Overview Schemas Index

MATHEMATICAL_FUNCTIONS_SCHEMA (jsdai.SMathematical_functions_schema)


TYPE atom_based_value = SELECT (
          maths_atom,
          atom_based_tuple);
END_TYPE; -- atom_based_value

Users

          atom_based_literal.lit_value
          atom_based_tuple
          maths_expression
                    function_application.arguments
                    mathematical_description.described
          maths_value
                    application_defined_function.parameters
                    banded_matrix.default_entry
                    basic_sparse_matrix.default_entry
                    constant_function.sole_output
                    finite_space.members
                    listed_data.values
                    maths_tuple
                    maths_tuple_literal.lit_value
                    maths_value_context.abstract_value
                    maths_value_with_unit.value_component
                    strict_triangular_matrix.main_diagonal_value
                    symmetric_banded_matrix.default_entry
                    triangular_matrix.default_entry
                    variational_parameter.parameter_current_value

public class AAtom_based_value extends AEntitySelect implements Aggregate

          case sMaths_number:
              boolean isMember(double value, EMaths_number node1)
              double getByIndex(int index, EMaths_number node1)
              double getCurrentMember(SdaiIterator iter, EMaths_number node1)
              void setByIndex(int index, double value, EMaths_number node1)
              void setCurrentMember(SdaiIterator iter, double value, EMaths_number node1)
              void addBefore(SdaiIterator iter, double value, EMaths_number node1)
              void addAfter(SdaiIterator iter, double value, EMaths_number node1)
              void addUnordered(double value, EMaths_number node1)
              void addByIndex(int index, double value, EMaths_number node1)
              void removeUnordered(double value, EMaths_number node1)
          case sMaths_real:
              boolean isMember(double value, EMaths_real node1)
              double getByIndex(int index, EMaths_real node1)
              double getCurrentMember(SdaiIterator iter, EMaths_real node1)
              void setByIndex(int index, double value, EMaths_real node1)
              void setCurrentMember(SdaiIterator iter, double value, EMaths_real node1)
              void addBefore(SdaiIterator iter, double value, EMaths_real node1)
              void addAfter(SdaiIterator iter, double value, EMaths_real node1)
              void addUnordered(double value, EMaths_real node1)
              void addByIndex(int index, double value, EMaths_real node1)
              void removeUnordered(double value, EMaths_real node1)
          case sMaths_integer:
              boolean isMember(int value, EMaths_integer node1)
              int getByIndex(int index, EMaths_integer node1)
              int getCurrentMember(SdaiIterator iter, EMaths_integer node1)
              void setByIndex(int index, int value, EMaths_integer node1)
              void setCurrentMember(SdaiIterator iter, int value, EMaths_integer node1)
              void addBefore(SdaiIterator iter, int value, EMaths_integer node1)
              void addAfter(SdaiIterator iter, int value, EMaths_integer node1)
              void addUnordered(int value, EMaths_integer node1)
              void addByIndex(int index, int value, EMaths_integer node1)
              void removeUnordered(int value, EMaths_integer node1)
          case sMaths_logical:
              boolean isMember(int value, EMaths_logical node1)
              int getByIndex(int index, EMaths_logical node1)
              int getCurrentMember(SdaiIterator iter, EMaths_logical node1)
              void setByIndex(int index, int value, EMaths_logical node1)
              void setCurrentMember(SdaiIterator iter, int value, EMaths_logical node1)
              void addBefore(SdaiIterator iter, int value, EMaths_logical node1)
              void addAfter(SdaiIterator iter, int value, EMaths_logical node1)
              void addUnordered(int value, EMaths_logical node1)
              void addByIndex(int index, int value, EMaths_logical node1)
              void removeUnordered(int value, EMaths_logical node1)
          case sMaths_boolean:
              boolean isMember(boolean value, EMaths_boolean node1)
              boolean getByIndex(int index, EMaths_boolean node1)
              boolean getCurrentMember(SdaiIterator iter, EMaths_boolean node1)
              void setByIndex(int index, boolean value, EMaths_boolean node1)
              void setCurrentMember(SdaiIterator iter, boolean value, EMaths_boolean node1)
              void addBefore(SdaiIterator iter, boolean value, EMaths_boolean node1)
              void addAfter(SdaiIterator iter, boolean value, EMaths_boolean node1)
              void addUnordered(boolean value, EMaths_boolean node1)
