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prog8/compiler/test/ast/TestProg8Parser.kt

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package prog8tests.ast
import com.github.michaelbull.result.getOrElse
import io.kotest.assertions.fail
import io.kotest.assertions.throwables.shouldThrow
import io.kotest.assertions.withClue
import io.kotest.core.spec.style.FunSpec
import io.kotest.matchers.or
import io.kotest.matchers.shouldBe
import io.kotest.matchers.shouldNotBe
import io.kotest.matchers.string.shouldContain
import io.kotest.matchers.string.shouldStartWith
import io.kotest.matchers.types.instanceOf
import prog8.ast.IFunctionCall
import prog8.ast.Module
import prog8.ast.Node
import prog8.ast.Program
import prog8.ast.expressions.*
import prog8.ast.statements.*
import prog8.code.core.*
import prog8.code.target.C64Target
import prog8.code.target.cbm.PetsciiEncoding
import prog8.parser.ParseError
import prog8.parser.Prog8Parser.parseModule
import prog8tests.helpers.*
import kotlin.io.path.Path
import kotlin.io.path.isRegularFile
import kotlin.io.path.name
import kotlin.io.path.nameWithoutExtension
class TestProg8Parser: FunSpec( {
context("Newline at end") {
test("is not required - #40, fixed by #45") {
val nl = "\n" // say, Unix-style (different flavours tested elsewhere)
val src = SourceCode.Text("foo {" + nl + "}") // source ends with '}' (= NO newline, issue #40)
// #40: Prog8ANTLRParser would report (throw) "missing <EOL> at '<EOF>'"
val module = parseModule(src)
module.statements.size shouldBe 1
}
test("is still accepted - #40, fixed by #45") {
val nl = "\n" // say, Unix-style (different flavours tested elsewhere)
val srcText = "foo {" + nl + "}" + nl // source does end with a newline (issue #40)
val module = parseModule(SourceCode.Text(srcText))
module.statements.size shouldBe 1
}
}
context("Newline") {
test("is required after each block except the last") {
val nl = "\n" // say, Unix-style (different flavours tested elsewhere)
// BAD: 2nd block `bar` does NOT start on new line; however, there's is a nl at the very end
val srcBad = "foo {" + nl + "}" + " bar {" + nl + "}" + nl
// GOOD: 2nd block `bar` does start on a new line; however, a nl at the very end ain't needed
val srcGood = "foo {" + nl + "}" + nl + "bar {" + nl + "}"
shouldThrow<ParseError> { parseModule(SourceCode.Text(srcBad)) }
val module = parseModule(SourceCode.Text(srcGood))
module.statements.size shouldBe 2
}
test("is required between two Blocks or Directives - #47") {
// block and block
shouldThrow<ParseError>{ parseModule(
SourceCode.Text("""
blockA {
} blockB {
}
""")) }
// block and directive
shouldThrow<ParseError>{ parseModule(
SourceCode.Text("""
blockB {
} %import textio
""")) }
// The following two are bogus due to directive *args* expected to follow the directive name.
// Leaving them in anyways.
