third_party/sqlite/src/test/randexpr1.tcl - cobalt - Git at Google

 # Run this TCL script to generate thousands of test cases containing
 # complicated expressions.
 #
 # The generated tests are intended to verify expression evaluation
 # in SQLite against expression evaluation TCL.
 #

 # Terms of the $intexpr list each contain two sub-terms.
 #
 #     *  An SQL expression template
 #     *  The equivalent TCL expression
 #
 # EXPR is replaced by an integer subexpression.  BOOL is replaced
 # by a boolean subexpression.
 #
 set intexpr {
   {11 wide(11)}
   {13 wide(13)}
   {17 wide(17)}
   {19 wide(19)}
   {a $a}
   {b $b}
   {c $c}
   {d $d}
   {e $e}
   {f $f}
   {t1.a $a}
   {t1.b $b}
   {t1.c $c}
   {t1.d $d}
   {t1.e $e}
   {t1.f $f}
   {(EXPR) (EXPR)}
   {{ -EXPR} {-EXPR}}
   {+EXPR +EXPR}
   {~EXPR ~EXPR}
   {EXPR+EXPR EXPR+EXPR}
   {EXPR-EXPR EXPR-EXPR}
   {EXPR*EXPR EXPR*EXPR}
   {EXPR+EXPR EXPR+EXPR}
   {EXPR-EXPR EXPR-EXPR}
   {EXPR*EXPR EXPR*EXPR}
   {EXPR+EXPR EXPR+EXPR}
   {EXPR-EXPR EXPR-EXPR}
   {EXPR*EXPR EXPR*EXPR}
   {{EXPR | EXPR} {EXPR | EXPR}}
   {(abs(EXPR)/abs(EXPR)) (abs(EXPR)/abs(EXPR))}
   {
     {case when BOOL then EXPR else EXPR end}
     {((BOOL)?EXPR:EXPR)}
   }
   {
     {case when BOOL then EXPR when BOOL then EXPR else EXPR end}
     {((BOOL)?EXPR:((BOOL)?EXPR:EXPR))}
   }
   {
     {case EXPR when EXPR then EXPR else EXPR end}
     {(((EXPR)==(EXPR))?EXPR:EXPR)}
   }
   {
     {(select AGG from t1)}
     {(AGG)}
   }
   {
     {coalesce((select max(EXPR) from t1 where BOOL),EXPR)}
     {[coalesce_subquery [expr {EXPR}] [expr {BOOL}] [expr {EXPR}]]}
   }
   {
     {coalesce((select EXPR from t1 where BOOL),EXPR)}
     {[coalesce_subquery [expr {EXPR}] [expr {BOOL}] [expr {EXPR}]]}
   }
 }

 # The $boolexpr list contains terms that show both an SQL boolean
 # expression and its equivalent TCL.
 #
 set boolexpr {
   {EXPR=EXPR   ((EXPR)==(EXPR))}
   {EXPR<EXPR   ((EXPR)<(EXPR))}
   {EXPR>EXPR   ((EXPR)>(EXPR))}
   {EXPR<=EXPR  ((EXPR)<=(EXPR))}
   {EXPR>=EXPR  ((EXPR)>=(EXPR))}
   {EXPR<>EXPR  ((EXPR)!=(EXPR))}
   {
     {EXPR between EXPR and EXPR}
     {[betweenop [expr {EXPR}] [expr {EXPR}] [expr {EXPR}]]}
   }
   {
     {EXPR not between EXPR and EXPR}
     {(![betweenop [expr {EXPR}] [expr {EXPR}] [expr {EXPR}]])}
   }
   {
     {EXPR in (EXPR,EXPR,EXPR)}
     {([inop [expr {EXPR}] [expr {EXPR}] [expr {EXPR}] [expr {EXPR}]])}
   }
   {
     {EXPR not in (EXPR,EXPR,EXPR)}
     {(![inop [expr {EXPR}] [expr {EXPR}] [expr {EXPR}] [expr {EXPR}]])}
   }
   {
     {EXPR in (select EXPR from t1 union select EXPR from t1)}
     {[inop [expr {EXPR}] [expr {EXPR}] [expr {EXPR}]]}
   }
   {
     {EXPR in (select AGG from t1 union select AGG from t1)}
     {[inop [expr {EXPR}] [expr {AGG}] [expr {AGG}]]}
   }
   {
     {exists(select 1 from t1 where BOOL)}
     {(BOOL)}
   }
   {
     {not exists(select 1 from t1 where BOOL)}
     {!(BOOL)}
   }
   {{not BOOL}  !BOOL}
   {{BOOL and BOOL} {BOOL tcland BOOL}}
   {{BOOL or BOOL}  {BOOL || BOOL}}
   {{BOOL and BOOL} {BOOL tcland BOOL}}
   {{BOOL or BOOL}  {BOOL || BOOL}}
   {(BOOL) (BOOL)}
   {(BOOL) (BOOL)}
 }

