ext/systemc/src/sysc/qt/md/ksr1.s - testing/jenkins-gem5-prod - Git at Google

 /*
  * QuickThreads -- Threads-building toolkit.
  * Copyright (c) 1993 by David Keppel
  *
  * Permission to use, copy, modify and distribute this software and
  * its documentation for any purpose and without fee is hereby
  * granted, provided that the above copyright notice and this notice
  * appear in all copies.  This software is provided as a
  * proof-of-concept and for demonstration purposes; there is no
  * representation about the suitability of this software for any
  * purpose.
  */

 	.file	"ksr1.s"
 	.def	.debug;	.endef

 	.align 128
 	.globl qt_blocki
 	.globl qt_blocki$TXT
 	.globl qt_block
 	.globl qt_block$TXT
 	.globl qt_start$TXT
         .globl qt_start
 	.globl qt_abort$TXT
 	.globl qt_abort
 	.globl qt_vstart
 	.globl qt_vstart$TXT

 #
 # KSR convention: on procedure calls, load both the procedure address
 # and a pointer to a constant block.  The address of function `f' is
 # `f$TXT', and the constant block address is `f'.  The constant block
 # has several reserved values:
 #
 #	8 bytes fpu register save mask
 #	4 bytes ipu register save mask
 #	4 bytes ceu register save mask
 #   f:  f$TXT
 #	... whatever you want ... (not quite...read on)
 #
 # Note, by the way, that a pointer to a function is passed as a
 # pointer to the constant area, and the constant area has the text
 # address.
 #

 #
 # Procedures that do not return structures prefix their code with
 #
 # proc$TXT:
 #   finop; cxnop
 #   finop; cxnop
 #   <proc code>
 #
 # Calls to those procedures branch to a 16 byte offset (4 instrs) in
 # to the procedure to skip those instructions.
 #
 # Procedures that return structures use a different code prefix:
 #
 # proc$TXT:
 #   finop; beq.qt %rc, %rc, 24		# return value entry
 #   finop; cxnop
 #   finop; movi8 0, %rc			# no return value entry
 #   <proc code>
 #
 # Calls that want the returned structure branch directly to the
 # procedure address.  Callers that don't want (or aren't expecting) a
 # return value branche 16 bytes in to the procedure, which will zero
 # %rc, telling the called procedure not to return a structure.
 #

 #
 # On entry:
 #   %i2 -- control block of helper function to run
 #          (dereference to get helper)
 #   %i3 -- a1
 #   %i4 -- a2
 #   %i5 -- sp of new to run
 #

         .data
 	.half 0x0, 0x0, 0x7ffff000, 0x7fff8000
 qt_blocki:
 qt_abort:
 	.word qt_blocki$TXT
 	.word qt_restore$TXT

 	.text
 qt_abort$TXT:
 qt_blocki$TXT:
 	finop			; cxnop			# entry prefix
 	finop			; cxnop			# entry prefix
 	add8.ntr 75,%i31,%i31	; movi8 512,%c5		# ICR; stk adjust
 	finop			; ssub8.ntr 0,%sp,%c5,%sp
 	finop			; st8 %fp,504(%sp)	# Save caller's fp
 	finop			; st8 %cp,496(%sp)	# Save caller's cp
 	finop			; ld8 8(%c10),%c5	# ld qt_restore$TXT
 	finop			; st8 %c14,0(%sp)	# Save special ret addr
 	finop			; mov8_8 %c10, %cp	# Our cp
 	finop			; sadd8.ntr 0,%sp,%c5,%fp # Our frame ptr
 	finop			; st8 %c5,8(%sp)	# st qt_restore$TXT
 #
 # CEU registers %c15-%c24, %c26-%c30 (%c14 we restore later)
 #
 	finop			; st8  %c15,456(%sp)
 	finop			; st8  %c16,448(%sp)
 	finop			; st8  %c17,440(%sp)
 	finop			; st8  %c18,432(%sp)
 	finop			; st8  %c19,424(%sp)
 	finop			; st8  %c20,416(%sp)
 	finop			; st8  %c21,408(%sp)
 	finop			; st8  %c22,400(%sp)
 	finop			; st8  %c23,392(%sp)
 	finop			; st8  %c24,384(%sp)
 #
 # %c25 is the Enclosing Frame Pointer (EFP) -- since C doesn't
 # use nested procedures, we ignore it (leaving a gap, though)
 #
 	finop			; st8 %c26,368(%sp)
 	finop			; st8 %c27,360(%sp)
 	finop			; st8 %c28,352(%sp)
 	finop			; st8 %c29,344(%sp)
 	finop			; st8 %c30,336(%sp)
 #
 # IPU registers %i12-%i30
 #
 	finop			; st8 %i12,328(%sp)
 	finop			; st8 %i13,320(%sp)
 	finop			; st8 %i14,312(%sp)
 	finop			; st8 %i15,304(%sp)
 # (gap to get alignment for st64)
 # -- Doesn't work on version 1.1.3 of the OS
 #	finop			; st64 %i16,256(%sp)

