| Safe Haskell | Safe-Inferred |
|---|---|
| Language | Haskell2010 |
Agda.Syntax.Common
Contents
- Delayed
- File
- Agda variants
- Record Directives
- Eta-equality
- Induction
- Hiding
- Modalities
- Quantities
- Relevance
- Annotations
- Locks
- Cohesion
- Origin of arguments (user-written, inserted or reflected)
- Free variable annotations
- Argument decoration
- Arguments
- Names
- Named arguments
- Range decoration.
- Raw names (before parsing into name parts).
- Further constructor and projection info
- Infixity, access, abstract, etc.
- NameId
- Meta variables
- Problems
- Placeholders (used to parse sections)
- Interaction meta variables
- Fixity
- Notation coupled with
Fixity - Import directive
- Termination
- Positivity
- Universe checking
- Universe checking
- Rewrite Directives on the LHS
- Information on expanded ellipsis (
...)
Description
Some common syntactic entities are defined in this module.
Synopsis
- type Nat = Int
- type Arity = Nat
- data Delayed
- data FileType
- data Cubical
- data Language
- data RecordDirectives' a = RecordDirectives {
- recInductive :: Maybe (Ranged Induction)
- recHasEta :: Maybe HasEta0
- recPattern :: Maybe Range
- recConstructor :: Maybe a
- emptyRecordDirectives :: RecordDirectives' a
- data HasEta' a
- type HasEta = HasEta' PatternOrCopattern
- type HasEta0 = HasEta' ()
- data PatternOrCopattern
- class PatternMatchingAllowed a where
- patternMatchingAllowed :: a -> Bool
- class CopatternMatchingAllowed a where
- copatternMatchingAllowed :: a -> Bool
- data Induction
- data Overlappable
- data Hiding
- data WithHiding a = WithHiding {}
- class LensHiding a where
- mergeHiding :: LensHiding a => WithHiding a -> a
- visible :: LensHiding a => a -> Bool
- notVisible :: LensHiding a => a -> Bool
- hidden :: LensHiding a => a -> Bool
- hide :: LensHiding a => a -> a
- hideOrKeepInstance :: LensHiding a => a -> a
- makeInstance :: LensHiding a => a -> a
- makeInstance' :: LensHiding a => Overlappable -> a -> a
- isOverlappable :: LensHiding a => a -> Bool
- isInstance :: LensHiding a => a -> Bool
- sameHiding :: (LensHiding a, LensHiding b) => a -> b -> Bool
- newtype UnderAddition t = UnderAddition t
- newtype UnderComposition t = UnderComposition t
- data Modality = Modality {}
- moreUsableModality :: Modality -> Modality -> Bool
- usableModality :: LensModality a => a -> Bool
- composeModality :: Modality -> Modality -> Modality
- applyModality :: LensModality a => Modality -> a -> a
- inverseComposeModality :: Modality -> Modality -> Modality
- inverseApplyModalityButNotQuantity :: LensModality a => Modality -> a -> a
- addModality :: Modality -> Modality -> Modality
- zeroModality :: Modality
- unitModality :: Modality
- topModality :: Modality
- defaultModality :: Modality
- sameModality :: (LensModality a, LensModality b) => a -> b -> Bool
- lModRelevance :: Lens' Relevance Modality
- lModQuantity :: Lens' Quantity Modality
- lModCohesion :: Lens' Cohesion Modality
- class LensModality a where
- getModality :: a -> Modality
- setModality :: Modality -> a -> a
- mapModality :: (Modality -> Modality) -> a -> a
- getRelevanceMod :: LensModality a => LensGet Relevance a
- setRelevanceMod :: LensModality a => LensSet Relevance a
- mapRelevanceMod :: LensModality a => LensMap Relevance a
- getQuantityMod :: LensModality a => LensGet Quantity a
- setQuantityMod :: LensModality a => LensSet Quantity a
- mapQuantityMod :: LensModality a => LensMap Quantity a
- getCohesionMod :: LensModality a => LensGet Cohesion a
- setCohesionMod :: LensModality a => LensSet Cohesion a
- mapCohesionMod :: LensModality a => LensMap Cohesion a
- data Q0Origin
- = Q0Inferred
- | Q0 Range
- | Q0Erased Range
- data Q1Origin
- = Q1Inferred
- | Q1 Range
- | Q1Linear Range
- data QωOrigin
- = QωInferred
- | Qω Range
- | QωPlenty Range
- data Quantity
- sameQuantity :: Quantity -> Quantity -> Bool
- addQuantity :: Quantity -> Quantity -> Quantity
- zeroQuantity :: Quantity
- defaultQuantity :: Quantity
- unitQuantity :: Quantity
- topQuantity :: Quantity
- moreQuantity :: Quantity -> Quantity -> Bool
- composeQuantity :: Quantity -> Quantity -> Quantity
- applyQuantity :: LensQuantity a => Quantity -> a -> a
- inverseComposeQuantity :: Quantity -> Quantity -> Quantity
- inverseApplyQuantity :: LensQuantity a => Quantity -> a -> a
- hasQuantity0 :: LensQuantity a => a -> Bool
- hasQuantity1 :: LensQuantity a => a -> Bool
- hasQuantityω :: LensQuantity a => a -> Bool
- noUserQuantity :: LensQuantity a => a -> Bool
- usableQuantity :: LensQuantity a => a -> Bool
- class LensQuantity a where
- getQuantity :: a -> Quantity
- setQuantity :: Quantity -> a -> a
- mapQuantity :: (Quantity -> Quantity) -> a -> a
- data Erased
- defaultErased :: Erased
- asQuantity :: Erased -> Quantity
- erasedFromQuantity :: Quantity -> Maybe Erased
- sameErased :: Erased -> Erased -> Bool
- isErased :: Erased -> Bool
- composeErased :: Erased -> Erased -> Erased
- data Relevance
- allRelevances :: [Relevance]
- class LensRelevance a where
- getRelevance :: a -> Relevance
- setRelevance :: Relevance -> a -> a
- mapRelevance :: (Relevance -> Relevance) -> a -> a
- isRelevant :: LensRelevance a => a -> Bool
- isIrrelevant :: LensRelevance a => a -> Bool
- isNonStrict :: LensRelevance a => a -> Bool
- moreRelevant :: Relevance -> Relevance -> Bool
- sameRelevance :: Relevance -> Relevance -> Bool
- usableRelevance :: LensRelevance a => a -> Bool
- composeRelevance :: Relevance -> Relevance -> Relevance
- applyRelevance :: LensRelevance a => Relevance -> a -> a
- inverseComposeRelevance :: Relevance -> Relevance -> Relevance
- inverseApplyRelevance :: LensRelevance a => Relevance -> a -> a
- addRelevance :: Relevance -> Relevance -> Relevance
- zeroRelevance :: Relevance
- unitRelevance :: Relevance
- topRelevance :: Relevance
- defaultRelevance :: Relevance
- irrToNonStrict :: Relevance -> Relevance
- nonStrictToRel :: Relevance -> Relevance
- nonStrictToIrr :: Relevance -> Relevance
- data Annotation = Annotation {}
- defaultAnnotation :: Annotation
- class LensAnnotation a where
- getAnnotation :: a -> Annotation
- setAnnotation :: Annotation -> a -> a
- mapAnnotation :: (Annotation -> Annotation) -> a -> a
- data Lock
- defaultLock :: Lock
- class LensLock a where
- data Cohesion
- = Flat
- | Continuous
- | Squash
- allCohesions :: [Cohesion]
- class LensCohesion a where
- getCohesion :: a -> Cohesion
- setCohesion :: Cohesion -> a -> a
- mapCohesion :: (Cohesion -> Cohesion) -> a -> a
- moreCohesion :: Cohesion -> Cohesion -> Bool
