x86-16 Assembly, 56 41 39 bytes

Binary:

00000000: b103 33ed ac8b fe51 f2ae 7503 45eb f983  ..3....Q..u.E...
00000010: fd03 7504 80c2 4d43 03dd 59e2 e592 7502  ..u...MC..Y...u.
00000020: 040a 3c64 7201 43                        ..<dr.C

Unassembled:

B1 03           MOV  CL, 3              ; set up loop counter for 3 digits
            DIGIT_LOOP: 
33 ED           XOR  BP, BP             ; clear digit matches counter in BP
AC              LODSB                   ; load next digit char into AL
8B FE           MOV  DI, SI             ; start searching at next char
51              PUSH CX                 ; save outer digit loop counter 
            MATCH_LOOP: 
F2/ AE          REPNZ SCASB             ; search until digit in AL is found 
75 03           JNZ  CHECK_FOUR         ; is end of search?
45              INC  BP                 ; if not, a match was found, increment count
EB F9           JMP  MATCH_LOOP         ; continue looping 
            CHECK_FOUR: 
83 FD 03        CMP  BP, 3              ; is four of a kind? 
75 04           JNE  SCORE_DIGIT        ; if not, add number of matches to 1UP's
80 C2 4D        ADD  DL, 77             ; add 77 to coin count 
43              INC  BX                 ; +1 1UP extra for four-of-a-kind
            SCORE_DIGIT:
03 DD           ADD  BX, BP             ; Add number of matches to total, set ZF if 0
59              POP  CX                 ; restore outer digit loop position
E2 E5           LOOP DIGIT_LOOP         ; keep looping
92              XCHG DX, AX             ; coin count to AX for shorter compare
75 02           JNZ  FINAL_SCORE        ; if 1UPs > 0, no consolation prize
04 0A           ADD  AL, 10             ; award 10 coins
            FINAL_SCORE:
3C 64           CMP  AL, 100            ; is coin score over 100?
72 01           JB   DONE               ; if not, no extra 1UP
43              INC  BX                 ; otherwise, increment 1UP
            DONE:

Input starting coin count in DX, SI pointing to start of "icon" bytes (which can be '1'-'5', or any byte value). Output the number of 1UP's in BX.

Explanation:

The input of four bytes is iterated and compared to the remaining bytes to the right, counting the number of matches. The scores for each type of match are awarded and add up to the total. Since a four-of-a-kind is also three-of-a-kind and also a one-pair, the value of each score type can be decomposed as follows:

• 3 matches = 4 1UP's + 77 coins
• 2 matches = 2 1UP's
• 1 match = 1 1UP

Examples:

[2, 2, 2, 2] (four-of-a-kind) = 7 1UP's + 77 coins

2 [2, 2, 2] = 3 matches = 4 1UP's + 77 coins
   2 [2, 2] = 2 matches = 2 1UP's
      2 [2] = 1 match   = 1 1UP

[2, 5, 2, 2] (three-of-a-kind) = 3 1UP's

2 [5, 2, 2] = 2 matches = 2 1UP's
   5 [2, 2] = 0 matches
      2 [2] = 1 match   = 1 1UP

[4, 5, 5, 4] (two pair) = 2 1UP's

4 [5, 5, 4] = 1 match   = 1 1UP
   5 [5, 4] = 1 match   = 1 1UP
      5 [4] = 0 matches

[2, 3, 4, 3] (one pair) = 1 1UP

2 [3, 4, 3] = 0 matches
   3 [4, 3] = 1 match   = 1 1UP
      4 [3] = 0 matches

If number of earned 1UP's is 0 at the end, 10 coins are awarded. If total coins are greater than 100, an additional 1UP is awarded.

Here is a test program for PC DOS that includes extra routines to handle the integer value I/O:

Download and test LUCKY.COM for DOS.

Jelly,  23 22 20  19 bytes

-1 thanks to Erik the Outgolfer (use ³ in place of ȷ2) also used in newer version twice
-1 thanks to Grimy (subtract one before summing instead of subtracting four afterwards)

^{Maybe beatable?}

ċⱮ`’SṚḌH׳«777»⁵+:³

A dyadic Link accepting a list and an integer which yields an integer.

Try it online! Or see a test-suite.

How?

