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6dcf584d45
llvm-svn: 305969
463 lines
18 KiB
C++
463 lines
18 KiB
C++
//===- SampleProfReader.h - Read LLVM sample profile data -------*- C++ -*-===//
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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 contains definitions needed for reading sample profiles.
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//
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// NOTE: If you are making changes to this 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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// offsetA[.discriminator]: fnA:num_of_total_samples
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// offsetA1[.discriminator]: number_of_samples [fn7:num fn8:num ... ]
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// ...
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//
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// This is a nested tree in which the identation represents the nesting level
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// of the inline stack. There are no blank lines in the file. And the spacing
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// within a single line is fixed. Additional spaces will result in an error
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// while reading the file.
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//
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// Any line starting with the '#' character is completely ignored.
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//
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// Inlined calls are represented with indentation. The Inline stack is a
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// stack of source locations in which the top of the stack represents the
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// leaf function, and the bottom of the stack represents the actual
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// symbol to which the instruction belongs.
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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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// There are two types of lines in the function body.
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//
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// * Sampled line represents the profile information of a source location.
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// * Callsite line represents the profile information of a callsite.
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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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// Each callsite line may contain several items. Some are optional.
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//
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// a. Source line offset. This number represents the line number of the
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// callsite that is inlined in the profiled binary.
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//
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// b. [OPTIONAL] Discriminator. Same as the discriminator for sampled line.
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//
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// c. Number of samples. This is an integer quantity representing the
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// total number of samples collected for the inlined instance at this
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// callsite
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//
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//
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// Binary format
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// -------------
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//
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// This is a more compact encoding. Numbers are encoded as ULEB128 values
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// and all strings are encoded in a name table. The file is organized in
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// the following sections:
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//
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// MAGIC (uint64_t)
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// File identifier computed by function SPMagic() (0x5350524f463432ff)
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//
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// VERSION (uint32_t)
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// File format version number computed by SPVersion()
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//
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// SUMMARY
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// TOTAL_COUNT (uint64_t)
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// Total number of samples in the profile.
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// MAX_COUNT (uint64_t)
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// Maximum value of samples on a line.
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// MAX_FUNCTION_COUNT (uint64_t)
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// Maximum number of samples at function entry (head samples).
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// NUM_COUNTS (uint64_t)
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// Number of lines with samples.
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// NUM_FUNCTIONS (uint64_t)
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// Number of functions with samples.
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// NUM_DETAILED_SUMMARY_ENTRIES (size_t)
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// Number of entries in detailed summary
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// DETAILED_SUMMARY
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// A list of detailed summary entry. Each entry consists of
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// CUTOFF (uint32_t)
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// Required percentile of total sample count expressed as a fraction
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// multiplied by 1000000.
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// MIN_COUNT (uint64_t)
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// The minimum number of samples required to reach the target
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// CUTOFF.
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// NUM_COUNTS (uint64_t)
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// Number of samples to get to the desrired percentile.
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//
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// NAME TABLE
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// SIZE (uint32_t)
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// Number of entries in the name table.
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// NAMES
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// A NUL-separated list of SIZE strings.
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//
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// FUNCTION BODY (one for each uninlined function body present in the profile)
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// HEAD_SAMPLES (uint64_t) [only for top-level functions]
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// Total number of samples collected at the head (prologue) of the
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// function.
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// NOTE: This field should only be present for top-level functions
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// (i.e., not inlined into any caller). Inlined function calls
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// have no prologue, so they don't need this.
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// NAME_IDX (uint32_t)
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// Index into the name table indicating the function name.
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// SAMPLES (uint64_t)
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// Total number of samples collected in this function.
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// NRECS (uint32_t)
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// Total number of sampling records this function's profile.
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// BODY RECORDS
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// A list of NRECS entries. Each entry contains:
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// OFFSET (uint32_t)
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// Line offset from the start of the function.
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// DISCRIMINATOR (uint32_t)
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// Discriminator value (see description of discriminators
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// in the text format documentation above).
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// SAMPLES (uint64_t)
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// Number of samples collected at this location.
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// NUM_CALLS (uint32_t)
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// Number of non-inlined function calls made at this location. In the
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// case of direct calls, this number will always be 1. For indirect
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// calls (virtual functions and function pointers) this will
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// represent all the actual functions called at runtime.
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// CALL_TARGETS
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// A list of NUM_CALLS entries for each called function:
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// NAME_IDX (uint32_t)
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// Index into the name table with the callee name.
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// SAMPLES (uint64_t)
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// Number of samples collected at the call site.
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// NUM_INLINED_FUNCTIONS (uint32_t)
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// Number of callees inlined into this function.
