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NFT Catalog

The NFT Catalog is an on chain registry listing NFT collections that exists on Flow which adhere to the NFT metadata standard. This empowers dApp developers to easily build on top of and discover interoperable NFT collections on Flow.

Live Site

Checkout the catalog site to submit your NFT collection both on testnet and mainnet.

Contract Addresses

NFTCatalog.cdc: This contract contains the NFT Catalog

NetworkAddress
Mainnet0x49a7cda3a1eecc29
Testnet0x324c34e1c517e4db

NFTRetrieval.cdc: This contract contains helper functions to make it easier to discover NFTs within accounts and from the catalog

NetworkAddress
Mainnet0x49a7cda3a1eecc29
Testnet0x324c34e1c517e4db

Submitting a Collection to the NFT Catalog

  1. Visit here
  2. Enter the address containing the NFT contract which contains the collection and select the contract.
Screen Shot 2023-02-08 at 9 40 01 AM
  1. Enter the storage path where the NFTs are stored and enter an address that holds a sample NFT or log in if you have access to an account that owns the NFT.

    Screen Shot 2023-02-08 at 9 42 54 AM
  2. The application will verify that your NFT collection implements the required Metadata views.

    1. The required metadata views include…
      1. NFT Display
        1. How to display an individual NFT part of the collection
      2. External URL
        1. A website for the NFT collection
      3. Collection Data
        1. Information needed to store and retrieve an NFT
      4. Collection Display
        1. How to display information about the NFT collection the NFT belongs to
      5. Royalties
        1. Any royalties that should be accounted for during marketplace transactions
    2. You can find sample implementations of all these views in this example NFT contract.
    3. If you are not implementing a view, the app will communicate this and you can update your NFT contract and try resubmitting.
    Screen Shot 2023-02-08 at 9 46 56 AM
  3. Submit proposal transaction to the NFT catalog by entering a unique url safe identifier for the collection and a message including any additional context (like contact information).

Screen Shot 2023-02-08 at 9 48 45 AM
  1. Once submitted you can view all proposals here to track the review of your NFT.

If you would like to make a proposal manually, you may submit the following transaction with all parameters filled in: https://github.com/dapperlabs/nft-catalog/blob/main/cadence/transactions/propose_nft_to_catalog.cdc

Proposals should be reviewed and approved within a few days. Reasons for a proposal being rejected may include:

  • Providing duplicate path or name information of an existing collection on the catalog
  • Providing a not url safe or inaccurate name as the identifier

Using the Catalog (For marketplaces and other NFT applications)

All of the below examples use the catalog in mainnet, you may replace the imports to the testnet address when using the testnet network.

Example 1 - Retrieve all NFT collections on the catalog


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import NFTCatalog from 0x49a7cda3a1eecc29
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/*
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The catalog is returned as a `String: NFTCatalogMetadata`
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The key string is intended to be a unique identifier for a specific collection.
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The NFTCatalogMetadata contains collection-level views corresponding to each
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collection identifier.
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*/
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pub fun main(): {String : NFTCatalog.NFTCatalogMetadata} {
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return NFTCatalog.getCatalog()
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}

Example 2 - Retrieve all collection names in the catalog


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import NFTCatalog from 0x49a7cda3a1eecc29
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pub fun main(): [String] {
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let catalog: {String : NFTCatalog.NFTCatalogMetadata} = NFTCatalog.getCatalog()
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let catalogNames: [String] = []
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for collectionIdentifier in catalog.keys {
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catalogNames.append(catalog[collectionIdentifier]!.collectionDisplay.name)
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}
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return catalogNames
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}

Example 3 - Retrieve NFT collections and counts owned by an account


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import MetadataViews from 0x1d7e57aa55817448
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import NFTCatalog from 0x49a7cda3a1eecc29
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import NFTRetrieval from 0x49a7cda3a1eecc29
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pub fun main(ownerAddress: Address) : {String : Number} {
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let catalog = NFTCatalog.getCatalog()
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let account = getAuthAccount(ownerAddress)
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let items : {String : Number} = {}
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for key in catalog.keys {
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let value = catalog[key]!
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let tempPathStr = "catalog".concat(key)
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let tempPublicPath = PublicPath(identifier: tempPathStr)!
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account.link<&{MetadataViews.ResolverCollection}>(
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tempPublicPath,
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target: value.collectionData.storagePath
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)
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let collectionCap = account.getCapability<&AnyResource{MetadataViews.ResolverCollection}>(tempPublicPath)
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if !collectionCap.check() {
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continue
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}
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let count = NFTRetrieval.getNFTCountFromCap(collectionIdentifier : key, collectionCap : collectionCap)
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if count != 0 {
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items[key] = count
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}
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}
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return items
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}

Sample Response...


