raze-gles/polymer/eduke32/source/lunatic/defs_common.lua

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-- This file contains LuaJIT definitions of stuff that's common to the game and
-- editor. The 'decl' function is expected to be defined in the global
-- environment.
-- See the file "BUILDLIC.TXT" distributed with EDuke32 for license info.
-- Will be 'true' if running from engine Lua state:
local _LUNATIC_AUX = _LUNATIC_AUX
local ffi = require("ffi")
local ffiC = ffi.C
local bit = require("bit")
local bor = bit.bor
local pcall = pcall
ffi.cdef "const char **g_argv;"
-- Lunatic debugging options (-Lopts=<opt1>,<opt2>,... from the command line):
-- diag: print diagnostic information
-- nojit: disable JIT compilation
-- traces: load LuaJIT's 'v' module, printing trace info
-- (env var: LUAJIT_VERBOSEFILE)
-- dump: load LuaJIT's 'dump' module, printing generated IR/machine code
-- (env var: LUAJIT_DUMPFILE)
-- profile: load LuaJIT's 'jit.p' module for profiling (LuaJIT 2.1 only)
-- (env var: LUAJIT_PROFILEFILE)
-- strict: catch various conditions that may indicate an logical error
-- TODO for strict: actor[], spriteext[], per-actor gamevars
local debug_flags = {}
local IS_DEBUG_FLAG = {
diag=true, nojit=true, traces=true, dump=true,
strict=true, profile=true,
}
-- Handle command-line argument. (Look for -Lopts=...)
local function handle_cmdline_arg(str)
local opts = str:match("^-Lopts=(.*)")
if (opts ~= nil) then
for opt in opts:gmatch("[^,]+") do
if (IS_DEBUG_FLAG[opt]) then
debug_flags[opt] = true
end
end
end
end
local i=0
while (ffiC.g_argv[i] ~= nil) do
handle_cmdline_arg(ffi.string(ffiC.g_argv[i]))
i = i+1
end
-- Print diagnostic information?
ffi.cdef("enum { _DEBUG_LUNATIC="..(debug_flags.diag and 1 or 0).." }")
-- Be strict?
ffi.cdef("enum { _LUNATIC_STRICT="..(debug_flags.strict and 1 or 0).." }")
if (debug_flags.nojit) then
require("jit").off()
end
if (not _LUNATIC_AUX) then
if (debug_flags.dump) then
require("dump").on("+rs")
elseif (debug_flags.traces) then
require("v").on()
end
if (debug_flags.profile) then
if (pcall(function() require("jit.p").start() end) == false) then
print("Warning: failed enabing profiler. Running LuaJIT 2.0 build?")
end
end
end
local math = require("math")
local string = require("string")
local table = require("table")
local assert = assert
local error = error
local pairs = pairs
local require = require
local setmetatable = setmetatable
local tostring = tostring
local type = type
local decl = assert(decl)
local getfenv = getfenv
decl "void OSD_Printf(const char *fmt, ...);"
print = function(str)
-- our "print" doesn't use the global "tostring", but the initial one
str = tostring(str)
if (type(str) ~= "string") then
error("invalid argument to print: must be convertible to a string")
end
ffiC.OSD_Printf("%s\n", str)
end
local print=print
module(...)
local band = bit.band
local bor = bit.bor
local bnot = bit.bnot
local lshift = bit.lshift
local rshift = bit.rshift
local xor = bit.bxor
--== bitint type factory ==--
-- Metatable for an integer type that is treated as bitfield. The integer
-- itself must be named '_v'.
local bitint_mt = {
__index = {
set = function(self, bits)
self._v = bor(self._v, bits)
end,
clear = function(self, bits)
self._v = band(self._v, bnot(bits))
end,
flip = function(self, bits)
self._v = xor(self._v, bits)
end,
test = function(self, bits)
return (band(self._v, bits) ~= 0)
end,
mask = function(self, bits)
return band(self._v, bits)
end,
},
__metatable = true,
}
local bitint_to_base_type = {}
function bitint_new_struct_type(basetypename, newtypename)
assert(bitint_to_base_type[newtypename] == nil)
assert(type(basetypename)=="string")
assert(type(newtypename)=="string")
local bitint_struct_t = ffi.typeof("struct { $ _v; }", ffi.typeof(basetypename))
ffi.metatype(bitint_struct_t, bitint_mt)
ffi.cdef("typedef $ $;", bitint_struct_t, newtypename)
bitint_to_base_type[newtypename] = basetypename
end
function bitint_member(bitint_struct_typename, membname)
return string.format("union { %s %s; %s %sbits; };",
bitint_to_base_type[bitint_struct_typename], membname,
bitint_struct_typename, membname)
end
bitint_new_struct_type("uint8_t", "UBit8")
bitint_new_struct_type("uint16_t", "UBit16")
--== Core engine structs ==--
local CF_MEMBERS = [[
const int16_t ~picnum;
int16_t ~heinum;
const int16_t ~bunch;
]]..bitint_member("UBit16", "~stat")..[[
int32_t ~z;
int8_t ~shade;
uint8_t ~pal, ~xpanning, ~ypanning;
]]
ffi.cdef("typedef struct { "..CF_MEMBERS:gsub("~","").." } ceiling_or_floor_t;")
local SECTOR_STRUCT = [[
struct {
const int16_t wallptr, wallnum;
]]..
