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https://github.com/c64scene-ar/llvm-6502.git
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2b6bd7aaf5
Summary: As discussed in http://lists.cs.uiuc.edu/pipermail/llvm-commits/Week-of-Mon-20141027/242445.html, the creation of reader and writer instances is better done using ErrorOr. There are no functional changes, but several callers needed to be adjusted. Reviewers: bogner Subscribers: llvm-commits Differential Revision: http://reviews.llvm.org/D6076 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@221120 91177308-0d34-0410-b5e6-96231b3b80d8
400 lines
15 KiB
C++
400 lines
15 KiB
C++
//===- SampleProfReader.cpp - Read LLVM sample profile data ---------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the class that reads LLVM sample profiles. It
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// supports two file formats: text and binary. The textual representation
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// is useful for debugging and testing purposes. The binary representation
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// is more compact, resulting in smaller file sizes. However, they can
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// both be used interchangeably.
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//
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// NOTE: If you are making changes to the file format, please remember
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// to document them in the Clang documentation at
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// tools/clang/docs/UsersManual.rst.
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//
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// Text format
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// -----------
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//
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// Sample profiles are written as ASCII text. The file is divided into
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// sections, which correspond to each of the functions executed at runtime.
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// Each section has the following format
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//
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// function1:total_samples:total_head_samples
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// offset1[.discriminator]: number_of_samples [fn1:num fn2:num ... ]
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// offset2[.discriminator]: number_of_samples [fn3:num fn4:num ... ]
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// ...
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// offsetN[.discriminator]: number_of_samples [fn5:num fn6:num ... ]
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//
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// The file may contain blank lines between sections and within a
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// section. However, the spacing within a single line is fixed. Additional
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// spaces will result in an error while reading the file.
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//
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// Function names must be mangled in order for the profile loader to
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// match them in the current translation unit. The two numbers in the
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// function header specify how many total samples were accumulated in the
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// function (first number), and the total number of samples accumulated
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// in the prologue of the function (second number). This head sample
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// count provides an indicator of how frequently the function is invoked.
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//
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// Each sampled line may contain several items. Some are optional (marked
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// below):
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//
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// a. Source line offset. This number represents the line number
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// in the function where the sample was collected. The line number is
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// always relative to the line where symbol of the function is
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// defined. So, if the function has its header at line 280, the offset
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// 13 is at line 293 in the file.
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//
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// Note that this offset should never be a negative number. This could
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// happen in cases like macros. The debug machinery will register the
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// line number at the point of macro expansion. So, if the macro was
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// expanded in a line before the start of the function, the profile
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// converter should emit a 0 as the offset (this means that the optimizers
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// will not be able to associate a meaningful weight to the instructions
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// in the macro).
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//
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// b. [OPTIONAL] Discriminator. This is used if the sampled program
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// was compiled with DWARF discriminator support
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// (http://wiki.dwarfstd.org/index.php?title=Path_Discriminators).
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// DWARF discriminators are unsigned integer values that allow the
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// compiler to distinguish between multiple execution paths on the
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// same source line location.
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//
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// For example, consider the line of code ``if (cond) foo(); else bar();``.
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// If the predicate ``cond`` is true 80% of the time, then the edge
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// into function ``foo`` should be considered to be taken most of the
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// time. But both calls to ``foo`` and ``bar`` are at the same source
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// line, so a sample count at that line is not sufficient. The
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// compiler needs to know which part of that line is taken more
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// frequently.
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//
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// This is what discriminators provide. In this case, the calls to
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// ``foo`` and ``bar`` will be at the same line, but will have
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// different discriminator values. This allows the compiler to correctly
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// set edge weights into ``foo`` and ``bar``.
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//
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// c. Number of samples. This is an integer quantity representing the
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// number of samples collected by the profiler at this source
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// location.
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//
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// d. [OPTIONAL] Potential call targets and samples. If present, this
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// line contains a call instruction. This models both direct and
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// number of samples. For example,
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//
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// 130: 7 foo:3 bar:2 baz:7
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//
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// The above means that at relative line offset 130 there is a call
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// instruction that calls one of ``foo()``, ``bar()`` and ``baz()``,
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// with ``baz()`` being the relatively more frequently called target.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ProfileData/SampleProfReader.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/ErrorOr.h"
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#include "llvm/Support/LEB128.h"
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#include "llvm/Support/LineIterator.h"
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#include "llvm/Support/MemoryBuffer.h"
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#include "llvm/Support/Regex.h"
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using namespace llvm::sampleprof;
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using namespace llvm;
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/// \brief Print the samples collected for a function on stream \p OS.
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///
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/// \param OS Stream to emit the output to.
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void FunctionSamples::print(raw_ostream &OS) {
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OS << TotalSamples << ", " << TotalHeadSamples << ", " << BodySamples.size()
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<< " sampled lines\n";
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for (const auto &SI : BodySamples) {
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LineLocation Loc = SI.first;
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const SampleRecord &Sample = SI.second;
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OS << "\tline offset: " << Loc.LineOffset
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<< ", discriminator: " << Loc.Discriminator
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<< ", number of samples: " << Sample.getSamples();
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if (Sample.hasCalls()) {
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OS << ", calls:";
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for (const auto &I : Sample.getCallTargets())
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OS << " " << I.first() << ":" << I.second;
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}
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OS << "\n";
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}
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OS << "\n";
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}
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/// \brief Dump the function profile for \p FName.
