#!/usr/bin/perl -w # # flamegraph.pl flame stack grapher. # # This takes stack samples and renders a call graph, allowing hot functions # and codepaths to be quickly identified. Stack samples can be generated using # tools such as DTrace, perf, SystemTap, and Instruments. # # USAGE: ./flamegraph.pl [options] input.txt > graph.svg # # grep funcA input.txt | ./flamegraph.pl [options] > graph.svg # # Then open the resulting .svg in a web browser, for interactivity: mouse-over # frames for info, click to zoom, and ctrl-F to search. # # Options are listed in the usage message (--help). # # The input is stack frames and sample counts formatted as single lines. Each # frame in the stack is semicolon separated, with a space and count at the end # of the line. These can be generated for Linux perf script output using # stackcollapse-perf.pl, for DTrace using stackcollapse.pl, and for other tools # using the other stackcollapse programs. Example input: # # swapper;start_kernel;rest_init;cpu_idle;default_idle;native_safe_halt 1 # # An optional extra column of counts can be provided to generate a differential # flame graph of the counts, colored red for more, and blue for less. This # can be useful when using flame graphs for non-regression testing. # See the header comment in the difffolded.pl program for instructions. # # The input functions can optionally have annotations at the end of each # function name, following a precedent by some tools (Linux perf's _[k]): # _[k] for kernel # _[i] for inlined # _[j] for jit # _[w] for waker # Some of the stackcollapse programs support adding these annotations, eg, # stackcollapse-perf.pl --kernel --jit. They are used merely for colors by # some palettes, eg, flamegraph.pl --color=java. # # The output flame graph shows relative presence of functions in stack samples. # The ordering on the x-axis has no meaning; since the data is samples, time # order of events is not known. The order used sorts function names # alphabetically. # # While intended to process stack samples, this can also process stack traces. # For example, tracing stacks for memory allocation, or resource usage. You # can use --title to set the title to reflect the content, and --countname # to change "samples" to "bytes" etc. # # There are a few different palettes, selectable using --color. By default, # the colors are selected at random (except for differentials). Functions # called "-" will be printed gray, which can be used for stack separators (eg, # between user and kernel stacks). # # HISTORY # # This was inspired by Neelakanth Nadgir's excellent function_call_graph.rb # program, which visualized function entry and return trace events. As Neel # wrote: "The output displayed is inspired by Roch's CallStackAnalyzer which # was in turn inspired by the work on vftrace by Jan Boerhout". See: # https://blogs.oracle.com/realneel/entry/visualizing_callstacks_via_dtrace_and # # Copyright 2016 Netflix, Inc. # Copyright 2011 Joyent, Inc. All rights reserved. # Copyright 2011 Brendan Gregg. All rights reserved. # # CDDL HEADER START # # The contents of this file are subject to the terms of the # Common Development and Distribution License (the "License"). # You may not use this file except in compliance with the License. # # You can obtain a copy of the license at docs/cddl1.txt or # http://opensource.org/licenses/CDDL-1.0. # See the