Commit 8d72096b authored by Andrew's avatar Andrew Committed by Andrew Bonventre

[release-branch.go1.12] cmd/vendor: remove _test.go and testdata files

Binary files included in testdata directories can cause Apple’s
notarization service to reject us since they don’t abide by their
strict requirements.

To emulate go mod vendor, remove all _test.go and testdata files
from the vendor directory and update the instructions.

Updates #34986
Fixes #35747

Change-Id: I5cde905fc78838d2e3b1519dab4aeee13d8d5356
Reviewed-on: https://go-review.googlesource.com/c/go/+/208227
Run-TryBot: Andrew Bonventre <andybons@golang.org>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: default avatarAlexander Rakoczy <alex@golang.org>
parent a106f553
......@@ -48,42 +48,32 @@ go src=..
pprof
internal
binutils
testdata
+
driver
testdata
+
graph
testdata
+
report
testdata
+
profile
testdata
+
ianlancetaylor
demangle
testdata
+
golang.org
x
arch
arm
armasm
testdata
+
arm64
arm64asm
testdata
+
x86
x86asm
testdata
+
ppc64
ppc64asm
testdata
+
archive
tar
......
......@@ -23,3 +23,9 @@ commit by accident.
The vendored copy of golang.org/x/tools is maintained by
running the update-xtools.sh script in this directory,
not by govendor.
Please ensure that you remove all *_test.go and testdata
files after updating (golang.org/issue/34986).
$ cd $GOROOT/src/cmd
$ find vendor | grep -E '_test.go|testdata' | xargs rm -rf
// Copyright 2014 Google Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package binutils
import (
"fmt"
"regexp"
"testing"
"github.com/google/pprof/internal/plugin"
)
// TestFindSymbols tests the FindSymbols routine using a hardcoded nm output.
func TestFindSymbols(t *testing.T) {
type testcase struct {
query, syms string
want []plugin.Sym
}
testsyms := `0000000000001000 t lineA001
0000000000001000 t lineA002
0000000000001000 t line1000
0000000000002000 t line200A
0000000000002000 t line2000
0000000000002000 t line200B
0000000000003000 t line3000
0000000000003000 t _ZNK4DumbclEPKc
0000000000003000 t lineB00C
0000000000003000 t line300D
0000000000004000 t _the_end
`
testcases := []testcase{
{
"line.*[AC]",
testsyms,
[]plugin.Sym{
{Name: []string{"lineA001"}, File: "object.o", Start: 0x1000, End: 0x1FFF},
{Name: []string{"line200A"}, File: "object.o", Start: 0x2000, End: 0x2FFF},
{Name: []string{"lineB00C"}, File: "object.o", Start: 0x3000, End: 0x3FFF},
},
},
{
"Dumb::operator",
testsyms,
[]plugin.Sym{
{Name: []string{"Dumb::operator()(char const*) const"}, File: "object.o", Start: 0x3000, End: 0x3FFF},
},
},
}
for _, tc := range testcases {
syms, err := findSymbols([]byte(tc.syms), "object.o", regexp.MustCompile(tc.query), 0)
if err != nil {
t.Fatalf("%q: findSymbols: %v", tc.query, err)
}
if err := checkSymbol(syms, tc.want); err != nil {
t.Errorf("%q: %v", tc.query, err)
}
}
}
func checkSymbol(got []*plugin.Sym, want []plugin.Sym) error {
if len(got) != len(want) {
return fmt.Errorf("unexpected number of symbols %d (want %d)", len(got), len(want))
}
for i, g := range got {
w := want[i]
if len(g.Name) != len(w.Name) {
return fmt.Errorf("names, got %d, want %d", len(g.Name), len(w.Name))
}
for n := range g.Name {
if g.Name[n] != w.Name[n] {
return fmt.Errorf("name %d, got %q, want %q", n, g.Name[n], w.Name[n])
}
}
if g.File != w.File {
return fmt.Errorf("filename, got %q, want %q", g.File, w.File)
}
if g.Start != w.Start {
return fmt.Errorf("start address, got %#x, want %#x", g.Start, w.Start)
}
if g.End != w.End {
return fmt.Errorf("end address, got %#x, want %#x", g.End, w.End)
}
}
return nil
}
// TestFunctionAssembly tests the FunctionAssembly routine by using a
// fake objdump script.
func TestFunctionAssembly(t *testing.T) {
type testcase struct {
s plugin.Sym
asm string
want []plugin.Inst
}
testcases := []testcase{
{
plugin.Sym{Name: []string{"symbol1"}, Start: 0x1000, End: 0x1FFF},
` 1000: instruction one
1001: instruction two
1002: instruction three
1003: instruction four
`,
[]plugin.Inst{
{Addr: 0x1000, Text: "instruction one"},
{Addr: 0x1001, Text: "instruction two"},
{Addr: 0x1002, Text: "instruction three"},
{Addr: 0x1003, Text: "instruction four"},
},
},
{
plugin.Sym{Name: []string{"symbol2"}, Start: 0x2000, End: 0x2FFF},
` 2000: instruction one
2001: instruction two
`,
[]plugin.Inst{
{Addr: 0x2000, Text: "instruction one"},
{Addr: 0x2001, Text: "instruction two"},
},
},
}
for _, tc := range testcases {
insts, err := disassemble([]byte(tc.asm))
if err != nil {
t.Fatalf("FunctionAssembly: %v", err)
}
if len(insts) != len(tc.want) {
t.Errorf("Unexpected number of assembly instructions %d (want %d)\n", len(insts), len(tc.want))
}
for i := range insts {
if insts[i] != tc.want[i] {
t.Errorf("Expected symbol %v, got %v\n", tc.want[i], insts[i])
}
}
}
}
#!/bin/bash -x
# This is a script that generates the test MacOS executables in this directory.
# It should be needed very rarely to run this script. It is mostly provided
# as a future reference on how the original binary set was created.
set -o errexit
cat <<EOF >/tmp/hello.cc
#include <stdio.h>
int main() {
printf("Hello, world!\n");
return 0;
}
EOF
cat <<EOF >/tmp/lib.c
int foo() {
return 1;
}
int bar() {
return 2;
}
EOF
cd $(dirname $0)
rm -rf exe_mac_64* lib_mac_64*
clang -g -o exe_mac_64 /tmp/hello.c
clang -g -o lib_mac_64 -dynamiclib /tmp/lib.c
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple Computer//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>CFBundleDevelopmentRegion</key>
<string>English</string>
<key>CFBundleIdentifier</key>
<string>com.apple.xcode.dsym.exe_mac_64</string>
<key>CFBundleInfoDictionaryVersion</key>
<string>6.0</string>
<key>CFBundlePackageType</key>
<string>dSYM</string>
<key>CFBundleSignature</key>
<string>????</string>
<key>CFBundleShortVersionString</key>
<string>1.0</string>
<key>CFBundleVersion</key>
<string>1</string>
</dict>
</plist>
#!/bin/sh
#
# Copyright 2014 Google Inc. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# Fake llvm-symbolizer to use in tests
set -f
IFS=" "
while read line; do
# line has form:
# filename 0xaddr
# Emit dummy output that matches llvm-symbolizer output format.
set -- $line
fname=$1
addr=$2
echo "Inlined_$addr"
echo "$fname.h"
echo "Func_$addr"
echo "$fname.c:2"
echo
done
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple Computer//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>CFBundleDevelopmentRegion</key>
<string>English</string>
<key>CFBundleIdentifier</key>
<string>com.apple.xcode.dsym.lib_mac_64</string>
<key>CFBundleInfoDictionaryVersion</key>
<string>6.0</string>
<key>CFBundlePackageType</key>
<string>dSYM</string>
<key>CFBundleSignature</key>
<string>????</string>
<key>CFBundleShortVersionString</key>
<string>1.0</string>
<key>CFBundleVersion</key>
<string>1</string>
</dict>
</plist>
// Copyright 2014 Google Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package driver
import (
"fmt"
"math/rand"
"strings"
"testing"
"github.com/google/pprof/internal/plugin"
"github.com/google/pprof/internal/proftest"
"github.com/google/pprof/internal/report"
"github.com/google/pprof/internal/transport"
"github.com/google/pprof/profile"
)
func TestShell(t *testing.T) {
p := &profile.Profile{}
generateReportWrapper = checkValue
defer func() { generateReportWrapper = generateReport }()
// Use test commands and variables to exercise interactive processing
var savedCommands commands
savedCommands, pprofCommands = pprofCommands, testCommands
defer func() { pprofCommands = savedCommands }()
savedVariables := pprofVariables
defer func() { pprofVariables = savedVariables }()
// Random interleave of independent scripts
pprofVariables = testVariables(savedVariables)
// pass in HTTPTransport when setting defaults, because otherwise default
// transport will try to add flags to the default flag set.
o := setDefaults(&plugin.Options{HTTPTransport: transport.New(nil)})
o.UI = newUI(t, interleave(script, 0))
if err := interactive(p, o); err != nil {
t.Error("first attempt:", err)
}
// Random interleave of independent scripts
pprofVariables = testVariables(savedVariables)
o.UI = newUI(t, interleave(script, 1))
if err := interactive(p, o); err != nil {
t.Error("second attempt:", err)
}
// Random interleave of independent scripts with shortcuts
pprofVariables = testVariables(savedVariables)
var scScript []string
pprofShortcuts, scScript = makeShortcuts(interleave(script, 2), 1)
o.UI = newUI(t, scScript)
if err := interactive(p, o); err != nil {
t.Error("first shortcut attempt:", err)
}
// Random interleave of independent scripts with shortcuts
pprofVariables = testVariables(savedVariables)
pprofShortcuts, scScript = makeShortcuts(interleave(script, 1), 2)
o.UI = newUI(t, scScript)
if err := interactive(p, o); err != nil {
t.Error("second shortcut attempt:", err)
}
// Group with invalid value
pprofVariables = testVariables(savedVariables)
ui := &proftest.TestUI{
T: t,
Input: []string{"cumulative=this"},
AllowRx: `Unrecognized value for cumulative: "this". Use one of cum, flat`,
}
o.UI = ui
if err := interactive(p, o); err != nil {
t.Error("invalid group value:", err)
}
// Confirm error message written out once.
if ui.NumAllowRxMatches != 1 {
t.Errorf("want error message to be printed 1 time, got %v", ui.NumAllowRxMatches)
}
// Verify propagation of IO errors
pprofVariables = testVariables(savedVariables)
o.UI = newUI(t, []string{"**error**"})
if err := interactive(p, o); err == nil {
t.Error("expected IO error, got nil")
}
}
var testCommands = commands{
"check": &command{report.Raw, nil, nil, true, "", ""},
}
func testVariables(base variables) variables {
v := base.makeCopy()
v["b"] = &variable{boolKind, "f", "", ""}
v["bb"] = &variable{boolKind, "f", "", ""}
v["i"] = &variable{intKind, "0", "", ""}
v["ii"] = &variable{intKind, "0", "", ""}
v["f"] = &variable{floatKind, "0", "", ""}
v["ff"] = &variable{floatKind, "0", "", ""}
v["s"] = &variable{stringKind, "", "", ""}
v["ss"] = &variable{stringKind, "", "", ""}
v["ta"] = &variable{boolKind, "f", "radio", ""}
v["tb"] = &variable{boolKind, "f", "radio", ""}
v["tc"] = &variable{boolKind, "t", "radio", ""}
return v
}
// script contains sequences of commands to be executed for testing. Commands
// are split by semicolon and interleaved randomly, so they must be
// independent from each other.
var script = []string{
"bb=true;bb=false;check bb=false;bb=yes;check bb=true",
"b=1;check b=true;b=n;check b=false",
"i=-1;i=-2;check i=-2;i=999999;check i=999999",
"check ii=0;ii=-1;check ii=-1;ii=100;check ii=100",
"f=-1;f=-2.5;check f=-2.5;f=0.0001;check f=0.0001",
"check ff=0;ff=-1.01;check ff=-1.01;ff=100;check ff=100",
"s=one;s=two;check s=two",
"ss=tree;check ss=tree;ss=;check ss;ss=forest;check ss=forest",
"ta=true;check ta=true;check tb=false;check tc=false;tb=1;check tb=true;check ta=false;check tc=false;tc=yes;check tb=false;check ta=false;check tc=true",
}
func makeShortcuts(input []string, seed int) (shortcuts, []string) {
rand.Seed(int64(seed))
s := shortcuts{}
var output, chunk []string
for _, l := range input {
chunk = append(chunk, l)
switch rand.Intn(3) {
case 0:
// Create a macro for commands in 'chunk'.
macro := fmt.Sprintf("alias%d", len(s))
s[macro] = chunk
output = append(output, macro)
chunk = nil
case 1:
// Append commands in 'chunk' by themselves.
output = append(output, chunk...)
chunk = nil
case 2:
// Accumulate commands into 'chunk'
}
}
output = append(output, chunk...)
return s, output
}
func newUI(t *testing.T, input []string) plugin.UI {
return &proftest.TestUI{
T: t,
Input: input,
}
}
func checkValue(p *profile.Profile, cmd []string, vars variables, o *plugin.Options) error {
if len(cmd) != 2 {
return fmt.Errorf("expected len(cmd)==2, got %v", cmd)
}
input := cmd[1]
args := strings.SplitN(input, "=", 2)
if len(args) == 0 {
return fmt.Errorf("unexpected empty input")
}
name, value := args[0], ""
if len(args) == 2 {
value = args[1]
}
gotv := vars[name]
if gotv == nil {
return fmt.Errorf("Could not find variable named %s", name)
}
if got := gotv.stringValue(); got != value {
return fmt.Errorf("Variable %s, want %s, got %s", name, value, got)
}
return nil
}
func interleave(input []string, seed int) []string {
var inputs [][]string
for _, s := range input {
inputs = append(inputs, strings.Split(s, ";"))
}
rand.Seed(int64(seed))
var output []string
for len(inputs) > 0 {
next := rand.Intn(len(inputs))
output = append(output, inputs[next][0])
if tail := inputs[next][1:]; len(tail) > 0 {
inputs[next] = tail
} else {
inputs = append(inputs[:next], inputs[next+1:]...)
