NOTE: Invalid commands will do nothing like a no-operation.

q - No operation
ø - Haltes the program
i - Prints the string in two double-quotes, with \xx and \n and \r and \t support for special characters.
צ - Prints the string in two single-quotes, no special commands.
Ÿ - Begines a compressed string with syntax of 05AB1E.
  Variants:
    ͳ - oUtPuTs ThE sTrInG mOcKed
    ճ - Makes the first character of first word uppercase
    ➴ - Makes the first character of all words uppercase
    # - outputs the string in lowercase
    🖒 - OUTPUTS THE STRING IN UPPERCASE
😍 - Endes 05AB1E's compressed string.
Ό - Prints "Hello World!"
׀ - Prints "Hello, World!"
Z - Prints "Goodbye World!"
ҙ - Makes the value in current selected memory address be R0th character code in input
љ: Incrments a index and reads the character code in input with this index, like brainfuck
Ӧ - Prints a character to output, with ASCII code of current value in selected memory address
😒 - Prints a character to output, with ASCII code of R1.
չ - Reads SREG and writes it into R0.
ď - Reads R1th bit of SREG and writes it into R0.
⇋ - Increases pointer value of current selected memory address by 1
Ͷ - Decreases pointer value of current selected memory address by 1
😉 - Increases pointer value of current selected memory address by R1
⚒ - Decreases pointer value of current selected memory address by R1
❺ - Reads bit 0 of SREG and saves into R0.
ӛ - Reads bit 1 of SREG and saves into R0.
🐀 - Reads bit 2 of SREG and saves into R0.
ջ - Reads bit 3 of SREG and saves into R0.
Æ - Reads bit 4 of SREG and saves into R0.
🖼 - Reads bit 5 of SREG and saves into R0.
🎀 - Reads bit 6 of SREG and saves into R0.
έ - Reads bit 7 of SREG and saves into R0.
б - Reads bit 8 of SREG and saves into R0.
ֵ - Reads bit 9 of SREG and saves into R0.
נ - Reads bit 10 of SREG and saves into R0.
И - Reads bit 11 of SREG and saves into R0.
& - Analyzes current selected address of memory in SREG, bits descripted:
☡ - Makes a label in code, labeled by a number, which is increased each label usage, so first one be 0, second C be 1, and so on.
e - Jumpes to JLV-labeled label in code.
  Conditioned:
    ↑  - If SREG's R1th bit is 0
    ≻ - If SREG's R1th bit is 0
    ✃ - If R1 = 0
    γ - If R1 <> 0
    ϸ - If R1 = R0
    û - If R1 <> R0
    ͷ - If R1 > R0
    ⇢ - If R1 >= R0  
    ֥ - If R1 <= R0
    ׺ - If R1 < R0
    Ì  O - If output is empty
➢ - Printes 99 bottles of beer lyrics
😞 - Quines the code (prints entire code source)	  
¦ - Reads R1th byte of code and saves into R0.
֤ - Begins a conditioned loop.
🏵 - If the current selected memory address is 0, jumpes to last "S" executed, else does nothing.
՜  U - If selected memory address IS NOT 0
Ū  V - If selected memory address equals to R1
Ň  W - If selected memory address equals to R0
Θ  X - Jumpes to last "S", but only repeat it R1 times. When goed to "S" R1 times, does nothing. Next "S" resets X's counter.
Ψ - Infinite Loop, equals to "CD", BUT NOT EQUALS TO HALT OF PROGRAM WITH "!"
♈ - R1 = 0
־ - R0 = 0
/ - R1 = 255
׵ - R0 = 255
Ң - Current selected memory address will be ASCII code of it's ROT13
׷ - Makes the whole output in ROT13
⇑ - Makes the whole output in ROT(R1), e.g. if R1 = 13, ROT13 or if it's 8, ROT8
⇀ - Current selected memory address will be ROT(R1), e.g. if R1 = 13, ROT13 or if it's 8, ROT8
j - R0 = R0 ^ R1
դ - R0 = R0 ^ R0
5 - R0 = R1 ^ R1
բ - R0 = R1 ^ R0
ß - R1 = R0 ^ R1
{ - R1 = R0 ^ R0
❧ - R1 = R1 ^ R1
⋤ - R1 = R1 ^ R0
A - R0 = Current selected memory address value
[ - R1 = Current selected memory address value
😺 - Current selected memory address value = R0
ۤ - Current selected memory address value = R1
≿ - Prints "the quick brown fox jumps over the lazy dog"
♉ - Prints "The quick brown fox jumps over the lazy dog"
✟ - Prints "THE QUICK BROWN FOR JUMPS OVER THE LAZY DOG"
↩ - R0 = R0 x R1
֊ - R0 = R0 x R0
d - R0 = R1 x R1
😮 - R0 = R1 x R0
Ţ - R1 = R0 x R1
⇪ - R1 = R0 x R0
Q - R1 = R1 x R1
☉ - R1 = R1 x R0
ר - R0 = R0 + R1
ر - R0 = R0 + R0
Ӣ - R0 = R1 + R1
Ж - R0 = R1 + R0
Ո - R1 = R0 + R1
ΐ - R1 = R0 + R0
🗎 - R1 = R1 + R1
🎿 - R1 = R1 + R0
ũ - R0 = R0 - R1
ϐ - R0 = R0 - R0
ā - R0 = R1 - R1
↱ - R0 = R1 - R0
ÿ - R1 = R0 - R1
պ - R1 = R0 - R0
ٯ - R1 = R1 - R1
Ů - R1 = R1 - R0
B - R0 = R0 AND R1
ذ - R0 = R0 AND R0
🌂 - R0 = R1 AND R1
ù - R0 = R1 AND R0
Î - R1 = R0 AND R1
✻ - R1 = R0 AND R0
֘ - R1 = R1 AND R1
ֆ - R1 = R1 AND R0
ѽ - R0 = R0 OR R1
⚃ - R0 = R0 OR R0
ۦ - R0 = R1 OR R1
↫ - R0 = R1 OR R0
؂ - R1 = R0 OR R1
≸ - R1 = R0 OR R0
֕ - R1 = R1 OR R1
ڵ - R1 = R1 OR R0
ؽ - R0 = R0 XOR R1
↾ - R0 = R0 XOR R0
🍫 - R0 = R1 XOR R1
ό - R0 = R1 XOR R0
Մ - R1 = R0 XOR R1
😹 - R1 = R0 XOR R0
🙅 - R1 = R1 XOR R1
⇙ - R1 = R1 XOR R0
׏ - R0 = R0 NOT R1
ّ - R0 = R0 NOT R0
🕟 - R0 = R1 NOT R1
♕ - R0 = R1 NOT R0
≴ - R1 = R0 NOT R1
🏹 - R1 = R0 NOT R0
΂ - R1 = R1 NOT R1
⋿ - R1 = R1 NOT R0
ڤ - Sets R0 to ASCII/Unicode code of the next character affect this command in code
à - Sets R1 to ASCII/Unicode code of the next character affect this command in code
Π - Sets R0 to ASCII/Unicode code of the next character affect this command in code + 33
😚 - Sets R1 to ASCII/Unicode code of the next character affect this command in code + 33
Ř - Prints "Code Bowling"
⇖ - BSR = Mem↑↑..↑↑Mem1 (Knuth's up-arrow notation), where Mem is current address in memory, Mem1 is 1 next address, and arrows repeating R1 times.
