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Extensible tool for measuring and debugging PHP scripts and applications

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Gauger

Build Status Coverage Status MIT / Apache2 License

Supported PHP versions: 5.6, 7.0, 7.1, 7.2 and hhvm It still should work under 5.3, 5.4 and 5.5, however those versions are not tested anymore.

License: MIT / Apache License, Version 2.0

What is Gauger?

This is a highly extensible and comprehensive tool for profiling PHP scripts and applications with no Xdebug or PHPDBG involved, so that you may even use it on prod if necessary, e.g. to find out why your script works slower than expected in the particular environment. Look at the examples and you'll see the main idea.

Goals of the project

The main goal of the project is to provide flexible and powerful abilities for profiling PHP applications. Moreover, a visual representation of harvested data is quite important as well as the minimal amount of boilerplate.

Contents

  1. Features
    1.1. Built-in
    1.2. Effortless
    1.3. Flexible
  2. Examples
  3. Installation
    3.1. Bootstrap
    3.2. Composer
    3.3. PSR-4, manual installation
  4. Documentation
    4.1. Comments in the source code
    4.2. UML
    4.3. This file
    4.3.1 Totals
    4.3.2 Timer
    4.3.3 Extra data
    4.3.4 Profiling without any overhead
    4.3.5 Subsections
    4.3.6 Postpone a report
    4.3.7 Refine data
    4.3.8 What is next?

Features

Built-in

  • Indicators for measuring elapsed time (Microtime, TotalDuration)
  • Indicators for measuring memory usage (MemoryUsage, MemoryPeak)
  • Ability to combine any indicators together for harvesting them at the same time
  • Calculation of summary info about harvested data

Effortless

  • Profiling without a headache about exceptions handling (Sample::benchmark)
  • Make new indicators on the fly through closures (Closure)
  • Shortcuts for the most frequent use cases (Samples)
  • Static access to profilers from any place of an application (Gauger::getSample)

Flexible

  • Data produced by indicators can be of any complex type as well as of any scalar type
  • Any user-defined custom data can be kept while profiling (Indicator\Extra)
  • The most critical code can be profiled without any overhead (see Profiling without any overhead)
  • Refine the harvested data for having only the most interesting parts in the report

Examples

There are several examples of the library usage in this file. Here is their list with links and short descriptions:

Installation

There are three possible ways to install the library.

Bootstrap

The easiest way is to include the project's bootstrap file GaugerBootstrap.php which will include the other parts of the library.

include $PATH_TO_THE_GAUGER.'/src/Debuggy/GaugerBootstrap.php';

Composer

To install the library with Composer put the next code into your composer.json:

{
	"require-dev": {
		"debuggy/gauger": "1.1"
	}
}

For more information about Composer visit its official site: https://getcomposer.org

PSR-4, manual installation

In this case you only need an autoloader compatible with PSR-4 standard. The library's package name (root namespace) is Debuggy which is in the directory src.

Documentation

There are three kinds of the project's documentation.

Comments in the source code

If you decide to fiddle with the library it'll be quite helpful to read the comments in the source code. It is fully covered with them. The main goal of these is one could understood the behaviour and implications of an entity by only reading its API and comments.

UML

All entities of the project are described with PlantUML. These files are in the directory uml/plantuml. PlantUML is an Open-Source UML generator. For more information visit its official site: http://plantuml.com

This file

The most essential concepts are explained here. It helps to look at the tool from the top and to start using it almost immediately.

Here is the list of the top layer entities:

  • Sample : A shortcut for a use case (e.g., the sample Timer provides time profiling)
  • Gauger : A static storage for samples' instances
  • Gauge : Provides ability to gather several indicators together
  • Dial : Contains an Indicator and optionally its Filter; collects stamps
  • Stamp : Business-Object that contains harvested data and its identifier
  • Indicator : Produces profiling data
  • Filter : Filters stamps by some criteria
  • Formatter : Converts data produced by indicators to a string representation

Although there is a diagram of these entities, for start using the library we have to deal with the first two ones only. As mentioned, samples are shortcuts for some use cases. It means that as long as we have a classic scenario, we only have to choose one of the samples and use it.

