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|
# rfi.rb -- general use classes
#--
# Last Change: Tue May 16 19:21:51 2006
#++
require 'rfil/font/glyph'
module RFIL # :nodoc:
# = RFI
# Everything that does not fit somewhere else gets included in the
# wrapper class RFI.
# This class contains methods and other classes that are pretty much
# useless of their own or are accessed in different classes.
class RFI # :nodoc:
# Super class for plugins. Just subclass this Plugin, set the name
# when calling Plugin#new and implement run_plugin.
class Plugin
# Name of the plugin. A Symbol or a String.
attr_reader :name
attr_reader :filetypes
# Create a new plugin. _name_ is the name of the plugin (it must
# be a Symbol or a String). _filetypes_ is a list of symbols, of
# what files the plugin is capable of writing.
def initialize(name,*filetypes)
@name=name
@filetypes=filetypes
end
# Return an Array of files that should be written on the user's
# harddrive. The Hash entries are
# [<tt>:type</tt>] Type of the file (<tt>:fd</tt>, <tt>:typescript</tt> etc.)
# [<tt>:filename</tt>] The filename (without a path) of the file.
# [<tt>:contents</tt>] The contents of the file.
def run_plugin
#dummy
end
end
# Some instructions to remove kerning information from digits and
# other things. -> sort this out
STDLIGKERN = ["space l =: lslash",
"space L =: Lslash", "question quoteleft =: questiondown",
"exclam quoteleft =: exclamdown", "hyphen hyphen =: endash",
"endash hyphen =: emdash", "quoteleft quoteleft =: quotedblleft",
"quoteright quoteright =: quotedblright", "space {} *", "* {} space",
"zero {} *", "* {} zero",
"one {} *", "* {} one",
"two {} *", "* {} two",
"three {} *","* {} three",
"four {} *", "* {} four",
"five {} *", "* {} five",
"six {} *", "* {} six",
"seven {} *", "* {} seven",
"eight {} *", "* {} eight",
"nine {} *", "* {} nine",
"comma comma =: quotedblbase",
"less less =: guillemotleft",
"greater greater =: guillemotright"]
# Metric information about a glyph. Does not contain the glyph
# (outlines) itself.
class Char < Font::Glyph
# fontnumber is used in Font class
attr_accessor :fontnumber
# If not nil, _mapto_ is the glyphname that should be used instead
# of the current one.
attr_accessor :mapto
# Sets the extension factor. This is used by calculations of _wx_,
# _llx_ and _urx_.
attr_accessor :efactor
# Sets the slant factor. This is used by calculations of _wx_,
# _llx_ and _urx_.
attr_accessor :slant
def wx # :nodoc:
transform(@wx,0)
end
def wx=(obj) # :nodoc:
@wx=obj
end
# Lower left x position of glyph.
def llx # :nodoc:
transform(@b[0],b[1])
end
# Upper right x position of glyph.
def urx # :nodoc:
transform(@b[2],ury)
end
private
def transform (x,y)
(@efactor * x + @slant * y)
end
end # class Char
# Represent the different ligatures possible in tfm.
class LIG
@@encligops = ["=:", "|=:", "|=:>", "=:|", "=:|>", "|=:|", "|=:|>", "|=:|>>"]
@@vpligops = ["LIG", "/LIG", "/LIG>", "LIG/", "LIG/>", "/LIG/",
"/LIG/>", "/LIG/>>"]
@@symligops = [:lig, :"lig/", :"/lig", :"/lig/", :"lig/>", :"/lig>", :"/lig/>", :"/lig/>>"]