string.format([[
union {
struct { ceiling_or_floor_t ceiling, floor; };
struct { %s %s };
};
]], CF_MEMBERS:gsub("~","ceiling"), CF_MEMBERS:gsub("~","floor"))
..[[
uint8_t visibility, filler;
int16_t lotag, hitag; // NOTE: signed for Lunatic
int16_t extra;
}]]
local SPRITE_STRUCT = [[
struct {
// TODO: transparent union with vec3_t pos?
int32_t x, y, z;
]]..bitint_member("UBit16", "cstat")..[[
const int16_t picnum;
int8_t shade;
uint8_t pal, clipdist, filler;
uint8_t xrepeat, yrepeat;
int8_t xoffset, yoffset;
const int16_t sectnum, statnum;
int16_t ang;
const int16_t owner;
int16_t xvel;
// NOTE: yvel is often used as player index in game code.
const int16_t yvel;
int16_t zvel;
int16_t lotag, hitag, extra;
}]]
local WALL_STRUCT = [[
struct {
int32_t x, y;
const int16_t point2, nextwall, nextsector;
const int16_t upwall, dnwall;
]]..bitint_member("UBit16", "cstat")..[[
const int16_t picnum, overpicnum;
int8_t shade;
uint8_t pal, xrepeat, yrepeat, xpanning, ypanning;
int16_t lotag, hitag, extra;
}]]
-- Converts a template struct definition to an internal, unrestricted one.
-- NOTE: "[^ ]*" for const decorations in defs.ilua.
function strip_const(structstr)
return (string.gsub(structstr, "const[^ ]* ", ""));
end
local function maybe_strip_const(str)
return _LUNATIC_AUX and strip_const(str) or str
end
-- NOTE for FFI definitions: we're compiling EDuke32 with -funsigned-char, so
-- we need to take care to declare chars as unsigned whenever it matters, for
-- example if it represents a palette index. (I think it's harmless for stuff
-- like passing a function argument, but it should be done there for clarity.)
-- TODO: provide getters for unsigned {hi,lo}tag?
ffi.cdef([[
typedef $ sectortype;
typedef $ walltype;
// NOTE: spritetype and tspritetype are different types with the same data members.
typedef $ spritetype;
typedef struct { spritetype; } tspritetype;
typedef struct {
int32_t x, y, z;
} vec3_t;
typedef struct {
const uint32_t mdanimtims;
const int16_t mdanimcur;
int16_t angoff, pitch, roll;
vec3_t mdoff;
]]..bitint_member("UBit8", "flags")..[[
uint8_t xpanning, ypanning;
const uint8_t filler;
float alpha;
// NOTE: const aggregate fixed with LuaJIT git fe9934feea0a8d580de1
// ("FFI: Fix handling of qualified transparent structs/unions.")
const union {
intptr_t _tspr;
struct { int32_t _dummy0, _dummy1; };
};
} spriteext_t;
typedef struct {
vec3_t pos;
int16_t sprite, wall, sector;
} hitdata_t;
]],
ffi.typeof(maybe_strip_const(SECTOR_STRUCT)),
ffi.typeof(maybe_strip_const(WALL_STRUCT)),
ffi.typeof(maybe_strip_const(SPRITE_STRUCT)))
if (not _LUNATIC_AUX) then
-- Define the "palette_t" type, which for us has .{r,g,b} fields and a
-- bound-checking array of length 3 overlaid.
local rgbarray_t = require("bcarray").new("uint8_t", 3, "RGB array", "palette_t",
{ "r", "g", "b", "f" })
ffi.cdef("typedef union { \
struct { uint8_t r, g, b, f; }; \
$ col; \
} palette_t", rgbarray_t)
assert(ffi.alignof("palette_t")==1)
end
local vec3_ct = ffi.typeof("vec3_t") -- will be metatype'd in xmath.lua:
if (not _LUNATIC_AUX) then
require("xmath")
end
-- TODO: 'isceiling' and 'isfloor' methods or similar?
