module things, jfc

This commit is contained in:
Poojawa
2018-09-11 07:51:01 -05:00
parent 8b9ef1e400
commit 284e9d0325
695 changed files with 11343 additions and 5661 deletions
+243 -246
View File
@@ -1,66 +1,65 @@
///////////////////////////////////////////////////////////////
//SS13 Optimized Map loader
//////////////////////////////////////////////////////////////
#define SPACE_KEY "space"
//global datum that will preload variables on atoms instanciation
GLOBAL_VAR_INIT(use_preloader, FALSE)
GLOBAL_DATUM_INIT(_preloader, /dmm_suite/preloader, new)
/datum/grid_set
var/xcrd
var/ycrd
var/zcrd
var/gridLines
/dmm_suite
// /"([a-zA-Z]+)" = \(((?:.|\n)*?)\)\n(?!\t)|\((\d+),(\d+),(\d+)\) = \{"([a-zA-Z\n]*)"\}/g
var/static/regex/dmmRegex = new/regex({""(\[a-zA-Z]+)" = \\(((?:.|\n)*?)\\)\n(?!\t)|\\((\\d+),(\\d+),(\\d+)\\) = \\{"(\[a-zA-Z\n]*)"\\}"}, "g")
// /^[\s\n]+"?|"?[\s\n]+$|^"|"$/g
var/static/regex/trimQuotesRegex = new/regex({"^\[\\s\n]+"?|"?\[\\s\n]+$|^"|"$"}, "g")
// /^[\s\n]+|[\s\n]+$/
var/static/regex/trimRegex = new/regex("^\[\\s\n]+|\[\\s\n]+$", "g")
var/static/list/modelCache = list()
var/static/space_key
#ifdef TESTING
var/static/turfsSkipped
#endif
/**
* Construct the model map and control the loading process
*
* WORKING :
*
* 1) Makes an associative mapping of model_keys with model
* e.g aa = /turf/unsimulated/wall{icon_state = "rock"}
* 2) Read the map line by line, parsing the result (using parse_grid)
*
*/
/dmm_suite/load_map(dmm_file as file, x_offset as num, y_offset as num, z_offset as num, cropMap as num, measureOnly as num, no_changeturf as num, lower_crop_x as num, lower_crop_y as num, upper_crop_x as num, upper_crop_y as num, placeOnTop as num)
//How I wish for RAII
Master.StartLoadingMap()
space_key = null
#ifdef TESTING
turfsSkipped = 0
#endif
. = load_map_impl(dmm_file, x_offset, y_offset, z_offset, cropMap, measureOnly, no_changeturf, lower_crop_x, upper_crop_x, lower_crop_y, upper_crop_y, placeOnTop)
#ifdef TESTING
if(turfsSkipped)
testing("Skipped loading [turfsSkipped] default turfs")
#endif
Master.StopLoadingMap()
/dmm_suite/proc/load_map_impl(dmm_file, x_offset, y_offset, z_offset, cropMap, measureOnly, no_changeturf, x_lower = -INFINITY, x_upper = INFINITY, y_lower = -INFINITY, y_upper = INFINITY, placeOnTop = FALSE)
var/tfile = dmm_file//the map file we're creating
if(isfile(tfile))
tfile = file2text(tfile)
if(!x_offset)
x_offset = 1
if(!y_offset)
y_offset = 1
if(!z_offset)
z_offset = world.maxz + 1
var/list/bounds = list(1.#INF, 1.#INF, 1.#INF, -1.#INF, -1.#INF, -1.#INF)
var/list/grid_models = list()
/datum/parsed_map
var/original_path
var/key_len = 0
var/list/grid_models = list()
var/list/gridSets = list()
var/list/modelCache
/// Unoffset bounds. Null on parse failure.
var/list/parsed_bounds
/// Offset bounds. Same as parsed_bounds until load().
var/list/bounds
// raw strings used to represent regexes more accurately
// '' used to avoid confusing syntax highlighting
var/static/regex/dmmRegex = new(@'"([a-zA-Z]+)" = \(((?:.|\n)*?)\)\n(?!\t)|\((\d+),(\d+),(\d+)\) = \{"([a-zA-Z\n]*)"\}', "g")
var/static/regex/trimQuotesRegex = new(@'^[\s\n]+"?|"?[\s\n]+$|^"|"$', "g")
var/static/regex/trimRegex = new(@'^[\s\n]+|[\s\n]+$', "g")
#ifdef TESTING
var/turfsSkipped = 0
#endif
/// Shortcut function to parse a map and apply it to the world.
