1
0
mirror of https://github.com/oceanprotocol/docs.git synced 2024-11-26 19:49:26 +01:00
docs/data-scientists/ocean.py/ocean-assets-tech-details.md

32 KiB

description
Technical details about OceanAssets functions

Ocean Assets Tech Details

Through this class we can publish different types of assets & consume them to make 💲💲💲

Creates URL Asset

  • create_url_asset(self, name: str, url: str, publisher_wallet, wait_for_aqua: bool = True ) -> tuple

It is the most used functions in all the READMEs.

Creates asset of type "dataset", having UrlFiles, with good defaults.

It can be called after instantiating Ocean object.

Parameters

  • name - name of the asset, string
  • url - url that is stored in the asset, string
  • publisher_wallet - wallet of the asset publisher/owner, eth Account
  • wait_for_aqua - boolean value which default is True, waiting for aquarius to fetch the asset takes additional time, but if you want to be sure that your asset is indexed, keep the default value.

Returns

tuple

A tuple which contains the data NFT, datatoken and the data asset.

Defined in

ocean/ocean_assets.py

Source code

{% code overflow="wrap" %}

 @enforce_types
    def create_url_asset(
        self, name: str, url: str, publisher_wallet, wait_for_aqua: bool = True
    ) -> tuple:
        """Create asset of type "data", having UrlFiles, with good defaults"""
        metadata = self._default_metadata(name, publisher_wallet)
        files = [UrlFile(url)]
        return self._create_1dt(metadata, files, publisher_wallet, wait_for_aqua)

{% endcode %}

Creates Algorithm Asset

  • create_algo_asset(self, name: str, url: str, publisher_wallet, image: str = "oceanprotocol/algo_dockers", tag: str = "python-branin", checksum: str = "sha256:8221d20c1c16491d7d56b9657ea09082c0ee4a8ab1a6621fa720da58b09580e4", wait_for_aqua: bool = True) -> tuple:

Create asset of type "algorithm", having UrlFiles, with good defaults.

It can be called after instantiating Ocean object.

Parameters:

  • name - name of the asset, string
  • url - url that is stored in the asset, string
  • publisher_wallet - wallet of the asset publisher/owner, eth Account
  • image - docker image of that algorithm, string
  • tag - docker tag for that algorithm image, string
  • checksum - docker checksum for algorithm's image, string
  • wait_for_aqua - boolean value which default is True, waiting for aquarius to fetch the asset takes additional time, but if you want to be sure that your asset is indexed, keep the default value.

Returns

tuple

A tuple which contains the algorithm NFT, algorithm datatoken and the algorithm asset.

Defined in

ocean/ocean_assets.py

Source code

{% code overflow="wrap" %}

@enforce_types
    def create_algo_asset(
        self,
        name: str,
        url: str,
        publisher_wallet,
        image: str = "oceanprotocol/algo_dockers",
        tag: str = "python-branin",
        checksum: str = "sha256:8221d20c1c16491d7d56b9657ea09082c0ee4a8ab1a6621fa720da58b09580e4",
        wait_for_aqua: bool = True,
    ) -> tuple:
        """Create asset of type "algorithm", having UrlFiles, with good defaults"""

        if image == "oceanprotocol/algo_dockers" or tag == "python-branin":
            assert image == "oceanprotocol/algo_dockers" and tag == "python-branin"

        metadata = self._default_metadata(name, publisher_wallet, "algorithm")
        metadata["algorithm"] = {
            "language": "python",
            "format": "docker-image",
            "version": "0.1",
            "container": {
                "entrypoint": "python $ALGO",
                "image": image,
                "tag": tag,
                "checksum": checksum,
            },
        }

        files = [UrlFile(url)]
        return self._create_1dt(metadata, files, publisher_wallet, wait_for_aqua)

{% endcode %}

Creates Arweave Asset

  • create_arweave_asset(self, name: str, transaction_id: str, publisher_wallet, wait_for_aqua: bool = True) -> tuple

Creates asset of type "data", having ArweaveFile, with good defaults.

