888 lines
21 KiB
C
888 lines
21 KiB
C
/***********************************************************************/
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/* */
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/* Objective Caml */
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/* */
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/* Xavier Leroy, projet Cristal, INRIA Rocquencourt */
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/* */
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/* Copyright 1996 Institut National de Recherche en Informatique et */
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/* Automatique. Distributed only by permission. */
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/* */
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/***********************************************************************/
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/* $Id$ */
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/* The bytecode interpreter */
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#include "alloc.h"
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#include "fail.h"
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#include "fix_code.h"
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#include "instruct.h"
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#include "interp.h"
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#include "memory.h"
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#include "misc.h"
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#include "mlvalues.h"
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#include "prims.h"
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#include "signals.h"
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#include "stacks.h"
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#include "str.h"
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#include "instrtrace.h"
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/* Registers for the abstract machine:
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pc the code pointer
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sp the stack pointer (grows downward)
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accu the accumulator
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env heap-allocated environment
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trapsp pointer to the current trap frame
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extra_args number of extra arguments provided by the caller
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sp is a local copy of the global variable extern_sp. */
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extern value global_data;
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extern code_t start_code;
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/* Instruction decoding */
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#ifdef THREADED_CODE
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# define Instruct(name) lbl_##name
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# ifdef DEBUG
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# define Next goto next_instr
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# else
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# define Next goto *((void *)((unsigned long)(*pc++)))
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# endif
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#else
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# define Instruct(name) case name
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# define Next break
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#endif
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/* GC interface */
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#define Setup_for_gc { sp -= 2; sp[0] = accu; sp[1] = env; extern_sp = sp; }
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#define Restore_after_gc { accu = sp[0]; env = sp[1]; sp += 2; }
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#define Setup_for_c_call { *--sp = env; extern_sp = sp; }
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#define Restore_after_c_call { sp = extern_sp; env = *sp++; }
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/* Register optimization.
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Many compilers underestimate the use of the local variables representing
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the abstract machine registers, and don't put them in hardware registers,
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which slows down the interpreter considerably.
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For GCC, I have hand-assigned hardware registers for several architectures.
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*/
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#if defined(__GNUC__) && !defined(DEBUG)
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#ifdef __mips__
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#define PC_REG asm("$16")
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#define SP_REG asm("$17")
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#define ACCU_REG asm("$18")
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#endif
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#ifdef __sparc__
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#define PC_REG asm("%l0")
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#define SP_REG asm("%l1")
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#define ACCU_REG asm("%l2")
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#endif
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#ifdef __alpha__
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#define PC_REG asm("$9")
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#define SP_REG asm("$10")
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#define ACCU_REG asm("$11")
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#endif
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#ifdef __i386__
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#define PC_REG asm("%esi")
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#define SP_REG asm("%edi")
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#define ACCU_REG
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#endif