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{
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"schmoes_prelaunch_token": 1
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}

Example 4 - Retrieve all NFTs including metadata owned by an account


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import MetadataViews from 0x1d7e57aa55817448
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import NFTCatalog from 0x49a7cda3a1eecc29
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import NFTRetrieval from 0x49a7cda3a1eecc29
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pub struct NFT {
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pub let id : UInt64
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pub let name : String
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pub let description : String
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pub let thumbnail : String
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pub let externalURL : String
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pub let storagePath : StoragePath
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pub let publicPath : PublicPath
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pub let privatePath: PrivatePath
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pub let publicLinkedType: Type
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pub let privateLinkedType: Type
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pub let collectionName : String
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pub let collectionDescription: String
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pub let collectionSquareImage : String
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pub let collectionBannerImage : String
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pub let royalties: [MetadataViews.Royalty]
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init(
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id: UInt64,
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name : String,
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description : String,
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thumbnail : String,
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externalURL : String,
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storagePath : StoragePath,
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publicPath : PublicPath,
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privatePath : PrivatePath,
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publicLinkedType : Type,
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privateLinkedType : Type,
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collectionIdentifier: String,
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collectionName : String,
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collectionDescription : String,
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collectionSquareImage : String,
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collectionBannerImage : String,
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royalties : [MetadataViews.Royalty]
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) {
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self.id = id
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self.name = name
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self.description = description
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self.thumbnail = thumbnail
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self.externalURL = externalURL
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self.storagePath = storagePath
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self.publicPath = publicPath
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self.privatePath = privatePath
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self.publicLinkedType = publicLinkedType
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self.privateLinkedType = privateLinkedType
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self.collectionIdentifier = collectionIdentifier
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self.collectionName = collectionName
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self.collectionDescription = collectionDescription
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self.collectionSquareImage = collectionSquareImage
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self.collectionBannerImage = collectionBannerImage
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self.royalties = royalties
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}
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}
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pub fun main(ownerAddress: Address) : { String : [NFT] } {
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let catalog = NFTCatalog.getCatalog()
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let account = getAuthAccount(ownerAddress)
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let items : [NFTRetrieval.BaseNFTViewsV1] = []
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let data : {String : [NFT] } = {}
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for key in catalog.keys {
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let value = catalog[key]!
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let tempPathStr = "catalog".concat(key)
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let tempPublicPath = PublicPath(identifier: tempPathStr)!
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account.link<&{MetadataViews.ResolverCollection}>(
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tempPublicPath,
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target: value.collectionData.storagePath
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)
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let collectionCap = account.getCapability<&AnyResource{MetadataViews.ResolverCollection}>(tempPublicPath)
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if !collectionCap.check() {
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continue
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}
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let views = NFTRetrieval.getNFTViewsFromCap(collectionIdentifier : key, collectionCap : collectionCap)
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let items : [NFT] = []
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for view in views {
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let displayView = view.display
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let externalURLView = view.externalURL
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let collectionDataView = view.collectionData
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let collectionDisplayView = view.collectionDisplay
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let royaltyView = view.royalties
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if (displayView == nil || externalURLView == nil || collectionDataView == nil || collectionDisplayView == nil || royaltyView == nil) {
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// This NFT does not have the proper views implemented. Skipping....
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continue
_116
}
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_116
items.append(
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NFT(
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id: view.id,
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name : displayView!.name,
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description : displayView!.description,
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thumbnail : displayView!.thumbnail.uri(),
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externalURL : externalURLView!.url,
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storagePath : collectionDataView!.storagePath,
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publicPath : collectionDataView!.publicPath,
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privatePath : collectionDataView!.providerPath,
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publicLinkedType : collectionDataView!.publicLinkedType,
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privateLinkedType : collectionDataView!.providerLinkedType,
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collectionIdentifier: key,
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collectionName : collectionDisplayView!.name,
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collectionDescription : collectionDisplayView!.description,
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collectionSquareImage : collectionDisplayView!.squareImage.file.uri(),
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collectionBannerImage : collectionDisplayView!.bannerImage.file.uri(),
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royalties : royaltyView!.getRoyalties()
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)
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)
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}
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data[key] = items
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}
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return data
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}

