import unittest from modelverse_kernel.main import ModelverseKernel from utils import execute_until_finished, MvSWrapper, get_inst, get_phase, get_returnvalue, get_phase_ref, read_primitive_interfaces, get_returnvalue_ref class TestRead(unittest.TestCase): def setUp(self): self.mvs = MvSWrapper() self.root = self.mvs.execute("RR", [])[0] self.mvk = ModelverseKernel(self.root) self.task_root = self.mvs.execute("CN", [])[0] self.task_frame = self.mvs.execute("CN", [])[0] self.symbols = self.mvs.execute("CN", [])[0] self.evalstack = self.mvs.execute("CN", [])[0] self.returnvalue = self.mvs.execute("CN", [])[0] self.phase = self.mvs.execute("CNV", ["init"])[0] self.mvs.execute("CD", [self.root, "task_1", self.task_root]) self.mvs.execute("CD", [self.task_root, "frame", self.task_frame]) self.mvs.execute("CD", [self.task_frame, "symbols", self.symbols]) self.mvs.execute("CD", [self.task_frame, "evalstack", self.evalstack]) self.mvs.execute("CD", [self.task_frame, "phase", self.phase]) self.mvs.execute("CD", [self.task_frame, "returnvalue", self.returnvalue]) execute_until_finished(self.mvk, self.mvs, "load_primitives", []) self.primitives = read_primitive_interfaces(self.root, self.mvs) def test_read_root(self): self.helper_primitives_no_params("read_root") v = get_returnvalue_ref(self.root, self.mvs) self.assertEquals(v, self.root) def test_read_nr_out_none(self): v = self.mvs.execute("CN", [])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [a, v])[0] self.helper_primitives_1_params("read_nr_out", v) v = get_returnvalue_ref(self.root, self.mvs) self.assertEquals(self.mvs.execute("RV", [v])[0], 0) self.assertEquals(self.mvs.execute("RE", [v])[0], [None, None]) self.assertEquals(len(self.mvs.execute("RO", [v])[0]), 0) # There is an incoming link, as this is due to the returnvalue link self.assertEquals(len(self.mvs.execute("RI", [v])[0]), 1) def test_read_nr_out_one(self): v = self.mvs.execute("CN", [])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [v, a])[0] self.helper_primitives_1_params("read_nr_out", v) v = get_returnvalue_ref(self.root, self.mvs) self.assertEquals(self.mvs.execute("RV", [v])[0], 1) self.assertEquals(self.mvs.execute("RE", [v])[0], [None, None]) self.assertEquals(len(self.mvs.execute("RO", [v])[0]), 0) # There is an incoming link, as this is due to the returnvalue link self.assertEquals(len(self.mvs.execute("RI", [v])[0]), 1) def test_read_nr_out_multi(self): v = self.mvs.execute("CN", [])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [v, a])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [v, a])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [v, a])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [v, a])[0] self.helper_primitives_1_params("read_nr_out", v) v = get_returnvalue_ref(self.root, self.mvs) self.assertEquals(self.mvs.execute("RV", [v])[0], 4) self.assertEquals(self.mvs.execute("RE", [v])[0], [None, None]) self.assertEquals(len(self.mvs.execute("RO", [v])[0]), 0) # There is an incoming link, as this is due to the returnvalue link self.assertEquals(len(self.mvs.execute("RI", [v])[0]), 1) def test_read_nr_in_none(self): v = self.mvs.execute("CN", [])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [v, a])[0] self.helper_primitives_1_params("read_nr_in", v) v = get_returnvalue_ref(self.root, self.mvs) # There are still input links from the execution itself, such as entries in symbol table, parameter lists, ... self.assertEquals(self.mvs.execute("RV", [v])[0], 3) self.assertEquals(self.mvs.execute("RE", [v])[0], [None, None]) self.assertEquals(len(self.mvs.execute("RO", [v])[0]), 0) # There is an incoming link, as this is due to the returnvalue link self.assertEquals(len(self.mvs.execute("RI", [v])[0]), 1) def test_read_nr_in_one(self): v = self.mvs.execute("CN", [])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [a, v])[0] self.helper_primitives_1_params("read_nr_in", v) v = get_returnvalue_ref(self.root, self.mvs) # There are still input