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if not modules then modules = { } end modules ['math-ini'] = {
    version   = 1.001,
    comment   = "companion to math-ini.mkiv",
    author    = "Hans Hagen, PRAGMA-ADE, Hasselt NL",
    copyright = "PRAGMA ADE / ConTeXt Development Team",
    license   = "see context related readme files"
}

-- if needed we can use the info here to set up xetex definition files
-- the "8000 hackery influences direct characters (utf) as indirect \char's
--
-- isn't characters.data loaded already ... shortcut it here
--
-- replace code 7 by 0 as we don't use it anyway (chars with code 7 will adapt to
-- to the fam when set ... we use other means .. ok, we could use it for spacing but
-- then we also have to set the other characters (only a subset done now)

local next, type = next, type
local formatters, find = string.formatters, string.find
local utfchar, utfbyte, utflength = utf.char, utf.byte, utf.length
----- floor = math.floor
local sortedhash = table.sortedhash
local toboolean = toboolean

local context               = context
local commands              = commands
local implement             = interfaces.implement

local ctx_sprint            = context.sprint
local ctx_doifelsesomething = commands.doifelsesomething

local trace_defining        = false  trackers.register("math.defining", function(v) trace_defining = v end)

local report_math           = logs.reporter("mathematics","initializing")

mathematics                 = mathematics or { }
local mathematics           = mathematics

mathematics.extrabase       = fonts.privateoffsets.mathextrabase -- here we push some virtuals
mathematics.privatebase     = fonts.privateoffsets.mathbase      -- here we push the ex

local unsetvalue            = attributes.unsetvalue
local allocate              = utilities.storage.allocate
local chardata              = characters.data

local texsetattribute       = tex.setattribute
local setmathcode           = tex.setmathcode
local setdelcode            = tex.setdelcode

local families = allocate {
    mr = 0,
    mb = 1,
}

--- to be checked  .. a few defaults in char-def that should be alpha

local classes = allocate {
    ord         =  0, -- mathordcomm     mathord
    op          =  1, -- mathopcomm      mathop
    bin         =  2, -- mathbincomm     mathbin
    rel         =  3, -- mathrelcomm     mathrel
    open        =  4, -- mathopencomm    mathopen
    middle      =  4,
    close       =  5, -- mathclosecomm   mathclose
    punct       =  6, -- mathpunctcomm   mathpunct
    alpha       =  7, -- mathalphacomm   firstofoneargument
    accent      =  8, -- class 0
    radical     =  9,
    xaccent     = 10, -- class 3
    topaccent   = 11, -- class 0
    botaccent   = 12, -- class 0
    under       = 13,
    over        = 14,
    delimiter   = 15,
    inner       =  0, -- mathinnercomm   mathinner
    nothing     =  0, -- mathnothingcomm firstofoneargument
    choice      =  0, -- mathchoicecomm  @@mathchoicecomm
    box         =  0, -- mathboxcomm     @@mathboxcomm
    limop       =  1, -- mathlimopcomm   @@mathlimopcomm
    nolop       =  1, -- mathnolopcomm   @@mathnolopcomm
    --
    ordinary    =  0, -- ord
    alphabetic  =  7, -- alpha
    unknown     =  0, -- nothing
    default     =  0, -- nothing
    punctuation =  6, -- punct
    normal      =  0, -- nothing
    opening     =  4, -- open
    closing     =  5, -- close
    binary      =  2, -- bin
    relation    =  3, -- rel
    fence       =  0, -- unknown
    diacritic   =  8, -- accent
    large       =  1, -- op
    variable    =  7, -- alphabetic
    number      =  7, -- alphabetic
    root        = 16, -- a private one
}

local open_class      =  4
local middle_class    =  4
local close_class     =  5
local accent_class    =  8
local radical_class   =  9
local topaccent_class = 11
local botaccent_class = 12
local under_class     = 13
local over_class      = 14
local delimiter_class = 15
local root_class      = 16

local accents = allocate {
    accent    = true, -- some can be both
    topaccent = true,  [11] = true,
    botaccent = true,  [12] = true,
    under     = true,  [13] = true,
    over      = true,  [14] = true,
    unknown   = false,
}

