Smart contract collection
The contracts used in Taquito Integration Tests and in Taquito Documentation Live Code Examples are test data and require curation. Here we collect the contracts, give them names, demonstrate their properties and describe their use.
Each contract description will include the storage in Michelson and the storage as Javascript as used by Taquito.
- Basic Contracts
- Lambda Contracts
- Map and BigMap Contracts
- On Chain Views
- Tzip7 Contracts
- Tzip12 Contracts
- Tzip 16 Contracts
- Wallet Contracts
Basic Contracts
IncrementContract
This contract serves as the default introductory example on the Ligo-WEB-IDE It has two endpoints, %decrement and %increment. The contract is used to demo addition and subtraction by a smart contract. This contract has neither an FA1.2 nor an FA2 interface.
Entrypoints:
- decrement
- increment
- Michelson Storage
- Taquito Storage
storage int
storage: 1;
MichelsonMapContract
The contract supports a Michelson Tutorial. It has a default endpoint that takes a pair of an address and an amount of tez.
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
storage (map address mutez);
storage: MichelsonMap<string, BigNumber>
GenericMultisigContract
This contact has a stored counter. The contract is used in some Taquito Integration Tests for generic tests of such features as transfers.
Entrypoints:
- default
- main
- Michelson Storage
- Taquito Storage
storage (pair (nat %stored_counter) (pair (nat %threshold) (list %keys key)));
storage: {stored_counter: 0,threshold: 2,keys: [await account1.signer.publicKey(), await account2.signer.publicKey(), await account3.signer.publicKey()]}
Lambda Contracts
Taquito internally contains a list of lambda contracts. Thus, there is no need to deploy a lambda contract if you are using Mainnet, Ghostnet or another testnet. Taquito will detect the current network and use the appropriate lambda contract.
Lambda views are introduced in Tzip4.
LambdaViewContract
Not a supported FA1.2 contract. Almost an Fa2 interface but it is missing update_operators.
Entrypoints:
- approve
- getAllowance
- getBalance
- getTotalSupply
- mint
- transfer
- Michelson Storage
- Taquito Storage
storage (pair(pair(big_map %ledger address (pair (map %allowances address nat) (nat %balance)))(address %owner))(nat %totalSupply));
const allowances = new MichelsonMap();const ledger = new MichelsonMap();ledger.set('tz1btkXVkVFWLgXa66sbRJa8eeUSwvQFX4kP', { allowances, balance: '100' });const opknownBigMapContract = await tezos.contract.originate({code: knownBigMapContract,storage: {ledger,owner: 'tz1gvF4cD2dDtqitL3ZTraggSR1Mju2BKFEM',totalSupply: '100',},}); }
LambdaViewWithTokenContract
This contact is another example of a Lambda contract, this time involving a token. It is not a supported FA1.2 contract. The contract does have the three entry points that define an FA2 interface - .
Entrypoints:
- balance_of
- token_metadata_registry
- transfer
- update_operators
- Michelson Storage
- Taquito Storage
storage (pair(pair(big_map %ledger address (pair (set %allowances address) (nat %balance)))(big_map %token_metadata nat(pair (nat %token_id)(pair (string %symbol)(pair (string %name)(pair (nat %decimals)(map %extras string string)))))))(nat %total_supply));
const bigMapLedger = new MichelsonMap();bigMapLedger.set('tz1c1X8vD4pKV9TgV1cyosR7qdnkc8FTEyM1', {allowances: ['tz1h3rQ8wBxFd8L9B3d7Jhaawu6Z568XU3xY'],balance: '50',});bigMapLedger.set('tz1XTyqBn4xi9tkRDutpRyQwHxfF8ar4i4Wq', {allowances: ['tz1Nu949TjA4zzJ1iobz76fHPZbWUraRVrCE'],balance: '50',});const tokenMetadataBigMap = new MichelsonMap();tokenMetadataBigMap.set('0', {token_id: '0',symbol: 'hello',name: 'test',decimals: '0',extras: new MichelsonMap(),});tokenMetadataBigMap.set('1', {token_id: '1',symbol: 'world',name: 'test2',decimals: '0',extras: new MichelsonMap(),});const op = await tezos.contract.originate({balance: '1',code: fa2Contract,storage: {ledger: bigMapLedger,token_metadata: tokenMetadataBigMap,total_supply: '100',},});
Contracts with Maps
MapWithPairasMapContract
A simple contract with a default entrypoint that takes unit. Not a supported FA1.2 contract.