local hitdata_ct = ffi.typeof("hitdata_t")
decl[[
const int32_t engine_main_arrays_are_static;
const int32_t engine_v8;
]]
--== Engine data and functions ==--
-- NOTE TO SELF: This is not C, never EVER write
-- if (x)
-- when checking a C variable x for 'thuthiness'
if (ffiC.engine_main_arrays_are_static ~= 0) then
decl[[
sectortype sector[];
walltype wall[];
spritetype sprite[];
tspritetype tsprite[];
spriteext_t spriteext[];
]]
else
decl[[
sectortype *sector;
walltype *wall;
spritetype *sprite;
tspritetype *tsprite;
spriteext_t *spriteext;
]]
end
if (ffiC.engine_v8 == 0) then
-- V7
ffi.cdef[[
enum
{
MAXSECTORS = 1024,
MAXWALLS = 8192,
MAXSPRITES = 4096,
}
]]
else
-- V8
ffi.cdef[[
enum
{
MAXSECTORS = 4096,
MAXWALLS = 16384,
MAXSPRITES = 16384,
}
]]
end
ffi.cdef[[
enum {
MAXSTATUS = 1024,
MAXTILES = 30720,
MAXSPRITESONSCREEN = 4096,
MAXBUNCHES = 512,
CEILING = 0,
FLOOR = 1,
CLIPMASK0 = (1<<16)+1, // blocking
CLIPMASK1 = (256<<16)+64, // hittable
};
]]
ffi.cdef(maybe_strip_const("const int16_t numsectors, numwalls;"))
ffi.cdef[[
const int32_t numyaxbunches; // XXX
const int32_t totalclock;
int32_t randomseed; // DEPRECATED
const int32_t xdim, ydim;
const int32_t windowx1, windowy1, windowx2, windowy2;
]]
decl[[
int32_t kopen4load(const char *filename, char searchfirst);
int32_t kfilelength(int32_t handle);
void kclose(int32_t handle);
int32_t kread(int32_t handle, void *buffer, int32_t leng);
int32_t klseek(int32_t handle, int32_t offset, int32_t whence);
int32_t sectorofwall_noquick(int16_t theline);
]]
-- Reads the whole file given by the k* file descriptor into a Lua string.
-- Always closes the file descriptor.
function readintostr(fd, kopen4load_func)
-- XXX: this is pretty much the same as the code in L_RunOnce()
local sz = ffiC.kfilelength(fd)
if (sz == 0) then
ffiC.kclose(fd)
return ""
end
if (sz < 0) then
ffi.kclose(fd)
error("INTERNAL ERROR: kfilelength() returned negative length")
end
local str = ffi.new("char [?]", sz)
local readlen = ffiC.kread(fd, str, sz)
ffiC.kclose(fd); fd=-1
if (readlen ~= sz) then
error("INTERNAL ERROR: couldn't read file wholly")
end
return ffi.string(str, sz)
end
if (_LUNATIC_AUX) then
-- XXX: The global doesn't show up in 'engine_maptext'.
-- I guess I still haven't fully grokked globals in Lua.
string.readintostr = readintostr
require "engine_maptext"
return
end
ffi.cdef "const int32_t rendmode;"
decl[[
int32_t yxaspect;
int32_t viewingrange;
int32_t spritesortcnt;
int32_t guniqhudid;
const int16_t headspritesect[MAXSECTORS+1], headspritestat[MAXSTATUS+1];
const int16_t prevspritesect[MAXSPRITES], prevspritestat[MAXSPRITES];
const int16_t nextspritesect[MAXSPRITES], nextspritestat[MAXSPRITES];
const int16_t tilesizx[MAXTILES], tilesizy[MAXTILES];
uint8_t show2dsector[(MAXSECTORS+7)>>3];
const int16_t headsectbunch[2][MAXBUNCHES], nextsectbunch[2][MAXSECTORS];
int16_t yax_getbunch(int16_t i, int16_t cf);
int32_t getceilzofslopeptr(const sectortype *sec, int32_t dax, int32_t day);
int32_t getflorzofslopeptr(const sectortype *sec, int32_t dax, int32_t day);
void getzsofslopeptr(const sectortype *sec, int32_t dax, int32_t day,
int32_t *ceilz, int32_t *florz);
int32_t spriteheightofsptr(const spritetype *spr, int32_t *height, int32_t alsotileyofs);
int32_t changespritesect(int16_t spritenum, int16_t newsectnum);
int32_t changespritestat(int16_t spritenum, int16_t newstatnum);
int32_t hitscan(const vec3_t *sv, int16_t sectnum, int32_t vx, int32_t vy, int32_t vz,
hitdata_t *hitinfo, uint32_t cliptype);
int32_t cansee(int32_t x1, int32_t y1, int32_t z1, int16_t sect1,
int32_t x2, int32_t y2, int32_t z2, int16_t sect2);
void neartag(int32_t xs, int32_t ys, int32_t zs, int16_t sectnum, int16_t ange, int16_t *neartagsector, int16_t *neartagwall,
int16_t *neartagsprite, int32_t *neartaghitdist, int32_t neartagrange, uint8_t tagsearch,
int32_t (*blacklist_sprite_func)(int32_t));
void dragpoint(int16_t pointhighlight, int32_t dax, int32_t day, uint8_t flags);
void getzrange(const vec3_t *pos, int16_t sectnum,
int32_t *ceilz, int32_t *ceilhit, int32_t *florz, int32_t *florhit,
int32_t walldist, uint32_t cliptype);
int32_t clipmovex(vec3_t *pos, int16_t *sectnum, int32_t xvect, int32_t yvect,
int32_t walldist, int32_t ceildist, int32_t flordist, uint32_t cliptype,