- sameCohesion :: Cohesion -> Cohesion -> Bool
- usableCohesion :: LensCohesion a => a -> Bool
- composeCohesion :: Cohesion -> Cohesion -> Cohesion
- applyCohesion :: LensCohesion a => Cohesion -> a -> a
- inverseComposeCohesion :: Cohesion -> Cohesion -> Cohesion
- inverseApplyCohesion :: LensCohesion a => Cohesion -> a -> a
- addCohesion :: Cohesion -> Cohesion -> Cohesion
- zeroCohesion :: Cohesion
- unitCohesion :: Cohesion
- topCohesion :: Cohesion
- defaultCohesion :: Cohesion
- data Origin
- data WithOrigin a = WithOrigin {}
- class LensOrigin a where
- data FreeVariables
- unknownFreeVariables :: FreeVariables
- noFreeVariables :: FreeVariables
- oneFreeVariable :: Int -> FreeVariables
- freeVariablesFromList :: [Int] -> FreeVariables
- class LensFreeVariables a where
- getFreeVariables :: a -> FreeVariables
- setFreeVariables :: FreeVariables -> a -> a
- mapFreeVariables :: (FreeVariables -> FreeVariables) -> a -> a
- hasNoFreeVariables :: LensFreeVariables a => a -> Bool
- data ArgInfo = ArgInfo {}
- class LensArgInfo a where
- getArgInfo :: a -> ArgInfo
- setArgInfo :: ArgInfo -> a -> a
- mapArgInfo :: (ArgInfo -> ArgInfo) -> a -> a
- defaultArgInfo :: ArgInfo
- getHidingArgInfo :: LensArgInfo a => LensGet Hiding a
- setHidingArgInfo :: LensArgInfo a => LensSet Hiding a
- mapHidingArgInfo :: LensArgInfo a => LensMap Hiding a
- getModalityArgInfo :: LensArgInfo a => LensGet Modality a
- setModalityArgInfo :: LensArgInfo a => LensSet Modality a
- mapModalityArgInfo :: LensArgInfo a => LensMap Modality a
- getOriginArgInfo :: LensArgInfo a => LensGet Origin a
- setOriginArgInfo :: LensArgInfo a => LensSet Origin a
- mapOriginArgInfo :: LensArgInfo a => LensMap Origin a
- getFreeVariablesArgInfo :: LensArgInfo a => LensGet FreeVariables a
- setFreeVariablesArgInfo :: LensArgInfo a => LensSet FreeVariables a
- mapFreeVariablesArgInfo :: LensArgInfo a => LensMap FreeVariables a
- isInsertedHidden :: (LensHiding a, LensOrigin a) => a -> Bool
- data Arg e = Arg {}
- defaultArg :: a -> Arg a
- withArgsFrom :: [a] -> [Arg b] -> [Arg a]
- withNamedArgsFrom :: [a] -> [NamedArg b] -> [NamedArg a]
- class Eq a => Underscore a where
- underscore :: a
- isUnderscore :: a -> Bool
- data Named name a = Named {
- nameOf :: Maybe name
- namedThing :: a
- type Named_ = Named NamedName
- type NamedName = WithOrigin (Ranged ArgName)
- sameName :: NamedName -> NamedName -> Bool
- unnamed :: a -> Named name a
- isUnnamed :: Named name a -> Maybe a
- named :: name -> a -> Named name a
- userNamed :: Ranged ArgName -> a -> Named_ a
- class LensNamed a where
- getNameOf :: LensNamed a => a -> Maybe (NameOf a)
- setNameOf :: LensNamed a => Maybe (NameOf a) -> a -> a
- mapNameOf :: LensNamed a => (Maybe (NameOf a) -> Maybe (NameOf a)) -> a -> a
- bareNameOf :: (LensNamed a, NameOf a ~ NamedName) => a -> Maybe ArgName
- bareNameWithDefault :: (LensNamed a, NameOf a ~ NamedName) => ArgName -> a -> ArgName
- namedSame :: (LensNamed a, LensNamed b, NameOf a ~ NamedName, NameOf b ~ NamedName) => a -> b -> Bool
- fittingNamedArg :: (LensNamed arg, NameOf arg ~ NamedName, LensHiding arg, LensNamed dom, NameOf dom ~ NamedName, LensHiding dom) => arg -> dom -> Maybe Bool
- type NamedArg a = Arg (Named_ a)
- namedArg :: NamedArg a -> a
- defaultNamedArg :: a -> NamedArg a
- unnamedArg :: ArgInfo -> a -> NamedArg a
- updateNamedArg :: (a -> b) -> NamedArg a -> NamedArg b
- updateNamedArgA :: Applicative f => (a -> f b) -> NamedArg a -> f (NamedArg b)
- setNamedArg :: NamedArg a -> b -> NamedArg b
- type ArgName = String
- argNameToString :: ArgName -> String
- stringToArgName :: String -> ArgName
- appendArgNames :: ArgName -> ArgName -> ArgName
- data Ranged a = Ranged {
- rangeOf :: Range
- rangedThing :: a
- unranged :: a -> Ranged a
- type RawName = String
- rawNameToString :: RawName -> String
- stringToRawName :: String -> RawName
- type RString = Ranged RawName
- data ConOrigin
- bestConInfo :: ConOrigin -> ConOrigin -> ConOrigin
- data ProjOrigin
- data IsInfix
- data Access
- data IsAbstract
- class LensIsAbstract a where
- class AnyIsAbstract a where
- anyIsAbstract :: a -> IsAbstract
- data IsInstance
- data IsMacro
- newtype ModuleNameHash = ModuleNameHash {}
- noModuleNameHash :: ModuleNameHash
- data NameId = NameId !Word64 !ModuleNameHash
- data MetaId = MetaId {
- metaId :: !Word64
- metaModule :: !ModuleNameHash
- newtype Constr a = Constr a
- newtype ProblemId = ProblemId Nat
- data PositionInName
- data MaybePlaceholder e
- = Placeholder !PositionInName
- | NoPlaceholder !(Maybe PositionInName) e
- noPlaceholder :: e -> MaybePlaceholder e
- newtype InteractionId = InteractionId {
- interactionId :: Nat
- type PrecedenceLevel = Double
- data FixityLevel
- data Associativity
- data Fixity = Fixity {}
- noFixity :: Fixity
- defaultFixity :: Fixity
- data Fixity' = Fixity' {
- theFixity :: !Fixity
- theNotation :: Notation
- theNameRange :: Range
- noFixity' :: Fixity'
- _fixityAssoc :: Lens' Associativity Fixity
- _fixityLevel :: Lens' FixityLevel Fixity
- class LensFixity a where
- lensFixity :: Lens' Fixity a
- class LensFixity' a where
- lensFixity' :: Lens' Fixity' a
- data ImportDirective' n m = ImportDirective {
- importDirRange :: Range
- using :: Using' n m
- hiding :: HidingDirective' n m
- impRenaming :: RenamingDirective' n m
- publicOpen :: Maybe Range
- type HidingDirective' n m = [ImportedName' n m]
- type RenamingDirective' n m = [Renaming' n m]
- defaultImportDir :: ImportDirective' n m
- isDefaultImportDir :: ImportDirective' n m -> Bool
- data Using' n m
- = UseEverything
- | Using [ImportedName' n m]
- mapUsing :: ([ImportedName' n1 m1] -> [ImportedName' n2 m2]) -> Using' n1 m1 -> Using' n2 m2
- data ImportedName' n m
- = ImportedModule m
- | ImportedName n
- fromImportedName :: ImportedName' a a -> a
- setImportedName :: ImportedName' a a -> a -> ImportedName' a a
- partitionImportedNames :: [ImportedName' n m] -> ([n], [m])
- data Renaming' n m = Renaming {
- renFrom :: ImportedName' n m
- renTo :: ImportedName' n m
- renFixity :: Maybe Fixity
- renToRange :: Range
- data TerminationCheck m
- data PositivityCheck
- data UniverseCheck
- data CoverageCheck
- data RewriteEqn' qn nm p e
- data ExpandedEllipsis
- = ExpandedEllipsis { }
- | NoEllipsis
- type Notation = [NotationPart]
- noNotation :: Notation
- data BoundVariablePosition = BoundVariablePosition {
- holeNumber :: !Int
- varNumber :: !Int
- data NotationPart
Documentation
Delayed
Used to specify whether something should be delayed.
