from rpython.rtyper.lltypesystem import lltype, llmemory, rffi, rclass, rstr from rpython.rtyper.lltypesystem.lloperation import llop from rpython.rtyper.llinterp import LLInterpreter from rpython.rtyper.annlowlevel import llhelper, MixLevelHelperAnnotator from rpython.rtyper.llannotation import lltype_to_annotation from rpython.rlib.objectmodel import we_are_translated, specialize from rpython.jit.metainterp import history, compile from rpython.jit.codewriter import heaptracker, longlong from rpython.jit.backend.model import AbstractCPU from rpython.jit.backend.llsupport import symbolic, jitframe from rpython.jit.backend.llsupport.symbolic import WORD, unroll_basic_sizes from rpython.jit.backend.llsupport.descr import ( get_size_descr, get_field_descr, get_array_descr, get_call_descr, get_interiorfield_descr, FieldDescr, ArrayDescr, CallDescr, InteriorFieldDescr, FLAG_POINTER, FLAG_FLOAT) from rpython.jit.backend.llsupport.asmmemmgr import AsmMemoryManager from rpython.rlib.unroll import unrolling_iterable class AbstractLLCPU(AbstractCPU): from rpython.jit.metainterp.typesystem import llhelper as ts def __init__(self, rtyper, stats, opts, translate_support_code=False, gcdescr=None): assert type(opts) is not bool self.opts = opts from rpython.jit.backend.llsupport.gc import get_ll_description AbstractCPU.__init__(self) self.rtyper = rtyper self.stats = stats self.translate_support_code = translate_support_code if translate_support_code and rtyper is not None: translator = rtyper.annotator.translator else: translator = None self.gc_ll_descr = get_ll_description(gcdescr, translator, rtyper) if translator and translator.config.translation.gcremovetypeptr: self.vtable_offset = None else: self.vtable_offset, _ = symbolic.get_field_token(rclass.OBJECT, 'typeptr', translate_support_code) if translate_support_code: self._setup_exception_handling_translated() else: self._setup_exception_handling_untranslated() self.asmmemmgr = AsmMemoryManager() self._setup_frame_realloc(translate_support_code) ad = self.gc_ll_descr.getframedescrs(self).arraydescr self.signedarraydescr = ad # the same as normal JITFRAME, however with an array of pointers self.refarraydescr = ArrayDescr(ad.basesize, ad.itemsize, ad.lendescr, FLAG_POINTER) if WORD == 4: self.floatarraydescr = ArrayDescr(ad.basesize, ad.itemsize * 2, ad.lendescr, FLAG_FLOAT) else: self.floatarraydescr = ArrayDescr(ad.basesize, ad.itemsize, ad.lendescr, FLAG_FLOAT) self.setup() def getarraydescr_for_frame(self, type): if type == history.FLOAT: descr = self.floatarraydescr elif type == history.REF: descr = self.refarraydescr else: descr = self.signedarraydescr return descr def setup(self): pass def _setup_frame_realloc(self, translate_support_code): FUNC_TP = lltype.Ptr(lltype.FuncType([llmemory.GCREF, lltype.Signed], llmemory.GCREF)) base_ofs = self.get_baseofs_of_frame_field() def realloc_frame(frame, size): try: if not we_are_translated(): assert not self._exception_emulator[0] frame = lltype.cast_opaque_ptr(jitframe.JITFRAMEPTR, frame) if size > frame.jf_frame_info.jfi_frame_depth: # update the frame_info size, which is for whatever reason # not up to date frame.jf_frame_info.update_frame_depth(base_ofs, size) new_frame = jitframe.JITFRAME.allocate(frame.jf_frame_info) frame.jf_forward = new_frame i = 0 while