prog8/compiler/test/ast/TestVariousCompilerAst.kt

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package prog8tests.ast
import io.kotest.core.spec.style.FunSpec
import io.kotest.matchers.shouldBe
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import io.kotest.matchers.shouldNotBe
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import io.kotest.matchers.string.shouldContain
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import io.kotest.matchers.string.shouldEndWith
import io.kotest.matchers.types.instanceOf
import prog8.ast.IFunctionCall
import prog8.ast.expressions.*
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import prog8.ast.statements.*
import prog8.code.ast.*
import prog8.code.core.DataType
import prog8.code.core.Position
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import prog8.code.target.C64Target
import prog8.code.target.Cx16Target
import prog8.code.target.VMTarget
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import prog8tests.helpers.ErrorReporterForTests
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import prog8tests.helpers.compileText
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class TestVariousCompilerAst: FunSpec({
test("symbol names in inline assembly blocks") {
val names1 = InlineAssembly("""
""", false, Position.DUMMY).names
names1 shouldBe emptySet()
val names2 = InlineAssembly("""
label: lda #<value
sta ${'$'}ea
sta 123
label2:
sta othervalue ; but not these in the comments
; also not these
;; ...or these
// valid words 123456
""", false, Position.DUMMY).names
names2 shouldBe setOf("label", "lda", "sta", "ea", "value", "label2", "othervalue", "valid", "words")
}
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test("array literals") {
val text="""
%zeropage basicsafe
main {
sub start() {
ubyte b1
ubyte b2
ubyte[] array1 = [1,2,3]
ubyte[] array2 = [9,8,7]
uword[] @shared addresses1 = [&b1, &b2]
uword[] @shared addresses2 = [array1, array2]
uword[] @shared addresses3 = [&array1, &array2]
uword[] @shared addresses4 = ["string1", "string2"]
uword[] @shared addresses5 = [1111, 2222]
}
}"""
compileText(C64Target(), false, text, writeAssembly = true) shouldNotBe null
}
test("array init size mismatch error") {
val text="""
main {
sub start() {
ubyte[10] uba = [1,2,3]
bool[10] bba = [true, false, true]
}
}"""
val errors = ErrorReporterForTests()
compileText(C64Target(), false, text, writeAssembly = false, errors = errors) shouldBe null
errors.errors.size shouldBe 2
errors.errors[0] shouldContain "size mismatch"
errors.errors[1] shouldContain "size mismatch"
}
test("invalid && operator") {
val text="""
main {
sub start() {
uword b1
uword b2
uword b3 = b1 && b2 ; invalid syntax: '&&' is not an operator, 'and' should be used instead
}
}"""
compileText(C64Target(), false, text, writeAssembly = false) shouldBe null
}
test("string comparisons") {
val src="""
main {
sub start() {
str name = "name"
uword nameptr = &name
bool result
result = name=="foo"
result = name!="foo"
result = name<"foo"
result = name>"foo"
result = nameptr=="foo"
result = nameptr!="foo"
result = nameptr<"foo"
result = nameptr>"foo"
void compare(name, "foo")
void compare(name, "name")
void compare(nameptr, "foo")
void compare(nameptr, "name")
}
sub compare(str s1, str s2) -> ubyte {
if s1==s2
return 42
return 0
}
}"""
val result = compileText(C64Target(), optimize=false, src, writeAssembly=true)!!
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val stmts = result.compilerAst.entrypoint.statements
stmts.size shouldBe 17
val result2 = compileText(VMTarget(), optimize=false, src, writeAssembly=true)!!
val stmts2 = result2.compilerAst.entrypoint.statements
stmts2.size shouldBe 17
}
test("string concatenation and repeats") {
val src="""
main {
sub start() {
str @shared name = "part1" + "part2"
str @shared rept = "rep"*4
const ubyte times = 3
name = "xx1" + "xx2"
rept = "xyz" * (times+1)
}
}"""
val result = compileText(C64Target(), optimize=false, src, writeAssembly=true)!!
