fivedev/harbour-core
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
eb214d1e4b7f5665ce46ba1e85594de5027af488
harbour-core/harbour/tests/speedtst.prg
Przemyslaw Czerpak 9e2ee8d66e 2008-12-24 00:04 UTC+0100 Przemyslaw Czerpak (druzus/at/priv.onet.pl) 
* harbour/source/common/expropt1.c
  * harbour/source/common/expropt2.c
    ! fixed wrongly modified expression during optimization for
      ( <numConst> / 0.0 )
    * cleaned bDec/bWidth updating in compile time optimizations

  * harbour/tests/speedtst.prg
    ! fixed possible race condition in initialization
    + added set workarea private for xHarbour builds - thanks to Phil

  * harbour/doc/cmpopt.txt
    * small cleanup

  * harbour/include/hbvmpub.h
  * harbour/source/vm/hvm.c
    % some optimizations mostly for MT mode or compilers which do
      not support function autoinline optimization
2008-12-23 23:02:06 +00:00

723 lines
19 KiB
Plaintext
Raw Blame History

/*
* $Id$
*/
/*
* Harbour Project source code:
* HVM speed test program
*
* Copyright 2008 Przemyslaw Czerpak <druzus / at / priv.onet.pl>
* www - http://www.harbour-project.org
*
*/
#define N_TESTS 54
#define N_LOOPS 1000000
#define ARR_LEN 16
#ifdef __XHARBOUR__
/* By default build xHarbour binaries without MT support
* xHarbour needs separated version for MT and ST mode
* because standard MT functions are not available in
* ST libraries.
*/
#ifndef __ST__
#ifndef __MT__
#ifndef MT
#ifndef HB_THREAD_SUPPORT
#define __ST__
#endif
#endif
#endif
#endif
#endif
#command ? => outstd(EOL)
#command ? <xx,...> => outstd(EOL);outstd(<xx>)
#include "common.ch"
#ifdef __HARBOUR__
#define EOL hb_OSNewLine()
#else
#define HB_SYMBOL_UNUSED( symbol ) ( ( symbol ) )
#ifndef __CLIP__
#xtranslate secondsCPU() => seconds()
#endif
#ifndef EOL
#define EOL chr(10)
#endif
#endif
#xcommand _( [<cmds,...>] ) => [<cmds>]
#xcommand TEST <testfunc> ;
[ WITH <locals,...> ] ;
[ INIT <init> ] ;
[ EXIT <exit> ] ;
[ INFO <info> ] ;
CODE [<*testExp*>] => ;
func <testfunc> ; ;
local time, i, x := nil ; ;
[ local <locals> ; ] ;
[ <init> ; ] ;
time := secondscpu() ; ;
for i:=1 to N_LOOPS ; ;
[<testExp>;] ;
next ; ;
time := secondscpu() - time ; ;
[ <exit> ; ] ;
return { procname() + ": " + iif( <.info.>, <(info)>, #<testExp> ), time }
proc main( ... )
local aParams, nMT, cExclude, lScale, cParam, cMemTests, lSyntax, i
aParams := hb_aparams()
lSyntax := lScale := .f.
cMemTests := "029 030 023 025 027 040 041 043 052 053 019 022 031 032 054 "
cExclude := ""
nMT := 0
for each cParam in aParams
cParam := lower( cParam )
if cParam = "--thread"
if substr( cParam, 9, 1 ) == "="
if isdigit( substr( cParam, 10, 1 ) )
nMT := val( substr( cParam, 10 ) )
elseif substr( cParam, 10 ) == "all"
nMT := -1
else
lSyntax = .t.
endif
elseif empty( substr( cParam, 9 ) )
nMT := -1
else
lSyntax = .t.
