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If you had to choose your Favorite (clever) techniques for defensive coding, what would they be? Although my current languages are Java and Objective-C (with a background in C++), feel free to answer in any language. Emphasis here would be on clever defensive techniques other than those that 70%+ of us here already know about. So now it is time to dig deep into your bag of tricks.

In other words try to think of other than this uninteresting example:

  • if(5 == x) instead of if(x == 5): to avoid unintended assignment

Here are some examples of some intriguing best defensive programming practices (language-specific examples are in Java):

- Lock down your variables until you know that you need to change them

That is, you can declare all variables final until you know that you will need to change it, at which point you can remove the final. One commonly unknown fact is that this is also valid for method params:

public void foo(final int arg) { /* Stuff Here */ }

- When something bad happens, leave a trail of evidence behind

There are a number of things you can do when you have an exception: obviously logging it and performing some cleanup would be a few. But you can also leave a trail of evidence (e.g. setting variables to sentinel values like "UNABLE TO LOAD FILE" or 99999 would be useful in the debugger, in case you happen to blow past an exception catch-block).

- When it comes to consistency: the devil is in the details

Be as consistent with the other libraries that you are using. For example, in Java, if you are creating a method that extracts a range of values make the lower bound inclusive and the upper bound exclusive. This will make it consistent with methods like String.substring(start, end) which operates in the same way. You'll find all of these type of methods in the Sun JDK to behave this way as it makes various operations including iteration of elements consistent with arrays, where the indices are from Zero (inclusive) to the length of the array (exclusive).

So what are some favorite defensive practices of yours?

Update: If you haven't already, feel free to chime in. I am giving a chance for more responses to come in before I choose the official answer.

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closed as not constructive by Gilles, ssube, Pent Ploompuu, andrewsi, Pops Sep 13 '12 at 20:58

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67 Answers 67

up vote 95 down vote accepted

In c++, I once liked redefining new so that it provided some extra memory to catch fence-post errors.

Currently, I prefer avoiding defensive programming in favor of Test Driven Development. If you catch errors quickly and externally, you don't need to muddy-up your code with defensive maneuvers, your code is DRY-er and you wind-up with fewer errors that you have to defend against.

As WikiKnowledge Wrote:

Avoid Defensive Programming, Fail Fast Instead.

By defensive programming I mean the habit of writing code that attempts to compensate for some failure in the data, of writing code that assumes that callers might provide data that doesn't conform to the contract between caller and subroutine and that the subroutine must somehow cope with it.

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7  
Defensive programming is attempting to deal with illegal conditions introduced by other parts of a program. Handling improper user input is completely different thing. –  Joe Soul-bringer Jan 29 '09 at 6:25
4  
Errr... note that this definition of defensive programming isn't even close to the definition implicitly used in the question. –  Sol Jan 29 '09 at 14:54
9  
Never avoid Defensive Programming. The thing is not "compensating" for failures in the data but protecting yourself from malicious data designed to make your code do things it isn't supposed to do. See Buffer Overflow, SQL Injection. Nothing fails faster than a web page under XSS but it ain't pretty –  Jorge Córdoba Jan 29 '09 at 17:45
2  
I would argue that "fail fast" procedures are a form of defensive programming. –  Ryan Delucchi Jan 29 '09 at 19:41
3  
@ryan is exactly right, fail fast is a good defensive concept. If the state you are in is not possible, don't try to keep limping along, FAIL FAST AND LOUD! Extra important if you are meta-data driven. Defensive programming isn't just checking your parameters... –  Bill K Mar 10 '09 at 21:46

SQL

When I have to delete data, I write

select *    
--delete    
From mytable    
Where ...

When I run it, I will know if I forgot or botched the where clause. I have a safety. If everything is fine, I highlight everything after the '--' comment tokens, and run it.

Edit: if I'm deleting a lot of data, I will use count(*) instead of just *

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5  
I just wrap it in a transaction so I can roll back if I screw up... –  rmeador Jan 29 '09 at 16:10
25  
BEGIN TRANSACTION | ROLLBACK TRANSACTION –  Dalin Seivewright Jan 29 '09 at 17:02
3  
+1 Yes, I suppose this could be replaced with a transaction, but I like the simplicity of doing it this way. –  Ryan Delucchi Jan 29 '09 at 22:14
3  
Using a transaction is better; it means you can run it dozens of times over, and see the actual effects, until you're certain you've gotten it right and can commit. –  Kyralessa Jan 15 '10 at 1:19

Allocate a reasonable chunk of memory when the application starts - I think Steve McConnell referred to this as a memory parachute in Code Complete.

