Пример #1
0
def test_memory_reference_unpacking():
    p = Program()

    p.inst(
        AND("ro", ("ro", 1)),
        MOVE("ro", ("ro", 1)),
        CONVERT("ro", ("ro", 1)),
        IOR("ro", ("ro", 1)),
        XOR("ro", ("ro", 1)),
        ADD("ro", ("ro", 1)),
        SUB("ro", ("ro", 1)),
        MUL("ro", ("ro", 1)),
        DIV("ro", ("ro", 1)),
        EXCHANGE("ro", ("ro", 1)),
    )

    assert (p.out() == "AND ro[0] ro[1]\n"
            "MOVE ro[0] ro[1]\n"
            "CONVERT ro[0] ro[1]\n"
            "IOR ro[0] ro[1]\n"
            "XOR ro[0] ro[1]\n"
            "ADD ro[0] ro[1]\n"
            "SUB ro[0] ro[1]\n"
            "MUL ro[0] ro[1]\n"
            "DIV ro[0] ro[1]\n"
            "EXCHANGE ro[0] ro[1]\n")
Пример #2
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def test_binary_classicals():
    p = Program()

    # OR is deprecated in favor of IOR
    with pytest.warns(UserWarning):
        p.inst(OR(MemoryReference("ro", 1), MemoryReference("ro", 0)))

    p.inst(
        AND(MemoryReference("ro", 0), MemoryReference("ro", 1)),
        MOVE(MemoryReference("ro", 0), MemoryReference("ro", 1)),
        CONVERT(MemoryReference("ro", 0), MemoryReference("ro", 1)),
        IOR(MemoryReference("ro", 0), MemoryReference("ro", 1)),
        XOR(MemoryReference("ro", 0), MemoryReference("ro", 1)),
        ADD(MemoryReference("ro", 0), MemoryReference("ro", 1)),
        SUB(MemoryReference("ro", 0), MemoryReference("ro", 1)),
        MUL(MemoryReference("ro", 0), MemoryReference("ro", 1)),
        DIV(MemoryReference("ro", 0), MemoryReference("ro", 1)),
        EXCHANGE(MemoryReference("ro", 0), MemoryReference("ro", 1)),
    )

    assert (p.out() == "IOR ro[0] ro[1]\n"
            "AND ro[0] ro[1]\n"
            "MOVE ro[0] ro[1]\n"
            "CONVERT ro[0] ro[1]\n"
            "IOR ro[0] ro[1]\n"
            "XOR ro[0] ro[1]\n"
            "ADD ro[0] ro[1]\n"
            "SUB ro[0] ro[1]\n"
            "MUL ro[0] ro[1]\n"
            "DIV ro[0] ro[1]\n"
            "EXCHANGE ro[0] ro[1]\n")
Пример #3
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def test_classical():
    parse_equals("MOVE ro[0] 1", MOVE(MemoryReference("ro", 0), 1))
    parse_equals("MOVE ro[0] 0", MOVE(MemoryReference("ro", 0), 0))
    parse_equals("NOT ro[0]", NOT(MemoryReference("ro", 0)))
    parse_equals("AND ro[0] 1", AND(MemoryReference("ro", 0), 1))
    parse_equals("IOR ro[0] 1", IOR(MemoryReference("ro", 0), 1))
    parse_equals("MOVE ro[0] 1", MOVE(MemoryReference("ro", 0), 1))
    parse_equals("XOR ro[0] 1", XOR(MemoryReference("ro", 0), 1))
    parse_equals("ADD mem[0] 1.2", ADD(MemoryReference("mem", 0), 1.2))
    parse_equals("SUB mem[0] 1.2", SUB(MemoryReference("mem", 0), 1.2))
    parse_equals("MUL mem[0] 1.2", MUL(MemoryReference("mem", 0), 1.2))
    parse_equals("DIV mem[0] 1.2", DIV(MemoryReference("mem", 0), 1.2))
    parse_equals("ADD mem[0] -1.2", ADD(MemoryReference("mem", 0), -1.2))
    parse_equals("SUB mem[0] -1.2", SUB(MemoryReference("mem", 0), -1.2))
    parse_equals("MUL mem[0] -1.2", MUL(MemoryReference("mem", 0), -1.2))
    parse_equals("DIV mem[0] -1.2", DIV(MemoryReference("mem", 0), -1.2))
    parse_equals(
        "EQ comp[1] ro[3] ro[2]",
        EQ(MemoryReference("comp", 1), MemoryReference("ro", 3), MemoryReference("ro", 2)),
    )
    parse_equals(
        "LT comp[1] ro[3] ro[2]",
        LT(MemoryReference("comp", 1), MemoryReference("ro", 3), MemoryReference("ro", 2)),
    )
    parse_equals(
        "LE comp[1] ro[3] ro[2]",
        LE(MemoryReference("comp", 1), MemoryReference("ro", 3), MemoryReference("ro", 2)),
    )
    parse_equals(
        "GT comp[1] ro[3] ro[2]",
        GT(MemoryReference("comp", 1), MemoryReference("ro", 3), MemoryReference("ro", 2)),
    )
    parse_equals(
        "GE comp[1] ro[3] ro[2]",
        GE(MemoryReference("comp", 1), MemoryReference("ro", 3), MemoryReference("ro", 2)),
    )
    parse_equals("EQ comp[1] ro[3] 0", EQ(MemoryReference("comp", 1), MemoryReference("ro", 3), 0))
    parse_equals("LT comp[1] ro[3] 1", LT(MemoryReference("comp", 1), MemoryReference("ro", 3), 1))
    parse_equals("LE comp[1] ro[3] 2", LE(MemoryReference("comp", 1), MemoryReference("ro", 3), 2))
    parse_equals("GT comp[1] ro[3] 3", GT(MemoryReference("comp", 1), MemoryReference("ro", 3), 3))
    parse_equals("GE comp[1] ro[3] 4", GE(MemoryReference("comp", 1), MemoryReference("ro", 3), 4))
    parse_equals(
        "EQ comp[1] ro[3] 0.0", EQ(MemoryReference("comp", 1), MemoryReference("ro", 3), 0.0)
    )
    parse_equals(
        "LT comp[1] ro[3] 1.1", LT(MemoryReference("comp", 1), MemoryReference("ro", 3), 1.1)
    )
    parse_equals(
        "LE comp[1] ro[3] 2.2", LE(MemoryReference("comp", 1), MemoryReference("ro", 3), 2.2)
    )
    parse_equals(
        "GT comp[1] ro[3] 3.3", GT(MemoryReference("comp", 1), MemoryReference("ro", 3), 3.3)
    )
    parse_equals(
        "GE comp[1] ro[3] 4.4", GE(MemoryReference("comp", 1), MemoryReference("ro", 3), 4.4)
    )
Пример #4
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def test_binary_classicals():
    p = Program()
    p.inst(AND(Addr(0), Addr(1)), OR(Addr(1), Addr(0)), MOVE(Addr(0), Addr(1)),
           CONVERT(Addr(0), Addr(1)), IOR(Addr(0), Addr(1)),
           XOR(Addr(0), Addr(1)), ADD(Addr(0), Addr(1)), SUB(Addr(0), Addr(1)),
           MUL(Addr(0), Addr(1)), DIV(Addr(0), Addr(1)),
           EXCHANGE(Addr(0), Addr(1)))
    assert p.out() == 'AND ro[0] ro[1]\n' \
                      'IOR ro[0] ro[1]\n' \
                      'MOVE ro[0] ro[1]\n' \
                      'CONVERT ro[0] ro[1]\n' \
                      'IOR ro[0] ro[1]\n' \
                      'XOR ro[0] ro[1]\n' \
                      'ADD ro[0] ro[1]\n' \
                      'SUB ro[0] ro[1]\n'\
                      'MUL ro[0] ro[1]\n' \
                      'DIV ro[0] ro[1]\n' \
                      'EXCHANGE ro[0] ro[1]\n'
Пример #5
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def test_memory_reference_unpacking():
    p = Program()