endif
elseif cParam = "--exclude="
if substr( cParam, 11 ) == "mem"
cExclude += cMemTests
else
cExclude += strtran( strtran( strtran( substr( cParam, 11 ), ;
".", " " ), ".", " " ), "/", " " ) + " "
endif
elseif cParam = "--only="
cExclude := ""
if substr( cParam, 8 ) == "mem"
cParam := cMemTests
endif
for i := 1 to N_TESTS
if !strzero( i, 3 ) $ cParam
cExclude += strzero( i, 3 ) + " "
endif
next
elseif cParam = "--scale"
lScale := .t.
else
lSyntax = .t.
endif
if lSyntax
? "Unknown option:", cParam
? "syntax:", hb_argv( 0 ), "[--thread[=<num>]] [--only=<test(s)>] [--exclude=<test(s)>]"
?
return
endif
next
test( nMT, cExclude, lScale )
return
#ifdef __XHARBOUR__
#xtranslate hb_mtvm() => hb_multiThread()
#xtranslate hb_threadWaitForAll() => WaitForThreads()
#xtranslate hb_mutexNotify(<x,...>) => Notify(<x>)
#ifndef __ST__
/* do not expect that this code will work with xHarbour.
* xHarbour has many race conditions which are exploited quite fast
* on real multi CPU machines so it crashes in different places :-(
* probably this code should be forwared to xHarbour developers as
* some type of MT test
*/
/* this define is only for test if emulation function works
* without running real test which causes that xHarbour crashes
*/
//#define _DUMY_XHB_TEST_
function hb_mutexSubscribe( mtx, nTimeOut, xSubscribed )
local lSubscribed
if valtype( nTimeOut ) == "N"
nTimeOut := round( nTimeOut * 1000, 0 )
xSubscribed := Subscribe( mtx, nTimeOut, @lSubscribed )
else
xSubscribed := Subscribe( mtx )
lSubscribed := .t.
endif
return lSubscribed
/* in xHarbour there is race condition in JoinThread() which
* fails if thread end before we call it so we cannot use it :-(
* this code tries to simulate it and also add support for thread
* return value
*/
function hb_threadStart( ... )
local thId
thId := StartThread( @threadFirstFunc(), hb_aParams() )
/* Just like in JoinThread() the same race condition exists in
* GetThreadId() so we will use HVM thread numbers internally
*/
#ifdef _DUMY_XHB_TEST_
return val( substr( hb_aParams()[1], 2 ) )
#else
return GetThreadId( thId )
#endif
function hb_threadJoin( thId, xResult )
xResult := results( thId )
return .t.
static function threadFirstFunc( aParams )
local xResult
#ifdef _DUMY_XHB_TEST_
xResult := { "skipped test " + aParams[1], val( substr( aParams[1], 2 ) ) + 0.99 }
results( val( substr( aParams[1], 2 ) ), xResult )
#else
xResult := hb_execFromArray( aParams )
results( GetThreadId(), xResult )
#endif
return nil
static function results( nThread, xResult )
static s_aResults
static s_mutex
if s_aResults == nil
s_aResults := HSetAutoAdd( hash(), .t. )
s_mutex := hb_mutexCreate()
endif
if pcount() < 2
while ! nThread $ s_aResults
Subscribe( s_mutex, 1000 )
enddo
xResult := s_aResults[ nThread ]
else
s_aResults[ nThread ] := xResult
/* We cannot use NotifyAll() here because it will create
* race condition. In this program only one thread join
* results so we can use simple Notify() as workaround
*/
//NotifyAll( s_mutex )
Notify( s_mutex )
endif
return xResult
#else
function hb_threadStart()
return nil
function hb_threadJoin()
return nil
function hb_mutexCreate()
return nil
function hb_mutexSubscribe()
return nil
function hb_mutexLock()
return nil
function hb_mutexUnlock()
return nil
function notify()
return nil
function waitForThreads()
return nil
#endif
/* initialize mutex in hb_trheadDoOnce() */
init proc once_init()
set workarea private
hb_threadOnce()
/* initialize error object to reduce possible crashes when two
* threads will try to create new error class simultaneously
* xHarbour does not have any protection against such situation
*/
errorNew()
return
function hb_threadOnce( xOnceControl, bAction )
static s_mutex
local lFirstCall := .f.
