mirror of
https://github.com/g012/l65.git
synced 2024-09-28 10:54:37 +00:00
0981f21032
Fixed link error on unbounded locations.
1095 lines
46 KiB
Lua
1095 lines
46 KiB
Lua
local M = {}
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local symbols={} M.symbols=symbols
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local locations={} M.locations=locations
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local sections={} M.sections=sections
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local relations={} M.relations=relations
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local stats={} M.stats=stats setmetatable(stats, stats)
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local before_link={} M.before_link=before_link
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M.strip = true -- set to false to disable dead stripping of relocatable sections
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M.pcall = pcall -- set to empty function returning false to disable eval during compute_size()
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-- set to pcall directly if you want to keep ldazab/x/y eval during compute_size() even if
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-- disabled for other parts (required to distinguish automatically between zp/abs addressing)
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M.pcall_za = function(...) return M.pcall(...) end
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M.__index = M
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M.__newindex = function(t,k,v)
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local kk = k
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if type(k) == 'string' and k:sub(1,1) == '_' and M.label_current then
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kk = M.label_current .. k
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end
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if symbols[kk] then error("attempt to modify symbol " .. k) end
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rawset(t,k,v)
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end
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symbols.__index = symbols
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setmetatable(M, symbols)
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local id_ = 0
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local id = function() id_=id_+1 return id_ end M.id=id
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M.link = function()
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if stats.unused then return end
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for _,v in ipairs(before_link) do v() end
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if M.strip then
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symbols.__index = function(tab,key)
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local val = rawget(symbols, key)
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if type(val) == 'table' and val.type == 'label' then
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val.section.refcount = val.section.refcount + 1
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end
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return val
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end
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end
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for _,section in ipairs(sections) do
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section:compute_size()
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end
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symbols.__index = symbols
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local chunk_reserve = function(section, chunk_ix)
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local chunks = section.location.chunks
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local chunk = chunks[chunk_ix]
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local holes = section.holes
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local new_chunks,ins = {},table.insert
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local chunk1 = { id=id(), start=chunk.start, size=section.org-chunk.start }
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local hole_ix = 1
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local hole1 = holes[1]
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if hole1 and hole1.start==0 then
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chunk1.size = chunk1.size + hole1.size
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hole_ix = 2
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end
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if chunk1.size > 0 then ins(new_chunks, chunk1) end
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while hole_ix <= #holes do
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local hole = holes[hole_ix]
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local chunki = { id=id(), start=section.org+hole.start, size=hole.size }
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ins(new_chunks, chunki)
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hole_ix = hole_ix + 1
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end
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local chunkl = { id=id(), start=section.org+section.size, size=chunk.start+chunk.size-(section.org+section.size) }
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local chunkn = new_chunks[#new_chunks]
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if chunkn and chunkn.start+chunkn.size==chunkl.start then
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chunkn.size = chunkn.size + chunkl.size
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elseif chunkl.size > 0 then
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ins(new_chunks, chunkl)
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end
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table.remove(chunks, chunk_ix)
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for i=chunk_ix,chunk_ix+#new_chunks-1 do ins(chunks, i, new_chunks[i-chunk_ix+1]) end
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end
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local chunk_from_address = function(section, address)
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local chunks,rorg = section.location.chunks,section.location.rorg
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for i,chunk in ipairs(chunks) do
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if address >= chunk.start and address+section.size <= chunk.start+chunk.size then
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return chunk,i
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end
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end
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end
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local check_section_position = function(section, address, chunk)
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local chunk = chunk_from_address(section, address)
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if not chunk then return end
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local rorg = section.location.rorg
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if section.align then
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local raddress = rorg(address)
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if section.offset then raddress = raddress - section.offset end
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if raddress % section.align ~= 0 then return end
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end
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for _,constraint in ipairs(section.constraints) do
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local cstart, cfinish = address+constraint.start, address+constraint.finish
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if rorg(cstart) // 0x100 == rorg(cfinish) // 0x100 then
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if constraint.type == 'crosspage' then return end
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else
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if constraint.type == 'samepage' then return end
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end
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end
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local address_end = address+section.size
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local waste = math.min(address - chunk.start, chunk.size - (address_end - chunk.start))
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local raddress,raddress_end = rorg(address),rorg(address_end)
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local align,cross=0x100,0
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repeat
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local cross_count = (raddress_end+align-1)//align - (raddress+align-1)//align
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if raddress&(align-1) == 0 then cross_count=cross_count+1 end
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cross = cross + align * align * cross_count
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align = align>>1
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until align==1
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local lsb=0
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for i=0,15 do if raddress&(1<<i) == 0 then lsb=lsb+1 else break end end
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return waste, cross, lsb
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end
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local position_section = function(section, constrain)
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local location = section.location
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local chunks,rorg = location.chunks,location.rorg
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table.sort(chunks, function(a,b) return a.size==b.size and a.id<b.id or a.size<b.size end)
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for chunk_ix,chunk in ipairs(chunks) do if chunk.size >= section.size then
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local waste,cross,lsb,position = math.maxinteger,math.maxinteger,math.maxinteger
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local usage_lowest = function(start, finish)
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local inc=1
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if section.align then
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local rstart = rorg(start)
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local arstart = (rstart + section.align - 1) // section.align * section.align
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if section.offset then arstart = arstart + section.offset end
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start = start + arstart-rstart
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inc = section.align
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end
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for address=start,finish,inc do
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local nwaste, ncross, nlsb = check_section_position(section, address, chunk)
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if nwaste then
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if constrain then
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nwaste, ncross, nlsb = constrain(address, nwaste, ncross, nlsb)
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if not nwaste then goto skip end
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end
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if nwaste > waste then goto skip end
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if nwaste == waste then
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-- if waste is the same, keep the one that uses the least amount of aligned addresses
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if ncross > cross then goto skip end
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if ncross == cross then
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-- if cross count is same, take the one with the most set LSB count (eg. select 11 over 10)
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if nlsb > lsb then goto skip end
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end
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end
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position,waste,cross,lsb = address,nwaste,ncross,nlsb
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::skip::
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end
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end
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end
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local finish = math.min(chunk.start + 0xff, chunk.start + chunk.size - section.size)
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usage_lowest(chunk.start, finish)
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if chunk.size ~= math.huge then
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local start = math.max(chunk.start + chunk.size - section.size - 0xff, chunk.start)
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usage_lowest(start, chunk.start + chunk.size - section.size)
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end
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if position then
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section.org = position
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chunk_reserve(section, chunk_ix)
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symbols[section.label] = rorg(position)
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--print(section.label, string.format("%04X\t%d", position, section.size))
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--for k,v in ipairs(location.chunks) do print(string.format(" %04X %04X %d", v.start, v.size+v.start-1, v.size)) end
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return position
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end
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end end
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end
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stats.used = 0
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stats.unused = 0
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stats.cycles = 0
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local related_sections = {}
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for _,location in ipairs(locations) do
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local sections,rorg = location.sections,location.rorg
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-- filter sections list
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local position_independent_sections = {}
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local symbols_to_remove = {}
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local section_count = #sections
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location.cycles=0 location.used=0
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for ix,section in ipairs(sections) do
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location.cycles = location.cycles + section.cycles
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location.used = location.used + section.size
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if section.size == 0 then
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sections[ix]=nil