ċⱮ`’SṚḌH׳«777»⁵+:³ - Link: list a, integer n   e.g. [x,x,x,x], 22
 Ɱ`                 - map across a with:
ċ                   -   count occurrences in a       [4,4,4,4]
   ’                - decrement                      [3,3,3,3]
    S               - sum (call this s)              12
     Ṛ              - reverse (implicit toDigits)    [2,1]
      Ḍ             - un-decimal                     21
       H            - halve                          10.5
         ³          - 100                           100
        ×           - multiply                     1050
           777      - 777                           777
          «         - minimum                       777
               ⁵    - 10                             10
              »     - maximum                       777  (handles 0 -> 10)
                +   - add (n)                       799
                  ³ - 100                           100
                 :  - integer division                7

How the hand evaluation works for each type of hand:

           Hand:    no-pair     pair        2-pair      trips       4-of-a-kind
(sorted) counts:    [1,1,1,1]   [1,1,2,2]   [2,2,2,2]   [1,3,3,3]   [4,4,4,4]
      decrement:    [0,0,0,0]   [0,0,1,1]   [1,1,1,1]   [0,2,2,2]   [3,3,3,3]
            sum:    0           2           4           6           12
       reversed:    [0]         [2]         [4]         [6]         [2,1]
     un-decimal:    0           2           4           6           21
         halved:    0           1           2           3           10.5
      times 100:    0           100         200         300         1050
    min(x, 777):    0           100         200         300         777
     max(x, 10):    10          100         200         300         777

Alternative 20: ĠẈị“¡ıKĖ‘S×4+E{»⁵+:³

Zsh, 117 ... 60 bytes

-13 by using a different criterion for differentiation, -9 by combining cases, -28 by changing the case statement to a nested arithmetic ternary, -4 thanks to @JonathanAllan, -1 by optimizing the ternaries, -2 because I accidentally used echo when adding Jonathan's optimization.

Takes coin count on stdin, and block inputs as arguments. Arguments can be numbers, characters, or even strings: ./foo.zsh flower leaf flower boomerang

read c
for i;for j;((a+=i<j))
<<<$[!a?7+(c>22):a-6?6-a:c>89]

Try it online: 117 104 95 67 63 62 60

Here's the magic from the 67 byte answer:

read coins
for block                  # for each element
  (( a+=${#${@:#$block}} ))
#          ${@:#$block}      remove all elements which don't match
#       ${#            }     count the remaining elements
# (( a+=                 ))  add that number to the total
<<<$[a?(a-12?6-a/2:coins>89):7+(coins>22)]
#    a?                     :7+(coins>22)  4*0 (all elements match all elements)
#      (a-12?     :coins>89)               4*3 (all elements match exactly one)
#      (a-12?6-a/2         )               3*1 + 1*3 ->  6, 6 -  6/2 -> 3
#                                          2*2 + 2*2 ->  8, 6 -  8/2 -> 2
#                                          2*3 + 2*2 -> 10, 6 - 10/2 -> 1

Python 2, 96 91 89 bytes

-2 bytes thanks to @Kevin Cruijssen

lambda x,a,b,c,d:(x+(100*sum((a==b,a==c,a==d,b==c,b==d,c==d))or 10)+177*(a==b==c==d))/100

Try it online!

C# (Visual C# Interactive Compiler), 123 106 90 bytes

a=>b=>(a+("Ĭ̉Èd\n"[(b=b.GroupBy(x=>x,(o,p)=>p.Count())).Count()*(b.Max()==3?0:1)]))/100

A port of my python answer, which is derived from @Dat's answer.

Try it online!

Python 3, 68 bytes

def f(c,a):x=sum(map(a.count,a))//2;return[c//90,x-2,7+(c>22)][x//3]

Try it online!

A Python port of my C port of my Bash port of my Zsh answer, re-golfed with help from the "Tips for golfing in Python" page. Last port, I swear... I'm running out of languages I'm comfortable golfing in. I was curious how this strategy compared to the other Python answers. Again, there's probably some way to beat this.

This one turned out surprisingly good, so I added a table below summarizing what's happening so others can port or improve this.

Type          Example  map(a.count,a)  sum(__)   x=__//2  x//3   array lookup
----------------------------------------------------------------------------
none         [1,2,3,4]    [1,1,1,1]        4       2       0      c//90
pair         [1,1,2,3]    [2,2,1,1]        6       3       1      x-2 -> 1
two pair     [1,3,1,3]    [2,2,2,2]        8       4       1      x-2 -> 2
3-of-a-kind  [1,3,1,1]    [3,1,3,3]       10       5       1      x-2 -> 3
4-of-a-kind  [3,3,3,3]    [4,4,4,4]       16       8       2      7+(c>22)

Python 3.8 (pre-release), 63 bytes

Praise the := walrus!

lambda c,a:[2+c//90,x:=sum(map(a.count,a))//2,9+(c>22)][x//3]-2

Try it online!