This can be used in case something serious goes wrong and you are required to terminate.

Allocating this memory up-front provides you with a safety-net, as you can free it up and then use the available memory to do the following:

  • Save all the persistent data
  • Close all the appropriate files
  • Write error messages to a log file
  • Present a meaningful error to the user
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In every switch statement that doesn't have a default case, I add a case that aborts the program with an error message.

#define INVALID_SWITCH_VALUE 0

switch (x) {
case 1:
  // ...
  break;
case 2:
  // ...
  break;
case 3:
  // ...
  break;
default:
  assert(INVALID_SWITCH_VALUE);
}
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1  
Assert has the advantage that its effects can be globally disabled at compile-time. Yet, in some situations throw can be more appropriate, if your language supports it. –  Diomidis Spinellis Feb 26 '09 at 5:54
2  
Assert has another advantage that makes it useful for production code: When something goes wrong, it tells you exactly what failed and what line of the program the error came from. A bug report like that is wonderful! –  Mason Wheeler Jun 18 '10 at 16:54
2  
@Diomidis: Another angle is: Assert has the disadvantage that its effects can be globally disabled at compile-time. –  Craig Young Apr 22 '11 at 19:40

When you're handling the various states of an enum (C#):

enum AccountType
{
    Savings,
    Checking,
    MoneyMarket
}

Then, inside some routine...

switch (accountType)
{
    case AccountType.Checking:
        // do something

    case AccountType.Savings:
        // do something else

    case AccountType.MoneyMarket:
        // do some other thing

    default:
-->     Debug.Fail("Invalid account type.");
}

At some point I'll add another account type to this enum. And when I do, I'll forget to fix this switch statement. So the Debug.Fail crashes horribly (in Debug mode) to draw my attention to this fact. When I add the case AccountType.MyNewAccountType:, the horrible crash stops...until I add yet another account type and forget to update the cases here.

(Yes, polymorphism is probably better here, but this is just an example off the top of my head.)

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3  
Most compilers are smart enough to issue a warning if you don't handle some enums in a case block. But setting the default to fail is still good form - an enum is just a number and if you get memory corruption you can have an invalid value appear. –  Adam Hawes Jan 29 '09 at 5:15
1  
@Adam -- compilers will issue a warning if you recompile everything. If you add new classes and only partially recompile, you may not notice something like the above, and the default case will save you. It won't just silently fail. –  Eddie Jan 29 '09 at 6:51
4  
The break is implied in the comments, Slashene. :P –  Kyralessa Jan 29 '09 at 13:28
1  
After the debug should be a 'throw new NotSupportedException()' for production code. –  user7116 Jan 29 '09 at 14:32

When printing out error messages with a string (particularly one which depends on user input), I always use single quotes ''. For example:

FILE *fp = fopen(filename, "r");
if(fp == NULL) {
    fprintf(stderr, "ERROR: Could not open file %s\n", filename);
    return false;
}

This lack of quotes around %s is really bad, because say filename is an empty string or just whitespace or something. The message printed out would of course be:

ERROR: Could not open file

So, always better to do:

fprintf(stderr, "ERROR: Could not open file '%s'\n", filename);

Then at least the user sees this:

ERROR: Could not open file ''

I find that this makes a huge difference in terms of the quality of the bug reports submitted by end users. If there is a funny-looking error message like this instead of something generic sounding, then they're much more likely to copy/paste it instead of just writing "it wouldn't open my files".

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3  
good one, I've seen this issue as well –  Alex Baranosky Oct 8 '09 at 7:16

For all languages:

Reduce the scope of variables to the least possible required. Eschew variables that are just provided to carry them into the next statement. Variables that don't exist are variables you don't need to understand, and you can't be held responsible for. Use Lambdas whenever possible for the same reason.

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1  
What does exactly mean the eschew part? I sometimes do introduce variables that only live until the next line. They serve as a name for an expression, which makes the code more readable. –  zoul Jan 29 '09 at 7:18
2  
Yes I disagree too. With very complex expressions it's often a good idea to break them down into two or sometimes more shorter and simpler ones using temporary variables. It's less error prone in maintenance and the compiler will optimise out temps –  Cruachan Jan 29 '09 at 10:05
1  
I agree that there are exceptional cases where I declare variables for clarity (and sometimes to create a target for debugging). My experience is that the general practice is to err in the opposite direction. –  dkretz Jan 29 '09 at 15:15

SQL Safety

Before writing any SQL that will modify the data, I wrap the whole thing in a rolled back transaction:

BEGIN TRANSACTION
-- LOTS OF SCARY SQL HERE LIKE
-- DELETE FROM ORDER INNER JOIN SUBSCRIBER ON ORDER.SUBSCRIBER_ID = SUBSCRIBER.ID
ROLLBACK TRANSACTION

This prevents you from executing a bad delete/update permanently. And, you can execute the whole thing and verify reasonable record counts or add SELECT statements between your SQL and the ROLLBACK TRANSACTION to make sure everything looks right.