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if not section.org then table.insert(symbols_to_remove, section.label) end
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elseif not section.org then
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if M.strip and not section.refcount and not section.strong then
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sections[ix]=nil
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table.insert(symbols_to_remove, section.label)
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elseif section.related then
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table.insert(related_sections, section)
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else
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table.insert(position_independent_sections, section)
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end
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end
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end
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do local j=0 for i=1,section_count do
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if sections[i] ~= nil then j=j+1 sections[j],sections[i] = sections[i],sections[j] end
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end end
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for _,v in ipairs(symbols_to_remove) do symbols[v] = nil end
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location.position_independent_sections = position_independent_sections
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stats.cycles = stats.cycles + location.cycles
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stats.used = stats.used + location.used
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-- fixed position sections
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for section_ix,section in ipairs(sections) do if section.org then
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if section.org < location.start or section.org > (location.finish or math.huge) then
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error("ORG section " .. section.label .. " starts outside container location")
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end
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for chunk_ix,chunk in ipairs(location.chunks) do
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if chunk.start <= section.org and chunk.size - (section.org - chunk.start) >= section.size then
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chunk_reserve(section, chunk_ix)
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symbols[section.label] = rorg(section.org)
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goto chunk_located
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end
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end
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error("ORG section " .. section.label .. " overflows its location")
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::chunk_located::
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end end
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end
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table.sort(related_sections, function(a,b) return a.size==b.size and a.id<b.id or a.size>b.size end)
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for _,section in ipairs(related_sections) do if not section.org then
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local related,ins = {},table.insert
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local function collect(section_parent, offset)
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local relatives = relations[section_parent]
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if relatives then
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for relative,relative_offset in pairs(relatives) do
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if not related[relative] and relative ~= section then
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relative_offset = relative_offset + offset
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related[relative] = relative_offset
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collect(relative, relative_offset)
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end
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end
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end
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end
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collect(section, 0)
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local location_start = section.location.start
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local position = position_section(section, function(address, waste, cross, lsb)
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local waste, cross, lsb = 0, 0, 0
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for section,offset in pairs(related) do
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local section_address = address + (section.location.start - location_start) + offset
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local nwaste, ncross, nlsb = check_section_position(section, section_address)
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if not nwaste then return end
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waste, cross, lsb = waste+nwaste, cross+ncross, lsb+nlsb
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end
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return waste, cross, lsb
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end)
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if not position then
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error("unable to find space for section " .. section.label)
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end
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for section,offset in pairs(related) do
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section.org = position + (section.location.start - location_start) + offset
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local chunk,chunk_ix = chunk_from_address(section, section.org)
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chunk_reserve(section, chunk_ix)
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symbols[section.label] = section.location.rorg(section.org)
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end
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end end
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for _,location in ipairs(locations) do
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local position_independent_sections = location.position_independent_sections
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table.sort(position_independent_sections, function(a,b) return a.size==b.size and a.label>b.label or a.size>b.size end)
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for _,section in ipairs(position_independent_sections) do
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if not position_section(section) then
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error("unable to find space for section " .. section.label)
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end
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end
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-- unused space stats
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local unused = 0
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for _,chunk in ipairs(location.chunks) do
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if chunk.size ~= math.huge then
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unused = unused + chunk.size
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else
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location.stops_at = chunk.start-1
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end
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end
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location.unused = unused
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stats.unused = stats.unused + unused
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end
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end
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M.resolve = function()
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if stats.resolved_count then return end
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M.link()
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stats.resolved_count = 0
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repeat local count = 0
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for k,v in pairs(symbols) do if k ~= '__index' then
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local t = type(v)
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if t == 'function' then v=v() t=type(v) symbols[k]=v count=count+1 end
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if t == 'table' and type(v.resolve) == 'function' then symbols[k]=v.resolve() count=count+1 end
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if t == 'string' and symbols[v] then symbols[k]=symbols[v] count=count+1 end
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stats.resolved_count = stats.resolved_count + count
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end end until count == 0
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-- set local label references resolver
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local llresolver = { __index = function(tab,key)
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if type(key) ~= 'string' or key:sub(1,1) ~= '_' or not M.label_current then return nil end
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return symbols[M.label_current .. key]
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end }
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setmetatable(symbols, llresolver)
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end
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M.genbin = function(filler)
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if #locations == 0 then return end
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if not filler then filler = 0 end -- brk opcode
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M.resolve()
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local bin = {}
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local ins,mov = table.insert,table.move
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table.sort(locations, function(a,b) return a.start < b.start end)
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local of0 = locations[1].start
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local fill
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for _,location in ipairs(locations) do
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if location.start < #bin then
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error(string.format("location [%04x,%04x] overlaps another", location.start, location.finish or location.stops_at))
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end
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if fill then for i=#bin+of0,location.start-1 do ins(bin, filler) end end
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M.size=0 M.cycles=0
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local sections = location.sections
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table.sort(sections, function(a,b) return a.org < b.org end)
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for _,section in ipairs(sections) do
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for i=#bin+of0,section.org-1 do ins(bin, filler) end
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local bin_offset = math.min(#bin, section.org-of0)+1
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for _,instruction in ipairs(section.instructions) do
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local b,o = instruction.bin
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if type(b) == 'function' then b,o = b(filler) end
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if type(b) == 'table' then mov(b,1,#b,bin_offset,bin) bin_offset=bin_offset+#b
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elseif b then bin[bin_offset]=b bin_offset=bin_offset+1 end
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if o then
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bin_offset=bin_offset+o
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for i=#bin,bin_offset-1 do ins(bin, filler) end
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end
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M.size=#bin M.cycles=M.cycles+(instruction.cycles or 0)
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end
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end
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fill = not location.nofill
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if location.finish and fill then
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for i=#bin+of0,location.finish do ins(bin, filler) end
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end
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end
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stats.bin_size = #bin
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return bin
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end
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M.writebin = function(filename, bin)
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if not filename then filename = 'main.bin' end
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if not bin then bin = M.genbin() end
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local f = assert(io.open(filename, "wb"), "failed to open " .. filename .. " for writing")
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f:write(string.char(table.unpack(bin)))
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f:close()
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end
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-- write a DASM symbol file for debuggers
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M.writesym = function(filename)
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if not filename then filename = 'main.sym' end
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local f = assert(io.open(filename, "wb"), "failed to open " .. filename .. " for writing")
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table.sort(symbols)
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local ins,fmt,rep = table.insert,string.format,string.rep
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local s,sym_rev = {'--- Symbol List'},{}
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for k,v in pairs(symbols) do if type(v) == 'number' then ins(sym_rev,k) end end
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table.sort(sym_rev, function(a,b) local x,y=symbols[a],symbols[b] return x==y and a<b or x<y end)
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for _,v in ipairs(sym_rev) do
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local k=symbols[v]
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local u=v:match'.*()_' if u then -- change _ to . in local labels
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local parent=v:sub(1,u-1) if symbols[parent] then v = parent..'.'..v:sub(u+1) end
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end
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ins(s, fmt("%s%s %04x", v, rep(' ',24-#v), k))
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end
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s[#s+1] = '--- End of Symbol List.'