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#if defined(PPC) || defined(_POWER) || defined(_IBMR2)
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#define PC_REG asm("26")
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#define SP_REG asm("27")
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#define ACCU_REG asm("28")
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#endif
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#endif
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/* The interpreter itself */
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value interprete(prog, prog_size)
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code_t prog;
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asize_t prog_size;
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{
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#ifdef PC_REG
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register code_t pc PC_REG;
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register value * sp SP_REG;
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register value accu ACCU_REG;
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#else
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register code_t pc;
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register value * sp;
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register value accu;
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#endif
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value env;
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long extra_args;
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struct longjmp_buffer * initial_external_raise;
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int initial_sp_offset;
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value * initial_local_roots;
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struct longjmp_buffer raise_buf;
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value * modify_dest, modify_newval;
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#ifdef THREADED_CODE
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static void * jumptable[] = {
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# include "jumptbl.h"
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};
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#endif
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#ifdef THREADED_CODE
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if (prog[0] <= STOP) thread_code(prog, prog_size, jumptable);
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#endif
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sp = extern_sp;
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pc = prog;
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extra_args = 0;
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env = Atom(0);
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accu = Val_int(0);
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initial_local_roots = local_roots;
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initial_sp_offset = stack_high - sp;
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initial_external_raise = external_raise;
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if (sigsetjmp(raise_buf.buf, 1)) {
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local_roots = initial_local_roots;
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accu = exn_bucket;
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goto raise_exception;
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}
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external_raise = &raise_buf;
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#ifdef THREADED_CODE
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#ifdef DEBUG
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next_instr:
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if (icount-- == 0) stop_here ();
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Assert(sp >= stack_low);
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Assert(sp <= stack_high);
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goto *((void *)((unsigned long)(*pc++)));
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#else
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Next; /* Jump to the first instruction */
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#endif
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#else
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while(1) {
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#ifdef DEBUG
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if (icount-- == 0) stop_here ();
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if (trace_flag) disasm_instr(pc);
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Assert(sp >= stack_low);
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Assert(sp <= stack_high);
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#endif
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switch(*pc++) {
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#endif
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/* Basic stack operations */
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Instruct(ACC0):
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accu = sp[0]; Next;
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Instruct(ACC1):
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accu = sp[1]; Next;
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Instruct(ACC2):
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accu = sp[2]; Next;
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Instruct(ACC3):
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accu = sp[3]; Next;
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Instruct(ACC4):
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accu = sp[4]; Next;
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Instruct(ACC5):
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accu = sp[5]; Next;
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Instruct(ACC6):
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accu = sp[6]; Next;
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Instruct(ACC7):
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accu = sp[7]; Next;
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Instruct(PUSH): Instruct(PUSHACC0):
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*--sp = accu; Next;