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val stmts = result.compilerAst.entrypoint.statements
stmts.size shouldBe 6
val name1 = stmts[0] as VarDecl
val rept1 = stmts[1] as VarDecl
(name1.value as StringLiteral).value shouldBe "part1part2"
(rept1.value as StringLiteral).value shouldBe "reprepreprep"
val name2strcopy = stmts[3] as IFunctionCall
val rept2strcopy = stmts[4] as IFunctionCall
val name2 = name2strcopy.args.first() as IdentifierReference
val rept2 = rept2strcopy.args.first() as IdentifierReference
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(name2.targetVarDecl(result.compilerAst)!!.value as StringLiteral).value shouldBe "xx1xx2"
(rept2.targetVarDecl(result.compilerAst)!!.value as StringLiteral).value shouldBe "xyzxyzxyzxyz"
}
test("pointervariable indexing allowed with >255") {
val src="""
main {
sub start() {
uword pointer = ${'$'}2000
@(pointer+${'$'}1000) = 123
ubyte @shared ub = @(pointer+${'$'}1000)
pointer[${'$'}1000] = 99
ub = pointer[${'$'}1000]
uword index = ${'$'}1000
pointer[index] = 55
ub = pointer[index]
}
}"""
compileText(C64Target(), optimize=false, src, writeAssembly=false) shouldNotBe null
}
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test("bitshift left of const byte not converted to word") {
val src="""
main {
sub start() {
ubyte shift = 10
uword value = 1<<shift
value++
value = 1<<shift
value++
}
}"""
val result = compileText(C64Target(), optimize=false, src, writeAssembly=false)!!
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val stmts = result.compilerAst.entrypoint.statements
stmts.size shouldBe 7
val assign1expr = (stmts[3] as Assignment).value as BinaryExpression
val assign2expr = (stmts[5] as Assignment).value as BinaryExpression
assign1expr.operator shouldBe "<<"
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val leftval1 = assign1expr.left.constValue(result.compilerAst)!!
leftval1.type shouldBe DataType.UWORD
leftval1.number shouldBe 1.0
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val leftval2 = assign2expr.left.constValue(result.compilerAst)!!
leftval2.type shouldBe DataType.UWORD
leftval2.number shouldBe 1.0
}
test("hoisting vars with complex initializer expressions to outer scope") {
val src="""
main {
sub pget(uword @zp x, uword y) -> ubyte {
return lsb(x+y)
}
sub start() {
uword[128] YY
ubyte[] ARRAY = [1, 5, 2]
repeat {
bool pixel_side1 = pget(2, YY[2]+1) in ARRAY
bool pixel_side2 = pget(2, 2) in ARRAY
ubyte[] array2 = [1,2,3]
}
}
}"""
val result = compileText(C64Target(), optimize=false, src, writeAssembly=false)!!
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val stmts = result.compilerAst.entrypoint.statements
stmts.size shouldBe 9
}
test("alternative notation for negative containment check") {
val src="""
main {
sub start() {
ubyte[] array=[1,2,3]
bool result
result = not (3 in array)
result = 3 not in array
}
}
"""
val result = compileText(C64Target(), optimize=false, src, writeAssembly=false)!!