Ն - Prints value of BSR as Decimal in output.
H - Prints value of BSR as Hex in output.
T - Prints value of BSR as Octanery in output.
< - Prints value of BSR as Binary in output.- 
ַ - BSR = R0 x R1
ֱ - BSR = R0 x R0
ϩ - BSR = R1 x R1
È - BSR = R1 x R0
⇤ - BSR = R0 x R1
z - BSR = R0 x R0
⇊ - BSR = R1 x R1
⚊ - BSR = R1 x R0
🎝 - BSR = R0 ^ R1
ץ - BSR = R0 ^ R0
⊣ - BSR = R1 ^ R1
❕ - BSR = R1 ^ R0
⛇ - BSR = R0 ^ R1
🐄 - BSR = R0 ^ R0
ۼ - BSR = R1 ^ R1
🙀 - BSR = R1 ^ R0
Ѹ - BSR = Round(Log(Aleph-R1)), where Aleph-x defined as Aleph-0 = 10^3.08, Aleph-1 = 10^30.8, Aleph-2 = 10^308, Aleph-3 = 10^3080, and Aleph-x = 10^(((10^x)*3.08)), hover Aleph-0 is 10^3.08 in this formula instead.
ġ - Prints value of R0 as integer in output.
ς - Prints value of R1 as integer in output.
⛯ - R0 = R0 + 1
Դ - R1 = R1 + 1
❈ - R0 = R0 - 1
½ - R1 = R1 - 1
😿 - JLV = JLV + 1
⇬ - JLV = JLV - 1
🙃 - Sets JLV to ASCII/Unicode code of the next character affect this command in code
♚ - Sets JLV to ASCII/Unicode code of the next character affect this command in code + 33
փ - Enters Malbolge mode. Note coding in it is Quite Hard! which compiler reads ASCII codes for commands in a malbolge format, now ASCII codes for commands reads as diffrence of ASCII code between previus and current character ASCII code, so ╥≤ reads as "!", the first one enters malbolge mode, and so ≤ have 33 more ASCII code than ╥, it reads as "!" (ASCII 33, which we get), and haltes program. How much be lower is allowed too, ╥» is same as ╥⌡, since »'s ASCII code is 175 or 35 times less than ╥, reads as #, mocking 05AB1E's compressed string, and so on. Strings affected by malbolge mode!
ۿ - Exits malbolge mode (compiler reads commands as ASCII codes in code as normal)
Κ - BSR = 1.7976931 x 10^308 (10^1024)
Ϝ - BSR = 1.090748 x 10^2466 (10^8192)
⋪ - BSR = BSR ^ 2
↟ = BSR = BSR ^ 3
ĸ- Set R0 to π
≼- Set R0 to Euler's number (e)
ĝ- Set R0 to the golden ratio
🐸 - Set R0 to 10^1024
Г - Set R0 to the reciprocal of R1
ф - Set R0 to the square root of R1
Я - Set R0 to the cube root of R1
ш - Set R0 to the fourth root of R1
↤- Set R0 to the sum of integers from 1 to R1
շ - Set R0 to the product of integers from 1 to R1
ij - Set R0 to the factorial of R1
⛂- Set R0 to the next Fibonacci number after R1
Ծ - Set R0 to the next prime number after R1
ؑ - Set R0 to π^R1
⇺ - Set R0 to e^R1
կ - Set R0 to the golden ratio^R1
↮- Set R0 to the standard deviation of numbers 1 to R1
Ր- Set R0 to the mean of numbers 1 to R1
😈- Set R0 to the angle of R1 in degrees
΢- Set R0 to the gamma function of R1
χ - Set R0 to the Riemann zeta function of R1
* - Set R0 to NOT R1
↘ - Set R0 to R0 AND R1
☞ - Set R0 to R0 OR R1
♤ - Set R0 to R0 XOR R1
֋ - Set R0 to R0 NAND R1
Ѳ - Set R0 to R0 NOR R1
⚴ - Set R0 to R0 XNOR R1
❑ - Shift R0 left by R1 bits
⚑ - Shift R0 right by R1 bits
⚨ - Rotate bits of R0 left by R1
մ - Set R0 to ASCII value of the first character in R1
☜ - Set R0 to ASCII value of the last character in R1
ы - Convert ASCII values in R1 into a string and store in R0
➓ - Convert all characters in R1 into their ASCII values
֗ - Reverse the string in R1 and store it in R0
² - Sort the characters in R1 alphabetically and store in R0
➮ - Shuffle the characters in R1 randomly
ق - Remove whitespace from R1 and store result in R0
כ - Replace all punctuation in R1 with spaces and store in R0
h - Extract the substring from R1 starting at index R0 for R1 characters
⚉ - Insert R0 at index R1 in R1
🎇 - Convert R1 into lowercase
➁ - Convert R1 into uppercase
ե - Replace all vowels in R1 with "*"
ź - Remove all vowels from R1
Ý - If R0 > R1, skip next instruction
💚 - If R0 < R1, repeat last instruction
🗓 - If R0 == R1, jump to first command
⇳ - Loop R1 times before executing next command
N - If R0 is prime, execute next command twice
≙ - If R0 is even, execute next instruction
ۆ - If R0 is odd, execute next instruction
I - Halt execution if R0 > 50000
ʹ - Jump ahead R1 instructions if R0 is negative
֫ - Execute last two instructions again
😁 - Set R0 to a random integer between 1 and 1000
😾 - Set R0 to the total execution time in microseconds
ͺ - Set R0 to the memory usage in megabytes
= - Set R0 to the number of stored variables
ی - Set R0 to the count of loop iterations
Ë - Set R0 to the seconds since execution started
ͱ - Convert R0 into hexadecimal
А - Convert R0 into octal
😲 - Convert R0 into binary
% - Convert R0 into scientific notation
⛉ - Round R0 to the nearest integer
Ė - Floor R0
😛 - Ceil R0
🏫 - Absolute value of R0
⚷ - Swap R0 and R1
🖩 - Reverse all bits in R0
Ô - Set R0 to a random float between 0 and 1
Ĵ - Generate a random prime number near R1
ؙ - Generate a random Fibonacci number near R1
Į- Declare a floating-point variable VF[R0]
⇻- Declare a big integer variable VI[R0]
↥𱐠- Delete floating-point variable VF[R0]
