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Expanded inline casting to also handle nop casts of pointer derefs.

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This commit is contained in:
jespergravgaard 2018-01-24 23:29:44 +01:00
parent 15c1108d2c
commit f599eb2735
11 changed files with 601 additions and 111 deletions
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2
src/main/java/dk/camelot64/kickc/CompileLog.java
View File

@ -35,7 +35,7 @@ public class CompileLog {
/**
* Should the log be output to System.out while being built
*/
private boolean sysOut = false;
private boolean sysOut = true;
public CompileLog() {
this.log = new StringBuilder();

178
src/main/java/dk/camelot64/kickc/fragment/AsmFragmentInstanceSpec.java
View File

@ -190,6 +190,7 @@ public class AsmFragmentInstanceSpec {
this.signature = signature;
}
/**
* Add bindings of a value.
*
@ -197,101 +198,68 @@ public class AsmFragmentInstanceSpec {
* @return The bound name of the value. If the value has already been bound the existing bound name is returned.
*/
public String bind(Value value) {
if(value instanceof PointerDereferenceSimple) {
PointerDereferenceSimple deref = (PointerDereferenceSimple) value;
return "_deref_" + bind(deref.getPointer());
} else if(value instanceof PointerDereferenceIndexed) {
PointerDereferenceIndexed deref = (PointerDereferenceIndexed) value;
return bind(deref.getPointer()) + "_derefidx_" + bind(deref.getIndex());
}
return bind(value, null);
}
if(value instanceof VariableRef) {
value = program.getSymbolInfos().getVariable((VariableRef) value);
}
if(value instanceof ConstantRef) {
value = program.getScope().getConstant((ConstantRef) value);
}
/**
* Add bindings of a value.
*
* @param value The value to bind.
* @return The bound name of the value. If the value has already been bound the existing bound name is returned.
*/
public String bind(Value value, SymbolType type) {
// Find value if it is already bound
for(String name : bindings.keySet()) {
Value bound = bindings.get(name);
if(bound.equals(value)) {
return name;
}
}
if(value instanceof Variable) {
Variable variable = (Variable) value;
SymbolType varType = variable.getType();
// Find the register
Registers.Register register = variable.getAllocation();
// Examine if the register is already bound - and reuse it
String bound = findBound(varType, register);
if(bound != null) return bound;
// Bind the register
String name = getTypePrefix(varType) + getRegisterName(register);
bindings.put(name, value);
return name;
} else if(value instanceof CastValue) {
if(value instanceof CastValue) {
CastValue castVal = (CastValue) value;
SymbolType toType = castVal.getToType();
value = castVal.getValue();
// Assume cast value is a symbol-ref
value = program.getSymbolInfos().getSymbol((SymbolRef) value);
if(value instanceof ConstantVar || value instanceof ConstantValue) {
String name = getTypePrefix(toType) + "c" + nextConstByteIdx++;
bindings.put(name, value);
return name;
} else if(value instanceof Variable) {
// Find the register
Variable variable = (Variable) value;
Registers.Register register = variable.getAllocation();
// Examine if the register is already bound (with the cast to type) - and reuse it
String bound = findBound(toType, register);
if(bound != null) {
String name = getTypePrefix(toType) + getRegisterName(register);
return name;
} else {
// Bind the register
String name = getTypePrefix(toType) + getRegisterName(register);
bindings.put(name, value);
return name;
}
} else {
throw new RuntimeException("Unhandled cast to type " + value);
return bind(value, toType);
} else if(value instanceof PointerDereference) {
PointerDereference deref = (PointerDereference) value;
SymbolType ptrType = null;
if(type != null) {
ptrType = new SymbolTypePointer(type);
}
} else if(value instanceof ConstantVar || value instanceof ConstantValue) {
SymbolType constType;
if(value instanceof ConstantVar) {
constType = ((ConstantVar) value).getType();
} else {
constType = SymbolTypeInference.inferType(program.getScope(), (ConstantValue) value);
if(value instanceof PointerDereferenceSimple) {
return "_deref_" + bind(deref.getPointer(), ptrType);
} else if(value instanceof PointerDereferenceIndexed) {
PointerDereferenceIndexed derefIdx = (PointerDereferenceIndexed) value;
return bind(derefIdx.getPointer(), ptrType) + "_derefidx_" + bind(derefIdx.getIndex());
}
