GeneralSparseTable(Key, Entry, Tbl, dent)ΒΆ
table.spad line 134 [edit on github]
Key: SetCategory
Entry: BasicType
Tbl: TableAggregate(Key, Entry)
dent: Entry
A sparse table has a default entry, which is returned if no other value has been explicitly stored for a key.
- =: (%, %) -> Boolean if Entry has SetCategory or Record(key: Key, entry: Entry) has SetCategory or % has finiteAggregate
from BasicType
- ~=: (%, %) -> Boolean if Entry has SetCategory or Record(key: Key, entry: Entry) has SetCategory or % has finiteAggregate
from BasicType
- coerce: % -> OutputForm if Entry has CoercibleTo OutputForm or Record(key: Key, entry: Entry) has CoercibleTo OutputForm
from CoercibleTo OutputForm
- construct: List Record(key: Key, entry: Entry) -> %
from Collection Record(key: Key, entry: Entry)
- convert: % -> InputForm if Record(key: Key, entry: Entry) has ConvertibleTo InputForm
from ConvertibleTo InputForm
- count: (Record(key: Key, entry: Entry), %) -> NonNegativeInteger if Record(key: Key, entry: Entry) has BasicType and % has finiteAggregate
from HomogeneousAggregate Record(key: Key, entry: Entry)
- dictionary: () -> %
from DictionaryOperations Record(key: Key, entry: Entry)
- dictionary: List Record(key: Key, entry: Entry) -> %
from DictionaryOperations Record(key: Key, entry: Entry)
- elt: (%, Key) -> Entry
from Eltable(Key, Entry)
- elt: (%, Key, Entry) -> Entry
from EltableAggregate(Key, Entry)
- entries: % -> List Entry
from IndexedAggregate(Key, Entry)
- eval: (%, Entry, Entry) -> % if Entry has Evalable Entry and Entry has SetCategory
from InnerEvalable(Entry, Entry)
- eval: (%, Equation Entry) -> % if Entry has Evalable Entry and Entry has SetCategory
from Evalable Entry
- eval: (%, Equation Record(key: Key, entry: Entry)) -> % if Record(key: Key, entry: Entry) has SetCategory and Record(key: Key, entry: Entry) has Evalable Record(key: Key, entry: Entry)
from Evalable Record(key: Key, entry: Entry)
- eval: (%, List Entry, List Entry) -> % if Entry has Evalable Entry and Entry has SetCategory
from InnerEvalable(Entry, Entry)
- eval: (%, List Equation Entry) -> % if Entry has Evalable Entry and Entry has SetCategory
from Evalable Entry
- eval: (%, List Equation Record(key: Key, entry: Entry)) -> % if Record(key: Key, entry: Entry) has SetCategory and Record(key: Key, entry: Entry) has Evalable Record(key: Key, entry: Entry)
from Evalable Record(key: Key, entry: Entry)
- eval: (%, List Record(key: Key, entry: Entry), List Record(key: Key, entry: Entry)) -> % if Record(key: Key, entry: Entry) has SetCategory and Record(key: Key, entry: Entry) has Evalable Record(key: Key, entry: Entry)
from InnerEvalable(Record(key: Key, entry: Entry), Record(key: Key, entry: Entry))
- eval: (%, Record(key: Key, entry: Entry), Record(key: Key, entry: Entry)) -> % if Record(key: Key, entry: Entry) has SetCategory and Record(key: Key, entry: Entry) has Evalable Record(key: Key, entry: Entry)
from InnerEvalable(Record(key: Key, entry: Entry), Record(key: Key, entry: Entry))
- extract!: % -> Record(key: Key, entry: Entry)
from BagAggregate Record(key: Key, entry: Entry)
- fill!: (%, Entry) -> %
from IndexedAggregate(Key, Entry)
- find: (Record(key: Key, entry: Entry) -> Boolean, %) -> Union(Record(key: Key, entry: Entry), failed)
from Collection Record(key: Key, entry: Entry)
- first: % -> Entry if Key has OrderedSet
from IndexedAggregate(Key, Entry)
- index?: (Key, %) -> Boolean
from IndexedAggregate(Key, Entry)
- indices: % -> List Key
from IndexedAggregate(Key, Entry)
- insert!: (Record(key: Key, entry: Entry), %) -> %
from BagAggregate Record(key: Key, entry: Entry)
- inspect: % -> Record(key: Key, entry: Entry)
from BagAggregate Record(key: Key, entry: Entry)
- key?: (Key, %) -> Boolean
from KeyedDictionary(Key, Entry)
- keys: % -> List Key
from KeyedDictionary(Key, Entry)
- latex: % -> String if Entry has SetCategory or Record(key: Key, entry: Entry) has SetCategory
from SetCategory
- less?: (%, NonNegativeInteger) -> Boolean
from Aggregate
- map!: (Entry -> Entry, %) -> %
from HomogeneousAggregate Entry
