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82 lines
5.3 KiB
ReStructuredText
Financial model
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===============
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Corda provides a large standard library of data types used in financial applications and contract state objects.
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These provide a common language for states and contracts.
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Amount
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------
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The `Amount <api/kotlin/corda/net.corda.core.contracts/-amount/index.html>`_ class is used to represent an amount of
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some fungible asset. It is a generic class which wraps around a type used to define the underlying product, called
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the *token*. For instance it can be the standard JDK type ``Currency``, or an ``Issued`` instance, or this can be
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a more complex type such as an obligation contract issuance definition (which in turn contains a token definition
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for whatever the obligation is to be settled in). Custom token types should implement ``TokenizableAssetInfo`` to allow the
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``Amount`` conversion helpers ``fromDecimal`` and ``toDecimal`` to calculate the correct ``displayTokenSize``.
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.. note:: Fungible is used here to mean that instances of an asset is interchangeable for any other identical instance,
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and that they can be split/merged. For example a £5 note can reasonably be exchanged for any other £5 note, and
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a £10 note can be exchanged for two £5 notes, or vice-versa.
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Here are some examples:
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.. container:: codeset
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.. sourcecode:: kotlin
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// A quantity of some specific currency like pounds, euros, dollars etc.
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Amount<Currency>
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// A quantity of currency that is issued by a specific issuer, for instance central bank vs other bank dollars
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Amount<Issued<Currency>>
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// A quantity of a product governed by specific obligation terms
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Amount<Obligation.Terms<P>>
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``Amount`` represents quantities as integers. You cannot use ``Amount`` to represent negative quantities,
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or fractional quantities: if you wish to do this then you must use a different type, typically ``BigDecimal``.
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For currencies the quantity represents pennies, cents, or whatever else is the smallest integer amount for that currency,
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but for other assets it might mean anything e.g. 1000 tonnes of coal, or kilowatt-hours. The precise conversion ratio
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to displayable amounts is via the ``displayTokenSize`` property, which is the ``BigDecimal`` numeric representation of
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a single token as it would be written. ``Amount`` also defines methods to do overflow/underflow checked addition and subtraction
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(these are operator overloads in Kotlin and can be used as regular methods from Java). More complex calculations should typically
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be done in ``BigDecimal`` and converted back to ensure due consideration of rounding and to ensure token conservation.
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``Issued`` refers to a product (which can be cash, a cash-like thing, assets, or generally anything else that's
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quantifiable with integer quantities) and an associated ``PartyAndReference`` that describes the issuer of that contract.
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An issued product typically follows a lifecycle which includes issuance, movement and exiting from the ledger (for example,
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see the ``Cash`` contract and its associated *state* and *commands*)
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To represent movements of ``Amount`` tokens use the ``AmountTransfer`` type, which records the quantity and perspective
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of a transfer. Positive values will indicate a movement of tokens from a ``source`` e.g. a ``Party``, or ``CompositeKey``
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to a ``destination``. Negative values can be used to indicate a retrograde motion of tokens from ``destination``
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to ``source``. ``AmountTransfer`` supports addition (as a Kotlin operator, or Java method) to provide netting
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and aggregation of flows. The ``apply`` method can be used to process a list of attributed ``Amount`` objects in a
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``List<SourceAndAmount>`` to carry out the actual transfer.
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Financial states
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----------------
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In additional to the common state types, a number of interfaces extend ``ContractState`` to model financial state such as:
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``LinearState``
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A state which has a unique identifier beyond its StateRef and carries it through state transitions.
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Such a state cannot be duplicated, merged or split in a transaction: only continued or deleted. A linear state is
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useful when modelling an indivisible/non-fungible thing like a specific deal, or an asset that can't be
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split (like a rare piece of art).
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``DealState``
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A LinearState representing an agreement between two or more parties. Intended to simplify implementing generic
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protocols that manipulate many agreement types.
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``FungibleAsset``
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A FungibleAsset is intended to be used for contract states representing assets which are fungible, countable and issued by a
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specific party. States contain assets which are equivalent (such as cash of the same currency), so records of their existence
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can be merged or split as needed where the issuer is the same. For instance, dollars issued by the Fed are fungible and
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countable (in cents), barrels of West Texas crude are fungible and countable (oil from two small containers can be poured into one large
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container), shares of the same class in a specific company are fungible and countable, and so on.
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The following diagram illustrates the complete Contract State hierarchy:
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.. image:: resources/financialContractStateModel.png
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Note there are currently two packages, a core library and a finance model specific library.
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Developers may re-use or extend the Finance types directly or write their own by extending the base types from the Core library.
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