# Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance # with the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. # pylint: disable=invalid-name, unused-import, import-outside-toplevel """Runtime Module namespace.""" import ctypes import struct from collections import namedtuple import tvm._ffi from tvm._ffi.base import _LIB, check_call, c_str, string_types, _RUNTIME_ONLY from tvm._ffi.libinfo import find_include_path from .packed_func import PackedFunc, PackedFuncHandle, _set_class_module from . import _ffi_api # profile result of time evaluator ProfileResult = namedtuple("ProfileResult", ["mean", "results"]) class Module(object): """Runtime Module.""" __slots__ = ["handle", "_entry", "entry_name"] def __init__(self, handle): self.handle = handle self._entry = None self.entry_name = "__tvm_main__" def __del__(self): check_call(_LIB.TVMModFree(self.handle)) def __hash__(self): return ctypes.cast(self.handle, ctypes.c_void_p).value @property def entry_func(self): """Get the entry function Returns ------- f : tvm.runtime.PackedFunc The entry function if exist """ if self._entry: return self._entry self._entry = self.get_function(self.entry_name) return self._entry def get_function(self, name, query_imports=False): """Get function from the module. Parameters ---------- name : str The name of the function query_imports : bool Whether also query modules imported by this module. Returns ------- f : tvm.runtime.PackedFunc The result function. """ ret_handle = PackedFuncHandle() check_call(_LIB.TVMModGetFunction( self.handle, c_str(name), ctypes.c_int(query_imports), ctypes.byref(ret_handle))) if not ret_handle.value: raise AttributeError( "Module has no function '%s'" % name) return PackedFunc(ret_handle, False) def import_module(self, module): """Add module to the import list of current one. Parameters ---------- module : tvm.runtime.Module The other module. """ check_call(_LIB.TVMModImport(self.handle, module.handle)) def __getitem__(self, name): if not isinstance(name, string_types): raise ValueError("Can only take string as function name") return self.get_function(name) def __call__(self, *args): if self._entry: return self._entry(*args) # pylint: disable=not-callable return self.entry_func(*args) def __repr__(self): return "Module(%s, %x)" % (self.type_key, self.handle.value) @property def type_key(self): """Get type key of the module.""" return _ffi_api.ModuleGetTypeKey(self) def get_source(self, fmt=""): """Get source code from module, if available. Parameters ---------- fmt : str, optional The specified format. Returns ------- source : str The result source code. """ return _ffi_api.ModuleGetSource(self, fmt) @property def imported_modules(self): """Get imported modules Returns ---------- modules : list of Module The module """ nmod = _ffi_api.ModuleImportsSize(self) return [_ffi_api.ModuleGetImport(self, i) for i in range(nmod)] def save(self, file_name, fmt=""): """Save the module to file. This do not save the dependent device modules. See also export_shared Parameters ---------- file_name : str The name of the file. fmt : str The format of the file. See Also -------- runtime.Module.export_library : export the module to shared library. """ _ffi_api.ModuleSaveToFile(self, file_name, fmt) def time_evaluator(self, func_name, ctx, number=10, repeat=1, min_repeat_ms=0): """Get an evaluator that measures time cost of running function. Parameters ---------- func_name: str The name of the function in the module. ctx: TVMContext The context we should run this function on. number: int The number of times to run this function for taking average. We call these runs as one `repeat` of measurement. repeat: int, optional The number of times to repeat the measurement. In total, the function will be invoked (1 + number x repeat) times, where the first one is warm up and will be discarded. The returned result contains `repeat` costs, each of which is an average of `number` costs. min_repeat_ms: int, optional The minimum duration of one `repeat` in milliseconds. By default, one `repeat` contains `number` runs. If this parameter is set, the parameters `number` will be dynamically adjusted to meet the minimum duration requirement of one `repeat`. i.e., When the run time of one `repeat` falls below this time, the `number` parameter will be automatically increased. Note ---- The function will be invoked (1 + number x repeat) times, with the first call discarded in case there is lazy initialization. Returns ------- ftimer : function The function that takes same argument as func and returns a ProfileResult. The ProfileResult reports `repeat` time costs in seconds. """ try: feval = _ffi_api.RPCTimeEvaluator( self, func_name, ctx.device_type, ctx.device_id, number, repeat, min_repeat_ms) def evaluator(*args): """Internal wrapped evaluator.""" # Wrap feval so we can add more stats in future. blob = feval(*args) fmt = "@" + ("d" * repeat) results = struct.unpack(fmt, blob) mean = sum(results) / float(repeat) return ProfileResult(mean=mean, results=results) return evaluator except NameError: raise NameError("time_evaluate is only supported when RPC is enabled") def _collect_dso_modules(self): """Helper function to collect dso modules, then return it.""" visited, stack, dso_modules = set(), [], [] # append root module