hydra-0.13.0: src/gen-main/haskell/Hydra/Encode/Compute.hs
-- Note: this is an automatically generated file. Do not edit.
-- | Term encoders for hydra.compute
module Hydra.Encode.Compute where
import qualified Hydra.Compute as Compute
import qualified Hydra.Core as Core
import qualified Hydra.Encode.Core as Core_
import qualified Hydra.Lib.Lists as Lists
import qualified Hydra.Lib.Maps as Maps
import qualified Hydra.Lib.Maybes as Maybes
import Prelude hiding (Enum, Ordering, decodeFloat, encodeFloat, fail, map, pure, sum)
import qualified Data.ByteString as B
import qualified Data.Int as I
import qualified Data.List as L
import qualified Data.Map as M
import qualified Data.Set as S
flowState :: ((t0 -> Core.Term) -> (t1 -> Core.Term) -> Compute.FlowState t0 t1 -> Core.Term)
flowState s v x = (Core.TermRecord (Core.Record {
Core.recordTypeName = (Core.Name "hydra.compute.FlowState"),
Core.recordFields = [
Core.Field {
Core.fieldName = (Core.Name "value"),
Core.fieldTerm = ((\opt -> Core.TermMaybe (Maybes.map v opt)) (Compute.flowStateValue x))},
Core.Field {
Core.fieldName = (Core.Name "state"),
Core.fieldTerm = (s (Compute.flowStateState x))},
Core.Field {
Core.fieldName = (Core.Name "trace"),
Core.fieldTerm = (trace (Compute.flowStateTrace x))}]}))
trace :: (Compute.Trace -> Core.Term)
trace x = (Core.TermRecord (Core.Record {
Core.recordTypeName = (Core.Name "hydra.compute.Trace"),
Core.recordFields = [
Core.Field {
Core.fieldName = (Core.Name "stack"),
Core.fieldTerm = ((\xs -> Core.TermList (Lists.map (\x -> Core.TermLiteral (Core.LiteralString x)) xs)) (Compute.traceStack x))},
Core.Field {
Core.fieldName = (Core.Name "messages"),
Core.fieldTerm = ((\xs -> Core.TermList (Lists.map (\x -> Core.TermLiteral (Core.LiteralString x)) xs)) (Compute.traceMessages x))},
Core.Field {
Core.fieldName = (Core.Name "other"),
Core.fieldTerm = ((\m -> Core.TermMap (Maps.bimap Core_.name Core_.term m)) (Compute.traceOther x))}]}))