hydra-kernel-0.17.0: src/main/haskell/Hydra/Lib/Effects.hs
-- Note: this is an automatically generated file. Do not edit.
-- | Primitives in the hydra.lib.effects module.
module Hydra.Lib.Effects where
import qualified Hydra.Ast as Ast
import qualified Hydra.Coders as Coders
import qualified Hydra.Core as Core
import qualified Hydra.Docs as Docs
import qualified Hydra.Error.Checking as Checking
import qualified Hydra.Error.Core as ErrorCore
import qualified Hydra.Error.File as ErrorFile
import qualified Hydra.Error.Packaging as ErrorPackaging
import qualified Hydra.Error.System as ErrorSystem
import qualified Hydra.Errors as Errors
import qualified Hydra.File as File
import qualified Hydra.Graph as Graph
import qualified Hydra.Json.Model as Model
import qualified Hydra.Packaging as Packaging
import qualified Hydra.Parsing as Parsing
import qualified Hydra.Paths as Paths
import qualified Hydra.Query as Query
import qualified Hydra.Relational as Relational
import qualified Hydra.System as System
import qualified Hydra.Tabular as Tabular
import qualified Hydra.Testing as Testing
import qualified Hydra.Time as Time
import qualified Hydra.Topology as Topology
import qualified Hydra.Typed as Typed
import qualified Hydra.Typing as Typing
import qualified Hydra.Util as Util
import qualified Hydra.Validation as Validation
import qualified Hydra.Variants as Variants
import Prelude hiding (Enum, Ordering, decodeFloat, encodeFloat, fail, map, pure, sum)
import qualified Data.Scientific as Sci
apply :: Packaging.PrimitiveDefinition
apply =
Packaging.PrimitiveDefinition {
Packaging.primitiveDefinitionName = (Core.Name "hydra.lib.effects.apply"),
Packaging.primitiveDefinitionMetadata = (Just (Packaging.EntityMetadata {
Packaging.entityMetadataDescription = (Just "Applicative apply for effects."),
Packaging.entityMetadataComments = [
"apply(ef, ex) describes an effectful computation which first interprets ef to produce a function, then interprets ex to produce an argument, and returns the result of applying the function to the argument."],
Packaging.entityMetadataSeeAlso = [],
Packaging.entityMetadataLifecycle = Nothing})),
Packaging.primitiveDefinitionSignature = Typing.TermSignature {
Typing.termSignatureTypeParameters = [
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "x"),
Typing.typeParameterConstraints = []},
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "y"),
Typing.typeParameterConstraints = []}],
Typing.termSignatureParameters = [
Typing.Parameter {
Typing.parameterName = (Core.Name "arg0"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeEffect (Core.TypeFunction (Core.FunctionType {
Core.functionTypeDomain = (Core.TypeVariable (Core.Name "x")),
Core.functionTypeCodomain = (Core.TypeVariable (Core.Name "y"))}))),
Typing.parameterIsLazy = False},
Typing.Parameter {
Typing.parameterName = (Core.Name "arg1"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeEffect (Core.TypeVariable (Core.Name "x"))),
Typing.parameterIsLazy = False}],
Typing.termSignatureResult = Typing.Result {
Typing.resultDescription = Nothing,
Typing.resultType = (Core.TypeEffect (Core.TypeVariable (Core.Name "y")))}},
Packaging.primitiveDefinitionIsPure = False,
Packaging.primitiveDefinitionIsTotal = True,
Packaging.primitiveDefinitionDefaultImplementation = Nothing}
bind :: Packaging.PrimitiveDefinition
bind =
Packaging.PrimitiveDefinition {
Packaging.primitiveDefinitionName = (Core.Name "hydra.lib.effects.bind"),
Packaging.primitiveDefinitionMetadata = (Just (Packaging.EntityMetadata {
Packaging.entityMetadataDescription = (Just "Sequence two effectful computations."),
Packaging.entityMetadataComments = [
"bind(e, f) describes an effectful computation which first interprets e, then passes its result to f to obtain the next effect.",
"Host interpreters provide the operational meaning; Hydra uses the type effect<t> to keep the effect boundary explicit."],
Packaging.entityMetadataSeeAlso = [],