// dir and block
shouldThrow<ParseError>{ parseModule(
SourceCode.Text("""
%import textio blockB {
}
""")) }
shouldThrow<ParseError>{ parseModule(
SourceCode.Text("""
%import textio %import syslib
""")) }
}
test("can be Win, Unix or mixed, even mixed") {
val nlWin = "\r\n"
val nlUnix = "\n"
val nlMac = "\r"
//parseModule(Paths.get("test", "fixtures", "mac_newlines.p8").toAbsolutePath())
// a good mix of all kinds of newlines:
val srcText =
"foo {" +
nlMac +
nlWin +
"}" +
nlMac + // <-- do test a single \r (!) where an EOL is expected
"bar {" +
nlUnix +
"}" +
nlUnix + nlMac // both should be "eaten up" by just one EOL token
"combi {" +
nlMac + nlWin + nlUnix // all three should be "eaten up" by just one EOL token
"}" +
nlUnix // end with newline (see testModuleSourceNeedNotEndWithNewline)
val module = parseModule(SourceCode.Text(srcText))
module.statements.size shouldBe 2
}
}
context("EOLsInterleavedWithComments") {
test("are ok before first block - #47") {
// issue: #47
val srcText = """
; comment
; comment
blockA {
}
"""
val module = parseModule(SourceCode.Text(srcText))
module.statements.size shouldBe 1
}
test("are ok between blocks - #47") {
// issue: #47
val srcText = """
blockA {
}
; comment
; comment
blockB {
}
"""
val module = parseModule(SourceCode.Text(srcText))
module.statements.size shouldBe 2
}
test("are ok after last block - #47") {
// issue: #47
val srcText = """
blockA {
}
; comment
; comment
"""
val module = parseModule(SourceCode.Text(srcText))
module.statements.size shouldBe 1
}
}
context("ImportDirectives") {
test("should not be looked into by the parser") {
val importedNoExt = assumeNotExists(fixturesDir, "i_do_not_exist")
assumeNotExists(fixturesDir, "i_do_not_exist.p8")
val text = "%import ${importedNoExt.name}"
val module = parseModule(SourceCode.Text(text))
module.statements.size shouldBe 1
}
}
context("EmptySourcecode") {
test("from an empty string should result in empty Module") {
val module = parseModule(SourceCode.Text(""))
module.statements.size shouldBe 0
}
test("from an empty file should result in empty Module") {
val path = assumeReadableFile(fixturesDir, "ast_empty.p8")
val module = parseModule(SourceCode.File(path))
module.statements.size shouldBe 0
}
}
context("NameOfModule") {
test("parsed from a string") {
val srcText = """
main {
}
""".trimIndent()
val module = parseModule(SourceCode.Text(srcText))
// Note: assertContains has *actual* as first param
module.name shouldContain Regex("^string:[0-9a-f\\-]+$")
}
test("parsed from a file") {
val path = assumeReadableFile(fixturesDir, "ast_simple_main.p8")
val module = parseModule(SourceCode.File(path))
module.name shouldBe path.nameWithoutExtension
}
}
context("PositionOfAstNodesAndParseErrors") {
fun assertPosition(
actual: Position,
expFile: String? = null,
expLine: Int? = null,
expStartCol: Int? = null,
expEndCol: Int? = null
) {
require(!listOf(expLine, expStartCol, expEndCol).all { it == null })
if (expLine != null) actual.line shouldBe expLine
if (expStartCol != null) actual.startCol shouldBe expStartCol
if (expEndCol != null) actual.endCol shouldBe expEndCol
if (expFile != null) actual.file shouldBe expFile
}
fun assertPosition(
actual: Position,
expFile: Regex? = null,
expLine: Int? = null,
expStartCol: Int? = null,
expEndCol: Int? = null
) {
require(!listOf(expLine, expStartCol, expEndCol).all { it == null })
