dda70fe38e
lines at the end of scripts. (CVS 6721) FossilOrigin-Name: 1fef16ec2b89981770cf44f606a420fbe031a7a4
167 lines
4.4 KiB
Plaintext
167 lines
4.4 KiB
Plaintext
# 2009 January 1
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#
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# The author disclaims copyright to this source code. In place of
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# a legal notice, here is a blessing:
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#
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# May you do good and not evil.
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# May you find forgiveness for yourself and forgive others.
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# May you share freely, never taking more than you give.
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#
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#*************************************************************************
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# This file implements regression tests for SQLite library. The
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# focus of this script is testing the FTS3 module syntax parser.
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#
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# $Id: fts3expr2.test,v 1.2 2009/06/05 17:09:12 drh Exp $
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#
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set testdir [file dirname $argv0]
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source $testdir/tester.tcl
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# If SQLITE_ENABLE_FTS3 is defined, omit this file.
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ifcapable !fts3 {
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finish_test
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return
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}
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# Test overview:
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#
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# The tests in this file are pseudo-randomly generated. They test
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# the fts3 match expression parser via the test interface
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# SQL function "fts3_exprtest" (see comments in fts3_expr.c).
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#
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# Each test case works as follows:
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#
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# 1. A random expression tree is generated using proc [random_expr_tree].
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# 2. The expression tree is converted to the text of an equivalent
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# fts3 expression using proc [tree_to_expr].
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# 3. The test SQL function "fts3_exprtest" is used to parse the
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# expression text generated in step (2), returning a parsed expression
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# tree.
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# 4. Test that the tree returned in step (3) matches that generated in
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# step (1).
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#
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# In step (2), 4 different fts3 expressions are created from each
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# expression tree by varying the following boolean properties:
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#
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# * Whether or not superflous parenthesis are included. i.e. if
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# "a OR b AND (c OR d)" or "a OR (b AND (c OR d))" is generated.
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#
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# * Whether or not explict AND operators are used. i.e. if
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# "a OR b AND c" or "a OR b c" is generated.
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#
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set sqlite_fts3_enable_parentheses 1
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proc strip_phrase_data {L} {
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if {[lindex $L 0] eq "PHRASE"} {
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return [list P [lrange $L 3 end]]
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}
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return [list \
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[lindex $L 0] \
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[strip_phrase_data [lindex $L 1]] \
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[strip_phrase_data [lindex $L 2]] \
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]
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}
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proc test_fts3expr2 {expr} {
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strip_phrase_data [
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db one {SELECT fts3_exprtest('simple', $expr, 'a', 'b', 'c')}
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]
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}
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proc rnd {nMax} { expr {int(rand()*$nMax)} }
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proc random_phrase {} {
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set phrases [list one two three four "one two" "three four"]
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list P [lindex $phrases [rnd [llength $phrases]]]
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}
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# Generate and return a pseudo-random expression tree. Using the same
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# format returned by the [test_fts3expr2] proc.
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#
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proc random_expr_tree {iHeight} {
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if {$iHeight==0 || [rnd 3]==0} {
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return [random_phrase]
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}
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set operators [list NEAR NOT AND OR]
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set op [lindex $operators [rnd 4]]
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if {$op eq "NEAR"} {
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set iDistance [rnd 15]
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return [list $op/$iDistance [random_phrase] [random_phrase]]
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}
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set iNH [expr {$iHeight - 1}]
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return [list $op [random_expr_tree $iNH] [random_expr_tree $iNH]]
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}
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# Given an expression tree, generate a corresponding expression.
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#
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proc tree_to_expr {tree all_brackets implicit_and} {
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set prec(NOT) 2
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set prec(AND) 3
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set prec() 3
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set prec(OR) 4
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set op [lindex $tree 0]
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if {$op eq "P"} {
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set phrase [lindex $tree 1]
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if {[llength $phrase]>1} {
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return "\"$phrase\""
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} else {
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return $phrase
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}
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}
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if {$op eq "NEAR/10"} {
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set op "NEAR"
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}
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if {$op eq "AND" && $implicit_and} {
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set op ""
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}
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set lhs [lindex $tree 1]
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set rhs [lindex $tree 2]
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set zLeft [tree_to_expr $lhs $all_brackets $implicit_and]
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set zRight [tree_to_expr $rhs $all_brackets $implicit_and]
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set iPrec 5
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set iLeftPrec 0
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set iRightPrec 0
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catch {set iPrec $prec($op)}
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catch {set iLeftPrec $prec([lindex $lhs 0])}
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catch {set iRightPrec $prec([lindex $rhs 0])}
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if {$iLeftPrec > $iPrec || $all_brackets} {
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set zLeft "($zLeft)"
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}
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if {$iRightPrec >= $iPrec || $all_brackets} {
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set zRight "($zRight)"
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}
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return "$zLeft $op $zRight"
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}
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proc do_exprparse_test {name expr tree} {
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uplevel do_test $name [list "test_fts3expr2 {$expr}"] [list $tree]
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}
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for {set iTest 1} {$iTest<500} {incr iTest} {
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set t [random_expr_tree 4]
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set e1 [tree_to_expr $t 0 0]
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set e2 [tree_to_expr $t 0 1]
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set e3 [tree_to_expr $t 1 0]
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set e4 [tree_to_expr $t 1 1]
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do_exprparse_test fts3expr2-$iTest.1 $e1 $t
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do_exprparse_test fts3expr2-$iTest.2 $e2 $t
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do_exprparse_test fts3expr2-$iTest.3 $e3 $t
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do_exprparse_test fts3expr2-$iTest.4 $e4 $t
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}
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set sqlite_fts3_enable_parentheses 0
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finish_test
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