (be careful with overflows) use A = (1 << n) - 1 ; 9. Iterate through all subsets of a set of size n: `for ( x = 0; x < (1 << n); ++x )` 10. Iterate through all subsets of a subset y (not including empty set): `for ( x = y; x > 0; x = ( y & (x-1) ) )`
Example of a subset problem: given a set of numbers, we want to find the sum of all subsets.
Sol: This is easy to code using bitmasks. we can use an array to store all the results.
int sum_of_all_subset ( vector< int > s ){
int n = s.size() ;
int results[ ( 1 << n ) ] ; // ( 1 << n )= 2^n
//initialize results to 0
memset( results, 0, sizeof( results ) ) ;
// iterate through all subsets
for( int i = 0 ; i < ( 1 << n ) ; ++ i ) { // for each subset, O(2^n)
for ( int j = 0; j < n ; ++ j ) { // check membership, O(n)
if ( ( i & ( 1 << j ) ) ! = 0 ) // test if bit ‘j’ is turned on in subset ‘i’?
results[i] += s [j] ; // if yes, process ‘j’
}
}
}
11. LIMITATIONS: a. Always check the size of the set to determine whether to use an int or long long or not using bitmask at all b. Always use parenthesis to indicate the precedence of operations when doing bitwise operations! When it involves bitwise operators and not putting parenthesis can yield undesirable results! For example, let x = 5. Then x - 1 << 2 = 16, but x - (1 << 2) = 1
P.S 1. I apologize for bad formatting. 2. If you find something wrong/inappropriate please correct me. 3. Examples are copied from some text book 4. Can anyone please write a blog on Backtracking , i don't get flow of control in recursive calls in backtracking when a certain constraint fails on a configuration ( like in N queens problem ), how does program backtracks and how control flow takes place then and what happens after that ?
Thank You ;
Your text to link here... Problem with such large integer constraints always scare me during contests. How do i solve it. My solution gets integer overflow. P.S Positive responses are always appreciated. :)
I solved 380C - Sereja and Brackets using segment tree for logarithmic time complexity , but my my solution got TLE 11267626 for some test case . I want to ask if there is something wrong with my implementation or i have to use some other data structure ? P.S positive responses will be appreciated :)
UPD: Accepted: 11271890 :)
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