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only allow array indexing via a number, or a variable (eliminate complex expression calcs for array indexing, force explicit use of an index variable)

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This commit is contained in:
Irmen de Jong 2020-10-17 16:00:49 +02:00
parent 1f55f9fc49
commit 7626c9fff7
19 changed files with 440 additions and 528 deletions
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9
compiler/res/prog8lib/cx16/textio.p8
View File

@ -134,13 +134,16 @@ _la lda #0 ; modified
ubyte[16] color_to_charcode = [$90,$05,$1c,$9f,$9c,$1e,$1f,$9e,$81,$95,$96,$97,$98,$99,$9a,$9b]
sub color (ubyte txtcol) {
c64.CHROUT(color_to_charcode[txtcol & 15])
txtcol &= 15
c64.CHROUT(color_to_charcode[txtcol])
}
sub color2 (ubyte txtcol, ubyte bgcol) {
c64.CHROUT(color_to_charcode[bgcol & 15])
txtcol &= 15
bgcol &= 15
c64.CHROUT(color_to_charcode[bgcol])
c64.CHROUT(1) ; switch fg and bg colors
c64.CHROUT(color_to_charcode[txtcol & 15])
c64.CHROUT(color_to_charcode[txtcol])
}
sub lowercase() {

3
compiler/res/prog8lib/diskio.p8
View File

@ -151,7 +151,8 @@ io_error:
filename[0] = 'r'
filename[1] = ':'
memcopy(newfileptr, &filename+2, flen_new)
filename[flen_new+2] = '='
ubyte fis_ix = flen_new+2 ; TODO is temp var for array indexing
filename[fis_ix] = '='
memcopy(oldfileptr, &filename+3+flen_new, flen_old+1)
c64.SETNAM(3+flen_new+flen_old, filename)
c64.SETLFS(1, drivenumber, 15)

8
compiler/src/prog8/ast/AstToSourceCode.kt
View File

@ -121,7 +121,8 @@ class AstToSourceCode(val output: (text: String) -> Unit, val program: Program):
output(datatypeString(decl.datatype))
if(decl.arraysize!=null) {
decl.arraysize!!.index.accept(this)
decl.arraysize!!.indexNum?.accept(this)
decl.arraysize!!.indexVar?.accept(this)
}
if(decl.isArray)
output("]")
@ -352,9 +353,10 @@ class AstToSourceCode(val output: (text: String) -> Unit, val program: Program):
}
override fun visit(arrayIndexedExpression: ArrayIndexedExpression) {
arrayIndexedExpression.identifier.accept(this)
arrayIndexedExpression.arrayvar.accept(this)
output("[")
arrayIndexedExpression.arrayspec.index.accept(this)
arrayIndexedExpression.indexer.indexNum?.accept(this)
arrayIndexedExpression.indexer.indexVar?.accept(this)
output("]")
}

21
compiler/src/prog8/ast/expressions/AstExpressions.kt
View File

@ -41,8 +41,8 @@ sealed class Expression: Node {
&& other.left isSameAs left
&& other.right isSameAs right)
is ArrayIndexedExpression -> {
(other is ArrayIndexedExpression && other.identifier.nameInSource == identifier.nameInSource
&& other.arrayspec.index isSameAs arrayspec.index)
(other is ArrayIndexedExpression && other.arrayvar.nameInSource == arrayvar.nameInSource
&& other.indexer isSameAs indexer)
}
is DirectMemoryRead -> {
(other is DirectMemoryRead && other.addressExpression isSameAs addressExpression)
@ -232,20 +232,19 @@ class BinaryExpression(var left: Expression, var operator: String, var right: Ex
}
}
class ArrayIndexedExpression(var identifier: IdentifierReference,
val arrayspec: ArrayIndex,
class ArrayIndexedExpression(var arrayvar: IdentifierReference,
val indexer: ArrayIndex,
override val position: Position) : Expression(), IAssignable {
override lateinit var parent: Node
override fun linkParents(parent: Node) {
this.parent = parent
identifier.linkParents(this)
arrayspec.linkParents(this)
arrayvar.linkParents(this)
indexer.linkParents(this)
}
override fun replaceChildNode(node: Node, replacement: Node) {
when {
node===identifier -> identifier = replacement as IdentifierReference
node===arrayspec.index -> arrayspec.index = replacement as Expression
node===arrayvar -> arrayvar = replacement as IdentifierReference
else -> throw FatalAstException("invalid replace")
}
replacement.parent = this
@ -255,10 +254,10 @@ class ArrayIndexedExpression(var identifier: IdentifierReference,
override fun accept(visitor: IAstVisitor) = visitor.visit(this)
override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
override fun referencesIdentifier(vararg scopedName: String) = identifier.referencesIdentifier(*scopedName)
override fun referencesIdentifier(vararg scopedName: String) = arrayvar.referencesIdentifier(*scopedName)
override fun inferType(program: Program): InferredTypes.InferredType {
val target = identifier.targetStatement(program.namespace)
val target = arrayvar.targetStatement(program.namespace)
if (target is VarDecl) {
return when (target.datatype) {
DataType.STR -> InferredTypes.knownFor(DataType.UBYTE)
@ -270,7 +269,7 @@ class ArrayIndexedExpression(var identifier: IdentifierReference,
}
override fun toString(): String {
return "ArrayIndexed(ident=$identifier, arraysize=$arrayspec; pos=$position)"
return "ArrayIndexed(ident=$arrayvar, arraysize=$indexer; pos=$position)"
}
}

