prog8/compiler/test/StackVMOpcodeTests.kt

1270 lines
58 KiB
Kotlin

package prog8tests
import org.hamcrest.MatcherAssert.assertThat
import org.hamcrest.Matchers.empty
import org.junit.jupiter.api.Test
import org.junit.jupiter.api.TestInstance
import prog8.ast.ByteDatatypes
import prog8.ast.DataType
import prog8.ast.IterableDatatypes
import prog8.ast.WordDatatypes
import prog8.compiler.HeapValues
import prog8.compiler.intermediate.Instruction
import prog8.compiler.intermediate.Opcode
import prog8.compiler.intermediate.Value
import prog8.compiler.intermediate.ValueException
import prog8.stackvm.*
import kotlin.test.*
/***
@todo opcodes still to be unit-tested:
SHL_MEM_BYTE,
SHL_MEM_WORD,
SHL_VAR_BYTE,
SHL_VAR_WORD,
SHR_MEM_BYTE,
SHR_MEM_WORD,
SHR_VAR_BYTE,
SHR_VAR_WORD,
ROL_MEM_BYTE,
ROL_MEM_WORD,
ROL_VAR_BYTE,
ROL_VAR_WORD,
ROR_MEM,
ROR_MEM_W,
ROR_VAR,
ROR_VAR_W,
ROL2_MEM,
ROL2_MEM_W,
ROL2_VAR,
ROL2_VAR_W,
ROR2_MEM,
ROR2_MEM_W,
ROR2_VAR,
ROR2_VAR_W
and several others.
**/
@TestInstance(TestInstance.Lifecycle.PER_CLASS)
class TestStackVmOpcodes {
private val vm = StackVm(null)
private fun makeProg(ins: MutableList<Instruction>,
vars: Map<String, Value>?=null,
memoryPointers: Map<String, Pair<Int, DataType>>?=null,
labels: Map<String, Int>?=null,
mem: Map<Int, List<Value>>?=null) : Program {
val heap = HeapValues()
return Program("test", ins, vars ?: mapOf(), memoryPointers ?: mapOf(), labels ?: mapOf(), mem ?: mapOf(), heap)
}
@Test
fun testInitAndNop() {
val ins = mutableListOf(Instruction(Opcode.NOP))
vm.load(makeProg(ins), null)
assertEquals(3, vm.variables.size)
assertTrue(vm.variables.containsKey("A"))
vm.step(1)
assertThat(vm.callstack, empty())
assertThat(vm.evalstack, empty())
assertFailsWith<VmTerminationException> {
vm.step()
}
}
@Test
fun testBreakpoint() {
val ins = mutableListOf(Instruction(Opcode.BREAKPOINT))
vm.load(makeProg(ins), null)
assertFailsWith<VmBreakpointException> {
vm.step()
}
assertThat(vm.callstack, empty())
assertThat(vm.evalstack, empty())
}
@Test
fun testLine() {
val ins = mutableListOf(Instruction(Opcode.LINE, callLabel = "line 99"))
vm.load(makeProg(ins), null)
assertEquals("", vm.sourceLine)
vm.step(1)
assertEquals("line 99", vm.sourceLine)
}
@Test
fun testSECandSEIandCLCandCLI() {
val ins = mutableListOf(Instruction(Opcode.SEC), Instruction(Opcode.SEI), Instruction(Opcode.CLC), Instruction(Opcode.CLI))
vm.load(makeProg(ins), null)
assertFalse(vm.P_carry)
assertFalse(vm.P_irqd)
vm.step(1)
assertTrue(vm.P_carry)
assertFalse(vm.P_irqd)
vm.step(1)
assertTrue(vm.P_carry)
assertTrue(vm.P_irqd)
vm.step(1)
assertFalse(vm.P_carry)
assertTrue(vm.P_irqd)
vm.step(1)
assertFalse(vm.P_carry)
assertFalse(vm.P_irqd)
}
@Test
fun testPushWrongDt() {
val ins = mutableListOf(Instruction(Opcode.PUSH_BYTE, Value(DataType.UWORD, 4299)))
vm.load(makeProg(ins), null)
assertFailsWith<VmExecutionException> {
vm.step(1)
}
}
@Test
fun testPush() {
val ins = mutableListOf(Instruction(Opcode.PUSH_FLOAT, Value(DataType.FLOAT, 42.999)))
vm.load(makeProg(ins), null)
assertThat(vm.evalstack, empty())
vm.step(1)
assertEquals(1, vm.evalstack.size)
assertEquals(Value(DataType.FLOAT, 42.999), vm.evalstack.pop())
}
@Test
fun testPushMem() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_MEM_B, Value(DataType.UWORD, 0x2000)),
Instruction(Opcode.PUSH_MEM_UB, Value(DataType.UWORD, 0x3000)),
Instruction(Opcode.PUSH_MEM_W, Value(DataType.UWORD, 0x4000)),
Instruction(Opcode.PUSH_MEM_UW, Value(DataType.UWORD, 0x5000)),
Instruction(Opcode.PUSH_MEM_FLOAT, Value(DataType.UWORD, 0x6000))
)
val mem=mapOf(0x2000 to listOf(Value(DataType.UWORD, 0xc2ca)),
0x3000 to listOf(Value(DataType.UWORD, 0xc2ca)),
0x4000 to listOf(Value(DataType.UWORD, 0xc2ca)),
0x5000 to listOf(Value(DataType.UWORD, 0xc2ca)),
0x6000 to listOf(Value(DataType.FLOAT, 42.25)))
vm.load(makeProg(ins, mem=mem), null)
assertEquals(0xca, vm.mem.getUByte(0x2000))
assertEquals(0xc2, vm.mem.getUByte(0x2001))
assertEquals(0xca, vm.mem.getUByte(0x3000))
assertEquals(0xc2, vm.mem.getUByte(0x3001))
assertEquals(0xca, vm.mem.getUByte(0x4000))
assertEquals(0xc2, vm.mem.getUByte(0x4001))
assertEquals(0xca, vm.mem.getUByte(0x5000))
assertEquals(0xc2, vm.mem.getUByte(0x5001))
assertEquals(-54, vm.mem.getSByte(0x2000))
assertEquals(-62, vm.mem.getSByte(0x2001))
assertEquals(-54, vm.mem.getSByte(0x3000))
assertEquals(-62, vm.mem.getSByte(0x3001))
assertEquals(-54, vm.mem.getSByte(0x4000))
assertEquals(-62, vm.mem.getSByte(0x4001))
assertEquals(-54, vm.mem.getSByte(0x5000))
assertEquals(-62, vm.mem.getSByte(0x5001))
assertEquals(0xc2ca, vm.mem.getUWord(0x2000))
assertEquals(0xc2ca, vm.mem.getUWord(0x3000))
assertEquals(0xc2ca, vm.mem.getUWord(0x4000))
assertEquals(0xc2ca, vm.mem.getUWord(0x5000))
assertEquals(-15670, vm.mem.getSWord(0x2000))
assertEquals(-15670, vm.mem.getSWord(0x3000))
assertEquals(-15670, vm.mem.getSWord(0x4000))
assertEquals(-15670, vm.mem.getSWord(0x5000))
assertEquals(42.25, vm.mem.getFloat(0x6000))
assertThat(vm.evalstack, empty())
vm.step(5)
assertEquals(5, vm.evalstack.size)
assertEquals(Value(DataType.FLOAT, 42.25), vm.evalstack.pop())
assertEquals(Value(DataType.UWORD, 0xc2ca), vm.evalstack.pop())
assertEquals(Value(DataType.WORD, -15670), vm.evalstack.pop())
assertEquals(Value(DataType.UBYTE, 0xca), vm.evalstack.pop())
assertEquals(Value(DataType.BYTE, -54), vm.evalstack.pop())
}
@Test
fun testPushVar() {
val ins = mutableListOf(Instruction(Opcode.PUSH_VAR_FLOAT, callLabel = "varname"))
vm.load(makeProg(ins, mapOf("varname" to Value(DataType.FLOAT, 42.999))), null)
assertEquals(4, vm.variables.size)
assertTrue(vm.variables.containsKey("varname"))