Sample Response...


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{
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"FlovatarComponent": [],
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"schmoes_prelaunch_token": [
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s.aa16be98aac20e8073f923261531cbbdfae1464f570f5be796b57cdc97656248.NFT(
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id: 1006,
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name: "Schmoes Pre Launch Token #1006",
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description: "",
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thumbnail: "https://gateway.pinata.cloud/ipfs/QmXQ1iBke5wjcjYG22ACVXsCvtMJKEkwFiMf96UChP8uJq",
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externalURL: "https://schmoes.io",
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storagePath: /storage/SchmoesPreLaunchTokenCollection,
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publicPath: /public/SchmoesPreLaunchTokenCollection,
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privatePath: /private/SchmoesPreLaunchTokenCollection,
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publicLinkedType: Type<&A.6c4fe48768523577.SchmoesPreLaunchToken.Collection{A.1d7e57aa55817448.NonFungibleToken.CollectionPublic,A. 1d7e57aa55817448.NonFungibleToken.Receiver,A.1d7e57aa55817448.MetadataViews.ResolverCollection}>(),
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privateLinkedType: Type<&A.6c4fe48768523577.SchmoesPreLaunchToken.Collection{A.1d7e57aa55817448.NonFungibleToken.CollectionPublic,A.1d7e57aa55817448.NonFungibleToken.Provider,A.1d7e57aa55817448.MetadataViews.ResolverCollection}>(),
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collectionName: "Schmoes Pre Launch Token",
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collectionDescription: "",
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collectionSquareImage: "https://gateway.pinata.cloud/ipfs/QmXQ1iBke5wjcjYG22ACVXsCvtMJKEkwFiMf96UChP8uJq",
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collectionBannerImage: "https://gateway.pinata.cloud/ipfs/QmXQ1iBke5wjcjYG22ACVXsCvtMJKEkwFiMf96UChP8uJq",
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royalties: []
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)
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],
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"Flovatar": []
_23
}

Example 5 - Retrieve all NFTs including metadata owned by an account for large wallets

For Wallets that have a lot of NFTs you may run into memory issues. The common pattern to get around this for now is to retrieve just the ID's in a wallet by calling the following script


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import MetadataViews from 0x1d7e57aa55817448
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import NFTCatalog from 0x49a7cda3a1eecc29
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import NFTRetrieval from 0x49a7cda3a1eecc29
_33
_33
pub fun main(ownerAddress: Address) : {String : [UInt64]} {
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let catalog = NFTCatalog.getCatalog()
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let account = getAuthAccount(ownerAddress)
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_33
let items : {String : [UInt64]} = {}
_33
_33
for key in catalog.keys {
_33
let value = catalog[key]!
_33
let tempPathStr = "catalogIDs".concat(key)
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let tempPublicPath = PublicPath(identifier: tempPathStr)!
_33
account.link<&{MetadataViews.ResolverCollection}>(
_33
tempPublicPath,
_33
target: value.collectionData.storagePath
_33
)
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_33
let collectionCap = account.getCapability<&AnyResource{MetadataViews.ResolverCollection}>(tempPublicPath)
_33
if !collectionCap.check() {
_33
continue
_33
}
_33
_33
let ids = NFTRetrieval.getNFTIDsFromCap(collectionIdentifier : key, collectionCap : collectionCap)
_33
_33
if ids.length > 0 {
_33
items[key] = ids
_33
}
_33
}
_33
return items
_33
_33
}

and then use the ids to retrieve the full metadata for only those ids by calling the following script and passing in a map of collectlionIdentifer -> [ids]