When you're completely sure it does what you expected, change the ROLLBACK to COMMIT and run for real.

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2  
I used to do this all the time, but it causes so much extra overhead on DB clusters that I had to stop. –  Zan Lynx Mar 11 '09 at 14:42

When in doubt, bomb the application!

Check each and every parameter at the beginning of each and every method (whether explictly coding it yourself, or using contract-based programming does not matter here) and bomb with the correct exception and/or meaningful error message if any precondition to the code is not met.

We all know about these implicit preconditions when we write the code, but if they are not explicitly checked for, we are creating mazes for ourselves when something goes wrong later and stacks of dozens of method calls separate the occurance of the symptom and the actual location where a precondition is not met (=where the problem/bug actually is).

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1  
Or use contract-based programming, like Spec#! –  bzlm Jan 30 '09 at 12:18
3  
@MarkJ: You don't really get it, do you? If it bombs early (=during developent and testing) it should never bomb when it's in production. So I really hope they do program like this! –  peSHIr Feb 5 '09 at 9:26

in Perl, everyone does

use warnings;

I like

use warnings FATAL => 'all';

This causes the code to die for any compiler/runtime warning. This is mostly useful in catching uninitialized strings.

use warnings FATAL => 'all';
...
my $string = getStringVal(); # something bad happens;  returns 'undef'
print $string . "\n";        # code dies here
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In Java, especially with collections, make use of the API, so if your method returns type List (for example), try the following:

public List<T> getList() {
    return Collections.unmodifiableList(list);
}

Don't allow anything to escape your class that you don't need to!

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1  
+1 for Java. I use this all the time –  Fortyrunner Jan 29 '09 at 23:23
4  
FYI, Collections.unmodifiableList returns an immutable view of the list, not an immutable copy. So if the original list gets modified, so will the view! –  Zarkonnen Sep 30 '10 at 11:17

C#:

string myString = null;

if (myString.Equals("someValue")) // NullReferenceException...
{

}

if ("someValue".Equals(myString)) // Just false...
{

}
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9  
this example is just allowing you to hide a potentially dangerous situation in your program. If you weren't expecting it to be null, you WANT it to throw an exception, and if you were expecting it to be null, you should handle it as such. This is a bad practice. –  rmeador Jan 29 '09 at 16:16
2  
In C#, I always just use string.Equals(<string1>,<string2>). It doesn't matter if either of them is null. –  Darcy Casselman Jan 29 '09 at 17:19

In c# checking of string.IsNullOrEmpty before doing any operations on the string like length, indexOf, mid etc

public void SomeMethod(string myString)
{
   if(!string.IsNullOrEmpty(myString)) // same as myString != null && myString != string.Empty
   {                                   // Also implies that myString.Length == 0
     //Do something with string
   }
}

[Edit]
Now I can also do the following in .NET 4.0, that additionally checks if the value is just whitespace

string.IsNullOrWhiteSpace(myString)
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5  
That's not being defensive, it's ignoring the problem. Should be if (!string.IsNullOrEmpty(myString)) throw new ArgumentException("<something>", "myString"); /* do something with string */. –  enashnash Feb 9 '12 at 16:02

In Java and C#, give every thread a meaningful name. This includes thread pool threads. It makes stack dumps much more meaningful. It takes a little more effort to give a meaningful name to even thread pool threads, but if one thread pool has a problem in a long running application, I can cause a stack dump to occur (you do know about SendSignal.exe, right?), grab the logs, and without having to interrupt a running system I can tell which threads are ... whatever. Deadlocked, leaking, growing, whatever the problem is.

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With VB.NET, have Option Explicit and Option Strict switched on by default for the whole of Visual Studio.

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1  
By the way, for anyone converting old code that didn't use Option Strict to use it, note that in the case of items that were autoconverted to String, they're not using ToString(); they're using a cast to string. In my early .NET days I'd change these to use ToString(), and it would break things, especially with enums. –  Kyralessa Dec 4 '09 at 15:16

C++

#define SAFE_DELETE(pPtr)   { delete pPtr; pPtr = NULL; }
#define SAFE_DELETE_ARRAY(pPtr) { delete [] pPtr; pPtr = NULL }

then replace all your 'delete pPtr' and 'delete [] pPtr' calls with *SAFE_DELETE(pPtr)* and *SAFE_DELETE_ARRAY(pPtr)*

Now by mistake if you use the pointer 'pPtr' after deleting it, you will get 'access violation' error. It is far easier to fix than random memory corruptions.

