hydra-0.15.0: src/main/haskell/Hydra/Sources/Haskell/Operators.hs
module Hydra.Sources.Haskell.Operators where
-- Standard imports for term-level sources outside of the kernel
import Hydra.Kernel hiding (orOp)
import Hydra.Sources.Libraries
import Hydra.Dsl.Meta.Lib.Strings as Strings
import Hydra.Dsl.Meta.Phantoms as Phantoms
import qualified Hydra.Dsl.Annotations as Annotations
import qualified Hydra.Dsl.Bootstrap as Bootstrap
import qualified Hydra.Dsl.LiteralTypes as LiteralTypes
import qualified Hydra.Dsl.Literals as Literals
import qualified Hydra.Dsl.Paths as Paths
import qualified Hydra.Dsl.Ast as Ast
import qualified Hydra.Dsl.Meta.Base as MetaBase
import qualified Hydra.Dsl.Coders as Coders
import qualified Hydra.Dsl.Util as Util
import qualified Hydra.Dsl.Meta.Core as Core
import qualified Hydra.Dsl.Meta.Graph as Graph
import qualified Hydra.Dsl.Json.Model as Json
import qualified Hydra.Dsl.Meta.Lib.Chars as Chars
import qualified Hydra.Dsl.Meta.Lib.Eithers as Eithers
import qualified Hydra.Dsl.Meta.Lib.Equality as Equality
import qualified Hydra.Dsl.Meta.Lib.Lists as Lists
import qualified Hydra.Dsl.Meta.Lib.Literals as Literals
import qualified Hydra.Dsl.Meta.Lib.Logic as Logic
import qualified Hydra.Dsl.Meta.Lib.Maps as Maps
import qualified Hydra.Dsl.Meta.Lib.Math as Math
import qualified Hydra.Dsl.Meta.Lib.Maybes as Maybes
import qualified Hydra.Dsl.Meta.Lib.Pairs as Pairs
import qualified Hydra.Dsl.Meta.Lib.Sets as Sets
import qualified Hydra.Dsl.Packaging as Packaging
import qualified Hydra.Dsl.Meta.Terms as MetaTerms
import qualified Hydra.Dsl.Meta.Testing as Testing
import qualified Hydra.Dsl.Topology as Topology
import qualified Hydra.Dsl.Meta.Types as MetaTypes
import qualified Hydra.Dsl.Typing as Typing
import qualified Hydra.Dsl.Util as Util
import qualified Hydra.Dsl.Meta.Variants as Variants
import qualified Hydra.Dsl.Prims as Prims
import qualified Hydra.Dsl.Meta.Tabular as Tabular
import qualified Hydra.Dsl.Terms as Terms
import qualified Hydra.Dsl.Tests as Tests
import qualified Hydra.Dsl.Types as Types
import qualified Hydra.Sources.Decode.Core as DecodeCore
import qualified Hydra.Sources.Encode.Core as EncodeCore
import qualified Hydra.Sources.Kernel.Terms.Adapt as Adapt
import qualified Hydra.Sources.Kernel.Terms.All as KernelTerms
import qualified Hydra.Sources.Kernel.Terms.Annotations as Annotations
import qualified Hydra.Sources.Kernel.Terms.Arity as Arity
import qualified Hydra.Sources.Kernel.Terms.Checking as Checking
import qualified Hydra.Sources.Kernel.Terms.Constants as Constants
import qualified Hydra.Sources.Kernel.Terms.Extract.Core as ExtractCore
import qualified Hydra.Sources.Kernel.Terms.Extract.Util as ExtractUtil
import qualified Hydra.Sources.Kernel.Terms.Formatting as Formatting
import qualified Hydra.Sources.Kernel.Terms.Inference as Inference
import qualified Hydra.Sources.Kernel.Terms.Languages as Languages
import qualified Hydra.Sources.Kernel.Terms.Lexical as Lexical
import qualified Hydra.Sources.Kernel.Terms.Literals as Literals
import qualified Hydra.Sources.Kernel.Terms.Names as Names
import qualified Hydra.Sources.Kernel.Terms.Reduction as Reduction
import qualified Hydra.Sources.Kernel.Terms.Reflect as Reflect
import qualified Hydra.Sources.Kernel.Terms.Rewriting as Rewriting
import qualified Hydra.Sources.Kernel.Terms.Serialization as Serialization
import qualified Hydra.Sources.Kernel.Terms.Show.Paths as ShowPaths
import qualified Hydra.Sources.Kernel.Terms.Show.Core as ShowCore
import qualified Hydra.Sources.Kernel.Terms.Show.Graph as ShowGraph
import qualified Hydra.Sources.Kernel.Terms.Show.Variants as ShowVariants
import qualified Hydra.Sources.Kernel.Terms.Show.Typing as ShowTyping
import qualified Hydra.Sources.Kernel.Terms.Sorting as Sorting
import qualified Hydra.Sources.Kernel.Terms.Substitution as Substitution