///
/// - `dmm_file`: A .dmm file to load (Required).
/// - `x_offset`, `y_offset`, `z_offset`: Positions representign where to load the map (Optional).
/// - `cropMap`: When true, the map will be cropped to fit the existing world dimensions (Optional).
/// - `measureOnly`: When true, no changes will be made to the world (Optional).
/// - `no_changeturf`: When true, [turf/AfterChange] won't be called on loaded turfs
/// - `x_lower`, `x_upper`, `y_lower`, `y_upper`: Coordinates (relative to the map) to crop to (Optional).
/// - `placeOnTop`: Whether to use [turf/PlaceOnTop] rather than [turf/ChangeTurf] (Optional).
/proc/load_map(dmm_file as file, x_offset as num, y_offset as num, z_offset as num, cropMap as num, measureOnly as num, no_changeturf as num, x_lower = -INFINITY as num, x_upper = INFINITY as num, y_lower = -INFINITY as num, y_upper = INFINITY as num, placeOnTop = FALSE as num)
var/datum/parsed_map/parsed = new(dmm_file, x_lower, x_upper, y_lower, y_upper, measureOnly)
if(parsed.bounds && !measureOnly)
parsed.load(x_offset, y_offset, z_offset, cropMap, no_changeturf, x_lower, x_upper, y_lower, y_upper, placeOnTop)
return parsed
/// Parse a map, possibly cropping it.
/datum/parsed_map/New(tfile, x_lower = -INFINITY, x_upper = INFINITY, y_lower = -INFINITY, y_upper=INFINITY, measureOnly=FALSE)
if(isfile(tfile))
original_path = "[tfile]"
tfile = file2text(tfile)
else if(isnull(tfile))
// create a new datum without loading a map
return
bounds = parsed_bounds = list(1.#INF, 1.#INF, 1.#INF, -1.#INF, -1.#INF, -1.#INF)
var/stored_index = 1
//multiz lool
while(dmmRegex.Find(tfile, stored_index))
stored_index = dmmRegex.next
@@ -73,41 +72,33 @@ GLOBAL_DATUM_INIT(_preloader, /dmm_suite/preloader, new)
if(!key_len)
key_len = length(key)
else
throw EXCEPTION("Inconsistent key length in DMM")
CRASH("Inconsistent key length in DMM")
if(!measureOnly)
grid_models[key] = dmmRegex.group[2]
// (1,1,1) = {"aaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"}
else if(dmmRegex.group[3]) // Coords
if(!key_len)
throw EXCEPTION("Coords before model definition in DMM")
CRASH("Coords before model definition in DMM")
var/curr_x = text2num(dmmRegex.group[3])
if(curr_x < x_lower || curr_x > x_upper)
continue
var/xcrdStart = curr_x + x_offset - 1
var/datum/grid_set/gridSet = new
gridSet.xcrd = curr_x
//position of the currently processed square
var/xcrd
var/ycrd = text2num(dmmRegex.group[4]) + y_offset - 1
var/zcrd = text2num(dmmRegex.group[5]) + z_offset - 1
gridSet.ycrd = text2num(dmmRegex.group[4])
gridSet.zcrd = text2num(dmmRegex.group[5])
var/zexpansion = zcrd > world.maxz
if(zexpansion && !measureOnly)
if(cropMap)
continue
else
while (zcrd > world.maxz) //create a new z_level if needed
world.incrementMaxZ()
if(!no_changeturf)
WARNING("Z-level expansion occurred without no_changeturf set, this may cause problems when /turf/AfterChange is called")
bounds[MAP_MINX] = min(bounds[MAP_MINX], CLAMP(xcrdStart, x_lower, x_upper))
bounds[MAP_MINZ] = min(bounds[MAP_MINZ], zcrd)
bounds[MAP_MAXZ] = max(bounds[MAP_MAXZ], zcrd)
bounds[MAP_MINX] = min(bounds[MAP_MINX], CLAMP(gridSet.xcrd, x_lower, x_upper))
bounds[MAP_MINZ] = min(bounds[MAP_MINZ], gridSet.zcrd)
bounds[MAP_MAXZ] = max(bounds[MAP_MAXZ], gridSet.zcrd)
var/list/gridLines = splittext(dmmRegex.group[6], "\n")
gridSet.gridLines = gridLines
var/leadingBlanks = 0
while(leadingBlanks < gridLines.len && gridLines[++leadingBlanks] == "")
@@ -117,125 +108,144 @@ GLOBAL_DATUM_INIT(_preloader, /dmm_suite/preloader, new)
if(!gridLines.len) // Skip it if only blank lines exist.