assertTrue(vm.variables.containsKey("A"))
assertEquals(Value(DataType.FLOAT, 42.999), vm.variables["varname"])
assertThat(vm.evalstack, empty())
vm.step(1)
assertEquals(1, vm.evalstack.size)
assertEquals(Value(DataType.FLOAT, 42.999), vm.evalstack.pop())
assertEquals(Value(DataType.FLOAT, 42.999), vm.variables["varname"])
}
@Test
fun testDiscard() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_FLOAT, Value(DataType.FLOAT, 42.999)),
Instruction(Opcode.PUSH_FLOAT, Value(DataType.FLOAT, 3.1415)),
Instruction(Opcode.DISCARD_FLOAT))
vm.load(makeProg(ins), null)
assertThat(vm.evalstack, empty())
vm.step(2)
assertEquals(2, vm.evalstack.size)
vm.step(1)
assertEquals(1, vm.evalstack.size)
assertEquals(Value(DataType.FLOAT, 42.999), vm.evalstack.pop())
}
@Test
fun testPopMem() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_FLOAT, Value(DataType.FLOAT, 42.25)),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0xc2ca)),
Instruction(Opcode.PUSH_WORD, Value(DataType.WORD, -23456)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 177)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.BYTE, -55)),
Instruction(Opcode.POP_MEM_BYTE, Value(DataType.UWORD, 0x2000)),
Instruction(Opcode.POP_MEM_BYTE, Value(DataType.UWORD, 0x2001)),
Instruction(Opcode.POP_MEM_WORD, Value(DataType.UWORD, 0x3000)),
Instruction(Opcode.POP_MEM_WORD, Value(DataType.UWORD, 0x3002)),
Instruction(Opcode.POP_MEM_FLOAT, Value(DataType.UWORD, 0x4000)))
vm.load(makeProg(ins), null)
assertEquals(0, vm.mem.getUWord(0x2000))
assertEquals(0, vm.mem.getUWord(0x2001))
assertEquals(0, vm.mem.getUWord(0x3000))
assertEquals(0, vm.mem.getUWord(0x3002))
assertEquals(0.0, vm.mem.getFloat(0x4000))
assertThat(vm.evalstack, empty())
vm.step(11)
assertThat(vm.evalstack, empty())
assertEquals(201, vm.mem.getUByte(0x2000))
assertEquals(177, vm.mem.getUByte(0x2001))
assertEquals(-55, vm.mem.getSByte(0x2000))
assertEquals(-79, vm.mem.getSByte(0x2001))
assertEquals(42080, vm.mem.getUWord(0x3000))
assertEquals(0xc2ca, vm.mem.getUWord(0x3002))
assertEquals(-23456, vm.mem.getSWord(0x3000))
assertEquals(-15670, vm.mem.getSWord(0x3002))
assertEquals(42.25, vm.mem.getFloat(0x4000))
}
@Test
fun testPopVar() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_FLOAT, Value(DataType.FLOAT, 42.25)),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0x42ea)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 123)),
Instruction(Opcode.POP_VAR_BYTE, callLabel = "var1"),
Instruction(Opcode.POP_VAR_WORD, callLabel = "var2"),
Instruction(Opcode.POP_VAR_FLOAT, callLabel = "var3"))
val vars = mapOf(
"var1" to Value(DataType.UBYTE, 0),
"var2" to Value(DataType.UWORD, 0),
"var3" to Value(DataType.FLOAT, 0)
)
vm.load(makeProg(ins, vars), null)
assertEquals(6, vm.variables.size)
vm.step(6)
assertEquals(Value(DataType.UBYTE, 123), vm.variables["var1"])
assertEquals(Value(DataType.UWORD, 0x42ea), vm.variables["var2"])
assertEquals(Value(DataType.FLOAT, 42.25), vm.variables["var3"])
val ins2 = mutableListOf(
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0x42ea)),
Instruction(Opcode.POP_VAR_WORD, callLabel = "var1"))
val vars2 = mapOf(
"var1" to Value(DataType.UBYTE, 0)
)
vm.load(makeProg(ins2, vars2), null)
assertEquals(4, vm.variables.size)
assertFailsWith<VmExecutionException> {
vm.step(2)
}
}
@Test
fun testAdd() {
testBinaryOperator(Value(DataType.UBYTE, 140), Opcode.ADD_UB, Value(DataType.UBYTE, 222), Value(DataType.UBYTE, 106))
testBinaryOperator(Value(DataType.UBYTE, 40), Opcode.ADD_UB, Value(DataType.UBYTE, 122), Value(DataType.UBYTE, 162))
testBinaryOperator(Value(DataType.UWORD, 4000), Opcode.ADD_UW, Value(DataType.UWORD, 40), Value(DataType.UWORD, 4040))
testBinaryOperator(Value(DataType.UWORD, 24000), Opcode.ADD_UW, Value(DataType.UWORD, 55000), Value(DataType.UWORD, 13464))
testBinaryOperator(Value(DataType.FLOAT, 4000.0), Opcode.ADD_F, Value(DataType.FLOAT, 123.22), Value(DataType.FLOAT, 4123.22))
assertFailsWith<VmExecutionException> {
testBinaryOperator(Value(DataType.UWORD, 4000 + 40), Opcode.ADD_UW, Value(DataType.FLOAT, 42.25), Value(DataType.FLOAT, 42.25 + (4000 + 40)))
}
}
@Test
fun testSub() {
testBinaryOperator(Value(DataType.UBYTE, 250), Opcode.SUB_UB, Value(DataType.UBYTE, 70), Value(DataType.UBYTE, 180))
testBinaryOperator(Value(DataType.UWORD, 4000), Opcode.SUB_UW, Value(DataType.UWORD, 123), Value(DataType.UWORD, 4000 - 123))
testBinaryOperator(Value(DataType.FLOAT, 123.44), Opcode.SUB_F, Value(DataType.FLOAT, 23.44), Value(DataType.FLOAT, 100.0))
assertFailsWith<VmExecutionException> {
testBinaryOperator(Value(DataType.UWORD, 4000 - 40), Opcode.SUB_UW, Value(DataType.FLOAT, 42.25), Value(DataType.FLOAT, 42.25 - (4000 - 40)))
}
}
@Test
fun testMul() {
testBinaryOperator(Value(DataType.UBYTE, 41), Opcode.MUL_UB, Value(DataType.UBYTE, 4), Value(DataType.UBYTE, 164))
testBinaryOperator(Value(DataType.UWORD, 401), Opcode.MUL_UW, Value(DataType.UWORD, 4), Value(DataType.UWORD, 401 * 4))
testBinaryOperator(Value(DataType.FLOAT, 40.1), Opcode.MUL_F, Value(DataType.FLOAT, 2.4), Value(DataType.FLOAT, 96.24))
assertFailsWith<VmExecutionException> {
testBinaryOperator(Value(DataType.UWORD, 401 * 4), Opcode.MUL_UW, Value(DataType.FLOAT, 42.2533), Value(DataType.FLOAT, 42.2533 * (401 * 4)))
}
}
@Test
fun testDiv() {
testBinaryOperator(Value(DataType.UBYTE, 250), Opcode.IDIV_UB, Value(DataType.UBYTE, 12), Value(DataType.UBYTE, 20))
testBinaryOperator(Value(DataType.BYTE, 120), Opcode.IDIV_B, Value(DataType.BYTE, -9), Value(DataType.BYTE, -13))
testBinaryOperator(Value(DataType.UWORD, 3999), Opcode.IDIV_UW, Value(DataType.UWORD, 40), Value(DataType.UWORD, 99))
