Solidity 30 day challenge with codedamn
- Logic building in Solidity
- Creation of Smart contracts
- Use str as a variable to store value.
-
Create a state variable and initialize it with 10.
-
Create a
function returnStateVariable( )
which returns the value of the created state variable. -
Create a local variable and initialize it with 20.
-
Create a
function returnLocalVariable( )
which returns the value of the created local variable.
-
Create a state variable of uint type (need not to be public).
-
Create a
function set()
and with one argument. And set the value of the created state variable with the value passed as an argument to theset()
. -
Then create another
function get()
which returns the value of the state variable.
-
Create a
function evaluate(int a , int b)
. -
Subtract the difference of a and b from the sum of a and b.
-
Return the result of the above task from the
evaluate()
.
-
Create a
function find(int a)
. Wherea > 0
. -
Return the remainder when a is divided by 3.
-
Create a
function average(int a,int b,int c)
. Wherea > 0,b > 0,c > 0
. -
Return the average of a, b and c.
-
Create a
function digitSum(int n)
. Wheren > 0
. -
Return the sum of digit for n.
- Example - If
n = 345
thendigitSum()
mustreturn 12 i.e. 3+4+5 = 12
Ifn = 909
thendigitSum()
mustreturn 18 i.e. 9+0+9 = 18
Task: Write a function that returns the nth term in a series S, where the next term is the sum of previous three terms.
-
There is a series, S , where the next term is the sum of pervious three terms. Given the first three terms of the series, a, b ,c and respectively, you have to output the nth term of the series.
S(n) = a for n=1 S(n) = b for n=2 S(n) = c for n=3 S(n) = S(n-1) + S(n-2) + S(n-3) for n>3
-
Create a
function nthTerm(uint n, uint a, uint b, uint c)
where n is the nth term to find and a, b, c are the three terms of the series.
- Example - If
n = 5 a = 1 b = 2 c = 3
thennthTerm()
mustreturn 11 as S(1) = 1 S(2) = 2 S(3) = 3 S(4) = S(3) + S(2) + S(1) = 1 + 2 + 3 = 6 S(5) = S(4) + S(3) + S(2) = 6 + 3 + 2 = 11
-
A prime number is a whole number greater than 1. It has exactly two factors, that is, 1 and the number itself.
-
Create a
function prime(uint n)
. Thisprime()
will check whether n is a prime number or not. -
If n is a prime number then
prime()
returns 1 and n is not prime thenprime()
must return 0.
- Example - If
n = 103
thenprime()
must return 1 as 103 is a prime number. Ifn = 200
thenprime()
must return 0 as 200 is not a prime number.
- If y is a positive integer and x is any real number, then
x ^ y
corresponds to repeated multiplicationx ^ y = xĂ—xĂ—â‹ŻĂ—x
y times. We can call this “x raised to the power of y,” “x to the power of y,” or simply “x to the y.” Here, x is the base and y is the exponent or the power. - Create a
function power(uint x, uint y)
. Thispower()
will calculate x raised to the power of y and return it.
- Example - If
x = 2 y = 3
thenpower()
must return 8(2 x 2 x 2 = 8)
Ifx = 7
y = 2
thenpower()
must return 49(7 x 7 = 49)
-
A palindrome number is a number that is same after reverse. For example 545, 151, 34543 etc.
-
Create a
function palindrome(uint n)
. Thispalindrome()
will check whethern
is a palindrome or not. -
If
n
is a palindrome thenpalindrome()
returns 1 andn
is not palindrome thenpalindrome()
must return 0.
- Example - If
n = 545
thenpalindrome()
must return 1. Ifn = 123
thenpalindrome()
must return 0.
- Create a
function reverseDigit(uint n)
. ThisreverseDigit()
will do the reversal of the number n.
- Example - If
n = 123
thenreverseDigit()
must return 321. Ifn = 5342
thenreverseDigit()
must return 2435.
-
Create a
function reverseArray(array, length of array)
. ThisreverseArray()
will take two arguments - a dynamic uint type array and length of the array. -
The
reverseArray()
will reverse the array.
- For Example - If
array = [2,5,9,11,1]
thenreverseArray()
will return[1,11,9,5,2]
. Ifarray = [90,20,30,10]
thenreverseArray()
will return[10,30,20,90]
.
-
Create a
function even(array, length of array)
. Thiseven()
will take two arguments - a dynamic uint type array and length of the array. -
The
even()
will multiply each element of array with 2.
- For Example - If
array = [2,5,11,1]
theneven()
will return[4,10,22,2,]
. Ifarray = [1,3,5,7]
theneven()
will return[2,6,10,14]
.
-
Create a
function sort(array, length of array)
. Thissort()
will take two arguments - a dynamic uint type array and length of the array. -
The
sort()
will sort the array elements in ascending order.
- For Example - If
array = [2,5,9,11,1]
thensort()
will return[1,2,5,9,11]
. Ifarray = [90,20,30,10]
thensort()
will return[10,20,30,90]
.
-
Create a
function distinct(array, length of array)
. Thisdistinct()
will take two arguments - a dynamic uint type array and length of the array. -
The
distinct()
will return the number of distinct elements in an array.
- For Example - If
array = [4, 2, 3, 4]
thendistinct()
will return 3. Ifarray = [1, 1, 1]
thendistinct()
will return 1.