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1  
Better use a template. It's scoped and overloadable. –  Iraimbilanja Jan 29 '09 at 6:17
3  
Or use Smart Pointers... Or heck, avoid new/delete as much as you can anyway. –  Arafangion Mar 10 '09 at 23:16
1  
@Arafangion: just avoid delete. Using new is fine, as long as the new object gets owned by a smart pointer. –  Alexandre C. Feb 23 '11 at 10:05

In Java, when something is happening and I don't know why, I will sometimes use Log4J like this:

if (some bad condition) {
    log.error("a bad thing happened", new Exception("Let's see how we got here"));
}

this way I get a stack trace showing me how I got into the unexpected situation, say a lock that never unlocked, something null that cannot be null, and so on. Obviously, if a real Exception is thrown, I don't need to do this. This is when I need to see what is happening in production code without actually disturbing anything else. I don't want to throw an Exception and I didn't catch one. I just want a stack trace logged with an appropriate message to flag me in to what is happening.

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1  
This isn't used for error handling, but for diagnostics, only. This allows you to see the path by which your code got into an unexpected situation without interrupting your code's flow. I use this when the method itself can handle the unexpected situation, but still it shouldn't happen. –  Eddie Jan 29 '09 at 15:48
2  
you can also use new Exception("message").printStackTrace(); No throwing or catching required, but you still get a nice stacktrace in the log. Obviously, this shouldn't be in production code, but it can be very useful for debugging. –  Jorn Mar 10 '09 at 22:58

With Java, it can be handy to make use of the assert keyword, even if you run production code with assertions turned off:

private Object someHelperFunction(Object param)
{
    assert param != null : "Param must be set by the client";

    return blahBlah(param);
}

Even with assertions off, at least the code documents the fact that param is expected to be set somewhere. Note that this is a private helper function and not a member of a public API. This method can only be called by you, so it's OK to make certain assumptions on how it will be used. For public methods, it's probably better to throw a real exception for invalid input.

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1  
+1, public methods should throw on contract failures, privates should assert –  user7116 Jan 29 '09 at 14:33

I didn't find the readonly keyword until I found ReSharper, but I now use it instinctively, especially for service classes.

readonly var prodSVC = new ProductService();
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I've learned in Java to almost never wait indefinitely for a lock to unlock, unless I truly expect that it may take an indefinitely long time. If realistically, the lock should unlock within seconds, then I'll wait only for a certain length of time. If the lock does not unlock, then I complain and dump stack to the logs, and depending on what is best for the stability of the system, either continue on as if the lock unlocked, or continue as if the lock never unlocked.

This has helped isolate a few race conditions and pseudo-deadlock conditions that were mysterious before I started doing this.

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1  
waits with timeouts used like this are a sign of other, worse, problems. –  dicroce Jan 29 '09 at 14:18
1  
In a system that has to have high uptime, it's better to at least get diagnostic information out so you can find the problem. Sometimes you prefer to exit a thread or return a response to the caller when the system is in a known state, so you wait on a semaphore. But you don't want to hang forever –  Eddie Jan 29 '09 at 16:01

C#

  • Verify non-null values for reference type parameters in public method.
  • I use sealed a lot for classes to avoid introducing dependencies where I didn't want them. Allowing inheritance should be done explicitly and not by accident.
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In C#, use the as keyword to cast.

string a = (string)obj

will throw an exception if obj is not a string

string a = obj as string

will leave a as null if obj is not a string

You still need to take null into account, but that is typically more straight forward then looking for cast exceptions. Sometimes you want "cast or blow up" type behavior, in which case (string)obj syntax is preferred.

In my own code, I find I use the as syntax about 75% of the time, and (cast) syntax about 25%.

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6  
Didn't get it. Seems a bad decision to me, to prefer the null. You will get problems somewhere during runtime with no hint to the original reason. –  Kai Huppmann Jan 29 '09 at 7:27
2  
This seems about as defensive as large ballroom windows in a fortress. But it's a lovely view! –  Pontus Gagge Mar 11 '09 at 14:56
1  
This reminds me of someone who didn't use exceptions because 'they broke programs'. If you want certain behavior when an object is not a class you expect, I think I would code this another way. is/instanceof spring to mind. –  Kirschstein Apr 21 '09 at 16:51

When you issue an error message, at least attempt to provide the same information the program had when it made the decision to throw an error.

