package SQL::Abstract::Test; # see doc at end of file
use strict;
use warnings;
use base qw/Test::Builder::Module Exporter/;
use Data::Dumper;
use Test::Builder;
use Test::Deep ();
use SQL::Abstract::Tree;
our @EXPORT_OK = qw/&is_same_sql_bind &is_same_sql &is_same_bind
&eq_sql_bind &eq_sql &eq_bind
$case_sensitive $sql_differ/;
my $sqlat = SQL::Abstract::Tree->new;
our $case_sensitive = 0;
our $parenthesis_significant = 0;
our $order_by_asc_significant = 0;
our $sql_differ; # keeps track of differing portion between SQLs
our $tb = __PACKAGE__->builder;
sub is_same_sql_bind {
my ($sql1, $bind_ref1, $sql2, $bind_ref2, $msg) = @_;
# compare
my $same_sql = eq_sql($sql1, $sql2);
my $same_bind = eq_bind($bind_ref1, $bind_ref2);
# call Test::Builder::ok
my $ret = $tb->ok($same_sql && $same_bind, $msg);
# add debugging info
if (!$same_sql) {
_sql_differ_diag($sql1, $sql2);
}
if (!$same_bind) {
_bind_differ_diag($bind_ref1, $bind_ref2);
}
# pass ok() result further
return $ret;
}
sub is_same_sql {
my ($sql1, $sql2, $msg) = @_;
# compare
my $same_sql = eq_sql($sql1, $sql2);
# call Test::Builder::ok
my $ret = $tb->ok($same_sql, $msg);
# add debugging info
if (!$same_sql) {
_sql_differ_diag($sql1, $sql2);
}
# pass ok() result further
return $ret;
}
sub is_same_bind {
my ($bind_ref1, $bind_ref2, $msg) = @_;
# compare
my $same_bind = eq_bind($bind_ref1, $bind_ref2);
# call Test::Builder::ok
my $ret = $tb->ok($same_bind, $msg);
# add debugging info
if (!$same_bind) {
_bind_differ_diag($bind_ref1, $bind_ref2);
}
# pass ok() result further
return $ret;
}
sub _sql_differ_diag {
my ($sql1, $sql2) = @_;
$tb->diag("SQL expressions differ\n"
." got: $sql1\n"
."expected: $sql2\n"
."differing in :\n$sql_differ\n"
);
}
sub _bind_differ_diag {
my ($bind_ref1, $bind_ref2) = @_;
$tb->diag("BIND values differ\n"
." got: " . Dumper($bind_ref1)
."expected: " . Dumper($bind_ref2)
);
}
sub eq_sql_bind {
my ($sql1, $bind_ref1, $sql2, $bind_ref2) = @_;
return eq_sql($sql1, $sql2) && eq_bind($bind_ref1, $bind_ref2);
}
sub eq_bind { goto &Test::Deep::eq_deeply };
sub eq_sql {
my ($sql1, $sql2) = @_;
# parse
my $tree1 = $sqlat->parse($sql1);
my $tree2 = $sqlat->parse($sql2);
undef $sql_differ;
return 1 if _eq_sql($tree1, $tree2);
}
sub _eq_sql {
my ($left, $right) = @_;
# one is defined the other not
if ( (defined $left) xor (defined $right) ) {
$sql_differ = sprintf ("[%s] != [%s]\n", map { defined $_ ? $sqlat->unparse ($_) : 'N/A' } ($left, $right) );
return 0;
}
# one is undefined, then so is the other
elsif (not defined $left) {
return 1;
}
# both are empty
elsif (@$left == 0 and @$right == 0) {
return 1;
}
# one is empty
if (@$left == 0 or @$right == 0) {
$sql_differ = sprintf ("left: %s\nright: %s\n", map { @$_ ? $sqlat->unparse ($_) : 'N/A'} ($left, $right) );
return 0;
}
# one is a list, the other is an op with a list
elsif (ref $left->[0] xor ref $right->[0]) {
$sql_differ = sprintf ("[%s] != [%s]\nleft: %s\nright: %s\n", map
{ ref $_ ? $sqlat->unparse ($_) : $_ }
($left->[0], $right->[0], $left, $right)
);
return 0;
}
# both are lists
elsif (ref $left->[0]) {
for (my $i = 0; $i <= $#$left or $i <= $#$right; $i++ ) {
if (not _eq_sql ($left->[$i], $right->[$i]) ) {
if (! $sql_differ or $sql_differ !~ /left\:\s .+ right:\s/xs) {
$sql_differ ||= '';
$sql_differ .= "\n" unless $sql_differ =~ /\n\z/;
$sql_differ .= sprintf ("left: %s\nright: %s\n", map { $sqlat->unparse ($_) } ($left, $right) );
}
return 0;
}
}
return 1;
}
# both are ops
else {
# unroll parenthesis if possible/allowed
unless ( $parenthesis_significant ) {
$sqlat->_parenthesis_unroll($_) for $left, $right;
}
# unroll ASC order by's
unless ($order_by_asc_significant) {
$sqlat->_strip_asc_from_order_by($_) for $left, $right;
}
if ( $left->[0] ne $right->[0] ) {
$sql_differ = sprintf "OP [$left->[0]] != [$right->[0]] in\nleft: %s\nright: %s\n",
$sqlat->unparse($left),
$sqlat->unparse($right)
;
return 0;
}
# literals have a different arg-sig
elsif ($left->[0] eq '-LITERAL') {
(my $l = " $left->[1][0] " ) =~ s/\s+/ /g;
(my $r = " $right->[1][0] ") =~ s/\s+/ /g;
my $eq = $case_sensitive ? $l eq $r : uc($l) eq uc($r);
$sql_differ = "[$l] != [$r]\n" if not $eq;
return $eq;
}
# if operators are identical, compare operands
else {
my $eq = _eq_sql($left->[1], $right->[1]);
$sql_differ ||= sprintf ("left: %s\nright: %s\n", map { $sqlat->unparse ($_) } ($left, $right) ) if not $eq;
return $eq;
}
}
}
sub parse { $sqlat->parse(@_) }
1;
__END__
=head1 NAME
SQL::Abstract::Test - Helper function for testing SQL::Abstract
=head1 SYNOPSIS
use SQL::Abstract;
use Test::More;
use SQL::Abstract::Test import => [qw/
is_same_sql_bind is_same_sql is_same_bind
eq_sql_bind eq_sql eq_bind
/];
my ($sql, @bind) = SQL::Abstract->new->select(%args);
is_same_sql_bind($given_sql, \@given_bind,
$expected_sql, \@expected_bind, $test_msg);
is_same_sql($given_sql, $expected_sql, $test_msg);
is_same_bind(\@given_bind, \@expected_bind, $test_msg);
my $is_same = eq_sql_bind($given_sql, \@given_bind,
$expected_sql, \@expected_bind);
my $sql_same = eq_sql($given_sql, $expected_sql);
my $bind_same = eq_bind(\@given_bind, \@expected_bind);
=head1 DESCRIPTION
This module is only intended for authors of tests on
L<SQL::Abstract|SQL::Abstract> and related modules;
it exports functions for comparing two SQL statements
and their bound values.
