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6

This is indeed a non-conforming O(n log n) implementation. Comparing it to the "sift up" version of heapify from the Wikipedia article on heapsort shows that it's essentially the same algorithm. Testing it on increasing integer sequences (the worst case) gives running times that nicely fit the n log n curve, and the number of comparisons needed exceeds the ...


5

In this code int k = (int)v.size() - 1; while(k >= 0 && v[k] >= v[k + 1]) v[k+1] refers to an element beyond the end of v on the first iteration, which gives undefined behaviour.


4

Some details on the kind of software distribution would help. The question implies a source code distribution, but there is a big difference between a library where programmers may need to interact with Halide produced code at a fine-grained level, and an application where use of Halide is largely invisible to the end user and the goal is just to get it to ...


3

The error is that you are using cmpxchgl with 64-bit values (cmpxchgl wants 32-bit values). Try cmpxchgq for 64-bit.


2

C and C++ Compilers generally have 4 stages: Pre-process Compile source to assembler Assemble assembler to binary object files Link multiple object files to produce one executable, shared library or static library In the case of clang, stage 2 is kind of split: first produce LLVM IR, then assemble that into assembly for the target architecture. clang ...


2

Kind of. Clang will spawn another instance of clang, as what you're really spawning with this kind of invocation is merely the driver, which then runs the compiler proper and then possibly invokes the assembler, the linker and any other tools necessary — but none are needed in the case of just -S -emit-llvm. You can see it for yourself by running Clang with ...


2

All of it is standard compiler terminology (see Aho, Lam, Sethi, Ullmann: Compilers). The input to a compiler is a file which contains a string of characters. IN: int main(int argc, char* argv[]) { printf("blimey\n"); // this is a comment return 0; } The output of the tokenizer is a sequence of tokens, where a token is defined as string of ...


1

Here are a couple of answers: Firstly, you should no longer use pnacl/build.sh to build the PNaCl toolchain: instead use toolchain_build/toolchain_build_pnacl.py. The documentation about how to build the PNaCl toolchain can be found here and has been updated to reflect the new script. Secondly, the actual problem you are describing comes not from building ...


1

If you got it from the tar.gz file available at https://pypi.python.org/packages/source/l/llvmpy/llvmpy-0.12.4.tar.gz , it is incomplete, try download as a zip from github https://github.com/llvmpy/llvmpy Or directly via git commands


1

You can print all the passes which the code goes through by using: clang -O2 -Rpass=.* code.cc -o code This will also print the information from each of the optimization passes that were used to process the code when O2 level is used with clang, for example. See this link for more details: ...


1

Emitting LLVM IR from Clang ASTs happens in Clang's code gen stage. The code for this stage lives in lib/CodeGen/ (relative to Clang's source root). There's no need to parse the AST since Clang has the AST in an in-memory data structure. Code generation is essentially a recursive walk of the AST that emits IR into a Module. If there's any specific step of it ...


1

This isn't currently possible.


1

You can write function pass and find the name of the function as below: #include "llvm/Pass.h" #include "llvm/IR/Function.h" #include "llvm/Support/raw_ostream.h" using namespace llvm; namespace { struct Hello : public FunctionPass { static char ID; Hello() : FunctionPass(ID) {} virtual bool runOnFunction(Function &F) { errs() << ...


1

Hardware trig is slow. Too many documents claim that x87 instructions like fsin or fsincos are the fastest way to do trigonometric functions. Those claims are often wrong. The fastest way depends on your CPU. As CPUs become faster, old hardware trig instructions like fsin have not kept pace. With some CPUs, a software function, using a polynomial ...


1

Regarding the 1st case: I'm not quite sure what's going on there. Why do you upcast BarType, for example? In any case, an easy way to check it out would be to call ->dump() on all the types involved and check out for yourself what the differences are. Also, avoid using static_cast on LLVM objects - there are more canonical ways to cast. To solve the ...



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