ZCFSeat Object
Zoe uses seats to access or manipulate offers. Seats represent active offers and let contracts and users interact with them. Two kinds of seats represent a single position. ZCFSeats are used within contracts and with zcf methods. UserSeats represent offers outside the contract. The two facets provide access to the same allocation, and changes made from either side affect both.
A ZCFSeat includes synchronous queries for the current state of the associated offer, such as the amounts of assets that are currently assigned to the ZCFSeat Object. It also includes synchronous operations to manipulate the offer. The queries and operations are as follows:
aZCFSeat.getSubscriber()
- Returns: Subscriber
Returns the Subscriber for the seat.
aZCFSeat.getProposal()
- Returns: ProposalRecord
A Proposal is represented by a ProposalRecord. It is the rules accompanying the escrow of payments dictating what the user expects to get back from Zoe. It has keys give, want, and exit. give and want are records with Keywords as keys and Amounts as values. The proposal is a user's understanding of the contract that they are entering when they make an offer. See E(zoe).offer(...)
for full details.
- Example:
const { want, give, exit } = sellerSeat.getProposal();
aZCFSeat.exit(completion)
- completion: Object
- Returns: None.
Causes the seat to exit, preventing further changes to its allocation. All payouts, if any, are made, and the seat object can no longer interact with the contract. The completion argument is usually a string, but this is not required. Its only use is for the notification sent to the corresponding UserSeat's exitSubscriber. Any other still open seats or outstanding promises and the contract instance continue.
Note: You should not use aZCFSeat.exit() when exiting with an error. Use the method aZCFSeat.fail() instead.
aZCFSeat.fail(msg)
- msg: String
- Returns: None.
The seat exits, displaying the optional msg string, if there is one, on the console. This is equivalent to exiting, except that exit is successful while ZCFSeat.fail() signals an error occurred while processing the offer. The contract still gets its current allocation and the seat can no longer interact with the contract. Any other still open seats or outstanding promises and the contract instance continue.
Agoric recommends you exit a seat with an error as follows
throw seat.fail(Error('you did it wrong'));
aZCFSeat.hasExited()
- Returns: Boolean
Returns true if the ZCFSeat has exited, false if it is still active.
aZCFSeat.getAmountAllocated(keyword, brand)
Returns the Amount from the part of the Allocation that matches the keyword and brand. If the keyword is not in the Allocation, it returns an empty Amount of the brand argument. (After aZCFSeat.exit() has been called, it continues to report the final allocation balance, which was transferred to a payout.)
This is similar to the next method, getCurrentAllocation(). getAmountAllocated() gets the Allocation of one Keyword at a time, while getCurrentAllocation() returns all the current Allocations at once.
aZCFSeat.getCurrentAllocation()
- Returns: Allocation
An Allocation is an AmountKeywordRecord of key-value pairs where the key is a Keyword such as Asset or Price applicable to the contract. The value is an Amount with its value and brand.
Allocations represent the Amounts to be paid out to each seat on exit. (After exit() has been called, the final allocation balances, which were transferred to payouts, continue to be reported.) Normal reasons for exiting are the user requesting to exit or the contract explicitly choosing to close out the seat. The guarantees also hold if the contract encounters an error or misbehaves. There are several methods for finding out what amount a current allocation is.
This is similar to the previous method, getAmountAllocated(). getAmountAllocated() gets the allocation of one keyword at a time, while getCurrentAllocation() returns all the current allocations at once.
An Allocation example:
{
Asset: AmountMath.make(quatloosBrand, 5n),
Price: AmountMath.make(quatloosBrand, 9n)
}
aZCFSeat.isOfferSafe(newAllocation)
- newAllocation: Allocation
- Returns Boolean
Takes an allocation as an argument and returns true if that allocation satisfies offer safety, false if it doesn't. Essentially, it checks newAllocation for offer safety, against the seat's proposal. It checks whether newAllocation fully satisfies proposal.give (giving a refund) or whether it fully satisfies proposal.want. Both can be fully satisfied. See the ZoeHelper satisfies() method for more details.
DEPRECATED
aZCFSeat.getStagedAllocation()
- Returns: Allocation
Gets and returns the stagedAllocation, which is the Allocation committed if the seat is reallocated over, if offer safety holds, and rights are conserved.