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val stmts = result.compilerAst.entrypoint.statements
stmts.size shouldBe 4
val value1 = (stmts[2] as Assignment).value as PrefixExpression
val value2 = (stmts[3] as Assignment).value as PrefixExpression
value1.operator shouldBe "not"
value2.operator shouldBe "not"
value1.expression shouldBe instanceOf<ContainmentCheck>()
value2.expression shouldBe instanceOf<ContainmentCheck>()
}
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test("unroll good") {
val src="""
main {
sub start() {
unroll 200 {
cx16.r0++
poke(2000,2)
}
}
}
"""
val errors = ErrorReporterForTests(keepMessagesAfterReporting = true)
compileText(C64Target(), optimize=false, src, writeAssembly=false, errors=errors) shouldNotBe null
errors.warnings.size shouldBe 1
errors.warnings[0] shouldContain "large number of unrolls"
}
test("unroll bad") {
val src="""
main {
sub start() {
repeat {
unroll 80 {
cx16.r0++
when cx16.r0 {
1 -> cx16.r0++
else -> cx16.r0++
}
break
}
}
}
}
"""
val errors = ErrorReporterForTests()
compileText(C64Target(), optimize=false, src, writeAssembly=false, errors = errors) shouldBe null
errors.errors.size shouldBe 2
errors.errors[0] shouldContain "invalid statement in unroll loop"
errors.errors[1] shouldContain "invalid statement in unroll loop"
}
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test("various curly brace styles") {
val src="""
main
{
sub start()
{
ubyte @shared variable=55
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when variable
{
33 -> cx16.r0++
else -> cx16.r1++
}
if variable!=0 {
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cx16.r0++
} else {
cx16.r1++
}
if variable!=0 { cx16.r0++ }
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else { cx16.r1++ }
if variable!=0
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{
cx16.r0++
}
else
{
cx16.r1++
}
other.othersub()
}
}
other {
sub othersub() {
cx16.r0++
}
}"""
compileText(VMTarget(), optimize=false, src, writeAssembly=false) shouldNotBe null
}
test("returning array as uword") {
val src = """
main {
sub start() {
cx16.r0 = getarray()
}
sub getarray() -> uword {
return [11,22,33]
}
}"""
compileText(VMTarget(), optimize=false, src, writeAssembly=false) shouldNotBe null
}
test("when on booleans") {
val src = """
main
{
sub start()
{
bool choiceVariable=true
when choiceVariable {
false -> cx16.r0++
true -> cx16.r1++
}
}
}"""
val errors = ErrorReporterForTests()
compileText(VMTarget(), optimize=false, src, writeAssembly=false, errors = errors) shouldBe null
errors.errors.size shouldBe 1
errors.errors[0] shouldContain "use if"
}
test("char as str param is error") {
val src = """
main {
sub start() {
print('@')
}
sub print(str message) {
}
}"""
val errors = ErrorReporterForTests()
compileText(VMTarget(), optimize=false, src, writeAssembly=false, errors = errors) shouldBe null
errors.errors.single() shouldContain "cannot use byte value"
}
test("sizeof number const evaluation in vardecl") {
val src="""
main {
sub start() {
uword @shared size1 = sizeof(22222)
uword @shared size2 = sizeof(2.2)
}
}"""
compileText(VMTarget(), optimize=false, src, writeAssembly=false) shouldNotBe null
}
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test("multi-var decls in scope with initializer") {
val src="""
main {
sub start() {
ubyte w
for w in 0 to 20 {
ubyte @zp x,y,z=13
ubyte q,r,s
x++
y++
z++
}
}
}"""
val result = compileText(VMTarget(), optimize = false, src, writeAssembly = false)!!
val st = result.compilerAst.entrypoint.statements
/*
sub start () {
ubyte s
s = 0
ubyte r
r = 0
ubyte q
q = 0
ubyte @zp z
ubyte @zp y
ubyte @zp x
ubyte w
for w in 0 to 20 step 1 {
z = 13
y = 13
x = 13
x++
y++
z++
}
}
*/
val vars = st.filterIsInstance<VarDecl>()
vars.size shouldBe 7
vars.all { it.names.size<=1 } shouldBe true
vars.map { it.name }.toSet() shouldBe setOf("s","r","q","z","y","x","w")
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val forloop = st.single { it is ForLoop } as ForLoop
forloop.body.statements[0] shouldBe instanceOf<Assignment>()
forloop.body.statements[1] shouldBe instanceOf<Assignment>()
forloop.body.statements[2] shouldBe instanceOf<Assignment>()
}
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test("'not in' operator parsing") {
val src="""
main {
sub start() {
str test = "test"
bool @shared insync
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if not insync
insync=true
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if insync not in test
insync=true
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}
}"""
compileText(VMTarget(), optimize=false, src, writeAssembly=false) shouldNotBe null
}
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test("no chained comparison modifying expression semantics") {
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val src="""
main {
sub start() {
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ubyte @shared n=20
ubyte @shared x=10
bool @shared result1, result2
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if n < x {
; nothing here, conditional gets inverted
} else {
cx16.r0++
}
result1 = n<x == false
result2 = not n<x
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}
}"""
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val result=compileText(VMTarget(), optimize=true, src, writeAssembly=false)!!