Constructors
| Delayed | |
| NotDelayed |
File
Constructors
| AgdaFileType | |
| MdFileType | |
| RstFileType | |
| TexFileType | |
| OrgFileType |
Instances
| EmbPrj FileType Source # | |
| Pretty FileType Source # | |
| Generic FileType Source # | |
| Show FileType Source # | |
| NFData FileType Source # | |
Defined in Agda.Syntax.Common | |
| Eq FileType Source # | |
| Ord FileType Source # | |
Defined in Agda.Syntax.Common | |
| type Rep FileType Source # | |
Defined in Agda.Syntax.Common type Rep FileType = D1 ('MetaData "FileType" "Agda.Syntax.Common" "Agda-2.6.2.2.20230105-inplace" 'False) ((C1 ('MetaCons "AgdaFileType" 'PrefixI 'False) (U1 :: Type -> Type) :+: C1 ('MetaCons "MdFileType" 'PrefixI 'False) (U1 :: Type -> Type)) :+: (C1 ('MetaCons "RstFileType" 'PrefixI 'False) (U1 :: Type -> Type) :+: (C1 ('MetaCons "TexFileType" 'PrefixI 'False) (U1 :: Type -> Type) :+: C1 ('MetaCons "OrgFileType" 'PrefixI 'False) (U1 :: Type -> Type)))) | |
Agda variants
Variants of Cubical Agda.
Agda variants.
Only some variants are tracked.
Instances
| KillRange Language Source # | |
Defined in Agda.Syntax.Common Methods | |
| EmbPrj Language Source # | |
| Generic Language Source # | |
| Show Language Source # | |
| NFData Language Source # | |
Defined in Agda.Syntax.Common | |
| Eq Language Source # | |
| type Rep Language Source # | |
Defined in Agda.Syntax.Common type Rep Language = D1 ('MetaData "Language" "Agda.Syntax.Common" "Agda-2.6.2.2.20230105-inplace" 'False) (C1 ('MetaCons "WithoutK" 'PrefixI 'False) (U1 :: Type -> Type) :+: (C1 ('MetaCons "WithK" 'PrefixI 'False) (U1 :: Type -> Type) :+: C1 ('MetaCons "Cubical" 'PrefixI 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'NoSourceUnpackedness 'NoSourceStrictness 'DecidedLazy) (Rec0 Cubical)))) | |
Record Directives
data RecordDirectives' a Source #
Constructors
| RecordDirectives | |
Fields
| |
Instances
Eta-equality
Does a record come with eta-equality?
Instances
type HasEta = HasEta' PatternOrCopattern Source #
Pattern and copattern matching is allowed in the presence of eta.
In the absence of eta, we have to choose whether we want to allow matching on the constructor or copattern matching with the projections. Having both leads to breakage of subject reduction (issue #4560).
data PatternOrCopattern Source #
For a record without eta, which type of matching do we allow?
Constructors
| PatternMatching | Can match on the record constructor. |
| CopatternMatching | Can copattern match using the projections. (Default.) |
Instances
class PatternMatchingAllowed a where Source #
Can we pattern match on the record constructor?
Methods
patternMatchingAllowed :: a -> Bool Source #
Instances
| PatternMatchingAllowed HasEta Source # | |
Defined in Agda.Syntax.Common Methods patternMatchingAllowed :: HasEta -> Bool Source # | |
| PatternMatchingAllowed Induction Source # | |
Defined in Agda.Syntax.Common Methods | |
| PatternMatchingAllowed PatternOrCopattern Source # | |
Defined in Agda.Syntax.Common Methods patternMatchingAllowed :: PatternOrCopattern -> Bool Source # | |
| PatternMatchingAllowed EtaEquality Source # | |
Defined in Agda.TypeChecking.Monad.Base Methods | |
class CopatternMatchingAllowed a where Source #
Can we construct a record by copattern matching?
Methods
copatternMatchingAllowed :: a -> Bool Source #
Instances
| CopatternMatchingAllowed HasEta Source # | |
Defined in Agda.Syntax.Common Methods | |
| CopatternMatchingAllowed PatternOrCopattern Source # | |
Defined in Agda.Syntax.Common Methods copatternMatchingAllowed :: PatternOrCopattern -> Bool Source # | |
| CopatternMatchingAllowed EtaEquality Source # | |
Defined in Agda.TypeChecking.Monad.Base Methods | |
Induction
Inductive < Coinductive
Constructors
| Inductive | |
| CoInductive |
Instances
| PatternMatchingAllowed Induction Source # | |
Defined in Agda.Syntax.Common Methods | |
| HasRange Induction Source # | |
| KillRange Induction Source # | |
Defined in Agda.Syntax.Common Methods | |
| EmbPrj Induction Source # | |
| Pretty Induction Source # | |
| Show Induction Source # | |
| NFData Induction Source # | |
Defined in Agda.Syntax.Common | |
| Eq Induction Source # | |
| Ord Induction Source # | |
Hiding
data Overlappable Source #
Constructors
| YesOverlap | |
| NoOverlap |
Instances
Constructors
| Hidden | |
| Instance Overlappable | |
| NotHidden |
Instances
| LensHiding Hiding Source # | |
| HasRange Hiding Source # | |
| KillRange Hiding Source # | |
Defined in Agda.Syntax.Common Methods | |
| Verbalize Hiding Source # | |
| ChooseFlex Hiding Source # | |
Defined in Agda.TypeChecking.Rules.LHS.Problem Methods chooseFlex :: Hiding -> Hiding -> FlexChoice Source # | |
| EmbPrj Hiding Source # | |
| Unquote Hiding Source # | |
| Pretty Hiding Source # | |
| Monoid Hiding Source # | |
| Semigroup Hiding Source # |
|
| Show Hiding Source # | |
| NFData Hiding Source # | |
Defined in Agda.Syntax.Common | |
| Eq Hiding Source # | |
| Ord Hiding Source # | |
| Conversion TOM a b => Conversion TOM (Arg a) (Hiding, b) Source # | |
data WithHiding a Source #
Decorating something with Hiding information.
Constructors
| WithHiding | |
Instances
class LensHiding a where Source #
A lens to access the Hiding attribute in data structures.
Minimal implementation: getHiding and mapHiding or LensArgInfo.
Minimal complete definition
Nothing
Methods
getHiding :: a -> Hiding Source #
default getHiding :: LensArgInfo a => a -> Hiding Source #
Instances
mergeHiding :: LensHiding a => WithHiding a -> a Source #
Monoidal composition of Hiding information in some data.
notVisible :: LensHiding a => a -> Bool Source #
:: LensHiding a => a -> Bool Source #
Hidden arguments are hidden.
hide :: LensHiding a => a -> a Source #
hideOrKeepInstance :: LensHiding a => a -> a Source #
makeInstance :: LensHiding a => a -> a Source #
makeInstance' :: LensHiding a => Overlappable -> a -> a Source #
isOverlappable :: LensHiding a => a -> Bool Source #
isInstance :: LensHiding a => a -> Bool Source #
sameHiding :: (LensHiding a, LensHiding b) => a -> b -> Bool Source #
Ignores Overlappable.
Modalities
newtype UnderAddition t Source #
Type wrapper to indicate additive monoid/semigroup context.
