Gene Selkov's SEG datatype (GiST example code)

contrib/seg/Makefile

@@ -0,0 +1,83 @@
+#
+# $Header: /cvsroot/pgsql/contrib/seg/Makefile,v 1.1 2000/12/11 20:40:33 tgl Exp $
+#
+
+subdir = contrib/seg
+top_builddir = ../..
+include $(top_builddir)/src/Makefile.global
+
+# override libdir to install shlib in contrib not main directory
+libdir := $(libdir)/contrib
+
+# shared library parameters
+NAME= seg
+SO_MAJOR_VERSION= 1
+SO_MINOR_VERSION= 0
+
+override CPPFLAGS += -I$(srcdir)
+
+OBJS= seg.o segparse.o segscan.o buffer.o
+
+all: all-lib $(NAME).sql
+
+# Shared library stuff
+include $(top_srcdir)/src/Makefile.shlib
+
+
+segparse.c segparse.h: segparse.y
+	$(YACC) -d $(YFLAGS) -p seg_yy $<
+	mv -f y.tab.c segparse.c
+	mv -f y.tab.h segparse.h
+
+segscan.c: segscan.l
+ifdef FLEX
+	$(FLEX) $(FLEXFLAGS) -Pseg_yy -o'$@' $<
+else
+	@$(missing) flex $< $@
+endif
+
+$(NAME).sql: $(NAME).sql.in
+	sed -e 's:MODULE_PATHNAME:$(libdir)/$(shlib):g' < $< > $@
+
+.PHONY: submake
+submake:
+	$(MAKE) -C $(top_builddir)/src/test/regress pg_regress
+
+# against installed postmaster
+installcheck: submake
+	$(top_builddir)/src/test/regress/pg_regress seg
+
+# in-tree test doesn't work yet (no way to install my shared library)
+#check: all submake
+#	$(top_builddir)/src/test/regress/pg_regress --temp-install \
+#	  --top-builddir=$(top_builddir) seg
+check:
+	@echo "'make check' is not supported."
+	@echo "Do 'make install', then 'make installcheck' instead."
+
+install: all installdirs install-lib
+	$(INSTALL_DATA) $(srcdir)/README.$(NAME)  $(docdir)/contrib
+	$(INSTALL_DATA) $(NAME).sql $(datadir)/contrib
+
+installdirs:
+	$(mkinstalldirs) $(docdir)/contrib $(datadir)/contrib $(libdir)
+
+uninstall: uninstall-lib
+	rm -f $(docdir)/contrib/README.$(NAME) $(datadir)/contrib/$(NAME).sql
+
+clean distclean maintainer-clean: clean-lib
+	rm -f segparse.c segparse.h segscan.c
+	rm -f y.tab.c y.tab.h $(OBJS) $(NAME).sql
+# things created by various check targets
+	rm -rf results tmp_check log
+	rm -f regression.diffs regression.out regress.out run_check.out
+ifeq ($(PORTNAME), win)
+	rm -f regress.def
+endif
+
+depend dep:
+	$(CC) -MM $(CFLAGS) *.c >depend
+
+ifeq (depend,$(wildcard depend))
+include depend
+endif

