forked from OSchip/llvm-project
535 lines
21 KiB
C++
535 lines
21 KiB
C++
//===-- xray-graph.cc - XRay Function Call Graph Renderer -----------------===//
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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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// Generate a DOT file to represent the function call graph encountered in
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// the trace.
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//
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//===----------------------------------------------------------------------===//
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#include <algorithm>
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#include <cassert>
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#include <cmath>
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#include <system_error>
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#include <utility>
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#include "xray-graph.h"
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#include "xray-registry.h"
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/FormatVariadic.h"
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#include "llvm/XRay/InstrumentationMap.h"
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#include "llvm/XRay/Trace.h"
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#include "llvm/XRay/YAMLXRayRecord.h"
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using namespace llvm;
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using namespace llvm::xray;
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// Setup llvm-xray graph subcommand and its options.
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static cl::SubCommand GraphC("graph", "Generate function-call graph");
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static cl::opt<std::string> GraphInput(cl::Positional,
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cl::desc("<xray log file>"),
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cl::Required, cl::sub(GraphC));
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static cl::opt<bool>
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GraphKeepGoing("keep-going", cl::desc("Keep going on errors encountered"),
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cl::sub(GraphC), cl::init(false));
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static cl::alias GraphKeepGoing2("k", cl::aliasopt(GraphKeepGoing),
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cl::desc("Alias for -keep-going"),
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cl::sub(GraphC));
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static cl::opt<std::string>
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GraphOutput("output", cl::value_desc("Output file"), cl::init("-"),
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cl::desc("output file; use '-' for stdout"), cl::sub(GraphC));
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static cl::alias GraphOutput2("o", cl::aliasopt(GraphOutput),
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cl::desc("Alias for -output"), cl::sub(GraphC));
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static cl::opt<std::string>
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GraphInstrMap("instr_map",
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cl::desc("binary with the instrumrntation map, or "
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"a separate instrumentation map"),
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cl::value_desc("binary with xray_instr_map"), cl::sub(GraphC),
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cl::init(""));
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static cl::alias GraphInstrMap2("m", cl::aliasopt(GraphInstrMap),
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cl::desc("alias for -instr_map"),
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cl::sub(GraphC));
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static cl::opt<bool> GraphDeduceSiblingCalls(
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"deduce-sibling-calls",
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cl::desc("Deduce sibling calls when unrolling function call stacks"),
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cl::sub(GraphC), cl::init(false));
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static cl::alias
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GraphDeduceSiblingCalls2("d", cl::aliasopt(GraphDeduceSiblingCalls),
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cl::desc("Alias for -deduce-sibling-calls"),
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cl::sub(GraphC));
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static cl::opt<GraphRenderer::StatType>
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GraphEdgeLabel("edge-label",
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cl::desc("Output graphs with edges labeled with this field"),
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cl::value_desc("field"), cl::sub(GraphC),
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cl::init(GraphRenderer::StatType::NONE),
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cl::values(clEnumValN(GraphRenderer::StatType::NONE, "none",
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"Do not label Edges"),
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clEnumValN(GraphRenderer::StatType::COUNT,
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"count", "function call counts"),
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clEnumValN(GraphRenderer::StatType::MIN, "min",
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"minimum function durations"),
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clEnumValN(GraphRenderer::StatType::MED, "med",
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"median function durations"),
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clEnumValN(GraphRenderer::StatType::PCT90, "90p",
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"90th percentile durations"),
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clEnumValN(GraphRenderer::StatType::PCT99, "99p",
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"99th percentile durations"),
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clEnumValN(GraphRenderer::StatType::MAX, "max",
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"maximum function durations"),
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clEnumValN(GraphRenderer::StatType::SUM, "sum",
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"sum of call durations")));
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static cl::alias GraphEdgeLabel2("e", cl::aliasopt(GraphEdgeLabel),
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cl::desc("Alias for -edge-label"),
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cl::sub(GraphC));
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static cl::opt<GraphRenderer::StatType> GraphVertexLabel(
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"vertex-label",
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cl::desc("Output graphs with vertices labeled with this field"),
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cl::value_desc("field"), cl::sub(GraphC),
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cl::init(GraphRenderer::StatType::NONE),
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cl::values(clEnumValN(GraphRenderer::StatType::NONE, "none",
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"Do not label Edges"),
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clEnumValN(GraphRenderer::StatType::COUNT, "count",
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"function call counts"),
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clEnumValN(GraphRenderer::StatType::MIN, "min",
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"minimum function durations"),
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clEnumValN(GraphRenderer::StatType::MED, "med",
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"median function durations"),