There are four built-in samples:

  • Timer : Shows microtime intervals that parts of code between stamps have taken
  • Totals : Shows application total duration and its memory peak usage
  • Sample1 : Provides microtime and memory profiling
  • Preload1 : Shows custom data as if it was harvested as stamps

Gauger is the static storage for samples, so that we can obtain them from every place of our code just calling its method getSample. The first argument is a user-defined unique key for the sample throughout an application, whereas the second is a sample's classname and has to be passed only once for each key.

Totals

Let's take a look at the simple example of using Totals sample:

$totals = Debuggy\Gauger::getSample ('anykey', 'Totals');
$totals->stamp ('Any name for the stamp');
echo $totals->toString ();

The result might look like this:

*********************************** Totally ************************************
* Any name for the stamp ............................. TotalDuration: .007835  *
*                                                      MemoryPeak: 913KiB 208B *
********************************************************************************

On the left side of the report we can see the name of the stamp "Any name for the stamp". It's always the same identifier we pass in the method stamp. On the right side we can see two indicators: TotalDuration and MemoryPeak.

Timer

Another example shows Timer in use:

$timer = Debuggy\Gauger::getSample (null, 'Timer');

foreach ([1, 2, 3] as $i) {
	$timer->stamp ('md5');
	for ($j = $i * 1e5; $j > 0; --$j) md5 ('foo');
	$timer->stamp ('md5');

	$timer->stamp ('sha1');
	for ($j = $i * 1e5; $j > 0; --$j) sha1 ('bar');
	$timer->stamp ('sha1');
}

echo $timer->toString ();

The result might look like this:

*********************************** Stretchy ***********************************
* md5 ..................................................... Microtime: .115336 *
* md5 ..................................................... Microtime: .232095 *
* md5 ..................................................... Microtime: .344822 *
* sha1 .................................................... Microtime: .136728 *
* sha1 .................................................... Microtime: .271600 *
* sha1 .................................................... Microtime: .405101 *
********************************************************************************

*********************************** Summary ************************************
* md5 .......................................................... Microtime:    *
*                                                                 cnt: 3       *
*                                                                 sum: .692253 *
*                                                                 avg: .230751 *
* sha1 ......................................................... Microtime:    *
*                                                                 cnt: 3       *
*                                                                 sum: .813429 *
*                                                                 avg: .271143 *
********************************************************************************

Here we have two parts of the report. The first one is called Stretchy and contains info about stretches. A stretch is a part of code enclosed between two stamps. If we look at our example source we'll see that there are two stretches: md5 and sha1. Each of them is a loop and is harvested three times.
The second part is called Summary and shows us calculated summary for each stamp:

  • cnt count of the stretches of the stamp
  • sum sum of all values of the stamp
  • avg average value of the stamp
Extra data

Each built-in sample contains an indicator that is invisible by default. However it'll be shown if we pass some extra data while making stamps. The indicator is called Extra and its only assignment is to keep any user-provided extra data that can be passed as the second argument in the method stamp.

Let's take a look at the next example:

$unpredictable = function () {
	$c = rand (1, 10000);
	for ($i = 0; $i < $c; ++$i);
	return $c;
};


$timer = Debuggy\Gauger::getSample (null, 'Timer');

foreach (range (1, 4) as $i) {
	$timer->stamp ('unpredictable function');
	$timer->stamp ('unpredictable function', $unpredictable ());
}

echo $timer->toString ();

The result shows us all unpredictable values:

*********************************** Stretchy ***********************************
* unpredictable function .................................. Microtime: .000974 *
*                                                           Extra: 6220        *
* unpredictable function .................................. Microtime: .000584 *
*                                                           Extra: 3933        *
* unpredictable function .................................. Microtime: .000174 *
*                                                           Extra: 1057        *
* unpredictable function .................................. Microtime: .001330 *
*                                                           Extra: 9137        *
********************************************************************************

*********************************** Summary ************************************
* unpredictable function ....................................... Microtime:    *
*                                                                 cnt: 4       *
*                                                                 sum: .003062 *
*                                                                 avg: .000766 *
*                                                                Extra:        *
*                                                                 cnt: 4       *
*                                                                 sum: 20347   *
*                                                                 avg: 5086.75 *
********************************************************************************
Profiling without any overhead

There are two indicators to do profiling without the library's overhead: Extra and Preload. The easiest way is to use the sample Preload1 because it contains most of the boilerplate we need. However, even though it has almost all we need, it still might be necessary to choose some data representation format.

