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-rw-r--r--src/antlr/com/jogamp/gluegen/cgram/HeaderParser.g120
1 files changed, 73 insertions, 47 deletions
diff --git a/src/antlr/com/jogamp/gluegen/cgram/HeaderParser.g b/src/antlr/com/jogamp/gluegen/cgram/HeaderParser.g
index 0478293..9ec3b9b 100644
--- a/src/antlr/com/jogamp/gluegen/cgram/HeaderParser.g
+++ b/src/antlr/com/jogamp/gluegen/cgram/HeaderParser.g
@@ -142,6 +142,8 @@ options {
if (t == null) {
t = CompoundType.create(structName, null, kind, cvAttrs, locusTag);
structDictionary.put(structName, t);
+ debugPrintln("Adding compound mapping: [" + structName + "] -> "+getDebugTypeString(t)+" @ "+locusTag);
+ debugPrintln(t.getStructString());
}
return t;
}
@@ -168,29 +170,6 @@ options {
void setType(final Type t) { type = t; }
public String toString() { return "ParamDecl["+id+": "+type.getDebugString()+"]"; }
}
- Type resolveAnonCompound(Type type) {
- int mode = 0;
- debugPrint("resolveAnonCompound: "+type.getDebugString());
- if( !type.hasName() ) {
- if( type.isCompound() ) {
- final CompoundType ct = type.asCompound();
- // return a copy w/ resolved name
- type = ((CompoundType) ct.clone()).evalStructTypeName();
- mode = 1;
- } else if( type.isPointer() ) {
- // non typedefed PointerType and base-elem w/o name
- final PointerType pt = type.asPointer();
- final Type b = pt.getBaseElementType();
- if( b != null && b.isCompound() && !b.hasName() ) {
- // return same w/ resolved name
- b.asCompound().evalStructTypeName();
- mode = 2;
- }
- }
- }
- debugPrintln(" -> "+type.getDebugString()+" - MODE "+mode);
- return type;
- }
// A box for a Type. Allows type to be passed down to be modified by recursive rules.
static class TypeBox {
@@ -319,13 +298,13 @@ options {
private void processDeclaration(Type returnType) {
if (isFuncDeclaration) {
final FunctionSymbol sym = new FunctionSymbol(funcDeclName,
- new FunctionType(null, null, resolveAnonCompound(returnType), 0, funcLocusTag),
+ new FunctionType(null, null, returnType, 0, funcLocusTag),
funcLocusTag);
debugPrintln("Function ... "+sym.toString()+" @ "+funcLocusTag);
if (funcDeclParams != null) { // handle funcs w/ empty parameter lists (e.g., "foo()")
for (Iterator<ParameterDeclaration> iter = funcDeclParams.iterator(); iter.hasNext(); ) {
ParameterDeclaration pd = iter.next();
- pd.setType(resolveAnonCompound(pd.type()));
+ pd.setType(pd.type());
debugPrintln(" add "+pd.toString());
sym.addArgument(pd.type(), pd.id());
}
@@ -683,7 +662,10 @@ structOrUnionBody[CompoundTypeKind kind, int cvAttrs] returns [CompoundType t] {
// anonymous struct
t = (CompoundType) canonicalize(lookupInStructDictionary(id2.getText(), kind, cvAttrs, locusTag));
}
- )
+ ) {
+ debugPrintln("Adding compound body: [" + t.getName() + "] -> "+getDebugTypeString(t)+" @ "+locusTag);
+ debugPrintln(t.getStructString());
+ }
;
structDeclarationList[CompoundType t] returns [boolean addedAny] {
@@ -773,10 +755,10 @@ enumSpecifier [int cvAttrs] returns [Type t] {
final EnumType dupE = enumMap.get(eName);
if( null != dupE && !dupE.equalSemantics(e) ) {
throwGlueGenException(enumSpecifier_AST_in,
- String.format("Duplicate enum w/ incompatible type:%n have '%s',%n this '%s'",
- getTypeString(dupE), getTypeString(e)));
+ String.format("Duplicate enum w/ incompatible type:%n this '%s',%n have '%s',%n previously declared here: %s",
+ getTypeString(e), getTypeString(dupE), dupE.getASTLocusTag()));
}
- enumMap.put(eName, (EnumType)e.clone());
+ enumMap.put(eName, (EnumType)e.clone(locusTag));
}
}
t = e; // return val
@@ -819,8 +801,8 @@ enumerator[EnumType enumeration, long defaultValue] returns [long newDefaultValu
final long oldValue = oldEnumType.getEnumValue(eTxt);
if( oldValue != newValue ) {
throwGlueGenException(enumerator_AST_in,
- String.format("Duplicate enum value '%s.%s' w/ diff value:%n have %d,%n this %d",
- oldEnumType.getName(), eTxt, oldValue, newValue));
+ String.format("Duplicate enum value '%s.%s' w/ diff value:%n this %d,%n have %d",
+ oldEnumType.getName(), eTxt, newValue, oldValue));
}
// remove old definition
oldEnumType.removeEnumerate(eTxt);
@@ -853,39 +835,39 @@ initDecl[TypeBox tb] {
{
if ((declName != null) && (tb != null) && tb.isTypedef()) {
Type t = tb.type();
- debugPrint("Adding typedef mapping: [" + declName + "] -> "+getDebugTypeString(t));
+ debugPrintln("Adding typedef mapping: [" + declName + "] -> "+getDebugTypeString(t));
+ final Type tg;
+ if( t.isPointer() ) {
+ tg = t.getTargetType();
+ debugPrintln(" - has target: "+getDebugTypeString(tg));
+ } else {
+ tg = null;
+ }
+ // NOTE: Struct Name Resolution (JavaEmitter, HeaderParser)
+ // Also see NOTE below.