}
}
return output
}
func TestInteractiveCommands(t *testing.T) {
type interactiveTestcase struct {
input string
want map[string]string
}
testcases := []interactiveTestcase{
{
"top 10 --cum focus1 -ignore focus2",
map[string]string{
"functions": "true",
"nodecount": "10",
"cum": "true",
"focus": "focus1|focus2",
"ignore": "ignore",
},
},
{
"top10 --cum focus1 -ignore focus2",
map[string]string{
"functions": "true",
"nodecount": "10",
"cum": "true",
"focus": "focus1|focus2",
"ignore": "ignore",
},
},
{
"dot",
map[string]string{
"functions": "true",
"nodecount": "80",
"cum": "false",
},
},
{
"tags -ignore1 -ignore2 focus1 >out",
map[string]string{
"functions": "true",
"nodecount": "80",
"cum": "false",
"output": "out",
"tagfocus": "focus1",
"tagignore": "ignore1|ignore2",
},
},
{
"weblist find -test",
map[string]string{
"functions": "false",
"addresses": "true",
"noinlines": "true",
"nodecount": "0",
"cum": "false",
"flat": "true",
"ignore": "test",
},
},
{
"callgrind fun -ignore >out",
map[string]string{
"functions": "false",
"addresses": "true",
"nodecount": "0",
"cum": "false",
"flat": "true",
"output": "out",
},
},
{
"999",
nil, // Error
},
}
for _, tc := range testcases {
cmd, vars, err := parseCommandLine(strings.Fields(tc.input))
if tc.want == nil && err != nil {
// Error expected
continue
}
if err != nil {
t.Errorf("failed on %q: %v", tc.input, err)
continue
}
// Get report output format
c := pprofCommands[cmd[0]]
if c == nil {
t.Errorf("unexpected nil command")
}
vars = applyCommandOverrides(cmd[0], c.format, vars)
for n, want := range tc.want {
if got := vars[n].stringValue(); got != want {
t.Errorf("failed on %q, cmd=%q, %s got %s, want %s", tc.input, cmd, n, got, want)
}
}
}
}
--- contentionz 1 ---
cycles/second = 3201000000
sampling period = 100
ms since reset = 16502830
discarded samples = 0
19490304 27 @ 0xbccc97 0xc61202 0x42ed5f 0x42edc1 0x42e15a 0x5261af 0x526edf 0x5280ab 0x79e80a 0x7a251b 0x7a296d 0xa456e4 0x7fcdc2ff214e
768 1 @ 0xbccc97 0xa42dc7 0xa456e4 0x7fcdc2ff214e
5760 2 @ 0xbccc97 0xb82b73 0xb82bcb 0xb87eab 0xb8814c 0x4e969d 0x4faa17 0x4fc5f6 0x4fd028 0x4fd230 0x79e80a 0x7a251b 0x7a296d 0xa456e4 0x7fcdc2ff214e
569088 1 @ 0xbccc97 0xb82b73 0xb82bcb 0xb87f08 0xb8814c 0x42ed5f 0x42edc1 0x42e15a 0x5261af 0x526edf 0x5280ab 0x79e80a 0x7a251b 0x7a296d 0xa456e4 0x7fcdc2ff214e
2432 1 @ 0xbccc97 0xb82b73 0xb82bcb 0xb87eab 0xb8814c 0x7aa74c 0x7ab844 0x7ab914 0x79e9e9 0x79e326 0x4d299e 0x4d4b7b 0x4b7be8 0x4b7ff1 0x4d2dae 0x79e80a
2034816 3 @ 0xbccc97 0xb82f0f 0xb83003 0xb87d50 0xc635f0 0x42ecc3 0x42e14c 0x5261af 0x526edf 0x5280ab 0x79e80a 0x7a251b 0x7a296d 0xa456e4 0x7fcdc2ff214e
--- Memory map: ---
00400000-00fcb000: cppbench_server_main
7fcdc231e000-7fcdc2321000: /libnss_cache-2.15.so
7fcdc2522000-7fcdc252e000: /libnss_files-2.15.so
7fcdc272f000-7fcdc28dd000: /libc-2.15.so
7fcdc2ae7000-7fcdc2be2000: /libm-2.15.so
7fcdc2de3000-7fcdc2dea000: /librt-2.15.so
7fcdc2feb000-7fcdc3003000: /libpthread-2.15.so
7fcdc3208000-7fcdc320a000: /libdl-2.15.so
7fcdc340c000-7fcdc3415000: /libcrypt-2.15.so
7fcdc3645000-7fcdc3669000: /ld-2.15.so
7fff86bff000-7fff86c00000: [vdso]
ffffffffff600000-ffffffffff601000: [vsyscall]
--- contentionz 1 ---
cycles/second = 3201000000
sampling period = 100
ms since reset = 16502830
discarded samples = 0
100 10 @ 0xbccc97 0xc61202 0x42ed5f 0x42edc1 0x42e15a 0x5261af 0x526edf 0x5280ab 0x79e80a 0x7a251b 0x7a296d 0xa456e4 0x7fcdc2ff214e
--- Memory map: ---
00400000-00fcb000: cppbench_server_main
7fcdc231e000-7fcdc2321000: /libnss_cache-2.15.so
7fcdc2522000-7fcdc252e000: /libnss_files-2.15.so
7fcdc272f000-7fcdc28dd000: /libc-2.15.so
7fcdc2ae7000-7fcdc2be2000: /libm-2.15.so
7fcdc2de3000-7fcdc2dea000: /librt-2.15.so
7fcdc2feb000-7fcdc3003000: /libpthread-2.15.so
7fcdc3208000-7fcdc320a000: /libdl-2.15.so
7fcdc340c000-7fcdc3415000: /libcrypt-2.15.so
7fcdc3645000-7fcdc3669000: /ld-2.15.so
7fff86bff000-7fff86c00000: [vdso]
ffffffffff600000-ffffffffff601000: [vsyscall]
line1
line2
line3
line4
line5
line6
line7
line8
line9
line0
line1
line2
line3
line4
line5
line1
line2
line3
line4
line5
line6
line7
line8
line9
line0
line1
line2
line3
line4
line5
line1
line2
line3
line4
line5
line6
line7
line8
line9
line0
line1
line2
line3
line4
line5
digraph "unnamed" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "Build ID: buildid-contention" [shape=box fontsize=16 label="Build ID: buildid-contention\lComment #1\lComment #2\lType: delay\lShowing nodes accounting for 149.50ms, 100% of 149.50ms total\l"] }
N1 [label="file3000.src\n32.77ms (21.92%)\nof 149.50ms (100%)" id="node1" fontsize=20 shape=box tooltip="testdata/file3000.src (149.50ms)" color="#b20000" fillcolor="#edd5d5"]
N2 [label="file1000.src\n51.20ms (34.25%)" id="node2" fontsize=23 shape=box tooltip="testdata/file1000.src (51.20ms)" color="#b23100" fillcolor="#eddbd5"]
N3 [label="file2000.src\n65.54ms (43.84%)\nof 75.78ms (50.68%)" id="node3" fontsize=24 shape=box tooltip="testdata/file2000.src (75.78ms)" color="#b22000" fillcolor="#edd9d5"]
N1 -> N3 [label=" 75.78ms" weight=51 penwidth=3 color="#b22000" tooltip="testdata/file3000.src -> testdata/file2000.src (75.78ms)" labeltooltip="testdata/file3000.src -> testdata/file2000.src (75.78ms)"]
N1 -> N2 [label=" 40.96ms" weight=28 penwidth=2 color="#b23900" tooltip="testdata/file3000.src -> testdata/file1000.src (40.96ms)" labeltooltip="testdata/file3000.src -> testdata/file1000.src (40.96ms)"]
N3 -> N2 [label=" 10.24ms" weight=7 color="#b29775" tooltip="testdata/file2000.src -> testdata/file1000.src (10.24ms)" labeltooltip="testdata/file2000.src -> testdata/file1000.src (10.24ms)"]
}
digraph "unnamed" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "Build ID: buildid-contention" [shape=box fontsize=16 label="Build ID: buildid-contention\lComment #1\lComment #2\lType: delay\lActive filters:\l focus=[X1]000\l ignore=[X3]002\lShowing nodes accounting for 40.96ms, 27.40% of 149.50ms total\l"] }
N1 [label="0000000000001000\nline1000\nfile1000.src:1\n40.96ms (27.40%)" id="node1" fontsize=24 shape=box tooltip="0000000000001000 line1000 testdata/file1000.src:1 (40.96ms)" color="#b23900" fillcolor="#edddd5"]
N2 [label="0000000000003001\nline3000\nfile3000.src:5\n0 of 40.96ms (27.40%)" id="node2" fontsize=8 shape=box tooltip="0000000000003001 line3000 testdata/file3000.src:5 (40.96ms)" color="#b23900" fillcolor="#edddd5"]
N3 [label="0000000000003001\nline3001\nfile3000.src:3\n0 of 40.96ms (27.40%)" id="node3" fontsize=8 shape=box tooltip="0000000000003001 line3001 testdata/file3000.src:3 (40.96ms)" color="#b23900" fillcolor="#edddd5"]
N2 -> N3 [label=" 40.96ms\n (inline)" weight=28 penwidth=2 color="#b23900" tooltip="0000000000003001 line3000 testdata/file3000.src:5 -> 0000000000003001 line3001 testdata/file3000.src:3 (40.96ms)" labeltooltip="0000000000003001 line3000 testdata/file3000.src:5 -> 0000000000003001 line3001 testdata/file3000.src:3 (40.96ms)"]
N3 -> N1 [label=" 40.96ms" weight=28 penwidth=2 color="#b23900" tooltip="0000000000003001 line3001 testdata/file3000.src:3 -> 0000000000001000 line1000 testdata/file1000.src:1 (40.96ms)" labeltooltip="0000000000003001 line3001 testdata/file3000.src:3 -> 0000000000001000 line1000 testdata/file1000.src:1 (40.96ms)"]
}
positions: instr line
events: cpu(ms)
ob=(1) /path/to/testbinary
fl=(1) testdata/file1000.src
fn=(1) line1000
0x1000 1 1000
* 1 100
ob=(1)
fl=(2) testdata/file2000.src
fn=(2) line2001
+4096 9 10
ob=(1)
fl=(3) testdata/file3000.src
fn=(3) line3002
+4096 2 10
cfl=(2)
cfn=(4) line2000 [1/2]
calls=0 * 4
* * 1000
ob=(1)
fl=(2)
fn=(5) line2000
-4096 4 0
cfl=(2)
cfn=(6) line2001 [2/2]
calls=0 -4096 9
* * 1000
* 4 0
cfl=(2)
cfn=(7) line2001 [1/2]
calls=0 * 9
* * 10
ob=(1)
fl=(2)
fn=(2)
* 9 0
cfl=(1)
cfn=(8) line1000 [1/2]
calls=0 -4096 1
* * 1000
ob=(1)
fl=(3)
fn=(9) line3000
+4096 6 0
cfl=(3)
cfn=(10) line3001 [1/2]
calls=0 +4096 5
* * 1010
ob=(1)
fl=(3)
fn=(11) line3001
* 5 0
cfl=(3)
cfn=(12) line3002 [1/2]
calls=0 * 2
* * 1010
ob=(1)
fl=(3)
fn=(9)
+1 9 0
cfl=(3)
cfn=(13) line3001 [2/2]
calls=0 +1 8
* * 100
ob=(1)
fl=(3)
fn=(11)
* 8 0
cfl=(1)
cfn=(14) line1000 [2/2]
calls=0 -8193 1
* * 100
ob=(1)
fl=(3)
fn=(9)
+1 9 0
cfl=(3)
cfn=(15) line3002 [2/2]
calls=0 +1 5
* * 10
ob=(1)
fl=(3)
fn=(3)
* 5 0
cfl=(2)
cfn=(16) line2000 [2/2]
calls=0 -4098 4
* * 10
positions: instr line
events: cpu(ms)
ob=(1) /path/to/testbinary
fl=(1) testdata/file1000.src
fn=(1) line1000
0x1000 1 1100
ob=(1)
fl=(2) testdata/file2000.src
fn=(2) line2001
+4096 9 10
cfl=(1)
cfn=(1)
calls=0 * 1
* * 1000
ob=(1)
fl=(3) testdata/file3000.src
fn=(3) line3002
+4096 2 10
cfl=(2)
cfn=(4) line2000
calls=0 * 4
* * 1000
ob=(1)
fl=(2)
fn=(4)
-4096 4 0
cfl=(2)
cfn=(2)
calls=0 -4096 9
* * 1010
ob=(1)
fl=(3)
fn=(5) line3000
+4096 6 0
cfl=(3)
cfn=(6) line3001
calls=0 +4096 5
* * 1010
ob=(1)
fl=(3)
fn=(6)
* 5 0
cfl=(3)
cfn=(3)
calls=0 * 2
* * 1010
ob=(1)
fl=(3)
fn=(5)
+1 9 0
cfl=(3)
cfn=(6)
calls=0 +1 8
* * 100
ob=(1)
fl=(3)
fn=(6)
* 8 0
cfl=(1)
cfn=(1)
calls=0 -8193 1
* * 100
ob=(1)
fl=(3)
fn=(5)
+1 9 0
cfl=(3)
cfn=(3)
calls=0 +1 5
* * 10
ob=(1)
fl=(3)
fn=(3)
* 5 0
cfl=(2)
cfn=(4)
calls=0 -4098 4
* * 10
Active filters:
focus=[12]00
hide=line[X3]0
Showing nodes accounting for 1.11s, 99.11% of 1.12s total
flat flat% sum% cum cum%
1.10s 98.21% 98.21% 1.10s 98.21% line1000 testdata/file1000.src:1
0 0% 98.21% 1.01s 90.18% line2000 testdata/file2000.src:4
0.01s 0.89% 99.11% 1.01s 90.18% line2001 testdata/file2000.src:9 (inline)
Active filters:
hide=line[X3]0
Showing nodes accounting for 1.11s, 99.11% of 1.12s total
flat flat% sum% cum cum%
1.10s 98.21% 98.21% 1.10s 98.21% line1000 testdata/file1000.src:1
0 0% 98.21% 1.01s 90.18% line2000 testdata/file2000.src:4