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///
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/// \param FName Name of the function to print.
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/// \param OS Stream to emit the output to.
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void SampleProfileReader::dumpFunctionProfile(StringRef FName,
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raw_ostream &OS) {
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OS << "Function: " << FName << ": ";
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Profiles[FName].print(OS);
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}
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/// \brief Dump all the function profiles found on stream \p OS.
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void SampleProfileReader::dump(raw_ostream &OS) {
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for (const auto &I : Profiles)
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dumpFunctionProfile(I.getKey(), OS);
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}
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/// \brief Load samples from a text file.
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///
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/// See the documentation at the top of the file for an explanation of
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/// the expected format.
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///
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/// \returns true if the file was loaded successfully, false otherwise.
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std::error_code SampleProfileReaderText::read() {
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line_iterator LineIt(*Buffer, /*SkipBlanks=*/true, '#');
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// Read the profile of each function. Since each function may be
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// mentioned more than once, and we are collecting flat profiles,
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// accumulate samples as we parse them.
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Regex HeadRE("^([^0-9].*):([0-9]+):([0-9]+)$");
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Regex LineSampleRE("^([0-9]+)\\.?([0-9]+)?: ([0-9]+)(.*)$");
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Regex CallSampleRE(" +([^0-9 ][^ ]*):([0-9]+)");
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while (!LineIt.is_at_eof()) {
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// Read the header of each function.
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//
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// Note that for function identifiers we are actually expecting
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// mangled names, but we may not always get them. This happens when
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// the compiler decides not to emit the function (e.g., it was inlined
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// and removed). In this case, the binary will not have the linkage
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// name for the function, so the profiler will emit the function's
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// unmangled name, which may contain characters like ':' and '>' in its
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// name (member functions, templates, etc).
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//
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// The only requirement we place on the identifier, then, is that it
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// should not begin with a number.
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SmallVector<StringRef, 4> Matches;
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if (!HeadRE.match(*LineIt, &Matches)) {
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reportParseError(LineIt.line_number(),
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"Expected 'mangled_name:NUM:NUM', found " + *LineIt);
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return sampleprof_error::malformed;
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}
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assert(Matches.size() == 4);
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StringRef FName = Matches[1];
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unsigned NumSamples, NumHeadSamples;
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Matches[2].getAsInteger(10, NumSamples);
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Matches[3].getAsInteger(10, NumHeadSamples);
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Profiles[FName] = FunctionSamples();
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FunctionSamples &FProfile = Profiles[FName];
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FProfile.addTotalSamples(NumSamples);
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FProfile.addHeadSamples(NumHeadSamples);
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++LineIt;
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// Now read the body. The body of the function ends when we reach
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// EOF or when we see the start of the next function.
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while (!LineIt.is_at_eof() && isdigit((*LineIt)[0])) {
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if (!LineSampleRE.match(*LineIt, &Matches)) {
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reportParseError(
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LineIt.line_number(),
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"Expected 'NUM[.NUM]: NUM[ mangled_name:NUM]*', found " + *LineIt);
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return sampleprof_error::malformed;
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}
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assert(Matches.size() == 5);
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unsigned LineOffset, NumSamples, Discriminator = 0;
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Matches[1].getAsInteger(10, LineOffset);
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if (Matches[2] != "")
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Matches[2].getAsInteger(10, Discriminator);
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Matches[3].getAsInteger(10, NumSamples);
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// If there are function calls in this line, generate a call sample
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// entry for each call.
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std::string CallsLine(Matches[4]);
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while (CallsLine != "") {
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SmallVector<StringRef, 3> CallSample;
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if (!CallSampleRE.match(CallsLine, &CallSample)) {
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reportParseError(LineIt.line_number(),
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"Expected 'mangled_name:NUM', found " + CallsLine);
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return sampleprof_error::malformed;
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}
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StringRef CalledFunction = CallSample[1];
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unsigned CalledFunctionSamples;
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CallSample[2].getAsInteger(10, CalledFunctionSamples);
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FProfile.addCalledTargetSamples(LineOffset, Discriminator,
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CalledFunction, CalledFunctionSamples);
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CallsLine = CallSampleRE.sub("", CallsLine);
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}
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FProfile.addBodySamples(LineOffset, Discriminator, NumSamples);
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++LineIt;
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}
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}
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return sampleprof_error::success;
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}
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template <typename T> ErrorOr<T> SampleProfileReaderBinary::readNumber() {
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unsigned NumBytesRead = 0;
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std::error_code EC;
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uint64_t Val = decodeULEB128(Data, &NumBytesRead);
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if (Val > std::numeric_limits<T>::max())
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EC = sampleprof_error::malformed;
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else if (Data + NumBytesRead > End)
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EC = sampleprof_error::truncated;
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else
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EC = sampleprof_error::success;
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if (EC) {
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reportParseError(0, EC.message());
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return EC;
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}
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Data += NumBytesRead;
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return static_cast<T>(Val);
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}
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ErrorOr<StringRef> SampleProfileReaderBinary::readString() {
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std::error_code EC;
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StringRef Str(reinterpret_cast<const char *>(Data));
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if (Data + Str.size() + 1 > End) {
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EC = sampleprof_error::truncated;
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reportParseError(0, EC.message());
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return EC;
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}
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Data += Str.size() + 1;
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return Str;
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}
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std::error_code SampleProfileReaderBinary::read() {
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while (!at_eof()) {
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auto FName(readString());
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if (std::error_code EC = FName.getError())
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return EC;
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Profiles[*FName] = FunctionSamples();
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FunctionSamples &FProfile = Profiles[*FName];
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auto Val = readNumber<unsigned>();
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if (std::error_code EC = Val.getError())
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return EC;
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FProfile.addTotalSamples(*Val);
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Val = readNumber<unsigned>();
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if (std::error_code EC = Val.getError())
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return EC;
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FProfile.addHeadSamples(*Val);
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// Read the samples in the body.