String name = getTypePrefix(constType) + "c" + nextConstByteIdx++;
bindings.put(name, value);
} else if(value instanceof VariableRef) {
Variable variable = program.getSymbolInfos().getVariable((VariableRef) value);
if(type == null) {
type = variable.getType();
}
Registers.Register register = variable.getAllocation();
String name = getTypePrefix(type) + getRegisterName(register);
bind(name, variable);
return name;
} else if(value instanceof ConstantValue) {
if(type == null) {
type = SymbolTypeInference.inferType(program.getScope(), (RValue) value);
}
String name = getTypePrefix(type) + getConstName(value);
bind(name, value);
return name;
} else if(value instanceof Label) {
String name = "la" + nextLabelIdx++;
bindings.put(name, value);
bind(name, value);
return name;
}
throw new RuntimeException("Binding of value type not supported " + value);
}
private String findBound(SymbolType varType, Registers.Register register) {
// Find value if it is already bound
for(String name : bindings.keySet()) {
Value bound = bindings.get(name);
if(bound instanceof Variable) {
Registers.Register boundRegister = ((Variable) bound).getAllocation();
if(boundRegister != null && boundRegister.equals(register)) {
if(SymbolTypeInference.typeMatch(((Variable) bound).getType(), varType)) {
return name;
}
}
}
/**
* Add binding for a name/value pair if it is not already bound.
*
* @param name The name
* @param value The value
*/
private void bind(String name, Value value) {
if(bindings.get(name) == null) {
bindings.put(name, value);
}
return null;
}
/**
@ -335,10 +303,29 @@ public class AsmFragmentInstanceSpec {
* @return The register part of the binding name.
*/
private String getRegisterName(Registers.Register register) {
if(Registers.RegisterType.ZP_BYTE.equals(register.getType())) {
return "z" + getRegisterZpNameIdx((Registers.RegisterZp) register);
} else if(Registers.RegisterType.ZP_WORD.equals(register.getType())) {
return "z" + getRegisterZpNameIdx((Registers.RegisterZp) register);
if(Registers.RegisterType.ZP_BYTE.equals(register.getType()) || Registers.RegisterType.ZP_WORD.equals(register.getType())) {
// Examine if the ZP register is already bound
Registers.RegisterZp registerZp = (Registers.RegisterZp) register;
String zpNameIdx = null;
for(String boundName : bindings.keySet()) {
Value boundValue = bindings.get(boundName);
if(boundValue instanceof Variable) {
Registers.Register boundRegister = ((Variable) boundValue).getAllocation();
if(boundRegister != null && boundRegister.isZp()) {
Registers.RegisterZp boundRegisterZp = (Registers.RegisterZp) boundRegister;
if(registerZp.getZp() == boundRegisterZp.getZp()) {
// Found other register with same ZP address!
zpNameIdx = boundName.substring(boundName.length() - 1);
break;
}
}
}
}
// If not create a new one
if(zpNameIdx == null) {
zpNameIdx = Integer.toString(nextZpByteIdx++);
}
return "z" + zpNameIdx;
} else if(Registers.RegisterType.REG_A_BYTE.equals(register.getType())) {
return "aa";
} else if(Registers.RegisterType.REG_X_BYTE.equals(register.getType())) {
@ -352,31 +339,20 @@ public class AsmFragmentInstanceSpec {
}
}
/**
* Get the register ZP name index to use for a specific register.
* Examines all previous bindings to reuse register index if the same register is bound multiple times.
*
* @param register The register to find an index for
* @return The index. Either reused ot allocated from {@link #nextZpByteIdx}
*/
private String getRegisterZpNameIdx(Registers.RegisterZp register) {
private String getConstName(Value constant) {
// If the constant is already bound - reuse the index
for(String boundName : bindings.keySet()) {
Value boundValue = bindings.get(boundName);
if(boundValue instanceof Variable) {
Registers.Register boundRegister = ((Variable) boundValue).getAllocation();
if(boundRegister != null && boundRegister.isZp()) {
Registers.RegisterZp boundRegisterZp = (Registers.RegisterZp) boundRegister;
if(register.getZp() == boundRegisterZp.getZp()) {
// Found other register with same ZP address!
return boundName.substring(boundName.length() - 1);
}
if(boundValue instanceof ConstantValue || boundValue instanceof ConstantVar) {
if(boundValue.equals(constant)) {
return "c" + boundName.substring(boundName.length() - 1);
}
}
}
return Integer.toString(nextZpByteIdx++);
// Otherwise use a new index
return "c" + nextConstByteIdx++;
}
public Program getProgram() {
return program;
}