i < len(frame.jf_frame): new_frame.jf_frame[i] = frame.jf_frame[i] frame.jf_frame[i] = 0 i += 1 new_frame.jf_savedata = frame.jf_savedata new_frame.jf_guard_exc = frame.jf_guard_exc # all other fields are empty llop.gc_writebarrier(lltype.Void, new_frame) return lltype.cast_opaque_ptr(llmemory.GCREF, new_frame) except Exception, e: print "Unhandled exception", e, "in realloc_frame" return lltype.nullptr(llmemory.GCREF.TO) def realloc_frame_crash(frame, size): print "frame", frame, "size", size return lltype.nullptr(llmemory.GCREF.TO) if not translate_support_code: fptr = llhelper(FUNC_TP, realloc_frame) else: FUNC = FUNC_TP.TO args_s = [lltype_to_annotation(ARG) for ARG in FUNC.ARGS] s_result = lltype_to_annotation(FUNC.RESULT) mixlevelann = MixLevelHelperAnnotator(self.rtyper) graph = mixlevelann.getgraph(realloc_frame, args_s, s_result) fptr = mixlevelann.graph2delayed(graph, FUNC) mixlevelann.finish() self.realloc_frame = heaptracker.adr2int(llmemory.cast_ptr_to_adr(fptr)) if not translate_support_code: fptr = llhelper(FUNC_TP, realloc_frame_crash) else: FUNC = FUNC_TP.TO args_s = [lltype_to_annotation(ARG) for ARG in FUNC.ARGS] s_result = lltype_to_annotation(FUNC.RESULT) mixlevelann = MixLevelHelperAnnotator(self.rtyper) graph = mixlevelann.getgraph(realloc_frame_crash, args_s, s_result) fptr = mixlevelann.graph2delayed(graph, FUNC) mixlevelann.finish() self.realloc_frame_crash = heaptracker.adr2int(llmemory.cast_ptr_to_adr(fptr)) def _setup_exception_handling_untranslated(self): # for running un-translated only, all exceptions occurring in the # llinterpreter are stored in '_exception_emulator', which is then # read back by the machine code reading at the address given by # pos_exception() and pos_exc_value(). _exception_emulator = lltype.malloc(rffi.CArray(lltype.Signed), 2, zero=True, flavor='raw', immortal=True) self._exception_emulator = _exception_emulator def _store_exception(lle): self._last_exception = lle # keepalive tp_i = rffi.cast(lltype.Signed, lle.args[0]) v_i = rffi.cast(lltype.Signed, lle.args[1]) _exception_emulator[0] = tp_i _exception_emulator[1] = v_i self.debug_ll_interpreter = LLInterpreter(self.rtyper) self.debug_ll_interpreter._store_exception = _store_exception def pos_exception(): return rffi.cast(lltype.Signed, _exception_emulator) def pos_exc_value(): return (rffi.cast(lltype.Signed, _exception_emulator) + rffi.sizeof(lltype.Signed)) self.pos_exception = pos_exception self.pos_exc_value = pos_exc_value self.insert_stack_check = lambda: (0, 0, 0) def _setup_exception_handling_translated(self): def pos_exception(): addr = llop.get_exception_addr(llmemory.Address) return heaptracker.adr2int(addr) def pos_exc_value(): addr = llop.get_exc_value_addr(llmemory.Address) return heaptracker.adr2int(addr) from rpython.rlib import rstack STACK_CHECK_SLOWPATH = lltype.Ptr(lltype.FuncType([lltype.Signed], lltype.Void)) def insert_stack_check(): endaddr = rstack._stack_get_end_adr() lengthaddr = rstack._stack_get_length_adr() f = llhelper(STACK_CHECK_SLOWPATH, rstack.stack_check_slowpath) slowpathaddr = rffi.cast(lltype.Signed, f) return endaddr, lengthaddr, slowpathaddr self.pos_exception = pos_exception self.pos_exc_value = pos_exc_value self.insert_stack_check = insert_stack_check def grab_exc_value(self, deadframe): deadframe = lltype.cast_opaque_ptr(jitframe.JITFRAMEPTR, deadframe) return deadframe.jf_guard_exc def set_savedata_ref(self, deadframe, data): deadframe = lltype.cast_opaque_ptr(jitframe.JITFRAMEPTR, deadframe) deadframe.jf_savedata = data def get_savedata_ref(self, deadframe): deadframe = lltype.cast_opaque_ptr(jitframe.JITFRAMEPTR, deadframe) return deadframe.jf_savedata def free_loop_and_bridges(self, compiled_loop_token): AbstractCPU.free_loop_and_bridges(self, compiled_loop_token) blocks = compiled_loop_token.asmmemmgr_blocks if blocks is not None: compiled_loop_token.asmmemmgr_blocks = None for rawstart, rawstop in blocks: self.gc_ll_descr.freeing_block(rawstart, rawstop) self.asmmemmgr.free(rawstart, rawstop) def force(self, addr_of_force_token): frame = rffi.cast(jitframe.JITFRAMEPTR, addr_of_force_token) frame = frame.resolve() frame.jf_descr = frame.jf_force_descr return lltype.cast_opaque_ptr(llmemory.GCREF, frame) def make_execute_token(self, *ARGS): FUNCPTR = lltype.Ptr(lltype.FuncType([llmemory.GCREF], llmemory.GCREF)) lst = [(i, history.getkind(ARG)[0]) for i, ARG in enumerate(ARGS)] kinds = unrolling_iterable(lst) def execute_token(executable_token, *args): clt = executable_token.compiled_loop_token assert len(args) == clt._debug_nbargs # addr = executable_token._ll_function_addr func = rffi.cast(FUNCPTR, addr) #llop.debug_print(lltype.Void, ">>>> Entering", addr) frame_info = clt.frame_info frame = self.gc_ll_descr.malloc_jitframe(frame_info) ll_frame = lltype.cast_opaque_ptr(llmemory.GCREF, frame) locs = executable_token.compiled_loop_token._ll_initial_locs prev_interpreter = None # help flow space if not self.translate_support_code: prev_interpreter = LLInterpreter.current_interpreter LLInterpreter.current_interpreter = self.debug_ll_interpreter try: for i, kind in kinds: arg = args[i] num = locs[i] if kind == history.INT: self.set_int_value(ll_frame, num, arg) elif kind == history.FLOAT: self.set_float_value(ll_frame, num, arg) else: assert kind == history.REF self.set_ref_value(ll_frame, num, arg) llop.gc_writebarrier(lltype.Void, ll_frame) ll_frame = func(ll_frame) finally: if not self.translate_support_code: LLInterpreter.current_interpreter = prev_interpreter #llop.debug_print(lltype.Void, "<<<< Back") return ll_frame return execute_token # ------------------- helpers and descriptions -------------------- @staticmethod def _cast_int_to_gcref(x): # dangerous! only use if you are sure no collection could occur # between reading the integer and casting it to a pointer return rffi.cast(llmemory.GCREF, x) @staticmethod def cast_gcref_to_int(x): return rffi.cast(lltype.Signed, x) @staticmethod def cast_int_to_adr(x): return rffi.cast(llmemory.Address, x) @staticmethod def cast_adr_to_int(x): return rffi.cast(lltype.Signed, x) @specialize.arg(2) def cast_int_to_ptr(self, x, TYPE): return rffi.cast(TYPE, x) def sizeof(self, S): return get_size_descr(self.gc_ll_descr, S) def fielddescrof(self, STRUCT, fieldname): return get_field_descr(self.gc_ll_descr, STRUCT, fieldname) def unpack_fielddescr(self, fielddescr): assert isinstance(fielddescr, FieldDescr) return fielddescr.offset unpack_fielddescr._always_inline_ = True def unpack_fielddescr_size(self, fielddescr): assert isinstance(fielddescr, FieldDescr) ofs = fielddescr.offset size = fielddescr.field_size sign = fielddescr.is_field_signed() return ofs, size, sign unpack_fielddescr_size._always_inline_ = True def arraydescrof(self, A): return get_array_descr(self.gc_ll_descr, A) def interiorfielddescrof(self, A, fieldname, arrayfieldname=None): return get_interiorfield_descr(self.gc_ll_descr, A, fieldname, arrayfieldname) def unpack_arraydescr(self, arraydescr): assert isinstance(arraydescr, ArrayDescr) return arraydescr.basesize unpack_arraydescr._always_inline_ = True def unpack_arraydescr_size(self, arraydescr): assert isinstance(arraydescr, ArrayDescr) ofs = arraydescr.basesize size = arraydescr.itemsize sign = arraydescr.is_item_signed() return ofs, size, sign unpack_arraydescr_size._always_inline_ = True def calldescrof(self, FUNC, ARGS, RESULT, extrainfo): return get_call_descr(self.gc_ll_descr, ARGS, RESULT, extrainfo) def calldescrof_dynamic(self, cif_description, extrainfo): from rpython.jit.backend.llsupport import ffisupport return ffisupport.get_call_descr_dynamic(self, cif_description, extrainfo) def _calldescr_dynamic_for_tests(self, atypes, rtype, abiname='FFI_DEFAULT_ABI'): from rpython.jit.backend.llsupport import ffisupport return ffisupport.calldescr_dynamic_for_tests(self, atypes, rtype, abiname) def get_latest_descr(self, deadframe): deadframe = lltype.cast_opaque_ptr(jitframe.JITFRAMEPTR, deadframe) descr = deadframe.jf_descr res = history.AbstractDescr.show(self, descr) assert isinstance(res, history.AbstractFailDescr) return res def _decode_pos(self, deadframe, index): descr = self.get_latest_descr(deadframe) return rffi.cast(lltype.Signed, descr.rd_locs[index]) * WORD def get_int_value(self, deadframe, index): pos = self._decode_pos(deadframe, index) descr = self.gc_ll_descr.getframedescrs(self).arraydescr ofs = self.unpack_arraydescr(descr) return self.read_int_at_mem(deadframe, pos + ofs, WORD, 1) def get_ref_value(self, deadframe, index): pos = self._decode_pos(deadframe, index) descr = self.gc_ll_descr.getframedescrs(self).arraydescr ofs = self.unpack_arraydescr(descr) return self.read_ref_at_mem(deadframe, pos + ofs) def get_float_value(self, deadframe, index): pos = self._decode_pos(deadframe, index) descr = self.gc_ll_descr.getframedescrs(self).arraydescr ofs = self.unpack_arraydescr(descr) return self.read_float_at_mem(deadframe, pos + ofs) # ____________________ RAW PRIMITIVES ________________________ @specialize.argtype(1) def read_int_at_mem(self, gcref, ofs, size, sign): for STYPE, UTYPE, itemsize in unroll_basic_sizes: if size == itemsize: if sign: val = llop.raw_load(STYPE, gcref, ofs) val = rffi.cast(lltype.Signed, val) else: val = llop.raw_load(UTYPE, gcref, ofs) val = rffi.cast(lltype.Signed, val) return val else: raise NotImplementedError("size = %d" % size) @specialize.argtype(1) def write_int_at_mem(self, gcref, ofs, size, newvalue): for TYPE, _, itemsize in unroll_basic_sizes: if size == itemsize: newvalue = rffi.cast(TYPE, newvalue) llop.raw_store(lltype.Void, gcref, ofs, newvalue) return else: raise NotImplementedError("size = %d" % size) @specialize.argtype(1) def read_ref_at_mem(self, gcref, ofs): return llop.raw_load(llmemory.GCREF, gcref, ofs) # non-@specialized: must only be called with llmemory.GCREF def write_ref_at_mem(self, gcref, ofs, newvalue): llop.raw_store(lltype.Void, gcref, ofs, newvalue) # the