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//===--- RuntimeDebugBuilder.h --- Helper to insert prints into LLVM-IR ---===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
//===----------------------------------------------------------------------===//
#ifndef RUNTIME_DEBUG_BUILDER_H
#define RUNTIME_DEBUG_BUILDER_H
#include "polly/CodeGen/IRBuilder.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/StringRef.h"
#include <vector>
namespace llvm {
class Value;
class Function;
} // namespace llvm
namespace polly {
/// Insert function calls that print certain LLVM values at run time.
///
/// This class inserts libc function calls to print certain LLVM values at
/// run time.
struct RuntimeDebugBuilder {
/// Generate a constant string into the builder's llvm::Module which can be
/// passed to createGPUPrinter() or createGPUPrinter().
///
/// @param Builder The builder used to emit the printer calls.
/// @param Str The string to be printed.
/// @return A global containing @p Str.
static llvm::Value *getPrintableString(PollyIRBuilder &Builder,
llvm::StringRef Str) {
// TODO: Get rid of magic number 4. It it NVPTX's constant address space and
// works on X86 (CPU) only because its backend ignores the address space.
return Builder.CreateGlobalStringPtr(Str, "", 4);
}
/// Return whether an llvm::Value of the type @p Ty is printable for
/// debugging.
///
/// That is, whether such a value can be passed to createGPUPrinter() or
/// createGPUPrinter() to be dumped as runtime. If false is returned, those
/// functions will fail.
static bool isPrintable(llvm::Type *Ty);
/// Print a set of LLVM-IR Values or StringRefs via printf
///
/// This function emits a call to printf that will print the given arguments.
/// It is useful for debugging CPU programs. All arguments given in this list
/// will be automatically concatenated and the resulting string will be
/// printed atomically. We also support ArrayRef arguments, which can be used
/// to provide of id values.
///
/// @param Builder The builder used to emit the printer calls.
/// @param Args The list of values to print.
template <typename... Args>
static void createCPUPrinter(PollyIRBuilder &Builder, Args... args) {
std::vector<llvm::Value *> Vector;
createPrinter(Builder, /* CPU */ false, Vector, args...);
}
/// Print a set of LLVM-IR Values or StringRefs on an NVIDIA GPU.
///
/// This function emits a call to vprintf that will print the given
/// arguments from within a kernel thread. It is useful for debugging
/// CUDA program kernels. All arguments given in this list will be
/// automatically concatenated and the resulting string will be printed
/// atomically. We also support ArrayRef arguments, which can be used to
/// provide for example a list of thread-id values.
///
/// @param Builder The builder used to emit the printer calls.
/// @param Args The list of values to print.
template <typename... Args>
static void createGPUPrinter(PollyIRBuilder &Builder, Args... args) {
std::vector<llvm::Value *> Vector;
createPrinter(Builder, /* GPU */ true, Vector, args...);
}
private:
/// Handle Values.
template <typename... Args>
static void createPrinter(PollyIRBuilder &Builder, bool UseGPU,
std::vector<llvm::Value *> &Values,
llvm::Value *Value, Args... args) {
Values.push_back(Value);
createPrinter(Builder, UseGPU, Values, args...);
}
/// Handle StringRefs.
template <typename... Args>
static void createPrinter(PollyIRBuilder &Builder, bool UseGPU,
std::vector<llvm::Value *> &Values,
llvm::StringRef String, Args... args) {
Values.push_back(getPrintableString(Builder, String));
createPrinter(Builder, UseGPU, Values, args...);
}
/// Handle ArrayRefs.
template <typename... Args>
static void createPrinter(PollyIRBuilder &Builder, bool UseGPU,
std::vector<llvm::Value *> &Values,
llvm::ArrayRef<llvm::Value *> Array, Args... args) {
Values.insert(Values.end(), Array.begin(), Array.end());
createPrinter(Builder, UseGPU, Values, args...);
}
/// Print a list of Values.
static void createPrinter(PollyIRBuilder &Builder, bool UseGPU,
llvm::ArrayRef<llvm::Value *> Values);
/// Print a list of Values on a GPU.
static void createGPUPrinterT(PollyIRBuilder &Builder,
llvm::ArrayRef<llvm::Value *> Values);
/// Print a list of Values on a CPU.
static void createCPUPrinterT(PollyIRBuilder &Builder,
llvm::ArrayRef<llvm::Value *> Values);
/// Get a reference to the 'printf' function.
///
/// If the current module does not yet contain a reference to printf, we
/// insert a reference to it. Otherwise the existing reference is returned.
static llvm::Function *getPrintF(PollyIRBuilder &Builder);
/// Call printf
///
/// @param Builder The builder used to insert the code.
/// @param Format The format string.
/// @param Values The set of values to print.
static void createPrintF(PollyIRBuilder &Builder, std::string Format,
llvm::ArrayRef<llvm::Value *> Values);
/// Get (and possibly insert) a vprintf declaration into the module.
static llvm::Function *getVPrintF(PollyIRBuilder &Builder);
/// Call fflush
///
/// @parma Builder The builder used to insert the code.
static void createFlush(PollyIRBuilder &Builder);
/// Get (and possibly insert) a NVIDIA address space cast call.
static llvm::Function *getAddressSpaceCast(PollyIRBuilder &Builder,
unsigned Src, unsigned Dst,
unsigned SrcBits = 8,
unsigned DstBits = 8);
/// Get identifiers that describe the currently executed GPU thread.
///
/// The result will be a vector that if passed to the GPU printer will result
/// into a string (initialized to values corresponding to the printing
/// thread):
///
/// "> block-id: bidx bid1y bidz | thread-id: tidx tidy tidz "
static std::vector<llvm::Value *>
getGPUThreadIdentifiers(PollyIRBuilder &Builder);
};
} // namespace polly
extern bool PollyDebugPrinting;
#endif