abirhasanmubin/1_Storage.sol

## 1_Storage.sol
pragma solidity >=0.4.22 <0.7.0;

/**
 * @title Storage
 * @dev Store & retrieve value in a variable
 */
contract Storage {

    uint256 number;

    /**
     * @dev Store value in variable
     * @param num value to store
     */
    function store(uint256 num) public {
        number = num;
    }

    /**
     * @dev Return value
     * @return value of 'number'
     */
    function retrieve() public view returns (uint256){
        return number;
    }
}

## 2_Owner.sol
pragma solidity >=0.4.22 <0.7.0;

/**
 * @title Owner
 * @dev Set & change owner
 */
contract Owner {

    address private owner;

    // event for EVM logging
    event OwnerSet(address indexed oldOwner, address indexed newOwner);

    // modifier to check if caller is owner
    modifier isOwner() {
        // If the first argument of 'require' evaluates to 'false', execution terminates and all
        // changes to the state and to Ether balances are reverted.
        // This used to consume all gas in old EVM versions, but not anymore.
        // It is often a good idea to use 'require' to check if functions are called correctly.
        // As a second argument, you can also provide an explanation about what went wrong.
        require(msg.sender == owner, "Caller is not owner");
        _;
    }

    /**
     * @dev Set contract deployer as owner
     */
    constructor() public {
        owner = msg.sender; // 'msg.sender' is sender of current call, contract deployer for a constructor
        emit OwnerSet(address(0), owner);
    }

    /**
     * @dev Change owner
     * @param newOwner address of new owner
     */
    function changeOwner(address newOwner) public isOwner {
        emit OwnerSet(owner, newOwner);
        owner = newOwner;
    }

    /**
     * @dev Return owner address
     * @return address of owner
     */
    function getOwner() external view returns (address) {
        return owner;
    }
}

## 3_Ballot.sol
pragma solidity >=0.4.22 <0.7.0;

/**
 * @title Ballot
 * @dev Implements voting process along with vote delegation
 */
contract Ballot {

    struct Voter {
        uint weight; // weight is accumulated by delegation
        bool voted;  // if true, that person already voted
        address delegate; // person delegated to
        uint vote;   // index of the voted proposal
    }

    struct Proposal {
        // If you can limit the length to a certain number of bytes,
        // always use one of bytes1 to bytes32 because they are much cheaper
        bytes32 name;   // short name (up to 32 bytes)
        uint voteCount; // number of accumulated votes
    }

    address public chairperson;

    mapping(address => Voter) public voters;

    Proposal[] public proposals;

    /**
     * @dev Create a new ballot to choose one of 'proposalNames'.
     * @param proposalNames names of proposals
     */
    constructor(bytes32[] memory proposalNames) public {
        chairperson = msg.sender;
        voters[chairperson].weight = 1;

        for (uint i = 0; i < proposalNames.length; i++) {
            // 'Proposal({...})' creates a temporary
            // Proposal object and 'proposals.push(...)'
            // appends it to the end of 'proposals'.
            proposals.push(Proposal({
                name: proposalNames[i],
                voteCount: 0
            }));
        }
    }

    /**
     * @dev Give 'voter' the right to vote on this ballot. May only be called by 'chairperson'.
     * @param voter address of voter
     */
    function giveRightToVote(address voter) public {
        require(
            msg.sender == chairperson,
            "Only chairperson can give right to vote."
        );
        require(
            !voters[voter].voted,
            "The voter already voted."
        );
        require(voters[voter].weight == 0);
        voters[voter].weight = 1;
    }

    /**
     * @dev Delegate your vote to the voter 'to'.
     * @param to address to which vote is delegated
     */
    function delegate(address to) public {
        Voter storage sender = voters[msg.sender];
        require(!sender.voted, "You already voted.");
        require(to != msg.sender, "Self-delegation is disallowed.");

        while (voters[to].delegate != address(0)) {
            to = voters[to].delegate;

            // We found a loop in the delegation, not allowed.
            require(to != msg.sender, "Found loop in delegation.");
        }
        sender.voted = true;
        sender.delegate = to;
        Voter storage delegate_ = voters[to];
        if (delegate_.voted) {
            // If the delegate already voted,
            // directly add to the number of votes
            proposals[delegate_.vote].voteCount += sender.weight;
        } else {
            // If the delegate did not vote yet,
            // add to her weight.
            delegate_.weight += sender.weight;
        }
    }

    /**
     * @dev Give your vote (including votes delegated to you) to proposal 'proposals[proposal].name'.
     * @param proposal index of proposal in the proposals array
     */
    function vote(uint proposal) public {
        Voter storage sender = voters[msg.sender];
        require(sender.weight != 0, "Has no right to vote");
        require(!sender.voted, "Already voted.");
        sender.voted = true;
        sender.vote = proposal;