Constructors
| UnderAddition t |
Instances
newtype UnderComposition t Source #
Type wrapper to indicate composition or multiplicative monoid/semigroup context.
Constructors
| UnderComposition t |
Instances
We have a tuple of modalities, which might not be fully orthogonal. For instance, irrelevant stuff is also run-time irrelevant.
Constructors
| Modality | |
Fields
| |
Instances
moreUsableModality :: Modality -> Modality -> Bool Source #
m means that an moreUsableModality m'm can be used
where ever an m' is required.
usableModality :: LensModality a => a -> Bool Source #
composeModality :: Modality -> Modality -> Modality Source #
Multiplicative monoid (standard monoid).
applyModality :: LensModality a => Modality -> a -> a Source #
Compose with modality flag from the left.
This function is e.g. used to update the modality information
on pattern variables a after a match against something of modality q.
inverseComposeModality :: Modality -> Modality -> Modality Source #
inverseComposeModality r x returns the least modality y
such that forall x, y we have
x `moreUsableModality` (r `composeModality` y)
iff
(r `inverseComposeModality` x) `moreUsableModality` y (Galois connection).
inverseApplyModalityButNotQuantity :: LensModality a => Modality -> a -> a Source #
Left division by a Modality.
Used e.g. to modify context when going into a m argument.
Note that this function does not change quantities.
zeroModality :: Modality Source #
Identity under addition
unitModality :: Modality Source #
Identity under composition
topModality :: Modality Source #
Absorptive element under addition.
defaultModality :: Modality Source #
The default Modality Beware that this is neither the additive unit nor the unit under composition, because the default quantity is ω.
sameModality :: (LensModality a, LensModality b) => a -> b -> Bool Source #
Equality ignoring origin.
class LensModality a where Source #
Minimal complete definition
Nothing
Methods
getModality :: a -> Modality Source #
default getModality :: LensArgInfo a => a -> Modality Source #
setModality :: Modality -> a -> a Source #
mapModality :: (Modality -> Modality) -> a -> a Source #
default mapModality :: LensArgInfo a => (Modality -> Modality) -> a -> a Source #
Instances
getRelevanceMod :: LensModality a => LensGet Relevance a Source #
setRelevanceMod :: LensModality a => LensSet Relevance a Source #
mapRelevanceMod :: LensModality a => LensMap Relevance a Source #
getQuantityMod :: LensModality a => LensGet Quantity a Source #
setQuantityMod :: LensModality a => LensSet Quantity a Source #
mapQuantityMod :: LensModality a => LensMap Quantity a Source #
getCohesionMod :: LensModality a => LensGet Cohesion a Source #
setCohesionMod :: LensModality a => LensSet Cohesion a Source #
mapCohesionMod :: LensModality a => LensMap Cohesion a Source #
Quantities
Quantity origin.
Origin of Quantity0.
Constructors
| Q0Inferred | User wrote nothing. |
| Q0 Range | User wrote "@0". |
| Q0Erased Range | User wrote "@erased". |
Instances
Origin of Quantity1.
Constructors
| Q1Inferred | User wrote nothing. |
| Q1 Range | User wrote "@1". |
| Q1Linear Range | User wrote "@linear". |
Instances
Origin of Quantityω.
Constructors
| QωInferred | User wrote nothing. |
| Qω Range | User wrote "@ω". |
| QωPlenty Range | User wrote "@plenty". |
Instances
Instances for Q0Origin.
Instances for Q1Origin.
Instances for QωOrigin.
Quantity.
Quantity for linearity.
A quantity is a set of natural numbers, indicating possible semantic
uses of a variable. A singleton set {n} requires that the
corresponding variable is used exactly n times.
Constructors
| Quantity0 Q0Origin | Zero uses |
| Quantity1 Q1Origin | Linear use |
| Quantityω QωOrigin | Unrestricted use |
Instances
addQuantity :: Quantity -> Quantity -> Quantity Source #
Quantity forms an additive monoid with zero Quantity0.
zeroQuantity :: Quantity Source #
Identity element under addition
defaultQuantity :: Quantity Source #
Absorptive element! This differs from Relevance and Cohesion whose default is the multiplicative unit.
unitQuantity :: Quantity Source #
Identity element under composition
topQuantity :: Quantity Source #
Absorptive element is ω.
moreQuantity :: Quantity -> Quantity -> Bool Source #
m means that an moreUsableQuantity m'm can be used
where ever an m' is required.
applyQuantity :: LensQuantity a => Quantity -> a -> a Source #
Compose with quantity flag from the left.
This function is e.g. used to update the quantity information
on pattern variables a after a match against something of quantity q.
inverseComposeQuantity :: Quantity -> Quantity -> Quantity Source #
inverseComposeQuantity r x returns the least quantity y
such that forall x, y we have
x `moreQuantity` (r `composeQuantity` y)
iff
(r `inverseComposeQuantity` x) `moreQuantity` y (Galois connection).
inverseApplyQuantity :: LensQuantity a => Quantity -> a -> a Source #
Left division by a Quantity.
Used e.g. to modify context when going into a q argument.
hasQuantity0 :: LensQuantity a => a -> Bool Source #
Check for Quantity0.
hasQuantity1 :: LensQuantity a => a -> Bool Source #
Check for Quantity1.
hasQuantityω :: LensQuantity a => a -> Bool Source #
Check for Quantityω.
noUserQuantity :: LensQuantity a => a -> Bool Source #
Did the user supply a quantity annotation?
usableQuantity :: LensQuantity a => a -> Bool Source #
A thing of quantity 0 is unusable, all others are usable.
class LensQuantity a where Source #
Minimal complete definition
Nothing
Methods
getQuantity :: a -> Quantity Source #
default getQuantity :: LensModality a => a -> Quantity Source #
setQuantity :: Quantity -> a -> a Source #
mapQuantity :: (Quantity -> Quantity) -> a -> a Source #
default mapQuantity :: LensModality a => (Quantity -> Quantity) -> a -> a Source #
Instances
Erased.
A special case of Quantity: erased or not.
Instances
defaultErased :: Erased Source #
The default value of type Erased: not erased.
Relevance
A function argument can be relevant or irrelevant. See Agda.TypeChecking.Irrelevance.
Constructors
| Relevant | The argument is (possibly) relevant at compile-time. |
| NonStrict | The argument may never flow into evaluation position. Therefore, it is irrelevant at run-time. It is treated relevantly during equality checking. |
| Irrelevant | The argument is irrelevant at compile- and runtime. |
Instances
allRelevances :: [Relevance] Source #
class LensRelevance a where Source #
A lens to access the Relevance attribute in data structures.
Minimal implementation: getRelevance and mapRelevance or LensModality.
Minimal complete definition
Nothing
Methods
getRelevance :: a -> Relevance Source #
default getRelevance :: LensModality a => a -> Relevance Source #
setRelevance :: Relevance -> a -> a Source #
mapRelevance :: (Relevance -> Relevance) -> a -> a Source #
default mapRelevance :: LensModality a => (Relevance -> Relevance) -> a -> a Source #
Instances
isRelevant :: LensRelevance a => a -> Bool Source #
isIrrelevant :: LensRelevance a => a -> Bool Source #
isNonStrict :: LensRelevance a => a -> Bool Source #
moreRelevant :: Relevance -> Relevance -> Bool Source #
Information ordering.
Relevant `moreRelevant`
NonStrict `moreRelevant`
Irrelevant
usableRelevance :: LensRelevance a => a -> Bool Source #
usableRelevance rel == False iff we cannot use a variable of rel.
composeRelevance :: Relevance -> Relevance -> Relevance Source #
Relevance composition.
Irrelevant is dominant, Relevant is neutral.