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f:write(table.concat(s, '\n'))
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f:close()
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end
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stats.__tostring = function()
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local s,ins={},table.insert
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ins(s, " Free Used Size Area")
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for _,location in ipairs(locations) do
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local name = (location.name or ''):sub(1,14)
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name = string.rep(' ', 14-#name) .. name
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local fmt = "%s %5d %5d %5d [%04X-%04X]"
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if location.finish then
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local size = location.finish-location.start+1
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ins(s, string.format(fmt, name,
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location.unused, size-location.unused, size, location.start, location.finish))
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else
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ins(s, string.format(fmt, name,
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location.unused, location.used, location.stops_at-location.start+1, location.start, location.stops_at))
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end
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end
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if #locations > 1 then
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ins(s, string.format(" --- Total --- %5d %5d %5d", stats.unused, stats.used, stats.bin_size))
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end
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return table.concat(s, '\n')
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end
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M.location = function(start, finish)
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local location
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if type(start) ~= 'table' then
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location = { start=start, finish=finish }
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else
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if start.type == 'location' then
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for _,v in ipairs(locations) do if v == start then
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M.location_current = start
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return start
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end end
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error("unable to find reference to location [" .. (start.start or '?') .. ", " .. (start.finish or '?') .. "]")
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end
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location = start
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location.start = start[1]
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location.finish = start[2]
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if type(location.rorg) == 'number' then
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local offset = location.rorg - location.start
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location.rorg = function(x) return x+offset end
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end
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end
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location.type = 'location'
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location.sections = {}
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if not location.rorg then location.rorg = function(x) return x end end
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local size = (location.finish or math.huge) - location.start + 1
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location.chunks={ { id=id(), start=location.start, size=size } }
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locations[#locations+1] = location
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M.location_current = location
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return location
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end
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M.section = function(t)
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local section = {}
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local name = t or 'S'..id()
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if (type(name) ~= 'string') then
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assert(type(t) == 'table', "invalid arguments for section")
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if t.type == 'section' then
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for _,v in ipairs(sections) do if v == t then
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M.location_current = t.location
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M.section_current = t
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return t
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end end
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error("unable to find reference to section " .. (t.label or '?'))
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end
|
|
section=t name=t[1] or 'S'..id() section[1]=nil
|
|
if section.offset and not section.align then error("section " .. name .. " has offset, but no align") end
|
|
end
|
|
table.insert(M.location_current.sections, section)
|
|
table.insert(M.sections, section)
|
|
section.location = M.location_current
|
|
M.section_current = section
|
|
section.type = 'section'
|
|
section.id = id()
|
|
section.constraints = {}
|
|
section.instructions = {}
|
|
assert(name:sub(1,1) ~= '_', "sections can't be named with a local label")
|
|
section.label = M.label(name)
|
|
section.holes = {}
|
|
section.refcount = 0
|
|
function section:compute_size()
|
|
local instructions = self.instructions
|
|
self.size=0 self.cycles=0
|
|
for _,instruction in ipairs(instructions) do
|
|
instruction.offset = self.size
|
|
local ins_sz = instruction.size or 0
|
|
if type(ins_sz) == 'function' then
|
|
-- evaluation is needed to get the size (distinguish zpg/abs)
|
|
-- labels and sections are not resolved at this point, so
|
|
-- evaluation will fail if the size is not explicitly stated (.b/.w);
|
|
-- in that case, assume max size
|
|
ins_sz = ins_sz()
|
|
end
|
|
self.size = self.size + ins_sz
|
|
self.cycles = self.cycles + (instruction.cycles or 0)
|
|
end
|
|
for _,constraint in ipairs(self.constraints) do
|
|
constraint.start = instructions[constraint.from].offset
|
|
constraint.finish = constraint.to==#instructions and self.size or instructions[constraint.to+1].offset
|
|
end
|
|
end
|
|
return section
|
|
end
|
|
|
|
-- relate(section1, section2 [, [offset1,] offset2])
|
|
-- Add a position relationship between 'section1' and 'section2', with 'offset1'
|
|
-- bytes from selected position for 'section2', and 'offset2' bytes from selec-
|
|
-- -ted positon for 'section1'.
|
|
-- If offset1 is omitted, -offset2 is used.