# First glyph of a two glyph sequence before it is turned into a
# ligature.
attr_accessor :left
# Second glyph of a two glyph sequence before it is turned into a
# ligature.
attr_accessor :right
# The ligature that gets inserterd instead of the left and right glyph.
attr_accessor :result
# <tt>[0, 1, 2, 3, 4, 5, 6, 7 ]</tt>
#
# <tt>[=: , |=: , |=:> , =:| , =:|>, |=:|, |=:|>, |=:|>> ]</tt>
#
# <tt>[LIG, /LIG, /LIG>, LIG/, LIG/>, /LIG/, /LIG/>, /LIG/>>]</tt>
attr_accessor :type
# call-seq:
# new
# new(left,[right,[result,[type]]])
# new(hash)
# new(otherlig)
#
# When called with left, right, result or type parameters, take
# these settings for the LIG object. When called with a hash as an
# argument, the keys should look like: :left,:right,:result,:type.
# When called with an existing LIG object, the values are taken
# from the old object.
def initialize(left=nil,right=nil,result=nil,type=nil)
case left
when Hash
[:left,:right,:result,:type].each { |sym|
if left.has_key?(sym)
self.send((sym.to_s+"=").to_sym,left[sym])
end
}
when LIG
[:left,:right,:result,:type].each { |sym|
self.send((sym.to_s+"=").to_sym,left.send(sym))
}
# warning!!!!! LIG accepts a String as well as Fixnum as
# parameters, this might have side effects!?
when Fixnum,nil,String
@left=left
@right=right
@result=result
@type=type
else
raise "unknown argument for new() in LIG: #{left}"
end
# test!
#unless @type.instance_of?(Fixnum)
# raise "type must be a fixnum"
#end
end
def ==(lig)
@left=lig.left and
@right=lig.right and
@result=lig.result and
@type=lig.type
end
def to_pl(encoding)
encoding.glyph_index[@right].sort.collect { |rightslot|
left=encoding.glyph_index[@left].min
# right=encoding.glyph_index[@right].min
result=encoding.glyph_index[@result].min
type=@@vpligops[@type]
LIG.new(:left=>left, :right=>rightslot, :result=>result, :type=>type)
}
end
# Return an array that is suitable for tfm
def to_tfminstr(encoding)
encoding.glyph_index[@right].sort.collect { |rightslot|
left=encoding.glyph_index[@left].min
# right=encoding.glyph_index[@right].min
result=encoding.glyph_index[@result].min
type=@@symligops[@type]
[type,rightslot,result]
}
end
def inspect
"[#{@type.to_s.upcase} #@left + #@right => #@result]"
end
end
require 'forwardable'
# Stores information about kerning and ligature information. Allows
# deep copy of ligature and kerning information. Obsolete. Don't use.
class LigKern
extend Forwardable
# Optional parameter initializes the new LigKern object.
def initialize(h={})
@h=h
end
def_delegators(:@h, :each, :[], :[]=,:each_key,:has_key?)
def initialize_copy(obj) # :nodoc:
tmp={}
if obj[:lig]
tmp[:lig]=Array.new
obj[:lig].each { |elt|
tmp[:lig].push(elt.dup)
}
end
if obj[:krn]
tmp[:krn]=Array.new
obj[:krn].each { |elt|
tmp[:krn].push(elt.dup)
}
end
if obj[:alias]
tmp[:alias]=obj[:alias].dup
end
@h=tmp
end
# Compare this object to another object of the same class.
def ==(obj)
return false unless obj.respond_to?(:each)
# the krn needs to be compared one by one, because they are floats
if obj.has_key?(:krn)
obj[:krn].each { |destchar,value|
return false unless @h[:krn].assoc(destchar)
return false if (value - @h[:krn].assoc(destchar)[1]).abs > 0.01
}
end
obj.each { |key,value|
next if key==:krn
return false unless @h[key]==value
}
true
end
end
# The Glyphlist is a actually a Hash with some special methods
# attached.
class Glyphlist < Hash
@@encligops = ["=:", "|=:", "|=:>", "=:|", "=:|>", "|=:|", "|=:|>", "|=:|>>"]
@@vpligops = ["LIG", "/LIG", "/LIG>", "LIG/", "LIG/>", "/LIG/",
"/LIG/>", "/LIG/>>"]
# Return an array with name of glyphs that are represented by the
# symbol _glyphlist_.
# These symbols are defined: :lowercase, :uppercase, :digits
def get_glyphlist(glyphlist)
ret=[]
unless glyphlist.instance_of? Symbol
raise ArgumentError, "glyphlist must be a symbol"
end
case glyphlist
when :lowercase
update_uc_lc_list
self.each { |glyphname,char|
if char.uc != nil
ret.push glyphname
end
}
when :uppercase
update_uc_lc_list
self.each { |glyphname,char|
if char.lc != nil
ret.push glyphname
end
}
when :digits
ret=%w(one two three four five six seven eight nine zero)
end
ret
end
# instructions.each must yield string objects (i.e. an array of
# strings, an IO object, a single string, ...). Instruction is like:
# "space l =: lslash" or "two {} *"
def apply_ligkern_instructions (instructions)
instructions.each { |instr|
s = instr.split(' ')
if @@encligops.member?(s[2]) # one of =:, |=: |=:> ...
