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guile/libguile/continuations.c
Andy Wingo 9ede013f68 the dynamic stack is really a stack now, instead of a list 
* libguile/dynstack.h:
* libguile/dynstack.c: New files, implementing the dynamic stack as a
  true stack instead of a linked list.  This lowers the cost of
  dynwinds: frames, winders, prompts, with-fluids, and dynamic-wind.
  For the most part, we allocate these items directly on the stack.

* libguile/dynwinds.h:
* libguile/dynwinds.c: Adapt all manipulators of the wind stack to use
  interfaces from dynstack.c.  Remove heap-allocated winder and frame
  object types.
  (scm_dowinds, scm_i_dowinds): Remove these.  The first was exported,
  but it was not a public interface.

* libguile/continuations.c:
* libguile/continuations.h (scm_t_contregs): Continuation objects
  reference scm_t_dynstack* values now.  Adapt to the new interfaces.

* libguile/control.c:
* libguile/control.h: There is no longer a scm_tc7_prompt kind of object
  that can be allocated on the heap.  Instead, the prompt flags, key,
  and registers are pushed on the dynwind stack.  (The registers are
  still on the heap.)  Also, since the vm_cont will reference the
  dynwinds, make the partial continuation stub take just one extra arg,
  instead of storing the intwinds separately in the object table.

* libguile/fluids.c:
* libguile/fluids.h: No more with-fluids objects; instead, the fluids go
  on the dynstack.  The values still have to be on the heap, though.
  (scm_prepare_fluids, scm_swap_fluids): New internal functions,
  replacing scm_i_make_with_fluids and scm_i_swap_with_fluids.

* libguile/print.c: Remove prompt and with-fluids printers.

* libguile/tags.h: Revert prompt and with-fluids tc7 values to what they
  were before they were allocated.

* libguile/vm-i-system.c (partial_cont_call): Just pop the vmcont, the
  intwinds will not be passed as a second arg.  Rewind the dynamic stack
  from within the VM, so that any rewinder sees valid prompt entries.
  (call_cc, tail_call_cc): Adapt to pass the dynstack to
  scm_i_vm_capture_stack.
  (prompt, wind, unwind, wind_fluids, unwind_fluids): Adapt to the new
  interfaces.

* libguile/vm.h (scm_i_capture_current_stack): Rename from
  scm_i_vm_capture_continuation.
  (scm_i_vm_capture_stack): Take a dynstack as an argument.
* libguile/vm.c (vm_reinstate_partial_continuation): Don't wind here, as
  that could result in winders seeing invalid prompts.

* libguile/eval.c:
* libguile/root.c:
* libguile/stacks.c:
* libguile/threads.c:
* libguile/threads.h:
* libguile/throw.c: Adapt other users of dynwinds to use the dynstack.
2012-03-03 17:06:02 +01:00