- map!: (Record(key: Key, entry: Entry) -> Record(key: Key, entry: Entry), %) -> %
from HomogeneousAggregate Record(key: Key, entry: Entry)
- map: ((Entry, Entry) -> Entry, %, %) -> %
from TableAggregate(Key, Entry)
- map: (Entry -> Entry, %) -> %
from HomogeneousAggregate Entry
- map: (Record(key: Key, entry: Entry) -> Record(key: Key, entry: Entry), %) -> %
from HomogeneousAggregate Record(key: Key, entry: Entry)
- max: % -> Entry if Entry has OrderedSet and % has finiteAggregate
from HomogeneousAggregate Entry
- max: % -> Record(key: Key, entry: Entry) if Record(key: Key, entry: Entry) has OrderedSet and % has finiteAggregate
from HomogeneousAggregate Record(key: Key, entry: Entry)
- maxIndex: % -> Key if Key has OrderedSet
from IndexedAggregate(Key, Entry)
- member?: (Record(key: Key, entry: Entry), %) -> Boolean if Record(key: Key, entry: Entry) has BasicType and % has finiteAggregate
from HomogeneousAggregate Record(key: Key, entry: Entry)
- min: % -> Entry if Entry has OrderedSet and % has finiteAggregate
from HomogeneousAggregate Entry
- min: % -> Record(key: Key, entry: Entry) if Record(key: Key, entry: Entry) has OrderedSet and % has finiteAggregate
from HomogeneousAggregate Record(key: Key, entry: Entry)
- minIndex: % -> Key if Key has OrderedSet
from IndexedAggregate(Key, Entry)
- more?: (%, NonNegativeInteger) -> Boolean
from Aggregate
- qelt: (%, Key) -> Entry
from EltableAggregate(Key, Entry)
- qsetelt!: (%, Key, Entry) -> Entry
from EltableAggregate(Key, Entry)
- reduce: ((Record(key: Key, entry: Entry), Record(key: Key, entry: Entry)) -> Record(key: Key, entry: Entry), %, Record(key: Key, entry: Entry), Record(key: Key, entry: Entry)) -> Record(key: Key, entry: Entry) if Record(key: Key, entry: Entry) has BasicType and % has finiteAggregate
from Collection Record(key: Key, entry: Entry)
- remove!: (Key, %) -> Union(Entry, failed)
from KeyedDictionary(Key, Entry)
- remove!: (Record(key: Key, entry: Entry), %) -> % if Record(key: Key, entry: Entry) has BasicType and % has finiteAggregate
from DictionaryOperations Record(key: Key, entry: Entry)
- remove: (Record(key: Key, entry: Entry), %) -> % if Record(key: Key, entry: Entry) has BasicType and % has finiteAggregate
from Collection Record(key: Key, entry: Entry)
- removeDuplicates: % -> % if Record(key: Key, entry: Entry) has BasicType and % has finiteAggregate
from Collection Record(key: Key, entry: Entry)
- search: (Key, %) -> Union(Entry, failed)
from KeyedDictionary(Key, Entry)
- setelt!: (%, Key, Entry) -> Entry
from TableAggregate(Key, Entry)
- size?: (%, NonNegativeInteger) -> Boolean
from Aggregate
- swap!: (%, Key, Key) -> Void
from IndexedAggregate(Key, Entry)
- table: () -> %
from TableAggregate(Key, Entry)
- table: List Record(key: Key, entry: Entry) -> %
from TableAggregate(Key, Entry)
BagAggregate Record(key: Key, entry: Entry)
BasicType if % has finiteAggregate or Record(key: Key, entry: Entry) has SetCategory or Entry has SetCategory
CoercibleTo OutputForm if Entry has CoercibleTo OutputForm or Record(key: Key, entry: Entry) has CoercibleTo OutputForm
Collection Record(key: Key, entry: Entry)
ConvertibleTo InputForm if Record(key: Key, entry: Entry) has ConvertibleTo InputForm
Dictionary Record(key: Key, entry: Entry)
DictionaryOperations Record(key: Key, entry: Entry)
Eltable(Key, Entry)
EltableAggregate(Key, Entry)
Evalable Entry if Entry has Evalable Entry and Entry has SetCategory
Evalable Record(key: Key, entry: Entry) if Record(key: Key, entry: Entry) has SetCategory and Record(key: Key, entry: Entry) has Evalable Record(key: Key, entry: Entry)
HomogeneousAggregate Entry
HomogeneousAggregate Record(key: Key, entry: Entry)
IndexedAggregate(Key, Entry)
InnerEvalable(Entry, Entry) if Entry has Evalable Entry and Entry has SetCategory
InnerEvalable(Record(key: Key, entry: Entry), Record(key: Key, entry: Entry)) if Record(key: Key, entry: Entry) has SetCategory and Record(key: Key, entry: Entry) has Evalable Record(key: Key, entry: Entry)
KeyedDictionary(Key, Entry)
SetCategory if Entry has SetCategory or Record(key: Key, entry: Entry) has SetCategory
TableAggregate(Key, Entry)