contrib/seg/README.seg

@@ -0,0 +1,326 @@
+This directory contains the code for the user-defined type,
+SEG, representing laboratory measurements as floating point
+intervals. 
+
+RATIONALE
+=========
+
+The geometry of measurements is usually more complex than that of a
+point in a numeric continuum. A measurement is usually a segment of
+that continuum with somewhat fuzzy limits. The measurements come out
+as intervals because of uncertainty and randomness, as well as because
+the value being measured may naturally be an interval indicating some
+condition, such as the temperature range of stability of a protein.
+
+Using just common sense, it appears more convenient to store such data
+as intervals, rather than pairs of numbers. In practice, it even turns
+out more efficient in most applications.
+
+Further along the line of common sense, the fuzziness of the limits
+suggests that the use of traditional numeric data types leads to a
+certain loss of information. Consider this: your instrument reads
+6.50, and you input this reading into the database. What do you get
+when you fetch it? Watch:
+
+test=> select 6.50 as "pH";
+ pH
+---
+6.5
+(1 row)
+
+In the world of measurements, 6.50 is not the same as 6.5. It may
+sometimes be critically different. The experimenters usually write
+down (and publish) the digits they trust. 6.50 is actually a fuzzy
+interval contained within a bigger and even fuzzier interval, 6.5,
+with their center points being (probably) the only common feature they
+share. We definitely do not want such different data items to appear the
+same.
+
+Conclusion? It is nice to have a special data type that can record the
+limits of an interval with arbitrarily variable precision. Variable in
+a sense that each data element records its own precision.
+
+Check this out:
+
+test=> select '6.25 .. 6.50'::seg as "pH";
+          pH
+------------
+6.25 .. 6.50
+(1 row)
+
+
+FILES
+=====
+
+Makefile		building instructions for the shared library
+
+README.seg		the file you are now reading
+
+buffer.c		global variables and buffer access utilities 
+			shared between the parser (segparse.y) and the
+			scanner (segscan.l)
+
+buffer.h		function prototypes for buffer.c
+
+seg.c			the implementation of this data type in c
+
+seg.sql.in		SQL code needed to register this type with postgres
+			(transformed to seg.sql by make)
+
+segdata.h		the data structure used to store the segments
+
+segparse.y		the grammar file for the parser (used by seg_in() in seg.c)
+ 
+segscan.l		scanner rules (used by seg_yyparse() in segparse.y)
+
+seg-validate.pl		a simple input validation script. It is probably a 
+			little stricter than the type itself: for example, 
+			it rejects '22 ' because of the trailing space. Use 
+			as a filter to discard bad values from a single column;
+			redirect to /dev/null to see the offending input
+
+sort-segments.pl	a script to sort the tables having a SEG type column
+
+
+INSTALLATION
+============
+
+To install the type, run
+
+	make
+	make install
+
+For this to work, make sure that:
+
+. the seg source directory is in the postgres contrib directory
+. the user running "make install" has postgres administrative authority
+. this user's environment defines the PGLIB and PGDATA variables and has
+  postgres binaries in the PATH.
+
+This only installs the type implementation and documentation.  To make the
+type available in any particular database, do
+
+	psql -d databasename < seg.sql
+
+If you install the type in the template1 database, all subsequently created
+databases will inherit it.
+
+To test the new type, after "make install" do
+
+	make installcheck
+
+If it fails, examine the file regression.diffs to find out the reason (the
+test code is a direct adaptation of the regression tests from the main
+source tree).
+
+
+SYNTAX
+======
+
+The external representation of an interval is formed using one or two
+floating point numbers joined by the range operator ('..' or '...'). 
+Optional certainty indicators (<, > and ~) are ignored by the internal 
+logics, but are retained in the data.
+
+Grammar
+-------
+
+rule 1    seg -> boundary PLUMIN deviation
+rule 2    seg -> boundary RANGE boundary
+rule 3    seg -> boundary RANGE
+rule 4    seg -> RANGE boundary
+rule 5    seg -> boundary
+rule 6    boundary -> FLOAT
+rule 7    boundary -> EXTENSION FLOAT
+rule 8    deviation -> FLOAT
+
+Tokens
+------
+
+RANGE        (\.\.)(\.)?
+PLUMIN       \'\+\-\'
+integer      [+-]?[0-9]+
+real         [+-]?[0-9]+\.[0-9]+
+FLOAT        ({integer}|{real})([eE]{integer})?
+EXTENSION    [<>~]
+
+
+Examples of valid SEG representations:
+--------------------------------------
+
+Any number	(rules 5,6) -- creates a zero-length segment (a point,
+		if you will)
+
+~5.0		(rules 5,7) -- creates a zero-length segment AND records 
+		'~' in the data. This notation reads 'approximately 5.0', 
+		but its meaning is not recognized by the code. It is ignored 
+		until you get the value back. View it is a short-hand comment.
+
+<5.0		(rules 5,7) -- creates a point at 5.0; '<' is ignored but 
+		is preserved as a comment
+
+>5.0		(rules 5,7) -- creates a point at 5.0; '>' is ignored but
+		is preserved as a comment
+
+5(+-)0.3
+5'+-'0.3	(rules 1,8) -- creates an interval '4.7..5.3'. As of this 
+		writing (02/09/2000), this mechanism isn't completely accurate 
+		in determining the number of significant digits for the 
+		boundaries. For example, it adds an extra digit to the lower
+		boundary if the resulting interval includes a power of ten:
+
+		template1=> select '10(+-)1'::seg as seg;
+		      seg
+		---------
+		9.0 .. 11 -- should be: 9 .. 11
+
+		Also, the (+-) notation is not preserved: 'a(+-)b' will 
+		always be returned as '(a-b) .. (a+b)'. The purpose of this 
+		notation is to allow input from certain data sources without 
+		conversion.
+
+50 .. 		(rule 3) -- everything that is greater than or equal to 50
+
+.. 0		(rule 4) -- everything that is less than or equal to 0
+
+1.5e-2 .. 2E-2 	(rule 2) -- creates an interval (0.015 .. 0.02)
+
+1 ... 2		The same as 1...2, or 1 .. 2, or 1..2 (space is ignored).
+		Because of the widespread use of '...' in the data sources,
+		I decided to stick to is as a range operator. This, and
+		also the fact that the white space around the range operator
+		is ignored, creates a parsing conflict with numeric constants 
+		starting with a	decimal point.
+
+
+Examples of invalid SEG input:
+------------------------------
+
+.1e7		should be: 0.1e7
+.1 .. .2	should be: 0.1 .. 0.2
+2.4 E4		should be: 2.4E4
+
+The following, although it is not a syntax error, is disallowed to improve
+the sanity of the data:
+
+5 .. 2		should be: 2 .. 5
+
+
+PRECISION
+=========
+
+The segments are stored internally as pairs of 32-bit floating point
+numbers. It means that the numbers with more than 7 significant digits
+will be truncated.
+
+The numbers with less than or exactly 7 significant digits retain their
+original precision. That is, if your query returns 0.00, you will be
+sure that the trailing zeroes are not the artifacts of formatting: they
+reflect the precision of the original data. The number of leading
+zeroes does not affect precision: the value 0.0067 is considered to
+have just 2 significant digits.
+
+
+USAGE
+=====
+
+The access method for SEG is a GiST (gist_seg_ops), which is a
+generalization of R-tree. GiSTs allow the postgres implementation of
+R-tree, originally encoded to support 2-D geometric types such as
+boxes and polygons, to be used with any data type whose data domain
+can be partitioned using the concepts of containment, intersection and
+equality. In other words, everything that can intersect or contain
+its own kind can be indexed with a GiST. That includes, among other
+things, all geometric data types, regardless of their dimensionality
+(see also contrib/cube).
+
+The operators supported by the GiST access method include:
+
+
+[a, b] << [c, d]	Is left of
+
+	The left operand, [a, b], occurs entirely to the left of the
+	right operand, [c, d], on the axis (-inf, inf). It means,
+	[a, b] << [c, d] is true if b < c and false otherwise
+
+[a, b] >> [c, d]	Is right of
+
+	[a, b] is occurs entirely to the right of [c, d]. 
+	[a, b] >> [c, d] is true if b > c and false otherwise
+
+[a, b] &< [c, d]	Over left
+
+	The segment [a, b] overlaps the segment [c, d] in such a way
+	that a <= c <= b and b <= d
+
+[a, b] &> [c, d]	Over right
+
+	The segment [a, b] overlaps the segment [c, d] in such a way
+	that a > c and b <= c <= d
+
+[a, b] = [c, d]		Same as
+
+	The segments [a, b] and [c, d] are identical, that is, a == b
+	and c == d
+
+[a, b] @ [c, d]		Contains
+
+	The segment [a, b] contains the segment [c, d], that is, 
+	a <= c and b >= d
+
+[a, b] @ [c, d]		Contained in
+
+	The segment [a, b] is contained in [c, d], that is, 
+	a >= c and b <= d
+
+Although the mnemonics of the following operators is questionable, I
+preserved them to maintain visual consistency with other geometric
+data types defined in Postgres.
+
+Other operators:
+
+[a, b] < [c, d]		Less than
+[a, b] > [c, d]		Greater than
+
+	These operators do not make a lot of sense for any practical
+	purpose but sorting. These operators first compare (a) to (c),
+	and if these are equal, compare (b) to (d). That accounts for
+	reasonably good sorting in most cases, which is useful if
+	you want to use ORDER BY with this type
+
+There are a few other potentially useful functions defined in seg.c 
+that vanished from the schema because I stopped using them. Some of 
+these were meant to support type casting. Let me know if I was wrong: 
+I will then add them back to the schema. I would also appreciate 
+other ideas that would enhance the type and make it more useful.
+
+For examples of usage, see sql/seg.sql
+
+NOTE: The performance of an R-tree index can largely depend on the
+order of input values. It may be very helpful to sort the input table
+on the SEG column (see the script sort-segments.pl for an example)
+
+
+CREDITS
+=======
+
+My thanks are primarily to Prof. Joe Hellerstein
+(http://db.cs.berkeley.edu/~jmh/) for elucidating the gist of the GiST
+(http://gist.cs.berkeley.edu/). I am also grateful to all postgres
+developers, present and past, for enabling myself to create my own
+world and live undisturbed in it. And I would like to acknowledge my
+gratitude to Argonne Lab and to the U.S. Department of Energy for the
+years of faithful support of my database research.
+
+
+------------------------------------------------------------------------
+Gene Selkov, Jr.
+Computational Scientist
+Mathematics and Computer Science Division
+Argonne National Laboratory
+9700 S Cass Ave.
+Building 221
+Argonne, IL 60439-4844
+
+selkovjr@mcs.anl.gov
+

