/***********************************************************************/ /* */ /* Objective Caml */ /* */ /* Xavier Leroy, projet Cristal, INRIA Rocquencourt */ /* */ /* Copyright 1996 Institut National de Recherche en Informatique et */ /* en Automatique. All rights reserved. This file is distributed */ /* under the terms of the GNU Library General Public License. */ /* */ /***********************************************************************/ /* $Id$ */ /* Primitives for the toplevel */ #include "alloc.h" #include "config.h" #include "fail.h" #include "fix_code.h" #include "interp.h" #include "major_gc.h" #include "memory.h" #include "minor_gc.h" #include "misc.h" #include "mlvalues.h" #include "prims.h" #include "stacks.h" #ifndef NATIVE_CODE value get_global_data(value unit) /* ML */ { return global_data; } value reify_bytecode(value prog, value len) /* ML */ { value clos; #ifdef ARCH_BIG_ENDIAN fixup_endianness((code_t) prog, (asize_t) Long_val(len)); #endif #ifdef THREADED_CODE thread_code((code_t) prog, (asize_t) Long_val(len)); #endif clos = alloc_small (1, Closure_tag); Code_val(clos) = (code_t) prog; return clos; } value realloc_global(value size) /* ML */ { mlsize_t requested_size, actual_size, i; value new_global_data; requested_size = Long_val(size); actual_size = Wosize_val(global_data); if (requested_size >= actual_size) { requested_size = (requested_size + 0x100) & 0xFFFFFF00; gc_message (0x08, "Growing global data to %lu entries\n", requested_size); new_global_data = alloc_shr(requested_size, 0); for (i = 0; i < actual_size; i++) initialize(&Field(new_global_data, i), Field(global_data, i)); for (i = actual_size; i < requested_size; i++){ Field (new_global_data, i) = Val_long (0); } global_data = new_global_data; } return Val_unit; } value available_primitives(value unit) /* ML */ { return copy_string_array(names_of_cprim); } value get_current_environment(value unit) /* ML */ { return *extern_sp; } value invoke_traced_function(value codeptr, value env, value arg) /* ML */ { /* Stack layout on entry: return frame into instrument_closure function arg3 to call_original_code (arg) arg2 to call_original_code (env) arg1 to call_original_code (codeptr) arg3 to call_original_code (arg) arg2 to call_original_code (env) saved env */ /* Stack layout on exit: return frame into instrument_closure function actual arg to code (arg) pseudo return frame into codeptr: extra_args = 0 environment = env PC = codeptr arg3 to call_original_code (arg) same 6 bottom words as arg2 to call_original_code (env) on entrance, but arg1 to call_original_code (codeptr) shifted down 4 words arg3 to call_original_code (arg) arg2 to call_original_code (env) saved env */ value * osp, * nsp; int i; osp = extern_sp; extern_sp -= 4; nsp = extern_sp; for (i = 0; i < 6; i++) nsp[i] = osp[i]; nsp[6] = codeptr; nsp[7] = env; nsp[8] = Val_int(0); nsp[9] = arg; return Val_unit; } #else /* Dummy definitions to support compilation of ocamlc.opt */ value get_global_data(value unit) { invalid_argument("Meta.get_global_data"); return Val_unit; /* not reached */ } value realloc_global(value size) { invalid_argument("Meta.realloc_global"); return Val_unit; /* not reached */ } value available_primitives(value unit) { invalid_argument("Meta.available_primitives"); return Val_unit; /* not reached */ } value invoke_traced_function(value codeptr, value env, value arg) { invalid_argument("Meta.invoke_traced_function"); return Val_unit; /* not reached */ } #endif