License for the specific language governing permissions # and limitations under the License. # # When distributing Covered Code, include this CDDL HEADER in each # file and include the License file at docs/cddl1.txt. # If applicable, add the following below this CDDL HEADER, with the # fields enclosed by brackets "[]" replaced with your own identifying # information: Portions Copyright [yyyy] [name of copyright owner] # # CDDL HEADER END # # 11-Oct-2014 Adrien Mahieux Added zoom. # 21-Nov-2013 Shawn Sterling Added consistent palette file option # 17-Mar-2013 Tim Bunce Added options and more tunables. # 15-Dec-2011 Dave Pacheco Support for frames with whitespace. # 10-Sep-2011 Brendan Gregg Created this. use strict; use Getopt::Long; use open qw(:std :utf8); # tunables my $encoding; my $fonttype = "Verdana"; my $imagewidth = 1200; # max width, pixels my $frameheight = 16; # max height is dynamic my $fontsize = 12; # base text size my $fontwidth = 0.59; # avg width relative to fontsize my $minwidth = 0.1; # min function width, pixels my $nametype = "Function:"; # what are the names in the data? my $countname = "samples"; # what are the counts in the data? my $colors = "hot"; # color theme my $bgcolors = ""; # background color theme my $nameattrfile; # file holding function attributes my $timemax; # (override the) sum of the counts my $factor = 1; # factor to scale counts by my $hash = 0; # color by function name my $palette = 0; # if we use consistent palettes (default off) my %palette_map; # palette map hash my $pal_file = "palette.map"; # palette map file name my $stackreverse = 0; # reverse stack order, switching merge end my $inverted = 0; # icicle graph my $flamechart = 0; # produce a flame chart (sort by time, do not merge stacks) my $negate = 0; # switch differential hues my $titletext = ""; # centered heading my $titledefault = "Flame Graph"; # overwritten by --title my $titleinverted = "Icicle Graph"; # " " my $searchcolor = "rgb(230,0,230)"; # color for search highlighting my $notestext = ""; # embedded notes in SVG my $subtitletext = ""; # second level title (optional) my $help = 0; sub usage { die < outfile.svg\n --title TEXT # change title text --subtitle TEXT # second level title (optional) --width NUM # width of image (default 1200) --height NUM # height of each frame (default 16) --minwidth NUM # omit smaller functions (default 0.1 pixels) --fonttype FONT # font type (default "Verdana") --fontsize NUM # font size (default 12) --countname TEXT # count type label (default "samples") --nametype TEXT # name type label (default "Function:") --colors PALETTE # set color palette. choices are: hot (default), mem, # io, wakeup, chain, java, js, perl, red, green, blue, # aqua, yellow, purple, orange --bgcolors COLOR # set background colors. gradient choices are yellow # (default), blue, green, grey; flat colors use "#rrggbb" --hash # colors are keyed by function name hash --cp # use consistent palette (palette.map) --reverse # generate stack-reversed flame graph --inverted # icicle graph --flamechart # produce a flame chart (sort by time, do not merge stacks) --negate # switch differential hues (blue<->red) --notes TEXT # add notes comment in SVG (for debugging) --help # this message eg, $0 --title="Flame Graph: malloc()" trace.txt > graph.svg USAGE_END } GetOptions( 'fonttype=s' => \$fonttype, 'width=i' => \$imagewidth, 