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clEnumValN(GraphRenderer::StatType::PCT90, "90p",
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"90th percentile durations"),
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clEnumValN(GraphRenderer::StatType::PCT99, "99p",
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"99th percentile durations"),
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clEnumValN(GraphRenderer::StatType::MAX, "max",
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"maximum function durations"),
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clEnumValN(GraphRenderer::StatType::SUM, "sum",
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"sum of call durations")));
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static cl::alias GraphVertexLabel2("v", cl::aliasopt(GraphVertexLabel),
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cl::desc("Alias for -edge-label"),
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cl::sub(GraphC));
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static cl::opt<GraphRenderer::StatType> GraphEdgeColorType(
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"color-edges",
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cl::desc("Output graphs with edge colors determined by this field"),
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cl::value_desc("field"), cl::sub(GraphC),
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cl::init(GraphRenderer::StatType::NONE),
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cl::values(clEnumValN(GraphRenderer::StatType::NONE, "none",
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"Do not label Edges"),
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clEnumValN(GraphRenderer::StatType::COUNT, "count",
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"function call counts"),
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clEnumValN(GraphRenderer::StatType::MIN, "min",
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"minimum function durations"),
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clEnumValN(GraphRenderer::StatType::MED, "med",
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"median function durations"),
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clEnumValN(GraphRenderer::StatType::PCT90, "90p",
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"90th percentile durations"),
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clEnumValN(GraphRenderer::StatType::PCT99, "99p",
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"99th percentile durations"),
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clEnumValN(GraphRenderer::StatType::MAX, "max",
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"maximum function durations"),
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clEnumValN(GraphRenderer::StatType::SUM, "sum",
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"sum of call durations")));
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static cl::alias GraphEdgeColorType2("c", cl::aliasopt(GraphEdgeColorType),
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cl::desc("Alias for -color-edges"),
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cl::sub(GraphC));
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static cl::opt<GraphRenderer::StatType> GraphVertexColorType(
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"color-vertices",
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cl::desc("Output graphs with vertex colors determined by this field"),
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cl::value_desc("field"), cl::sub(GraphC),
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cl::init(GraphRenderer::StatType::NONE),
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cl::values(clEnumValN(GraphRenderer::StatType::NONE, "none",
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"Do not label Edges"),
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clEnumValN(GraphRenderer::StatType::COUNT, "count",
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"function call counts"),
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clEnumValN(GraphRenderer::StatType::MIN, "min",
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"minimum function durations"),
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clEnumValN(GraphRenderer::StatType::MED, "med",
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"median function durations"),
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clEnumValN(GraphRenderer::StatType::PCT90, "90p",
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"90th percentile durations"),
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clEnumValN(GraphRenderer::StatType::PCT99, "99p",
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"99th percentile durations"),
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clEnumValN(GraphRenderer::StatType::MAX, "max",
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"maximum function durations"),
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clEnumValN(GraphRenderer::StatType::SUM, "sum",
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"sum of call durations")));
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static cl::alias GraphVertexColorType2("b", cl::aliasopt(GraphVertexColorType),
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cl::desc("Alias for -edge-label"),
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cl::sub(GraphC));
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template <class T> T diff(T L, T R) { return std::max(L, R) - std::min(L, R); }
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// Updates the statistics for a GraphRenderer::TimeStat
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static void updateStat(GraphRenderer::TimeStat &S, int64_t L) {
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S.Count++;
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if (S.Min > L || S.Min == 0)
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S.Min = L;
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if (S.Max < L)
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S.Max = L;
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S.Sum += L;
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}
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// Evaluates an XRay record and performs accounting on it.
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//
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// If the record is an ENTER record it pushes the FuncID and TSC onto a
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// structure representing the call stack for that function.
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// If the record is an EXIT record it checks computes computes the ammount of
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// time the function took to complete and then stores that information in an
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// edge of the graph. If there is no matching ENTER record the function tries
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// to recover by assuming that there were EXIT records which were missed, for
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// example caused by tail call elimination and if the option is enabled then
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// then tries to recover from this.
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//
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// This funciton will also error if the records are out of order, as the trace
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// is expected to be sorted.
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//
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// The graph generated has an immaginary root for functions called by no-one at
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// FuncId 0.
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//
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// FIXME: Refactor this and account subcommand to reduce code duplication.