|
|
M.relate = function(section1, section2, offset, offset2)
|
|
local rel1 = relations[section1] or {}
|
|
rel1[section2] = (offset2 or offset) or 0
|
|
relations[section1] = rel1
|
|
local rel2 = relations[section2] or {}
|
|
rel2[section1] = (offset2 and offset) or -rel1[section2]
|
|
relations[section2] = rel2
|
|
section1.related = true
|
|
section2.related = true
|
|
end
|
|
|
|
M.label = function(name)
|
|
local label,offset
|
|
local section,rorg = M.section_current,M.location_current.rorg
|
|
label = { type='label', section=section }
|
|
if not name then name='_L'..id() end
|
|
if name:sub(1,1) == '_' then -- local label
|
|
name = M.label_current .. name
|
|
else
|
|
M.label_current = name
|
|
label.bin = function() M.label_current = name end
|
|
end
|
|
if symbols[name] then error("duplicate symbol: " .. name) end
|
|
symbols[name] = label
|
|
label.label = name
|
|
label.size = function()
|
|
offset = section.size
|
|
label.size = 0
|
|
return 0
|
|
end
|
|
label.resolve = function() return rorg(section.org + offset) end
|
|
table.insert(section.instructions, label)
|
|
return name,label
|
|
end
|
|
|
|
M.samepage = function()
|
|
local section = M.section_current
|
|
table.insert(section.constraints, { type='samepage', from=#section.instructions+1 })
|
|
end
|
|
M.crosspage = function()
|
|
local section = M.section_current
|
|
table.insert(section.constraints, { type='crosspage', from=#section.instructions+1 })
|
|
end
|
|
M.endpage = function()
|
|
local section = M.section_current
|
|
local constraint = section.constraints[#section.constraints]
|
|
assert(constraint and not constraint.to, "closing constraint, but no constraint is open")
|
|
constraint.to = #section.instructions
|
|
end
|
|
|
|
-- skip(bytes)
|
|
-- Insert a hole in the section of 'bytes' bytes, which can be used by other
|
|
-- relocatable sections.
|
|
M.skip = function(bytes)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local ins,section = {},M.section_current
|
|
ins.size = function()
|
|
table.insert(section.holes, { start=ins.offset, size=bytes })
|
|
return bytes
|
|
end
|
|
ins.bin = function(filler) return nil,bytes end
|
|
table.insert(section.instructions, ins)
|
|
end
|
|
|
|
-- sleep(cycles [, noillegal])
|
|
-- Waste 'cycles' cycles. If 'noillegal' is true, trashes NZ flags.
|
|
M.sleep = function(cycles, noillegal)
|
|
assert(cycles > 1, "can't sleep for less than 2 cycles")
|
|
if cycles & 1 ~= 0 then
|
|
if noillegal then bitzpg(0) else nopzpg(0) end
|
|
cycles = cycles - 3
|
|
end
|
|
for i=1,cycles/2 do nopimp() end
|
|
end
|
|
|
|
local op_resolve = function(v)
|
|
if type(v) == 'function' then v=v() end
|
|
if type(v) == 'table' and v.label then v = symbols[v.label] end
|
|
if type(v) == 'string' then v = symbols[v] end
|
|
if type(v) ~= 'number' then error("unresolved symbol: " .. tostring(v)) end
|
|
return v
|
|
end M.op_resolve = op_resolve
|
|
|
|
local size_ref = function(v)
|
|
if type(v) == 'string' then v=symbols[v] end
|
|
if type(v) == 'table' and v.type == 'label' then v.section.refcount = 1 + (v.section.refcount or 0) end
|
|
end
|
|
local size_dc = function(v)
|
|
if type(v) == 'function' then
|
|
local r,x = M.pcall(v)
|
|
if not r or not x then return v end
|
|
end
|
|
size_ref(v)
|
|
return v
|
|
end
|
|
local size_op = function(late, early)
|
|
if type(late) == 'function' then
|
|
local r,x = M.pcall(late, early or 0, op_resolve)
|
|
if not r or not x then return late,early end
|
|
late=x early=nil
|
|
end
|
|
size_ref(late) size_ref(early)
|
|
return late,early
|
|
end
|
|
|
|
local byte_normalize = function(v)
|
|
if v < -0x80 or v > 0xFF then error("value out of byte range: " .. v) end
|
|
if v < 0 then v = v + 0x100 end
|
|
return v & 0xff
|
|
end
|
|
M.byte_normalize = byte_normalize
|
|
|
|
local word_normalize = function(v)
|
|
if v < -0x8000 or v > 0xFFFF then error("value out of word range: " .. v) end
|
|
if v < 0 then v = v + 0x10000 end
|
|
return v & 0xffff
|
|
end
|
|
M.word_normalize = word_normalize
|
|
|
|
local long_normalize = function(v)
|
|
if v < -0x80000000 or v > 0xFFFFFFFF then error("value out of word range: " .. v) end
|
|
if v < 0 then v = v + 0x100000000 end
|
|
return v & 0xffffffff
|
|
end
|
|
M.long_normalize = long_normalize
|
|
|
|
-- charset([s] [, f])
|
|
-- Set a new charset to be used for next string data in byte().
|
|
-- Without argument, revert to Lua charset.
|
|
-- s: string of all letters of charset
|
|
-- f: letter index offset or function to transform the letter index
|
|
M.charset = function(s, f)
|
|
local st = type(s)
|
|
if st == 'nil' then M.cs = nil return s end
|
|
if st == 'table' then M.cs = s return s end
|
|
if not f then f = function(v) return v end
|
|
elseif type(f) == 'number' then f = function(v) return v + f end end
|
|
local t,i={},0
|
|
for c in s:gmatch'.' do t[c]=f(i) i=i+1 end
|
|
M.cs=t
|
|
return t
|
|
end
|
|
|
|
M.byte_impl = function(args, nrm)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local data,cs = {},M.cs
|
|
for k,v in ipairs(args) do
|
|
local t = type(v)
|
|
if t == 'number' or t == 'function' then data[#data+1] = v
|
|
elseif t == 'table' then table.move(v,1,#v,#data+1,data)
|
|
elseif t == 'string' then
|
|
if cs then
|
|
for c in v:gmatch'.' do
|
|
local i=cs[c]
|
|
if not i then error("character " .. c .. " is not part of current charset") end
|
|
data[#data+1]=i
|
|
end
|
|
else
|
|
local s = {v:byte(1,#v)}
|
|
table.move(s, 1, #s, #data+1, data)
|
|
end
|
|
else error("unsupported type for byte() argument: " .. t .. ", value: " .. v)
|
|
end
|
|
end
|
|
local size = function()
|
|
for i,v in ipairs(data) do data[i] = size_dc(v) end
|
|
return #data
|
|
end
|
|
local bin = function() local l65dbg=l65dbg
|
|
local b={}
|
|
for k,v in ipairs(data) do
|
|
if type(v) == 'function' then v = v() end
|
|
local vt = type(v)
|
|
if vt == 'table' and v.label then v = symbols[v.label]
|
|
elseif vt == 'string' then v = symbols[v] end
|
|
if type(v) ~= 'number' then error("unresolved symbol for dc.b, index " .. k) end
|
|
b[#b+1] = nrm(v)
|
|
end
|
|
return b
|
|
end
|
|
table.insert(M.section_current.instructions, { data=data, size=size, bin=bin })
|
|
end
|
|
-- byte(...)
