package tezos-protocol-012-Psithaca

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Defines a Michelson expression representation as a Micheline node with canonical (int) location and Michelson_v1_primitives.prim as content.

Types expr and node both define representation of Michelson expressions and are indeed the same type internally, although this is not visible outside Micheline due to interface abstraction.

Locations are used by Micheline mostly for error-reporting and pretty- printing expressions. canonical_location is simply an int.

type annot = string list

Annotations attached to Michelson expressions.

Represents a Michelson expression as canonical Micheline.

type Tezos_protocol_environment_012_Psithaca__Environment.Error_monad.error +=
  1. | Lazy_script_decode
type lazy_expr = expr Data_encoding.lazy_t

A record containing either an underlying serialized representation of an expression or a deserialized one, or both. If either is absent, it will be computed on-demand.

type 'location michelson_node = ('location, Michelson_v1_primitives.prim) Tezos_micheline.Micheline.node
type unlocated_michelson_node = unit michelson_node

Same as expr, but used in different contexts, as required by Micheline's abstract interface.

val location_encoding : location Data_encoding.t
val expr_encoding : expr Data_encoding.t
val lazy_expr_encoding : lazy_expr Data_encoding.t
val lazy_expr : expr -> lazy_expr
type t = {
  1. code : lazy_expr;
  2. storage : lazy_expr;
}

Type t joins the contract's code and storage in a single record.

val encoding : t Data_encoding.t
val deserialization_cost_estimated_from_bytes : int -> Gas_limit_repr.cost
val deserialized_cost : expr -> Gas_limit_repr.cost
val serialized_cost : bytes -> Gas_limit_repr.cost
val bytes_node_cost : bytes -> Gas_limit_repr.cost
val force_decode_cost : lazy_expr -> Gas_limit_repr.cost

Returns (a lower bound on) the cost to deserialize a lazy_expr. If the expression has already been deserialized (i.e. the lazy expression contains the deserialized value or both the bytes representation and the deserialized value) then the cost is free.

val stable_force_decode_cost : lazy_expr -> Gas_limit_repr.cost

Like force_decode_cost, excepted that the returned cost does not depend on the internal state of the lazy_expr. This means that the cost is never free (excepted for zero bytes expressions).

val force_decode : lazy_expr -> (expr, Tezos_protocol_environment_012_Psithaca__Environment.Error_monad.error Tezos_protocol_environment_012_Psithaca__Environment.Error_monad.trace) Stdlib.result
val force_bytes_cost : lazy_expr -> Gas_limit_repr.cost

Returns the cost to serialize a lazy_expr. If the expression has already been deserialized (i.e. le lazy expression contains the bytes representation or both the bytes representation and the deserialized value) then the cost is free.

val force_bytes : lazy_expr -> (bytes, Tezos_protocol_environment_012_Psithaca__Environment.Error_monad.error Tezos_protocol_environment_012_Psithaca__Environment.Error_monad.trace) Stdlib.result
val unit_parameter : lazy_expr
val is_unit_parameter : lazy_expr -> bool
val strip_annotations : node -> node
val strip_locations_cost : _ michelson_node -> Gas_limit_repr.cost
val strip_annotations_cost : node -> Gas_limit_repr.cost
module Micheline_size : sig ... end
val micheline_nodes : node -> int

micheline_nodes root returns the number of internal nodes in the micheline expression held from root.

val fold : node -> 'c -> ('c -> node -> 'c) -> 'c

fold node i f traverses node applying f on an accumulator initialized by i.

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