8
src/main/java/dk/camelot64/kickc/parser/KickC.g4
View File

@ -6,7 +6,7 @@ file
;
asmFile
: bodyAsm EOF
: asmLines EOF
;
importSeq
@ -58,7 +58,7 @@ stmt
| 'do' stmt 'while' '(' expr ')' ';' #stmtDoWhile
| 'for' '(' forDeclaration? forIteration ')' stmt #stmtFor
| 'return' expr? ';' #stmtReturn
| 'asm' '{' bodyAsm '}' #stmtAsm
| 'asm' '{' asmLines '}' #stmtAsm
;
forDeclaration
@ -80,8 +80,8 @@ typeDecl
expr
: '(' expr ')' #exprPar
| NAME '(' parameterList? ')' #exprCall
| '(' typeDecl ')' expr #exprCast
| expr '[' expr ']' #exprArray
| '(' typeDecl ')' expr #exprCast
| ('--' | '++' ) expr #exprPreMod
| expr ('--' | '++' ) #exprPostMod
| '*' expr #exprPtr
@ -109,7 +109,7 @@ parameterList
: expr (',' expr)*
;
bodyAsm
asmLines
: asmLine*
;

10
src/main/java/dk/camelot64/kickc/parser/KickCParser.java
View File

@ -2063,7 +2063,7 @@ public class KickCParser extends Parser {
setState(234);
match(T__2);
setState(235);
expr(23);
expr(22);
}
break;
case 4:
@ -2388,7 +2388,7 @@ public class KickCParser extends Parser {
_localctx = new ExprArrayContext(new ExprContext(_parentctx, _parentState));
pushNewRecursionContext(_localctx, _startState, RULE_expr);
setState(293);
if (!(precpred(_ctx, 22))) throw new FailedPredicateException(this, "precpred(_ctx, 22)");
if (!(precpred(_ctx, 23))) throw new FailedPredicateException(this, "precpred(_ctx, 23)");
setState(294);
match(T__21);
setState(295);
@ -3384,7 +3384,7 @@ public class KickCParser extends Parser {
case 11:
return precpred(_ctx, 7);
case 12:
return precpred(_ctx, 22);
return precpred(_ctx, 23);
case 13:
return precpred(_ctx, 20);
}
@ -3489,7 +3489,7 @@ public class KickCParser extends Parser {
"\7\5\2\2\u00e3\u0108\3\2\2\2\u00e4\u00e5\7B\2\2\u00e5\u00e7\7\4\2\2\u00e6"+
"\u00e8\5$\23\2\u00e7\u00e6\3\2\2\2\u00e7\u00e8\3\2\2\2\u00e8\u00e9\3\2"+
"\2\2\u00e9\u0108\7\5\2\2\u00ea\u00eb\7\4\2\2\u00eb\u00ec\5 \21\2\u00ec"+
"\u00ed\7\5\2\2\u00ed\u00ee\5\"\22\31\u00ee\u0108\3\2\2\2\u00ef\u00f0\t"+
"\u00ed\7\5\2\2\u00ed\u00ee\5\"\22\30\u00ee\u0108\3\2\2\2\u00ef\u00f0\t"+
"\2\2\2\u00f0\u0108\5\"\22\27\u00f1\u00f2\7\27\2\2\u00f2\u0108\5\"\22\25"+
"\u00f3\u00f4\t\3\2\2\u00f4\u0108\5\"\22\24\u00f5\u00f6\t\4\2\2\u00f6\u0108"+
"\5\"\22\20\u00f7\u00f8\7\6\2\2\u00f8\u00fd\5\"\22\2\u00f9\u00fa\7\b\2"+
@ -3510,7 +3510,7 @@ public class KickCParser extends Parser {
"\u012f\5\"\22\r\u011e\u011f\f\13\2\2\u011f\u0120\7\60\2\2\u0120\u012f"+
"\5\"\22\f\u0121\u0122\f\n\2\2\u0122\u0123\7\61\2\2\u0123\u012f\5\"\22"+
"\13\u0124\u0125\f\t\2\2\u0125\u0126\7\t\2\2\u0126\u012f\5\"\22\t\u0127"+
"\u0128\f\30\2\2\u0128\u0129\7\30\2\2\u0129\u012a\5\"\22\2\u012a\u012b"+
"\u0128\f\31\2\2\u0128\u0129\7\30\2\2\u0129\u012a\5\"\22\2\u012a\u012b"+
"\7\31\2\2\u012b\u012f\3\2\2\2\u012c\u012d\f\26\2\2\u012d\u012f\t\2\2\2"+
"\u012e\u0109\3\2\2\2\u012e\u010c\3\2\2\2\u012e\u010f\3\2\2\2\u012e\u0112"+
"\3\2\2\2\u012e\u0115\3\2\2\2\u012e\u0118\3\2\2\2\u012e\u011b\3\2\2\2\u012e"+

3
src/main/java/dk/camelot64/kickc/passes/Pass4CodeGeneration.java
View File

@ -145,6 +145,9 @@ public class Pass4CodeGeneration {
if(SymbolType.isByte(constantArrayList.getElementType())) {
asm.addDataNumeric(asmName.replace("#", "_").replace("$", "_"), AsmDataNumeric.Type.BYTE, asmElements);
added.add(asmName);
} else if(SymbolType.isSByte(constantArrayList.getElementType())) {
asm.addDataNumeric(asmName.replace("#", "_").replace("$", "_"), AsmDataNumeric.Type.BYTE, asmElements);
added.add(asmName);
} else {
throw new RuntimeException("Unhandled constant array element type " + constantArrayList.toString(program));
}

5
src/test/java/dk/camelot64/kickc/test/TestPrograms.java
View File

@ -42,6 +42,11 @@ public class TestPrograms {
AsmFragmentTemplateUsages.logUsages(log, false, false, false, false, false, false);
}
@Test
public void testCastDeref() throws IOException, URISyntaxException {
compileAndCompare("cast-deref");
}
@Test
public void testRasterBars() throws IOException, URISyntaxException {
compileAndCompare("raster-bars");

