# Following work by @jiahao, we compute character widths using a combination of # * advance widths from GNU Unifont (advance width 512 = 1 en) # * UAX 11: East Asian Width # * a few exceptions as needed # Adapted from http://nbviewer.ipython.org/gist/jiahao/07e8b08bf6d8671e9734 # # Requires Julia (obviously) and FontForge. ############################################################################# # Julia 0.3/0.4 compatibility (taken from Compat package) if VERSION < v"0.4.0-dev+1419" const UInt16 = Uint16 end CharWidths = Dict{Int,Int}() ############################################################################# # Widths from GNU Unifont universion=get(ENV, "UNIFONT_VERSION", "7.0.06") for fontfile in ["unifont-$universion", "unifont_upper-$universion"] isfile("$fontfile.ttf") || download("http://unifoundry.com/pub/unifont-$universion/font-builds/$fontfile.ttf", "$fontfile.ttf") isfile("$fontfile.sfd") || run(`fontforge -lang=ff -c "Open(\"$fontfile.ttf\");Save(\"$fontfile.sfd\");Quit(0);"`) end #Read sfdfile for character widths function parsesfd(filename::String, CharWidths::Dict{Int,Int}=Dict{Int,Int}()) state=:seekchar lineno = 0 for line in readlines(open(filename)) lineno += 1 if state==:seekchar #StartChar: nonmarkingreturn if contains(line, "StartChar: ") codepoint = nothing width = nothing state = :readdata end elseif state==:readdata #Encoding: 65538 -1 2, Width: 1024 contains(line, "Encoding:") && (codepoint = int(split(line)[3])) contains(line, "Width:") && (width = int(split(line)[2])) if codepoint!=nothing && width!=nothing && codepoint >= 0 CharWidths[codepoint]=div(width, 512) # 512 units to the en state = :seekchar end end end CharWidths end CharWidths=parsesfd("unifont-$universion.sfd", CharWidths) CharWidths=parsesfd("unifont_upper-$universion.sfd", CharWidths) ############################################################################# # Widths from UAX #11: East Asian Width # .. these take precedence over the Unifont width for all codepoints # listed explicitly as wide/full/narrow/half-width isfile("EastAsianWidth.txt") || download("http://www.unicode.org/Public/UNIDATA/EastAsianWidth.txt", "EastAsianWidth.txt") for line in readlines(open("EastAsianWidth.txt")) #Strip comments line[1] == '#' && continue precomment = split(line, '#')[1] #Parse code point range and width code tokens = split(precomment, ';') length(tokens) >= 2 || continue charrange = tokens[1] width = strip(tokens[2]) #Parse code point range into Julia UnitRange rangetokens = split(charrange, "..") charstart = uint32("0x"*rangetokens[1]) charend = uint32("0x"*rangetokens[length(rangetokens)>1 ? 2 : 1]) #Assign widths for c in charstart:charend if width=="W" || width=="F" # wide or full CharWidths[c]=2 elseif width=="Na"|| width=="H" # narrow or half CharWidths[c]=1 end end end ############################################################################# # A few exceptions to the above cases, found by manual comparison # to other wcwidth functions and similar checks. # Use ../libutf8proc for category codes, rather than the one in Julia, # to minimize bootstrapping complexity when a new version of Unicode comes out. function catcode(c) uint(c) > 0x10FFFF && return 0x0000 # see utf8proc_get_property docs return unsafe_load(ccall((:utf8proc_get_property,"../libutf8proc"), Ptr{UInt16}, (Int32,), c)) end # use Base.UTF8proc module to get category codes constants, since # we aren't goint to change these in utf8proc. import Base.UTF8proc for c in keys(CharWidths) cat = catcode(c) # make sure format control character (category Cf) have width 0, # except for the Arabic characters 0x06xx (see unicode std 6.2, sec. 8.2) if cat==UTF8proc.UTF8PROC_CATEGORY_CF && c ∉ [0x0601,0x0602,0x0603,0x06dd] CharWidths[c]=0 end # Unifont has nonzero width for a number of non-spacing combining # characters, e.g. (in 7.0.06): f84,17b4,17b5,180b,180d,2d7f, and # the variation selectors if cat==UTF8proc.UTF8PROC_CATEGORY_MN CharWidths[c]=0 end # We also assign width of zero to unassigned and private-use # codepoints (Unifont includes ConScript Unicode Registry PUA fonts, # but since these are nonstandard it seems questionable to recognize them). if cat==UTF8proc.UTF8PROC_CATEGORY_CO || cat==UTF8proc.UTF8PROC_CATEGORY_CN CharWidths[c]=0 end # for some reason, Unifont has width-2 glyphs for ASCII control chars if cat==UTF8proc.UTF8PROC_CATEGORY_CC CharWidths[c]=0 end end #By definition, should have zero width (on the same line) #0x002028 '
' category: Zl name: LINE SEPARATOR/ #0x002029 '
' category: Zp name: PARAGRAPH SEPARATOR/ CharWidths[0x2028]=0 CharWidths[0x2029]=0 #By definition, should be narrow = width of 1 en space #0x00202f ' ' category: Zs name: NARROW NO-BREAK SPACE/ CharWidths[0x202f]=1 #By definition, should be wide = width of 1 em space #0x002001 ' ' category: Zs name: EM QUAD/ #0x002003 ' ' category: Zs name: EM SPACE/ CharWidths[0x2001]=2 CharWidths[0x2003]=2 ############################################################################# # Output (to a file or pipe) for processing by data_generator.rb # ... don't bother to output zero widths since that will be the default. firstc = 0x000000 lastv = 0 uhex(c) = uppercase(hex(c,4)) for c in 0x0000:0x110000 v = get(CharWidths, c, 0) if v != lastv || c == 0x110000 v < 4 || error("invalid charwidth $v for $c") if firstc+1 < c println(uhex(firstc), "..", uhex(c-1), "; ", lastv) else println(uhex(firstc), "; ", lastv) end firstc = c lastv = v end end