≾- Delete big integer variable VI[R0]
و- Retrieve VF[R1] into R0
⇵- Retrieve VI[R1] into R0
ו- Store R0 into VF[R1]
،𰰠- Store R0 into VI[R1]
٦- Swap VF[R0] and VF[R1]
ϗ- Swap VI[R0] and VI[R1]
☹- Convert VF[R0] into an integer (store in R1)
Ё- Convert VI[R0] into a float (store in VF[R1])
∦- VF[R0] = VF[R0] + VF[R1]
♑- VF[R0] = VF[R0] - VF[R1]
⚤- VF[R0] = VF[R0] × VF[R1]
ύ- VF[R0] = VF[R0] ÷ VF[R1]
😣- VF[R0] = sqrt(VF[R0])
↲- VF[R0] = log10(VF[R0])
⊕- VF[R0] = log2(VF[R0])
Ӆ- VF[R0] = ln(VF[R0])
׆- VF[R0] = abs(VF[R0])
Ј- VF[R0] = sin(VF[R0])
ν- VF[R0] = cos(VF[R0])
ӊ- VF[R0] = tan(VF[R0])
⚬- VF[R0] = arcsin(VF[R0])
۪- VF[R0] = arccos(VF[R0])
☤- VF[R0] = arctan(VF[R0])
ұ- VF[R0] = e^(VF[R0])
😽- VF[R0] = π × VF[R0]
֓- VF[R0] = round(VF[R0])
⋇- VF[R0] = floor(VF[R0])
щ- VF[R0] = ceil(VF[R0])
ΰ- VI[R0] = VI[R0] + VI[R1]
≷- VI[R0] = VI[R0] - VI[R1]
⊂- VI[R0] = VI[R0] × VI[R1]
ׯ- VI[R0] = VI[R0] ÷ VI[R1]
ٖ- VI[R0] = VI[R0] % VI[R1]
🍄- VI[R0] = VI[R0] ^ VI[R1]
⇱- VI[R0] = VI[R0  (1/VI[R1])] (Big Integer Root Calculation)
ڕ- VI[R0] = abs(VI[R0])
😼- VI[R0] = log10(VI[R0])
Ҥ- VI[R0] = log2(VI[R0])
ϕ- VI[R0] = ln(VI[R0])
🔈- VI[R0] converted to hexadecimal
م- VI[R0] converted to octal
ڔ- VI[R0] converted to binary
⇟- VF[R0] = Euler’s number (2.71828…)
⛻- VF[R0] = π (3.1415926535…)
׫- VF[R0] = φ (1.6180339887…)
★- VF[R0] = round(Γ(VF[R1]))
⊈- VF[R0] = round(ζ(VF[R1]))
x- VF[R0] = factorial of VF[R1]
D- VF[R0] = combination (nCr) of (VF[R1], VF[R0])
ö- VF[R0] = permutation (nPr) of (VF[R1], VF[R0])
≫- VF[R0] = random float between 0 and 1
➽- VF[R0] = largest float less than VF[R1]
ϝ- VF[R0] = smallest float greater than VF[R1]
≄- VF[R0] = execution time in microseconds
؏- VF[R0] = memory usage in megabytes
❆- VF[R0] = total length of the source code
📱- VF[R0] = number of stored variables
ţ- VF[R0] = count of loop iterations
٭ - Declare a new string variable VS[R0]
ō - Delete string variable VS[R0]
🔵 - Retrieve VS[R1] into R0
➥ - Store R0 into VS[R1]
в - Swap VS[R0] and VS[R1]
Ք - Get the length of VS[R1] into R0
➩ - Convert VS[R0] into uppercase
≍ - Convert VS[R0] into lowercase
✄ - Append R0 to VS[R1]
⛼ - Prepend R0 to VS[R1]
❽ - Remove the first character of VS[R1]
🖈 - Remove the last character of VS[R1]
∪ - Remove character at index R0 from VS[R1]
Ӷ - Insert R0 at index R1 in VS[R1]
ռ - Replace character at index R1 with R0 in VS[R1]
ך - Reverse VS[R1]
Ֆ - Sort characters in VS[R1] alphabetically
🕸 - Shuffle characters in VS[R1]
Է - Remove duplicate characters in VS[R1]
հ - Extract substring from VS[R1] starting at index R0 for R1 characters
∾ - Split VS[R1] into a list by spaces
׳ - Split VS[R1] into a list by commas
⇹ - Trim leading and trailing whitespace in VS[R1]
՛ - Replace all punctuation in VS[R1] with spaces
ז - Replace all digits in VS[R1] with "*"
ג - Convert VS[R1] into ROT13 format
💟 - Convert VS[R1] into ROT(R0)
ۀ - Convert VS[R1] into base64 encoding
♟ - Convert VS[R1] into SHA256 hash
⊺ - Convert VS[R1] into MD5 hash
ڧ - Convert VS[R1] into CRC32 hash
א - Convert VS[R1] into ASCII values
🖐 - Convert VS[R1] into Unicode values
ŏ - Convert ASCII values in VS[R1] into characters
ҁ - Convert Unicode values in VS[R1] into characters
💏 - If VS[R1] contains R0, execute next instruction
ۂ - If VS[R1] does not contain R0, skip next instruction
😑 - If VS[R1] is empty, jump to previous instruction
∤ - If VS[R1] equals VS[R0], execute next instruction twice
ֲ - If VS[R1] starts with R0, skip next instruction
İ - If VS[R1] ends with R0, jump forward R0 instructions
↛ - If VS[R1] contains only letters, jump forward R0 instructions
Ф - If VS[R1] contains numbers, execute next instruction
ӽ - Convert VS[R1] into hexadecimal
ڽ - Convert VS[R1] into octal
🐣 - Convert VS[R1] into binary
🙁 - Convert VS[R1] into scientific notation
🙉 - Convert VS[R1] into camelCase format
🎚 - Convert VS[R1] into snake_case format
☲ - Convert VS[R1] into kebab-case format
🕙 - Convert VS[R1] into PascalCase format
Ϭ - Convert VS[R1] into title case format
🔘 - Generate a random permutation of characters in VS[R1]
ؗ - Declare a new multi-string list variable VL[R0]
Ö - Delete list variable VL[R0]
Ѣ - Retrieve VL[R1] into R0
6 - Store R0 as a new element in VL[R1]
🌬 - Get the first string in VL[R1] into R0
☪ - Get the last string in VL[R1] into R0
Ү - Get the length of VL[R1] into R0
º - Swap VL[R0] and VL[R1]
♮ - Get number of stored lists
⋲ - Append R0 to VL[R1]
ϧ - Prepend R0 to VL[R1]
Ѱ - Remove first element of VL[R1]
î - Remove last element of VL[R1]
ە - Remove element at index R0 from VL[R1]
ټ - Insert R0 at index R1 in VL[R1]
↹ - Replace element at index R1 with R0 in VL[R1]
ť - Reverse VL[R1]
Ղ - Sort VL[R1] alphabetically
⇦ - Shuffle VL[R1]
¶ - Remove duplicate elements from VL[R1]
} - Extract sublist from VL[R1] starting at index R0 for R1 elements