 	finop			; st8 %i16,256(%sp)
 	finop			; st8 %i17,248(%sp)
 	finop			; st8 %i18,240(%sp)
 	finop			; st8 %i19,232(%sp)
 	finop			; st8 %i20,224(%sp)
 	finop			; st8 %i21,216(%sp)
 	finop			; st8 %i22,208(%sp)
 	finop			; st8 %i23,200(%sp)
 	finop			; st8 %i24,192(%sp)
 	finop			; st8 %i25,184(%sp)
 	finop			; st8 %i26,176(%sp)
 	finop			; st8 %i27,168(%sp)
 	finop			; st8 %i28,160(%sp)
 	finop			; st8 %i29,152(%sp)
 	finop			; st8 %i30,144(%sp)
 #
 # FPU already saved, or saving not necessary
 #

 #
 # Switch to the stack passed in as fourth argument to the block
 # routine (%i5) and call the helper routine passed in as the first
 # argument (%i2).  Note that the address of the helper's constant
 # block is passed in, so we must derefence it to get the helper's text
 # address.
 #
 	finop			; movb8_8 %i2,%c10	# helper's ConstBlock
 	finop			; cxnop			# Delay slot, fill w/
 	finop			; cxnop			# .. 2 st8 from above
 	finop			; ld8 0(%c10),%c4	# load addr of helper
 	finop			; movb8_8 %sp, %i2	# 1st arg to helper
 							# is this stack; other
 							# args remain in regs
 	finop			; movb8_8 %i5,%sp	# switch stacks
 	finop			; jsr %c14,16(%c4)	# call helper
 	movi8 3, %i0		; movi8 0,%c8		# nargs brain dmg
 	finop			; cxnop
 	finop			; cxnop
 #
 # Here is where behavior differs for threads being restored and threads
 # being started.  Blocked threads have a pointer to qt_restore$TXT on
 # the top of their stacks; manufactured stacks have a pointer to qt_start$TXT
 # on the top of their stacks.  With this setup, starting threads
 # skip the (unecessary) restore operations.
 #
 # We jump to an offset of 16 to either (1) skip past the two noop pairs
 # at the start of qt_start$TXT, or (2) skip past the two noop pairs
 # after qt_restore$TXT.
 #
 	finop			; ld8 8(%sp),%c4
 	finop			; cxnop
 	finop			; cxnop
 	finop			; jmp 16(%c4)
 qt_restore$TXT:
 	finop			; cxnop
 	finop			; cxnop
 #
 # Point of Restore:
 #
 # The helper funtion will return here.  Any result it has placed in
 # a return register (most likely %i0) will not get overwritten below
 # and will consequently be the return value of the blocking routine.
 #

