dfhack/library/lua/utils.lua

677 lines
16 KiB
Lua

local _ENV = mkmodule('utils')
local df = df
-- Comparator function
function compare(a,b)
if a < b then
return -1
elseif a > b then
return 1
else
return 0
end
end
-- Sort strings; compare empty last
function compare_name(a,b)
if a == '' then
if b == '' then
return 0
else
return 1
end
elseif b == '' then
return -1
else
return compare(a,b)
end
end
-- Make a field comparator
function compare_field(field,cmp)
cmp = cmp or compare
if field then
return function (a,b)
return cmp(a[field],b[field])
end
else
return cmp
end
end
-- Make a comparator of field vs key
function compare_field_key(field,cmp)
cmp = cmp or compare
if field then
return function (a,b)
return cmp(a[field],b)
end
else
return cmp
end
end
function is_container(obj)
return df.isvalid(obj) == 'ref' and obj._kind == 'container'
end
-- Make a sequence of numbers in 1..size
function make_index_sequence(istart,iend)
local index = {}
for i=istart,iend do
index[i-istart+1] = i
end
return index
end
--[[
Sort items in data according to ordering.
Each ordering spec is a table with possible fields:
* key = function(value)
Computes comparison key from a data value. Not called on nil.
* key_table = function(data)
Computes a key table from the data table in one go.
* compare = function(a,b)
Comparison function. Defaults to compare above.
Called on non-nil keys; nil sorts last.
* nil_first
If true, nil keys are sorted first instead of last.
* reverse
If true, sort non-nil keys in descending order.
Returns a table of integer indices into data.
--]]
function make_sort_order(data,ordering)
-- Compute sort keys and comparators
local keys = {}
local cmps = {}
local size = data.n or #data
for i=1,#ordering do
local order = ordering[i]
if order.key_table then
keys[i] = order.key_table(data)
elseif order.key then
local kt = {}
local kf = order.key
for j=1,size do
if data[j] == nil then
kt[j] = nil
else
kt[j] = kf(data[j])
end
end
keys[i] = kt
else
keys[i] = data
end
cmps[i] = order.compare or compare
end
-- Make an order table
local index = make_index_sequence(1,size)
-- Sort the ordering table
table.sort(index, function(ia,ib)
for i=1,#keys do
local ka = keys[i][ia]
local kb = keys[i][ib]
-- Sort nil keys to the end
if ka == nil then
if kb ~= nil then
return ordering[i].nil_first
end
elseif kb == nil then
return not ordering[i].nil_first
else
local cmpv = cmps[i](ka,kb)
if ordering[i].reverse then
cmpv = -cmpv
end
if cmpv < 0 then
return true
elseif cmpv > 0 then
return false
end
end
end
return ia < ib -- this should ensure stable sort
end)
return index
end
--[[
Iterate a 'list' structure, e.g. df.global.world.job_list
--]]
local function next_df_list(s,link)
link = link.next
if link then
return link, link.item
end
end
function listpairs(list)
return next_df_list, nil, list
end
--[[
Recursively assign data into a table.
--]]
function assign(tgt,src)
if df.isvalid(tgt) == 'ref' then
df.assign(tgt, src)
elseif type(tgt) == 'table' then
for k,v in pairs(src) do
if type(v) == 'table' then
local cv = tgt[k]
if cv == nil then
cv = {}
tgt[k] = cv
end
assign(cv, v)
else
tgt[k] = v
end
end
else
error('Invalid assign target type: '..tostring(tgt))
end
return tgt
end
local function copy_field(obj,k,v,deep)
if v == nil then
return NULL
end
if deep then
local field = obj:_field(k)
if field == v then
return clone(v,deep)
end
end
return v
end
-- Copy the object as lua data structures.
function clone(obj,deep)
if type(obj) == 'table' then
if deep then
return assign({},obj)
else
return copyall(obj)
end
elseif df.isvalid(obj) == 'ref' then
local kind = obj._kind
if kind == 'primitive' then
return obj.value
elseif kind == 'bitfield' then
local rv = {}
for k,v in pairs(obj) do
rv[k] = v
end
return rv
elseif kind == 'container' then
local rv = {}
for k,v in ipairs(obj) do
rv[k+1] = copy_field(obj,k,v,deep)
end
return rv
else -- struct
local rv = {}
for k,v in pairs(obj) do
rv[k] = copy_field(obj,k,v,deep)
end
return rv
end
else
return obj
end
end
local function get_default(default,key,base)
if type(default) == 'table' then
local dv = default[key]
if dv == nil then
dv = default._default
end
if dv == nil then
dv = base
end
return dv
else
return default
end
end
-- Copy the object as lua data structures, skipping values matching defaults.