if (expLine != null) actual.line shouldBe expLine
if (expStartCol != null) actual.startCol shouldBe expStartCol
if (expEndCol != null) actual.endCol shouldBe expEndCol
if (expFile != null) actual.file shouldContain expFile
}
fun assertPositionOf(
actual: Node,
expFile: String? = null,
expLine: Int? = null,
expStartCol: Int? = null,
expEndCol: Int? = null
) =
assertPosition(actual.position, expFile, expLine, expStartCol, expEndCol)
fun assertPositionOf(
actual: Node,
expFile: Regex? = null,
expLine: Int? = null,
expStartCol: Int? = null,
expEndCol: Int? = null
) =
assertPosition(actual.position, expFile, expLine, expStartCol, expEndCol)
test("in ParseError from bad string source code") {
val srcText = "bad * { }\n"
val e = shouldThrow<ParseError> { parseModule(SourceCode.Text(srcText)) }
assertPosition(e.position, Regex("^string:[0-9a-f\\-]+$"), 1, 4, 4)
}
test("in ParseError from bad file source code") {
val path = assumeReadableFile(fixturesDir, "ast_file_with_syntax_error.p8")
val e = shouldThrow<ParseError> { parseModule(SourceCode.File(path)) }
assertPosition(e.position, SourceCode.relative(path).toString(), 2, 6)
}
test("of Module parsed from a string") {
val srcText = """
main {
}
"""
val module = parseModule(SourceCode.Text(srcText))
assertPositionOf(module, Regex("^string:[0-9a-f\\-]+$"), 1, 0)
}
test("of Module parsed from a file") {
val path = assumeReadableFile(fixturesDir, "ast_simple_main.p8")
val module = parseModule(SourceCode.File(path))
assertPositionOf(module, SourceCode.relative(path).toString(), 1, 0)
}
test("of non-root Nodes parsed from file") {
val path = assumeReadableFile(fixturesDir, "ast_simple_main.p8")
val module = parseModule(SourceCode.File(path))
val mpf = module.position.file
assertPositionOf(module, SourceCode.relative(path).toString(), 1, 0)
val mainBlock = module.statements.filterIsInstance<Block>()[0]
assertPositionOf(mainBlock, mpf, 2, 1, 4)
val startSub = mainBlock.statements.filterIsInstance<Subroutine>()[0]
assertPositionOf(startSub, mpf, 3, 5, 7)
}
test("of non-root Nodes parsed from a string") {
val srcText = """
%zeropage basicsafe
main {
sub start() {
ubyte foo = 42
ubyte bar
when (foo) {
23 -> bar = 'x'
42 -> bar = 'y'
else -> bar = 'z'
}
}
}
""".trimIndent()
val module = parseModule(SourceCode.Text(srcText))
val mpf = module.position.file
val targetDirective = module.statements.filterIsInstance<Directive>()[0]
assertPositionOf(targetDirective, mpf, 1, 1, 9)
val mainBlock = module.statements.filterIsInstance<Block>()[0]
assertPositionOf(mainBlock, mpf, 2, 1, 4)
val startSub = mainBlock.statements.filterIsInstance<Subroutine>()[0]
assertPositionOf(startSub, mpf, 3, 5, 7)
val declFoo = startSub.statements.filterIsInstance<VarDecl>()[0]
assertPositionOf(declFoo, mpf, 4, 9, 13)
val rhsFoo = declFoo.value!!
assertPositionOf(rhsFoo, mpf, 4, 21, 22)
val declBar = startSub.statements.filterIsInstance<VarDecl>()[1]
assertPositionOf(declBar, mpf, 5, 9, 13)
val whenStmt = startSub.statements.filterIsInstance<When>()[0]
assertPositionOf(whenStmt, mpf, 6, 9, 12)
assertPositionOf(whenStmt.choices[0], mpf, 7, 13, 14)
assertPositionOf(whenStmt.choices[1], mpf, 8, 13, 14)
assertPositionOf(whenStmt.choices[2], mpf, 9, 13, 16)
}
}
context("PositionFile") {
fun assertSomethingForAllNodes(module: Module, asserter: (Node) -> Unit) {
asserter(module)