Python 2, 63 bytes

lambda x,l:int([3,1,7.77,2,.1][sum(map(l.count,l))%14%5]+x/1e2)

Try it online!

I had the same idea as GammaFunction to use sum(map(l.count,l)) as a "fingerprint". But, instead of using an arithmetic formula on the result, I use a lookup table, first squishing the value to 0 through 4 using a mod chain %14%5. Dividing all the point values by 100 saved a few bytes.

Perl 6, 48 44 bytes

{*/100+((0,0,1,3,7.77)[.Bag{*}].sum||.1)+|0}

Try it online!

Curried function f(icons)(coins).

PHP, 153 127 bytes

@640KB made some really clever changes to shorten it further:

function($c,$s){for(;++$x<6;$n+=$m>3?777:($m>2?300:($m>1)*100))for($m=!$y=-1;++$y<5;$m+=$s[$y]==$x);return($c+($n?:10))/100|0;}

Try it online!

Python 3, 126 111 108 103 bytes

def f(c,a):x=sorted([a.count(i)for i in set(a)]);return([300,777,200,100,10][len(x)*(x[-1]!=3)]+c)//100

Try it online!

Perl 5 -pF, 46 bytes

map$q+=$$_++,@F;$_=0|<>/100+($q>5?7.77:$q||.1)

Try it online!

First of input is the spin result, using any 5 unique ASCII letters, except q (I suggest abcde). The second line of input is the current coin count.

How?

-F     # CLI option splits the input into individual characters in @F
map
   $q+=   # $q holds the result of the calculation here
          # possible values are 0,1,2,3,6
   $$_    # This interprets $_ as a variable reference, thus if $_ is 'a', this variable is $a
   ++     # increment after adding it to $q
,@F;      # iterate over the elements of @F
$_=0|     # force the result to be an integer
   <>/100 # divide the current coin count by 100
   +($q>5?7.77  # if $q is over 5, then there must have been 4 of a kind
   :$q||.1)     # otherwise, use $q, unless it is 0, then use .1
-p        # CLI option implicitly outputs $_

All of the numbers involved are divided by 100, so the program is counting the number of lives (including partial ones) currently earned. The trick to this solution is in the map. If the possible entries are abcde, then each of $a, $b, $c, $d, and $e hold the count of the number of times this character had previously been seen. That gets added to a running total ($q) each time a character is seen. The running total is bumped up if there is a four of a kind (effectively a 177 coin bonus).

Python 3.8 (pre-release), 78 bytes

lambda c,a:(ord("Ĭ̉Èd\n"[len(x:=[*map(a.count,{*a})])*(max(x)!=3)])+c)//100

Dat's answer, but golfed more.

Try it online!

PHP, 89 84 bytes

foreach(count_chars($argv[2])as$a)$b+=[2=>1,3,7.77][$a];echo$argv[1]/100+($b?:.1)|0;

Try it online!

Input from command line, output to STDOUT:

$ php lucky.php 99 3333
8

$ php lucky.php 0 2522
3

$ php lucky.php 0 abaa
3

JavaScript (Node.js), 64 bytes

c=>a=>[,7.77,a.sort()[1]-a[2]?2:3,1,.1][new Set(a).size]+c*.01|0

Try it online!

I figured there had to be at least one JavaScript answer to an Arnauld challenge!

The concept here is mainly to use the number of distinct elements as a lookup key.

• 1 unique => 4 of a kind
• 2 unique => 2 pair or 3 of a kind
• 3 unique => 1 pair
• 4 unique => no matches

In order to distinguish between 2 pair and 3 of a kind, the input array is sorted and the middle 2 elements are compared.

Bash, 76 75 71 70 bytes

-4 thanks to @JonathanAllan, -1 by rearranging the ternary.

read c
for i;{ for j;{ ((a+=i<j));};}
echo $[!a?7+(c>22):a-6?6-a:c>89]

Bash port of my Zsh answer. Try it online! Try it online! Try it online! Try it online!

Stax, 23 bytes

¿^∩û:¶á☺ⁿ£z⌐└≤♂EM¥t(,5╓

Run and debug it

This program uses any arbitrary set of 5 integers for icons.