_120
import MetadataViews from 0x1d7e57aa55817448
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import NFTCatalog from 0x49a7cda3a1eecc29
_120
import NFTRetrieval from 0x49a7cda3a1eecc29
_120
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pub struct NFT {
_120
pub let id : UInt64
_120
pub let name : String
_120
pub let description : String
_120
pub let thumbnail : String
_120
pub let externalURL : String
_120
pub let storagePath : StoragePath
_120
pub let publicPath : PublicPath
_120
pub let privatePath: PrivatePath
_120
pub let publicLinkedType: Type
_120
pub let privateLinkedType: Type
_120
pub let collectionName : String
_120
pub let collectionDescription: String
_120
pub let collectionSquareImage : String
_120
pub let collectionBannerImage : String
_120
pub let royalties: [MetadataViews.Royalty]
_120
_120
init(
_120
id: UInt64,
_120
name : String,
_120
description : String,
_120
thumbnail : String,
_120
externalURL : String,
_120
storagePath : StoragePath,
_120
publicPath : PublicPath,
_120
privatePath : PrivatePath,
_120
publicLinkedType : Type,
_120
privateLinkedType : Type,
_120
collectionName : String,
_120
collectionDescription : String,
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collectionSquareImage : String,
_120
collectionBannerImage : String,
_120
royalties : [MetadataViews.Royalty]
_120
) {
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self.id = id
_120
self.name = name
_120
self.description = description
_120
self.thumbnail = thumbnail
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self.externalURL = externalURL
_120
self.storagePath = storagePath
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self.publicPath = publicPath
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self.privatePath = privatePath
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self.publicLinkedType = publicLinkedType
_120
self.privateLinkedType = privateLinkedType
_120
self.collectionName = collectionName
_120
self.collectionDescription = collectionDescription
_120
self.collectionSquareImage = collectionSquareImage
_120
self.collectionBannerImage = collectionBannerImage
_120
self.royalties = royalties
_120
}
_120
}
_120
_120
pub fun main(ownerAddress: Address, collections: {String : [UInt64]}) : {String : [NFT] } {
_120
let data : {String : [NFT] } = {}
_120
_120
let catalog = NFTCatalog.getCatalog()
_120
let account = getAuthAccount(ownerAddress)
_120
for collectionIdentifier in collections.keys {
_120
if catalog.containsKey(collectionIdentifier) {
_120
let value = catalog[collectionIdentifier]!
_120
let tempPathStr = "catalog".concat(collectionIdentifier)
_120
let tempPublicPath = PublicPath(identifier: tempPathStr)!
_120
account.link<&{MetadataViews.ResolverCollection}>(
_120
tempPublicPath,
_120
target: value.collectionData.storagePath
_120
)
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let collectionCap = account.getCapability<&AnyResource{MetadataViews.ResolverCollection}>(tempPublicPath)
_120
_120
if !collectionCap.check() {
_120
return data
_120
}
_120
_120
let views = NFTRetrieval.getNFTViewsFromIDs(collectionIdentifier : collectionIdentifier, ids: collections[collectionIdentifier]!, collectionCap : collectionCap)
_120
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let items : [NFT] = []
_120
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for view in views {
_120
let displayView = view.display
_120
let externalURLView = view.externalURL
_120
let collectionDataView = view.collectionData
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let collectionDisplayView = view.collectionDisplay
_120
let royaltyView = view.royalties
_120
if (displayView == nil || externalURLView == nil || collectionDataView == nil || collectionDisplayView == nil || royaltyView == nil) {
_120
// Bad NFT. Skipping....
_120
continue
_120
}
_120
_120
items.append(
_120
NFT(
_120
id: view.id,
_120
name : displayView!.name,
_120
description : displayView!.description,
_120
thumbnail : displayView!.thumbnail.uri(),
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externalURL : externalURLView!.url,
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storagePath : collectionDataView!.storagePath,
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publicPath : collectionDataView!.publicPath,
_120
privatePath : collectionDataView!.providerPath,
_120
publicLinkedType : collectionDataView!.publicLinkedType,
_120
privateLinkedType : collectionDataView!.providerLinkedType,
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collectionName : collectionDisplayView!.name,
_120
collectionDescription : collectionDisplayView!.description,
_120
collectionSquareImage : collectionDisplayView!.squareImage.file.uri(),
_120
collectionBannerImage : collectionDisplayView!.bannerImage.file.uri(),
_120
royalties : royaltyView!.getRoyalties()
_120
)
_120
)
_120
}
_120
_120
data[collectionIdentifier] = items
_120
}
_120
}
_120
_120
_120
return data
_120
}