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// INLINED FUNCTION RECORDS
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// A list of NUM_INLINED_FUNCTIONS entries describing each of the inlined
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// callees.
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// OFFSET (uint32_t)
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// Line offset from the start of the function.
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// DISCRIMINATOR (uint32_t)
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// Discriminator value (see description of discriminators
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// in the text format documentation above).
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// FUNCTION BODY
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// A FUNCTION BODY entry describing the inlined function.
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_PROFILEDATA_SAMPLEPROFREADER_H
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#define LLVM_PROFILEDATA_SAMPLEPROFREADER_H
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/ADT/StringMap.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/ADT/Twine.h"
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#include "llvm/IR/DiagnosticInfo.h"
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#include "llvm/IR/Function.h"
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#include "llvm/IR/LLVMContext.h"
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#include "llvm/IR/ProfileSummary.h"
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#include "llvm/ProfileData/SampleProf.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/GCOV.h"
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#include "llvm/Support/MemoryBuffer.h"
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#include <algorithm>
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#include <cstdint>
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#include <memory>
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#include <string>
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#include <system_error>
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#include <vector>
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namespace llvm {
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class raw_ostream;
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namespace sampleprof {
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/// \brief Sample-based profile reader.
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///
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/// Each profile contains sample counts for all the functions
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/// executed. Inside each function, statements are annotated with the
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/// collected samples on all the instructions associated with that
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/// statement.
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///
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/// For this to produce meaningful data, the program needs to be
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/// compiled with some debug information (at minimum, line numbers:
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/// -gline-tables-only). Otherwise, it will be impossible to match IR
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/// instructions to the line numbers collected by the profiler.
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///
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/// From the profile file, we are interested in collecting the
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/// following information:
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///
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/// * A list of functions included in the profile (mangled names).
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///
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/// * For each function F:
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/// 1. The total number of samples collected in F.
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///
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/// 2. The samples collected at each line in F. To provide some
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/// protection against source code shuffling, line numbers should
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/// be relative to the start of the function.
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///
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/// The reader supports two file formats: text and binary. The text format
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/// is useful for debugging and testing, while the binary format is more
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/// compact and I/O efficient. They can both be used interchangeably.
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class SampleProfileReader {
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public:
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SampleProfileReader(std::unique_ptr<MemoryBuffer> B, LLVMContext &C)
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: Profiles(0), Ctx(C), Buffer(std::move(B)) {}
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virtual ~SampleProfileReader() = default;
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/// \brief Read and validate the file header.
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virtual std::error_code readHeader() = 0;
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/// \brief Read sample profiles from the associated file.
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virtual std::error_code read() = 0;
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/// \brief Print the profile for \p FName on stream \p OS.
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void dumpFunctionProfile(StringRef FName, raw_ostream &OS = dbgs());
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/// \brief Print all the profiles on stream \p OS.
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void dump(raw_ostream &OS = dbgs());
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/// \brief Return the samples collected for function \p F.
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FunctionSamples *getSamplesFor(const Function &F) {
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// The function name may have been updated by adding suffix. In sample
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// profile, the function names are all stripped, so we need to strip
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// the function name suffix before matching with profile.
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if (Profiles.count(F.getName().split('.').first))
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return &Profiles[(F.getName().split('.').first)];
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return nullptr;
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}
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/// \brief Return all the profiles.
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StringMap<FunctionSamples> &getProfiles() { return Profiles; }
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/// \brief Report a parse error message.
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void reportError(int64_t LineNumber, Twine Msg) const {
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Ctx.diagnose(DiagnosticInfoSampleProfile(Buffer->getBufferIdentifier(),
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LineNumber, Msg));
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}
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/// \brief Create a sample profile reader appropriate to the file format.
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static ErrorOr<std::unique_ptr<SampleProfileReader>>
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create(const Twine &Filename, LLVMContext &C);
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/// \brief Create a sample profile reader from the supplied memory buffer.
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static ErrorOr<std::unique_ptr<SampleProfileReader>>
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create(std::unique_ptr<MemoryBuffer> &B, LLVMContext &C);
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/// \brief Return the profile summary.
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ProfileSummary &getSummary() { return *(Summary.get()); }
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protected:
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/// \brief Map every function to its associated profile.
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///
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/// The profile of every function executed at runtime is collected
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/// in the structure FunctionSamples. This maps function objects
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/// to their corresponding profiles.
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StringMap<FunctionSamples> Profiles;
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/// \brief LLVM context used to emit diagnostics.
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LLVMContext &Ctx;
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/// \brief Memory buffer holding the profile file.