uint8_t noslidep);
int32_t ldist(const spritetype *s1, const spritetype *s2);
int32_t dist(const spritetype *s1, const spritetype *s2);
int32_t inside(int32_t x, int32_t y, int16_t sectnum);
void updatesector(int32_t x, int32_t y, int16_t *sectnum);
void updatesectorbreadth(int32_t x, int32_t y, int16_t *sectnum);
void updatesectorz(int32_t x, int32_t y, int32_t z, int16_t *sectnum);
void rotatesprite_(int32_t sx, int32_t sy, int32_t z, int16_t a, int16_t picnum,
int8_t dashade, unsigned char dapalnum, int32_t dastat, uint8_t alpha,
int32_t cx1, int32_t cy1, int32_t cx2, int32_t cy2);
void setaspect(int32_t daxrange, int32_t daaspect);
]]
-- misc. functions
ffi.cdef[[
uint32_t getticks(void);
double gethiticks(void);
int32_t krand(void);
int32_t ksqrt(uint32_t num);
int32_t __fastcall getangle(int32_t xvect, int32_t yvect);
int32_t Mulscale(int32_t a, int32_t b, int32_t sh);
]]
local bcheck = require("bcheck")
local check_sector_idx = bcheck.sector_idx
local check_wall_idx = bcheck.wall_idx
local check_sprite_idx = bcheck.sprite_idx
local check_tile_idx = bcheck.tile_idx
local wallsofsec -- fwd-decl
local sectortype_ptr_ct = ffi.typeof("$ *", ffi.typeof(strip_const(SECTOR_STRUCT)))
local function get_sector_idx(sec)
local i = ffi.cast(sectortype_ptr_ct, sec)-ffi.cast(sectortype_ptr_ct, ffiC.sector)
-- assert(i >= 0 and i < ffiC.numsectors)
return i
end
local zret = ffi.new("int32_t [4]")
local zret_t = ffi.typeof[[const struct {
struct {
bool spritep;
int32_t num; // number of sector or sprite
int32_t z;
} c, f;
}]]
local sectortype_mt = {
__index = {
--- Setters
set_ceilingpicnum = function(s, picnum)
check_tile_idx(picnum)
ffi.cast(sectortype_ptr_ct, s).ceilingpicnum = picnum
end,
set_floorpicnum = function(s, picnum)
check_tile_idx(picnum)
ffi.cast(sectortype_ptr_ct, s).floorpicnum = picnum
end,
--- Other methods
ceilingzat = function(s, pos)
return ffiC.getceilzofslopeptr(s, pos.x, pos.y)
end,
floorzat = function(s, pos)
return ffiC.getflorzofslopeptr(s, pos.x, pos.y)
end,
-- getzrange() interface
zrangeat = function(s, pos, walldist, cliptype)
local sectnum = get_sector_idx(s)
local ipos = vec3_ct(pos.x, pos.y, pos.z)
walldist = walldist or 128
cliptype = cliptype or ffiC.CLIPMASK0
ffiC.getzrange(ipos, sectnum, zret+0, zret+1, zret+2, zret+3,
walldist, cliptype)
local ceilz, ceilhit, florz, florhit = zret[0], zret[1], zret[2], zret[3]
return zret_t({ ceilhit>=49152, bit.band(ceilhit,16383), ceilz },
{ florhit>=49152, bit.band(florhit,16383), florz })
end,
-- inside() port, OUTOFSYNC with engine.c
contains = function(s, pos)
local x, y = pos.x, pos.y
local cnt = 0
for w in wallsofsec(s) do
local wal2 = ffiC.wall[ffiC.wall[w].point2]
local y1, y2 = ffiC.wall[w].y-y, wal2.y-y
if (xor(y1, y2) < 0) then
local x1, x2 = ffiC.wall[w].x-x, wal2.x-x
if (xor(x1, x2)>=0) then
cnt = xor(cnt, x1)
else
cnt = xor(cnt, xor(x1*y2-x2*y1, y2))
end
end
end
return (cnt < 0)
end,
}
}
ffi.metatype("sectortype", sectortype_mt)
local walltype_ptr_ct = ffi.typeof("$ *", ffi.typeof(strip_const(WALL_STRUCT)))
local walltype_mt = {
__index = {
--- Setters
set_picnum = function(w, picnum)
check_tile_idx(picnum)
ffi.cast(walltype_ptr_ct, w).picnum = picnum
end,
set_overpicnum = function(w, picnum)
check_tile_idx(picnum)
ffi.cast(walltype_ptr_ct, w).overpicnum = picnum
end,
_set_nextwall = function(w, nextwall)
-- NOTE: Allow setting a wall to white too, but no checking of the
-- consistency invariant ".nextwall>=0 iff .nextsector>=0".
if (not (nextwall < 0)) then
check_wall_idx(nextwall)
end
ffi.cast(walltype_ptr_ct, w).nextwall = nextwall
end,
_set_nextsector = function(w, nextsector)
if (not (nextsector < 0)) then
check_sector_idx(nextsector)
end
ffi.cast(walltype_ptr_ct, w).nextsector = nextsector
end,
--- Predicates
isblocking = function(w)
return (band(w.cstat, 1)~=0)
end,
ismasked = function(w)
return (band(w.cstat, 16)~=0)
end,
isoneway = function(w)
return (band(w.cstat, 32)~=0)
end,
ishittable = function(w)
return (band(w.cstat, 64)~=0)
end,
-- Indexing a wall with 'z' gets 0, so that you can e.g. use a wall as
-- RHS to vec3_t addition.
z = 0,
}
}
ffi.metatype("walltype", walltype_mt)
local spriteext_mt = {
__index = {
-- Enable EVENT_ANIMATESPRITES for this sprite.