47
compiler/src/prog8/ast/processing/AstChecker.kt
View File

@ -120,11 +120,6 @@ internal class AstChecker(private val program: Program,
if(loopvar==null || loopvar.type== VarDeclType.CONST) {
errors.err("for loop requires a variable to loop with", forLoop.position)
} else {
fun checkLoopRangeValues() {
}
when (loopvar.datatype) {
DataType.UBYTE -> {
if(iterableDt!= DataType.UBYTE && iterableDt!= DataType.ARRAY_UB && iterableDt != DataType.STR)
@ -475,7 +470,7 @@ internal class AstChecker(private val program: Program,
fun err(msg: String, position: Position?=null) = errors.err(msg, position ?: decl.position)
// the initializer value can't refer to the variable itself (recursive definition)
if(decl.value?.referencesIdentifier(decl.name) == true || decl.arraysize?.index?.referencesIdentifier(decl.name) == true)
if(decl.value?.referencesIdentifier(decl.name) == true || decl.arraysize?.indexVar?.referencesIdentifier(decl.name) == true)
err("recursive var declaration")
// CONST can only occur on simple types (byte, word, float)
@ -1013,7 +1008,7 @@ internal class AstChecker(private val program: Program,
}
}
} else if(postIncrDecr.target.arrayindexed != null) {
val target = postIncrDecr.target.arrayindexed?.identifier?.targetStatement(program.namespace)
val target = postIncrDecr.target.arrayindexed?.arrayvar?.targetStatement(program.namespace)
if(target==null) {
errors.err("undefined symbol", postIncrDecr.position)
}
@ -1028,32 +1023,41 @@ internal class AstChecker(private val program: Program,
}
override fun visit(arrayIndexedExpression: ArrayIndexedExpression) {
val target = arrayIndexedExpression.identifier.targetStatement(program.namespace)
val target = arrayIndexedExpression.arrayvar.targetStatement(program.namespace)
if(target is VarDecl) {
if(target.datatype !in IterableDatatypes)
errors.err("indexing requires an iterable variable", arrayIndexedExpression.position)
val arraysize = target.arraysize?.constIndex()
if(arraysize!=null) {
// check out of bounds
val index = (arrayIndexedExpression.arrayspec.index as? NumericLiteralValue)?.number?.toInt()
val index = arrayIndexedExpression.indexer.constIndex()
if(index!=null && (index<0 || index>=arraysize))
errors.err("array index out of bounds", arrayIndexedExpression.arrayspec.position)
errors.err("array index out of bounds", arrayIndexedExpression.indexer.position)
} else if(target.datatype == DataType.STR) {
if(target.value is StringLiteralValue) {
// check string lengths for non-memory mapped strings
val stringLen = (target.value as StringLiteralValue).value.length
val index = (arrayIndexedExpression.arrayspec.index as? NumericLiteralValue)?.number?.toInt()
val index = arrayIndexedExpression.indexer.constIndex()
if (index != null && (index < 0 || index >= stringLen))
errors.err("index out of bounds", arrayIndexedExpression.arrayspec.position)
errors.err("index out of bounds", arrayIndexedExpression.indexer.position)
}
}
} else
errors.err("indexing requires a variable to act upon", arrayIndexedExpression.position)
// check index value 0..255
val dtx = arrayIndexedExpression.arrayspec.index.inferType(program).typeOrElse(DataType.STRUCT)
if(dtx!= DataType.UBYTE && dtx!= DataType.BYTE)
val dtxNum = arrayIndexedExpression.indexer.indexNum?.inferType(program)?.typeOrElse(DataType.STRUCT)
if(dtxNum!=null && dtxNum != DataType.UBYTE && dtxNum != DataType.BYTE)
errors.err("array indexing is limited to byte size 0..255", arrayIndexedExpression.position)
val dtxVar = arrayIndexedExpression.indexer.indexVar?.inferType(program)?.typeOrElse(DataType.STRUCT)
if(dtxVar!=null && dtxVar != DataType.UBYTE && dtxVar != DataType.BYTE)
errors.err("array indexing is limited to byte size 0..255", arrayIndexedExpression.position)
// check type of array indexer
if(arrayIndexedExpression.indexer.indexVar==null && arrayIndexedExpression.indexer.indexNum==null) {
errors.err("array indexing can only be done with a number or a variable, not an arbitrary expression. Use a temp var?", arrayIndexedExpression.indexer.position)
// TODO we can probably deal with simple binary expressions such as array[i+1] or lsb(w)/msb(w) or array[i*2] to do this automatically...
}
super.visit(arrayIndexedExpression)
}
@ -1158,10 +1162,7 @@ internal class AstChecker(private val program: Program,
if(arraySpecSize!=null && arraySpecSize>0) {
if(arraySpecSize<1 || arraySpecSize>256)
return err("byte array length must be 1-256")
val constX = arrayspec.index.constValue(program)
if(constX?.type !in IntegerDatatypes)
return err("array size specifier must be constant integer value")
val expectedSize = constX!!.number.toInt()
val expectedSize = arrayspec.constIndex() ?: return err("array size specifier must be constant integer value")
if (arraySize != expectedSize)
return err("initializer array size mismatch (expecting $expectedSize, got $arraySize)")
return true
@ -1180,10 +1181,7 @@ internal class AstChecker(private val program: Program,
if(arraySpecSize!=null && arraySpecSize>0) {
if(arraySpecSize<1 || arraySpecSize>128)
return err("word array length must be 1-128")
val constX = arrayspec.index.constValue(program)
if(constX?.type !in IntegerDatatypes)
return err("array size specifier must be constant integer value")
val expectedSize = constX!!.number.toInt()
val expectedSize = arrayspec.constIndex() ?: return err("array size specifier must be constant integer value")
if (arraySize != expectedSize)
return err("initializer array size mismatch (expecting $expectedSize, got $arraySize)")
return true
@ -1202,10 +1200,7 @@ internal class AstChecker(private val program: Program,
if(arraySpecSize!=null && arraySpecSize>0) {
if(arraySpecSize < 1 || arraySpecSize>51)
return err("float array length must be 1-51")
val constX = arrayspec.index.constValue(program)
if(constX?.type !in IntegerDatatypes)
return err("array size specifier must be constant integer value")
val expectedSize = constX!!.number.toInt()
val expectedSize = arrayspec.constIndex() ?: return err("array size specifier must be constant integer value")
if (arraySize != expectedSize)
return err("initializer array size mismatch (expecting $expectedSize, got $arraySize)")
} else

4
compiler/src/prog8/ast/processing/AstWalker.kt
View File

@ -363,8 +363,8 @@ abstract class AstWalker {
fun visit(arrayIndexedExpression: ArrayIndexedExpression, parent: Node) {
track(before(arrayIndexedExpression, parent), arrayIndexedExpression, parent)
arrayIndexedExpression.identifier.accept(this, arrayIndexedExpression)
arrayIndexedExpression.arrayspec.accept(this, arrayIndexedExpression)
arrayIndexedExpression.arrayvar.accept(this, arrayIndexedExpression)
arrayIndexedExpression.indexer.accept(this, arrayIndexedExpression)
track(after(arrayIndexedExpression, parent), arrayIndexedExpression, parent)
}

4
compiler/src/prog8/ast/processing/IAstVisitor.kt
View File

@ -125,8 +125,8 @@ interface IAstVisitor {
}
fun visit(arrayIndexedExpression: ArrayIndexedExpression) {
arrayIndexedExpression.identifier.accept(this)
arrayIndexedExpression.arrayspec.accept(this)
arrayIndexedExpression.arrayvar.accept(this)
arrayIndexedExpression.indexer.accept(this)
}
fun visit(assignTarget: AssignTarget) {

12
compiler/src/prog8/ast/processing/StatementReorderer.kt
View File

@ -71,6 +71,18 @@ internal class StatementReorderer(val program: Program, val errors: ErrorReporte
return noModifications
}
override fun after(arrayIndexedExpression: ArrayIndexedExpression, parent: Node): Iterable<IAstModification> {
val expr = arrayIndexedExpression.indexer.origExpression
if (expr is NumericLiteralValue) {
arrayIndexedExpression.indexer.indexNum = expr
arrayIndexedExpression.indexer.origExpression = null
}
else if (expr is IdentifierReference) {
arrayIndexedExpression.indexer.indexVar = expr
arrayIndexedExpression.indexer.origExpression = null
}
return noModifications
}
override fun after(whenStatement: WhenStatement, parent: Node): Iterable<IAstModification> {
val choices = whenStatement.choiceValues(program).sortedBy {

5
compiler/src/prog8/ast/processing/TypecastsAdder.kt
View File

@ -23,6 +23,11 @@ class TypecastsAdder(val program: Program, val errors: ErrorReporter) : AstWalke
if(decl.type==VarDeclType.VAR && declValue!=null && decl.struct==null) {
val valueDt = declValue.inferType(program)
if(!valueDt.istype(decl.datatype)) {
// don't add a typecast on an array initializer value
if(valueDt.typeOrElse(DataType.STRUCT) in IntegerDatatypes && decl.datatype in ArrayDatatypes)
return noModifications
return listOf(IAstModification.ReplaceNode(
declValue,
TypecastExpression(declValue, decl.datatype, true, declValue.position),