continue
gridSets += gridSet
if(gridLines.len && gridLines[gridLines.len] == "")
gridLines.Cut(gridLines.len) // Remove only one blank line at the end.
bounds[MAP_MINY] = min(bounds[MAP_MINY], CLAMP(ycrd, y_lower, y_upper))
ycrd += gridLines.len - 1 // Start at the top and work down
bounds[MAP_MINY] = min(bounds[MAP_MINY], CLAMP(gridSet.ycrd, y_lower, y_upper))
gridSet.ycrd += gridLines.len - 1 // Start at the top and work down
bounds[MAP_MAXY] = max(bounds[MAP_MAXY], CLAMP(gridSet.ycrd, y_lower, y_upper))
if(!cropMap && ycrd > world.maxy)
if(!measureOnly)
world.maxy = ycrd // Expand Y here. X is expanded in the loop below
bounds[MAP_MAXY] = max(bounds[MAP_MAXY], CLAMP(ycrd, y_lower, y_upper))
var/maxx = gridSet.xcrd
if(gridLines.len) //Not an empty map
maxx = max(maxx, gridSet.xcrd + length(gridLines[1]) / key_len - 1)
bounds[MAP_MAXX] = CLAMP(max(bounds[MAP_MAXX], maxx), x_lower, x_upper)
CHECK_TICK
// Indicate failure to parse any coordinates by nulling bounds
if(bounds[1] == 1.#INF)
bounds = null
parsed_bounds = bounds
/// Load the parsed map into the world. See [/proc/load_map] for arguments.
/datum/parsed_map/proc/load(x_offset, y_offset, z_offset, cropMap, no_changeturf, x_lower, x_upper, y_lower, y_upper, placeOnTop)
//How I wish for RAII
Master.StartLoadingMap()
. = _load_impl(x_offset, y_offset, z_offset, cropMap, no_changeturf, x_lower, x_upper, y_lower, y_upper, placeOnTop)
Master.StopLoadingMap()
// Do not call except via load() above.
/datum/parsed_map/proc/_load_impl(x_offset = 1, y_offset = 1, z_offset = world.maxz + 1, cropMap = FALSE, no_changeturf = FALSE, x_lower = -INFINITY, x_upper = INFINITY, y_lower = -INFINITY, y_upper = INFINITY, placeOnTop = FALSE)
var/list/areaCache = list()
var/list/modelCache = build_cache(no_changeturf)
var/space_key = modelCache[SPACE_KEY]
var/list/bounds
src.bounds = bounds = list(1.#INF, 1.#INF, 1.#INF, -1.#INF, -1.#INF, -1.#INF)
for(var/I in gridSets)
var/datum/grid_set/gset = I
var/ycrd = gset.ycrd + y_offset - 1
var/zcrd = gset.zcrd + z_offset - 1
if(!cropMap && ycrd > world.maxy)
world.maxy = ycrd // Expand Y here. X is expanded in the loop below
var/zexpansion = zcrd > world.maxz
if(zexpansion)
if(cropMap)
continue
else
bounds[MAP_MAXY] = max(bounds[MAP_MAXY], CLAMP(min(ycrd, world.maxy), y_lower, y_upper))
while (zcrd > world.maxz) //create a new z_level if needed
world.incrementMaxZ()
if(!no_changeturf)
WARNING("Z-level expansion occurred without no_changeturf set, this may cause problems when /turf/AfterChange is called")
var/maxx = xcrdStart
if(measureOnly)
for(var/line in gridLines)
maxx = max(maxx, xcrdStart + length(line) / key_len - 1)
else
for(var/line in gridLines)
if((ycrd - y_offset + 1) < y_lower || (ycrd - y_offset + 1) > y_upper) //Reverse operation and check if it is out of bounds of cropping.