|
|
-- Declare bytes to go into the binary stream.
|
|
-- Each argument can be either:
|
|
-- * a number resolving to a valid range byte
|
|
-- * a string, converted to bytes using the charset previously defined,
|
|
-- or Lua's charset if none was defined
|
|
-- * a table, with each entry resolving to a valid range byte
|
|
-- * a function, resolving to exactly one valid range byte, evaluated
|
|
-- after symbols have been resolved
|
|
M.byte = function(...)
|
|
return M.byte_impl({...}, byte_normalize)
|
|
end
|
|
local byte_encapsulate = function(args)
|
|
for k,v in ipairs(args) do
|
|
local vt = type(v)
|
|
if vt == 'string' or vt == 'table' and (v.type == 'section' or v.type == 'label') then
|
|
args[k] = function() return v end
|
|
end
|
|
end
|
|
return args
|
|
end
|
|
M.byte_hi = function(...)
|
|
return M.byte_impl(byte_encapsulate{...}, function(v) return (v>>8)&0xff end)
|
|
end
|
|
M.byte_lo = function(...)
|
|
return M.byte_impl(byte_encapsulate{...}, function(v) return v&0xff end)
|
|
end
|
|
|
|
-- word(...)
|
|
-- Declare words to go into the binary stream.
|
|
-- Each argument can be either:
|
|
-- * a section or a label
|
|
-- * a number resolving to a valid range word
|
|
-- * a table, with each entry resolving to a valid range word
|
|
-- * a function, resolving to exactly one valid range word, evaluated
|
|
-- after symbols have been resolved
|
|
M.word = function(...)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local args = {...}
|
|
local data = {}
|
|
for k,v in ipairs(args) do
|
|
local t = type(v)
|
|
if t == 'number' or t == 'function' or t == 'string' then data[#data+1] = v
|
|
elseif t == 'table' then
|
|
if v.type == 'section' or v.type == 'label' then data[#data+1] = function() return v end
|
|
else table.move(v,1,#v,#data+1,data) end
|
|
else error("unsupported type for word() argument: " .. t .. ", value: " .. v)
|
|
end
|
|
end
|
|
local size = function()
|
|
for i,v in ipairs(data) do data[i] = size_dc(v) end
|
|
return #data*2
|
|
end
|
|
local bin = function() local l65dbg=l65dbg
|
|
local b={}
|
|
for k,v in ipairs(data) do
|
|
if type(v) == 'function' then v = v() end
|
|
local vt = type(v)
|
|
if vt == 'table' and v.label then v = symbols[v.label]
|
|
elseif vt == 'string' then v = symbols[v] end
|
|
if type(v) ~= 'number' then error("unresolved symbol for dc.w, index " .. k) end
|
|
v = word_normalize(v)
|
|
b[#b+1] = v&0xff
|
|
b[#b+1] = v>>8
|
|
end
|
|
return b
|
|
end
|
|
table.insert(M.section_current.instructions, { data=data, size=size, bin=bin })
|
|
end
|
|
|
|
M.long = function(...)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local args = {...}
|
|
local data = {}
|
|
for k,v in ipairs(args) do
|
|
local t = type(v)
|
|
if t == 'number' or t == 'function' or t == 'string' then data[#data+1] = v
|
|
elseif t == 'table' then
|
|
if v.type == 'section' or v.type == 'label' then data[#data+1] = function() return v end
|
|
else table.move(v,1,#v,#data+1,data) end
|
|
else error("unsupported type for long() argument: " .. t .. ", value: " .. v)
|
|
end
|
|
end
|
|
local size = function()
|
|
for i,v in ipairs(data) do data[i] = size_dc(v) end
|
|
return #data*4
|
|
end
|
|
local bin = function() local l65dbg=l65dbg
|
|
local b={}
|
|
for k,v in ipairs(data) do
|
|
if type(v) == 'function' then v = v() end
|
|
local vt = type(v)
|
|
if vt == 'table' and v.label then v = symbols[v.label]
|
|
elseif vt == 'string' then v = symbols[v] end
|
|
if type(v) ~= 'number' then error("unresolved symbol for dc.l, index " .. k) end
|
|
v = long_normalize(v)
|
|
b[#b+1] = v&0xff
|
|
b[#b+1] = (v>>8)&0xff
|
|
b[#b+1] = (v>>16)&0xff
|
|
b[#b+1] = v>>24
|
|
end
|
|
return b
|
|
end
|
|
table.insert(M.section_current.instructions, { data=data, size=size, bin=bin })
|
|
end
|
|
|
|
local op,cycles_def,xcross_def
|
|
op = function(code, cycles, extra_on_crosspage)
|
|
return { opc=code, cycles=cycles or cycles_def, xcross=extra_on_crosspage or xcross_def }
|
|
end
|
|
local op_eval = function(late, early)
|
|
local x = early or 0
|
|
return type(late) == 'function' and late(x,op_resolve) or x+op_resolve(late)
|
|
end
|
|
local op_eval_byte = function(late, early) return byte_normalize(op_eval(late, early)) end
|
|
local op_eval_word = function(late, early) return word_normalize(op_eval(late, early)) end
|
|
cycles_def=2 xcross_def=0 local opimp={
|
|
asl=op(0x0a), brk=op(0x00,7), clc=op(0x18), cld=op(0xd8), cli=op(0x58), clv=op(0xb8), dex=op(0xca), dey=op(0x88),
|
|
inx=op(0xe8), iny=op(0xc8), lsr=op(0x4a), nop=op(0xea), pha=op(0x48,3), php=op(0x08,3), pla=op(0x68,4), plp=op(0x28,4),