 # Aggregate expressions
 #
 set aggexpr {
   {count(*) wide(1)}
   {{count(distinct EXPR)} {[one {EXPR}]}}
   {{cast(avg(EXPR) AS integer)} (EXPR)}
   {min(EXPR) (EXPR)}
   {max(EXPR) (EXPR)}
   {(AGG) (AGG)}
   {{ -AGG} {-AGG}}
   {+AGG +AGG}
   {~AGG ~AGG}
   {abs(AGG)  abs(AGG)}
   {AGG+AGG   AGG+AGG}
   {AGG-AGG   AGG-AGG}
   {AGG*AGG   AGG*AGG}
   {{AGG | AGG}  {AGG | AGG}}
   {
     {case AGG when AGG then AGG else AGG end}
     {(((AGG)==(AGG))?AGG:AGG)}
   }
 }

 # Convert a string containing EXPR, AGG, and BOOL into a string
 # that contains nothing but X, Y, and Z.
 #
 proc extract_vars {a} {
   regsub -all {EXPR} $a X a
   regsub -all {AGG} $a Y a
   regsub -all {BOOL} $a Z a
   regsub -all {[^XYZ]} $a {} a
   return $a
 }


 # Test all templates to make sure the number of EXPR, AGG, and BOOL
 # expressions match.
 #
 foreach term [concat $aggexpr $intexpr $boolexpr] {
   foreach {a b} $term break
   if {[extract_vars $a]!=[extract_vars $b]} {
     error "mismatch: $term"
   }
 }

 # Generate a random expression according to the templates given above.
 # If the argument is EXPR or omitted, then an integer expression is
 # generated.  If the argument is BOOL then a boolean expression is
 # produced.
 #
 proc generate_expr {{e EXPR}} {
   set tcle $e
   set ne [llength $::intexpr]
   set nb [llength $::boolexpr]
   set na [llength $::aggexpr]
   set div 2
   set mx 50
   set i 0
   while {1} {
     set cnt 0
     set re [lindex $::intexpr [expr {int(rand()*$ne)}]]
     incr cnt [regsub {EXPR} $e [lindex $re 0] e]
     regsub {EXPR} $tcle [lindex $re 1] tcle
     set rb [lindex $::boolexpr [expr {int(rand()*$nb)}]]
     incr cnt [regsub {BOOL} $e [lindex $rb 0] e]
     regsub {BOOL} $tcle [lindex $rb 1] tcle
     set ra [lindex $::aggexpr [expr {int(rand()*$na)}]]
     incr cnt [regsub {AGG} $e [lindex $ra 0] e]
     regsub {AGG} $tcle [lindex $ra 1] tcle

     if {$cnt==0} break
     incr i $cnt

     set v1 [extract_vars $e]
     if {$v1!=[extract_vars $tcle]} {
       exit
     }

     if {$i+[string length $v1]>=$mx} {
       set ne [expr {$ne/$div}]
       set nb [expr {$nb/$div}]
       set na [expr {$na/$div}]
       set div 1
       set mx [expr {$mx*1000}]
     }
   }
   regsub -all { tcland } $tcle { \&\& } tcle
   return [list $e $tcle]
 }