--ycrd
continue
if(ycrd <= world.maxy && ycrd >= 1)
xcrd = xcrdStart
for(var/tpos = 1 to length(line) - key_len + 1 step key_len)
if((xcrd - x_offset + 1) < x_lower || (xcrd - x_offset + 1) > x_upper) //Same as above.
++xcrd
continue //X cropping.
if(xcrd > world.maxx)
if(cropMap)
break
else
world.maxx = xcrd
for(var/line in gset.gridLines)
if((ycrd - y_offset + 1) < y_lower || (ycrd - y_offset + 1) > y_upper) //Reverse operation and check if it is out of bounds of cropping.
--ycrd
continue
if(ycrd <= world.maxy && ycrd >= 1)
var/xcrd = gset.xcrd + x_offset - 1
for(var/tpos = 1 to length(line) - key_len + 1 step key_len)
if((xcrd - x_offset + 1) < x_lower || (xcrd - x_offset + 1) > x_upper) //Same as above.
++xcrd
continue //X cropping.
if(xcrd > world.maxx)
if(cropMap)
break
else
world.maxx = xcrd
if(xcrd >= 1)
var/model_key = copytext(line, tpos, tpos + key_len)
var/no_afterchange = no_changeturf || zexpansion
if(!no_afterchange || (model_key != space_key))
if(!grid_models[model_key])
throw EXCEPTION("Undefined model key in DMM.")
parse_grid(grid_models[model_key], model_key, xcrd, ycrd, zcrd, no_changeturf || zexpansion, placeOnTop)
#ifdef TESTING
else
++turfsSkipped
#endif
CHECK_TICK
maxx = max(maxx, xcrd)
++xcrd
--ycrd
if(xcrd >= 1)
var/model_key = copytext(line, tpos, tpos + key_len)
var/no_afterchange = no_changeturf || zexpansion
if(!no_afterchange || (model_key != space_key))
var/list/cache = modelCache[model_key]
if(!cache)
CRASH("Undefined model key in DMM: [model_key]")
build_coordinate(areaCache, cache, locate(xcrd, ycrd, zcrd), no_afterchange, placeOnTop)
bounds[MAP_MAXX] = CLAMP(max(bounds[MAP_MAXX], cropMap ? min(maxx, world.maxx) : maxx), x_lower, x_upper)
// only bother with bounds that actually exist
bounds[MAP_MINX] = min(bounds[MAP_MINX], xcrd)
bounds[MAP_MINY] = min(bounds[MAP_MINY], ycrd)
bounds[MAP_MINZ] = min(bounds[MAP_MINZ], zcrd)
bounds[MAP_MAXX] = max(bounds[MAP_MAXX], xcrd)
bounds[MAP_MAXY] = max(bounds[MAP_MAXY], ycrd)
bounds[MAP_MAXZ] = max(bounds[MAP_MAXZ], zcrd)
#ifdef TESTING
else
++turfsSkipped
#endif
CHECK_TICK
++xcrd
--ycrd
CHECK_TICK
if(bounds[1] == 1.#INF) // Shouldn't need to check every item
return null
else
if(!measureOnly)
if(!no_changeturf)
for(var/t in block(locate(bounds[MAP_MINX], bounds[MAP_MINY], bounds[MAP_MINZ]), locate(bounds[MAP_MAXX], bounds[MAP_MAXY], bounds[MAP_MAXZ])))
var/turf/T = t
//we do this after we load everything in. if we don't; we'll have weird atmos bugs regarding atmos adjacent turfs
T.AfterChange(CHANGETURF_IGNORE_AIR)
return bounds
if(!no_changeturf)
for(var/t in block(locate(bounds[MAP_MINX], bounds[MAP_MINY], bounds[MAP_MINZ]), locate(bounds[MAP_MAXX], bounds[MAP_MAXY], bounds[MAP_MAXZ])))
var/turf/T = t
//we do this after we load everything in. if we don't; we'll have weird atmos bugs regarding atmos adjacent turfs
T.AfterChange(CHANGETURF_IGNORE_AIR)
/**
* Fill a given tile with its area/turf/objects/mobs