79
compiler/src/prog8/ast/statements/AstStatements.kt
View File

@ -277,36 +277,72 @@ class ParameterVarDecl(name: String, declaredDatatype: DataType, position: Posit
: VarDecl(VarDeclType.VAR, declaredDatatype, ZeropageWish.DONTCARE, null, name, null, null, false, true, position)
class ArrayIndex(var index: Expression, override val position: Position) : Node {
class ArrayIndex(var origExpression: Expression?, // will be replaced later by either the number or the identifier
override val position: Position) : Node {
// for code simplicity, either indexed via a constant number or via a variable (no arbitrary expressions)
override lateinit var parent: Node
var indexNum: NumericLiteralValue? = origExpression as? NumericLiteralValue
var indexVar: IdentifierReference? = origExpression as? IdentifierReference
init {
if(indexNum!=null || indexVar!=null)
origExpression = null
}
override fun linkParents(parent: Node) {
this.parent = parent
index.linkParents(this)
origExpression?.linkParents(this)
indexNum?.linkParents(this)
indexVar?.linkParents(this)
}
override fun replaceChildNode(node: Node, replacement: Node) {
require(replacement is Expression && node===index)
index = replacement
replacement.parent = this
require(replacement is Expression)
when {
node===origExpression -> origExpression = replacement
node===indexVar -> {
when (replacement) {
is NumericLiteralValue -> {
indexVar = null
indexNum = replacement
}
is IdentifierReference -> {
indexVar = replacement
}
else -> {
throw FatalAstException("invalid replace")
}
}
}
else -> throw FatalAstException("invalid replace")
}
}
companion object {
fun forArray(v: ArrayLiteralValue): ArrayIndex {
return ArrayIndex(NumericLiteralValue.optimalNumeric(v.value.size, v.position), v.position)
val indexnum = NumericLiteralValue.optimalNumeric(v.value.size, v.position)
return ArrayIndex(indexnum, v.position)
}
}
fun accept(visitor: IAstVisitor) = index.accept(visitor)
fun accept(visitor: AstWalker, parent: Node) = index.accept(visitor, this)
override fun toString(): String {
return("ArrayIndex($index, pos=$position)")
fun accept(visitor: IAstVisitor) {
origExpression?.accept(visitor)
indexNum?.accept(visitor)
indexVar?.accept(visitor)
}
fun accept(visitor: AstWalker, parent: Node) {
origExpression?.accept(visitor, this)
indexNum?.accept(visitor, this)
indexVar?.accept(visitor, this)
}
fun constIndex() = (index as? NumericLiteralValue)?.number?.toInt()
override fun toString(): String {
return("ArrayIndex($indexNum, $indexVar, pos=$position)")
}
infix fun isSameAs(other: ArrayIndex) = index.isSameAs(other.index)
fun constIndex() = indexNum?.number?.toInt()
infix fun isSameAs(other: ArrayIndex) = indexNum==other.indexNum && indexVar == other.indexVar
}
open class Assignment(var target: AssignTarget, var value: Expression, override val position: Position) : Statement() {
@ -454,8 +490,8 @@ data class AssignTarget(var identifier: IdentifierReference?,
}
identifier != null -> value is IdentifierReference && value.nameInSource == identifier!!.nameInSource
arrayindexed != null -> {
if(value is ArrayIndexedExpression && value.identifier.nameInSource == arrayindexed!!.identifier.nameInSource)
arrayindexed!!.arrayspec isSameAs value.arrayspec
if(value is ArrayIndexedExpression && value.arrayvar.nameInSource == arrayindexed!!.arrayvar.nameInSource)
arrayindexed!!.indexer isSameAs value.indexer
else
false
}
@ -474,9 +510,9 @@ data class AssignTarget(var identifier: IdentifierReference?,
return addr1 != null && addr2 != null && addr1 == addr2
}
if (this.arrayindexed != null && other.arrayindexed != null) {
if (this.arrayindexed!!.identifier.nameInSource == other.arrayindexed!!.identifier.nameInSource) {
val x1 = this.arrayindexed!!.arrayspec.index.constValue(program)
val x2 = other.arrayindexed!!.arrayspec.index.constValue(program)
if (this.arrayindexed!!.arrayvar.nameInSource == other.arrayindexed!!.arrayvar.nameInSource) {
val x1 = this.arrayindexed!!.indexer.constIndex()
val x2 = other.arrayindexed!!.indexer.constIndex()
return x1 != null && x2 != null && x1 == x2
}
}
@ -501,7 +537,7 @@ data class AssignTarget(var identifier: IdentifierReference?,
}
}
this.arrayindexed != null -> {
val targetStmt = this.arrayindexed!!.identifier.targetVarDecl(namespace)
val targetStmt = this.arrayindexed!!.arrayvar.targetVarDecl(namespace)
return if (targetStmt?.type == VarDeclType.MEMORY) {
val addr = targetStmt.value as? NumericLiteralValue
if (addr != null)
@ -902,10 +938,7 @@ class WhenStatement(var condition: Expression,
val cv = it.constValue(program)
cv?.number?.toInt() ?: it.hashCode() // the hashcode is a nonsensical number but it avoids weird AST validation errors later
}
if(values.contains(null))
result.add(null to choice)
else
result.add(values.filterNotNull() to choice)
result.add(values to choice)
}
}
return result

168
compiler/src/prog8/compiler/target/c64/codegen/AsmGen.kt
View File

@ -678,132 +678,75 @@ internal class AsmGen(private val program: Program,
register: CpuRegister,
addOneExtra: Boolean=false) {
val reg = register.toString().toLowerCase()
val index = expr.arrayspec.index
if(index is NumericLiteralValue) {
val indexValue = index.number.toInt() * elementDt.memorySize() + if(addOneExtra) 1 else 0
val indexnum = expr.indexer.constIndex()
if(indexnum!=null) {
val indexValue = indexnum * elementDt.memorySize() + if(addOneExtra) 1 else 0
out(" ld$reg #$indexValue")
return
}
val indexName = asmVariableName(expr.indexer.indexVar!!)
if(addOneExtra) {
// add 1 to the result
if (index is IdentifierReference) {
val indexName = asmVariableName(index)
when(elementDt) {
in ByteDatatypes -> {
out(" ldy $indexName | iny")
when(register) {
CpuRegister.A -> out(" tya")
CpuRegister.X -> out(" tyx")
CpuRegister.Y -> {}
}
when(elementDt) {
in ByteDatatypes -> {
out(" ldy $indexName | iny")
when(register) {
CpuRegister.A -> out(" tya")
CpuRegister.X -> out(" tyx")
CpuRegister.Y -> {}
}
in WordDatatypes -> {
out(" lda $indexName | sec | rol a")
when(register) {
CpuRegister.A -> {}
CpuRegister.X -> out(" tax")
CpuRegister.Y -> out(" tay")
}
}
DataType.FLOAT -> {
require(DataType.FLOAT.memorySize()==5)
out("""
lda $indexName
asl a
asl a
sec
adc $indexName""")
when(register) {
CpuRegister.A -> {}
CpuRegister.X -> out(" tax")
CpuRegister.Y -> out(" tay")
}
}
else -> throw AssemblyError("weird dt")
}
}
else {
expressionsAsmGen.translateExpression(index)
out("""
inc P8ESTACK_LO,x
bne +
inc P8ESTACK_HI,x
+""")
when(register) {
CpuRegister.A -> out(" inx | lda P8ESTACK_LO,x")
CpuRegister.X -> out(" inx | lda P8ESTACK_LO,x | tax")
CpuRegister.Y -> out(" inx | ldy P8ESTACK_LO,x")
in WordDatatypes -> {
out(" lda $indexName | sec | rol a")
when(register) {
CpuRegister.A -> {}
CpuRegister.X -> out(" tax")
CpuRegister.Y -> out(" tay")
}
}
DataType.FLOAT -> {
require(DataType.FLOAT.memorySize()==5)
out("""
lda $indexName
asl a
asl a
sec
adc $indexName""")
when(register) {
CpuRegister.A -> {}
CpuRegister.X -> out(" tax")
CpuRegister.Y -> out(" tay")
}
}
else -> throw AssemblyError("weird dt")
}
} else {
if (index is IdentifierReference) {
val indexName = asmVariableName(index)
when(elementDt) {
in ByteDatatypes -> out(" ld$reg $indexName")
in WordDatatypes -> {
out(" lda $indexName | asl a")
when(register) {
CpuRegister.A -> {}
CpuRegister.X -> out(" tax")
CpuRegister.Y -> out(" tay")
}
when(elementDt) {
in ByteDatatypes -> out(" ld$reg $indexName")
in WordDatatypes -> {
out(" lda $indexName | asl a")
when(register) {
CpuRegister.A -> {}
CpuRegister.X -> out(" tax")
CpuRegister.Y -> out(" tay")
}
DataType.FLOAT -> {
require(DataType.FLOAT.memorySize()==5)
out("""
lda $indexName
asl a
asl a
clc
adc $indexName""")
when(register) {
CpuRegister.A -> {}
CpuRegister.X -> out(" tax")
CpuRegister.Y -> out(" tay")
}
}
else -> throw AssemblyError("weird dt")
}
}
else {
expressionsAsmGen.translateExpression(index)
when(elementDt) {
in ByteDatatypes -> {
when (register) {
CpuRegister.A -> out(" inx | lda P8ESTACK_LO,x")
CpuRegister.X -> out(" inx | lda P8ESTACK_LO,x | tax")
CpuRegister.Y -> out(" inx | ldy P8ESTACK_LO,x")
}
DataType.FLOAT -> {
require(DataType.FLOAT.memorySize()==5)
out("""
lda $indexName
asl a
asl a
clc
adc $indexName""")
when(register) {
CpuRegister.A -> {}
CpuRegister.X -> out(" tax")
CpuRegister.Y -> out(" tay")
}
in WordDatatypes -> {
out("""
inx
lda P8ESTACK_LO,x
asl a""")
when (register) {
CpuRegister.A -> {}
CpuRegister.X -> out(" tax")
CpuRegister.Y -> out(" tay")
}
}
DataType.FLOAT -> {
require(DataType.FLOAT.memorySize()==5)
out("""
inx
lda P8ESTACK_LO,x
asl a
asl a
clc
adc P8ESTACK_LO,x""")
when (register) {
CpuRegister.A -> {}
CpuRegister.X -> out(" tax")
CpuRegister.Y -> out(" tay")
}
}
else -> throw AssemblyError("weird dt")
}
else -> throw AssemblyError("weird dt")
}
}
}
@ -811,6 +754,9 @@ internal class AsmGen(private val program: Program,
internal fun translateExpression(expression: Expression) =
expressionsAsmGen.translateExpression(expression)
internal fun translateExpression(indexer: ArrayIndex) =
expressionsAsmGen.translateExpression(indexer)
internal fun translateFunctioncallExpression(functionCall: FunctionCall, signature: FSignature) =
builtinFunctionsAsmGen.translateFunctioncallExpression(functionCall, signature)