'height=i' => \$frameheight, 'encoding=s' => \$encoding, 'fontsize=f' => \$fontsize, 'fontwidth=f' => \$fontwidth, 'minwidth=f' => \$minwidth, 'title=s' => \$titletext, 'subtitle=s' => \$subtitletext, 'nametype=s' => \$nametype, 'countname=s' => \$countname, 'nameattr=s' => \$nameattrfile, 'total=s' => \$timemax, 'factor=f' => \$factor, 'colors=s' => \$colors, 'bgcolors=s' => \$bgcolors, 'hash' => \$hash, 'cp' => \$palette, 'reverse' => \$stackreverse, 'inverted' => \$inverted, 'flamechart' => \$flamechart, 'negate' => \$negate, 'notes=s' => \$notestext, 'help' => \$help, ) or usage(); $help && usage(); # internals my $ypad1 = $fontsize * 3; # pad top, include title my $ypad2 = $fontsize * 2 + 10; # pad bottom, include labels my $ypad3 = $fontsize * 2; # pad top, include subtitle (optional) my $xpad = 10; # pad lefm and right my $framepad = 1; # vertical padding for frames my $depthmax = 0; my %Events; my %nameattr; if ($flamechart && $titletext eq "") { $titletext = "Flame Chart"; } if ($titletext eq "") { unless ($inverted) { $titletext = $titledefault; } else { $titletext = $titleinverted; } } if ($nameattrfile) { # The name-attribute file format is a function name followed by a tab then # a sequence of tab separated name=value pairs. open my $attrfh, $nameattrfile or die "Can't read $nameattrfile: $!\n"; while (<$attrfh>) { chomp; my ($funcname, $attrstr) = split /\t/, $_, 2; die "Invalid format in $nameattrfile" unless defined $attrstr; $nameattr{$funcname} = { map { split /=/, $_, 2 } split /\t/, $attrstr }; } } if ($notestext =~ /[<>]/) { die "Notes string can't contain < or >" } # background colors: # - yellow gradient: default (hot, java, js, perl) # - green gradient: mem # - blue gradient: io, wakeup, chain # - gray gradient: flat colors (red, green, blue, ...) if ($bgcolors eq "") { # choose a default if ($colors eq "mem") { $bgcolors = "green"; } elsif ($colors =~ /^(io|wakeup|chain)$/) { $bgcolors = "blue"; } elsif ($colors =~ /^(red|green|blue|aqua|yellow|purple|orange)$/) { $bgcolors = "grey"; } else { $bgcolors = "yellow"; } } my ($bgcolor1, $bgcolor2); if ($bgcolors eq "yellow") { $bgcolor1 = "#eeeeee"; # background color gradient start $bgcolor2 = "#eeeeb0"; # background color gradient stop } elsif ($bgcolors eq "blue") { $bgcolor1 = "#eeeeee"; $bgcolor2 = "#e0e0ff"; } elsif ($bgcolors eq "green") { $bgcolor1 = "#eef2ee"; $bgcolor2 = "#e0ffe0"; } elsif ($bgcolors eq "grey") { $bgcolor1 = "#f8f8f8"; $bgcolor2 = "#e8e8e8"; } elsif ($bgcolors =~ /^#......$/) { $bgcolor1 = $bgcolor2 = $bgcolors; } else { die "Unrecognized bgcolor option \"$bgcolors\"" } # SVG functions { package SVG; sub new { my $class = shift; my $self = {}; bless ($self, $class); return $self; } sub header { my ($self, $w, $h) = @_; my $enc_attr = ''; if (defined $encoding) { $enc_attr = qq{ encoding="$encoding"}; } $self->{svg} .= < SVG } sub include { my ($self, $content) = @_; $self->{svg} .= $content; } sub colorAllocate { my ($self, $r, $g, $b) = @_; return "rgb($r,$g,$b)"; } sub group_start { my ($self, $attr) = @_; my @g_attr = map { exists $attr->{$_} ? sprintf(qq/$_="%s"/, $attr->{$_}) : () } qw(id class); push @g_attr, $attr->{g_extra} if $attr->{g_extra}; if ($attr->{href}) { my @a_attr; push @a_attr, sprintf qq/xlink:href="%s"/, $attr->{href} if $attr->{href}; # default target=_top else links will open within SVG push @a_attr, sprintf qq/target="%s"/, $attr->{target} || "_top"; push @a_attr, $attr->{a_extra} if $attr->{a_extra}; $self->{svg} .