Merge branch 'others/dodge-the-lasers' into 'main'

finish level5/dodge-the-lasers See merge request seongbeom_park/google_foobar_challenge!7
2022-03-07 13:02:00 +00:00 · 2022-03-07 13:02:00 +00:00 · faba72742a
commit faba72742a
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--- a/README.md
+++ b/README.md
@ -28,5 +28,12 @@
 * Completed in: 6 hrs, 49 mins, 26 secs.
 * DP & Optimization
 ### dodge-the-laser
 * Completed in: 2 days, 20 hrs, 22 mins, 39 secs.
 * Reference
  * [Beatty sequence](https://en.wikipedia.org/wiki/Beatty_sequence)
  * How to find A001951 A Beatty sequence: a(n)=floor(n\*sqrt(2)), stackexchange, https://math.stackexchange.com/questions/2052179/how-to-find-sum-i-1n-left-lfloor-i-sqrt2-right-rfloor-a001951-a-beatty-s
 ## Encrypted message
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--- a/level5/dodge-the-lasers/constraints.txt
+++ b/level5/dodge-the-lasers/constraints.txt
@ -0,0 +1,21 @@
 Java
 ====
 Your code will be compiled using standard Java 8. All tests will be run by calling the solution() method inside the Solution class
 Execution time is limited.
 Wildcard imports and some specific classes are restricted (e.g. java.lang.ClassLoader). You will receive an error when you verify your solution if you have used a blacklisted class.
 Third-party libraries, input/output operations, spawning threads or processes and changes to the execution environment are not allowed.
 Your solution must be under 32000 characters in length including new lines and and other non-printing characters.
 Python
 ======
 Your code will run inside a Python 2.7.13 sandbox. All tests will be run by calling the solution() function.
 Standard libraries are supported except for bz2, crypt, fcntl, mmap, pwd, pyexpat, select, signal, termios, thread, time, unicodedata, zipimport, zlib.
 Input/output operations are not allowed.
 Your solution must be under 32000 characters in length including new lines and and other non-printing characters.
--- a/level5/dodge-the-lasers/readme.txt
+++ b/level5/dodge-the-lasers/readme.txt
@ -0,0 +1,68 @@
 Dodge the Lasers!
 =================
 Oh no! You've managed to escape Commander Lambda's collapsing space station in an escape pod with the rescued bunny workers - but Commander Lambda isnt about to let you get away that easily. Lambda sent an elite fighter pilot squadron after you -- and they've opened fire!
 Fortunately, you know something important about the ships trying to shoot you down. Back when you were still Lambda's assistant, the Commander asked you to help program the aiming mechanisms for the starfighters. They undergo rigorous testing procedures, but you were still able to slip in a subtle bug. The software works as a time step simulation: if it is tracking a target that is accelerating away at 45 degrees, the software will consider the targets acceleration to be equal to the square root of 2, adding the calculated result to the targets end velocity at each timestep. However, thanks to your bug, instead of storing the result with proper precision, it will be truncated to an integer before adding the new velocity to your current position.  This means that instead of having your correct position, the targeting software will erringly report your position as sum(i=1..n, floor(i*sqrt(2))) - not far enough off to fail Commander Lambdas testing, but enough that it might just save your life.
 If you can quickly calculate the target of the starfighters' laser beams to know how far off they'll be, you can trick them into shooting an asteroid, releasing dust, and concealing the rest of your escape.  Write a function solution(str_n) which, given the string representation of an integer n, returns the sum of (floor(1*sqrt(2)) + floor(2*sqrt(2)) + ... + floor(n*sqrt(2))) as a string. That is, for every number i in the range 1 to n, it adds up all of the integer portions of i*sqrt(2).
 For example, if str_n was "5", the solution would be calculated as
 floor(1*sqrt(2)) +
 floor(2*sqrt(2)) +
 floor(3*sqrt(2)) +
 floor(4*sqrt(2)) +
 floor(5*sqrt(2))
 = 1+2+4+5+7 = 19
 so the function would return "19".
 str_n will be a positive integer between 1 and 10^100, inclusive. Since n can be very large (up to 101 digits!), using just sqrt(2) and a loop won't work. Sometimes, it's easier to take a step back and concentrate not on what you have in front of you, but on what you don't.
