; ; Stefan Haubenthal, 27.7.2009 ; ; time_t _systime (void); ; /* Similar to time(), but: ; ** - Is not ISO C ; ** - Does not take the additional pointer ; ** - Does not set errno when returning -1 ; */ ; .include "time.inc" .include "c128.inc" .include "get_tv.inc" .constructor initsystime .importzp tmp1, tmp2 .import _get_tv ;---------------------------------------------------------------------------- .code .proc __systime lda CIA1_TODHR bpl AM and #%01111111 sed clc adc #$12 cld AM: jsr BCD2dec sta TM + tm::tm_hour lda CIA1_TODMIN jsr BCD2dec sta TM + tm::tm_min lda CIA1_TODSEC jsr BCD2dec sta TM + tm::tm_sec lda CIA1_TOD10 ; Dummy read to unfreeze lda #TM jmp _mktime ; dec = (((BCD>>4)*10) + (BCD&0xf)) BCD2dec:tax and #%00001111 sta tmp1 txa and #%11110000 ; *16 lsr ; *8 sta tmp2 lsr lsr ; *2 adc tmp2 ; = *10 adc tmp1 rts .endproc ;---------------------------------------------------------------------------- ; Constructor that writes to the 1/10 sec register of the TOD to kick it ; into action. If this is not done, the clock hangs. We will read the register ; and write it again, ignoring a possible change in between. .segment "ONCE" .proc initsystime lda CIA1_TOD10 sta CIA1_TOD10 jsr _get_tv cmp #TV::PAL bne @60Hz lda CIA1_CRA ora #$80 sta CIA1_CRA @60Hz: rts .endproc ;---------------------------------------------------------------------------- ; TM struct with date set to 1970-01-01 .data TM: .word 0 ; tm_sec .word 0 ; tm_min .word 0 ; tm_hour .word 1 ; tm_mday .word 0 ; tm_mon .word 70 ; tm_year .word 0 ; tm_wday .word 0 ; tm_yday .word 0 ; tm_isdst