The contract is used to demonstrate the get
method of the MichelsonMap
class, which accesses values of the map for a specified key. If the storage does not annotate its properties, the caller must use numeric indexes instead. This contract does not annotate the pairs of the key pair either so numeric indexes are used for this also.
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
storage (pair(pair (address %theAddress)(map %theMap (pair nat address) (pair (mutez %amount) (int %quantity))))(int %theNumber));
const storageMap = new MichelsonMap();storageMap.set({0: '1',1: user_addresses.get('Freda'),},{ quantity: '10', amount: '100' });storageMap.set({0: '2',1: user_addresses.get('Deborah'),},{ quantity: '20', amount: '200' });storageMap.set({0: '3',1: user_addresses.get('Eddy'),},{ quantity: '30', amount: '300' });const op = await tezos.contract.originate({code: contractMapPairKey,storage: {theAddress: user_addresses.get('Alice'),theMap: storageMap,theNumber: 10,},});
MapWithComplexKeysContract
This contract has a single default entrypoint that takes unit and produces a map:
Pair 10 (Pair 20 (Pair "Hello" (Pair 0xffff (Pair 100 (Pair False (Pair "tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx" (Pair 1570374509 "tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx")))))))
The get method of the MichelsonMap class accesses values of the map for a specified key.
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
storage (map(pair int(pair nat(pair string(pair bytes(pair mutez(pair bool(pair key_hash (pair timestamp address))))))))int);
const storageMap = new MichelsonMap();storageMap.set({0: '1',1: '2',2: 'test',3: 'cafe',4: '10',5: true,6: user_addresses.get('Eddy'),7: '2019-09-06T15:08:29.000Z',8: user_addresses.get('Eddy'),},100);storageMap.set({0: '10',1: '20',2: 'Hello',3: 'ffff',4: '100',5: false,6: user_addresses.get('Freda'),7: '2019-10-06T15:08:29.000Z',8: user_addresses.get('Freda'),},1000);const op = await tezos.contract.originate({code: contractMap8pairs,storage: storageMap,});
Note the lack of annotations in the Michelson for the storage. If the storage does not annotate its properties, the caller must use numeric indexes instead, as the Taquito javascript shows.
MapWithInitialStorageContract
Taquito provides a get method of the MichelsonMap on storage of type Map. We can only change contract storage by calling the function provided by the contract. The main function on this Smart Contract is decreasing the value of the current_stock associated with the key 1.
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
storage (map nat (pair (nat %current_stock) (mutez %max_price)));
const storageMap = new MichelsonMap();storageMap.set('1', { current_stock: '10000', max_price: '50' });storageMap.set('2', { current_stock: '120', max_price: '20' });storageMap.set('3', { current_stock: '50', max_price: '60' });
MapWithMapandBigmapContract
The get method of the MichelsonMap class accesses the values of the map and values of the bigMap. The difference is that the value gets returned directly for a map while the get method on a bigMap returns a promise.