↢ - Split each string in VL[R1] into words
☳ - Join all strings in VL[R1] using spaces
n - Join all strings in VL[R1] using commas
԰ - Trim whitespace in all strings in VL[R1]
🐗 - Remove punctuation from all strings in VL[R1]
Ձ - Convert all numbers in VL[R1] into words
🙋 - Replace all vowels in VL[R1] with "*"
↜ - Convert VL[R1] into uppercase
🎗 - Convert VL[R1] into lowercase
➋ - Convert VL[R1] into ROT13 format
Ѫ - Convert VL[R1] into ROT(R0)
✩ - Convert VL[R1] into base64 encoding
🐺 - Convert VL[R1] into SHA256 hash
❄ - Convert VL[R1] into MD5 hash
- - Convert VL[R1] into CRC32 hash
♌ - If VL[R1] contains R0, execute next instruction
😐 - If VL[R1] does not contain R0, skip next instruction
ت - If VL[R1] is empty, jump to previous instruction
ğ - If VL[R1] equals VL[R0], execute next instruction twice
Ų - If VL[R1] starts with R0, skip next instruction
⊩ - If VL[R1] ends with R0, jump forward R0 instructions
ן - If VL[R1] contains only letters, jump forward R0 instructions
♻ - If VL[R1] contains numbers, execute next instruction
Ѯ - If VL[R1] has an even number of elements, repeat previous instruction
ӕ - If VL[R1] has an odd number of elements, repeat next instruction
ӡ - Convert all elements in VL[R1] into hexadecimal
🎘 - Convert all elements in VL[R1] into octal
ϭ - Convert all elements in VL[R1] into binary
📆 - Convert VL[R1] into a comma-separated string
⛢ - Convert VL[R1] into a space-separated string
⚚ - VL[R1] = ASCII characters of each element
↧ - VL[R1] = ASCII values of each character in VL[R1]
☥ - VL[R1] = Unicode values of each character in VL[R1]
¨ - VL[R1] = Random permutation of elements
Ͽ - VL[R1] = Insert sequence of strings ["A", "B", ..., "Z"]
🏮- Declare a new integer list variable VL[R0]
✂- Delete integer list variable VL[R0]
ҷ- Retrieve VL[R1] into R0
Ҋ- Store R0 as a new element in VL[R1]
😌- Get the first number in VL[R1] into R0
👩- Get the last number in VL[R1] into R0
⚏- Get the length of VL[R1] into R0
😦- Swap VL[R0] and VL[R1]
🍧 - Append R0 to VL[R1]
ҋ - Prepend R0 to VL[R1]
ף - Remove first element of VL[R1]
🔕 - Remove last element of VL[R1]
≣ - Remove element at index R0 from VL[R1]
Ҽ - Insert R0 at index R1 in VL[R1]
∐ - Replace element at index R1 with R0 in VL[R1]
_ - Reverse VL[R1]
✕ - Sort VL[R1] in ascending order
g - Sort VL[R1] in descending order
ӌ - Shuffle VL[R1]
☧ - Deduplicate VL[R1]
٢ - Rotate VL[R1] left by R0 positions
٪ - Rotate VL[R1] right by R0 positions
' - Extract sublist from VL[R1] starting at index R0 for R1 elements
❗ - Split VL[R1] into two lists at index R0
ī - Merge VL[R0] and VL[R1] into VL[R2]
ګ - VL[R1] = VL[R1] concatenated with VL[R0]
» - VL[R1] = VL[R0] repeated R1 times
↸ - Get the sum of VL[R1] into R0
♂ - Get the product of VL[R1] into R0
😝 - Get the maximum element of VL[R1] into R0
ۃ - Get the minimum element of VL[R1] into R0
✊ - Get the average of VL[R1] into R0
❘ - Get the median of VL[R1] into R0
💉 - Get the mode of VL[R1] into R0
⛥ - Get the standard deviation of VL[R1] into R0
⊹ - If VL[R1] contains R0, execute next instruction
≲ - If VL[R1] does not contain R0, skip next instruction
⚾ - If VL[R1] is empty, jump to previous instruction
⇘ - If VL[R1] has an even number of elements, repeat previous instruction
👣 - If VL[R1] has an odd number of elements, repeat next instruction
Ͻ - If the sum of VL[R1] is greater than R0, execute next instruction
Ϥ - If VL[R1] is sorted, skip next instruction
ڷ - If VL[R1] is reversed, repeat previous instruction
ղ - Convert all elements in VL[R1] into hexadecimal
Ć - Convert all elements in VL[R1] into octal
≅ - Convert all elements in VL[R1] into binary
Β - VL[R1] = Insert sequence of numbers from 0 to R0
҂ - VL[R1] = Generate a list of primes up to R0
Բ - VL[R1] = Generate a list of Fibonacci numbers up to R0
Ő - VL[R1] = Generate a list of square numbers up to R0
✀ - VL[R1] = Generate a list of factorials up to R0
↺- Declare a new float list variable VF[R0]
O- Delete float list variable VF[R0]
ã- Retrieve VF[R1] into R0
😋- Store R0 as a new element in VF[R1]
😬- Get the first float in VF[R1] into R0
ů- Get the last float in VF[R1] into R0
⛵- Get the length of VF[R1] into R0
Τ- Swap VF[R0] and VF[R1]
Ю- Set R0 to π (3.1415926535…)
∯- Set R0 to Euler's number (2.718281828…)
⚠- Set R0 to the golden ratio (1.6180339887…)
Ī- Set R0 to τ (2π)
✗- Set R0 to Euler-Mascheroni constant (0.5772156649…)
Ӓ - Set R0 to mathematical e
ۖ - Set R0 to infinity
ӫ - Set R0 to 1
🌀 - Set R0 to 5/6
↝ - Set R0 to 1/3
🕞 - Set R0 to 3/5
☏ - Set R0 to √2
ś - Set R0 to ∛3
≭ - Set R0 to ∜4
≧- Set R0 to Σ (Summation)
¸ - Set R0 to Π (Product)
💡 - Set R0 to factorial of R1
ά - Set R0 to a random natural number
🌸 - Set R0 to a random integer
ڻ - Set R0 to a rational number
ֹ - Set R0 to a real number
∈ - Set R0 to a complex number
ѓ - Print "Hello, World!"