"Permission denied" tells you there was a permission problem, but you have no idea why or where the problem occurred. "Can't write transaction log /my/file: Read-only filesystem" at least lets you know the basis on which the decision was made, even if it's wrong - especially if it's wrong: wrong file name? opened wrong? other unexpected error? - and lets you know where you were when you had the problem.

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If you are using Visual C++, utilize the override keyword whenever you over-ride a base class's method. This way if anyone ever happens to change the base class signature, it will throw a compiler error rather than the wrong method being silently called. This would have saved me a few times if it had existed earlier.

Example:

class Foo
{
   virtual void DoSomething();
}

class Bar: public Foo
{
   void DoSomething() override { /* do something */ }
}
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Be prepared for any input, and any input you get that is unexpected, dump to logs. (Within reason. If you're reading passwords from the user, don't dump that to logs! And don't log thousands of these sorts of messages to logs per second. Reason about the content and likelihood and frequency before you log it.)

I'm not just talking about user input validation. For example, if you are reading HTTP requests that you expect to contain XML, be prepared for other data formats. I was surprised to see HTML responses where I expected only XML -- until I looked and saw that my request was going through a transparent proxy I was unaware of and that the customer claimed ignorance of -- and the proxy timed out trying to complete the request. Thus the proxy returned an HTML error page to my client, confusing the heck out of the client that expected only XML data.

Thus, even when you think you control both ends of the wire, you can get unexpected data formats without any villainy being involved. Be prepared, code defensively, and provide diagnostic output in the case of unexpected input.

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I try to use Design by Contract approach. It can be emulated run time by any language. Every language supports "assert", but it's easy and covenient to write a better implementation that let you manage the error in a more useful way.

In the Top 25 Most Dangerous Programming Errors the "Improper Input Validation" is the most dangerous mistake in the "Insecure Interaction Between Components" section.

Adding precondition asserts at the beginning of the methods is a good way to be sure that parameters are consistent. At the end of methods i write postconditions, that check that output is what's inteded to be.

In order to implement invariants, I write a method in any class that checks "class consistence", that should be called authomatically by precondition and postcondition macro.

I'm evaluating the Code Contract Library.

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Java

The java api has no concept of immutable objects, which is bad! Final can help you in that case. Tag every class that is immutable with final and prepare the class accordingly.

Sometimes it is useful to use final on local variables to make sure they never change their value. I found this useful in ugly, but necessary loop constructs. Its just to easy to accidently reuse a variable even though it is mend to be a constant.

Use defense copying in your getters. Unless you return a primitive type or a immutable object make sure you copy the object to not violate encapsulation.

Never use clone, use a copy constructor.

Learn the contract between equals and hashCode. This is violated so often. The problem is it doesn't affect your code in 99% of the cases. People overwrite equals, but don't care about hashCode. There are instances in wich your code can break or behaves strange, e.g. use mutable objects as keys in a map.

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when getting a table from a dataset

if(  ds != null &&
     ds.tables != null &&
     dt.tables.Count > 0 &&
     ds.tables[0] != null &&
     ds.tables[0].Rows > 0 )
{

    //use the row;
}
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C++

When I type new, I must immediately type delete. Especially for arrays.

C#

Check for null before accessing properties, especially when using the Mediator pattern. Objects get passed (and then should be cast using as, as has already been noted), and then check against null. Even if you think it will not be null, check anyway. I've been surprised.

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5  
In C++, when you type new, you should immediately assign that pointer to an AutoPtr or reference-counted container. C++ has destructors and templates; use them wisely to handle the deletion automatically. –  Andrew Jan 31 '09 at 3:56

I forgot to write echo in PHP one too many times:

<td><?php $foo->bar->baz(); ?></td>
<!-- should have been -->
<td><?php echo $foo->bar->baz(); ?></td>

It would take me forever to try and figure out why ->baz() wasn't returning anything when in fact I just wasn't echoing it! :-S So I made an EchoMe class which could be wrapped around any value that should be echoed:

<?php
class EchoMe {
  private $str;
  private $printed = false;
  function __construct($value) {
    $this->str = strval($value);
  }
  function __toString() {
    $this->printed = true;
    return $this->str;
  }
  function __destruct() {
    if($this->printed !== true)
      throw new Exception("String '$this->str' was never printed");
  }
}

And then for the development environment, I used an EchoMe to wrap things which should be printed:

function baz() {
  $value = [...calculations...]
  if(DEBUG)
    return EchoMe($value);
  return $value;
}

Using that technique, the first example missing the echo would now throw an exception ...

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