Packaging.entityMetadataLifecycle = Nothing})),
Packaging.primitiveDefinitionSignature = Typing.TermSignature {
Typing.termSignatureTypeParameters = [
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "x"),
Typing.typeParameterConstraints = []},
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "y"),
Typing.typeParameterConstraints = []}],
Typing.termSignatureParameters = [
Typing.Parameter {
Typing.parameterName = (Core.Name "arg0"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeEffect (Core.TypeVariable (Core.Name "x"))),
Typing.parameterIsLazy = False},
Typing.Parameter {
Typing.parameterName = (Core.Name "arg1"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeFunction (Core.FunctionType {
Core.functionTypeDomain = (Core.TypeVariable (Core.Name "x")),
Core.functionTypeCodomain = (Core.TypeEffect (Core.TypeVariable (Core.Name "y")))})),
Typing.parameterIsLazy = False}],
Typing.termSignatureResult = Typing.Result {
Typing.resultDescription = Nothing,
Typing.resultType = (Core.TypeEffect (Core.TypeVariable (Core.Name "y")))}},
Packaging.primitiveDefinitionIsPure = False,
Packaging.primitiveDefinitionIsTotal = True,
Packaging.primitiveDefinitionDefaultImplementation = Nothing}
compose :: Packaging.PrimitiveDefinition
compose =
Packaging.PrimitiveDefinition {
Packaging.primitiveDefinitionName = (Core.Name "hydra.lib.effects.compose"),
Packaging.primitiveDefinitionMetadata = (Just (Packaging.EntityMetadata {
Packaging.entityMetadataDescription = (Just "Kleisli composition for effects."),
Packaging.entityMetadataComments = [
"compose(f, g, x) describes an effectful computation equivalent to bind(f(x), g)."],
Packaging.entityMetadataSeeAlso = [],
Packaging.entityMetadataLifecycle = Nothing})),
Packaging.primitiveDefinitionSignature = Typing.TermSignature {
Typing.termSignatureTypeParameters = [
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "x"),
Typing.typeParameterConstraints = []},
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "y"),
Typing.typeParameterConstraints = []},
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "z"),
Typing.typeParameterConstraints = []}],
Typing.termSignatureParameters = [
Typing.Parameter {
Typing.parameterName = (Core.Name "arg0"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeFunction (Core.FunctionType {
Core.functionTypeDomain = (Core.TypeVariable (Core.Name "x")),
Core.functionTypeCodomain = (Core.TypeEffect (Core.TypeVariable (Core.Name "y")))})),
Typing.parameterIsLazy = False},
Typing.Parameter {
Typing.parameterName = (Core.Name "arg1"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeFunction (Core.FunctionType {
Core.functionTypeDomain = (Core.TypeVariable (Core.Name "y")),
Core.functionTypeCodomain = (Core.TypeEffect (Core.TypeVariable (Core.Name "z")))})),
Typing.parameterIsLazy = False},
Typing.Parameter {
Typing.parameterName = (Core.Name "arg2"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeVariable (Core.Name "x")),
Typing.parameterIsLazy = False}],
Typing.termSignatureResult = Typing.Result {
Typing.resultDescription = Nothing,
Typing.resultType = (Core.TypeEffect (Core.TypeVariable (Core.Name "z")))}},
Packaging.primitiveDefinitionIsPure = False,
Packaging.primitiveDefinitionIsTotal = True,
Packaging.primitiveDefinitionDefaultImplementation = Nothing}
foldl :: Packaging.PrimitiveDefinition
foldl =
Packaging.PrimitiveDefinition {
Packaging.primitiveDefinitionName = (Core.Name "hydra.lib.effects.foldl"),
Packaging.primitiveDefinitionMetadata = (Just (Packaging.EntityMetadata {
Packaging.entityMetadataDescription = (Just "Left-fold over a list with an effect-returning function."),
Packaging.entityMetadataComments = [
"foldl(f, acc0, xs) describes an effectful left fold over xs, sequencing applications of f from left to right."],
Packaging.entityMetadataSeeAlso = [],
Packaging.entityMetadataLifecycle = Nothing})),
Packaging.primitiveDefinitionSignature = Typing.TermSignature {
Typing.termSignatureTypeParameters = [