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Error GraphRenderer::accountRecord(const XRayRecord &Record) {
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using std::make_error_code;
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using std::errc;
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if (CurrentMaxTSC == 0)
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CurrentMaxTSC = Record.TSC;
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if (Record.TSC < CurrentMaxTSC)
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return make_error<StringError>("Records not in order",
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make_error_code(errc::invalid_argument));
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auto &ThreadStack = PerThreadFunctionStack[Record.TId];
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switch (Record.Type) {
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case RecordTypes::ENTER: {
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if (G.count(Record.FuncId) == 0)
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G[Record.FuncId].SymbolName = FuncIdHelper.SymbolOrNumber(Record.FuncId);
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ThreadStack.push_back({Record.FuncId, Record.TSC});
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break;
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}
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case RecordTypes::EXIT: {
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// FIXME: Refactor this and the account subcommand to reduce code
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// duplication
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if (ThreadStack.size() == 0 || ThreadStack.back().FuncId != Record.FuncId) {
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if (!DeduceSiblingCalls)
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return make_error<StringError>("No matching ENTRY record",
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make_error_code(errc::invalid_argument));
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auto Parent = std::find_if(
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ThreadStack.rbegin(), ThreadStack.rend(),
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[&](const FunctionAttr &A) { return A.FuncId == Record.FuncId; });
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if (Parent == ThreadStack.rend())
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return make_error<StringError>(
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"No matching Entry record in stack",
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make_error_code(errc::invalid_argument)); // There is no matching
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// Function for this exit.
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while (ThreadStack.back().FuncId != Record.FuncId) {
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TimestampT D = diff(ThreadStack.back().TSC, Record.TSC);
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VertexIdentifier TopFuncId = ThreadStack.back().FuncId;
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ThreadStack.pop_back();
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assert(ThreadStack.size() != 0);
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EdgeIdentifier EI(ThreadStack.back().FuncId, TopFuncId);
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auto &EA = G[EI];
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EA.Timings.push_back(D);
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updateStat(EA.S, D);
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updateStat(G[TopFuncId].S, D);
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}
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}
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uint64_t D = diff(ThreadStack.back().TSC, Record.TSC);
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ThreadStack.pop_back();
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VertexIdentifier VI = ThreadStack.empty() ? 0 : ThreadStack.back().FuncId;
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EdgeIdentifier EI(VI, Record.FuncId);
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auto &EA = G[EI];
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EA.Timings.push_back(D);
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updateStat(EA.S, D);
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updateStat(G[Record.FuncId].S, D);
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break;
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}
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}
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return Error::success();
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}
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template <typename U>
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void GraphRenderer::getStats(U begin, U end, GraphRenderer::TimeStat &S) {
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assert(begin != end);
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std::ptrdiff_t MedianOff = S.Count / 2;
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std::nth_element(begin, begin + MedianOff, end);
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S.Median = *(begin + MedianOff);
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std::ptrdiff_t Pct90Off = (S.Count * 9) / 10;
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std::nth_element(begin, begin + Pct90Off, end);
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S.Pct90 = *(begin + Pct90Off);
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std::ptrdiff_t Pct99Off = (S.Count * 99) / 100;
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std::nth_element(begin, begin + Pct99Off, end);
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S.Pct99 = *(begin + Pct99Off);
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}
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void GraphRenderer::updateMaxStats(const GraphRenderer::TimeStat &S,
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GraphRenderer::TimeStat &M) {
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M.Count = std::max(M.Count, S.Count);
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M.Min = std::max(M.Min, S.Min);
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M.Median = std::max(M.Median, S.Median);
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M.Pct90 = std::max(M.Pct90, S.Pct90);
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M.Pct99 = std::max(M.Pct99, S.Pct99);
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M.Max = std::max(M.Max, S.Max);
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M.Sum = std::max(M.Sum, S.Sum);
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}
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void GraphRenderer::calculateEdgeStatistics() {
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assert(!G.edges().empty());
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for (auto &E : G.edges()) {
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auto &A = E.second;
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assert(!A.Timings.empty());
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assert((A.Timings[0] > 0));
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getStats(A.Timings.begin(), A.Timings.end(), A.S);
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assert(A.S.Sum > 0);
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updateMaxStats(A.S, G.GraphEdgeMax);
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}
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}
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void GraphRenderer::calculateVertexStatistics() {
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std::vector<uint64_t> TempTimings;
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for (auto &V : G.vertices()) {
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assert((V.first == 0 || G[V.first].S.Sum != 0) &&
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"Every non-root vertex should have at least one call");
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if (V.first != 0) {
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for (auto &E : G.inEdges(V.first)) {
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auto &A = E.second;
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TempTimings.insert(TempTimings.end(), A.Timings.begin(),
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A.Timings.end());
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}
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assert(!TempTimings.empty() && TempTimings[0] > 0);
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getStats(TempTimings.begin(), TempTimings.end(), G[V.first].S);
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updateMaxStats(G[V.first].S, G.GraphVertexMax);
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TempTimings.clear();
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}
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}
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}
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// A Helper function for normalizeStatistics which normalises a single
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// TimeStat element.