 # Implementation of routines used to implement the IN and BETWEEN
 # operators.
 proc inop {lhs args} {
   foreach a $args {
     if {$a==$lhs} {return 1}
   }
   return 0
 }
 proc betweenop {lhs first second} {
   return [expr {$lhs>=$first && $lhs<=$second}]
 }
 proc coalesce_subquery {a b e} {
   if {$b} {
     return $a
   } else {
     return $e
   }
 }
 proc one {args} {
   return 1
 }

 # Begin generating the test script:
 #
 puts {# 2008 December 16
 #
 # The author disclaims copyright to this source code.  In place of
 # a legal notice, here is a blessing:
 #
 #    May you do good and not evil.
 #    May you find forgiveness for yourself and forgive others.
 #    May you share freely, never taking more than you give.
 #
 #***********************************************************************
 # This file implements regression tests for SQLite library.
 #
 # This file tests randomly generated SQL expressions.  The expressions
 # are generated by a TCL script.  The same TCL script also computes the
 # correct value of the expression.  So, from one point of view, this
 # file verifies the expression evaluation logic of SQLite against the
 # expression evaluation logic of TCL.
 #
 # An early version of this script is how bug #3541 was detected.
 #
 # $Id: randexpr1.tcl,v 1.1 2008/12/15 16:33:30 drh Exp $
 set testdir [file dirname $argv0]
 source $testdir/tester.tcl

 # Create test data
 #
 do_test randexpr1-1.1 {
   db eval {
     CREATE TABLE t1(a,b,c,d,e,f);
     INSERT INTO t1 VALUES(100,200,300,400,500,600);
     SELECT * FROM t1
   }
 } {100 200 300 400 500 600}
 }

 # Test data for TCL evaluation.
 #
 set a [expr {wide(100)}]
 set b [expr {wide(200)}]
 set c [expr {wide(300)}]
 set d [expr {wide(400)}]
 set e [expr {wide(500)}]
 set f [expr {wide(600)}]

 # A procedure to generate a test case.
 #
 set tn 0
 proc make_test_case {sql result} {
   global tn
   incr tn
   puts "do_test randexpr-2.$tn {\n  db eval {$sql}\n} {$result}"
 }

 # Generate many random test cases.
 #
 expr srand(0)
 for {set i 0} {$i<1000} {incr i} {
   while {1} {
     foreach {sqle tcle} [generate_expr EXPR] break;
     if {[catch {expr $tcle} ans]} {
       #puts stderr [list $tcle]
       #puts stderr ans=$ans
       if {![regexp {divide by zero} $ans]} exit
       continue
     }
     set len [string length $sqle]
     if {$len<100 || $len>2000} continue
     if {[info exists seen($sqle)]} continue
     set seen($sqle) 1
     break
   }
   while {1} {
     foreach {sqlb tclb} [generate_expr BOOL] break;
     if {[catch {expr $tclb} bans]} {
       #puts stderr [list $tclb]
       #puts stderr bans=$bans
       if {![regexp {divide by zero} $bans]} exit
       continue
     }
     break
   }
   if {$bans} {
     make_test_case "SELECT $sqle FROM t1 WHERE $sqlb" $ans
     make_test_case "SELECT $sqle FROM t1 WHERE NOT ($sqlb)" {}
   } else {
     make_test_case "SELECT $sqle FROM t1 WHERE $sqlb" {}
     make_test_case "SELECT $sqle FROM t1 WHERE NOT ($sqlb)" $ans
   }
   if {[regexp { \| } $sqle]} {
     regsub -all { \| } $sqle { \& } sqle
     regsub -all { \| } $tcle { \& } tcle
     if {[catch {expr $tcle} ans]==0} {
       if {$bans} {
         make_test_case "SELECT $sqle FROM t1 WHERE $sqlb" $ans
       } else {
         make_test_case "SELECT $sqle FROM t1 WHERE NOT ($sqlb)" $ans
       }
     }
   }
 }

