-/* Copyright (C) 2001,2008,2009,2010,2011 Free Software Foundation, Inc.
+/* Copyright (C) 2001,2008,2009,2010,2011,2012,2013 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
VM_DEFINE_INSTRUCTION (1, halt, "halt", 0, 0, 0)
{
- nvalues = SCM_I_INUM (*sp--);
+ SCM ret;
+ SCM nvalues_scm;
+
+ nvalues_scm = *sp--; /* SCM_I_INUM may evaluate its argument
+ more than once. */
+ nvalues = SCM_I_INUM (nvalues_scm);
NULLSTACK (1);
+
if (nvalues == 1)
- POP (finish_args);
+ POP (ret);
else
{
- POP_LIST (nvalues);
- POP (finish_args);
SYNC_REGISTER ();
- finish_args = scm_values (finish_args);
+ sp -= nvalues;
+ CHECK_UNDERFLOW ();
+ ret = scm_c_values (sp + 1, nvalues);
+ NULLSTACK (nvalues);
}
{
NULLSTACK (old_sp - sp);
}
- goto vm_done;
+ SYNC_ALL ();
+ return ret;
}
VM_DEFINE_INSTRUCTION (2, drop, "drop", 0, 1, 0)
unlike in top-variable-ref, it really isn't an internal assertion
that can be optimized out -- the variable could be coming directly
from the user. */
- if (SCM_UNLIKELY (!SCM_VARIABLEP (x)))
- {
- func_name = "variable-ref";
- finish_args = x;
- goto vm_error_not_a_variable;
- }
- else if (SCM_UNLIKELY (!VARIABLE_BOUNDP (x)))
+ VM_ASSERT (SCM_VARIABLEP (x),
+ vm_error_not_a_variable ("variable-ref", x));
+
+ if (SCM_UNLIKELY (!VARIABLE_BOUNDP (x)))
{
SCM var_name;
+ SYNC_ALL ();
/* Attempt to provide the variable name in the error message. */
var_name = scm_module_reverse_lookup (scm_current_module (), x);
- finish_args = scm_is_true (var_name) ? var_name : x;
- goto vm_error_unbound;
+ vm_error_unbound (program, scm_is_true (var_name) ? var_name : x);
}
else
{
{
SCM x = *sp;
- if (SCM_UNLIKELY (!SCM_VARIABLEP (x)))
- {
- func_name = "variable-bound?";
- finish_args = x;
- goto vm_error_not_a_variable;
- }
- else
- *sp = scm_from_bool (VARIABLE_BOUNDP (x));
+ VM_ASSERT (SCM_VARIABLEP (x),
+ vm_error_not_a_variable ("variable-bound?", x));
+
+ *sp = scm_from_bool (VARIABLE_BOUNDP (x));
NEXT;
}
{
SYNC_REGISTER ();
resolved = resolve_variable (what, scm_program_module (program));
- if (!VARIABLE_BOUNDP (resolved))
- {
- finish_args = what;
- goto vm_error_unbound;
- }
+ VM_ASSERT (VARIABLE_BOUNDP (resolved), vm_error_unbound (program, what));
what = resolved;
OBJECT_SET (objnum, what);
}
{
SYNC_REGISTER ();
resolved = resolve_variable (what, scm_program_module (program));
- if (!VARIABLE_BOUNDP (resolved))
- {
- finish_args = what;
- goto vm_error_unbound;
- }
+ VM_ASSERT (VARIABLE_BOUNDP (resolved),
+ vm_error_unbound (program, what));
what = resolved;
OBJECT_SET (objnum, what);
}
VM_DEFINE_INSTRUCTION (31, variable_set, "variable-set", 0, 2, 0)
{
- if (SCM_UNLIKELY (!SCM_VARIABLEP (sp[0])))
- {
- func_name = "variable-set!";
- finish_args = sp[0];