        // If 'proposal' is out of the range of the array,
        // this will throw automatically and revert all
        // changes.
        proposals[proposal].voteCount += sender.weight;
    }

    /**
     * @dev Computes the winning proposal taking all previous votes into account.
     * @return winningProposal_ index of winning proposal in the proposals array
     */
    function winningProposal() public view
            returns (uint winningProposal_)
    {
        uint winningVoteCount = 0;
        for (uint p = 0; p < proposals.length; p++) {
            if (proposals[p].voteCount > winningVoteCount) {
                winningVoteCount = proposals[p].voteCount;
                winningProposal_ = p;
            }
        }
    }

    /**
     * @dev Calls winningProposal() function to get the index of the winner contained in the proposals array and then
     * @return winnerName_ the name of the winner
     */
    function winnerName() public view
            returns (bytes32 winnerName_)
    {
        winnerName_ = proposals[winningProposal()].name;
    }
}

## mainNet.sol
pragma solidity >=0.4.22 <0.7.0;

contract MainContract{

    address owner;
    uint256 public sensorCounter;
    mapping(uint256=>Sensor) public dataset;

    // address[] public ownerList;

    mapping(uint256 => address) sensorList;

    modifier onlyOwner(){
        require(msg.sender == owner, "Caller is not owner");
        _;
    }

    constructor() public payable{
        owner = msg.sender;
        sensorCounter = 0;
    }

    struct sensorOwner{
        uint256 ownerId;
        uint256[] sensorList; // Sensor Id
    }

    struct Sensor{
        uint256 sensorId;
        uint256 sensorType;
        string sensorName;
        Data[] dataList;

        // uint256 dataCount;
        // mapping(uint256=>uint256[]) sensorData; // time to data array
    }

    struct Data{
        uint256 sensorId;
        uint32 date; // yyyymmdd
        uint8 hour; // 24 hours
        uint8 minute; // 60 minutes
        uint256[] datas; // array of data -> index=>sensorreading; Ex. 0 -> 15.6
    }


    function getTime(uint32 _date, uint8 _hour, uint8 _minute) public pure returns(uint256){

        uint256 tempTime = _date * 10000;

        tempTime+= _hour * 100;

        tempTime+= _minute;

        return tempTime;
    }

    // function createData(uint256 _sensorId, uint32 _date, uint8 _hour, uint8 _minute, uint256[] memory _datas) public payable {

    //     uint256 Time = getTime(_date, _hour, _minute);

    //     dataset[_sensorId].sensorData[Time] = _datas;
    //     dataset[_sensorId].dataCount++;

    // }

    // function createSensor(string memory _sensorName) public payable onlyOwner{

    //     Sensor memory tempSensor = Sensor(sensorCounter, _sensorName, 0);

    //     dataset[sensorCounter]=tempSensor;

    //     sensorCounter++;

    // }

    // function getData(uint256 _sensorId, uint32 _date, uint8 _hour, uint8 _minute) public view returns(uint256[] memory){

    //      uint256 time = getTime(_date,_hour,_minute);

    //      return dataset[_sensorId].sensorData[time];

    // }

    // function getSensor(uint256 _sensorId) public view returns(uint256[] memory){

    //     Sensor memory tempSensor = dataset[_sensorId];

    //     uint256[] memory memoryArray = new uint256[](tempSensor.dataCount);

    //     for(uint256 i=0;i<tempSensor.dataCount;i++){

    //     }

    // }

}

## testNet.sol
pragma solidity >=0.4.22 <0.7.0;


contract MyContract{
    address owner;
    uint256 public counter;
    Sensor[] public dataset;

    modifier isOwner(){
        require(msg.sender == owner, "Caller is not owner");
        _;
    }

    struct Sensor{
        uint256 id;
        mapping(uint256=>uint256) temps;
    }

    event getData(uint256 _id);
    event getDataByTime(uint256 _id, uint256 _time);
    event sendData(uint256 _id, uint256 _time, uint256 _data);

    constructor() public{
        owner = msg.sender;
        counter = 0;
    }

    function setSensor() public isOwner{
        Sensor memory tempSensor = Sensor(counter);
        dataset.push(tempSensor);
        counter++;
    }

    function _sendData(uint256 _id, uint256 _time, uint256 _data) internal{
        dataset[_id].temps[_time]=_data;
        emit sendData(_id, _time,_data);
    }

    function _getData(uint256 _id) internal returns(Sensor memory){
        emit getData(_id);
        return dataset[_id];
    }

    function _getDataByTime(uint256 _id, uint256 _time) internal returns(uint256){
        uint256 data = dataset[_id].temps[_time];
        emit getDataByTime(_id,_time);
        return data;
    }
}
	pragma solidity >=0.4.22 <0.7.0;