if s_mutex == NIL
s_mutex := hb_mutexCreate()
endif
if xOnceControl == NIL
hb_mutexLock( s_mutex )
if xOnceControl == NIL
if bAction != NIL
eval( bAction )
endif
xOnceControl := .t.
lFirstCall := .t.
endif
hb_mutexUnlock( s_mutex )
endif
return lFirstCall
#endif
TEST t000 INFO "empty loop overhead" CODE
TEST t001 WITH L_C:=dtos(date()) CODE x := L_C
TEST t002 WITH L_N:=112345.67 CODE x := L_N
TEST t003 WITH L_D:=date() CODE x := L_D
TEST t004 INIT _( static s_once, S_C ) ;
INIT hb_threadOnce( @s_once, {|| S_C := dtos( date() ) } ) ;
CODE x := S_C
TEST t005 INIT _( static s_once, S_N ) ;
INIT hb_threadOnce( @s_once, {|| S_N := 112345.67 } ) ;
CODE x := S_N
TEST t006 INIT _( static s_once, S_D ) ;
INIT hb_threadOnce( @s_once, {|| S_D := date() } ) ;
CODE x := S_D
TEST t007 INIT _( memvar M_C ) INIT _( private M_C := dtos( date() ) ) ;
CODE x := M_C
TEST t008 INIT _( memvar M_N ) INIT _( private M_N := 112345.67 ) ;
CODE x := M_N
TEST t009 INIT _( memvar M_D ) INIT _( private M_D := date() ) ;
CODE x := M_D
TEST t010 INIT _( memvar P_C ) ;
INIT _( static s_once ) ;
INIT _( public P_C ) ;
INIT hb_threadOnce( @s_once, {|| P_C := dtos( date() ) } ) ;
CODE x := P_C
TEST t011 INIT _( memvar P_N ) ;
INIT _( static s_once ) ;
INIT _( public P_N ) ;
INIT hb_threadOnce( @s_once, {|| P_N := 112345.67 } ) ;
CODE x := P_N
TEST t012 INIT _( memvar P_D ) ;
INIT _( static s_once ) ;
INIT _( public P_D ) ;
INIT hb_threadOnce( @s_once, {|| P_D := date() } ) ;
CODE x := P_D
TEST t013 INIT _( field F_C ) INIT use_dbsh() EXIT close_db() ;
CODE x := F_C
TEST t014 INIT _( field F_N ) INIT use_dbsh() EXIT close_db() ;
CODE x := F_N
TEST t015 INIT _( field F_D ) INIT use_dbsh() EXIT close_db() ;
CODE x := F_D
TEST t016 WITH o := errorNew() CODE x := o:GenCode
TEST t017 WITH o := errorNew() CODE x := o[8]
TEST t018 CODE round( i / 1000, 2 )
TEST t019 CODE str( i / 1000 )
TEST t020 WITH s := stuff( dtos( date() ), 7, 0, "." ) CODE val( s )
TEST t021 WITH a := afill( array( ARR_LEN ), ;
stuff( dtos( date() ), 7, 0, "." ) ) ;
CODE val( a [ i % ARR_LEN + 1 ] )
TEST t022 WITH d := date() CODE dtos( d - i % 10000 )
TEST t023 CODE eval( { || i % ARR_LEN } )
TEST t024 WITH bc := { || i % ARR_LEN } ;
INFO eval( bc := { || i % ARR_LEN } ) ;
CODE eval( bc )
TEST t025 CODE eval( { |x| x % ARR_LEN }, i )
TEST t026 WITH bc := { |x| x % ARR_LEN } ;
INFO eval( bc := { |x| x % ARR_LEN }, i ) ;
CODE eval( bc, i )
TEST t027 CODE eval( { |x| f1( x ) }, i )
TEST t028 WITH bc := { |x| f1( x ) } ;