57
compiler/src/prog8/compiler/target/c64/codegen/BuiltinFunctionsAsmGen.kt
View File

@ -159,8 +159,8 @@ internal class BuiltinFunctionsAsmGen(private val program: Program, private val
DataType.UBYTE -> {
when (what) {
is ArrayIndexedExpression -> {
asmgen.translateExpression(what.identifier)
asmgen.translateExpression(what.arrayspec.index)
asmgen.translateExpression(what.arrayvar)
asmgen.translateExpression(what.indexer)
asmgen.out(" jsr prog8_lib.ror2_array_ub")
}
is DirectMemoryRead -> {
@ -182,8 +182,8 @@ internal class BuiltinFunctionsAsmGen(private val program: Program, private val
DataType.UWORD -> {
when (what) {
is ArrayIndexedExpression -> {
asmgen.translateExpression(what.identifier)
asmgen.translateExpression(what.arrayspec.index)
asmgen.translateExpression(what.arrayvar)
asmgen.translateExpression(what.indexer)
asmgen.out(" jsr prog8_lib.ror2_array_uw")
}
is IdentifierReference -> {
@ -204,8 +204,8 @@ internal class BuiltinFunctionsAsmGen(private val program: Program, private val
DataType.UBYTE -> {
when (what) {
is ArrayIndexedExpression -> {
asmgen.translateExpression(what.identifier)
asmgen.translateExpression(what.arrayspec.index)
asmgen.translateExpression(what.arrayvar)
asmgen.translateExpression(what.indexer)
asmgen.out(" jsr prog8_lib.ror_array_ub")
}
is DirectMemoryRead -> {
@ -234,8 +234,8 @@ internal class BuiltinFunctionsAsmGen(private val program: Program, private val
DataType.UWORD -> {
when (what) {
is ArrayIndexedExpression -> {
asmgen.translateExpression(what.identifier)
asmgen.translateExpression(what.arrayspec.index)
asmgen.translateExpression(what.arrayvar)
asmgen.translateExpression(what.indexer)
asmgen.out(" jsr prog8_lib.ror_array_uw")
}
is IdentifierReference -> {
@ -256,8 +256,8 @@ internal class BuiltinFunctionsAsmGen(private val program: Program, private val
DataType.UBYTE -> {
when (what) {
is ArrayIndexedExpression -> {
asmgen.translateExpression(what.identifier)
asmgen.translateExpression(what.arrayspec.index)
asmgen.translateExpression(what.arrayvar)
asmgen.translateExpression(what.indexer)
asmgen.out(" jsr prog8_lib.rol2_array_ub")
}
is DirectMemoryRead -> {
@ -279,8 +279,8 @@ internal class BuiltinFunctionsAsmGen(private val program: Program, private val
DataType.UWORD -> {
when (what) {
is ArrayIndexedExpression -> {
asmgen.translateExpression(what.identifier)
asmgen.translateExpression(what.arrayspec.index)
asmgen.translateExpression(what.arrayvar)
asmgen.translateExpression(what.indexer)
asmgen.out(" jsr prog8_lib.rol2_array_uw")
}
is IdentifierReference -> {
@ -301,8 +301,8 @@ internal class BuiltinFunctionsAsmGen(private val program: Program, private val
DataType.UBYTE -> {
when (what) {
is ArrayIndexedExpression -> {
asmgen.translateExpression(what.identifier)
asmgen.translateExpression(what.arrayspec.index)
asmgen.translateExpression(what.arrayvar)
asmgen.translateExpression(what.indexer)
asmgen.out(" jsr prog8_lib.rol_array_ub")
}
is DirectMemoryRead -> {
@ -331,8 +331,8 @@ internal class BuiltinFunctionsAsmGen(private val program: Program, private val
DataType.UWORD -> {
when (what) {
is ArrayIndexedExpression -> {
asmgen.translateExpression(what.identifier)
asmgen.translateExpression(what.arrayspec.index)
asmgen.translateExpression(what.arrayvar)
asmgen.translateExpression(what.indexer)
asmgen.out(" jsr prog8_lib.rol_array_uw")
}
is IdentifierReference -> {
@ -478,20 +478,25 @@ internal class BuiltinFunctionsAsmGen(private val program: Program, private val
}
if(first is ArrayIndexedExpression && second is ArrayIndexedExpression) {
val indexValue1 = first.arrayspec.index as? NumericLiteralValue
val indexName1 = first.arrayspec.index as? IdentifierReference
val indexValue2 = second.arrayspec.index as? NumericLiteralValue
val indexName2 = second.arrayspec.index as? IdentifierReference
val arrayVarName1 = asmgen.asmVariableName(first.identifier)
val arrayVarName2 = asmgen.asmVariableName(second.identifier)
val arrayVarName1 = asmgen.asmVariableName(first.arrayvar)
val arrayVarName2 = asmgen.asmVariableName(second.arrayvar)
val elementDt = first.inferType(program).typeOrElse(DataType.STRUCT)
if(indexValue1!=null && indexValue2!=null) {
swapArrayValues(elementDt, arrayVarName1, indexValue1, arrayVarName2, indexValue2)
val firstNum = first.indexer.indexNum
val firstVar = first.indexer.indexVar
val secondNum = second.indexer.indexNum
val secondVar = second.indexer.indexVar
if(firstNum!=null && secondNum!=null) {
swapArrayValues(elementDt, arrayVarName1, firstNum, arrayVarName2, secondNum)
return
} else if(indexName1!=null && indexName2!=null) {
swapArrayValues(elementDt, arrayVarName1, indexName1, arrayVarName2, indexName2)
} else if(firstVar!=null && secondVar!=null) {
swapArrayValues(elementDt, arrayVarName1, firstVar, arrayVarName2, secondVar)
return
} else if(firstNum!=null && secondVar!=null) {
TODO("swap array num/var")
} else if(firstVar!=null && secondNum!=null) {
TODO("swap array var/num")
}
}