Example 6 - Retrieve all MetadataViews for NFTs in a wallet

If you're looking for some MetadataViews that aren't in the core view list you can leverage this script to grab all the views each NFT supports. Note: You lose some typing here but get more data.


_68
import MetadataViews from 0x1d7e57aa55817448
_68
import NFTCatalog from 0x49a7cda3a1eecc29
_68
import NFTRetrieval from 0x49a7cda3a1eecc29
_68
_68
pub struct NFTCollectionData {
_68
pub let storagePath : StoragePath
_68
pub let publicPath : PublicPath
_68
pub let privatePath: PrivatePath
_68
pub let publicLinkedType: Type
_68
pub let privateLinkedType: Type
_68
_68
init(
_68
storagePath : StoragePath,
_68
publicPath : PublicPath,
_68
privatePath : PrivatePath,
_68
publicLinkedType : Type,
_68
privateLinkedType : Type,
_68
) {
_68
self.storagePath = storagePath
_68
self.publicPath = publicPath
_68
self.privatePath = privatePath
_68
self.publicLinkedType = publicLinkedType
_68
self.privateLinkedType = privateLinkedType
_68
}
_68
}
_68
_68
pub fun main(ownerAddress: Address) : { String : {String : AnyStruct} } {
_68
let catalog = NFTCatalog.getCatalog()
_68
let account = getAuthAccount(ownerAddress)
_68
let items : [MetadataViews.NFTView] = []
_68
_68
let data : { String : {String : AnyStruct} } = {}
_68
_68
for key in catalog.keys {
_68
let value = catalog[key]!
_68
let tempPathStr = "catalog".concat(key)
_68
let tempPublicPath = PublicPath(identifier: tempPathStr)!
_68
account.link<&{MetadataViews.ResolverCollection}>(
_68
tempPublicPath,
_68
target: value.collectionData.storagePath
_68
)
_68
let collectionCap = account.getCapability<&AnyResource{MetadataViews.ResolverCollection}>(tempPublicPath)
_68
if !collectionCap.check() {
_68
continue
_68
}
_68
_68
var views = NFTRetrieval.getAllMetadataViewsFromCap(collectionIdentifier : key, collectionCap : collectionCap)
_68
_68
if views.keys.length == 0 {
_68
continue
_68
}
_68
_68
// Cadence doesn't support function return types, lets manually get rid of it
_68
let nftCollectionDisplayView = views[Type<MetadataViews.NFTCollectionData>().identifier] as! MetadataViews.NFTCollectionData?
_68
let collectionDataView = NFTCollectionData(
_68
storagePath : nftCollectionDisplayView!.storagePath,
_68
publicPath : nftCollectionDisplayView!.publicPath,
_68
privatePath : nftCollectionDisplayView!.providerPath,
_68
publicLinkedType : nftCollectionDisplayView!.publicLinkedType,
_68
privateLinkedType : nftCollectionDisplayView!.providerLinkedType,
_68
)
_68
views.insert(key: Type<MetadataViews.NFTCollectionData>().identifier, collectionDataView)
_68
_68
data[key] = views
_68
}
_68
_68
return data
_68
}

Example 7 - Setup a user’s account to receive a specific collection

  1. Run the following script to retrieve some collection-level information for an NFT collection identifier from the catalog