It can be called after instantiating Ocean object.

Parameters

  • name - name of the asset, string
  • transaction_id - transaction id from the arweave file, string
  • publisher_wallet - wallet of the asset publisher/owner, eth Account
  • wait_for_aqua - boolean value which default is True, waiting for aquarius to fetch the asset takes additional time, but if you want to be sure that your asset is indexed, keep the default value.

Returns

tuple

A tuple which contains the data NFT, datatoken and the data asset.

Defined in

ocean/ocean_assets.py

Source code

{% code overflow="wrap" %}

@enforce_types
    def create_arweave_asset(
        self,
        name: str,
        transaction_id: str,
        publisher_wallet,
        wait_for_aqua: bool = True,
    ) -> tuple:
        """Create asset of type "data", having ArweaveFiles, with good defaults"""
        metadata = self._default_metadata(name, publisher_wallet)
        files = [ArweaveFile(transaction_id)]
        return self._create_1dt(metadata, files, publisher_wallet, wait_for_aqua)

{% endcode %}

Creates GraphQL Asset

  • create_graphql_asset(self, name: str, url: str, query: str, publisher_wallet, wait_for_aqua: bool = True) -> tuple

Creates asset of type "data", having GraphqlQuery files, with good defaults.

It can be called after instantiating Ocean object.

Parameters

  • name - name of the asset, string
  • url - url of subgraph that you are using, string
  • query - GraphQL query, string
  • publisher_wallet - wallet of the asset publisher/owner, eth Account
  • wait_for_aqua - boolean value which default is True, waiting for aquarius to fetch the asset takes additional time, but if you want to be sure that your asset is indexed, keep the default value.

Returns

tuple

A tuple which contains the data NFT, datatoken and the data asset.

Defined in

ocean/ocean_assets.py

Source code

{% code overflow="wrap" %}

@enforce_types
    def create_graphql_asset(
        self,
        name: str,
        url: str,
        query: str,
        publisher_wallet,
        wait_for_aqua: bool = True,
    ) -> tuple:
        """Create asset of type "data", having GraphqlQuery files, w good defaults"""
        metadata = self._default_metadata(name, publisher_wallet)
        files = [GraphqlQuery(url, query)]
        return self._create_1dt(metadata, files, publisher_wallet, wait_for_aqua)

{% endcode %}

Creates Onchain Asset

  • create_onchain_asset(self, name: str, contract_address: str, contract_abi: dict, publisher_wallet, wait_for_aqua: bool = True) -> tuple

Creates asset of type "data", having SmartContractCall files, with good defaults.

It can be called after instantiating Ocean object.

Parameters

  • name - name of the asset, string
  • contract_address - contract address that should be stored in the asset, string
  • contract_abi - ABI of functions presented in the contract, string
  • publisher_wallet - wallet of the asset publisher/owner, eth Account
  • wait_for_aqua - boolean value which default is True, waiting for aquarius to fetch the asset takes additional time, but if you want to be sure that your asset is indexed, keep the default value.

Returns

tuple

A tuple which contains the data NFT, datatoken and the data asset.

Defined in

ocean/ocean_assets.py

Source code

{% code overflow="wrap" %}

@enforce_types
    def create_onchain_asset(
        self,
        name: str,
        contract_address: str,
        contract_abi: dict,
        publisher_wallet,
        wait_for_aqua: bool = True,
    ) -> tuple:
        """Create asset of type "data", having SmartContractCall files, w defaults"""
        chain_id = self._chain_id
        onchain_data = SmartContractCall(contract_address, chain_id, contract_abi)
        files = [onchain_data]
        metadata = self._default_metadata(name, publisher_wallet)
        return self._create_1dt(metadata, files, publisher_wallet, wait_for_aqua)

{% endcode %}

Creates Asset (for advanced skills)

