Gambling with an Alien

Question

You met a 4-th dimensional being who challenged you to a game of dice. The rules are simple: each player rolls 3 6-sided dice and takes the sum of each combination of 2 dice. The player with the highest sum wins. If the first-highest sum is a tie, consider the second-highest sum, and so on.

Your opponent's dice look normal, but you think they might have more than 6 sides! Your goal is to find out if the alien rolled a number higher than 6.

Your input is a set of 3 integers, separated by at least one character (space or otherwise). Input must not be hard coded.

// All valid inputs
6 7 9
6, 7, 9
(6, 7, 9)

Your output is a string representing if the alien cheated. Any output is allowed, as long as two distinct values exist for cheating/valid. Appended whitespace is permitted.

"😀" // (U+1F600) Valid set of dice
"😠" // (U+1F620) Invalid set of dice

Examples:

<-: 8 11 9
->: 😀       // Dice can be found to be 3, 5, and 6, which are all on 6-side die

<-: 9 11 6
->: 😠       // Dice can be found to be 2, 7, and 4, which means the alien cheated!

Assumptions:

• Input will be 3 integers, 2-12
• Input numbers can be in any order
• Die values will be positive integers
• Alien only cheated if they rolled greater than 6

Write a program or function that takes inputs, returns or prints outputs.

Fewest bytes wins!

Answer 1

Husk, 8 bytes

¬>6-▼¹½Σ

Try it online!

Outputs 1 for normal dice, 0 if the alien cheated.

Checks whether half (½) of the sum (Σ) minus (-) the smallest (▼) element is not (¬) greater than 6 (>6).

Answer 2

R, 28 bytes

function(x)sum(x/2)-min(x)>6

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Same approach as my Husk answer.

Answer 3

Haskell, 20 bytes

f l=any(<sum l/2-6)l

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Inspired by @DominicVanEssen R answer.
Tells if it's a cheater (the alien.. not Dominic).

Answer 4

JavaScript (Node.js), 36 bytes

f=(a,b,c)=>a>b|a>c?f(b,c,a):b+c-a<13

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Like the hypot one

Answer 5

JavaScript (ES6), 35 bytes

Expects ([a,b,c]). Returns true for cheating or false for valid.

A=>A.some(x=>eval(A.join`+`)/2>x+6)

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Answer 6

C (gcc) (-O0), 73 bytes

#define g(a,b) if(a>b)a^=b^=a^=b;
f(a,b,c){g(a,b)g(b,c)g(a,b)a=b+c-a<13;}

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Not the prettiest solution

C (gcc) (-O0), 38 bytes, shamelessly copy this beautiful answer.

f(a,b,c){a=a>b|a>c?f(b,c,a):b+c-a<13;}

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-2 bytes thanks to AZTECCO

Answer 7

05AB1E, 7 6 bytes

O;αà6›

Inspired by @DominicVanEssen's R answer.
Takes a list [a,b,c] as input, and outputs 1/0 for cheating/valid respectively.

Try it online or verify all test cases.

Explanation:

O       # Sum the three values in the (implicit) input-list
        #  e.g. [8,11,9] → 28
        #  e.g. [9,11,6] → 26
 ;      # Halve it
        #  → 14
        #  → 13
  α     # Take the absolute difference of this sum with each value in the
        # (implicit) input-list
        #  → [6,3,5]
        #  → [4,2,7]
   à    # Pop and push its maximum
        #  → 6
        #  → 7
    6›  # Check if this is larger than 6
        #  → 0
        #  → 1
        # (after which this is output implicitly as result)

Answer 8

MATL, 10 bytes

2/sGX<-IE>

Try it out / Test three cases

Port of @Dominic van Essen's answers. 1 = You cheating alien! 0 = Never had a moment of doubt.

4-sGX<E-F> Try it online! is another 10 byter.

MATL, 11 bytes

.5IXy-iY*7<

Try it out / Test three cases

Outputs truthy (all 1s) for no cheating, falsy (some 0s) for cheating.

For given input [a, b, c], the system of linear equations is : \$ d_2 + d_3 = a \$ , \$ d_1 + d_3 = b \$ , \$ d_1 + d_2 = c \$

Or in matrix form: \$ \begin{bmatrix} 0 & 1 & 1 \\ 1 & 0 & 1 \\ 1 & 1 & 0 \end{bmatrix}\begin{bmatrix} d_1 \\ d_2 \\ d_3 \end{bmatrix} = \begin{bmatrix} a \\ b \\ c \end{bmatrix} \$

The solution - the set of dice values - is the inverse of the matrix on the left, multiplied by the input. This inverse is equal to \$ 0.5 - I_3 \$ (where \$I_3\$ is the 3x3 identity matrix).

.5IXy- computes this inverse, iY* multiplies that by the input, 7< checks if all of the resulting dice values are less than 7 (and hence valid).

Answer 9

Retina 0.8.2, 34 bytes

\d+
$*
O`1+
^
12$*
(1+)(1+),\1,\2$

Try it online! Link includes test cases. Outputs 1 for normal dice, 0 if the alien cheated. Explanation:

\d+
$*

Convert to unary.

