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Add test cases to rtreedoc.test.

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dan
2021-09-14 20:07:58 +00:00
parent c0bd26a23a
commit f159323c42
3 changed files with 421 additions and 8 deletions
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ext/rtree/rtreedoc.test
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@ -509,6 +509,9 @@ set testprefix rtreedoc-6
# EVIDENCE-OF: R-08327-00674 By default, coordinates are stored in an
# R*Tree using 32-bit floating point values.
#
# EVIDENCE-OF: R-22000-53613 The default virtual table ("rtree") stores
# coordinates as single-precision (4-byte) floating point numbers.
#
# Show this by showing that rounding is consistent with 32-bit float
# rounding.
do_execsql_test 1.0 {
@ -711,6 +714,416 @@ do_test 8.2 {
#-------------------------------------------------------------------------
set testprefix rtreedoc-8
# EVIDENCE-OF: R-21062-30088 For the example above, one might create an
# auxiliary table as follows: CREATE TABLE demo_data( id INTEGER PRIMARY
# KEY, -- primary key objname TEXT, -- name of the object objtype TEXT,
# -- object type boundary BLOB -- detailed boundary of object );
#
# One might.
#
do_execsql_test 1.0 {
CREATE TABLE demo_data(
id INTEGER PRIMARY KEY, -- primary key
objname TEXT, -- name of the object
objtype TEXT, -- object type
boundary BLOB -- detailed boundary of object
);
}
#-------------------------------------------------------------------------
#-------------------------------------------------------------------------
# Section 4.1 of documentation.
#-------------------------------------------------------------------------
#-------------------------------------------------------------------------
set testprefix rtreedoc-9
reset_db
# EVIDENCE-OF: R-46566-43213 Beginning with SQLite version 3.24.0
# (2018-06-04), r-tree tables can have auxiliary columns that store
# arbitrary data. Auxiliary columns can be used in place of secondary
# tables such as "demo_data".
#
# EVIDENCE-OF: R-41287-48160 Auxiliary columns are marked with a "+"
# symbol before the column name.
#
# This interface cannot conveniently be used to prove anything about
# versions of SQLite prior to 3.24.0.
#
do_execsql_test 1.0 {
CREATE VIRTUAL TABLE rta USING rtree(
id, u1,u2, v1,v2, +aux
);
INSERT INTO rta(aux) VALUES(NULL);
INSERT INTO rta(aux) VALUES(45);
INSERT INTO rta(aux) VALUES(22.3);
INSERT INTO rta(aux) VALUES('hello');
INSERT INTO rta(aux) VALUES(X'ABCD');
SELECT typeof(aux), quote(aux) FROM rta;
} {
null NULL
integer 45
real 22.3
text 'hello'
blob X'ABCD'
}
# EVIDENCE-OF: R-30514-26093 Auxiliary columns must come after all of
# the coordinate boundary columns.
foreach {tn cols} {
1 "id x1,x2, +extra, y1,y2"
2 "extra, +id x1,x2, y1,y2"
3 "id, x1,+x2, extra, y1,y2"
} {
do_catchsql_test 2.$tn "
CREATE VIRTUAL TABLE rrr USING rtree($cols)
" {1 {Auxiliary rtree columns must be last}}
}
do_catchsql_test 3.0 {
CREATE VIRTUAL TABLE rrr USING rtree(+id, extra, x1, x2);