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
storage (pair (big_map %thebigmap (pair nat address) int)(map %themap (pair nat address) int));
Tezos.contract.at('KT1RBE127YSA96FwCYrA8sazvr8pt1TYaThS').then((myContract) => {return myContract.storage().then((myStorage) => {//When called on a map, the get method returns the value directlyconst valueMap = myStorage['themap'].get({0: '1', //nat1: 'tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx', //address});console.log(`The value associated with the specified key of the map is ${valueMap}.`);return myContract.storage();}).then((myStorage) => {//When called on a bigMap, the get method returns a promisereturn myStorage['thebigmap'].get({0: '10', //nat1: 'tz3WXYtyDUNL91qfiCJtVUX746QpNv5i5ve5', //address});}).then((valueBigMap) => {console.log(`The value associated with the specified key of the bigMap is ${valueBigMap}.`);});}).catch((error) => console.log(`Error: ${JSON.stringify(error, null, 2)}`));
Contracts with BigMaps
BigMapsMultipleValuesContract
This contract has an FA1.2 interface.
It is possible to fetch multiple big map values using Taquito with one call using the getMultipleValues method of the BigMapAbstraction class. Taquito will ensure that all fetched big maps come from the same block to ensure a consistent state.
Entrypoints:
- approve
- burn
- getAdministrator
- getAllowance
- getBalance
- getTotalSupply
- mint
- setAdministrator
- setPause
- transfer
- Michelson Storage
- Taquito Storage
storage (pair (big_map address (pair nat (map address nat)))(pair address (pair bool nat)));
const bigMapInit = new MichelsonMap();bigMapInit.set(signer, { 0: '1', 1: new MichelsonMap() });bigMapInit.set(user_addresses.get('Eddy'), { 0: '2', 1: new MichelsonMap() });bigMapInit.set(user_addresses.get('Glen'), { 0: '3', 1: new MichelsonMap() });bigMapInit.set(user_addresses.get('Freda'), { 0: '4', 1: new MichelsonMap() });const op = await tezos.contract.originate({code: tokenCode,storage: {0: bigMapInit,1: signer,2: true,3: '3',},});
BigMapsComplexStorageContract
This contract is used in many Taquito documentation Live Code Examples to demonstrate how to get data from a complex storage. Not a supported FA1.2 contract.
The storage uses a pair composed of a nested pair and a map (annotated as %validators). The nested pair consists of an address (annotated as %owner) and a bigMap (annotated as %records). The map %validators use a natural number (nat) as its key and address its value. The bigMap %records uses a value in bytes as its key and a pair consisting of nested pairs as its value. We find addresses and natural numbers in these nested pairs, where some are optional, and a map (annotated %data). The map %data uses a string as its key, and the user needs to choose the value of the map between different proposed types (int, bytes, bool, ...).
Entrypoints
- admin_update
- resolve
- set_child_record
- update_record
- Michelson Storage
- Taquito Storage
storage (pair(pair (address %owner)(big_map %records bytes(pair(pair(pair (option %address address)(map %data string(or(or(or(or (address %address)(bool %bool))(or (bytes %bytes)(int %int)))(or(or (key %key)(key_hash %key_hash))(or (nat %nat)(signature %signature))))(or(or (string %string)(mutez %tez))(timestamp %timestamp)))))(pair (address %owner) (option %ttl nat)))(option %validator nat))))(map %validators nat address));
const dataMap = new MichelsonMap();dataMap.set('Hello', { bool: true });const recordsBigMap = new MichelsonMap();recordsBigMap.set('FFFF', {data: dataMap,owner: user_addresses.get('Glen'),});recordsBigMap.set('AAAA', {data: dataMap,owner: user_addresses.get('Glen'),validator: '1',});const validatorsMap = new MichelsonMap();validatorsMap.set('1', user_addresses.get('Deborah'));const op = await tezos.contract.originate({code: contractJson,storage: {owner: user_addresses.get('Glen'),records: recordsBigMap,validators: validatorsMap,},});
BigMapsWithLedgerContract
This contract is used in Taquito integration tests. It is not a FA1.2 contract, since Entrypoint "transfer" has type (pair (pair (address %0) (address %1)) (nat %2)), but should have type (pair address address nat). Also not an FA2 contract as it does not have an entrypoint for update_operators.
