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62.3. Extensibility

The BRIN interface has a high level of abstraction, requiring the access method implementer only to implement the semantics of the data type being accessed. The BRIN layer itself takes care of concurrency, logging and searching the index structure.

All it takes to get a BRIN access method working is to implement a few user-defined methods, which define the behavior of summary values stored in the index and the way they interact with scan keys. In short, BRIN combines extensibility with generality, code reuse, and a clean interface.

There are four methods that an operator class for BRIN must provide:

BrinOpcInfo *opcInfo(Oid type_oid)

Returns internal information about the indexed columns' summary data. The return value must point to a palloc'd BrinOpcInfo, which has this definition:

typedef struct BrinOpcInfo
    /* Number of columns stored in an index column of this opclass */
    uint16      oi_nstored;

    /* Opaque pointer for the opclass' private use */
    void       *oi_opaque;

    /* Type cache entries of the stored columns */
    TypeCacheEntry *oi_typcache[FLEXIBLE_ARRAY_MEMBER];
} BrinOpcInfo;

BrinOpcInfo.oi_opaque can be used by the operator class routines to pass information between support procedures during an index scan.

bool consistent(BrinDesc *bdesc, BrinValues *column, ScanKey key)

Returns whether the ScanKey is consistent with the given indexed values for a range. The attribute number to use is passed as part of the scan key.

bool addValue(BrinDesc *bdesc, BrinValues *column, Datum newval, bool isnull)

Given an index tuple and an indexed value, modifies the indicated attribute of the tuple so that it additionally represents the new value. If any modification was done to the tuple, true is returned.

bool unionTuples(BrinDesc *bdesc, BrinValues *a, BrinValues *b)

Consolidates two index tuples. Given two index tuples, modifies the indicated attribute of the first of them so that it represents both tuples. The second tuple is not modified.

The core distribution includes support for two types of operator classes: minmax and inclusion. Operator class definitions using them are shipped for in-core data types as appropriate. Additional operator classes can be defined by the user for other data types using equivalent definitions, without having to write any source code; appropriate catalog entries being declared is enough. Note that assumptions about the semantics of operator strategies are embedded in the support procedures' source code.

Operator classes that implement completely different semantics are also possible, provided implementations of the four main support procedures described above are written. Note that backwards compatibility across major releases is not guaranteed: for example, additional support procedures might be required in later releases.

To write an operator class for a data type that implements a totally ordered set, it is possible to use the minmax support procedures alongside the corresponding operators, as shown in Table 62-2. All operator class members (procedures and operators) are mandatory.

Table 62-2. Procedure and Support Numbers for Minmax Operator Classes

Operator class member Object
Support Procedure 1 internal function brin_minmax_opcinfo()
Support Procedure 2 internal function brin_minmax_add_value()
Support Procedure 3 internal function brin_minmax_consistent()
Support Procedure 4 internal function brin_minmax_union()
Operator Strategy 1 operator less-than
Operator Strategy 2 operator less-than-or-equal-to
Operator Strategy 3 operator equal-to
Operator Strategy 4 operator greater-than-or-equal-to
Operator Strategy 5 operator greater-than

To write an operator class for a complex datatype which has values included within another type, it's possible to use the inclusion support procedures alongside the corresponding operators, as shown in Table 62-3. It requires only a single additional function, which can be written in any language. More functions can be defined for additional functionality. All operators are optional. Some operators require other operators, as shown as dependencies on the table.

Table 62-3. Procedure and Support Numbers for Inclusion Operator Classes

Operator class member Object Dependency
Support Procedure 1 internal function brin_inclusion_opcinfo()  
Support Procedure 2 internal function brin_inclusion_add_value()  
Support Procedure 3 internal function brin_inclusion_consistent()  
Support Procedure 4 internal function brin_inclusion_union()  
Support Procedure 11 function to merge two elements  
Support Procedure 12 optional function to check whether two elements are mergeable  
Support Procedure 13 optional function to check if an element is contained within another  
Support Procedure 14 optional function to check whether an element is empty  
Operator Strategy 1 operator left-of Operator Strategy 4
Operator Strategy 2 operator does-not-extend-to-the-right-of Operator Strategy 5
Operator Strategy 3 operator overlaps  
Operator Strategy 4 operator right-of Operator Strategy 2
Operator Strategy 5 operator does-not-extend-to-the-right-of Operator Strategy 1
Operator Strategy 6, 18 operator same-as-or-equal-to Operator Strategy 7
Operator Strategy 7, 13, 16, 24, 25 operator contains-or-equal-to  
Operator Strategy 8, 14, 26, 27 operator is-contained-by-or-equal-to Operator Strategy 3
Operator Strategy 9 operator does-not-extend-above Operator Strategy 11
Operator Strategy 10 operator is-below Operator Strategy 12
Operator Strategy 11 operator is-above Operator Strategy 9
Operator Strategy 12 operator does-not-extend-below Operator Strategy 10
Operator Strategy 20 operator less-than Operator Strategy 4
Operator Strategy 21 operator less-than-or-equal-to Operator Strategy 4
Operator Strategy 22 operator greater-than Operator Strategy 1
Operator Strategy 23 operator greater-than-or-equal-to Operator Strategy 1

Support procedure numbers 1-10 are reserved for the BRIN internal functions, so the SQL level functions start with number 11. Support function number 11 is the main function required to build the index. It should accept two arguments with the same datatype as the opclass, and return the union of them. The inclusion opclass can store union values with different datatypes if it is defined with the STORAGE parameter. The return value of the union function should match the STORAGE datatype.

Support procedure numbers 12 and 14 are provided to support irregularities of built-in datatypes. Procedure number 12 is used to support network addresses from different families which are not mergeable. Procedure number 14 is used to support empty ranges. Procedure number 13 is an optional but recommended one, which allows the new value to be checked before it is passed to the union function. As the BRIN framework can shortcut some operations when the union is not changed, using this function can improve index performance.

Both minmax and inclusion opclasses support cross-datatype operators, though with these the dependencies become more complicated. The minmax opclass requires a full set of operators to be defined with both arguments having the same datatype. It allows additional datatypes to be supported by defining extra sets of operators. Inclusion opclass operator strategies are dependent on another operator strategy as shown in Table 62-3, or the same operator strategy as themselves. They require the dependency operator to be defined with the STORAGE datatype as the left-hand-side argument and the other supported datatype to be the right-hand-side argument of the supported operator. See float4_minmax_ops as an example of minmax, and box_inclusion_ops as an example of inclusion.

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