= sprintf qq/\n/, join(' ', (@a_attr, @g_attr)); } else { $self->{svg} .= sprintf qq/\n/, join(' ', @g_attr); } $self->{svg} .= sprintf qq/%s<\/title>/, $attr->{title} if $attr->{title}; # should be first element within g container } sub group_end { my ($self, $attr) = @_; $self->{svg} .= $attr->{href} ? qq/<\/a>\n/ : qq/<\/g>\n/; } sub filledRectangle { my ($self, $x1, $y1, $x2, $y2, $fill, $extra) = @_; $x1 = sprintf "%0.1f", $x1; $x2 = sprintf "%0.1f", $x2; my $w = sprintf "%0.1f", $x2 - $x1; my $h = sprintf "%0.1f", $y2 - $y1; $extra = defined $extra ? $extra : ""; $self->{svg} .= qq/\n/; } sub stringTTF { my ($self, $id, $x, $y, $str, $extra) = @_; $x = sprintf "%0.2f", $x; $id = defined $id ? qq/id="$id"/ : ""; $extra ||= ""; $self->{svg} .= qq/$str<\/text>\n/; } sub svg { my $self = shift; return "$self->{svg}\n"; } 1; } sub namehash { # Generate a vector hash for the name string, weighting early over # later characters. We want to pick the same colors for function # names across different flame graphs. my $name = shift; my $vector = 0; my $weight = 1; my $max = 1; my $mod = 10; # if module name present, trunc to 1st char $name =~ s/.(.*?)`//; foreach my $c (split //, $name) { my $i = (ord $c) % $mod; $vector += ($i / ($mod++ - 1)) * $weight; $max += 1 * $weight; $weight *= 0.70; last if $mod > 12; } return (1 - $vector / $max) } sub color { my ($type, $hash, $name) = @_; my ($v1, $v2, $v3); if ($hash) { $v1 = namehash($name); $v2 = $v3 = namehash(scalar reverse $name); } else { $v1 = rand(1); $v2 = rand(1); $v3 = rand(1); } # theme palettes if (defined $type and $type eq "hot") { my $r = 205 + int(50 * $v3); my $g = 0 + int(230 * $v1); my $b = 0 + int(55 * $v2); return "rgb($r,$g,$b)"; } if (defined $type and $type eq "mem") { my $r = 0; my $g = 190 + int(50 * $v2); my $b = 0 + int(210 * $v1); return "rgb($r,$g,$b)"; } if (defined $type and $type eq "io") { my $r = 80 + int(60 * $v1); my $g = $r; my $b = 190 + int(55 * $v2); return "rgb($r,$g,$b)"; } # multi palettes if (defined $type and $type eq "java") { # Handle both annotations (_[j], _[i], ...; which are # accurate), as well as input that lacks any annotations, as # best as possible. Without annotations, we get a little hacky # and match on java|org|com, etc. if ($name =~ m:_\[j\]$:) { # jit annotation $type = "green"; } elsif ($name =~ m:_\[i\]$:) { # inline annotation $type = "aqua"; } elsif ($name =~ m:^L?(java|javax|jdk|net|org|com|io|sun)/:) { # Java $type = "green"; } elsif ($name =~ /:::/) { # Java, typical perf-map-agent method separator $type = "green"; } elsif ($name =~ /::/) { # C++ $type = "yellow"; } elsif ($name =~ m:_\[k\]$:) { # kernel annotation $type = "orange"; } elsif ($name =~ /::/) { # C++ $type = "yellow"; } else { # system $type = "red"; } # fall-through to color palettes } if (defined $type and $type eq "perl") { if ($name =~ /::/) { # C++ $type = "yellow"; } elsif ($name =~ m:Perl: or $name =~ m:\.pl:) { # Perl $type = "green"; } elsif ($name =~ m:_\[k\]$:) { # kernel $type = "orange"; } else { # system $type = "red"; } # fall-through to color palettes } if (defined $type and $type eq "js") { # Handle both annotations (_[j], _[i], ...; which are # accurate), as well as input that lacks any annotations, as # best as possible. Without annotations, we get a little hacky, # and match on a "/" with a ".js", etc. if ($name =~ m:_\[j\]$:) { # jit annotation if ($name =~ m:/:) { $type = "green"; # source } else { $type = "aqua"; # builtin } } elsif ($name =~ /::/) { # C++ $type = "yellow"; } elsif ($name =~ m:/.