-- XXX: unused?
make_animated = function(sx)
sx.flags = bor(sx.flags, 16)
end,
},
}
ffi.metatype("spriteext_t", spriteext_mt)
local spritetype_ptr_ct = ffi.typeof("$ *", ffi.typeof(strip_const(SPRITE_STRUCT)))
-- NOTE: this is the *protected* tspritetype pointer.
local tspritetype_ptr_ct = ffi.typeof("$ *", ffi.typeof("tspritetype"))
local intarg = ffi.new("int32_t[1]")
local spritetype_mt = {
__pow = function(s, zofs)
return vec3_ct(s.x, s.y, s.z-zofs)
end,
__index = {
--- Setters
set_picnum = function(s, tilenum)
check_tile_idx(tilenum)
ffi.cast(spritetype_ptr_ct, s).picnum = tilenum
end,
_set_yvel = function(s, yvel)
-- XXX: no protection against malicious use (might set picnum to
-- another one temporarily)
-- XXX: this belongs into game-side Lunatic
if (s.picnum==1405) then -- APLAYER
error("setting yvel on an APLAYER sprite forbidden", 2)
end
ffi.cast(spritetype_ptr_ct, s).yvel = yvel
end,
_set_owner = function(s, owner)
-- XXX: AMC TC sets owner to -1 in the cutscene.
check_sprite_idx(owner)
ffi.cast(spritetype_ptr_ct, s).owner = owner
end,
--- Custom methods ---
getheightofs = function(s)
-- XXX: better reimplement in Lua?
local zofs = ffiC.spriteheightofsptr(s, intarg, 0)
return intarg[0], zofs
end,
},
}
local function deep_copy(tab)
local ntab = {}
for key, val in pairs(tab) do
if (type(val)=="table") then
ntab[key] = deep_copy(val)
else
assert(type(val)=="function")
ntab[key] = val
end
end
return ntab
end
local tspritetype_mt = deep_copy(spritetype_mt)
-- Get the sprite index of a sprite reference.
-- This is relatively slow if the code doesn't get compiled, see related
-- discussion here:
-- http://www.freelists.org/post/luajit/FFI-versus-Lua-C-API-in-purely-interpreted-mode
local function get_sprite_idx(spr)
local i = ffi.cast(spritetype_ptr_ct, spr)-ffi.cast(spritetype_ptr_ct, ffiC.sprite)
-- assert(i >= 0 and i < ffiC.MAXSPRITES)
return i
end
---=== Methods that are specific to sprites ===---
local l_updatesector -- fwd-decl
local l_changesect -- fwd-decl
-- The 'setpos' method is available for sprite and tsprite objects.
-- spr:setpos(pos [, newsect]),
-- where <newsect> is taken to mean "set the sprite's sector number to <newsect>";
-- don't run update/search routines or anything like this.
function spritetype_mt.__index.setpos(spr, pos, newsect)
spr.x, spr.y, spr.z = pos.x, pos.y, pos.z
if (newsect ~= nil) then
spr:changesect(newsect)
end
return spr
end
-- spr:changesect(newsect)
-- changes the sector number of <spr> in an 'unforgiving' fashion (<newsect> of
-- -1 is error)
function spritetype_mt.__index.changesect(spr, newsect)
if (newsect ~= spr.sectnum) then
l_changesect(get_sprite_idx(spr), newsect)
end
end
-- spr:updatesect(flags)
-- updates <spr>'s sectnum; if no matching sector is found, no-op
-- returns the updated sector number
function spritetype_mt.__index.updatesect(spr, flags)
local newsect = l_updatesector(spr, spr.sectnum, flags)
if (newsect ~= -1) then
spr:changesect(newsect)
end
return newsect
end
---=== Methods that are specific to tsprites ===---
-- This ought to be called 'set_sectnum', but 'changesect' is for consistency
-- with the sprite method.
function tspritetype_mt.__index.changesect(tspr, sectnum)
if (tspr.sectnum ~= sectnum) then
check_sector_idx(sectnum)
ffi.cast(spritetype_ptr_ct, tspr).sectnum = sectnum
end
end
function tspritetype_mt.__index.setpos(tspr, pos, newsect)
tspr.x, tspr.y, tspr.z = pos.x, pos.y, pos.z
if (newsect ~= nil) then
tspr:changesect(newsect)
end
return tspr
end
function tspritetype_mt.__index.updatesect(tspr, flags)
local newsect = l_updatesector(tspr, tspr.sectnum, flags)
if (newsect ~= -1 and newsect ~= tspr.sectnum) then
tspr:changesect(newsect)
end
return newsect
end
function tspritetype_mt.__index.dup(tspr)
if (ffiC.spritesortcnt >= ffiC.MAXSPRITESONSCREEN+0ULL) then
return nil
end
local newtspr = ffiC.tsprite[ffiC.spritesortcnt]
ffi.copy(newtspr, tspr, ffi.sizeof(tspr))
ffiC.spritesortcnt = ffiC.spritesortcnt+1
return newtspr
end
function tspritetype_mt.__index.getspr(tspr)
check_sprite_idx(tspr.owner)
return ffiC.sprite[tspr.owner]
end
---======---
-- The user of this module can insert additional "spritetype" index
-- methods and register them with "ffi.metatype".