׈ - Print "Goodbye, World!"
😳 - Print "Error: Invalid Input"
U - Print "Success!"
ט - Print "Game Over"
❦ - Print "Welcome to Infinite Golfing"
ŧ - Print "End of Execution"
҇ - Print "Execution Complete"
⋌ - Print "Infinite Golfing—Extreme Code Golf!"
ש - Print "System Info"
ή - Print "Memory Usage"
⊫ - Print "CPU Load"
@ - Print "Processing…"
Ϛ - Print "Done!"
ћ - Print "Loading…"
É - Print "Finished Loading"
Þ - Print "Current Time: [system time]"
+ - Print "Start!"
🎩 - Print "Paused"
⇯ - Print "Stopped"
֢ - Print "Recording…"
🌹 - Print "Playing…"
د - Print "Recycling Memory"
⊨ - Print "System Reset"
🙂 - Print "Infinite Loop Warning!"
😕 - Print "Restarting Execution"
± - Print "Fast Forwarding"
ۄ - Print "Rewinding"
č - Print "Increasing Speed"
Ħ - Print "Decreasing Speed"
➶ - Print "Going Back One Step"
⇄ - Print "Execution Start"
ְ - Print "Execution Pause"
՞ - Print "Execution Stop"
≂ - Print "Execution Log Recording"
⇕ - Print "Resuming Execution"
✽- Print "Network Status: Connected"
🌥- Print "Network Status: Offline"
ј- Print "Retrieving Data…"
׃- Print "Battery Status"
ׅ- Print "Charging Status"
😩- Print "Disk Space"
ۈ- Print "Saving File…"
·- Print "Display Info"
🖃 - Print "Keyboard Input Expected"
վ- Print "Mouse Interaction Detected"

â - Append R0 to VF[R1]
🕿 - Prepend R0 to VF[R1]
❪ - Remove first element of VF[R1]
խ - Remove last element of VF[R1]
🗣 - Remove element at index R0 from VF[R1]
8 - Insert R0 at index R1 in VF[R1]
ņ - Replace element at index R1 with R0 in VF[R1]
ĕ - Reverse VF[R1]
👳 - Sort VF[R1] in ascending order
Ӫ - Sort VF[R1] in descending order
إ - Shuffle VF[R1]
r - Deduplicate VF[R1]
σ - Rotate VF[R1] left by R0 positions
œ - Rotate VF[R1] right by R0 positions
ҟ - Extract sublist from VF[R1] starting at index R0 for R1 elements
ٚ - Split VF[R1] into two lists at index R0
ӵ - Merge VF[R0] and VF[R1] into VF[R2]
΀ - VF[R1] = VF[R1] concatenated with VF[R0]
🖏 - VF[R1] = VF[R0] repeated R1 times
⇚ - Get the sum of VF[R1] into R0
ض - Get the product of VF[R1] into R0
Ê - Get the maximum element of VF[R1] into R0
😜 - Get the minimum element of VF[R1] into R0
ת - Get the average of VF[R1] into R0
☺ - Get the median of VF[R1] into R0
📫 - Get the mode of VF[R1] into R0
Ù - Get the standard deviation of VF[R1] into R0
w - If VF[R1] contains R0, execute next instruction
K - If VF[R1] does not contain R0, skip next instruction
] - If VF[R1] is empty, jump to previous instruction
ϴ - If VF[R1] has an even number of elements, repeat previous instruction
ϥ - If VF[R1] has an odd number of elements, repeat next instruction
Գ - If the sum of VF[R1] is greater than R0, execute next instruction
⛜ - If VF[R1] is sorted, skip next instruction
Ú - If VF[R1] is reversed, repeat previous instruction
Ѥ - Convert all elements in VF[R1] into hexadecimal
🔲 - Convert all elements in VF[R1] into octal
⋐ - Convert all elements in VF[R1] into binary
S - VF[R1] = Insert sequence of floats from 0.0 to R0
≌ - VF[R1] = Generate a list of random floats between 0 and R0
ñ - VF[R1] = Generate a list of normalized values from R1
✧ - VF[R1] = Generate a list of logarithmically spaced values up to R0
Ŵ- Set R0 to π (3.1415926535…)
≩- Set R0 to Euler's number (2.718281828…)
🌝- Set R0 to the golden ratio (1.6180339887…)
⋰- Set R0 to τ (2π)
Ş- Set R0 to Euler-Mascheroni constant (0.5772156649…)
✳ - Set R0 to mathematical e
Р - Set R0 to infinity
🗇 - Set R0 to 1
ۇ - Set R0 to 5/6
😠 - Set R0 to 1/3
😻 - Set R0 to 3/5
Ņ - Set R0 to √2
Ŏ - Set R0 to ∛3
ψ - Set R0 to ∜4
❴- Set R0 to Σ (Summation)
⊉ - Set R0 to Π (Product)
🏰 - Set R0 to factorial of R1
ҫ - Set R0 to a random natural number
¯ - Set R0 to a random integer
° - Set R0 to a rational number
ѧ - Set R0 to a real number
⛞ - Set R0 to a complex number
⋝ - Print "Hello, World!"