- goto vm_error_not_a_variable;
- }
+ VM_ASSERT (SCM_VARIABLEP (sp[0]),
+ vm_error_not_a_variable ("variable-set!", sp[0]));
VARIABLE_SET (sp[0], sp[-1]);
DROPN (2);
NEXT;
scm_t_ptrdiff n;
n = FETCH () << 8;
n += FETCH ();
- if (sp - (fp - 1) != n)
- goto vm_error_wrong_num_args;
+ VM_ASSERT (sp - (fp - 1) == n,
+ vm_error_wrong_num_args (program));
NEXT;
}
scm_t_ptrdiff n;
n = FETCH () << 8;
n += FETCH ();
- if (sp - (fp - 1) < n)
- goto vm_error_wrong_num_args;
+ VM_ASSERT (sp - (fp - 1) >= n,
+ vm_error_wrong_num_args (program));
NEXT;
}
NEXT;
}
+/* See also bind-optionals/shuffle-or-br below. */
+
/* Flags that determine whether other keywords are allowed, and whether a
rest argument is expected. These values must match those used by the
glil->assembly compiler. */
nkw += FETCH ();
kw_and_rest_flags = FETCH ();
- if (!(kw_and_rest_flags & F_REST)
- && ((sp - (fp - 1) - nkw) % 2))
- goto vm_error_kwargs_length_not_even;
+ VM_ASSERT ((kw_and_rest_flags & F_REST)
+ || ((sp - (fp - 1) - nkw) % 2) == 0,
+ vm_error_kwargs_length_not_even (program))
CHECK_OBJECT (idx);
kw = OBJECT_REF (idx);
break;
}
}
- if (!(kw_and_rest_flags & F_ALLOW_OTHER_KEYS) && !scm_is_pair (walk))
- goto vm_error_kwargs_unrecognized_keyword;
-
+ VM_ASSERT (scm_is_pair (walk)
+ || (kw_and_rest_flags & F_ALLOW_OTHER_KEYS),
+ vm_error_kwargs_unrecognized_keyword (program, sp[nkw]));
nkw++;
}
- else if (!(kw_and_rest_flags & F_REST))
- goto vm_error_kwargs_invalid_keyword;
+ else
+ VM_ASSERT (kw_and_rest_flags & F_REST,
+ vm_error_kwargs_invalid_keyword (program, sp[nkw]));
}
NEXT;
know that this frame will point to the current fp: it could be
placed elsewhere on the stack if captured in a partial
continuation, and invoked from some other context. */
- PUSH (0); /* dynamic link */
- PUSH (0); /* mvra */
- PUSH (0); /* ra */
+ PUSH (SCM_PACK (0)); /* dynamic link */
+ PUSH (SCM_PACK (0)); /* mvra */
+ PUSH (SCM_PACK (0)); /* ra */
NEXT;
}
nargs = FETCH ();
vm_call:
- program = sp[-nargs];
-
VM_HANDLE_INTERRUPTS;
- if (SCM_UNLIKELY (!SCM_PROGRAM_P (program)))
- {
- if (SCM_STRUCTP (program) && SCM_STRUCT_APPLICABLE_P (program))
- {
- sp[-nargs] = SCM_STRUCT_PROCEDURE (program);
- goto vm_call;
- }
- else if (SCM_NIMP (program) && SCM_TYP7 (program) == scm_tc7_smob
- && SCM_SMOB_APPLICABLE_P (program))
- {
- SYNC_REGISTER ();
- sp[-nargs] = scm_i_smob_apply_trampoline (program);
- goto vm_call;
- }
- else
- goto vm_error_wrong_type_apply;
- }
-
- CACHE_PROGRAM ();
-
{
SCM *old_fp = fp;
SCM_FRAME_SET_MV_RETURN_ADDRESS (fp, 0);
}
- ip = SCM_C_OBJCODE_BASE (bp);
PUSH_CONTINUATION_HOOK ();
+
+ program = fp[-1];
+
+ if (SCM_UNLIKELY (!SCM_PROGRAM_P (program)))
+ goto apply;
+