function finish_spritetype(mt_index)
for name, func in pairs(mt_index) do
spritetype_mt.__index[name] = func
tspritetype_mt.__index[name] = func
end
ffi.metatype("spritetype", spritetype_mt)
ffi.metatype("tspritetype", tspritetype_mt)
end
---=== Restricted access to C variables from Lunatic ===---
-- set metatable and forbid setting it further
function setmtonce(tab, mt)
mt.__metatable = true
return setmetatable(tab, mt)
end
---- indirect C array access ----
-- create a safe indirection for an ffi.C array
function creategtab(ctab, maxidx, name)
local tab = {}
local tmpmt = {
__index = function(tab, key)
if (key>=0 and key < maxidx) then
return ctab[key]
end
error('out-of-bounds '..name..' read access', 2)
end,
__newindex = function()
error('cannot write directly to '..name, 2)
end,
}
return setmtonce(tab, tmpmt)
end
-- Construct const struct from table
function conststruct(tab)
local strtab = { "struct {" }
if (tab[1] ~= nil) then
-- e.g. { "KNEE", "PISTOL", ... } provided
for i=1,#tab do
strtab[#strtab+1] = "static const int "..tab[i].."="..(i-1)..";"
end
else
-- e.g. { KNEE=0, PISTOL=1, ... } provided
for member, val in pairs(tab) do
strtab[#strtab+1] = "static const int "..member.."="..val..";"
end
end
strtab[#strtab+1] = "}"
return ffi.new(table.concat(strtab))
end
-- Static, non-instance members. Used to hold constants, for example
-- sprite.CSTAT.TRANS1
local static_members = { sector={}, wall={}, sprite={} }
static_members.sector.STAT = conststruct
{
PARALLAX = 1,
SLOPE = 2,
SWAPXY = 4,
SMOOSH = 8,
FLIPX = 16,
FLIPY = 32,
RELATIVE = 64,
MASK = 128,
-- NOTE the reversed order
TRANS2 = 128,
TRANS1 = 256,
BLOCK = 512,
HITSCAN = 1024,
FLIP_BITMASK = 16+32,
ORIENT_BITMASK = 4+16+32,
TRANS_BITMASK = 128+256,
}
static_members.sector.NEARTAG_FLAGS = conststruct
{
LOTAG = 1,
HITAG = 2,
NOSPRITES = 4,
}
static_members.sector.UPDATE_FLAGS = conststruct
{
BREADTH = 1,
Z = 2,
}
static_members.wall.CSTAT = conststruct
{
BLOCK = 1,
BOTTOMSWAP = 2,
ALIGNBOTTOM = 4,
FLIPX = 8,
MASK = 16,
ONEWAY = 32,
HITSCAN = 64,
TRANS1 = 128,
FLIPY = 256,
TRANS2 = 512,
FLIP_BITMASK = 8+256,
TRANS_BITMASK = 128+512,
}
static_members.sprite.CSTAT = conststruct
{
BLOCK = 1,
TRANS1 = 2,
XFLIP = 4,
YFLIP = 8,
ALIGNWALL = 16,
ALIGNFLOOR = 32,
ONESIDE = 64,
CENTER = 128,
HITSCAN = 256,
TRANS2 = 512,
ALIGN_BITMASK = 16+32,
TRANS_BITMASK = 2+512,
}
local bitar = require("bitar")
-- XXX: bitar uses int32_t arrays, while show2dsector[] is a uint8_t
-- array. Potential unaligned access. Also, only works on little-endian
-- machines. This sucks.
static_members.sector.showbitmap = bitar.new(ffiC.MAXSECTORS-1, ffi.cast("int32_t *", ffiC.show2dsector))
local function iter_allsprites(_, curi)
for i=curi+1,ffiC.MAXSPRITES-1 do
if (ffiC.sprite[i].statnum ~= ffiC.MAXSTATUS) then
return i
end
end
end
function static_members.sprite.all()
return iter_allsprites, nil, -1
end
local sms = static_members.sprite
sms._headspritesect = creategtab(ffiC.headspritesect, ffiC.MAXSECTORS, 'headspritesect[]')
-- NOTE: don't allow freelist access
sms._headspritestat = creategtab(ffiC.headspritestat, ffiC.MAXSTATUS, 'headspritestat[]')
sms._nextspritesect = creategtab(ffiC.nextspritesect, ffiC.MAXSPRITES, 'nextspritesect[]')
sms._nextspritestat = creategtab(ffiC.nextspritestat, ffiC.MAXSPRITES, 'nextspritestat[]')
sms._prevspritesect = creategtab(ffiC.prevspritesect, ffiC.MAXSPRITES, 'prevspritesect[]')
sms._prevspritestat = creategtab(ffiC.prevspritestat, ffiC.MAXSPRITES, 'prevspritestat[]')
function static_members.wall.dragto(wallnum, pos)
check_wall_idx(wallnum)
-- TODO: some kind of validation of the position?
ffiC.dragpoint(wallnum, pos.x, pos.y, 0)
end
-- Functions changing the sector/status number of a sprite, without asking.