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Instruct(PUSHACC1):
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*--sp = accu; accu = sp[1]; Next;
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Instruct(PUSHACC2):
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*--sp = accu; accu = sp[2]; Next;
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Instruct(PUSHACC3):
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*--sp = accu; accu = sp[3]; Next;
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Instruct(PUSHACC4):
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*--sp = accu; accu = sp[4]; Next;
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Instruct(PUSHACC5):
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*--sp = accu; accu = sp[5]; Next;
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Instruct(PUSHACC6):
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*--sp = accu; accu = sp[6]; Next;
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Instruct(PUSHACC7):
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*--sp = accu; accu = sp[7]; Next;
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Instruct(PUSHACC):
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*--sp = accu;
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/* Fallthrough */
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Instruct(ACC):
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accu = sp[*pc++];
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Next;
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Instruct(POP):
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sp += *pc++;
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Next;
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Instruct(ASSIGN):
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sp[*pc++] = accu;
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accu = Val_unit;
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Next;
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/* Access in heap-allocated environment */
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Instruct(ENVACC1):
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accu = Field(env, 1); Next;
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Instruct(ENVACC2):
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accu = Field(env, 2); Next;
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Instruct(ENVACC3):
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accu = Field(env, 3); Next;
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Instruct(ENVACC4):
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accu = Field(env, 4); Next;
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Instruct(PUSHENVACC1):
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*--sp = accu; accu = Field(env, 1); Next;
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Instruct(PUSHENVACC2):
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*--sp = accu; accu = Field(env, 2); Next;
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Instruct(PUSHENVACC3):
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*--sp = accu; accu = Field(env, 3); Next;
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Instruct(PUSHENVACC4):
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*--sp = accu; accu = Field(env, 4); Next;
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Instruct(PUSHENVACC):
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*--sp = accu;
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/* Fallthrough */
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Instruct(ENVACC):
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accu = Field(env, *pc++);
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Next;
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/* Function application */
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Instruct(PUSH_RETADDR): {
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sp -= 3;
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sp[0] = (value) (pc + *pc);
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sp[1] = env;
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sp[2] = Val_long(extra_args);
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pc++;
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Next;
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}
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Instruct(APPLY): {
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extra_args = *pc++ - 1;
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pc = Code_val(accu);
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env = accu;
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goto check_stacks;
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}
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Instruct(APPLY1): {
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value arg1 = sp[0];
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sp -= 3;
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sp[0] = arg1;
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sp[1] = (value)pc;
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sp[2] = env;
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sp[3] = Val_long(extra_args);
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pc = Code_val(accu);
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env = accu;
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extra_args = 0;
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goto check_stacks;
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}
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Instruct(APPLY2): {
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value arg1 = sp[0];
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value arg2 = sp[1];
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sp -= 3;
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sp[0] = arg1;
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sp[1] = arg2;
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sp[2] = (value)pc;
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sp[3] = env;
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sp[4] = Val_long(extra_args);
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pc = Code_val(accu);
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env = accu;
