/* Copyright (C) 2001 Free Software Foundation, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this software; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 59 Temple Place, Suite 330, * Boston, MA 02111-1307 USA * * As a special exception, the Free Software Foundation gives permission * for additional uses of the text contained in its release of GUILE. * * The exception is that, if you link the GUILE library with other files * to produce an executable, this does not by itself cause the * resulting executable to be covered by the GNU General Public License. * Your use of that executable is in no way restricted on account of * linking the GUILE library code into it. * * This exception does not however invalidate any other reasons why * the executable file might be covered by the GNU General Public License. * * This exception applies only to the code released by the * Free Software Foundation under the name GUILE. If you copy * code from other Free Software Foundation releases into a copy of * GUILE, as the General Public License permits, the exception does * not apply to the code that you add in this way. To avoid misleading * anyone as to the status of such modified files, you must delete * this exception notice from them. * * If you write modifications of your own for GUILE, it is your choice * whether to permit this exception to apply to your modifications. * If you do not wish that, delete this exception notice. */ /* This file is included in vm_engine.c */ /* * Basic operations */ /* This must be the first instruction! */ VM_DEFINE_INSTRUCTION (nop, "nop", 0, 0, 0) { NEXT; } VM_DEFINE_INSTRUCTION (halt, "halt", 0, 0, 0) { SCM ret; vp->time += scm_c_get_internal_run_time () - start_time; HALT_HOOK (); nvalues = SCM_I_INUM (*sp--); NULLSTACK (1); if (nvalues == 1) POP (ret); else { POP_LIST (nvalues); POP (ret); SYNC_REGISTER (); ret = scm_values (ret); } { ASSERT (sp == stack_base); ASSERT (stack_base == SCM_FRAME_UPPER_ADDRESS (fp) - 1); /* Restore registers */ sp = SCM_FRAME_LOWER_ADDRESS (fp) - 1; ip = NULL; fp = SCM_FRAME_DYNAMIC_LINK (fp); NULLSTACK (stack_base - sp); } SYNC_ALL (); scm_dynwind_end (); return ret; } VM_DEFINE_INSTRUCTION (break, "break", 0, 0, 0) { BREAK_HOOK (); NEXT; } VM_DEFINE_INSTRUCTION (drop, "drop", 0, 0, 0) { DROP (); NEXT; } VM_DEFINE_INSTRUCTION (mark, "mark", 0, 0, 1) { PUSH (SCM_UNDEFINED); NEXT; } VM_DEFINE_INSTRUCTION (dup, "dup", 0, 0, 1) { SCM x = *sp; PUSH (x); NEXT; } /* * Object creation */ VM_DEFINE_INSTRUCTION (void, "void", 0, 0, 1) { PUSH (SCM_UNSPECIFIED); NEXT; } VM_DEFINE_INSTRUCTION (make_true, "make-true", 0, 0, 1) { PUSH (SCM_BOOL_T); NEXT; } VM_DEFINE_INSTRUCTION (make_false, "make-false", 0, 0, 1) { PUSH (SCM_BOOL_F); NEXT; } VM_DEFINE_INSTRUCTION (make_eol, "make-eol", 0, 0, 1) { PUSH (SCM_EOL); NEXT; } VM_DEFINE_INSTRUCTION (make_int8, "make-int8", 1, 0, 1) { PUSH (SCM_I_MAKINUM ((signed char) FETCH ())); NEXT; } VM_DEFINE_INSTRUCTION (make_int8_0, "make-int8:0", 0, 0, 1) { PUSH (SCM_INUM0); NEXT; } VM_DEFINE_INSTRUCTION (make_int8_1, "make-int8:1", 0, 0, 1) { PUSH (SCM_I_MAKINUM (1)); NEXT; } VM_DEFINE_INSTRUCTION (make_int16, "make-int16", 2, 0, 1) { int h = FETCH (); int l = FETCH (); PUSH (SCM_I_MAKINUM ((signed short) (h << 8) + l)); NEXT; } VM_DEFINE_INSTRUCTION (make_char8, "make-char8", 1, 0, 1) { PUSH (SCM_MAKE_CHAR (FETCH ())); NEXT; } VM_DEFINE_INSTRUCTION (list, "list", 2, -1, 1) { unsigned h = FETCH (); unsigned l = FETCH (); unsigned len = ((h << 8) + l); POP_LIST (len); NEXT; } VM_DEFINE_INSTRUCTION (vector, "vector", 2, -1, 1) { unsigned h = FETCH (); unsigned l = FETCH (); unsigned len = ((h << 8) + l); POP_LIST (len); SYNC_REGISTER (); *sp = scm_vector (*sp); NEXT; } VM_DEFINE_INSTRUCTION (list_mark, "list-mark", 0, 0, 0) { POP_LIST_MARK (); NEXT; } VM_DEFINE_INSTRUCTION (cons_mark, "cons-mark", 0, 0, 0) { POP_CONS_MARK (); NEXT; } VM_DEFINE_INSTRUCTION (vector_mark, "vector-mark", 0, 0, 0) { POP_LIST_MARK (); SYNC_REGISTER (); *sp = scm_vector (*sp); NEXT; } VM_DEFINE_INSTRUCTION (list_break, "list-break", 0, 0, 0) { SCM l; POP (l); PUSH_LIST (l); NEXT; } /* * Variable access */ #define OBJECT_REF(i) objects[i] #define OBJECT_SET(i,o) objects[i] = o #define LOCAL_REF(i) SCM_FRAME_VARIABLE (fp, i) #define LOCAL_SET(i,o) SCM_FRAME_VARIABLE (fp, i) = o /* For the variable operations, we _must_ obviously avoid function calls to `scm_variable_ref ()', `scm_variable_bound_p ()' and friends which do nothing more than the corresponding macros. */ #define VARIABLE_REF(v) SCM_VARIABLE_REF (v) #define VARIABLE_SET(v,o) SCM_VARIABLE_SET (v, o) #define VARIABLE_BOUNDP(v) (VARIABLE_REF (v) != SCM_UNDEFINED) /* ref */ VM_DEFINE_INSTRUCTION (object_ref, "object-ref", 1, 0, 1) { register unsigned objnum = FETCH (); CHECK_OBJECT (objnum); PUSH (OBJECT_REF (objnum)); NEXT; } VM_DEFINE_INSTRUCTION (local_ref, "local-ref", 1, 0, 1) { PUSH (LOCAL_REF (FETCH ())); NEXT; } VM_DEFINE_INSTRUCTION (external_ref, "external-ref", 1, 0, 1) { unsigned int i; SCM e = external; for (i = FETCH (); i; i--) { CHECK_EXTERNAL(e); e = SCM_CDR (e); } CHECK_EXTERNAL(e); PUSH (SCM_CAR (e)); NEXT; } VM_DEFINE_INSTRUCTION (variable_ref, "variable-ref", 0, 0, 1) { SCM x = *sp; if (!VARIABLE_BOUNDP (x)) { err_args = SCM_LIST1 (x); /* Was: err_args = SCM_LIST1 (SCM_CAR (x)); */ goto vm_error_unbound; } else { SCM o = VARIABLE_REF (x); *sp = o; } NEXT; } VM_DEFINE_INSTRUCTION (toplevel_ref, "toplevel-ref", 1, 0, 1) { unsigned objnum = FETCH (); SCM what; CHECK_OBJECT (objnum); what = OBJECT_REF (objnum); if (!SCM_VARIABLEP (what)) { SYNC_REGISTER (); if (SCM_LIKELY (SCM_SYMBOLP (what))) { if (SCM_LIKELY (scm_module_system_booted_p && scm_is_true (bp->module))) /* might longjmp */ what = scm_module_lookup (bp->module, what); else what = scm_sym2var (what, SCM_BOOL_F, SCM_BOOL_F); } else { SCM mod; /* compilation of @ or @@ `what' is a three-element list: (MODNAME SYM INTERFACE?) INTERFACE? is #t if we compiled @ or #f if we compiled @@ */ mod = scm_resolve_module (SCM_CAR (what)); if (scm_is_true (SCM_CADDR (what))) mod = scm_module_public_interface (mod); if (SCM_FALSEP (mod)) { err_args = SCM_LIST1 (mod); goto vm_error_no_such_module; } /* might longjmp */ what = scm_module_lookup (mod, SCM_CADR (what)); } if (!VARIABLE_BOUNDP (what)) { err_args = SCM_LIST1 (what); goto vm_error_unbound; } OBJECT_SET (objnum, what); } PUSH (VARIABLE_REF (what)); NEXT; } /* set */ VM_DEFINE_INSTRUCTION (local_set, "local-set", 1, 1, 0) { LOCAL_SET (FETCH (), *sp); DROP (); NEXT; } VM_DEFINE_INSTRUCTION (external_set, "external-set", 1, 1, 0) { unsigned int i; SCM e = external; for (i = FETCH (); i; i--) { CHECK_EXTERNAL(e); e = SCM_CDR (e); } CHECK_EXTERNAL(e); SCM_SETCAR (e, *sp); DROP (); NEXT; } VM_DEFINE_INSTRUCTION (variable_set, "variable-set", 0, 1, 0) { VARIABLE_SET (sp[0], sp[-1]); DROPN (2); NEXT; } VM_DEFINE_INSTRUCTION (toplevel_set, "toplevel-set", 1, 1, 0) { unsigned objnum = FETCH (); SCM what; CHECK_OBJECT (objnum); what = OBJECT_REF (objnum); if (!SCM_VARIABLEP (what)) { SYNC_BEFORE_GC (); if (SCM_LIKELY (SCM_SYMBOLP (what))) { if (SCM_LIKELY (scm_module_system_booted_p && scm_is_true (bp->module))) /* might longjmp */ what = scm_module_lookup (bp->module, what); else what = scm_sym2var (what, SCM_BOOL_F, SCM_BOOL_F); } else { SCM mod; /* compilation of @ or @@ `what' is a three-element list: (MODNAME SYM INTERFACE?) INTERFACE? is #t if we compiled @ or #f if we compiled @@ */ mod = scm_resolve_module (SCM_CAR (what)); if (scm_is_true (SCM_CADDR (what))) mod = scm_module_public_interface (mod); if (SCM_FALSEP (mod)) { err_args = SCM_LIST1 (what); goto vm_error_no_such_module; } /* might longjmp */ what = scm_module_lookup (mod, SCM_CADR (what)); } OBJECT_SET (objnum, what); } VARIABLE_SET (what, *sp); DROP (); NEXT; } VM_DEFINE_INSTRUCTION (externals, "externals", 0, 0, 1) { PUSH (external); NEXT; } /* * branch and jump */ /* offset must be a signed short!!! */ #define FETCH_OFFSET(offset) \ { \ int h = FETCH (); \ int l = FETCH (); \ offset = (h << 8) + l; \ } #define BR(p) \ { \ signed short offset; \ FETCH_OFFSET (offset); \ if (p) \ ip += offset; \ NULLSTACK (1); \ DROP (); \ NEXT; \ } VM_DEFINE_INSTRUCTION (br, "br", 2, 0, 0) { int h = FETCH (); int l = FETCH (); ip += (signed short) (h << 8) + l; NEXT; } VM_DEFINE_INSTRUCTION (br_if, "br-if", 2, 0, 0) { BR (!SCM_FALSEP (*sp)); } VM_DEFINE_INSTRUCTION (br_if_not, "br-if-not", 2, 0, 0) { BR (SCM_FALSEP (*sp)); } VM_DEFINE_INSTRUCTION (br_if_eq, "br-if-eq", 2, 0, 0) { BR (SCM_EQ_P (sp[0], sp--[1])); } VM_DEFINE_INSTRUCTION (br_if_not_eq, "br-if-not-eq", 2, 0, 0) { BR (!SCM_EQ_P (sp[0], sp--[1])); } VM_DEFINE_INSTRUCTION (br_if_null, "br-if-null", 2, 0, 0) { BR (SCM_NULLP (*sp)); } VM_DEFINE_INSTRUCTION (br_if_not_null, "br-if-not-null", 2, 0, 0) { BR (!SCM_NULLP (*sp)); } /* * Subprogram call */ VM_DEFINE_INSTRUCTION (make_closure, "make-closure", 0, 1, 1) { SYNC_BEFORE_GC (); *sp = scm_c_make_closure (*sp, external); NEXT; } VM_DEFINE_INSTRUCTION (call, "call", 1, -1, 1) { SCM x; nargs = FETCH (); vm_call: x = sp[-nargs]; /* * Subprogram call */ if (SCM_PROGRAM_P (x)) { program = x; CACHE_PROGRAM (); INIT_ARGS (); NEW_FRAME (); ENTER_HOOK (); APPLY_HOOK (); NEXT; } #ifdef ENABLE_TRAMPOLINE /* Seems to slow down the fibo test, dunno why */ /* * Subr call */ switch (nargs) { case 0: { scm_t_trampoline_0 call = scm_trampoline_0 (x); if (call) { SYNC_ALL (); *sp = call (x); NEXT; } break; } case 1: { scm_t_trampoline_1 call = scm_trampoline_1 (x); if (call) { SCM arg1; POP (arg1); SYNC_ALL (); *sp = call (x, arg1); NEXT; } break; } case 2: { scm_t_trampoline_2 call = scm_trampoline_2 (x); if (call) { SCM arg1, arg2; POP (arg2); POP (arg1); SYNC_ALL (); *sp = call (x, arg1, arg2); NEXT; } break; } } #endif /* * Other interpreted or compiled call */ if (!SCM_FALSEP (scm_procedure_p (x))) { /* At this point, the stack contains the procedure and each one of its arguments. */ POP_LIST (nargs); SYNC_REGISTER (); /* keep args on stack so they are marked */ sp[-1] = scm_apply (x, sp[0], SCM_EOL); NULLSTACK_FOR_NONLOCAL_EXIT (); DROP (); if (SCM_UNLIKELY (SCM_VALUESP (*sp))) { /* truncate values */ SCM values; POP (values); values = scm_struct_ref (values, SCM_INUM0); if (scm_is_null (values)) goto vm_error_not_enough_values; PUSH (SCM_CAR (values)); } NEXT; } /* * Continuation call */ if (SCM_VM_CONT_P (x)) { program = x; vm_call_continuation: /* Check the number of arguments */ /* FIXME multiple args */ if (nargs != 1) scm_wrong_num_args (program); /* Reinstate the continuation */ EXIT_HOOK (); reinstate_vm_cont (vp, program); CACHE_REGISTER (); program = SCM_FRAME_PROGRAM (fp); CACHE_PROGRAM (); NEXT; } program = x; goto vm_error_wrong_type_apply; } VM_DEFINE_INSTRUCTION (goto_args, "goto/args", 1, -1, 1) { register SCM x; nargs = FETCH (); vm_goto_args: x = sp[-nargs]; SYNC_REGISTER (); SCM_TICK; /* allow interrupt here */ /* * Tail recursive call */ if (SCM_EQ_P (x, program)) { int i; /* Move arguments */ INIT_ARGS (); sp -= bp->nargs - 1; for (i = 0; i < bp->nargs; i++) LOCAL_SET (i, sp[i]); /* Drop the first argument and the program itself. */ sp -= 2; NULLSTACK (bp->nargs + 1); /* Freshen the externals */ external = bp->external; for (i = 0; i < bp->nexts; i++) CONS (external, SCM_UNDEFINED, external); SCM_FRAME_DATA_ADDRESS (fp)[0] = external; /* Call itself */ ip = bp->base; APPLY_HOOK (); NEXT; } /* * Tail call, but not to self -- reuse the frame, keeping the ra and dl */ if (SCM_PROGRAM_P (x)) { SCM *data, *tail_args, *dl; int i; scm_byte_t *ra, *mvra; #ifdef VM_ENABLE_STACK_NULLING SCM *old_sp; #endif EXIT_HOOK (); /* save registers */ tail_args = stack_base + 2; ra = SCM_FRAME_RETURN_ADDRESS (fp); mvra = SCM_FRAME_MV_RETURN_ADDRESS (fp); dl = SCM_FRAME_DYNAMIC_LINK (fp); /* switch programs */ program = x; CACHE_PROGRAM (); INIT_ARGS (); /* delay updating the frame so that if INIT_ARGS has to cons up a rest arg, going into GC, the stack still makes sense */ fp[-1] = program; nargs = bp->nargs; #ifdef VM_ENABLE_STACK_NULLING old_sp = sp; CHECK_STACK_LEAK (); #endif /* new registers -- logically this would be better later, but let's make sure we have space for the locals now */ data = SCM_FRAME_DATA_ADDRESS (fp); ip = bp->base; stack_base = data + 4; sp = stack_base; CHECK_OVERFLOW (); /* copy args, bottom-up */ for (i = 0; i < nargs; i++) fp[i] = tail_args[i]; NULLSTACK (old_sp - sp); /* init locals */ for (i = bp->nlocs; i; i--) data[-i] = SCM_UNDEFINED; /* Set frame data */ data[4] = (SCM)ra; data[3] = (SCM)mvra; data[2] = (SCM)dl; data[1] = SCM_BOOL_F; /* Postpone initializing external vars, because if the CONS causes a GC, we want the stack marker to see the data array formatted as expected. */ data[0] = SCM_UNDEFINED; external = bp->external; for (i = 0; i < bp->nexts; i++) CONS (external, SCM_UNDEFINED, external); data[0] = external; ENTER_HOOK (); APPLY_HOOK (); NEXT; } #ifdef ENABLE_TRAMPOLINE /* This seems to actually slow down the fibo test -- dunno why */ /* * Subr call */ switch (nargs) { case 0: { scm_t_trampoline_0 call = scm_trampoline_0 (x); if (call) { SYNC_ALL (); *sp = call (x); goto vm_return; } break; } case 1: { scm_t_trampoline_1 call = scm_trampoline_1 (x); if (call) { SCM arg1; POP (arg1); SYNC_ALL (); *sp = call (x, arg1); goto vm_return; } break; } case 2: { scm_t_trampoline_2 call = scm_trampoline_2 (x); if (call) { SCM arg1, arg2; POP (arg2); POP (arg1); SYNC_ALL (); *sp = call (x, arg1, arg2); goto vm_return; } break; } } #endif /* * Other interpreted or compiled call */ if (!SCM_FALSEP (scm_procedure_p (x))) { POP_LIST (nargs); SYNC_REGISTER (); sp[-1] = scm_apply (x, sp[0], SCM_EOL); NULLSTACK_FOR_NONLOCAL_EXIT (); DROP (); if (SCM_UNLIKELY (SCM_VALUESP (*sp))) { /* multiple values returned to continuation */ SCM values; POP (values); values = scm_struct_ref (values, SCM_INUM0); nvalues = scm_ilength (values); PUSH_LIST (values); goto vm_return_values; } goto vm_return; } program = x; /* * Continuation call */ if (SCM_VM_CONT_P (program)) goto vm_call_continuation; goto vm_error_wrong_type_apply; } VM_DEFINE_INSTRUCTION (goto_nargs, "goto/nargs", 0, 0, 