testBinaryOperator(Value(DataType.WORD, 3999), Opcode.IDIV_W, Value(DataType.WORD, -40), Value(DataType.WORD, -99))
testBinaryOperator(Value(DataType.FLOAT, 42.25), Opcode.DIV_F, Value(DataType.FLOAT, 99.0), Value(DataType.FLOAT, 42.25 / 99.0))
assertFailsWith<VmExecutionException> {
testBinaryOperator(Value(DataType.UWORD, 3333), Opcode.IDIV_UW, Value(DataType.FLOAT, 2.22), Value(DataType.FLOAT, 3333 / 2.22))
}
}
@Test
fun testPow() {
testBinaryOperator(Value(DataType.FLOAT, 1.1), Opcode.POW_F, Value(DataType.FLOAT, 81.0), Value(DataType.FLOAT, 2253.2402360440274))
}
@Test
fun testRemainder() {
testBinaryOperator(Value(DataType.UBYTE, 250), Opcode.REMAINDER_UB, Value(DataType.UBYTE, 29), Value(DataType.UBYTE, 18))
testBinaryOperator(Value(DataType.UWORD, 500), Opcode.REMAINDER_UW, Value(DataType.UWORD, 29), Value(DataType.UWORD, 7))
}
@Test
fun testBitand() {
testBinaryOperator(Value(DataType.UBYTE, 0b10011111), Opcode.BITAND_BYTE, Value(DataType.UBYTE, 0b11111101), Value(DataType.UBYTE, 0b10011101))
testBinaryOperator(Value(DataType.UWORD, 0b0011001011110001), Opcode.BITAND_WORD, Value(DataType.UWORD, 0b1110000010011101), Value(DataType.UWORD, 0b0010000010010001))
}
@Test
fun testBitor() {
testBinaryOperator(Value(DataType.UBYTE, 0b00011101), Opcode.BITOR_BYTE, Value(DataType.UBYTE, 0b10010001), Value(DataType.UBYTE, 0b10011101))
testBinaryOperator(Value(DataType.UWORD, 0b0011001011100000), Opcode.BITOR_WORD, Value(DataType.UWORD, 0b1000000010011101), Value(DataType.UWORD, 0b1011001011111101))
}
@Test
fun testBitxor() {
testBinaryOperator(Value(DataType.UBYTE, 0b00011101), Opcode.BITXOR_BYTE, Value(DataType.UBYTE, 0b10010001), Value(DataType.UBYTE, 0b10001100))
testBinaryOperator(Value(DataType.UWORD, 0b0011001011100000), Opcode.BITXOR_WORD, Value(DataType.UWORD, 0b1000000010001100), Value(DataType.UWORD, 0b1011001001101100))
}
@Test
fun testAnd() {
testBinaryOperator(Value(DataType.UBYTE, 200), Opcode.AND_BYTE, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UBYTE, 200), Opcode.AND_BYTE, Value(DataType.UBYTE, 0), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UBYTE, 0), Opcode.AND_BYTE, Value(DataType.UBYTE, 101), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 200), Opcode.AND_WORD, Value(DataType.UWORD, 13455), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 200), Opcode.AND_WORD, Value(DataType.UWORD, 0), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 0), Opcode.AND_WORD, Value(DataType.UWORD, 101), Value(DataType.UBYTE, 0))
}
@Test
fun testOr() {
testBinaryOperator(Value(DataType.UBYTE, 200), Opcode.OR_BYTE, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UBYTE, 200), Opcode.OR_BYTE, Value(DataType.UBYTE, 0), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UBYTE, 0), Opcode.OR_BYTE, Value(DataType.UBYTE, 0), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 200), Opcode.OR_WORD, Value(DataType.UWORD, 13455), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 200), Opcode.OR_WORD, Value(DataType.UWORD, 0), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 0), Opcode.OR_WORD, Value(DataType.UWORD, 0), Value(DataType.UBYTE, 0))
}
@Test
fun testXor() {
testBinaryOperator(Value(DataType.UBYTE, 200), Opcode.XOR_BYTE, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UBYTE, 200), Opcode.XOR_BYTE, Value(DataType.UBYTE, 0), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UBYTE, 0), Opcode.XOR_BYTE, Value(DataType.UBYTE, 0), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 200), Opcode.XOR_WORD, Value(DataType.UWORD, 13455), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 200), Opcode.XOR_WORD, Value(DataType.UWORD, 0), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 0), Opcode.XOR_WORD, Value(DataType.UWORD, 0), Value(DataType.UBYTE, 0))
}
@Test
fun testNot() {
testUnaryOperator(Value(DataType.UBYTE, 0), Opcode.NOT_BYTE, Value(DataType.UBYTE, 1))
testUnaryOperator(Value(DataType.UBYTE, 20), Opcode.NOT_BYTE, Value(DataType.UBYTE, 0))
testUnaryOperator(Value(DataType.UWORD, 0), Opcode.NOT_WORD, Value(DataType.UBYTE, 1))
testUnaryOperator(Value(DataType.UWORD, 5000), Opcode.NOT_WORD, Value(DataType.UBYTE, 0))
}
@Test
fun testNeg() {
testUnaryOperator(Value(DataType.BYTE, 12), Opcode.NEG_B, Value(DataType.BYTE, -12))
testUnaryOperator(Value(DataType.WORD, 1234), Opcode.NEG_W, Value(DataType.WORD, -1234))
testUnaryOperator(Value(DataType.FLOAT, 123.456), Opcode.NEG_F, Value(DataType.FLOAT, -123.456))
assertFailsWith<VmExecutionException> {
testUnaryOperator(Value(DataType.UBYTE, 12), Opcode.NEG_B, Value(DataType.UBYTE, 244))
}
assertFailsWith<VmExecutionException> {
testUnaryOperator(Value(DataType.UWORD, 1234), Opcode.NEG_W, Value(DataType.UWORD, 64302))
}
}
@Test
fun testInv() {
testUnaryOperator(Value(DataType.UBYTE, 123), Opcode.INV_BYTE, Value(DataType.UBYTE, 0x84))
testUnaryOperator(Value(DataType.UWORD, 4044), Opcode.INV_WORD, Value(DataType.UWORD, 0xf033))
assertFailsWith<ValueException> {
testUnaryOperator(Value(DataType.BYTE, 123), Opcode.INV_BYTE, Value(DataType.BYTE, 0x84))
}
assertFailsWith<ValueException> {
testUnaryOperator(Value(DataType.WORD, 4044), Opcode.INV_WORD, Value(DataType.WORD, 0xf033))
}
}
@Test
fun testMsb() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 0x45)),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0xea31)),
Instruction(Opcode.MSB),
Instruction(Opcode.MSB)
)
vm.load(makeProg(ins), null)
vm.step(3)
assertEquals(Value(DataType.UBYTE, 0xea), vm.evalstack.pop())
assertFailsWith<VmExecutionException> {
vm.step(1)
}
}
// @todo more conversion tests.