function clone_with_default(obj,default,force)
local rv = nil
local function setrv(k,v)
if v ~= nil then
if rv == nil then
rv = {}
end
rv[k] = v
end
end
if default == nil then
return nil
elseif type(obj) == 'table' then
for k,v in pairs(obj) do
setrv(k, clone_with_default(v, get_default(default,k)))
end
elseif df.isvalid(obj) == 'ref' then
local kind = obj._kind
if kind == 'primitive' then
return clone_with_default(obj.value,default,force)
elseif kind == 'bitfield' then
for k,v in pairs(obj) do
setrv(k, clone_with_default(v, get_default(default,k,false)))
end
elseif kind == 'container' then
for k,v in ipairs(obj) do
setrv(k+1, clone_with_default(v, default, true))
end
else -- struct
for k,v in pairs(obj) do
setrv(k, clone_with_default(v, get_default(default,k)))
end
end
elseif obj == default and not force then
return nil
elseif obj == nil then
return NULL
else
return obj
end
if force and rv == nil then
rv = {}
end
return rv
end
-- Parse an integer value into a bitfield table
function parse_bitfield_int(value, type_ref)
if value == 0 then
return nil
end
local res = {}
for i,v in ipairs(type_ref) do
if bit32.extract(value, i) ~= 0 then
res[v] = true
end
end
return res
end
-- List the enabled flag names in the bitfield table
function list_bitfield_flags(bitfield, list)
list = list or {}
if bitfield then
for name,val in pairs(bitfield) do
if val then
table.insert(list, name)
end
end
end
return list
end
-- Sort a vector or lua table
function sort_vector(vector,field,cmp)
local fcmp = compare_field(field,cmp)
local scmp = function(a,b)
return fcmp(a,b) < 0
end
if df.isvalid(vector) then
if vector._kind ~= 'container' then
error('Container expected: '..tostring(vector))
end
local items = clone(vector, true)
table.sort(items, scmp)
vector:assign(items)
else
table.sort(vector, scmp)
end
return vector
end
-- Linear search
function linear_index(vector,key,field)
local min,max
if df.isvalid(vector) then
min,max = 0,#vector-1
else
min,max = 1,#vector
end
if field then
for i=min,max do
local obj = vector[i]
if obj[field] == key then
return i, obj
end
end
else
for i=min,max do
local obj = vector[i]
if obj == key then
return i, obj
end
end
end
return nil
end
-- Binary search in a vector or lua table
function binsearch(vector,key,field,cmp,min,max)
if not(min and max) then
if df.isvalid(vector) then
min = -1
max = #vector
else
min = 0
max = #vector+1
end
end
local mf = math.floor
local fcmp = compare_field_key(field,cmp)
while true do
local mid = mf((min+max)/2)
if mid <= min then
return nil, false, max
end
local item = vector[mid]
local cv = fcmp(item, key)
if cv == 0 then
return item, true, mid
elseif cv < 0 then
min = mid
else
max = mid
end
end
end
-- Binary search and insert
function insert_sorted(vector,item,field,cmp)
local key = item
if field and item then
key = item[field]
end
local cur,found,pos = binsearch(vector,key,field,cmp)
if found then
return false,cur,pos
else
if df.isvalid(vector) then
vector:insert(pos, item)
else
table.insert(vector, pos, item)
end
return true,vector[pos],pos
end
end
-- Binary search, then insert or overwrite
function insert_or_update(vector,item,field,cmp)
local added,cur,pos = insert_sorted(vector,item,field,cmp)
if not added then
vector[pos] = item
cur = vector[pos]
end
return added,cur,pos
end
-- Binary search and erase
function erase_sorted_key(vector,key,field,cmp)
local cur,found,pos = binsearch(vector,key,field,cmp)
if found then
if df.isvalid(vector) then
vector:erase(pos)
else
table.remove(vector, pos)
end
end
return found,cur,pos
end
function erase_sorted(vector,item,field,cmp)
local key = item
if field and item then
key = item[field]
end
return erase_sorted_key(vector,key,field,cmp)
end
-- Calls a method with a string temporary
function call_with_string(obj,methodname,...)
return dfhack.with_temp_object(
df.new "string",
function(str,obj,methodname,...)
obj[methodname](obj,str,...)
return str.value
end,
obj,methodname,...