Composition coincides with max.
applyRelevance :: LensRelevance a => Relevance -> a -> a Source #
Compose with relevance flag from the left.
This function is e.g. used to update the relevance information
on pattern variables a after a match against something rel.
inverseComposeRelevance :: Relevance -> Relevance -> Relevance Source #
inverseComposeRelevance r x returns the most irrelevant y
such that forall x, y we have
x `moreRelevant` (r `composeRelevance` y)
iff
(r `inverseComposeRelevance` x) `moreRelevant` y (Galois connection).
inverseApplyRelevance :: LensRelevance a => Relevance -> a -> a Source #
Left division by a Relevance.
Used e.g. to modify context when going into a rel argument.
addRelevance :: Relevance -> Relevance -> Relevance Source #
Combine inferred Relevance.
The unit is Irrelevant.
zeroRelevance :: Relevance Source #
Relevance forms a monoid under addition, and even a semiring.
unitRelevance :: Relevance Source #
Identity element under composition
topRelevance :: Relevance Source #
Absorptive element under addition.
defaultRelevance :: Relevance Source #
Default Relevance is the identity element under composition
irrToNonStrict :: Relevance -> Relevance Source #
Irrelevant function arguments may appear non-strictly in the codomain type.
nonStrictToRel :: Relevance -> Relevance Source #
Applied when working on types (unless --experimental-irrelevance).
nonStrictToIrr :: Relevance -> Relevance Source #
Annotations
data Annotation Source #
We have a tuple of annotations, which might not be fully orthogonal.
Constructors
| Annotation | |
Instances
class LensAnnotation a where Source #
Minimal complete definition
Nothing
Methods
getAnnotation :: a -> Annotation Source #
default getAnnotation :: LensArgInfo a => a -> Annotation Source #
setAnnotation :: Annotation -> a -> a Source #
default setAnnotation :: LensArgInfo a => Annotation -> a -> a Source #
mapAnnotation :: (Annotation -> Annotation) -> a -> a Source #
Instances
Locks
Constructors
| IsNotLock | |
| IsLock | In the future there might be different kinds of them. For now we assume lock weakening. |
defaultLock :: Lock Source #
class LensLock a where Source #
Minimal complete definition
Cohesion
Cohesion modalities see "Brouwer's fixed-point theorem in real-cohesive homotopy type theory" (arXiv:1509.07584) types are now given an additional topological layer which the modalities interact with.
Constructors
| Flat | same points, discrete topology, idempotent comonad, box-like. |
| Continuous | identity modality. | Sharp -- ^ same points, codiscrete topology, idempotent monad, diamond-like. |
| Squash | single point space, artificially added for Flat left-composition. |
Instances
allCohesions :: [Cohesion] Source #
class LensCohesion a where Source #
A lens to access the Cohesion attribute in data structures.
Minimal implementation: getCohesion and mapCohesion or LensModality.
Minimal complete definition
Nothing
Methods
getCohesion :: a -> Cohesion Source #
default getCohesion :: LensModality a => a -> Cohesion Source #
setCohesion :: Cohesion -> a -> a Source #
mapCohesion :: (Cohesion -> Cohesion) -> a -> a Source #
default mapCohesion :: LensModality a => (Cohesion -> Cohesion) -> a -> a Source #
Instances
| LensCohesion ArgInfo Source # | |
Defined in Agda.Syntax.Common | |
| LensCohesion Cohesion Source # | |
Defined in Agda.Syntax.Common | |
| LensCohesion Modality Source # | |
Defined in Agda.Syntax.Common | |
| LensCohesion (Arg e) Source # | |
Defined in Agda.Syntax.Common | |
| LensCohesion (Dom' t e) Source # | |
Defined in Agda.Syntax.Internal | |
moreCohesion :: Cohesion -> Cohesion -> Bool Source #
Information ordering.
Flat `moreCohesion`
Continuous `moreCohesion`
Sharp `moreCohesion`
Squash
usableCohesion :: LensCohesion a => a -> Bool Source #
usableCohesion rel == False iff we cannot use a variable of rel.
composeCohesion :: Cohesion -> Cohesion -> Cohesion Source #
Cohesion composition.
Squash is dominant, Continuous is neutral.
applyCohesion :: LensCohesion a => Cohesion -> a -> a Source #
Compose with cohesion flag from the left.
This function is e.g. used to update the cohesion information
on pattern variables a after a match against something of cohesion rel.
inverseComposeCohesion :: Cohesion -> Cohesion -> Cohesion Source #
inverseComposeCohesion r x returns the least y
such that forall x, y we have
x `moreCohesion` (r `composeCohesion` y)
iff
(r `inverseComposeCohesion` x) `moreCohesion` y (Galois connection).
The above law fails for r = Squash.
inverseApplyCohesion :: LensCohesion a => Cohesion -> a -> a Source #
Left division by a Cohesion.
Used e.g. to modify context when going into a rel argument.
zeroCohesion :: Cohesion Source #
Cohesion forms a monoid under addition, and even a semiring.
unitCohesion :: Cohesion Source #
Identity under composition
topCohesion :: Cohesion Source #
Absorptive element under addition.
defaultCohesion :: Cohesion Source #
Default Cohesion is the identity element under composition
Origin of arguments (user-written, inserted or reflected)
Origin of arguments.
Constructors
| UserWritten | From the source file / user input. (Preserve!) |
| Inserted | E.g. inserted hidden arguments. |
| Reflected | Produced by the reflection machinery. |
| CaseSplit | Produced by an interactive case split. |
| Substitution | Named application produced to represent a substitution. E.g. "?0 (x = n)" instead of "?0 n" |
Instances
| LensOrigin Origin Source # | |
| HasRange Origin Source # | |
| KillRange Origin Source # | |
Defined in Agda.Syntax.Common Methods | |
| ChooseFlex Origin Source # | |
Defined in Agda.TypeChecking.Rules.LHS.Problem Methods chooseFlex :: Origin -> Origin -> FlexChoice Source # | |
| EmbPrj Origin Source # | |
| Show Origin Source # | |
| NFData Origin Source # | |
Defined in Agda.Syntax.Common | |
| Eq Origin Source # | |
| Ord Origin Source # | |
data WithOrigin a Source #
Decorating something with Origin information.
Constructors
| WithOrigin | |
Instances
class LensOrigin a where Source #
A lens to access the Origin attribute in data structures.
Minimal implementation: getOrigin and mapOrigin or LensArgInfo.
Minimal complete definition
Nothing
Methods
getOrigin :: a -> Origin Source #
default getOrigin :: LensArgInfo a => a -> Origin Source #
Instances
| LensOrigin ArgInfo Source # | |
| LensOrigin Origin Source # | |
| LensOrigin AppInfo Source # | |
| LensOrigin (Arg e) Source # | |
| LensOrigin (WithOrigin a) Source # | |
Defined in Agda.Syntax.Common Methods getOrigin :: WithOrigin a -> Origin Source # setOrigin :: Origin -> WithOrigin a -> WithOrigin a Source # mapOrigin :: (Origin -> Origin) -> WithOrigin a -> WithOrigin a Source # | |
| LensOrigin (Elim' a) Source # | This instance cheats on |
| LensOrigin (FlexibleVar a) Source # | |
Defined in Agda.TypeChecking.Rules.LHS.Problem Methods getOrigin :: FlexibleVar a -> Origin Source # setOrigin :: Origin -> FlexibleVar a -> FlexibleVar a Source # mapOrigin :: (Origin -> Origin) -> FlexibleVar a -> FlexibleVar a Source # | |
| LensOrigin (Dom' t e) Source # | |
Free variable annotations
data FreeVariables Source #
Constructors
| UnknownFVs | |
| KnownFVs IntSet |
Instances
oneFreeVariable :: Int -> FreeVariables Source #
freeVariablesFromList :: [Int] -> FreeVariables Source #
class LensFreeVariables a where Source #
A lens to access the FreeVariables attribute in data structures.