16
compiler/src/prog8/compiler/target/c64/codegen/ExpressionsAsmGen.kt
View File

@ -3,6 +3,7 @@ package prog8.compiler.target.c64.codegen
import prog8.ast.Program
import prog8.ast.base.*
import prog8.ast.expressions.*
import prog8.ast.statements.ArrayIndex
import prog8.compiler.AssemblyError
import prog8.compiler.target.CompilationTarget
import prog8.compiler.target.CpuType
@ -1415,11 +1416,10 @@ internal class ExpressionsAsmGen(private val program: Program, private val asmge
}
private fun translateExpression(arrayExpr: ArrayIndexedExpression) {
val index = arrayExpr.arrayspec.index
val elementDt = arrayExpr.inferType(program).typeOrElse(DataType.STRUCT)
val arrayVarName = asmgen.asmVariableName(arrayExpr.identifier)
if(index is NumericLiteralValue) {
val indexValue = index.number.toInt() * elementDt.memorySize()
val arrayVarName = asmgen.asmVariableName(arrayExpr.arrayvar)
if(arrayExpr.indexer.indexNum!=null) {
val indexValue = arrayExpr.indexer.constIndex()!! * elementDt.memorySize()
when(elementDt) {
in ByteDatatypes -> {
asmgen.out(" lda $arrayVarName+$indexValue | sta P8ESTACK_LO,x | dex")
@ -1458,6 +1458,14 @@ internal class ExpressionsAsmGen(private val program: Program, private val asmge
}
}
fun translateExpression(indexer: ArrayIndex) {
// it is either a number, or a variable
val indexNum = indexer.indexNum
val indexVar = indexer.indexVar
indexNum?.let { asmgen.translateExpression(indexNum) }
indexVar?.let { asmgen.translateExpression(indexVar) }
}
private fun translateBinaryOperatorBytes(operator: String, types: DataType) {
when(operator) {
"**" -> throw AssemblyError("** operator requires floats")

103
compiler/src/prog8/compiler/target/c64/codegen/PostIncrDecrAsmGen.kt
View File

@ -70,67 +70,64 @@ internal class PostIncrDecrAsmGen(private val program: Program, private val asmg
}
}
targetArrayIdx!=null -> {
val index = targetArrayIdx.arrayspec.index
val asmArrayvarname = asmgen.asmVariableName(targetArrayIdx.identifier)
val asmArrayvarname = asmgen.asmVariableName(targetArrayIdx.arrayvar)
val elementDt = targetArrayIdx.inferType(program).typeOrElse(DataType.STRUCT)
when(index) {
is NumericLiteralValue -> {
val indexValue = index.number.toInt() * elementDt.memorySize()
when(elementDt) {
in ByteDatatypes -> asmgen.out(if (incr) " inc $asmArrayvarname+$indexValue" else " dec $asmArrayvarname+$indexValue")
in WordDatatypes -> {
if(incr)
asmgen.out(" inc $asmArrayvarname+$indexValue | bne + | inc $asmArrayvarname+$indexValue+1 |+")
else
asmgen.out("""
lda $asmArrayvarname+$indexValue
bne +
dec $asmArrayvarname+$indexValue+1
if(targetArrayIdx.indexer.indexNum!=null) {
val indexValue = targetArrayIdx.indexer.constIndex()!! * elementDt.memorySize()
when(elementDt) {
in ByteDatatypes -> asmgen.out(if (incr) " inc $asmArrayvarname+$indexValue" else " dec $asmArrayvarname+$indexValue")
in WordDatatypes -> {
if(incr)
asmgen.out(" inc $asmArrayvarname+$indexValue | bne + | inc $asmArrayvarname+$indexValue+1 |+")
else
asmgen.out("""
lda $asmArrayvarname+$indexValue
bne +
dec $asmArrayvarname+$indexValue+1
+ dec $asmArrayvarname+$indexValue
""")
}
DataType.FLOAT -> {
asmgen.out(" lda #<$asmArrayvarname+$indexValue | ldy #>$asmArrayvarname+$indexValue")
asmgen.out(if(incr) " jsr floats.inc_var_f" else " jsr floats.dec_var_f")
}
else -> throw AssemblyError("need numeric type")
}
}
else -> {
asmgen.loadScaledArrayIndexIntoRegister(targetArrayIdx, elementDt, CpuRegister.A)
asmgen.saveRegister(CpuRegister.X, false, scope)
asmgen.out(" tax")
when(elementDt) {
in ByteDatatypes -> {
asmgen.out(if(incr) " inc $asmArrayvarname,x" else " dec $asmArrayvarname,x")
}
in WordDatatypes -> {
if(incr)
asmgen.out(" inc $asmArrayvarname,x | bne + | inc $asmArrayvarname+1,x |+")
else
asmgen.out("""
lda $asmArrayvarname,x
bne +
dec $asmArrayvarname+1,x
+ dec $asmArrayvarname
""")
}
DataType.FLOAT -> {
asmgen.out("""
ldy #>$asmArrayvarname
clc
adc #<$asmArrayvarname
bcc +
iny
+ jsr floats.inc_var_f""")
}
else -> throw AssemblyError("weird array elt dt")
DataType.FLOAT -> {
asmgen.out(" lda #<$asmArrayvarname+$indexValue | ldy #>$asmArrayvarname+$indexValue")
asmgen.out(if(incr) " jsr floats.inc_var_f" else " jsr floats.dec_var_f")
}
asmgen.restoreRegister(CpuRegister.X, false)
else -> throw AssemblyError("need numeric type")
}
}
else
{
asmgen.loadScaledArrayIndexIntoRegister(targetArrayIdx, elementDt, CpuRegister.A)
asmgen.saveRegister(CpuRegister.X, false, scope)
asmgen.out(" tax")
when(elementDt) {
in ByteDatatypes -> {
asmgen.out(if(incr) " inc $asmArrayvarname,x" else " dec $asmArrayvarname,x")
}
in WordDatatypes -> {
if(incr)
asmgen.out(" inc $asmArrayvarname,x | bne + | inc $asmArrayvarname+1,x |+")
else
asmgen.out("""
lda $asmArrayvarname,x
bne +
dec $asmArrayvarname+1,x
+ dec $asmArrayvarname
""")
}
DataType.FLOAT -> {
asmgen.out("""
ldy #>$asmArrayvarname
clc
adc #<$asmArrayvarname
bcc +
iny
+ jsr floats.inc_var_f""")
}
else -> throw AssemblyError("weird array elt dt")
}
asmgen.restoreRegister(CpuRegister.X, false)
}
}
else -> throw AssemblyError("weird target type ${stmt.target}")
}
}
}

9
compiler/src/prog8/compiler/target/c64/codegen/assignment/AsmAssignment.kt
View File

