/***********************************************************************/ /* */ /* OCaml */ /* */ /* 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, with */ /* the special exception on linking described in file ../LICENSE. */ /* */ /***********************************************************************/ /* To initialize and resize the stacks */ #include #include "caml/config.h" #include "caml/fail.h" #include "caml/misc.h" #include "caml/mlvalues.h" #include "caml/stacks.h" CAMLexport value * caml_stack_low; CAMLexport value * caml_stack_high; CAMLexport value * caml_stack_threshold; CAMLexport value * caml_extern_sp; CAMLexport value * caml_trapsp; CAMLexport value * caml_trap_barrier; value caml_global_data = 0; uintnat caml_max_stack_size; /* also used in gc_ctrl.c */ void caml_init_stack (uintnat initial_max_size) { caml_stack_low = (value *) caml_stat_alloc(Stack_size); caml_stack_high = caml_stack_low + Stack_size / sizeof (value); caml_stack_threshold = caml_stack_low + Stack_threshold / sizeof (value); caml_extern_sp = caml_stack_high; caml_trapsp = caml_stack_high; caml_trap_barrier = caml_stack_high + 1; caml_max_stack_size = initial_max_size; caml_gc_message (0x08, "Initial stack limit: %luk bytes\n", caml_max_stack_size / 1024 * sizeof (value)); } void caml_realloc_stack(asize_t required_space) { asize_t size; value * new_low, * new_high, * new_sp; value * p; Assert(caml_extern_sp >= caml_stack_low); size = caml_stack_high - caml_stack_low; do { if (size >= caml_max_stack_size) caml_raise_stack_overflow(); size *= 2; } while (size < caml_stack_high - caml_extern_sp + required_space); caml_gc_message (0x08, "Growing stack to %" ARCH_INTNAT_PRINTF_FORMAT "uk bytes\n", (uintnat) size * sizeof(value) / 1024); new_low = (value *) caml_stat_alloc(size * sizeof(value)); new_high = new_low + size; #define shift(ptr) \ ((char *) new_high - ((char *) caml_stack_high - (char *) (ptr))) new_sp = (value *) shift(caml_extern_sp); memmove((char *) new_sp, (char *) caml_extern_sp, (caml_stack_high - caml_extern_sp) * sizeof(value)); caml_stat_free(caml_stack_low); caml_trapsp = (value *) shift(caml_trapsp); caml_trap_barrier = (value *) shift(caml_trap_barrier); for (p = caml_trapsp; p < new_high; p = Trap_link(p)) Trap_link(p) = (value *) shift(Trap_link(p)); caml_stack_low = new_low; caml_stack_high = new_high; caml_stack_threshold = caml_stack_low + Stack_threshold / sizeof (value); caml_extern_sp = new_sp; #undef shift } CAMLprim value caml_ensure_stack_capacity(value required_space) { asize_t req = Long_val(required_space); if (caml_extern_sp - req < caml_stack_low) caml_realloc_stack(req); return Val_unit; } void caml_change_max_stack_size (uintnat new_max_size) { asize_t size = caml_stack_high - caml_extern_sp + Stack_threshold / sizeof (value); if (new_max_size < size) new_max_size = size; if (new_max_size != caml_max_stack_size){ caml_gc_message (0x08, "Changing stack limit to %luk bytes\n", new_max_size * sizeof (value) / 1024); } caml_max_stack_size = new_max_size; } CAMLexport uintnat (*caml_stack_usage_hook)(void) = NULL; uintnat caml_stack_usage(void) { uintnat sz; sz = caml_stack_high - caml_extern_sp; if (caml_stack_usage_hook != NULL) sz += (*caml_stack_usage_hook)(); return sz; }