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This file defines utilities for manipulating the stack in an
RPython-compliant way, intended mostly for use by the Stackless PyPy.

import inspect

import py

from rpython.rlib.objectmodel import we_are_translated
from rpython.rlib.rarithmetic import r_uint
from rpython.rlib import rgc
from rpython.rtyper.extregistry import ExtRegistryEntry
from rpython.rtyper.lltypesystem import lltype, rffi
from rpython.rtyper.lltypesystem.lloperation import llop
from rpython.rtyper.controllerentry import Controller, SomeControlledInstance
from rpython.conftest import cdir
from rpython.translator.tool.cbuild import ExternalCompilationInfo

# ____________________________________________________________

srcdir = py.path.local(cdir) / 'src'
compilation_info = ExternalCompilationInfo(
        separate_module_files=[srcdir / 'stack.c', srcdir / 'threadlocal.c'])

def llexternal(name, args, res, _callable=None):
    return rffi.llexternal(name, args, res, compilation_info=compilation_info,
                           sandboxsafe=True, _nowrapper=True,

_stack_get_end = llexternal('LL_stack_get_end', [], lltype.Signed,
                            lambda: 0)
_stack_get_length = llexternal('LL_stack_get_length', [], lltype.Signed,
                               lambda: 1)
_stack_set_length_fraction = llexternal('LL_stack_set_length_fraction',
                                        [lltype.Float], lltype.Void,
                                        lambda frac: None)
_stack_too_big_slowpath = llexternal('LL_stack_too_big_slowpath',
                                     [lltype.Signed], lltype.Char,
                                     lambda cur: '\x00')
# the following is used by the JIT
_stack_get_end_adr   = llexternal('LL_stack_get_end_adr',   [], lltype.Signed)
_stack_get_length_adr= llexternal('LL_stack_get_length_adr',[], lltype.Signed)

# the following is also used by the JIT: "critical code" paths are paths in
# which we should not raise StackOverflow at all, but just ignore the stack limit
_stack_criticalcode_start = llexternal('LL_stack_criticalcode_start', [],
                                       lltype.Void, lambda: None)
_stack_criticalcode_stop = llexternal('LL_stack_criticalcode_stop', [],
                                      lltype.Void, lambda: None)

def stack_check():
    if not we_are_translated():
    # Load the "current" stack position, or at least some address that
    # points close to the current stack head
    current = llop.stack_current(lltype.Signed)
    # Load these variables from C code
    end = _stack_get_end()
    length = _stack_get_length()
    # Common case: if 'current' is within [end-length:end], everything
    # is fine
    ofs = r_uint(end - current)
    if ofs <= r_uint(length):
    # Else call the slow path
stack_check._always_inline_ = True

def stack_check_slowpath(current):
    if ord(_stack_too_big_slowpath(current)):
        from rpython.rlib.rstackovf import _StackOverflow
        raise _StackOverflow
stack_check_slowpath._dont_inline_ = True