׽ - Print "Goodbye, World!"
⊝ - Print "Error: Invalid Input"
ց - Print "Success!"
☌ - Print "Game Over"
ֽ - Print "Welcome to Infinite Golfing"
х - Print "End of Execution"
😂 - Print "Execution Complete"
Ύ - Print "Infinite Golfing—Extreme Code Golf!"
↯ - Print "System Info"
😵 - Print "Memory Usage"
🎔 - Print "CPU Load"
ة - Print "Processing"
➎ - Print "Done!"
☂ - Print "Loading"
֩ - Print "Finished Loading"
🌭 - Print "Current Time"
^ - Print "Start!"
ײ - Print "Paused"
➼ - Print "Stopped"
´ - Print "Recording"
׍ - Print "Playing"
≽ - Print "Recycling Memory"
🌣 - Print "System Reset"
❳ - Print "Infinite Loop Warning!"
🙆 - Print "Restarting Execution"
ٺ - Print "Fast Forwarding"
♏ - Print "Rewinding"
∉ - Print "Increasing Speed"
լ - Print "Decreasing Speed"
ſ - Print "Skipping to Next Step"
ʼn - Print "Going Back One Step"
Έ - Print "Execution Start"
❒ - Print "Execution Pause"
😆 - Print "Execution Stop"
☮ - Print "Execution Log Recording"
📉 - Print "Resuming Execution"
J- Print "Network Status: Connected"
u- Print "Network Status: Offline"
۷- Print "Retrieving Data"
⛏- Print "Battery Status"
♶- Print "Charging Status"
➟- Print "Disk Space"
ـ𿠠- Print "Saving File"
Հ- Print "Display Info"
գ - Print "Keyboard Input Expected"
🕆- Print "Mouse Interaction Detected"
Ŗ - R0 = Absolute value of R1
Ћ - R0 = Negate R1
Ĺ - R0 = Bitwise NOT of R1
🔃 - R0 = R1 shifted left by R0 bits
🐋 - R0 = R1 shifted right by R0 bits
a - R0 = Rotate bits of R1 left by R0
П - R0 = Rotate bits of R1 right by R0
\ - R0 = Set to R1 if R0 is positive; else, keep R0
Ҡ - R0 = Set to R1 if R0 is negative; else, keep R0
ے - Swap R0 and R1
϶ - R0 = Bitwise AND between R0 and R1
Ճ - R0 = Bitwise OR between R0 and R1
↣ - R0 = Bitwise XOR between R0 and R1
⛶ - R0 = R0 incremented by 1
🏒 - R0 = R0 decremented by 1
ٿ - R0 = R0 squared
≢ - R0 = R0 cubed
🙇 - R0 = R0 mod R1
֝ - R0 = Floor division of R0 by R1
➾ - R0 = R0 raised to power R1
↵ - R0 = Log base 10 of R1
ڴ - R0 = Log base 2 of R1
β - R0 = Natural log of R1
♞ - R0 = Sine of R1
☱ - R0 = Cosine of R1
į - R0 = Tangent of R1
؟ - R0 = Arc sine of R1
ٌ - R0 = Arc cosine of R1
؎ - R0 = Arc tangent of R1
٠ - R0 = Factorial of R1
🌯 - R0 = R1 converted to binary representation
ŗ - R0 = R1 converted to hexadecimal representation
😨 - R0 = R1 converted to octal representation
Ա - R0 = R1 converted to Unicode code point
☄ - R0 = R1 converted to ASCII code
Ĥ - R0 = Next prime number after R1
֡ - R0 = Next Fibonacci number after R1
⇧ - R0 = Check if R1 is prime (sets R0 to 1 if true, else 0)
ױ - Check if R1 is even (sets R0 to 1 if true, else 0)
Ӿ - Check if R1 is odd (sets R0 to 1 if true, else 0)
І - R0 = Greatest common divisor of R0 and R1
😸 - R0 = Least common multiple of R0 and R1
ì - R0 = Random integer between 0 and R1
↕ - R0 = Random float between 0 and R1
4 - R0 = R0 converted to string in VS[R1]
ģ - Print all registers currently stored
Ŭ - Print number of function calls made
⊓ - Print execution optimization overview
↡ - Print error recovery stack trace
ϰ - Print runtime analysis of R0
Կ - Print execution statistics for R1
🔋 - Print active memory usage
⇜ - Print the function dependency tree
≨ - Print real-time performance analysis
Å - Print background execution priority level
ۑ - Print CPU branch prediction rates
Α - Print execution rollback checkpoints
≡ - Print active cache optimization report
ւ - Print structured debugging trace
7 - Print execution pause state evaluation
🍦 - Print memory fragmentation breakdown
🍊 - Print cryptographic entropy pool status
ۺ - Print real-time algorithm optimizations
∠ - Print execution acceleration values
р - Print optimized step computation hints
о - Print structured memory tracking logs
Ѿ - Print last processed register stack
√ - Print concurrent execution thread stats
➨ - Print resource allocation summaries
? - Loop Start (Execute while R0 > R1)
ۊ - Loop End (Exit if condition fails)
☴ - Loop Start (Execute while R0 < R1)
Զ - Loop End (Exit if condition fails)
➇ - Loop Start (Execute while R0 is positive)
❷ - Loop End (Exit if R0 becomes negative)
ۣ - Loop Start (Execute while R0 is negative)
ڸ - Loop End (Exit if R0 reaches zero)
🎍 - Loop Start (Execute while R0 is even)
і - Loop End (Exit if R0 becomes odd)
ۚ - Loop Start (Execute while R0 is odd)
👡 - Loop End (Exit if R0 becomes even)
→ - Loop Start (Execute while R0 is prime)
ι - Loop End (Exit if R0 is composite)
🏈 - Loop Start (Execute while R0 mod R1 is non-zero)
⚂ - Loop End (Exit if R0 mod R1 == 0)
ѹ - Loop Start (Execute while R0 is within [R1, R2])
⇝ - Loop End (Exit if R0 moves outside range)
☶ - Loop Start (Execute while R0 is a Fibonacci number)
֐ - Loop End (Exit if R0 no longer follows Fibonacci sequence)