Entrypoints
- approve
- burn
- getAllowance
- getBalance
- getTotalSupply
- mint
- setOwner
- setPause
- transfer
- Michelson Storage
- Taquito Storage
storage (pair(pair(big_map %ledger address (pair (map %allowances address nat) (nat %balance)))(address %owner))(pair (bool %paused) (nat %totalSupply)));
const allowances = new MichelsonMap();const ledger = new MichelsonMap();ledger.set('tz1btkXVkVFWLgXa66sbRJa8eeUSwvQFX4kP', { allowances, balance: '100' });const opknownBigMapContract = await tezos.contract.originate({code: knownBigMapContract,storage: {ledger,owner: 'tz1gvF4cD2dDtqitL3ZTraggSR1Mju2BKFEM',paused: true,totalSupply: '100',},});
BigMapPackContract
By default, a call to an RPC node is used to pack data when fetching values from a big map. Big map keys need to be serialized or packed and Taquito relies on the PACK functionality of a Tezos RPC node to pack the big map keys. This may be considered inefficient as it adds a request to a remote node to fetch data.
Now, Taquito allows you to pack the required data locally to fetch values from a big map. By relying on the local pack implementation, Taquito eliminates one RPC roundtrip when fetching big map values.
This contract is for demonstrating packing. Not a supported FA1.2 contract.
Entrypoints
- default
- Michelson Storage
- Taquito Storage
storage (pair nat (big_map nat string));
const bigmap = new MichelsonMap();for (let i = 1; i <= 410; i++) {bigmap.set(i, `${i}`);}const op = await tezos.contract.originate({code,storage: {0: '10',1: bigmap,},storageLimit: 32500,});
On Chain Views Contracts
Views are meant to be called by a contract using the Michelson Instruction View followed by the view name and its result type. See TaquitoDocs for more details.
ContractCallFib
This contract is used to demonstrate On Chain views. It calls the view 'fib' in another contract called contractTopLevelViews.
Entrypoints
- default
- Michelson Storage
- Taquito Storage
storage nat
storage: 1;
ContractTopLevelViews
This contract has a series of views which are sections of Michelson Code, for example:
view "add" nat nat { UNPAIR ; ADD } ;
which can be called by other contracts to calculate and return some value.
Entrypoints
- default
- Michelson Storage
- Taquito Storage
storage nat
storage: 1;
Tzip-7 Contracts
Tzip-7 introduced the approvable ledger: Tzip-7
TokenContract
This contract has an FA1.2 interface. To determine if a contract has an FA1.2 interface we can use
tezos-client check contract KT1CfFBaLoUrgv93k8668KCCcu2hNDNYPz4L implements fa1.2
Entrypoints:
- approve
- burn
- getAdministrator
- getAllowance
- getBalance
- getTotalSupply
- mint
- setAdministrator
- setPause
- transfer
- Michelson Storage
- Taquito Storage
storage (pair (big_map address (pair nat (map address nat)))(pair address (pair bool nat)));
const pkh = await Tezos.signer.publicKeyHash();const bigMap = new MichelsonMap();bigMap.set(pkh, {0: "2",1: new MichelsonMap()});storage: {0: bigMap,1: pkh,2: true,3: "200"}
Tzip-12 Contracts
The @taquito/tzip12 package allows retrieving metadata associated with tokens of an FA2 contract. You can find more information about the TZIP-12 standard here.
A contract has an FA2 interface if it has entrypoints: transfer, balance_of, and update_operators
Tzip12BigMapOffChainContract
This contract has an FA2 interface.