 # Terminate the test script
 #
 puts {finish_test}
	# Run this TCL script to generate thousands of test cases containing
	# complicated expressions.
	#
	# The generated tests are intended to verify expression evaluation
	# in SQLite against expression evaluation TCL.
	#

	# Terms of the $intexpr list each contain two sub-terms.
	#
	# * An SQL expression template
	# * The equivalent TCL expression
	#
	# EXPR is replaced by an integer subexpression. BOOL is replaced
	# by a boolean subexpression.
	#
	set intexpr {
	{11 wide(11)}
	{13 wide(13)}
	{17 wide(17)}
	{19 wide(19)}
	{a $a}
	{b $b}
	{c $c}
	{d $d}
	{e $e}
	{f $f}
	{t1.a $a}
	{t1.b $b}
	{t1.c $c}
	{t1.d $d}
	{t1.e $e}
	{t1.f $f}
	{(EXPR) (EXPR)}
	{{ -EXPR} {-EXPR}}
	{+EXPR +EXPR}
	{~EXPR ~EXPR}
	{EXPR+EXPR EXPR+EXPR}
	{EXPR-EXPR EXPR-EXPR}
	{EXPREXPR EXPREXPR}
	{EXPR+EXPR EXPR+EXPR}
	{EXPR-EXPR EXPR-EXPR}
	{EXPREXPR EXPREXPR}
	{EXPR+EXPR EXPR+EXPR}
	{EXPR-EXPR EXPR-EXPR}
	{EXPREXPR EXPREXPR}
	{{EXPR \| EXPR} {EXPR \| EXPR}}
	{(abs(EXPR)/abs(EXPR)) (abs(EXPR)/abs(EXPR))}
	{
	{case when BOOL then EXPR else EXPR end}
	{((BOOL)?EXPR:EXPR)}
	}
	{
	{case when BOOL then EXPR when BOOL then EXPR else EXPR end}
	{((BOOL)?EXPR:((BOOL)?EXPR:EXPR))}
	}
	{
	{case EXPR when EXPR then EXPR else EXPR end}
	{(((EXPR)==(EXPR))?EXPR:EXPR)}
	}
	{
	{(select AGG from t1)}
	{(AGG)}
	}
	{
	{coalesce((select max(EXPR) from t1 where BOOL),EXPR)}
	{[coalesce_subquery [expr {EXPR}] [expr {BOOL}] [expr {EXPR}]]}
	}
	{
	{coalesce((select EXPR from t1 where BOOL),EXPR)}
	{[coalesce_subquery [expr {EXPR}] [expr {BOOL}] [expr {EXPR}]]}
	}
	}

	# The $boolexpr list contains terms that show both an SQL boolean
	# expression and its equivalent TCL.
	#
	set boolexpr {
	{EXPR=EXPR ((EXPR)==(EXPR))}
	{EXPR<EXPR ((EXPR)<(EXPR))}
	{EXPR>EXPR ((EXPR)>(EXPR))}
	{EXPR<=EXPR ((EXPR)<=(EXPR))}
	{EXPR>=EXPR ((EXPR)>=(EXPR))}
	{EXPR<>EXPR ((EXPR)!=(EXPR))}
	{
	{EXPR between EXPR and EXPR}
	{[betweenop [expr {EXPR}] [expr {EXPR}] [expr {EXPR}]]}
	}
	{
	{EXPR not between EXPR and EXPR}
	{(![betweenop [expr {EXPR}] [expr {EXPR}] [expr {EXPR}]])}
	}
	{
	{EXPR in (EXPR,EXPR,EXPR)}
	{([inop [expr {EXPR}] [expr {EXPR}] [expr {EXPR}] [expr {EXPR}]])}
	}
	{
	{EXPR not in (EXPR,EXPR,EXPR)}
	{(![inop [expr {EXPR}] [expr {EXPR}] [expr {EXPR}] [expr {EXPR}]])}
	}
	{
	{EXPR in (select EXPR from t1 union select EXPR from t1)}
	{[inop [expr {EXPR}] [expr {EXPR}] [expr {EXPR}]]}
	}
	{
	{EXPR in (select AGG from t1 union select AGG from t1)}
	{[inop [expr {EXPR}] [expr {AGG}] [expr {AGG}]]}
	}
	{
	{exists(select 1 from t1 where BOOL)}
	{(BOOL)}
	}
	{
	{not exists(select 1 from t1 where BOOL)}
	{!(BOOL)}
	}
	{{not BOOL} !BOOL}
	{{BOOL and BOOL} {BOOL tcland BOOL}}
	{{BOOL or BOOL} {BOOL \|\| BOOL}}
	{{BOOL and BOOL} {BOOL tcland BOOL}}
	{{BOOL or BOOL} {BOOL \|\| BOOL}}
	{(BOOL) (BOOL)}
	{(BOOL) (BOOL)}
	}