There are four built-in formatters:

  • Formatter: Default formatter that just converts values into strings
  • Closure: Applies a custom closure to values as a formatter
  • Memory: Converts a number of bytes into the IEC (by default) representation
  • Time: Converts a float into a number of days with a time and a microtime

The method Gauger::getSample takes the third argument as a list of arguments for a sample's constructor.
In the next example we will initialize the sample with custom data:

$stamps = [];

foreach ([1, 2, 3] as $i) {
	$a = microtime (true);
	md5 ('zzz');
	$b = microtime (true);
	sha1 ('zzz');
	$c = microtime (true);

	$stamps[] = ['md5', $a]; // [stamp name (optional) => value]
	$stamps[] = ['md5', $b];
	$stamps[] = ['sha1', $b];
	$stamps[] = ['sha1', $c];
}

echo Debuggy\Gauger::getSample (
	null,
	'Preload1',
	[$stamps, new Debuggy\Gauger\Formatter\Time]
)->toString ();

The result is gonna be something like that:

************************************ Plainy ************************************
* md5 ......................................... Preload: 16464 11:12:14.491212 *
* md5 ......................................... Preload: 16464 11:12:14.491218 *
* sha1 ........................................ Preload: 16464 11:12:14.491218 *
* sha1 ........................................ Preload: 16464 11:12:14.491223 *
* md5 ......................................... Preload: 16464 11:12:14.491238 *
* md5 ......................................... Preload: 16464 11:12:14.491240 *
* sha1 ........................................ Preload: 16464 11:12:14.491240 *
* sha1 ........................................ Preload: 16464 11:12:14.491242 *
* md5 ......................................... Preload: 16464 11:12:14.491246 *
* md5 ......................................... Preload: 16464 11:12:14.491248 *
* sha1 ........................................ Preload: 16464 11:12:14.491248 *
* sha1 ........................................ Preload: 16464 11:12:14.491250 *
********************************************************************************

*********************************** Stretchy ***********************************
* md5 ....................................................... Preload: .000006 *
* md5 ....................................................... Preload: .000002 *
* md5 ....................................................... Preload: .000002 *
* sha1 ...................................................... Preload: .000005 *
* sha1 ...................................................... Preload: .000002 *
* sha1 ...................................................... Preload: .000002 *
********************************************************************************

*********************************** Summary ************************************
* md5 .......................................................... Preload:      *
*                                                                 cnt: 3       *
*                                                                 sum: .000010 *
*                                                                 avg: .000003 *
* sha1 ......................................................... Preload:      *
*                                                                 cnt: 3       *
*                                                                 sum: .000009 *
*                                                                 avg: .000003 *
********************************************************************************

*********************************** Totally ************************************
* Sample1 ............................................ TotalDuration: .008221  *
*                                                      MemoryPeak: 917KiB 608B *
********************************************************************************
Subsections

Sometimes we have some sections of the source code that are folded into each other. It might be handy if we could profile those sections separately. There are two common cases how we want to do that: sometimes it is better to have info about inner sections subtracted from info about outer ones, whereas occasionally they shouldn't be split.

If we deal with stretches, we can make notes about folding of those in stamps' identifiers so that the library could calculate the data accordingly. The relations between stretches can be denoted in two ways:

  • -> when we want to subtract the inner stretch from the outer
  • <- when we want the outer info to include the inner one

The depth of a folding is unlimited. Let's imagine a method that makes a request to another server and we want to profile it:

$timer = Debuggy\Gauger::getSample (null, 'Timer');

$timer->stamp ('tough method');
usleep (50000); // build query (0.05 sec)
$timer->stamp ('tough method->rpc');
usleep (10000); // open socket (0.01 sec)
$timer->stamp ('tough method->rpc<-auth');
usleep (1000000); // auth (1 sec)
$timer->stamp ('tough method->rpc<-auth');
$timer->stamp ('tough method->rpc<-query');
usleep (2000000); // query (2 secs)
$timer->stamp ('tough method->rpc<-query');
usleep (10000); // close socket (0.01 sec)
$timer->stamp ('tough method->rpc');
usleep (50000); // parse response (0.05 sec)
$timer->stamp ('tough method');

echo $timer->toString ();

The result will be something like that:

*********************************** Stretchy ***********************************
* tough method ............................................ Microtime: .100231 *
* tough method->rpc ..................................... Microtime: 03.020518 *
* tough method->rpc<-auth ............................... Microtime: 01.000130 *
* tough method->rpc<-query .............................. Microtime: 02.000129 *
********************************************************************************

Here we can see that the time of the method itself is only 0.1 second, whereas the rpc part, that includes opening and closing sockets with an authorization and a query, takes the whole 3 seconds.