9
src/test/java/dk/camelot64/kickc/test/kc/cast-deref.kc Normal file
View File

@ -0,0 +1,9 @@
// Example of NOP-casting a dereferenced signed byte to a byte
void main() {
signed byte[] sbs = { -1, -2, -3, -4};
byte* SCREEN = $0400;
for(byte i : 0..3) {
SCREEN[i] = (byte) sbs[i];
}
}

16
src/test/java/dk/camelot64/kickc/test/ref/cast-deref.asm Normal file
View File

@ -0,0 +1,16 @@
.pc = $801 "Basic"
:BasicUpstart(main)
.pc = $80d "Program"
jsr main
main: {
.const SCREEN = $400
ldx #0
b1:
lda sbs,x
sta SCREEN,x
inx
cpx #4
bne b1
rts
sbs: .byte -1, -2, -3, -4
}

21
src/test/java/dk/camelot64/kickc/test/ref/cast-deref.cfg Normal file
View File

@ -0,0 +1,21 @@
@begin: scope:[] from
[0] phi() [ ] ( )
to:@1
@1: scope:[] from @begin
[1] phi() [ ] ( )
[2] call main param-assignment [ ] ( )
to:@end
@end: scope:[] from @1
[3] phi() [ ] ( )
main: scope:[main] from @1
[4] phi() [ ] ( main:2 [ ] )
to:main::@1
main::@1: scope:[main] from main main::@1
[5] (byte) main::i#2 ← phi( main/(byte/signed byte/word/signed word) 0 main::@1/(byte) main::i#1 ) [ main::i#2 ] ( main:2 [ main::i#2 ] )
[6] *((const byte*) main::SCREEN#0 + (byte) main::i#2) ← (byte)*((const signed byte[]) main::sbs#0 + (byte) main::i#2) [ main::i#2 ] ( main:2 [ main::i#2 ] )
[7] (byte) main::i#1 ← ++ (byte) main::i#2 [ main::i#1 ] ( main:2 [ main::i#1 ] )
[8] if((byte) main::i#1!=(byte/signed byte/word/signed word) 4) goto main::@1 [ main::i#1 ] ( main:2 [ main::i#1 ] )
to:main::@return
main::@return: scope:[main] from main::@1
[9] return [ ] ( main:2 [ ] )
to:@return

445
src/test/java/dk/camelot64/kickc/test/ref/cast-deref.log Normal file
View File