              void addByIndex(int index, boolean value, EMaths_boolean node1)
              void removeUnordered(boolean value, EMaths_boolean node1)
          case sMaths_string:
              boolean isMember(String value, EMaths_string node1)
              String getByIndex(int index, EMaths_string node1)
              String getCurrentMember(SdaiIterator iter, EMaths_string node1)
              void setByIndex(int index, String value, EMaths_string node1)
              void setCurrentMember(SdaiIterator iter, String value, EMaths_string node1)
              void addBefore(SdaiIterator iter, String value, EMaths_string node1)
              void addAfter(SdaiIterator iter, String value, EMaths_string node1)
              void addUnordered(String value, EMaths_string node1)
              void addByIndex(int index, String value, EMaths_string node1)
              void removeUnordered(String value, EMaths_string node1)
          case sMaths_binary:
              boolean isMember(Binary value, EMaths_binary node1)
              Binary getByIndex(int index, EMaths_binary node1)
              Binary getCurrentMember(SdaiIterator iter, EMaths_binary node1)
              void setByIndex(int index, Binary value, EMaths_binary node1)
              void setCurrentMember(SdaiIterator iter, Binary value, EMaths_binary node1)
              void addBefore(SdaiIterator iter, Binary value, EMaths_binary node1)
              void addAfter(SdaiIterator iter, Binary value, EMaths_binary node1)
              void addUnordered(Binary value, EMaths_binary node1)
              void addByIndex(int index, Binary value, EMaths_binary node1)
              void removeUnordered(Binary value, EMaths_binary node1)
          case sElementary_space_enumerators:
              boolean isMember(int value, EElementary_space_enumerators node1)
              int getByIndex(int index, EElementary_space_enumerators node1)
              int getCurrentMember(SdaiIterator iter, EElementary_space_enumerators node1)
              void setByIndex(int index, int value, EElementary_space_enumerators node1)
              void setCurrentMember(SdaiIterator iter, int value, EElementary_space_enumerators node1)
              void addBefore(SdaiIterator iter, int value, EElementary_space_enumerators node1)
              void addAfter(SdaiIterator iter, int value, EElementary_space_enumerators node1)
              void addUnordered(int value, EElementary_space_enumerators node1)
              void addByIndex(int index, int value, EElementary_space_enumerators node1)
              void removeUnordered(int value, EElementary_space_enumerators node1)
          case sOrdering_type:
              boolean isMember(int value, EOrdering_type node1)
              int getByIndex(int index, EOrdering_type node1)
              int getCurrentMember(SdaiIterator iter, EOrdering_type node1)
              void setByIndex(int index, int value, EOrdering_type node1)
              void setCurrentMember(SdaiIterator iter, int value, EOrdering_type node1)
              void addBefore(SdaiIterator iter, int value, EOrdering_type node1)
              void addAfter(SdaiIterator iter, int value, EOrdering_type node1)
              void addUnordered(int value, EOrdering_type node1)
              void addByIndex(int index, int value, EOrdering_type node1)
              void removeUnordered(int value, EOrdering_type node1)
          case sLower_upper:
              boolean isMember(int value, ELower_upper node1)
              int getByIndex(int index, ELower_upper node1)
              int getCurrentMember(SdaiIterator iter, ELower_upper node1)
              void setByIndex(int index, int value, ELower_upper node1)
              void setCurrentMember(SdaiIterator iter, int value, ELower_upper node1)
              void addBefore(SdaiIterator iter, int value, ELower_upper node1)
              void addAfter(SdaiIterator iter, int value, ELower_upper node1)
              void addUnordered(int value, ELower_upper node1)
              void addByIndex(int index, int value, ELower_upper node1)
              void removeUnordered(int value, ELower_upper node1)
          case sSymmetry_type:
              boolean isMember(int value, ESymmetry_type node1)
              int getByIndex(int index, ESymmetry_type node1)
              int getCurrentMember(SdaiIterator iter, ESymmetry_type node1)
              void setByIndex(int index, int value, ESymmetry_type node1)
              void setCurrentMember(SdaiIterator iter, int value, ESymmetry_type node1)
              void addBefore(SdaiIterator iter, int value, ESymmetry_type node1)
              void addAfter(SdaiIterator iter, int value, ESymmetry_type node1)
              void addUnordered(int value, ESymmetry_type node1)
              void addByIndex(int index, int value, ESymmetry_type node1)
              void removeUnordered(int value, ESymmetry_type node1)
          case sElementary_function_enumerators:
              boolean isMember(int value, EElementary_function_enumerators node1)