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "x"),
Typing.typeParameterConstraints = []},
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "y"),
Typing.typeParameterConstraints = []}],
Typing.termSignatureParameters = [
Typing.Parameter {
Typing.parameterName = (Core.Name "arg0"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeFunction (Core.FunctionType {
Core.functionTypeDomain = (Core.TypeVariable (Core.Name "x")),
Core.functionTypeCodomain = (Core.TypeFunction (Core.FunctionType {
Core.functionTypeDomain = (Core.TypeVariable (Core.Name "y")),
Core.functionTypeCodomain = (Core.TypeEffect (Core.TypeVariable (Core.Name "x")))}))})),
Typing.parameterIsLazy = False},
Typing.Parameter {
Typing.parameterName = (Core.Name "arg1"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeVariable (Core.Name "x")),
Typing.parameterIsLazy = False},
Typing.Parameter {
Typing.parameterName = (Core.Name "arg2"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeList (Core.TypeVariable (Core.Name "y"))),
Typing.parameterIsLazy = False}],
Typing.termSignatureResult = Typing.Result {
Typing.resultDescription = Nothing,
Typing.resultType = (Core.TypeEffect (Core.TypeVariable (Core.Name "x")))}},
Packaging.primitiveDefinitionIsPure = False,
Packaging.primitiveDefinitionIsTotal = True,
Packaging.primitiveDefinitionDefaultImplementation = Nothing}
map :: Packaging.PrimitiveDefinition
map =
Packaging.PrimitiveDefinition {
Packaging.primitiveDefinitionName = (Core.Name "hydra.lib.effects.map"),
Packaging.primitiveDefinitionMetadata = (Just (Packaging.EntityMetadata {
Packaging.entityMetadataDescription = (Just "Map a pure function over the result of an effect."),
Packaging.entityMetadataComments = [
"map(f, e) describes an effectful computation which interprets e and applies f to its result.",
"Equivalent to bind(e, \\x -> pure(f x))."],
Packaging.entityMetadataSeeAlso = [],
Packaging.entityMetadataLifecycle = Nothing})),
Packaging.primitiveDefinitionSignature = Typing.TermSignature {
Typing.termSignatureTypeParameters = [
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "x"),
Typing.typeParameterConstraints = []},
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "y"),
Typing.typeParameterConstraints = []}],
Typing.termSignatureParameters = [
Typing.Parameter {
Typing.parameterName = (Core.Name "arg0"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeFunction (Core.FunctionType {
Core.functionTypeDomain = (Core.TypeVariable (Core.Name "x")),
Core.functionTypeCodomain = (Core.TypeVariable (Core.Name "y"))})),
Typing.parameterIsLazy = False},
Typing.Parameter {
Typing.parameterName = (Core.Name "arg1"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeEffect (Core.TypeVariable (Core.Name "x"))),
Typing.parameterIsLazy = False}],
Typing.termSignatureResult = Typing.Result {
Typing.resultDescription = Nothing,
Typing.resultType = (Core.TypeEffect (Core.TypeVariable (Core.Name "y")))}},
Packaging.primitiveDefinitionIsPure = False,
Packaging.primitiveDefinitionIsTotal = True,
Packaging.primitiveDefinitionDefaultImplementation = Nothing}
mapList :: Packaging.PrimitiveDefinition
mapList =
Packaging.PrimitiveDefinition {
Packaging.primitiveDefinitionName = (Core.Name "hydra.lib.effects.mapList"),
Packaging.primitiveDefinitionMetadata = (Just (Packaging.EntityMetadata {
Packaging.entityMetadataDescription = (Just "Map an effect-returning function over a list."),
Packaging.entityMetadataComments = [
"mapList(f, xs) describes an effectful computation which applies f to each element of xs from left to right and collects the results."],
Packaging.entityMetadataSeeAlso = [],
Packaging.entityMetadataLifecycle = Nothing})),
Packaging.primitiveDefinitionSignature = Typing.TermSignature {
Typing.termSignatureTypeParameters = [
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "x"),
Typing.typeParameterConstraints = []},
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "y"),
Typing.typeParameterConstraints = []}],