@ -0,0 +1,445 @@
PARSING src/test/java/dk/camelot64/kickc/test/kc/cast-deref.kc
// Example of NOP-casting a dereferenced signed byte to a byte
void main() {
signed byte[] sbs = { -1, -2, -3, -4};
byte* SCREEN = $0400;
for(byte i : 0..3) {
SCREEN[i] = (byte) sbs[i];
}
}
STATEMENTS
proc (void()) main()
(signed byte/signed word~) main::$0 ← - (byte/signed byte/word/signed word) 1
(signed byte/signed word~) main::$1 ← - (byte/signed byte/word/signed word) 2
(signed byte/signed word~) main::$2 ← - (byte/signed byte/word/signed word) 3
(signed byte/signed word~) main::$3 ← - (byte/signed byte/word/signed word) 4
(signed byte[]) main::sbs ← { (signed byte/signed word~) main::$0, (signed byte/signed word~) main::$1, (signed byte/signed word~) main::$2, (signed byte/signed word~) main::$3 }
(byte*) main::SCREEN ← (word/signed word) 1024
(byte) main::i ← (byte/signed byte/word/signed word) 0
main::@1:
(byte~) main::$4 ← ((byte)) *((signed byte[]) main::sbs + (byte) main::i)
*((byte*) main::SCREEN + (byte) main::i) ← (byte~) main::$4
(byte) main::i ← ++ (byte) main::i
(boolean~) main::$5 ← (byte) main::i != (byte/signed byte/word/signed word) 4
if((boolean~) main::$5) goto main::@1
main::@return:
return
endproc // main()
call main
SYMBOLS
(void()) main()
(signed byte/signed word~) main::$0
(signed byte/signed word~) main::$1
(signed byte/signed word~) main::$2
(signed byte/signed word~) main::$3
(byte~) main::$4
(boolean~) main::$5
(label) main::@1
(label) main::@return
(byte*) main::SCREEN
(byte) main::i
(signed byte[]) main::sbs
Promoting word/signed word to byte* in main::SCREEN ← ((byte*)) 1024
INITIAL CONTROL FLOW GRAPH
@begin: scope:[] from
to:@1
main: scope:[main] from
(signed byte/signed word~) main::$0 ← - (byte/signed byte/word/signed word) 1
(signed byte/signed word~) main::$1 ← - (byte/signed byte/word/signed word) 2
(signed byte/signed word~) main::$2 ← - (byte/signed byte/word/signed word) 3
(signed byte/signed word~) main::$3 ← - (byte/signed byte/word/signed word) 4
(signed byte[]) main::sbs ← { (signed byte/signed word~) main::$0, (signed byte/signed word~) main::$1, (signed byte/signed word~) main::$2, (signed byte/signed word~) main::$3 }
(byte*) main::SCREEN ← ((byte*)) (word/signed word) 1024
(byte) main::i ← (byte/signed byte/word/signed word) 0
to:main::@1
main::@1: scope:[main] from main main::@1
(byte~) main::$4 ← ((byte)) *((signed byte[]) main::sbs + (byte) main::i)
*((byte*) main::SCREEN + (byte) main::i) ← (byte~) main::$4
(byte) main::i ← ++ (byte) main::i
(boolean~) main::$5 ← (byte) main::i != (byte/signed byte/word/signed word) 4
if((boolean~) main::$5) goto main::@1
to:main::@2
main::@2: scope:[main] from main::@1
to:main::@return
main::@return: scope:[main] from main::@2
return
to:@return
@1: scope:[] from @begin
call main
to:@end
@end: scope:[] from @1
Removing empty block main::@2
PROCEDURE MODIFY VARIABLE ANALYSIS
Completing Phi functions...
CONTROL FLOW GRAPH SSA WITH ASSIGNMENT CALL & RETURN
@begin: scope:[] from
to:@1
main: scope:[main] from @1
(signed byte/signed word~) main::$0 ← - (byte/signed byte/word/signed word) 1
(signed byte/signed word~) main::$1 ← - (byte/signed byte/word/signed word) 2
(signed byte/signed word~) main::$2 ← - (byte/signed byte/word/signed word) 3
(signed byte/signed word~) main::$3 ← - (byte/signed byte/word/signed word) 4
(signed byte[]) main::sbs#0 ← { (signed byte/signed word~) main::$0, (signed byte/signed word~) main::$1, (signed byte/signed word~) main::$2, (signed byte/signed word~) main::$3 }
(byte*) main::SCREEN#0 ← ((byte*)) (word/signed word) 1024
(byte) main::i#0 ← (byte/signed byte/word/signed word) 0
to:main::@1
main::@1: scope:[main] from main main::@1
(byte*) main::SCREEN#1 ← phi( main/(byte*) main::SCREEN#0 main::@1/(byte*) main::SCREEN#1 )
(byte) main::i#2 ← phi( main/(byte) main::i#0 main::@1/(byte) main::i#1 )
(byte~) main::$4 ← ((byte)) *((signed byte[]) main::sbs#0 + (byte) main::i#2)
*((byte*) main::SCREEN#1 + (byte) main::i#2) ← (byte~) main::$4
(byte) main::i#1 ← ++ (byte) main::i#2
(boolean~) main::$5 ← (byte) main::i#1 != (byte/signed byte/word/signed word) 4
