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UOFTBC - Homemade Asteroids |
Pew pew pew!
Everyone loves Asteroids, the classic arcade game involving senselessly blasting asteroids into submission with a spaceship. In fact, you love it so much that you built your very own version to play at home! Unfortunately, it sucks.
Your version of the game is played on a 2D plane, containing your ship (a dot at coordinates ($X_S$, $Y_S$)) and $N$ ($1 \leq N \leq 1000$) stationary, triangular, positive-area asteroids. The $i$th asteroid has vertices at coordinates ($X_{Ai}$, $Y_{Ai}$), ($X_{Bi}$, $Y_{Bi}$), and ($X_{Ci}$, $Y_{Ci}$). All coordinates in the input are integers with absolute values no greater than $10^9$, and no two objects occupy any of the same space (even on their edges or vertices).
Your game only permits you to fire a single missile, which travels in a straight line, destroying every asteroid that it comes in contact with (even on its edges or vertices). However, it doesn't exactly move very smoothly - instead, it starts at your ship at frame 0, and after every frame, its x-coordinate increases by $X_D$, and its y-coordinate by $Y_D$. These variables also have absolute values no greater than $10^9$, and at least one of them is guaranteed to be non-zero. After frame $F$ ($1 \leq F \leq 1000$), the missile simply disappears.
There are $T$ ($1 \leq T \leq 20$) scenarios as described above. For each, you'd like to predict how many different asteroids your missile will be able to take out before frame $F+1$.
Input
First line: 1 integer, $T$
For each scenario:
First line: 2 integers, $N$ and $F$
Second line: 4 integers, $X_S$, $Y_S$, $X_D$, and $Y_D$
Next $N$ lines: 6 integers, $X_{Ai}$, $Y_{Ai}$, $X_{Bi}$, $Y_{Bi}$, $X_{Ci}$, and $Y_{Ci}$, for $i = 1..N$
Output
For each scenario:
1 integer, the number of asteroids that will be destroyed by the missile
Example
Input: 1
4 4
4 17 4 -2
5 16 15 18 12 9
16 13 13 11 14 10
20 9 20 7 18 7
22 5 23 11 27 6 Output: 2
Explanation of Sample
The following grid shows the layout of the game, with your ship marked with an "S", and the missile's location at each frame marked with that frame's number:
As can be seen, the missile destroys the first asteroid during frame 1, and then the third asteroid during frame 4. It does not destroy the second asteroid, even though its line of fire goes through it, as it does not intersect the asteroid during any of the frames. It also doesn't destroy the last asteroid, as it stops travelling after frame 4.
Added by: | SourSpinach |
Date: | 2013-05-17 |
Time limit: | 4s |
Source limit: | 50000B |
Memory limit: | 1536MB |
Cluster: | Cube (Intel G860) |
Languages: | All except: ASM64 |
Resource: | Own problem, used in the 2012 UofT ACM Tryouts |
hide comments
2015-12-20 12:38:27 Ashwani Gautam
anyone who can give AC solution in python or PyPy? |
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2015-03-28 13:10:05 :D
Very nice problem, thanks. It could actually use a hard version, for example 1 <= N,F <= 10^5. |
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2014-02-10 16:55:33 Flago
My PHP got TLE while same algorithm C++ run in 0.23s |
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2013-06-19 14:36:51 Romal Thoppilan
Could ease the time limits a bit, if you're expecting an O(N*F) soln RE: It should be fine, even Java solutions can pass. You can use scanf instead of cin. Last edit: 2013-06-26 02:38:20 |
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2013-06-07 01:51:33 Chandan Mittal
finally AC :) Last edit: 2013-06-21 08:27:07 |
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2013-06-04 08:28:44 Zeeshan Ahmad
Getting a WA :( more test cases plzz |
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2013-06-04 07:13:27 shadoww
Wrong limits gave me 2WA's. RE: The limits are correct, but the problem statement's been very slightly updated to make something more clear. Last edit: 2013-06-04 02:38:38 |
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2013-06-04 07:13:27 Pranay
any tricky test cases? can't get why WA RE: Most of your outputs are incorrect. Last edit: 2013-05-23 18:43:33 |