O`1+

Sort into order.

^
12$*

Add 12 to the smallest value.

(1+)(1+),\1,\2$

The sum should then equal or exceed the sum of the other two values.

Answer 10

Vyxal, 7 bytes

∑½?g-6≤

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Port of @Dominic van Essen's Husk answer. 1 if the dice are normal, 0 if the alien used tesseracts for its dice.

∑½?g-6≤ # Takes list as input
∑       # Sum of the list
 ½      # Halved..
    -   # Minus...
  ?g    # Smallest element of the input
     6≤ # Is less than or equal to 6?

Answer 11

J, ²⁰ 11 bytes

12<+/-2*<./

-9 bytes thanks @Bubbler

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Answer 12

R, 28 bytes

function(x)any(sum(x)/2>6+x)

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Alternate and equally-golfy solution porting this python answer -- the naive port would be something like sum(x)-2*x>12 which is a byte longer.

Answer 13

Julia 1.0, 23 bytes

x->sum(x/2)-min(x...)>6

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Port of @Dominic van Essen's answers. Output is the answer to the question "Did the alien cheat?"

Julia 1.2 or above, with using LinearAlgebra, 23 bytes

x->any((.5 .-I(3))x.>6)

(doesn't work on TIO since it only has Julia 1.0)

18 bytes without the any call, if output can be all 0s for no cheating, at least one 1 for cheating alien.

Find the dice values by solving the system of linear equations via matrices, and check if any are greater than 6. (More explanation in my MATL answer).

Answer 14

Python 3, 27 26 bytes

Code

lambda v:sum(v)/2-min(v)>6

Outputs True for cheated and False for valid.

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Explanation

Let \$a\$, \$b\$ and \$c\$ be the three dice rolls, where \$a\$ is the highest roll. Therefore, if \$a > 6\$, the alien cheated, and otherwise they did not.

The sum of the numbers is \$2a + 2b + 2c\$. The minimum of the numbers is \$b + c\$. Therefore, sum(v)/2-min(v) is \$(2a + 2b + 2c)/2 - (b + c)\$ which is \$a\$. If this is greater than \$6\$, the alien cheated.

Answer 15

Python 3.8 (pre-release),38 28 27 bytes

Latest Answer

lambda *a:sum(a)/2-min(a)>6

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Old Answer

lambda x,y,z:max(x-y+z,x+y-z,y+z-x)>12

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Output : Gives True when cheated and False when not.

Thank you Aetol for the suggestion of using a+b+c-2*min(a,b,c)>12 instead of max(x-y+z,x+y-z,y+z-x)>12

This R answer gave the nice sum(a)/2-min(a)>6 Idea

Answer 16

Pyth, ^{22 18} 11 bytes

L>-/sb2hSb6

Port of @Lecdi's Python 3 solution.

L>-/sb2hSb6
L             # lambda b:
    sb        # sum(b)
   /  2       # sum(b) / 2
       hSb    # min(b)
  -           # sum(b)/2 - min(b)
 >        6   # sum(b)/2 - min(b) > 6
 

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Answer 17

Charcoal, 8 bytes

›Σθ⊗⁺⁶⌊θ

Try it online! Link is to verbose version of code. Takes input as an array and outputs - if the alien cheated, nothing if it didn't. Explanation: Inspired by @DominicvanEssen's answers.

  θ         Input array
 Σ          Summed
›           Is greater than
       θ    Input array
      ⌊     Minimum
    ⁺       Plus
     ⁶      Literal integer `6`
   ⊗        Doubled
            Implicitly print

Answer 18

Ruby, 21 bytes

->*s{s.sum/2-s.min<7}

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Answer 19

Etch, 47 bytes

s=:get;:split" ";:intify;;:out:sum s;/2-:min s;>6;

A straightforward point of this Husk answer.

Answer 20

BQN, 9 bytes

¯12>-˜´∘∨

Try it at BQN online REPL

Outputs 0 if the dice are 6-sided, 1 if the alien is cheating.

We calculate the highest die roll using a single fold (or reduce in some languages) of a "minus" operation across the 3 sums-of-2-rolls in increasing order.
Consider initial die rolls of s, m and l, where l is the (possibly non-unique) largest, and s is the smallest. Then, the sums-of-2-rolls, in increasing order, are: s+m, s+l, m+l.
Folding "minus" across this yields (s+m minus s+l) minus m+l = m-l - (m+l) = -2l. So we just need to check whether the result is less than minus 12: if it is, then l was greater than 6 and the alien was cheating.

         ∨   # sort the input
        ∘    # and use that to
     -˜´     # fold 'subtracted from' from the right
¯12>         # and check whether it's less than minus 12

This comes out 1 byte shorter than the "subtract the lowest value from half the sum of the input" approach (12<+´-2×⌊´ = 10 bytes in BQN: try it)

Answer 21

Scala, 35 bytes

Try it online!

def f(x:Seq[Int])=x.sum/2.0-x.min>6