Postpone a report

Sometimes we don't want to see the report immediately. In these cases we could save sample's data somewhere and show it later. All samples make it possible through the method Sample::toArray. This method returns a php array that could be serialized and stored as a string (e.g., in a database). Later, when we want to look at the report we could take this array and use the method Presenter\Txt::represent: this is exactly what the method Sample::toString does.

Refine data

The only one sample implies possibility of filtering data: Timer. You can pass minimal and maximal values for stretches or their totals in the constructor. However, when it comes to data refining there are quite few predictable cases we can manage in the samples.
If you want to do your own refining of the data, you mostly have to make your own sample or just use all the parts of the library straightforwardly. There are several places in the project you should look at in these cases:

  • Filter : Provides ability to filter either single stamps or bunches of them
  • Dial : Can contain a filter that is applied to all stamps while harvesting
  • Refiner : Applies some logic to a bunch of stamps and can apply filters as well
  • Reporter : Merges arrays of stamps of several indicators into a single array
  • Presenter : Converts an array produced by a reporter into a human readable representation

As we can see, there are two ways how we can filter stamps: Dial and Refiner. Lets take a look at the example of these components usage:

use Debuggy\Gauger\Dial;
use Debuggy\Gauger\Filter;
use Debuggy\Gauger\Formatter;
use Debuggy\Gauger\Gauge;
use Debuggy\Gauger\Indicator;
use Debuggy\Gauger\Presenter;
use Debuggy\Gauger\Refiner;
use Debuggy\Gauger\Reporter;


$gauge = new Gauge; 

$gauge->addDial (new Dial (
	new Indicator\Extra (
		'keep?', // get only values from this key of an array passed as an extra
		new Formatter\Stash // Stash conceals the indicator from the reporter
	),
	new Filter\Equal (true) // filter will be applied for each single stamp
));

// if any dial does not pass its value to gauge, the whole stamp will be omitted
$gauge->addDial (new Dial (new Indicator\Extra ('value'))); // for keeping our values

foreach (range (0, 11) as $i)
	$gauge->stamp ('evens', ['value' => $i, 'keep?' => ($i % 2 === 0)]);


// the root refiner provides a gauge encapsulation and always comes first
$refiner = new Refiner\Root ($gauge); 
$refiner = new Refiner\Filter (
	$refiner, // all other refiners take another refiner into a constructor
	new Filter\Between (1, 9) // will be applied to the eventual bunch of stamps
); 


// The Plain reporter just produces a simple list of stamps and their values
$reporter = new Reporter\Plain;

// The report as an array
$dataAsArray = $reporter->recount ($refiner);

/* Let's add a title to our report */
$dataAsArray = array ('Our title' => $dataAsArray)


// Txt presenter makes a fancy text from an array
$presenter = new Presenter\Txt;
echo $presenter->represent ($dataAsArray);

The result might look like that:

********************************** Our title ***********************************
* evens ............................................................. Extra: 2 *
* evens ............................................................. Extra: 4 *
* evens ............................................................. Extra: 6 *
* evens ............................................................. Extra: 8 *
********************************************************************************
What is next?

If you want to have something more complex than the samples can do, you're welcome to look at the library sources. A very good place to begin is the samples. They are not only shortcuts but the samples how you can use the API of the library.

Please feel free to make pull-requests or issues if you know any ways to improve the library or this file (e.g., if you see any grammatical errors or can suggest any new sections for the documentation).

Moreover, you can find the UML diagrams of the project in the directory uml. A good one to start with is the diagram of the top level entities: gauger.pu

That's all. Good luck and have fun!

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Extensible tool for measuring and debugging PHP scripts and applications

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