0.01s 0.89% 99.11% 1.01s 90.18% line2001 testdata/file2000.src:9 (inline)
Active filters:
show=[12]00
Showing nodes accounting for 1.11s, 99.11% of 1.12s total
flat flat% sum% cum cum%
1.10s 98.21% 98.21% 1.10s 98.21% line1000 testdata/file1000.src:1
0 0% 98.21% 1.01s 90.18% line2000 testdata/file2000.src:4
0.01s 0.89% 99.11% 1.01s 90.18% line2001 testdata/file2000.src:9 (inline)
Active filters:
hide=mangled[X3]0
Showing nodes accounting for 1s, 100% of 1s total
flat flat% sum% cum cum%
1s 100% 100% 1s 100% mangled1000 testdata/file1000.src:1
Active filters:
show_from=line2
Showing nodes accounting for 1.01s, 90.18% of 1.12s total
----------------------------------------------------------+-------------
flat flat% sum% cum cum% calls calls% + context
----------------------------------------------------------+-------------
0 0% 0% 1.01s 90.18% | line2000 testdata/file2000.src:4
1.01s 100% | line2001 testdata/file2000.src:9 (inline)
----------------------------------------------------------+-------------
1.01s 100% | line2000 testdata/file2000.src:4 (inline)
0.01s 0.89% 0.89% 1.01s 90.18% | line2001 testdata/file2000.src:9
1s 99.01% | line1000 testdata/file1000.src:1
----------------------------------------------------------+-------------
1s 100% | line2001 testdata/file2000.src:9
1s 89.29% 90.18% 1s 89.29% | line1000 testdata/file1000.src:1
----------------------------------------------------------+-------------
Total: 1.12s
ROUTINE ======================== line1000
1.10s 1.10s (flat, cum) 98.21% of Total
1.10s 1.10s 1000: instruction one ;line1000 file1000.src:1
. . 1001: instruction two ;file1000.src:1
. . 1002: instruction three ;file1000.src:2
. . 1003: instruction four ;file1000.src:1
ROUTINE ======================== line3000
10ms 1.12s (flat, cum) 100% of Total
10ms 1.01s 3000: instruction one ;line3000 file3000.src:6
. 100ms 3001: instruction two ;line3000 file3000.src:9
. 10ms 3002: instruction three
. . 3003: instruction four
. . 3004: instruction five
Showing nodes accounting for 1.12s, 100% of 1.12s total
Dropped 1 node (cum <= 0.06s)
flat flat% sum% cum cum%
1.10s 98.21% 98.21% 1.10s 98.21% 0000000000001000 line1000 testdata/file1000.src:1
0.01s 0.89% 99.11% 1.01s 90.18% 0000000000002000 line2000 testdata/file2000.src:4
0.01s 0.89% 100% 1.01s 90.18% 0000000000003000 line3000 testdata/file3000.src:6
0 0% 100% 0.10s 8.93% 0000000000003001 line3000 testdata/file3000.src:9
<!DOCTYPE html>
<html>
<head>
<meta charset="UTF-8">
<title>Pprof listing</title>
<style type="text/css">
body {
font-family: sans-serif;
}
h1 {
font-size: 1.5em;
margin-bottom: 4px;
}
.legend {
font-size: 1.25em;
}
.line, .nop, .unimportant {
color: #aaaaaa;
}
.inlinesrc {
color: #000066;
}
.deadsrc {
cursor: pointer;
}
.deadsrc:hover {
background-color: #eeeeee;
}
.livesrc {
color: #0000ff;
cursor: pointer;
}
.livesrc:hover {
background-color: #eeeeee;
}
.asm {
color: #008800;
display: none;
}
</style>
<script type="text/javascript">
function pprof_toggle_asm(e) {
var target;
if (!e) e = window.event;
if (e.target) target = e.target;
else if (e.srcElement) target = e.srcElement;
if (target) {
var asm = target.nextSibling;
if (asm && asm.className == "asm") {
asm.style.display = (asm.style.display == "block" ? "" : "block");
e.preventDefault();
return false;
}
}
}
</script>
</head>
<body>
<div class="legend">File: testbinary<br>
Type: cpu<br>
Duration: 10s, Total samples = 1.12s (11.20%)<br>Total: 1.12s</div><h2>line1000</h2><p class="filename">testdata/file1000.src</p>
<pre onClick="pprof_toggle_asm(event)">
Total: 1.10s 1.10s (flat, cum) 98.21%
<span class=line> 1</span> <span class=deadsrc> 1.10s 1.10s line1 </span><span class=asm> 1.10s 1.10s 1000: instruction one <span class=unimportant>file1000.src:1</span>
. . 1001: instruction two <span class=unimportant>file1000.src:1</span>
. . 1003: instruction four <span class=unimportant>file1000.src:1</span>
</span>
<span class=line> 2</span> <span class=deadsrc> . . line2 </span><span class=asm> . . 1002: instruction three <span class=unimportant>file1000.src:2</span>
</span>
<span class=line> 3</span> <span class=nop> . . line3 </span>
<span class=line> 4</span> <span class=nop> . . line4 </span>
<span class=line> 5</span> <span class=nop> . . line5 </span>
<span class=line> 6</span> <span class=nop> . . line6 </span>
<span class=line> 7</span> <span class=nop> . . line7 </span>
</pre>
<h2>line3000</h2><p class="filename">testdata/file3000.src</p>
<pre onClick="pprof_toggle_asm(event)">
Total: 10ms 1.12s (flat, cum) 100%
<span class=line> 1</span> <span class=nop> . . line1 </span>
<span class=line> 2</span> <span class=nop> . . line2 </span>
<span class=line> 3</span> <span class=nop> . . line3 </span>
<span class=line> 4</span> <span class=nop> . . line4 </span>
<span class=line> 5</span> <span class=nop> . . line5 </span>
<span class=line> 6</span> <span class=deadsrc> 10ms 1.01s line6 </span><span class=asm> 10ms 1.01s 3000: instruction one <span class=unimportant>file3000.src:6</span>
</span>
<span class=line> 7</span> <span class=nop> . . line7 </span>
<span class=line> 8</span> <span class=nop> . . line8 </span>
<span class=line> 9</span> <span class=deadsrc> . 110ms line9 </span><span class=asm> . 100ms 3001: instruction two <span class=unimportant>file3000.src:9</span>
. 10ms 3002: instruction three <span class=unimportant>file3000.src:9</span>
. . 3003: instruction four <span class=unimportant></span>
. . 3004: instruction five <span class=unimportant></span>
</span>
<span class=line> 10</span> <span class=nop> . . line0 </span>
<span class=line> 11</span> <span class=nop> . . line1 </span>
<span class=line> 12</span> <span class=nop> . . line2 </span>
<span class=line> 13</span> <span class=nop> . . line3 </span>
<span class=line> 14</span> <span class=nop> . . line4 </span>
</pre>
</body>
</html>
Showing nodes accounting for 1.12s, 100% of 1.12s total
flat flat% sum% cum cum%
1.10s 98.21% 98.21% 1.10s 98.21% line1000 testdata/file1000.src
0.01s 0.89% 99.11% 1.01s 90.18% line2000 testdata/file2000.src
0.01s 0.89% 100% 1.12s 100% line3000 testdata/file3000.src
digraph "testbinary" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "File: testbinary" [shape=box fontsize=16 label="File: testbinary\lType: cpu\lDuration: 10s, Total samples = 1.12s (11.20%)\lShowing nodes accounting for 1.11s, 99.11% of 1.12s total\lDropped 3 nodes (cum <= 0.06s)\l" tooltip="testbinary"] }
N1 [label="line1000\n1s (89.29%)" id="node1" fontsize=24 shape=box tooltip="line1000 (1s)" color="#b20500" fillcolor="#edd6d5"]
N1_0 [label = "key1:tag1\nkey2:tag1" id="N1_0" fontsize=8 shape=box3d tooltip="1s"]
N1 -> N1_0 [label=" 1s" weight=100 tooltip="1s" labeltooltip="1s"]
N2 [label="line3000\n0 of 1.12s (100%)" id="node2" fontsize=8 shape=box tooltip="line3000 (1.12s)" color="#b20000" fillcolor="#edd5d5"]
N3 [label="line3001\n0 of 1.11s (99.11%)" id="node3" fontsize=8 shape=box tooltip="line3001 (1.11s)" color="#b20000" fillcolor="#edd5d5"]
N4 [label="line1000\n0.10s (8.93%)" id="node4" fontsize=14 shape=box tooltip="line1000 (0.10s)" color="#b28b62" fillcolor="#ede8e2"]
N4_0 [label = "key1:tag2\nkey3:tag2" id="N4_0" fontsize=8 shape=box3d tooltip="0.10s"]
N4 -> N4_0 [label=" 0.10s" weight=100 tooltip="0.10s" labeltooltip="0.10s"]
N5 [label="line3002\n0.01s (0.89%)\nof 1.01s (90.18%)" id="node5" fontsize=10 shape=box tooltip="line3002 (1.01s)" color="#b20500" fillcolor="#edd6d5"]
N6 [label="line2000\n0 of 1s (89.29%)" id="node6" fontsize=8 shape=box tooltip="line2000 (1s)" color="#b20500" fillcolor="#edd6d5"]
N7 [label="line2001\n0 of 1s (89.29%)" id="node7" fontsize=8 shape=box tooltip="line2001 (1s)" color="#b20500" fillcolor="#edd6d5"]
N2 -> N3 [label=" 1.11s\n (inline)" weight=100 penwidth=5 color="#b20000" tooltip="line3000 -> line3001 (1.11s)" labeltooltip="line3000 -> line3001 (1.11s)"]
N3 -> N5 [label=" 1.01s\n (inline)" weight=91 penwidth=5 color="#b20500" tooltip="line3001 -> line3002 (1.01s)" labeltooltip="line3001 -> line3002 (1.01s)"]
N6 -> N7 [label=" 1s\n (inline)" weight=90 penwidth=5 color="#b20500" tooltip="line2000 -> line2001 (1s)" labeltooltip="line2000 -> line2001 (1s)"]
N7 -> N1 [label=" 1s" weight=90 penwidth=5 color="#b20500" tooltip="line2001 -> line1000 (1s)" labeltooltip="line2001 -> line1000 (1s)"]
N5 -> N6 [label=" 1s" weight=90 penwidth=5 color="#b20500" tooltip="line3002 -> line2000 (1s)" labeltooltip="line3002 -> line2000 (1s)"]
N3 -> N4 [label=" 0.10s" weight=9 color="#b28b62" tooltip="line3001 -> line1000 (0.10s)" labeltooltip="line3001 -> line1000 (0.10s)"]
}
digraph "testbinary" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "File: testbinary" [shape=box fontsize=16 label="File: testbinary\lType: cpu\lDuration: 10s, Total samples = 1.12s (11.20%)\lShowing nodes accounting for 1.12s, 100% of 1.12s total\l" tooltip="testbinary"] }
N1 [label="line1000\n1.10s (98.21%)" id="node1" fontsize=24 shape=box tooltip="line1000 (1.10s)" color="#b20000" fillcolor="#edd5d5"]
N1_0 [label = "key1:tag1\nkey2:tag1" id="N1_0" fontsize=8 shape=box3d tooltip="1s"]
N1 -> N1_0 [label=" 1s" weight=100 tooltip="1s" labeltooltip="1s"]
N1_1 [label = "key1:tag2\nkey3:tag2" id="N1_1" fontsize=8 shape=box3d tooltip="0.10s"]
N1 -> N1_1 [label=" 0.10s" weight=100 tooltip="0.10s" labeltooltip="0.10s"]
N2 [label="line3000\n0 of 1.12s (100%)" id="node2" fontsize=8 shape=box tooltip="line3000 (1.12s)" color="#b20000" fillcolor="#edd5d5"]
N3 [label="line3001\n0 of 1.11s (99.11%)" id="node3" fontsize=8 shape=box tooltip="line3001 (1.11s)" color="#b20000" fillcolor="#edd5d5"]
