def test_L1_port_index(): a = CaseConnectPortIndexComp.DUT() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(gen_connections(a))) connections = a.get_metadata(StructuralRTLIRGenL1Pass.connections) comp = sexp.CurComp(a, 's') assert connections == \ [(sexp.PortIndex(sexp.CurCompAttr(comp, 'in_'), 2), sexp.CurCompAttr(comp, 'out'))]
def test_L1_wire_index(): a = CaseConnectInToWireComp.DUT() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(gen_connections(a))) connections = a.get_metadata(StructuralRTLIRGenL1Pass.connections) comp = sexp.CurComp(a, 's') assert connections[0] == \ (sexp.WireIndex(sexp.CurCompAttr(comp, 'wire_'), 2), sexp.CurCompAttr(comp, 'out'))
def test_L1_part_selection(): a = CaseConnectSliceToOutComp.DUT() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(gen_connections(a))) connections = a.get_metadata(StructuralRTLIRGenL1Pass.connections) comp = sexp.CurComp(a, 's') assert connections == \ [(sexp.PartSelection(sexp.CurCompAttr(comp, 'in_'), 4, 8), sexp.CurCompAttr(comp, 'out'))]
def test_L1_port_index(): a = CaseConnectPortIndexComp.DUT() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(gen_connections(a))) ns = a._pass_structural_rtlir_gen comp = sexp.CurComp(a, 's') assert ns.connections == \ [(sexp.PortIndex(sexp.CurCompAttr(comp, 'in_'), 2), sexp.CurCompAttr(comp, 'out'))]
def test_L1_connection_order(): a = CaseInx2Outx2ConnectComp.DUT() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(gen_connections(a))) connections = a.get_metadata(StructuralRTLIRGenL1Pass.connections) comp = sexp.CurComp(a, 's') assert connections == \ [(sexp.CurCompAttr(comp, 'in_1'), sexp.CurCompAttr(comp, 'out1')), (sexp.CurCompAttr(comp, 'in_2'), sexp.CurCompAttr(comp, 'out2'))]
def test_L1_bit_selection(): a = CaseConnectBitSelToOutComp.DUT() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(gen_connections(a))) connections = a.get_metadata(StructuralRTLIRGenL1Pass.connections) comp = sexp.CurComp(a, 's') # PyMTL DSL converts bit selection into 1-bit part selection! assert connections == \ [(sexp.PartSelection(sexp.CurCompAttr(comp, 'in_'), 0, 1), sexp.CurCompAttr(comp, 'out'))]
def test_L1_connection_order(): a = CaseInx2Outx2ConnectComp.DUT() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(gen_connections(a))) ns = a._pass_structural_rtlir_gen comp = sexp.CurComp(a, 's') assert ns.connections == \ [(sexp.CurCompAttr(comp, 'in_1'), sexp.CurCompAttr(comp, 'out1')), (sexp.CurCompAttr(comp, 'in_2'), sexp.CurCompAttr(comp, 'out2'))]
def test_L1_port_index(): class A(dsl.Component): def construct(s): s.in_ = [dsl.InPort(Bits32) for _ in range(5)] s.out = dsl.OutPort(Bits32) dsl.connect(s.in_[2], s.out) a = A() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(*gen_connections(a))) ns = a._pass_structural_rtlir_gen comp = sexp.CurComp(a, 's') assert ns.connections == \ [(sexp.PortIndex(sexp.CurCompAttr(comp, 'in_'), 2), sexp.CurCompAttr(comp, 'out'))]
def test_L1_part_selection(): class A(dsl.Component): def construct(s): s.in_ = dsl.InPort(Bits32) s.out = dsl.OutPort(Bits4) dsl.connect(s.in_[4:8], s.out) a = A() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(*gen_connections(a))) ns = a._pass_structural_rtlir_gen comp = sexp.CurComp(a, 's') assert ns.connections == \ [(sexp.PartSelection(sexp.CurCompAttr(comp, 'in_'), 4, 8), sexp.CurCompAttr(comp, 'out'))]