  • create(self, metadata: dict, publisher_wallet, credentials: Optional[dict] = None, data_nft_address: Optional[str] = None, data_nft_args: Optional[DataNFTArguments] = None, deployed_datatokens: Optional[List[Datatoken]] = None, services: Optional[list] = None, datatoken_args: Optional[List["DatatokenArguments"]] = None, encrypt_flag: Optional[bool] = True, compress_flag: Optional[bool] = True, wait_for_aqua: bool = True) -> tuple

Register an asset on-chain. Asset = {data_NFT, >=0 datatokens, DDO}

Creating/deploying a DataNFT contract and in the Metadata store (Aquarius).

Parameters

  • metadata: dictionary conforming to the Metadata accepted by Ocean Protocol.
  • publisher_wallet- eth Account of the publisher registering this asset.
  • credentials - credentials dictionary necessary for the asset, which establish who can consume the asset and who cannot.
  • data_nft_address- hex string, the address of the data NFT. The new asset will be associated with this data NFT address.
  • data_nft_args- object of DataNFTArguments type if creating a new one.
  • deployed_datatokens- list of datatokens which are already deployed.
  • services - list of Service objects if you want to run multiple services for a datatoken or you have multiple datatokens with a single service each.
  • datatoken_args - list of objects of DatatokenArguments type if creating a new datatokens.
  • encrypt_flag- bool for encryption of the DDO.
  • compress_flag- bool for compression of the DDO.
  • wait_for_aqua- bool for spending time waiting for DDO to be updated in Aquarius.

Returns

tuple

A tuple which contains the data NFT, datatoken and the data asset.

Defined in

ocean/ocean_assets.py

Source code

{% code overflow="wrap" %}

def create(
        self,
        metadata: dict,
        publisher_wallet,
        credentials: Optional[dict] = None,
        data_nft_address: Optional[str] = None,
        data_nft_args: Optional[DataNFTArguments] = None,
        deployed_datatokens: Optional[List[Datatoken]] = None,
        services: Optional[list] = None,
        datatoken_args: Optional[List["DatatokenArguments"]] = None,
        encrypt_flag: Optional[bool] = True,
        compress_flag: Optional[bool] = True,
        wait_for_aqua: bool = True,
    ) -> Optional[DDO]:

        self._assert_ddo_metadata(metadata)

        provider_uri = DataServiceProvider.get_url(self._config_dict)

        if not data_nft_address:
            data_nft_args = data_nft_args or DataNFTArguments(
                metadata["name"], metadata["name"]
            )
            data_nft = data_nft_args.deploy_contract(
                self._config_dict, publisher_wallet
            )
            # register on-chain
            if not data_nft:
                logger.warning("Creating new NFT failed.")
                return None, None, None
            logger.info(f"Successfully created NFT with address {data_nft.address}.")
        else:
            data_nft = DataNFT(self._config_dict, data_nft_address)

        # Create DDO object
        ddo = DDO()

        # Generate the did, add it to the ddo.
        ddo.did = data_nft.calculate_did()
        # Check if it's already registered first!
        if self._aquarius.ddo_exists(ddo.did):
            raise AquariusError(
                f"Asset id {ddo.did} is already registered to another asset."
            )
        ddo.chain_id = self._chain_id
        ddo.metadata = metadata

        ddo.credentials = credentials if credentials else {"allow": [], "deny": []}

        ddo.nft_address = data_nft.address
        datatokens = []

        if not deployed_datatokens:
            services = []
            for datatoken_arg in datatoken_args:
                new_dt = datatoken_arg.create_datatoken(
                    data_nft, publisher_wallet, with_services=True
                )
                datatokens.append(new_dt)

                services.extend(datatoken_arg.services)

            for service in services:
                ddo.add_service(service)
        else:
            if not services:
                logger.warning("services required with deployed_datatokens.")
                return None, None, None

            datatokens = deployed_datatokens
            dt_addresses = []
            for datatoken in datatokens:
                if deployed_datatokens[0].address not in data_nft.getTokensList():
                    logger.warning(
                        "some deployed_datatokens don't belong to the given data nft."
                    )
                    return None, None, None

                dt_addresses.append(datatoken.address)

            for service in services:
                if service.datatoken not in dt_addresses:
                    logger.warning("Datatoken services mismatch.")
                    return None, None, None

                ddo.add_service(service)