if((boolean~) main::$5) goto main::@1
to:main::@return
main::@return: scope:[main] from main::@1
return
to:@return
@1: scope:[] from @begin
call main param-assignment
to:@2
@2: scope:[] from @1
to:@end
@end: scope:[] from @2
SYMBOL TABLE SSA
(label) @1
(label) @2
(label) @begin
(label) @end
(void()) main()
(signed byte/signed word~) main::$0
(signed byte/signed word~) main::$1
(signed byte/signed word~) main::$2
(signed byte/signed word~) main::$3
(byte~) main::$4
(boolean~) main::$5
(label) main::@1
(label) main::@return
(byte*) main::SCREEN
(byte*) main::SCREEN#0
(byte*) main::SCREEN#1
(byte) main::i
(byte) main::i#0
(byte) main::i#1
(byte) main::i#2
(signed byte[]) main::sbs
(signed byte[]) main::sbs#0
OPTIMIZING CONTROL FLOW GRAPH
Culled Empty Block (label) @2
Succesful SSA optimization Pass2CullEmptyBlocks
Self Phi Eliminated (byte*) main::SCREEN#1
Succesful SSA optimization Pass2SelfPhiElimination
Redundant Phi (byte*) main::SCREEN#1 (byte*) main::SCREEN#0
Succesful SSA optimization Pass2RedundantPhiElimination
Simple Condition (boolean~) main::$5 if((byte) main::i#1!=(byte/signed byte/word/signed word) 4) goto main::@1
Succesful SSA optimization Pass2ConditionalJumpSimplification
Constant (const signed byte/signed word) main::$0 = -1
Constant (const signed byte/signed word) main::$1 = -2
Constant (const signed byte/signed word) main::$2 = -3
Constant (const signed byte/signed word) main::$3 = -4
Constant (const byte*) main::SCREEN#0 = ((byte*))1024
Constant (const byte) main::i#0 = 0
Succesful SSA optimization Pass2ConstantIdentification
Constant (const signed byte[]) main::sbs#0 = { main::$0, main::$1, main::$2, main::$3 }
Succesful SSA optimization Pass2ConstantIdentification
Eliminating Noop Cast (byte~) main::$4 ← ((byte)) *((const signed byte[]) main::sbs#0 + (byte) main::i#2)
Succesful SSA optimization Pass2NopCastElimination
OPTIMIZING CONTROL FLOW GRAPH
Inlining constant with var siblings (const byte) main::i#0
Inlining constant with var siblings (const byte) main::i#0
Constant inlined main::i#0 = (byte/signed byte/word/signed word) 0
Constant inlined main::$3 = -(byte/signed byte/word/signed word) 4
Constant inlined main::$1 = -(byte/signed byte/word/signed word) 2
Constant inlined main::$2 = -(byte/signed byte/word/signed word) 3
Constant inlined main::$0 = -(byte/signed byte/word/signed word) 1
Succesful SSA optimization Pass2ConstantInlining
Block Sequence Planned @begin @1 @end main main::@1 main::@return
Added new block during phi lifting main::@3(between main::@1 and main::@1)
Block Sequence Planned @begin @1 @end main main::@1 main::@return main::@3
Adding NOP phi() at start of @begin
Adding NOP phi() at start of @1
Adding NOP phi() at start of @end
Adding NOP phi() at start of main
CALL GRAPH
Calls in [] to main:2
Propagating live ranges...
Propagating live ranges...
Created 1 initial phi equivalence classes
Coalesced [10] main::i#3 ← main::i#1
Coalesced down to 1 phi equivalence classes
Culled Empty Block (label) main::@3
Block Sequence Planned @begin @1 @end main main::@1 main::@return
Adding NOP phi() at start of @begin
Adding NOP phi() at start of @1
Adding NOP phi() at start of @end
Adding NOP phi() at start of main
Propagating live ranges...
Propagating live ranges...
FINAL CONTROL FLOW GRAPH
@begin: scope:[] from
[0] phi() [ ] ( )
to:@1
@1: scope:[] from @begin
[1] phi() [ ] ( )
[2] call main param-assignment [ ] ( )
to:@end
@end: scope:[] from @1
[3] phi() [ ] ( )
main: scope:[main] from @1
[4] phi() [ ] ( main:2 [ ] )
to:main::@1
main::@1: scope:[main] from main main::@1
[5] (byte) main::i#2 ← phi( main/(byte/signed byte/word/signed word) 0 main::@1/(byte) main::i#1 ) [ main::i#2 ] ( main:2 [ main::i#2 ] )
[6] *((const byte*) main::SCREEN#0 + (byte) main::i#2) ← (byte)*((const signed byte[]) main::sbs#0 + (byte) main::i#2) [ main::i#2 ] ( main:2 [ main::i#2 ] )
[7] (byte) main::i#1 ← ++ (byte) main::i#2 [ main::i#1 ] ( main:2 [ main::i#1 ] )
[8] if((byte) main::i#1!=(byte/signed byte/word/signed word) 4) goto main::@1 [ main::i#1 ] ( main:2 [ main::i#1 ] )
to:main::@return
main::@return: scope:[main] from main::@1
