Simple NFT Viewer
This example project will show you how to build a simple viewer that will allow you to view NFTs that conform to the NFT and MetadataViews standards.
This tutorial will mostly ignore the C# code that actually displays the NFTs and focus on a high level summary of the steps used.
Overview
When querying the blockchain we utilize four scripts:
_10* [GetCollections.cdc](Cadence/GetCollections.cdc) - Gets a list of Collections that conform to NFT.Collection for a given address_10* [GetNftIdsForCollection.cdc](Cadence/GetNftIdsForCollection.cdc) - Gets a list of all NFT IDs that are contained in a given collection_10* [GetDisplayDataForIDs.cdc](Cadence/GetDisplayDataForIDs.cdc) - Gets just the display data for a given NFT_10* [GetFullDataForID.cdc](Cadence/GetFullDataForID.cdc) - Gets a more comprehensive set of data for a single NFT.
While we could use a single script to query for all the data, larger collections will cause the script to time out. Instead we query for just the data we need to reduce the chances of a timeout occurring.
Finding Collections
First we need to get a list of all collections on an account that are a subtype of NFT.Collection.
_25import NonFungibleToken from 0x1d7e57aa55817448_25_25access(all) fun main(addr: Address) : [StoragePath] {_25 // Get the authorized Account object for the given address._25 // The authorized account is needed because we're going to be looking into the Storage of the user_25 var acct = getAuthAccount<auth(Storage) &Account>(addr)_25 _25 //Array that we will fill with all valid storage paths_25 var paths : [StoragePath] = []_25 _25 //Uses the storage iteration API to iterate through all storage paths on the account_25 acct.forEachStored(fun (path: StoragePath, type:Type): Bool {_25 //Check to see if the resource at this location is a subtype of NonFungibleToken.Collection._25 if type.isSubtype(of: Type<@NonFungibleToken.Collection>()) {_25 //Add this path to the array_25 paths.append(path)_25 }_25 _25 //returning true tells the iterator to continue to the next entry_25 return true_25 });_25 _25 //Return the array that we built_25 return paths_25}
We use the Storage Iteration API to look at everything the account has in it's storage and see if it is an NFT Collection. We return a list of all found NFT Collections.
Getting NFT IDs Contained in a Collection
We use this to create a list of collection paths a user can pick from. When the user selects a path to view, we fetch a list of IDs contained in that collection:
_13import NonFungibleToken from 0x1d7e57aa55817448_13_13access(all) fun main(addr: Address, path: StoragePath) : [UInt64] {_13 // Get the authorized Account object for the given address._13 // The authorized account is needed because we're going to be looking into the Storage of the user_13 var acct = getAuthAccount<auth(Storage) &Account>(addr)_13 _13 //Get a reference to an interface of type NonFungibleToken.Collection public backed by the resource located at path_13 var ref = acct.borrow<&{NonFungibleToken.CollectionPublic}>(from: path)!_13 _13 //Return the list of NFT IDs contained in this collection_13 return ref!.getIDs()_13}
Getting Display Data for an NFT
After we get a list of the available NFT IDs, we need to get some basic data about the NFT to display the thumbnail icon.