N4 [label="line3002\n0.01s (0.89%)\nof 1.02s (91.07%)" id="node4" fontsize=10 shape=box tooltip="line3002 (1.02s)" color="#b20400" fillcolor="#edd6d5"]
N5 [label="line2001\n0.01s (0.89%)\nof 1.01s (90.18%)" id="node5" fontsize=10 shape=box tooltip="line2001 (1.01s)" color="#b20500" fillcolor="#edd6d5"]
N6 [label="line2000\n0 of 1.01s (90.18%)" id="node6" fontsize=8 shape=box tooltip="line2000 (1.01s)" color="#b20500" fillcolor="#edd6d5"]
N2 -> N3 [label=" 1.11s\n (inline)" weight=100 penwidth=5 color="#b20000" tooltip="line3000 -> line3001 (1.11s)" labeltooltip="line3000 -> line3001 (1.11s)"]
N6 -> N5 [label=" 1.01s\n (inline)" weight=91 penwidth=5 color="#b20500" tooltip="line2000 -> line2001 (1.01s)" labeltooltip="line2000 -> line2001 (1.01s)"]
N3 -> N4 [label=" 1.01s\n (inline)" weight=91 penwidth=5 color="#b20500" tooltip="line3001 -> line3002 (1.01s)" labeltooltip="line3001 -> line3002 (1.01s)"]
N4 -> N6 [label=" 1.01s" weight=91 penwidth=5 color="#b20500" tooltip="line3002 -> line2000 (1.01s)" labeltooltip="line3002 -> line2000 (1.01s)"]
N5 -> N1 [label=" 1s" weight=90 penwidth=5 color="#b20500" tooltip="line2001 -> line1000 (1s)" labeltooltip="line2001 -> line1000 (1s)"]
N3 -> N1 [label=" 0.10s" weight=9 color="#b28b62" tooltip="line3001 -> line1000 (0.10s)" labeltooltip="line3001 -> line1000 (0.10s)"]
}
Showing nodes accounting for 1.12s, 100% of 1.12s total
flat flat% sum% cum cum%
1.10s 98.21% 98.21% 1.10s 98.21% line1000
0.01s 0.89% 99.11% 1.01s 90.18% line2000
0.01s 0.89% 100% 1.12s 100% line3000
Showing nodes accounting for 1.12s, 100% of 1.12s total
flat flat% sum% cum cum%
1.10s 98.21% 98.21% 1.10s 98.21% line1000
0.01s 0.89% 99.11% 1.01s 90.18% line2001 (inline)
0.01s 0.89% 100% 1.02s 91.07% line3002 (inline)
0 0% 100% 1.01s 90.18% line2000
0 0% 100% 1.12s 100% line3000
0 0% 100% 1.11s 99.11% line3001 (inline)
Showing nodes accounting for 1s, 100% of 1s total
flat flat% sum% cum cum%
1s 100% 100% 1s 100% mangled1000 testdata/file1000.src:1
Showing nodes accounting for 1.12s, 100% of 1.12s total
----------------------------------------------------------+-------------
flat flat% sum% cum cum% calls calls% + context
----------------------------------------------------------+-------------
1.01s 100% | line2000 (inline)
0.01s 0.89% 0.89% 1.01s 90.18% | line2001
1s 99.01% | line1000
----------------------------------------------------------+-------------
1.11s 100% | line3000 (inline)
0 0% 0.89% 1.11s 99.11% | line3001
1.01s 90.99% | line3002 (inline)
0.10s 9.01% | line1000
----------------------------------------------------------+-------------
key1: Total 1.1s
1.0s (89.29%): tag1
100.0ms ( 8.93%): tag2
10.0ms ( 0.89%): tag3
10.0ms ( 0.89%): tag4
key2: Total 1.0s
1.0s (99.02%): tag1
10.0ms ( 0.98%): tag2
key3: Total 100.0ms
100.0ms ( 100%): tag2
key1: Total 100.0ms
100.0ms ( 100%): tag2
key3: Total 100.0ms
100.0ms ( 100%): tag2
File: testbinary
Type: cpu
Duration: 10s, Total samples = 1.12s (11.20%)
-----------+-------------------------------------------------------
key1: tag1
key2: tag1
1s line1000
line2001
line2000
line3002
line3001
line3000
-----------+-------------------------------------------------------
key1: tag2
key3: tag2
100ms line1000
line3001
line3000
-----------+-------------------------------------------------------
key1: tag3
key2: tag2
10ms line2001
line2000
line3002
line3000
-----------+-------------------------------------------------------
key1: tag4
key2: tag1
10ms line3002
line3001
line3000
-----------+-------------------------------------------------------
Showing nodes accounting for 4s, 100% of 4s total
Showing top 4 nodes out of 5
----------------------------------------------------------+-------------
flat flat% sum% cum cum% calls calls% + context
----------------------------------------------------------+-------------
1s 100% | 0000000000003000 [testbinary]
1s 25.00% 25.00% 1s 25.00% | 0000000000001000 [testbinary]
----------------------------------------------------------+-------------
1s 25.00% 50.00% 2s 50.00% | 0000000000003000 [testbinary]
1s 50.00% | 0000000000001000 [testbinary]
----------------------------------------------------------+-------------
1s 100% | 0000000000005000 [testbinary]
1s 25.00% 75.00% 1s 25.00% | 0000000000004000 [testbinary]
----------------------------------------------------------+-------------
1s 25.00% 100% 2s 50.00% | 0000000000005000 [testbinary]
1s 50.00% | 0000000000004000 [testbinary]
----------------------------------------------------------+-------------
positions: instr line
events: inuse_space(MB)
ob=
fl=(1) testdata/file2000.src
fn=(1) line2001
0x2000 2 62
cfl=(2) testdata/file1000.src
cfn=(2) line1000
calls=0 0x1000 1
* * 0
ob=
fl=(3) testdata/file3000.src
fn=(3) line3002
+4096 3 31
cfl=(1)
cfn=(4) line2000
calls=0 * 3
* * 0
ob=
fl=(2)
fn=(2)
-8192 1 4
ob=
fl=(1)
fn=(4)
+4096 3 0
cfl=(1)
cfn=(1)
calls=0 +4096 2
* * 63
ob=
fl=(3)
fn=(5) line3000
+4096 4 0
cfl=(3)
cfn=(6) line3001
calls=0 +4096 2
* * 32
ob=
fl=(3)
fn=(6)
* 2 0
cfl=(3)
cfn=(3)
calls=0 * 3
* * 32
ob=
fl=(3)
fn=(5)
+1 4 0
cfl=(3)
cfn=(6)
calls=0 +1 2
* * 3
ob=
fl=(3)
fn=(6)
* 2 0
cfl=(2)
cfn=(2)
calls=0 -8193 1
* * 3
ob=
fl=(3)
fn=(5)
+1 4 0
cfl=(3)
cfn=(3)
calls=0 +1 3
* * 62
ob=
fl=(3)
fn=(3)
* 3 0
cfl=(1)
cfn=(4)
calls=0 -4098 3
* * 62
Active filters:
focus=[24]00
Showing nodes accounting for 62.50MB, 63.37% of 98.63MB total
Dropped 2 nodes (cum <= 4.93MB)
----------------------------------------------------------+-------------
flat flat% sum% cum cum% calls calls% + context
----------------------------------------------------------+-------------
63.48MB 100% | line3002 testdata/file3000.src:3
0 0% 0% 63.48MB 64.36% | line2000 testdata/file2000.src:3
63.48MB 100% | line2001 testdata/file2000.src:2 (inline)
----------------------------------------------------------+-------------
63.48MB 100% | line2000 testdata/file2000.src:3 (inline)
62.50MB 63.37% 63.37% 63.48MB 64.36% | line2001 testdata/file2000.src:2
----------------------------------------------------------+-------------
0 0% 63.37% 63.48MB 64.36% | line3000 testdata/file3000.src:4
63.48MB 100% | line3002 testdata/file3000.src:3 (inline)
----------------------------------------------------------+-------------
63.48MB 100% | line3000 testdata/file3000.src:4 (inline)
0 0% 63.37% 63.48MB 64.36% | line3002 testdata/file3000.src:3
63.48MB 100% | line2000 testdata/file2000.src:3
----------------------------------------------------------+-------------
Active filters:
focus=[24]00
Showing nodes accounting for 62.50MB, 98.46% of 63.48MB total
Dropped 2 nodes (cum <= 3.17MB)
----------------------------------------------------------+-------------
flat flat% sum% cum cum% calls calls% + context
----------------------------------------------------------+-------------
63.48MB 100% | line3002
0 0% 0% 63.48MB 100% | line2000
63.48MB 100% | line2001 (inline)
----------------------------------------------------------+-------------
63.48MB 100% | line2000 (inline)
62.50MB 98.46% 98.46% 63.48MB 100% | line2001
----------------------------------------------------------+-------------
0 0% 98.46% 63.48MB 100% | line3000
63.48MB 100% | line3002 (inline)
----------------------------------------------------------+-------------
63.48MB 100% | line3000 (inline)
0 0% 98.46% 63.48MB 100% | line3002
63.48MB 100% | line2000
----------------------------------------------------------+-------------
Showing nodes accounting for 93.75MB, 95.05% of 98.63MB total
Dropped 1 node (cum <= 4.93MB)
flat flat% sum% cum cum%
62.50MB 63.37% 63.37% 63.48MB 64.36% testdata/file2000.src
31.25MB 31.68% 95.05% 98.63MB 100% testdata/file3000.src
Active filters:
focus=[12]00
taghide=[X3]00
Showing nodes accounting for 67.38MB, 68.32% of 98.63MB total
flat flat% sum% cum cum%
62.50MB 63.37% 63.37% 63.48MB 64.36% testdata/file2000.src
4.88MB 4.95% 68.32% 4.88MB 4.95% testdata/file1000.src
0 0% 68.32% 67.38MB 68.32% testdata/file3000.src
Showing nodes accounting for 150, 100% of 150 total
flat flat% sum% cum cum%
80 53.33% 53.33% 130 86.67% line3002 (inline)
40 26.67% 80.00% 50 33.33% line2001 (inline)
30 20.00% 100% 30 20.00% line1000
0 0% 100% 50 33.33% line2000
0 0% 100% 150 100% line3000
0 0% 100% 110 73.33% line3001 (inline)
digraph "unnamed" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "Build ID: buildid" [shape=box fontsize=16 label="Build ID: buildid\lcomment\lType: inuse_space\lActive filters:\l tagfocus=1mb:2gb\lShowing nodes accounting for 62.50MB, 63.37% of 98.63MB total\l"] }
N1 [label="line2001\n62.50MB (63.37%)" id="node1" fontsize=24 shape=box tooltip="line2001 (62.50MB)" color="#b21600" fillcolor="#edd8d5"]
NN1_0 [label = "1.56MB" id="NN1_0" fontsize=8 shape=box3d tooltip="62.50MB"]
N1 -> NN1_0 [label=" 62.50MB" weight=100 tooltip="62.50MB" labeltooltip="62.50MB"]
N2 [label="line3000\n0 of 62.50MB (63.37%)" id="node2" fontsize=8 shape=box tooltip="line3000 (62.50MB)" color="#b21600" fillcolor="#edd8d5"]
N3 [label="line2000\n0 of 62.50MB (63.37%)" id="node3" fontsize=8 shape=box tooltip="line2000 (62.50MB)" color="#b21600" fillcolor="#edd8d5"]
N4 [label="line3002\n0 of 62.50MB (63.37%)" id="node4" fontsize=8 shape=box tooltip="line3002 (62.50MB)" color="#b21600" fillcolor="#edd8d5"]
N3 -> N1 [label=" 62.50MB\n (inline)" weight=64 penwidth=4 color="#b21600" tooltip="line2000 -> line2001 (62.50MB)" labeltooltip="line2000 -> line2001 (62.50MB)"]
N2 -> N4 [label=" 62.50MB\n (inline)" weight=64 penwidth=4 color="#b21600" tooltip="line3000 -> line3002 (62.50MB)" labeltooltip="line3000 -> line3002 (62.50MB)"]
N4 -> N3 [label=" 62.50MB" weight=64 penwidth=4 color="#b21600" tooltip="line3002 -> line2000 (62.50MB)" labeltooltip="line3002 -> line2000 (62.50MB)"]
}