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/* Copyright (C) 1995,1996,1998,2000,2001,2004, 2006, 2008, 2009, 2010, 2011, 2012 Free Software Foundation, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public License
* as published by the Free Software Foundation; either version 3 of
* the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301 USA
*/
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include "libguile/_scm.h"
#include <assert.h>
#include <string.h>
#include <stdio.h>
#include "libguile/async.h"
#include "libguile/debug.h"
#include "libguile/root.h"
#include "libguile/stackchk.h"
#include "libguile/smob.h"
#include "libguile/ports.h"
#include "libguile/dynstack.h"
#include "libguile/eval.h"
#include "libguile/vm.h"
#include "libguile/instructions.h"
#include "libguile/validate.h"
#include "libguile/continuations.h"
static scm_t_bits tc16_continuation;
#define SCM_CONTREGSP(x) SCM_TYP16_PREDICATE (tc16_continuation, x)
#define SCM_CONTREGS(x) ((scm_t_contregs *) SCM_SMOB_DATA_1 (x))
#define SCM_CONTINUATION_LENGTH(x) (SCM_CONTREGS (x)->num_stack_items)
#define SCM_SET_CONTINUATION_LENGTH(x, n)\
(SCM_CONTREGS (x)->num_stack_items = (n))
#define SCM_JMPBUF(x) ((SCM_CONTREGS (x))->jmpbuf)
#define SCM_CONTINUATION_ROOT(x) ((SCM_CONTREGS (x))->root)
#define SCM_DFRAME(x) ((SCM_CONTREGS (x))->dframe)
/* scm_i_make_continuation will return a procedure whose objcode contains an
instruction to reinstate the continuation. Here, as in gsubr.c and smob.c, we
define the form of that trampoline function.
*/
#ifdef WORDS_BIGENDIAN
#define OBJCODE_HEADER(main,meta) 0, 0, 0, main, 0, 0, 0, meta+8
#define META_HEADER(meta) 0, 0, 0, meta, 0, 0, 0, 0
#else
#define OBJCODE_HEADER(main,meta) main, 0, 0, 0, meta+8, 0, 0, 0
#define META_HEADER(meta) meta, 0, 0, 0, 0, 0, 0, 0
#endif
#define OBJCODE_TAG SCM_MAKE_OBJCODE_TAG (SCM_OBJCODE_TYPE_STATIC, 0)
#if defined (SCM_ALIGNED) && 0
#define SCM_DECLARE_STATIC_ALIGNED_ARRAY(type, sym) \
static const type sym[]
#define SCM_STATIC_ALIGNED_ARRAY(alignment, type, sym) \
static SCM_ALIGNED (alignment) const type sym[]
#define SCM_STATIC_OBJCODE(sym) \
SCM_DECLARE_STATIC_ALIGNED_ARRAY (scm_t_uint8, sym##__bytecode); \
SCM_STATIC_ALIGNED_ARRAY (8, scm_t_cell, sym##__cells) = { \
{ SCM_PACK (OBJCODE_TAG), SCM_PACK (sym##__bytecode) }, \
{ SCM_BOOL_F, SCM_PACK (0) } \
}; \
static const SCM sym = SCM_PACK (sym##__cells); \
SCM_STATIC_ALIGNED_ARRAY (8, scm_t_uint8, sym##__bytecode)
#else
#define SCM_STATIC_OBJCODE(sym) \
static SCM sym; \
static scm_t_uint8 *sym##_bytecode; \
SCM_SNARF_INIT(sym##_bytecode = scm_gc_malloc_pointerless (sizeof(sym##_bytecode__unaligned), "partial continuation stub"); \
memcpy (sym##_bytecode, sym##_bytecode__unaligned, sizeof(sym##_bytecode__unaligned));) \
SCM_SNARF_INIT(sym = scm_double_cell (OBJCODE_TAG, \
(scm_t_bits)sym##_bytecode, \
SCM_UNPACK (SCM_BOOL_F), \
0);) \
static const scm_t_uint8 sym##_bytecode__unaligned[]
#endif
SCM_STATIC_OBJCODE (cont_objcode) = {
/* This code is the same as in gsubr.c, except we use continuation_call
instead of subr_call. */
OBJCODE_HEADER (8, 19),
/* leave args on the stack */
/* 0 */ scm_op_object_ref, 0, /* push scm_t_contregs smob */
/* 2 */ scm_op_continuation_call, /* and longjmp (whee) */
/* 3 */ scm_op_nop, /* pad to 8 bytes */
/* 4 */ scm_op_nop, scm_op_nop, scm_op_nop, scm_op_nop,
/* 8 */
/* We could put some meta-info to say that this proc is a continuation. Not sure
how to do that, though. */
META_HEADER (19),
/* 0 */ scm_op_make_eol, /* bindings */
/* 1 */ scm_op_make_eol, /* sources */
/* 2 */ scm_op_make_int8, 0, scm_op_make_int8, 3, /* arity: from ip 0 to ip 3 */
/* 6 */ scm_op_make_int8_0, /* the arity is 0 required args */
/* 7 */ scm_op_make_int8_0, /* 0 optionals */
/* 8 */ scm_op_make_true, /* and a rest arg */
/* 9 */ scm_op_list, 0, 5, /* make a list of those 5 vals */
/* 12 */ scm_op_list, 0, 1, /* and the arities will be a list of that one list */
/* 15 */ scm_op_list, 0, 3, /* pack bindings, sources, and arities into list */