|
|
rol=op(0x2a), ror=op(0x6a), rti=op(0x40,6), rts=op(0x60,6), sec=op(0x38), sei=op(0x78), tax=op(0xaa), tay=op(0xa8),
|
|
tsx=op(0xba), txa=op(0x8a), txs=op(0x9a), tya=op(0x98),
|
|
jam=op(0x02,0),
|
|
} M.opimp = opimp
|
|
for k,v in pairs(opimp) do
|
|
M[k .. 'imp'] = function()
|
|
table.insert(M.section_current.instructions, { size=1, cycles=v.cycles, bin=v.opc })
|
|
end
|
|
end
|
|
cycles_def=2 xcross_def=0 local opimm={
|
|
adc=op(0x69), ['and']=op(0x29), cmp=op(0xc9), cpx=op(0xe0), cpy=op(0xc0), eor=op(0x49), lda=op(0xa9), ldx=op(0xa2),
|
|
ldy=op(0xa0), ora=op(0x09), sbc=op(0xe9),
|
|
anc=op(0x0b), ane=op(0x8b), arr=op(0x6b), asr=op(0x4b), jam=op(0x12,0), lax=op(0xab), nop=op(0x80), sbx=op(0xcb),
|
|
} M.opimm = opimm
|
|
for k,v in pairs(opimm) do
|
|
M[k .. 'imm'] = function(late, early)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local size = function() late,early = size_op(late,early) return 2 end
|
|
local bin = function() local l65dbg=l65dbg return { v.opc, op_eval_byte(late,early) } end
|
|
table.insert(M.section_current.instructions, { size=size, cycles=2, bin=bin })
|
|
end
|
|
end
|
|
cycles_def=3 xcross_def=0 local opzpg={
|
|
adc=op(0x65), ['and']=op(0x25), asl=op(0x06,5), bit=op(0x24), cmp=op(0xc5), cpx=op(0xe4), cpy=op(0xc4), dec=op(0xc6,5),
|
|
eor=op(0x45), inc=op(0xe6,5), lda=op(0xa5), ldx=op(0xa6), ldy=op(0xa4), lsr=op(0x46,5), ora=op(0x05), rol=op(0x26,5),
|
|
ror=op(0x66,5), sbc=op(0xe5), sta=op(0x85), stx=op(0x86), sty=op(0x84),
|
|
dcp=op(0xc7,5), isb=op(0xe7,5), jam=op(0x22,0), lax=op(0xa7), nop=op(0x04), rla=op(0x27,5), rra=op(0x67,5), sax=op(0x87),
|
|
slo=op(0x07,5), sre=op(0x47,5),
|
|
} M.opzpg = opzpg
|
|
for k,v in pairs(opzpg) do
|
|
M[k .. 'zpg'] = function(late, early)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local size = function() late,early = size_op(late,early) return 2 end
|
|
local bin = function() local l65dbg=l65dbg return { v.opc, op_eval_byte(late,early) } end
|
|
table.insert(M.section_current.instructions, { size=size, cycles=v.cycles, bin=bin })
|
|
end
|
|
end
|
|
cycles_def=4 xcross_def=0 local opabs={
|
|
adc=op(0x6d), ['and']=op(0x2d), asl=op(0x0e,6), bit=op(0x2c), cmp=op(0xcd), cpx=op(0xec), cpy=op(0xcc), dec=op(0xce,6),
|
|
eor=op(0x4d), inc=op(0xee,6), jmp=op(0x4c,3), jsr=op(0x20,6), lda=op(0xad), ldx=op(0xae), ldy=op(0xac), lsr=op(0x4e,6),
|
|
ora=op(0x0d), rol=op(0x2e,6), ror=op(0x6e,6), sbc=op(0xed), sta=op(0x8d), stx=op(0x8e), sty=op(0x8c),
|
|
dcp=op(0xcf,6), isb=op(0xef,6), jam=op(0x72,0), lax=op(0xaf), nop=op(0x0c), rla=op(0x2f,6), rra=op(0x6f,6), sax=op(0x8f),
|
|
slo=op(0x0f,6), sre=op(0x4f,6),
|
|
} M.opabs = opabs
|
|
for k,v in pairs(opabs) do
|
|
M[k .. 'abs'] = function(late, early)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local size = function() late,early = size_op(late,early) return 3 end
|
|
local bin = function() local l65dbg=l65dbg
|
|
local x = op_eval_word(late,early)
|
|
return { v.opc, x&0xff, x>>8 }
|
|
end
|
|
table.insert(M.section_current.instructions, { size=size, cycles=v.cycles, bin=bin })
|
|
end
|
|
end
|
|
local opzab={} M.opabs = opabs
|
|
for k,_ in pairs(opzpg) do if opabs[k] then opzab[k]=true end end
|
|
for k,_ in pairs(opzab) do
|
|
M[k .. 'zab'] = function(late, early)
|
|
if type(late) ~= 'function' then
|
|
local x = (early or 0) + late
|
|
if x >= -128 and x <= 0xff then return M[k .. 'zpg'](late, early) end
|
|
if x >= -32768 and x <= 0xffff then return M[k .. 'abs'](late, early) end
|
|
error("value out of word range: " .. x)
|
|
end
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local abs = opabs[k]
|
|
local ins = { cycles=abs.cycles }
|
|
ins.size = function() local l65dbg=l65dbg
|
|
local r,x = M.pcall_za(op_eval, late, early)
|
|
if not r then return 3 end
|
|
size_ref(x)
|
|
x = word_normalize(x)
|
|
local zpg = opzpg[k]
|
|
if x <= 0xff and zpg then
|
|
ins.size = 2
|
|
ins.cycles = zpg.cycles
|
|
ins.bin = function() return { zpg.opc, x } end
|
|
return 2
|
|
end
|
|
ins.size = 3
|
|
ins.bin = function() return { abs.opc, x&0xff, x>>8 } end
|
|
return 3
|
|
end
|
|
ins.bin = function() local l65dbg=l65dbg
|
|
local x = word_normalize(op_eval(late, early))
|
|
-- since we assumed absolute on link phase, we must generate absolute in binary
|
|
if x <= 0xff and opzpg[k] then io.stderr:write("warning: forcing abs on zpg operand for opcode " .. k .. "\n") end
|
|
return { abs.opc, x&0xff, x>>8 }
|
|
end
|
|
table.insert(M.section_current.instructions, ins)
|
|
end
|
|