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extra_args = 1;
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goto check_stacks;
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}
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Instruct(APPLY3): {
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value arg1 = sp[0];
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value arg2 = sp[1];
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value arg3 = sp[2];
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sp -= 3;
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sp[0] = arg1;
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sp[1] = arg2;
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sp[2] = arg3;
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sp[3] = (value)pc;
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sp[4] = env;
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sp[5] = Val_long(extra_args);
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pc = Code_val(accu);
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env = accu;
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extra_args = 2;
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goto check_stacks;
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}
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Instruct(APPTERM): {
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int nargs = *pc++;
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int slotsize = *pc++;
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value * newsp;
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int i;
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/* Slide the nargs bottom words of the current frame to the top
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of the frame, and discard the remainder of the frame */
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newsp = sp + slotsize - nargs;
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for (i = nargs - 1; i >= 0; i--) newsp[i] = sp[i];
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sp = newsp;
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pc = Code_val(accu);
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env = accu;
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extra_args += nargs - 1;
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goto check_stacks;
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}
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Instruct(APPTERM1): {
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value arg1 = sp[0];
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sp = sp + *pc++ - 1;
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sp[0] = arg1;
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pc = Code_val(accu);
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env = accu;
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goto check_stacks;
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}
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Instruct(APPTERM2): {
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value arg1 = sp[0];
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value arg2 = sp[1];
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sp = sp + *pc++ - 2;
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sp[0] = arg1;
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sp[1] = arg2;
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pc = Code_val(accu);
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env = accu;
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extra_args += 1;
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goto check_stacks;
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}
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Instruct(APPTERM3): {
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value arg1 = sp[0];
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value arg2 = sp[1];
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value arg3 = sp[2];
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sp = sp + *pc++ - 3;
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sp[0] = arg1;
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sp[1] = arg2;
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sp[2] = arg3;
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pc = Code_val(accu);
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env = accu;
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extra_args += 2;
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goto check_stacks;
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}
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Instruct(RETURN): {
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sp += *pc++;
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if (extra_args > 0) {
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extra_args--;
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pc = Code_val(accu);
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env = accu;
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} else {
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pc = (code_t)(sp[0]);
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env = sp[1];
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extra_args = Long_val(sp[2]);
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sp += 3;
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}
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Next;
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}
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Instruct(RESTART): {
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int num_args = Wosize_val(env) - 2;
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int i;
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sp -= num_args;
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for (i = 0; i < num_args; i++) sp[i] = Field(env, i + 2);
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env = Field(env, 1);
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extra_args += num_args;
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Next;
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}
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Instruct(GRAB): {
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int required = *pc++;
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if (extra_args >= required) {