contrib/seg/buffer.c

@@ -0,0 +1,79 @@
+/* This module defines the parse buffer and routines for setting/reading it */
+
+#include "postgres.h"
+
+#include "utils/elog.h"
+
+static char *       PARSE_BUFFER;
+static char *       PARSE_BUFFER_PTR; 
+static unsigned int PARSE_BUFFER_SIZE; 
+static unsigned int SCANNER_POS;
+
+void         set_parse_buffer( char* s );
+void         reset_parse_buffer( void );
+int          read_parse_buffer( void );
+char *       parse_buffer( void );
+char *       parse_buffer_ptr( void );
+unsigned int parse_buffer_curr_char( void );
+unsigned int parse_buffer_size( void );
+unsigned int parse_buffer_pos( void );
+
+extern void seg_flush_scanner_buffer(void); /* defined in segscan.l */
+
+void set_parse_buffer( char* s )
+{
+  PARSE_BUFFER = s;
+  PARSE_BUFFER_SIZE = strlen(s);
+  if ( PARSE_BUFFER_SIZE == 0 ) {
+    elog(ERROR, "seg_in: can't parse an empty string");
+  }
+  PARSE_BUFFER_PTR = PARSE_BUFFER;
+  SCANNER_POS = 0;
+}
+
+void reset_parse_buffer( void )
+{
+  PARSE_BUFFER_PTR = PARSE_BUFFER;
+  SCANNER_POS = 0;
+  seg_flush_scanner_buffer();
+}
+
+int read_parse_buffer( void )
+{
+  int c;
+  /*
+  c = *PARSE_BUFFER_PTR++;
+  SCANNER_POS++;
+  */
+  c = PARSE_BUFFER[SCANNER_POS];
+  if(SCANNER_POS < PARSE_BUFFER_SIZE)
+    SCANNER_POS++;
+  return c;
+}
+
+char * parse_buffer( void )
+{
+  return PARSE_BUFFER;
+}
+
+unsigned int parse_buffer_curr_char( void )
+{
+  return PARSE_BUFFER[SCANNER_POS];
+}
+
+char * parse_buffer_ptr( void )
+{
+  return PARSE_BUFFER_PTR;
+}
+
+unsigned int parse_buffer_pos( void )
+{
+  return SCANNER_POS;
+}
+
+unsigned int parse_buffer_size( void )
+{
+  return PARSE_BUFFER_SIZE;
+}
+
+

contrib/seg/buffer.h

@@ -0,0 +1,8 @@
+extern void set_parse_buffer( char* s );
+extern void reset_parse_buffer( void );
+extern int read_parse_buffer( void );
+extern char * parse_buffer( void );
+extern char * parse_buffer_ptr( void );
+extern unsigned int parse_buffer_curr_char( void );
+extern unsigned int parse_buffer_pos( void );
+extern unsigned int parse_buffer_size( void );

contrib/seg/seg-validate.pl

@@ -0,0 +1,42 @@
+#!/usr/bin/perl
+$integer = '[+-]?[0-9]+';
+$real    = '[+-]?[0-9]+\.[0-9]+';
+
+$RANGE   = '(\.\.)(\.)?';
+$PLUMIN  = q(\'\+\-\');
+$FLOAT   = "(($integer)|($real))([eE]($integer))?";
+$EXTENSION = '<|>|~';
+
+$boundary = "($EXTENSION)?$FLOAT";
+$deviation = $FLOAT;
+
+$rule_1 = $boundary . $PLUMIN . $deviation;
+$rule_2 = $boundary . $RANGE . $boundary;
+$rule_3 = $boundary . $RANGE;
+$rule_4 = $RANGE . $boundary;
+$rule_5 = $boundary;
+
+
+print "$rule_5\n";
+while (<>) {
+#  s/ +//g;
+  if ( /^($rule_1)$/ ) {
+    print;
+  }
+  elsif ( /^($rule_2)$/ ) {
+    print;
+  }
+  elsif ( /^($rule_3)$/ ) {
+    print;
+  }
+  elsif ( /^($rule_4)$/ ) {
+    print;
+  }
+  elsif ( /^($rule_5)$/ ) {
+    print;
+  }
+  else {
+    print STDERR "error in $_\n";
+  }
+
+}