digraph "unnamed" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "Build ID: buildid" [shape=box fontsize=16 label="Build ID: buildid\lcomment\lType: inuse_space\lActive filters:\l tagfocus=30kb:\l tagignore=1mb:2mb\lShowing nodes accounting for 36.13MB, 36.63% of 98.63MB total\lDropped 2 nodes (cum <= 4.93MB)\l"] }
N1 [label="line3002\n31.25MB (31.68%)\nof 32.23MB (32.67%)" id="node1" fontsize=24 shape=box tooltip="line3002 (32.23MB)" color="#b23200" fillcolor="#eddcd5"]
NN1_0 [label = "400kB" id="NN1_0" fontsize=8 shape=box3d tooltip="31.25MB"]
N1 -> NN1_0 [label=" 31.25MB" weight=100 tooltip="31.25MB" labeltooltip="31.25MB"]
N2 [label="line3000\n0 of 36.13MB (36.63%)" id="node2" fontsize=8 shape=box tooltip="line3000 (36.13MB)" color="#b22e00" fillcolor="#eddbd5"]
N3 [label="line3001\n0 of 36.13MB (36.63%)" id="node3" fontsize=8 shape=box tooltip="line3001 (36.13MB)" color="#b22e00" fillcolor="#eddbd5"]
N4 [label="line1000\n4.88MB (4.95%)" id="node4" fontsize=15 shape=box tooltip="line1000 (4.88MB)" color="#b2a086" fillcolor="#edeae7"]
NN4_0 [label = "200kB" id="NN4_0" fontsize=8 shape=box3d tooltip="3.91MB"]
N4 -> NN4_0 [label=" 3.91MB" weight=100 tooltip="3.91MB" labeltooltip="3.91MB"]
N2 -> N3 [label=" 36.13MB\n (inline)" weight=37 penwidth=2 color="#b22e00" tooltip="line3000 -> line3001 (36.13MB)" labeltooltip="line3000 -> line3001 (36.13MB)"]
N3 -> N1 [label=" 32.23MB\n (inline)" weight=33 penwidth=2 color="#b23200" tooltip="line3001 -> line3002 (32.23MB)" labeltooltip="line3001 -> line3002 (32.23MB)"]
N3 -> N4 [label=" 3.91MB" weight=4 color="#b2a58f" tooltip="line3001 -> line1000 (3.91MB)" labeltooltip="line3001 -> line1000 (3.91MB)"]
N1 -> N4 [label=" 0.98MB" color="#b2b0a9" tooltip="line3002 ... line1000 (0.98MB)" labeltooltip="line3002 ... line1000 (0.98MB)" style="dotted" minlen=2]
}
digraph "unnamed" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "Build ID: buildid" [shape=box fontsize=16 label="Build ID: buildid\lcomment\lType: inuse_space\lActive filters:\l focus=[12]00\lShowing nodes accounting for 67.38MB, 68.32% of 98.63MB total\l"] }
N1 [label="line3000\nfile3000.src:4\n0 of 67.38MB (68.32%)" id="node1" fontsize=8 shape=box tooltip="line3000 testdata/file3000.src:4 (67.38MB)" color="#b21300" fillcolor="#edd7d5"]
N2 [label="line2001\nfile2000.src:2\n62.50MB (63.37%)\nof 63.48MB (64.36%)" id="node2" fontsize=24 shape=box tooltip="line2001 testdata/file2000.src:2 (63.48MB)" color="#b21600" fillcolor="#edd8d5"]
NN2_0 [label = "1.56MB" id="NN2_0" fontsize=8 shape=box3d tooltip="62.50MB"]
N2 -> NN2_0 [label=" 62.50MB" weight=100 tooltip="62.50MB" labeltooltip="62.50MB"]
N3 [label="line1000\nfile1000.src:1\n4.88MB (4.95%)" id="node3" fontsize=13 shape=box tooltip="line1000 testdata/file1000.src:1 (4.88MB)" color="#b2a086" fillcolor="#edeae7"]
NN3_0 [label = "200kB" id="NN3_0" fontsize=8 shape=box3d tooltip="3.91MB"]
N3 -> NN3_0 [label=" 3.91MB" weight=100 tooltip="3.91MB" labeltooltip="3.91MB"]
N4 [label="line3002\nfile3000.src:3\n0 of 63.48MB (64.36%)" id="node4" fontsize=8 shape=box tooltip="line3002 testdata/file3000.src:3 (63.48MB)" color="#b21600" fillcolor="#edd8d5"]
N5 [label="line3001\nfile3000.src:2\n0 of 4.88MB (4.95%)" id="node5" fontsize=8 shape=box tooltip="line3001 testdata/file3000.src:2 (4.88MB)" color="#b2a086" fillcolor="#edeae7"]
N6 [label="line2000\nfile2000.src:3\n0 of 63.48MB (64.36%)" id="node6" fontsize=8 shape=box tooltip="line2000 testdata/file2000.src:3 (63.48MB)" color="#b21600" fillcolor="#edd8d5"]
N6 -> N2 [label=" 63.48MB\n (inline)" weight=65 penwidth=4 color="#b21600" tooltip="line2000 testdata/file2000.src:3 -> line2001 testdata/file2000.src:2 (63.48MB)" labeltooltip="line2000 testdata/file2000.src:3 -> line2001 testdata/file2000.src:2 (63.48MB)"]
N4 -> N6 [label=" 63.48MB" weight=65 penwidth=4 color="#b21600" tooltip="line3002 testdata/file3000.src:3 -> line2000 testdata/file2000.src:3 (63.48MB)" labeltooltip="line3002 testdata/file3000.src:3 -> line2000 testdata/file2000.src:3 (63.48MB)"]
N1 -> N4 [label=" 62.50MB\n (inline)" weight=64 penwidth=4 color="#b21600" tooltip="line3000 testdata/file3000.src:4 -> line3002 testdata/file3000.src:3 (62.50MB)" labeltooltip="line3000 testdata/file3000.src:4 -> line3002 testdata/file3000.src:3 (62.50MB)"]
N1 -> N5 [label=" 4.88MB\n (inline)" weight=5 color="#b2a086" tooltip="line3000 testdata/file3000.src:4 -> line3001 testdata/file3000.src:2 (4.88MB)" labeltooltip="line3000 testdata/file3000.src:4 -> line3001 testdata/file3000.src:2 (4.88MB)"]
N5 -> N3 [label=" 3.91MB" weight=4 color="#b2a58f" tooltip="line3001 testdata/file3000.src:2 -> line1000 testdata/file1000.src:1 (3.91MB)" labeltooltip="line3001 testdata/file3000.src:2 -> line1000 testdata/file1000.src:1 (3.91MB)"]
N2 -> N3 [label=" 0.98MB" color="#b2b0a9" tooltip="line2001 testdata/file2000.src:2 -> line1000 testdata/file1000.src:1 (0.98MB)" labeltooltip="line2001 testdata/file2000.src:2 -> line1000 testdata/file1000.src:1 (0.98MB)" minlen=2]
N5 -> N4 [label=" 0.98MB\n (inline)" color="#b2b0a9" tooltip="line3001 testdata/file3000.src:2 -> line3002 testdata/file3000.src:3 (0.98MB)" labeltooltip="line3001 testdata/file3000.src:2 -> line3002 testdata/file3000.src:3 (0.98MB)"]
}
bytes: Total 98.6MB
62.5MB (63.37%): 1.56MB
31.2MB (31.68%): 400kB
3.9MB ( 3.96%): 200kB
1000.0kB ( 0.99%): 100kB
bytes: Total 103424000.0B
65536000.0B (63.37%): 1638400B
32768000.0B (31.68%): 409600B
4096000.0B ( 3.96%): 204800B
1024000.0B ( 0.99%): 102400B
Showing nodes accounting for 150, 100% of 150 total
flat flat% sum% cum cum%
80 53.33% 53.33% 130 86.67% line3002 (inline)
40 26.67% 80.00% 50 33.33% line2001 (inline)
30 20.00% 100% 30 20.00% line1000
0 0% 100% 50 33.33% line2000
0 0% 100% 150 100% line3000
0 0% 100% 110 73.33% line3001 (inline)
digraph "unnamed" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "Build ID: buildid" [shape=box fontsize=16 label="Build ID: buildid\lcomment\lType: alloc_space\lActive filters:\l tagshow=[2]00\lShowing nodes accounting for 93.75MB, 95.05% of 98.63MB total\lDropped 1 node (cum <= 4.93MB)\l"] }
N1 [label="line3002\n31.25MB (31.68%)\nof 94.73MB (96.04%)" id="node1" fontsize=20 shape=box tooltip="line3002 (94.73MB)" color="#b20200" fillcolor="#edd5d5"]
N2 [label="line3000\n0 of 98.63MB (100%)" id="node2" fontsize=8 shape=box tooltip="line3000 (98.63MB)" color="#b20000" fillcolor="#edd5d5"]
N3 [label="line2001\n62.50MB (63.37%)\nof 63.48MB (64.36%)" id="node3" fontsize=24 shape=box tooltip="line2001 (63.48MB)" color="#b21600" fillcolor="#edd8d5"]
N4 [label="line2000\n0 of 63.48MB (64.36%)" id="node4" fontsize=8 shape=box tooltip="line2000 (63.48MB)" color="#b21600" fillcolor="#edd8d5"]
N5 [label="line3001\n0 of 36.13MB (36.63%)" id="node5" fontsize=8 shape=box tooltip="line3001 (36.13MB)" color="#b22e00" fillcolor="#eddbd5"]
N4 -> N3 [label=" 63.48MB\n (inline)" weight=65 penwidth=4 color="#b21600" tooltip="line2000 -> line2001 (63.48MB)" labeltooltip="line2000 -> line2001 (63.48MB)"]
N1 -> N4 [label=" 63.48MB" weight=65 penwidth=4 color="#b21600" tooltip="line3002 -> line2000 (63.48MB)" labeltooltip="line3002 -> line2000 (63.48MB)"]
N2 -> N1 [label=" 62.50MB\n (inline)" weight=64 penwidth=4 color="#b21600" tooltip="line3000 -> line3002 (62.50MB)" labeltooltip="line3000 -> line3002 (62.50MB)"]
N2 -> N5 [label=" 36.13MB\n (inline)" weight=37 penwidth=2 color="#b22e00" tooltip="line3000 -> line3001 (36.13MB)" labeltooltip="line3000 -> line3001 (36.13MB)"]
N5 -> N1 [label=" 32.23MB\n (inline)" weight=33 penwidth=2 color="#b23200" tooltip="line3001 -> line3002 (32.23MB)" labeltooltip="line3001 -> line3002 (32.23MB)"]
}
digraph "unnamed" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "Build ID: buildid" [shape=box fontsize=16 label="Build ID: buildid\lcomment\lType: alloc_space\lActive filters:\l focus=[234]00\lShowing nodes accounting for 93.75MB, 95.05% of 98.63MB total\lDropped 1 node (cum <= 4.93MB)\l"] }
N1 [label="line3002\n31.25MB (31.68%)\nof 94.73MB (96.04%)" id="node1" fontsize=20 shape=box tooltip="line3002 (94.73MB)" color="#b20200" fillcolor="#edd5d5"]
NN1_0 [label = "400kB" id="NN1_0" fontsize=8 shape=box3d tooltip="31.25MB"]
N1 -> NN1_0 [label=" 31.25MB" weight=100 tooltip="31.25MB" labeltooltip="31.25MB"]
N2 [label="line3000\n0 of 98.63MB (100%)" id="node2" fontsize=8 shape=box tooltip="line3000 (98.63MB)" color="#b20000" fillcolor="#edd5d5"]
N3 [label="line2001\n62.50MB (63.37%)\nof 63.48MB (64.36%)" id="node3" fontsize=24 shape=box tooltip="line2001 (63.48MB)" color="#b21600" fillcolor="#edd8d5"]
NN3_0 [label = "1.56MB" id="NN3_0" fontsize=8 shape=box3d tooltip="62.50MB"]
N3 -> NN3_0 [label=" 62.50MB" weight=100 tooltip="62.50MB" labeltooltip="62.50MB"]
N4 [label="line2000\n0 of 63.48MB (64.36%)" id="node4" fontsize=8 shape=box tooltip="line2000 (63.48MB)" color="#b21600" fillcolor="#edd8d5"]
N5 [label="line3001\n0 of 36.13MB (36.63%)" id="node5" fontsize=8 shape=box tooltip="line3001 (36.13MB)" color="#b22e00" fillcolor="#eddbd5"]
N4 -> N3 [label=" 63.48MB\n (inline)" weight=65 penwidth=4 color="#b21600" tooltip="line2000 -> line2001 (63.48MB)" labeltooltip="line2000 -> line2001 (63.48MB)"]
N1 -> N4 [label=" 63.48MB" weight=65 penwidth=4 color="#b21600" tooltip="line3002 -> line2000 (63.48MB)" labeltooltip="line3002 -> line2000 (63.48MB)" minlen=2]
N2 -> N1 [label=" 62.50MB\n (inline)" weight=64 penwidth=4 color="#b21600" tooltip="line3000 -> line3002 (62.50MB)" labeltooltip="line3000 -> line3002 (62.50MB)"]
N2 -> N5 [label=" 36.13MB\n (inline)" weight=37 penwidth=2 color="#b22e00" tooltip="line3000 -> line3001 (36.13MB)" labeltooltip="line3000 -> line3001 (36.13MB)"]