} {1 {near "+": syntax error}}
# EVIDENCE-OF: R-01280-03635 An RTREE table can have no more than 100
# columns total. In other words, the count of columns including the
# integer primary key column, the coordinate boundary columns, and all
# auxiliary columns must be 100 or less.
do_catchsql_test 3.1 {
CREATE VIRTUAL TABLE r1 USING rtree(intid, u1,u2,
+c00, +c01, +c02, +c03, +c04, +c05, +c06, +c07, +c08, +c09,
+c10, +c11, +c12, +c13, +c14, +c15, +c16, +c17, +c18, +c19,
+c20, +c21, +c22, +c23, +c24, +c25, +c26, +c27, +c28, +c29,
+c30, +c31, +c32, +c33, +c34, +c35, +c36, +c37, +c38, +c39,
+c40, +c41, +c42, +c43, +c44, +c45, +c46, +c47, +c48, +c49,
+c50, +c51, +c52, +c53, +c54, +c55, +c56, +c57, +c58, +c59,
+c60, +c61, +c62, +c63, +c64, +c65, +c66, +c67, +c68, +c69,
+c70, +c71, +c72, +c73, +c74, +c75, +c76, +c77, +c78, +c79,
+c80, +c81, +c82, +c83, +c84, +c85, +c86, +c87, +c88, +c89,
+c90, +c91, +c92, +c93, +c94, +c95, +c96
);
} {0 {}}
do_catchsql_test 3.2 {
DROP TABLE r1;
CREATE VIRTUAL TABLE r1 USING rtree(intid, u1,u2,
+c00, +c01, +c02, +c03, +c04, +c05, +c06, +c07, +c08, +c09,
+c10, +c11, +c12, +c13, +c14, +c15, +c16, +c17, +c18, +c19,
+c20, +c21, +c22, +c23, +c24, +c25, +c26, +c27, +c28, +c29,
+c30, +c31, +c32, +c33, +c34, +c35, +c36, +c37, +c38, +c39,
+c40, +c41, +c42, +c43, +c44, +c45, +c46, +c47, +c48, +c49,
+c50, +c51, +c52, +c53, +c54, +c55, +c56, +c57, +c58, +c59,
+c60, +c61, +c62, +c63, +c64, +c65, +c66, +c67, +c68, +c69,
+c70, +c71, +c72, +c73, +c74, +c75, +c76, +c77, +c78, +c79,
+c80, +c81, +c82, +c83, +c84, +c85, +c86, +c87, +c88, +c89,
+c90, +c91, +c92, +c93, +c94, +c95, +c96, +c97
);
} {1 {Too many columns for an rtree table}}
do_catchsql_test 3.3 {
CREATE VIRTUAL TABLE r1 USING rtree(intid, u1,u2, v1,v2,
+c00, +c01, +c02, +c03, +c04, +c05, +c06, +c07, +c08, +c09,
+c10, +c11, +c12, +c13, +c14, +c15, +c16, +c17, +c18, +c19,
+c20, +c21, +c22, +c23, +c24, +c25, +c26, +c27, +c28, +c29,
+c30, +c31, +c32, +c33, +c34, +c35, +c36, +c37, +c38, +c39,
+c40, +c41, +c42, +c43, +c44, +c45, +c46, +c47, +c48, +c49,
+c50, +c51, +c52, +c53, +c54, +c55, +c56, +c57, +c58, +c59,
+c60, +c61, +c62, +c63, +c64, +c65, +c66, +c67, +c68, +c69,
+c70, +c71, +c72, +c73, +c74, +c75, +c76, +c77, +c78, +c79,
+c80, +c81, +c82, +c83, +c84, +c85, +c86, +c87, +c88, +c89,
+c90, +c91, +c92, +c93, +c94,
);
} {0 {}}
do_catchsql_test 3.4 {
DROP TABLE r1;
CREATE VIRTUAL TABLE r1 USING rtree(intid, u1,u2, v1,v2,
+c00, +c01, +c02, +c03, +c04, +c05, +c06, +c07, +c08, +c09,
+c10, +c11, +c12, +c13, +c14, +c15, +c16, +c17, +c18, +c19,
+c20, +c21, +c22, +c23, +c24, +c25, +c26, +c27, +c28, +c29,
+c30, +c31, +c32, +c33, +c34, +c35, +c36, +c37, +c38, +c39,
+c40, +c41, +c42, +c43, +c44, +c45, +c46, +c47, +c48, +c49,
+c50, +c51, +c52, +c53, +c54, +c55, +c56, +c57, +c58, +c59,
+c60, +c61, +c62, +c63, +c64, +c65, +c66, +c67, +c68, +c69,
+c70, +c71, +c72, +c73, +c74, +c75, +c76, +c77, +c78, +c79,
+c80, +c81, +c82, +c83, +c84, +c85, +c86, +c87, +c88, +c89,
+c90, +c91, +c92, +c93, +c94, +c95,
);
} {1 {Too many columns for an rtree table}}
# EVIDENCE-OF: R-05552-15084
do_execsql_test 4.0 {
CREATE VIRTUAL TABLE demo_index2 USING rtree(
id, -- Integer primary key
minX, maxX, -- Minimum and maximum X coordinate
minY, maxY, -- Minimum and maximum Y coordinate
+objname TEXT, -- name of the object
+objtype TEXT, -- object type
+boundary BLOB -- detailed boundary of object
);
}
do_execsql_test 4.1 {
CREATE VIRTUAL TABLE demo_index USING rtree(
id, -- Integer primary key
minX, maxX, -- Minimum and maximum X coordinate
minY, maxY -- Minimum and maximum Y coordinate
);
CREATE TABLE demo_data(
id INTEGER PRIMARY KEY, -- primary key
objname TEXT, -- name of the object
objtype TEXT, -- object type
boundary BLOB -- detailed boundary of object
);
INSERT INTO demo_index2(id) VALUES(1);
INSERT INTO demo_index(id) VALUES(1);
INSERT INTO demo_data(id) VALUES(1);
}
do_test 4.2 {
catch { array unset R }
db eval {SELECT * FROM demo_index2} R { set r1 [array names R] }
catch { array unset R }
db eval {SELECT * FROM demo_index NATURAL JOIN demo_data } R {
set r2 [array names R]