links from the execution itself, such as entries in symbol table, parameter lists, ... self.assertEquals(self.mvs.execute("RV", [v])[0], 4) self.assertEquals(self.mvs.execute("RE", [v])[0], [None, None]) self.assertEquals(len(self.mvs.execute("RO", [v])[0]), 0) # There is an incoming link, as this is due to the returnvalue link self.assertEquals(len(self.mvs.execute("RI", [v])[0]), 1) def test_read_nr_in_multi(self): v = self.mvs.execute("CN", [])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [a, v])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [a, v])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [a, v])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [a, v])[0] self.helper_primitives_1_params("read_nr_in", v) v = get_returnvalue_ref(self.root, self.mvs) # There are still input links from the execution itself, such as entries in symbol table, parameter lists, ... self.assertEquals(self.mvs.execute("RV", [v])[0], 7) self.assertEquals(self.mvs.execute("RE", [v])[0], [None, None]) self.assertEquals(len(self.mvs.execute("RO", [v])[0]), 0) # There is an incoming link, as this is due to the returnvalue link self.assertEquals(len(self.mvs.execute("RI", [v])[0]), 1) def test_read_out_one(self): v = self.mvs.execute("CN", [])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [v, a])[0] self.helper_primitives_2_params("read_out", v, self.mvs.execute("CNV", [0])[0]) v = get_returnvalue_ref(self.root, self.mvs) self.assertEquals(v, e) def test_read_out_multi(self): v = self.mvs.execute("CN", [])[0] a = self.mvs.execute("CN", [])[0] e1 = self.mvs.execute("CE", [v, a])[0] a = self.mvs.execute("CN", [])[0] e2 = self.mvs.execute("CE", [v, a])[0] a = self.mvs.execute("CN", [])[0] e3 = self.mvs.execute("CE", [v, a])[0] a = self.mvs.execute("CN", [])[0] e4 = self.mvs.execute("CE", [v, a])[0] self.helper_primitives_2_params("read_out", v, self.mvs.execute("CNV", [2])[0]) v = get_returnvalue_ref(self.root, self.mvs) self.assertEquals(v, e3) def test_read_in_one(self): v = self.mvs.execute("CN", [])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [a, v])[0] self.helper_primitives_2_params("read_in", v, self.mvs.execute("CNV", [0])[0]) v = get_returnvalue_ref(self.root, self.mvs) self.assertEquals(v, e) def test_read_in_multi(self): v = self.mvs.execute("CN", [])[0] a = self.mvs.execute("CN", [])[0] e1 = self.mvs.execute("CE", [a, v])[0] a = self.mvs.execute("CN", [])[0] e2 = self.mvs.execute("CE", [a, v])[0] a = self.mvs.execute("CN", [])[0] e3 = self.mvs.execute("CE", [a, v])[0] a = self.mvs.execute("CN", [])[0] e4 = self.mvs.execute("CE", [a, v])[0] self.helper_primitives_2_params("read_in", v, self.mvs.execute("CNV", [2])[0]) v = get_returnvalue_ref(self.root, self.mvs) self.assertEquals(v, e3) def test_read_edge_src(self): v = self.mvs.execute("CN", [])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [a, v])[0] self.helper_primitives_1_params("read_edge_src", e) r = get_returnvalue_ref(self.root, self.mvs) self.assertEquals(r, a) def test_read_edge_dst(self): v = self.mvs.execute("CN", [])[0] a = self.mvs.execute("CN", [])[0] e = self.mvs.execute("CE", [a, v])[0] self.helper_primitives_1_params("read_edge_dst", e) r = get_returnvalue_ref(self.root, self.mvs) self.assertEquals(r, v) def helper_primitives_2_params(self, operation, a, b): self.actual_arg_a = self.mvs.execute("CN", [])[0] self.actual_arg_b = self.mvs.execute("CN", [])[0] self.inst = self.mvs.execute("CNV", [{"value":"call"}])[0] self.const_a = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.const_b = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.const_c = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.const_first = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.const_second = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.value_a = self.mvs.execute("CNV", ["a"])[0] self.value_b = self.mvs.execute("CNV", ["b"])[0] self.value_c = self.mvs.execute("CNV", ["c"])[0] self.value_first = a