N5 -> N1 [label=" 32.23MB\n (inline)" weight=33 penwidth=2 color="#b23200" tooltip="line3001 -> line3002 (32.23MB)" labeltooltip="line3001 -> line3002 (32.23MB)"]
}
digraph "unnamed" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "Build ID: buildid" [shape=box fontsize=16 label="Build ID: buildid\lcomment\lType: alloc_space\lActive filters:\l hide=line.*1?23?\lShowing nodes accounting for 93.75MB, 95.05% of 98.63MB total\lDropped 1 node (cum <= 4.93MB)\l"] }
N1 [label="line3000\n62.50MB (63.37%)\nof 98.63MB (100%)" id="node1" fontsize=24 shape=box tooltip="line3000 (98.63MB)" color="#b20000" fillcolor="#edd5d5"]
NN1_0 [label = "1.56MB" id="NN1_0" fontsize=8 shape=box3d tooltip="62.50MB"]
N1 -> NN1_0 [label=" 62.50MB" weight=100 tooltip="62.50MB" labeltooltip="62.50MB"]
N2 [label="line3001\n31.25MB (31.68%)\nof 36.13MB (36.63%)" id="node2" fontsize=20 shape=box tooltip="line3001 (36.13MB)" color="#b22e00" fillcolor="#eddbd5"]
NN2_0 [label = "400kB" id="NN2_0" fontsize=8 shape=box3d tooltip="31.25MB"]
N2 -> NN2_0 [label=" 31.25MB" weight=100 tooltip="31.25MB" labeltooltip="31.25MB"]
N1 -> N2 [label=" 36.13MB\n (inline)" weight=37 penwidth=2 color="#b22e00" tooltip="line3000 -> line3001 (36.13MB)" labeltooltip="line3000 -> line3001 (36.13MB)" minlen=2]
}
bytes: Total 93.8MB
62.5MB (66.67%): 1.56MB
31.2MB (33.33%): 400kB
request: Total 93.8MB
62.5MB (66.67%): 1.56MB
31.2MB (33.33%): 400kB
digraph "unnamed" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "Build ID: buildid" [shape=box fontsize=16 label="Build ID: buildid\lcomment\lType: inuse_space\lShowing nodes accounting for 93.75MB, 95.05% of 98.63MB total\lDropped 1 node (cum <= 4.93MB)\l"] }
N1 [label="line3002\n31.25MB (31.68%)\nof 94.73MB (96.04%)" id="node1" fontsize=20 shape=box tooltip="line3002 (94.73MB)" color="#b20200" fillcolor="#edd5d5"]
NN1_0 [label = "16B..64B" id="NN1_0" fontsize=8 shape=box3d tooltip="93.75MB"]
N1 -> NN1_0 [label=" 93.75MB" weight=100 tooltip="93.75MB" labeltooltip="93.75MB"]
NN1_1 [label = "2B..8B" id="NN1_1" fontsize=8 shape=box3d tooltip="93.75MB"]
N1 -> NN1_1 [label=" 93.75MB" weight=100 tooltip="93.75MB" labeltooltip="93.75MB"]
NN1_2 [label = "256B..1.56MB" id="NN1_2" fontsize=8 shape=box3d tooltip="62.50MB"]
N1 -> NN1_2 [label=" 62.50MB" weight=100 tooltip="62.50MB" labeltooltip="62.50MB"]
NN1_3 [label = "128B" id="NN1_3" fontsize=8 shape=box3d tooltip="31.25MB"]
N1 -> NN1_3 [label=" 31.25MB" weight=100 tooltip="31.25MB" labeltooltip="31.25MB"]
N2 [label="line3000\n0 of 98.63MB (100%)" id="node2" fontsize=8 shape=box tooltip="line3000 (98.63MB)" color="#b20000" fillcolor="#edd5d5"]
N3 [label="line2001\n62.50MB (63.37%)\nof 63.48MB (64.36%)" id="node3" fontsize=24 shape=box tooltip="line2001 (63.48MB)" color="#b21600" fillcolor="#edd8d5"]
NN3_0 [label = "16B..64B" id="NN3_0" fontsize=8 shape=box3d tooltip="190.43MB"]
N3 -> NN3_0 [label=" 190.43MB" weight=100 tooltip="190.43MB" labeltooltip="190.43MB" style="dotted"]
NN3_1 [label = "2B..8B" id="NN3_1" fontsize=8 shape=box3d tooltip="190.43MB"]
N3 -> NN3_1 [label=" 190.43MB" weight=100 tooltip="190.43MB" labeltooltip="190.43MB" style="dotted"]
NN3_2 [label = "256B..1.56MB" id="NN3_2" fontsize=8 shape=box3d tooltip="125.98MB"]
N3 -> NN3_2 [label=" 125.98MB" weight=100 tooltip="125.98MB" labeltooltip="125.98MB" style="dotted"]
NN3_3 [label = "128B" id="NN3_3" fontsize=8 shape=box3d tooltip="63.48MB"]
N3 -> NN3_3 [label=" 63.48MB" weight=100 tooltip="63.48MB" labeltooltip="63.48MB" style="dotted"]
N4 [label="line2000\n0 of 63.48MB (64.36%)" id="node4" fontsize=8 shape=box tooltip="line2000 (63.48MB)" color="#b21600" fillcolor="#edd8d5"]
N5 [label="line3001\n0 of 36.13MB (36.63%)" id="node5" fontsize=8 shape=box tooltip="line3001 (36.13MB)" color="#b22e00" fillcolor="#eddbd5"]
N4 -> N3 [label=" 63.48MB\n (inline)" weight=65 penwidth=4 color="#b21600" tooltip="line2000 -> line2001 (63.48MB)" labeltooltip="line2000 -> line2001 (63.48MB)"]
N1 -> N4 [label=" 63.48MB" weight=65 penwidth=4 color="#b21600" tooltip="line3002 -> line2000 (63.48MB)" labeltooltip="line3002 -> line2000 (63.48MB)" minlen=2]
N2 -> N1 [label=" 62.50MB\n (inline)" weight=64 penwidth=4 color="#b21600" tooltip="line3000 -> line3002 (62.50MB)" labeltooltip="line3000 -> line3002 (62.50MB)"]
N2 -> N5 [label=" 36.13MB\n (inline)" weight=37 penwidth=2 color="#b22e00" tooltip="line3000 -> line3001 (36.13MB)" labeltooltip="line3000 -> line3001 (36.13MB)"]
N5 -> N1 [label=" 32.23MB\n (inline)" weight=33 penwidth=2 color="#b23200" tooltip="line3001 -> line3002 (32.23MB)" labeltooltip="line3001 -> line3002 (32.23MB)"]
}
Build ID: buildid
comment
Type: inuse_space
-----------+-------------------------------------------------------
key1: tag
bytes: 100kB
request: 100kB
1000kB line1000
line2001
line2000
line3002
line3001
line3000
-----------+-------------------------------------------------------
bytes: 200kB
3.91MB line1000
line3001
line3000
-----------+-------------------------------------------------------
key1: tag
bytes: 1.56MB
request: 1.56MB
62.50MB line2001
line2000
line3002
line3000
-----------+-------------------------------------------------------
bytes: 400kB
31.25MB line3002
line3001
line3000
-----------+-------------------------------------------------------
digraph "testbinary" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "File: testbinary" [shape=box fontsize=16 label="File: testbinary\lType: cpu\lDuration: 10s, Total samples = 1.11s (11.10%)\lShowing nodes accounting for 1.11s, 100% of 1.11s total\l" tooltip="testbinary"] }
N1 [label="package1\nobject\nfunction1\n1.10s (99.10%)" id="node1" fontsize=24 shape=box tooltip="path/to/package1.object.function1 (1.10s)" color="#b20000" fillcolor="#edd5d5"]
N2 [label="FooBar\nrun\n0.01s (0.9%)\nof 1.01s (90.99%)" id="node2" fontsize=10 shape=box tooltip="java.bar.foo.FooBar.run(java.lang.Runnable) (1.01s)" color="#b20400" fillcolor="#edd6d5"]
N3 [label="Bar\nFoo\n0 of 1.10s (99.10%)" id="node3" fontsize=8 shape=box tooltip="(anonymous namespace)::Bar::Foo (1.10s)" color="#b20000" fillcolor="#edd5d5"]
N3 -> N1 [label=" 1.10s" weight=100 penwidth=5 color="#b20000" tooltip="(anonymous namespace)::Bar::Foo -> path/to/package1.object.function1 (1.10s)" labeltooltip="(anonymous namespace)::Bar::Foo -> path/to/package1.object.function1 (1.10s)"]
N2 -> N3 [label=" 1s" weight=91 penwidth=5 color="#b20500" tooltip="java.bar.foo.FooBar.run(java.lang.Runnable) -> (anonymous namespace)::Bar::Foo (1s)" labeltooltip="java.bar.foo.FooBar.run(java.lang.Runnable) -> (anonymous namespace)::Bar::Foo (1s)"]
}
Showing nodes accounting for 1.11s, 100% of 1.11s total
flat flat% sum% cum cum%
1.10s 99.10% 99.10% 1.10s 99.10% path/to/package1.object.function1
0.01s 0.9% 100% 1.01s 90.99% java.bar.foo.FooBar.run(java.lang.Runnable)
0 0% 100% 1.10s 99.10% (anonymous namespace)::Bar::Foo
Showing nodes accounting for 1.12s, 100% of 1.12s total
Showing top 5 nodes out of 6
flat flat% sum% cum cum%
1.10s 98.21% 98.21% 1.10s 98.21% line1000
0.01s 0.89% 99.11% 1.01s 90.18% line2001 (inline)
0.01s 0.89% 100% 1.02s 91.07% line3002 (inline)
0 0% 100% 1.01s 90.18% line2000
0 0% 100% 1.12s 100% line3000
// Copyright 2017 Google Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package driver
import (
"fmt"
"io/ioutil"
"net"
"net/http"
"net/http/httptest"
"net/url"
"os/exec"
"regexp"
"runtime"
"sync"
"testing"
"github.com/google/pprof/internal/plugin"
"github.com/google/pprof/internal/proftest"
"github.com/google/pprof/profile"
)
func TestWebInterface(t *testing.T) {
if runtime.GOOS == "nacl" || runtime.GOOS == "js" {
t.Skip("test assumes tcp available")
}
prof := makeFakeProfile()
// Custom http server creator
var server *httptest.Server
serverCreated := make(chan bool)
creator := func(a *plugin.HTTPServerArgs) error {
server = httptest.NewServer(http.HandlerFunc(
func(w http.ResponseWriter, r *http.Request) {
if h := a.Handlers[r.URL.Path]; h != nil {
h.ServeHTTP(w, r)
}
}))
serverCreated <- true
return nil
}
// Start server and wait for it to be initialized
go serveWebInterface("unused:1234", prof, &plugin.Options{
Obj: fakeObjTool{},
UI: &proftest.TestUI{},
HTTPServer: creator,
})
<-serverCreated
defer server.Close()
haveDot := false
if _, err := exec.LookPath("dot"); err == nil {
haveDot = true
}
type testCase struct {
path string
want []string
needDot bool
}
testcases := []testCase{
{"/", []string{"F1", "F2", "F3", "testbin", "cpu"}, true},
{"/top", []string{`"Name":"F2","InlineLabel":"","Flat":200,"Cum":300,"FlatFormat":"200ms","CumFormat":"300ms"}`}, false},
{"/source?f=" + url.QueryEscape("F[12]"),
[]string{"F1", "F2", "300ms +line1"}, false},
{"/peek?f=" + url.QueryEscape("F[12]"),
[]string{"300ms.*F1", "200ms.*300ms.*F2"}, false},
{"/disasm?f=" + url.QueryEscape("F[12]"),
[]string{"f1:asm", "f2:asm"}, false},
{"/flamegraph", []string{"File: testbin", "\"n\":\"root\"", "\"n\":\"F1\"", "var flamegraph = function", "function hierarchy"}, false},
}
for _, c := range testcases {
if c.needDot && !haveDot {
t.Log("skipping", c.path, "since dot (graphviz) does not seem to be installed")
continue
}
res, err := http.Get(server.URL + c.path)
if err != nil {
t.Error("could not fetch", c.path, err)
continue
}
data, err := ioutil.ReadAll(res.Body)
if err != nil {
t.Error("could not read response", c.path, err)
continue
}
result := string(data)
for _, w := range c.want {
if match, _ := regexp.MatchString(w, result); !match {
t.Errorf("response for %s does not match "+
"expected pattern '%s'; "+
"actual result:\n%s", c.path, w, result)
}
}
}
// Also fetch all the test case URLs in parallel to test thread
// safety when run under the race detector.