}
expr {$r1==$r2}
} {1}
#-------------------------------------------------------------------------
#-------------------------------------------------------------------------
# Section 4.1.1 of documentation.
#-------------------------------------------------------------------------
#-------------------------------------------------------------------------
set testprefix rtreedoc-9
reset_db
# EVIDENCE-OF: R-24021-02490 For auxiliary columns, only the name of the
# column matters. The type affinity is ignored.
#
# EVIDENCE-OF: R-39906-44154 Constraints such as NOT NULL, UNIQUE,
# REFERENCES, or CHECK are also ignored.
do_execsql_test 1.0 { PRAGMA foreign_keys = on }
foreach {tn auxcol nm} {
1 "+extra INTEGER" extra
2 "+extra TEXT" extra
3 "+extra BLOB" extra
4 "+extra REAL" extra
5 "+col NOT NULL" col
6 "+col CHECK (col IS NOT NULL)" col
7 "+col REFERENCES tbl(x)" col
} {
do_execsql_test 1.$tn.1 "
CREATE VIRTUAL TABLE rt USING rtree_i32(k, a,b, $auxcol)
"
# Check that the aux column has no affinity. Or NOT NULL constraint.
# And that the aux column is the child key of an FK constraint.
#
do_execsql_test 1.$tn.2 "
INSERT INTO rt($nm) VALUES(NULL), (45), (-123.2), ('456'), (X'ABCD');
SELECT typeof($nm), quote($nm) FROM rt;
" {
null NULL
integer 45
real -123.2
text '456'
blob X'ABCD'
}
# Check that there is no UNIQUE constraint either.
#
do_execsql_test 1.$tn.3 "
INSERT INTO rt($nm) VALUES('xyz'), ('xyz'), ('xyz');
"
do_execsql_test 1.$tn.2 {
DROP TABLE rt
}
}
#-------------------------------------------------------------------------
#-------------------------------------------------------------------------
# Section 5 of documentation.
#-------------------------------------------------------------------------
#-------------------------------------------------------------------------
set testprefix rtreedoc-10
# EVIDENCE-OF: R-21011-43790 If integer coordinates are desired, declare
# the table using "rtree_i32" instead: CREATE VIRTUAL TABLE intrtree
# USING rtree_i32(id,x0,x1,y0,y1,z0,z1);
do_execsql_test 1.0 {
CREATE VIRTUAL TABLE intrtree USING rtree_i32(id,x0,x1,y0,y1,z0,z1);
INSERT INTO intrtree DEFAULT VALUES;
SELECT typeof(x0) FROM intrtree;
} {integer}
# EVIDENCE-OF: R-09193-49806 An rtree_i32 stores coordinates as 32-bit
# signed integers.
#
# Show that coordinates are cast in a way consistent with casting to
# a signed 32-bit integer.
do_execsql_test 1.1 {
DELETE FROM intrtree;
INSERT INTO intrtree VALUES(333,
1<<44, (1<<44)+1,
10000000000, 10000000001,
-10000000001, -10000000000
);
SELECT * FROM intrtree;
} {
333 0 1 1410065408 1410065409 -1410065409 -1410065408
}
#-------------------------------------------------------------------------
#-------------------------------------------------------------------------
# Section 7.1 of documentation.
#-------------------------------------------------------------------------
#-------------------------------------------------------------------------
set testprefix rtreedoc-11
reset_db
# This command assumes that the argument is a node blob for a 2 dimensional
# i32 r-tree table. It decodes and returns a list of cells from the node
# as a list. Each cell is itself a list of the following form:
#
# {$rowid $minX $maxX $minY $maxY}
#
# For internal (non-leaf) nodes, the rowid is replaced by the child node
# number.
#
proc rnode {aData} {
set nDim 2
set nData [string length $aData]
set nBytePerCell [expr (8 + 2*$nDim*4)]
binary scan [string range $aData 2 3] S nCell
set res [list]
for {set i 0} {$i < $nCell} {incr i} {
set iOff [expr $i*$nBytePerCell+4]
set cell [string range $aData $iOff [expr $iOff+$nBytePerCell-1]]
binary scan $cell WIIII rowid x1 x2 y1 y2
lappend res [list $rowid $x1 $x2 $y1 $y2]