def test_L1_bit_selection(): class A(dsl.Component): def construct(s): s.in_ = dsl.InPort(Bits32) s.out = dsl.OutPort(Bits1) dsl.connect(s.in_[0], s.out) a = A() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(*gen_connections(a))) ns = a._pass_structural_rtlir_gen comp = sexp.CurComp(a, 's') # PyMTL DSL converts bit selection into 1-bit part selection! assert ns.connections == \ [(sexp.PartSelection(sexp.CurCompAttr(comp, 'in_'), 0, 1), sexp.CurCompAttr(comp, 'out'))]
def test_L1_bits_connection(): a = CaseConnectBitsConstToOutComp.DUT() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(gen_connections(a))) connections = a.get_metadata(StructuralRTLIRGenL1Pass.connections) comp = sexp.CurComp(a, 's') assert connections == \ [(sexp.ConstInstance(Bits32(0), 0), sexp.CurCompAttr(comp, 'out'))]
def test_L1_wire_index(): class A(dsl.Component): def construct(s): s.in_ = [dsl.InPort(Bits32) for _ in range(5)] s.wire = [dsl.Wire(Bits32) for _ in range(5)] s.out = dsl.OutPort(Bits32) dsl.connect(s.wire[2], s.out) for i in range(5): dsl.connect(s.wire[i], s.in_[i]) a = A() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(gen_connections(a))) ns = a._pass_structural_rtlir_gen comp = sexp.CurComp(a, 's') assert ns.connections[0] == \ (sexp.WireIndex(sexp.CurCompAttr(comp, 'wire'), 2), sexp.CurCompAttr(comp, 'out'))
def test_L1_connection_order(): class A(dsl.Component): def construct(s): s.in_1 = dsl.InPort(Bits32) s.in_2 = dsl.InPort(Bits32) s.out1 = dsl.OutPort(Bits32) s.out2 = dsl.OutPort(Bits32) dsl.connect(s.in_1, s.out1) dsl.connect(s.in_2, s.out2) a = A() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(*gen_connections(a))) ns = a._pass_structural_rtlir_gen comp = sexp.CurComp(a, 's') assert ns.connections == \ [(sexp.CurCompAttr(comp, 'in_1'), sexp.CurCompAttr(comp, 'out1')), (sexp.CurCompAttr(comp, 'in_2'), sexp.CurCompAttr(comp, 'out2'))]
def test_L1_const_index(): a = CaseConnectConstToOutComp.DUT() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(gen_connections(a))) connections = a.get_metadata(StructuralRTLIRGenL1Pass.connections) comp = sexp.CurComp(a, 's') # The expression structure is removed and only the constant value # is left in this node. assert connections == \ [(sexp.ConstInstance(Bits32(a.const_[2]), 42), sexp.CurCompAttr(comp, 'out'))]
def test_L1_bits_connection(): class A(dsl.Component): def construct(s): s.out = dsl.OutPort(Bits32) dsl.connect(s.out, Bits32(0)) a = A() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(*gen_connections(a))) ns = a._pass_structural_rtlir_gen comp = sexp.CurComp(a, 's') assert ns.connections == \ [(sexp.ConstInstance(Bits32(0), 0), sexp.CurCompAttr(comp, 'out'))]
def test_L1_const_index(): class A(dsl.Component): def construct(s): s.const = [42 for _ in range(5)] s.out = dsl.OutPort(Bits32) dsl.connect(s.const[2], s.out) a = A() a.elaborate() a.apply(StructuralRTLIRGenL1Pass(*gen_connections(a))) ns = a._pass_structural_rtlir_gen comp = sexp.CurComp(a, 's') # The expression structure is removed and only the constant value # is left in this node. assert ns.connections == \ [(sexp.ConstInstance(a.const[2], 42), sexp.CurCompAttr(comp, 'out'))]