* Variable model is one full map line (e.g /turf/unsimulated/wall{icon_state = "rock"}, /area/mine/explored)
*
* WORKING :
*
* 1) Read the model string, member by member (delimiter is ',')
*
* 2) Get the path of the atom and store it into a list
*
* 3) a) Check if the member has variables (text within '{' and '}')
*
* 3) b) Construct an associative list with found variables, if any (the atom index in members is the same as its variables in members_attributes)
*
* 4) Instanciates the atom with its variables
*
*/
/dmm_suite/proc/parse_grid(model as text, model_key as text, xcrd as num,ycrd as num,zcrd as num, no_changeturf as num, placeOnTop as num)
/*Method parse_grid()
- Accepts a text string containing a comma separated list of type paths of the
same construction as those contained in a .dmm file, and instantiates them.
*/
#ifdef TESTING
if(turfsSkipped)
testing("Skipped loading [turfsSkipped] default turfs")
#endif
var/list/members //will contain all members (paths) in model (in our example : /turf/unsimulated/wall and /area/mine/explored)
var/list/members_attributes //will contain lists filled with corresponding variables, if any (in our example : list(icon_state = "rock") and list())
var/list/cached = modelCache[model]
var/index
return TRUE
if(cached)
members = cached[1]
members_attributes = cached[2]
else
/datum/parsed_map/proc/build_cache(no_changeturf, bad_paths=null)
if(modelCache && !bad_paths)
return modelCache
. = modelCache = list()
var/list/grid_models = src.grid_models
for(var/model_key in grid_models)
var/model = grid_models[model_key]
var/list/members = list() //will contain all members (paths) in model (in our example : /turf/unsimulated/wall and /area/mine/explored)
var/list/members_attributes = list() //will contain lists filled with corresponding variables, if any (in our example : list(icon_state = "rock") and list())
/////////////////////////////////////////////////////////
//Constructing members and corresponding variables lists
////////////////////////////////////////////////////////
members = list()
members_attributes = list()
index = 1
var/index = 1
var/old_position = 1
var/dpos
do
while(dpos != 0)
//finding next member (e.g /turf/unsimulated/wall{icon_state = "rock"} or /area/mine/explored)
dpos = find_next_delimiter_position(model, old_position, ",", "{", "}") //find next delimiter (comma here) that's not within {...}
var/full_def = trim_text(copytext(model, old_position, dpos)) //full definition, e.g : /obj/foo/bar{variables=derp}
var/variables_start = findtext(full_def, "{")
var/atom_def = text2path(trim_text(copytext(full_def, 1, variables_start))) //path definition, e.g /obj/foo/bar
var/path_text = trim_text(copytext(full_def, 1, variables_start))
var/atom_def = text2path(path_text) //path definition, e.g /obj/foo/bar
old_position = dpos + 1
if(!atom_def) // Skip the item if the path does not exist. Fix your crap, mappers!
if(!ispath(atom_def, /atom)) // Skip the item if the path does not exist. Fix your crap, mappers!