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static void normalizeTimeStat(GraphRenderer::TimeStat &S,
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double CycleFrequency) {
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S.Min /= CycleFrequency;
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S.Median /= CycleFrequency;
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S.Max /= CycleFrequency;
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S.Sum /= CycleFrequency;
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S.Pct90 /= CycleFrequency;
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S.Pct99 /= CycleFrequency;
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}
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// Normalises the statistics in the graph for a given TSC frequency.
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void GraphRenderer::normalizeStatistics(double CycleFrequency) {
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for (auto &E : G.edges()) {
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auto &S = E.second.S;
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normalizeTimeStat(S, CycleFrequency);
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}
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for (auto &V : G.vertices()) {
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auto &S = V.second.S;
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normalizeTimeStat(S, CycleFrequency);
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}
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normalizeTimeStat(G.GraphEdgeMax, CycleFrequency);
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normalizeTimeStat(G.GraphVertexMax, CycleFrequency);
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}
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// Returns a string containing the value of statistic field T
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std::string
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GraphRenderer::TimeStat::getAsString(GraphRenderer::StatType T) const {
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std::string St;
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raw_string_ostream S{St};
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switch (T) {
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case GraphRenderer::StatType::COUNT:
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S << Count;
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break;
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case GraphRenderer::StatType::MIN:
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S << Min;
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break;
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case GraphRenderer::StatType::MED:
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S << Median;
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break;
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case GraphRenderer::StatType::PCT90:
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S << Pct90;
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break;
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case GraphRenderer::StatType::PCT99:
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S << Pct99;
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break;
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case GraphRenderer::StatType::MAX:
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S << Max;
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break;
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case GraphRenderer::StatType::SUM:
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S << Sum;
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break;
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case GraphRenderer::StatType::NONE:
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break;
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}
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return S.str();
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}
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// Returns the quotient between the property T of this and another TimeStat as
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// a double
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double GraphRenderer::TimeStat::compare(StatType T, const TimeStat &O) const {
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double retval = 0;
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switch (T) {
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case GraphRenderer::StatType::COUNT:
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retval = static_cast<double>(Count) / static_cast<double>(O.Count);
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break;
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case GraphRenderer::StatType::MIN:
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retval = Min / O.Min;
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break;
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case GraphRenderer::StatType::MED:
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retval = Median / O.Median;
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break;
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case GraphRenderer::StatType::PCT90:
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retval = Pct90 / O.Pct90;
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break;
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case GraphRenderer::StatType::PCT99:
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retval = Pct99 / O.Pct99;
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break;
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case GraphRenderer::StatType::MAX:
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retval = Max / O.Max;
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break;
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case GraphRenderer::StatType::SUM:
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retval = Sum / O.Sum;
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break;
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case GraphRenderer::StatType::NONE:
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retval = 0.0;
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break;
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}
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return std::sqrt(
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retval); // the square root here provides more dynamic contrast for
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// low runtime edges, giving better separation and
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// coloring lower down the call stack.
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}
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// Outputs a DOT format version of the Graph embedded in the GraphRenderer
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// object on OS. It does this in the expected way by itterating
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// through all edges then vertices and then outputting them and their
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// annotations.
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//
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// FIXME: output more information, better presented.
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void GraphRenderer::exportGraphAsDOT(raw_ostream &OS, const XRayFileHeader &H,
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StatType ET, StatType EC, StatType VT,
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StatType VC) {
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G.GraphEdgeMax = {};
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G.GraphVertexMax = {};
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calculateEdgeStatistics();
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calculateVertexStatistics();
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if (H.CycleFrequency)
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normalizeStatistics(H.CycleFrequency);
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OS << "digraph xray {\n";
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if (VT != StatType::NONE)
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OS << "node [shape=record];\n";
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for (const auto &E : G.edges()) {
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const auto &S = E.second.S;
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OS << "F" << E.first.first << " -> "
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<< "F" << E.first.second << " [label=\"" << S.getAsString(ET) << "\"";
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if (EC != StatType::NONE)
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OS << " color=\"" << CHelper.getColorString(S.compare(EC, G.GraphEdgeMax))
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<< "\"";
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OS << "];\n";
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}
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for (const auto &V : G.vertices()) {
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const auto &VA = V.second;
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if (V.first == 0)
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continue;
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OS << "F" << V.first << " [label=\"" << (VT != StatType::NONE ? "{" : "")
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<< (VA.SymbolName.size() > 40 ? VA.SymbolName.substr(0, 40) + "..."