write barrier is implied above @specialize.argtype(1) def read_float_at_mem(self, gcref, ofs): return llop.raw_load(longlong.FLOATSTORAGE, gcref, ofs) @specialize.argtype(1) def write_float_at_mem(self, gcref, ofs, newvalue): llop.raw_store(lltype.Void, gcref, ofs, newvalue) # ____________________________________________________________ def set_int_value(self, newframe, index, value): """ Note that we keep index multiplied by WORD here mostly for completeness with get_int_value and friends """ descr = self.gc_ll_descr.getframedescrs(self).arraydescr ofs = self.unpack_arraydescr(descr) self.write_int_at_mem(newframe, ofs + index, WORD, value) def set_ref_value(self, newframe, index, value): descr = self.gc_ll_descr.getframedescrs(self).arraydescr ofs = self.unpack_arraydescr(descr) self.write_ref_at_mem(newframe, ofs + index, value) def set_float_value(self, newframe, index, value): descr = self.gc_ll_descr.getframedescrs(self).arraydescr ofs = self.unpack_arraydescr(descr) self.write_float_at_mem(newframe, ofs + index, value) @specialize.arg(1) def get_ofs_of_frame_field(self, name): descrs = self.gc_ll_descr.getframedescrs(self) ofs = self.unpack_fielddescr(getattr(descrs, name)) return ofs def get_baseofs_of_frame_field(self): descrs = self.gc_ll_descr.getframedescrs(self) base_ofs = self.unpack_arraydescr(descrs.arraydescr) return base_ofs # ____________________________________________________________ def bh_arraylen_gc(self, array, arraydescr): assert isinstance(arraydescr, ArrayDescr) ofs = arraydescr.lendescr.offset return self.read_int_at_mem(array, ofs, WORD, 1) @specialize.argtype(1) def bh_getarrayitem_gc_i(self, gcref, itemindex, arraydescr): ofs, size, sign = self.unpack_arraydescr_size(arraydescr) return self.read_int_at_mem(gcref, ofs + itemindex * size, size, sign) def bh_getarrayitem_gc_r(self, gcref, itemindex, arraydescr): ofs = self.unpack_arraydescr(arraydescr) return self.read_ref_at_mem(gcref, itemindex * WORD + ofs) @specialize.argtype(1) def bh_getarrayitem_gc_f(self, gcref, itemindex, arraydescr): ofs = self.unpack_arraydescr(arraydescr) fsize = rffi.sizeof(longlong.FLOATSTORAGE) return self.read_float_at_mem(gcref, itemindex * fsize + ofs) @specialize.argtype(1) def bh_setarrayitem_gc_i(self, gcref, itemindex, newvalue, arraydescr): ofs, size, sign = self.unpack_arraydescr_size(arraydescr) self.write_int_at_mem(gcref, ofs + itemindex * size, size, newvalue) def bh_setarrayitem_gc_r(self, gcref, itemindex, newvalue, arraydescr): ofs = self.unpack_arraydescr(arraydescr) self.write_ref_at_mem(gcref, itemindex * WORD + ofs, newvalue) @specialize.argtype(1) def bh_setarrayitem_gc_f(self, gcref, itemindex, newvalue, arraydescr): ofs = self.unpack_arraydescr(arraydescr) fsize = rffi.sizeof(longlong.FLOATSTORAGE) self.write_float_at_mem(gcref, ofs + itemindex * fsize, newvalue) bh_setarrayitem_raw_i = bh_setarrayitem_gc_i bh_setarrayitem_raw_f = bh_setarrayitem_gc_f bh_getarrayitem_raw_i = bh_getarrayitem_gc_i bh_getarrayitem_raw_f = bh_getarrayitem_gc_f def bh_getinteriorfield_gc_i(self, gcref, itemindex, descr): assert isinstance(descr, InteriorFieldDescr) ofs, size, _ = self.unpack_arraydescr_size(descr.arraydescr) fldofs, fldsize, sign = self.unpack_fielddescr_size(descr.fielddescr) ofs += itemindex * size + fldofs return self.read_int_at_mem(gcref, ofs, fldsize, sign) def bh_getinteriorfield_gc_r(self, gcref, itemindex, descr): assert isinstance(descr, InteriorFieldDescr) ofs, size, _ = self.unpack_arraydescr_size(descr.arraydescr) ofs += descr.fielddescr.offset fullofs = itemindex * size + ofs return self.read_ref_at_mem(gcref, fullofs) def bh_getinteriorfield_gc_f(self, gcref, itemindex, descr): assert isinstance(descr, InteriorFieldDescr) ofs, size, _ = self.unpack_arraydescr_size(descr.arraydescr) ofs += descr.fielddescr.offset fullofs = itemindex * size + ofs return self.read_float_at_mem(gcref, fullofs) def bh_setinteriorfield_gc_i(self, gcref, itemindex, newvalue, descr): assert isinstance(descr, InteriorFieldDescr) ofs, size, _ = self.unpack_arraydescr_size(descr.arraydescr) fldofs, fldsize, _ = self.unpack_fielddescr_size(descr.fielddescr) ofs += itemindex * size + fldofs self.write_int_at_mem(gcref, ofs, fldsize, newvalue) def bh_setinteriorfield_gc_r(self, gcref, itemindex, newvalue, descr): assert isinstance(descr, InteriorFieldDescr) ofs, size, _ = self.unpack_arraydescr_size(descr.arraydescr) ofs += itemindex * size + descr.fielddescr.offset self.write_ref_at_mem(gcref, ofs, newvalue) def bh_setinteriorfield_gc_f(self, gcref, itemindex, newvalue, descr): assert isinstance(descr, InteriorFieldDescr) ofs, size, _ = self.unpack_arraydescr_size(descr.arraydescr) ofs += itemindex * size + descr.fielddescr.offset self.write_float_at_mem(gcref, ofs, newvalue) def bh_strlen(self, string): s = lltype.cast_opaque_ptr(lltype.Ptr(rstr.STR), string) return len(s.chars) def bh_unicodelen(self, string): u = lltype.cast_opaque_ptr(lltype.Ptr(rstr.UNICODE), string) return len(u.chars) def bh_strgetitem(self, string, index): s = lltype.cast_opaque_ptr(lltype.Ptr(rstr.STR), string) return ord(s.chars[index]) def bh_unicodegetitem(self, string, index): u = lltype.cast_opaque_ptr(lltype.Ptr(rstr.UNICODE), string) return ord(u.chars[index]) @specialize.argtype(1) def bh_getfield_gc_i(self, struct, fielddescr): ofs, size, sign = self.unpack_fielddescr_size(fielddescr) return self.read_int_at_mem(struct, ofs, size, sign) @specialize.argtype(1) def bh_getfield_gc_r(self, struct, fielddescr): ofs = self.unpack_fielddescr(fielddescr) return self.read_ref_at_mem(struct, ofs) @specialize.argtype(1) def bh_getfield_gc_f(self, struct, fielddescr): ofs = self.unpack_fielddescr(fielddescr) return self.read_float_at_mem(struct, ofs) bh_getfield_raw_i = bh_getfield_gc_i bh_getfield_raw_r = bh_getfield_gc_r bh_getfield_raw_f = bh_getfield_gc_f @specialize.argtype(1) def bh_setfield_gc_i(self, struct, newvalue, fielddescr): ofs, size, _ = self.unpack_fielddescr_size(fielddescr) self.write_int_at_mem(struct, ofs, size, newvalue) def bh_setfield_gc_r(self, struct, newvalue, fielddescr): ofs = self.unpack_fielddescr(fielddescr) self.write_ref_at_mem(struct, ofs, newvalue) @specialize.argtype(1) def bh_setfield_gc_f(self, struct, newvalue, fielddescr): ofs = self.unpack_fielddescr(fielddescr) self.write_float_at_mem(struct, ofs, newvalue) bh_setfield_raw_i = bh_setfield_gc_i bh_setfield_raw_f = bh_setfield_gc_f def bh_raw_store_i(self, addr, offset, newvalue, descr): ofs, size, _ = self.unpack_arraydescr_size(descr) assert ofs == 0 # otherwise, 'descr' is not a raw