Minimal implementation: getFreeVariables and mapFreeVariables or LensArgInfo.
Minimal complete definition
Nothing
Methods
getFreeVariables :: a -> FreeVariables Source #
default getFreeVariables :: LensArgInfo a => a -> FreeVariables Source #
setFreeVariables :: FreeVariables -> a -> a Source #
mapFreeVariables :: (FreeVariables -> FreeVariables) -> a -> a Source #
default mapFreeVariables :: LensArgInfo a => (FreeVariables -> FreeVariables) -> a -> a Source #
Instances
hasNoFreeVariables :: LensFreeVariables a => a -> Bool Source #
Argument decoration
A function argument can be hidden and/or irrelevant.
Constructors
| ArgInfo | |
Fields
| |
Instances
class LensArgInfo a where Source #
Minimal complete definition
Methods
getArgInfo :: a -> ArgInfo Source #
setArgInfo :: ArgInfo -> a -> a Source #
mapArgInfo :: (ArgInfo -> ArgInfo) -> a -> a Source #
Instances
| LensArgInfo ArgInfo Source # | |
Defined in Agda.Syntax.Common | |
| LensArgInfo Definition Source # | |
Defined in Agda.TypeChecking.Monad.Base Methods getArgInfo :: Definition -> ArgInfo Source # setArgInfo :: ArgInfo -> Definition -> Definition Source # mapArgInfo :: (ArgInfo -> ArgInfo) -> Definition -> Definition Source # | |
| LensArgInfo (Arg a) Source # | |
Defined in Agda.Syntax.Common | |
| LensArgInfo (FlexibleVar a) Source # | |
Defined in Agda.TypeChecking.Rules.LHS.Problem Methods getArgInfo :: FlexibleVar a -> ArgInfo Source # setArgInfo :: ArgInfo -> FlexibleVar a -> FlexibleVar a Source # mapArgInfo :: (ArgInfo -> ArgInfo) -> FlexibleVar a -> FlexibleVar a Source # | |
| LensArgInfo (Dom' t e) Source # | |
Defined in Agda.Syntax.Internal | |
getHidingArgInfo :: LensArgInfo a => LensGet Hiding a Source #
setHidingArgInfo :: LensArgInfo a => LensSet Hiding a Source #
mapHidingArgInfo :: LensArgInfo a => LensMap Hiding a Source #
getModalityArgInfo :: LensArgInfo a => LensGet Modality a Source #
setModalityArgInfo :: LensArgInfo a => LensSet Modality a Source #
mapModalityArgInfo :: LensArgInfo a => LensMap Modality a Source #
getOriginArgInfo :: LensArgInfo a => LensGet Origin a Source #
setOriginArgInfo :: LensArgInfo a => LensSet Origin a Source #
mapOriginArgInfo :: LensArgInfo a => LensMap Origin a Source #
isInsertedHidden :: (LensHiding a, LensOrigin a) => a -> Bool Source #
Arguments
Instances
defaultArg :: a -> Arg a Source #
withArgsFrom :: [a] -> [Arg b] -> [Arg a] Source #
withNamedArgsFrom :: [a] -> [NamedArg b] -> [NamedArg a] Source #
Names
class Eq a => Underscore a where Source #
Minimal complete definition
Instances
| Underscore Expr Source # | |
Defined in Agda.Syntax.Abstract | |
| Underscore Name Source # | |
Defined in Agda.Syntax.Concrete.Name | |
| Underscore QName Source # | |
Defined in Agda.Syntax.Concrete.Name | |
| Underscore ByteString Source # | |
Defined in Agda.Syntax.Common | |
| Underscore Doc Source # | |
Defined in Agda.Syntax.Common | |
| Underscore String Source # | |
Defined in Agda.Syntax.Common | |
Named arguments
Something potentially carrying a name.
Constructors
| Named | |
Fields
| |
Instances
class LensNamed a where Source #
Accessor/editor for the nameOf component.
Minimal complete definition
Nothing
Methods
namedSame :: (LensNamed a, LensNamed b, NameOf a ~ NamedName, NameOf b ~ NamedName) => a -> b -> Bool Source #
fittingNamedArg :: (LensNamed arg, NameOf arg ~ NamedName, LensHiding arg, LensNamed dom, NameOf dom ~ NamedName, LensHiding dom) => arg -> dom -> Maybe Bool Source #
Does an argument arg fit the shape dom of the next expected argument?
The hiding has to match, and if the argument has a name, it should match the name of the domain.
Nothing should be __IMPOSSIBLE__, so use as
@
fromMaybe IMPOSSIBLE $ fittingNamedArg arg dom
@
defaultNamedArg :: a -> NamedArg a Source #
unnamedArg :: ArgInfo -> a -> NamedArg a Source #
updateNamedArg :: (a -> b) -> NamedArg a -> NamedArg b Source #
The functor instance for NamedArg would be ambiguous,
so we give it another name here.
updateNamedArgA :: Applicative f => (a -> f b) -> NamedArg a -> f (NamedArg b) Source #
setNamedArg :: NamedArg a -> b -> NamedArg b Source #
setNamedArg a b = updateNamedArg (const b) a
ArgName
argNameToString :: ArgName -> String Source #
stringToArgName :: String -> ArgName Source #
Range decoration.
Thing with range info.
Constructors
| Ranged | |
Fields
| |
Instances
Raw names (before parsing into name parts).
rawNameToString :: RawName -> String Source #
stringToRawName :: String -> RawName Source #
Further constructor and projection info
Where does the ConP or Con come from?
Constructors
| ConOSystem | Inserted by system or expanded from an implicit pattern. |
| ConOCon | User wrote a constructor (pattern). |
| ConORec | User wrote a record (pattern). |
| ConOSplit | Generated by interactive case splitting. |
Instances
bestConInfo :: ConOrigin -> ConOrigin -> ConOrigin Source #
Prefer user-written over system-inserted.
data ProjOrigin Source #
Where does a projection come from?
Constructors
| ProjPrefix | User wrote a prefix projection. |
| ProjPostfix | User wrote a postfix projection. |
| ProjSystem | Projection was generated by the system. |
Instances
Infixity, access, abstract, etc.
Functions can be defined in both infix and prefix style. See
LHS.
private blocks, public imports
Access modifier.
Constructors
| PrivateAccess Origin | Store the |
| PublicAccess |
abstract blocks
data IsAbstract Source #
Abstract or concrete.
Constructors
| AbstractDef | |
| ConcreteDef |
Instances
class LensIsAbstract a where Source #
Methods
lensIsAbstract :: Lens' IsAbstract a Source #
Instances
| LensIsAbstract IsAbstract Source # | |
Defined in Agda.Syntax.Common Methods | |
| LensIsAbstract MetaInfo Source # | |
Defined in Agda.TypeChecking.Monad.Base Methods | |
| LensIsAbstract TCEnv Source # | |
Defined in Agda.TypeChecking.Monad.Base Methods | |
| LensIsAbstract (DefInfo' t) Source # | |
Defined in Agda.Syntax.Info Methods lensIsAbstract :: Lens' IsAbstract (DefInfo' t) Source # | |
| LensIsAbstract (Closure a) Source # | |
Defined in Agda.TypeChecking.Monad.Base Methods lensIsAbstract :: Lens' IsAbstract (Closure a) Source # | |
class AnyIsAbstract a where Source #
Is any element of a collection an AbstractDef.