@Test
fun testB2Ub() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_BYTE, Value(DataType.BYTE, -88)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.BYTE, 127)),
Instruction(Opcode.CAST_B_TO_UB),
Instruction(Opcode.CAST_B_TO_UB)
)
vm.load(makeProg(ins), null)
vm.step(3)
assertEquals(Value(DataType.UBYTE, 127), vm.evalstack.pop())
vm.step(1)
assertEquals(Value(DataType.UBYTE, 168), vm.evalstack.pop())
}
@Test
fun testUB2b() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 168)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 127)),
Instruction(Opcode.CAST_UB_TO_B),
Instruction(Opcode.CAST_UB_TO_B)
)
vm.load(makeProg(ins), null)
vm.step(3)
assertEquals(Value(DataType.BYTE, 127), vm.evalstack.pop())
vm.step(1)
assertEquals(Value(DataType.BYTE, -88), vm.evalstack.pop())
}
@Test
fun testB2Word() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_WORD, Value(DataType.WORD, 0x7a31)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.BYTE, 127)),
Instruction(Opcode.CAST_B_TO_W),
Instruction(Opcode.CAST_B_TO_W)
)
vm.load(makeProg(ins), null)
vm.step(3)
assertEquals(Value(DataType.WORD, 127), vm.evalstack.pop())
assertFailsWith<VmExecutionException> {
vm.step(1)
}
}
@Test
fun testUB2Uword() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0xea31)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 0x45)),
Instruction(Opcode.CAST_UB_TO_UW),
Instruction(Opcode.CAST_UB_TO_UW)
)
vm.load(makeProg(ins), null)
vm.step(3)
assertEquals(Value(DataType.UWORD, 0x0045), vm.evalstack.pop())
assertFailsWith<VmExecutionException> {
vm.step(1)
}
}
@Test
fun testB2Float() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_WORD, Value(DataType.WORD, 0x7a31)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.BYTE, 127)),
Instruction(Opcode.CAST_B_TO_F),
Instruction(Opcode.CAST_B_TO_F)
)
vm.load(makeProg(ins), null)
vm.step(3)
assertEquals(Value(DataType.FLOAT, 127.0), vm.evalstack.pop())
assertFailsWith<VmExecutionException> {
vm.step(1)
}
}
@Test
fun testUB2Float() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0xea31)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 177)),
Instruction(Opcode.CAST_UB_TO_F),
Instruction(Opcode.CAST_UB_TO_F)
)
vm.load(makeProg(ins), null)
vm.step(3)
assertEquals(Value(DataType.FLOAT, 177.0), vm.evalstack.pop())
assertFailsWith<VmExecutionException> {
vm.step(1)
}
}
@Test
fun testW2Float() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 177)),
Instruction(Opcode.PUSH_WORD, Value(DataType.WORD, -12345)),
Instruction(Opcode.CAST_W_TO_F),
Instruction(Opcode.CAST_W_TO_F)
)
vm.load(makeProg(ins), null)
vm.step(3)
assertEquals(Value(DataType.FLOAT, -12345.0), vm.evalstack.pop())
assertFailsWith<VmExecutionException> {
vm.step(1)
}
}
@Test
fun testUW2Float() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 177)),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 52345)),
Instruction(Opcode.CAST_UW_TO_F),
Instruction(Opcode.CAST_UW_TO_F)
)
vm.load(makeProg(ins), null)
vm.step(3)
assertEquals(Value(DataType.FLOAT, 52345.0), vm.evalstack.pop())
assertFailsWith<VmExecutionException> {
vm.step(1)
}
}
@Test
fun testIncVar() {
val ins = mutableListOf(
Instruction(Opcode.INC_VAR_UW, callLabel = "var1"),
Instruction(Opcode.INC_VAR_UB, callLabel = "var2"),
Instruction(Opcode.INC_VAR_F, callLabel = "var3"),
Instruction(Opcode.INC_VAR_UW, callLabel = "var1"),
Instruction(Opcode.INC_VAR_UB, callLabel = "var2"),
Instruction(Opcode.INC_VAR_F, callLabel = "var3")
)
val vars = mapOf("var1" to Value(DataType.UWORD, 65534),
"var2" to Value(DataType.UBYTE, 254),
"var3" to Value(DataType.FLOAT, -1.5)
)
vm.load(makeProg(ins, vars = vars), null)
vm.step(3)
assertEquals(Value(DataType.UWORD, 65535), vm.variables["var1"])
assertEquals(Value(DataType.UBYTE, 255), vm.variables["var2"])
assertEquals(Value(DataType.FLOAT, -0.5), vm.variables["var3"])
vm.step(3)
assertEquals(Value(DataType.UWORD, 0), vm.variables["var1"])
assertEquals(Value(DataType.UBYTE, 0), vm.variables["var2"])
assertEquals(Value(DataType.FLOAT, 0.5), vm.variables["var3"])
}
@Test
fun testDecVar() {
val ins = mutableListOf(
Instruction(Opcode.DEC_VAR_UW, callLabel = "var1"),
Instruction(Opcode.DEC_VAR_UB, callLabel = "var2"),
Instruction(Opcode.DEC_VAR_F, callLabel = "var3"),
Instruction(Opcode.DEC_VAR_UW, callLabel = "var1"),
Instruction(Opcode.DEC_VAR_UB, callLabel = "var2"),
Instruction(Opcode.DEC_VAR_F, callLabel = "var3")
)
val vars = mapOf("var1" to Value(DataType.UWORD, 1),
"var2" to Value(DataType.UBYTE, 1),
"var3" to Value(DataType.FLOAT, 1.5)
)
vm.load(makeProg(ins, vars = vars), null)
vm.step(3)
assertEquals(Value(DataType.UWORD, 0), vm.variables["var1"])
assertEquals(Value(DataType.UBYTE, 0), vm.variables["var2"])
assertEquals(Value(DataType.FLOAT, 0.5), vm.variables["var3"])
vm.step(3)
assertEquals(Value(DataType.UWORD, 65535), vm.variables["var1"])
assertEquals(Value(DataType.UBYTE, 255), vm.variables["var2"])
assertEquals(Value(DataType.FLOAT, -0.5), vm.variables["var3"])
}
@Test
fun testSyscall() {
val ins = mutableListOf(
Instruction(Opcode.SYSCALL, Value(DataType.UBYTE, Syscall.FUNC_RNDF.callNr)),
Instruction(Opcode.SYSCALL, Value(DataType.UBYTE, Syscall.FUNC_RNDW.callNr)),
Instruction(Opcode.SYSCALL, Value(DataType.UBYTE, Syscall.FUNC_RND.callNr)),
Instruction(Opcode.SYSCALL, Value(DataType.UBYTE, Syscall.FUNC_RND.callNr)),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 25544)),
Instruction(Opcode.SYSCALL, Value(DataType.UBYTE, Syscall.FUNC_SIN.callNr))
)
vm.load(makeProg(ins), null)
vm.step(4)
val rndb1 = vm.evalstack.pop()
val rndb2 = vm.evalstack.pop()
val rndw = vm.evalstack.pop()
val rndf = vm.evalstack.pop()
assertEquals(DataType.UBYTE, rndb1.type)
assertEquals(DataType.UBYTE, rndb2.type)
