2000-12-12 04:39:15 +08:00
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This directory contains the code for the user-defined type,
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CUBE, representing multidimensional cubes.
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FILES
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-----
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Makefile building instructions for the shared library
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README.cube the file you are now reading
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cube.c the implementation of this data type in c
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cube.sql.in SQL code needed to register this type with postgres
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(transformed to cube.sql by make)
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cubedata.h the data structure used to store the cubes
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cubeparse.y the grammar file for the parser (used by cube_in() in cube.c)
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cubescan.l scanner rules (used by cube_yyparse() in cubeparse.y)
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INSTALLATION
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============
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To install the type, run
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make
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make install
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2004-07-13 06:12:34 +08:00
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The user running "make install" may need root access; depending on how you
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configured the PostgreSQL installation paths.
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2000-12-12 04:39:15 +08:00
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This only installs the type implementation and documentation. To make the
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2002-09-12 08:26:00 +08:00
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type available in any particular database, as a postgres superuser do:
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2000-12-12 04:39:15 +08:00
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psql -d databasename < cube.sql
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If you install the type in the template1 database, all subsequently created
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databases will inherit it.
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To test the new type, after "make install" do
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make installcheck
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If it fails, examine the file regression.diffs to find out the reason (the
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test code is a direct adaptation of the regression tests from the main
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source tree).
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2002-09-12 08:26:00 +08:00
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By default the external functions are made executable by anyone.
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2000-12-12 04:39:15 +08:00
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SYNTAX
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======
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The following are valid external representations for the CUBE type:
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'x' A floating point value representing
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a one-dimensional point or one-dimensional
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zero length cubement
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'(x)' Same as above
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'x1,x2,x3,...,xn' A point in n-dimensional space,
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represented internally as a zero volume box
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'(x1,x2,x3,...,xn)' Same as above
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'(x),(y)' 1-D cubement starting at x and ending at y
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or vice versa; the order does not matter
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'(x1,...,xn),(y1,...,yn)' n-dimensional box represented by
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a pair of its opposite corners, no matter which.
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Functions take care of swapping to achieve
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"lower left -- upper right" representation
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before computing any values
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Grammar
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-------
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rule 1 box -> O_BRACKET paren_list COMMA paren_list C_BRACKET
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rule 2 box -> paren_list COMMA paren_list
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rule 3 box -> paren_list
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rule 4 box -> list
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rule 5 paren_list -> O_PAREN list C_PAREN
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rule 6 list -> FLOAT
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rule 7 list -> list COMMA FLOAT
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Tokens
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------
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n [0-9]+
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integer [+-]?{n}
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real [+-]?({n}\.{n}?|\.{n})
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FLOAT ({integer}|{real})([eE]{integer})?
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O_BRACKET \[
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C_BRACKET \]
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O_PAREN \(
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C_PAREN \)
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COMMA \,
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Examples of valid CUBE representations:
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--------------------------------------
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'x' A floating point value representing
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a one-dimensional point (or, zero-length
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one-dimensional interval)
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'(x)' Same as above
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'x1,x2,x3,...,xn' A point in n-dimensional space,
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represented internally as a zero volume cube
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'(x1,x2,x3,...,xn)' Same as above
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'(x),(y)' A 1-D interval starting at x and ending at y
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or vice versa; the order does not matter
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'[(x),(y)]' Same as above
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'(x1,...,xn),(y1,...,yn)' An n-dimensional box represented by
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a pair of its diagonally opposite corners,
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regardless of order. Swapping is provided
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by all comarison routines to ensure the
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"lower left -- upper right" representation
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before actaul comparison takes place.
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'[(x1,...,xn),(y1,...,yn)]' Same as above
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White space is ignored, so '[(x),(y)]' can be: '[ ( x ), ( y ) ]'
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DEFAULTS
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========
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I believe this union:
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select cube_union('(0,5,2),(2,3,1)','0');
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cube_union
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-------------------
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(0, 0, 0),(2, 5, 2)
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(1 row)
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does not contradict to the common sense, neither does the intersection
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select cube_inter('(0,-1),(1,1)','(-2),(2)');
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cube_inter
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-------------
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(0, 0),(1, 0)
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(1 row)
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In all binary operations on differently sized boxes, I assume the smaller
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one to be a cartesian projection, i. e., having zeroes in place of coordinates
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omitted in the string representation. The above examples are equivalent to:
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cube_union('(0,5,2),(2,3,1)','(0,0,0),(0,0,0)');
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cube_inter('(0,-1),(1,1)','(-2,0),(2,0)');
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The following containment predicate uses the point syntax,
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while in fact the second argument is internally represented by a box.