        # Validation by Aquarius
        _, proof = self.validate(ddo)
        proof = (
            proof["publicKey"],
            proof["v"],
            proof["r"][0],
            proof["s"][0],
        )

        document, flags, ddo_hash = self._encrypt_ddo(
            ddo, provider_uri, encrypt_flag, compress_flag
        )

        data_nft.setMetaData(
            0,
            provider_uri,
            Web3.toChecksumAddress(publisher_wallet.address.lower()).encode("utf-8"),
            flags,
            document,
            ddo_hash,
            [proof],
            {"from": publisher_wallet},
        )

        # Fetch the ddo on chain
        if wait_for_aqua:
            ddo = self._aquarius.wait_for_ddo(ddo.did)

        return (data_nft, datatokens, ddo)

{% endcode %}

Publishing Alternatives

Here are some examples similar to the create() above, but exposes more fine-grained control.

In the same python console:

# Specify metadata and services, using the Branin test dataset
date_created = "2021-12-28T10:55:11Z"
metadata = {
    "created": date_created,
    "updated": date_created,
    "description": "Branin dataset",
    "name": "Branin dataset",
    "type": "dataset",
    "author": "Trent",
    "license": "CC0: PublicDomain",
}

# Use "UrlFile" asset type. (There are other options)
from ocean_lib.structures.file_objects import UrlFile
url_file = UrlFile(
    url="https://raw.githubusercontent.com/trentmc/branin/main/branin.arff"
)

# Publish data asset
from ocean_lib.models.datatoken_base import DatatokenArguments
_, _, ddo = ocean.assets.create(
    metadata,
    {"from": alice},
    datatoken_args=[DatatokenArguments(files=[url_file])],
)

DDO Encryption or Compression

The DDO is stored on-chain. It's encrypted and compressed by default. Therefore it supports GDPR "right-to-be-forgotten" compliance rules by default.

You can control this during create():

  • To disable encryption, use ocean.assets.create(..., encrypt_flag=False).
  • To disable compression, use ocean.assets.create(..., compress_flag=False).
  • To disable both, use ocean.assetspy.create(..., encrypt_flag=False, compress_flag=False).

Create just a data NFT

Calling create() like above generates a data NFT, a datatoken for that NFT, and a ddo. This is the most common case. However, sometimes you may want just the data NFT, e.g. if using a data NFT as a simple key-value store. Here's how:

data_nft = ocean.data_nft_factory.create({"from": alice}, 'NFT1', 'NFT1')

If you call create() after this, you can pass in an argument data_nft_address:string and it will use that NFT rather than creating a new one.

Create a datatoken from a data NFT

Calling create() like above generates a data NFT, a datatoken for that NFT, and a ddo object. However, we may want a second datatoken. Or, we may have started with just the data NFT, and want to add a datatoken to it. Here's how:

datatoken = data_nft.create_datatoken({"from": alice}, "Datatoken 1", "DT1")

If you call create() after this, you can pass in an argument deployed_datatokens:List[Datatoken1] and it will use those datatokens during creation.

Create an asset & pricing schema simultaneously

Ocean Assets allows you to bundle several common scenarios as a single transaction, thus lowering gas fees.

Any of the ocean.assets.create_<type>_asset() functions can also take an optional parameter that describes a bundled pricing schema (Dispenser or Fixed Rate Exchange).