 #
 # CEU registers %c15-%c24, %c26-%c30 (%c14 we restore later)
 #
 	finop			; ld8  456(%sp),%c15
 	finop			; ld8  448(%sp),%c16
 	finop			; ld8  440(%sp),%c17
 	finop			; ld8  432(%sp),%c18
 	finop			; ld8  424(%sp),%c19
 	finop			; ld8  416(%sp),%c20
 	finop			; ld8  408(%sp),%c21
 	finop			; ld8  400(%sp),%c22
 	finop			; ld8  392(%sp),%c23
 	finop			; ld8  384(%sp),%c24
 #
 # %c25 is the Enclosing Frame Pointer (EFP) -- since C doesn't
 # use nested procedures, we ignore it (leaving a gap, though)
 #
 	finop			; ld8 368(%sp),%c26
 	finop			; ld8 360(%sp),%c27
 	finop			; ld8 352(%sp),%c28
 	finop			; ld8 344(%sp),%c29
 	finop			; ld8 336(%sp),%c30
 #
 # IPU registers %i12-%i30
 #
 	finop			; ld8 328(%sp),%i12
 	finop			; ld8 320(%sp),%i13
 	finop			; ld8 312(%sp),%i14
 	finop			; ld8 304(%sp),%i15
 # (gap to get alignment for ld64)
 # -- Doesn't work on version 1.1.3 of the OS
 #	finop			; ld64 256(%sp),%i16

 	finop			; ld8 256(%sp),%i16
 	finop			; ld8 248(%sp),%i17
 	finop			; ld8 240(%sp),%i18
 	finop			; ld8 232(%sp),%i19
 	finop			; ld8 224(%sp),%i20
 	finop			; ld8 216(%sp),%i21
 	finop			; ld8 208(%sp),%i22
 	finop			; ld8 200(%sp),%i23
 	finop			; ld8 192(%sp),%i24
 	finop			; ld8 184(%sp),%i25
 	finop			; ld8 176(%sp),%i26
 	finop			; ld8 168(%sp),%i27
 	finop			; ld8 160(%sp),%i28
 	finop			; ld8 152(%sp),%i29
 	finop			; ld8 144(%sp),%i30

 #
 # FPU registers don't need to be loaded, or will be loaded by an
 # enclosing scope (e.g., if this is called by qt_block).
 #

 #
 # Load the special registers.  We don't load the stack ptr because
 # the new stack is passed in as an argument, we don't load the EFP
 # because we don't use it, and we load the return address specially
 # off the top of the stack.
 #
 	finop			; ld8 0(%sp),%c14	# return addr
 	finop			; ld8 496(%sp),%cp
 	finop			; ld8 504(%sp),%fp

 	finop			; jmp 32(%c14)		# jump back to thread
 	finop			; movi8 512,%c5		# stack adjust
 	finop			; sadd8.ntr 0,%sp,%c5,%sp

         .data
 	.half 0x0, 0x0, 0x7ffff000, 0x7fff8000
 qt_block:
 	.word	qt_block$TXT
 	.word	qt_error
 	.word	qt_error$TXT
 	.word	qt_blocki
 #
 # Handle saving and restoring the FPU regs, relying on qt_blocki
 # to save and restore the remaining registers.
 #
         .text
 qt_block$TXT:
 	finop			; cxnop			# entry prefix
 	finop			; cxnop			# entry prefix

 	add8.ntr 29,%i31,%i31	; movi8 512,%c5		# ICR; stk adjust
 	finop			; ssub8.ntr 0,%sp,%c5,%sp
 	finop			; st8 %fp,504(%sp)	# Save caller's fp
 	finop			; st8 %cp,496(%sp)	# Save caller's cp
 	finop			; st8 %c14,488(%sp)	# store ret addr
 	finop			; sadd8.ntr 0,%sp,%c5,%fp # Our frame ptr
 	finop			; mov8_8 %c10, %cp	# Our cp

 #
 # Store 8 registers at once...destination must be a multiple of 64
 #
 	finop			; st64 %f16,384(%sp)
 	finop			; st64 %f24,320(%sp)
 	finop			; st64 %f32,256(%sp)
 	finop			; st64 %f40,192(%sp)
 	finop			; st64 %f48,128(%sp)
 	finop			; st64 %f56,64(%sp)

 #
 # Call the integer blocking routine, passing the arguments passed to us
 #
 	finop			; ld8 24(%cp), %c10
 	finop			; cxnop
 	finop			; jsr %c14, qt_blocki$TXT
 	finop			; cxnop
 	finop			; cxnop
 	movi8 4,%i0		; movi8 0,%c8		# nargs brain dmg