@ -1,6 +1,5 @@
package prog8.compiler.target.c64.codegen.assignment
import prog8.ast.INameScope
import prog8.ast.Program
import prog8.ast.base.*
import prog8.ast.expressions.*
@ -43,12 +42,12 @@ internal class AsmAssignTarget(val kind: TargetStorageKind,
)
{
val constMemoryAddress by lazy { memory?.addressExpression?.constValue(program)?.number?.toInt() ?: 0}
val constArrayIndexValue by lazy { array?.arrayspec?.constIndex() }
val constArrayIndexValue by lazy { array?.indexer?.constIndex() }
val asmVarname: String
get() = if(array==null)
variableAsmName!!
else
asmgen.asmVariableName(array.identifier)
asmgen.asmVariableName(array.arrayvar)
lateinit var origAssign: AsmAssignment
@ -93,13 +92,13 @@ internal class AsmAssignSource(val kind: SourceStorageKind,
)
{
val constMemoryAddress by lazy { memory?.addressExpression?.constValue(program)?.number?.toInt() ?: 0}
val constArrayIndexValue by lazy { array?.arrayspec?.constIndex() }
val constArrayIndexValue by lazy { array?.indexer?.constIndex() }
val asmVarname: String
get() = if(array==null)
variableAsmName!!
else
asmgen.asmVariableName(array.identifier)
asmgen.asmVariableName(array.arrayvar)
companion object {
fun fromAstSource(value: Expression, program: Program, asmgen: AsmGen): AsmAssignSource {

381
compiler/src/prog8/compiler/target/c64/codegen/assignment/AssignmentAsmGen.kt
View File