assertEquals(DataType.UWORD, rndw.type)
assertEquals(DataType.FLOAT, rndf.type)
assertNotEquals(rndb1.integerValue(), rndb2.integerValue()) // this *sometimes* fails when the two random numbers are the same by pure chance
assertTrue(rndf.numericValue().toDouble() > 0.0 && rndf.numericValue().toDouble() < 1.0)
vm.step(2)
assertEquals(Value(DataType.FLOAT, 0.28582414234140724), vm.evalstack.pop())
}
@Test
fun testLess() {
testBinaryOperator(Value(DataType.UBYTE, 0), Opcode.LESS_UB, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UBYTE, 0), Opcode.LESS_UB, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.BYTE, 1), Opcode.LESS_B, Value(DataType.BYTE, 1), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.BYTE, -2), Opcode.LESS_B, Value(DataType.BYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 2), Opcode.LESS_UW, Value(DataType.UWORD, 20), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 20), Opcode.LESS_UW, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 21), Opcode.LESS_UW, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 21), Opcode.LESS_UW, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.WORD, 21), Opcode.LESS_W, Value(DataType.WORD, 21), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.WORD, -2), Opcode.LESS_W, Value(DataType.WORD, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.FLOAT, 21.0), Opcode.LESS_F, Value(DataType.FLOAT, 21.0), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.FLOAT, 21.0), Opcode.LESS_F, Value(DataType.FLOAT, 21.001), Value(DataType.UBYTE, 1))
}
@Test
fun testLessEq() {
testBinaryOperator(Value(DataType.UBYTE, 0), Opcode.LESSEQ_UB, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UBYTE, 1), Opcode.LESSEQ_UB, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.BYTE, 1), Opcode.LESSEQ_B, Value(DataType.BYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.BYTE, -2), Opcode.LESSEQ_B, Value(DataType.BYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 2), Opcode.LESSEQ_UW, Value(DataType.UWORD, 20), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 20), Opcode.LESSEQ_UW, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 21), Opcode.LESSEQ_UW, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 21), Opcode.LESSEQ_UW, Value(DataType.UWORD, 20), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.WORD, 21), Opcode.LESSEQ_W, Value(DataType.WORD, 20), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.WORD, -2), Opcode.LESSEQ_W, Value(DataType.WORD, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.FLOAT, 21.0), Opcode.LESSEQ_F, Value(DataType.FLOAT, 21.0), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.FLOAT, 21.0), Opcode.LESSEQ_F, Value(DataType.FLOAT, 20.999), Value(DataType.UBYTE, 0))
}
@Test
fun testGreater() {
testBinaryOperator(Value(DataType.UBYTE, 0), Opcode.GREATER_UB, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UBYTE, 1), Opcode.GREATER_UB, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.BYTE, 1), Opcode.GREATER_B, Value(DataType.BYTE, -1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.BYTE, -1), Opcode.GREATER_B, Value(DataType.BYTE, 1), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 2), Opcode.GREATER_UW, Value(DataType.UWORD, 20), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 20), Opcode.GREATER_UW, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 21), Opcode.GREATER_UW, Value(DataType.UWORD, 20), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 21), Opcode.GREATER_UW, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.WORD, 21), Opcode.GREATER_W, Value(DataType.WORD, -21), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.WORD, -2), Opcode.GREATER_W, Value(DataType.WORD, 21), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.FLOAT, 21.0), Opcode.GREATER_F, Value(DataType.FLOAT, 21.0), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.FLOAT, 21.0), Opcode.GREATER_F, Value(DataType.FLOAT, 20.999), Value(DataType.UBYTE, 1))
}
@Test
fun testGreaterEq() {
testBinaryOperator(Value(DataType.UBYTE, 0), Opcode.GREATEREQ_UB, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UBYTE, 1), Opcode.GREATEREQ_UB, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.BYTE, 1), Opcode.GREATEREQ_B, Value(DataType.BYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.BYTE, -11), Opcode.GREATEREQ_B, Value(DataType.BYTE, 11), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 2), Opcode.GREATEREQ_UW, Value(DataType.UWORD, 20), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 20), Opcode.GREATEREQ_UW, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 21), Opcode.GREATEREQ_UW, Value(DataType.UWORD, 20), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 21), Opcode.GREATEREQ_UW, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.WORD, 21), Opcode.GREATEREQ_W, Value(DataType.WORD, 21), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.WORD, -21), Opcode.GREATEREQ_W, Value(DataType.WORD, 21), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.FLOAT, 21.0), Opcode.GREATEREQ_F, Value(DataType.FLOAT, 21.0), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.FLOAT, 21.0), Opcode.GREATEREQ_F, Value(DataType.FLOAT, 21.001), Value(DataType.UBYTE, 0))
}
@Test
fun testEqual() {
testBinaryOperator(Value(DataType.UBYTE, 0), Opcode.EQUAL_BYTE, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UBYTE, 1), Opcode.EQUAL_BYTE, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 2), Opcode.EQUAL_WORD, Value(DataType.UWORD, 20), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 20), Opcode.EQUAL_WORD, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 21), Opcode.EQUAL_WORD, Value(DataType.UWORD, 20), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 21), Opcode.EQUAL_WORD, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.FLOAT, 21.0), Opcode.EQUAL_F, Value(DataType.FLOAT, 21.0), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.FLOAT, 21.0), Opcode.EQUAL_F, Value(DataType.FLOAT, 21.001), Value(DataType.UBYTE, 0))