 #
 # Load 8 registers at once...source must be a multiple of 64
 #
 	finop			; ld64 64(%sp),%f56
 	finop			; ld64 128(%sp),%f48
 	finop			; ld64 192(%sp),%f40
 	finop			; ld64 256(%sp),%f32
 	finop			; ld64 320(%sp),%f24
 	finop			; ld64 384(%sp),%f16

 	finop			; ld8 488(%sp),%c14
 	finop			; ld8 496(%sp),%cp
 	finop			; ld8 504(%sp),%fp
 	finop			; jmp 32(%c14)		# jump back to thread
 	finop			; movi8 512,%c5		# stack adjust
 	finop			; sadd8.ntr 0,%sp,%c5,%sp


         .data
 	.half 0x0, 0x0, 0x7ffff000, 0x7fff8000
 qt_start:
 	.word qt_start$TXT
 #
 # A new thread is set up to "appear" as if it were executing code at
 # the beginning of qt_start and then it called a blocking routine
 # (qt_blocki).  So when a new thread starts to run, it gets unblocked
 # by the code above and "returns" to `qt_start$TXT' in the
 # restore step of the switch.  Blocked threads jump to 16(qt_restore$TXT),
 # and starting threads jump to 16(qt_start$TXT).
 #
         .text
 qt_start$TXT:
 	finop			; cxnop			#
 	finop			; cxnop			#
 	finop			; ld8 40(%sp),%c10	# `only' constant block
 	finop			; ld8 32(%sp),%i4	# `userf' arg.
 	finop			; ld8 24(%sp),%i3	# `t' arg.
 	finop			; ld8 0(%c10),%c4	# `only' text location
 	finop			; ld8 16(%sp),%i2	# `u' arg.
 	finop			; cxnop
 	finop			; jsr %c14,16(%c4)	# call `only'
 #
 # Pop the frame used to store the thread's initial data
 #
 	finop			; sadd8.ntr 0,%sp,128,%sp
 	finop			; cxnop
 	movi8 2,%i0		; movi8 0,%c8		# nargs brain dmg
 #
 # If we ever return, it's an error.
 #
 	finop			; jmp qt_error$TXT
 	finop			; cxnop
 	finop			; cxnop
 	movi8 0,%i0		; movi8 0,%c8		# nargs brain dmg


 #
 # This stuff is broken
 #
         .data
 	.half 0x0, 0x0, 0x7ffff000, 0x7fff8000
 qt_vstart:
 	.word qt_vstart$TXT

 	.text
 qt_vstart$TXT:
 	finop			; cxnop			# entry prefix
 	finop			; cxnop			# entry prefix
 	finop			; cxnop
 	finop			; cxnop
 	add8.ntr 11,%i31,%i31	; movi8 512,%c5
 	finop			; ssub8.ntr 0,%sp,%c5,%sp	# fix stack
 	finop			; ld8 8(%sp),%i2	# load `t' as arg to
 	finop			; cxnop			# `startup'
 	finop			; cxnop
 	finop			; ld8 16(%sp),%c10	# `startup' const block
 	finop			; cxnop
 	finop			; cxnop
 	finop			; ld8 0(%c10),%c4	# `startup' text loc.
 	finop			; cxnop
 	finop			; cxnop
 	finop			; jsr %c14,16(%c4)	# call `startup'
 	finop			; cxnop
 	finop			; cxnop
 	movi8 1, %i0		; movi8 0,%c8		# nargs brain dmg
 #
 #	finop			; sadd 0,%sp,128,%sp	# alter stack
 #
 	finop			; ld8 8(%sp),%i2	# load `t' as arg to
 	finop			; ld8 8(%sp),%i2	# load `t' as arg to
 	finop			; ld8 8(%sp),%i2	# load `t' as arg to
 	finop			; ld8 8(%sp),%i2	# load `t' as arg to

