Class | Description |
---|---|
AndArgumentTypeStrategy |
Strategy for inferring and validating an argument using a conjunction of multiple
ArgumentTypeStrategy s into one like f(NUMERIC && LITERAL) |
AnyArgumentTypeStrategy |
Strategy for an argument that can be of any type.
|
CommonArgumentTypeStrategy |
Argument type strategy that checks and casts for a common, least restrictive type of all
arguments.
|
CommonInputTypeStrategy |
An
InputTypeStrategy that expects that all arguments have a common type. |
CommonTypeStrategy |
Type strategy that returns a common, least restrictive type of all arguments.
|
ComparableTypeStrategy |
An
InputTypeStrategy that checks if all input arguments can be compared with each other
with the minimal provided comparison. |
CompositeArgumentTypeStrategy |
Strategy that checks that the argument has a composite type.
|
ConstraintArgumentTypeStrategy |
Strategy for an argument that must fulfill a given constraint.
|
ExplicitArgumentTypeStrategy |
Strategy for an argument that corresponds to an explicitly defined type.
|
ExplicitTypeStrategy |
Type strategy that returns a fixed
DataType . |
FamilyArgumentTypeStrategy |
Strategy for an argument that corresponds to a given
LogicalTypeFamily and nullability. |
FirstTypeStrategy |
Type strategy that returns the first type that could be inferred.
|
ForceNullableTypeStrategy |
Forces a given type strategy to be nullable.
|
LiteralArgumentTypeStrategy |
Strategy that checks if an argument is a literal.
|
MappingTypeStrategy |
Type strategy that maps an
InputTypeStrategy to a TypeStrategy if the input
strategy infers compatible types. |
MatchFamilyTypeStrategy |
Type strategy that returns the given argument if it is of the same logical type family.
|
MissingTypeStrategy |
Placeholder for a missing type strategy.
|
NullableIfArgsTypeStrategy |
A type strategy that can be used to make a result type nullable if any or all of the selected
input arguments are nullable.
|
OrArgumentTypeStrategy |
Strategy for inferring and validating an argument using a disjunction of multiple
ArgumentTypeStrategy s into one like f(NUMERIC || STRING) . |
OrInputTypeStrategy |
Strategy for inferring and validating the input using a disjunction of multiple
InputTypeStrategy s into one like f(NUMERIC) || f(STRING) . |
OutputArgumentTypeStrategy |
Strategy for inferring an unknown argument type from the function's output
DataType if
available. |
RepeatingSequenceInputTypeStrategy |
InputTypeStrategy composed of an arbitrarily often repeating list of ArgumentTypeStrategy s. |
RootArgumentTypeStrategy |
Strategy for an argument that corresponds to a given
LogicalTypeRoot and nullability. |
SequenceInputTypeStrategy |
Strategy for inferring and validating a function signature like
f(STRING, NUMERIC) or
f(s STRING, n NUMERIC) using a sequence of ArgumentTypeStrategy s. |
SpecificInputTypeStrategies |
Entry point for specific input type strategies not covered in
InputTypeStrategies . |
SpecificTypeStrategies |
Entry point for specific type strategies not covered in
TypeStrategies . |
SubsequenceInputTypeStrategy |
An
InputTypeStrategy that lets you apply other strategies for subsequences of the actual
arguments. |
SubsequenceInputTypeStrategy.SubsequenceStrategyBuilder |
A Builder for
SubsequenceInputTypeStrategy . |
SymbolArgumentTypeStrategy |
Strategy for a symbol argument of a specific
TableSymbol enum. |
TypeLiteralArgumentTypeStrategy |
Strategy that checks if an argument is a type literal.
|
UseArgumentTypeStrategy |
Type strategy that returns the n-th input argument.
|
VaryingSequenceInputTypeStrategy |
Strategy for inferring and validating a varying function signature like
f(INT, STRING,
NUMERIC...) or f(i INT, str STRING, num NUMERIC...) using a sequence of ArgumentTypeStrategy s. |
VaryingStringTypeStrategy |
A type strategy that ensures that the result type is either
LogicalTypeRoot.VARCHAR or
LogicalTypeRoot.VARBINARY from their corresponding non-varying roots. |
WildcardInputTypeStrategy |
Strategy that does not perform any modification or validation of the input.
|
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