Calypso/TipsAndTricks

From D Wiki
Revision as of 05:01, 27 March 2018 by D user (talk | contribs) (Category:Experimental compilers)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to: navigation, search

Constructing C++ classes or structs inside malloc'd memory

When a C++ library expects to be granted ownership of a piece of memory, the allocation shouldn't be done by the GC unless you always keep a reference to the allocated memory, which is pointless additional work and not always possible.

Calypso provides a small runtime library which contains some commonplace utility functions, such as cppNew and cppDelete to bypass the GC while constructing C++ class/struct objects:

import cpp.memory; // cppNew and cppDelete
import (C++) std.unique_ptr;

auto testClass = cppNew!MyCppClass(...); // malloc then ctor call
unique_ptr!MyCppClass owner;
owner.reset(testClass);

// testClass will be free'd by the owner's dtor

New traits

Calypso provides a few new traits (some of them were needed for the implementation of C++ member function pointers, most of which is in the small Calypso runtime library):

isCpp

static assert (__traits(isCpp, MyCppClass) == true);

getBaseOffset

struct Base { int n; };
struct Base2 { int o; };

class Derived : public Base, public Base2 {};
static assert (__traits(getBaseOffset, Derived, Base2) == int.sizeof);

Works with C++ structs and classes, and D classes.

getCppVirtualIndex

Returns the C++ virtual table offset (in bytes) of the function, or -1 if it's not a C++ virtual function or a D function overriding one. Remember that an "hybrid" D class deriving from a C++ class usually has two or more virtual tables, the D one and a C++ one.

class MyCppClass {
    virtual int foo();
};
class DplusCpp {
    override int foo() { return 123; }
}

void main() {
    writeln(__traits(getCppVirtualIndex, DplusCpp.foo)); // should prints sizeof(void*)*2 according to the Itanium ABI
}

This trait was added for the library-side implementation of Itanium member function pointers.