""" The :class:`Module` class encapsulates a single Python module, which corresponds to a single ARTIQ translation unit (one LLVM bitcode file and one object file, unless LTO is used). A :class:`Module` can be created from a typed AST. The :class:`Source` class parses a single source file or string and infers types for it using a trivial :module:`prelude`. """ import os from pythonparser import source, diagnostic, parse_buffer from . import prelude, types, transforms, analyses, validators class Source: def __init__(self, source_buffer, engine=None): if engine is None: self.engine = diagnostic.Engine(all_errors_are_fatal=True) else: self.engine = engine self.embedding_map = None self.name, _ = os.path.splitext(os.path.basename(source_buffer.name)) asttyped_rewriter = transforms.ASTTypedRewriter(engine=engine, prelude=prelude.globals()) inferencer = transforms.Inferencer(engine=engine) self.parsetree, self.comments = parse_buffer(source_buffer, engine=engine) self.typedtree = asttyped_rewriter.visit(self.parsetree) self.globals = asttyped_rewriter.globals inferencer.visit(self.typedtree) @classmethod def from_string(cls, source_string, name="input.py", first_line=1, engine=None): return cls(source.Buffer(source_string + "\n", name, first_line), engine=engine) @classmethod def from_filename(cls, filename, engine=None): with open(filename) as f: return cls(source.Buffer(f.read(), filename, 1), engine=engine) class Module: def __init__(self, src, ref_period=1e-6, attribute_writeback=True, remarks=False): self.attribute_writeback = attribute_writeback self.engine = src.engine self.embedding_map = src.embedding_map self.name = src.name self.globals = src.globals int_monomorphizer = transforms.IntMonomorphizer(engine=self.engine) cast_monomorphizer = transforms.CastMonomorphizer(engine=self.engine) inferencer = transforms.Inferencer(engine=self.engine) monomorphism_validator = validators.MonomorphismValidator(engine=self.engine) escape_validator = validators.EscapeValidator(engine=self.engine) iodelay_estimator = transforms.IODelayEstimator(engine=self.engine, ref_period=ref_period) constness = analyses.Constness(engine=self.engine) artiq_ir_generator = transforms.ARTIQIRGenerator(engine=self.engine, module_name=src.name, ref_period=ref_period) dead_code_eliminator = transforms.DeadCodeEliminator(engine=self.engine) local_access_validator = validators.LocalAccessValidator(engine=self.engine) devirtualization = analyses.Devirtualization() interleaver = transforms.Interleaver(engine=self.engine) invariant_detection = analyses.InvariantDetection(engine=self.engine) cast_monomorphizer.visit(src.typedtree) int_monomorphizer.visit(src.typedtree) inferencer.visit(src.typedtree) monomorphism_validator.visit(src.typedtree) escape_validator.visit(src.typedtree) iodelay_estimator.visit_fixpoint(src.typedtree) constness.visit(src.typedtree) devirtualization.visit(src.typedtree) self.artiq_ir = artiq_ir_generator.visit(src.typedtree) artiq_ir_generator.annotate_calls(devirtualization) dead_code_eliminator.process(self.artiq_ir) interleaver.process(self.artiq_ir) local_access_validator.process(self.artiq_ir) if remarks: invariant_detection.process(self.artiq_ir) def build_llvm_ir(self, target): """Compile the module to LLVM IR for the specified target.""" llvm_ir_generator = transforms.LLVMIRGenerator( engine=self.engine, module_name=self.name, target=target, embedding_map=self.embedding_map) return llvm_ir_generator.process(self.artiq_ir, attribute_writeback=self.attribute_writeback) def __repr__(self): printer = types.TypePrinter() globals = ["%s: %s" % (var, printer.name(self.globals[var])) for var in self.globals] return "" % (repr(self.name), ",\n ".join(globals))