 	finop			; ld8 32(%sp),%c10	# `only' constant block
 	finop			; ld8 8(%sp),%i2	# `u' arg.
 	finop			; ld8 16(%sp),%i3	# `t' arg.
 	finop			; ld8 0(%c10),%c4	# `only' text location
 	finop			; ld8 24(%sp),%i4	# `userf' arg.
 	finop			; cxnop
 	finop			; jsr %c4,16(%c4)	# call `only'
 	finop			; cxnop
 	finop			; cxnop
 #
 # If the callee ever calls `nargs', the following instruction (pair)
 # will be executed.  However, we don't know when we compile this code
 # how many args are being passed.  So we give our best guess: 0.
 #
 	movi8 0,%i0		; movi8 0,%c8		# nargs brain dmg
 #
 # If we ever return, it's an error.
 #
 	finop			; jmp qt_error$TXT
 	finop			; cxnop
 	finop			; cxnop
 	movi8 0,%i0		; movi8 0,%c8		# nargs brain dmg
	/*
	* QuickThreads -- Threads-building toolkit.
	* Copyright (c) 1993 by David Keppel
	*
	* Permission to use, copy, modify and distribute this software and
	* its documentation for any purpose and without fee is hereby
	* granted, provided that the above copyright notice and this notice
	* appear in all copies. This software is provided as a
	* proof-of-concept and for demonstration purposes; there is no
	* representation about the suitability of this software for any
	* purpose.
	*/

	.file "ksr1.s"
	.def .debug; .endef

	.align 128
	.globl qt_blocki
	.globl qt_blocki$TXT
	.globl qt_block
	.globl qt_block$TXT
	.globl qt_start$TXT
	.globl qt_start
	.globl qt_abort$TXT
	.globl qt_abort
	.globl qt_vstart
	.globl qt_vstart$TXT

	#
	# KSR convention: on procedure calls, load both the procedure address
	# and a pointer to a constant block. The address of function `f' is
	# `f$TXT', and the constant block address is `f'. The constant block
	# has several reserved values:
	#
	# 8 bytes fpu register save mask
	# 4 bytes ipu register save mask
	# 4 bytes ceu register save mask
	# f: f$TXT
	# ... whatever you want ... (not quite...read on)
	#
	# Note, by the way, that a pointer to a function is passed as a
	# pointer to the constant area, and the constant area has the text
	# address.
	#

	#
	# Procedures that do not return structures prefix their code with
	#
	# proc$TXT:
	# finop; cxnop
	# finop; cxnop
	# <proc code>
	#
	# Calls to those procedures branch to a 16 byte offset (4 instrs) in
	# to the procedure to skip those instructions.
	#
	# Procedures that return structures use a different code prefix:
	#
	# proc$TXT:
	# finop; beq.qt %rc, %rc, 24 # return value entry
	# finop; cxnop
	# finop; movi8 0, %rc # no return value entry
	# <proc code>
	#
	# Calls that want the returned structure branch directly to the
	# procedure address. Callers that don't want (or aren't expecting) a
	# return value branche 16 bytes in to the procedure, which will zero
	# %rc, telling the called procedure not to return a structure.
	#

	#
	# On entry:
	# %i2 -- control block of helper function to run
	# (dereference to get helper)
	# %i3 -- a1
	# %i4 -- a2
	# %i5 -- sp of new to run
	#

	.data
	.half 0x0, 0x0, 0x7ffff000, 0x7fff8000
	qt_blocki:
	qt_abort:
	.word qt_blocki$TXT
	.word qt_restore$TXT

	.text
	qt_abort$TXT:
	qt_blocki$TXT:
	finop ; cxnop # entry prefix
	finop ; cxnop # entry prefix
	add8.ntr 75,%i31,%i31 ; movi8 512,%c5 # ICR; stk adjust
	finop ; ssub8.ntr 0,%sp,%c5,%sp
	finop ; st8 %fp,504(%sp) # Save caller's fp
	finop ; st8 %cp,496(%sp) # Save caller's cp
	finop ; ld8 8(%c10),%c5 # ld qt_restore$TXT
	finop ; st8 %c14,0(%sp) # Save special ret addr
	finop ; mov8_8 %c10, %cp # Our cp
	finop ; sadd8.ntr 0,%sp,%c5,%fp # Our frame ptr
	finop ; st8 %c5,8(%sp) # st qt_restore$TXT
	#
	# CEU registers %c15-%c24, %c26-%c30 (%c14 we restore later)
	#
	finop ; st8 %c15,456(%sp)
	finop ; st8 %c16,448(%sp)
	finop ; st8 %c17,440(%sp)
	finop ; st8 %c18,432(%sp)
	finop ; st8 %c19,424(%sp)
	finop ; st8 %c20,416(%sp)
	finop ; st8 %c21,408(%sp)
	finop ; st8 %c22,400(%sp)
	finop ; st8 %c23,392(%sp)
	finop ; st8 %c24,384(%sp)
	#
	# %c25 is the Enclosing Frame Pointer (EFP) -- since C doesn't
	# use nested procedures, we ignore it (leaving a gap, though)
	#
	finop ; st8 %c26,368(%sp)
	finop ; st8 %c27,360(%sp)
	finop ; st8 %c28,352(%sp)
	finop ; st8 %c29,344(%sp)
	finop ; st8 %c30,336(%sp)
	#
	# IPU registers %i12-%i30
	#
	finop ; st8 %i12,328(%sp)
	finop ; st8 %i13,320(%sp)
	finop ; st8 %i14,312(%sp)
	finop ; st8 %i15,304(%sp)
	# (gap to get alignment for st64)
	# -- Doesn't work on version 1.1.3 of the OS
	# finop ; st64 %i16,256(%sp)