module.statements.forEach(asserter)
module.statements.filterIsInstance<Block>().forEach { b ->
asserter(b)
b.statements.forEach(asserter)
b.statements.filterIsInstance<Subroutine>().forEach { s ->
asserter(s)
s.statements.forEach(asserter)
}
}
}
test("isn't absolute for filesystem paths") {
val path = assumeReadableFile(fixturesDir, "ast_simple_main.p8")
val module = parseModule(SourceCode.File(path))
assertSomethingForAllNodes(module) {
Path(it.position.file).isAbsolute shouldBe false
Path(it.position.file).isRegularFile() shouldBe true
}
}
test("is mangled string id for string sources")
{
val srcText="""
%zeropage basicsafe
main {
sub start() {
ubyte aa=99
aa++
}
}
""".trimIndent()
val module = parseModule(SourceCode.Text(srcText))
assertSomethingForAllNodes(module) {
it.position.file shouldStartWith SourceCode.stringSourcePrefix
}
}
test("is library prefixed path for resources")
{
val resource = SourceCode.Resource("prog8lib/math.p8")
val module = parseModule(resource)
assertSomethingForAllNodes(module) {
it.position.file shouldStartWith SourceCode.libraryFilePrefix
}
}
}
context("CharLiterals") {
test("in argument position, no altEnc") {
val src = SourceCode.Text("""
main {
sub start() {
chrout('\n')
}
}
""")
val module = parseModule(src)
val startSub = module
.statements.filterIsInstance<Block>()[0]
.statements.filterIsInstance<Subroutine>()[0]
val funCall = startSub.statements.filterIsInstance<IFunctionCall>().first()
funCall.args[0] shouldBe(instanceOf<CharLiteral>())
val char = funCall.args[0] as CharLiteral
char.value shouldBe '\n'
}
test("on rhs of block-level var decl, default encoding") {
val src = SourceCode.Text("""
main {
ubyte c = 'x'
}
""")
val module = parseModule(src)
val decl = module
.statements.filterIsInstance<Block>()[0]
.statements.filterIsInstance<VarDecl>()[0]
val rhs = decl.value as CharLiteral
rhs.encoding shouldBe Encoding.DEFAULT
rhs.value shouldBe 'x'
}
test("on rhs of block-level const decl, with screencode enc") {
val src = SourceCode.Text("""
main {
const ubyte c = sc:'x'
}
""")
val module = parseModule(src)
val decl = module
.statements.filterIsInstance<Block>()[0]
.statements.filterIsInstance<VarDecl>()[0]
val rhs = decl.value as CharLiteral
rhs.encoding shouldBe Encoding.SCREENCODES
rhs.value shouldBe 'x'
}
test("on rhs of block-level const decl, with iso encoding") {
val src = SourceCode.Text("""
main {
const ubyte c = iso:'_'
}
""")
val module = parseModule(src)
val decl = module
.statements.filterIsInstance<Block>()[0]
.statements.filterIsInstance<VarDecl>()[0]
val rhs = decl.value as CharLiteral
rhs.encoding shouldBe Encoding.ISO
rhs.value shouldBe '_'
}
test("on rhs of subroutine-level var decl, default encoding") {
val src = SourceCode.Text("""
main {
sub start() {
ubyte c = 'x'
}
}
""")
val module = parseModule(src)
val decl = module
.statements.filterIsInstance<Block>()[0]
.statements.filterIsInstance<Subroutine>()[0]
.statements.filterIsInstance<VarDecl>()[0]
val rhs = decl.value as CharLiteral
rhs.value shouldBe 'x'
rhs.encoding shouldBe Encoding.DEFAULT
}
test("on rhs of subroutine-level const decl, screencode encoded") {
val src = SourceCode.Text("""
main {
sub start() {
const ubyte c = sc:'x'
}
}
""")
val module = parseModule(src)
val decl = module
.statements.filterIsInstance<Block>()[0]
.statements.filterIsInstance<Subroutine>()[0]
