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better detection of duplicate variable definitions
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commit
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@ -15,6 +15,7 @@ internal class BeforeAsmGenerationAstChanger(val program: Program, val errors: E
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private val noModifications = emptyList<IAstModification>()
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override fun after(decl: VarDecl, parent: Node): Iterable<IAstModification> {
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subroutineVariables.add(Pair(decl.name, decl))
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if (decl.value == null && !decl.autogeneratedDontRemove && decl.type == VarDeclType.VAR && decl.datatype in NumericDatatypes) {
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// a numeric vardecl without an initial value is initialized with zero.
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decl.value = decl.zeroElementValue()
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@ -41,36 +42,47 @@ internal class BeforeAsmGenerationAstChanger(val program: Program, val errors: E
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return noModifications
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}
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private val subroutineVariables = mutableListOf<Pair<String, VarDecl>>()
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override fun before(subroutine: Subroutine, parent: Node): Iterable<IAstModification> {
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subroutineVariables.clear()
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return noModifications
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}
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override fun after(scope: AnonymousScope, parent: Node): Iterable<IAstModification> {
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val decls = scope.statements.filterIsInstance<VarDecl>()
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subroutineVariables.addAll(decls.map { Pair(it.name, it) })
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val sub = scope.definingSubroutine()
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if (sub != null) {
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val existingVariables = sub.statements.filterIsInstance<VarDecl>().associateBy { it.name }
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var conflicts = false
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decls.forEach {
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val existing = existingVariables[it.name]
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if (existing != null) {
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errors.err("variable ${it.name} already defined in subroutine ${sub.name} at ${existing.position}", it.position)
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conflicts = true
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}
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}
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if (!conflicts) {
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// move vardecls of the scope into the upper scope. Make sure the position remains the same!
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val numericVarsWithValue = decls.filter { it.value != null && it.datatype in NumericDatatypes }
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return numericVarsWithValue.map {
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val replaceVardecls =numericVarsWithValue.map {
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val initValue = it.value!! // assume here that value has always been set by now
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it.value = null // make sure no value init assignment for this vardecl will be created later (would be superfluous)
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val target = AssignTarget(IdentifierReference(listOf(it.name), it.position), null, null, it.position)
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val assign = Assignment(target, initValue, it.position)
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initValue.parent = assign
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IAstModification.ReplaceNode(it, assign, scope)
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} + decls.map { IAstModification.InsertFirst(it, sub) } // move it up to the subroutine
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}
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val moveVardeclsUp = decls.map { IAstModification.InsertFirst(it, sub) }
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return replaceVardecls + moveVardeclsUp
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}
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return noModifications
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}
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override fun after(subroutine: Subroutine, parent: Node): Iterable<IAstModification> {
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val firstDeclarations = mutableMapOf<String, VarDecl>()
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for(decl in subroutineVariables) {
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val existing = firstDeclarations[decl.first]
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if(existing!=null && existing !== decl.second) {
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errors.err("variable ${decl.first} already defined in subroutine ${subroutine.name} at ${existing.position}", decl.second.position)
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} else {
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firstDeclarations[decl.first] = decl.second
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}
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}
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// add the implicit return statement at the end (if it's not there yet), but only if it's not a kernel routine.
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// and if an assembly block doesn't contain a rts/rti, and some other situations.
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val mods = mutableListOf<IAstModification>()
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@ -82,7 +82,7 @@ main {
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ubyte @zp i
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for i in len(edgesFrom) -1 downto 0 {
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ubyte @zp vFrom = edgesFrom[i]
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ubyte @zp vTo = edgesTo[i] ; TODO need compiler error for double declaration if also declared outside the for loop!
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ubyte @zp vTo = edgesTo[i]
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word @zp persp1 = 256 + rotatedz[vFrom]/256
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word @zp persp2 = 256 + rotatedz[vTo]/256
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graphics.line(rotatedx[vFrom] / persp1 + screen_width/2 as uword,
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