+ CACHE_PROGRAM ();
+ ip = SCM_C_OBJCODE_BASE (bp);
+
APPLY_HOOK ();
NEXT;
}
nargs = FETCH ();
vm_tail_call:
- program = sp[-nargs];
-
VM_HANDLE_INTERRUPTS;
- if (SCM_UNLIKELY (!SCM_PROGRAM_P (program)))
- {
- if (SCM_STRUCTP (program) && SCM_STRUCT_APPLICABLE_P (program))
- {
- sp[-nargs] = SCM_STRUCT_PROCEDURE (program);
- goto vm_tail_call;
- }
- else if (SCM_NIMP (program) && SCM_TYP7 (program) == scm_tc7_smob
- && SCM_SMOB_APPLICABLE_P (program))
- {
- SYNC_REGISTER ();
- sp[-nargs] = scm_i_smob_apply_trampoline (program);
- goto vm_tail_call;
- }
- else
- goto vm_error_wrong_type_apply;
- }
- else
- {
- int i;
+ {
+ int i;
#ifdef VM_ENABLE_STACK_NULLING
- SCM *old_sp = sp;
- CHECK_STACK_LEAK ();
+ SCM *old_sp = sp;
+ CHECK_STACK_LEAK ();
#endif
- /* switch programs */
- CACHE_PROGRAM ();
- /* shuffle down the program and the arguments */
- for (i = -1, sp = sp - nargs + 1; i < nargs; i++)
- SCM_FRAME_STACK_ADDRESS (fp)[i] = sp[i];
+ /* shuffle down the program and the arguments */
+ for (i = -1, sp = sp - nargs + 1; i < nargs; i++)
+ SCM_FRAME_STACK_ADDRESS (fp)[i] = sp[i];
- sp = fp + i - 1;
+ sp = fp + i - 1;
- NULLSTACK (old_sp - sp);
+ NULLSTACK (old_sp - sp);
+ }
- ip = SCM_C_OBJCODE_BASE (bp);
+ program = fp[-1];
- APPLY_HOOK ();
- NEXT;
- }
+ if (SCM_UNLIKELY (!SCM_PROGRAM_P (program)))
+ goto apply;
+
+ CACHE_PROGRAM ();
+ ip = SCM_C_OBJCODE_BASE (bp);
+
+ APPLY_HOOK ();
+ NEXT;
}
VM_DEFINE_INSTRUCTION (55, subr_call, "subr-call", 1, -1, -1)
SCM vmcont, intwinds, prevwinds;
POP2 (intwinds, vmcont);
SYNC_REGISTER ();
- if (SCM_UNLIKELY (!SCM_VM_CONT_REWINDABLE_P (vmcont)))
- { finish_args = vmcont;
- goto vm_error_continuation_not_rewindable;
- }
+ VM_ASSERT (SCM_VM_CONT_REWINDABLE_P (vmcont),
+ vm_error_continuation_not_rewindable (vmcont));
prevwinds = scm_i_dynwinds ();
vm_reinstate_partial_continuation (vm, vmcont, intwinds, sp + 1 - fp, fp,
vm_cookie);
{
scm_t_int32 offset;
scm_t_uint8 *mvra;
+ SCM *old_fp = fp;
nargs = FETCH ();
FETCH_OFFSET (offset);
mvra = ip + offset;
- vm_mv_call:
- program = sp[-nargs];
-
VM_HANDLE_INTERRUPTS;
- if (SCM_UNLIKELY (!SCM_PROGRAM_P (program)))
- {
- if (SCM_STRUCTP (program) && SCM_STRUCT_APPLICABLE_P (program))
- {
- sp[-nargs] = SCM_STRUCT_PROCEDURE (program);
- goto vm_mv_call;
- }
- else if (SCM_NIMP (program) && SCM_TYP7 (program) == scm_tc7_smob
- && SCM_SMOB_APPLICABLE_P (program))
- {
- SYNC_REGISTER ();
- sp[-nargs] = scm_i_smob_apply_trampoline (program);
- goto vm_mv_call;
- }
- else
- goto vm_error_wrong_type_apply;
- }
+ fp = sp - nargs + 1;
+
+ ASSERT (SCM_FRAME_DYNAMIC_LINK (fp) == 0);
+ ASSERT (SCM_FRAME_RETURN_ADDRESS (fp) == 0);
+ ASSERT (SCM_FRAME_MV_RETURN_ADDRESS (fp) == 0);