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val st = result.compilerAst.entrypoint.statements
st.size shouldBe 11
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val ifCond = (st[8] as IfElse).condition as BinaryExpression
ifCond.operator shouldBe ">="
(ifCond.left as IdentifierReference).nameInSource shouldBe listOf("n")
(ifCond.right as IdentifierReference).nameInSource shouldBe listOf("x")
val assign1 = (st[9] as Assignment).value as BinaryExpression
val assign2 = (st[10] as Assignment).value as BinaryExpression
assign1.operator shouldBe ">="
(assign1.left as IdentifierReference).nameInSource shouldBe listOf("n")
(assign1.right as IdentifierReference).nameInSource shouldBe listOf("x")
assign2.operator shouldBe ">="
(assign1.left as IdentifierReference).nameInSource shouldBe listOf("n")
(assign1.right as IdentifierReference).nameInSource shouldBe listOf("x")
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}
test("modulo is not directive") {
val src="""
main {
sub start() {
ubyte bb1 = 199
ubyte bb2 = 12
ubyte @shared bb3 = bb1%bb2
}
}"""
val result=compileText(Cx16Target(), optimize=false, src, writeAssembly=false)!!
val st = result.compilerAst.entrypoint.statements
st.size shouldBe 6
val value = (st[5] as Assignment).value as BinaryExpression
value.operator shouldBe "%"
}
test("isSame on binary expressions") {
val left1 = NumericLiteral.optimalInteger(1, Position.DUMMY)
val right1 = NumericLiteral.optimalInteger(2, Position.DUMMY)
val expr1 = BinaryExpression(left1, "/", right1, Position.DUMMY)
val left2 = NumericLiteral.optimalInteger(1, Position.DUMMY)
val right2 = NumericLiteral.optimalInteger(2, Position.DUMMY)
val expr2 = BinaryExpression(left2, "/", right2, Position.DUMMY)
(expr1 isSameAs expr2) shouldBe true
val left3 = NumericLiteral.optimalInteger(2, Position.DUMMY)
val right3 = NumericLiteral.optimalInteger(1, Position.DUMMY)
val expr3 = BinaryExpression(left3, "/", right3, Position.DUMMY)
(expr1 isSameAs expr3) shouldBe false
}
test("isSame on binary expressions with associative operators") {
val left1 = NumericLiteral.optimalInteger(1, Position.DUMMY)
val right1 = NumericLiteral.optimalInteger(2, Position.DUMMY)
val expr1 = BinaryExpression(left1, "+", right1, Position.DUMMY)
val left2 = NumericLiteral.optimalInteger(1, Position.DUMMY)
val right2 = NumericLiteral.optimalInteger(2, Position.DUMMY)
val expr2 = BinaryExpression(left2, "+", right2, Position.DUMMY)
(expr1 isSameAs expr2) shouldBe true
val left3 = NumericLiteral.optimalInteger(2, Position.DUMMY)
val right3 = NumericLiteral.optimalInteger(1, Position.DUMMY)
val expr3 = BinaryExpression(left3, "+", right3, Position.DUMMY)
(expr1 isSameAs expr3) shouldBe true
}
test("mkword insertion with signed values gets correct type cast") {
val src = """
main {
sub start() {
byte[10] @shared bottom
byte @shared col = 20
col++
ubyte @shared ubb = lsb(col as uword)
uword @shared vaddr = bottom[cx16.r0L] as uword << 8 ; a mkword will get inserted here
}
}"""
val result = compileText(VMTarget(), optimize=true, src, writeAssembly=false)!!
val st = result.compilerAst.entrypoint.statements
st.size shouldBe 8
val assignUbb = ((st[5] as Assignment).value as TypecastExpression)
assignUbb.type shouldBe DataType.UBYTE
assignUbb.expression shouldBe instanceOf<IdentifierReference>()
val assignVaddr = (st[7] as Assignment).value as FunctionCallExpression
assignVaddr.target.nameInSource shouldBe listOf("mkword")
val tc = assignVaddr.args[0] as TypecastExpression
tc.type shouldBe DataType.UBYTE
tc.expression shouldBe instanceOf<ArrayIndexedExpression>()
}
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test("multi vardecls smart desugaring") {
val src="""
main {
sub start() {
ubyte @shared x,y,z
ubyte @shared k,l,m = 42
uword @shared r,s,t = sys.progend()
}
}"""
val result = compileText(Cx16Target(), optimize=true, src, writeAssembly=false)!!