_58
import MetadataViews from 0x1d7e57aa55817448
_58
import NFTCatalog from 0x49a7cda3a1eecc29
_58
import NFTRetrieval from 0x49a7cda3a1eecc29
_58
_58
pub struct NFTCollection {
_58
pub let storagePath : StoragePath
_58
pub let publicPath : PublicPath
_58
pub let privatePath: PrivatePath
_58
pub let publicLinkedType: Type
_58
pub let privateLinkedType: Type
_58
pub let collectionName : String
_58
pub let collectionDescription: String
_58
pub let collectionSquareImage : String
_58
pub let collectionBannerImage : String
_58
_58
init(
_58
storagePath : StoragePath,
_58
publicPath : PublicPath,
_58
privatePath : PrivatePath,
_58
publicLinkedType : Type,
_58
privateLinkedType : Type,
_58
collectionName : String,
_58
collectionDescription : String,
_58
collectionSquareImage : String,
_58
collectionBannerImage : String
_58
) {
_58
self.storagePath = storagePath
_58
self.publicPath = publicPath
_58
self.privatePath = privatePath
_58
self.publicLinkedType = publicLinkedType
_58
self.privateLinkedType = privateLinkedType
_58
self.collectionName = collectionName
_58
self.collectionDescription = collectionDescription
_58
self.collectionSquareImage = collectionSquareImage
_58
self.collectionBannerImage = collectionBannerImage
_58
}
_58
}
_58
_58
pub fun main(collectionIdentifier : String) : NFT? {
_58
let catalog = NFTCatalog.getCatalog()
_58
_58
assert(catalog.containsKey(collectionIdentifier), message: "Invalid Collection")
_58
_58
return NFTCollection(
_58
storagePath : collectionDataView!.storagePath,
_58
publicPath : collectionDataView!.publicPath,
_58
privatePath : collectionDataView!.providerPath,
_58
publicLinkedType : collectionDataView!.publicLinkedType,
_58
privateLinkedType : collectionDataView!.providerLinkedType,
_58
collectionName : collectionDisplayView!.name,
_58
collectionDescription : collectionDisplayView!.description,
_58
collectionSquareImage : collectionDisplayView!.squareImage.file.uri(),
_58
collectionBannerImage : collectionDisplayView!.bannerImage.file.uri()
_58
)
_58
}
_58
_58
panic("Invalid Token ID")
_58
}

  1. This script result can then be used to form a transaction by inserting the relevant variables from above into a transaction template like the following:

_26
import NonFungibleToken from 0x1d7e57aa55817448
_26
import MetadataViews from 0x1d7e57aa55817448
_26
{ADDITIONAL_IMPORTS}
_26
_26
transaction {
_26
_26
prepare(signer: AuthAccount) {
_26
// Create a new empty collection
_26
let collection <- {CONTRACT_NAME}.createEmptyCollection()
_26
_26
// save it to the account
_26
signer.save(<-collection, to: {STORAGE_PATH})
_26
_26
// create a public capability for the collection
_26
signer.link<&{PUBLIC_LINKED_TYPE}>(
_26
{PUBLIC_PATH},
_26
target: {STORAGE_PATH}
_26
)
_26
_26
// create a private capability for the collection
_26
signer.link<&{PRIVATE_LINKED_TYPE}>(
_26
{PRIVATE_PATH},
_26
target: {STORAGE_PATH}
_26
)
_26
}
_26
}

Developer Usage

1. Install the Flow CLI

2. Install Node

3. Clone the project


_10
git clone --depth=1 https://github.com/onflow/nft-catalog.git

4. Install packages

  • Run npm install in the root of the project

5. Run Test Suite

  • Run npm test in the root of the project

Cadence Generation

Using the NFT Catalog, you can generate common scripts and transactions to be run against the Flow Blockchain to support your application.

Generate from Javascript

Installation


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npm install @onflow/fcl
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npm install flow-catalog

or


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yarn add @onflow/fcl
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yarn add flow-catalog

Usage

1. Retrieve a list of transactions available for code generation: NOTE: In order to properly bootstrap the method, you will need to run and await on the getAddressMaps() method, passing it into all of the methods as shown below.