contrib/seg/seg.sql.in

@@ -0,0 +1,361 @@
+-- Create the user-defined type for 1-D floating point intervals (seg)
+-- 
+BEGIN TRANSACTION;
+
+CREATE FUNCTION seg_in(opaque)
+RETURNS opaque
+AS 'MODULE_PATHNAME'
+LANGUAGE 'c';
+
+CREATE FUNCTION seg_out(opaque)
+RETURNS opaque
+AS 'MODULE_PATHNAME'
+LANGUAGE 'c';
+
+CREATE TYPE seg (
+internallength = 12,
+input = seg_in,
+output = seg_out
+);
+
+COMMENT ON TYPE seg IS
+'floating point interval ''FLOAT .. FLOAT'', ''.. FLOAT'', ''FLOAT ..'' or ''FLOAT''';
+
+--
+-- External C-functions for R-tree methods
+--
+
+-- Left/Right methods
+
+CREATE FUNCTION seg_over_left(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_over_left(seg, seg) IS
+'is over and left of';
+
+CREATE FUNCTION seg_over_right(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_over_right(seg, seg) IS
+'is over and right of';
+
+CREATE FUNCTION seg_left(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_left(seg, seg) IS
+'is left of';
+
+CREATE FUNCTION seg_right(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_right(seg, seg) IS
+'is right of';
+
+
+-- Comparison methods
+
+CREATE FUNCTION seg_lt(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_lt(seg, seg) IS
+'less than';
+
+CREATE FUNCTION seg_le(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_le(seg, seg) IS
+'less than or equal';
+
+CREATE FUNCTION seg_gt(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_gt(seg, seg) IS
+'greater than';
+
+CREATE FUNCTION seg_ge(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_ge(seg, seg) IS
+'greater than or equal';
+
+CREATE FUNCTION seg_contains(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_contains(seg, seg) IS
+'contains';
+
+CREATE FUNCTION seg_contained(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_contained(seg, seg) IS
+'contained in';
+
+CREATE FUNCTION seg_overlap(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_overlap(seg, seg) IS
+'overlaps';
+
+CREATE FUNCTION seg_same(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_same(seg, seg) IS
+'same as';
+
+CREATE FUNCTION seg_different(seg, seg) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+COMMENT ON FUNCTION seg_different(seg, seg) IS
+'different';
+
+-- support routines for indexing
+
+CREATE FUNCTION seg_union(seg, seg) RETURNS seg
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+CREATE FUNCTION seg_inter(seg, seg) RETURNS seg
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+CREATE FUNCTION seg_size(seg) RETURNS float4
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+-- miscellaneous
+
+CREATE FUNCTION seg_upper(seg) RETURNS float4
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+CREATE FUNCTION seg_lower(seg) RETURNS float4
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+
+--
+-- OPERATORS
+--
+
+CREATE OPERATOR < (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_lt,
+   COMMUTATOR = '>', NEGATOR = '>=',
+   RESTRICT = scalarltsel, JOIN = scalarltjoinsel
+);
+
+CREATE OPERATOR <= (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_le,
+   COMMUTATOR = '>=', NEGATOR = '>',
+   RESTRICT = scalarltsel, JOIN = scalarltjoinsel
+);
+
+CREATE OPERATOR > (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_gt,
+   COMMUTATOR = '<', NEGATOR = '<=',
+   RESTRICT = scalargtsel, JOIN = scalargtjoinsel
+);
+
+CREATE OPERATOR >= (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_ge,
+   COMMUTATOR = '<=', NEGATOR = '<',
+   RESTRICT = scalargtsel, JOIN = scalargtjoinsel
+);
+
+CREATE OPERATOR << (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_left,
+   COMMUTATOR = '>>',
+   RESTRICT = positionsel, JOIN = positionjoinsel
+);
+
+CREATE OPERATOR &< (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_over_left,
+   COMMUTATOR = '&>',
+   RESTRICT = positionsel, JOIN = positionjoinsel
+);
+
+CREATE OPERATOR && (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_overlap,
+   COMMUTATOR = '&&',
+   RESTRICT = positionsel, JOIN = positionjoinsel
+);
+
+CREATE OPERATOR &> (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_over_right,
+   COMMUTATOR = '&<',
+   RESTRICT = positionsel, JOIN = positionjoinsel
+);
+
+CREATE OPERATOR >> (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_right,
+   COMMUTATOR = '<<',
+   RESTRICT = positionsel, JOIN = positionjoinsel
+);
+
+CREATE OPERATOR = (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_same,
+   COMMUTATOR = '=', NEGATOR = '<>',
+   RESTRICT = eqsel, JOIN = eqjoinsel,
+   SORT1 = '<', SORT2 = '<'
+);
+
+CREATE OPERATOR <> (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_different,
+   COMMUTATOR = '<>', NEGATOR = '=',
+   RESTRICT = neqsel, JOIN = neqjoinsel
+);
+
+CREATE OPERATOR @ (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_contains,
+   COMMUTATOR = '~',
+   RESTRICT = contsel, JOIN = contjoinsel
+);
+
+CREATE OPERATOR ~ (
+   LEFTARG = seg, RIGHTARG = seg, PROCEDURE = seg_contained,
+   COMMUTATOR = '@',
+   RESTRICT = contsel, JOIN = contjoinsel
+);
+
+
+-- define the GiST support methods
+CREATE FUNCTION gseg_consistent(opaque,seg,int4) RETURNS bool