val st = result.compilerAst.entrypoint.statements
st.size shouldBe 18
st[0] shouldBe instanceOf<VarDecl>() // x
st[2] shouldBe instanceOf<VarDecl>() // y
st[4] shouldBe instanceOf<VarDecl>() // z
st[6] shouldBe instanceOf<VarDecl>() // k
st[8] shouldBe instanceOf<VarDecl>() // l
st[10] shouldBe instanceOf<VarDecl>() // m
st[12] shouldBe instanceOf<VarDecl>() // r
st[14] shouldBe instanceOf<VarDecl>() // s
st[16] shouldBe instanceOf<VarDecl>() // t
val valX = (st[1] as Assignment).value
(valX as NumericLiteral).number shouldBe 0.0
val valY = (st[3] as Assignment).value
(valY as NumericLiteral).number shouldBe 0.0
val valZ = (st[5] as Assignment).value
(valZ as NumericLiteral).number shouldBe 0.0
val valK = (st[7] as Assignment).value
(valK as NumericLiteral).number shouldBe 42.0
val valL = (st[9] as Assignment).value
(valL as NumericLiteral).number shouldBe 42.0
val valM = (st[11] as Assignment).value
(valM as NumericLiteral).number shouldBe 42.0
val valR = (st[13] as Assignment).value
(valR as FunctionCallExpression).target.nameInSource shouldBe listOf("sys", "progend")
val valS = (st[15] as Assignment).value
(valS as IdentifierReference).nameInSource shouldBe listOf("r")
val valT = (st[17] as Assignment).value
(valT as IdentifierReference).nameInSource shouldBe listOf("r")
}
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test("various multi var decl symbol lookups") {
val src="""
main {
sub start() {
uword @shared a,b
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b = a
cx16.r1L = lsb(a)
funcw(a)
funcb(lsb(a))
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}
sub funcw(uword arg) {
arg++
}
sub funcb(ubyte arg) {
arg++
}
}"""
compileText(Cx16Target(), false, src) shouldNotBe null
}
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test("void assignment is invalid") {
val src="""
main {
romsub $2000 = multi() -> ubyte @A, ubyte @Y
romsub $3000 = single() -> ubyte @A
sub start() {
void, void = multi() ; ok
cx16.r0L, void = multi() ; ok
void, cx16.r0L = multi() ; ok
void multi() ; ok
void single() ; ok
void = 3333 ; fail!
void = single() ; fail!
void = multi() ; fail!
}
}"""
val errors = ErrorReporterForTests()
compileText(C64Target(), optimize=false, src, writeAssembly=true, errors = errors) shouldBe null
errors.errors.size shouldBe 3
errors.errors[0] shouldEndWith "cannot assign to 'void'"
errors.errors[1] shouldEndWith "cannot assign to 'void', perhaps a void function call was intended"
errors.errors[2] shouldEndWith "cannot assign to 'void', perhaps a void function call was intended"
}
test("missing return value is a syntax error") {
val src="""
main {
sub start() {
cx16.r0 = runit1()
cx16.r1 = runit2()
}
sub runit1() -> uword {
repeat {
cx16.r0++
goto runit1
}
}
sub runit2() -> uword {
cx16.r0++
}
}"""
val errors = ErrorReporterForTests()
compileText(C64Target(), optimize=false, src, writeAssembly=false, errors = errors) shouldBe null
errors.errors.size shouldBe 2
errors.errors[0] shouldContain "has result value"
errors.errors[1] shouldContain "has result value"
}
test("missing return value is not a syntax error if there's an external goto") {
val src="""
main {
sub start() {
cx16.r0 = runit1()
runit2()
}
sub runit1() -> uword {
repeat {
cx16.r0++
goto runit2
}
}
sub runit2() {
cx16.r0++
}
}"""
compileText(C64Target(), optimize=false, src, writeAssembly=false) shouldNotBe null
}
test("defer syntactic sugaring") {
val src="""
main {
sub start() {
void test()
}
sub test() -> uword {
defer {
cx16.r0++
cx16.r1++
}
if cx16.r0==0
return cx16.r0+cx16.r1
defer cx16.r2++
}
}"""
val result = compileText(Cx16Target(), optimize=true, src, writeAssembly=true)!!