end
|
|
cycles_def=4 xcross_def=0 local opzpx={
|
|
adc=op(0x75), ['and']=op(0x35), asl=op(0x16,6), cmp=op(0xd5), dec=op(0xd6,6), eor=op(0x55), inc=op(0xf6,6), lda=op(0xb5),
|
|
ldy=op(0xb4), lsr=op(0x56,6), ora=op(0x15), rol=op(0x36,6), ror=op(0x76,6), sbc=op(0xf5), sta=op(0x95), sty=op(0x94),
|
|
dcp=op(0xd7,6), isb=op(0xf7,6), jam=op(0x32,0), nop=op(0x14), rla=op(0x37,6), rra=op(0x77,6), slo=op(0x17,6), sre=op(0x57,6),
|
|
} M.opzpx = opzpx
|
|
for k,v in pairs(opzpx) do
|
|
M[k .. 'zpx'] = function(late, early)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local size = function() late,early = size_op(late,early) return 2 end
|
|
local bin = function() local l65dbg=l65dbg return { v.opc, op_eval_byte(late,early) } end
|
|
table.insert(M.section_current.instructions, { size=size, cycles=v.cycles, bin=bin })
|
|
end
|
|
end
|
|
cycles_def=4 xcross_def=1 local opabx={
|
|
adc=op(0x7d), ['and']=op(0x3d), asl=op(0x1e,7,0), cmp=op(0xdd), dec=op(0xde,7,0), eor=op(0x5d), inc=op(0xfe,7,0), lda=op(0xbd),
|
|
ldy=op(0xbc), lsr=op(0x5e,7,0), ora=op(0x1d), rol=op(0x3e,7,0), ror=op(0x7e,7,0), sbc=op(0xfd), sta=op(0x9d,5,0),
|
|
dcp=op(0xdf,7,0), isb=op(0xff,7,0), jam=op(0x92,0,0), nop=op(0x1c), rla=op(0x3f,7,0), rra=op(0x7f,7,0), shy=op(0x9c,5,0), slo=op(0x1f,7,0),
|
|
sre=op(0x5f,7,0),
|
|
} M.opabx = opabx
|
|
for k,v in pairs(opabx) do
|
|
M[k .. 'abx'] = function(late, early)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local size = function() late,early = size_op(late,early) return 3 end
|
|
local bin = function() local l65dbg=l65dbg
|
|
local x = op_eval_word(late,early)
|
|
return { v.opc, x&0xff, x>>8 }
|
|
end
|
|
table.insert(M.section_current.instructions, { size=size, cycles=v.cycles, bin=bin })
|
|
end
|
|
end
|
|
local opzax={} M.opabx = opabx
|
|
for k,_ in pairs(opzpx) do if opabx[k] then opzax[k]=true end end
|
|
for k,_ in pairs(opzax) do
|
|
M[k .. 'zax'] = function(late, early)
|
|
if type(late) ~= 'function' then
|
|
local x = (early or 0) + late
|
|
if x >= -128 and x <= 0xff then return M[k .. 'zpx'](late, early) end
|
|
if x >= -32768 and x <= 0xffff then return M[k .. 'abx'](late, early) end
|
|
error("value out of word range: " .. x)
|
|
end
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local abx = opabx[k]
|
|
local ins = { cycles=abx.cycles }
|
|
ins.size = function() local l65dbg=l65dbg
|
|
local r,x = M.pcall_za(op_eval, late, early)
|
|
if not r then return 3 end
|
|
size_ref(x)
|
|
x = word_normalize(x)
|
|
local zpx = opzpx[k]
|
|
if x <= 0xff and zpx then
|
|
ins.size = 2
|
|
ins.cycles = zpx.cycles
|
|
ins.bin = function() return { zpx.opc, x } end
|
|
return 2
|
|
end
|
|
ins.size = 3
|
|
ins.bin = function() return { abx.opc, x&0xff, x>>8 } end
|
|
return 3
|
|
end
|
|
ins.bin = function() local l65dbg=l65dbg
|
|
local x = word_normalize(op_eval(late, early))
|
|
-- since we assumed absolute on link phase, we must generate absolute in binary
|
|
if x <= 0xff and opzpx[k] then io.stderr:write("warning: forcing abx on zpx operand for opcode " .. k .. "\n") end
|
|
return { abx.opc, x&0xff, x>>8 }
|
|
end
|
|
table.insert(M.section_current.instructions, ins)
|
|
end
|
|
end
|
|
cycles_def=4 xcross_def=0 local opzpy={
|
|
ldx=op(0xb6), stx=op(0x96),
|
|
jam=op(0x42,0), lax=op(0xb7), sax=op(0x97),
|
|
} M.opzpy = opzpy
|
|
for k,v in pairs(opzpy) do
|
|
M[k .. 'zpy'] = function(late, early)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local size = function() late,early = size_op(late,early) return 2 end
|
|
local bin = function() local l65dbg=l65dbg return { v.opc, op_eval_byte(late,early) } end
|
|
table.insert(M.section_current.instructions, { size=size, cycles=v.cycles, bin=bin })
|
|
end
|
|
end
|
|
cycles_def=4 xcross_def=1 local opaby={
|
|
adc=op(0x79), ['and']=op(0x39), cmp=op(0xd9), eor=op(0x59), lda=op(0xb9), ldx=op(0xbe), ora=op(0x19), sbc=op(0xf9),
|
|
sta=op(0x99,5,0),
|
|
dcp=op(0xdb,7,0), isb=op(0xfb,7,0), jam=op(0xb2,0,0), las=op(0xbb), lax=op(0xbf), rla=op(0x3b,7,0), rra=op(0x7b,7,0), sha=op(0x9f,5,0),
|
|
shs=op(0x9b,5,0), shx=op(0x9e,5,0), slo=op(0x1b,7,0), sre=op(0x5b,7,0),
|
|
} M.opaby = opaby
|
|
for k,v in pairs(opaby) do
|
|
M[k .. 'aby'] = function(late, early)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local size = function() late,early = size_op(late,early) return 3 end
|
|
local bin = function() local l65dbg=l65dbg
|
|
local x = op_eval_word(late,early)
|
|
return { v.opc, x&0xff, x>>8 }
|
|
end
|
|
table.insert(M.section_current.instructions, { size=size, cycles=v.cycles, bin=bin })
|