.statements.filterIsInstance<VarDecl>()[0]
val rhs = decl.value as CharLiteral
rhs.encoding shouldBe Encoding.SCREENCODES
rhs.value shouldBe 'x'
}
test("on rhs of subroutine-level const decl, iso encoding") {
val src = SourceCode.Text("""
main {
sub start() {
const ubyte c = iso:'_'
}
}
""")
val module = parseModule(src)
val decl = module
.statements.filterIsInstance<Block>()[0]
.statements.filterIsInstance<Subroutine>()[0]
.statements.filterIsInstance<VarDecl>()[0]
val rhs = decl.value as CharLiteral
rhs.encoding shouldBe Encoding.ISO
rhs.value shouldBe '_'
}
}
context("Strings") {
test("default encoding") {
val source = """
main {
str name = "name"
}"""
val module = parseModule(SourceCode.Text(source))
val decl = module
.statements.filterIsInstance<Block>()[0]
.statements.filterIsInstance<VarDecl>()[0]
val rhs = decl.value as StringLiteral
rhs.encoding shouldBe Encoding.DEFAULT
rhs.value shouldBe "name"
}
test("string encodings") {
val source = """
main {
str name1 = petscii:"Name"
str name2 = sc:"Name"
str name3 = iso:"Name"
}"""
val module = parseModule(SourceCode.Text(source))
val (decl1, decl2, decl3) = module
.statements.filterIsInstance<Block>()[0]
.statements.filterIsInstance<VarDecl>()
val rhs1 = decl1.value as StringLiteral
val rhs2 = decl2.value as StringLiteral
val rhs3 = decl3.value as StringLiteral
rhs1.encoding shouldBe Encoding.PETSCII
rhs1.value shouldBe "Name"
rhs2.encoding shouldBe Encoding.SCREENCODES
rhs2.value shouldBe "Name"
rhs3.encoding shouldBe Encoding.ISO
rhs3.value shouldBe "Name"
}
}
context("Ranges") {
test("in for-loops") {
val module = parseModule(
SourceCode.Text("""
main {
sub start() {
ubyte ub
for ub in "start" downto "end" { ; #0
}
for ub in "something" { ; #1
}
for ub in sc:'a' to 'f' { ; #2
}
for ub in false to true { ; #3
}
for ub in 9 to 1 { ; #4 - yes, *parser* should NOT check!
}
}
}
"""))
val iterables = module
.statements.filterIsInstance<Block>()[0]
.statements.filterIsInstance<Subroutine>()[0]
.statements.filterIsInstance<ForLoop>()
.map { it.iterable }
iterables.size shouldBe 5
val it0 = iterables[0] as RangeExpression
it0.from shouldBe instanceOf<StringLiteral>()
it0.to shouldBe instanceOf<StringLiteral>()
val it1 = iterables[1] as StringLiteral
it1.value shouldBe "something"
val it2 = iterables[2] as RangeExpression
it2.from shouldBe instanceOf<CharLiteral>()
it2.to shouldBe instanceOf<CharLiteral>()
val it3 = iterables[3] as RangeExpression
it3.from shouldBe instanceOf<NumericLiteral>()
it3.to shouldBe instanceOf<NumericLiteral>()
val it4 = iterables[4] as RangeExpression
it4.from shouldBe instanceOf<NumericLiteral>()
it4.to shouldBe instanceOf<NumericLiteral>()
}
}
test("testCharLiteralConstValue") {
val char1 = CharLiteral('A', Encoding.PETSCII, Position.DUMMY)
val char2 = CharLiteral('z', Encoding.SCREENCODES, Position.DUMMY)
val char3 = CharLiteral('_', Encoding.ISO, Position.DUMMY)
val program = Program("test", DummyFunctions, DummyMemsizer, AsciiStringEncoder)
char1.constValue(program).number.toInt() shouldBe 65
char2.constValue(program).number.toInt() shouldBe 122
char3.constValue(program).number.toInt() shouldBe 95
}
test("testLiteralValueComparisons") {
val ten = NumericLiteral(DataType.UWORD, 10.0, Position.DUMMY)
val nine = NumericLiteral(DataType.UBYTE, 9.0, Position.DUMMY)
ten shouldBe ten
nine shouldNotBe ten
(ten != ten) shouldBe false