}
@Test
fun testNotEqual() {
testBinaryOperator(Value(DataType.UBYTE, 0), Opcode.NOTEQUAL_BYTE, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UBYTE, 1), Opcode.NOTEQUAL_BYTE, Value(DataType.UBYTE, 1), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.UWORD, 2), Opcode.NOTEQUAL_WORD, Value(DataType.UWORD, 20), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 20), Opcode.NOTEQUAL_WORD, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 21), Opcode.NOTEQUAL_WORD, Value(DataType.UWORD, 20), Value(DataType.UBYTE, 1))
testBinaryOperator(Value(DataType.UWORD, 21), Opcode.NOTEQUAL_WORD, Value(DataType.UWORD, 21), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.FLOAT, 21.0), Opcode.NOTEQUAL_F, Value(DataType.FLOAT, 21.0), Value(DataType.UBYTE, 0))
testBinaryOperator(Value(DataType.FLOAT, 21.0), Opcode.NOTEQUAL_F, Value(DataType.FLOAT, 21.001), Value(DataType.UBYTE, 1))
}
@Test
fun testBCC() {
val ins = mutableListOf(
Instruction(Opcode.SEC),
Instruction(Opcode.BCC, callLabel = "label"),
Instruction(Opcode.CLC),
Instruction(Opcode.BCC, callLabel = "label"),
Instruction(Opcode.LINE, callLabel = "string1"),
Instruction(Opcode.TERMINATE),
Instruction(Opcode.LINE, callLabel = "string2"))
val labels = mapOf("label" to ins.size-1) // points to the second LINE instruction
vm.load(makeProg(ins, labels=labels), null)
vm.step(2)
assertEquals("", vm.sourceLine)
vm.step(3)
assertEquals("string2", vm.sourceLine)
assertEquals(0, vm.callstack.size)
assertEquals(0, vm.evalstack.size)
}
@Test
fun testBCS() {
val ins = mutableListOf(
Instruction(Opcode.CLC),
Instruction(Opcode.BCS, callLabel = "label"),
Instruction(Opcode.SEC),
Instruction(Opcode.BCS, callLabel = "label"),
Instruction(Opcode.LINE, callLabel = "string1"),
Instruction(Opcode.TERMINATE),
Instruction(Opcode.LINE, callLabel = "string2"))
val labels = mapOf("label" to ins.size-1) // points to the second LINE instruction
vm.load(makeProg(ins, labels=labels), null)
assertFalse(vm.P_carry)
vm.step(2)
assertEquals("", vm.sourceLine)
vm.step(3)
assertEquals("string2", vm.sourceLine)
assertEquals(0, vm.callstack.size)
assertEquals(0, vm.evalstack.size)
}
@Test
fun testJZ() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0xaa01)),
Instruction(Opcode.JZ, callLabel = "label"),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0xaa00)),
Instruction(Opcode.JZ, callLabel = "label"),
Instruction(Opcode.LINE, callLabel = "string1"),
Instruction(Opcode.TERMINATE),
Instruction(Opcode.LINE, callLabel = "string2"))
val labels = mapOf("label" to ins.size-1) // points to the second LINE instruction
vm.load(makeProg(ins, labels=labels), null)
vm.step(2)
assertEquals("", vm.sourceLine)
vm.step(3)
assertEquals("string2", vm.sourceLine)
assertEquals(0, vm.callstack.size)
assertEquals(0, vm.evalstack.size)
}
@Test
fun testJNZ() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0xaa00)),
Instruction(Opcode.JNZ, callLabel = "label"),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0xaa01)),
Instruction(Opcode.JNZ, callLabel = "label"),
Instruction(Opcode.LINE, callLabel = "string1"),
Instruction(Opcode.TERMINATE),
Instruction(Opcode.LINE, callLabel = "string2"))
val labels = mapOf("label" to ins.size-1) // points to the second LINE instruction
vm.load(makeProg(ins, labels=labels), null)
vm.step(2)
assertEquals("", vm.sourceLine)
vm.step(3)
assertEquals("string2", vm.sourceLine)
assertEquals(0, vm.callstack.size)
assertEquals(0, vm.evalstack.size)
}
@Test
fun testJZW() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0xaa00)),
Instruction(Opcode.JZW, callLabel = "label"),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0x0000)),
Instruction(Opcode.JZW, callLabel = "label"),
Instruction(Opcode.LINE, callLabel = "string1"),
Instruction(Opcode.TERMINATE),
Instruction(Opcode.LINE, callLabel = "string2"))
val labels = mapOf("label" to ins.size-1) // points to the second LINE instruction
vm.load(makeProg(ins, labels=labels), null)
vm.step(2)
assertEquals("", vm.sourceLine)
vm.step(3)
assertEquals("string2", vm.sourceLine)
assertEquals(0, vm.callstack.size)
assertEquals(0, vm.evalstack.size)
}
@Test
fun testJNZW() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0x0000)),
Instruction(Opcode.JNZW, callLabel = "label"),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0xaa00)),
Instruction(Opcode.JNZW, callLabel = "label"),
Instruction(Opcode.LINE, callLabel = "string1"),
Instruction(Opcode.TERMINATE),
Instruction(Opcode.LINE, callLabel = "string2"))
val labels = mapOf("label" to ins.size-1) // points to the second LINE instruction
vm.load(makeProg(ins, labels=labels), null)
vm.step(2)
assertEquals("", vm.sourceLine)
vm.step(3)
assertEquals("string2", vm.sourceLine)
assertEquals(0, vm.callstack.size)
assertEquals(0, vm.evalstack.size)
}
@Test
fun testJump() {
val ins = mutableListOf(
Instruction(Opcode.JUMP, callLabel = "label"),
Instruction(Opcode.LINE, callLabel = "string1"),
Instruction(Opcode.TERMINATE),
Instruction(Opcode.LINE, callLabel = "string2"))
val labels = mapOf("label" to ins.size-1) // points to the second LINE instruction
vm.load(makeProg(ins, labels=labels), null)
vm.step(2)
assertEquals("string2", vm.sourceLine)
assertEquals(0, vm.callstack.size)
assertEquals(0, vm.evalstack.size)
}
@Test
fun testReturn() {
val ins = mutableListOf(
Instruction(Opcode.RETURN),
Instruction(Opcode.TERMINATE),
Instruction(Opcode.LINE, callLabel = "string1")
)