length-less array self.write_int_at_mem(addr, offset, size, newvalue) def bh_raw_store_f(self, addr, offset, newvalue, descr): self.write_float_at_mem(addr, offset, newvalue) def bh_raw_load_i(self, addr, offset, descr): ofs, size, sign = self.unpack_arraydescr_size(descr) assert ofs == 0 # otherwise, 'descr' is not a raw length-less array return self.read_int_at_mem(addr, offset, size, sign) def bh_raw_load_f(self, addr, offset, descr): return self.read_float_at_mem(addr, offset) def bh_new(self, sizedescr): return self.gc_ll_descr.gc_malloc(sizedescr) def bh_new_with_vtable(self, vtable, sizedescr): res = self.gc_ll_descr.gc_malloc(sizedescr) if self.vtable_offset is not None: self.write_int_at_mem(res, self.vtable_offset, WORD, vtable) return res def bh_new_raw_buffer(self, size): return lltype.malloc(rffi.CCHARP.TO, size, flavor='raw') def bh_classof(self, struct): struct = lltype.cast_opaque_ptr(rclass.OBJECTPTR, struct) result_adr = llmemory.cast_ptr_to_adr(struct.typeptr) return heaptracker.adr2int(result_adr) def bh_new_array(self, length, arraydescr): return self.gc_ll_descr.gc_malloc_array(length, arraydescr) def bh_newstr(self, length): return self.gc_ll_descr.gc_malloc_str(length) def bh_newunicode(self, length): return self.gc_ll_descr.gc_malloc_unicode(length) def bh_strsetitem(self, string, index, newvalue): s = lltype.cast_opaque_ptr(lltype.Ptr(rstr.STR), string) s.chars[index] = chr(newvalue) def bh_unicodesetitem(self, string, index, newvalue): u = lltype.cast_opaque_ptr(lltype.Ptr(rstr.UNICODE), string) u.chars[index] = unichr(newvalue) def bh_copystrcontent(self, src, dst, srcstart, dststart, length): src = lltype.cast_opaque_ptr(lltype.Ptr(rstr.STR), src) dst = lltype.cast_opaque_ptr(lltype.Ptr(rstr.STR), dst) rstr.copy_string_contents(src, dst, srcstart, dststart, length) def bh_copyunicodecontent(self, src, dst, srcstart, dststart, length): src = lltype.cast_opaque_ptr(lltype.Ptr(rstr.UNICODE), src) dst = lltype.cast_opaque_ptr(lltype.Ptr(rstr.UNICODE), dst) rstr.copy_unicode_contents(src, dst, srcstart, dststart, length) def bh_call_i(self, func, args_i, args_r, args_f, calldescr): assert isinstance(calldescr, CallDescr) if not we_are_translated(): calldescr.verify_types(args_i, args_r, args_f, history.INT + 'S') return calldescr.call_stub_i(func, args_i, args_r, args_f) def bh_call_r(self, func, args_i, args_r, args_f, calldescr): assert isinstance(calldescr, CallDescr) if not we_are_translated(): calldescr.verify_types(args_i, args_r, args_f, history.REF) return calldescr.call_stub_r(func, args_i, args_r, args_f) def bh_call_f(self, func, args_i, args_r, args_f, calldescr): assert isinstance(calldescr, CallDescr) if not we_are_translated(): calldescr.verify_types(args_i, args_r, args_f, history.FLOAT + 'L') return calldescr.call_stub_f(func, args_i, args_r, args_f) def bh_call_v(self, func, args_i, args_r, args_f, calldescr): assert isinstance(calldescr, CallDescr) if not we_are_translated(): calldescr.verify_types(args_i, args_r, args_f, history.VOID) # the 'i' return value is ignored (and nonsense anyway) calldescr.call_stub_i(func, args_i, args_r, args_f) final_descr_rd_locs = [rffi.cast(rffi.USHORT, 0)] history.BasicFinalDescr.rd_locs = final_descr_rd_locs compile._DoneWithThisFrameDescr.rd_locs = final_descr_rd_locs