-- Changes sector number of sprite with index <spritenum> to <sectnum>,
-- unconditionally and "unforgiving" (oob <sectnum> gives error).
-- <noerr> is for CON compatibility and prevents error on *sprite not in the
-- game world* if true.
function static_members.sprite.changesect(spritenum, sectnum, noerr)
check_sprite_idx(spritenum)
check_sector_idx(sectnum)
if (ffiC.changespritesect(spritenum, sectnum)==-1 and not noerr) then
error("cannot change sector number of sprite not in the game world", 2)
end
end
l_changesect = static_members.sprite.changesect
function static_members.sprite.changestat(spritenum, statnum, noerr)
-- TODO: see gameexec.c's CON_CHANGESPRITESTAT.
check_sprite_idx(spritenum)
if (not (statnum >= 0 and statnum < ffiC.MAXSTATUS)) then
error("invalid status number "..statnum, 2)
end
if (ffiC.changespritestat(spritenum, statnum)==-1 and not noerr) then
error("cannot change status number of sprite not in the game world", 2)
end
end
-- Update a sprite's sector number from its current position and sector number.
function static_members.sprite.updatesect(spritenum, flags)
check_sprite_idx(spritenum)
local spr = ffiC.sprite[spritenum]
local newsect = l_updatesector(spr, spr.sectnum, flags)
if (newsect ~= -1 and newsect ~= spr.sectnum) then
l_changesect(spritenum, newsect)
end
return newsect
end
local strictp = debug_flags.strict
function GenStructMetatable(Structname, Boundname, StaticMembersTab)
StaticMembersTab = StaticMembersTab or static_members[Structname]
-- If we're running with the 'strict' option, disallow accesses to void
-- sprites.
local index_func = (strictp and Structname=="sprite") and
-- Mostly CODEDUP of lower function, ...
function(tab, key)
if (type(key)=="number") then
if (key >= 0 and key < ffiC[Boundname]) then
-- ... except this.
-- (Inlining into the other function did slow things down.)
if (ffiC.sprite[key].statnum == ffiC.MAXSTATUS) then
error("attempt to access void sprite with index "..key, 2)
end
return ffiC[Structname][key]
end
error("out-of-bounds "..Structname.."[] read access with index "..key, 2)
elseif (type(key)=="string") then
return StaticMembersTab[key]
end
end
or
function(tab, key)
if (type(key)=="number") then
if (key >= 0 and key < ffiC[Boundname]) then
return ffiC[Structname][key]
end
error("out-of-bounds "..Structname.."[] read access with index "..key, 2)
elseif (type(key)=="string") then
return StaticMembersTab[key]
end
end
return {
__index = index_func,
__newindex = function() error("cannot write directly to "..Structname.."[]", 2) end,
}
end
local sector_mt = GenStructMetatable("sector", "numsectors")
local wall_mt = GenStructMetatable("wall", "numwalls")
local sprite_mt = GenStructMetatable("sprite", "MAXSPRITES")
local atsprite_mt = {
__index = function(tab, idx)
check_sprite_idx(idx)
local tspr = ffi.cast(tspritetype_ptr_ct, ffiC.spriteext[idx]._tspr)
if (tspr == nil) then
error("tsprite of actor "..idx.." unavailable", 2)
end
-- Return a reference to a tsprite[] element.
return tspr[0]
end,
__newindex = function() error('cannot write directly to atsprite[]', 2) end,
}
local vars_to_ignore = {}
for varname,_ in pairs(getfenv(1)) do
if (ffiC._DEBUG_LUNATIC ~= 0) then
print("IGNORE "..varname)
end
vars_to_ignore[varname] = true
end
--== ALL GLOBALS FROM HERE ON ARE EXPORTED UPWARDS (see create_globals() below) ==--
sector = setmtonce({}, sector_mt)
local sector = sector
wall = setmtonce({}, wall_mt)
sprite = setmtonce({}, sprite_mt)
spriteext = creategtab(ffiC.spriteext, ffiC.MAXSPRITES, 'spriteext[]')
_atsprite = setmtonce({}, atsprite_mt)
local function iter_wallsofsec(endwall, w)
w = w+1
if (w < endwall) then
return w
end
end
wallsofsec = function(sec) -- local
return iter_wallsofsec, sec.wallptr+sec.wallnum, sec.wallptr-1
end
function wallsofsect(sect)
check_sector_idx(sect)
return iter_wallsofsec, sector[sect].wallptr+sector[sect].wallnum, sector[sect].wallptr-1
end
--== Per-sector/per-statnum sprite iterators ==--
local function iter_spritesofsect(sect, i)
if (i < 0) then
i = ffiC.headspritesect[sect]
else
i = ffiC.nextspritesect[i]
end
if (i >= 0) then return i end
end