	finop ; st8 %i16,256(%sp)
	finop ; st8 %i17,248(%sp)
	finop ; st8 %i18,240(%sp)
	finop ; st8 %i19,232(%sp)
	finop ; st8 %i20,224(%sp)
	finop ; st8 %i21,216(%sp)
	finop ; st8 %i22,208(%sp)
	finop ; st8 %i23,200(%sp)
	finop ; st8 %i24,192(%sp)
	finop ; st8 %i25,184(%sp)
	finop ; st8 %i26,176(%sp)
	finop ; st8 %i27,168(%sp)
	finop ; st8 %i28,160(%sp)
	finop ; st8 %i29,152(%sp)
	finop ; st8 %i30,144(%sp)
	#
	# FPU already saved, or saving not necessary
	#

	#
	# Switch to the stack passed in as fourth argument to the block
	# routine (%i5) and call the helper routine passed in as the first
	# argument (%i2). Note that the address of the helper's constant
	# block is passed in, so we must derefence it to get the helper's text
	# address.
	#
	finop ; movb8_8 %i2,%c10 # helper's ConstBlock
	finop ; cxnop # Delay slot, fill w/
	finop ; cxnop # .. 2 st8 from above
	finop ; ld8 0(%c10),%c4 # load addr of helper
	finop ; movb8_8 %sp, %i2 # 1st arg to helper
	# is this stack; other
	# args remain in regs
	finop ; movb8_8 %i5,%sp # switch stacks
	finop ; jsr %c14,16(%c4) # call helper
	movi8 3, %i0 ; movi8 0,%c8 # nargs brain dmg
	finop ; cxnop
	finop ; cxnop
	#
	# Here is where behavior differs for threads being restored and threads
	# being started. Blocked threads have a pointer to qt_restore$TXT on
	# the top of their stacks; manufactured stacks have a pointer to qt_start$TXT
	# on the top of their stacks. With this setup, starting threads
	# skip the (unecessary) restore operations.
	#
	# We jump to an offset of 16 to either (1) skip past the two noop pairs
	# at the start of qt_start$TXT, or (2) skip past the two noop pairs
	# after qt_restore$TXT.
	#
	finop ; ld8 8(%sp),%c4
	finop ; cxnop
	finop ; cxnop
	finop ; jmp 16(%c4)
	qt_restore$TXT:
	finop ; cxnop
	finop ; cxnop
	#
	# Point of Restore:
	#
	# The helper funtion will return here. Any result it has placed in
	# a return register (most likely %i0) will not get overwritten below
	# and will consequently be the return value of the blocking routine.
	#