local codes = allocate {
    ordinary       = 0, [0] = "ordinary",
    largeoperator  = 1, [1] = "largeoperator",
    binaryoperator = 2, [2] = "binaryoperator",
    relation       = 3, [3] = "relation",
    openingsymbol  = 4, [4] = "openingsymbol",
    closingsymbol  = 5, [5] = "closingsymbol",
    punctuation    = 6, [6] = "punctuation",
    variable       = 7, [7] = "variable",
}

local extensibles = allocate {
           unknown    = 0,
    l = 1, left       = 1,
    r = 2, right      = 2,
    h = 3, horizontal = 3,-- lr or rl
    u = 5, up         = 4,
    d = 5, down       = 5,
    v = 6, vertical   = 6,-- ud or du
    m = 7, mixed      = 7,
}

table.setmetatableindex(extensibles,function(t,k) t[k] = 0 return 0 end)

local virtualized = allocate {
}

function mathematics.virtualize(unicode,virtual)

    local function virtualize(k,v)
        local c = virtualized[k]
        if c == v then
            report_math("character %C is already virtualized to %C",k,v)
        elseif c then
            report_math("character %C is already virtualized to %C, ignoring mapping to %C",k,c,v)
        else
            virtualized[k] = v
        end
    end

    if type(unicode) == "table" then
        for k, v in next, unicode do
            virtualize(k,v)
        end
    elseif type(unicode) == "number" and type(virtual) == "number" then
        virtualize(unicode,virtual)
 -- else
        -- error
    end
end

mathematics.extensibles = extensibles
mathematics.classes     = classes
mathematics.codes       = codes
-----------.accents     = codes
mathematics.families    = families
mathematics.virtualized = virtualized

do

    -- not that many so no need to reuse tables

    local setmathcharacter = function(class,family,slot,unicode,mset,dset)
        if mset and codes[class] then -- regular codes < 7
            setmathcode("global",slot,class,family,unicode)
            mset = false
        end
        if dset and class == open_class or class == close_class or class == middle_class then
            setdelcode("global",slot,family,unicode,0,0)
            dset = false
        end
        return mset, dset
    end

    -- todo: make nice setters for this in lua

    local f_accent    = formatters[ [[\defUmathtopaccent \%s{%X}{%X}{%X}]] ]
    local f_topaccent = formatters[ [[\defUmathtopaccent \%s{%X}{%X}{%X}]] ]
    local f_botaccent = formatters[ [[\defUmathbotaccent \%s{%X}{%X}{%X}]] ]
    local f_over      = formatters[ [[\defUdelimiterover \%s{%X}{%X}{%X}]] ]
    local f_under     = formatters[ [[\defUdelimiterunder\%s{%X}{%X}{%X}]] ]
    local f_fence     = formatters[ [[\defUdelimiter     \%s{%X}{%X}{%X}]] ]
    local f_delimiter = formatters[ [[\defUdelimiter     \%s{%X}{%X}{%X}]] ]
    local f_radical   = formatters[ [[\defUradical       \%s{%X}{%X}]]     ]
    local f_root      = formatters[ [[\defUroot          \%s{%X}{%X}]]     ]
    local f_char      = formatters[ [[\defUmathchar      \%s{%X}{%X}{%X}]] ]

    local texmathchardef = tex.mathchardef

    local setmathsymbol = function(name,class,family,slot) -- hex is nicer for tracing
        if class == accent_class then
            ctx_sprint(f_topaccent(name,0,family,slot))
        elseif class == topaccent_class then
            ctx_sprint(f_topaccent(name,0,family,slot))
        elseif class == botaccent_class then
            ctx_sprint(f_botaccent(name,0,family,slot))
        elseif class == over_class then
            ctx_sprint(f_over(name,0,family,slot))
        elseif class == under_class then
            ctx_sprint(f_under(name,0,family,slot))
        elseif class == open_class or class == close_class or class == middle_class then
--             setdelcode("global",slot,{family,slot,0,0})
            setdelcode("global",slot,family,slot,0,0)
            ctx_sprint(f_fence(name,class,family,slot))
        elseif class == delimiter_class then
--             setdelcode("global",slot,{family,slot,0,0})
            setdelcode("global",slot,family,slot,0,0)
            ctx_sprint(f_delimiter(name,0,family,slot))
        elseif class == radical_class then
            ctx_sprint(f_radical(name,family,slot))
        elseif class == root_class then
            ctx_sprint(f_root(name,family,slot))
        elseif texmathchardef then
            texmathchardef(name,class,family,slot,"permanent")
        else
            -- beware, open/close and other specials should not end up here
            ctx_sprint(f_char(name,class,family,slot))
        end
    end

    local function report(class,family,unicode,name)
        local nametype = type(name)
        if nametype == "string" then
            report_math("class name %a, class %a, family %a, char %C, name %a",classname,class,family,unicode,name)
        elseif nametype == "number" then
            report_math("class name %a, class %a, family %a, char %C, number %U",classname,class,family,unicode,name)
        else
            report_math("class name %a, class %a, family %a, char %C", classname,class,family,unicode)
        end
    end