Minimal complete definition
Nothing
Methods
anyIsAbstract :: a -> IsAbstract Source #
default anyIsAbstract :: (Foldable t, AnyIsAbstract b, t b ~ a) => a -> IsAbstract Source #
Instances
| AnyIsAbstract IsAbstract Source # | |
Defined in Agda.Syntax.Common Methods anyIsAbstract :: IsAbstract -> IsAbstract Source # | |
| AnyIsAbstract (DefInfo' t) Source # | |
Defined in Agda.Syntax.Info Methods anyIsAbstract :: DefInfo' t -> IsAbstract Source # | |
| AnyIsAbstract a => AnyIsAbstract (Maybe a) Source # | |
Defined in Agda.Syntax.Common Methods anyIsAbstract :: Maybe a -> IsAbstract Source # | |
| AnyIsAbstract a => AnyIsAbstract [a] Source # | |
Defined in Agda.Syntax.Common Methods anyIsAbstract :: [a] -> IsAbstract Source # | |
instance blocks
data IsInstance Source #
Is this definition eligible for instance search?
Constructors
| InstanceDef Range | Range of the |
| NotInstanceDef |
Instances
| HasRange IsInstance Source # | |
Defined in Agda.Syntax.Common Methods getRange :: IsInstance -> Range Source # | |
| KillRange IsInstance Source # | |
Defined in Agda.Syntax.Common Methods | |
| Show IsInstance Source # | |
Defined in Agda.Syntax.Common Methods showsPrec :: Int -> IsInstance -> ShowS # show :: IsInstance -> String # showList :: [IsInstance] -> ShowS # | |
| NFData IsInstance Source # | |
Defined in Agda.Syntax.Common Methods rnf :: IsInstance -> () # | |
| Eq IsInstance Source # | |
Defined in Agda.Syntax.Common | |
| Ord IsInstance Source # | |
Defined in Agda.Syntax.Common Methods compare :: IsInstance -> IsInstance -> Ordering # (<) :: IsInstance -> IsInstance -> Bool # (<=) :: IsInstance -> IsInstance -> Bool # (>) :: IsInstance -> IsInstance -> Bool # (>=) :: IsInstance -> IsInstance -> Bool # max :: IsInstance -> IsInstance -> IsInstance # min :: IsInstance -> IsInstance -> IsInstance # | |
macro blocks
Is this a macro definition?
Constructors
| MacroDef | |
| NotMacroDef |
NameId
newtype ModuleNameHash Source #
Constructors
| ModuleNameHash | |
Fields | |
Instances
The unique identifier of a name. Second argument is the top-level module identifier.
Constructors
| NameId !Word64 !ModuleNameHash |
Instances
| KillRange NameId Source # | |
Defined in Agda.Syntax.Common Methods | |
| HasFresh NameId Source # | |
| EmbPrj NameId Source # | |
| Pretty NameId Source # | |
| Enum NameId Source # | |
Defined in Agda.Syntax.Common | |
| Generic NameId Source # | |
| Show NameId Source # | |
| NFData NameId Source # | |
Defined in Agda.Syntax.Common | |
| Eq NameId Source # | |
| Ord NameId Source # | |
| Hashable NameId Source # | |
Defined in Agda.Syntax.Common | |
| MonadFresh NameId AbsToCon Source # | |
| Monad m => MonadFresh NameId (PureConversionT m) Source # | |
Defined in Agda.TypeChecking.Conversion.Pure Methods fresh :: PureConversionT m NameId Source # | |
| type Rep NameId Source # | |
Defined in Agda.Syntax.Common type Rep NameId = D1 ('MetaData "NameId" "Agda.Syntax.Common" "Agda-2.6.2.2.20230105-inplace" 'False) (C1 ('MetaCons "NameId" 'PrefixI 'False) (S1 ('MetaSel ('Nothing :: Maybe Symbol) 'SourceUnpack 'SourceStrict 'DecidedStrict) (Rec0 Word64) :*: S1 ('MetaSel ('Nothing :: Maybe Symbol) 'SourceUnpack 'SourceStrict 'DecidedStrict) (Rec0 ModuleNameHash))) | |
Meta variables
Meta-variable identifiers use the same structure as NameIds.
Constructors
| MetaId | |
Fields
| |
Instances
Constructors
| Constr a |
Instances
| ToConcrete (Constr Constructor) Source # | |
Defined in Agda.Syntax.Translation.AbstractToConcrete Associated Types type ConOfAbs (Constr Constructor) Source # Methods toConcrete :: Constr Constructor -> AbsToCon (ConOfAbs (Constr Constructor)) Source # bindToConcrete :: Constr Constructor -> (ConOfAbs (Constr Constructor) -> AbsToCon b) -> AbsToCon b Source # | |
| type ConOfAbs (Constr Constructor) Source # | |
Defined in Agda.Syntax.Translation.AbstractToConcrete | |
Problems
A "problem" consists of a set of constraints and the same constraint can be part of multiple problems.
Instances
Placeholders (used to parse sections)
data PositionInName Source #
The position of a name part or underscore in a name.
Constructors
| Beginning | The following underscore is at the beginning of the name:
|
| Middle | The following underscore is in the middle of the name:
|
| End | The following underscore is at the end of the name: |
Instances
| Show PositionInName Source # | |
Defined in Agda.Syntax.Common Methods showsPrec :: Int -> PositionInName -> ShowS # show :: PositionInName -> String # showList :: [PositionInName] -> ShowS # | |
| Eq PositionInName Source # | |
Defined in Agda.Syntax.Common Methods (==) :: PositionInName -> PositionInName -> Bool # (/=) :: PositionInName -> PositionInName -> Bool # | |
| Ord PositionInName Source # | |
Defined in Agda.Syntax.Common Methods compare :: PositionInName -> PositionInName -> Ordering # (<) :: PositionInName -> PositionInName -> Bool # (<=) :: PositionInName -> PositionInName -> Bool # (>) :: PositionInName -> PositionInName -> Bool # (>=) :: PositionInName -> PositionInName -> Bool # max :: PositionInName -> PositionInName -> PositionInName # min :: PositionInName -> PositionInName -> PositionInName # | |
data MaybePlaceholder e Source #
Placeholders are used to represent the underscores in a section.
Constructors
| Placeholder !PositionInName | |
| NoPlaceholder !(Maybe PositionInName) e | The second argument is used only (but not always) for name parts other than underscores. |
Instances
noPlaceholder :: e -> MaybePlaceholder e Source #
An abbreviation: noPlaceholder = .NoPlaceholder
Nothing
Interaction meta variables
newtype InteractionId Source #
Constructors
| InteractionId | |
Fields
| |
Instances
Fixity
type PrecedenceLevel = Double Source #
Precedence levels for operators.
data FixityLevel Source #
Constructors
| Unrelated | No fixity declared. |
| Related !PrecedenceLevel | Fixity level declared as the number. |
Instances
data Associativity Source #
Associativity.
Constructors
| NonAssoc | |
| LeftAssoc | |
| RightAssoc |
Instances
Fixity of operators.
Constructors
| Fixity | |
Fields
| |
Instances
| LensFixity Fixity Source # | |
Defined in Agda.Syntax.Common | |
| HasRange Fixity Source # | |
| KillRange Fixity Source # | |
Defined in Agda.Syntax.Common Methods | |
| ToTerm Fixity Source # | |
| EmbPrj Fixity Source # | |
| Null Fixity Source # | |
| Pretty Fixity Source # | |
| Show Fixity Source # | |
| NFData Fixity Source # | |
Defined in Agda.Syntax.Common | |
| Eq Fixity Source # | |
| Ord Fixity Source # | |
Notation coupled with Fixity
The notation is handled as the fixity in the renamer. Hence, they are grouped together in this type.