              int getByIndex(int index, EElementary_function_enumerators node1)
              int getCurrentMember(SdaiIterator iter, EElementary_function_enumerators node1)
              void setByIndex(int index, int value, EElementary_function_enumerators node1)
              void setCurrentMember(SdaiIterator iter, int value, EElementary_function_enumerators node1)
              void addBefore(SdaiIterator iter, int value, EElementary_function_enumerators node1)
              void addAfter(SdaiIterator iter, int value, EElementary_function_enumerators node1)
              void addUnordered(int value, EElementary_function_enumerators node1)
              void addByIndex(int index, int value, EElementary_function_enumerators node1)
              void removeUnordered(int value, EElementary_function_enumerators node1)
          case sOpen_closed:
              boolean isMember(int value, EOpen_closed node1)
              int getByIndex(int index, EOpen_closed node1)
              int getCurrentMember(SdaiIterator iter, EOpen_closed node1)
              void setByIndex(int index, int value, EOpen_closed node1)
              void setCurrentMember(SdaiIterator iter, int value, EOpen_closed node1)
              void addBefore(SdaiIterator iter, int value, EOpen_closed node1)
              void addAfter(SdaiIterator iter, int value, EOpen_closed node1)
              void addUnordered(int value, EOpen_closed node1)
              void addByIndex(int index, int value, EOpen_closed node1)
              void removeUnordered(int value, EOpen_closed node1)
          case sSpace_constraint_type:
              boolean isMember(int value, ESpace_constraint_type node1)
              int getByIndex(int index, ESpace_constraint_type node1)
              int getCurrentMember(SdaiIterator iter, ESpace_constraint_type node1)
              void setByIndex(int index, int value, ESpace_constraint_type node1)
              void setCurrentMember(SdaiIterator iter, int value, ESpace_constraint_type node1)
              void addBefore(SdaiIterator iter, int value, ESpace_constraint_type node1)
              void addAfter(SdaiIterator iter, int value, ESpace_constraint_type node1)
              void addUnordered(int value, ESpace_constraint_type node1)
              void addByIndex(int index, int value, ESpace_constraint_type node1)
              void removeUnordered(int value, ESpace_constraint_type node1)
          case sRepackage_options:
              boolean isMember(int value, ERepackage_options node1)
              int getByIndex(int index, ERepackage_options node1)
              int getCurrentMember(SdaiIterator iter, ERepackage_options node1)
              void setByIndex(int index, int value, ERepackage_options node1)
              void setCurrentMember(SdaiIterator iter, int value, ERepackage_options node1)
              void addBefore(SdaiIterator iter, int value, ERepackage_options node1)
              void addAfter(SdaiIterator iter, int value, ERepackage_options node1)
              void addUnordered(int value, ERepackage_options node1)
              void addByIndex(int index, int value, ERepackage_options node1)
              void removeUnordered(int value, ERepackage_options node1)
          case sExtension_options:
              boolean isMember(int value, EExtension_options node1)
              int getByIndex(int index, EExtension_options node1)
              int getCurrentMember(SdaiIterator iter, EExtension_options node1)
              void setByIndex(int index, int value, EExtension_options node1)
              void setCurrentMember(SdaiIterator iter, int value, EExtension_options node1)
              void addBefore(SdaiIterator iter, int value, EExtension_options node1)
              void addAfter(SdaiIterator iter, int value, EExtension_options node1)
              void addUnordered(int value, EExtension_options node1)
              void addByIndex(int index, int value, EExtension_options node1)
              void removeUnordered(int value, EExtension_options node1)
          case sAtom_based_tuple:
              boolean isMember(AAtom_based_value value, EAtom_based_tuple node1)
              AAtom_based_value getByIndex(int index, EAtom_based_tuple node1)
              AAtom_based_value getCurrentMember(SdaiIterator iter, EAtom_based_tuple node1)
              AAtom_based_value createAggregateByIndex(int index, EAtom_based_tuple node1)
              AAtom_based_value createAggregateCurrentMember(SdaiIterator iter, EAtom_based_tuple node1)
              AAtom_based_value createAggregateBefore(SdaiIterator iter, EAtom_based_tuple node1)
              AAtom_based_value createAggregateAfter(SdaiIterator iter, EAtom_based_tuple node1)
              AAtom_based_value createAggregateUnordered(, EAtom_based_tuple node1)
              AAtom_based_value createAggregateByIndex(int index, EAtom_based_tuple node1)
              void removeUnordered(, EAtom_based_tuple node1)