Entrypoints:
- balance_of
- mint
- mutez_transfer
- set_administrator
- set_metadata
- set_pause
- transfer
- update_operators
- Michelson Storage
- Taquito Storage
- Metadata
storage (pair(pair (address %administrator)(pair (nat %all_tokens) (big_map %ledger (pair address nat) nat)))(pair(pair (big_map %metadata string bytes)(big_map %operators(pair (address %owner) (pair (address %operator) (nat %token_id)))unit))(pair (bool %paused)(big_map %tokens nat(pair (map %metadata_map string bytes)(nat %total_supply))))));
const ledger = new MichelsonMap();ledger.set({0: user_addresses.get('Eddy'),1: 0,},'20000');ledger.set({0: user_addresses.get('Glen'),1: 1,},'20000');const url = 'https://storage.googleapis.com/tzip-16/fa2-views.json';const bytesUrl = char2Bytes(url);const metadata = new MichelsonMap();metadata.set('', bytesUrl);const operators = new MichelsonMap();const tokens = new MichelsonMap();const metadataMap0 = new MichelsonMap();metadataMap0.set('', char2Bytes('https://storage.googleapis.com/tzip-16/token-metadata.json'));metadataMap0.set('name', char2Bytes('Name from URI is prioritized!'));const metadataMap1 = new MichelsonMap();metadataMap1.set('name', char2Bytes('AliceToken'));metadataMap1.set('symbol', char2Bytes('ALC'));metadataMap1.set('decimals', '30');metadataMap1.set('extra', char2Bytes('Add more data'));const metadataMap2 = new MichelsonMap();metadataMap2.set('name', char2Bytes('Invalid token metadata'));tokens.set('0', {metadata_map: metadataMap0,total_supply: '20000',});tokens.set('1', {metadata_map: metadataMap1,total_supply: '20000',});tokens.set('2', {metadata_map: metadataMap2,total_supply: '20000',});const op = await tezos.contract.originate({code: fa2ForTokenMetadataView,storage: {administrator: user_addresses.get('TestFunder'),all_tokens: '2',ledger,metadata,operators,paused: false,tokens,},});
name: Test Taquito FA2 token_metadata viewdescription: This is a test to retrieve tokens metadata from a view %token_metadatainterfaces: TZIP-012
Tzip-16 Contracts
The @taquito/tzip16 package allows retrieving metadata associated with a smart contract. These metadata can be stored on-chain (tezos-storage) or off-chain (HTTP(S) or IPFS). The package also provides a way to execute the MichelsonStorageView found in the metadata. More information about the TZIP-16 standard can be found here.
The getMetadata
method returns an object which contains the URI, the metadata in JSON format, an optional SHA256 hash of the metadata and an optional integrity check result.
A sequence diagram can be found here.
Each of the following contracts is used to demonstrate an aspect of getMetadata.
Tzip16StorageContract
In this example the storage holds the metadata in a bigmap.
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
- Metadata
storage (pair (big_map %metadata string bytes)(map %taco_shop_storage nat (pair (nat %current_stock) (mutez %max_price))));
const metadataJSON = {name: 'test',description: 'A metadata test',version: '0.1',license: 'MIT',authors: ['Taquito <https://taquito.io/>'],homepage: 'https://taquito.io/',};const metadataBigMap = new MichelsonMap();metadataBigMap.set('', char2Bytes('tezos-storage:here'));metadataBigMap.set('here', char2Bytes(JSON.stringify(metadataJSON)));const tacoShopStorageMap = new MichelsonMap();const op = await tezos.contract.originate({code: tacoContractTzip16,storage: {metadata: metadataBigMap,taco_shop_storage: tacoShopStorageMap,},});
name: testdescription: A metadata testversion: 0.1license: MITauthors: Taquitohomepage: https://taquito.io/
Tzip16HTTPSContract
In this example the storage holds a URL that refers to the metadata.