/* 18 */ scm_op_return /* and return */
/* 19 */
};
SCM_STATIC_OBJCODE (call_cc_objcode) = {
/* Before Scheme's call/cc is compiled, eval.c will use this hand-coded
call/cc. */
OBJCODE_HEADER (8, 17),
/* 0 */ scm_op_assert_nargs_ee, 0, 1, /* assert that nargs==1 */
/* 3 */ scm_op_local_ref, 0, /* push the proc */
/* 5 */ scm_op_tail_call_cc, /* and call/cc */
/* 6 */ scm_op_nop, scm_op_nop, /* pad to 8 bytes */
/* 8 */
META_HEADER (17),
/* 0 */ scm_op_make_eol, /* bindings */
/* 1 */ scm_op_make_eol, /* sources */
/* 2 */ scm_op_make_int8, 3, scm_op_make_int8, 6, /* arity: from ip 0 to ip 6 */
/* 6 */ scm_op_make_int8_1, /* the arity is 0 required args */
/* 7 */ scm_op_list, 0, 3, /* make a list of those 5 vals */
/* 10 */ scm_op_list, 0, 1, /* and the arities will be a list of that one list */
/* 13 */ scm_op_list, 0, 3, /* pack bindings, sources, and arities into list */
/* 16 */ scm_op_return /* and return */
/* 17 */
};
static SCM
make_continuation_trampoline (SCM contregs)
{
SCM ret = scm_make_program (cont_objcode,
scm_c_make_vector (1, contregs),
SCM_BOOL_F);
SCM_SET_CELL_WORD_0 (ret,
SCM_CELL_WORD_0 (ret) | SCM_F_PROGRAM_IS_CONTINUATION);
return ret;
}
/* {Continuations}
*/
static int
continuation_print (SCM obj, SCM port, scm_print_state *state SCM_UNUSED)
{
scm_t_contregs *continuation = SCM_CONTREGS (obj);
scm_puts_unlocked ("#<continuation ", port);
scm_intprint (continuation->num_stack_items, 10, port);
scm_puts_unlocked (" @ ", port);
scm_uintprint (SCM_SMOB_DATA_1 (obj), 16, port);
scm_putc_unlocked ('>', port);
return 1;
}
/* James Clark came up with this neat one instruction fix for
* continuations on the SPARC. It flushes the register windows so
* that all the state of the process is contained in the stack.
*/
#if defined (sparc) || defined (__sparc__) || defined (__sparc)
# define SCM_FLUSH_REGISTER_WINDOWS asm("ta 3")
#else
# define SCM_FLUSH_REGISTER_WINDOWS /* empty */
#endif
/* this may return more than once: the first time with the escape
procedure, then subsequently with SCM_UNDEFINED (the vals already having been
placed on the VM stack). */
#define FUNC_NAME "scm_i_make_continuation"
SCM
scm_i_make_continuation (int *first, SCM vm, SCM vm_cont)
{
scm_i_thread *thread = SCM_I_CURRENT_THREAD;
SCM cont;
scm_t_contregs *continuation;
long stack_size;
SCM_STACKITEM * src;
SCM_FLUSH_REGISTER_WINDOWS;
stack_size = scm_stack_size (thread->continuation_base);
continuation = scm_gc_malloc (sizeof (scm_t_contregs)
+ (stack_size - 1) * sizeof (SCM_STACKITEM),
"continuation");
continuation->num_stack_items = stack_size;
continuation->root = thread->continuation_root;
src = thread->continuation_base;
#if ! SCM_STACK_GROWS_UP
src -= stack_size;
#endif
continuation->offset = continuation->stack - src;
memcpy (continuation->stack, src, sizeof (SCM_STACKITEM) * stack_size);
continuation->vm = vm;
continuation->vm_cont = vm_cont;
SCM_NEWSMOB (cont, tc16_continuation, continuation);
*first = !SCM_I_SETJMP (continuation->jmpbuf);
if (*first)
{
#ifdef __ia64__
continuation->backing_store_size =
(char *) scm_ia64_ar_bsp(&continuation->jmpbuf.ctx)
-
(char *) thread->register_backing_store_base;
continuation->backing_store = NULL;
continuation->backing_store =
scm_gc_malloc (continuation->backing_store_size,
"continuation backing store");
memcpy (continuation->backing_store,
(void *) thread->register_backing_store_base,
continuation->backing_store_size);
#endif /* __ia64__ */
return make_continuation_trampoline (cont);
}
else
return SCM_UNDEFINED;
}
#undef FUNC_NAME
SCM
scm_i_call_with_current_continuation (SCM proc)
{
static SCM call_cc = SCM_BOOL_F;
if (scm_is_false (call_cc))
call_cc = scm_make_program (call_cc_objcode, SCM_BOOL_F, SCM_BOOL_F);
return scm_call_1 (call_cc, proc);
}
SCM
scm_i_continuation_to_frame (SCM continuation)
{
SCM contregs;
scm_t_contregs *cont;
contregs = scm_c_vector_ref (scm_program_objects (continuation), 0);
cont = SCM_CONTREGS (contregs);
if (scm_is_true (cont->vm_cont))
{
struct scm_vm_cont *data = SCM_VM_CONT_DATA (cont->vm_cont);
return scm_c_make_frame (cont->vm_cont,