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: VA.SymbolName);
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if (VT != StatType::NONE)
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OS << "|" << VA.S.getAsString(VT) << "}\"";
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else
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OS << "\"";
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if (VC != StatType::NONE)
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OS << " color=\"" << CHelper.getColorString(VA.S.compare(VC, G.GraphVertexMax))
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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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// Here we register and implement the llvm-xray graph subcommand.
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// The bulk of this code reads in the options, opens the required files, uses
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|
// those files to create a context for analysing the xray trace, then there is a
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|
// short loop which actually analyses the trace, generates the graph and then
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// outputs it as a DOT.
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//
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// FIXME: include additional filtering and annalysis passes to provide more
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|
// specific useful information.
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|
static CommandRegistration Unused(&GraphC, []() -> Error {
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|
InstrumentationMap Map;
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|
if (!GraphInstrMap.empty()) {
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auto InstrumentationMapOrError = loadInstrumentationMap(GraphInstrMap);
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|
if (!InstrumentationMapOrError)
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|
return joinErrors(
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|
make_error<StringError>(
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Twine("Cannot open instrumentation map '") + GraphInstrMap + "'",
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|
std::make_error_code(std::errc::invalid_argument)),
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|
InstrumentationMapOrError.takeError());
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Map = std::move(*InstrumentationMapOrError);
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|
}
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|
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const auto &FunctionAddresses = Map.getFunctionAddresses();
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|
symbolize::LLVMSymbolizer::Options Opts(
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|
symbolize::FunctionNameKind::LinkageName, true, true, false, "");
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|
symbolize::LLVMSymbolizer Symbolizer(Opts);
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|
llvm::xray::FuncIdConversionHelper FuncIdHelper(GraphInstrMap, Symbolizer,
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|
FunctionAddresses);
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|
xray::GraphRenderer GR(FuncIdHelper, GraphDeduceSiblingCalls);
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|
std::error_code EC;
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|
raw_fd_ostream OS(GraphOutput, EC, sys::fs::OpenFlags::F_Text);
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|
if (EC)
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|
return make_error<StringError>(
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|
Twine("Cannot open file '") + GraphOutput + "' for writing.", EC);
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|
|
|
auto TraceOrErr = loadTraceFile(GraphInput, true);
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|
if (!TraceOrErr)
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|
return joinErrors(
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|
make_error<StringError>(Twine("Failed loading input file '") +
|
|
GraphInput + "'",
|
|
make_error_code(llvm::errc::invalid_argument)),
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|
TraceOrErr.takeError());
|
|
|
|
auto &Trace = *TraceOrErr;
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|
const auto &Header = Trace.getFileHeader();
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|
|
|
// Here we generate the call graph from entries we find in the trace.
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|
for (const auto &Record : Trace) {
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|
auto E = GR.accountRecord(Record);
|
|
if (!E)
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|
continue;
|
|
|
|
for (const auto &ThreadStack : GR.getPerThreadFunctionStack()) {
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|
errs() << "Thread ID: " << ThreadStack.first << "\n";
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|
auto Level = ThreadStack.second.size();
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|
for (const auto &Entry : llvm::reverse(ThreadStack.second))
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|
errs() << "#" << Level-- << "\t"
|
|
<< FuncIdHelper.SymbolOrNumber(Entry.FuncId) << '\n';
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|
}
|
|
|
|
if (!GraphKeepGoing)
|
|
return joinErrors(make_error<StringError>(
|
|
"Error encountered generating the call graph.",
|
|
std::make_error_code(std::errc::invalid_argument)),
|
|
std::move(E));
|
|
|
|
handleAllErrors(std::move(E),
|
|
[&](const ErrorInfoBase &E) { E.log(errs()); });
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|
}
|
|
GR.exportGraphAsDOT(OS, Header, GraphEdgeLabel, GraphEdgeColorType,
|
|
GraphVertexLabel, GraphVertexColorType);
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|
return Error::success();
|
|
});
|