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[/] [cpu6502_true_cycle/] [trunk/] [asm/] [6502_interrupt_test.a65] - Rev 25
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;; 6 5 0 2 I N T E R R U P T T E S T;; Copyright (C) 2013 Klaus Dormann;; This program is free software: you can redistribute it and/or modify; it under the terms of the GNU General Public License as published by; the Free Software Foundation, either version 3 of the License, or; (at your option) any later version.;; This program is distributed in the hope that it will be useful,; but WITHOUT ANY WARRANTY; without even the implied warranty of; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the; GNU General Public License for more details.;; You should have received a copy of the GNU General Public License; along with this program. If not, see <http://www.gnu.org/licenses/>.; This program is designed to test IRQ and NMI of a 6502 emulator. It requires; an internal or external feedback register to the IRQ & NMI inputs;; version 15-aug-2014; contact info at http://2m5.de or email K@2m5.de;; assembled with AS65 from http://www.kingswood-consulting.co.uk/assemblers/; command line switches: -l -m -s2 -w -h0; | | | | no page headers in listing; | | | wide listing (133 char/col); | | write intel hex file instead of binary; | expand macros in listing; generate pass2 listing;; No IO - should be run from a monitor with access to registers.; To run load intel hex image with a load command, than alter PC to 400 hex and; enter a go command.; Loop on program counter determines error or successful completion of test.; Check listing for relevant traps (jump/branch *).;; Debugging hints:; Most of the code is written sequentially. if you hit a trap, check the; immediately preceeding code for the instruction to be tested. Results are; tested first, flags are checked second by pushing them onto the stack and; pulling them to the accumulator after the result was checked. The "real"; flags are no longer valid for the tested instruction at this time!; If the tested instruction was indexed, the relevant index (X or Y) must; also be checked. Opposed to the flags, X and Y registers are still valid.;; versions:; 19-jul-2013 1st version distributed for testing; 16-aug-2013 added error report to standard output option; 15-aug-2014 added filter to feedback (bit 7 will cause diag stop in emu); C O N F I G U R A T I O N;;ROM_vectors MUST be writable & the I_flag MUST be alterable;load_data_direct (0=move from code segment, 1=load directly);loading directly is preferred but may not be supported by your platform;0 produces only consecutive object code, 1 is not suitable for a binary imageload_data_direct = 1;NMI & IRQ are tested with a feedback register;emulators diag register - set i_drive = 0 for a latch (74HC573)I_port = $bffc ;feedback port addressI_ddr = 0 ;feedback DDR address, 0 = no DDRI_drive = 1 ;0 = totem pole, 1 = open collectorIRQ_bit = 0 ;bit number of feedback to IRQNMI_bit = 1 ;bit number of feedback to NMI, -1 if not availableI_filter = $7f ;filtering bit 7 = diag stop;typical IO chip port B - set i_drive = 0 to avoid pullup resistors;I_port = $bfb2 ;feedback port address;I_ddr = $bfb3 ;feedback DDR address, 0 = no DDR;I_drive = 1 ;0 = totem pole, 1 = open collector;IRQ_bit = 0 ;bit number of feedback to IRQ;NMI_bit = 1 ;bit number of feedback to NMI, -1 if not available;I_filter = $ff ;no bits filtered;decimal mode flag during IRQ, NMI & BRK;D_clear = 0 ;0 = not cleared (NMOS), 1 = cleared (CMOS)D_clear = 1 ;0 = not cleared (NMOS), 1 = cleared (CMOS);configure memory - try to stay away from memory used by the system;zero_page memory start address, 6 consecutive Bytes requiredzero_page = $a;data_segment memory start address, 4 consecutive Bytes requireddata_segment = $200;code_segment memory start addresscode_segment = $400;report errors through I/O channel (0=use standard self trap loops, 1=include;report.i65 as I/O channel)report = 0noopt ;do not take shortcuts;macros for error & success traps to allow user modification;example:;trap macro; jsr my_error_handler; endm;trap_eq macro; bne skip\?; trap ;failed equal (zero);skip\?; endm;; my_error_handler should pop the calling address from the stack and report it.; putting larger portions of code (more than 3 bytes) inside the trap macro; may lead to branch range problems for some tests.if report = 0trap macrojmp * ;failed anywayendmtrap_eq macrobeq * ;failed equal (zero)endmtrap_ne macrobne * ;failed not equal (non zero)endm; please observe that during the test the stack gets invalidated; therefore a RTS inside the success macro is not possiblesuccess macrojmp * ;test passed, no errorsendmendifif report = 1trap macrojsr report_errorendmtrap_eq macrobne skip\?trap ;failed equal (zero)skip\?endmtrap_ne macrobeq skip\?trap ;failed not equal (non zero)skip\?endm; please observe that during the test the stack gets invalidated; therefore a RTS inside the success macro is not possiblesuccess macrojsr report_successendmendifcarry equ %00000001 ;flag bits in statuszero equ %00000010intdis equ %00000100decmode equ %00001000break equ %00010000reserv equ %00100000overfl equ %01000000minus equ %10000000fc equ carryfz equ zerofzc equ carry+zerofv equ overflfvz equ overfl+zerofn equ minusfnc equ minus+carryfnz equ minus+zerofnzc equ minus+zero+carryfnv equ minus+overflfao equ break+reserv ;bits always on after PHP, BRKfai equ fao+intdis ;+ forced interrupt disablem8 equ $ff ;8 bit maskm8i equ $ff&~intdis ;8 bit mask - interrupt disable;macros to set statuspush_stat macro ;setting flags in the processor status registerlda #\1pha ;use stack to load statusendmset_stat macro ;setting flags in the processor status registerlda #\1pha ;use stack to load statusplpendmif load_data_direct = 1dataelsebss ;uninitialized segment, copy of data at end of code!endiforg zero_page;BRK, IRQ, NMI test interrupt savezptirq_a ds 1 ;a registerirq_x ds 1 ;x registerirq_f ds 1 ;flagsnmi_a ds 1 ;a registernmi_x ds 1 ;x registernmi_f ds 1 ;flagszp_bss;fixed stack locationslst_f equ $1fe ;last flags before interruptlst_a equ $1ff ;last accumulator before interruptorg data_segment;concurrent NMI, IRQ & BRK test resultnmi_count ds 1 ;lowest number handled first, $ff = neverirq_count ds 1 ;separation-1 = instructions between interruptsbrk_count ds 1;expected interrupt maskI_src ds 1 ;bit: 0=BRK, 1=IRQ, 2=NMIdata_bsscodeorg code_segmentstart cldlda #0 ;clear expected interrupts for 2nd runsta I_srcldx #$fftxs;initialize I/O for report channelif report = 1jsr report_initendif; load system vectorsif load_data_direct != 1ldx #5ld_vect lda vec_init,xsta vec_bss,xdexbpl ld_vectendif; IRQ & NMI test - requires a feedback registerif I_drive > 1ERROR ;invalid interrupt drive!endifif NMI_bit < 0if I_drive = 0 ;totem pole (push/pull, 0 -> I_port to force interrupt)I_set macro ibit ;ibit = interrupt bitlda I_port ;turn on interrupt by bitand #I_filter-(1<<\1)plp ;set flagspha ;save to verifyphpsta I_port ;interrupt next instruction plus outbound delayendmI_clr macro ibit ;ibit = interrupt bitlda