vm.load(makeProg(ins), null)
assertFailsWith<VmTerminationException> {
vm.step(1)
}
vm.callstack.add(2) // set the LINE opcode as return instruction
assertEquals("", vm.sourceLine)
vm.step(2)
assertEquals("string1", vm.sourceLine)
assertEquals(0, vm.callstack.size)
assertEquals(0, vm.evalstack.size)
}
@Test
fun testCall() {
val ins = mutableListOf(
Instruction(Opcode.CALL, callLabel = "label"),
Instruction(Opcode.LINE, callLabel = "returned"),
Instruction(Opcode.TERMINATE),
Instruction(Opcode.LINE, callLabel = "called"),
Instruction(Opcode.RETURN)
)
val labels = mapOf("label" to 3) // points to the LINE instruction
vm.load(makeProg(ins, labels = labels), null)
vm.step(1)
assertEquals("", vm.sourceLine)
assertEquals(1, vm.callstack.size)
assertSame(1, vm.callstack.peek())
vm.step(1)
assertEquals("called", vm.sourceLine)
vm.step(1)
assertEquals(0, vm.callstack.size)
assertEquals("called", vm.sourceLine)
vm.step(1)
assertEquals("returned", vm.sourceLine)
}
@Test
fun testSHIFTEDR() {
// @todo test SHR signed byte + signed word
val ins = mutableListOf(
Instruction(Opcode.PUSH_FLOAT, Value(DataType.FLOAT, 9.99)),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 3)),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 61005)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 3)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 249)),
Instruction(Opcode.SHIFTEDR_UBYTE), // 124
Instruction(Opcode.DISCARD_BYTE),
Instruction(Opcode.SHIFTEDR_UBYTE), // 1
Instruction(Opcode.SHIFTEDR_UBYTE), // 0
Instruction(Opcode.SHIFTEDR_UBYTE), // 0
Instruction(Opcode.DISCARD_BYTE),
Instruction(Opcode.SHIFTEDR_UWORD), // 30502
Instruction(Opcode.DISCARD_WORD),
Instruction(Opcode.SHIFTEDR_UWORD), // 1
Instruction(Opcode.SHIFTEDR_UWORD), // 0
Instruction(Opcode.SHIFTEDR_UWORD), // 0
Instruction(Opcode.DISCARD_WORD),
Instruction(Opcode.SHIFTEDR_UWORD) // error on float
)
vm.load(makeProg(ins), null)
vm.step(6)
assertEquals(Value(DataType.UBYTE, 124), vm.evalstack.peek())
vm.step(2)
assertEquals(Value(DataType.UBYTE, 1), vm.evalstack.peek())
vm.step(2)
assertEquals(Value(DataType.UBYTE, 0), vm.evalstack.peek())
vm.step(2)
assertEquals(Value(DataType.UWORD, 30502), vm.evalstack.peek())
vm.step(2)
assertEquals(Value(DataType.UWORD, 1), vm.evalstack.peek())
vm.step(2)
assertEquals(Value(DataType.UWORD, 0), vm.evalstack.peek())
vm.step(1)
assertEquals(Value(DataType.FLOAT, 9.99), vm.evalstack.peek())
assertFailsWith<VmExecutionException> {
vm.step(1) // float shift error
}
}
@Test
fun testSHIFTEDL() {
val ins = mutableListOf(
Instruction(Opcode.PUSH_FLOAT, Value(DataType.FLOAT, 9.99)),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 3)),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 61005)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 3)),
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 249)),
Instruction(Opcode.SHIFTEDL_BYTE), // 242
Instruction(Opcode.DISCARD_BYTE),
Instruction(Opcode.SHIFTEDL_BYTE), // 6
Instruction(Opcode.DISCARD_BYTE),
Instruction(Opcode.SHIFTEDL_WORD), // 56474
Instruction(Opcode.DISCARD_WORD),
Instruction(Opcode.SHIFTEDL_WORD), // 6
Instruction(Opcode.DISCARD_WORD),
Instruction(Opcode.SHIFTEDL_WORD) // error on float
)
vm.load(makeProg(ins), null)
vm.step(6)
assertEquals(Value(DataType.UBYTE, 242), vm.evalstack.peek())
vm.step(2)
assertEquals(Value(DataType.UBYTE, 6), vm.evalstack.peek())
vm.step(2)
assertEquals(Value(DataType.UWORD, 56474), vm.evalstack.peek())
vm.step(2)
assertEquals(Value(DataType.UWORD, 6), vm.evalstack.peek())
vm.step(1)
assertEquals(Value(DataType.FLOAT, 9.99), vm.evalstack.peek())
assertFailsWith<VmExecutionException> {
vm.step(1) // float shift error
}
}
@Test
fun testROR() {
// 9/17-bit rotation right (using carry)
val ins = mutableListOf(
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 0b10010011)),
Instruction(Opcode.ROR_BYTE), // 0b01001001 c=1
Instruction(Opcode.ROR_BYTE), // 0b10100100 c=1
Instruction(Opcode.ROR_BYTE), // 0b11010010 c=0
Instruction(Opcode.ROR_BYTE), // 0b01101001 c=0
Instruction(Opcode.ROR_BYTE), // 0b00110100 c=1
Instruction(Opcode.ROR_BYTE), // 0b10011010 c=0
Instruction(Opcode.ROR_BYTE), // 0b01001101 c=0
Instruction(Opcode.ROR_BYTE), // 0b00100110 c=1
Instruction(Opcode.ROR_BYTE) // 0b10010011 c=0 (original value after 9 rors)
)
vm.load(makeProg(ins), null)
vm.step(2)
assertEquals(Value(DataType.UBYTE, 0b01001001), vm.evalstack.peek())
assertTrue(vm.P_carry)
vm.step(1)
assertEquals(Value(DataType.UBYTE, 0b10100100), vm.evalstack.peek())
assertTrue(vm.P_carry)
vm.step(1)
assertEquals(Value(DataType.UBYTE, 0b11010010), vm.evalstack.peek())
assertFalse(vm.P_carry)
vm.step(1)
assertEquals(Value(DataType.UBYTE, 0b01101001), vm.evalstack.peek())
assertFalse(vm.P_carry)
vm.step(5)
assertEquals(Value(DataType.UBYTE, 0b10010011), vm.evalstack.peek())
assertFalse(vm.P_carry)
val ins2 = mutableListOf(
Instruction(Opcode.CLC),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0b1001001100001101)),
Instruction(Opcode.ROR_WORD), // 0b0100100110000110 c=1
Instruction(Opcode.ROR_WORD), // 0b1010010011000011 c=0
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD),
Instruction(Opcode.ROR_WORD) // 0b1001001100001101 c=0 (original value after 17 rors)
)
vm.load(makeProg(ins2), null)
vm.step(3)
assertEquals(Value(DataType.UWORD, 0b0100100110000110), vm.evalstack.peek())
assertTrue(vm.P_carry)
vm.step(1)
assertEquals(Value(DataType.UWORD, 0b1010010011000011), vm.evalstack.peek())
assertFalse(vm.P_carry)
vm.step(15)
assertEquals(Value(DataType.UWORD, 0b1001001100001101), vm.evalstack.peek())
assertFalse(vm.P_carry)
}
@Test
fun testROL() {
// 9/17-bit rotation left (using carry)
val ins = mutableListOf(