(ten != nine) shouldBe true
(ten > nine) shouldBe true
(ten >= nine) shouldBe true
(ten >= ten) shouldBe true
(ten > ten) shouldBe false
(ten < nine) shouldBe false
(ten <= nine) shouldBe false
(ten <= ten) shouldBe true
(ten < ten) shouldBe false
val abc = StringLiteral("abc", Encoding.PETSCII, Position.DUMMY)
val abd = StringLiteral("abd", Encoding.PETSCII, Position.DUMMY)
abc shouldBe abc
(abc!=abd) shouldBe true
(abc!=abc) shouldBe false
}
test("testAnonScopeStillContainsVarsDirectlyAfterParse") {
val src = SourceCode.Text("""
main {
sub start() {
repeat {
ubyte xx = 99
xx++
}
}
}
""")
val module = parseModule(src)
val mainBlock = module.statements.single() as Block
val start = mainBlock.statements.single() as Subroutine
val repeatbody = (start.statements.single() as RepeatLoop).body
withClue("no vars moved to main block") {
mainBlock.statements.any { it is VarDecl } shouldBe false
}
withClue("no vars moved to start sub") {
start.statements.any { it is VarDecl } shouldBe false
}
withClue("\"var is still in repeat block (anonymousscope") {
repeatbody.statements[0] shouldBe instanceOf<VarDecl>()
}
val initvalue = (repeatbody.statements[0] as VarDecl).value as? NumericLiteral
initvalue?.number?.toInt() shouldBe 99
repeatbody.statements[1] shouldBe instanceOf<PostIncrDecr>()
// the ast processing steps used in the compiler, will eventually move the var up to the containing scope (subroutine).
}
test("testLabelsWithAnonScopesParsesFine") {
val src = SourceCode.Text("""
main {
sub start() {
goto mylabeloutside
if true {
if true {
goto labeloutside
goto iflabel
}
iflabel:
}
repeat {
goto labelinside
labelinside:
}
labeloutside:
}
}
""")
val module = parseModule(src)
val mainBlock = module.statements.single() as Block
val start = mainBlock.statements.single() as Subroutine
val labels = start.statements.filterIsInstance<Label>()
labels.size shouldBe 1
}
test("logical operator 'not' priority") {
val src = SourceCode.Text("""
main {
sub start() {
ubyte xx
xx = not 4 and not 5
xx = not 4 or not 5
xx = not 4 xor not 5
}
}
""")
val module = parseModule(src)
val start = (module.statements.single() as Block).statements.single() as Subroutine
val andAssignmentExpr = (start.statements[1] as Assignment).value
val orAssignmentExpr = (start.statements[2] as Assignment).value
val xorAssignmentExpr = (start.statements[3] as Assignment).value
fun correctPrios(expr: Expression, operator: String) {
withClue("not should have higher prio as the other logical operators") {
expr shouldBe instanceOf<BinaryExpression>()
val binExpr = expr as BinaryExpression
binExpr.operator shouldBe operator
(binExpr.left as PrefixExpression).operator shouldBe "not"
(binExpr.right as PrefixExpression).operator shouldBe "not"
}
}
correctPrios(andAssignmentExpr, "and")
correctPrios(orAssignmentExpr, "or")
correctPrios(xorAssignmentExpr, "xor")
}
test("inferred type correct for binaryexpression") {
val src = SourceCode.Text("""
main {
ubyte bb
uword ww
bool bb2 = (3+bb) or (3333+ww) ; expression combining ubyte and uword
}
""")
val module = parseModule(src)
val program = Program("test", DummyFunctions, DummyMemsizer, DummyStringEncoder)
program.addModule(module)
val bb2 = (module.statements.single() as Block).statements[2] as VarDecl
val expr = bb2.value as BinaryExpression
println(expr)
expr.operator shouldBe "or"