_31import NonFungibleToken from 0x1d7e57aa55817448_31import MetadataViews from 0x1d7e57aa55817448_31_31access(all) fun main(addr: Address, path: StoragePath, ids: [UInt64]) : {UInt64:AnyStruct?} {_31 //Array to hold the NFT display data that we will return_31 //We use AnyStruct? because that is the type that is returned by resolveView._31 var returnData: {UInt64:AnyStruct?} = {}_31_31 // Get the authorized Account object for the given address._31 // The authorized account is needed because we're going to be looking into the Storage of the user_31 var acct = getAuthAccount<auth(Storage) &Account>(addr)_31 _31 //Get a reference to a capability to the storage path as a NonFungibleToken.CollectionPublic_31 var ref = acct.borrow<&{NonFungibleToken.CollectionPublic}>(from: path)!_31 _31 //Loop through the requested IDs_31 for id in ids { _31 //Get a reference to the NFT we're interested in_31 var nftRef = ref.borrowNFT(id: id)_31 _31 //If for some reason we couldn't borrow a reference, continue onto the next NFT_31 if nftRef == nil {_31 continue_31 }_31_31 //Fetch the information we're interested in and store it in our NFT structure_31 returnData[id] = nftRef.resolveView(Type<MetadataViews.Display>())_31 }_31 _31 return returnData_31}
This gives us a dictionary that maps NFT IDs to Display structs ({UInt64:MetadataViews.Display}
). Because accessing this information can be tedious in C#, we can define some C# classes to make our lives easier:
_13public class File_13{_13 public string url;_13 public string cid;_13 public string path;_13}_13_13public class Display_13{_13 public String name;_13 public String description;_13 public File thumbnail;_13}
This will allow us to use Cadence.Convert to convert from the CadenceBase that the script returns into a Display class.
This line in NFTViewer.cs is an example of converting using Cadence.Convert:
_10Dictionary<UInt64, Display> displayData = Convert.FromCadence<Dictionary<UInt64, Display>>(scriptResponseTask.Result.Value);
You might ask whey we don't combine GetNftIdsForCollection.cdc and GetDisplayDataForIDs.cdc to get the Display data at the same time we get the list of IDs. This approach would work in many cases, but when an account contains large numbers of NFTs, this could cause a script timeout. Getting the list of IDs is a cheap call because the NFT contains this list in an array already. By getting just the NFT IDs, we could implement paging and use multiple script calls to each fetch a portion of the display data. This example doesn't currently do this type of paging, but could do so without modifying the cadence scripts.
Getting Complete NFT Data
When a user selects a particular NFT to view in more detail, we need to fetch that detail.
_83import NonFungibleToken from 0x1d7e57aa55817448_83import MetadataViews from 0x1d7e57aa55817448_83_83//Structure that will hold all the data we want for an NFT_83access(all) struct NFTData {_83 access(all) var NFTView: AnyStruct?_83 access(all) var Display : AnyStruct?_83 access(all) var HTTPFile: AnyStruct?_83 access(all) var IPFSFile: AnyStruct?_83 access(all) var Edition: AnyStruct?_83 access(all) var Editions: AnyStruct?_83 access(all) var Serial: AnyStruct?_83 access(all) var Royalty: AnyStruct?_83 access(all) var Royalties: AnyStruct?_83 access(all) var Media: AnyStruct?_83 access(all) var Medias: AnyStruct?_83 access(all) var License: AnyStruct?_83 access(all) var ExternalURL: AnyStruct?_83 access(all) var NFTCollectionDisplay: AnyStruct?_83 access(all) var Rarity: AnyStruct?_83 access(all) var Trait: AnyStruct?_83 access(all) var Traits: AnyStruct?_83 _83 init() {_83 self.NFTView = nil_83 self.Display = nil_83 self.HTTPFile = nil_83 self.IPFSFile = nil_83 self.Edition = nil_83 self.Editions = nil_83 self.Serial = nil_83 self.Royalty = nil_83 self.Royalties = nil_83 self.Media = nil_83 self.Medias = nil_83 self.License = nil_83 self.ExternalURL = nil_83 self.NFTCollectionDisplay = nil_83 self.Rarity = nil_83 self.Trait = nil_83 self.Traits = nil_83 }_83}_83_83access(all) fun main(addr: Address, path: StoragePath, id: UInt64) : NFTData? {_83 // Get the authorized Account object for the given address._83 // The authorized account is needed because we're going to be looking into the Storage of the user_83 var acct = getAuthAccount<auth(Storage) &Account>(addr)_83 _83 //Get a reference to a capability to the storage path as a NonFungibleToken.CollectionPublic_83 var ref = acct.borrow<&{NonFungibleToken.CollectionPublic}>(from: path)!