I_port ;turn off interrupt by bitand #I_filterora #(1<<ibit)sta I_portendmI_clr IRQ_bit ;turn off IRQif I_ddr != 0 ;with DDRlda I_ddr ;set DDR for IRQ to enabledand #I_filterora #(1<<IRQ_bit)sta I_ddrendifelse ;open collector, 0 -> I_DDR or I_port to force interruptif I_ddr != 0 ;with DDRI_set macro ibit ;ibit = interrupt bitlda I_ddr ;turn on interrupt by bitand #I_filterora #(1<<\1)plp ;set flagspha ;save to verifyphpsta I_ddr ;interrupt next instruction plus outbound delayendmI_clr macro ibit ;ibit = interrupt bitlda I_ddr ;turn off interrupt by bitand #I_filter-(1<<ibit)sta I_ddrendmI_clr IRQ_bit ;turn off IRQlda I_port ;precharge IRQand #I_filter-(1<<IRQ_bit)sta I_portelse ;no DDRI_set macro ibit ;ibit = interrupt bitlda I_port ;turn on interrupt by bitand #I_filterora #(1<<\1)plp ;set flagspha ;save to verifyphpsta I_port ;interrupt next instruction plus outbound delayendmI_clr macro ibit ;ibit = interrupt bitlda I_port ;turn off interrupt by bitand #I_filter-(1<<ibit)sta I_portendmI_clr IRQ_bit ;turn off IRQendifendifelseif I_drive = 0 ;totem pole (push/pull, 0 -> I_port to force interrupt)I_set macro ibit ;ibit = interrupt bitlda I_port ;turn on interrupt by bitif ibit > 7 ;set both NMI & IRQand #I_filter-(1<<IRQ_bit|1<<NMI_bit)elseand #I_filter-(1<<\1)endifplp ;set flagspha ;save to verifyphpsta I_port ;interrupt next instruction plus outbound delayendmI_clr macro ibit ;ibit = interrupt bitlda I_port ;turn off interrupt by bitand #I_filterora #(1<<ibit)sta I_portendmI_clr IRQ_bit ;turn off IRQ & NMII_clr NMI_bitif I_ddr != 0 ;with DDRlda I_ddr ;set DDR for IRQ & NMI to enabledand #I_filterora #(1<<IRQ_bit|1<<NMI_bit)sta I_ddrendifelse ;open collector, 0 -> I_DDR or I_port to force interruptif I_ddr != 0 ;with DDRI_set macro ibit ;ibit = interrupt bitlda I_ddr ;turn on interrupt by bitand #I_filterif ibit > 7 ;set both NMI & IRQora #(1<<IRQ_bit|1<<NMI_bit)elseora #(1<<\1)endifplp ;set flagspha ;save to verifyphpsta I_ddr ;interrupt next instruction plus outbound delayendmI_clr macro ibit ;ibit = interrupt bitlda I_ddr ;turn off interrupt by bitand #I_filter-(1<<ibit)sta I_ddrendmI_clr IRQ_bit ;turn off IRQ & NMII_clr NMI_bitlda I_port ;precharge IRQ & NMIand #I_filter-(1<<IRQ_bit|1<<NMI_bit)sta I_portelse ;no DDRI_set macro ibit ;ibit = interrupt bitlda I_port ;turn on interrupt by bitand #I_filterif ibit > 7 ;set both NMI & IRQora #(1<<IRQ_bit|1<<NMI_bit)elseora #(1<<\1)endifplp ;set flagspha ;save to verifyphpsta I_port ;interrupt next instruction plus outbound delayendmI_clr macro ibit ;ibit = interrupt bitlda I_port ;turn off interrupt by bitand #I_filter-(1<<ibit)sta I_portendmI_clr IRQ_bit ;turn off IRQ & NMII_clr NMI_bitendifendifendif; IRQ integrity test; test for clear flags seen in IRQ vectorlda #2 ;set expected interrupt source IRQsta I_srcpush_stat 0I_set IRQ_bitnop ;allow 6 cycles for interrupt to tripnopnoplda I_srctrap_ne ;IRQ timeouttsxcpx #$ff-2 ;original accu & flags remain on stacktrap_ne ;returned SPlda irq_f ;flags seen in IRQ vectorif D_clear = 1and #decmodetrap_ne ;D-flag not clearedlda irq_feor lst_f ;turn off unchanged bitsand #m8-fai-decmode ;mask untested other flagstrap_ne ;other flags (N,V,Z,C) changedelseeor lst_f ;turn off unchanged bitsand #m8-fai ;mask untested other flagstrap_ne ;other flags (N,V,Z,C,D) changedendifldx #$ff ;reset stack pointertxs; test all other registersldx #'I'ldy #'R'lda #2 ;set expected interrupt source IRQsta I_srcpush_stat 0I_set IRQ_bitdey ;Y count will fail, if instructions are skippeddeydeydeyphp ;check processor