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extra_args -= required;
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} else {
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mlsize_t num_args, i;
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num_args = 1 + extra_args; /* arg1 + extra args */
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Alloc_small(accu, num_args + 2, Closure_tag);
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Field(accu, 1) = env;
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for (i = 0; i < num_args; i++) Field(accu, i + 2) = sp[i];
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Code_val(accu) = pc - 3; /* Point to the preceding RESTART instr. */
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sp += num_args;
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pc = (code_t)(sp[0]);
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env = sp[1];
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extra_args = Long_val(sp[2]);
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sp += 3;
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}
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Next;
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}
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Instruct(CLOSURE): {
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int nvars = *pc++;
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int i;
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if (nvars > 0) *--sp = accu;
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Alloc_small(accu, 1 + nvars, Closure_tag);
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Code_val(accu) = pc + *pc;
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for (i = 0; i < nvars; i++) Field(accu, i + 1) = sp[i];
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sp += nvars;
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pc++;
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Next;
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}
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Instruct(CLOSUREREC): {
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int nvars = *pc++;
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int i;
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if (nvars > 0) *--sp = accu;
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Alloc_small(accu, 2 + nvars, Closure_tag);
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Code_val(accu) = pc + *pc;
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Field(accu, 1) = Val_int(0);
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for (i = 0; i < nvars; i++) Field(accu, i + 2) = sp[i];
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sp += nvars;
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modify(&Field(accu, 1), accu);
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pc++;
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Next;
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}
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Instruct(PUSHGETGLOBAL):
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*--sp = accu;
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/* Fallthrough */
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Instruct(GETGLOBAL):
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accu = Field(global_data, *pc);
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pc++;
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Next;
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Instruct(PUSHGETGLOBALFIELD):
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*--sp = accu;
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/* Fallthrough */
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Instruct(GETGLOBALFIELD): {
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accu = Field(global_data, *pc);
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pc++;
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accu = Field(accu, *pc);
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pc++;
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Next;
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}
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Instruct(SETGLOBAL):
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modify(&Field(global_data, *pc), accu);
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accu = Val_unit;
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pc++;
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Next;
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/* Allocation of blocks */
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Instruct(PUSHATOM0):
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*--sp = accu;
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/* Fallthrough */
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Instruct(ATOM0):
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accu = Atom(0); Next;
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Instruct(PUSHATOM):
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*--sp = accu;
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/* Fallthrough */
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Instruct(ATOM):
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accu = Atom(*pc++); Next;
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Instruct(MAKEBLOCK): {
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mlsize_t wosize = *pc++;
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tag_t tag = *pc++;
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mlsize_t i;
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value block;
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Alloc_small(block, wosize, tag);
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Field(block, 0) = accu;
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for (i = 1; i < wosize; i++) Field(block, i) = *sp++;
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accu = block;
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Next;
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}
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Instruct(MAKEBLOCK1): {
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tag_t tag = *pc++;
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value block;
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Alloc_small(block, 1, tag);
