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Views

Views are a way for contracts to expose information to other contracts and to off-chain consumers.

Views help you get around a limitation in smart contracts: a smart contract can't access another contract's storage. Smart contracts can provide information via callbacks, but using a callback means calling entrypoints, which is an asynchronous action.

By contrast, views are synchronous; a contract can call a view and use the information that it returns immediately.

Like entrypoints, views can accept parameters, access the contract's storage, and call other views. Unlike entrypoints, views return a value directly to the caller. However, views can't cause side effects, so they can't create operations, including calling smart contracts and transferring tez. Views also can't change the contract storage.

Off-chain users can run a view without creating a transaction, which is a convenient way to get information from a smart contract. For example, you can use the Octez client run view command to run a view from the command line.

Types of views

Contracts can store the source code of their views either on-chain or off-chain:

  • The code of on-chain views is stored in the smart contract code itself, like entrypoints.
  • The code of off-chain views is stored externally, usually in decentralized data storage such as IPFS. The contract metadata has information about its off-chain views that consumers such as indexers and other dApps use to know what off-chain views are available and to run them.

On-chain and off-chain views have the same capabilities and limitations.

Examples

Views can provide information about tokens. You can use views to provide an account's balance of a token type or the total amount of a token in circulation.

DEXs can provide the exchange rate between two tokens or the amount of liquidity in the pool.

Instead of repeating certain logic in multiple places, you can put the logic in a view and use it from different smart contracts.

Creating views in JsLIGO

Views in LIGO look like entrypoints because they receive the input values and storage as parameters, but they have the @view annotation instead of the @entry annotation. They return a value instead of a list of operations and the new value of the storage.

This JsLIGO view returns the larger of two numbers:

type get_larger_input = [int, int];

@view
const get_larger = (input: get_larger_input, _s: storage): int => {
const [a, b] = input;
if (a > b) {
return a;
}
return b;
}

This view returns a value from a big-map in storage:

type storageType = big_map<string, string>;

@view
const get_balance = (key: string, s: storageType): string => {
const valOpt = Big_map.find_opt(key, s);
return match(valOpt) {
when(Some(val)): val;
when(None): "";
}
}

Calling views in JsLIGO

This JsLIGO code calls the get_larger view from the previous example by passing the target contract address, parameters, and view name to the Tezos.call_vew() function:

@entry
const callView = (_i: unit, _s: storage): return_type => {
const resultOpt: option<int> = Tezos.call_view(
"get_larger", // Name of the view
[4, 5], // Parameters to pass
"KT1Uh4MjPoaiFbyJyv8TcsZVpsbE2fNm9VKX" as address // Address of the contract
);
return match(resultOpt) {
when (None):
failwith("Something went wrong");
when (Some(result)):
[list([]), result];
}
}

If the view takes no parameters, pass a Unit type for the parameter:

const unitValue: unit = [];
const resultOpt: option<int> = Tezos.call_view(
"no_param_view", // Name of the view
unitValue, // No parameter
"KT1Uh4MjPoaiFbyJyv8TcsZVpsbE2fNm9VKX" as address // Address of the contract
);

Creating views in SmartPy

Views in SmartPy look like entrypoints because they receive the self object and input values as parameters, but they have the @sp.onchain_view annotation instead of the @sp.entrypoint annotation.

This SmartPy contract has a view that returns a value from a big-map in storage:

@sp.module
def main():

storage_type: type = sp.big_map[sp.address, sp.nat]

class MyContract(sp.Contract):
def __init__(self):
self.data = sp.big_map()
sp.cast(self.data, storage_type)

@sp.entrypoint
def add(self, addr, value):
currentVal = self.data.get(addr, default=0)
self.data = sp.update_map(addr, sp.Some(currentVal + value), self.data)

@sp.onchain_view
def getValue(self, addr):
return self.data.get(addr, default=0)

@sp.add_test()
def test():
scenario = sp.test_scenario("Callviews", main)
contract = main.MyContract()
scenario += contract

alice = sp.test_account("Alice")
bob = sp.test_account("Bob")

# Test the entrypoint
contract.add(addr = alice.address, value = 5)
contract.add(addr = alice.address, value = 5)
contract.add(addr = bob.address, value = 4)
scenario.verify(contract.data[alice.address] == 10)
scenario.verify(contract.data[bob.address] == 4)

# Test the view
scenario.verify(contract.getValue(alice.address) == 10)
scenario.verify(contract.getValue(bob.address) == 4)

Calling views in SmartPy

In SmartPy tests, you can call views in the contract just like you call entrypoints. However, due to a limitation in SmartPy, if the view accepts multiple parameters, you must pass those parameters in a record. For example, to call the get_larger view in the previous example, use this code:

viewResult = contract.get_larger(sp.record(a = 4, b = 5))
scenario.verify(viewResult == 5)

To call a view in an entrypoint, pass the view name, target contract address, parameters, and return type to the sp.view() function, as in this example:

@sp.entrypoint
def callView(self, a, b):
sp.cast(a, sp.int)
sp.cast(b, sp.int)
viewResponseOpt = sp.view(
"get_larger", # Name of the view
sp.address("KT1K6kivc91rZoDeCqEWjH8YqDn3iz6iEZkj"), # Address of the contract
sp.record(a=a, b=b), # Parameters to pass
sp.int # Return type of the view
)
if viewResponseOpt.is_some():
self.data.myval = viewResponseOpt.unwrap_some()

If the view takes no parameters, pass () for the parameter:

viewResponseOpt = sp.view(
"no_param_view", # Name of the view
sp.address("KT1K6kivc91rZoDeCqEWjH8YqDn3iz6iEZkj"), # Address of the contract
(), # No parameter
sp.int # Return type of the view
)

Calling views with Taquito

Calling a view with Taquito is similar to calling entrypoints. When you create an object to represent the contract, its contractViews property has a method for each view, which you can call as in this example:

const viewContractAddress = "KT1K6kivc91rZoDeCqEWjH8YqDn3iz6iEZkj";
const contract = await Tezos.wallet.at(viewContractAddress);
const result = await contract.contractViews.get_larger({a: 2, b: 12})
.executeView({ viewCaller: viewContractAddress });
console.log(result);

Calling views with the Octez client

To call a view with the Octez client, use the run view command, as in this example:

octez-client run view "get_larger" on contract "KT1Uh4MjPoaiFbyJyv8TcsZVpsbE2fNm9VKX" with input "Pair 4 5"

If the view takes no parameters, you can pass Unit or omit the with input.

Implementation details