)
end
function getBuildingName(building)
return call_with_string(building, 'getName')
end
function getBuildingCenter(building)
return xyz2pos(building.centerx, building.centery, building.z)
end
function getItemDescription(item,mode)
return call_with_string(item, 'getItemDescription', mode or 0)
end
function getItemDescriptionPrefix(item,mode)
return call_with_string(item, 'getItemDescriptionPrefix', mode or 0)
end
-- Split the string by the given delimiter
function split_string(self, delimiter)
local result = { }
local from = 1
local delim_from, delim_to = string.find( self, delimiter, from )
while delim_from do
table.insert( result, string.sub( self, from , delim_from-1 ) )
from = delim_to + 1
delim_from, delim_to = string.find( self, delimiter, from )
end
table.insert( result, string.sub( self, from ) )
return result
end
-- Ask a yes-no question
function prompt_yes_no(msg,default)
local prompt = msg
if default == nil then
prompt = prompt..' (y/n): '
elseif default then
prompt = prompt..' (y/n)[y]: '
else
prompt = prompt..' (y/n)[n]: '
end
while true do
local rv,err = dfhack.lineedit(prompt)
if not rv then
qerror(err);
elseif string.match(rv,'^[Yy]') then
return true
elseif string.match(rv,'^[Nn]') then
return false
elseif rv == 'abort' then
qerror('User abort')
elseif rv == '' and default ~= nil then
return default
end
end
end
-- Ask for input with check function
function prompt_input(prompt,check,quit_str)
quit_str = quit_str or '~~~'
while true do
local rv,err = dfhack.lineedit(prompt)
if not rv then
qerror(err);
end
if rv == quit_str then
qerror('User abort')
end
local rtbl = table.pack(check(rv))
if rtbl[1] then
return table.unpack(rtbl,2,rtbl.n)
end
end
end
function check_number(text)
local nv = tonumber(text)
return nv ~= nil, nv
end
-- Normalize directory separator slashes across platforms to '/' and collapse
-- adjacent slashes into a single slash.
local platformSlash = package.config:sub(1,1)
function normalizePath(path)
return path:gsub(platformSlash, '/'):gsub('/+', '/')
end
function invert(tab)
local result = {}
for k,v in pairs(tab) do
result[v]=k
end
return result
end
-- processArgs() and processArgsGetopt() have been moved to argparse.lua.
-- The 'require' statements are within the functions to avoid adding hard
-- dependencies to utils.lua (which could lead to circular dependency issues).
function processArgs(args, validArgs)
return require('argparse').processArgs(args, validArgs)
end
function processArgsGetopt(args, optionActions)
return require('argparse').processArgsGetopt(args, optionActions)
end
function fillTable(table1,table2)
for k,v in pairs(table2) do
table1[k] = v
end
end
function unfillTable(table1,table2)
for k,v in pairs(table2) do
table1[k] = nil
end
end
function df_shortcut_var(k)
if k == 'scr' or k == 'screen' then
return dfhack.gui.getCurViewscreen()
elseif k == 'bld' or k == 'building' then
return dfhack.gui.getSelectedBuilding()
elseif k == 'item' then
return dfhack.gui.getSelectedItem()
elseif k == 'job' then
return dfhack.gui.getSelectedJob()
elseif k == 'wsjob' or k == 'workshop_job' then
return dfhack.gui.getSelectedWorkshopJob()
elseif k == 'unit' then
return dfhack.gui.getSelectedUnit()
elseif k == 'plant' then
return dfhack.gui.getSelectedPlant()
else
for g in pairs(df.global) do
if g == k then
return df.global[k]
end
end
return _G[k]
end
end
function df_shortcut_env()
local env = {}
setmetatable(env, {__index = function(self, k) return df_shortcut_var(k) end})
return env
end
df_env = df_shortcut_env()
function df_expr_to_ref(expr)
expr = expr:gsub('%["(.-)"%]', function(field) return '.' .. field end)
:gsub('%[\'(.-)\'%]', function(field) return '.' .. field end)
:gsub('%[(%d+)]', function(field) return '.' .. field end)
local parts = split_string(expr, '%.')
local obj = df_env[parts[1]]
for i = 2, #parts do
local key = tonumber(parts[i]) or parts[i]
local cur = obj[key]
if i == #parts and ((type(cur) ~= 'userdata') or
type(cur) == 'userdata' and getmetatable(cur) == nil) then
obj = obj:_field(key)
else
obj = obj[key]
end
end
return obj
end
function addressof(obj)
return select(2, df.sizeof(obj))
end
function OrderedTable()
-- store values in a separate table to ensure that __index and __newindex
-- run on every table index operation
local t = {}
local key_to_index = {}
local index_to_key = {}
local mt = {}
function mt:__index(k)
return t[k]
end
function mt:__newindex(k, v)
if not key_to_index[k] then
table.insert(index_to_key, k)
key_to_index[k] = #index_to_key
end
t[k] = v
end
function mt:__pairs()
return function(_, k)
if k then
k = index_to_key[key_to_index[k] + 1]
else
k = index_to_key[1]
end
if k then
return k, t[k]
end
end, nil, nil
end
local self = {}
setmetatable(self, mt)
return self
end
return _ENV