raze-gles/polymer/eduke32/source/lunatic/lunatic_game.c

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/* The Lunatic Interpreter, part of EDuke32. Game-side stuff. */
#include <stdint.h>
#include <lualib.h>
#include <lauxlib.h>
#include "build.h" // printext256
#include "lunatic_game.h"
#include "osd.h"
#include "gamedef.h" // EventNames[]
L_State g_ElState;
// this serves two purposes:
// the values as booleans and the addresses as keys to the Lua registry
uint8_t g_elEvents[MAXEVENTS];
// same thing for actors:
el_actor_t g_elActors[MAXTILES];
// for timing events and actors
uint32_t g_eventCalls[MAXEVENTS], g_actorCalls[MAXTILES];
double g_eventTotalMs[MAXEVENTS], g_actorTotalMs[MAXTILES];
// forward-decls...
static int32_t SetEvent_luacf(lua_State *L);
static int32_t SetActor_luacf(lua_State *L);
// in lpeg.o
extern int luaopen_lpeg(lua_State *L);
typedef struct {
uint32_t x, y, z, c;
} rng_jkiss_t;
// See: Good Practice in (Pseudo) Random Number Generation for
// Bioinformatics Applications, by David Jones
ATTRIBUTE((optimize("O2")))
uint32_t rand_jkiss_u32(rng_jkiss_t *s)
{
uint64_t t;
s->x = 314527869 * s->x + 1234567;
s->y ^= s->y << 5; s->y ^= s->y >> 7; s->y ^= s->y << 22;
t = 4294584393ULL * s->z + s->c; s->c = t >> 32; s->z = t;
return s->x + s->y + s->z;
}
ATTRIBUTE((optimize("O2")))
double rand_jkiss_dbl(rng_jkiss_t *s)
{
double x;
unsigned int a, b;
a = rand_jkiss_u32(s) >> 6; /* Upper 26 bits */
b = rand_jkiss_u32(s) >> 5; /* Upper 27 bits */
x = (a * 134217728.0 + b) / 9007199254740992.0;
return x;
}
void El_PrintTimes(void)
{
int32_t i, maxlen=0;
char buf[32];
const char nn = Bstrlen("EVENT_");
for (i=0; i<MAXEVENTS; i++)
{
int32_t len = Bstrlen(EventNames[i]+nn);
Bassert(len < (int32_t)sizeof(buf));
maxlen = max(len, maxlen);
}
OSD_Printf("{\n {\n");
OSD_Printf(" -- event times, [event]={ total calls, total time [ms], mean time/call [us] }\n");
for (i=0; i<MAXEVENTS; i++)
if (g_eventCalls[i])
{
int32_t n=Bsprintf(buf, "%s", EventNames[i]+nn);
for (; n<maxlen; n++)
buf[n] = ' ';
buf[maxlen] = 0;
OSD_Printf(" [%s]={ %8d, %9.3f, %9.3f },\n",
buf, g_eventCalls[i], g_eventTotalMs[i],
1000*g_eventTotalMs[i]/g_eventCalls[i]);
}
OSD_Printf(" },\n\n {\n");
OSD_Printf(" -- actor times, [tile]={ total calls, total time [ms], mean time/call [us] }\n");
for (i=0; i<MAXTILES; i++)
if (g_actorCalls[i])
OSD_Printf(" [%5d]={ %8d, %9.3f, %9.3f },\n",
i, g_actorCalls[i], g_actorTotalMs[i],
1000*g_actorTotalMs[i]/g_actorCalls[i]);
OSD_Printf(" },\n}\n");
}
////////// ERROR REPORTING //////////
#define EL_MAXERRORS 2
static int32_t el_numErrors=0, el_tooMuchErrors;
static char *el_errorMsgs[EL_MAXERRORS];
// Compare against all other error messages.
// Strictly seen, this is quadratic-time, but EL_MAXERRORS is small and
// errors should be fixed anyway.
static int32_t cmp_against_others(const char *str, int32_t slen)
{
int32_t i;
for (i=0; i<el_numErrors; i++)
if (!Bstrncmp(str, el_errorMsgs[i], slen))
return 1;
return 0;
}
static void El_OnError(const char *str)
{
if (!el_tooMuchErrors)
{
char *errstr = NULL;
const char *nl = Bstrchr(str, '\n');
// First, check whether the error message matches an already saved one
if (nl)
{
// cut off string after the newline
if (cmp_against_others(str, nl-str))
return;
}
else
{
// save string fully
if (cmp_against_others(str, Bstrlen(str)))
return;
}
// If the (EL_MAXERRORS+1)'th distinct error appeared, we have too many.
if (el_numErrors==EL_MAXERRORS)
{
el_tooMuchErrors = 1;
return;
}
// Otherwise, allocate storage for the potentially clipped error string...