	#
	# CEU registers %c15-%c24, %c26-%c30 (%c14 we restore later)
	#
	finop ; ld8 456(%sp),%c15
	finop ; ld8 448(%sp),%c16
	finop ; ld8 440(%sp),%c17
	finop ; ld8 432(%sp),%c18
	finop ; ld8 424(%sp),%c19
	finop ; ld8 416(%sp),%c20
	finop ; ld8 408(%sp),%c21
	finop ; ld8 400(%sp),%c22
	finop ; ld8 392(%sp),%c23
	finop ; ld8 384(%sp),%c24
	#
	# %c25 is the Enclosing Frame Pointer (EFP) -- since C doesn't
	# use nested procedures, we ignore it (leaving a gap, though)
	#
	finop ; ld8 368(%sp),%c26
	finop ; ld8 360(%sp),%c27
	finop ; ld8 352(%sp),%c28
	finop ; ld8 344(%sp),%c29
	finop ; ld8 336(%sp),%c30
	#
	# IPU registers %i12-%i30
	#
	finop ; ld8 328(%sp),%i12
	finop ; ld8 320(%sp),%i13
	finop ; ld8 312(%sp),%i14
	finop ; ld8 304(%sp),%i15
	# (gap to get alignment for ld64)
	# -- Doesn't work on version 1.1.3 of the OS
	# finop ; ld64 256(%sp),%i16

	finop ; ld8 256(%sp),%i16
	finop ; ld8 248(%sp),%i17
	finop ; ld8 240(%sp),%i18
	finop ; ld8 232(%sp),%i19
	finop ; ld8 224(%sp),%i20
	finop ; ld8 216(%sp),%i21
	finop ; ld8 208(%sp),%i22
	finop ; ld8 200(%sp),%i23
	finop ; ld8 192(%sp),%i24
	finop ; ld8 184(%sp),%i25
	finop ; ld8 176(%sp),%i26
	finop ; ld8 168(%sp),%i27
	finop ; ld8 160(%sp),%i28
	finop ; ld8 152(%sp),%i29
	finop ; ld8 144(%sp),%i30

	#
	# FPU registers don't need to be loaded, or will be loaded by an
	# enclosing scope (e.g., if this is called by qt_block).
	#

	#
	# Load the special registers. We don't load the stack ptr because
	# the new stack is passed in as an argument, we don't load the EFP
	# because we don't use it, and we load the return address specially
	# off the top of the stack.
	#
	finop ; ld8 0(%sp),%c14 # return addr
	finop ; ld8 496(%sp),%cp
	finop ; ld8 504(%sp),%fp

	finop ; jmp 32(%c14) # jump back to thread
	finop ; movi8 512,%c5 # stack adjust
	finop ; sadd8.ntr 0,%sp,%c5,%sp

	.data
	.half 0x0, 0x0, 0x7ffff000, 0x7fff8000
	qt_block:
	.word qt_block$TXT
	.word qt_error
	.word qt_error$TXT
	.word qt_blocki
	#
	# Handle saving and restoring the FPU regs, relying on qt_blocki
	# to save and restore the remaining registers.
	#
	.text
	qt_block$TXT:
	finop ; cxnop # entry prefix
	finop ; cxnop # entry prefix

	add8.ntr 29,%i31,%i31 ; movi8 512,%c5 # ICR; stk adjust
	finop ; ssub8.ntr 0,%sp,%c5,%sp
	finop ; st8 %fp,504(%sp) # Save caller's fp
	finop ; st8 %cp,496(%sp) # Save caller's cp
	finop ; st8 %c14,488(%sp) # store ret addr
	finop ; sadd8.ntr 0,%sp,%c5,%fp # Our frame ptr
	finop ; mov8_8 %c10, %cp # Our cp

	#
	# Store 8 registers at once...destination must be a multiple of 64
	#
	finop ; st64 %f16,384(%sp)
	finop ; st64 %f24,320(%sp)
	finop ; st64 %f32,256(%sp)
	finop ; st64 %f40,192(%sp)
	finop ; st64 %f48,128(%sp)
	finop ; st64 %f56,64(%sp)

	#
	# Call the integer blocking routine, passing the arguments passed to us
	#
	finop ; ld8 24(%cp), %c10
	finop ; cxnop
	finop ; jsr %c14, qt_blocki$TXT
	finop ; cxnop
	finop ; cxnop
	movi8 4,%i0 ; movi8 0,%c8 # nargs brain dmg

	#
	# Load 8 registers at once...source must be a multiple of 64
	#
	finop ; ld64 64(%sp),%f56
	finop ; ld64 128(%sp),%f48
	finop ; ld64 192(%sp),%f40
	finop ; ld64 256(%sp),%f32
	finop ; ld64 320(%sp),%f24
	finop ; ld64 384(%sp),%f16

	finop ; ld8 488(%sp),%c14
	finop ; ld8 496(%sp),%cp
	finop ; ld8 504(%sp),%fp
	finop ; jmp 32(%c14) # jump back to thread
	finop ; movi8 512,%c5 # stack adjust
	finop ; sadd8.ntr 0,%sp,%c5,%sp