|
end
|
|
end
|
|
local opzay={} M.opaby = opaby
|
|
for k,_ in pairs(opzpy) do if opaby[k] then opzay[k]=true end end
|
|
for k,_ in pairs(opzay) do
|
|
M[k .. 'zay'] = function(late, early)
|
|
if type(late) ~= 'function' then
|
|
local x = (early or 0) + late
|
|
if x >= -128 and x <= 0xff then return M[k .. 'zpy'](late, early) end
|
|
if x >= -32768 and x <= 0xffff then return M[k .. 'aby'](late, early) end
|
|
error("value out of word range: " .. x)
|
|
end
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local aby = opaby[k]
|
|
local ins = { cycles=aby.cycles }
|
|
ins.size = function() local l65dbg=l65dbg
|
|
local r,x = M.pcall_za(op_eval, late, early)
|
|
if not r then return 3 end
|
|
size_ref(x)
|
|
x = word_normalize(x)
|
|
local zpy = opzpy[k]
|
|
if x <= 0xff and zpy then
|
|
ins.size = 2
|
|
ins.cycles = zpy.cycles
|
|
ins.bin = function() return { zpy.opc, x } end
|
|
return 2
|
|
end
|
|
ins.size = 3
|
|
ins.bin = function() return { aby.opc, x&0xff, x>>8 } end
|
|
return 3
|
|
end
|
|
ins.bin = function() local l65dbg=l65dbg
|
|
local x = word_normalize(op_eval(late, early))
|
|
-- since we assumed absolute on link phase, we must generate absolute in binary
|
|
if x <= 0xff and opzpy[k] then io.stderr:write("warning: forcing aby on zpy operand for opcode " .. k .. "\n") end
|
|
return { aby.opc, x&0xff, x>>8 }
|
|
end
|
|
table.insert(M.section_current.instructions, ins)
|
|
end
|
|
end
|
|
cycles_def=2 xcross_def=0 local oprel={
|
|
bcc=op(0x90), bcs=op(0xb0), beq=op(0xf0), bmi=op(0x30), bne=op(0xd0), bpl=op(0x10), bvc=op(0x50), bvs=op(0x70),
|
|
} M.oprel = oprel
|
|
for k,v in pairs(oprel) do
|
|
M[k .. 'rel'] = function(label)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local parent,offset = M.label_current
|
|
local section,rorg = M.section_current,M.location_current.rorg
|
|
local op = { cycles=2 }
|
|
op.size = function()
|
|
offset = section.size
|
|
label = size_dc(label)
|
|
return 2
|
|
end
|
|
op.bin = function() local l65dbg=l65dbg
|
|
local x,l = label,label
|
|
if type(x) == 'function' then x=x() end
|
|
if type(x) == 'string' then
|
|
if x:sub(1,1) == '_' then x=parent..x l=x end
|
|
x = symbols[x]
|
|
end
|
|
if type(x) ~= 'number' then error("unresolved branch target: " .. tostring(x)) end
|
|
x = x-2 - offset - rorg(section.org)
|
|
if x < -128 or x > 127 then error("branch target out of range for " .. l .. ": " .. x) end
|
|
return { v.opc, x&0xff }
|
|
end
|
|
table.insert(M.section_current.instructions, op)
|
|
end
|
|
end
|
|
cycles_def=5 xcross_def=0 local opind={
|
|
jmp=op(0x6c),
|
|
jam=op(0xd2,0),
|
|
} M.opind = opind
|
|
for k,v in pairs(opind) do
|
|
M[k .. 'ind'] = function(late, early)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local size = function() late,early = size_op(late,early) return 3 end
|
|
local bin = function() local l65dbg=l65dbg
|
|
local x = op_eval_word(late,early)
|
|
return { v.opc, x&0xff, x>>8 }
|
|
end
|
|
table.insert(M.section_current.instructions, { size=size, cycles=v.cycles, bin=bin })
|
|
end
|
|
end
|
|
cycles_def=6 xcross_def=0 local opinx={
|
|
adc=op(0x61), ['and']=op(0x21), cmp=op(0xc1), eor=op(0x41), lda=op(0xa1), ora=op(0x01), sbc=op(0xe1), sta=op(0x81),
|
|
dcp=op(0xc3,8), isb=op(0xe3,8), jam=op(0x52,0), lax=op(0xa3), rla=op(0x23,8), rra=op(0x63,8), sax=op(0x83), slo=op(0x03,8),
|
|
sre=op(0x43,8),
|
|
} M.opinx = opinx
|
|
for k,v in pairs(opinx) do
|
|
M[k .. 'inx'] = function(late, early)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local size = function() late,early = size_op(late,early) return 2 end
|
|
local bin = function() local l65dbg=l65dbg return { v.opc, op_eval_byte(late,early) } end
|
|
table.insert(M.section_current.instructions, { size=size, cycles=v.cycles, bin=bin })
|
|
end
|
|
end
|
|
cycles_def=5 xcross_def=1 local opiny={
|
|
adc=op(0x71), ['and']=op(0x31), cmp=op(0xd1), eor=op(0x51), lda=op(0xb1), ora=op(0x11), sbc=op(0xf1), sta=op(0x91,6),
|
|
dcp=op(0xd3,8), isb=op(0xf3,8), jam=op(0x62,0,0), lax=op(0xb3), rla=op(0x33,8), rra=op(0x73,8), sha=op(0x93,6), slo=op(0x13,8),
|
|
sre=op(0x53,8),
|
|
}
|
|
for k,v in pairs(opiny) do
|
|
M[k .. 'iny'] = function(late, early)
|
|
local l65dbg = { info=debug.getinfo(2, 'Sl'), trace=debug.traceback(nil, 1) }
|
|
local size = function() late,early = size_op(late,early) return 2 end
|
|
local bin = function() local l65dbg=l65dbg return { v.opc, op_eval_byte(late,early) } end
|
|
table.insert(M.section_current.instructions, { size=size, cycles=v.cycles, bin=bin })
|
|
end
|
|
end
|
|
|
|
return M
|