if(bad_paths)
LAZYOR(bad_paths[path_text], model_key)
continue
members.Add(atom_def)
@@ -258,7 +268,6 @@ GLOBAL_DATUM_INIT(_preloader, /dmm_suite/preloader, new)
members_attributes[index++] = fields
CHECK_TICK
while(dpos != 0)
//check and see if we can just skip this turf
//So you don't have to understand this horrid statement, we can do this if
@@ -269,33 +278,42 @@ GLOBAL_DATUM_INIT(_preloader, /dmm_suite/preloader, new)
// 5. and the members are world.turf and world.area
// Basically, if we find an entry like this: "XXX" = (/turf/default, /area/default)
// We can skip calling this proc every time we see XXX
if(no_changeturf && !space_key && members.len == 2 && members_attributes.len == 2 && length(members_attributes[1]) == 0 && length(members_attributes[2]) == 0 && (world.area in members) && (world.turf in members))
space_key = model_key
return
if(no_changeturf \
&& !(.[SPACE_KEY]) \
&& members.len == 2 \
&& members_attributes.len == 2 \
&& length(members_attributes[1]) == 0 \
&& length(members_attributes[2]) == 0 \
&& (world.area in members) \
&& (world.turf in members))
.[SPACE_KEY] = model_key
continue
modelCache[model] = list(members, members_attributes)
.[model_key] = list(members, members_attributes)
/datum/parsed_map/proc/build_coordinate(list/areaCache, list/model, turf/crds, no_changeturf as num, placeOnTop as num)
var/index
var/list/members = model[1]
var/list/members_attributes = model[2]
////////////////
//Instanciation
////////////////
//The next part of the code assumes there's ALWAYS an /area AND a /turf on a given tile
var/turf/crds = locate(xcrd,ycrd,zcrd)
//first instance the /area and remove it from the members list
index = members.len
if(members[index] != /area/template_noop)
var/atom/instance
GLOB._preloader.setup(members_attributes[index])//preloader for assigning set variables on atom creation
var/atype = members[index]
for(var/area/A in world)
if(A.type == atype)
instance = A
break
if(!instance)
instance = new atype(null)
var/atom/instance = areaCache[atype]
if (!instance)
instance = GLOB.areas_by_type[atype]
if (!instance)
instance = new atype(null)
areaCache[atype] = instance
if(crds)
instance.contents.Add(crds)
@@ -335,7 +353,7 @@ GLOBAL_DATUM_INIT(_preloader, /dmm_suite/preloader, new)
////////////////
//Instance an atom at (x,y,z) and gives it the variables in attributes
/dmm_suite/proc/instance_atom(path,list/attributes, turf/crds, no_changeturf, placeOnTop)
/datum/parsed_map/proc/instance_atom(path,list/attributes, turf/crds, no_changeturf, placeOnTop)
GLOB._preloader.setup(attributes, path)
if(crds)
@@ -358,13 +376,13 @@ GLOBAL_DATUM_INIT(_preloader, /dmm_suite/preloader, new)
stoplag()
SSatoms.map_loader_begin()
/dmm_suite/proc/create_atom(path, crds)
/datum/parsed_map/proc/create_atom(path, crds)
set waitfor = FALSE
. = new path (crds)
//text trimming (both directions) helper proc
//optionally removes quotes before and after the text (for variable name)
/dmm_suite/proc/trim_text(what as text,trim_quotes=0)
/datum/parsed_map/proc/trim_text(what as text,trim_quotes=0)
if(trim_quotes)
return trimQuotesRegex.Replace(what, "")
else
@@ -373,7 +391,7 @@ GLOBAL_DATUM_INIT(_preloader, /dmm_suite/preloader, new)
//find the position of the next delimiter,skipping whatever is comprised between opening_escape and closing_escape
//returns 0 if reached the last delimiter
/dmm_suite/proc/find_next_delimiter_position(text as text,initial_position as num, delimiter=",",opening_escape="\"",closing_escape="\"")
/datum/parsed_map/proc/find_next_delimiter_position(text as text,initial_position as num, delimiter=",",opening_escape="\"",closing_escape="\"")
var/position = initial_position
var/next_delimiter = findtext(text,delimiter,position,0)
var/next_opening = findtext(text,opening_escape,position,0)
@@ -388,90 +406,69 @@ GLOBAL_DATUM_INIT(_preloader, /dmm_suite/preloader, new)
//build a list from variables in text form (e.g {var1="derp"; var2; var3=7} => list(var1="derp", var2, var3=7))
//return the filled list
/dmm_suite/proc/readlist(text as text, delimiter=",")
var/list/to_return = list()
/datum/parsed_map/proc/readlist(text as text, delimiter=",")
. = list()
if (!text)
return
var/position
var/old_position = 1
do
//find next delimiter that is not within "..."