val main = result.codegenAst!!.allBlocks().single {it.name=="p8b_main"}
val sub = main.children[1] as PtSub
sub.scopedName shouldBe "p8b_main.p8s_test"
// check the desugaring of the defer statements
(sub.children[0] as PtVariable).name shouldBe "p8v_prog8_defers_mask"
val ifelse = sub.children[3] as PtIfElse
val ifscope = ifelse.ifScope.children[0] as PtNodeGroup
val ifscope_push = ifscope.children[0] as PtFunctionCall
val ifscope_defer = ifscope.children[1] as PtFunctionCall
val ifscope_return = ifscope.children[2] as PtReturn
ifscope_defer.name shouldBe "p8b_main.p8s_test.p8s_prog8_invoke_defers"
ifscope_push.name shouldBe "sys.pushw"
(ifscope_return.value as PtFunctionCall).name shouldBe "sys.popw"
val ending = sub.children[5] as PtFunctionCall
ending.name shouldBe "p8b_main.p8s_test.p8s_prog8_invoke_defers"
sub.children[6] shouldBe instanceOf<PtReturn>()
val handler = sub.children[7] as PtSub
handler.name shouldBe "p8s_prog8_invoke_defers"
}
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test("aliases ok") {
val src="""
main {
alias print = txt.print
alias width = txt.DEFAULT_WIDTH
sub start() {
alias print2 = txt.print
alias width2 = txt.DEFAULT_WIDTH
print("one")
print2("two")
txt.print_ub(width)
txt.print_ub(width2)
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; chained aliases
alias chained = print2
chained("chained")
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}
}
txt {
const ubyte DEFAULT_WIDTH = 80
sub print_ub(ubyte value) {
; nothing
}
sub print(str msg) {
; nothing
}
}
"""
compileText(C64Target(), optimize=false, src, writeAssembly=false) shouldNotBe null
}
test("wrong alias gives correct error") {
val src="""
main {
alias print = txt.print2222
alias width = txt.DEFAULT_WIDTH
sub start() {
alias print2 = txt.print
alias width2 = txt.DEFAULT_WIDTH_XXX
print("one")
print2("two")
txt.print_ub(width)
txt.print_ub(width2)
}
}
txt {
const ubyte DEFAULT_WIDTH = 80
sub print_ub(ubyte value) {
; nothing
}
sub print(str msg) {
; nothing
}
}
"""
val errors = ErrorReporterForTests()
compileText(C64Target(), optimize=false, src, writeAssembly=false, errors=errors) shouldBe null
errors.errors.size shouldBe 2
errors.errors[0] shouldContain "undefined symbol: txt.print2222"
errors.errors[1] shouldContain "undefined symbol: txt.DEFAULT_WIDTH_XXX"
}
test("split arrays back to normal when address is taken") {
val src="""
main {
sub start() {
cx16.r0L=0
if cx16.r0L==0 {
uword[] addresses = [scores2, start]
uword[] @split scores1 = [10, 25, 50, 100]
uword[] @split scores2 = [100, 250, 500, 1000]
cx16.r0 = &scores1
cx16.r1 = &scores2
cx16.r2 = &addresses
}
}
}"""
val errors = ErrorReporterForTests(keepMessagesAfterReporting = true)
compileText(C64Target(), optimize=false, src, writeAssembly=true, errors=errors) shouldNotBe null
errors.errors.size shouldBe 0
errors.warnings.size shouldBe 2
errors.warnings[0] shouldContain("address")
errors.warnings[1] shouldContain("address")
errors.warnings[0] shouldContain("split")
errors.warnings[1] shouldContain("split")
}
})