status latercpx #('I'+1) ;returned registers OK?trap_ne ;returned Xcpy #('R'-7)trap_ne ;returned Ycmp #'Q'trap_ne ;returned Atsxcpx #$ff-3trap_ne ;returned SPpla ;flagseor lst_fand #$ff-fnz ;ignore flags changed by deytrap_ne ;returned flagslda irq_a ;accu seen in IRQ vectorcmp lst_atrap_ne ;IRQ A receivedldx #$ff ;reset stack pointertxs; repeat with reversed registersldx #$ff-'I'ldy #$ff-'R'lda #2 ;set expected interrupt source IRQsta I_srcpush_stat $ff-intdisI_set IRQ_bitdey ;Y count will fail, if instructions are skippeddeydeydeyphp ;check processor status latercpx #($ff-'I'+1) ;returned registers OK?trap_ne ;returned Xcpy #($ff-'R'-7)trap_ne ;returned Ycmp #'Q'trap_ne ;returned Atsxcpx #$ff-3trap_ne ;returned SPpla ;flagseor lst_fand #$ff-fnz ;ignore flags changed by deytrap_ne ;returned flagslda irq_a ;accu seen in IRQ vectorcmp lst_atrap_ne ;IRQ A receivedldx #$ff ;reset stack pointertxs; retest for set flags seen in IRQ vectorlda #2 ;set expected interrupt source IRQsta I_srcpush_stat $ff-intdisI_set IRQ_bitnop ;allow 6 cycles for interrupt to tripnopnoplda I_srctrap_ne ;IRQ timeouttsxcpx #$ff-2 ;original accu & flags remain on stacktrap_ne ;returned SPlda irq_f ;flags seen in IRQ vectorif D_clear = 1and #decmodetrap_ne ;D-flag not clearedlda irq_feor lst_f ;turn off unchanged bitsand #m8-fai-decmode ;mask untested other flagstrap_ne ;other flags (N,V,Z,C) changedelseeor lst_f ;turn off unchanged bitsand #m8-fai ;mask untested other flagstrap_ne ;other flags (N,V,Z,C,D) changedendifldx #$ff ;reset stack pointertxs; BRK integrity test; test for clear flags seen in IRQ vectorlda #1 ;set expected interrupt source BRKsta I_srcset_stat 0pha ;save entry registersphpbrknop ;should not be executednop ;allow 6 cycles for interrupt to tripnopnoplda I_srctrap_ne ;IRQ timeouttsxcpx #$ff-2 ;original accu & flags remain on stacktrap_ne ;returned SPlda irq_f ;flags seen in IRQ vectorif D_clear = 1and #decmodetrap_ne ;D-flag not clearedlda irq_feor lst_f ;turn off unchanged bitsand #m8-fai-decmode ;mask untested other flagstrap_ne ;other flags (N,V,Z,C) changedelseeor lst_f ;turn off unchanged bitsand #m8-fai ;mask untested other flagstrap_ne ;other flags (N,V,Z,C,D) changedendifldx #$ff ;reset stack pointertxs; test all other registersldx #'B'ldy #'R'lda #1 ;set expected interrupt source BRKsta I_srcset_stat 0pha ;save entryphpbrkdey ;should not be executeddey ;Y count will fail, if return address is wrongdeydeydeyphp ;check processor status latercpx #('B'+1) ;returned registers OK?trap_ne ;returned Xcpy #('R'-7)trap_ne ;returned Ycmp #'K'trap_ne ;returned Atsxcpx #$ff-3trap_ne ;returned SPpla ;flagseor lst_fand #$ff-fnz ;ignore flags changed by deytrap_ne ;returned flagslda irq_a ;accu seen in IRQ vectorcmp lst_atrap_ne ;IRQ A receivedldx #$ff ;reset stack pointertxs; repeat with reversed registersldx #$ff-'B'ldy #$ff-'R'lda #1 ;set expected interrupt source BRKsta I_srcset_stat $ffpha ;save entry registersphpbrkdey ;should not be executeddey ;Y count will fail, if return address is wrongdeydeydeyphp ;check processor status latercpx #($ff-'B'+1) ;returned registers OK?trap_ne ;returned Xcpy #($ff-'R'-7)trap_ne ;returned Ycmp #'K'trap_ne ;returned Atsxcpx #$ff-3trap_ne ;returned SPpla ;flagseor lst_fand #$ff-fnz ;ignore flags changed by deytrap_ne ;returned flagslda irq_a ;accu seen in IRQ vectorcmp lst_atrap_ne ;IRQ A receivedldx #$ff ;reset stack pointertxs; retest for set flags seen in IRQ vectorlda #1 ;set expected interrupt source BRKsta I_srcset_stat $ffpha ;save entry registersphpbrknop ;should not be executednop ;allow 6 cycles for interrupt to tripnopnoplda I_srctrap_ne ;IRQ timeouttsxcpx #$ff-2 ;original accu & flags remain on stacktrap_ne ;returned SPlda irq_f ;flags seen in IRQ vectorif D_clear = 1and #decmodetrap_ne ;D-flag not clearedlda irq_feor lst_f ;turn off unchanged bitsand #m8-fai-decmode ;mask untested other flagstrap_ne ;other flags (N,V,Z,C) changedelseeor lst_f ;turn off unchanged bitsand #m8-fai ;mask untested other flagstrap_ne ;other flags (N,V,Z,C,D) changedendifldx #$ff ;reset stack pointertxsif NMI_bit < 0; test IRQ with interrupts disabledldx #0lda #0sta I_srcpush_stat intdisI_set IRQ_bit ;IRQ pendinginxinxinxldx #0lda #2 ;now re-enable IRQsta I_srccliinxinxinxlda I_src ;test IRQ done?trap_neldx #$ff ;purge stacktxsldx #0 ;now overlap IRQ & BRKlda #3sta I_srclda #$ff ;measure timingsta nmi_countsta irq_countsta brk_countpush_stat 0I_set IRQ_bit ;trigger IRQelse; NMI integrity test; test for clear flags seen in NMI vectorlda #4 ;set expected interrupt source NMIsta I_srcpush_stat 0I_set NMI_bitnop ;allow 6 cycles for interrupt to tripnopnoplda I_srctrap_ne ;NMI timeouttsxcpx #$ff-2 ;original accu & flags remain on stacktrap_ne ;returned SPlda nmi_f ;flags seen in NMI vectorif D_clear = 1and #decmodetrap_ne ;D-flag not clearedlda nmi_feor lst_f ;turn off unchanged bitsand #m8-fai-decmode ;mask untested other flagstrap_ne ;other flags (N,V,Z,C) changedelseeor lst_f ;turn off unchanged bitsand #m8-fai ;mask untested other flagstrap_ne ;other flags (N,V,Z,C,D) changedendifldx #$ff ;reset stack pointertxs; test all other registersldx #'N'ldy #'M'lda #4 ;set expected interrupt source NMIsta I_srcpush_stat 0I_set NMI_bitdey ;Y count will fail, if instructions are skippeddeydeydeyphp ;check processor status latercpx #('N'+1) ;returned registers OK?trap_ne ;returned Xcpy #('M'-7)trap_ne ;returned Ycmp #'I'trap_ne ;returned Atsxcpx #$ff-3trap_ne ;returned SPpla ;flagseor lst_fand #$ff-fnz ;ignore flags changed by deytrap_ne ;returned flagslda nmi_a ;accu seen in NMI vectorcmp lst_atrap_ne ;NMI A receivedldx #$ff ;reset stack pointertxs; repeat with reversed registersldx #$ff-'N'ldy #$ff-'M'lda #4 ;set expected interrupt source NMIsta I_srcpush_stat $ff-intdisI_set NMI_bitdey ;Y count will fail, if instructions are skippeddeydeydeyphp ;check processor status latercpx #($ff-'N'+1) ;returned registers OK?trap_ne ;returned Xcpy #($ff-'M'-7)trap_ne ;returned Ycmp #'I'trap_ne ;returned Atsxcpx #$ff-3trap_ne ;returned SPpla ;flagseor lst_fand #$ff-fnz ;ignore flags changed by deytrap_ne ;returned flagslda nmi_a ;accu seen in NMI vectorcmp lst_atrap_ne ;NMI A receivedldx #$ff ;reset stack pointertxs; retest for set flags seen in NMI vectorlda #4 ;set expected interrupt source NMIsta I_srcpush_stat $ff-intdisI_set NMI_bitnop ;allow 6 cycles for interrupt to tripnopnoplda I_srctrap_ne ;NMI timeouttsxcpx #$ff-2 ;original accu & flags remain on stacktrap_ne ;returned SPlda nmi_f ;flags seen in NMI vectorif D_clear = 1and #decmodetrap_ne ;D-flag not clearedlda nmi_feor lst_f ;turn off unchanged bitsand #m8-fai-decmode ;mask untested other flagstrap_ne ;other flags (N,V,Z,C) changedelseeor lst_f ;turn off unchanged bitsand #m8-fai ;mask untested other flagstrap_ne ;other flags (N,V,Z,C,D) changedendifldx #$ff ;reset stack pointertxs; test IRQ & NMI with interrupts disabledldx #0lda #4 ;set expected interrupt NMI onlysta I_srcpush_stat intdisI_set 8 ;both interrupts pendinginxinxinxlda I_src ;test NMI done?trap_neldx #0lda #2 ;now re-enable IRQsta