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auto NumRecords = readNumber<unsigned>();
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if (std::error_code EC = NumRecords.getError())
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return EC;
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for (unsigned I = 0; I < *NumRecords; ++I) {
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auto LineOffset = readNumber<uint64_t>();
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if (std::error_code EC = LineOffset.getError())
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return EC;
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auto Discriminator = readNumber<uint64_t>();
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if (std::error_code EC = Discriminator.getError())
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return EC;
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auto NumSamples = readNumber<uint64_t>();
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if (std::error_code EC = NumSamples.getError())
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return EC;
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auto NumCalls = readNumber<unsigned>();
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if (std::error_code EC = NumCalls.getError())
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return EC;
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for (unsigned J = 0; J < *NumCalls; ++J) {
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auto CalledFunction(readString());
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if (std::error_code EC = CalledFunction.getError())
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return EC;
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auto CalledFunctionSamples = readNumber<uint64_t>();
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if (std::error_code EC = CalledFunctionSamples.getError())
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return EC;
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FProfile.addCalledTargetSamples(*LineOffset, *Discriminator,
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*CalledFunction,
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*CalledFunctionSamples);
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}
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FProfile.addBodySamples(*LineOffset, *Discriminator, *NumSamples);
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}
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}
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return sampleprof_error::success;
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}
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std::error_code SampleProfileReaderBinary::readHeader() {
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Data = reinterpret_cast<const uint8_t *>(Buffer->getBufferStart());
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End = Data + Buffer->getBufferSize();
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// Read and check the magic identifier.
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auto Magic = readNumber<uint64_t>();
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if (std::error_code EC = Magic.getError())
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return EC;
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else if (*Magic != SPMagic())
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return sampleprof_error::bad_magic;
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// Read the version number.
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auto Version = readNumber<uint64_t>();
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if (std::error_code EC = Version.getError())
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return EC;
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else if (*Version != SPVersion())
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return sampleprof_error::unsupported_version;
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return sampleprof_error::success;
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}
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bool SampleProfileReaderBinary::hasFormat(const MemoryBuffer &Buffer) {
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const uint8_t *Data =
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reinterpret_cast<const uint8_t *>(Buffer.getBufferStart());
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uint64_t Magic = decodeULEB128(Data);
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return Magic == SPMagic();
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}
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/// \brief Prepare a memory buffer for the contents of \p Filename.
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///
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/// \returns an error code indicating the status of the buffer.
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static ErrorOr<std::unique_ptr<MemoryBuffer>>
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setupMemoryBuffer(std::string Filename) {
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auto BufferOrErr = MemoryBuffer::getFileOrSTDIN(Filename);
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if (std::error_code EC = BufferOrErr.getError())
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return EC;
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auto Buffer = std::move(BufferOrErr.get());
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// Sanity check the file.
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if (Buffer->getBufferSize() > std::numeric_limits<unsigned>::max())
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return sampleprof_error::too_large;
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return std::move(Buffer);
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}
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/// \brief Create a sample profile reader based on the format of the input file.
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///
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/// \param Filename The file to open.
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///
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/// \param Reader The reader to instantiate according to \p Filename's format.
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///
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/// \param C The LLVM context to use to emit diagnostics.
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///
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/// \returns an error code indicating the status of the created reader.
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ErrorOr<std::unique_ptr<SampleProfileReader>>
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SampleProfileReader::create(StringRef Filename, LLVMContext &C) {
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auto BufferOrError = setupMemoryBuffer(Filename);
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if (std::error_code EC = BufferOrError.getError())
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return EC;
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auto Buffer = std::move(BufferOrError.get());
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std::unique_ptr<SampleProfileReader> Reader;
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if (SampleProfileReaderBinary::hasFormat(*Buffer))
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Reader.reset(new SampleProfileReaderBinary(std::move(Buffer), C));
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else
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Reader.reset(new SampleProfileReaderText(std::move(Buffer), C));
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if (std::error_code EC = Reader->readHeader())
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return EC;
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return std::move(Reader);
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}
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