Difference between revisions of "DIP83"

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This diagnostics is activated only when DMD is called with a specific command line flag, say '''-unittest=verbose''' or perhaps '''-diagnose=assert'''.
 
This diagnostics is activated only when DMD is called with a specific command line flag, say '''-unittest=verbose''' or perhaps '''-diagnose=assert'''.
  
If DMD is called with this flag it will rewrite all assert expressions ('''AssertExpr''' in dmd source) such as
+
If DMD is called with this flag it will rewrite (lower) all assert expressions ('''AssertExpr''' in dmd source) such as
  
 
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Revision as of 10:28, 5 October 2015

Title: Configurable Assert Diagnostics
DIP: 83
Version: 1
Status: Draft
Created: 2015-10-01
Last Modified: 2015-10-5
Author: Per Nordlöw
Links:

Abstract

Allow for assert to do pretty printing of its failing expression when flagged for in call to compiler. Printing is configurable via specific sets of (template) function overloads.

Rationale

A failing assert (in a unittest), currently, give no hint about why it failed. To aid the developer in debugging, the failing assert of a

  • binary expression, such as assert(x == y), should print the values of x and y and
  • unary expression, such as assert(!x), should print the value of x.

This extra, so called, pretty printing can be enabled by changing the dmd flag -unittest to, say, -unittest=verbose for a specific failing module. This will be more convenient than explicitly adding the prints of the left-hand-side expression lhs and right-hand-side expression rhs directly before the call to the failing assert.

Description

This DIP proposes to add library-level-configurable diagnostics to failing calls to assert(expr) typically called from within unittest-blocks.

This diagnostics is activated only when DMD is called with a specific command line flag, say -unittest=verbose or perhaps -diagnose=assert.

If DMD is called with this flag it will rewrite (lower) all assert expressions (AssertExpr in dmd source) such as

assert(a BINOP b)

into

(auto ref a, auto ref b) {
    if (a == b) return;
    onAssertFailed!"=="(a, b, __FILE__, __LINE__, __FUNCTION__, __MODULE__);
} (e1, e2)

where onAssertFailed is declared as

void onAssertFailed(string file, uint line, string module, string binOp)(L, R)(lazy L lhs, lazy R rhs);

and similarly for unary expressions replace

assert(UNOP expr)

with

assertUnOp(__FILE__, __LINE__, __MODULE__, UNOP)(expr)

where

void assertUnOp(string file, uint line, string module, string unop)(E)(lazy E expr);

The default implementation of assertBinOp (preferrably in druntime) would be a function that mimics the current behaviour of assert(lhs BINOP rhs) typically as

void assertBinOp(string file, uint line, string module, string binOp)(L, R)(lazy L lhs, lazy R rhs, string message)
{
    version(assert)
    {
        const lhsValue = lhs();
        const rhsValue = rhs();
        if (!(mixin("lhsValue " ~ binOp ~ " rhsValue")))
        {
            import core.exception : AssertError;
            throw AssertError("Failed assert");
        }
    }
}


The Phobos-developer can then do what he likes with the information he needs in the extra arguments in specific templated overloads of assertBinOp.

This specific behaviour could be extendable by adding (typically templated) overloads of assertBinOp for specific sets of types (concepts).

For instance, better diagnostics for comparing arithmetic types can be realized through the overload

import std.traits : isArithmetic;
void assertBinOp(string file, uint line, string module, string binOp)(L, R)(lazy L lhs, lazy R rhs, string message)
    if (isArithmetic!L && isArithmetic!R)
{
    version(assert)
    {
        const lhsValue = lhs();
        const rhsValue = rhs();
        if (!(mixin("lhsValue " ~ binOp ~ " rhsValue")))
        {
            import core.exception : AssertError;
            throw AssertError("Failed arithmetic assert: " ~ lhsValue ~ " " ~ binOp ~ " " ~ rhsValue);
        }
    }
}

In this way D would get the extendability we want in testing-frameworks such as std.experimental.testing (https://github.com/D-Programming-Language/phobos/pull/3207) without adding a new assert-overload-set and without sacrifycing default memory usage in DMD/Phobos unittests.

Further, this solution enables the possibility to provide fancy diagnostics behaviour in assertBinOp for failing array/range or aggregate (struct or class) comparisons. This diagnostics could also have different pretty printing backends such as HTML.

For example a failing

assert([1,2,3] == [1,2,4]);

could pretty-print

([1,2,3][2] is 3) != ([1,2,4][2] is 4)

or, for aggregates, a failing

struct A { int x, y; }
auto a = A(1,2);
auto b = A(1,3);
assert(a == b);

could pretty-print

(a.y is 2) != (b.y is 3)

Parts of the solution list at

https://issues.dlang.org/show_bug.cgi?id=5547#c3

including rewriting/expansion of AssertExpr could probably reused.

Discussions on topic

Copyright

This document has been placed in the Public Domain.