@ -59,11 +59,10 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
SourceStorageKind.ARRAY -> {
val value = assign.source.array!!
val elementDt = assign.source.datatype
val index = value.arrayspec.index
val arrayVarName = asmgen.asmVariableName(value.identifier)
if (index is NumericLiteralValue) {
val arrayVarName = asmgen.asmVariableName(value.arrayvar)
if (value.indexer.indexNum!=null) {
// constant array index value
val indexValue = index.number.toInt() * elementDt.memorySize()
val indexValue = value.indexer.constIndex()!! * elementDt.memorySize()
when (elementDt) {
in ByteDatatypes ->
asmgen.out(" lda $arrayVarName+$indexValue | sta P8ESTACK_LO,x | dex")
@ -265,66 +264,60 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
storeByteViaRegisterAInMemoryAddress("P8ESTACK_LO,x", target.memory!!)
}
TargetStorageKind.ARRAY -> {
val index = target.array!!.arrayspec.index
when {
target.constArrayIndexValue!=null -> {
val scaledIdx = target.constArrayIndexValue!! * target.datatype.memorySize()
when(target.datatype) {
in ByteDatatypes -> {
asmgen.out(" inx | lda P8ESTACK_LO,x | sta ${target.asmVarname}+$scaledIdx")
}
in WordDatatypes -> {
asmgen.out("""
inx
lda P8ESTACK_LO,x
sta ${target.asmVarname}+$scaledIdx
lda P8ESTACK_HI,x
sta ${target.asmVarname}+$scaledIdx+1
""")
}
DataType.FLOAT -> {
asmgen.out("""
lda #<${target.asmVarname}+$scaledIdx
ldy #>${target.asmVarname}+$scaledIdx
jsr floats.pop_float
""")
}
else -> throw AssemblyError("weird target variable type ${target.datatype}")
if(target.constArrayIndexValue!=null) {
val scaledIdx = target.constArrayIndexValue!! * target.datatype.memorySize()
when(target.datatype) {
in ByteDatatypes -> {
asmgen.out(" inx | lda P8ESTACK_LO,x | sta ${target.asmVarname}+$scaledIdx")
}
in WordDatatypes -> {
asmgen.out("""
inx
lda P8ESTACK_LO,x
sta ${target.asmVarname}+$scaledIdx
lda P8ESTACK_HI,x
sta ${target.asmVarname}+$scaledIdx+1
""")
}
DataType.FLOAT -> {
asmgen.out("""
lda #<${target.asmVarname}+$scaledIdx
ldy #>${target.asmVarname}+$scaledIdx
jsr floats.pop_float
""")
}
else -> throw AssemblyError("weird target variable type ${target.datatype}")
}
index is IdentifierReference -> {
when(target.datatype) {
DataType.UBYTE, DataType.BYTE -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.Y)
asmgen.out(" inx | lda P8ESTACK_LO,x | sta ${target.asmVarname},y")
}
DataType.UWORD, DataType.WORD -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.Y)
asmgen.out("""
inx
lda P8ESTACK_LO,x
sta ${target.asmVarname},y
lda P8ESTACK_HI,x
sta ${target.asmVarname}+1,y
""")
}
DataType.FLOAT -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.A)
asmgen.out("""
ldy #>${target.asmVarname}
clc
adc #<${target.asmVarname}
bcc +
iny
}
else
{
target.array!!
when(target.datatype) {
DataType.UBYTE, DataType.BYTE -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.Y)
asmgen.out(" inx | lda P8ESTACK_LO,x | sta ${target.asmVarname},y")
}
DataType.UWORD, DataType.WORD -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.Y)
asmgen.out("""
inx
lda P8ESTACK_LO,x
sta ${target.asmVarname},y
lda P8ESTACK_HI,x
sta ${target.asmVarname}+1,y
""")
}
DataType.FLOAT -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.A)
asmgen.out("""
ldy #>${target.asmVarname}
clc
adc #<${target.asmVarname}
bcc +
iny
+ jsr floats.pop_float""")
}
else -> throw AssemblyError("weird dt")
}
}
else -> {
asmgen.translateExpression(index)
asmgen.out(" inx | lda P8ESTACK_LO,x")
popAndWriteArrayvalueWithUnscaledIndexA(target.datatype, target.asmVarname)
else -> throw AssemblyError("weird dt")
}
}
}
@ -441,73 +434,66 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
throw AssemblyError("no asm gen for assign wordvar $sourceName to memory ${target.memory}")
}
TargetStorageKind.ARRAY -> {
val index = target.array!!.arrayspec.index
when {
target.constArrayIndexValue!=null -> {
val scaledIdx = target.constArrayIndexValue!! * target.datatype.memorySize()
when(target.datatype) {
in ByteDatatypes -> {
asmgen.out(" lda $sourceName | sta ${target.asmVarname}+$scaledIdx")
}
in WordDatatypes -> {
asmgen.out("""
lda $sourceName
sta ${target.asmVarname}+$scaledIdx
lda $sourceName+1
sta ${target.asmVarname}+$scaledIdx+1
""")
}
DataType.FLOAT -> {
asmgen.out("""
lda #<$sourceName
ldy #>$sourceName
sta P8ZP_SCRATCH_W1
sty P8ZP_SCRATCH_W1+1
lda #<${target.asmVarname}+$scaledIdx
ldy #>${target.asmVarname}+$scaledIdx
jsr floats.copy_float
""")
}
else -> throw AssemblyError("weird target variable type ${target.datatype}")
target.array!!
if(target.constArrayIndexValue!=null) {
val scaledIdx = target.constArrayIndexValue!! * target.datatype.memorySize()
when(target.datatype) {
in ByteDatatypes -> {
asmgen.out(" lda $sourceName | sta ${target.asmVarname}+$scaledIdx")
}
in WordDatatypes -> {
asmgen.out("""
lda $sourceName
sta ${target.asmVarname}+$scaledIdx
lda $sourceName+1
sta ${target.asmVarname}+$scaledIdx+1
""")
}
DataType.FLOAT -> {
asmgen.out("""
lda #<$sourceName
ldy #>$sourceName
sta P8ZP_SCRATCH_W1
sty P8ZP_SCRATCH_W1+1
lda #<${target.asmVarname}+$scaledIdx
ldy #>${target.asmVarname}+$scaledIdx
jsr floats.copy_float
""")
}
else -> throw AssemblyError("weird target variable type ${target.datatype}")
}
index is IdentifierReference -> {
when(target.datatype) {
DataType.UBYTE, DataType.BYTE -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.Y)
asmgen.out(" lda $sourceName | sta ${target.asmVarname},y")
}
DataType.UWORD, DataType.WORD -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.Y)
asmgen.out("""
lda $sourceName
sta ${target.asmVarname},y
lda $sourceName+1
sta ${target.asmVarname}+1,y
""")
}
DataType.FLOAT -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.A)
asmgen.out("""
ldy #<$sourceName
sty P8ZP_SCRATCH_W1
ldy #>$sourceName
sty P8ZP_SCRATCH_W1+1
ldy #>${target.asmVarname}
clc
adc #<${target.asmVarname}
bcc +
iny
}
else
{
when(target.datatype) {
DataType.UBYTE, DataType.BYTE -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.Y)
asmgen.out(" lda $sourceName | sta ${target.asmVarname},y")
}
DataType.UWORD, DataType.WORD -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.Y)
asmgen.out("""
lda $sourceName
sta ${target.asmVarname},y
lda $sourceName+1
sta ${target.asmVarname}+1,y
""")
}
DataType.FLOAT -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.A)
asmgen.out("""
ldy #<$sourceName
sty P8ZP_SCRATCH_W1
ldy #>$sourceName
sty P8ZP_SCRATCH_W1+1
ldy #>${target.asmVarname}
clc
adc #<${target.asmVarname}
bcc +
iny
+ jsr floats.copy_float""")
}
else -> throw AssemblyError("weird dt")
}
}
else -> {
asmgen.out(" lda $sourceName | sta P8ESTACK_LO,x | lda $sourceName+1 | sta P8ESTACK_HI,x | dex")
asmgen.translateExpression(index)
asmgen.out(" inx | lda P8ESTACK_LO,x")
popAndWriteArrayvalueWithUnscaledIndexA(target.datatype, target.asmVarname)
else -> throw AssemblyError("weird dt")
}
}
}
@ -553,9 +539,10 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
// } else if(target.array!!.arrayspec.index is IdentifierReference) {
// TODO("array[var] ${target.constArrayIndexValue}")
// }
val index = target.array!!.arrayspec.index
asmgen.out(" lda #<$sourceName | ldy #>$sourceName | jsr floats.push_float")
asmgen.translateExpression(index)
target.array!!
target.array.indexer.indexNum?.let { asmgen.translateExpression(it) }
target.array.indexer.indexVar?.let { asmgen.translateExpression(it) }
asmgen.out(" lda #<${target.asmVarname} | ldy #>${target.asmVarname} | jsr floats.pop_float_to_indexed_var")
}
TargetStorageKind.MEMORY -> throw AssemblyError("can't assign float to mem byte")
@ -576,22 +563,13 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
storeByteViaRegisterAInMemoryAddress(sourceName, target.memory!!)
}
TargetStorageKind.ARRAY -> {
val index = target.array!!.arrayspec.index
when {
target.constArrayIndexValue!=null -> {
val scaledIdx = target.constArrayIndexValue!! * target.datatype.memorySize()
asmgen.out(" lda $sourceName | sta ${target.asmVarname}+$scaledIdx")
}
index is IdentifierReference -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, target.datatype, CpuRegister.Y)
asmgen.out(" lda $sourceName | sta ${target.asmVarname},y")
}
else -> {
asmgen.out(" lda $sourceName | sta P8ESTACK_LO,x | dex")
asmgen.translateExpression(index)
asmgen.out(" inx | lda P8ESTACK_LO,x")
popAndWriteArrayvalueWithUnscaledIndexA(target.datatype, target.asmVarname)
}
if (target.constArrayIndexValue!=null) {
val scaledIdx = target.constArrayIndexValue!! * target.datatype.memorySize()
asmgen.out(" lda $sourceName | sta ${target.asmVarname}+$scaledIdx")
}
else {
asmgen.loadScaledArrayIndexIntoRegister(target.array!!, target.datatype, CpuRegister.Y)
asmgen.out(" lda $sourceName | sta ${target.asmVarname},y")
}
}
TargetStorageKind.REGISTER -> {
@ -686,22 +664,13 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
""")
}
TargetStorageKind.ARRAY -> {
val index = wordtarget.array!!.arrayspec.index
when {
wordtarget.constArrayIndexValue!=null -> {
val scaledIdx = wordtarget.constArrayIndexValue!! * 2
asmgen.out(" lda $sourceName | sta ${wordtarget.asmVarname}+$scaledIdx | lda #0 | sta ${wordtarget.asmVarname}+$scaledIdx+1")
}
index is IdentifierReference -> {
asmgen.loadScaledArrayIndexIntoRegister(wordtarget.array, wordtarget.datatype, CpuRegister.Y)
asmgen.out(" lda $sourceName | sta ${wordtarget.asmVarname},y | lda #0 | iny | sta ${wordtarget.asmVarname},y")
}
else -> {
asmgen.out(" lda $sourceName | sta P8ESTACK_LO,x | lda #0 | sta P8ESTACK_HI,x | dex")
asmgen.translateExpression(index)
asmgen.out(" inx | lda P8ESTACK_LO,x")
popAndWriteArrayvalueWithUnscaledIndexA(wordtarget.datatype, wordtarget.asmVarname)
}
if (wordtarget.constArrayIndexValue!=null) {
val scaledIdx = wordtarget.constArrayIndexValue!! * 2
asmgen.out(" lda $sourceName | sta ${wordtarget.asmVarname}+$scaledIdx | lda #0 | sta ${wordtarget.asmVarname}+$scaledIdx+1")
}
else {
asmgen.loadScaledArrayIndexIntoRegister(wordtarget.array!!, wordtarget.datatype, CpuRegister.Y)
asmgen.out(" lda $sourceName | sta ${wordtarget.asmVarname},y | lda #0 | iny | sta ${wordtarget.asmVarname},y")
}
}
TargetStorageKind.REGISTER -> {
@ -734,40 +703,21 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
storeRegisterInMemoryAddress(register, target.memory!!)
}
TargetStorageKind.ARRAY -> {
val index = target.array!!.arrayspec.index
when (index) {
is NumericLiteralValue -> {
val memindex = index.number.toInt()
when {
target.constArrayIndexValue!=null -> {
when (register) {
CpuRegister.A -> asmgen.out(" sta ${target.asmVarname}+$memindex")
CpuRegister.X -> asmgen.out(" stx ${target.asmVarname}+$memindex")
CpuRegister.Y -> asmgen.out(" sty ${target.asmVarname}+$memindex")
CpuRegister.A -> asmgen.out(" sta ${target.asmVarname}+${target.constArrayIndexValue}")
CpuRegister.X -> asmgen.out(" stx ${target.asmVarname}+${target.constArrayIndexValue}")
CpuRegister.Y -> asmgen.out(" sty ${target.asmVarname}+${target.constArrayIndexValue}")
}
}
is IdentifierReference -> {
else -> {
when (register) {
CpuRegister.A -> {}
CpuRegister.X -> asmgen.out(" txa")
CpuRegister.Y -> asmgen.out(" tya")
}
asmgen.out(" ldy ${asmgen.asmVariableName(index)} | sta ${target.asmVarname},y")
}
else -> {
asmgen.saveRegister(register, false, target.scope)
asmgen.translateExpression(index)
asmgen.restoreRegister(register, false)
when (register) {
CpuRegister.A -> asmgen.out(" sta P8ZP_SCRATCH_B1")
CpuRegister.X -> asmgen.out(" stx P8ZP_SCRATCH_B1")
CpuRegister.Y -> asmgen.out(" sty P8ZP_SCRATCH_B1")
}
asmgen.out("""
inx
lda P8ESTACK_LO,x
tay
lda P8ZP_SCRATCH_B1
sta ${target.asmVarname},y
""")
asmgen.out(" ldy ${asmgen.asmVariableName(target.array!!.indexer.indexVar!!)} | sta ${target.asmVarname},y")
}
}
}
@ -886,8 +836,9 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
// } else if(target.array!!.arrayspec.index is IdentifierReference) {
// TODO("array[var] ${target.constArrayIndexValue}")
// }
val index = target.array!!.arrayspec.index
asmgen.translateExpression(index)
target.array!!
target.array.indexer.indexNum?.let { asmgen.translateExpression(it) }
target.array.indexer.indexVar?.let { asmgen.translateExpression(it) }
asmgen.out("""
inx
lda P8ESTACK_LO,x
@ -927,25 +878,13 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
storeByteViaRegisterAInMemoryAddress("#${byte.toHex()}", target.memory!!)
}
TargetStorageKind.ARRAY -> {
val index = target.array!!.arrayspec.index
when {
target.constArrayIndexValue!=null -> {
val indexValue = target.constArrayIndexValue!!
asmgen.out(" lda #${byte.toHex()} | sta ${target.asmVarname}+$indexValue")
}
index is IdentifierReference -> {
asmgen.loadScaledArrayIndexIntoRegister(target.array, DataType.UBYTE, CpuRegister.Y)
asmgen.out(" lda #<${byte.toHex()} | sta ${target.asmVarname},y")
}
else -> {
asmgen.translateExpression(index)
asmgen.out("""
inx
ldy P8ESTACK_LO,x
lda #${byte.toHex()}
sta ${target.asmVarname},y
""")
}
if (target.constArrayIndexValue!=null) {
val indexValue = target.constArrayIndexValue!!
asmgen.out(" lda #${byte.toHex()} | sta ${target.asmVarname}+$indexValue")
}
else {
asmgen.loadScaledArrayIndexIntoRegister(target.array!!, DataType.UBYTE, CpuRegister.Y)
asmgen.out(" lda #<${byte.toHex()} | sta ${target.asmVarname},y")
}
}
TargetStorageKind.REGISTER -> when(target.register!!) {
@ -995,9 +934,8 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
// } else if(target.array!!.arrayspec.index is IdentifierReference) {
// TODO("array[var] ${target.constArrayIndexValue}")
// }
val index = target.array!!.arrayspec.index
if (index is NumericLiteralValue) {
val indexValue = index.number.toInt() * DataType.FLOAT.memorySize()
if (target.array!!.indexer.indexNum!=null) {
val indexValue = target.array.indexer.constIndex()!! * DataType.FLOAT.memorySize()
asmgen.out("""
lda #0
sta ${target.asmVarname}+$indexValue
@ -1007,7 +945,7 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
sta ${target.asmVarname}+$indexValue+4
""")
} else {
asmgen.translateExpression(index)
asmgen.translateExpression(target.array.indexer.indexVar!!)
asmgen.out("""
lda #<${target.asmVarname}
sta P8ZP_SCRATCH_W1
@ -1049,10 +987,9 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
// } else if(target.array!!.arrayspec.index is IdentifierReference) {
// TODO("array[var] ${target.constArrayIndexValue}")
// }
val index = target.array!!.arrayspec.index
val arrayVarName = target.asmVarname
if (index is NumericLiteralValue) {
val indexValue = index.number.toInt() * DataType.FLOAT.memorySize()
if (target.array!!.indexer.indexNum!=null) {
val indexValue = target.array.indexer.constIndex()!! * DataType.FLOAT.memorySize()
asmgen.out("""
lda $constFloat
sta $arrayVarName+$indexValue
@ -1066,7 +1003,7 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
sta $arrayVarName+$indexValue+4
""")
} else {
asmgen.translateExpression(index)
asmgen.translateExpression(target.array.indexer.indexVar!!)
asmgen.out("""
lda #<${constFloat}
sta P8ZP_SCRATCH_W1
@ -1267,24 +1204,4 @@ internal class AssignmentAsmGen(private val program: Program, private val asmgen
}
}
}
private fun popAndWriteArrayvalueWithUnscaledIndexA(elementDt: DataType, asmArrayvarname: String) {
when (elementDt) {
in ByteDatatypes ->
asmgen.out(" tay | inx | lda P8ESTACK_LO,x | sta $asmArrayvarname,y")
in WordDatatypes ->
asmgen.out(" asl a | tay | inx | lda P8ESTACK_LO,x | sta $asmArrayvarname,y | lda P8ESTACK_HI,x | sta $asmArrayvarname+1,y")
DataType.FLOAT ->
// scaling * 5 is done in the subroutine that's called
asmgen.out("""
sta P8ESTACK_LO,x
dex
lda #<$asmArrayvarname
ldy #>$asmArrayvarname
jsr floats.pop_float_to_indexed_var
""")
else ->
throw AssemblyError("weird array type")
}
}
}