data->fp + data->reloc,
data->sp + data->reloc,
data->ra,
data->reloc);
}
else
return SCM_BOOL_F;
}
SCM
scm_i_contregs_vm (SCM contregs)
{
return SCM_CONTREGS (contregs)->vm;
}
SCM
scm_i_contregs_vm_cont (SCM contregs)
{
return SCM_CONTREGS (contregs)->vm_cont;
}
/* {Apply}
*/
/* Invoking a continuation proceeds as follows:
*
* - the stack is made large enough for the called continuation
* - the old windchain is unwound down to the branching point
* - the continuation stack is copied into place
* - the windchain is rewound up to the continuation's context
* - the continuation is invoked via longjmp (or setcontext)
*
* This order is important so that unwind and rewind handlers are run
* with their correct stack.
*/
static void scm_dynthrow (SCM);
/* Grow the stack by a fixed amount to provide space to copy in the
* continuation. Possibly this function has to be called several times
* recursively before enough space is available. Make sure the compiler does
* not optimize the growth array away by storing it's address into a global
* variable.
*/
static scm_t_bits scm_i_dummy;
static void
grow_stack (SCM cont)
{
scm_t_bits growth[100];
scm_i_dummy = (scm_t_bits) growth;
scm_dynthrow (cont);
}
/* Copy the continuation stack into the current stack. Calling functions from
* within this function is safe, since only stack frames below this function's
* own frame are overwritten. Thus, memcpy can be used for best performance.
*/
static void
copy_stack_and_call (scm_t_contregs *continuation,
SCM_STACKITEM * dst)
{
scm_t_dynstack *dynstack;
scm_t_bits *joint;
scm_i_thread *thread = SCM_I_CURRENT_THREAD;
dynstack = SCM_VM_CONT_DATA (continuation->vm_cont)->dynstack;
joint = scm_dynstack_unwind_fork (&thread->dynstack, dynstack);
memcpy (dst, continuation->stack,
sizeof (SCM_STACKITEM) * continuation->num_stack_items);
#ifdef __ia64__
thread->pending_rbs_continuation = continuation;
#endif
scm_dynstack_wind (&thread->dynstack, joint);
SCM_I_LONGJMP (continuation->jmpbuf, 1);
}
#ifdef __ia64__
void
scm_ia64_longjmp (scm_i_jmp_buf *JB, int VAL)
{
scm_i_thread *t = SCM_I_CURRENT_THREAD;
if (t->pending_rbs_continuation)
{
memcpy (t->register_backing_store_base,
t->pending_rbs_continuation->backing_store,
t->pending_rbs_continuation->backing_store_size);
t->pending_rbs_continuation = NULL;
}
setcontext (&JB->ctx);
}
#endif
/* Call grow_stack until the stack space is large enough, then, as the current
* stack frame might get overwritten, let copy_stack_and_call perform the
* actual copying and continuation calling.
*/
static void
scm_dynthrow (SCM cont)
{
scm_i_thread *thread = SCM_I_CURRENT_THREAD;
scm_t_contregs *continuation = SCM_CONTREGS (cont);
SCM_STACKITEM *dst = thread->continuation_base;
SCM_STACKITEM stack_top_element;
if (thread->critical_section_level)
{
fprintf (stderr, "continuation invoked from within critical section.\n");
abort ();
}
#if SCM_STACK_GROWS_UP
if (dst + continuation->num_stack_items >= &stack_top_element)
grow_stack (cont);
#else
dst -= continuation->num_stack_items;
if (dst <= &stack_top_element)
grow_stack (cont);
#endif /* def SCM_STACK_GROWS_UP */
SCM_FLUSH_REGISTER_WINDOWS;
copy_stack_and_call (continuation, dst);
}
void
scm_i_check_continuation (SCM cont)
{
scm_i_thread *thread = SCM_I_CURRENT_THREAD;
scm_t_contregs *continuation = SCM_CONTREGS (cont);
if (!scm_is_eq (continuation->root, thread->continuation_root))
scm_misc_error
("%continuation-call",
"invoking continuation would cross continuation barrier: ~A",
scm_list_1 (cont));
}
void
scm_i_reinstate_continuation (SCM cont)
{
scm_dynthrow (cont);
}
SCM
scm_i_with_continuation_barrier (scm_t_catch_body body,
void *body_data,
scm_t_catch_handler handler,
void *handler_data,
scm_t_catch_handler pre_unwind_handler,
void *pre_unwind_handler_data)
{
SCM_STACKITEM stack_item;
scm_i_thread *thread = SCM_I_CURRENT_THREAD;
SCM old_controot;
SCM_STACKITEM *old_contbase;
SCM result;
/* Establish a fresh continuation root.
*/
old_controot = thread->continuation_root;
old_contbase = thread->continuation_base;