Procedure:

1. Add up the number of occurrences of each element.
2. Divide by 2 and then mod 7.
3. The result is a number from 1..5. Use this to look up the coin prize in a fixed array.
4. Add to the initial coin count.
5. Divide by 100.

Here's the output from an experimental stack state visualizer I've been working on for the next release of stax. This is an unpacked version of the same code with the stack state added to comments.

c               input:[2, 3, 4, 3] 25 main:[2, 3, 4, 3] 
{[#m            input:[2, 3, 4, 3] 25 main:[1, 2, 1, 2] 
|+              input:[2, 3, 4, 3] 25 main:6 
h7%             input:[2, 3, 4, 3] 25 main:3 
":QctI*12A"!    input:[2, 3, 4, 3] 25 main:[300, 777, 10, 100, 200] 3 
@               input:[2, 3, 4, 3] 25 main:100 
a+              main:125 [2, 3, 4, 3] 
AJ/             main:1 [2, 3, 4, 3] 

Run this one

C (gcc), 92 84 82 81 79 78 bytes

-1 by x+=(..!=..) -5 by returning via assignment, -4 thanks to Jonathan Allan by replacing != with <, which saves bytes elsewhere, -1 by rearranging the ternary.

From @ceilingcat: -2 by declaring i and x outside the function, -1 by setting x=i and decrementing x instead.

i,x;f(c,a)int*a;{for(i=x=16;i--;)x-=a[i/4]>=a[i%4];c=x?x-6?6-x:c>89:7+(c>22);}

Another port of my Zsh answer. I'm unfamiliar with C golfing, there's probably another trick somewhere in here to reduce it further. 92 84 82 81 79 Try it online!

APL+WIN, 42 bytes

Prompts for icons followed by coin stock.

  ⌊(.01×⎕)+.1⌈+/1 3 7.77×+⌿(+⌿⎕∘.=⍳5)∘.=1↓⍳4

Try it online! Courtesy of Dyalog Classic

Retina 0.8.2, 72 bytes

O`\D
(\D)\1{3}
777¶
(\D)\1\1
300¶
(\D)\1
100¶
\D{4}
10¶
\d+\D*
$*
1{100}

Try it online! Link includes test cases. Takes input as 4 printable ASCII non-digits followed by the initial number of coins in digits. Explanation:

O`\D

Sort the non-digits so that identical symbols are grouped together.

(\D)\1{3}
777¶

Four-of-a-kind scores 777.

(\D)\1\1
300¶

Three-of-a-kind scores 300.

(\D)\1
100¶

Each pair scores 100, so two pairs will score 200.

\D{4}
10¶

If there were no matches then you still win!

\d+\D*
$*

Convert the values to unary and take the sum.

1{100}

Integer divide the sum by 100 and convert back to decimal.

Retina, 56 bytes

(\D)\1{3}
777¶
w`(\D).*\1
100¶
\D{4}
10¶
\d+\D*
*
_{100}

Try it online! Link includes test cases. Takes input as 4 printable ASCII non-digits followed by the initial number of coins in digits. Explanation:

(\D)\1{3}
777¶

Four-of-a-kind scores 777.

w`(\D).*\1
100¶

Each pair scores 100. The w takes all pairs into consideration, so that they can be interleaved, plus three-of-a-kind can be decomposed into three pairs, thus automagically scoring 300.

\D{4}
10¶

If there were no matches then you still win!

\d+\D*
*

Convert the values to unary and take the sum.

_{100}

Integer divide the sum by 100 and convert back to decimal.

05AB1E, 20 19 18 bytes

D¢<OR;т*777T)Åm+т÷

Port of @JonathanAllan's Jelly answer, so make sure to upvote him!!
-2 bytes thanks to @Grimy.

Takes the list of icons as first input (being [1,2,3,4,5]), and the amount of coins as second input.

Try it online or verify all test cases. (The test suite uses T‚à+ instead of TMI+, which is an equal bytes alternative.)

Explanation:

D                   # Duplicate the first (implicit) input-list
 ¢                  # Count the amount of occurrences in itself
  <                 # Decrease each count by 1
   O                # Sum these
    R               # Reverse it
     ;              # Halve it
      т*            # Multiply by 100
        777         # Push 777
           T        # Push 10
            )       # Wrap all three values into a list
             Åm     # Get the median of these three values
               +    # Add the second (implicit) input to it
                т÷  # And integer-divide it by 100
                    # (after which the result is output implicitly)

Scala, 88 bytes

(c,v)=>(Seq(777,300,200,100,0,10)((v.groupBy(x=>x).map(_._2.size+1).product-5)/2)+c)/100

Try it online!

