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ex02.cairo
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ex02.cairo
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######### Ex 02
## Understanding asserts
# In this exercice, you need to:
# - Use this contract's claim_points() function
# - Your points are credited by the contract
## What you'll learn
# - Using asserts
# - How to declare storage variables
# - How to read storage variables
# - How to create getter functions
# Asserts are a basic building bloc allowing you to verify that two values are the same.
# They are similar to require() in Solidity
# More information about basic storage https://www.cairo-by-example.com/basics/storage
######### General directives and imports
#
#
%lang starknet
%builtins pedersen range_check
from starkware.starknet.common.syscalls import (get_caller_address)
from starkware.cairo.common.cairo_builtins import HashBuiltin
from starkware.cairo.common.math import assert_not_zero
from contracts.utils.ex00_base import (
tderc20_address,
has_validated_exercise,
distribute_points,
validate_exercise,
ex_initializer
)
#
# Declaring storage vars
# Storage vars are by default not visible through the ABI. They are similar to "private" variables in Solidity
#
# This variable is a felt and is called my_secret_value_storage
# From within a smart contract, it can be read with my_secret_value_storage.read() or written to with my_secret_value_storage.write()
@storage_var
func my_secret_value_storage() -> (my_secret_value_storage: felt):
end
#
# Declaring getters
# Public variables should be declared explicitly with a getter
#
@view
func my_secret_value{syscall_ptr : felt*, pedersen_ptr : HashBuiltin*, range_check_ptr}() -> (my_secret_value: felt):
let (my_secret_value) = my_secret_value_storage.read()
return (my_secret_value)
end
######### Constructor
# This function is called when the contract is deployed
#
@constructor
func constructor{syscall_ptr : felt*, pedersen_ptr : HashBuiltin*, range_check_ptr}(
_tderc20_address: felt,
_players_registry: felt,
_workshop_id: felt,
_exercise_id: felt ,
my_secret_value: felt
):
ex_initializer(_tderc20_address, _players_registry, _workshop_id, _exercise_id)
my_secret_value_storage.write(my_secret_value)
return ()
end
######### External functions
# These functions are callable by other contracts
#
@external
func claim_points{syscall_ptr : felt*, pedersen_ptr : HashBuiltin*, range_check_ptr}(my_value: felt):
# Reading caller address
let (sender_address) = get_caller_address()
# Reading stored value from storage
let (my_secret_value) = my_secret_value_storage.read()
# Checking that the value sent is correct
# Using assert this way is similar to using "require" in Solidity
assert my_value = my_secret_value
# Checking if the user has validated the exercice before
validate_exercise(sender_address)
# Sending points to the address specified as parameter
distribute_points(sender_address, 2)
return ()
end