package prog8tests.compiler import io.kotest.assertions.withClue import io.kotest.core.spec.style.FunSpec import io.kotest.datatest.withData import io.kotest.matchers.shouldBe import io.kotest.matchers.shouldNotBe import io.kotest.matchers.string.shouldContain import io.kotest.matchers.types.instanceOf import prog8.ast.expressions.ArrayLiteral import prog8.ast.expressions.IdentifierReference import prog8.ast.expressions.NumericLiteral import prog8.ast.expressions.RangeExpression import prog8.ast.statements.ForLoop import prog8.ast.statements.VarDecl import prog8.code.core.BaseDataType import prog8.code.core.DataType import prog8.code.core.Encoding import prog8.code.core.Position import prog8.code.target.C64Target import prog8.code.target.Cx16Target import prog8tests.helpers.ErrorReporterForTests import prog8tests.helpers.cartesianProduct import prog8tests.helpers.compileText /** * ATTENTION: this is just kludge! * They are not really unit tests, but rather tests of the whole process, * from source file loading all the way through to running 64tass. */ class TestCompilerOnRanges: FunSpec({ test("testUByteArrayInitializerWithRange_char_to_char") { val platform = Cx16Target() val result = compileText(platform, false, """ main { sub start() { ubyte[] @shared cs = sc:'a' to sc:'z' ; values are computed at compile time } } """)!! val program = result.compilerAst val startSub = program.entrypoint val decl = startSub .statements.filterIsInstance()[0] val rhsValues = (decl.value as ArrayLiteral) .value // Array .map { (it as NumericLiteral).number.toInt() } val expectedStart = platform.encodeString("a", Encoding.SCREENCODES)[0].toInt() val expectedEnd = platform.encodeString("z", Encoding.SCREENCODES)[0].toInt() val expectedStr = "$expectedStart .. $expectedEnd" val actualStr = "${rhsValues.first()} .. ${rhsValues.last()}" withClue(".first .. .last") { actualStr shouldBe expectedStr } withClue("rangeExpr.size()") { (rhsValues.last() - rhsValues.first() + 1) shouldBe (expectedEnd - expectedStart + 1) } } test("testFloatArrayInitializerWithRange_char_to_char") { val platform = C64Target() val result = compileText(platform, optimize = false, """ %import floats main { sub start() { float[] @shared cs = 'a' to 'z' ; values are computed at compile time } } """)!! val program = result.compilerAst val startSub = program.entrypoint val decl = startSub .statements.filterIsInstance()[0] val rhsValues = (decl.value as ArrayLiteral) .value // Array .map { (it as NumericLiteral).number.toInt() } val expectedStart = platform.encodeString("a", Encoding.PETSCII)[0].toInt() val expectedEnd = platform.encodeString("z", Encoding.PETSCII)[0].toInt() val expectedStr = "$expectedStart .. $expectedEnd" val actualStr = "${rhsValues.first()} .. ${rhsValues.last()}" withClue(".first .. .last") { actualStr shouldBe expectedStr } withClue("rangeExpr.size()") { rhsValues.size shouldBe (expectedEnd - expectedStart + 1) } } context("floatArrayInitializerWithRange") { withData( nameFn = { when (it.first) { "" -> "no" "42" -> "correct" else -> "wrong" } + " array size given" + ", " + (if (it.second == "") "without" else "with") + " %option enable_floats" + ", ${it.third.name}, optimize: ${it.fourth}" }, cartesianProduct( listOf("", "42", "41"), // sizeInDecl listOf("%import floats", ""), // optEnableFloats listOf(Cx16Target(), C64Target()), // platform listOf(false, true) // optimize ) ) { seq -> val (sizeInDecl, optEnableFloats, platform, optimize) = seq val result = compileText(platform, optimize, """ $optEnableFloats main { sub start() { float[$sizeInDecl] @shared cs = 1 to 42 ; values are computed at compile time } } """) if (optEnableFloats != "" && (sizeInDecl=="" || sizeInDecl=="42")) result shouldNotBe null else result shouldBe null } } test("testForLoopWithRange_char_to_char") { val platform = Cx16Target() val result = compileText(platform, optimize = true, """ main { sub start() { ubyte i for i in sc:'a' to 'f' { i += i ; keep optimizer from removing it } } } """)!! val program = result.compilerAst val startSub = program.entrypoint val iterable = startSub .statements.filterIsInstance() .map { it.iterable }[0] val rangeExpr = iterable as RangeExpression val expectedStart = platform.encodeString("a", Encoding.SCREENCODES)[0].toInt() val expectedEnd = platform.encodeString("f", Encoding.PETSCII)[0].toInt() val expectedStr = "$expectedStart .. $expectedEnd" val intProgression = rangeExpr.toConstantIntegerRange() val actualStr = "${intProgression?.first} .. ${intProgression?.last}" withClue(".first .. .last") { actualStr shouldBe expectedStr } withClue("rangeExpr.size()") { rangeExpr.size() shouldBe (expectedEnd - expectedStart + 1) } } test("testForLoopWithRange_ubyte_to_ubyte") { val platform = Cx16Target() val result = compileText(platform, optimize = true, """ main { sub start() { ubyte i for i in 1 to 9 { i += i ; keep optimizer from removing it } } } """)!! val program = result.compilerAst val startSub = program.entrypoint val rangeExpr = startSub .statements.filterIsInstance() .map { it.iterable } .filterIsInstance()[0] rangeExpr.size() shouldBe 9 val intProgression = rangeExpr.toConstantIntegerRange() intProgression?.first shouldBe 1 intProgression?.last shouldBe 9 } test("testForLoopWithRange_str_downto_str") { val errors = ErrorReporterForTests() compileText( Cx16Target(), true, """ main { sub start() { ubyte i for i in "start" downto "end" { i += i ; keep optimizer from removing it } } } """, errors, false) shouldBe null errors.errors.size shouldBe 2 errors.errors[0] shouldContain ".p8:5:30: range expression from value must be integer" errors.errors[1] shouldContain ".p8:5:45: range expression to value must be integer" } test("testForLoopWithIterable_str") { val result = compileText( Cx16Target(), false, """ main { sub start() { ubyte i for i in "something" { i += i ; keep optimizer from removing it } } } """)!! val program = result.compilerAst val startSub = program.entrypoint val iterable = startSub .statements.filterIsInstance() .map { it.iterable } .filterIsInstance()[0] iterable.inferType(program).getOrUndef() shouldBe DataType.forDt(BaseDataType.STR) } test("testRangeExprNumericSize") { val expr = RangeExpression( NumericLiteral.optimalInteger(10, Position.DUMMY), NumericLiteral.optimalInteger(20, Position.DUMMY), NumericLiteral.optimalInteger(2, Position.DUMMY), Position.DUMMY) expr.size() shouldBe 6 expr.toConstantIntegerRange() shouldBe (10..20 step 2) val expr2 = RangeExpression( NumericLiteral.optimalInteger(20, Position.DUMMY), NumericLiteral.optimalInteger(10, Position.DUMMY), NumericLiteral.optimalInteger(-3, Position.DUMMY), Position.DUMMY) expr2.size() shouldBe 4 expr2.toConstantIntegerRange() shouldBe (20 downTo 10 step 3) } test("range with negative step should be constvalue") { val result = compileText( C64Target(), false, """ main { sub start() { ubyte[] array = 100 to 50 step -2 ubyte xx for xx in 100 to 50 step -2 { } } } """)!! val statements = result.compilerAst.entrypoint.statements val array = (statements[0] as VarDecl).value array shouldBe instanceOf() (array as ArrayLiteral).value.size shouldBe 26 val forloop = (statements.dropLast(1).last() as ForLoop) forloop.iterable shouldBe instanceOf() (forloop.iterable as RangeExpression).step shouldBe NumericLiteral(BaseDataType.BYTE, -2.0, Position.DUMMY) } test("range with start/end variables should be ok") { val result = compileText( C64Target(), false, """ main { sub start() { byte from = 100 byte end = 50 byte xx for xx in from to end step -2 { } } } """)!! val statements = result.compilerAst.entrypoint.statements val forloop = (statements.dropLast(1).last() as ForLoop) forloop.iterable shouldBe instanceOf() (forloop.iterable as RangeExpression).step shouldBe NumericLiteral(BaseDataType.BYTE, -2.0, Position.DUMMY) } test("for statement on all possible iterable expressions") { compileText( C64Target(), false, """ main { sub start() { ubyte xx uword ww str name = "irmen" ubyte[] values = [1,2,3,4,5,6,7] uword[] wvalues = [1000,2000,3000] for xx in name { xx++ } for xx in values { xx++ } for xx in 10 to 20 step 3 { xx++ } for xx in "abcdef" { xx++ } for xx in [2,4,6,8] { xx++ } for ww in [9999,8888,7777] { xx++ } for ww in wvalues { xx++ } } }""", writeAssembly = true) shouldNotBe null } test("if containment check on all possible iterable expressions") { compileText( C64Target(), false, """ main { sub start() { ubyte xx uword ww str name = "irmen" ubyte[] values = [1,2,3,4,5,6,7] uword[] wvalues = [1000,2000,3000] uword[] @nosplit wnsvalues = [1000,2000,3000] if 'm' in name { xx++ } if 5 in values { xx++ } if 'b' in "abcdef" { xx++ } if xx in name { xx++ } if xx in values { xx++ } if xx in "abcdef" { xx++ } if xx in [2,4,6,8] { xx++ } if ww in [9999,8888,7777] { xx++ } if ww in wvalues { xx++ } if ww in wnsvalues { xx++ } if xx in 10 to 20 { xx++ } if ww in 1000 to 2000 { xx++ } } }""", writeAssembly = true) shouldNotBe null } test("containment check expressions") { compileText( C64Target(), false, """ main { sub start() { bool xx uword ww str name = "irmen" ubyte[] values = [1,2,3,4,5,6,7] uword[] wvalues = [1000,2000,3000] uword[] @nosplit wnsvalues = [1000,2000,3000] xx = 'm' in name xx = 5 in values xx = 'b' in "abcdef" xx = 8 in [2,4,6,8] xx = xx in name xx = xx in values xx = xx in "abcdef" xx = xx in [2,4,6,8] xx = ww in [9000,8000,7000] xx = ww in wvalues xx = ww in wnsvalues } }""", writeAssembly = true) shouldNotBe null } test("ranges with byte and word boundary") { val src=""" main{ sub start() { cx16.r0 = 500 if cx16.r0 in 127 to 5555 cx16.r0++ cx16.r0 = 50 if cx16.r0 in 5555 downto 127 cx16.r0++ } } """ compileText(Cx16Target(), true, src, writeAssembly = true) shouldNotBe null } })