PowerShell, 114 107 bytes

^{-7 bytes thanks to mazzy}

param($n,$l)((((0,.1,1)[+($x=($l|group|% c*t|sort))[2]],2,3)[$x[1]-1],7.77)[$x[0]-eq4]+".$n")-replace'\..*'

Try it online!

A big ol' PowerShell-flavored ternary operation built upon grouping and sorting the counts of the input list. The sort is needed because we leverage the fact that the grouped list gets shorter the more repeats there are. In fact, here's all the possible values:

(1,1,1,1)
(1,1,2)
(2,2)
(1,3)
(4)

Truncating to an int is still expensive.

Unrolled:

param($n,$l)
$x=$l|group|% c*t|sort
(((                      #Start building a list...
   (0,.1,1)[+$x[2]],     #where spot 0 holds dummy data or handles no match and 1 pair
    2,3)[$x[1]-1],       #Overwrite the dummy data with 2-pair or 3-o-k
   7.77)[$x[0]-eq4]      #OR ignore all that and use spot 1 because it's a 4-o-k
   +".$n"                #Use that value and add CoinCnt via int-to-string-to-decimal
)-replace'\..*'          #Snip off the decimal part

Charcoal, 30 bytes

≔⊘ΣＥη№ηιηＩ⌊⁺∕θ¹⁰⁰∨⁻η∕²∨›⁸η⁹∕¹χ

Try it online! Link is to verbose version of code. Takes input as the number of coins and an array of any Python comparable values as icons. Explanation:

≔⊘ΣＥη№ηιη

Shamelessly steal @GammaFunction's trick of computing half the sum of counts.

⁻η∕²∨›⁸η⁹

Subtract 2 from the sum, thus resulting in the values 0, 1, 2, 3 appropriately, but for 4-of-a-kind, divide the 2 by 9 first, resulting in 7.777....

∨...∕¹χ

But if the result is 0, then there were no matches, so replace it with 0.1 instead. (Using a literal doesn't help me here because I would need a separator.)

Ｉ⌊⁺∕θ¹⁰⁰...

Divide the initial coins by 100 and add on the winnings, then floor the result and cast to string for implicit output.

R, 102, 91, 81 bytes

f=function(b,v,s=table(v))(477*any(s>3)+b+10*all(s<2))%/%100+sum(s==2)+3*any(s>2)

Managed to drop 11 bytes (and fix a bug) thanks to @Giuseppe. Managed a further 10 inspired by by @Giuseppe's /10 idea.

Ungolfed

f=function(b,v){
  s = table(v)          #included in fn inputs
  a = b+10*all(s<2)     #covers all different case
  a = a+477*any(s>3)    #Covers 4 of a kind
  d = sum(s==2)+3*any(s>2) #covers 1 and 2 pair, 3 of a kind.
  a%/%100+d         #sum appropriate values
}

Try it online!

Wolfram Language (Mathematica), 54 bytes

⌊{,.1,1,2,3,,,7.77}[[Total[Counts@#2^2]/2]]+.01#⌋&

Try it online!

Pyth, 32 bytes

AQ-@[+K2/G90J/sm/HdH2+9>G22)/J3K

Try it online!

Inspired by GammaFunction's solution. Takes input as [coins, [icons]].

AQ                               # Q is the input. Set G := Q[0], H := Q[1]
    [                      )     # Construct a list from the following entries:
     +K2/G90                     # [0] (K:=2) + G/90 (/ is integer division)
            J                    # [1] J:=
              s                  #        reduce on + (
               m   H             #          map entries of H as d on (
                /Hd              #            number of occurences of d in H ) )
             /      2            #                                               / 2
                     +9>G22      # [2] 9 + (G > 22)
   @                        /J3  # Take element at position J/3
  -                            K # Subtract K (=2)

PowerShell, 94 bytes

param($n,$l)$r=@{2=100;3=300;4=777}[($l|group|% c*t)]|?{$_;$n+=$_}
+(($n+10*!$r)-replace'..$')

Try it online!

Unrolled:

param($nowCoins,$values)
$groupCounts=$values|group|% count
$rewardedCoins=@{2=100;3=300;4=777}[$groupCounts]|?{
    $_                          # output matched only
    $nowCoins+=$_               # and accumulate
}
$nowCoins+=10*!$rewardedCoins   # add 10 coins if no rewarded conis
+($nowCoins-replace'..$')       # truncate last two digits