package SQL::Abstract::Test; # see doc at end of file use strict; use warnings; use base qw(Test::Builder::Module Exporter); 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 dumper diag_where $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 _unpack_arrayrefref { my @args; for (1,2) { my $chunk = shift @_; if (ref $chunk eq 'REF' and ref $$chunk eq 'ARRAY') { my ($sql, @bind) = @$$chunk; push @args, ($sql, \@bind); } else { push @args, $chunk, shift @_; } } # maybe $msg and ... stuff push @args, @_; @args; } sub is_same_sql_bind { my ($sql1, $bind_ref1, $sql2, $bind_ref2, $msg) = &_unpack_arrayrefref; # 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 dumper { # FIXME # if we save the instance, we will end up with $VARx references # no time to figure out how to avoid this (Deepcopy is *not* an option) require Data::Dumper; Data::Dumper->new([])->Terse(1)->Indent(1)->Useqq(1)->Deparse(1)->Quotekeys(0)->Sortkeys(1)->Maxdepth(0) ->Values([@_])->Dump; } sub diag_where{ $tb->diag("Search term:\n" . &dumper); } sub _sql_differ_diag { my $sql1 = shift || ''; my $sql2 = shift || ''; $tb->${\($tb->in_todo ? 'note' : 'diag')} ( "SQL expressions differ\n" ." got: $sql1\n" ."want: $sql2\n" ."\nmismatch around\n$sql_differ\n" ); } sub _bind_differ_diag { my ($bind_ref1, $bind_ref2) = @_; $tb->${\($tb->in_todo ? 'note' : 'diag')} ( "BIND values differ " . dumper({ got => $bind_ref1, want => $bind_ref2 }) ); } sub eq_sql_bind { my ($sql1, $bind_ref1, $sql2, $bind_ref2) = &_unpack_arrayrefref; return eq_sql($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 and related modules; it exports functions for comparing two SQL statements and their bound values. The SQL comparison is performed on I, 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 : 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 L, etc. For a good overview of what this test framework is currently capable of refer to C =head1 FUNCTIONS =head2 is_same_sql_bind is_same_sql_bind( $given_sql, \@given_bind, $expected_sql, \@expected_bind, $test_msg ); is_same_sql_bind( \[$given_sql, @given_bind], \[$expected_sql, @expected_bind], $test_msg ); is_same_sql_bind( $dbic_rs->as_query $expected_sql, \@expected_bind, $test_msg ); Compares given and expected pairs of C<($sql, \@bind)> by unpacking C<@_> as shown in the examples above and passing the arguments to L and L. Calls L with the combined result, with C<$test_msg> as message. If the test fails, a detailed diagnostic is printed. =head2 is_same_sql is_same_sql( $given_sql, $expected_sql, $test_msg ); Compares given and expected SQL statements via L, and calls L on the result, with C<$test_msg> as message. If the test fails, a detailed diagnostic is printed. =head2 is_same_bind is_same_bind( \@given_bind, \@expected_bind, $test_msg ); Compares given and expected bind values via L, and calls L on the result, with C<$test_msg> as message. If the test fails, a detailed diagnostic is printed. =head2 eq_sql_bind my $is_same = eq_sql_bind( $given_sql, \@given_bind, $expected_sql, \@expected_bind, ); my $is_same = eq_sql_bind( \[$given_sql, @given_bind], \[$expected_sql, @expected_bind], ); my $is_same = eq_sql_bind( $dbic_rs->as_query $expected_sql, \@expected_bind, ); Unpacks C<@_> depending on the given arguments and calls L and L, returning their combined result. =head2 eq_sql my $is_same = eq_sql($given_sql, $expected_sql); Compares the abstract syntax of two SQL statements. Similar to L, but it just returns a boolean value and does not print diagnostics or talk to L. If the result is false, the global variable L 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). Similar to L, but it just returns a boolean value and does not print diagnostics or talk to L. =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 vs C. Defaults to false; =head2 $order_by_asc_significant If true SQL comparison will consider C and C to be different. Default is false; =head2 $sql_differ When L returns false, the global variable C<$sql_differ> contains the SQL portion where a difference was encountered. =head1 SEE ALSO L, L, L. =head1 AUTHORS Laurent Dami Norbert Buchmuller Peter Rabbitson =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.