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+CREATE FUNCTION gseg_compress(opaque) RETURNS opaque 
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+CREATE FUNCTION gseg_decompress(opaque) RETURNS opaque 
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+CREATE FUNCTION gseg_penalty(opaque,opaque,opaque) RETURNS opaque
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+CREATE FUNCTION gseg_picksplit(opaque, opaque) RETURNS opaque
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+CREATE FUNCTION gseg_union(bytea, opaque) RETURNS seg 
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+CREATE FUNCTION gseg_same(seg, seg, opaque) RETURNS opaque 
+	AS 'MODULE_PATHNAME' LANGUAGE 'c';
+
+
+-- register the default opclass for indexing
+INSERT INTO pg_opclass (opcname, opcdeftype)
+   SELECT 'gist_seg_ops', oid
+   FROM pg_type
+   WHERE typname = 'seg';
+
+
+-- get the comparators for segments and store them in a tmp table
+SELECT o.oid AS opoid, o.oprname
+INTO TABLE seg_ops_tmp
+FROM pg_operator o, pg_type t
+WHERE o.oprleft = t.oid and o.oprright = t.oid
+   and t.typname = 'seg';
+
+-- make sure we have the right operators
+-- SELECT * from seg_ops_tmp;
+
+-- using the tmp table, generate the amop entries 
+
+-- seg_left
+INSERT INTO pg_amop (amopid, amopclaid, amopopr, amopstrategy)
+   SELECT am.oid, opcl.oid, c.opoid, 1
+   FROM pg_am am, pg_opclass opcl, seg_ops_tmp c
+   WHERE amname = 'gist' and opcname = 'gist_seg_ops' 
+      and c.oprname = '<<';
+
+-- seg_overleft
+INSERT INTO pg_amop (amopid, amopclaid, amopopr, amopstrategy)
+   SELECT am.oid, opcl.oid, c.opoid, 2
+   FROM pg_am am, pg_opclass opcl, seg_ops_tmp c
+   WHERE amname = 'gist' and opcname = 'gist_seg_ops' 
+      and c.oprname = '&<';
+
+-- seg_overlap
+INSERT INTO pg_amop (amopid, amopclaid, amopopr, amopstrategy)
+   SELECT am.oid, opcl.oid, c.opoid, 3
+   FROM pg_am am, pg_opclass opcl, seg_ops_tmp c
+   WHERE amname = 'gist' and opcname = 'gist_seg_ops' 
+      and c.oprname = '&&';
+
+-- seg_overright
+INSERT INTO pg_amop (amopid, amopclaid, amopopr, amopstrategy)
+   SELECT am.oid, opcl.oid, c.opoid, 4
+   FROM pg_am am, pg_opclass opcl, seg_ops_tmp c
+   WHERE amname = 'gist' and opcname = 'gist_seg_ops' 
+      and c.oprname = '&>';
+
+-- seg_right
+INSERT INTO pg_amop (amopid, amopclaid, amopopr, amopstrategy)
+   SELECT am.oid, opcl.oid, c.opoid, 5
+   FROM pg_am am, pg_opclass opcl, seg_ops_tmp c
+   WHERE amname = 'gist' and opcname = 'gist_seg_ops' 
+      and c.oprname = '>>';
+
+-- seg_same
+INSERT INTO pg_amop (amopid, amopclaid, amopopr, amopstrategy)
+   SELECT am.oid, opcl.oid, c.opoid, 6
+   FROM pg_am am, pg_opclass opcl, seg_ops_tmp c
+   WHERE amname = 'gist' and opcname = 'gist_seg_ops' 
+      and c.oprname = '=';
+
+-- seg_contains
+INSERT INTO pg_amop (amopid, amopclaid, amopopr, amopstrategy)
+   SELECT am.oid, opcl.oid, c.opoid, 7
+   FROM pg_am am, pg_opclass opcl, seg_ops_tmp c
+   WHERE amname = 'gist' and opcname = 'gist_seg_ops' 
+      and c.oprname = '@';
+
+-- seg_contained
+INSERT INTO pg_amop (amopid, amopclaid, amopopr, amopstrategy)
+   SELECT am.oid, opcl.oid, c.opoid, 8
+   FROM pg_am am, pg_opclass opcl, seg_ops_tmp c
+   WHERE amname = 'gist' and opcname = 'gist_seg_ops' 
+      and c.oprname = '~';
+
+DROP TABLE seg_ops_tmp;
+
+
+-- add the entries to amproc for the support methods
+-- note the amprocnum numbers associated with each are specific!
+
+INSERT INTO pg_amproc (amid, amopclaid, amproc, amprocnum)
+   SELECT am.oid, opcl.oid, pro.oid, 1
+   FROM pg_am am, pg_opclass opcl, pg_proc pro
+   WHERE  amname = 'gist' and opcname = 'gist_seg_ops'
+      and proname = 'gseg_consistent';
+
+INSERT INTO pg_amproc (amid, amopclaid, amproc, amprocnum)
+   SELECT am.oid, opcl.oid, pro.oid, 2
+   FROM pg_am am, pg_opclass opcl, pg_proc pro
+   WHERE  amname = 'gist' and opcname = 'gist_seg_ops'
+      and proname = 'gseg_union';
+
+INSERT INTO pg_amproc (amid, amopclaid, amproc, amprocnum)
+   SELECT am.oid, opcl.oid, pro.oid, 3
+   FROM pg_am am, pg_opclass opcl, pg_proc pro
+   WHERE  amname = 'gist' and opcname = 'gist_seg_ops'
+      and proname = 'gseg_compress';
+
+INSERT INTO pg_amproc (amid, amopclaid, amproc, amprocnum)
+   SELECT am.oid, opcl.oid, pro.oid, 4
+   FROM pg_am am, pg_opclass opcl, pg_proc pro
+   WHERE  amname = 'gist' and opcname = 'gist_seg_ops'
+      and proname = 'gseg_decompress';
+
+INSERT INTO pg_amproc (amid, amopclaid, amproc, amprocnum)
+   SELECT am.oid, opcl.oid, pro.oid, 5
+   FROM pg_am am, pg_opclass opcl, pg_proc pro
+   WHERE  amname = 'gist' and opcname = 'gist_seg_ops'
+      and proname = 'gseg_penalty';
+
+INSERT INTO pg_amproc (amid, amopclaid, amproc, amprocnum)
+   SELECT am.oid, opcl.oid, pro.oid, 6
+   FROM pg_am am, pg_opclass opcl, pg_proc pro
+   WHERE  amname = 'gist' and opcname = 'gist_seg_ops'
+      and proname = 'gseg_picksplit';
+
+INSERT INTO pg_amproc (amid, amopclaid, amproc, amprocnum)
+   SELECT am.oid, opcl.oid, pro.oid, 7
+   FROM pg_am am, pg_opclass opcl, pg_proc pro
+   WHERE  amname = 'gist' and opcname = 'gist_seg_ops'
+      and proname = 'gseg_same';
+
+END TRANSACTION;