import qualified Hydra.Sources.Kernel.Terms.Templates as Templates
import qualified Hydra.Sources.Kernel.Terms.Unification as Unification
import qualified Hydra.Sources.Kernel.Types.All as KernelTypes
import Prelude hiding ((++))
import qualified Data.Int as I
import qualified Data.List as L
import qualified Data.Map as M
import qualified Data.Set as S
import qualified Data.Maybe as Y
-- Additional imports
import Hydra.Ast
haskellOperatorsDefinition :: String -> TTerm a -> TTermDefinition a
haskellOperatorsDefinition = definitionInModule module_
ns :: Namespace
ns = Namespace "hydra.haskell.operators"
module_ :: Module
module_ = Module {
moduleNamespace = ns,
moduleDefinitions = definitions,
moduleTermDependencies = [Serialization.ns],
moduleTypeDependencies = KernelTypes.kernelTypesNamespaces,
moduleDescription = Just "AST operators for Haskell"}
where
definitions = [
toDefinition andOp,
toDefinition apOp,
toDefinition appOp,
toDefinition applyOp,
toDefinition arrowOp,
toDefinition assertOp,
toDefinition bindOp,
toDefinition caseOp,
toDefinition composeOp,
toDefinition concatOp,
toDefinition consOp,
toDefinition defineOp,
toDefinition diamondOp,
toDefinition divOp,
toDefinition divideOp,
toDefinition elemOp,
toDefinition equalOp,
toDefinition fmapOp,
toDefinition gtOp,
toDefinition gteOp,
toDefinition indexOp,
toDefinition lambdaOp,
toDefinition ltOp,
toDefinition lteOp,
toDefinition minusOp,
toDefinition modOp,
toDefinition multOp,
toDefinition neqOp,
toDefinition notElemOp,
toDefinition orOp,
toDefinition plusOp,
toDefinition quotOp,
toDefinition remOp,
toDefinition typeOp]
andOp :: TTermDefinition Op
andOp = haskellOperatorsDefinition "andOp" $
doc "Logical AND operator (&&)" $
Serialization.op @@ string "&&" @@ int32 3 @@ Ast.associativityRight
apOp :: TTermDefinition Op
apOp = haskellOperatorsDefinition "apOp" $
doc "Applicative apply operator (<*>)" $
Serialization.op @@ string "<*>" @@ int32 4 @@ Ast.associativityLeft
appOp :: TTermDefinition Op
appOp = haskellOperatorsDefinition "appOp" $
doc "Function application operator (whitespace)" $
Ast.op
(Ast.symbol $ string "")
(Ast.padding Ast.wsNone Ast.wsSpace)
(Ast.precedence $ int32 0)
Ast.associativityLeft
applyOp :: TTermDefinition Op
applyOp = haskellOperatorsDefinition "applyOp" $
doc "Low-precedence function application ($)" $
Serialization.op @@ string "$" @@ int32 0 @@ Ast.associativityRight
arrowOp :: TTermDefinition Op
arrowOp = haskellOperatorsDefinition "arrowOp" $
doc "Function type arrow (->)" $
Serialization.op @@ string "->" @@ (Math.negate $ int32 1) @@ Ast.associativityRight
assertOp :: TTermDefinition Op
assertOp = haskellOperatorsDefinition "assertOp" $
doc "Type class constraint arrow (=>)" $
Serialization.op @@ string "=>" @@ int32 0 @@ Ast.associativityNone
bindOp :: TTermDefinition Op
bindOp = haskellOperatorsDefinition "bindOp" $
doc "Monadic bind operator (>>=)" $
Serialization.op @@ string ">>=" @@ int32 1 @@ Ast.associativityLeft
caseOp :: TTermDefinition Op
caseOp = haskellOperatorsDefinition "caseOp" $
doc "Case alternative arrow (->)" $
Serialization.op @@ string "->" @@ int32 0 @@ Ast.associativityNone
composeOp :: TTermDefinition Op
composeOp = haskellOperatorsDefinition "composeOp" $
doc "Function composition (.)" $
Serialization.op @@ string "." @@ int32 9 @@ Ast.associativityLeft
concatOp :: TTermDefinition Op
concatOp = haskellOperatorsDefinition "concatOp" $
doc "List concatenation (++)" $
Serialization.op @@ string "++" @@ int32 5 @@ Ast.associativityRight
consOp :: TTermDefinition Op
consOp = haskellOperatorsDefinition "consOp" $
doc "List cons (:)" $
Serialization.op @@ string ":" @@ int32 5 @@ Ast.associativityRight
defineOp :: TTermDefinition Op
defineOp = haskellOperatorsDefinition "defineOp" $
doc "Definition operator (=)" $
Serialization.op @@ string "=" @@ int32 0 @@ Ast.associativityNone
diamondOp :: TTermDefinition Op
