I'd like to pass an UninterpretedBytes to an external library, say something like this
MyLibrary>>foo: buf len: len <C: int foo(void *buf,unsigned int len)> MyApplication>>test buffer := UninterpretedBytes new: 4. ^MyLibrary new foo: buffer len: buffer size.
But this fails in
I know that I could use
buffer gcCopyToHeap but I don't want to.
I want to handle an object in Smalltalk memory with Smalltalk 1-based address and no extra copy nor any other complication.
I find the last lines of
(anObject isString or: [self isOopRef and: [anObject class isBits and: [anObject class isVariable]]]) ifTrue: [^anObject].
self isOopRef means that the CPointerType has been declared as
If I cheat and declare:
MyLibrary>>foo: buf len: len <C: int foo(_oopref *buf,unsigned int len)>
MyApplication new test works as expected, but I don't want to cheat, the prototypes are extracted automatically from C headers and I don't want to patch them manually.
self isOopRef semantically means is a reference to an Object Oriented Pointer.
Every Object can be viewed as an Object Oriented Pointer and can thus be passed by reference to such
_oopref *, except immediate objects like SmallInteger SmallDouble Character. There is a guard above in code to check for the case when
anObject isImmediate, so at this stage,
anObject is definitely an oop.
Such _oopref could be manipulated from within the external C-code, for example thru some Object Engine function oe*(), and this is not limited to arrays of bytes/words/double words!
and: [anObject class isBits and: [anObject class isVariable]] thus makes no sense.
If I modify the last lines of
(anObject isString or: [self isOopRef or: [anObject class isBits and: [anObject class isVariable]]]) ifTrue: [^anObject].
MyApplication new test works like a charm.
Wasn't it the real intention? Pass either any kind of non immediate object if the prototype specifies a pointer to an oop, or pass a reference to an array of bytes/words/...