435 lines
14 KiB
ArmAsm
435 lines
14 KiB
ArmAsm
/***********************************************************************/
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/* */
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/* Objective Caml */
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/* */
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/* Xavier Leroy, projet Cristal, INRIA Rocquencourt */
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/* */
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/* Copyright 1996 Institut National de Recherche en Informatique et */
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/* Automatique. Distributed only by permission. */
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/* */
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/***********************************************************************/
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/* $Id$ */
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/* Asm part of the runtime system, Alpha processor */
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.comm gc_entry_regs 8 * 32
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.comm gc_entry_float_regs 8 * 32
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#define SAVE_ALL_REGS \
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lda $24, gc_entry_regs; \
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stq $0, 0 * 8 ($24); \
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stq $1, 1 * 8 ($24); \
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stq $2, 2 * 8 ($24); \
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stq $3, 3 * 8 ($24); \
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stq $4, 4 * 8 ($24); \
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stq $5, 5 * 8 ($24); \
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stq $6, 6 * 8 ($24); \
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stq $7, 7 * 8 ($24); \
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stq $8, 8 * 8 ($24); \
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stq $9, 9 * 8 ($24); \
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stq $10, 10 * 8 ($24); \
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stq $11, 11 * 8 ($24); \
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stq $12, 12 * 8 ($24); \
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stq $16, 16 * 8 ($24); \
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stq $17, 17 * 8 ($24); \
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stq $18, 18 * 8 ($24); \
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stq $19, 19 * 8 ($24); \
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stq $20, 20 * 8 ($24); \
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stq $21, 21 * 8 ($24); \
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stq $22, 22 * 8 ($24); \
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lda $24, gc_entry_float_regs; \
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stt $f0, 0 * 8 ($24); \
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stt $f1, 1 * 8 ($24); \
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stt $f10, 10 * 8 ($24); \
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stt $f11, 11 * 8 ($24); \
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stt $f12, 12 * 8 ($24); \
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stt $f13, 13 * 8 ($24); \
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stt $f14, 14 * 8 ($24); \
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stt $f15, 15 * 8 ($24); \
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stt $f16, 16 * 8 ($24); \
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stt $f17, 17 * 8 ($24); \
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stt $f18, 18 * 8 ($24); \
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stt $f19, 19 * 8 ($24); \
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stt $f20, 20 * 8 ($24); \
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stt $f21, 21 * 8 ($24); \
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stt $f22, 22 * 8 ($24); \
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stt $f23, 23 * 8 ($24); \
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stt $f24, 24 * 8 ($24); \
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stt $f25, 25 * 8 ($24); \
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stt $f26, 26 * 8 ($24); \
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stt $f27, 27 * 8 ($24); \
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stt $f28, 28 * 8 ($24); \
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stt $f29, 29 * 8 ($24)
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#define LOAD_ALL_REGS \
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lda $24, gc_entry_regs; \
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ldq $0, 0 * 8 ($24); \
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ldq $1, 1 * 8 ($24); \
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ldq $2, 2 * 8 ($24); \
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ldq $3, 3 * 8 ($24); \
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ldq $4, 4 * 8 ($24); \
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ldq $5, 5 * 8 ($24); \
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ldq $6, 6 * 8 ($24); \
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ldq $7, 7 * 8 ($24); \
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ldq $8, 8 * 8 ($24); \
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ldq $9, 9 * 8 ($24); \
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ldq $10, 10 * 8 ($24); \
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ldq $11, 11 * 8 ($24); \
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ldq $12, 12 * 8 ($24); \
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ldq $16, 16 * 8 ($24); \
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ldq $17, 17 * 8 ($24); \
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ldq $18, 18 * 8 ($24); \
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ldq $19, 19 * 8 ($24); \
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ldq $20, 20 * 8 ($24); \
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ldq $21, 21 * 8 ($24); \
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ldq $22, 22 * 8 ($24); \
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lda $24, gc_entry_float_regs; \
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ldt $f0, 0 * 8 ($24); \
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ldt $f1, 1 * 8 ($24); \
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ldt $f10, 10 * 8 ($24); \
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ldt $f11, 11 * 8 ($24); \
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ldt $f12, 12 * 8 ($24); \
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ldt $f13, 13 * 8 ($24); \
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ldt $f14, 14 * 8 ($24); \
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ldt $f15, 15 * 8 ($24); \
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ldt $f16, 16 * 8 ($24); \
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ldt $f17, 17 * 8 ($24); \
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ldt $f18, 18 * 8 ($24); \
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ldt $f19, 19 * 8 ($24); \
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ldt $f20, 20 * 8 ($24); \
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ldt $f21, 21 * 8 ($24); \
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ldt $f22, 22 * 8 ($24); \
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ldt $f23, 23 * 8 ($24); \
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ldt $f24, 24 * 8 ($24); \
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ldt $f25, 25 * 8 ($24); \
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ldt $f26, 26 * 8 ($24); \
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ldt $f27, 27 * 8 ($24); \
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ldt $f28, 28 * 8 ($24); \
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ldt $f29, 29 * 8 ($24)
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/* Allocation */
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.text
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.globl caml_alloc2
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.globl caml_alloc3
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.globl caml_alloc
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.globl caml_call_gc
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/* caml_alloc* : all code generator registers preserved,
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$gp preserved, $27 not valid on entry */
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.globl caml_alloc1
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.ent caml_alloc1
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.align 3
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caml_alloc1:
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subq $13, 16, $13
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cmpult $13, $14, $25
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bne $25, $100
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ret ($26)
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$100: ldiq $25, 16
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br $110
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.end caml_alloc1
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.globl caml_alloc2
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.ent caml_alloc2
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.align 3
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caml_alloc2:
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subq $13, 24, $13
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cmpult $13, $14, $25
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bne $25, $101
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ret ($26)
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$101: ldiq $25, 24
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br $110
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.end caml_alloc2