+ SCM_FRAME_SET_DYNAMIC_LINK (fp, old_fp);
+ SCM_FRAME_SET_RETURN_ADDRESS (fp, ip);
+ SCM_FRAME_SET_MV_RETURN_ADDRESS (fp, mvra);
+
+ PUSH_CONTINUATION_HOOK ();
- CACHE_PROGRAM ();
+ program = fp[-1];
- {
- SCM *old_fp = fp;
+ if (SCM_UNLIKELY (!SCM_PROGRAM_P (program)))
+ goto apply;
- fp = sp - nargs + 1;
-
- ASSERT (SCM_FRAME_DYNAMIC_LINK (fp) == 0);
- ASSERT (SCM_FRAME_RETURN_ADDRESS (fp) == 0);
- ASSERT (SCM_FRAME_MV_RETURN_ADDRESS (fp) == 0);
- SCM_FRAME_SET_DYNAMIC_LINK (fp, old_fp);
- SCM_FRAME_SET_RETURN_ADDRESS (fp, ip);
- SCM_FRAME_SET_MV_RETURN_ADDRESS (fp, mvra);
- }
-
+ CACHE_PROGRAM ();
ip = SCM_C_OBJCODE_BASE (bp);
- PUSH_CONTINUATION_HOOK ();
+
APPLY_HOOK ();
NEXT;
}
ASSERT (nargs >= 2);
len = scm_ilength (ls);
- if (SCM_UNLIKELY (len < 0))
- {
- finish_args = ls;
- goto vm_error_apply_to_non_list;
- }
-
+ VM_ASSERT (len >= 0,
+ vm_error_apply_to_non_list (ls));
PUSH_LIST (ls, SCM_NULL_OR_NIL_P);
nargs += len - 2;
ASSERT (nargs >= 2);
len = scm_ilength (ls);
- if (SCM_UNLIKELY (len < 0))
- {
- finish_args = ls;
- goto vm_error_apply_to_non_list;
- }
-
+ VM_ASSERT (len >= 0,
+ vm_error_apply_to_non_list (ls));
PUSH_LIST (ls, SCM_NULL_OR_NIL_P);
nargs += len - 2;
cont = scm_i_make_continuation (&first, vm, vm_cont);
if (first)
{
- PUSH (0); /* dynamic link */
- PUSH (0); /* mvra */
- PUSH (0); /* ra */
+ PUSH (SCM_PACK (0)); /* dynamic link */
+ PUSH (SCM_PACK (0)); /* mvra */
+ PUSH (SCM_PACK (0)); /* ra */
PUSH (proc);
PUSH (cont);
nargs = 1;
NULLSTACK (vals + nvalues - sp);
}
else
- goto vm_error_no_values;
+ {
+ SYNC_ALL ();
+ vm_error_no_values ();
+ }
/* Restore the last program */
program = SCM_FRAME_PROGRAM (fp);
l = SCM_CDR (l);
nvalues++;
}
- if (SCM_UNLIKELY (!SCM_NULL_OR_NIL_P (l))) {
- finish_args = scm_list_1 (l);
- goto vm_error_improper_list;
- }
+ VM_ASSERT (SCM_NULL_OR_NIL_P (l), vm_error_improper_list (l));
goto vm_return_values;
}
if (rest)
nbinds--;
- if (nvalues < nbinds)
- goto vm_error_not_enough_values;
+ VM_ASSERT (nvalues >= nbinds, vm_error_not_enough_values ());
if (rest)
POP_LIST (nvalues - nbinds);
SCM sym, val;
POP2 (sym, val);
SYNC_REGISTER ();
- VARIABLE_SET (scm_sym2var (sym, scm_current_module_lookup_closure (),
- SCM_BOOL_T),
- val);
+ scm_define (sym, val);
NEXT;
}
/* Push wind and unwind procedures onto the dynamic stack. Note that neither
are actually called; the compiler should emit calls to wind and unwind for
the normal dynamic-wind control flow. */
- if (SCM_UNLIKELY (scm_is_false (scm_thunk_p (wind))))
- {
- finish_args = wind;
- goto vm_error_not_a_thunk;
- }
- if (SCM_UNLIKELY (scm_is_false (scm_thunk_p (unwind))))
- {
- finish_args = unwind;
- goto vm_error_not_a_thunk;
- }