INFO eval( bc := { |x| f1( x ) }, i ) ;
CODE eval( bc, i )
TEST t029 CODE x := &( "f1(" + str(i) + ")" )
TEST t030 WITH bc CODE bc := &( "{|x|f1(x)}" ); eval( bc, i )
TEST t031 CODE x := valtype( x ) + valtype( i )
TEST t032 WITH a := afill( array( ARR_LEN ), ;
stuff( dtos( date() ), 7, 0, "." ) ) ;
CODE x := strzero( i % 100, 2 ) $ a[ i % ARR_LEN + 1 ]
TEST t033 WITH a := array( ARR_LEN ), s := dtos( date() ) ;
INIT aeval( a, { |x,i| a[i] := left( s + s, i ), x } ) ;
CODE x := a[ i % ARR_LEN + 1 ] == s
TEST t034 WITH a := array( ARR_LEN ), s := dtos( date() ) ;
INIT aeval( a, { |x,i| a[i] := left( s + s, i ), x } ) ;
CODE x := a[ i % ARR_LEN + 1 ] = s
TEST t035 WITH a := array( ARR_LEN ), s := dtos( date() ) ;
INIT aeval( a, { |x,i| a[i] := left( s + s, i ), x } ) ;
CODE x := a[ i % ARR_LEN + 1 ] >= s
TEST t036 WITH a := array( ARR_LEN ), s := dtos( date() ) ;
INIT aeval( a, { |x,i| a[i] := left( s + s, i ), x } ) ;
CODE x := a[ i % ARR_LEN + 1 ] <= s
TEST t037 WITH a := array( ARR_LEN ), s := dtos( date() ) ;
INIT aeval( a, { |x,i| a[i] := left( s + s, i ), x } ) ;
CODE x := a[ i % ARR_LEN + 1 ] < s
TEST t038 WITH a := array( ARR_LEN ), s := dtos( date() ) ;
INIT aeval( a, { |x,i| a[i] := left( s + s, i ), x } ) ;
CODE x := a[ i % ARR_LEN + 1 ] > s
TEST t039 WITH a := array( ARR_LEN ) ;
INIT aeval( a, { |x,i| a[i] := i, x } ) ;
CODE ascan( a, i % ARR_LEN )
TEST t040 WITH a := array( ARR_LEN ) ;
INIT aeval( a, { |x,i| a[i] := i, x } ) ;
CODE ascan( a, { |x| x == i % ARR_LEN } )
TEST t041 WITH a := {}, a2 := { 1, 2, 3 }, bc := { |x| f1(x) }, ;
s := dtos( date() ), s2 := "static text" ;
CODE if i%1000==0;a:={};end; aadd(a,{i,1,.t.,s,s2,a2,bc})
TEST t042 WITH a := {} CODE x := a
TEST t043 CODE x := {}
TEST t044 CODE f0()
TEST t045 CODE f1( i )
TEST t046 WITH c := dtos( date() ) ;
INFO f2( c[1...8] ) ;
CODE f2( c )
TEST t047 WITH c := repl( dtos( date() ), 5000 ) ;
INFO f2( c[1...40000] ) ;
CODE f2( c )
TEST t048 WITH c := repl( dtos( date() ), 5000 ) ;
INFO f2( @c[1...40000] ) ;
CODE f2( c )
TEST t049 WITH c := repl( dtos( date() ),5000 ), c2 ;
INFO "f2( @c[1...40000] ), c2 := c" ;
CODE f2( @c ); c2 := c
TEST t050 WITH a := {}, a2 := { 1, 2, 3 }, bc := { |x| f1(x) }, ;
s := dtos( date() ), s2 := "static text", n := 1.23 ;
CODE f3( a, a2, s, i, s2, bc, i, n, x )
TEST t051 WITH a := { 1, 2, 3 } CODE f2( a )
TEST t052 CODE x := f4()
TEST t053 CODE x := f5()
TEST t054 WITH c := dtos( date() ) CODE f_prv( c )
function thTest( mtxJobs, aResults )
local xJob
while .T.