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.globl caml_alloc3
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.ent caml_alloc3
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.align 3
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caml_alloc3:
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subq $13, 32, $13
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cmpult $13, $14, $25
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bne $25, $102
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ret ($26)
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$102: ldiq $25, 32
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br $110
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.end caml_alloc3
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.globl caml_alloc
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.ent caml_alloc
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.align 3
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caml_alloc:
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subq $13, $25, $13
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.set noat
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cmpult $13, $14, $at
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bne $at, $110
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.set at
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ret ($26)
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.end caml_alloc
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.globl caml_call_gc
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.ent caml_call_gc
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.align 3
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caml_call_gc:
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ldiq $25, 0
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$110: lda $sp, -32($sp)
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stq $26, 0($sp)
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stq $gp, 8($sp)
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stq $25, 16($sp)
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/* Rebuild $gp */
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br $27, $103
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$103: ldgp $gp, 0($27)
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/* Record lowest stack address and return address */
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ldq $24, 0($sp)
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stq $24, caml_last_return_address
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lda $24, 32($sp)
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stq $24, caml_bottom_of_stack
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/* Save current allocation pointer for debugging purposes */
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stq $13, young_ptr
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/* Save trap pointer in case an exception is raised (e.g. sighandler) */
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stq $15, caml_exception_pointer
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/* Save all regs used by the code generator in the arrays
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/* gc_entry_regs and gc_entry_float_regs. */
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SAVE_ALL_REGS
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/* Call the garbage collector */
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jsr garbage_collection
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/* Restore all regs used by the code generator */
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ldgp $gp, 0($26)
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LOAD_ALL_REGS
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/* Reload new allocation pointer and allocation limit */
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ldq $13, young_ptr
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ldq $14, young_limit
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/* Allocate space for the block */
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ldq $25, 16($sp)
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subq $13, $25, $13
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/* Say that we are back into Caml code */
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stq $31, caml_last_return_address
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/* Return to caller */
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ldq $26, 0($sp)
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ldq $gp, 8($sp)
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lda $sp, 32($sp)
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ret ($26)
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.end caml_call_gc
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/* Call a C function from Caml */
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.globl caml_c_call
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.ent caml_c_call
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.align 3
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caml_c_call:
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/* Function to call is in $27 */
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/* Preserve return address and caller's $gp in callee-save registers */
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mov $26, $9
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mov $gp, $10
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/* Rebuild $gp */
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br $25, $105
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$105: ldgp $gp, 0($25)
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/* Record lowest stack address and return address */
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lda $11, caml_last_return_address
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stq $26, 0($11)
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stq $sp, caml_bottom_of_stack
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/* Make the exception handler and alloc ptr available to the C code */
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lda $12, young_ptr
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stq $13, 0($12)
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stq $15, caml_exception_pointer
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/* Call the function */
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jsr ($27)
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/* Reload alloc ptr and alloc limit */
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ldq $13, 0($12) /* $12 still points to young_ptr */
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ldq $14, young_limit
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/* Say that we are back into Caml code */
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stq $31, 0($11) /* $11 still points to caml_last_return_address */
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/* Restore $gp */
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mov $10, $gp
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/* Return */
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ret ($9)
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.end caml_c_call
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/* Start the Caml program */
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.globl caml_start_program
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.ent caml_start_program
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.align 3
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caml_start_program:
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ldgp $gp, 0($27)
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lda $25, caml_program
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/* Code shared with callback* */
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$107:
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/* Save return address */
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lda $sp, -128($sp)
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stq $26, 0($sp)
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/* Save all callee-save registers */
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stq $9, 8($sp)
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stq $10, 16($sp)
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stq $11, 24($sp)
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stq $12, 32($sp)
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stq $13, 40($sp)
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stq $14, 48($sp)
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stq $15, 56($sp)
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stt $f2, 64($sp)
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stt $f3, 72($sp)
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stt $f4, 80($sp)
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stt $f5, 88($sp)
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stt $f6, 96($sp)
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stt $f7, 104($sp)
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stt $f8, 112($sp)
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stt $f9, 120($sp)
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/* Set up a callback link on the stack. */
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lda $sp, -16($sp)
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ldq $0, caml_bottom_of_stack
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stq $0, 0($sp)
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ldq $1, caml_last_return_address
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stq $1, 8($sp)
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/* Set up a trap frame to catch exceptions escaping the Caml code */
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lda $sp, -16($sp)
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ldq $15, caml_exception_pointer
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stq $15, 0($sp)
