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cc65/libsrc/pet/crt0.s
uz 8216bf1d6a Force an import of the special symbol __STARTUP__ in the C compiler when
main() is encountered. Define this symbol in the startup code. This will
automatically force linking of the startup code which can then reside inside
the standard library as any other object file.


git-svn-id: svn://svn.cc65.org/cc65/trunk@3988 b7a2c559-68d2-44c3-8de9-860c34a00d81
2009-07-31 12:05:42 +00:00

157 lines
3.1 KiB
ArmAsm

;
; Startup code for cc65 (PET version)
;
.export _exit
.export __STARTUP__ : absolute = 1 ; Mark as startup
.import initlib, donelib, callirq
.import zerobss, push0
.import callmain
.import CLRCH, BSOUT
.import __INTERRUPTOR_COUNT__
.include "zeropage.inc"
.include "pet.inc"
.include "../cbm/cbm.inc"
; ------------------------------------------------------------------------
; Place the startup code in a special segment.
.segment "STARTUP"
; BASIC header with a SYS call
.word Head ; Load address
Head: .word @Next
.word .version ; Line number
.byte $9E,"1037" ; SYS 1037
.byte $00 ; End of BASIC line
@Next: .word 0 ; BASIC end marker
; ------------------------------------------------------------------------
; Actual code
ldx #zpspace-1
L1: lda sp,x
sta zpsave,x ; Save the zero page locations we need
dex
bpl L1
; Close open files
jsr CLRCH
; Switch to second charset. The routine that is called by BSOUT to switch the
; character set will use FNLEN as temporary storage - YUCK! Since the
; initmainargs routine, which parses the command line for arguments needs this
; information, we need to save and restore it here.
; Thanks to Stefan Haubenthal for this information!
lda FNLEN
pha ; Save FNLEN
lda #14
; sta $E84C ; See PET FAQ
jsr BSOUT
pla
sta FNLEN ; Restore FNLEN
; Clear the BSS data
jsr zerobss
; Save system stuff and setup the stack
tsx
stx spsave ; Save the system stack ptr
lda MEMSIZE
sta sp
lda MEMSIZE+1
sta sp+1 ; Set argument stack ptr
; If we have IRQ functions, chain our stub into the IRQ vector
lda #<__INTERRUPTOR_COUNT__
beq NoIRQ1
lda IRQVec
ldx IRQVec+1
sta IRQInd+1
stx IRQInd+2
lda #<IRQStub
ldx #>IRQStub
sei
sta IRQVec
stx IRQVec+1
cli
; Call module constructors
NoIRQ1: jsr initlib
; Push arguments and call main()
jsr callmain
; Call module destructors. This is also the _exit entry.
_exit: pha ; Save the return code on stack
jsr donelib
; Reset the IRQ vector if we chained it.
lda #<__INTERRUPTOR_COUNT__
beq NoIRQ2
lda IRQInd+1
ldx IRQInd+2
sei
sta IRQVec
stx IRQVec+1
cli
; Copy back the zero page stuff
NoIRQ2: ldx #zpspace-1
L2: lda zpsave,x
sta sp,x
dex
bpl L2
; Store the program return code into ST
pla
sta ST
; Restore the stack pointer
ldx spsave
txs ; Restore stack pointer
; Back to basic
rts
; ------------------------------------------------------------------------
; The IRQ vector jumps here, if condes routines are defined with type 2.
IRQStub:
cld ; Just to be sure
jsr callirq ; Call the functions
jmp IRQInd ; Jump to the saved IRQ vector
; ------------------------------------------------------------------------
; Data
.data
IRQInd: jmp $0000
.segment "ZPSAVE"
zpsave: .res zpspace
.bss
spsave: .res 1
mmusave:.res 1