while(position != 0)
// find next delimiter that is not within "..."
position = find_next_delimiter_position(text,old_position,delimiter)
//check if this is a simple variable (as in list(var1, var2)) or an associative one (as in list(var1="foo",var2=7))
// check if this is a simple variable (as in list(var1, var2)) or an associative one (as in list(var1="foo",var2=7))
var/equal_position = findtext(text,"=",old_position, position)
var/trim_left = trim_text(copytext(text,old_position,(equal_position ? equal_position : position)),1)//the name of the variable, must trim quotes to build a BYOND compliant associatives list
var/trim_left = trim_text(copytext(text,old_position,(equal_position ? equal_position : position)))
var/left_constant = delimiter == ";" ? trim_left : parse_constant(trim_left)
old_position = position + 1
if(equal_position)//associative var, so do the association
var/trim_right = trim_text(copytext(text,equal_position+1,position))//the content of the variable
if(equal_position && !isnum(left_constant))
// Associative var, so do the association.
// Note that numbers cannot be keys - the RHS is dropped if so.
var/trim_right = trim_text(copytext(text,equal_position+1,position))
var/right_constant = parse_constant(trim_right)
.[left_constant] = right_constant
//Check for string
if(findtext(trim_right,"\"",1,2))
trim_right = copytext(trim_right,2,findtext(trim_right,"\"",3,0))
else // simple var
. += list(left_constant)
//Check for number
else if(isnum(text2num(trim_right)))
trim_right = text2num(trim_right)
/datum/parsed_map/proc/parse_constant(text)
// number
var/num = text2num(text)
if(isnum(num))
return num
//Check for null
else if(trim_right == "null")
trim_right = null
// string
if(findtext(text,"\"",1,2))
return copytext(text,2,findtext(text,"\"",3,0))
//Check for list
else if(copytext(trim_right,1,5) == "list")
trim_right = readlist(copytext(trim_right,6,length(trim_right)))
// list
if(copytext(text,1,6) == "list(")
return readlist(copytext(text,6,length(text)))
//Check for file
else if(copytext(trim_right,1,2) == "'")
trim_right = file(copytext(trim_right,2,length(trim_right)))
// typepath
var/path = text2path(text)
if(ispath(path))
return path
//Check for path
else if(ispath(text2path(trim_right)))
trim_right = text2path(trim_right)
// file
if(copytext(text,1,2) == "'")
return file(copytext(text,2,length(text)))
to_return[trim_left] = trim_right
// null
if(text == "null")
return null
else//simple var
to_return[trim_left] = null
// not parsed:
// - pops: /obj{name="foo"}
// - new(), newlist(), icon(), matrix(), sound()
while(position != 0)
// fallback: string
return text
return to_return
/dmm_suite/Destroy()
/datum/parsed_map/Destroy()
..()
return QDEL_HINT_HARDDEL_NOW
//////////////////
//Preloader datum
//////////////////
/dmm_suite/preloader
parent_type = /datum
var/list/attributes
var/target_path
/dmm_suite/preloader/proc/setup(list/the_attributes, path)
if(the_attributes.len)
GLOB.use_preloader = TRUE
attributes = the_attributes
target_path = path
/dmm_suite/preloader/proc/load(atom/what)
for(var/attribute in attributes)
var/value = attributes[attribute]
if(islist(value))
value = deepCopyList(value)
what.vars[attribute] = value
GLOB.use_preloader = FALSE
/area/template_noop
name = "Area Passthrough"
/turf/template_noop
name = "Turf Passthrough"
icon_state = "noop"
bullet_bounce_sound = null