📥 - Loop Start (Execute while sum of digits in R0 > R1)
♣ - Loop End (Exit if sum is equal or less)
ӑ - Loop Start (Execute while R0 is a perfect square)
ل - Loop End (Exit if R0 is no longer a perfect square)
⋭ - IF Start (Execute if R0 > R1)
ֶ - IF End (Exit IF block)
↻ - IF Start (Execute if R0 < R1)
ä - IF End (Exit IF block)
❩ - IF Start (Execute if R0 == R1)
⇁ - IF End (Exit IF block)
؜ - IF Start (Execute if R0 is zero)
ڦ - IF End (Exit IF block)
ٵ - IF Start (Execute if R0 is negative)
❛ - IF End (Exit IF block)
פ - IF Start (Execute if R0 is a prime number)
׾ - IF End (Exit IF block)
🍜 - IF Start (Execute if R0 is even)
∥ - IF End (Exit IF block)
📤 - IF Start (Execute if R0 is odd)
⋦ - IF End (Exit IF block)
ٛ - IF Start (Execute if R0 is divisible by R1)
Û - IF End (Exit IF block)
🏋 - IF Start (Execute if R0 is part of the first 100 primes)
ա - IF End (Exit IF block)
ۨ - IF Start (Execute if R0 is inside a valid execution range)
ս - IF End (Exit IF block)
😯 - IF Start (Execute if R0 is a power of two)
΃ - IF End (Exit IF block)
΋ - R0 = Glitch ASCII characters in R1 (randomized corruption)
≱ - R0 = Apply Zalgo distortion to R1
⇥ - R0 = Add excessive diacritics to R1 (corrupt formatting)
⊙ - R0 = Flip all characters in R1 upside down
Ĩ - R0 = Insert invisible Unicode corruptions into R1
ِ - R0 = Add flickering effect when displayed (randomized rendering)
🌍 - R0 = Inject excessive spaces inside R1 to appear broken
ՠ - R0 = Convert R1 into alternating uppercase/lowercase randomness (mOcKiNg)
∍ - R0 = Shift R1's characters left by random corrupted offsets
🎑 - R0 = Shift R1's characters right by random corrupted offsets
׭ - R0 = Replace letters in R1 with visually similar glitch symbols
Փ - R0 = Scramble the characters in R1 with random positions
🍁 - R0 = Overlay R1's text with background noise characters
՘ - R0 = Randomly duplicate some characters in R1
ٕ - R0 = Swap every two characters in R1
∌ - R0 = Convert R1 into corrupted binary encoding
➊ - R0 = Convert R1 into corrupted hexadecimal encoding
⛚ - R0 = Add empty byte fragments to R1
ك - R0 = Reverse all bits in R1 (binary corruption)
Լ - R0 = Apply stuttering effect to text (random character duplication)
⊐ - R0 = Insert Unicode control characters into R1 for display glitches
❻ - R0 = Scramble character widths for glitch effects
҈ - R0 = Convert R1 into an unstable animated distortion format
🙊 - R0 = Apply flickering text bug effect to R1
֨ - R0 = Reduce legibility of R1 using subtle misalignments
☯ - R0 = Stretch out R1’s characters unevenly
☘ - R0 = Convert R1 into a corrupted emoji sequence
ζ - Print "OK"
❅ - Print "ERROR"
❏ - Print "WARNING"
⇠ - Print "CRITICAL ERROR"
✲ - Print "SUCCESS"
ձ - Print "FAILURE"
🎧 - Print "Message Sent"
⚡ - Print "Call Connected"
Ը- Print "Playing Music"
Ā- Print "Muted"
♁- Print "Connecting to Network…"
🗱- Print "Network Connected"
ª- Print "Network Offline"
Ξ- Print "Battery Status: Good"
🕺- Print "Charging…"
Υ- Print "Saving File"
Ď- Print "Loading Data…"
❉- Print "System Ready"
Ą - Print "Keyboard Input Needed"
Ľ- Print "Mouse Click Detected"
⊡ - Print "Processing…"
֚󻐠- Print "Execution Running"
ѐ- Print "Launching…"
ՙ񑀠- Print "Refreshing Page"
⋕- Print "Searching…"
զ- Print "Scanning Data"
֙񇀠- Print "Reading File"
☆- Print "Generating Report"
×- Print "Opening Document"
й- Print "Creating Folder"
Ս- Print "Organizing Files"
ί- Print "Indexing…"
⊖- Print "Analyzing Data"
P- Print "System Performance Low"
∽- Print "Tip: Use shortcut keys!"
🍀- Print "New Notification"
🖽- Print "ALERT: Unauthorized Access!"
۔- Print "Generating Random Number…"
⇐ - Print "Loading…"
غ - Print "Completed!"
♨ - Print "Current Time: [System Time]"
🌌- Print "Today's Date: [System Date]"
⛎- Print "Calendar Event Set"
⇗񁠠- Print "Scheduled Task Active"
ϔ - Print "Executing Script"
🍘 - Print "Paused"
՝ - Print "Stopped"
⛔ - Print "Recording Log"
🐟 - Print "Resuming Execution"
≥ - Print "Recycling Memory Cache"
Ї - Print "System Reset"
↴ - Print "Infinite Loop Warning!"
Џ- Print "Cleaning Memory Storage"
🗶- Print "Checking System Status"
֒- Print "Re-running Last Task"
↚- Print "Repeating Execution"
Ϙ- Print "Restarting Code"
֌- Print "Redoing Previous Step"
✞- Print "System Maintenance Ongoing"
ק- Print "Optimizing Execution"
ϓ- Print "Geo-Location Access"
☼- Print "Audio System Initialized"
⇮- Print "Sound Output On"
⚫- Print "Announcement: Update Available!"
ж- Print "Attention Required!"
ה- Print "Voice Recognition Ready"
֣񎠠- Print "Streaming Video…"
😔- Print "Fetching Online Data"
✙- Print "Generating Link"
Й- Print "Debugging Enabled"
⇸- Print "Secure Mode Activated"
מ- Print "Unauthorized Action Blocked!"
↨- Print "Access Denied!"