var wg sync.WaitGroup
for _, c := range testcases {
if c.needDot && !haveDot {
continue
}
path := server.URL + c.path
for count := 0; count < 2; count++ {
wg.Add(1)
go func() {
defer wg.Done()
res, err := http.Get(path)
if err != nil {
t.Error("could not fetch", c.path, err)
return
}
if _, err = ioutil.ReadAll(res.Body); err != nil {
t.Error("could not read response", c.path, err)
}
}()
}
}
wg.Wait()
}
// Implement fake object file support.
const addrBase = 0x1000
const fakeSource = "testdata/file1000.src"
type fakeObj struct{}
func (f fakeObj) Close() error { return nil }
func (f fakeObj) Name() string { return "testbin" }
func (f fakeObj) Base() uint64 { return 0 }
func (f fakeObj) BuildID() string { return "" }
func (f fakeObj) SourceLine(addr uint64) ([]plugin.Frame, error) {
return nil, fmt.Errorf("SourceLine unimplemented")
}
func (f fakeObj) Symbols(r *regexp.Regexp, addr uint64) ([]*plugin.Sym, error) {
return []*plugin.Sym{
{
Name: []string{"F1"}, File: fakeSource,
Start: addrBase, End: addrBase + 10,
},
{
Name: []string{"F2"}, File: fakeSource,
Start: addrBase + 10, End: addrBase + 20,
},
{
Name: []string{"F3"}, File: fakeSource,
Start: addrBase + 20, End: addrBase + 30,
},
}, nil
}
type fakeObjTool struct{}
func (obj fakeObjTool) Open(file string, start, limit, offset uint64) (plugin.ObjFile, error) {
return fakeObj{}, nil
}
func (obj fakeObjTool) Disasm(file string, start, end uint64) ([]plugin.Inst, error) {
return []plugin.Inst{
{Addr: addrBase + 0, Text: "f1:asm", Function: "F1"},
{Addr: addrBase + 10, Text: "f2:asm", Function: "F2"},
{Addr: addrBase + 20, Text: "d3:asm", Function: "F3"},
}, nil
}
func makeFakeProfile() *profile.Profile {
// Three functions: F1, F2, F3 with three lines, 11, 22, 33.
funcs := []*profile.Function{
{ID: 1, Name: "F1", Filename: fakeSource, StartLine: 3},
{ID: 2, Name: "F2", Filename: fakeSource, StartLine: 5},
{ID: 3, Name: "F3", Filename: fakeSource, StartLine: 7},
}
lines := []profile.Line{
{Function: funcs[0], Line: 11},
{Function: funcs[1], Line: 22},
{Function: funcs[2], Line: 33},
}
mapping := []*profile.Mapping{
{
ID: 1,
Start: addrBase,
Limit: addrBase + 10,
Offset: 0,
File: "testbin",
HasFunctions: true,
HasFilenames: true,
HasLineNumbers: true,
},
}
// Three interesting addresses: base+{10,20,30}
locs := []*profile.Location{
{ID: 1, Address: addrBase + 10, Line: lines[0:1], Mapping: mapping[0]},
{ID: 2, Address: addrBase + 20, Line: lines[1:2], Mapping: mapping[0]},
{ID: 3, Address: addrBase + 30, Line: lines[2:3], Mapping: mapping[0]},
}
// Two stack traces.
return &profile.Profile{
PeriodType: &profile.ValueType{Type: "cpu", Unit: "milliseconds"},
Period: 1,
DurationNanos: 10e9,
SampleType: []*profile.ValueType{
{Type: "cpu", Unit: "milliseconds"},
},
Sample: []*profile.Sample{
{
Location: []*profile.Location{locs[2], locs[1], locs[0]},
Value: []int64{100},
},
{
Location: []*profile.Location{locs[1], locs[0]},
Value: []int64{200},
},
},
Location: locs,
Function: funcs,
Mapping: mapping,
}
}
func TestGetHostAndPort(t *testing.T) {
if runtime.GOOS == "nacl" || runtime.GOOS == "js" {
t.Skip("test assumes tcp available")
}
type testCase struct {
hostport string
wantHost string
wantPort int
wantRandomPort bool
}
testCases := []testCase{
{":", "localhost", 0, true},
{":4681", "localhost", 4681, false},
{"localhost:4681", "localhost", 4681, false},
}
for _, tc := range testCases {
host, port, err := getHostAndPort(tc.hostport)
if err != nil {
t.Errorf("could not get host and port for %q: %v", tc.hostport, err)
}
if got, want := host, tc.wantHost; got != want {
t.Errorf("for %s, got host %s, want %s", tc.hostport, got, want)
continue
}
if !tc.wantRandomPort {
if got, want := port, tc.wantPort; got != want {
t.Errorf("for %s, got port %d, want %d", tc.hostport, got, want)
continue
}
}
}
}
func TestIsLocalHost(t *testing.T) {
for _, s := range []string{"localhost:10000", "[::1]:10000", "127.0.0.1:10000"} {
host, _, err := net.SplitHostPort(s)
if err != nil {
t.Error("unexpected error when splitting", s)
continue
}
if !isLocalhost(host) {
t.Errorf("host %s from %s not considered local", host, s)
}
}
}
// Copyright 2014 Google Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package elfexec
import (
"debug/elf"
"testing"
)
func TestGetBase(t *testing.T) {
fhExec := &elf.FileHeader{
Type: elf.ET_EXEC,
}
fhRel := &elf.FileHeader{
Type: elf.ET_REL,
}
fhDyn := &elf.FileHeader{
Type: elf.ET_DYN,
}
lsOffset := &elf.ProgHeader{
Vaddr: 0x400000,
Off: 0x200000,
}
kernelHeader := &elf.ProgHeader{
Vaddr: 0xffffffff81000000,
}
kernelAslrHeader := &elf.ProgHeader{
Vaddr: 0xffffffff80200000,
Off: 0x1000,
}
ppc64KernelHeader := &elf.ProgHeader{
Vaddr: 0xc000000000000000,
}
testcases := []struct {
label string
fh *elf.FileHeader
loadSegment *elf.ProgHeader
stextOffset *uint64
start, limit, offset uint64
want uint64
wanterr bool
}{
{"exec", fhExec, nil, nil, 0x400000, 0, 0, 0, false},
{"exec offset", fhExec, lsOffset, nil, 0x400000, 0x800000, 0, 0x200000, false},
{"exec offset 2", fhExec, lsOffset, nil, 0x200000, 0x600000, 0, 0, false},
{"exec nomap", fhExec, nil, nil, 0, 0, 0, 0, false},
{"exec kernel", fhExec, kernelHeader, uint64p(0xffffffff81000198), 0xffffffff82000198, 0xffffffff83000198, 0, 0x1000000, false},
{"exec kernel", fhExec, kernelHeader, uint64p(0xffffffff810002b8), 0xffffffff81000000, 0xffffffffa0000000, 0x0, 0x0, false},
{"exec kernel ASLR", fhExec, kernelHeader, uint64p(0xffffffff810002b8), 0xffffffff81000000, 0xffffffffa0000000, 0xffffffff81000000, 0x0, false},
// TODO(aalexand): Figure out where this test case exactly comes from and
// whether it's still relevant.