if (!t.isTypedef()) {
if( t.isCompound() ) {
- // Allow redefinition of newly defined struct, i.e. use same instance.
- // This aliases '_a' -> 'A' for 'typedef struct _a { } A, *B;', where '*B' will become also '*A'.
+ // This aliases '_a' -> 'A' for 'typedef struct _a { } A;' in-place
t.setTypedefName(declName);
- debugPrint(" - redefine -> "+getDebugTypeString(t));
+ debugPrintln(" - alias.11 -> "+getDebugTypeString(t));
} else {
// Use new typedef, using a copy to preserve canonicalized base type
t = t.clone(locusTag);
t.setTypedefName(declName);
- debugPrint(" - newdefine -> "+getDebugTypeString(t));
+ debugPrintln(" - newdefine.12 -> "+getDebugTypeString(t));
}
} else {
// Adds typeInfo alias w/ t's typeInfo, if exists
cfg.addTypeInfo(declName, t);
final Type alias;
if( t.isCompound() ) {
- // Attempt to find a previous declared compound typedef
- // This aliases 'D' -> 'A' for 'typedef struct _a { } A, D;'
- alias = typedefDictionary.getEqualSemantics1(t, cfg, true);
- } else {
- alias = null;
- }
- if( null != alias ) {
- // use previous typedef
- t = alias;
- debugPrint(" - alias -> "+getDebugTypeString(t));
+ // This aliases 'D' -> 'A' for 'typedef struct _a { } A, D;' in-place
+ debugPrintln(" - alias.21 -> "+getDebugTypeString(t));
} else {
// copy to preserve canonicalized base type
t = t.clone(locusTag);
t.setTypedefName(declName);
- debugPrint(" - copy -> "+getDebugTypeString(t));
+ debugPrintln(" - copy.22 -> "+getDebugTypeString(t));
}
}
final Type dupT = typedefDictionary.get(declName);
@@ -901,6 +883,50 @@ initDecl[TypeBox tb] {
tb.reset();
}
}
+ /*
+ // Below just shows a different handling using copying
+ // and enforcing aliased names, which is not desired.
+ // Keeping it in here for documentation.
+ // NOTE: Struct Name Resolution (JavaEmitter, HeaderParser)
+ if ( !t.isTypedef() ) {
+ if( t.isCompound() ) {
+ // This aliases '_a' -> 'A' for 'typedef struct _a { } A;'
+ t.setTypedefName(declName);
+ debugPrintln(" - alias.10 -> "+getDebugTypeString(t));
+ } else if( null != tg && tg.isCompound() ) {
+ if( !tg.isTypedef() ) {
+ // This aliases '_a *' -> 'A*' for 'typedef struct _a { } *A;'
+ t.setTypedefName(declName);
+ debugPrintln(" - alias.11 -> "+getDebugTypeString(t));
+ } else {
+ // This aliases 'B' -> 'A*' for 'typedef struct _a { } A, *B;' and 'typedef A * B;'
+ t = new PointerType(SizeThunk.POINTER, tg, 0, locusTag); // name: 'A*'
+ t.setTypedefName(t.getName()); // make typedef
+ debugPrintln(" - alias.12 -> "+getDebugTypeString(t));
+ }
+ } else {
+ // Use new typedef, using a copy to preserve canonicalized base type
+ t = t.clone(locusTag);
+ t.setTypedefName(declName);
+ debugPrintln(" - newdefine.13 -> "+getDebugTypeString(t));
+ }
+ } else {
+ // Adds typeInfo alias w/ t's typeInfo, if exists
+ cfg.addTypeInfo(declName, t);
+ if( t.isCompound() ) {
+ // This aliases 'D' -> 'A' for 'typedef struct _a { } A, D;'
+ debugPrintln(" - alias.20 -> "+getDebugTypeString(t));
+ } else if( null != tg && tg.isCompound() ) {
+ // This aliases 'B' -> 'A' for 'typedef A B;', where A is pointer to compound
+ debugPrintln(" - alias.21 -> "+getDebugTypeString(t));
+ } else {
+ // copy to preserve canonicalized base type
+ t = t.clone(locusTag);
+ t.setTypedefName(declName);
+ debugPrintln(" - copy.22 -> "+getDebugTypeString(t));
+ }
+ }
+*/
;
pointerGroup[TypeBox tb] { int x = 0; int y = 0; }