self.value_second = b self.mvs.execute("CD", [self.task_frame, "IP", self.inst]) self.const_func = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.mvs.execute("CD", [self.inst, "func", self.const_func]) self.mvs.execute("CD", [self.const_func, "node", self.primitives[operation]]) self.mvs.execute("CD", [self.inst, "next", self.const_c]) self.mvs.execute("CD", [self.inst, "params", self.actual_arg_a]) self.mvs.execute("CD", [self.actual_arg_a, "next_param", self.actual_arg_b]) self.mvs.execute("CD", [self.inst, "last_param", self.actual_arg_b]) self.mvs.execute("CD", [self.actual_arg_a, "value", self.const_first]) self.mvs.execute("CD", [self.actual_arg_b, "value", self.const_second]) self.mvs.execute("CD", [self.actual_arg_a, "name", self.value_a]) self.mvs.execute("CD", [self.actual_arg_b, "name", self.value_b]) self.mvs.execute("CD", [self.const_a, "node", self.value_a]) self.mvs.execute("CD", [self.const_b, "node", self.value_b]) self.mvs.execute("CD", [self.const_c, "node", self.value_c]) self.mvs.execute("CD", [self.const_first, "node", self.value_first]) self.mvs.execute("CD", [self.const_second, "node", self.value_second]) ### Execute rules self.assertEquals(get_inst(self.root, self.mvs), "call") self.assertEquals(get_phase(self.root, self.mvs), "init") execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "constant") self.assertEquals(get_phase(self.root, self.mvs), "init") execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "constant") self.assertEquals(get_phase(self.root, self.mvs), "finish") execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "call") self.assertEquals(get_phase_ref(self.root, self.mvs), self.actual_arg_a) execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "constant") self.assertEquals(get_phase(self.root, self.mvs), "init") execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "constant") self.assertEquals(get_phase(self.root, self.mvs), "finish") self.assertEquals(get_returnvalue_ref(self.root, self.mvs), self.value_first) execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "call") self.assertEquals(get_phase_ref(self.root, self.mvs), self.actual_arg_b) execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "constant") self.assertEquals(get_phase(self.root, self.mvs), "init") execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "constant") self.assertEquals(get_phase(self.root, self.mvs), "finish") self.assertEquals(get_returnvalue_ref(self.root, self.mvs), self.value_second) execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "call") self.assertEquals(get_phase(self.root, self.mvs), "call") execute_until_finished(self.mvk, self.mvs) # Body points to empty instruction, as it is a primitive self.assertEquals(get_phase(self.root, self.mvs), "init") execute_until_finished(self.mvk, self.mvs) # This will have triggered the primitive, so now we are back where we left off self.assertEquals(get_inst(self.root, self.mvs), "call") self.assertEquals(get_phase(self.root, self.mvs), "finish") def helper_primitives_1_params(self, operation, a): self.actual_arg_a = self.mvs.execute("CN", [])[0] self.inst = self.mvs.execute("CNV", [{"value":"call"}])[0] self.const_a = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.const_b = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.const_c = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.const_first = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.value_a = self.mvs.execute("CNV", ["a"])[0] self.value_b = self.mvs.execute("CNV", ["b"])[0] self.value_c = self.mvs.execute("CNV", ["c"])[0] self.value_first = a self.mvs.execute("CD", [self.task_frame, "IP", self.inst]) self.const_func = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.mvs.execute("CD", [self.inst, "func", self.const_func]) self.mvs.execute("CD", [self.const_func, "node", self.primitives[operation]]) self.mvs.execute("CD", [self.inst, "next", self.const_c]) self.mvs.execute("CD", [self.inst, "params", self.actual_arg_a]) self.mvs.execute("CD", [self.inst, "last_param", self.actual_arg_a]) self.mvs.execute("CD", [self.actual_arg_a, "value", self.const_first]) self.mvs.execute("CD", [self.actual_arg_a, "name", self.value_a]) self.mvs.execute("CD", [self.const_a, "node", self.value_a]) self.mvs.execute("CD", [self.const_b, "node", self.value_b]) self.mvs.execute("CD", [self.const_c, "node", self.value_c]) self.mvs.execute("CD", [self.const_first, "node", self.value_first]) ### Execute rules self.assertEquals(get_inst(self.root, self.mvs), "call") self.assertEquals(get_phase(self.root, self.mvs), "init") execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "constant") self.assertEquals(get_phase(self.root, self.mvs), "init") execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "constant") self.assertEquals(get_phase(self.root, self.mvs), "finish") execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "call") self.assertEquals(get_phase_ref(self.root, self.mvs), self.actual_arg_a) execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "constant") self.assertEquals(get_phase(self.root, self.mvs), "init") execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "constant") self.assertEquals(get_phase(self.root, self.mvs), "finish") self.assertEquals(get_returnvalue_ref(self.root, self.mvs), self.value_first) execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "call") self.assertEquals(get_phase(self.root, self.mvs), "call") execute_until_finished(self.mvk, self.mvs) # Body points to empty instruction, as it is a primitive self.assertEquals(get_phase(self.root, self.mvs), "init") execute_until_finished(self.mvk, self.mvs) # This will have triggered the primitive, so now we are back where we left off # Just check whether or not the correct value is in the returnvalue to be used self.assertEquals(get_inst(self.root, self.mvs), "call") self.assertEquals(get_phase(self.root, self.mvs), "finish") def helper_primitives_no_params(self, operation, expected=None): self.inst = self.mvs.execute("CNV", [{"value":"call"}])[0] self.const_a = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.const_b = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.const_c = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.const_first = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.value_a = self.mvs.execute("CNV", ["a"])[0] self.value_b = self.mvs.execute("CNV", ["b"])[0] self.value_c = self.mvs.execute("CNV", ["c"])[0] self.mvs.execute("CD", [self.task_frame, "IP", self.inst]) self.const_func = self.mvs.execute("CNV", [{"value":"constant"}])[0] self.mvs.execute("CD", [self.inst, "func", self.const_func]) self.mvs.execute("CD", [self.const_func, "node", self.primitives[operation]]) self.mvs.execute("CD", [self.inst, "next", self.const_c]) self.mvs.execute("CD", [self.const_a, "node", self.value_a]) self.mvs.execute("CD", [self.const_b, "node", self.value_b]) self.mvs.execute("CD", [self.const_c, "node", self.value_c]) ### Execute rules self.assertEquals(get_inst(self.root, self.mvs), "call") self.assertEquals(get_phase(self.root, self.mvs), "init") execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "constant") self.assertEquals(get_phase(self.root, self.mvs), "init") execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "constant") self.assertEquals(get_phase(self.root, self.mvs), "finish") execute_until_finished(self.mvk, self.mvs) self.assertEquals(get_inst(self.root, self.mvs), "call") self.assertEquals(get_phase(self.root, self.mvs), "call") execute_until_finished(self.mvk, self.mvs) # Body points to empty instruction, as it is a primitive self.assertEquals(get_phase(self.root, self.mvs), "init") execute_until_finished(self.mvk, self.mvs) # This will have triggered the primitive, so now we are back where we left off # Just check whether or not the correct value is in the returnvalue to be used self.assertEquals(get_inst(self.root, self.mvs), "call") self.assertEquals(get_phase(self.root, self.mvs), "finish")