[9] return [ ] ( main:2 [ ] )
to:@return
DOMINATORS
@begin dominated by @begin
@1 dominated by @1 @begin
@end dominated by @1 @begin @end
main dominated by @1 @begin main
main::@1 dominated by @1 @begin main::@1 main
main::@return dominated by main::@return @1 @begin main::@1 main
NATURAL LOOPS
Found back edge: Loop head: main::@1 tails: main::@1 blocks: null
Populated: Loop head: main::@1 tails: main::@1 blocks: main::@1
Loop head: main::@1 tails: main::@1 blocks: main::@1
NATURAL LOOPS WITH DEPTH
Found 0 loops in scope []
Found 1 loops in scope [main]
Loop head: main::@1 tails: main::@1 blocks: main::@1
Loop head: main::@1 tails: main::@1 blocks: main::@1 depth: 1
VARIABLE REGISTER WEIGHTS
(void()) main()
(byte*) main::SCREEN
(byte) main::i
(byte) main::i#1 16.5
(byte) main::i#2 16.5
(signed byte[]) main::sbs
Initial phi equivalence classes
[ main::i#2 main::i#1 ]
Complete equivalence classes
[ main::i#2 main::i#1 ]
Allocated zp ZP_BYTE:2 [ main::i#2 main::i#1 ]
INITIAL ASM
//SEG0 Basic Upstart
.pc = $801 "Basic"
:BasicUpstart(main)
.pc = $80d "Program"
//SEG1 Global Constants & labels
//SEG2 @begin
bbegin:
//SEG3 [1] phi from @begin to @1 [phi:@begin->@1]
b1_from_bbegin:
jmp b1
//SEG4 @1
b1:
//SEG5 [2] call main param-assignment [ ] ( )
//SEG6 [4] phi from @1 to main [phi:@1->main]
main_from_b1:
jsr main
//SEG7 [3] phi from @1 to @end [phi:@1->@end]
bend_from_b1:
jmp bend
//SEG8 @end
bend:
//SEG9 main
main: {
.const SCREEN = $400
.label i = 2
//SEG10 [5] phi from main to main::@1 [phi:main->main::@1]
b1_from_main:
//SEG11 [5] phi (byte) main::i#2 = (byte/signed byte/word/signed word) 0 [phi:main->main::@1#0] -- vbuz1=vbuc1
lda #0
sta i
jmp b1
//SEG12 [5] phi from main::@1 to main::@1 [phi:main::@1->main::@1]
b1_from_b1:
//SEG13 [5] phi (byte) main::i#2 = (byte) main::i#1 [phi:main::@1->main::@1#0] -- register_copy
jmp b1
//SEG14 main::@1
b1:
//SEG15 [6] *((const byte*) main::SCREEN#0 + (byte) main::i#2) ← (byte)*((const signed byte[]) main::sbs#0 + (byte) main::i#2) [ main::i#2 ] ( main:2 [ main::i#2 ] ) -- pbuc1_derefidx_vbuz1=pbuc2_derefidx_vbuz1
ldy i
lda sbs,y
sta SCREEN,y
//SEG16 [7] (byte) main::i#1 ← ++ (byte) main::i#2 [ main::i#1 ] ( main:2 [ main::i#1 ] ) -- vbuz1=_inc_vbuz1
inc i
//SEG17 [8] if((byte) main::i#1!=(byte/signed byte/word/signed word) 4) goto main::@1 [ main::i#1 ] ( main:2 [ main::i#1 ] ) -- vbuz1_neq_vbuc1_then_la1
lda i
cmp #4
bne b1_from_b1
jmp breturn
//SEG18 main::@return
breturn:
//SEG19 [9] return [ ] ( main:2 [ ] )
rts
sbs: .byte -1, -2, -3, -4
}
REGISTER UPLIFT POTENTIAL REGISTERS
Statement [6] *((const byte*) main::SCREEN#0 + (byte) main::i#2) ← (byte)*((const signed byte[]) main::sbs#0 + (byte) main::i#2) [ main::i#2 ] ( main:2 [ main::i#2 ] ) always clobbers reg byte a
Removing always clobbered register reg byte a as potential for zp ZP_BYTE:2 [ main::i#2 main::i#1 ]
Statement [6] *((const byte*) main::SCREEN#0 + (byte) main::i#2) ← (byte)*((const signed byte[]) main::sbs#0 + (byte) main::i#2) [ main::i#2 ] ( main:2 [ main::i#2 ] ) always clobbers reg byte a
Potential registers zp ZP_BYTE:2 [ main::i#2 main::i#1 ] : zp ZP_BYTE:2 , reg byte x , reg byte y ,
REGISTER UPLIFT SCOPES
Uplift Scope [main] 33: zp ZP_BYTE:2 [ main::i#2 main::i#1 ]
Uplift Scope []
Uplifting [main] best 288 combination reg byte x [ main::i#2 main::i#1 ]
Uplifting [] best 288 combination
ASSEMBLER BEFORE OPTIMIZATION
//SEG0 Basic Upstart
.pc = $801 "Basic"
:BasicUpstart(main)
.pc = $80d "Program"
//SEG1 Global Constants & labels
//SEG2 @begin
bbegin:
//SEG3 [1] phi from @begin to @1 [phi:@begin->@1]
b1_from_bbegin:
jmp b1
//SEG4 @1
b1:
//SEG5 [2] call main param-assignment [ ] ( )
//SEG6 [4] phi from @1 to main [phi:@1->main]
main_from_b1:
jsr main
//SEG7 [3] phi from @1 to @end [phi:@1->@end]
bend_from_b1:
jmp bend
//SEG8 @end
bend:
//SEG9 main
main: {
.const SCREEN = $400
//SEG10 [5] phi from main to main::@1 [phi:main->main::@1]
b1_from_main:
//SEG11 [5] phi (byte) main::i#2 = (byte/signed byte/word/signed word) 0 [phi:main->main::@1#0] -- vbuxx=vbuc1
ldx #0
jmp b1
//SEG12 [5] phi from main::@1 to main::@1 [phi:main::@1->main::@1]