contrib/seg/segdata.h

@@ -0,0 +1,8 @@
+typedef struct SEG {
+  float lower;
+  float upper;
+  char  l_sigd;
+  char  u_sigd;  
+  char  l_ext;
+  char  u_ext;  
+} SEG;

contrib/seg/segparse.y

@@ -0,0 +1,183 @@
+%{
+#define YYERROR_VERBOSE   
+#define YYPARSE_PARAM result  /* need this to pass a pointer (void *) to yyparse */
+  
+#include <string.h>
+#include <stdlib.h>
+#include <math.h>
+#include "segdata.h"
+#include "buffer.h"
+  
+#include "postgres.h"
+#include "utils/elog.h"
+  
+#undef yylex                  /* falure to redefine yylex will result in calling the */
+#define yylex seg_yylex       /* wrong scanner when running inside postgres backend  */
+
+  extern int errno;
+  extern int yylex();           /* defined as seg_yylex in segscan.c */
+  extern int significant_digits( char *str );    /* defined in seg.c */
+  
+  int seg_yyerror( char *msg );
+  int seg_yyparse( void *result );
+
+  float seg_atof( char *value );
+
+#define MAX(X,Y) ((X) > (Y) ? (X) : (Y))
+#define MIN(X,Y) ((X) < (Y) ? (X) : (Y))
+#define ABS(X) ((X) < 0 ? (-X) : (X))
+
+  long threshold;
+  char strbuf[25] = {
+    '0', '0', '0', '0', '0',
+    '0', '0', '0', '0', '0',
+    '0', '0', '0', '0', '0',
+    '0', '0', '0', '0', '0',
+    '0', '0', '0', '0', '\0'
+  };
+
+%}
+
+/* BISON Declarations */
+%union {
+  struct BND {
+    float val;
+    char  ext;
+    char  sigd;
+  } bnd;
+  char * text;
+}
+%token <text> FLOAT
+%token <text> RANGE
+%token <text> PLUMIN
+%token <text> EXTENSION
+%type  <bnd>  boundary
+%type  <bnd>  deviation
+%start range
+
+/* Grammar follows */
+%%
+
+
+range:
+          boundary PLUMIN deviation {
+	    ((SEG *)result)->lower = $1.val - $3.val;
+	    ((SEG *)result)->upper = $1.val + $3.val;
+	    sprintf(strbuf, "%g", ((SEG *)result)->lower);
+	    ((SEG *)result)->l_sigd = MAX(MIN(6, significant_digits(strbuf)), MAX($1.sigd, $3.sigd));
+	    sprintf(strbuf, "%g", ((SEG *)result)->upper);
+	    ((SEG *)result)->u_sigd = MAX(MIN(6, significant_digits(strbuf)), MAX($1.sigd, $3.sigd));
+	    ((SEG *)result)->l_ext = '\0';
+	    ((SEG *)result)->u_ext = '\0';
+          }
+      |
+          boundary RANGE boundary {
+	    ((SEG *)result)->lower = $1.val;
+	    ((SEG *)result)->upper = $3.val;
+	    if ( ((SEG *)result)->lower > ((SEG *)result)->upper ) {
+	      reset_parse_buffer();     
+	      elog(ERROR, "swapped boundaries: %g is greater than %g", ((SEG *)result)->lower, ((SEG *)result)->upper );
+	      YYERROR;
+	    }
+	    ((SEG *)result)->l_sigd = $1.sigd;
+	    ((SEG *)result)->u_sigd = $3.sigd;
+	    ((SEG *)result)->l_ext = ( $1.ext ? $1.ext : '\0' );
+	    ((SEG *)result)->u_ext = ( $3.ext ? $3.ext : '\0' );
+          }
+      |
+          boundary RANGE {
+	    ((SEG *)result)->lower = $1.val;
+	    ((SEG *)result)->upper = HUGE;
+	    ((SEG *)result)->l_sigd = $1.sigd;
+	    ((SEG *)result)->u_sigd = 0;
+	    ((SEG *)result)->l_ext = ( $1.ext ? $1.ext : '\0' );
+	    ((SEG *)result)->u_ext = '-';
+          }
+      ;
+      |
+          RANGE boundary {
+	    ((SEG *)result)->lower = -HUGE;
+	    ((SEG *)result)->upper = $2.val;
+	    ((SEG *)result)->l_sigd = 0;
+	    ((SEG *)result)->u_sigd = $2.sigd;
+	    ((SEG *)result)->l_ext = '-';
+	    ((SEG *)result)->u_ext = ( $2.ext ? $2.ext : '\0' );
+          }
+      |
+          boundary {
+	    ((SEG *)result)->lower = ((SEG *)result)->upper = $1.val;
+	    ((SEG *)result)->l_sigd = ((SEG *)result)->u_sigd = $1.sigd;
+	    ((SEG *)result)->l_ext = ((SEG *)result)->u_ext = ( $1.ext ? $1.ext : '\0' );
+          }
+      ;
+
+boundary:
+          FLOAT {
+             $$.ext = '\0';
+	     $$.sigd = significant_digits($1);
+             $$.val = seg_atof($1);
+	  }
+      | 
+	  EXTENSION FLOAT {
+             $$.ext = $1[0];
+	     $$.sigd = significant_digits($2);
+             $$.val = seg_atof($2);
+	  }
+      ;
+
+deviation:
+          FLOAT {
+             $$.ext = '\0';
+	     $$.sigd = significant_digits($1);
+             $$.val = seg_atof($1);
+	  }
+      ;
+
+%%
+
+
+float seg_atof ( char *value ) {
+  float result;
+  char *buf = (char *) palloc(256);
+
+  errno = 0;
+  sscanf(value, "%f", &result);
+
+  if ( errno ) {
+    sprintf(buf, "numeric value %s unrepresentable", value);
+    reset_parse_buffer();     
+    elog(ERROR, buf);
+  }
+
+  return result;
+}
+
+
+int seg_yyerror ( char *msg ) {
+  char *buf = (char *) palloc(256);
+  int position;
+
+  yyclearin;
+
+  if ( !strcmp(msg, "parse error, expecting `$'") ) {
+    msg = "expecting end of input";
+  }
+
+  position = parse_buffer_pos() > parse_buffer_size() ? parse_buffer_pos() - 1 : parse_buffer_pos();
+
+  sprintf(
+	  buf, 
+	  "%s at or near position %d, character ('%c', \\%03o), input: '%s'\n", 
+	  msg,
+	  position,
+	  parse_buffer()[position - 1],
+	  parse_buffer()[position - 1],
+	  parse_buffer()
+	  );
+
+  reset_parse_buffer();     
+  elog(ERROR, buf);
+  return 0;
+}
+
+