ڋ- Print "Logging Out"
۩- Print "Login Successful"
➗- Print "HALT: System Error"
Ð- Print "Learning AI Mode Activated"
ѣ- Print "Analyzing AI Model Performance"
⛘- Print "Checking Emails"
❵- Print "Downloading Attachment"
ϛ- Print "Sending Message"
ժ- Print "Mailbox Updated"
👢 - Print "Clipboard Copied"
∮- Print "Reading Article"
✜ - Print "Comparing Data"
ը- Print "Target Achieved"
ѯ- Print "Randomizing Dataset"
ژ- Print "Predicting Trends"
ؘ񂠠- Print "Rendering Graph…"
∱- Print "Graph Showing Growth"
֏- Print "Graph Showing Decline"
😘- Print "Creating PDF Report"
⇌- Print "Writing Text File"
׶- Print "Loading Dictionary"
🗌- Print "Retrieving Encyclopedia Entry"
Ӝ- Print "Achievement Unlocked!"
⚹- Print "Master Key Activated"
☁- Tells the compiler to use XHN (eXtramely Huge Numbers), means every variable and register is 8192-bit.
׮ - Tells the compiler to use MSN (Memory Saving Numbers). Registers are 16-bit, BSR and floats are 32-bit, big integers are 64-bit
∢ - Tells the compiler to entiry use malbolge mode without allowing exiting this mode (Since unicode of this command is high, malbolge most recent ASCII code resets to 0)
Ι - Disables registers. Every register-releated command will fail to work.
Ϸ - Enables Infinite handling - Numbers > 10^1024 is INFINITY, means if you convert them to string they will output "INFINITY".
🗩 - Enables NaN handing - Invalid numbers should get "NaN" when converting to string, and in math operations they are 0.
۾- Calculate the next prime number after R0
😄 - Compute the Fibonacci sequence up to R0 terms
😷 - Find the square root of R0
υ - Compute the cube root of R0
Φ - Compute the natural logarithm of R0
Ó - Find the greatest common divisor (GCD) of R0 and R1
Λ - Compute the least common multiple (LCM) of R0 and R1
¤ - Determine if R0 is a perfect square (returns 1 if true, 0 if false)
✈ - Compute the sum of digits in R0
ó - Compute the product of digits in R0
✌ - Compute the modulo of R0 divided by R1
😫 - Compute R0 raised to the power of R1
☃ - Compute the factorial of R0
🗭 - Compute the absolute value of R0
⊻ - Find the minimum value between R0 and R1
ë - Find the maximum value between R0 and R1
♯ - Compute the sine of R0 (assuming radians)
🖿 - Compute the cosine of R0 (assuming radians)
ӥ - Compute the tangent of R0 (assuming radians)
⚺ - Compute the inverse sine (arcsin) of R0
£ - Compute the inverse cosine (arccos) of R0
😪 - Compute the inverse tangent (arctan) of R0
ٍ - Compute the hyperbolic sine of R0
🕁 - Compute the hyperbolic cosine of R0
ĩ - Compute the hyperbolic tangent of R0
ր - Compute the golden ratio approximation for R0 terms
🕂 - Convert R0 into degrees from radians
ч - Convert R0 into radians from degrees
տ - Compute the sum of an arithmetic series up to R0 terms
֍ - Compute the product of an arithmetic series up to R0 terms
 - Compute the sum of a geometric series up to R0 terms
😤 - Compute the product of a geometric series up to R0 terms
Ť - Compute the harmonic mean of R0 and R1
ӗ - Compute the logarithm of R0 in base R1
֑ - Compute the standard deviation of R0, R1, and R2
⊊ - Compute the median value of R0, R1, and R2
😅 - Compute the mode value of R0, R1, and R2
🏩 - Compute the nth triangular number (sum of first R0 natural numbers)
ő - Compute the nth pentagonal number (sum of first R0 pentagonal sequence)
ŕ - Compute the nth hexagonal number (sum of first R0 hexagonal sequence)
🎰 - Compute the Euler totient function for R0
⋸ - Compute the Catalan number for R0
÷ - Compute the Bell number for R0
♪ - Compute the Stirling number of the second kind for R0
¬ - Compute the number of divisors of R0
❓ - Compute the sum of all divisors of R0
Ŝ - Compute the average of R0, R1, and R2
👯 - Compute the weighted average of R0, R1, and R2 with weights
ξ - Compute the binomial coefficient (nCr) for R0 and R1
Ϩ - Compute the permutation coefficient (nPr) for R0 and R1
📝 - Compute the total number of partitions for R0
♢ - Compute the number of ways to arrange R0 elements in R1 positions
f - Compute the superfactorial of R0 (product of all factorials up to R0)
ۅ - Compute the exponential growth formula for R0 over R1 time steps
ҭ - Compute the logarithmic decay formula for R0 over R1 time steps
Л- Convert R0 into Roman numerals
ŋ- Compute the cyclic permutation of R0 digits
¡- Compute the sum of first R0 triangle numbers
➬- Compute the sum of first R0 square numbers
ą- Compute the sum of first R0 cube numbers
Ӂ- Compute the alternating sum of first R0 integers
։- Compute the number of trailing zeros in R0 factorial
Ե- Compute the number of leading zeros in R0 binary representation
❿- Compute the number of digits in R0
☩ - Compute the weighted sum of R0, R1, and R2
🙌 - Compute the time complexity estimate for sorting R0 elements
֮󐀠- Compute the modular multiplicative inverse of R0 mod R1
☖- Compute the statistical variance of R0, R1, and R2
♓- Compute the exponential interpolation between R0 and R1
Χ- Compute the logarithmic interpolation between R0 and R1
õ- Compute the weekday given a date (R0, R1, R2 → YYYY/MM/DD)
➞- Compute the day number in a given year (ordinal day)
Ŋ- Compute the leap year status of R0 (returns 1 if true, 0 if false)
(- Compute the number of ways to sum R0 using distinct numbers
¥- Compute the number of ways to partition R0 into exactly R1 parts
🗂- Compute the probability of rolling R0 or higher on an R1-sided die
∔- Compute the probability of hitting a given target in R0 attempts
⇇ - Compute the energy required for a moving object using mass R0 and velocity R1
⚐- Compute the gravitational force between two masses R0 and R1 at distance R2
ێ- Convert R0 between Celsius, Fahrenheit, and Kelvin
↰- Compute the angle between two vectors R0 and R1
۴- Compute escape velocity for a given mass R0
☷- Compute Earth's circumference at latitude R0
ڰ- Compute the brightness of a star given luminosity R0 and distance R1
« - Compute weight on a planet given Earth weight R0 and gravity ratio R1
ń - Compute the nth root of R0, given exponent R1 (Find R0^(1/R1))
📰 - Compute the factorial summation of R0 (Find 1! + 2! + ... + R0!)