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Here's a condensed version of some code that causes both a Range check error and an overflow error, should I turn on those compiler check directives. I understand why this would cause an overflow, on the multiplication of C1, it seems likely it might exceed the data-type's max valude. But why would this also trigger a Range-check error? Delphi's documentation and other posts on stack overflow make it sound like range-check errors are usually for array accesses that are out of bounds. But I'm not accessing an array on the line it's saying is causing the range-check error. Perhaps its on the assignment to param1? But why would that be a range-check and not an overflow error, if so?

  C1 = 44001;
  C2 = 17999;

function fxnName(..other params...; param1: Word): String;
  someByte: byte;
  // some code
  // by now we're in a loop. the following line is where it breaks to in the debugger: 
  param1 := (someByte + param1) * C1 + C2;
  // more code

If it's relevant, when it breaks on that line in the debugger, all the values look as expected, except param1, which shows "Undeclared identifier: 'param1'" when I ask Delphi to evaluate it.

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I'd suspect it's just because the range check occurs before the overflow check, and once the range check exception is raised the overflow check never occurs. (Not sure of the order, so it's just a suspicion.) –  Ken White Jul 25 '12 at 21:45

1 Answer 1

up vote 10 down vote accepted

The documents about range-checking states:

The $R directive enables or disables the generation of range-checking code. In the {$R+} state, all array and string-indexing expressions are verified as being within the defined bounds, and all assignments to scalar and subrange variables are checked to be within range. If a range check fails, an ERangeError exception is raised (or the program is terminated if exception handling is not enabled).

So the reason here is the assignment to a scalar value, which is handed a value that has passed the upper range.

See also docwiki Simple Types about range-checking errors on simple types and subrange types.


{$R+} // Range check on
  w1,w2 : word;
  w1 := High(word);
  w1 := w1 + 10; // causes range-check error on assignment to w1 (upper range passed)
  w2 := 0;
  w2 := w2 - 10; // causes range-check error on assignment to w2 (lower range passed)

A summary test of all combinations of $R and $Q for all platform-independent integer types:

            R+Q+  R+Q-  R-Q+
 ShortInt    R     R     x
 SmallInt    R     R     x
 Integer     O     x     O
 LongInt     O     x     O
 Int64       O     x     O
 Byte        R     R     x
 Word        R     R     x
 LongWord    O     x     O
 Cardinal    O     x     O
 UInt64      O     x     O

R=Range error; O=Overflow error; x=Nothing

And the test was(pseudo-code) with XE2 in 32-bit mode:

number := High(TNumber);
number := number + 1;
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@DavidHeffernan, read the docs, just tested the code and it does generate range-check errors. You must read after the , namely where it states that all assignments to scalars and subrange variables are checked. –  LU RD Jul 25 '12 at 21:54
Presumably it would be overflow error if the data type was integer –  David Heffernan Jul 25 '12 at 21:56
@DavidHeffernan If the calculation is performed on Integer types, sure, but i := i + Int64(1); should (untested) cause a range error when i is an Integer with a value of MaxInt. –  hvd Jul 25 '12 at 22:09
@hvd, range error indeed. –  LU RD Jul 26 '12 at 20:40
Nice table! To sum up, type < 32 bytes -> range error, type => 32 bytes -> overflow error. Pretty weird.. –  Sertac Akyuz Jul 26 '12 at 21:07

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