*\.js:) { # JavaScript (match "/" in path) $type = "green"; } elsif ($name =~ m/:/) { # JavaScript (match ":" in builtin) $type = "aqua"; } elsif ($name =~ m/^ $/) { # Missing symbol $type = "green"; } elsif ($name =~ m:_\[k\]:) { # kernel $type = "orange"; } else { # system $type = "red"; } # fall-through to color palettes } if (defined $type and $type eq "wakeup") { $type = "aqua"; # fall-through to color palettes } if (defined $type and $type eq "chain") { if ($name =~ m:_\[w\]:) { # waker $type = "aqua" } else { # off-CPU $type = "blue"; } # fall-through to color palettes } # color palettes if (defined $type and $type eq "red") { my $r = 200 + int(55 * $v1); my $x = 50 + int(80 * $v1); return "rgb($r,$x,$x)"; } if (defined $type and $type eq "green") { my $g = 200 + int(55 * $v1); my $x = 50 + int(60 * $v1); return "rgb($x,$g,$x)"; } if (defined $type and $type eq "blue") { my $b = 205 + int(50 * $v1); my $x = 80 + int(60 * $v1); return "rgb($x,$x,$b)"; } if (defined $type and $type eq "yellow") { my $x = 175 + int(55 * $v1); my $b = 50 + int(20 * $v1); return "rgb($x,$x,$b)"; } if (defined $type and $type eq "purple") { my $x = 190 + int(65 * $v1); my $g = 80 + int(60 * $v1); return "rgb($x,$g,$x)"; } if (defined $type and $type eq "aqua") { my $r = 50 + int(60 * $v1); my $g = 165 + int(55 * $v1); my $b = 165 + int(55 * $v1); return "rgb($r,$g,$b)"; } if (defined $type and $type eq "orange") { my $r = 190 + int(65 * $v1); my $g = 90 + int(65 * $v1); return "rgb($r,$g,0)"; } return "rgb(0,0,0)"; } sub color_scale { my ($value, $max) = @_; my ($r, $g, $b) = (255, 255, 255); $value = -$value if $negate; if ($value > 0) { $g = $b = int(210 * ($max - $value) / $max); } elsif ($value < 0) { $r = $g = int(210 * ($max + $value) / $max); } return "rgb($r,$g,$b)"; } sub color_map { my ($colors, $func) = @_; if (exists $palette_map{$func}) { return $palette_map{$func}; } else { $palette_map{$func} = color($colors, $hash, $func); return $palette_map{$func}; } } sub write_palette { open(FILE, ">$pal_file"); foreach my $key (sort keys %palette_map) { print FILE $key."->".$palette_map{$key}."\n"; } close(FILE); } sub read_palette { if (-e $pal_file) { open(FILE, $pal_file) or die "can't open file $pal_file: $!"; while ( my $line = ) { chomp($line); (my $key, my $value) = split("->",$line); $palette_map{$key}=$value; } close(FILE) } } my %Node; # Hash of merged frame data my %Tmp; # flow() merges two stacks, storing the merged frames and value data in %Node. sub flow { my ($last, $this, $v, $d) = @_; my $len_a = @$last - 1; my $len_b = @$this - 1; my $i = 0; my $len_same; for (; $i <= $len_a; $i++) { last if $i > $len_b; last if $last->[$i] ne $this->[$i]; } $len_same = $i; for ($i = $len_a; $i >= $len_same; $i--) { my $k = "$last->[$i];$i"; # a unique ID is constructed from "func;depth;etime"; # func-depth isn't unique, it may be repeated later. $Node{"$k;$v"}->{stime} = delete $Tmp{$k}->{stime}; if (defined $Tmp{$k}->{delta}) { $Node{"$k;$v"}->{delta} = delete $Tmp{$k}->{delta}; } delete $Tmp{$k}; } for ($i = $len_same; $i <= $len_b; $i++) { my $k = "$this->[$i];$i"; $Tmp{$k}->{stime} = $v; if (defined $d) { $Tmp{$k}->{delta} += $i == $len_b ? $d : 0; } } return $this; } # parse input my @Data; my @SortedData; my $last = []; my $time = 0; my $delta = undef; my $ignored = 0; my $line; my $maxdelta = 1; # reverse if needed foreach (<>) { chomp; $line = $_; if ($stackreverse) { # there may be an extra samples column for differentials # XXX todo: redo these REs as one. It's repeated below. my($stack, $samples) = (/^(.