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Field(block, 0) = accu;
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accu = block;
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Next;
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}
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Instruct(MAKEBLOCK2): {
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tag_t tag = *pc++;
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value block;
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Alloc_small(block, 2, tag);
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Field(block, 0) = accu;
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Field(block, 1) = sp[0];
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sp += 1;
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accu = block;
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Next;
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}
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Instruct(MAKEBLOCK3): {
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tag_t tag = *pc++;
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value block;
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Alloc_small(block, 3, tag);
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Field(block, 0) = accu;
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Field(block, 1) = sp[0];
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Field(block, 2) = sp[1];
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sp += 2;
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accu = block;
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Next;
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}
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/* Access to components of blocks */
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Instruct(GETFIELD0):
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accu = Field(accu, 0); Next;
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Instruct(GETFIELD1):
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accu = Field(accu, 1); Next;
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Instruct(GETFIELD2):
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accu = Field(accu, 2); Next;
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Instruct(GETFIELD3):
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accu = Field(accu, 3); Next;
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Instruct(GETFIELD):
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accu = Field(accu, *pc); pc++; Next;
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Instruct(SETFIELD0):
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modify_dest = &Field(accu, 0);
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modify_newval = *sp++;
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modify:
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Modify(modify_dest, modify_newval);
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accu = Val_unit;
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Next;
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Instruct(SETFIELD1):
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modify_dest = &Field(accu, 1);
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modify_newval = *sp++;
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goto modify;
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Instruct(SETFIELD2):
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modify_dest = &Field(accu, 2);
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modify_newval = *sp++;
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goto modify;
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Instruct(SETFIELD3):
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modify_dest = &Field(accu, 3);
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modify_newval = *sp++;
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goto modify;
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Instruct(SETFIELD):
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modify_dest = &Field(accu, *pc);
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pc++;
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modify_newval = *sp++;
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goto modify;
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/* For recursive definitions */
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Instruct(DUMMY): {
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int size = *pc++;
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Alloc_small(accu, size, 0);
|
|
while (size--) Field(accu, size) = Val_long(0);
|
|
Next;
|
|
}
|
|
Instruct(UPDATE): {
|
|
value newval = *sp++;
|
|
mlsize_t size, n;
|
|
size = Wosize_val(newval);
|
|
Assert(size == Wosize_val(accu));
|
|
Tag_val(accu) = Tag_val(newval);
|
|
for (n = 0; n < size; n++) {
|
|
modify(&Field(accu, n), Field(newval, n));
|
|
}
|
|
accu = Val_unit;
|
|
Next;
|
|
}
|
|
|
|
/* Array operations */
|
|
|
|
Instruct(VECTLENGTH):
|
|
accu = Val_long(Wosize_val(accu));
|
|
Next;
|
|
Instruct(GETVECTITEM):
|
|
accu = Field(accu, Long_val(sp[0]));
|
|
sp += 1;
|
|
Next;
|
|
Instruct(SETVECTITEM):
|
|
modify_dest = &Field(accu, Long_val(sp[0]));
|
|
modify_newval = sp[1];
|
|
sp += 2;
|
|
goto modify;
|
|
|
|
/* String operations */
|
|
|
|
Instruct(GETSTRINGCHAR):
|
|
accu = Val_int(Byte_u(accu, Long_val(sp[0])));
|
|
sp += 1;
|
|
Next;
|
|
Instruct(SETSTRINGCHAR):
|
|
Byte_u(accu, Long_val(sp[0])) = Int_val(sp[1]);
|
|
sp += 2;
|
|
Next;
|
|
|
|
/* Branches and conditional branches */
|
|
|
|
Instruct(BRANCH):
|
|
pc += *pc;
|
|
Next;
|
|
Instruct(BRANCHIF):
|
|
if (accu != Val_false) pc += *pc; else pc++;
|
|
Next;
|
|
Instruct(BRANCHIFNOT):
|
|
if (accu == Val_false) pc += *pc; else pc++;
|
|
Next;
|
|
Instruct(SWITCH): {
|
|
uint32 sizes = *pc++;
|
|
if (Is_block(accu)) {
|
|
long index = Tag_val(accu);
|
|
Assert(index >= 0 && index < (sizes >> 16));
|
|
pc += pc[(sizes & 0xFFFF) + index];
|
|
} else {
|
|
long index = Long_val(accu);
|
|
if ((unsigned long) index < (sizes & 0xFFFF))
|
|
pc += pc[index];
|
|
else
|
|
pc += (sizes & 0xFFFF) + (sizes >> 16);
|
|
}
|
|
Next;
|
|
}
|
|
Instruct(BOOLNOT):
|
|
accu = Val_not(accu);
|
|
Next;
|
|
|
|
/* Exceptions */
|
|
|
|
Instruct(PUSHTRAP):
|
|
sp -= 4;
|
|
Trap_pc(sp) = pc + *pc;
|
|
Trap_link(sp) = trapsp;
|
|
sp[2] = env;
|
|
sp[3] = Val_long(extra_args);
|
|
trapsp = sp;
|
|
pc++;
