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(Created page with "The '''TIMER''' function returns the number of seconds past the previous midnite down to an accuracy of 1/18th of a second. == QB Syntax == ::: seconds! = TIMER == QB64 Syntax == ::: seconds# = TIMER[(''accuracy!'')] * TIMER return values range from 0 at midnight to 86399! A comparison value must stay within that range! * INTEGER or LONG second values range from 0 at midnight to 86399 seconds each day. * Qbasic can return SINGLE values down to about .04...") |
TheSnowDog (talk | contribs) m (QBasic capitalisation) Tag: visualeditor |
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* TIMER return values range from 0 at midnight to 86399! A comparison value must stay within that range! | * TIMER return values range from 0 at midnight to 86399! A comparison value must stay within that range! | ||
* [[INTEGER]] or [[LONG]] second values range from 0 at midnight to 86399 seconds each day. | * [[INTEGER]] or [[LONG]] second values range from 0 at midnight to 86399 seconds each day. | ||
* | * QBasic can return [[SINGLE]] values down to about .04 or 1/18th (one tick) of a second accurately. | ||
* '''QB64''' can read [[DOUBLE]] ''accuracy'' down to 1 millisecond. Example: {{text|start# <nowiki>=</nowiki> TIMER(.001)|green}} | * '''QB64''' can read [[DOUBLE]] ''accuracy'' down to 1 millisecond. Example: {{text|start# <nowiki>=</nowiki> TIMER(.001)|green}} | ||
* Use [[DOUBLE]] variables for millisecond accuracy as [[SINGLE]] values are only accurate to 100ths of a second later in the day! | * Use [[DOUBLE]] variables for millisecond accuracy as [[SINGLE]] values are only accurate to 100ths of a second later in the day! | ||
* TIMER loops should use a midnight adjustment to avoid non-ending loops in | * TIMER loops should use a midnight adjustment to avoid non-ending loops in QBasic. | ||
* TIMER can also be used for timing program Events. See [[ON TIMER(n)]] or the [[TIMER (statement)]] | * TIMER can also be used for timing program Events. See [[ON TIMER(n)]] or the [[TIMER (statement)]] | ||
* '''QB64''' can use a [[_DELAY]] down to .001(one millisecond) or [[_LIMIT]] loops per second. Both help limit program CPU usage. | * '''QB64''' can use a [[_DELAY]] down to .001(one millisecond) or [[_LIMIT]] loops per second. Both help limit program CPU usage. |
Revision as of 09:58, 29 April 2022
The TIMER function returns the number of seconds past the previous midnite down to an accuracy of 1/18th of a second.
QB Syntax
- seconds! = TIMER
QB64 Syntax
- seconds# = TIMER[(accuracy!)]
- TIMER return values range from 0 at midnight to 86399! A comparison value must stay within that range!
- INTEGER or LONG second values range from 0 at midnight to 86399 seconds each day.
- QBasic can return SINGLE values down to about .04 or 1/18th (one tick) of a second accurately.
- QB64 can read DOUBLE accuracy down to 1 millisecond. Example: start# = TIMER(.001)
- Use DOUBLE variables for millisecond accuracy as SINGLE values are only accurate to 100ths of a second later in the day!
- TIMER loops should use a midnight adjustment to avoid non-ending loops in QBasic.
- TIMER can also be used for timing program Events. See ON TIMER(n) or the TIMER (statement)
- QB64 can use a _DELAY down to .001(one millisecond) or _LIMIT loops per second. Both help limit program CPU usage.
Example 1: Delay SUB with a midnight correction for when TIMER returns to 0. QB64 can use _DELAY for delays down to .001.
DO PRINT "Hello"; Delay .5 'accuracy down to .05 seconds or 1/18th of a second in Qbasic PRINT "World!"; LOOP UNTIL INKEY$ = CHR$(27) 'escape key exit END SUB Delay (dlay!) start! = TIMER DO WHILE start! + dlay! >= TIMER IF start! > TIMER THEN start! = start! - 86400 LOOP END SUB |
- Explanation: When the delay time is added to the present TIMER value, it could be over the maximum number of 86399 seconds. So when TIMER becomes less than start it has reached midnight. The delay value then must be corrected by subtracting 86400.
Example 2: Looping one TIMER tick of 1/18th of a second (ticks per second can be changed)
DEF SEG = 0 ' set to PEEK and POKE TIMER Ticks DO ' main program loop ' program code POKE 1132, 0 ' zero Timer ticks DO ' delay loop x% = PEEK(1132) IF x% <> px% THEN PRINT x%; px% = x% LOOP UNTIL x% >= 18 '18 ticks in one second PRINT "code " ' program code LOOP UNTIL INKEY$ = CHR$(27) DEF SEG ' reset segment to default END |
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 code 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 code 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 code |
- Explanation: The POKE before the delay loop sets the tick count to 0. The PEEK count increases until the tick count returns 18 ticks and ends the loop. The same thing could be approximated by using a delay loop with: second! = TIMER + 1
Example 3: Using a DOUBLE variable for TIMER(.001) millisecond accuracy in QB64 throughout the day.
ts! = TIMER(.001) 'single variable td# = TIMER(.001) 'double variable PRINT "Single ="; ts! PRINT "Double ="; td# |
Single = 77073.09 Double = 77073.094 |
- Explanation: SINGLE variables will cut off the millisecond accuracy returned so DOUBLE variables should be used. TIMER values will also exceed INTEGER limits. When displaying TIMER values, use LONG for seconds and DOUBLE for milliseconds.
See also:
- _DELAY, _LIMIT, SLEEP
- RANDOMIZE, Scancodes(example)
- ON TIMER(n), TIMER (statement)