b1_from_b1:
//SEG13 [5] phi (byte) main::i#2 = (byte) main::i#1 [phi:main::@1->main::@1#0] -- register_copy
jmp b1
//SEG14 main::@1
b1:
//SEG15 [6] *((const byte*) main::SCREEN#0 + (byte) main::i#2) ← (byte)*((const signed byte[]) main::sbs#0 + (byte) main::i#2) [ main::i#2 ] ( main:2 [ main::i#2 ] ) -- pbuc1_derefidx_vbuxx=pbuc2_derefidx_vbuxx
lda sbs,x
sta SCREEN,x
//SEG16 [7] (byte) main::i#1 ← ++ (byte) main::i#2 [ main::i#1 ] ( main:2 [ main::i#1 ] ) -- vbuxx=_inc_vbuxx
inx
//SEG17 [8] if((byte) main::i#1!=(byte/signed byte/word/signed word) 4) goto main::@1 [ main::i#1 ] ( main:2 [ main::i#1 ] ) -- vbuxx_neq_vbuc1_then_la1
cpx #4
bne b1_from_b1
jmp breturn
//SEG18 main::@return
breturn:
//SEG19 [9] return [ ] ( main:2 [ ] )
rts
sbs: .byte -1, -2, -3, -4
}
ASSEMBLER OPTIMIZATIONS
Removing instruction jmp b1
Removing instruction jmp bend
Removing instruction jmp b1
Removing instruction jmp breturn
Succesful ASM optimization Pass5NextJumpElimination
Replacing label b1_from_b1 with b1
Removing instruction bbegin:
Removing instruction b1_from_bbegin:
Removing instruction main_from_b1:
Removing instruction bend_from_b1:
Removing instruction b1_from_b1:
Succesful ASM optimization Pass5RedundantLabelElimination
Removing instruction b1:
Removing instruction bend:
Removing instruction b1_from_main:
Removing instruction breturn:
Succesful ASM optimization Pass5UnusedLabelElimination
Removing instruction jmp b1
Succesful ASM optimization Pass5NextJumpElimination
FINAL SYMBOL TABLE
(label) @1
(label) @begin
(label) @end
(void()) main()
(label) main::@1
(label) main::@return
(byte*) main::SCREEN
(const byte*) main::SCREEN#0 SCREEN = ((byte*))(word/signed word) 1024
(byte) main::i
(byte) main::i#1 reg byte x 16.5
(byte) main::i#2 reg byte x 16.5
(signed byte[]) main::sbs
(const signed byte[]) main::sbs#0 sbs = { -(byte/signed byte/word/signed word) 1, -(byte/signed byte/word/signed word) 2, -(byte/signed byte/word/signed word) 3, -(byte/signed byte/word/signed word) 4 }
reg byte x [ main::i#2 main::i#1 ]
FINAL ASSEMBLER
Score: 192
//SEG0 Basic Upstart
.pc = $801 "Basic"
:BasicUpstart(main)
.pc = $80d "Program"
//SEG1 Global Constants & labels
//SEG2 @begin
//SEG3 [1] phi from @begin to @1 [phi:@begin->@1]
//SEG4 @1
//SEG5 [2] call main param-assignment [ ] ( )
//SEG6 [4] phi from @1 to main [phi:@1->main]
jsr main
//SEG7 [3] phi from @1 to @end [phi:@1->@end]
//SEG8 @end
//SEG9 main
main: {
.const SCREEN = $400
//SEG10 [5] phi from main to main::@1 [phi:main->main::@1]
//SEG11 [5] phi (byte) main::i#2 = (byte/signed byte/word/signed word) 0 [phi:main->main::@1#0] -- vbuxx=vbuc1
ldx #0
//SEG12 [5] phi from main::@1 to main::@1 [phi:main::@1->main::@1]
//SEG13 [5] phi (byte) main::i#2 = (byte) main::i#1 [phi:main::@1->main::@1#0] -- register_copy
//SEG14 main::@1
b1:
//SEG15 [6] *((const byte*) main::SCREEN#0 + (byte) main::i#2) ← (byte)*((const signed byte[]) main::sbs#0 + (byte) main::i#2) [ main::i#2 ] ( main:2 [ main::i#2 ] ) -- pbuc1_derefidx_vbuxx=pbuc2_derefidx_vbuxx
lda sbs,x
sta SCREEN,x
//SEG16 [7] (byte) main::i#1 ← ++ (byte) main::i#2 [ main::i#1 ] ( main:2 [ main::i#1 ] ) -- vbuxx=_inc_vbuxx
inx
//SEG17 [8] if((byte) main::i#1!=(byte/signed byte/word/signed word) 4) goto main::@1 [ main::i#1 ] ( main:2 [ main::i#1 ] ) -- vbuxx_neq_vbuc1_then_la1
cpx #4
bne b1
//SEG18 main::@return
//SEG19 [9] return [ ] ( main:2 [ ] )
rts
sbs: .byte -1, -2, -3, -4
}

15
src/test/java/dk/camelot64/kickc/test/ref/cast-deref.sym Normal file
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@ -0,0 +1,15 @@
(label) @1
(label) @begin
(label) @end
(void()) main()
(label) main::@1
(label) main::@return
(byte*) main::SCREEN
(const byte*) main::SCREEN#0 SCREEN = ((byte*))(word/signed word) 1024
(byte) main::i
(byte) main::i#1 reg byte x 16.5
(byte) main::i#2 reg byte x 16.5
(signed byte[]) main::sbs
(const signed byte[]) main::sbs#0 sbs = { -(byte/signed byte/word/signed word) 1, -(byte/signed byte/word/signed word) 2, -(byte/signed byte/word/signed word) 3, -(byte/signed byte/word/signed word) 4 }
reg byte x [ main::i#2 main::i#1 ]