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 0b10010011)),
Instruction(Opcode.ROL_BYTE), // 0b00100110 c=1
Instruction(Opcode.ROL_BYTE), // 0b01001101 c=0
Instruction(Opcode.ROL_BYTE), // 0b10011010 c=0
Instruction(Opcode.ROL_BYTE), // 0b00110100 c=1
Instruction(Opcode.ROL_BYTE), // 0b01101001 c=0
Instruction(Opcode.ROL_BYTE), // 0b11010010 c=0
Instruction(Opcode.ROL_BYTE), // 0b10100100 c=1
Instruction(Opcode.ROL_BYTE), // 0b01001001 c=1
Instruction(Opcode.ROL_BYTE) // 0b10010011 c=0 (original value after 9 rors)
)
vm.load(makeProg(ins), null)
vm.step(2)
assertEquals(Value(DataType.UBYTE, 0b00100110), vm.evalstack.peek())
assertTrue(vm.P_carry)
vm.step(1)
assertEquals(Value(DataType.UBYTE, 0b01001101), vm.evalstack.peek())
assertFalse(vm.P_carry)
vm.step(1)
assertEquals(Value(DataType.UBYTE, 0b10011010), vm.evalstack.peek())
assertFalse(vm.P_carry)
vm.step(1)
assertEquals(Value(DataType.UBYTE, 0b00110100), vm.evalstack.peek())
assertTrue(vm.P_carry)
vm.step(5)
assertEquals(Value(DataType.UBYTE, 0b10010011), vm.evalstack.peek())
assertFalse(vm.P_carry)
val ins2 = mutableListOf(
Instruction(Opcode.CLC),
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0b1001001100001101)),
Instruction(Opcode.ROL_WORD), // 0b0010011000011010 c=1
Instruction(Opcode.ROL_WORD), // 0b0100110000110101 c=0
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD),
Instruction(Opcode.ROL_WORD) // 0b1001001100001101 c=0 (original value after 17 rors)
)
vm.load(makeProg(ins2), null)
vm.step(3)
assertEquals(Value(DataType.UWORD, 0b0010011000011010), vm.evalstack.peek())
assertTrue(vm.P_carry)
vm.step(1)
assertEquals(Value(DataType.UWORD, 0b0100110000110101), vm.evalstack.peek())
assertFalse(vm.P_carry)
vm.step(15)
assertEquals(Value(DataType.UWORD, 0b1001001100001101), vm.evalstack.peek())
assertFalse(vm.P_carry)
}
@Test
fun testROR2() {
// 8/16-bit rotation right
val ins = mutableListOf(
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 0b10010011)),
Instruction(Opcode.ROR2_BYTE), // 0b11001001
Instruction(Opcode.ROR2_BYTE), // 0b11100100
Instruction(Opcode.ROR2_BYTE), // 0b01110010
Instruction(Opcode.ROR2_BYTE),
Instruction(Opcode.ROR2_BYTE),
Instruction(Opcode.ROR2_BYTE),
Instruction(Opcode.ROR2_BYTE),
Instruction(Opcode.ROR2_BYTE) // 0b10010011 (original value after 8 rors)
)
vm.load(makeProg(ins), null)
vm.step(2)
assertEquals(Value(DataType.UBYTE, 0b11001001), vm.evalstack.peek())
assertFalse(vm.P_carry)
vm.step(1)
assertEquals(Value(DataType.UBYTE, 0b11100100), vm.evalstack.peek())
vm.step(1)
assertEquals(Value(DataType.UBYTE, 0b01110010), vm.evalstack.peek())
vm.step(5)
assertEquals(Value(DataType.UBYTE, 0b10010011), vm.evalstack.peek())
val ins2 = mutableListOf(
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0b1001001100001101)),
Instruction(Opcode.ROR2_WORD), // 0b1100100110000110
Instruction(Opcode.ROR2_WORD), // 0b0110010011000011
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD),
Instruction(Opcode.ROR2_WORD) // 0b1001001100001101 (original value after 16 rors)
)
vm.load(makeProg(ins2), null)
vm.step(2)
assertEquals(Value(DataType.UWORD, 0b1100100110000110), vm.evalstack.peek())
assertFalse(vm.P_carry)
vm.step(1)
assertEquals(Value(DataType.UWORD, 0b0110010011000011), vm.evalstack.peek())
vm.step(14)
assertEquals(Value(DataType.UWORD, 0b1001001100001101), vm.evalstack.peek())
}
@Test
fun testROL2() {
// 8/16-bit rotation left
val ins = mutableListOf(
Instruction(Opcode.PUSH_BYTE, Value(DataType.UBYTE, 0b10010011)),
Instruction(Opcode.ROL2_BYTE), // 0b00100111
Instruction(Opcode.ROL2_BYTE), // 0b01001110
Instruction(Opcode.ROL2_BYTE),
Instruction(Opcode.ROL2_BYTE),
Instruction(Opcode.ROL2_BYTE),
Instruction(Opcode.ROL2_BYTE),
Instruction(Opcode.ROL2_BYTE),
Instruction(Opcode.ROL2_BYTE) // 0b10010011 (original value after 8 rols)
)
vm.load(makeProg(ins), null)
vm.step(2)
assertEquals(Value(DataType.UBYTE, 0b00100111), vm.evalstack.peek())
assertFalse(vm.P_carry)
vm.step(1)
assertEquals(Value(DataType.UBYTE, 0b01001110), vm.evalstack.peek())
vm.step(6)
assertEquals(Value(DataType.UBYTE, 0b10010011), vm.evalstack.peek())
val ins2 = mutableListOf(
Instruction(Opcode.PUSH_WORD, Value(DataType.UWORD, 0b1001001100001101)),
Instruction(Opcode.ROL2_WORD), // 0b0010011000011011
Instruction(Opcode.ROL2_WORD), // 0b0100110000110110
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD),
Instruction(Opcode.ROL2_WORD) // 0b1001001100001101 (original value after 16 rols)
)
vm.load(makeProg(ins2), null)
vm.step(2)
assertEquals(Value(DataType.UWORD, 0b0010011000011011), vm.evalstack.peek())
assertFalse(vm.P_carry)
vm.step(1)
assertEquals(Value(DataType.UWORD, 0b0100110000110110), vm.evalstack.peek())
assertFalse(vm.P_carry)
vm.step(14)
assertEquals(Value(DataType.UWORD, 0b1001001100001101), vm.evalstack.peek())
}
private fun pushOpcode(dt: DataType): Opcode {
return when (dt) {
in ByteDatatypes -> Opcode.PUSH_BYTE
in WordDatatypes -> Opcode.PUSH_WORD
in IterableDatatypes -> Opcode.PUSH_WORD
DataType.FLOAT -> Opcode.PUSH_FLOAT
else -> throw IllegalArgumentException("invalid datatype")
}
}
private fun testBinaryOperator(left: Value, operator: Opcode, right: Value, result: Value) {
val program=makeProg(mutableListOf(
Instruction(pushOpcode(left.type), left),
Instruction(pushOpcode(right.type), right),
Instruction(operator)
))
vm.load(program, null)
vm.step(3)
assertEquals(1, vm.evalstack.size)
assertEquals(result, vm.evalstack.pop())
}
private fun testUnaryOperator(value: Value, operator: Opcode, result: Value) {
val program=makeProg(mutableListOf(
Instruction(pushOpcode(value.type), value),
Instruction(operator)
))
vm.load(program, null)
vm.step(2)
assertEquals(1, vm.evalstack.size)
assertEquals(result, vm.evalstack.pop())
}
}