expr.left.inferType(program).getOrElse { fail("dt") } shouldBe DataType.UBYTE
expr.right.inferType(program).getOrElse { fail("dt") } shouldBe DataType.UWORD
expr.inferType(program).getOrElse { fail("dt") } shouldBe DataType.BOOL
}
test("inferred type for typecasted expressions with logical operators") {
val src= SourceCode.Text("""
main {
ubyte bb
uword ww
uword qq = (not bb as uword)
uword zz = not bb or not ww
ubyte bb2 = not bb or not ww
uword zz2 = (not bb as uword) or not ww
}
""")
val module = parseModule(src)
val program = Program("test", DummyFunctions, DummyMemsizer, DummyStringEncoder)
program.addModule(module)
val stmts = (module.statements.single() as Block).statements
stmts.size shouldBe 6
val qq = (stmts[2] as VarDecl).value as TypecastExpression
val zz = (stmts[3] as VarDecl).value as BinaryExpression
val bb2 = (stmts[4] as VarDecl).value as BinaryExpression
val zz2 = (stmts[5] as VarDecl).value as BinaryExpression
qq.inferType(program).getOrElse { fail("dt") } shouldBe DataType.UWORD
zz.inferType(program).getOrElse { fail("dt") } shouldBe DataType.BOOL
bb2.inferType(program).getOrElse { fail("dt") } shouldBe DataType.BOOL
zz2.operator shouldBe "or"
val left = zz2.left as TypecastExpression
val right = zz2.right as PrefixExpression
left.inferType(program).getOrElse { fail("dt") } shouldBe DataType.UWORD
right.inferType(program).getOrElse { fail("dt") } shouldBe DataType.BOOL
zz2.inferType(program).getOrElse { fail("dt") } shouldBe DataType.BOOL
}
test("type cast from byte to ubyte as desired target type") {
val src = SourceCode.Text("""
main {
ubyte r
ubyte ub = (cos8(r)/2 + 100) as ubyte
}""")
val module = parseModule(src)
val program = Program("test", DummyFunctions, DummyMemsizer, DummyStringEncoder)
program.addModule(module)
val stmts = (module.statements.single() as Block).statements
stmts.size shouldBe 2
val ubexpr = (stmts[1] as VarDecl).value as TypecastExpression
ubexpr.inferType(program).getOrElse { fail("dt") } shouldBe DataType.UBYTE
}
test("assignment isAugmented correctness") {
val src = SourceCode.Text("""
main {
sub start() {
ubyte r
ubyte q
r = q*3 ; #1 no
r = r*3 ; #2 yes
r = 3*r ; #3 yes
r = 3*q ; #4 no
r = 5+r ; #5 yes
r = 5-r ; #6 no
r = r-5 ; #7 yes
r = not r ; #8 yes
r = not q ; #9 no
r = (q+r)+5 ; #10 yes
r = q+(r+5) ; #11 yes
r = (q+r)-5 ; #12 yes
r = q+(r-5) ; #13 yes
}
}""")
val module = parseModule(src)
val program = Program("test", DummyFunctions, DummyMemsizer, DummyStringEncoder)
program.addModule(module)
val stmts = program.entrypoint.statements
val expectedResults = listOf(
false, true, true,
false, true, false,
true, true, false,
true, true, true,
true
)
stmts.size shouldBe 15
expectedResults.size shouldBe stmts.size-2
for((idx, pp) in stmts.drop(2).zip(expectedResults).withIndex()) {
val assign = pp.first as Assignment
val expected = pp.second
withClue("#${idx+1}: should${if(expected) "" else "n't"} be augmentable: $assign") {
assign.isAugmentable shouldBe expected
assign.value shouldBe (instanceOf<PrefixExpression>() or instanceOf<BinaryExpression>() or instanceOf<TypecastExpression>())
}
}
}
test("test string x and u escape sequences") {
val text="""
main {
sub start() {
str string = "\x00\xff\u0041"
ubyte zero = '\x00'
ubyte ff = '\xff'
ubyte letter = '\u0041'
}
}
"""
val result = compileText(C64Target(), false, text, writeAssembly = false)!!