contrib/seg/segscan.l

@@ -0,0 +1,53 @@
+%{
+/* 
+** A scanner for EMP-style numeric ranges 
+*/
+
+#include <string.h>
+#include <stdio.h>
+#include "segparse.h"
+#include "buffer.h"
+
+#define YY_NO_UNPUT 1
+#undef  yywrap
+
+/* flex screws a couple symbols when used with the -P otion; fix those */
+#define YY_DECL int seg_yylex YY_PROTO(( void )); \
+int seg_yylex YY_PROTO(( void ))
+#define yylval seg_yylval
+
+/* redefined YY_INPUT reads byte-wise from the memory area defined in buffer.c */
+#undef YY_INPUT
+#define YY_INPUT(buf,result,max_size) \
+{ \
+        int c = read_parse_buffer(); \
+        result = (c == '\0') ?  YY_NULL : (buf[0] = c, 1); \
+}
+
+void seg_flush_scanner_buffer(void); 
+%}
+
+range        (\.\.)(\.)?
+plumin       (\'\+\-\')|(\(\+\-)\)
+integer      [+-]?[0-9]+
+real         [+-]?[0-9]+\.[0-9]+
+float        ({integer}|{real})([eE]{integer})?
+
+%%
+
+{range}      yylval.text = yytext; return RANGE;
+{plumin}     yylval.text = yytext; return PLUMIN;
+{float}      yylval.text = yytext; return FLOAT;
+\<           yylval.text = "<"; return EXTENSION;
+\>           yylval.text = ">"; return EXTENSION;
+\~           yylval.text = "~"; return EXTENSION;
+[ ]+         /* discard spaces */
+.            return yytext[0]; /* alert parser of the garbage */
+
+%%
+
+int seg_yylex();
+
+void seg_flush_scanner_buffer(void) {
+  YY_FLUSH_BUFFER;
+}

contrib/seg/sort-segments.pl

@@ -0,0 +1,20 @@
+#!/usr/bin/perl
+
+# this script will sort any table with the segment data type in its last column
+
+while (<>) {
+  chomp;
+  push @rows, $_;
+}
+
+foreach ( sort { 
+  @ar = split("\t", $a);
+  $valA = pop @ar;
+  $valA =~ s/[~<> ]+//g;
+  @ar = split("\t", $b);
+  $valB = pop @ar;
+  $valB =~ s/[~<> ]+//g;
+  $valA <=> $valB
+} @rows ) {
+  print "$_\n";;
+}