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std::unique_ptr<MemoryBuffer> Buffer;
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/// \brief Profile summary information.
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std::unique_ptr<ProfileSummary> Summary;
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/// \brief Compute summary for this profile.
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void computeSummary();
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};
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class SampleProfileReaderText : public SampleProfileReader {
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public:
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SampleProfileReaderText(std::unique_ptr<MemoryBuffer> B, LLVMContext &C)
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: SampleProfileReader(std::move(B), C) {}
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/// \brief Read and validate the file header.
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std::error_code readHeader() override { return sampleprof_error::success; }
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/// \brief Read sample profiles from the associated file.
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std::error_code read() override;
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/// \brief Return true if \p Buffer is in the format supported by this class.
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static bool hasFormat(const MemoryBuffer &Buffer);
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};
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class SampleProfileReaderBinary : public SampleProfileReader {
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public:
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SampleProfileReaderBinary(std::unique_ptr<MemoryBuffer> B, LLVMContext &C)
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: SampleProfileReader(std::move(B), C) {}
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/// \brief Read and validate the file header.
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std::error_code readHeader() override;
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/// \brief Read sample profiles from the associated file.
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std::error_code read() override;
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/// \brief Return true if \p Buffer is in the format supported by this class.
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static bool hasFormat(const MemoryBuffer &Buffer);
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protected:
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/// \brief Read a numeric value of type T from the profile.
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///
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/// If an error occurs during decoding, a diagnostic message is emitted and
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/// EC is set.
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///
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/// \returns the read value.
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template <typename T> ErrorOr<T> readNumber();
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/// \brief Read a string from the profile.
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///
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/// If an error occurs during decoding, a diagnostic message is emitted and
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/// EC is set.
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///
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/// \returns the read value.
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ErrorOr<StringRef> readString();
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/// Read a string indirectly via the name table.
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ErrorOr<StringRef> readStringFromTable();
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/// \brief Return true if we've reached the end of file.
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bool at_eof() const { return Data >= End; }
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/// Read the contents of the given profile instance.
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std::error_code readProfile(FunctionSamples &FProfile);
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/// \brief Points to the current location in the buffer.
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const uint8_t *Data = nullptr;
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/// \brief Points to the end of the buffer.
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const uint8_t *End = nullptr;
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/// Function name table.
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std::vector<StringRef> NameTable;
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private:
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std::error_code readSummaryEntry(std::vector<ProfileSummaryEntry> &Entries);
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/// \brief Read profile summary.
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std::error_code readSummary();
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};
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using InlineCallStack = SmallVector<FunctionSamples *, 10>;
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// Supported histogram types in GCC. Currently, we only need support for
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// call target histograms.
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enum HistType {
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HIST_TYPE_INTERVAL,
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HIST_TYPE_POW2,
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HIST_TYPE_SINGLE_VALUE,
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HIST_TYPE_CONST_DELTA,
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HIST_TYPE_INDIR_CALL,
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HIST_TYPE_AVERAGE,
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HIST_TYPE_IOR,
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HIST_TYPE_INDIR_CALL_TOPN
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};
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class SampleProfileReaderGCC : public SampleProfileReader {
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public:
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SampleProfileReaderGCC(std::unique_ptr<MemoryBuffer> B, LLVMContext &C)
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: SampleProfileReader(std::move(B), C), GcovBuffer(Buffer.get()) {}
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/// \brief Read and validate the file header.
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std::error_code readHeader() override;
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/// \brief Read sample profiles from the associated file.
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std::error_code read() override;
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/// \brief Return true if \p Buffer is in the format supported by this class.
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static bool hasFormat(const MemoryBuffer &Buffer);
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protected:
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std::error_code readNameTable();
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std::error_code readOneFunctionProfile(const InlineCallStack &InlineStack,
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bool Update, uint32_t Offset);
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std::error_code readFunctionProfiles();
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std::error_code skipNextWord();
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template <typename T> ErrorOr<T> readNumber();
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ErrorOr<StringRef> readString();
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/// \brief Read the section tag and check that it's the same as \p Expected.
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std::error_code readSectionTag(uint32_t Expected);
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/// GCOV buffer containing the profile.
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GCOVBuffer GcovBuffer;
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/// Function names in this profile.
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std::vector<std::string> Names;
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/// GCOV tags used to separate sections in the profile file.
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static const uint32_t GCOVTagAFDOFileNames = 0xaa000000;
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static const uint32_t GCOVTagAFDOFunction = 0xac000000;
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};
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} // end namespace sampleprof
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} // end namespace llvm
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#endif // LLVM_PROFILEDATA_SAMPLEPROFREADER_H
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