def create_one_unit(self, fct_name, mode, part, platform): # if self.verbose : print("%s with %s with %s" % (fct_name, mode, part)) bg = Base_gen(self.tb_name, fct_name, mode) ghg = Global_header_gen(bg, part) r = ghg.get_gen_result() dl = bg.get_fct_dict_list() for rank, d in enumerate(dl): df = d.get('functor', False) if not df: df = self.Default_df if df.get('no_simd_tests', False): return [] types = [] if mode == 'simd': types = bg.recover('simd_types', df, []) if len(types) == 0: types = bg.recover('types', df, ['real_']) ret_arity = int(df["ret_arity"]) d_unit = d.get("unit", {}) for typ in types: thg = Type_header_test_gen(bg, d, typ, rank) r += thg.get_gen_beg() if self.verbose: print("part = %s" % part) if ("unit" == part) and d_unit.get("specific_values", None): svt = Specific_values_test_gen(bg, d, typ, ret_arity, platform) s = svt.get_gen_result() ## print(s) ## raise SystemExit ## if not s : return False r += s if ("cover" == part) and d_unit.get("verif_test", None): vtg = Random_verif_test_gen(bg, d, typ, platform) s = vtg.get_gen_result() ## print(s) ## raise SystemExit ## if not s : return False r += s r += thg.get_gen_end() return r
def create_one_unit(self, fct_name, mode, part,platform) : # if self.verbose : print("%s with %s with %s"%(fct_name,mode,part)) bg = Base_gen(self.tb_name,fct_name,mode) ghg = Global_header_gen(bg,part) r = ghg.get_gen_result() dl = bg.get_fct_dict_list() for rank,d in enumerate(dl) : df = d.get('functor',False) if not df : df = self.Default_df if df.get('no_simd_tests',False) : return [] types = [] if mode == 'simd': types = bg.recover('simd_types',df,[]) if len(types) == 0: types = bg.recover('types',df,['real_']) ret_arity = int(df["ret_arity"]) d_unit = d.get("unit",{}) for typ in types : thg = Type_header_test_gen(bg,d,typ,rank) r+=thg.get_gen_beg() if self.verbose : print("part = %s"%part) if ("unit"==part) and d_unit.get("specific_values",None) : svt = Specific_values_test_gen(bg,d,typ,ret_arity,platform) s = svt.get_gen_result() ## print(s) ## raise SystemExit ## if not s : return False r += s if ("cover" == part) and d_unit.get("verif_test",None) : vtg = Random_verif_test_gen(bg,d,typ,platform) s = vtg.get_gen_result() ## print(s) ## raise SystemExit ## if not s : return False r += s r+=thg.get_gen_end() return r
def create_unit(tb_name, fct_name, mode): bg = Base_gen(tb_name, fct_name, mode) ghg = Global_header_gen(bg) r = ghg.get_gen_result() if True: # try : dl = bg.get_fct_dict_list() for rank, d in enumerate(dl): origin = "types" if mode == 'scalar' else 'simd_types' types = bg.recover(origin, d["functor"], ["real_convert_"]) ret_arity = int(d["functor"]["ret_arity"]) d_unit = d["unit"] for typ in types: thg = Type_header_test_gen(bg, d, typ, rank) r += thg.get_gen_beg() if d_unit.get("specific_values", None): svt = Specific_values_test_gen(bg, d, typ, ret_arity, mode) r += svt.get_gen_result() if d_unit.get("verif_test", None): vtg = Random_verif_test_gen(bg, d, typ, mode) r += vtg.get_gen_result() r += thg.get_gen_end() return r
def create_unit(tb_name,fct_name,mode,parts =["verif","values"]) : bg = Base_gen(tb_name,fct_name,mode) ghg = Global_header_gen(bg) r = ghg.get_gen_result() if True: dl = bg.get_fct_dict_list() for rank,d in enumerate(dl) : origin ="types" if mode == 'scalar' else 'simd_types' if d["functor"].get('no_simd_tests',False) : return [] types = bg.recover(origin,d["functor"],["real_convert_"]) ret_arity = int(d["functor"]["ret_arity"]) d_unit = d["unit"] for typ in types : thg = Type_header_test_gen(bg,d,typ,rank) r+=thg.get_gen_beg() if ("values" in parts) and d_unit.get("specific_values",None) : svt = Specific_values_test_gen(bg,d,typ,ret_arity,mode) r += svt.get_gen_result() if ("verif" in parts) and d_unit.get("verif_test",None) : vtg = Random_verif_test_gen(bg,d,typ,mode) r += vtg.get_gen_result() r+=thg.get_gen_end() return r