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
- Metadata
storage (pair (big_map %metadata string bytes)(map %taco_shop_storage nat (pair (nat %current_stock) (mutez %max_price))));
const url = 'https://storage.googleapis.com/tzip-16/taco-shop-metadata.json';const bytesUrl = char2Bytes(url);const metadataBigMap = new MichelsonMap();metadataBigMap.set('', bytesUrl);const tacoShopStorageMap = new MichelsonMap();tacoShopStorageMap.set('1', { current_stock: '10000', max_price: '50' });const op = await tezos.contract.originate({code: tacoContractTzip16,storage: {metadata: metadataBigMap,taco_shop_storage: tacoShopStorageMap,},});
name: Taquito test with valid metadatadescription: This is metadata test for Taquito integration tests with the Ligo Taco shop contract modified to include metadata in storageversion: 7.1.0-beta.0license: MIThomepage: https://github.com/ecadlabs/taquito
Tzip16SHA256Contract
In this example the storage holds a URL encrypted with SHA 256 that refers to the metadata.
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
- Metadata
storage (pair (big_map %metadata string bytes)(map %taco_shop_storage nat (pair (nat %current_stock) (mutez %max_price))));
const urlPercentEncoded = encodeURIComponent('//storage.googleapis.com/tzip-16/taco-shop-metadata.json');const metadataSha256 = '0x7e99ecf3a4490e3044ccdf319898d77380a2fc20aae36b6e40327d678399d17b';const url = 'sha256://' + metadataSha256 + '/https:' + urlPercentEncoded;const bytesUrl = char2Bytes(url);const metadataBigMap = new MichelsonMap();metadataBigMap.set('', bytesUrl);const tacoShopStorageMap = new MichelsonMap();tacoShopStorageMap.set('1', { current_stock: '10000', max_price: '50' });const op = await tezos.contract.originate({code: tacoContractTzip16,storage: {metadata: metadataBigMap,taco_shop_storage: tacoShopStorageMap,},});
name: Taquito test with valid metadatadescription: This is metadata test for Taquito integration tests with the Ligo Taco shop contract modified to include metadata in storageversion: 7.1.0-beta.0license: MIThomepage: https://github.com/ecadlabs/taquito
Tzip16IPFSContract
In this example the storage holds an IPFS location that refers to the metadata.
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
- Metadata
storage (pair (big_map %metadata string bytes)(map %taco_shop_storage nat (pair (nat %current_stock) (mutez %max_price))));
const uri = 'ipfs://QmXnASUptTDnfhmcoznFqz3S1Mxu7X1zqo2YwbTN3nW52V';const bytesUrl = char2Bytes(uri);const metadataBigMap = new MichelsonMap();metadataBigMap.set('', bytesUrl);const tacoShopStorageMap = new MichelsonMap();const op = await tezos.contract.originate({code: tacoContractTzip16,storage: {metadata: metadataBigMap,taco_shop_storage: tacoShopStorageMap,},});
name: Taquito test with valid metadatadescription: This is metadata test for Taquito integration tests with the Ligo Taco shop contract modified to include metadata in storageversion: 7.1.0-beta.0license: MIThomepage: https://github.com/ecadlabs/taquitoj
Tzip16OffChainContractJSON
This contract has a view named someJson
that can be found in the metadata. When we inspect those metadata, we can see that this view takes no parameter and has a returnType of bytes.
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
- Metadata
storage (pair nat (big_map %metadata string bytes));
const metadataBigMAp = new MichelsonMap();metadataBigMAp.set('', char2Bytes('tezos-storage:here'));metadataBigMAp.set('here', char2Bytes(JSON.stringify(metadataViewsExample1)));const op = await tezos.contract.originate({code: contractCode,storage: {0: 7,metadata: metadataBigMAp,},});
description: This contract has bytes-returning off-chain-views.license: MIT
Tzip16OffChainContractMultiply
This contract has a view named multiply-the-nat-in-storage
that can be found in the metadata. When we inspect those metadata, we can see that this view takes a nat
has a parameter, has a returnType of nat
and has the following instructions: DUP, CDR, CAR, SWAP, CAR, MUL
.
