module Haml
# This class is used only internally. It holds the buffer of HTML that
# is eventually output as the resulting document.
# It's called from within the precompiled code,
# and helps reduce the amount of processing done within `instance_eval`ed code.
class Buffer
include Haml::Helpers
include Haml::Util
# The string that holds the compiled HTML. This is aliased as
# `_erbout` for compatibility with ERB-specific code.
#
# @return [String]
attr_accessor :buffer
# The options hash passed in from {Haml::Engine}.
#
# @return [{String => Object}]
# @see Haml::Engine#options_for_buffer
attr_accessor :options
# The {Buffer} for the enclosing Haml document.
# This is set for partials and similar sorts of nested templates.
# It's `nil` at the top level (see \{#toplevel?}).
#
# @return [Buffer]
attr_accessor :upper
# nil if there's no capture_haml block running,
# and the position at which it's beginning the capture if there is one.
#
# @return [Fixnum, nil]
attr_accessor :capture_position
# @return [Boolean]
# @see #active?
attr_writer :active
# @return [Boolean] Whether or not the format is XHTML
def xhtml?
not html?
end
# @return [Boolean] Whether or not the format is any flavor of HTML
def html?
html4? or html5?
end
# @return [Boolean] Whether or not the format is HTML4
def html4?
@options[:format] == :html4
end
# @return [Boolean] Whether or not the format is HTML5.
def html5?
@options[:format] == :html5
end
# @return [Boolean] Whether or not this buffer is a top-level template,
# as opposed to a nested partial
def toplevel?
upper.nil?
end
# Whether or not this buffer is currently being used to render a Haml template.
# Returns `false` if a subtemplate is being rendered,
# even if it's a subtemplate of this buffer's template.
#
# @return [Boolean]
def active?
@active
end
# @return [Fixnum] The current indentation level of the document
def tabulation
@real_tabs + @tabulation
end
# Sets the current tabulation of the document.
#
# @param val [Fixnum] The new tabulation
def tabulation=(val)
val = val - @real_tabs
@tabulation = val > -1 ? val : 0
end
# @param upper [Buffer] The parent buffer
# @param options [{Symbol => Object}] An options hash.
# See {Haml::Engine#options\_for\_buffer}
def initialize(upper = nil, options = {})
@active = true
@upper = upper
@options = options
@buffer = ruby1_8? ? "" : "".encode(Encoding.find(options[:encoding]))
@tabulation = 0
# The number of tabs that Engine thinks we should have
# @real_tabs + @tabulation is the number of tabs actually output
@real_tabs = 0
end
# Appends text to the buffer, properly tabulated.
# Also modifies the document's indentation.
#
# @param text [String] The text to append
# @param tab_change [Fixnum] The number of tabs by which to increase
# or decrease the document's indentation
# @param dont_tab_up [Boolean] If true, don't indent the first line of `text`
def push_text(text, tab_change, dont_tab_up)
if @tabulation > 0
# Have to push every line in by the extra user set tabulation.
# Don't push lines with just whitespace, though,
# because that screws up precompiled indentation.
text.gsub!(/^(?!\s+$)/m, tabs)
text.sub!(tabs, '') if dont_tab_up
end
@buffer << text
@real_tabs += tab_change
end
# Modifies the indentation of the document.
#
# @param tab_change [Fixnum] The number of tabs by which to increase
# or decrease the document's indentation
def adjust_tabs(tab_change)
@real_tabs += tab_change
end
Haml::Util.def_static_method(self, :format_script, [:result],
:preserve_script, :in_tag, :preserve_tag, :escape_html,
:nuke_inner_whitespace, :interpolated, :ugly, <<RUBY)
<% # Escape HTML here so that the safety of the string is preserved in Rails
result_name = escape_html ? "html_escape(result.to_s)" : "result.to_s" %>
<% unless ugly %>
# If we're interpolated,
# then the custom tabulation is handled in #push_text.
# The easiest way to avoid it here is to reset @tabulation.
<% if interpolated %>
old_tabulation = @tabulation
@tabulation = 0
<% end %>
tabulation = @real_tabs
result = <%= result_name %>.<% if nuke_inner_whitespace %>strip<% else %>rstrip<% end %>
<% else %>
result = <%= result_name %><% if nuke_inner_whitespace %>.strip<% end %>
<% end %>
<% if preserve_tag %>
result = Haml::Helpers.preserve(result)
<% elsif preserve_script %>
result = Haml::Helpers.find_and_preserve(result, options[:preserve])
<% end %>
<% if ugly %>
return result
<% else %>
has_newline = result.include?("\\n")
<% if in_tag && !nuke_inner_whitespace %>
<% unless preserve_tag %> if !has_newline <% end %>
@real_tabs -= 1
<% if interpolated %> @tabulation = old_tabulation <% end %>
return result
<% unless preserve_tag %> end <% end %>
<% end %>
# Precompiled tabulation may be wrong
<% if !interpolated && !in_tag %>
result = tabs + result if @tabulation > 0
<% end %>
if has_newline
result = result.gsub "\\n", "\\n" + tabs(tabulation)
# Add tabulation if it wasn't precompiled
<% if in_tag && !nuke_inner_whitespace %> result = tabs(tabulation) + result <% end %>
end
<% if in_tag && !nuke_inner_whitespace %>
result = "\\n\#{result}\\n\#{tabs(tabulation-1)}"