	# Aggregate expressions
	#
	set aggexpr {
	{count(*) wide(1)}
	{{count(distinct EXPR)} {[one {EXPR}]}}
	{{cast(avg(EXPR) AS integer)} (EXPR)}
	{min(EXPR) (EXPR)}
	{max(EXPR) (EXPR)}
	{(AGG) (AGG)}
	{{ -AGG} {-AGG}}
	{+AGG +AGG}
	{~AGG ~AGG}
	{abs(AGG) abs(AGG)}
	{AGG+AGG AGG+AGG}
	{AGG-AGG AGG-AGG}
	{AGGAGG AGGAGG}
	{{AGG \| AGG} {AGG \| AGG}}
	{
	{case AGG when AGG then AGG else AGG end}
	{(((AGG)==(AGG))?AGG:AGG)}
	}
	}

	# Convert a string containing EXPR, AGG, and BOOL into a string
	# that contains nothing but X, Y, and Z.
	#
	proc extract_vars {a} {
	regsub -all {EXPR} $a X a
	regsub -all {AGG} $a Y a
	regsub -all {BOOL} $a Z a
	regsub -all {[^XYZ]} $a {} a
	return $a
	}


	# Test all templates to make sure the number of EXPR, AGG, and BOOL
	# expressions match.
	#
	foreach term [concat $aggexpr $intexpr $boolexpr] {
	foreach {a b} $term break
	if {[extract_vars $a]!=[extract_vars $b]} {
	error "mismatch: $term"
	}
	}

	# Generate a random expression according to the templates given above.
	# If the argument is EXPR or omitted, then an integer expression is
	# generated. If the argument is BOOL then a boolean expression is
	# produced.
	#
	proc generate_expr {{e EXPR}} {
	set tcle $e
	set ne [llength $::intexpr]
	set nb [llength $::boolexpr]
	set na [llength $::aggexpr]
	set div 2
	set mx 50
	set i 0
	while {1} {
	set cnt 0
	set re [lindex $::intexpr [expr {int(rand()*$ne)}]]
	incr cnt [regsub {EXPR} $e [lindex $re 0] e]
	regsub {EXPR} $tcle [lindex $re 1] tcle
	set rb [lindex $::boolexpr [expr {int(rand()*$nb)}]]
	incr cnt [regsub {BOOL} $e [lindex $rb 0] e]
	regsub {BOOL} $tcle [lindex $rb 1] tcle
	set ra [lindex $::aggexpr [expr {int(rand()*$na)}]]
	incr cnt [regsub {AGG} $e [lindex $ra 0] e]
	regsub {AGG} $tcle [lindex $ra 1] tcle

	if {$cnt==0} break
	incr i $cnt

	set v1 [extract_vars $e]
	if {$v1!=[extract_vars $tcle]} {
	exit
	}

	if {$i+[string length $v1]>=$mx} {
	set ne [expr {$ne/$div}]
	set nb [expr {$nb/$div}]
	set na [expr {$na/$div}]
	set div 1
	set mx [expr {$mx*1000}]
	}
	}
	regsub -all { tcland } $tcle { \&\& } tcle
	return [list $e $tcle]
	}

