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from rpython.rtyper.lltypesystem import lltype, llmemory, rffi
from rpython.rtyper.llinterp import LLInterpreter
from rpython.rlib import rgc
from rpython.rlib.jit_hooks import LOOP_RUN_CONTAINER
from rpython.jit.backend.llsupport.llmodel import AbstractLLCPU
from rpython.jit.backend.ppc.vector_ext import AltiVectorExt
from rpython.jit.backend.ppc.ppc_assembler import AssemblerPPC
from rpython.jit.backend.ppc.arch import WORD
from rpython.jit.backend.ppc.codebuilder import PPCBuilder
from rpython.jit.backend.ppc import register as r
class PPC_CPU(AbstractLLCPU):
vector_ext = AltiVectorExt()
supports_floats = True
# missing: supports_singlefloats
IS_64_BIT = True
backend_name = 'ppc64'
# can an ISA instruction handle a factor to the offset?
load_supported_factors = (1,)
from rpython.jit.backend.ppc.register import JITFRAME_FIXED_SIZE
frame_reg = r.SP
all_reg_indexes = [-1] * 32
for _i, _r in enumerate(r.MANAGED_REGS):
all_reg_indexes[_r.value] = _i
gen_regs = r.MANAGED_REGS
float_regs = [None] + r.MANAGED_FP_REGS
# ^^^^ we leave a never-used hole for f0 in the jitframe
# for rebuild_faillocs_from_descr(), as a counter-workaround
# for the reverse hack in ALL_REG_INDEXES
def __init__(self, rtyper, stats, opts=None, translate_support_code=False,
gcdescr=None):
AbstractLLCPU.__init__(self, rtyper, stats, opts,
translate_support_code, gcdescr)
def setup(self):
self.assembler = AssemblerPPC(self)
@rgc.no_release_gil
def setup_once(self):
self.assembler.setup_once()
@rgc.no_release_gil
def finish_once(self):
self.assembler.finish_once()
def compile_bridge(self, faildescr, inputargs, operations,
original_loop_token, log=True, logger=None):
clt = original_loop_token.compiled_loop_token
clt.compiling_a_bridge()
return self.assembler.assemble_bridge(faildescr, inputargs, operations,
original_loop_token, log, logger)
def cast_ptr_to_int(x):
adr = llmemory.cast_ptr_to_adr(x)
return PPC_CPU.cast_adr_to_int(adr)
cast_ptr_to_int._annspecialcase_ = 'specialize:arglltype(0)'
cast_ptr_to_int = staticmethod(cast_ptr_to_int)
def redirect_call_assembler(self, oldlooptoken, newlooptoken):
self.assembler.redirect_call_assembler(oldlooptoken, newlooptoken)
def invalidate_loop(self, looptoken):
"""Activate all GUARD_NOT_INVALIDATED in the loop and its attached
bridges. Before this call, all GUARD_NOT_INVALIDATED do nothing;
after this call, they all fail. Note that afterwards, if one such
guard fails often enough, it has a bridge attached to it; it is
possible then to re-call invalidate_loop() on the same looptoken,
which must invalidate all newer GUARD_NOT_INVALIDATED, but not the
old one that already has a bridge attached to it."""
for jmp, tgt in looptoken.compiled_loop_token.invalidate_positions:
mc = PPCBuilder()
mc.b_offset(tgt) # a single instruction
mc.copy_to_raw_memory(jmp)
# positions invalidated
looptoken.compiled_loop_token.invalidate_positions = []
def get_all_loop_runs(self):
# not implemented
return lltype.malloc(LOOP_RUN_CONTAINER, 0)
def build_regalloc(self):
''' for tests'''
from rpython.jit.backend.ppc.regalloc import Regalloc
assert self.assembler is not None
return Regalloc(self.assembler)
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