    -- there will be a combined \(math)chardef (tracker)

    function mathematics.define(family)
        family = family or 0
        family = families[family] or family
        local data = characters.data
        for unicode, character in sortedhash(data) do
            local symbol = character.mathsymbol
            local mset   = true
            local dset   = true
            if symbol then
                local other = data[symbol]
                local class = other.mathclass
                if class then
                    class = classes[class] or class -- no real checks needed
                    if trace_defining then
                        report(class,family,unicode,symbol)
                    end
                    mset, dset = setmathcharacter(class,family,unicode,symbol,mset,dset)
                end
                local spec = other.mathspec
                if spec then
                    for i=1,#spec do
                        local m = spec[i]
                        local class = m.class
                        if class then
                            class = classes[class] or class -- no real checks needed
                            mset, dset = setmathcharacter(class,family,unicode,symbol,mset,dset)
                        end
                    end
                end
            end
            local mathclass = character.mathclass
            local mathspec = character.mathspec
            if mathspec then
                if mathclass then
                    local name = character.mathname
                    if name then
                        report_math("fatal error, conflicting mathclass and mathspec for %C",unicode)
                        os.exit()
                    else
                        local class = classes[mathclass] or mathclass -- no real checks needed
                        if not class then
                            if trace_defining then
                                report("unknown",family,unicode)
                            end
                        else
                            if trace_defining then
                                report(class,family,unicode)
                            end
                            mset, dset = setmathcharacter(class,family,unicode,unicode,mset,dset)
                        end
                    end
                end
                for i=1,#mathspec do
                    local m = mathspec[i]
                    local name = m.name
                    local class = m.class
                    if class then
                        class = classes[class] or class -- no real checks needed
                        if name then
                            if trace_defining then
                                report(class,family,unicode,name)
                            end
                            setmathsymbol(name,class,family,unicode)
                        else
                            name = (class == classes.variable or class == classes.number) and character.adobename -- bad
                            if name and trace_defining then
                                report(class,family,unicode,name)
                            end
                        end
                        mset, dset = setmathcharacter(class,family,unicode,m.unicode or unicode,mset,dset) -- see solidus
                    end
                end
            elseif mathclass then
                local name = character.mathname
                local class = classes[mathclass] or mathclass -- no real checks needed
                if not class then
                    if trace_defining then
                        report("unknown",family,unicode,name)
                    end
                elseif name == false then
                    if trace_defining then
                        report(class,family,unicode,name)
                    end
                    mset, dset = setmathcharacter(class,family,unicode,unicode,mset,dset)
                else
                 -- if not name then
                 --     name = character.contextname -- too dangerous, we loose textslash and a few more
                 -- end
                    if name then
                        if trace_defining then
                            report(class,family,unicode,name)
                        end
                        setmathsymbol(name,class,family,unicode)
                    else
                        if trace_defining then
                            report(class,family,unicode,character.adobename)
                        end
                    end
                    mset, dset = setmathcharacter(class,family,unicode,unicode,mset,dset)
                end
            end
        end
    end

end

-- needed for mathml analysis
-- string with # > 1 are invalid
-- we could cache

do

    local lpegmatch = lpeg.match
    local utf8byte  = lpeg.patterns.utf8byte * lpeg.P(-1)

