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Simple Haxe Profiler
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package ; | |
import haxe.ds.StringMap; | |
import haxe.macro.Context; | |
import haxe.macro.Expr; | |
import haxe.macro.Printer; | |
import haxe.macro.Type.ClassType; | |
import neko.Lib; | |
using haxe.macro.ExprTools; | |
typedef MethodProfile = { | |
var calls:Int; | |
var startTime:Float; | |
var elapsedTime:Float; | |
} | |
class Profiler | |
{ | |
/** | |
* An internal tool for determining the fully-qualified-name of a class | |
* @param cls a macro classtype | |
* @return the fully-qualified-name of the class | |
*/ | |
private static function getFullClassName(cls:ClassType):String | |
{ | |
return (cls.pack.length > 0 ? cls.pack.join(".") + "." : "") + cls.name; | |
} | |
private static var lastWasReturn:Bool = false; | |
private static var clsName:String = ""; | |
private static var methodName:String = ""; | |
/** | |
* This is a recursive function which will tunnel into a function's expressions and replace any | |
* occurrances of a return expression with a custom profiling return expressions | |
* @param expr the expression to recursively search through | |
* @return the transformed expression | |
*/ | |
private static function remapReturn(expr:Expr):Expr | |
{ | |
lastWasReturn = false; | |
switch(expr.expr) | |
{ | |
case EReturn(retExpr): | |
{ | |
lastWasReturn = true; | |
if (retExpr == null) | |
{ | |
return macro { | |
Profiler.endProfile($v { clsName }, $v { methodName } ); | |
return; | |
}; | |
} | |
else | |
{ | |
return macro { | |
var ___tempProfilingReturnValue = ${retExpr}; | |
Profiler.endProfile($v { clsName }, $v { methodName } ); | |
return ___tempProfilingReturnValue; | |
}; | |
} | |
} | |
case _: | |
return ExprTools.map(expr, remapReturn); | |
} | |
} | |
/** | |
* This function, when used in a build macro, will inject profiling code at the beginning | |
* and ending of each function. Call using a build macro such as: | |
* @:build(Profiler.profile()) | |
* class SomeClass { | |
* ... | |
* } | |
*/ | |
macro public static function profile():Array<Field> | |
{ | |
// get the fields of the class | |
var fields:Array<Field> = Context.getBuildFields(); | |
var printer:Printer = new Printer(); | |
// and the fully qualified class name | |
clsName = getFullClassName(Context.getLocalClass().get()); | |
// loop through each field to find the methods | |
for (field in fields) | |
{ | |
switch(field.kind) | |
{ | |
// yay, found a method! | |
case FFun(func): | |
{ | |
// get the name of the method | |
methodName = field.name; | |
// prepend the start code to the function | |
func.expr = macro { | |
Profiler.startProfile($v { clsName }, $v { methodName } ); | |
$ { func.expr }; | |
}; | |
// start the recursive expression transformation | |
lastWasReturn = false; | |
func.expr = remapReturn(func.expr); | |
if (!lastWasReturn) | |
{ | |
func.expr = macro { | |
$ { func.expr }; | |
Profiler.endProfile($v { clsName }, $v { methodName } ); | |
return; | |
} | |
} | |
} | |
// skip properties and variables | |
default: { }; | |
} | |
} | |
return fields; | |
} | |
private static var profiles:StringMap<StringMap<MethodProfile>> = new StringMap<StringMap<MethodProfile>>(); | |
/** | |
* Reset all the profiling information. Doing this before reading / printing the information will | |
* cause all the data collected since the beginning (or last reset) to be lost | |
*/ | |
public static function reset() | |
{ | |
profiles = new StringMap<StringMap<MethodProfile>>(); | |
} | |
/** | |
* Called at the start of a function to record when in time the method was called. This must always | |
* be called BEFORE an endProfile() call is made | |
* @param className the fully-qualified class name of the method's class | |
* @param methodName the name of the method being profiled | |
*/ | |
public static function startProfile(className:String, methodName:String) | |
{ | |
// make sure the profiles exist | |
if (!profiles.exists(className)) | |
profiles.set(className, new StringMap<MethodProfile>()); | |
if (!profiles.get(className).exists(methodName)) | |
profiles.get(className).set(methodName, { calls: 0, startTime: 0, elapsedTime: 0 } ); | |
profiles.get(className).get(methodName).startTime = Sys.cpuTime(); | |
profiles.get(className).get(methodName).calls++; | |
Lib.println("> Starting " + className + "." + methodName); | |
} | |
/** | |
* Called at the end of a function to calculate the method's execution time. This must always | |
* be called AFTER a startProfile() call | |
* @param className the fully-qualified class name of the method's class | |
