DCIPs/assets/eip-6220/contracts/ICatalog.sol

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// SPDX-License-Identifier: CC0-1.0
pragma solidity ^0.8.16;
import "@openzeppelin/contracts/utils/introspection/IERC165.sol";
/**
* @title ICatalog
* @author RMRK team
* @notice An interface Catalog for equippable module.
*/
interface ICatalog is IERC165 {
/**
* @notice Event to announce addition of a new part.
* @dev It is emitted when a new part is added.
* @param partId ID of the part that was added
* @param itemType Enum value specifying whether the part is `None`, `Slot` and `Fixed`
* @param zIndex An uint specifying the z value of the part. It is used to specify the depth which the part should
* be rendered at
* @param equippableAddresses An array of addresses that can equip this part
* @param metadataURI The metadata URI of the part
*/
event AddedPart(
uint64 indexed partId,
ItemType indexed itemType,
uint8 zIndex,
address[] equippableAddresses,
string metadataURI
);
/**
* @notice Event to announce new equippables to the part.
* @dev It is emitted when new addresses are marked as equippable for `partId`.
* @param partId ID of the part that had new equippable addresses added
* @param equippableAddresses An array of the new addresses that can equip this part
*/
event AddedEquippables(
uint64 indexed partId,
address[] equippableAddresses
);
/**
* @notice Event to announce the overriding of equippable addresses of the part.
* @dev It is emitted when the existing list of addresses marked as equippable for `partId` is overwritten by a new
* one.
* @param partId ID of the part whose list of equippable addresses was overwritten
* @param equippableAddresses The new, full, list of addresses that can equip this part
*/
event SetEquippables(uint64 indexed partId, address[] equippableAddresses);
/**
* @notice Event to announce that a given part can be equipped by any address.
* @dev It is emitted when a given part is marked as equippable by any.
* @param partId ID of the part marked as equippable by any address
*/
event SetEquippableToAll(uint64 indexed partId);
/**
* @notice Used to define a type of the item. Possible values are `None`, `Slot` or `Fixed`.
* @dev Used for fixed and slot parts.
*/
enum ItemType {
None,
Slot,
Fixed
}
/**
* @notice The integral structure of a standard RMRK catalog item defining it.
* @dev Requires a minimum of 3 storage slots per catalog item, equivalent to roughly 60,000 gas as of Berlin hard fork
* (April 14, 2021), though 5-7 storage slots is more realistic, given the standard length of an IPFS URI. This
* will result in between 25,000,000 and 35,000,000 gas per 250 assets--the maximum block size of Ethereum
* mainnet is 30M at peak usage.
* @return itemType The item type of the part
* @return z The z value of the part defining how it should be rendered when presenting the full NFT
* @return equippable The array of addresses allowed to be equipped in this part
* @return metadataURI The metadata URI of the part
*/
struct Part {
ItemType itemType; //1 byte
uint8 z; //1 byte
address[] equippable; //n Collections that can be equipped into this slot
string metadataURI; //n bytes 32+
}
/**
* @notice The structure used to add a new `Part`.
* @dev The part is added with specified ID, so you have to make sure that you are using an unused `partId`,
* otherwise the addition of the part vill be reverted.
* @dev The full `IntakeStruct` looks like this:
* [
* partID,
* [
* itemType,
* z,
* [
* permittedCollectionAddress0,
* permittedCollectionAddress1,
* permittedCollectionAddress2
* ],
* metadataURI
* ]
* ]
* @return partId ID to be assigned to the `Part`
* @return part A `Part` to be added
*/
struct IntakeStruct {
uint64 partId;
Part part;
}
/**
* @notice Used to return the metadata URI of the associated catalog.
* @return string Base metadata URI
*/
function getMetadataURI() external view returns (string memory);
/**
* @notice Used to return the `itemType` of the associated catalog
* @return string `itemType` of the associated catalog
*/
function getType() external view returns (string memory);
/**
* @notice Used to check whether the given address is allowed to equip the desired `Part`.
* @dev Returns true if a collection may equip asset with `partId`.
* @param partId The ID of the part that we are checking
* @param targetAddress The address that we are checking for whether the part can be equipped into it or not
* @return bool The status indicating whether the `targetAddress` can be equipped into `Part` with `partId` or not
*/
function checkIsEquippable(uint64 partId, address targetAddress)
external
view
returns (bool);
/**
* @notice Used to check if the part is equippable by all addresses.
* @dev Returns true if part is equippable to all.
* @param partId ID of the part that we are checking
* @return bool The status indicating whether the part with `partId` can be equipped by any address or not
*/
function checkIsEquippableToAll(uint64 partId) external view returns (bool);
/**
* @notice Used to retrieve a `Part` with id `partId`
* @param partId ID of the part that we are retrieving
* @return struct The `Part` struct associated with given `partId`
*/
function getPart(uint64 partId) external view returns (Part memory);
/**
* @notice Used to retrieve multiple parts at the same time.
* @param partIds An array of part IDs that we want to retrieve
* @return struct An array of `Part` structs associated with given `partIds`
*/
function getParts(uint64[] calldata partIds)
external
view
returns (Part[] memory);
}