19
compiler/src/prog8/optimizer/BinExprSplitter.kt
View File

@ -71,19 +71,10 @@ X = BinExpr X = LeftExpr
return noModifications
}
private fun isSimpleTarget(target: AssignTarget, namespace: INameScope): Boolean {
return when {
target.identifier!=null -> target.isInRegularRAM(namespace)
target.memoryAddress!=null -> target.isInRegularRAM(namespace)
target.arrayindexed!=null -> {
val index = target.arrayindexed!!.arrayspec.index
if(index is NumericLiteralValue)
target.isInRegularRAM(namespace)
else
false
}
else -> false
}
}
private fun isSimpleTarget(target: AssignTarget, namespace: INameScope) =
if (target.identifier!=null || target.memoryAddress!=null || target.arrayindexed!=null)
target.isInRegularRAM(namespace)
else
false
}

22
compiler/src/prog8/optimizer/ConstantIdentifierReplacer.kt
View File

@ -58,15 +58,16 @@ internal class ConstantIdentifierReplacer(private val program: Program, private
override fun before(decl: VarDecl, parent: Node): Iterable<IAstModification> {
// the initializer value can't refer to the variable itself (recursive definition)
// TODO: use call graph for this?
if(decl.value?.referencesIdentifier(decl.name) == true || decl.arraysize?.index?.referencesIdentifier(decl.name) == true) {
if(decl.value?.referencesIdentifier(decl.name) == true || decl.arraysize?.indexVar?.referencesIdentifier(decl.name) == true) {
errors.err("recursive var declaration", decl.position)
return noModifications
}
if(decl.type== VarDeclType.CONST || decl.type== VarDeclType.VAR) {
if(decl.isArray){
if(decl.arraysize==null) {
// for arrays that have no size specifier (or a non-constant one) attempt to deduce the size
val arraysize = decl.arraysize
if(arraysize==null) {
// for arrays that have no size specifier attempt to deduce the size
val arrayval = decl.value as? ArrayLiteralValue
if(arrayval!=null) {
return listOf(IAstModification.SetExpression(
@ -75,14 +76,13 @@ internal class ConstantIdentifierReplacer(private val program: Program, private
decl
))
}
}
else if(decl.arraysize?.constIndex()==null) {
val size = decl.arraysize!!.index.constValue(program)
if(size!=null) {
return listOf(IAstModification.SetExpression(
{ decl.arraysize = ArrayIndex(it, decl.position) },
size, decl
))
} else if(arraysize.constIndex()==null) {
// see if we can calculate the size from other fields
val cval = arraysize.indexVar?.constValue(program) ?: arraysize.origExpression?.constValue(program)
if(cval!=null) {
arraysize.indexVar = null
arraysize.origExpression = null
arraysize.indexNum = cval
}
}
}

1
docs/source/todo.rst
View File

@ -3,7 +3,6 @@ TODO
====
- get rid of all other TODO's in the code ;-)
- only allow array indexing via a number, a variable, or a typecast of one of those (eliminate complex expression calcs for array indexing, force explicit use of an index variable)
- implement @stack for asmsub parameters
- make it possible to use cpu opcodes such as 'nop' as variable names by prefixing all asm vars with something such as '_'
- option to load the built-in library files from a directory instead of the embedded ones (for easier library development/debugging)