    -- function somechar(c)
    --     local b = lpegmatch(utf8byte,c)
    --     return b and chardata[b]
    -- end

    local somechar = table.setmetatableindex(function(t,k)
        if k then
            local b = lpegmatch(utf8byte,k)
            local v = b and chardata[b] or false
            t[k] = v
            return v
        end
    end)

    local function utfmathclass(chr, default)
        local cd = somechar[chr]
        return cd and cd.mathclass or default or "unknown"
    end

    local function utfmathlimop(chr)
        local cd = somechar[chr]
        return cd and cd.mathclass == "limop" or false
    end

    local function utfmathaccent(chr,default,asked1,asked2)
        local cd = somechar[chr]
        if not cd then
            return default or false
        end
        if asked1 and asked1 ~= "" then
            local mc = cd.mathclass
            if mc and (mc == asked1 or mc == asked2) then
                return true
            end
            local ms = cd.mathspec
            if not ms then
                local mp = cd.mathparent
                if mp then
                    ms = chardata[mp].mathspec
                end
            end
            if ms then
                for i=1,#ms do
                    local msi = ms[i]
                    local mc = msi.class
                    if mc and (mc == asked1 or mc == asked2) then
                        return true
                    end
                end
            end
        else
            local mc = cd.mathclass
            if mc then
                return accents[mc] or default or false
            end
            local ms = cd.mathspec
            if ms then
                for i=1,#ms do
                    local msi = ms[i]
                    local mc = msi.class
                    if mc then
                        return accents[mc] or default or false
                    end
                end
            end
        end
        return default or false
    end

    local function utfmathstretch(chr,default) -- "h", "v", "b", ""
        local cd = somechar[chr]
        return cd and cd.mathstretch or default or ""
    end

    local function utfmathcommand(chr,default,asked1,asked2)
        local cd = somechar[chr]
        if not cd then
            return default or ""
        end
        if asked1 then
            local mn = cd.mathname
            local mc = cd.mathclass
            if mn and mc and (mc == asked1 or mc == asked2) then
                return mn
            end
            local ms = cd.mathspec
            if not ms then
                local mp = cd.mathparent
                if mp then
                    ms = chardata[mp].mathspec
                end
            end
            if ms then
                for i=1,#ms do
                    local msi = ms[i]
                    local mn = msi.name
                    if mn then
                        local mc = msi.class
                        if mc == asked1 or mc == asked2 then
                            return mn
                        end
                    end
                end
            end
        else
            local mn = cd.mathname
            if mn then
                return mn
            end
            local ms = cd.mathspec
            if ms then
                for i=1,#ms do
                    local msi = ms[i]
                    local mn = msi.name
                    if mn then
                        return mn
                    end
                end
            end
        end
        return default or ""
    end

    local function utfmathfiller(chr, default)
        local cd = somechar[chr]
        local cmd = cd and cd.mathfiller -- or cd.mathname
        return cmd or default or ""
    end

    mathematics.utfmathclass   = utfmathclass
    mathematics.utfmathstretch = utfmathstretch
    mathematics.utfmathcommand = utfmathcommand
    mathematics.utfmathfiller  = utfmathfiller
    mathematics.utfmathaccent  = utfmathaccent

    -- interfaced

    implement {
        name      = "utfmathclass",
        public    = true,
        actions   = { utfmathclass, context },
        arguments = "argument"
    }

    implement {
        name      = "utfmathstretch",
        public    = true,
        actions   = { utfmathstretch, context },
        arguments = "argument"
    }

    implement {
        name      = "utfmathcommand",
        public    = true,
        actions   = { utfmathcommand, context },
        arguments = "argument"
    }

    implement {
        name      = "utfmathfiller",
        public    = true,
        actions   = { utfmathfiller, context },
        arguments = "argument"
    }

    implement {
        name      = "utfmathcommandabove",
        public    = true,
        actions   = { utfmathcommand, context },
        arguments = { "argument", false, "'topaccent'","'over'" }
    }

    implement {
        name      = "utfmathcommandbelow",
        public    = true,
        actions   = { utfmathcommand, context },
        arguments = { "argument", false, "'botaccent'","'under'" }
    }

    implement {
        name      = "utfmathcommandfiller",
        public    = true,
        actions   = { utfmathfiller, context },
        arguments = "argument"
    }