visited.add(self) stack.append(self) while stack: module = stack.pop() if module._dso_exportable(): dso_modules.append(module) for m in module.imported_modules: if m not in visited: visited.add(m) stack.append(m) return dso_modules def _dso_exportable(self): return self.type_key == "llvm" or self.type_key == "c" def export_library(self, file_name, fcompile=None, **kwargs): """Export the module and its imported device code one library. This function only works on host llvm modules. It will pack all the imported modules Parameters ---------- file_name : str The name of the shared library. fcompile : function(target, file_list, kwargs), optional Compilation function to use create dynamic library. If fcompile has attribute object_format, will compile host library to that format. Otherwise, will use default format "o". kwargs : dict, optional Additional arguments passed to fcompile """ # NOTE: this function depends on contrib library features # which are only available in when TVM function is available. if _RUNTIME_ONLY: raise RuntimeError("Cannot call export_library in runtime only mode") # Extra dependencies during runtime. from pathlib import Path from tvm.contrib import cc as _cc, tar as _tar, util as _util if isinstance(file_name, Path): file_name = str(file_name) if self.type_key == "stackvm": if not file_name.endswith(".stackvm"): raise ValueError("Module[%s]: can only be saved as stackvm format." "did you build with LLVM enabled?" % self.type_key) self.save(file_name) return modules = self._collect_dso_modules() temp = _util.tempdir() files = [] is_system_lib = False has_c_module = False llvm_target_triple = None for index, module in enumerate(modules): if fcompile is not None and hasattr(fcompile, "object_format"): object_format = fcompile.object_format else: if module.type_key == "llvm": object_format = "o" else: assert module.type_key == "c" object_format = "cc" has_c_module = True path_obj = temp.relpath("lib" + str(index) + "." + object_format) module.save(path_obj) files.append(path_obj) is_system_lib = (module.type_key == "llvm" and module.get_function("__tvm_is_system_module")()) llvm_target_triple = (module.type_key == "llvm" and module.get_function("_get_target_triple")()) if not fcompile: if file_name.endswith(".tar"): fcompile = _tar.tar else: fcompile = _cc.create_shared if llvm_target_triple is None and hasattr(fcompile, "get_target_triple"): llvm_target_triple = fcompile.get_target_triple() if self.imported_modules: if enabled("llvm") and llvm_target_triple: path_obj = temp.relpath("devc.o") m = _ffi_api.ModulePackImportsToLLVM(self, is_system_lib, llvm_target_triple) m.save(path_obj) files.append(path_obj) else: path_cc = temp.relpath("devc.cc") with open(path_cc, "w") as f: f.write(_ffi_api.ModulePackImportsToC(self, is_system_lib)) files.append(path_cc) if has_c_module: options = [] if "options" in kwargs: opts = kwargs["options"] options = opts if isinstance(opts, (list, tuple)) else [opts] opts = options + ["-I" + path for path in find_include_path()] kwargs.update({'options': opts}) fcompile(file_name, files, **kwargs) def system_lib(): """Get system-wide library module singleton. System lib is a global module that contains self register functions in startup. Unlike normal dso modules which need to be loaded explicitly. It is useful in environments where dynamic loading api like dlopen is banned. To build system lib function, simply specify target option ```llvm --system-lib``` The system lib will be available as long as the result code is linked by the program. The system lib is intended to be linked and loaded during the entire life-cyle of the program. If you want dynamic loading features, use dso modules instead. Returns ------- module : runtime.Module The system-wide library module. """ return _ffi_api.SystemLib() def load_module(path, fmt=""): """Load module from file. Parameters ---------- path : str The path to the module file. fmt : str, optional The format of the file, if not specified it will be inferred from suffix of the file. Returns ------- module : runtime.Module The loaded module Note ---- This function will automatically call cc.create_shared if the path is in format .o or .tar """ # High level handling for .o and .tar file. # We support this to be consistent with RPC module load. if path.endswith(".o"): # Extra dependencies during runtime. from tvm.contrib import cc as _cc _cc.create_shared(path + ".so", path) path += ".so" elif path.endswith(".tar"): # Extra dependencies during runtime. from tvm.contrib import cc as _cc, util as _util, tar as _tar tar_temp = _util.tempdir(custom_path=path.replace('.tar', '')) _tar.untar(path, tar_temp.temp_dir) files = [tar_temp.relpath(x) for x in tar_temp.listdir()] _cc.create_shared(path + ".so", files) path += ".so" # TODO(weberlo): we should probably use a more distinctive suffix for uTVM object files elif path.endswith(".obj"): fmt = "micro_dev" # Redirect to the load API return _ffi_api.ModuleLoadFromFile(path, fmt) def enabled(target): """Whether module runtime is enabled for target Parameters ---------- target : str The target device type. Returns ------- enabled : bool Whether runtime is enabled. Examples -------- The following code checks if gpu is enabled. >>> tvm.runtime.enabled("gpu") """ return _ffi_api.RuntimeEnabled(target) _set_class_module(Module)