{"exec kernel ASLR 2", fhExec, kernelAslrHeader, nil, 0xffffffff83e00000, 0xfffffffffc3fffff, 0x3c00000, 0x3c00000, false},
{"exec PPC64 kernel", fhExec, ppc64KernelHeader, uint64p(0xc000000000000000), 0xc000000000000000, 0xd00000001a730000, 0x0, 0x0, false},
{"exec chromeos kernel", fhExec, kernelHeader, uint64p(0xffffffff81000198), 0, 0x10197, 0, 0x7efffe68, false},
{"exec chromeos kernel 2", fhExec, kernelHeader, uint64p(0xffffffff81000198), 0, 0x10198, 0, 0x7efffe68, false},
{"exec chromeos kernel 3", fhExec, kernelHeader, uint64p(0xffffffff81000198), 0x198, 0x100000, 0, 0x7f000000, false},
{"exec chromeos kernel 4", fhExec, kernelHeader, uint64p(0xffffffff81200198), 0x198, 0x100000, 0, 0x7ee00000, false},
{"exec chromeos kernel unremapped", fhExec, kernelHeader, uint64p(0xffffffff810001c8), 0xffffffff834001c8, 0xffffffffc0000000, 0xffffffff834001c8, 0x2400000, false},
{"dyn", fhDyn, nil, nil, 0x200000, 0x300000, 0, 0x200000, false},
{"dyn map", fhDyn, lsOffset, nil, 0x0, 0x300000, 0, 0xFFFFFFFFFFE00000, false},
{"dyn nomap", fhDyn, nil, nil, 0x0, 0x0, 0, 0, false},
{"dyn map+offset", fhDyn, lsOffset, nil, 0x900000, 0xa00000, 0x200000, 0x500000, false},
{"rel", fhRel, nil, nil, 0x2000000, 0x3000000, 0, 0x2000000, false},
{"rel nomap", fhRel, nil, nil, 0x0, ^uint64(0), 0, 0, false},
{"rel offset", fhRel, nil, nil, 0x100000, 0x200000, 0x1, 0, true},
}
for _, tc := range testcases {
base, err := GetBase(tc.fh, tc.loadSegment, tc.stextOffset, tc.start, tc.limit, tc.offset)
if err != nil {
if !tc.wanterr {
t.Errorf("%s: want no error, got %v", tc.label, err)
}
continue
}
if tc.wanterr {
t.Errorf("%s: want error, got nil", tc.label)
continue
}
if base != tc.want {
t.Errorf("%s: want 0x%x, got 0x%x", tc.label, tc.want, base)
}
}
}
func uint64p(n uint64) *uint64 {
return &n
}
digraph "testtitle" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "label1" [shape=box fontsize=16 label="label1\llabel2\l" tooltip="testtitle"] }
N1 [label="src\n10 (10.00%)\nof 25 (25.00%)" id="node1" fontsize=22 shape=box tooltip="src (25)" color="#b23c00" fillcolor="#edddd5"]
N2 [label="dest\n15 (15.00%)\nof 25 (25.00%)" id="node2" fontsize=24 shape=box tooltip="dest (25)" color="#b23c00" fillcolor="#edddd5"]
N1 -> N2 [label=" 10" weight=11 color="#b28559" tooltip="src -> dest (10)" labeltooltip="src -> dest (10)"]
}
digraph "testtitle" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "label1" [shape=box fontsize=16 label="label1\llabel2\l" tooltip="testtitle"] }
N1 [label="SRC10 (10.00%)\nof 25 (25.00%)" id="node1" fontsize=24 shape=folder tooltip="src (25)" color="#b23c00" fillcolor="#edddd5" style="bold,filled" peripheries=2 URL="www.google.com" target="_blank"]
N2 [label="dest\n0 of 25 (25.00%)" id="node2" fontsize=8 shape=box tooltip="dest (25)" color="#b23c00" fillcolor="#edddd5"]
N1 -> N2 [label=" 10" weight=11 color="#b28559" tooltip="src -> dest (10)" labeltooltip="src -> dest (10)"]
}
digraph "testtitle" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "label1" [shape=box fontsize=16 label="label1\llabel2\l" tooltip="testtitle"] }
N1 [label="src\n10 (10.00%)\nof 25 (25.00%)" id="node1" fontsize=22 shape=box tooltip="src (25)" color="#b23c00" fillcolor="#edddd5"]
N1_0 [label = "tag1" id="N1_0" fontsize=8 shape=box3d tooltip="10"]
N1 -> N1_0 [label=" 10" weight=100 tooltip="10" labeltooltip="10"]
NN1_0 [label = "tag2" id="NN1_0" fontsize=8 shape=box3d tooltip="20"]
N1 -> NN1_0 [label=" 20" weight=100 tooltip="20" labeltooltip="20"]
N2 [label="dest\n15 (15.00%)\nof 25 (25.00%)" id="node2" fontsize=24 shape=box tooltip="dest (25)" color="#b23c00" fillcolor="#edddd5"]
N1 -> N2 [label=" 10" weight=11 color="#b28559" tooltip="src ... dest (10)" labeltooltip="src ... dest (10)" style="dotted" minlen=2]
}
digraph "testtitle" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "label1" [shape=box fontsize=16 label="label1\llabel2\l" tooltip="testtitle"] }
}
digraph "testtitle" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "label1" [shape=box fontsize=16 label="label1\llabel2\l" tooltip="testtitle"] }
N1 [label="src\n10 (10.00%)\nof 25 (25.00%)" id="node1" fontsize=22 shape=box tooltip="src (25)" color="#b23c00" fillcolor="#edddd5"]
N1_0 [label = "tag1" id="N1_0" fontsize=8 shape=box3d tooltip="10"]
N1 -> N1_0 [label=" 10" weight=100 tooltip="10" labeltooltip="10"]
NN1_0_0 [label = "tag2" id="NN1_0_0" fontsize=8 shape=box3d tooltip="20"]
N1_0 -> NN1_0_0 [label=" 20" weight=100 tooltip="20" labeltooltip="20"]
N2 [label="dest\n15 (15.00%)\nof 25 (25.00%)" id="node2" fontsize=24 shape=box tooltip="dest (25)" color="#b23c00" fillcolor="#edddd5"]
N1 -> N2 [label=" 10" weight=11 color="#b28559" tooltip="src -> dest (10)" labeltooltip="src -> dest (10)" minlen=2]
}
digraph "testtitle" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "label1" [shape=box fontsize=16 label="label1\llabel2\l" URL="http://example.com" target="_blank" tooltip="testtitle"] }
N1 [label="src\n10 (10.00%)\nof 25 (25.00%)" id="node1" fontsize=22 shape=box tooltip="src (25)" color="#b23c00" fillcolor="#edddd5"]
N2 [label="dest\n15 (15.00%)\nof 25 (25.00%)" id="node2" fontsize=24 shape=box tooltip="dest (25)" color="#b23c00" fillcolor="#edddd5"]
N1 -> N2 [label=" 10" weight=11 color="#b28559" tooltip="src -> dest (10)" labeltooltip="src -> dest (10)"]
}
// Copyright 2017 Google Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package measurement
import (
"testing"
)
func TestScale(t *testing.T) {
for _, tc := range []struct {
value int64
fromUnit, toUnit string
wantValue float64
wantUnit string
}{
{1, "s", "ms", 1000, "ms"},
{1, "kb", "b", 1024, "B"},
{1, "kbyte", "b", 1024, "B"},
{1, "kilobyte", "b", 1024, "B"},
{1, "mb", "kb", 1024, "kB"},
{1, "gb", "mb", 1024, "MB"},
{1024, "gb", "tb", 1, "TB"},
{1024, "tb", "pb", 1, "PB"},
{2048, "mb", "auto", 2, "GB"},
{3.1536e7, "s", "auto", 1, "yrs"},
{-1, "s", "ms", -1000, "ms"},
{1, "foo", "count", 1, ""},
{1, "foo", "bar", 1, "bar"},
} {
if gotValue, gotUnit := Scale(tc.value, tc.fromUnit, tc.toUnit); gotValue != tc.wantValue || gotUnit != tc.wantUnit {
t.Errorf("Scale(%d, %q, %q) = (%f, %q), want (%f, %q)",
tc.value, tc.fromUnit, tc.toUnit, gotValue, gotUnit, tc.wantValue, tc.wantUnit)
}
}
}
sample/ contains a sample program that can be profiled.
sample.bin is its x86-64 binary.
sample.cpu is a profile generated by sample.bin.
To update the binary and profile:
```shell
go build -o sample.bin ./sample
./sample.bin -cpuprofile sample.cpu
```
// sample program that is used to produce some of the files in
// pprof/internal/report/testdata.
package main
import (
"flag"
"fmt"
"log"
"math"
"os"
"runtime/pprof"
)
var cpuProfile = flag.String("cpuprofile", "", "where to write cpu profile")
func main() {
flag.Parse()
f, err := os.Create(*cpuProfile)
if err != nil {
log.Fatal("could not create CPU profile: ", err)
}
if err := pprof.StartCPUProfile(f); err != nil {
log.Fatal("could not start CPU profile: ", err)
}
defer pprof.StopCPUProfile()
busyLoop()
}
func busyLoop() {
m := make(map[int]int)
for i := 0; i < 1000000; i++ {
m[i] = i + 10
}
var sum float64
for i := 0; i < 100; i++ {
for _, v := range m {
sum += math.Abs(float64(v))
}
}
fmt.Println("Sum", sum)
}
digraph "unnamed" {
node [style=filled fillcolor="#f8f8f8"]
subgraph cluster_L { "Duration: 10s, Total samples = 11111 " [shape=box fontsize=16 label="Duration: 10s, Total samples = 11111 \lShowing nodes accounting for 11111, 100% of 11111 total\l"] }
N1 [label="tee\nsource2:8\n10000 (90.00%)" id="node1" fontsize=24 shape=box tooltip="tee testdata/source2:8 (10000)" color="#b20500" fillcolor="#edd6d5"]
N2 [label="main\nsource1:2\n1 (0.009%)\nof 11111 (100%)" id="node2" fontsize=9 shape=box tooltip="main testdata/source1:2 (11111)" color="#b20000" fillcolor="#edd5d5"]
N3 [label="tee\nsource2:2\n1000 (9.00%)\nof 11000 (99.00%)" id="node3" fontsize=14 shape=box tooltip="tee testdata/source2:2 (11000)" color="#b20000" fillcolor="#edd5d5"]
N4 [label="tee\nsource2:8\n100 (0.9%)" id="node4" fontsize=10 shape=box tooltip="tee testdata/source2:8 (100)" color="#b2b0aa" fillcolor="#edecec"]
N5 [label="bar\nsource1:10\n10 (0.09%)" id="node5" fontsize=9 shape=box tooltip="bar testdata/source1:10 (10)" color="#b2b2b1" fillcolor="#ededed"]
N6 [label="bar\nsource1:10\n0 of 100 (0.9%)" id="node6" fontsize=8 shape=box tooltip="bar testdata/source1:10 (100)" color="#b2b0aa" fillcolor="#edecec"]
N7 [label="foo\nsource1:4\n0 of 10 (0.09%)" id="node7" fontsize=8 shape=box tooltip="foo testdata/source1:4 (10)" color="#b2b2b1" fillcolor="#ededed"]
N2 -> N3 [label=" 11000" weight=100 penwidth=5 color="#b20000" tooltip="main testdata/source1:2 -> tee testdata/source2:2 (11000)" labeltooltip="main testdata/source1:2 -> tee testdata/source2:2 (11000)"]
N3 -> N1 [label=" 10000" weight=91 penwidth=5 color="#b20500" tooltip="tee testdata/source2:2 -> tee testdata/source2:8 (10000)" labeltooltip="tee testdata/source2:2 -> tee testdata/source2:8 (10000)"]
N6 -> N4 [label=" 100" color="#b2b0aa" tooltip="bar testdata/source1:10 -> tee testdata/source2:8 (100)" labeltooltip="bar testdata/source1:10 -> tee testdata/source2:8 (100)"]
N2 -> N6 [label=" 100" color="#b2b0aa" tooltip="main testdata/source1:2 -> bar testdata/source1:10 (100)" labeltooltip="main testdata/source1:2 -> bar testdata/source1:10 (100)"]
N7 -> N5 [label=" 10" color="#b2b2b1" tooltip="foo testdata/source1:4 -> bar testdata/source1:10 (10)" labeltooltip="foo testdata/source1:4 -> bar testdata/source1:10 (10)"]
N2 -> N7 [label=" 10" color="#b2b2b1" tooltip="main testdata/source1:2 -> foo testdata/source1:4 (10)" labeltooltip="main testdata/source1:2 -> foo testdata/source1:4 (10)"]
}
Total: 11111
ROUTINE ======================== bar in testdata/source1
10 110 (flat, cum) 0.99% of Total
. . 5:source1 line 5;
. . 6:source1 line 6;
. . 7:source1 line 7;
. . 8:source1 line 8;
. . 9:source1 line 9;
10 110 10:source1 line 10;
. . 11:source1 line 11;
. . 12:source1 line 12;
. . 13:source1 line 13;
. . 14:source1 line 14;
. . 15:source1 line 15;
ROUTINE ======================== foo in testdata/source1
0 10 (flat, cum) 0.09% of Total
. . 1:source1 line 1;
. . 2:source1 line 2;
. . 3:source1 line 3;
. 10 4:source1 line 4;
. . 5:source1 line 5;
. . 6:source1 line 6;
. . 7:source1 line 7;
. . 8:source1 line 8;
. . 9:source1 line 9;
ROUTINE ======================== main in testdata/source1
1 11111 (flat, cum) 100% of Total
. . 1:source1 line 1;
1 11111 2:source1 line 2;
. . 3:source1 line 3;
. . 4:source1 line 4;
. . 5:source1 line 5;
. . 6:source1 line 6;
. . 7:source1 line 7;
ROUTINE ======================== tee in testdata/source2
11100 21100 (flat, cum) 189.90% of Total
. . 1:source2 line 1;
1000 11000 2:source2 line 2;
. . 3:source2 line 3;
. . 4:source2 line 4;
. . 5:source2 line 5;
. . 6:source2 line 6;
. . 7:source2 line 7;
10100 10100 8:source2 line 8;
. . 9:source2 line 9;
. . 10:source2 line 10;
. . 11:source2 line 11;
. . 12:source2 line 12;
. . 13:source2 line 13;
source1 line 1;
source1 line 2;
source1 line 3;
source1 line 4;
source1 line 5;
source1 line 6;
source1 line 7;
source1 line 8;
source1 line 9;
source1 line 10;
source1 line 11;
source1 line 12;
source1 line 13;
source1 line 14;
source1 line 15;
source1 line 16;
source1 line 17;
source1 line 18;
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