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lda $0, $109
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stq $0, 8($sp)
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mov $sp, $15
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/* Reload allocation pointers */
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ldq $13, young_ptr
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ldq $14, young_limit
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/* We are back into Caml code */
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stq $31, caml_last_return_address
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/* Call the Caml code */
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$108: jsr ($25)
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/* Reload $gp */
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bic $26, 1, $26 /* return address may have "scanned" bit set */
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ldgp $gp, 4($26)
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/* Pop the trap frame, restoring caml_exception_pointer */
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ldq $15, 0($sp)
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stq $15, caml_exception_pointer
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lda $sp, 16($sp)
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/* Restore the global variables used by caml_c_call */
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ldq $24, 0($sp)
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stq $24, caml_bottom_of_stack
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ldq $25, 8($sp)
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stq $25, caml_last_return_address
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lda $sp, 16($sp)
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/* Update allocation pointer */
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stq $13, young_ptr
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/* Reload callee-save registers */
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ldq $9, 8($sp)
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ldq $10, 16($sp)
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ldq $11, 24($sp)
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ldq $12, 32($sp)
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ldq $13, 40($sp)
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ldq $14, 48($sp)
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ldq $15, 56($sp)
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ldt $f2, 64($sp)
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ldt $f3, 72($sp)
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ldt $f4, 80($sp)
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ldt $f5, 88($sp)
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ldt $f6, 96($sp)
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ldt $f7, 104($sp)
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ldt $f8, 112($sp)
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ldt $f9, 120($sp)
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/* Return to caller */
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ldq $26, 0($sp)
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lda $sp, 128($sp)
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ret ($26)
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/* The trap handler */
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$109: ldgp $gp, 0($27)
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/* Restore the global variables used by caml_c_call */
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ldq $24, 0($sp)
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stq $24, caml_bottom_of_stack
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ldq $25, 8($sp)
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stq $25, caml_last_return_address
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lda $sp, 16($sp)
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/* Re-raise the exception through mlraise,
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so that local C roots are cleaned up correctly. */
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stq $13, young_ptr
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stq $15, caml_exception_pointer
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mov $0, $16 /* bucket as first argument */
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jsr mlraise /* never returns */
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.end caml_start_program
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/* Raise an exception from C */
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.globl raise_caml_exception
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.ent raise_caml_exception
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.align 3
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raise_caml_exception:
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ldgp $gp, 0($27)
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mov $16, $0 /* Move exn bucket */
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ldq $13, young_ptr
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ldq $14, young_limit
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stq $31, caml_last_return_address /* We're back into Caml */
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ldq $sp, caml_exception_pointer
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ldq $15, 0($sp)
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ldq $27, 8($sp)
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lda $sp, 16($sp)
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jmp $25, ($27) /* Keep retaddr in $25 to help debugging */
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.end raise_caml_exception
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/* Glue code to jump to array_bound_error after reinitializing $gp */
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.globl call_array_bound_error
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.ent call_array_bound_error
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.align 3
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call_array_bound_error:
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nop
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/* Rebuild $gp */
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br $27, $106
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$106: ldgp $gp, 0($27)
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/* Branch to array_bound_error -- never returns */
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jsr array_bound_error
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.end call_array_bound_error
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/* Callback from C to Caml */
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.globl callback
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.ent callback
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.align 3
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callback:
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/* Initial shuffling of arguments */
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ldgp $gp, 0($27)
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mov $16, $25
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mov $17, $16 /* first arg */
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mov $25, $17 /* environment */
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ldq $25, 0($25) /* code pointer */
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br $107
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.end callback
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.globl callback2
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.ent callback2
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.align 3
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callback2:
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ldgp $gp, 0($27)
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mov $16, $25
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mov $17, $16 /* first arg */
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mov $18, $17 /* second arg */
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mov $25, $18 /* environment */
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lda $25, caml_apply2
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br $107
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.end callback2
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.globl callback3
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.ent callback3
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.align 3
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callback3:
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ldgp $gp, 0($27)
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mov $16, $25
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mov $17, $16 /* first arg */
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mov $18, $17 /* second arg */
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mov $19, $18 /* third arg */
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mov $25, $19 /* environment */
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lda $25, caml_apply3
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br $107
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.end callback3
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.rdata
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.globl system_frametable
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system_frametable:
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.quad 1 /* one descriptor */
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.quad $108 + 4 /* return address into callback */
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.word -1 /* negative frame size => use callback link */
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.word 0 /* no roots here */
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.align 3
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