hb_mutexSubscribe( mtxJobs,, @xJob )
if xJob == NIL
exit
endif
aResults[ xJob ] := &( "t" + strzero( xJob, 3 ) )()
enddo
return nil
function thTestScale( mtxJobs, mtxResults )
local xJob
while .T.
hb_mutexSubscribe( mtxJobs,, @xJob )
if xJob == NIL
exit
endif
hb_mutexNotify( mtxResults, &( "t" + strzero( xJob, 3 ) )() )
enddo
return nil
proc test( nMT, cExclude, lScale )
local nLoopOverHead, nTimes, nSeconds, cNum, aThreads, aResults, ;
mtxJobs, mtxResults, nTimeST, nTimeMT, nTimeTotST, nTimeTotMT, ;
cTest, x, i, j
create_db()
#ifdef __HARBOUR__
#include "hbmemory.ch"
if MEMORY( HB_MEM_USEDMAX ) != 0
? "Warning !!! Memory statistic enabled."
?
endif
#endif
//? "Startup loop to increase CPU clock..."
//x := seconds() + 5; while x > seconds(); enddo
#ifdef __HARBOUR__
if !hb_mtvm()
if lScale
? "scale test available only in MULTI THREAD mode"
?
return
endif
if nMT != 0
? "SINGLE THREAD mode, number of threads set to 0"
nMT := 0
endif
endif
? date(), time(), os()
? version() + iif( hb_mtvm(), " (MT)" + iif( nMT != 0, "+", "" ), "" ), ;
hb_compiler()
#else
? date(), time(), os()
? version()
#endif
if lScale .and. nMT < 1
nMT := 1
endif
? "THREADS:", iif( nMT < 0, "all->" + ltrim( str( N_TESTS ) ), ltrim( str( nMT ) ) )
? "N_LOOPS:", ltrim( str( N_LOOPS ) )
if !empty( cExclude )
? "excluded tests:", cExclude
endif
x :=t000()
nLoopOverHead := x[2]
if lScale
? space(56) + "1 th." + str(nMT,3) + " th. factor"
? replicate("=",76)
else
? dsp_result( x, 0 )
? replicate("=",68)
endif
nSeconds := seconds()
nTimes := secondsCPU()
#ifdef __HARBOUR__
if lScale
mtxJobs := hb_mutexCreate()
mtxResults := hb_mutexCreate()
nTimeTotST := nTimeTotMT := 0
for i:=1 to nMT
hb_threadStart( "thTestScale", mtxJobs, mtxResults )
next
for i:=1 to N_TESTS
cTest := strzero( i, 3 )
if !cTest $ cExclude
/* linear execution */
nTimeST := seconds()
for j:=1 to nMT
hb_mutexNotify( mtxJobs, i )
hb_mutexSubscribe( mtxResults,, @x )
cTest := x[1]
next
nTimeST := seconds() - nTimeST
nTimeTotST += nTimeST
/* simultaneous execution */
nTimeMT := seconds()
for j:=1 to nMT
hb_mutexNotify( mtxJobs, i )
next
for j:=1 to nMT
hb_mutexSubscribe( mtxResults,, @x )
cTest := x[1]
next
nTimeMT := seconds() - nTimeMT
nTimeTotMT += nTimeMT
? dsp_scaleResult( cTest, nTimeST, nTimeMT, nMT, nLoopOverHead )
endif
next
for i:=1 to nMT
hb_mutexNotify( mtxJobs, NIL )
next
hb_threadWaitForAll()
elseif nMT < 0
aThreads := array( N_TESTS )
for i:=1 to N_TESTS
cNum := strzero( i, 3 )
if !cNum $ cExclude
aThreads[ i ] := hb_threadStart( "t" + cNum )
endif
next
for i:=1 to N_TESTS
if aThreads[ i ] != NIL .and. hb_threadJoin( aThreads[ i ], @x )
? dsp_result( x, nLoopOverHead )