Note: This method has been deprecated. Use atomicRearrange() instead.
DEPRECATED
aZCFSeat.hasStagedAllocation()
- Returns: Boolean
Returns true if there is a staged allocation, i.e., whether ZCFSeat.incrementBy() or ZCFSeat.decrementBy() has been called and ZCFSeat.clear() and reallocate() have not. Otherwise returns false.
Note: This method has been deprecated. Use atomicRearrange() instead.
DEPRECATED
aZCFSeat.incrementBy(amountKeywordRecord)
- amountKeywordRecord: AmountKeywordRecord
- Returns: AmountKeyRecord
Adds the amountKeywordRecord argument to the ZCFseat's staged allocation and returns the same amountKeywordRecord so it can be reused in another call. Note that this lets zcfSeat1.incrementBy(zcfSeat2.decrementBy(amountKeywordRecord)) work as a usage pattern.
Note that you can add amounts to original or staged allocations which do not have the specified Keyword for the amount. The result is for the Keyword and amount to become part of the allocation. For example, if we start with a new, empty, allocation:
// Make an empty seat.
const { zcfSeat: zcfSeat1 } = zcf.makeEmptySeatKit();
// The allocation is currently empty, i.e. `{}`
const stagedAllocation = zcfSeat1.getStagedAllocation();
const empty = AmountMath.makeEmpty(brand, AssetKind.NAT);
// Try to incrementBy empty. This succeeds, and the keyword is added
// with an empty amount.
zcfSeat1.incrementBy({ IST: empty });
t.deepEqual(zcfSeat1.getStagedAllocation(), { IST: empty });
While this incremented the allocation by an empty amount, any amount would have been added to the allocation in the same way.
Note: This method has been deprecated. Use atomicRearrange() instead.
DEPRECATED
aZCFSeat.decrementBy(amountKeywordRecord)
- amountKeywordRecord: AmountKeywordRecord
- Returns: AmountKeywordRecord
Subtracts the amountKeywordRecord argument from the ZCFseat's staged allocation and returns the same amountKeywordRecord so it can be used in another call. Note that this lets zcfSeat1.incrementBy(zcfSeat2.decrementBy(amountKeywordRecord)) work as a usage pattern.
The amounts to subtract cannot be greater than the staged allocation (i.e., negative results are not allowed).
decrementBy() has different behavior from incrementBy() if the original or staged allocation does not have the Keyword specified for an amount in the amountKeywordRecord argument. There are two cases to look at; when the corresponding amount to subtract is empty and when it isn't.
// Make an empty seat.
const { zcfSeat: zcfSeat1 } = zcf.makeEmptySeatKit();
// The allocation is currently {}
const stagedAllocation = zcfSeat1.getStagedAllocation();
const empty = AmountMath.makeEmpty(brand, AssetKind.NAT);
// decrementBy empty does not throw, and does not add a keyword
zcfSeat1.decrementBy({ IST: empty });
t.deepEqual(zcfSeat1.getStagedAllocation(), {});
The result here is not to add the Keyword to the allocation. It wasn't there to begin with, and the operation was to try to subtract it from the allocation. Subtracting something that's not there does not add it to the original value. For example, if I tell you I'm taking away the Mona Lisa from you and you are not the Louvre and don't have it, you still don't have it after I try to take it away. In the above example, trying to take away an empty amount from an empty allocation is effectively a null operation; the allocation is still empty, didn't add the new Keyword, and no error is thrown.
However, decrementing a non-empty amount from an empty allocation has a different result. For example:
// Make an empty seat.
const { zcfSeat: zcfSeat1 } = zcf.makeEmptySeatKit();
// The allocation is currently {}
const stagedAllocation = zcfSeat1.getStagedAllocation();
// decrementBy throws for a keyword that does not exist on the stagedAllocation and a non-empty amount
zcfSeat1.decrementBy({ IST: runFee });
It throws an error because you cannot subtract something from nothing. So trying to decrement an empty allocation by a non-empty amount is an error, while decrementing an empty allocation by an empty amount is effectively a null operation with no effects.
Note: This method has been deprecated. Use atomicRearrange() instead.
DEPRECATED
aZCFSeat.clear()
- Returns: None.
Deletes the ZCFSeat's current staged allocation, if any,
Note: This method has been deprecated. Use atomicRearrange() instead.