thread->continuation_root = scm_cons (thread->handle, old_controot);
thread->continuation_base = &stack_item;
/* Call FUNC inside a catch all. This is now guaranteed to return
directly and exactly once.
*/
result = scm_c_catch (SCM_BOOL_T,
body, body_data,
handler, handler_data,
pre_unwind_handler, pre_unwind_handler_data);
/* Return to old continuation root.
*/
thread->continuation_base = old_contbase;
thread->continuation_root = old_controot;
return result;
}
static int
should_print_backtrace (SCM tag, SCM stack)
{
return SCM_BACKTRACE_P
&& scm_is_true (stack)
&& scm_initialized_p
/* It's generally not useful to print backtraces for errors reading
or expanding code in these fallback catch statements. */
&& !scm_is_eq (tag, scm_from_latin1_symbol ("read-error"))
&& !scm_is_eq (tag, scm_from_latin1_symbol ("syntax-error"));
}
static void
print_exception_and_backtrace (SCM port, SCM tag, SCM args)
{
SCM stack, frame;
/* We get here via a throw to a catch-all. In that case there is the
throw frame active, and this catch closure, so narrow by two
frames. */
stack = scm_make_stack (SCM_BOOL_T, scm_list_1 (scm_from_int (2)));
frame = scm_is_true (stack) ? scm_stack_ref (stack, SCM_INUM0) : SCM_BOOL_F;
if (should_print_backtrace (tag, stack))
{
scm_puts_unlocked ("Backtrace:\n", port);
scm_display_backtrace_with_highlights (stack, port,
SCM_BOOL_F, SCM_BOOL_F,
SCM_EOL);
scm_newline (port);
}
scm_print_exception (port, frame, tag, args);
}
struct c_data {
void *(*func) (void *);
void *data;
void *result;
};
static SCM
c_body (void *d)
{
struct c_data *data = (struct c_data *)d;
data->result = data->func (data->data);
return SCM_UNSPECIFIED;
}
static SCM
c_handler (void *d, SCM tag, SCM args)
{
struct c_data *data;
/* If TAG is `quit', exit() the process. */
if (scm_is_eq (tag, scm_from_latin1_symbol ("quit")))
exit (scm_exit_status (args));
data = (struct c_data *)d;
data->result = NULL;
return SCM_UNSPECIFIED;
}
static SCM
pre_unwind_handler (void *error_port, SCM tag, SCM args)
{
/* Print the exception unless TAG is `quit'. */
if (!scm_is_eq (tag, scm_from_latin1_symbol ("quit")))
print_exception_and_backtrace (SCM_PACK_POINTER (error_port), tag, args);
return SCM_UNSPECIFIED;
}
void *
scm_c_with_continuation_barrier (void *(*func) (void *), void *data)
{
struct c_data c_data;
c_data.func = func;
c_data.data = data;
scm_i_with_continuation_barrier (c_body, &c_data,
c_handler, &c_data,
pre_unwind_handler,
SCM_UNPACK_POINTER (scm_current_error_port ()));
return c_data.result;
}
struct scm_data {
SCM proc;
};
static SCM
scm_body (void *d)
{
struct scm_data *data = (struct scm_data *)d;
return scm_call_0 (data->proc);
}
static SCM
scm_handler (void *d, SCM tag, SCM args)
{
/* Print a message. Note that if TAG is `quit', this will exit() the
process. */
scm_handle_by_message_noexit (NULL, tag, args);
return SCM_BOOL_F;
}
SCM_DEFINE (scm_with_continuation_barrier, "with-continuation-barrier", 1,0,0,
(SCM proc),
"Call @var{proc} and return its result. Do not allow the invocation of\n"
"continuations that would leave or enter the dynamic extent of the call\n"
"to @code{with-continuation-barrier}. Such an attempt causes an error\n"
"to be signaled.\n"
"\n"
"Throws (such as errors) that are not caught from within @var{proc} are\n"
"caught by @code{with-continuation-barrier}. In that case, a short\n"
"message is printed to the current error port and @code{#f} is returned.\n"
"\n"
"Thus, @code{with-continuation-barrier} returns exactly once.\n")
#define FUNC_NAME s_scm_with_continuation_barrier
{
struct scm_data scm_data;
scm_data.proc = proc;
return scm_i_with_continuation_barrier (scm_body, &scm_data,
scm_handler, &scm_data,
pre_unwind_handler,
SCM_UNPACK_POINTER (scm_current_error_port ()));
}
#undef FUNC_NAME
void
scm_init_continuations ()
{
tc16_continuation = scm_make_smob_type ("continuation", 0);
scm_set_smob_print (tc16_continuation, continuation_print);
#include "libguile/continuations.x"
}
/*
Local Variables:
c-file-style: "gnu"
End:
*/
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