1) { SCM x; POP (x); nargs = scm_to_int (x); /* FIXME: should truncate values? */ goto vm_goto_args; } VM_DEFINE_INSTRUCTION (call_nargs, "call/nargs", 0, 0, 1) { SCM x; POP (x); nargs = scm_to_int (x); /* FIXME: should truncate values? */ goto vm_call; } VM_DEFINE_INSTRUCTION (mv_call, "mv-call", 3, -1, 1) { SCM x; signed short offset; nargs = FETCH (); FETCH_OFFSET (offset); x = sp[-nargs]; /* * Subprogram call */ if (SCM_PROGRAM_P (x)) { program = x; CACHE_PROGRAM (); INIT_ARGS (); NEW_FRAME (); SCM_FRAME_DATA_ADDRESS (fp)[3] = (SCM)(SCM_FRAME_RETURN_ADDRESS (fp) + offset); ENTER_HOOK (); APPLY_HOOK (); NEXT; } /* * Other interpreted or compiled call */ if (!SCM_FALSEP (scm_procedure_p (x))) { /* At this point, the stack contains the procedure and each one of its arguments. */ POP_LIST (nargs); SYNC_REGISTER (); sp[-1] = scm_apply (x, sp[0], SCM_EOL); NULLSTACK_FOR_NONLOCAL_EXIT (); DROP (); if (SCM_VALUESP (*sp)) { SCM values, len; POP (values); values = scm_struct_ref (values, SCM_INUM0); len = scm_length (values); PUSH_LIST (values); PUSH (len); ip += offset; } NEXT; } /* * Continuation call */ if (SCM_VM_CONT_P (x)) { program = x; goto vm_call_continuation; } program = x; goto vm_error_wrong_type_apply; } VM_DEFINE_INSTRUCTION (apply, "apply", 1, -1, 1) { int len; SCM ls; POP (ls); nargs = FETCH (); ASSERT (nargs >= 2); len = scm_ilength (ls); if (len < 0) goto vm_error_wrong_type_arg; PUSH_LIST (ls); nargs += len - 2; goto vm_call; } VM_DEFINE_INSTRUCTION (goto_apply, "goto/apply", 1, -1, 1) { int len; SCM ls; POP (ls); nargs = FETCH (); ASSERT (nargs >= 2); len = scm_ilength (ls); if (len < 0) goto vm_error_wrong_type_arg; PUSH_LIST (ls); nargs += len - 2; goto vm_goto_args; } VM_DEFINE_INSTRUCTION (call_cc, "call/cc", 0, 1, 1) { int first; SCM proc, cont; POP (proc); SYNC_ALL (); cont = scm_make_continuation (&first); if (first) { PUSH (proc); PUSH (cont); nargs = 1; goto vm_call; } ASSERT (sp == vp->sp); ASSERT (fp == vp->fp); else if (SCM_VALUESP (cont)) { /* multiple values returned to continuation */ SCM values; values = scm_struct_ref (cont, SCM_INUM0); if (SCM_NULLP (values)) goto vm_error_no_values; /* non-tail context does not accept multiple values? */ PUSH (SCM_CAR (values)); NEXT; } else { PUSH (cont); NEXT; } } VM_DEFINE_INSTRUCTION (goto_cc, "goto/cc", 0, 1, 1) { int first; SCM proc, cont; POP (proc); SYNC_ALL (); cont = scm_make_continuation (&first); ASSERT (sp == vp->sp); ASSERT (fp == vp->fp); if (first) { PUSH (proc); PUSH (cont); nargs = 1; goto vm_goto_args; } else if (SCM_VALUESP (cont)) { /* multiple values returned to continuation */ SCM values; values = scm_struct_ref (cont, SCM_INUM0); nvalues = scm_ilength (values); PUSH_LIST (values); goto vm_return_values; } else { PUSH (cont); goto vm_return; } } VM_DEFINE_INSTRUCTION (return, "return", 0, 