Here is an example involving an exchange:

{% code overflow="wrap" %}

from ocean_lib.models.fixed_rate_exchange import ExchangeArguments
(data_nft, datatoken, ddo) = ocean.assets.create_url_asset(
    name,
    url,
    {"from": alice},
    pricing_schema_args=ExchangeArguments(rate=to_wei(3), base_token_addr=ocean.OCEAN_address, dt_decimals=18)
)

assert len(datatoken.get_exchanges()) == 1

{% endcode %}

Updates Asset

  • update(self, ddo: DDO, publisher_wallet, provider_uri: Optional[str] = None, encrypt_flag: Optional[bool] = True, compress_flag: Optional[bool] = True) -> Optional[DDO]

Updates a ddo on-chain.

Parameters

  • ddo - DDO to update
  • publisher_wallet - who published this DDO
  • provider_uri - URL of service provider. This will be used as base to construct the serviceEndpoint for the access (download) service.
  • encrypt_flag - boolean value for encryption the DDO
  • compress_flag - boolean value for compression the DDO

Returns

DDO or None

The updated DDO, or None if updated DDO not found in Aquarius.

Defined in

ocean/ocean_assets.py

Source code

{% code overflow="wrap" %}

@enforce_types
    def update(
        self,
        ddo: DDO,
        publisher_wallet,
        provider_uri: Optional[str] = None,
        encrypt_flag: Optional[bool] = True,
        compress_flag: Optional[bool] = True,
    ) -> Optional[DDO]:

        self._assert_ddo_metadata(ddo.metadata)

        if not provider_uri:
            provider_uri = DataServiceProvider.get_url(self._config_dict)

        assert ddo.nft_address, "need nft address to update a ddo"
        data_nft = DataNFT(self._config_dict, ddo.nft_address)

        assert ddo.chain_id == self._chain_id

        for service in ddo.services:
            service.encrypt_files(ddo.nft_address)

        # Validation by Aquarius
        validation_result, errors_or_proof = self.validate(ddo)
        if not validation_result:
            msg = f"DDO has validation errors: {errors_or_proof}"
            logger.error(msg)
            raise ValueError(msg)

        document, flags, ddo_hash = self._encrypt_ddo(
            ddo, provider_uri, encrypt_flag, compress_flag
        )

        proof = (
            errors_or_proof["publicKey"],
            errors_or_proof["v"],
            errors_or_proof["r"][0],
            errors_or_proof["s"][0],
        )

        tx_result = data_nft.setMetaData(
            0,
            provider_uri,
            Web3.toChecksumAddress(publisher_wallet.address.lower()).encode("utf-8"),
            flags,
            document,
            ddo_hash,
            [proof],
            {"from": publisher_wallet},
        )

        ddo = self._aquarius.wait_for_ddo_update(ddo, tx_result.txid)

        return ddo

{% endcode %}

Resolves Asset

  • resolve(self, did: str) -> "DDO"

Resolves the asset from Metadata Cache store (Aquarius).

Parameter

  • did - identifier of the DDO to be searched & resolved in Aquarius

Returns

DDO

Returns DDO instance.

Defined in

ocean/ocean_assets.py

Source code
@enforce_types
    def resolve(self, did: str) -> "DDO":
        return self._aquarius.get_ddo(did)

Searches Assets by Text

  • search(self, text: str) -> list

Searches a DDO by a specific text.

Parameter

  • text - string text to search for assets which include it.

Returns

list

A list of DDOs which have matches with the text provided as parameter.

Defined in

ocean/ocean_assets.py

Source code
@enforce_types
    def search(self, text: str) -> list:
        """
        Search for DDOs in aquarius that contain the target text string
        :param text - target string
        :return - List of DDOs that match with the query
        """
        logger.info(f"Search for DDOs containing text: {text}")
        text = text.replace(":", "\\:").replace("\\\\:", "\\:")
        return [
            DDO.from_dict(ddo_dict["_source"])
            for ddo_dict in self._aquarius.query_search(
                {"query": {"query_string": {"query": text}}}
            )
            if "_source" in ddo_dict
        ]

Searches Asset by GraphQL Query

  • query(self, query: dict) -> list

Searches a DDO by a specific query.

