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[WIP] Merge DMD r251: bugzilla 111 (appending a dchar to a char[]) This patch needs some work in the code generation, because of the runtime changes (functions "_d_arrayappendcd" and "_d_arrayappendwd" are added). This doesn't affect existing code though, it just makes with patch a little useless, because something like this: char [] s; s ~= '\u6211'; That failed to compile with a nice error message previously to this change, now fails with and ugly error message (a failed assertion). Apparently there is a regression introduced by this patch too, when compiling Dil I get this assertion message: ldc: /home/luca/tesis/ldc/gen/statements.cpp:132: virtual void ReturnStatement::toIR(IRState*): Assertion `p->topfunc()->getReturnType() == llvm::Type::getVoidTy(gIR->context())' failed. 0 ldc 0x08a91628 Thank god we have bisecting capabilities in VCSs now ;) --- dmd/expression.c | 47 +++++++++++++++++++++++++++++++++++++++++------ 1 files changed, 41 insertions(+), 6 deletions(-)
author Leandro Lucarella <llucax@gmail.com>
date Wed, 06 Jan 2010 15:18:19 -0300
parents 1ba61de8796b
children
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// simple hello world sample of D LLVM
module llvmsample1;

import llvm.llvm;

void main()
{
    // create module
    auto m = new Module("sample1");
    scope(exit) m.dispose();

    // declare string
    auto chello = ConstantArray.GetString("Hello World!\n", true);
    auto hello = m.addGlobal(chello.type, "hellostring");
    hello.initializer = chello;
    hello.linkage = Linkage.Internal;
    hello.globalConstant = true;

    // declare printf
    auto printfType = FunctionType.Get(Type.Int32, [ PointerType.Get(Type.Int8) ], true);
    auto llprintf = m.addFunction(printfType, "printf");

    // declare main
    auto mainType = FunctionType.Get(Type.Int32, null);
    auto llmain = m.addFunction(mainType, "main");

    // create builder
    auto b = new Builder;
    scope(exit) b.dispose();

    // create main body block
    auto bb = llmain.appendBasicBlock("entry");
    b.positionAtEnd(bb);

    // call printf
    auto zero = ConstantInt.GetU(Type.Int32, 0);
    auto helloptr = b.buildGEP(hello, [ zero, zero ], "str");
    helloptr.dump();
    auto args = [ helloptr ];
    auto call = b.buildCall(llprintf, args, "");

    // return 0
    b.buildRet(ConstantInt.GetS(Type.Int32, 0));

    // write bitcode
    m.writeBitcodeToFile("sample1.bc");
}