    p.inst(AND("ro", ("ro", 1)), MOVE("ro",
                                      ("ro", 1)), CONVERT("ro", ("ro", 1)),
           IOR("ro", ("ro", 1)), XOR("ro", ("ro", 1)), ADD("ro", ("ro", 1)),
           SUB("ro", ("ro", 1)), MUL("ro", ("ro", 1)), DIV("ro", ("ro", 1)),
           EXCHANGE("ro", ("ro", 1)))

    assert p.out() == 'AND ro[0] ro[1]\n' \
                      'MOVE ro[0] ro[1]\n' \
                      'CONVERT ro[0] ro[1]\n' \
                      'IOR ro[0] ro[1]\n' \
                      'XOR ro[0] ro[1]\n' \
                      'ADD ro[0] ro[1]\n' \
                      'SUB ro[0] ro[1]\n'\
                      'MUL ro[0] ro[1]\n' \
                      'DIV ro[0] ro[1]\n' \
                      'EXCHANGE ro[0] ro[1]\n'
Пример #6
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def test_binary_classicals():
    p = Program()
    p.inst(AND(MemoryReference("ro", 0), MemoryReference("ro", 1)),
           OR(MemoryReference("ro", 1), MemoryReference("ro", 0)),
           MOVE(MemoryReference("ro", 0), MemoryReference("ro", 1)),
           CONVERT(MemoryReference("ro", 0), MemoryReference("ro", 1)),
           IOR(MemoryReference("ro", 0), MemoryReference("ro", 1)),
           XOR(MemoryReference("ro", 0), MemoryReference("ro", 1)),
           ADD(MemoryReference("ro", 0), MemoryReference("ro", 1)),
           SUB(MemoryReference("ro", 0), MemoryReference("ro", 1)),
           MUL(MemoryReference("ro", 0), MemoryReference("ro", 1)),
           DIV(MemoryReference("ro", 0), MemoryReference("ro", 1)),
           EXCHANGE(MemoryReference("ro", 0), MemoryReference("ro", 1)))
    assert p.out() == 'AND ro[0] ro[1]\n' \
                      'IOR ro[0] ro[1]\n' \
                      'MOVE ro[0] ro[1]\n' \
                      'CONVERT ro[0] ro[1]\n' \
                      'IOR ro[0] ro[1]\n' \
                      'XOR ro[0] ro[1]\n' \
                      'ADD ro[0] ro[1]\n' \
                      'SUB ro[0] ro[1]\n'\
                      'MUL ro[0] ro[1]\n' \
                      'DIV ro[0] ro[1]\n' \
                      'EXCHANGE ro[0] ro[1]\n'