diamondOp = haskellOperatorsDefinition "diamondOp" $
doc "Semigroup append (<>)" $
Serialization.op @@ string "<>" @@ int32 6 @@ Ast.associativityRight
divOp :: TTermDefinition Op
divOp = haskellOperatorsDefinition "divOp" $
doc "Integer division (`div`)" $
Serialization.op @@ string "`div`" @@ int32 7 @@ Ast.associativityLeft
divideOp :: TTermDefinition Op
divideOp = haskellOperatorsDefinition "divideOp" $
doc "Fractional division (/)" $
Serialization.op @@ string "/" @@ int32 7 @@ Ast.associativityLeft
elemOp :: TTermDefinition Op
elemOp = haskellOperatorsDefinition "elemOp" $
doc "List membership (`elem`)" $
Serialization.op @@ string "`elem`" @@ int32 4 @@ Ast.associativityNone
equalOp :: TTermDefinition Op
equalOp = haskellOperatorsDefinition "equalOp" $
doc "Equality comparison (==)" $
Serialization.op @@ string "==" @@ int32 4 @@ Ast.associativityNone
fmapOp :: TTermDefinition Op
fmapOp = haskellOperatorsDefinition "fmapOp" $
doc "Functor map (<$>)" $
Serialization.op @@ string "<$>" @@ int32 4 @@ Ast.associativityLeft
gtOp :: TTermDefinition Op
gtOp = haskellOperatorsDefinition "gtOp" $
doc "Greater than (>)" $
Serialization.op @@ string ">" @@ int32 4 @@ Ast.associativityNone
gteOp :: TTermDefinition Op
gteOp = haskellOperatorsDefinition "gteOp" $
doc "Greater than or equal (>=)" $
Serialization.op @@ string ">=" @@ int32 4 @@ Ast.associativityNone
indexOp :: TTermDefinition Op
indexOp = haskellOperatorsDefinition "indexOp" $
doc "List indexing (!!)" $
Serialization.op @@ string "!!" @@ int32 9 @@ Ast.associativityLeft
lambdaOp :: TTermDefinition Op
lambdaOp = haskellOperatorsDefinition "lambdaOp" $
doc "Lambda body arrow (->)" $
Serialization.op @@ string "->" @@ (Math.negate $ int32 1) @@ Ast.associativityRight
ltOp :: TTermDefinition Op
ltOp = haskellOperatorsDefinition "ltOp" $
doc "Less than (<)" $
Serialization.op @@ string "<" @@ int32 4 @@ Ast.associativityNone
lteOp :: TTermDefinition Op
lteOp = haskellOperatorsDefinition "lteOp" $
doc "Less than or equal (<=)" $
Serialization.op @@ string ">=" @@ int32 4 @@ Ast.associativityNone
minusOp :: TTermDefinition Op
minusOp = haskellOperatorsDefinition "minusOp" $
doc "Subtraction (-). Originally: associativityLeft" $
Serialization.op @@ string "-" @@ int32 6 @@ Ast.associativityBoth
modOp :: TTermDefinition Op
modOp = haskellOperatorsDefinition "modOp" $
doc "Modulo (`mod`)" $
Serialization.op @@ string "`mod`" @@ int32 7 @@ Ast.associativityLeft
multOp :: TTermDefinition Op
multOp = haskellOperatorsDefinition "multOp" $
doc "Multiplication (*). Originally: associativityLeft" $
Serialization.op @@ string "*" @@ int32 7 @@ Ast.associativityBoth
neqOp :: TTermDefinition Op
neqOp = haskellOperatorsDefinition "neqOp" $
doc "Not equal (/=)" $
Serialization.op @@ string "/=" @@ int32 4 @@ Ast.associativityNone
notElemOp :: TTermDefinition Op
notElemOp = haskellOperatorsDefinition "notElemOp" $
doc "List non-membership (`notElem`)" $
Serialization.op @@ string "`notElem`" @@ int32 4 @@ Ast.associativityNone
orOp :: TTermDefinition Op
orOp = haskellOperatorsDefinition "orOp" $
doc "Logical OR (||)" $
Serialization.op @@ string "||" @@ int32 2 @@ Ast.associativityRight
plusOp :: TTermDefinition Op
plusOp = haskellOperatorsDefinition "plusOp" $
doc "Addition (+). Originally: associativityLeft" $
Serialization.op @@ string "+" @@ int32 6 @@ Ast.associativityBoth
quotOp :: TTermDefinition Op
quotOp = haskellOperatorsDefinition "quotOp" $
doc "Integer quotient (`quot`)" $
Serialization.op @@ string "`quot`" @@ int32 7 @@ Ast.associativityLeft
remOp :: TTermDefinition Op
remOp = haskellOperatorsDefinition "remOp" $
doc "Integer remainder (`rem`)" $
Serialization.op @@ string "`rem`" @@ int32 7 @@ Ast.associativityLeft
typeOp :: TTermDefinition Op
typeOp = haskellOperatorsDefinition "typeOp" $
doc "Type annotation (::)" $
Serialization.op @@ string "::" @@ int32 0 @@ Ast.associativityNone