 Fortunately, you know something important about the ships trying to shoot you down. Back when you were still Commander Lambdas assistant, she asked you to help program the aiming mechanisms for the starfighters. They undergo rigorous testing procedures, but you were still able to slip in a subtle bug. The software works as a time step simulation: if it is tracking a target that is accelerating away at 45 degrees, the software will consider the targets acceleration to be equal to the square root of 2, adding the calculated result to the targets end velocity at each timestep. However, thanks to your bug, instead of storing the result with proper precision, it will be truncated to an integer before adding the new velocity to your current position.  This means that instead of having your correct position, the targeting software will erringly report your position as sum(i=1..n, floor(i*sqrt(2))) - not far enough off to fail Commander Lambdas testing, but enough that it might just save your life.
 If you can quickly calculate the target of the starfighters' laser beams to know how far off they'll be, you can trick them into shooting an asteroid, releasing dust, and concealing the rest of your escape.  Write a function solution(str_n) which, given the string representation of an integer n, returns the sum of (floor(1*sqrt(2)) + floor(2*sqrt(2)) + ... + floor(n*sqrt(2))) as a string. That is, for every number i in the range 1 to n, it adds up all of the integer portions of i*sqrt(2).
 For example, if str_n was "5", the solution would be calculated as
 floor(1*sqrt(2)) +
 floor(2*sqrt(2)) +
 floor(3*sqrt(2)) +
 floor(4*sqrt(2)) +
 floor(5*sqrt(2))
 = 1+2+4+5+7 = 19
 so the function would return "19".
 str_n will be a positive integer between 1 and 10^100, inclusive. Since n can be very large (up to 101 digits!), using just sqrt(2) and a loop won't work. Sometimes, it's easier to take a step back and concentrate not on what you have in front of you, but on what you don't.
 Languages
 =========
 To provide a Java solution, edit Solution.java
 To provide a Python solution, edit solution.py
 Test cases
 ==========
 Your code should pass the following test cases.
 Note that it may also be run against hidden test cases not shown here.
 -- Java cases --
 Input:
 Solution.solution('77')
 Output:
    4208
 Input:
 Solution.solution('5')
 Output:
    19
 -- Python cases --
 Input:
 solution.solution('77')
 Output:
    4208
 Input:
 solution.solution('5')
 Output:
    19
 Use verify [file] to test your solution and see how it does. When you are finished editing your code, use submit [file] to submit your answer. If your solution passes the test cases, it will be removed from your home folder.
--- a/level5/dodge-the-lasers/solution.py
+++ b/level5/dodge-the-lasers/solution.py
@ -0,0 +1,41 @@
 import math
 from decimal import *
 def solution(s):
    getcontext().prec = len(s)+1
    return str(beatty_sum_sqrt2(int(s)))
 def beatty_sum_sqrt2(n):
    if n == 0:
        return 0
    if n == 1:
        return 1
    floor_r_n = int(Decimal(2*(n**2)).sqrt())
    return natural_number_sum(floor_r_n) - 2 * natural_number_sum(floor_r_n - n) - beatty_sum_sqrt2(floor_r_n - n)
 def natural_number_sum(n):
    return n*(n+1)/2
 def ten(n):
    return str(10**n)
 tests = [
        ['77', '4208'],
        ['1', '1'],
        ['2', '3'],
        ['3', '7'],
        ['4', '12'],
        ['5', '19'],
        ['6', '27'],
        ['7', '36'],
        ['8', '47'],
        ['9', '59'],
        ['10', '73'],
        [ten(100), '70710678118654752440084436210484903928483593768847403658833986899536623923105351942519376716382078638821760123411090095254685423841027253480565451739737157454059823250037671948325191776995310741236436']
        ]
 for test in tests:
    result = solution(test[0])
    print(test[0], result == test[1], result, test[1])