|
|
Next;
|
|
|
|
Instruct(POPTRAP):
|
|
/* We should check here if a signal is pending, to preserve the
|
|
semantics of the program w.r.t. exceptions. Unfortunately,
|
|
process_signal destroys the accumulator, and there is no
|
|
convenient way to preserve it... */
|
|
trapsp = Trap_link(sp);
|
|
sp += 4;
|
|
Next;
|
|
|
|
Instruct(RAISE): /* arg */
|
|
raise_exception:
|
|
sp = trapsp;
|
|
if (sp >= stack_high - initial_sp_offset) {
|
|
exn_bucket = accu;
|
|
external_raise = initial_external_raise;
|
|
siglongjmp(external_raise->buf, 1);
|
|
}
|
|
pc = Trap_pc(sp);
|
|
trapsp = Trap_link(sp);
|
|
env = sp[2];
|
|
extra_args = Long_val(sp[3]);
|
|
sp += 4;
|
|
Next;
|
|
|
|
/* Stack checks */
|
|
|
|
check_stacks:
|
|
if (sp < stack_threshold) {
|
|
extern_sp = sp;
|
|
realloc_stack();
|
|
sp = extern_sp;
|
|
}
|
|
/* Fall through CHECK_SIGNALS */
|
|
|
|
/* Signal handling */
|
|
|
|
Instruct(CHECK_SIGNALS): /* accu not preserved */
|
|
if (something_to_do) goto process_signal;
|
|
Next;
|
|
|
|
process_signal:
|
|
something_to_do = 0;
|
|
if (force_major_slice){
|
|
force_major_slice = 0;
|
|
Setup_for_gc;
|
|
minor_collection ();
|
|
Restore_after_gc;
|
|
}
|
|
/* If a signal arrives between the following two instructions,
|
|
it will be lost. */
|
|
{ int signal_number = pending_signal;
|
|
pending_signal = 0;
|
|
if (signal_number) {
|
|
/* Push a return frame to the current code location */
|
|
sp -= 4;
|
|
sp[0] = Val_int(signal_number);
|
|
sp[1] = (value) pc;
|
|
sp[2] = env;
|
|
sp[3] = Val_long(extra_args);
|
|
/* Branch to the signal handler */
|
|
env = Field(signal_handlers, signal_number);
|
|
pc = Code_val(env);
|
|
extra_args = 0;
|
|
}
|
|
}
|
|
Next;
|
|
|
|
/* Calling C functions */
|
|
|
|
Instruct(C_CALL1):
|
|
Setup_for_c_call;
|
|
accu = cprim[*pc](accu);
|
|
Restore_after_c_call;
|
|
pc++;
|
|
Next;
|
|
Instruct(C_CALL2):
|
|
Setup_for_c_call;
|
|
accu = cprim[*pc](accu, sp[1]);
|
|
Restore_after_c_call;
|
|
sp += 1;
|
|
pc++;
|
|
Next;
|
|
Instruct(C_CALL3):
|
|
Setup_for_c_call;
|
|
accu = cprim[*pc](accu, sp[1], sp[2]);
|
|
Restore_after_c_call;
|
|
sp += 2;
|
|
pc++;
|
|
Next;
|
|
Instruct(C_CALL4):
|
|
Setup_for_c_call;
|
|
accu = cprim[*pc](accu, sp[1], sp[2], sp[3]);
|
|
Restore_after_c_call;
|
|
sp += 3;
|
|
pc++;
|
|
Next;
|
|
Instruct(C_CALL5):
|
|
Setup_for_c_call;
|
|
accu = cprim[*pc](accu, sp[1], sp[2], sp[3], sp[4]);
|
|
Restore_after_c_call;
|
|
sp += 4;
|
|
pc++;
|
|
Next;
|
|
Instruct(C_CALLN): {
|
|
int nargs = *pc++;
|
|
*--sp = accu;
|
|
Setup_for_c_call;
|
|
accu = cprim[*pc](sp + 1, nargs);
|
|
Restore_after_c_call;
|
|
sp += nargs;
|
|
pc++;
|
|
Next;
|
|
}
|
|
|
|
/* Integer constants */
|
|
|
|
Instruct(CONST0):
|
|
accu = Val_int(0); Next;
|
|
Instruct(CONST1):
|
|
accu = Val_int(1); Next;
|
|
Instruct(CONST2):
|
|
accu = Val_int(2); Next;
|
|
Instruct(CONST3):
|
|
accu = Val_int(3); Next;
|
|
|
|
Instruct(PUSHCONST0):
|
|
*--sp = accu; accu = Val_int(0); Next;
|
|
Instruct(PUSHCONST1):
|
|
*--sp = accu; accu = Val_int(1); Next;
|
|
Instruct(PUSHCONST2):
|
|
*--sp = accu; accu = Val_int(2); Next;
|
|
Instruct(PUSHCONST3):
|
|
*--sp = accu; accu = Val_int(3); Next;
|
|
|
|
Instruct(PUSHCONSTINT):
|
|
*--sp = accu;
|
|
/* Fallthrough */
|
|
Instruct(CONSTINT):
|
|
accu = Val_int(*pc);
|
|
pc++;
|
|
Next;
|
|
|
|
/* Integer arithmetic */
|
|
|
|
Instruct(NEGINT):
|
|
accu = (value)(2 - (long)accu); Next;
|
|
Instruct(ADDINT):
|
|
accu = (value)((long) accu + (long) *sp++ - 1); Next;
|
|
Instruct(SUBINT):
|
|
accu = (value)((long) accu - (long) *sp++ + 1); Next;
|
|
Instruct(MULINT):
|
|
accu = Val_long(Long_val(accu) * Long_val(*sp++)); Next;
|
|
Instruct(DIVINT): {
|
|
value div = *sp++;
|
|
if (div == Val_long(0)) { Setup_for_c_call; raise_zero_divide(); }
|
|
accu = Val_long(Long_val(accu) / Long_val(div));
|
|
Next;
|
|
}
|
|
Instruct(MODINT): {
|
|
value div = *sp++;
|
|
if (div == Val_long(0)) { Setup_for_c_call; raise_zero_divide(); }
|
|
accu = Val_long(Long_val(accu) % Long_val(div));
|
|
Next;
|
|
}
|
|
Instruct(ANDINT):
|
|
accu = (value)((long) accu & (long) *sp++); Next;
|
|
Instruct(ORINT):
|
|
accu = (value)((long) accu | (long) *sp++); Next;
|
|
Instruct(XORINT):
|
|
accu = (value)(((long) accu ^ (long) *sp++) | 1); Next;
|
|
Instruct(LSLINT):
|
|
accu = (value)((((long) accu - 1) << Long_val(*sp++)) + 1); Next;
|
|
Instruct(LSRINT):
|
|
accu = (value)((((unsigned long) accu - 1) >> Long_val(*sp++)) | 1);
|
|
Next;
|
|
Instruct(ASRINT):
|
|
accu = (value)((((long) accu - 1) >> Long_val(*sp++)) | 1); Next;
|
|
|
|
#define Integer_comparison(opname,tst) \
|
|
Instruct(opname): \
|
|
accu = Val_int((long) accu tst (long) *sp++); Next;
|
|
|
|
Integer_comparison(EQ, ==)
|
|
Integer_comparison(NEQ, !=)
|
|
Integer_comparison(LTINT, <)
|
|
Integer_comparison(LEINT, <=)
|
|
Integer_comparison(GTINT, >)
|
|
Integer_comparison(GEINT, >=)
|
|
|
|
Instruct(OFFSETINT):
|
|
accu += *pc << 1;
|
|
pc++;
|
|
Next;
|
|
Instruct(OFFSETREF):
|
|
Field(accu, 0) += *pc << 1;
|
|
accu = Val_unit;
|
|
pc++;
|
|
Next;
|
|
|
|
/* Object-oriented operations */
|
|
|
|
#define Lookup(obj, lab) \
|
|
Field (Field (Field (obj, 0), ((lab) >> 16) / sizeof (value)), \
|
|
((lab) / sizeof (value)) & 0xFF)
|
|
|
|
Instruct(GETMETHOD):
|
|
accu = Lookup(sp[0], accu);
|
|
Next;
|
|
|
|
/* Machine control */
|
|
|
|
Instruct(STOP):
|
|
external_raise = initial_external_raise;
|
|
extern_sp = sp;
|
|
return accu;
|
|
|
|
#ifndef THREADED_CODE
|
|
default:
|
|
fatal_error("bad opcode");
|
|
}
|
|
}
|
|
#endif
|
|
}
|
|
|
|
static opcode_t callback1_code[] = { ACC1, APPLY1, POP, 1, STOP };
|
|
static opcode_t callback2_code[] = { ACC2, APPLY2, POP, 1, STOP };
|
|
static opcode_t callback3_code[] = { ACC3, APPLY3, POP, 1, STOP };
|
|
|
|
value callback(closure, arg)
|
|
value closure, arg;
|
|
{
|
|
extern_sp -= 2;
|
|
extern_sp[0] = arg;
|
|
extern_sp[1] = closure;
|
|
return interprete(callback1_code, sizeof(callback1_code));
|
|
}
|
|
|
|
value callback2(closure, arg1, arg2)
|
|
value closure, arg1, arg2;
|
|
{
|
|
extern_sp -= 3;
|
|
extern_sp[0] = arg1;
|
|
extern_sp[1] = arg2;
|
|
extern_sp[2] = closure;
|
|
return interprete(callback2_code, sizeof(callback2_code));
|
|
}
|
|
|
|
value callback3(closure, arg1, arg2, arg3)
|
|
value closure, arg1, arg2, arg3;
|
|
{
|
|
extern_sp -= 4;
|
|
extern_sp[0] = arg1;
|
|
extern_sp[1] = arg2;
|
|
extern_sp[2] = arg3;
|
|
extern_sp[3] = closure;
|
|
return interprete(callback3_code, sizeof(callback3_code));
|
|
}
|