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import { getAddressMaps, scripts } from "flow-catalog";
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import * as fcl from "@onflow/fcl"
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const main = async () => {
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const addressMap = await getAddressMaps();
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console.log(await scripts.getSupportedGeneratedTransactions(addressMap));
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};
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main();

2. Provide a Catalog collection identifier to generate code


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const getTemplatedTransactionCode = async function() {
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const catalogAddressMap = await getAddressMaps()
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const result = await cadence.scripts.genTx({
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/*
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'CollectionInitialization' is one of the available transactions from step 1.
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'Flunks' is the collection identifier in this case
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'Flow' is a fungible token identifier (if applicable to the transaction being used)
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*/
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args: ['CollectionInitialization', 'Flunks', 'flow'],
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addressMap: catalogAddressMap
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})
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return result
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}

3. Use the generated code in a transaction


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const txId = await fcl.mutate({
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cadence: await getTemplatedTransactionCode()[0],
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limit: 9999,
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args: (arg: any, t: any) => []
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});
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const transaction = await fcl.tx(txId).onceSealed()
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return transaction

Generate from non-Javascript environments

Cadence scripts and transactions can be generated directly on-chain via scripts. You will need to be able to run cadence scripts to continue.

1. Retrieve a list of transactions available for code generation

Run the following script to retrieve available code generation methods: https://github.com/dapperlabs/nft-catalog/blob/main/cadence/scripts/get_supported_generated_transactions.cdc

2. Provide a catalog collection identifier to generate code

You may use the following script to generate code: https://github.com/dapperlabs/nft-catalog/blob/main/cadence/scripts/gen_tx.cdc

For example, from the CLI this may be run like the following: flow -n mainnet scripts execute ./get_tx.cdc CollectionInitialization Flunks flow

In the above example, CollectionInitialization is one of the supported transactions returned from step 1, Flunks is the name of an entry on the catalog (https://www.flow-nft-catalog.com/catalog/mainnet/Flunks), and flow is a fungible token identifier.

NPM Module

We exposed an interface to the catalog via a consumable NPM module. This library will expose a number of methods that can be called to interact with the catalog.

Methods

Method signatures and their associating parameters/responses can be found in the cadence/ folder of this repo.

Scripts


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checkForRecommendedV1Views
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genTx
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getAllNftsInAccount
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getExamplenftCollectionLength
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getExamplenftType
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getNftCatalog
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getNftCatalogProposals
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getNftCollectionsForNftType
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getNftIdsInAccount
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getNftInAccount
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getNftInAccountFromPath
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getNftMetadataForCollectionIdentifier
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getNftProposalForId
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getNftsCountInAccount
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getNftsInAccount
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getNftsInAccountFromIds
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getNftsInAccountFromPath
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getSupportedGeneratedTransactions
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hasAdminProxy
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isCatalogAdmin

Transactions


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addToNftCatalog
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addToNftCatalogAdmin
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approveNftCatalogProposal
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mintExampleNft
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mintNonstandardNft
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proposeNftToCatalog
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rejectNftCatalogProposal
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removeFromNftCatalog
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removeNftCatalogProposal
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sendAdminCapabilityToProxy
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setupExamplenftCollection
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setupNftCatalogAdminProxy
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setupNonstandardnftCollection
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setupStorefront
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transferExamplenft
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updateNftCatalogEntry
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withdrawNftProposalFromCatalog

Installation


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npm install flow-catalog

or


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yarn add flow-catalog

Usage

Methods can be imported as follows, all nested methods live under the scripts or transactions variable.

NOTE: In order to properly bootstrap the method, you will need to run and await on the getAddressMaps() method, passing it into all of the methods as shown below.


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import { getAddressMaps, scripts } from "flow-catalog";
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const main = async () => {
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const addressMap = await getAddressMaps();
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console.log(await scripts.getNftCatalog(addressMap));
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};
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main();

The response of any method is a tuple-array, with the first element being the result, and the second being the error (if applicable).

For example, the result of the method above would look like -


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[
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{
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BILPlayerCollection: {
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contractName: 'Player',
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contractAddress: '0x9e6cdb88e34fa1f3',
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nftType: [Object],
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collectionData: [Object],
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collectionDisplay: [Object]
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},
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...
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SoulMadeComponent: {
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contractName: 'SoulMadeComponent',
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contractAddress: '0x421c19b7dc122357',
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nftType: [Object],
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collectionData: [Object],
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collectionDisplay: [Object]
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}
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},
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null
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]

License

The works in these files:

are under the Unlicense.