Parameter

  • query - dictionary type query to search for assets which include it.

Returns

list

A list of DDOs which have matches with the query provided as parameter.

Defined in

ocean/ocean_assets.py

Source code

{% code overflow="wrap" %}

 @enforce_types
    def query(self, query: dict) -> list:
        """
        Search for DDOs in aquarius with a search query dict
        :param query - dict with query parameters
          More info at: https://docs.oceanprotocol.com/api-references/aquarius-rest-api
        :return - List of DDOs that match the query.
        """
        logger.info(f"Search for DDOs matching query: {query}")
        return [
            DDO.from_dict(ddo_dict["_source"])
            for ddo_dict in self._aquarius.query_search(query)
            if "_source" in ddo_dict
        ]

{% endcode %}

Downloads Asset

  • download_asset(self, ddo: DDO, consumer_wallet, destination: str, order_tx_id: Union[str, bytes], service: Optional[Service] = None, index: Optional[int] = None, userdata: Optional[dict] = None) -> str

Downloads the asset from Ocean Market.

Parameters

  • ddo - DDO to be downloaded.
  • consumer_wallet - eth Account for the wallet that "ordered" the asset.
  • destination - destination path, as string, where the asset will be downloaded.
  • order_tx_id - transaction ID for the placed order, string and bytes formats are accepted.

Optional parameters

  • service - optionally if you want to provide the Service object through you downloaded the asset.
  • index - optionally if you want to download certain files, not the whole asset, you can specify how many files you want to download as positive integer format.
  • userdata - dictionary additional data from user.

Returns

str

The full path to the downloaded file as string.

Defined in

ocean/ocean_assets.py

Source code

{% code overflow="wrap" %}

@enforce_types
    def download_asset(
        self,
        ddo: DDO,
        consumer_wallet,
        destination: str,
        order_tx_id: Union[str, bytes],
        service: Optional[Service] = None,
        index: Optional[int] = None,
        userdata: Optional[dict] = None,
    ) -> str:
        service = service or ddo.services[0]  # fill in good default

        if index is not None:
            assert isinstance(index, int), logger.error("index has to be an integer.")
            assert index >= 0, logger.error("index has to be 0 or a positive integer.")

        assert (
            service and service.type == ServiceTypes.ASSET_ACCESS
        ), f"Service with type {ServiceTypes.ASSET_ACCESS} is not found."

        path: str = download_asset_files(
            ddo, service, consumer_wallet, destination, order_tx_id, index, userdata
        )
        return path

{% endcode %}

Pays for Access Service

  • pay_for_access_service(self, ddo: DDO, wallet, service: Optional[Service] = None, consume_market_fees: Optional[TokenFeeInfo] = None, consumer_address: Optional[str] = None, userdata: Optional[dict] = None)

Pays for access service by calling initialize endpoint from Provider and starting the order.

Parameters

  • ddo - DDO to be downloaded.
  • wallet- eth Account for the wallet that pays for the asset.

Optional parameters

  • service - optionally if you want to provide the Service object through you downloaded the asset.
  • consume_market_fees - TokenFeeInfo object which contains consume market fee address, amount and token address.
  • consumer_address - address for the consumer which pays for the access.
  • userdata - dictionary additional data from user.

Returns

str

Return value is a hex string for transaction hash which denotes the proof of starting order.