0, 1) { vm_return: EXIT_HOOK (); RETURN_HOOK (); { SCM ret, *data; data = SCM_FRAME_DATA_ADDRESS (fp); POP (ret); ASSERT (sp == stack_base); ASSERT (stack_base == data + 4); /* Restore registers */ sp = SCM_FRAME_LOWER_ADDRESS (fp); ip = SCM_FRAME_BYTE_CAST (data[4]); fp = SCM_FRAME_STACK_CAST (data[2]); { #ifdef VM_ENABLE_STACK_NULLING int nullcount = stack_base - sp; #endif stack_base = SCM_FRAME_UPPER_ADDRESS (fp) - 1; NULLSTACK (nullcount); } /* Set return value (sp is already pushed) */ *sp = ret; } /* Restore the last program */ program = SCM_FRAME_PROGRAM (fp); CACHE_PROGRAM (); CACHE_EXTERNAL (); CHECK_IP (); NEXT; } VM_DEFINE_INSTRUCTION (return_values, "return/values", 1, -1, -1) { /* nvalues declared at top level, because for some reason gcc seems to think that perhaps it might be used without declaration. Fooey to that, I say. */ SCM *data; nvalues = FETCH (); vm_return_values: EXIT_HOOK (); RETURN_HOOK (); data = SCM_FRAME_DATA_ADDRESS (fp); ASSERT (stack_base == data + 4); /* data[3] is the mv return address */ if (nvalues != 1 && data[3]) { int i; /* Restore registers */ sp = SCM_FRAME_LOWER_ADDRESS (fp) - 1; ip = SCM_FRAME_BYTE_CAST (data[3]); /* multiple value ra */ fp = SCM_FRAME_STACK_CAST (data[2]); /* Push return values, and the number of values */ for (i = 0; i < nvalues; i++) *++sp = stack_base[1+i]; *++sp = SCM_I_MAKINUM (nvalues); /* Finally set new stack_base */ NULLSTACK (stack_base - sp + nvalues + 1); stack_base = SCM_FRAME_UPPER_ADDRESS (fp) - 1; } else if (nvalues >= 1) { /* Multiple values for a single-valued continuation -- here's where I break with guile tradition and try and do something sensible. (Also, this block handles the single-valued return to an mv continuation.) */ /* Restore registers */ sp = SCM_FRAME_LOWER_ADDRESS (fp) - 1; ip = SCM_FRAME_BYTE_CAST (data[4]); /* single value ra */ fp = SCM_FRAME_STACK_CAST (data[2]); /* Push first value */ *++sp = stack_base[1]; /* Finally set new stack_base */ NULLSTACK (stack_base - sp + nvalues + 1); stack_base = SCM_FRAME_UPPER_ADDRESS (fp) - 1; } else goto vm_error_no_values; /* Restore the last program */ program = SCM_FRAME_PROGRAM (fp); CACHE_PROGRAM (); CACHE_EXTERNAL (); CHECK_IP (); NEXT; } VM_DEFINE_INSTRUCTION (return_values_star, "return/values*", 1, -1, -1) { SCM l; nvalues = FETCH (); ASSERT (nvalues >= 1); nvalues--; POP (l); while (SCM_CONSP (l)) { PUSH (SCM_CAR (l)); l = SCM_CDR (l); nvalues++; } goto vm_return_values; } VM_DEFINE_INSTRUCTION (truncate_values, "truncate-values", 2, -1, -1) { SCM x; int nbinds, rest; POP (x); nvalues = scm_to_int (x); nbinds = FETCH (); rest = FETCH (); if (rest) nbinds--; if (nvalues < nbinds) goto vm_error_not_enough_values; if (rest) POP_LIST (nvalues - nbinds); else DROPN (nvalues - nbinds); NEXT; } /* Local Variables: c-file-style: "gnu" End: */