Constructors
| Fixity' | |
Fields
| |
Instances
| LensFixity Fixity' Source # | |
Defined in Agda.Syntax.Common | |
| LensFixity' Fixity' Source # | |
Defined in Agda.Syntax.Common | |
| KillRange Fixity' Source # | |
Defined in Agda.Syntax.Common Methods | |
| PrimTerm Fixity' Source # | |
| PrimType Fixity' Source # | |
| ToTerm Fixity' Source # | |
| EmbPrj Fixity' Source # | |
| Null Fixity' Source # | |
| Pretty Fixity' Source # | |
| Show Fixity' Source # | |
| NFData Fixity' Source # | |
Defined in Agda.Syntax.Common | |
| Eq Fixity' Source # | |
class LensFixity a where Source #
Methods
lensFixity :: Lens' Fixity a Source #
Instances
| LensFixity Name Source # | |
Defined in Agda.Syntax.Abstract.Name | |
| LensFixity QName Source # | |
Defined in Agda.Syntax.Abstract.Name | |
| LensFixity Fixity Source # | |
Defined in Agda.Syntax.Common | |
| LensFixity Fixity' Source # | |
Defined in Agda.Syntax.Common | |
| LensFixity NewNotation Source # | |
Defined in Agda.Syntax.Notation Methods | |
| LensFixity AbstractName Source # | |
Defined in Agda.Syntax.Scope.Base Methods | |
| LensFixity (ThingWithFixity a) Source # | |
Defined in Agda.Syntax.Fixity Methods lensFixity :: Lens' Fixity (ThingWithFixity a) Source # | |
class LensFixity' a where Source #
Methods
lensFixity' :: Lens' Fixity' a Source #
Instances
| LensFixity' Name Source # | |
Defined in Agda.Syntax.Abstract.Name | |
| LensFixity' QName Source # | |
Defined in Agda.Syntax.Abstract.Name | |
| LensFixity' Fixity' Source # | |
Defined in Agda.Syntax.Common | |
| LensFixity' (ThingWithFixity a) Source # | |
Defined in Agda.Syntax.Fixity Methods lensFixity' :: Lens' Fixity' (ThingWithFixity a) Source # | |
Import directive
data ImportDirective' n m Source #
The things you are allowed to say when you shuffle names between name
spaces (i.e. in import, namespace, or open declarations).
Constructors
| ImportDirective | |
Fields
| |
Instances
type HidingDirective' n m = [ImportedName' n m] Source #
type RenamingDirective' n m = [Renaming' n m] Source #
defaultImportDir :: ImportDirective' n m Source #
Default is directive is private (use everything, but do not export).
isDefaultImportDir :: ImportDirective' n m -> Bool Source #
isDefaultImportDir implies null, but not the other way round.
The using clause of import directive.
Constructors
| UseEverything | No |
| Using [ImportedName' n m] |
|
Instances
| (HasRange a, HasRange b) => HasRange (Using' a b) Source # | |
| (KillRange a, KillRange b) => KillRange (Using' a b) Source # | |
Defined in Agda.Syntax.Common Methods killRange :: KillRangeT (Using' a b) Source # | |
| Null (Using' n m) Source # | |
| (Pretty a, Pretty b) => Pretty (Using' a b) Source # | |
| Monoid (Using' n m) Source # | |
| Semigroup (Using' n m) Source # | |
| (Show a, Show b) => Show (Using' a b) Source # | |
| (NFData a, NFData b) => NFData (Using' a b) Source # | |
Defined in Agda.Syntax.Common | |
| (Eq m, Eq n) => Eq (Using' n m) Source # | |
mapUsing :: ([ImportedName' n1 m1] -> [ImportedName' n2 m2]) -> Using' n1 m1 -> Using' n2 m2 Source #
data ImportedName' n m Source #
An imported name can be a module or a defined name.
Constructors
| ImportedModule m | Imported module name of type |
| ImportedName n | Imported name of type |
Instances
fromImportedName :: ImportedName' a a -> a Source #
setImportedName :: ImportedName' a a -> a -> ImportedName' a a Source #
partitionImportedNames :: [ImportedName' n m] -> ([n], [m]) Source #
Like partitionEithers.
Constructors
| Renaming | |
Fields
| |
Instances
| (HasRange a, HasRange b) => HasRange (Renaming' a b) Source # | |
| (KillRange a, KillRange b) => KillRange (Renaming' a b) Source # | |
Defined in Agda.Syntax.Common Methods killRange :: KillRangeT (Renaming' a b) Source # | |
| (Pretty a, Pretty b) => Pretty (Renaming' a b) Source # | |
| (Show a, Show b) => Show (Renaming' a b) Source # | |
| (NFData a, NFData b) => NFData (Renaming' a b) Source # | Ranges are not forced. |
Defined in Agda.Syntax.Common | |
| (Eq m, Eq n) => Eq (Renaming' n m) Source # | |
HasRange instances
KillRange instances
NFData instances
Termination
data TerminationCheck m Source #
Termination check? (Default = TerminationCheck).
Constructors
| TerminationCheck | Run the termination checker. |
| NoTerminationCheck | Skip termination checking (unsafe). |
| NonTerminating | Treat as non-terminating. |
| Terminating | Treat as terminating (unsafe). Same effect as |
| TerminationMeasure Range m | Skip termination checking but use measure instead. |
Instances
| Functor TerminationCheck Source # | |
Defined in Agda.Syntax.Common Methods fmap :: (a -> b) -> TerminationCheck a -> TerminationCheck b # (<$) :: a -> TerminationCheck b -> TerminationCheck a # | |
| KillRange m => KillRange (TerminationCheck m) Source # | |
Defined in Agda.Syntax.Common Methods killRange :: KillRangeT (TerminationCheck m) Source # | |
| Show m => Show (TerminationCheck m) Source # | |
Defined in Agda.Syntax.Common Methods showsPrec :: Int -> TerminationCheck m -> ShowS # show :: TerminationCheck m -> String # showList :: [TerminationCheck m] -> ShowS # | |
| NFData a => NFData (TerminationCheck a) Source # | |
Defined in Agda.Syntax.Common Methods rnf :: TerminationCheck a -> () # | |
| Eq m => Eq (TerminationCheck m) Source # | |
Defined in Agda.Syntax.Common Methods (==) :: TerminationCheck m -> TerminationCheck m -> Bool # (/=) :: TerminationCheck m -> TerminationCheck m -> Bool # | |
Positivity
data PositivityCheck Source #
Positivity check? (Default = True).
Constructors
| YesPositivityCheck | |
| NoPositivityCheck |
Instances
Universe checking
data UniverseCheck Source #
Universe check? (Default is yes).
Constructors
| YesUniverseCheck | |
| NoUniverseCheck |
Instances
Universe checking
data CoverageCheck Source #
Coverage check? (Default is yes).
Constructors
| YesCoverageCheck | |
| NoCoverageCheck |
Instances
Rewrite Directives on the LHS
data RewriteEqn' qn nm p e Source #
RewriteEqn' qn p e represents the rewrite and irrefutable with
clauses of the LHS.
qn stands for the QName of the auxiliary function generated to implement the feature
nm is the type of names for pattern variables
p is the type of patterns
e is the type of expressions
Instances
Information on expanded ellipsis (...)
data ExpandedEllipsis Source #
Constructors
| ExpandedEllipsis | |
Fields | |
| NoEllipsis | |
Instances
type Notation = [NotationPart] Source #
Notation as provided by the syntax declaration.
data BoundVariablePosition Source #
Positions of variables in syntax declarations.
Constructors
| BoundVariablePosition | |
Fields
| |
Instances
data NotationPart Source #
Notation parts.
Constructors
| IdPart RString | An identifier part. For instance, for |
| HolePart Range (NamedArg (Ranged Int)) | A hole: a place where argument expressions can be written.
For instance, for |
| VarPart Range (Ranged BoundVariablePosition) | A bound variable. The first range is the range of the variable in the right-hand side of the syntax declaration, and the second range is the range of the variable in the left-hand side. |
| WildPart (Ranged BoundVariablePosition) | A wildcard (an underscore in binding position). |