I_srccliinxinxinxlda I_src ;test IRQ done?trap_neldx #$ff ;purge stacktxs;test overlapping NMI, IRQ & BRKldx #0lda #7sta I_srclda #$ff ;measure timingsta nmi_countsta irq_countsta brk_countpush_stat 0I_set 8 ;trigger NMI + IRQendifbrkinxinxinxinxinxinxinxinxlda I_src ;test all done?;may fail due to a bug on a real NMOS 6502 - NMI could mask BRKtrap_ne ;lost an interrupt; S U C C E S S ************************************************; -------------success ;if you get here everything went well; -------------; S U C C E S S ************************************************; check data_segment +0 to +2 for sequence of concurrent interrupts; e.g. 0x200 = NMI, 0x201 = IRQ, 0x202 = BRK, lower values = earlierjmp start ;run again; manual tests for the WAI opcode of the 65c02wai macrodb $cb ;WAI opcodeendm; requires single step operation, report = 0; set PC to the 1st instruction of the test; step to the WAI opcode, then manually tie the IRQ input low; continue to step until you see the PC advance, then remove IRQ; allow the routine to complete.; WAI with interrupts disabledldx #$fftxsldy #3lda #0 ;IRQ not expectedsta I_srcset_stat intdiswaideydeydeytrap_ne ;skipped opcodes!success; WAI with interrupts enabledldx #$fftxsldy #7lda #2 ;IRQ expectedsta I_srcset_stat 0waideydeydeylda I_srctrap_ne ;IRQ vector not calleddeytrap_ne ;skipped opcodes!success; manual test for the STP opcode of the 65c02stp macrodb $db ;STP opcodeendm; set PC to the 1st instruction of the test, then runnopnopstp ;expected end of operationnopnoptrap ;overran STP;end of manual tests;---------------------------------------------------------------------------;trap in case of unexpected IRQ, NMI, BRK, RESET - IRQ, NMI, BRK test targetdeydeynmi_trapif NMI_bit < 0deydeydeytrap ;unexpected NMIelsephp ;either SP or Y count will fail, if we do not hitdeydeydeysta nmi_a ;save regsters during NMIstx nmi_xplaphasta nmi_flda I_src ;NMI expected?and #4trap_eq ;unexpexted NMI - check stack for conditionspla ;test I-flag was setphaand #intdistrap_eq ;I-flag not setpla ;return with other flags reversedeor #m8-fai-decmodephatsxlda $102,x ;test break on stackand #breaktrap_ne ;unexpected B-flag! - this may fail on a real 6502;due to a hardware bug on concurrent BRK & NMIlda I_src ;mark expected NMI has occuredand #$ff-4sta I_srcI_clr NMI_bitldx nmi_xinxstx nmi_countlda #'I' ;mark (NM)Iplp ;should be reversed by rtirtiendifres_traptrap ;unexpected RESETdeydeyirq_trap ;BRK & IRQ testphp ;either SP or Y count will fail, if we do not hitdeydeydeysta irq_a ;save registers during IRQ/BRKstx irq_xplaphasta irq_flda I_src ;IRQ expected?and #3trap_eq ;unexpexted IRQ/BRK - check stack for conditionspla ;test I-flag was setphaand #intdistrap_eq ;I-flag not setpla ;return with other flags reversedeor #m8-fai-decmodephatsxlda $102,x ;test break on stackand #breakbne brk_traplda I_src ;IRQ expected?and #2trap_eq ;unexpexted IRQ - check stack for conditionslda I_src ;mark expected IRQ has occuredand #$ff-2sta I_srcI_clr IRQ_bitldx irq_xinxstx irq_countlda #'Q' ;mark (IR)Qplp ;should be reversed by rtirtibrk_traplda I_src ;break expected?and #1trap_eq ;unexpected BRK - check stack for conditionslda I_src ;mark expected BRK has occuredand #$ff-1sta I_srcldx irq_xinxstx brk_countlda irq_alda #'K' ;mark (BR)Kplp ;should be reversed by rtirtiif report = 1rep_int = 1include "report.i65"endif;system vectorsif (load_data_direct = 1)org $fffadw nmi_trap; dw res_trapdw startdw irq_trapelsevec_initvec_bss equ $fffadw nmi_trap; dw res_trapdw startdw irq_trapendifend start