Defined in

ocean/ocean_assets.py

Source code

{% code overflow="wrap" %}

@enforce_types
    def pay_for_access_service(
        self,
        ddo: DDO,
        wallet,
        service: Optional[Service] = None,
        consume_market_fees: Optional[TokenFeeInfo] = None,
        consumer_address: Optional[str] = None,
        userdata: Optional[dict] = None,
    ):
        # fill in good defaults as needed
        service = service or ddo.services[0]
        consumer_address = consumer_address or wallet.address

        # main work...
        dt = Datatoken(self._config_dict, service.datatoken)
        balance = dt.balanceOf(wallet.address)

        if balance < to_wei(1):
            raise InsufficientBalance(
                f"Your token balance {balance} {dt.symbol()} is not sufficient "
                f"to execute the requested service. This service "
                f"requires 1 wei."
            )

        consumable_result = is_consumable(
            ddo,
            service,
            {"type": "address", "value": wallet.address},
            userdata=userdata,
        )
        if consumable_result != ConsumableCodes.OK:
            raise AssetNotConsumable(consumable_result)

        data_provider = DataServiceProvider

        initialize_args = {
            "did": ddo.did,
            "service": service,
            "consumer_address": consumer_address,
        }

        initialize_response = data_provider.initialize(**initialize_args)
        provider_fees = initialize_response.json()["providerFee"]

        receipt = dt.start_order(
            consumer=consumer_address,
            service_index=ddo.get_index_of_service(service),
            provider_fees=provider_fees,
            consume_market_fees=consume_market_fees,
            transaction_parameters={"from": wallet},
        )

        return receipt.txid

{% endcode %}

Pays for Compute Service

  • pay_for_compute_service(self, datasets: List[ComputeInput], algorithm_data: Union[ComputeInput, AlgorithmMetadata], compute_environment: str, valid_until: int, consume_market_order_fee_address: str, wallet, consumer_address: Optional[str] = None)

Pays for compute service by calling initializeCompute endpoint from Provider to retrieve the provider fees and starting the order afterwards.

Parameters

  • datasets - list of ComputeInput objects, each of them includes mandatory the DDO and service.
  • algorithm_data - which can be either a ComputeInput object which contains the whole DDO and service, either provide just the algorithm metadata as AlgorithmMetadata.
  • compute_environment - string that represents the ID from the chosen C2D environment.
  • valid_until - UNIX timestamp which represents until when the algorithm can be used/run.
  • consume_market_order_fee_address - string address which denotes the consume market fee address for that order and can be the wallet address itself.
  • wallet - the eth Account which pays for the compute service

Optional parameters

  • consumer_address - is the string address of the C2D environment consumer.

Returns

tuple

Return value is a tuple composed of list of datasets and algorithm data (if exists in result), (datasets, algorithm_data).

Defined in

ocean/ocean_assets.py

Source code
 @enforce_types
    def pay_for_compute_service(
        self,
        datasets: List[ComputeInput],
        algorithm_data: Union[ComputeInput, AlgorithmMetadata],
        compute_environment: str,
        valid_until: int,
        consume_market_order_fee_address: str,
        wallet,
        consumer_address: Optional[str] = None,
    ):
        data_provider = DataServiceProvider

        if not consumer_address:
            consumer_address = wallet.address

        initialize_response = data_provider.initialize_compute(
            [x.as_dictionary() for x in datasets],
            algorithm_data.as_dictionary(),
            datasets[0].service.service_endpoint,
            consumer_address,
            compute_environment,
            valid_until,
        )

        result = initialize_response.json()
        for i, item in enumerate(result["datasets"]):
            self._start_or_reuse_order_based_on_initialize_response(
                datasets[i],
                item,
                TokenFeeInfo(
                    consume_market_order_fee_address,
                    datasets[i].consume_market_order_fee_token,
                    datasets[i].consume_market_order_fee_amount,
                ),
                wallet,
                consumer_address,
            )

        if "algorithm" in result:
            self._start_or_reuse_order_based_on_initialize_response(
                algorithm_data,
                result["algorithm"],
                TokenFeeInfo(
                    address=consume_market_order_fee_address,
                    token=algorithm_data.consume_market_order_fee_token,
                    amount=algorithm_data.consume_market_order_fee_amount,
                ),
                wallet,
                consumer_address,
            )

            return datasets, algorithm_data

        return datasets, None