The SQL comparison is performed on I<abstract syntax>,
ignoring differences in spaces or in levels of parentheses.
Therefore the tests will pass as long as the semantics
is preserved, even if the surface syntax has changed.
B<Disclaimer> : the semantic equivalence handling is pretty limited.
A lot of effort goes into distinguishing significant from
non-significant parenthesis, including AND/OR operator associativity.
Currently this module does not support commutativity and more
intelligent transformations like Morgan laws, etc.
For a good overview of what this test framework is capable of refer
to C<t/10test.t>
=head1 FUNCTIONS
=head2 is_same_sql_bind
is_same_sql_bind($given_sql, \@given_bind,
$expected_sql, \@expected_bind, $test_msg);
Compares given and expected pairs of C<($sql, \@bind)>, and calls
L<Test::Builder/ok> on the result, with C<$test_msg> as message. If the test
fails, a detailed diagnostic is printed. For clients which use L<Test::More>,
this is the one of the three functions (L</is_same_sql_bind>, L</is_same_sql>,
L</is_same_bind>) that needs to be imported.
=head2 is_same_sql
is_same_sql($given_sql, $expected_sql, $test_msg);
Compares given and expected SQL statements, and calls L<Test::Builder/ok> on
the result, with C<$test_msg> as message. If the test fails, a detailed
diagnostic is printed. For clients which use L<Test::More>, this is the one of
the three functions (L</is_same_sql_bind>, L</is_same_sql>, L</is_same_bind>)
that needs to be imported.
=head2 is_same_bind
is_same_bind(\@given_bind, \@expected_bind, $test_msg);
Compares given and expected bind values, and calls L<Test::Builder/ok> on the
result, with C<$test_msg> as message. If the test fails, a detailed diagnostic
is printed. For clients which use L<Test::More>, this is the one of the three
functions (L</is_same_sql_bind>, L</is_same_sql>, L</is_same_bind>) that needs
to be imported.
=head2 eq_sql_bind
my $is_same = eq_sql_bind($given_sql, \@given_bind,
$expected_sql, \@expected_bind);
Compares given and expected pairs of C<($sql, \@bind)>. Similar to
L</is_same_sql_bind>, but it just returns a boolean value and does not print
diagnostics or talk to L<Test::Builder>.
=head2 eq_sql
my $is_same = eq_sql($given_sql, $expected_sql);
Compares the abstract syntax of two SQL statements. Similar to L</is_same_sql>,
but it just returns a boolean value and does not print diagnostics or talk to
L<Test::Builder>. If the result is false, the global variable L</$sql_differ>
will contain the SQL portion where a difference was encountered; this is useful
for printing diagnostics.
=head2 eq_bind
my $is_same = eq_sql(\@given_bind, \@expected_bind);
Compares two lists of bind values, taking into account the fact that some of
the values may be arrayrefs (see L<SQL::Abstract/bindtype>). Similar to
L</is_same_bind>, but it just returns a boolean value and does not print
diagnostics or talk to L<Test::Builder>.
=head1 GLOBAL VARIABLES
=head2 $case_sensitive
If true, SQL comparisons will be case-sensitive. Default is false;
=head2 $parenthesis_significant
If true, SQL comparison will preserve and report difference in nested
parenthesis. Useful while testing C<IN (( x ))> vs C<IN ( x )>.
Defaults to false;
=head2 $order_by_asc_significant
If true SQL comparison will consider C<ORDER BY foo ASC> and
C<ORDER BY foo> to be different. Default is false;
=head2 $sql_differ
When L</eq_sql> returns false, the global variable
C<$sql_differ> contains the SQL portion
where a difference was encountered.
=head1 SEE ALSO
L<SQL::Abstract>, L<Test::More>, L<Test::Builder>.
=head1 AUTHORS
Laurent Dami, E<lt>laurent.dami AT etat geneve chE<gt>
Norbert Buchmuller <norbi@nix.hu>
Peter Rabbitson <ribasushi@cpan.org>
=head1 COPYRIGHT AND LICENSE
Copyright 2008 by Laurent Dami.
This library is free software; you can redistribute it and/or modify
it under the same terms as Perl itself.