}
return $res
}
# aData must be a node blob. This command returns true if the node contains
# rowid $rowid, or false otherwise.
#
proc rnode_contains {aData rowid} {
set L [rnode $aData]
foreach cell $L {
set r [lindex $cell 0]
if {$r==$rowid} { return 1 }
}
return 0
}
db function rnode rnode
db function rnode_contains rnode_contains
foreach {tn nm} {
1 x1
2 asdfghjkl
3 hello_world
} {
do_execsql_test 1.$tn.1 "
CREATE VIRTUAL TABLE $nm USING rtree(a,b,c,d,e);
"
# EVIDENCE-OF: R-37699-54000 This is their schema: CREATE TABLE
# %_node(nodeno INTEGER PRIMARY KEY, data BLOB) CREATE TABLE
# %_parent(nodeno INTEGER PRIMARY KEY, parentnode INTEGER) CREATE TABLE
# %_rowid(rowid INTEGER PRIMARY KEY, nodeno INTEGER)
#
# EVIDENCE-OF: R-07489-10051 The "%" in the name of each shadow table is
# replaced by the name of the R*Tree virtual table. So, if the name of
# the R*Tree table is "xyz" then the three shadow tables would be
# "xyz_node", "xyz_parent", and "xyz_rowid".
do_execsql_test 1.$tn.2 {
SELECT sql FROM sqlite_schema WHERE name!=$nm ORDER BY 1
} [string map [list % $nm] "
{CREATE TABLE \"%_node\"(nodeno INTEGER PRIMARY KEY,data)}
{CREATE TABLE \"%_parent\"(nodeno INTEGER PRIMARY KEY,parentnode)}
{CREATE TABLE \"%_rowid\"(rowid INTEGER PRIMARY KEY,nodeno)}
"]
do_execsql_test 1.$tn "DROP TABLE $nm"
}
# EVIDENCE-OF: R-51070-59303 There is one entry in the %_node table for
# each R*Tree node.
#
# The following creates a 6 node r-tree structure.
#
do_execsql_test 2.0 {
CREATE VIRTUAL TABLE r1 USING rtree_i32(i, x1,x2, y1,y2);
WITH t(i) AS (
VALUES(1) UNION SELECT i+1 FROM t WHERE i<110
)
INSERT INTO r1 SELECT i, (i%10), (i%10)+2, (i%6), (i%7)+6 FROM t;
}
do_execsql_test 2.1 {
SELECT count(*) FROM r1_node;
} 6
do_execsql_test 2.2 { SELECT nodeno, rnode(data) FROM r1_node WHERE nodeno=1 } 6
# EVIDENCE-OF: R-27261-09153 All nodes other than the root have an entry
# in the %_parent shadow table that identifies the parent node.
#
# In this case nodes 2-6 are the children of node 1.
#
do_execsql_test 2.3 {
SELECT nodeno, parentnode FROM r1_parent
} {2 1 3 1 4 1 5 1 6 1}
# EVIDENCE-OF: R-02358-35037 The %_rowid shadow table maps entry rowids
# to the node that contains that entry.
#
do_execsql_test 2.4 {
SELECT 'failed' FROM r1_rowid WHERE 0==rnode_contains(
(SELECT data FROM r1_node WHERE nodeno=r1_rowid.nodeno), rowid
)
}
do_test 2.5 {
db eval { SELECT nodeno, data FROM r1_node WHERE nodeno!=1 } {
set L [rnode $data]
foreach cell $L {
set rowid [lindex $cell 0]
set rowid_nodeno 0
db eval {SELECT nodeno AS rowid_nodeno FROM r1_rowid WHERE rowid=$rowid} {
break
}
if {$rowid_nodeno!=$nodeno} { error "data mismatch!" }
}
}
} {}
# EVIDENCE-OF: R-65201-22208 Extra columns appended to the %_rowid table
# hold the content of auxiliary columns.
#
# EVIDENCE-OF: R-44161-28345 The names of these extra %_rowid columns
# are probably not the same as the actual auxiliary column names.
#
# In this case, the auxiliary columns are named "e1" and "e2". The
# extra %_rowid columns are named "a0" and "a1".
#
do_execsql_test 3.0 {
CREATE VIRTUAL TABLE rtaux USING rtree(id, x1,x2, y1,y2, +e1, +e2);
SELECT sql FROM sqlite_schema WHERE name='rtaux_rowid';
} {
{CREATE TABLE "rtaux_rowid"(rowid INTEGER PRIMARY KEY,nodeno,a0,a1)}
}
do_execsql_test 3.1 {
INSERT INTO rtaux(e1, e2) VALUES('hello', 'world'), (123, 456);
}
do_execsql_test 3.2 {
SELECT a0, a1 FROM rtaux_rowid;
} {
hello world 123 456
}
finish_test