+ VM_ASSERT (scm_to_bool (scm_thunk_p (wind)),
+ vm_error_not_a_thunk ("dynamic-wind", wind));
+ VM_ASSERT (scm_to_bool (scm_thunk_p (unwind)),
+ vm_error_not_a_thunk ("dynamic-wind", unwind));
scm_i_set_dynwinds (scm_cons (scm_cons (wind, unwind), scm_i_dynwinds ()));
NEXT;
}
{
unsigned n = FETCH ();
SYNC_REGISTER ();
- if (sp - n - 2 <= SCM_FRAME_UPPER_ADDRESS (fp))
- goto vm_error_stack_underflow;
+ PRE_CHECK_UNDERFLOW (n + 2);
vm_abort (vm, n, vm_cookie);
/* vm_abort should not return */
abort ();
else
{
SCM val = SCM_SIMPLE_VECTOR_REF (fluids, num);
- if (SCM_UNLIKELY (scm_is_eq (val, SCM_UNDEFINED)))
- {
- finish_args = *sp;
- goto vm_error_unbound_fluid;
- }
+ if (scm_is_eq (val, SCM_UNDEFINED))
+ val = SCM_I_FLUID_DEFAULT (*sp);
+ VM_ASSERT (!scm_is_eq (val, SCM_UNDEFINED),
+ vm_error_unbound_fluid (program, *sp));
*sp = val;
}
/* nargs = n & 0x7, nlocs = nargs + (n >> 3) */
n = FETCH ();
- if (SCM_UNLIKELY (sp - (fp - 1) != (n & 0x7)))
- goto vm_error_wrong_num_args;
+ VM_ASSERT (sp - (fp - 1) == (n & 0x7),
+ vm_error_wrong_num_args (program));
old_sp = sp;
sp += (n >> 3);
NEXT;
}
+/* Like bind-optionals/shuffle, but if there are too many positional
+ arguments, jumps to the next case-lambda clause. */
+VM_DEFINE_INSTRUCTION (94, bind_optionals_shuffle_or_br, "bind-optionals/shuffle-or-br", 9, -1, -1)
+{
+ SCM *walk;
+ scm_t_ptrdiff nreq, nreq_and_opt, ntotal;
+ scm_t_int32 offset;
+ nreq = FETCH () << 8;
+ nreq += FETCH ();
+ nreq_and_opt = FETCH () << 8;
+ nreq_and_opt += FETCH ();
+ ntotal = FETCH () << 8;
+ ntotal += FETCH ();
+ FETCH_OFFSET (offset);
+
+ /* look in optionals for first keyword or last positional */
+ /* starting after the last required positional arg */
+ walk = fp + nreq;
+ while (/* while we have args */
+ walk <= sp
+ /* and we still have positionals to fill */
+ && walk - fp < nreq_and_opt
+ /* and we haven't reached a keyword yet */
+ && !scm_is_keyword (*walk))
+ /* bind this optional arg (by leaving it in place) */
+ walk++;
+ if (/* If we have filled all the positionals */
+ walk - fp == nreq_and_opt
+ /* and there are still more arguments */
+ && walk <= sp
+ /* and the next argument is not a keyword, */
+ && !scm_is_keyword (*walk))
+ {
+ /* Jump to the next case-lambda* clause. */
+ ip += offset;
+ }
+ else
+ {
+ /* Otherwise, finish as in bind-optionals/shuffle: shuffle up,
+ from walk to ntotal */
+ scm_t_ptrdiff nshuf = sp - walk + 1, i;
+ sp = (fp - 1) + ntotal + nshuf;
+ CHECK_OVERFLOW ();
+ for (i = 0; i < nshuf; i++)
+ sp[-i] = walk[nshuf-i-1];
+
+ /* and fill optionals & keyword args with SCM_UNDEFINED */
+ while (walk <= (fp - 1) + ntotal)
+ *walk++ = SCM_UNDEFINED;
+ }
+
+ NEXT;
+}
+
/*
(defun renumber-ops ()