* @param methodName the name of the method being profiled | |
*/ | |
public static function endProfile(className:String, methodName:String) | |
{ | |
var t:Float = Sys.cpuTime(); | |
if (!profiles.exists(className) || !profiles.get(className).exists(methodName)) | |
throw "EndProfile was called on a function that was never started!"; | |
profiles.get(className).get(methodName).elapsedTime += t - profiles.get(className).get(methodName).startTime; | |
Lib.println("< Ending " + className + "." + methodName); | |
} | |
/** | |
* Just a utility function to print the profiling data, separated by class. | |
*/ | |
public static function printProfiles():Void | |
{ | |
var totalTime:Float = 0; | |
for (className in profiles.keys()) | |
{ | |
var classTime:Float = 0; | |
Lib.println(className + ":"); | |
for (methodName in profiles.get(className).keys()) | |
{ | |
Lib.println(" ." + methodName + ": " + profiles.get(className).get(methodName).elapsedTime + "s (" + profiles.get(className).get(methodName).calls + " calls)"); | |
classTime += profiles.get(className).get(methodName).elapsedTime; | |
} | |
Lib.println(" ---"); | |
Lib.println(" " + classTime + "s"); | |
totalTime += classTime; | |
} | |
Lib.println(""); | |
Lib.println("Total time: " + totalTime + "s"); | |
} | |
} |
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package ; | |
import haxe.macro.Printer; | |
import neko.Lib; | |
class Main | |
{ | |
static function main() | |
{ | |
var worker:Worker = new Worker(); | |
worker.doSomething(); | |
Lib.println(worker.derp()); | |
Lib.println("w/ 0: " + worker.doSomethingElse(0)); | |
Lib.println("w/ 1: " + worker.doSomethingElse(1)); | |
Lib.println("w/ 2: " + worker.doSomethingElse(2)); | |
Lib.println("w/ 3: " + worker.doSomethingElse(3)); | |
Lib.println("w/ 4: " + worker.doSomethingElse(4)); | |
Lib.println("w/ 5: " + worker.doSomethingElse(5)); | |
Profiler.printProfiles(); | |
} | |
} |
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> Starting Worker.new | |
< Ending Worker.new | |
> Starting Worker.doSomething | |
< Ending Worker.doSomething | |
> Starting Worker.derp | |
< Ending Worker.derp | |
herp | |
> Starting Worker.doSomethingElse | |
< Ending Worker.doSomethingElse | |
w/ 0: 0 | |
> Starting Worker.doSomethingElse | |
< Ending Worker.doSomethingElse | |
w/ 1: 1 | |
> Starting Worker.doSomethingElse | |
< Ending Worker.doSomethingElse | |
w/ 2: 2 | |
> Starting Worker.doSomethingElse | |
< Ending Worker.doSomethingElse | |
w/ 3: 3 | |
> Starting Worker.doSomethingElse | |
< Ending Worker.doSomethingElse | |
w/ 4: 4 | |
> Starting Worker.doSomethingElse | |
< Ending Worker.doSomethingElse | |
w/ 5: 4 | |
Worker: | |
.new: 0s (1 calls) | |
.doSomething: 0.046875s (1 calls) | |
.derp: 0s (1 calls) | |
.doSomethingElse: 0s (6 calls) | |
--- | |
0.046875s |
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package ; | |
import neko.Lib; | |
@:build(Profiler.profile()) | |
@:autoBuild(Profiler.profile()) | |
class Worker | |
{ | |
public function new() | |
{ | |
} | |
public function doSomething():Void | |
{ | |
var q:Float = 0; | |
for (i in 0...1000000) | |
{ | |
q += 3.14159; | |
} | |
} | |
public function doSomethingElse(x:Int):Float | |
{ | |
try | |
{ | |
if (x == 0) | |
return 0; | |
else if (x == 1) | |
throw "derp"; | |
} | |
catch (exc:String) { return 1; } | |
switch(x) | |
{ | |
case 2: | |
return 2; | |
case 3: | |
return 3; | |
} | |
return 4; | |
} | |
public function derp():String return "herp"; | |
} |
Thanks @pshtif, you're totally right! I didn't know about the ExprTools
(specifically the map
capability). I've updated the gist to reflect your changes.
Great recommendation @pshtif!
I tried this on a php project and I found two issues:
- remapReturn should also have a case for EThrow expressions to make it handle exits via exceptions
- remapReturn should be inside a
#if macro … #end
condition, to make sure haxe does not try to compile it to target (you get anClass<haxe.macro.Context> has no field makeExpr
error for every $v)
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Just curious why are you going about in such verbose way when you can utilize ExprTools for macros, maybe I am missing something but almost half the stuff you mentioned could be skipped and just remap all the returns recursively using map.
static public function remapReturn(expr) {
return
switch (expr.expr) {
case EReturn(e):
if (e == null) {
macro {
// Call end profile here
return;
}
} else {
macro {
var ___temp = ${e};
// Call end profile here
return ___temp;
}
}
case _:
ExprTools.map(expr,remapReturn);
}
}