contrib/seg/sql/seg.sql

@@ -0,0 +1,223 @@
+--
+--  Test seg datatype
+--
+
+--
+-- first, define the datatype.  Turn off echoing so that expected file
+-- does not depend on contents of seg.sql.
+--
+\set ECHO none
+\i seg.sql
+\set ECHO all
+
+--
+-- testing the input and output functions
+--
+
+-- Any number
+SELECT '1'::seg AS seg;
+SELECT '-1'::seg AS seg;
+SELECT '1.0'::seg AS seg;
+SELECT '-1.0'::seg AS seg;
+SELECT '1e7'::seg AS seg;
+SELECT '-1e7'::seg AS seg;
+SELECT '1.0e7'::seg AS seg;
+SELECT '-1.0e7'::seg AS seg;
+SELECT '1e+7'::seg AS seg;
+SELECT '-1e+7'::seg AS seg;
+SELECT '1.0e+7'::seg AS seg;
+SELECT '-1.0e+7'::seg AS seg;
+SELECT '1e-7'::seg AS seg;
+SELECT '-1e-7'::seg AS seg;
+SELECT '1.0e-7'::seg AS seg;
+SELECT '-1.0e-7'::seg AS seg;
+SELECT '2e-6'::seg AS seg;
+SELECT '2e-5'::seg AS seg;
+SELECT '2e-4'::seg AS seg;
+SELECT '2e-3'::seg AS seg;
+SELECT '2e-2'::seg AS seg;
+SELECT '2e-1'::seg AS seg;
+SELECT '2e-0'::seg AS seg;
+SELECT '2e+0'::seg AS seg;
+SELECT '2e+1'::seg AS seg;
+SELECT '2e+2'::seg AS seg;
+SELECT '2e+3'::seg AS seg;
+SELECT '2e+4'::seg AS seg;
+SELECT '2e+5'::seg AS seg;
+SELECT '2e+6'::seg AS seg;
+
+
+-- Significant digits preserved
+SELECT '1'::seg AS seg;
+SELECT '1.0'::seg AS seg;
+SELECT '1.00'::seg AS seg;
+SELECT '1.000'::seg AS seg;
+SELECT '1.0000'::seg AS seg;
+SELECT '1.00000'::seg AS seg;
+SELECT '1.000000'::seg AS seg;
+SELECT '0.000000120'::seg AS seg;
+SELECT '3.400e5'::seg AS seg;
+
+-- Digits truncated
+SELECT '12.34567890123456'::seg AS seg;
+
+-- Numbers with certainty indicators
+SELECT '~6.5'::seg AS seg;
+SELECT '<6.5'::seg AS seg;
+SELECT '>6.5'::seg AS seg;
+SELECT '~ 6.5'::seg AS seg;
+SELECT '< 6.5'::seg AS seg;
+SELECT '> 6.5'::seg AS seg;
+
+-- Open intervals
+SELECT '0..'::seg AS seg;
+SELECT '0...'::seg AS seg;
+SELECT '0 ..'::seg AS seg;
+SELECT '0 ...'::seg AS seg;
+SELECT '..0'::seg AS seg;
+SELECT '...0'::seg AS seg;
+SELECT '.. 0'::seg AS seg;
+SELECT '... 0'::seg AS seg;
+
+-- Finite intervals
+SELECT '0 .. 1'::seg AS seg;
+SELECT '-1 .. 0'::seg AS seg;
+SELECT '-1 .. 1'::seg AS seg;
+
+-- (+/-) intervals
+SELECT '0(+-)1'::seg AS seg;
+SELECT '0(+-)1.0'::seg AS seg;
+SELECT '1.0(+-)0.005'::seg AS seg;
+SELECT '101(+-)1'::seg AS seg;
+-- incorrect number of significant digits in 99.0:
+SELECT '100(+-)1'::seg AS seg;
+
+-- invalid input
+SELECT ''::seg AS seg;
+SELECT 'ABC'::seg AS seg;
+SELECT '1ABC'::seg AS seg;
+SELECT '1.'::seg AS seg;
+SELECT '1.....'::seg AS seg;
+SELECT '.1'::seg AS seg;
+SELECT '1..2.'::seg AS seg;
+SELECT '1 e7'::seg AS seg;
+SELECT '1e700'::seg AS seg;
+
+--
+-- testing the  operators
+--
+
+-- equality/inequality:
+--
+SELECT '24 .. 33.20'::seg = '24 .. 33.20'::seg AS bool;
+SELECT '24 .. 33.20'::seg = '24 .. 33.21'::seg AS bool;
+SELECT '24 .. 33.20'::seg != '24 .. 33.20'::seg AS bool;
+SELECT '24 .. 33.20'::seg != '24 .. 33.21'::seg AS bool;
+
+-- overlap
+--
+SELECT '1'::seg && '1'::seg AS bool;
+SELECT '1'::seg && '2'::seg AS bool;
+SELECT '0 ..'::seg && '0 ..'::seg AS bool;
+SELECT '0 .. 1'::seg && '0 .. 1'::seg AS bool;
+SELECT '..0'::seg && '0..'::seg AS bool;
+SELECT '-1 .. 0.1'::seg && '0 .. 1'::seg AS bool;
+SELECT '-1 .. 0'::seg && '0 .. 1'::seg AS bool;
+SELECT '-1 .. -0.0001'::seg && '0 .. 1'::seg AS bool;
+SELECT '0 ..'::seg && '1'::seg AS bool;
+SELECT '0 .. 1'::seg && '1'::seg AS bool;
+SELECT '0 .. 1'::seg && '2'::seg AS bool;
+SELECT '0 .. 2'::seg && '1'::seg AS bool;
+SELECT '1'::seg && '0 .. 1'::seg AS bool;
+SELECT '2'::seg && '0 .. 1'::seg AS bool;
+SELECT '1'::seg && '0 .. 2'::seg AS bool;
+
+-- overlap on the left
+--
+SELECT '1'::seg &< '0'::seg AS bool;
+SELECT '1'::seg &< '1'::seg AS bool;
+SELECT '1'::seg &< '2'::seg AS bool;
+SELECT '0 .. 1'::seg &< '0'::seg AS bool;
+SELECT '0 .. 1'::seg &< '1'::seg AS bool;
+SELECT '0 .. 1'::seg &< '2'::seg AS bool;
+SELECT '0 .. 1'::seg &< '0 .. 0.5'::seg AS bool;
+SELECT '0 .. 1'::seg &< '0 .. 1'::seg AS bool;
+SELECT '0 .. 1'::seg &< '0 .. 2'::seg AS bool;
+SELECT '0 .. 1'::seg &< '1 .. 2'::seg AS bool;
+SELECT '0 .. 1'::seg &< '2 .. 3'::seg AS bool;
+
+-- overlap on the right
+--
+SELECT '0'::seg &> '1'::seg AS bool;
+SELECT '1'::seg &> '1'::seg AS bool;
+SELECT '2'::seg &> '1'::seg AS bool;
+SELECT '0'::seg &> '0 .. 1'::seg AS bool;
+SELECT '1'::seg &> '0 .. 1'::seg AS bool;
+SELECT '2'::seg &> '0 .. 1'::seg AS bool;
+SELECT '0 .. 0.5'::seg &> '0 .. 1'::seg AS bool;
+SELECT '0 .. 1'::seg &> '0 .. 1'::seg AS bool;
+SELECT '0 .. 2'::seg &> '0 .. 2'::seg AS bool;
+SELECT '1 .. 2'::seg &> '0 .. 1'::seg AS bool;
+SELECT '2 .. 3'::seg &> '0 .. 1'::seg AS bool;
+
+-- left
+--
+SELECT '1'::seg << '0'::seg AS bool;
+SELECT '1'::seg << '1'::seg AS bool;
+SELECT '1'::seg << '2'::seg AS bool;
+SELECT '0 .. 1'::seg << '0'::seg AS bool;
+SELECT '0 .. 1'::seg << '1'::seg AS bool;
+SELECT '0 .. 1'::seg << '2'::seg AS bool;
+SELECT '0 .. 1'::seg << '0 .. 0.5'::seg AS bool;
+SELECT '0 .. 1'::seg << '0 .. 1'::seg AS bool;
+SELECT '0 .. 1'::seg << '0 .. 2'::seg AS bool;
+SELECT '0 .. 1'::seg << '1 .. 2'::seg AS bool;
+SELECT '0 .. 1'::seg << '2 .. 3'::seg AS bool;
+
+-- right
+--
+SELECT '0'::seg >> '1'::seg AS bool;
+SELECT '1'::seg >> '1'::seg AS bool;
+SELECT '2'::seg >> '1'::seg AS bool;
+SELECT '0'::seg >> '0 .. 1'::seg AS bool;
+SELECT '1'::seg >> '0 .. 1'::seg AS bool;
+SELECT '2'::seg >> '0 .. 1'::seg AS bool;
+SELECT '0 .. 0.5'::seg >> '0 .. 1'::seg AS bool;
+SELECT '0 .. 1'::seg >> '0 .. 1'::seg AS bool;
+SELECT '0 .. 2'::seg >> '0 .. 2'::seg AS bool;
+SELECT '1 .. 2'::seg >> '0 .. 1'::seg AS bool;
+SELECT '2 .. 3'::seg >> '0 .. 1'::seg AS bool;
+
+
+-- "contained in" (the left value belongs within the interval specified in the right value):
+--
+SELECT '0'::seg        ~ '0'::seg AS bool;
+SELECT '0'::seg        ~ '0 ..'::seg AS bool;
+SELECT '0'::seg        ~ '.. 0'::seg AS bool;
+SELECT '0'::seg        ~ '-1 .. 1'::seg AS bool;
+SELECT '0'::seg        ~ '-1 .. 1'::seg AS bool;
+SELECT '-1'::seg       ~ '-1 .. 1'::seg AS bool;
+SELECT '1'::seg        ~ '-1 .. 1'::seg AS bool;
+SELECT '-1 .. 1'::seg  ~ '-1 .. 1'::seg AS bool;
+
+-- "contains" (the left value contains the interval specified in the right value):
+--
+SELECT '0'::seg @ '0'::seg AS bool;
+SELECT '0 .. '::seg ~ '0'::seg AS bool;
+SELECT '.. 0'::seg ~ '0'::seg AS bool;
+SELECT '-1 .. 1'::seg ~ '0'::seg AS bool;
+SELECT '0'::seg ~ '-1 .. 1'::seg AS bool;
+SELECT '-1'::seg ~ '-1 .. 1'::seg AS bool;
+SELECT '1'::seg ~ '-1 .. 1'::seg AS bool;
+
+-- Load some example data and build the index
+-- 
+CREATE TABLE test_seg (s seg);
+
+\copy test_seg from 'data/test_seg.data'
+
+CREATE INDEX test_seg_ix ON test_seg USING gist (s);
+SELECT count(*) FROM test_seg WHERE s @ '11..11.3';
+
+-- Test sorting 
+SELECT * FROM test_seg WHERE s @ '11..11.3' GROUP BY s;