	# Implementation of routines used to implement the IN and BETWEEN
	# operators.
	proc inop {lhs args} {
	foreach a $args {
	if {$a==$lhs} {return 1}
	}
	return 0
	}
	proc betweenop {lhs first second} {
	return [expr {$lhs>=$first && $lhs<=$second}]
	}
	proc coalesce_subquery {a b e} {
	if {$b} {
	return $a
	} else {
	return $e
	}
	}
	proc one {args} {
	return 1
	}

	# Begin generating the test script:
	#
	puts {# 2008 December 16
	#
	# The author disclaims copyright to this source code. In place of
	# a legal notice, here is a blessing:
	#
	# May you do good and not evil.
	# May you find forgiveness for yourself and forgive others.
	# May you share freely, never taking more than you give.
	#
	#***********************************************************************
	# This file implements regression tests for SQLite library.
	#
	# This file tests randomly generated SQL expressions. The expressions
	# are generated by a TCL script. The same TCL script also computes the
	# correct value of the expression. So, from one point of view, this
	# file verifies the expression evaluation logic of SQLite against the
	# expression evaluation logic of TCL.
	#
	# An early version of this script is how bug #3541 was detected.
	#
	# $Id: randexpr1.tcl,v 1.1 2008/12/15 16:33:30 drh Exp $
	set testdir [file dirname $argv0]
	source $testdir/tester.tcl

	# Create test data
	#
	do_test randexpr1-1.1 {
	db eval {
	CREATE TABLE t1(a,b,c,d,e,f);
	INSERT INTO t1 VALUES(100,200,300,400,500,600);
	SELECT * FROM t1
	}
	} {100 200 300 400 500 600}
	}

	# Test data for TCL evaluation.
	#
	set a [expr {wide(100)}]
	set b [expr {wide(200)}]
	set c [expr {wide(300)}]
	set d [expr {wide(400)}]
	set e [expr {wide(500)}]
	set f [expr {wide(600)}]

	# A procedure to generate a test case.
	#
	set tn 0
	proc make_test_case {sql result} {
	global tn
	incr tn
	puts "do_test randexpr-2.$tn {\n db eval {$sql}\n} {$result}"
	}

	# Generate many random test cases.
	#
	expr srand(0)
	for {set i 0} {$i<1000} {incr i} {
	while {1} {
	foreach {sqle tcle} [generate_expr EXPR] break;
	if {[catch {expr $tcle} ans]} {
	#puts stderr [list $tcle]
	#puts stderr ans=$ans
	if {![regexp {divide by zero} $ans]} exit
	continue
	}
	set len [string length $sqle]
	if {$len<100 \|\| $len>2000} continue
	if {[info exists seen($sqle)]} continue
	set seen($sqle) 1
	break
	}
	while {1} {
	foreach {sqlb tclb} [generate_expr BOOL] break;
	if {[catch {expr $tclb} bans]} {
	#puts stderr [list $tclb]
	#puts stderr bans=$bans
	if {![regexp {divide by zero} $bans]} exit
	continue
	}
	break
	}
	if {$bans} {
	make_test_case "SELECT $sqle FROM t1 WHERE $sqlb" $ans
	make_test_case "SELECT $sqle FROM t1 WHERE NOT ($sqlb)" {}
	} else {
	make_test_case "SELECT $sqle FROM t1 WHERE $sqlb" {}
	make_test_case "SELECT $sqle FROM t1 WHERE NOT ($sqlb)" $ans
	}
	if {[regexp { \\| } $sqle]} {
	regsub -all { \\| } $sqle { \& } sqle
	regsub -all { \\| } $tcle { \& } tcle
	if {[catch {expr $tcle} ans]==0} {
	if {$bans} {
	make_test_case "SELECT $sqle FROM t1 WHERE $sqlb" $ans
	} else {
	make_test_case "SELECT $sqle FROM t1 WHERE NOT ($sqlb)" $ans
	}
	}
	}
	}

	# Terminate the test script
	#
	puts {finish_test}