.text .globl ik_asm_enter .globl _ik_asm_enter .globl ik_underflow_handler .globl ik_foreign_call .globl _ik_foreign_call .globl ik_asm_reenter .globl _ik_asm_reenter .align 8 ik_asm_enter: _ik_asm_enter: # ignored value is the third arg 12(%esp) # code is the second arg 8(%esp) # pcb is the first arg 4(%esp) # return point is at 0(%esp) movl %esi, -4(%esp) # preserve movl %ebp, -8(%esp) # preserve movl 4(%esp), %esi movl 0(%esi), %ebp # allocation pointer is at 0(pcb) movl %esp, %eax subl $16, %esp # 24 for alignment set_stack: movl %esp, 24(%esi) # save esp in pcb->system_stack movl 8(%esi), %esp # load scheme stack from pcb->frame_pinter jmp L_call .byte 0 .byte 0 .byte 0 .byte 0 .byte 0 .byte 0 .byte 0 .byte 0 .long L_multivalue_underflow .byte 0 .byte 0 L_call: call *8(%eax) # goooooooo # now we're back ik_underflow_handler: movl %eax, -8(%esp) # store the return value movl $-4, %eax # set rvcount = 1 L_do_underflow: movl %esp, 8(%esi) # store scheme stack in pcb->frame_pointer movl %ebp, 0(%esi) # store allocation pointer movl 24(%esi), %esp # restore system stack addl $16, %esp # 24 for alignment (>= 16) movl -4(%esp), %esi # restore callee-save registers movl -8(%esp), %ebp # ret # back to C, which handled the underflow L_multivalue_underflow: addl $4, %esp jmp L_do_underflow .align 8 ik_asm_reenter: _ik_asm_reenter: # argc is at 12(%esp) # scheme stack is third arg 8(%esp) # pcb is the first arg 4(%esp) # return point is at 0(%esp) movl 12(%esp), %eax movl 8(%esp), %ebx movl %esi, -4(%esp) movl %ebp, -8(%esp) movl 4(%esp), %esi movl 0(%esi), %ebp # allocation pointer is at 0(pcb) subl $16, %esp # 24 for alignment movl %esp, 24(%esi) # save esp in pcb->system_stack movl %ebx, %esp # load scheme stack from second arg cmpl $-4, %eax jne L_multi_reentry movl -4(%esp), %eax ret L_multi_reentry: movl 0(%esp), %ebx jmp *-9(%ebx) .align 8 ik_foreign_call: _ik_foreign_call: movl %esp, 8(%esi) # (movl fpr (pcb-ref 'frame-pointer)) movl %ebp, 0(%esi) # (movl apr (pcb-ref 'allocation-pointer)) movl %esp, %ebx # (movl fpr ebx) movl 24(%esi), %esp # (movl (pcb-ref 'system-stack) esp) # %esp is the system stack, %eax is the index to the last arg, # %esi is the pcb. # Now, the value of %esp is 16-byte aligned # we always push %esi (4 bytes) and do a call (4 bytes), # 0 args require 6 (2) pushes => argc= 0 (0000): %esp += -8 # 1 args require 5 (1) pushes => argc= -4 (1100): %esp += -4 # 2 args require 4 (0) pushes => argc= -8 (1000): %esp += 0 # 3 args require 3 (3) pushes => argc= -12 (0100): %esp += -12 movl %eax, %ecx andl $15, %ecx check_ecx: cmpl $8, %ecx je L_zero cmpl $12, %ecx je L_one cmpl $0, %ecx je L_two pushl $0 L_two: pushl $0 L_one: pushl $0 L_zero: pushl %esi # (pushl pcr) cmpl $0, %eax # (cmpl (int 0) eax) je L_set # (je (label Lset)) L_loop: # (label Lloop) movl (%ebx,%eax), %ecx # (movl (mem ebx eax) ecx) pushl %ecx # (pushl ecx) addl $4, %eax # (addl (int 4) eax) cmpl $0, %eax # (cmpl (int 0) eax) jne L_loop # (jne (label Lloop)) L_set: # (label Lset) call *%edi # (call cpr) movl 8(%esi), %esp # (movl (pcb-ref 'frame-pointer) fpr) movl 0(%esi), %ebp # (movl (pcb-ref 'allocation-pointer) apr) ret # (ret))) #ifdef __CYGWIN__ .section .drectve .ascii " -export:ik_collect" .ascii " -export:ik_collect_vararg" .ascii " -export:ik_dump_dirty_vector" .ascii " -export:ik_dump_metatable" .ascii " -export:ik_error" .ascii " -export:ik_stack_overflow" .ascii " -export:ik_system" .ascii " -export:ik_uuid" .ascii " -export:ikrt_bignum_shift_left" .ascii " -export:ikrt_bignum_shift_right" .ascii " -export:ikrt_bignum_to_bytevector" .ascii " -export:ikrt_bnbncomp" .ascii " -export:ikrt_bnbndivrem" .ascii " -export:ikrt_bnbnlogand" .ascii " -export:ikrt_bnbnminus" .ascii " -export:ikrt_bnbnmult" .ascii " -export:ikrt_bnbnplus" .ascii " -export:ikrt_bnfxdivrem" .ascii " -export:ikrt_bnfxminus" .ascii " -export:ikrt_bvftime" .ascii " -export:ikrt_bytes_allocated" .ascii " -export:ikrt_bytes_allocated_major" .ascii " -export:ikrt_bytevector_to_flonum" .ascii " -export:ikrt_close_file" .ascii " -export:ikrt_delete_file" .ascii " -export:ikrt_environ" .ascii " -export:ikrt_even_bn" .ascii " -export:ikrt_exit" .ascii " -export:ikrt_file_exists" .ascii " -export:ikrt_fixnum_shift_left" .ascii " -export:ikrt_fixnum_to_flonum" .ascii " -export:ikrt_fl_acos" .ascii " -export:ikrt_fl_asin" .ascii " -export:ikrt_fl_atan" .ascii " -export:ikrt_fl_cos" .ascii " -export:ikrt_fl_equal" .ascii " -export:ikrt_fl_exp" .ascii " -export:ikrt_fl_invert" .ascii " -export:ikrt_fl_less" .ascii " -export:ikrt_fl_less_or_equal" .ascii " -export:ikrt_fl_log" .ascii " -export:ikrt_fl_round" .ascii " -export:ikrt_fl_sin" .ascii " -export:ikrt_fl_sqrt" .ascii " -export:ikrt_fl_tan" .ascii " -export:ikrt_flfl_expt" .ascii " -export:ikrt_fork" .ascii " -export:ikrt_fx_acos" .ascii " -export:ikrt_fx_asin" .ascii " -export:ikrt_fx_atan" .ascii " -export:ikrt_fx_cos" .ascii " -export:ikrt_fx_log" .ascii " -export:ikrt_fx_sin" .ascii " -export:ikrt_fx_sqrt" .ascii " -export:ikrt_fx_tan" .ascii " -export:ikrt_fxbnlogand" .ascii " -export:ikrt_fxbnminus" .ascii " -export:ikrt_fxbnmult" .ascii " -export:ikrt_fxbnplus" .ascii " -export:ikrt_fxfxminus" .ascii " -export:ikrt_fxfxmult" .ascii " -export:ikrt_fxfxplus" .ascii " -export:ikrt_fxrandom" .ascii " -export:ikrt_getenv" .ascii " -export:ikrt_intern_gensym" .ascii " -export:ikrt_is_weak_pair" .ascii " -export:ikrt_make_code" .ascii " -export:ikrt_open_input_file" .ascii " -export:ikrt_open_output_file" .ascii " -export:ikrt_positive_bn" .ascii " -export:ikrt_read" .ascii " -export:ikrt_register_guardian_pair" .ascii " -export:ikrt_set_code_annotation" .ascii " -export:ikrt_set_code_reloc_vector" .ascii " -export:ikrt_setenv" .ascii " -export:ikrt_stats_now" .ascii " -export:ikrt_string_to_symbol" .ascii " -export:ikrt_strings_to_gensym" .ascii " -export:ikrt_waitpid" .ascii " -export:ikrt_weak_cons" .ascii " -export:ikrt_write_file" .ascii " -export:ik_foreign_call" #endif