Typing.termSignatureParameters = [
Typing.Parameter {
Typing.parameterName = (Core.Name "arg0"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeFunction (Core.FunctionType {
Core.functionTypeDomain = (Core.TypeVariable (Core.Name "x")),
Core.functionTypeCodomain = (Core.TypeEffect (Core.TypeVariable (Core.Name "y")))})),
Typing.parameterIsLazy = False},
Typing.Parameter {
Typing.parameterName = (Core.Name "arg1"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeList (Core.TypeVariable (Core.Name "x"))),
Typing.parameterIsLazy = False}],
Typing.termSignatureResult = Typing.Result {
Typing.resultDescription = Nothing,
Typing.resultType = (Core.TypeEffect (Core.TypeList (Core.TypeVariable (Core.Name "y"))))}},
Packaging.primitiveDefinitionIsPure = False,
Packaging.primitiveDefinitionIsTotal = True,
Packaging.primitiveDefinitionDefaultImplementation = Nothing}
mapOptional :: Packaging.PrimitiveDefinition
mapOptional =
Packaging.PrimitiveDefinition {
Packaging.primitiveDefinitionName = (Core.Name "hydra.lib.effects.mapOptional"),
Packaging.primitiveDefinitionMetadata = (Just (Packaging.EntityMetadata {
Packaging.entityMetadataDescription = (Just "Map an effect-returning function over an optional."),
Packaging.entityMetadataComments = [
"mapOptional(f, m) describes an effectful computation which returns none when m is none, or applies f to the contained value and wraps the result in given."],
Packaging.entityMetadataSeeAlso = [],
Packaging.entityMetadataLifecycle = Nothing})),
Packaging.primitiveDefinitionSignature = Typing.TermSignature {
Typing.termSignatureTypeParameters = [
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "x"),
Typing.typeParameterConstraints = []},
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "y"),
Typing.typeParameterConstraints = []}],
Typing.termSignatureParameters = [
Typing.Parameter {
Typing.parameterName = (Core.Name "arg0"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeFunction (Core.FunctionType {
Core.functionTypeDomain = (Core.TypeVariable (Core.Name "x")),
Core.functionTypeCodomain = (Core.TypeEffect (Core.TypeVariable (Core.Name "y")))})),
Typing.parameterIsLazy = False},
Typing.Parameter {
Typing.parameterName = (Core.Name "arg1"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeOptional (Core.TypeVariable (Core.Name "x"))),
Typing.parameterIsLazy = False}],
Typing.termSignatureResult = Typing.Result {
Typing.resultDescription = Nothing,
Typing.resultType = (Core.TypeEffect (Core.TypeOptional (Core.TypeVariable (Core.Name "y"))))}},
Packaging.primitiveDefinitionIsPure = False,
Packaging.primitiveDefinitionIsTotal = True,
Packaging.primitiveDefinitionDefaultImplementation = Nothing}
pure :: Packaging.PrimitiveDefinition
pure =
Packaging.PrimitiveDefinition {
Packaging.primitiveDefinitionName = (Core.Name "hydra.lib.effects.pure"),
Packaging.primitiveDefinitionMetadata = (Just (Packaging.EntityMetadata {
Packaging.entityMetadataDescription = (Just "Lift a pure value into an effect."),
Packaging.entityMetadataComments = [
"pure(x) describes an effectful computation which succeeds with x without requiring host interaction."],
Packaging.entityMetadataSeeAlso = [],
Packaging.entityMetadataLifecycle = Nothing})),
Packaging.primitiveDefinitionSignature = Typing.TermSignature {
Typing.termSignatureTypeParameters = [
Typing.TypeParameter {
Typing.typeParameterName = (Core.Name "x"),
Typing.typeParameterConstraints = []}],
Typing.termSignatureParameters = [
Typing.Parameter {
Typing.parameterName = (Core.Name "arg0"),
Typing.parameterDescription = Nothing,
Typing.parameterType = (Core.TypeVariable (Core.Name "x")),
Typing.parameterIsLazy = False}],
Typing.termSignatureResult = Typing.Result {
Typing.resultDescription = Nothing,
Typing.resultType = (Core.TypeEffect (Core.TypeVariable (Core.Name "x")))}},
Packaging.primitiveDefinitionIsPure = False,
Packaging.primitiveDefinitionIsTotal = True,
Packaging.primitiveDefinitionDefaultImplementation = Nothing}