	.data
	.half 0x0, 0x0, 0x7ffff000, 0x7fff8000
	qt_start:
	.word qt_start$TXT
	#
	# A new thread is set up to "appear" as if it were executing code at
	# the beginning of qt_start and then it called a blocking routine
	# (qt_blocki). So when a new thread starts to run, it gets unblocked
	# by the code above and "returns" to `qt_start$TXT' in the
	# restore step of the switch. Blocked threads jump to 16(qt_restore$TXT),
	# and starting threads jump to 16(qt_start$TXT).
	#
	.text
	qt_start$TXT:
	finop ; cxnop #
	finop ; cxnop #
	finop ; ld8 40(%sp),%c10 # `only' constant block
	finop ; ld8 32(%sp),%i4 # `userf' arg.
	finop ; ld8 24(%sp),%i3 # `t' arg.
	finop ; ld8 0(%c10),%c4 # `only' text location
	finop ; ld8 16(%sp),%i2 # `u' arg.
	finop ; cxnop
	finop ; jsr %c14,16(%c4) # call `only'
	#
	# Pop the frame used to store the thread's initial data
	#
	finop ; sadd8.ntr 0,%sp,128,%sp
	finop ; cxnop
	movi8 2,%i0 ; movi8 0,%c8 # nargs brain dmg
	#
	# If we ever return, it's an error.
	#
	finop ; jmp qt_error$TXT
	finop ; cxnop
	finop ; cxnop
	movi8 0,%i0 ; movi8 0,%c8 # nargs brain dmg


	#
	# This stuff is broken
	#
	.data
	.half 0x0, 0x0, 0x7ffff000, 0x7fff8000
	qt_vstart:
	.word qt_vstart$TXT

	.text
	qt_vstart$TXT:
	finop ; cxnop # entry prefix
	finop ; cxnop # entry prefix
	finop ; cxnop
	finop ; cxnop
	add8.ntr 11,%i31,%i31 ; movi8 512,%c5
	finop ; ssub8.ntr 0,%sp,%c5,%sp # fix stack
	finop ; ld8 8(%sp),%i2 # load `t' as arg to
	finop ; cxnop # `startup'
	finop ; cxnop
	finop ; ld8 16(%sp),%c10 # `startup' const block
	finop ; cxnop
	finop ; cxnop
	finop ; ld8 0(%c10),%c4 # `startup' text loc.
	finop ; cxnop
	finop ; cxnop
	finop ; jsr %c14,16(%c4) # call `startup'
	finop ; cxnop
	finop ; cxnop
	movi8 1, %i0 ; movi8 0,%c8 # nargs brain dmg
	#
	# finop ; sadd 0,%sp,128,%sp # alter stack
	#
	finop ; ld8 8(%sp),%i2 # load `t' as arg to
	finop ; ld8 8(%sp),%i2 # load `t' as arg to
	finop ; ld8 8(%sp),%i2 # load `t' as arg to
	finop ; ld8 8(%sp),%i2 # load `t' as arg to

	finop ; ld8 32(%sp),%c10 # `only' constant block
	finop ; ld8 8(%sp),%i2 # `u' arg.
	finop ; ld8 16(%sp),%i3 # `t' arg.
	finop ; ld8 0(%c10),%c4 # `only' text location
	finop ; ld8 24(%sp),%i4 # `userf' arg.
	finop ; cxnop
	finop ; jsr %c4,16(%c4) # call `only'
	finop ; cxnop
	finop ; cxnop
	#
	# If the callee ever calls `nargs', the following instruction (pair)
	# will be executed. However, we don't know when we compile this code
	# how many args are being passed. So we give our best guess: 0.
	#
	movi8 0,%i0 ; movi8 0,%c8 # nargs brain dmg
	#
	# If we ever return, it's an error.
	#
	finop ; jmp qt_error$TXT
	finop ; cxnop
	finop ; cxnop
	movi8 0,%i0 ; movi8 0,%c8 # nargs brain dmg