    -- todo: make this a helper:

    implement {
        name      = "doifelseutfmathabove",
        public    = true,
        actions   = { utfmathaccent, ctx_doifelsesomething },
        arguments = { "argument", false, "'topaccent'", "'over'" }
    }

    implement {
        name      = "doifelseutfmathbelow",
        public    = true,
        actions   = { utfmathaccent, ctx_doifelsesomething },
        arguments = { "argument", false, "'botaccent'", "'under'" }
    }

    implement {
        name      = "doifelseutfmathaccent",
        public    = true,
        actions   = { utfmathaccent, ctx_doifelsesomething },
        arguments = "argument",
    }

    implement {
        name      = "doifelseutfmathfiller",
        public    = true,
        actions   = { utfmathfiller, ctx_doifelsesomething },
        arguments = "argument",
    }

    implement {
        name      = "doifelseutfmathlimop",
        public    = true,
        actions   = { utfmathlimop, ctx_doifelsesomething },
        arguments = "argument"
    }

end

-- helpers
--
-- 1: step 1
-- 2: step 2
-- 3: htdp * 1.33^n
-- 4: size * 1.33^n

function mathematics.big(tfmdata,unicode,n,method)
    local t = tfmdata.characters
    local c = t[unicode]
    if c and n > 0 then
        local vv = c.vert_variants or c.next and t[c.next].vert_variants
        if vv then
            local vvn = vv[n]
            return vvn and vvn.glyph or vv[#vv].glyph or unicode
        elseif method == 1 or method == 2 then
            if method == 2 then -- large steps
                n = n * 2
            end
            local next = c.next
            while next do
                if n <= 1 then
                    return next
                else
                    n = n - 1
                    local tn = t[next].next
                    if tn then
                        next = tn
                    else
                        return next
                    end
                end
            end
        elseif method >= 3 then
            local size = 1.33^n
            if method == 4 then
                size = tfmdata.parameters.size * size
            else -- if method == 3 then
                size = (c.height + c.depth) * size
            end
            local next = c.next
            while next do
                local cn = t[next]
                if (cn.height + cn.depth) >= size then
                    return next
                else
                    local tn = cn.next
                    if tn then
                        next = tn
                    else
                        return next
                    end
                end
            end
        end
    end
    return unicode
end

do -- experimental

    -- local categories = { } -- indexed + hashed
    --
    -- local a_mathcategory = attributes.private("mathcategory")
    --
    -- local function registercategory(category,tag,data) -- always same data for tag
    --     local c = categories[category]
    --     if not c then
    --         c = { }
    --         categories[category] = c
    --     end
    --     local n = c[tag]
    --     if not n then
    --         n = #c + 1
    --         c[n] = data
    --         n = n * 1000 + category
    --         c[tag] = n
    --     end
    --     return n
    -- end
    --
    -- function mathematics.getcategory(n)
    --     local category = n % 1000
    --     return category, categories[category][floor(n/1000)]
    -- end
    --
    -- mathematics.registercategory = registercategory
    --
    -- function commands.taggedmathfunction(tag,label)
    --     if label then
    --         texsetattribute(a_mathcategory,registercategory(1,tag,tag))
    --         context.mathlabeltext(tag)
    --     else
    --         texsetattribute(a_mathcategory,1)
    --         context(tag)
    --     end
    -- end

    local categories       = { }
    mathematics.categories = categories

    local a_mathcategory   = attributes.private("mathcategory")

    local functions        = storage.allocate()
    categories.functions   = functions
    local noffunctions     = 1000 -- offset

    implement {
        name      = "tagmfunctiontxt",
        arguments = { "string", "conditional" },
        actions   = function(tag,apply)
            local delta = apply and 1000 or 0
            texsetattribute(a_mathcategory,1000 + delta)
        end
    }

    implement {
        name      = "tagmfunctionlab",
        arguments = { "string", "conditional" },
        actions   = function(tag,apply)
            local delta = apply and 1000 or 0
            local n = functions[tag]
            if not n then
                noffunctions = noffunctions + 1
                functions[noffunctions] = tag
                functions[tag] = noffunctions
                texsetattribute(a_mathcategory,noffunctions + delta)
            else
                texsetattribute(a_mathcategory,n + delta)
            end
        end
    }

end

do

    local list

    function mathematics.resetattributes()
        if not list then
            list = { }
            for k, v in next, attributes.numbers do
                if find(k,"^math") then
                    list[#list+1] = v
                end
            end
        end
        for i=1,#list do
            texsetattribute(list[i],unsetvalue)
        end
    end

end

implement {
    name      = "resetmathattributes",
    public    = true,
    protected = true,
    actions   = mathematics.resetattributes
}

-- weird to do this here but it's a side affect of math anyway

interfaces.implement {
    name     = "enableasciimode",
    onlyonce = true,
    actions  = resolvers.macros.enablecomment,
}