endif
next
elseif nMT > 0
aResults := array( N_TESTS )
mtxJobs := hb_mutexCreate()
for i:=1 to nMT
hb_threadStart( "thTest", mtxJobs, aResults )
next
for i:=1 to N_TESTS
if !strzero( i, 3 ) $ cExclude
hb_mutexNotify( mtxJobs, i )
endif
next
for i:=1 to nMT
hb_mutexNotify( mtxJobs, NIL )
next
hb_threadWaitForAll()
for i:=1 to N_TESTS
if aResults[ i ] != NIL
? dsp_result( aResults[ i ], nLoopOverHead )
endif
next
mtxJobs := NIL
else
for i:=1 to N_TESTS
cNum := strzero( i, 3 )
if !cNum $ cExclude
? dsp_result( &( "t" + cNum )(), nLoopOverHead )
endif
next
endif
#else
for i:=1 to N_TESTS
cNum := strzero( i, 3 )
if !cNum $ cExclude
? dsp_result( &( "t" + cNum )(), nLoopOverHead )
endif
next
#endif
nTimes := secondsCPU() - nTimes
nSeconds := seconds() - nSeconds
if lScale
? replicate("=",76)
? dsp_scaleResult( " TOTAL ", nTimeTotST, nTimeTotMT, nMT, 0 )
? replicate("=",76)
else
? replicate("=",68)
endif
? dsp_result( { "total application time:", nTimes }, 0)
? dsp_result( { "total real time:", nSeconds }, 0 )
?
remove_db()
return
function f0()
return nil
function f1(x)
return x
function f2(x)
HB_SYMBOL_UNUSED( x )
return nil
function f3(a,b,c,d,e,f,g,h,i)
HB_SYMBOL_UNUSED( a )
HB_SYMBOL_UNUSED( b )
HB_SYMBOL_UNUSED( c )
HB_SYMBOL_UNUSED( d )
HB_SYMBOL_UNUSED( e )
HB_SYMBOL_UNUSED( f )
HB_SYMBOL_UNUSED( g )
HB_SYMBOL_UNUSED( h )
HB_SYMBOL_UNUSED( i )
return nil
function f4()
return space(4000)
function f5()
return space(5)
function f_prv(x)
memvar PRV_C
private PRV_C := x
return nil
/*
function f_pub(x)
memvar PUB_C
public PUB_C := x
return nil
function f_stat(x)
static STAT_C
STAT_C := x
return nil
*/
static func dsp_result( aResult, nLoopOverHead )
return padr( "[ " + left( aResult[1], 56 ) + " ]", 60, "." ) + ;
strtran( str( max( aResult[2] - nLoopOverHead, 0 ), 8, 2 ), " ", "." )
static func dsp_scaleResult( cTest, nTimeST, nTimeMT, nMT, nLoopOverHead )
if .f.
nTimeST := max( 0, nTimeST - nMT * nLoopOverHead )
nTimeMT := max( 0, nTimeMT - nMT * nLoopOverHead )
endif
return padr( "[ " + left( cTest, 50 ) + " ]", 54, "_" ) + ;
str( nTimeST, 6, 2 ) + " " + str( nTimeMT, 6, 2 ) + " ->" + ;
str( nTimeST / nTimeMT, 6, 2 )
#define TMP_FILE "_tst_tmp.dbf"
static proc create_db()
remove_db()
dbcreate( TMP_FILE, { {"F_C", "C", 10, 0},;
{"F_N", "N", 10, 2},;
{"F_D", "D", 8, 0} } )
use TMP_FILE exclusive
dbappend()
replace F_C with dtos(date())
replace F_N with 112345.67
replace F_D with date()
close
return
static proc remove_db()
ferase( TMP_FILE )
return
static proc close_db()
close
return
static proc use_dbsh()
use TMP_FILE shared
return
Reference in New Issue View Git Blame Copy Permalink