Support for all possible nth-child arguments.

That is, as far as I can tell based on Nokogiri's behaviour (which Oga now
matches).
This commit is contained in:
Yorick Peterse 2014-10-30 23:03:46 +01:00
parent 0e6aefb727
commit 03f897c2b7
2 changed files with 79 additions and 48 deletions

View File

@ -271,10 +271,31 @@ rule
# on_pseudo_class_nth_child() to determine what the final AST should be. # on_pseudo_class_nth_child() to determine what the final AST should be.
nth nth
# n
: T_NTH { s(:nth, s(:int, 1)) } : T_NTH { s(:nth, s(:int, 1)) }
# -n
| T_MINUS T_NTH { s(:nth, s(:int, 1)) } | T_MINUS T_NTH { s(:nth, s(:int, 1)) }
# -n+2, -n-2
| T_MINUS T_NTH integer { s(:nth, nil, val[2]) }
# 2n
| integer T_NTH { s(:nth, val[0]) } | integer T_NTH { s(:nth, val[0]) }
| integer T_NTH integer { s(:nth, val[0], val[2]) }
# 2n+1, 2n-1
| integer T_NTH integer
{
a = val[0]
b = val[2]
# 2n-1 gets turned into 2n+1
if b.children[0] < 0
b = s(:int, a.children[0] - (b.children[0] % a.children[0]))
end
s(:nth, a, b)
}
; ;
odd odd
@ -358,6 +379,7 @@ end
# @return [AST::Node] # @return [AST::Node]
# #
def on_pseudo_class_nth_child(arg) def on_pseudo_class_nth_child(arg)
# literal 2, 4, etc
if arg.type == :int if arg.type == :int
node = s( node = s(
:eq, :eq,
@ -371,18 +393,35 @@ end
else else
step, offset = *arg step, offset = *arg
before_count = s( count_call = s(
:add, :call,
s(:call, 'count', s(:axis, 'preceding-sibling', s(:test, nil, '*'))), 'count',
s(:int, 1) s(:axis, 'preceding-sibling', s(:test, nil, '*'))
) )
if offset before_count = s(:add, count_call, s(:int, 1))
if step and step.children[0] >= 0
compare = :gte
else
compare = :lte
end
# -n-6, -n-4, etc
if !step and offset.children[0] <= 0
node = s(:eq, count_call, s(:int, -1))
# 2n+2, 2n-4, etc
elsif offset
mod_val = step ? s(:int, 2) : s(:int, 1)
node = s( node = s(
:and, :and,
s(:gte, before_count, offset), s(compare, before_count, offset),
s(:eq, s(:mod, s(:sub, before_count, offset), s(:int, 2)), s(:int, 0)) s(:eq, s(:mod, s(:sub, before_count, offset), mod_val), s(:int, 0))
) )
# 2n, n, -2n
else else
node = s(:eq, s(:mod, before_count, step), s(:int, 0)) node = s(:eq, s(:mod, before_count, step), s(:int, 0))
end end

View File

@ -57,56 +57,48 @@ describe Oga::CSS::Parser do
) )
end end
example 'parse the x:nth-child(2n) pseudo class' do example 'parse the x:nth-child(-n+6) pseudo class' do
parse_css('x:nth-child(2n)').should == s( parse_css('x:nth-child(-n+6)').should == parse_xpath(
:pseudo, 'descendant-or-self::x[((count(preceding-sibling::*) + 1) <= 6) ' \
s(:test, nil, 'x'), 'and (((count(preceding-sibling::*) + 1) - 6) mod 1) = 0]'
'nth-child',
s(:nth, s(:int, 2))
) )
end end
example 'parse the x:nth-child(-n-6) pseudo class' do
parse_css('x:nth-child(-n-6)').should == parse_xpath(
'descendant-or-self::x[count(preceding-sibling::*) = -1]'
)
end
example 'parse the x:nth-child(2n) pseudo class' do
parse_css('x:nth-child(2n)').should == parse_css('x:nth-child(even)')
end
example 'parse the x:nth-child(2n+1) pseudo class' do example 'parse the x:nth-child(2n+1) pseudo class' do
parse_css('x:nth-child(2n+1)').should == s( parse_css('x:nth-child(2n+1)').should == parse_xpath(
:pseudo, 'descendant-or-self::x[(count(preceding-sibling::*) + 1) >= 1 ' \
s(:test, nil, 'x'), 'and (((count(preceding-sibling::*) + 1) - 1) mod 2) = 0]'
'nth-child',
s(:nth, s(:int, 2), s(:int, 1))
) )
end end
example 'parse the x:nth-child(2n-1) pseudo class' do example 'parse the x:nth-child(2n-6) pseudo class' do
parse_css('x:nth-child(2n-1)').should == s( parse_css('x:nth-child(2n-6)').should == parse_xpath(
:pseudo, 'descendant-or-self::x[(count(preceding-sibling::*) + 1) >= 2 ' \
s(:test, nil, 'x'), 'and (((count(preceding-sibling::*) + 1) - 2) mod 2) = 0]'
'nth-child',
s(:nth, s(:int, 2), s(:int, -1))
) )
end end
example 'parse the x:nth-child(-2n-1) pseudo class' do example 'parse the x:nth-child(-2n-6) pseudo class' do
parse_css('x:nth-child(-2n-1)').should == s( parse_css('x:nth-child(-2n-6)').should == parse_xpath(
:pseudo, 'descendant-or-self::x[((count(preceding-sibling::*) + 1) <= -2) ' \
s(:test, nil, 'x'), 'and (((count(preceding-sibling::*) + 1) - -2) mod 2) = 0]'
'nth-child',
s(:nth, s(:int, -2), s(:int, -1))
) )
end end
example 'parse two pseudo selectors' do example 'parse the x:nth-child(-2n+6) pseudo class' do
parse_css('x:focus:hover').should == s( parse_css('x:nth-child(-2n+6)').should == parse_xpath(
:pseudo, 'descendant-or-self::x[((count(preceding-sibling::*) + 1) <= 6) ' \
s(:pseudo, s(:test, nil, 'x'), 'focus'), 'and (((count(preceding-sibling::*) + 1) - 6) mod 2) = 0]'
'hover'
)
end
example 'parse a pseudo class with an identifier as the argument' do
parse_css('x:lang(fr)').should == s(
:pseudo,
s(:test, nil, 'x'),
'lang',
s(:test, nil, 'fr')
) )
end end
end end