-- sprites of sectnum iterator that allows deleting the iterated sprite
local function iter_spritesofsect_safe(tab, i)
if (i < 0) then
i = ffiC.headspritesect[-i]
else
i = tab[1]
end
if (i >= 0) then
tab[1] = ffiC.nextspritesect[i]
return i
end
end
function spritesofsect(sect, maydelete)
check_sector_idx(sect)
if (maydelete) then
return iter_spritesofsect_safe, { -1 }, -sect
else
return iter_spritesofsect, sect, -1
end
end
local function iter_spritesofstat(stat, i)
if (i < 0) then
i = ffiC.headspritestat[stat]
else
i = ffiC.nextspritestat[i]
end
if (i >= 0) then return i end
end
-- sprites of statnum iterator that allows deleting the iterated sprite
local function iter_spritesofstat_safe(tab, i)
if (i < 0) then
i = ffiC.headspritestat[-i]
else
i = tab[1]
end
if (i >= 0) then
tab[1] = ffiC.nextspritestat[i]
return i
end
end
function spritesofstat(stat, maydelete)
if (not (stat >= 0 and stat < ffiC.MAXSTATUS)) then
error("passed invalid statnum to spritesofstat iterator", 2)
end
if (maydelete) then
return iter_spritesofstat_safe, { -1 }, -stat
else
return iter_spritesofstat, stat, -1
end
end
--== TROR iterators ==--
local function iter_sectorsofbunch(cf, i)
if (i < 0) then
i = ffiC.headsectbunch[cf][-i-1];
else
i = ffiC.nextsectbunch[cf][i];
end
if (i >= 0) then return i end
end
function sectorsofbunch(bunchnum, cf)
if (not (bunchnum >= 0 and bunchnum < ffiC.numyaxbunches)) then
error("passed invalid bunchnum to sectorsofbunch iterator", 2)
end
if (not (cf == 0 or cf == 1)) then
error("passed invalid 'cf' to sectorsofbunch iterator, must be 0 or 1", 2)
end
return iter_sectorsofbunch, cf, -bunchnum-1
end
---=== Engine functions, wrapped for Lua convenience ===---
-- returns a hitdata_ct
-- TODO: make cliptype optional? What should be the default?
function hitscan(pos, sectnum, ray, cliptype)
check_sector_idx(sectnum)
local vec = vec3_ct(pos.x, pos.y, pos.z)
local hitdata = hitdata_ct()
ffiC.hitscan(vec, sectnum, ray.x, ray.y, ray.z, hitdata, cliptype)
return hitdata
end
function cansee(pos1,sect1, pos2,sect2)
check_sector_idx(sect1)
check_sector_idx(sect2)
local ret = ffiC.cansee(pos1.x,pos1.y,pos1.z, sect1,
pos2.x,pos2.y,pos2.z, sect2)
return (ret~=0)
end
local neartag_ret_ct = ffi.typeof[[
const struct {
int32_t sector, wall, sprite;
int32_t dist;
}
]]
local function newar() return ffi.new("int16_t [1]") end
-- NOTE: <tagsearch> flags are in sector.NEARTAG_FLAGS
function neartag(pos, sectnum, ang, range, tagsearch)
check_sector_idx(sectnum)
local a, b, c, d = newar(), newar(), newar(), ffi.new("int32_t [1]")
ffiC.neartag(pos.x, pos.y, pos.z, sectnum, ang, a, b, c, d, range, tagsearch, nil)
return neartag_ret_ct(a[0], b[0], c[0], d[0])
end
function inside(pos, sectnum)
check_sector_idx(sectnum)
return (ffiC.inside(pos.x, pos.y, sectnum)==1)
end
local us_retsect = ffi.new("int16_t [1]")
local USF = sector.UPDATE_FLAGS
function updatesector(pos, sectnum, flags)
if (sectnum ~= -1) then
check_sector_idx(sectnum)
end
us_retsect[0] = sectnum
if (flags==nil or flags==0) then
ffiC.updatesector(pos.x, pos.y, us_retsect)
elseif (flags==USF.BREADTH) then
ffiC.updatesectorbreadth(pos.x, pos.y, us_retsect)
elseif (flags==USF.Z) then
-- Same as updatesectorz, but useful if we are called from
-- e.g. sprite.updatesect().
ffiC.updatesectorz(pos.x, pos.y, pos.z, us_retsect)
else
error("invalid argument #3 (flags)", 2)
end
return us_retsect[0]
end
l_updatesector = updatesector
function updatesectorz(pos, sectnum, flags)
if (sectnum ~= -1) then
check_sector_idx(sectnum)
end
if (flags ~= nil) then
error("invalid argument #3 (flags)", 2)
end
us_retsect[0] = sectnum
ffiC.updatesectorz(pos.x, pos.y, pos.z, us_retsect)
return us_retsect[0]
end
function printf(fmt, ...)
print(string.format(fmt, ...))
end
-- This is supposed to be run from the file that 'require's this module to take
-- over the non-local variables from here into its global environment.
function create_globals(_G_their)
local _G_our = getfenv(1)
vars_to_ignore["create_globals"] = true
for varname,obj in pairs(_G_our) do
if (not vars_to_ignore[varname]) then
if (ffiC._DEBUG_LUNATIC ~= 0) then
print("EXPORT "..varname)
end
_G_their[varname] = obj
end
end
end