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
- Metadata
storage (pair nat (big_map %metadata string bytes));
const metadataBigMAp = new MichelsonMap();metadataBigMAp.set('', char2Bytes('tezos-storage:here'));metadataBigMAp.set('here', char2Bytes(JSON.stringify(metadataViewsExample2)));const op = await tezos.contract.originate({code: contractCode,storage: {0: 7,metadata: metadataBigMAp,},});
description: This contract has bytes-returning off-chain-views.license: MIT
WalletContract
Transactions to smart contracts operate in the same fashion as transactions to an implicit account, the only difference being the KT1...
address. You will also receive a transaction hash and have to wait for the transaction to be confirmed. Once confirmed, it can be the right time to update the user's/contract's balance, for example.
Sending a transaction to a smart contract to update its storage will be a different type of action as it implies targetting a specific entrypoint and formatting correctly the data to be sent.
Fortunately, Taquito will make this operation go like a breeze! First, you need the contract abstraction created with the address of the smart contract you are targeting:
const contract = await Tezos.wallet.at('KT1B4WtE3MSEjGKnucRL5xhqnXCEX1QkLGPx');
This line creates a contract abstraction with multiple methods named after the contract entrypoints. For example, if you have a transfer
entrypoint in your contract, you will also have a .transfer()
method in the contract
object. Each method accepts parameters required by the contract entrypoint.
For more details see Taquito Wallet API doc
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
storage int
storage: 1;
WalletAreYouThereContract
This is a simple smart contract with two methods: areYouThere
expects a value of type boolean
to update the areYouThere
value in the storage of the same type, and addName
expects a value of type string
to add it to the map in the contract.
Entrypoints:
- addName
- areYouThere
- changeMessage
- decrement
- increment
- Michelson Storage
- Taquito Storage
storage (pair (pair (bool %areyouthere) (int %integer))(pair (string %message) (map %names address string)));
init: `(Pair (Pair True 0)(Pair ""{ Elt 0x00006b82198cb179e8306c1bedd08f12dc863f328886 "Alice" ;Elt 0x0000b2e19a9e74440d86c59f13dab8a18ff873e889ea "HEllo!" }))`,
SaplingContract
Sapling is a protocol enabling privacy-preserving transactions of fungible tokens in a decentralised environment. The example contract used in Taquito Integration Tests is a single-state sapling contract. It features the Michelson instruction "SAPLING_VERIFY_UPDATE". A sapling_state is represented by an integer value in the contract storage.
Entrypoints:
- default
- Michelson Storage
- Taquito Storage
storage (sapling_state 8)
import { SaplingStateValue } from @taquito/michelson-encoderstorage: SaplingStateValue
Chart of Smart Contract Properties
Type | Interface? | Metadata | Default Endpoint | |
---|---|---|---|---|
IncrementContract | Basic | |||
MichelsonMapContract | Basic | default | ||
LambdaViewContract | Lambda | |||
LambdaViewWithTokenContract | Lambda | FA2 | ||
MapWithWithSingleMapForStorage | Maps | default | ||
MapWithPairasMapContract | Maps | default | ||
MapWithComplexKeysContract | Maps | default | ||
MapWithInitialStorageContract | Maps | default | ||
BigMapsMultipleValuesContract | BigMaps | FA1.2 | ||
BigMapsComplexStorageContract | BigMaps | |||
BigMapPackContract | BigMaps | default | ||
Tzip12BigMapOffChainContract | Tzip-12 | metadata | ||
Tzip16StorageContract | Tzip-16 | metadata | default | |
Tzip16HTTPSContract | Tzip-16 | metadata | default | |
Tzip16SHA256Contract | Tzip-16 | metadata | default | |
Tzip16IPFSContract | Tzip-16 | metadata | default | |
Tzip16OffChainContractOne | Tzip-16 | metadata | default | |
Tzip16OffChainContractTwo | Tzip-16 | metadata | default | |
WalletContract | Wallet | default | ||
WalletAreYouThereContract | Wallet | |||
TokenContract | Token | FA2 | ||
KnownSaplingContract | Sapling | default |