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This syntax makes it unnecessary to define the special Point type
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and functions for (box,point) predicates.
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select cube_contains('(0,0),(1,1)', '0.5,0.5');
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cube_contains
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--------------
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t
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(1 row)
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PRECISION
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=========
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2002-08-30 07:03:58 +08:00
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Values are stored internally as 64-bit floating point numbers. This means that
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numbers with more than about 16 significant digits will be truncated.
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2000-12-12 04:39:15 +08:00
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USAGE
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=====
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2005-06-27 09:19:43 +08:00
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The access method for CUBE is a GiST index (gist_cube_ops), which is a
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2000-12-12 04:39:15 +08:00
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generalization of R-tree. GiSTs allow the postgres implementation of
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R-tree, originally encoded to support 2-D geometric types such as
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boxes and polygons, to be used with any data type whose data domain
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can be partitioned using the concepts of containment, intersection and
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equality. In other words, everything that can intersect or contain
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its own kind can be indexed with a GiST. That includes, among other
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things, all geometric data types, regardless of their dimensionality
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(see also contrib/seg).
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The operators supported by the GiST access method include:
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a = b Same as
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The cubements a and b are identical.
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2005-06-27 09:19:43 +08:00
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a && b Overlaps
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The cubements a and b overlap.
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2006-09-11 01:36:52 +08:00
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a @> b Contains
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2005-06-27 09:19:43 +08:00
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The cubement a contains the cubement b.
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2006-09-11 01:36:52 +08:00
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a <@ b Contained in
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2005-06-27 09:19:43 +08:00
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The cubement a is contained in b.
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2006-09-11 01:36:52 +08:00
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(Before PostgreSQL 8.2, the containment operators @> and <@ were
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respectively called @ and ~. These names are still available, but are
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deprecated and will eventually be retired. Notice that the old names
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are reversed from the convention formerly followed by the core geometric
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datatypes!)
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2000-12-12 04:39:15 +08:00
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Although the mnemonics of the following operators is questionable, I
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preserved them to maintain visual consistency with other geometric
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data types defined in Postgres.
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Other operators:
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[a, b] < [c, d] Less than
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[a, b] > [c, d] Greater than
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These operators do not make a lot of sense for any practical
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purpose but sorting. These operators first compare (a) to (c),
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and if these are equal, compare (b) to (d). That accounts for
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reasonably good sorting in most cases, which is useful if
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you want to use ORDER BY with this type
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2002-08-30 07:03:58 +08:00
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The following functions are available:
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cube_distance(cube, cube) returns double
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cube_distance returns the distance between two cubes. If both cubes are
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points, this is the normal distance function.
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2003-02-13 13:26:50 +08:00
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cube(float8) returns cube
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This makes a one dimensional cube with both coordinates the same.
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If the type of the argument is a numeric type other than float8 an
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explicit cast to float8 may be needed.
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cube(1) == '(1)'
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cube(float8, float8) returns cube
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This makes a one dimensional cube.
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cube(1,2) == '(1),(2)'
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2006-07-26 07:23:45 +08:00
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cube(float8[]) returns cube
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This makes a zero-volume cube using the coordinates defined by the
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array.
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cube(ARRAY[1,2]) == '(1,2)'
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cube(float8[], float8[]) returns cube
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This makes a cube, with upper right and lower left coordinates as
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defined by the 2 float arrays. Arrays must be of the same length.
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cube('{1,2}'::float[], '{3,4}'::float[]) == '(1,2),(3,4)'
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2003-02-13 13:26:50 +08:00
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cube(cube, float8) returns cube
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This builds a new cube by adding a dimension on to an existing cube with
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the same values for both parts of the new coordinate. This is useful for
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building cubes piece by piece from calculated values.
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cube('(1)',2) == '(1,2),(1,2)'
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cube(cube, float8, float8) returns cube
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This builds a new cube by adding a dimension on to an existing cube.