	/**
	* @title Storage
	* @dev Store & retrieve value in a variable
	*/
	contract Storage {

	uint256 number;

	/**
	* @dev Store value in variable
	* @param num value to store
	*/
	function store(uint256 num) public {
	number = num;
	}

	/**
	* @dev Return value
	* @return value of 'number'
	*/
	function retrieve() public view returns (uint256){
	return number;
	}
	}
	pragma solidity >=0.4.22 <0.7.0;

	/**
	* @title Owner
	* @dev Set & change owner
	*/
	contract Owner {

	address private owner;

	// event for EVM logging
	event OwnerSet(address indexed oldOwner, address indexed newOwner);

	// modifier to check if caller is owner
	modifier isOwner() {
	// If the first argument of 'require' evaluates to 'false', execution terminates and all
	// changes to the state and to Ether balances are reverted.
	// This used to consume all gas in old EVM versions, but not anymore.
	// It is often a good idea to use 'require' to check if functions are called correctly.
	// As a second argument, you can also provide an explanation about what went wrong.
	require(msg.sender == owner, "Caller is not owner");
	_;
	}

	/**
	* @dev Set contract deployer as owner
	*/
	constructor() public {
	owner = msg.sender; // 'msg.sender' is sender of current call, contract deployer for a constructor
	emit OwnerSet(address(0), owner);
	}

	/**
	* @dev Change owner
	* @param newOwner address of new owner
	*/
	function changeOwner(address newOwner) public isOwner {
	emit OwnerSet(owner, newOwner);
	owner = newOwner;
	}

	/**
	* @dev Return owner address
	* @return address of owner
	*/
	function getOwner() external view returns (address) {
	return owner;
	}
	}
	pragma solidity >=0.4.22 <0.7.0;

	/**
	* @title Ballot
	* @dev Implements voting process along with vote delegation
	*/
	contract Ballot {

	struct Voter {
	uint weight; // weight is accumulated by delegation
	bool voted; // if true, that person already voted
	address delegate; // person delegated to
	uint vote; // index of the voted proposal
	}

	struct Proposal {
	// If you can limit the length to a certain number of bytes,
	// always use one of bytes1 to bytes32 because they are much cheaper
	bytes32 name; // short name (up to 32 bytes)
	uint voteCount; // number of accumulated votes
	}

	address public chairperson;

	mapping(address => Voter) public voters;

	Proposal[] public proposals;

	/**
	* @dev Create a new ballot to choose one of 'proposalNames'.
	* @param proposalNames names of proposals
	*/
	constructor(bytes32[] memory proposalNames) public {
	chairperson = msg.sender;
	voters[chairperson].weight = 1;

	for (uint i = 0; i < proposalNames.length; i++) {
	// 'Proposal({...})' creates a temporary
	// Proposal object and 'proposals.push(...)'
	// appends it to the end of 'proposals'.
	proposals.push(Proposal({
	name: proposalNames[i],
	voteCount: 0
	}));
	}
	}

	/**
	* @dev Give 'voter' the right to vote on this ballot. May only be called by 'chairperson'.
	* @param voter address of voter
	*/
	function giveRightToVote(address voter) public {
	require(
	msg.sender == chairperson,
	"Only chairperson can give right to vote."
	);
	require(
	!voters[voter].voted,
	"The voter already voted."
	);
	require(voters[voter].weight == 0);
	voters[voter].weight = 1;
	}

	/**
	* @dev Delegate your vote to the voter 'to'.
	* @param to address to which vote is delegated
	*/
	function delegate(address to) public {
	Voter storage sender = voters[msg.sender];
	require(!sender.voted, "You already voted.");
	require(to != msg.sender, "Self-delegation is disallowed.");

	while (voters[to].delegate != address(0)) {
	to = voters[to].delegate;

	// We found a loop in the delegation, not allowed.
	require(to != msg.sender, "Found loop in delegation.");
	}
	sender.voted = true;
	sender.delegate = to;
	Voter storage delegate_ = voters[to];
	if (delegate_.voted) {
	// If the delegate already voted,
	// directly add to the number of votes
	proposals[delegate_.vote].voteCount += sender.weight;
	} else {
	// If the delegate did not vote yet,
	// add to her weight.
	delegate_.weight += sender.weight;
	}
	}

	/**
	* @dev Give your vote (including votes delegated to you) to proposal 'proposals[proposal].name'.
	* @param proposal index of proposal in the proposals array
	*/
	function vote(uint proposal) public {
	Voter storage sender = voters[msg.sender];
	require(sender.weight != 0, "Has no right to vote");
	require(!sender.voted, "Already voted.");
	sender.voted = true;
	sender.vote = proposal;