*)\s+?(\d+(?:\.\d*)?)$/); my $samples2 = undef; if ($stack =~ /^(.*)\s+?(\d+(?:\.\d*)?)$/) { $samples2 = $samples; ($stack, $samples) = $stack =~ (/^(.*)\s+?(\d+(?:\.\d*)?)$/); unshift @Data, join(";", reverse split(";", $stack)) . " $samples $samples2"; } else { unshift @Data, join(";", reverse split(";", $stack)) . " $samples"; } } else { unshift @Data, $line; } } if ($flamechart) { # In flame chart mode, just reverse the data so time moves from left to right. @SortedData = reverse @Data; } else { @SortedData = sort @Data; } # process and merge frames foreach (@SortedData) { chomp; # process: folded_stack count # eg: func_a;func_b;func_c 31 my ($stack, $samples) = (/^(.*)\s+?(\d+(?:\.\d*)?)$/); unless (defined $samples and defined $stack) { ++$ignored; next; } # there may be an extra samples column for differentials: my $samples2 = undef; if ($stack =~ /^(.*)\s+?(\d+(?:\.\d*)?)$/) { $samples2 = $samples; ($stack, $samples) = $stack =~ (/^(.*)\s+?(\d+(?:\.\d*)?)$/); } $delta = undef; if (defined $samples2) { $delta = $samples2 - $samples; $maxdelta = abs($delta) if abs($delta) > $maxdelta; } # for chain graphs, annotate waker frames with "_[w]", for later # coloring. This is a hack, but has a precedent ("_[k]" from perf). if ($colors eq "chain") { my @parts = split ";--;", $stack; my @newparts = (); $stack = shift @parts; $stack .= ";--;"; foreach my $part (@parts) { $part =~ s/;/_[w];/g; $part .= "_[w]"; push @newparts, $part; } $stack .= join ";--;", @parts; } # merge frames and populate %Node: $last = flow($last, [ '', split ";", $stack ], $time, $delta); if (defined $samples2) { $time += $samples2; } else { $time += $samples; } } flow($last, [], $time, $delta); warn "Ignored $ignored lines with invalid format\n" if $ignored; unless ($time) { warn "ERROR: No stack counts found\n"; my $im = SVG->new(); # emit an error message SVG, for tools automating flamegraph use my $imageheight = $fontsize * 5; $im->header($imagewidth, $imageheight); $im->stringTTF(undef, int($imagewidth / 2), $fontsize * 2, "ERROR: No valid input provided to flamegraph.pl."); print $im->svg; exit 2; } if ($timemax and $timemax < $time) { warn "Specified --total $timemax is less than actual total $time, so ignored\n" if $timemax/$time > 0.02; # only warn is significant (e.g., not rounding etc) undef $timemax; } $timemax ||= $time; my $widthpertime = ($imagewidth - 2 * $xpad) / $timemax; my $minwidth_time = $minwidth / $widthpertime; # prune blocks that are too narrow and determine max depth while (my ($id, $node) = each %Node) { my ($func, $depth, $etime) = split ";", $id; my $stime = $node->{stime}; die "missing start for $id" if not defined $stime; if (($etime-$stime) < $minwidth_time) { delete $Node{$id}; next; } $depthmax = $depth if $depth > $depthmax; } # draw canvas, and embed interactive JavaScript program my $imageheight = (($depthmax + 1) * $frameheight) + $ypad1 + $ypad2; $imageheight += $ypad3 if $subtitletext ne ""; my $titlesize = $fontsize + 5; my $im = SVG->new(); my ($black, $vdgrey, $dgrey) = ( $im->colorAllocate(0, 0, 0), $im->colorAllocate(160, 160, 160), $im->colorAllocate(200, 200, 200), ); $im->header($imagewidth, $imageheight); my $inc = < INC $im->include($inc); $im->filledRectangle(0, 0, $imagewidth, $imageheight, 'url(#background)'); $im->stringTTF("title", int($imagewidth / 2), $fontsize * 2, $titletext); $im->stringTTF("subtitle", int($imagewidth / 2), $fontsize * 4, $subtitletext) if $subtitletext ne ""; $im->stringTTF("details", $xpad, $imageheight - ($ypad2 / 2), " "); $im->stringTTF("unzoom", $xpad, $fontsize * 2, "Reset Zoom", 'class="hide"'); $im->stringTTF("search", $imagewidth - $xpad - 100, $fontsize * 2, "Search"); $im->stringTTF("ignorecase", $imagewidth - $xpad - 16, $fontsize * 2, "ic"); $im->stringTTF("matched", $imagewidth - $xpad - 100, $imageheight - ($ypad2 / 2), " "); if ($palette) { read_palette(); } # draw frames $im->group_start({id => "frames"}); while (my ($id, $node) = each %Node) { my ($func, $depth, $etime) = split ";", $id; my $stime = $node->{stime}; my $delta = $node->{delta}; $etime = $timemax if $func eq "" and $depth == 0; my $x1 = $xpad + $stime * $widthpertime; my $x2 = $xpad + $etime * $widthpertime; my ($y1, $y2); unless ($inverted) { $y1 = $imageheight - $ypad2 - ($depth + 1) * $frameheight + $framepad; $y2 = $imageheight - $ypad2 - $depth * $frameheight; } else { $y1 = $ypad1 + $depth * $frameheight; $y2 = $ypad1 + ($depth + 1) * $frameheight - $framepad; } my $samples = sprintf "%.0f", ($etime - $stime) * $factor; (my $samples_txt = $samples) # add commas per perlfaq5 =~ s/(^[-+]?\d+?(?=(?>(?:\d{3})+)(?!\d))|\G\d{3}(?=\d))/$1,/g; my $info; if ($func eq "" and $depth == 0) { $info = "all ($samples_txt $countname, 100%)"; } else { my $pct = sprintf "%.2f", ((100 * $samples) / ($timemax * $factor)); my $escaped_func = $func; # clean up SVG breaking characters: $escaped_func =~ s/&/&/g; $escaped_func =~ s//>/g; $escaped_func =~ s/"/"/g; $escaped_func =~ s/_\[[kwij]\]$//; # strip any annotation unless (defined $delta) { $info = "$escaped_func ($samples_txt $countname, $pct%)"; } else { my $d = $negate ? -$delta : $delta; my $deltapct = sprintf "%.2f", ((100 * $d) / ($timemax * $factor)); $deltapct = $d > 0 ? "+$deltapct" : $deltapct; $info = "$escaped_func ($samples_txt $countname, $pct%; $deltapct%)"; } } my $nameattr = { %{ $nameattr{$func}||{} } }; # shallow clone $nameattr->{title} ||= $info; $im->group_start($nameattr); my $color; if ($func eq "--") { $color = $vdgrey; } elsif ($func eq "-") { $color = $dgrey; } elsif (defined $delta) { $color = color_scale($delta, $maxdelta); } elsif ($palette) { $color = color_map($colors, $func); } else { $color = color($colors, $hash, $func); } $im->filledRectangle($x1, $y1, $x2, $y2, $color, 'rx="2" ry="2"'); my $chars = int( ($x2 - $x1) / ($fontsize * $fontwidth)); my $text = ""; if ($chars >= 3) { # room for one char plus two dots $func =~ s/_\[[kwij]\]$//; # strip any annotation $text = substr $func, 0, $chars; substr($text, -2, 2) = ".." if $chars < length $func; $text =~ s/&/&/g; $text =~ s//>/g; } $im->stringTTF(undef, $x1 + 3, 3 + ($y1 + $y2) / 2, $text); $im->group_end($nameattr); } $im->group_end(); print $im->svg; if ($palette) { write_palette(); } # vim: ts=8 sts=8 sw=8 noexpandtab