_83 _83 //Get a reference to the NFT we're interested in_83 var nftRef = ref.borrowNFT(id: id)_83 _83 //If for some reason we couldn't borrow a reference, continue onto the next NFT_83 if nftRef == nil {_83 return nil_83 }_83_83 var nftData : NFTData = NFTData() _83_83 //Fetch the information we're interested in and store it in our NFT structure_83 nftData.Display = nftRef.resolveView(Type<MetadataViews.Display>())_83 nftData.NFTView = nftRef.resolveView(Type<MetadataViews.NFTView>())_83 nftData.HTTPFile = nftRef.resolveView(Type<MetadataViews.HTTPFile>())_83 nftData.IPFSFile = nftRef.resolveView(Type<MetadataViews.IPFSFile>())_83 nftData.Edition = nftRef.resolveView(Type<MetadataViews.Edition>())_83 nftData.Editions = nftRef.resolveView(Type<MetadataViews.Editions>())_83 nftData.Serial = nftRef.resolveView(Type<MetadataViews.Serial>())_83 nftData.Media = nftRef.resolveView(Type<MetadataViews.Media>())_83 nftData.Rarity = nftRef.resolveView(Type<MetadataViews.Rarity>())_83 nftData.Trait = nftRef.resolveView(Type<MetadataViews.Trait>())_83 nftData.Traits = nftRef.resolveView(Type<MetadataViews.Traits>())_83 nftData.Medias = nftRef.resolveView(Type<MetadataViews.Medias>())_83 nftData.ExternalURL = nftRef.resolveView(Type<MetadataViews.ExternalURL>())_83 nftData.Royalty = nftRef.resolveView(Type<MetadataViews.Royalty>())_83 nftData.Royalties = nftRef.resolveView(Type<MetadataViews.Royalties>())_83 nftData.License = nftRef.resolveView(Type<MetadataViews.License>())_83 nftData.NFTCollectionDisplay = nftRef.resolveView(Type<MetadataViews.NFTCollectionDisplay>())_83 _83 return nftData_83}
Here we define a struct NFTData that will contain all the different information we want and fill the struct via multiple resolveView calls.
C# Classes for Easy Converting
The end of NFTViewer.cs contains classes that we use to more easily convert from Cadence into C#. One thing to note is that the Cadence structs contain Optionals, like:
var IPFSFile: AnyStruct?
while the C# versions do not, such as
public IPFSFile IPFSFile;
This is because we are declaring them as Classes, not Structs. Classes in C# are reference types, which can automatically be null. We could have used Structs, in which case we'd have to use:
public IPFSFile? IPFSFile
This would wrap the IPFSFile struct in a Nullable, which would allow it to be null if the Cadence value was nil.
Another thing to note is the declaration of the C# File class:
_16public class File_16{_16 public string url;_16 public string cid;_16 public string path;_16_16 public string GetURL()_16 {_16 if (string.IsNullOrEmpty(url) && !string.IsNullOrEmpty(cid))_16 {_16 return $"https://ipfs.io/ipfs/{cid}"; _16 }_16_16 return url;_16 }_16}
Compare this to the File interface in the MetadataViews contract:
_10 access(all) struct interface File {_10 access(all) fun uri(): String_10 }
The MetadataViews.File interface doesn't actually contain any fields, only a single method. Because only two things in MetadataViews implement the File interface (HTTPFile and IPFSFile), we chose to combine the possible fields into our File class.
_10access(all) struct HTTPFile: File {_10 access(all) let url: String_10}_10_10access(all) struct IPFSFile: File {_10 access(all) let cid: String_10 access(all) let path: String?_10}
This allows Cadence.Convert to convert either an HTTPFile or an IPFSFile into a File object. We can then check which fields are populated to determine which it was initially.
This works fine for this simple viewer, but a more robust approach might be to create a ResolvedFile struct in the cadence script which has a single uri field and populates it by calling the uri() function on whatever File type was retrieved.