val start = result.program.entrypoint
val string = (start.statements[0] as VarDecl).value as StringLiteral
withClue("x-escapes are hacked to range 0x8000-0x80ff") {
string.value[0].code shouldBe 0x8000
string.value[1].code shouldBe 0x80ff
}
string.value[2].code shouldBe 65
val zero = start.statements[2] as Assignment
zero.value shouldBe NumericLiteral(DataType.UBYTE, 0.0, Position.DUMMY)
val ff = start.statements[4] as Assignment
ff.value shouldBe NumericLiteral(DataType.UBYTE, 255.0, Position.DUMMY)
val letter = start.statements[6] as Assignment
val encodedletter = PetsciiEncoding.encodePetscii("A", true).getOrElse { fail("petscii error") }.single()
letter.value shouldBe NumericLiteral(DataType.UBYTE, encodedletter.toDouble(), Position.DUMMY)
}
test("`in` containment checks") {
val text="""
main {
sub start() {
str string = "hello"
ubyte[] array = [1,2,3,4]
bool bb
ubyte cc
if cc in [' ', '@', 0] {
cx16.r0L++
}
if cc in "email" {
cx16.r0L++
}
bb = 99 in array
bb = '@' in string
}
}
"""
val result = compileText(C64Target(), false, text, writeAssembly = false)!!
val start = result.program.entrypoint
val containmentChecks = start.statements.takeLast(4)
(containmentChecks[0] as IfElse).condition shouldBe instanceOf<ContainmentCheck>()
(containmentChecks[1] as IfElse).condition shouldBe instanceOf<ContainmentCheck>()
(containmentChecks[2] as Assignment).value shouldBe instanceOf<ContainmentCheck>()
(containmentChecks[3] as Assignment).value shouldBe instanceOf<ContainmentCheck>()
}
test("invalid `in` containment checks") {
val text="""
main {
sub start() {
ubyte @shared cc
ubyte[] array = [1,2,3]
cc = 99 in 12345
cc = 9999 in array
}
}
"""
val errors = ErrorReporterForTests()
compileText(C64Target(), false, text, writeAssembly = false, errors = errors) shouldBe null
errors.errors.size shouldBe 2
errors.errors[0] shouldContain "must be a string or array"
errors.errors[1] shouldContain "datatype doesn't match"
}
test("vardecl options any order okay") {
val text="""
main {
%option force_output
sub start() {
ubyte @zp @shared @requirezp var1
ubyte @shared @zp var2
ubyte @zp var3
ubyte @shared var4
ubyte @requirezp var5
ubyte var6
}
}
"""
val result = compileText(C64Target(), false, text, writeAssembly = false)!!
val stmt = result.program.entrypoint.statements
stmt.size shouldBe 12
val var1 = stmt[0] as VarDecl
var1.sharedWithAsm shouldBe true
var1.zeropage shouldBe ZeropageWish.REQUIRE_ZEROPAGE
val var2 = stmt[2] as VarDecl
var2.sharedWithAsm shouldBe true
var2.zeropage shouldBe ZeropageWish.PREFER_ZEROPAGE
val var3 = stmt[4] as VarDecl
var3.sharedWithAsm shouldBe false
var3.zeropage shouldBe ZeropageWish.PREFER_ZEROPAGE
val var4 = stmt[6] as VarDecl
var4.sharedWithAsm shouldBe true
var4.zeropage shouldBe ZeropageWish.DONTCARE
val var5 = stmt[8] as VarDecl
var5.sharedWithAsm shouldBe false
var5.zeropage shouldBe ZeropageWish.REQUIRE_ZEROPAGE
val var6 = stmt[10] as VarDecl
var6.sharedWithAsm shouldBe false
var6.zeropage shouldBe ZeropageWish.DONTCARE
}
})
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