@real_tabs -= 1
<% end %>
<% if interpolated %> @tabulation = old_tabulation <% end %>
result
<% end %>
RUBY
# Takes the various information about the opening tag for an element,
# formats it, and appends it to the buffer.
def open_tag(name, self_closing, try_one_line, preserve_tag, escape_html, class_id,
nuke_outer_whitespace, nuke_inner_whitespace, obj_ref, content, *attributes_hashes)
tabulation = @real_tabs
attributes = class_id
attributes_hashes.each do |old|
self.class.merge_attrs(attributes, to_hash(old.map {|k, v| [k.to_s, v]}))
end
self.class.merge_attrs(attributes, parse_object_ref(obj_ref)) if obj_ref
if self_closing && xhtml?
str = " />" + (nuke_outer_whitespace ? "" : "\n")
else
str = ">" + ((if self_closing && html?
nuke_outer_whitespace
else
try_one_line || preserve_tag || nuke_inner_whitespace
end) ? "" : "\n")
end
attributes = Precompiler.build_attributes(html?, @options[:attr_wrapper], attributes)
@buffer << "#{nuke_outer_whitespace || @options[:ugly] ? '' : tabs(tabulation)}<#{name}#{attributes}#{str}"
if content
@buffer << "#{content}</#{name}>" << (nuke_outer_whitespace ? "" : "\n")
return
end
@real_tabs += 1 unless self_closing || nuke_inner_whitespace
end
# Remove the whitespace from the right side of the buffer string.
# Doesn't do anything if we're at the beginning of a capture_haml block.
def rstrip!
if capture_position.nil?
buffer.rstrip!
return
end
buffer << buffer.slice!(capture_position..-1).rstrip
end
# Merges two attribute hashes.
# This is the same as `to.merge!(from)`,
# except that it merges id, class, and data attributes.
#
# ids are concatenated with `"_"`,
# and classes are concatenated with `" "`.
# data hashes are simply merged.
#
# Destructively modifies both `to` and `from`.
#
# @param to [{String => String}] The attribute hash to merge into
# @param from [{String => #to_s}] The attribute hash to merge from
# @return [{String => String}] `to`, after being merged
def self.merge_attrs(to, from)
from['id'] = Precompiler.filter_and_join(from['id'], '_') if from['id']
if to['id'] && from['id']
to['id'] << '_' << from.delete('id').to_s
elsif to['id'] || from['id']
from['id'] ||= to['id']
end
from['class'] = Precompiler.filter_and_join(from['class'], ' ') if from['class']
if to['class'] && from['class']
# Make sure we don't duplicate class names
from['class'] = (from['class'].to_s.split(' ') | to['class'].split(' ')).sort.join(' ')
elsif to['class'] || from['class']
from['class'] ||= to['class']
end
from_data = from['data'].is_a?(Hash)
to_data = to['data'].is_a?(Hash)
if from_data && to_data
to['data'] = to['data'].merge(from['data'])
elsif to_data
to = Haml::Util.map_keys(to.delete('data')) {|name| "data-#{name}"}.merge(to)
elsif from_data
from = Haml::Util.map_keys(from.delete('data')) {|name| "data-#{name}"}.merge(from)
end
to.merge!(from)
end
private
@@tab_cache = {}
# Gets `count` tabs. Mostly for internal use.
def tabs(count = 0)
tabs = [count + @tabulation, 0].max
@@tab_cache[tabs] ||= ' ' * tabs
end
# Takes an array of objects and uses the class and id of the first
# one to create an attributes hash.
# The second object, if present, is used as a prefix,
# just like you can do with `dom_id()` and `dom_class()` in Rails
def parse_object_ref(ref)
prefix = ref[1]
ref = ref[0]
# Let's make sure the value isn't nil. If it is, return the default Hash.
return {} if ref.nil?
class_name =
if ref.respond_to?(:haml_object_ref)
ref.haml_object_ref
else
underscore(ref.class)
end
id = "#{class_name}_#{ref.id || 'new'}"
if prefix
class_name = "#{ prefix }_#{ class_name}"
id = "#{ prefix }_#{ id }"
end
{'id' => id, 'class' => class_name}
end
# Changes a word from camel case to underscores.
# Based on the method of the same name in Rails' Inflector,
# but copied here so it'll run properly without Rails.
def underscore(camel_cased_word)
camel_cased_word.to_s.gsub(/::/, '_').
gsub(/([A-Z]+)([A-Z][a-z])/,'\1_\2').
gsub(/([a-z\d])([A-Z])/,'\1_\2').
tr("-", "_").
downcase
end
end
end