def test_unary_classicals(): p = Program() p.inst(TRUE(0), FALSE(Addr(1)), NOT(2)) assert p.out() == 'TRUE [0]\n' \ 'FALSE [1]\n' \ 'NOT [2]\n'
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) )
def test_unary_classicals(): p = Program() p.inst(TRUE(MemoryReference("ro", 0)), FALSE(MemoryReference("ro", 1)), NOT(MemoryReference("ro", 2)), NEG(MemoryReference("ro", 3))) assert p.out() == 'MOVE ro[0] 1\n' \ 'MOVE ro[1] 0\n' \ 'NOT ro[2]\n' \ 'NEG ro[3]\n'