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This is useful for building cubes piece by piece from calculated values.
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cube('(1,2)',3,4) == '(1,3),(2,4)'
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cube_dim(cube) returns int
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cube_dim returns the number of dimensions stored in the the data structure
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for a cube. This is useful for constraints on the dimensions of a cube.
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cube_ll_coord(cube, int) returns double
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cube_ll_coord returns the nth coordinate value for the lower left corner
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of a cube. This is useful for doing coordinate transformations.
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cube_ur_coord(cube, int) returns double
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cube_ur_coord returns the nth coordinate value for the upper right corner
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of a cube. This is useful for doing coordinate transformations.
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2006-07-26 07:23:45 +08:00
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cube_subset(cube, int[]) returns cube
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Builds a new cube from an existing cube, using a list of dimension indexes
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from an array. Can be used to find both the ll and ur coordinate of single
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dimenion, e.g.: cube_subset(cube('(1,3,5),(6,7,8)'), ARRAY[2]) = '(3),(7)'
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Or can be used to drop dimensions, or reorder them as desired, e.g.:
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cube_subset(cube('(1,3,5),(6,7,8)'), ARRAY[3,2,1,1]) = '(5, 3, 1, 1),(8, 7, 6, 6)'
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2002-08-30 07:03:58 +08:00
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cube_is_point(cube) returns bool
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cube_is_point returns true if a cube is also a point. This is true when the
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two defining corners are the same.
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cube_enlarge(cube, double, int) returns cube
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cube_enlarge increases the size of a cube by a specified radius in at least
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n dimensions. If the radius is negative the box is shrunk instead. This
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is useful for creating bounding boxes around a point for searching for
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nearby points. All defined dimensions are changed by the radius. If n
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is greater than the number of defined dimensions and the cube is being
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increased (r >= 0) then 0 is used as the base for the extra coordinates.
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LL coordinates are decreased by r and UR coordinates are increased by r. If
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a LL coordinate is increased to larger than the corresponding UR coordinate
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(this can only happen when r < 0) than both coordinates are set to their
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2002-09-12 08:26:00 +08:00
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average. To make it harder for people to break things there is an effective
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maximum on the dimension of cubes of 100. This is set in cubedata.h if
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you need something bigger.
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2002-08-30 07:03:58 +08:00
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2000-12-12 04:39:15 +08:00
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There are a few other potentially useful functions defined in cube.c
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that vanished from the schema because I stopped using them. Some of
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these were meant to support type casting. Let me know if I was wrong:
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I will then add them back to the schema. I would also appreciate
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other ideas that would enhance the type and make it more useful.
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For examples of usage, see sql/cube.sql
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CREDITS
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=======
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This code is essentially based on the example written for
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Illustra, http://garcia.me.berkeley.edu/~adong/rtree
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My thanks are primarily to Prof. Joe Hellerstein
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(http://db.cs.berkeley.edu/~jmh/) for elucidating the gist of the GiST
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(http://gist.cs.berkeley.edu/), and to his former student, Andy Dong
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(http://best.me.berkeley.edu/~adong/), for his exemplar.
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I am also grateful to all postgres developers, present and past, for enabling
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myself to create my own world and live undisturbed in it. And I would like to
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acknowledge my gratitude to Argonne Lab and to the U.S. Department of Energy
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for the years of faithful support of my database research.
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------------------------------------------------------------------------
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Gene Selkov, Jr.
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Computational Scientist
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Mathematics and Computer Science Division
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Argonne National Laboratory
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9700 S Cass Ave.
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Building 221
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Argonne, IL 60439-4844
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selkovjr@mcs.anl.gov
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2002-08-30 07:03:58 +08:00
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------------------------------------------------------------------------
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Minor updates to this package were made by Bruno Wolff III <bruno@wolff.to>
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2002-09-12 08:26:00 +08:00
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in August/September of 2002.
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2002-08-30 07:03:58 +08:00
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These include changing the precision from single precision to double
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precision and adding some new functions.
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2006-07-26 07:23:45 +08:00
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------------------------------------------------------------------------
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Additional updates were made by Joshua Reich <josh@root.net> in July 2006.
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These include cube(float8[], float8[]) and cleaning up the code to use
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the V1 call protocol instead of the deprecated V0 form.
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