-
Create a
function search(array, length of array,element to search)
. Thissearch()
will take three arguments - a dynamic uint type array ,length of the array, element that we need to search. -
The
search()
will search an element in an array. -
If element is found then it will return 1 otherwise 0.
- For Example - If
array = [4, 2, 3, 4]
search element = 2 thensearch()
will return 1. Ifarray = [1, 2, 3]
search element = 4 thensearch()
will return 0.
-
Create a
function sumArray(array, length of array)
. ThissumArray()
will take two arguments - a dynamic int type array and length of the array. -
The
sumArray()
will add all elements of an array.
- For Example - If
array = [4, 2, 3, 4]
thensumArray()
will return 13 i.e.4 + 2 + 3 + 4 = 13
Ifarray = [1, 2, 3]
thensumArray()
will return 6 i.e.1 + 2 + 3 = 6
.
-
Create a
function expression(x, n)
. -
The
expression()
will find the sum of the above expression.
- For Example - If
x = 2
n = 3
thenexpression()
will return 15. Ifx = 5
n = 1
thenexpression()
will return 6.
-
Create a
function secondMax(array, length of array)
. ThissecondMax()
will take two arguments - a dynamic int type array and length of the array. -
The
secondMax()
will find the second largest element in an array.
- For Example - If
array = [40, 12, 31, 6]
thensecondMax()
will return 31. Ifarray = [9, 122, 37, 54]
thensecondMax()
will return 54.
-
Create a
function hcf(num1,num2)
. Thishcf()
will take two arguments uint type number1 and number2. -
The
hcf()
will find the of number1 and number2.
- For Example - If
num1 = 60
num2 = 75
thenhcf()
will return 15. Ifnum1 = 31
andnum2 = 23
thenhcf()
will return 1.
-
Create a structure ->
struct Book { string title; string author; uint256 book_id; }
-
Create two functions
a) setBook(title(string),author(string),id(uint))
- To set the book title, author and id given in the structure.
b) getBook()
- To get the book title, author and id.
-
Create "Book type" dynamic array. This "Book type" array will contain different types of Book.
-
Create a counter( initialized by 1) which increases every time when a Book is added to the "Book type" array. This counter will act as a id for the Books added in the "Book type" array. Every Book in the "Book type" array will have a unique id.
-
Create two functions
a) setBook(title(string), author(string), id(uint))
- To set the book title, author and id given in the "Book type" array.
b) getBook(id(uint))
- To get the book title, author and id of the Book whose id is passed as an argument.
Task: Define an array within a structure (struct). Write setter and getter function use cases for it.
-
Create a structure ->
struct Student { string name; uint256[3] marks; }
-
Create two functions
a) set(name of student, marks in maths, marks in science, marks in english)
- To set the name and marks of a student in marks array.
b) get()
- To get the name, marks in maths, marks in science and marks in english of the student.
-
Create an ->
enum House { SMALL, MEDIUM, LARGE }
-
Create a variable of enum type.
-
Create a
function setLarge()
. This will set the value of the enum type variable (created at step 2) with LARGE. -
Create a
function getChoice()
which will return the value of the enum type variable (created at step 2) .
-
Create a
constructor()
to hold the address of the owner. [Hint: use msg.sender]. -
Create a
function returnOwner()
which returns the address of the owner. -
This
returnOwner()
can only be called by the owner (that we set usingconstructor()
). If some other address tries to call thisreturnOwner()
, it should revert with this statement "You are not the owner".
-
Create a
mapping(address => uint256)
. -
Create a
function updateBalance(balance to update)
. ThisupdateBalance()
will take one argument - a uint type variable. This function will update the balance of the address who has called thisupdateBalance()
. -
Create a function
checkBalance(address of a user)
. ThischeckBalance(address user)
will take one argument - a address type variable. This function will return the balance of the user who has called this function. With this function user can only check his/her own balance only. If the user tries to check some other address balance thecheckBalance()
should revert with "You are not the owner of the account".
-
Create a
constructor()
to set the owner of contract . [Hint: use msg.sender] -
Create a payable function
send(address type array for storing addresses, uint type array to store the amount)
. Thissend()
will do the following - -
The
send()
can only be called by owner of the contract. -
Check whehter the length of the address array is equal to length of the amount array. If not revert with "to must be same length as amount".
-
If the length of both array are equal. Then it will transfer the amount from the amount array to the address array in such a way address at ith index of address array receives the amount at ith index of amount array.
-
For Example - If address array =[0x412, 0x2ab, 0x3de] and amount array = [10,5,90] then send() will transfer amount 10 to address 0x412 , amount 5 to address 0x2ab, amount 90 to address 03de.
-
Create an array which stores addresses of the team players.
-
Create an array(address type) which stores only 16 elements.
-
getTeamPlayers()
- To return the entire array elements. -
selectJerseyNumber()
- It will take only one argument of uint type and returns the players address from the array created above.a) The argument passed into the function must be greater than equal to zero and less than equal to 15. [Hint - Use require]
Task: Write a function that concatenates two strings and returns the value of the concatenated strings.
-
concatenate()
- This function will take two arguments i.e string 1 and string 2. It will concatenate string 1 and string 2 and will return the concatenated string.