	// If 'proposal' is out of the range of the array,
	// this will throw automatically and revert all
	// changes.
	proposals[proposal].voteCount += sender.weight;
	}

	/**
	* @dev Computes the winning proposal taking all previous votes into account.
	* @return winningProposal_ index of winning proposal in the proposals array
	*/
	function winningProposal() public view
	returns (uint winningProposal_)
	{
	uint winningVoteCount = 0;
	for (uint p = 0; p < proposals.length; p++) {
	if (proposals[p].voteCount > winningVoteCount) {
	winningVoteCount = proposals[p].voteCount;
	winningProposal_ = p;
	}
	}
	}

	/**
	* @dev Calls winningProposal() function to get the index of the winner contained in the proposals array and then
	* @return winnerName_ the name of the winner
	*/
	function winnerName() public view
	returns (bytes32 winnerName_)
	{
	winnerName_ = proposals[winningProposal()].name;
	}
	}
	pragma solidity >=0.4.22 <0.7.0;

	contract MainContract{

	address owner;
	uint256 public sensorCounter;
	mapping(uint256=>Sensor) public dataset;

	// address[] public ownerList;

	mapping(uint256 => address) sensorList;

	modifier onlyOwner(){
	require(msg.sender == owner, "Caller is not owner");
	_;
	}

	constructor() public payable{
	owner = msg.sender;
	sensorCounter = 0;
	}

	struct sensorOwner{
	uint256 ownerId;
	uint256[] sensorList; // Sensor Id
	}

	struct Sensor{
	uint256 sensorId;
	uint256 sensorType;
	string sensorName;
	Data[] dataList;

	// uint256 dataCount;
	// mapping(uint256=>uint256[]) sensorData; // time to data array
	}

	struct Data{
	uint256 sensorId;
	uint32 date; // yyyymmdd
	uint8 hour; // 24 hours
	uint8 minute; // 60 minutes
	uint256[] datas; // array of data -> index=>sensorreading; Ex. 0 -> 15.6
	}



	function getTime(uint32 _date, uint8 _hour, uint8 _minute) public pure returns(uint256){

	uint256 tempTime = _date * 10000;

	tempTime+= _hour * 100;

	tempTime+= _minute;

	return tempTime;
	}

	// function createData(uint256 _sensorId, uint32 _date, uint8 _hour, uint8 _minute, uint256[] memory _datas) public payable {

	// uint256 Time = getTime(_date, _hour, _minute);

	// dataset[_sensorId].sensorData[Time] = _datas;
	// dataset[_sensorId].dataCount++;

	// }

	// function createSensor(string memory _sensorName) public payable onlyOwner{

	// Sensor memory tempSensor = Sensor(sensorCounter, _sensorName, 0);

	// dataset[sensorCounter]=tempSensor;

	// sensorCounter++;

	// }

	// function getData(uint256 _sensorId, uint32 _date, uint8 _hour, uint8 _minute) public view returns(uint256[] memory){

	// uint256 time = getTime(_date,_hour,_minute);

	// return dataset[_sensorId].sensorData[time];

	// }

	// function getSensor(uint256 _sensorId) public view returns(uint256[] memory){

	// Sensor memory tempSensor = dataset[_sensorId];

	// uint256[] memory memoryArray = new uint256[](tempSensor.dataCount);

	// for(uint256 i=0;i<tempSensor.dataCount;i++){

	// }

	// }

	}
	pragma solidity >=0.4.22 <0.7.0;


	contract MyContract{
	address owner;
	uint256 public counter;
	Sensor[] public dataset;

	modifier isOwner(){
	require(msg.sender == owner, "Caller is not owner");
	_;
	}

	struct Sensor{
	uint256 id;
	mapping(uint256=>uint256) temps;
	}

	event getData(uint256 _id);
	event getDataByTime(uint256 _id, uint256 _time);
	event sendData(uint256 _id, uint256 _time, uint256 _data);

	constructor() public{
	owner = msg.sender;
	counter = 0;
	}

	function setSensor() public isOwner{
	Sensor memory tempSensor = Sensor(counter);
	dataset.push(tempSensor);
	counter++;
	}

	function _sendData(uint256 _id, uint256 _time, uint256 _data) internal{
	dataset[_id].temps[_time]=_data;
	emit sendData(_id, _time,_data);
	}

	function _getData(uint256 _id) internal returns(Sensor memory){
	emit getData(_id);
	return dataset[_id];
	}

	function _getDataByTime(uint256 _id, uint256 _time) internal returns(uint256){
	uint256 data = dataset[_id].temps[_time];
	emit getDataByTime(_id,_time);
	return data;
	}
	}