if self[s[0]]
self[s[0]].lig_data[s[1]]=LIG.new(s[0],s[1],s[3],@@encligops.index(s[2]))
else
# puts "glyphlist#apply_ligkern_instructions: char not found: #{s[0]}"
end
elsif s[1] == "{}"
remove_kern(s[0],s[2])
end
}
end
# _left_ and _right_ must be either a glyphname or a '*'
# (asterisk) which acts like a wildcard. So ('one','*') would
# remove all kerns of glyph 'one' where 'one' is the left glyph in
# a kerning pair.
def remove_kern(left,right)
raise ArgumentError, "Only one operand may be '*'" if left=='*' and right=='*'
if right == "*"
self[left].kern_data={} if self[left]
elsif left == "*"
if self[right]
self.each { |name,chardata|
chardata.kern_data.delete(right)
}
end
else
if self[right] and self[left]
self[left].kern_data.delete(right)
end
end
end
# Update all glyph entries to see what the uppercase or the
# lowercase variants are. Warning!! Tcaron <-> tquoteright in
# non-unicode fonts.
def update_uc_lc_list
# we need this list only when faking small caps (which will, of
# course, never happen!)
# make a list of all uppercase and lowercase glyphs. Be aware of
# ae<->AE, oe<->OE, germandbls<-->SS, dotlessi->I, dotlessj->J
# do the
# @upper_lower={}
# @lower_upper={}
self.each_key {|glyphname|
thischar=self[glyphname]
if glyphname =~ /^[a-z]/
if glyphname =~ /^(a|o)e$/ and self[glyphname.upcase]
thischar.uc = glyphname.upcase
elsif glyphname =~ /^dotless(i|j)$/
thischar.uc = glyphname[-1].chr.upcase
elsif self[glyphname.capitalize]
thischar.uc = glyphname.capitalize
end
else
if glyphname =~ /^(A|O)e$/ and self[glyphname.dowcase]
thischar.lc = glyphname.downcase
elsif self[glyphname.downcase]
thischar.lc = glyphname.downcase
end
end
}
if self['germandbls']
self['germandbls'].uc='S'
end
end
# Modify the charmetrics and the kerning/ligatures so that the
# lowercase chars are made from scaling uppercase chars.
def fake_caps (factor)
update_uc_lc_list
# we need to do the following
# 1. adapt kerning pairs
# 2. change font metrics (wd)
# 3. remove ligatures from sc
@fake_caps=true
@capheight=factor
self.each { |glyphname,char|
if char.is_lowercase?
# remove ligatures from sc
char.lig_data={}
char.kern_data={}
char.mapto=char.capitalize
self[char.uc].kern_data.each { |destglyph,kerndata|
unless self[destglyph].is_lowercase?
char.kern_data[destglyph.downcase]=[kerndata[0] * factor,0]
end
}
char.b = self[char.capitalize].b.clone
char.wx = self[char.capitalize].wx * @capheight
char.lly *= @capheight
char.urx *= @capheight
char.ury *= @capheight
else # char is something like Aring, semicolon, ...
# if destchar is uppercase letter (A, Aring, ...)
# 1. delete all kerns to lowercase letters (not e.g. semicolon)
# 2. duplicate all uc kerns, multiply by factor and insert this
# as lc kern
char.kern_data.delete_if { |destglyph,kerndata|
self[destglyph].is_lowercase?
}
new_kern_data={}
char.kern_data.each { |destglyph,kerndata|
if self[destglyph].is_uppercase?
new_kern_data[self[destglyph].downcase]=[kerndata[0]*factor,kerndata[1]]
end
new_kern_data[destglyph]=kerndata
}
char.kern_data=new_kern_data
end
# 2.
}
if self['germandbls']
s=self['S']
d=self['germandbls']
d.b = s.b.dup
d.wx = s.wx * 2 * @capheight
d.urx += s.wx
d.kern_data={}
s.kern_data.each { |destglyph,kerndata|
unless self[destglyph].is_lowercase?
# we are looking at non-lowercase chars. These might be
# ones that are uppercase or are 'something else', e.g.
# hyphen...
# since we only replace the lc variants, keep the uc and
# others intact.
if self[destglyph].is_uppercase?
d.kern_data[self[destglyph].downcase]=[kerndata[0] * @capheight,0]
else
d.kern_data[destglyph]=[kerndata[0] * @capheight,0]
end
end
}
d.pcc_data=[['S',0,0],['S',s.wx,0]]
d.lly *= @capheight
d.urx *= @capheight
end
end # fake_caps
def fix_height(xheight)
# this is what afm2tfm does. I am not sure if it is clever.
self.each { |name,data|
# xheight <= 50 -> @chars[char].ury
# char.size > 1 -> @chars[char].ury
# char+accentname (ntilde, udieresis,...) exists?
# then calculate else @chars[char].ury
# calculate := ntilde.ury - tilde.ury + xheight
# same as texheight in afm2tfm source
unless name.size>1 or xheight < 50
%w(acute tilde caron dieresis).each {|accent|
naccent=name + accent
next unless self[naccent]
data.ury = self[naccent].ury - self[accent].ury + xheight
break
}
end
}
end # fix_height
end # class Glyphlist
end # class RFI
end
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