if (nl)
{
errstr = Bmalloc(nl-str+1);
if (errstr)
{
Bmemcpy(errstr, str, nl-str);
errstr[nl-str] = 0;
}
}
else
{
errstr = Bstrdup(str);
}
// ...and save it:
if (errstr)
el_errorMsgs[el_numErrors++] = errstr;
}
}
void El_ClearErrors(void)
{
int32_t i;
for (i=0; i<EL_MAXERRORS; i++)
{
Bfree(el_errorMsgs[i]);
el_errorMsgs[i] = NULL;
}
el_numErrors = el_tooMuchErrors = 0;
}
void El_DisplayErrors(void)
{
int32_t i;
for (i=0; i<el_numErrors; i++)
printext256(8, 8+8*i, 242, 0, el_errorMsgs[i], 0);
if (el_tooMuchErrors)
printext256(8, 8+8*EL_MAXERRORS, 242, 0, "(more distinct errors ...)", 0);
}
////////// STATE CREATION/DESTRUCTIION //////////
static void El_StateSetup(lua_State *L)
{
luaL_openlibs(L); // NOTE: we set up the sandbox in defs.ilua
luaopen_lpeg(L);
lua_pop(L, lua_gettop(L)); // pop off whatever lpeg leaves on the stack
L_SetupDebugTraceback(L);
// create misc. global functions in the Lua state
lua_pushcfunction(L, SetEvent_luacf);
lua_setglobal(L, "gameevent");
lua_pushcfunction(L, SetActor_luacf);
lua_setglobal(L, "gameactor_internal");
Bassert(lua_gettop(L)==0);
}
// 0: success, <0: failure
int32_t El_CreateState(L_State *estate, const char *name)
{
L_ErrorFunc = El_OnError;
return L_CreateState(estate, name, &El_StateSetup);
}
void El_DestroyState(L_State *estate)
{
L_DestroyState(estate);
}
////////// Lua_CFunctions //////////
// gameevent(EVENT_..., lua_function)
static int32_t SetEvent_luacf(lua_State *L)
{
int32_t eventidx;
if (lua_gettop(L) != 2)
luaL_error(L, "gameevent: must pass exactly two arguments");
eventidx = luaL_checkint(L, 1);
luaL_argcheck(L, (unsigned)eventidx < MAXEVENTS, 1, "must be an event number (0 .. MAXEVENTS-1)");
L_CheckAndRegisterFunction(L, &g_elEvents[eventidx]);
g_elEvents[eventidx] = 1;
return 0;
}
// gameactor(actortile, strength, act, mov, movflags, lua_function)
static int32_t SetActor_luacf(lua_State *L)
{
int32_t actortile, strength, movflags;
const con_action_t *act;
const con_move_t *mov;
el_actor_t *a;
Bassert(lua_gettop(L) == 6);
actortile = luaL_checkint(L, 1);
Bassert((unsigned)actortile < MAXTILES);
strength = luaL_checkint(L, 2);
movflags = luaL_checkint(L, 5);
act = lua_topointer(L, 3);
mov = lua_topointer(L, 4);
a = &g_elActors[actortile];
L_CheckAndRegisterFunction(L, a);
a->haveit = 1;
a->strength = strength;
a->movflags = movflags;
Bmemcpy(&a->act, act, sizeof(con_action_t));
Bmemcpy(&a->mov, mov, sizeof(con_move_t));
return 0;
}
//////////////////////////////
static int32_t call_regd_function3(lua_State *L, void *keyaddr,
int32_t iActor, int32_t iPlayer, int32_t lDist)
{
int32_t i;
// get the Lua function from the registry
lua_pushlightuserdata(L, keyaddr);
lua_gettable(L, LUA_REGISTRYINDEX);
lua_pushinteger(L, iActor);
lua_pushinteger(L, iPlayer);
lua_pushinteger(L, lDist);
// -- call it! --
i = lua_pcall(L, 3, 0, 0);
if (i == LUA_ERRMEM)
{
lua_pop(L, 1);
// XXX: should be more sophisticated. Clean up stack? Do GC?
}
return i;
}
int32_t El_CallEvent(L_State *estate, int32_t eventidx, int32_t iActor, int32_t iPlayer, int32_t lDist)
{
// XXX: estate must be the one where the events were registered...
// make a global?
lua_State *const L = estate->L;
int32_t i = call_regd_function3(L, &g_elEvents[eventidx], iActor, iPlayer, lDist);
if (i == LUA_ERRRUN)
{
const char *errstr;
if (lua_isboolean(L, -1))
{
lua_pop(L, 1);
return 0;
}
errstr = lua_tostring(L, -1);
Bassert(lua_type(L, -1)==LUA_TSTRING);
OSD_Printf(OSD_ERROR "event \"%s\" (state \"%s\") runtime error: %s\n",
EventNames[eventidx], estate->name, errstr);
if (L_ErrorFunc)
L_ErrorFunc(errstr);
lua_pop(L, 1);
return -1;
}
return 0;
}
int32_t El_CallActor(L_State *estate, int32_t actortile, int32_t iActor, int32_t iPlayer, int32_t lDist)
{
lua_State *const L = estate->L;
int32_t i = call_regd_function3(L, &g_elActors[actortile], iActor, iPlayer, lDist);
if (i == LUA_ERRRUN)
{
const char *errstr;
if (lua_isboolean(L, -1))
{
int32_t killit = lua_toboolean(L, -1);
lua_pop(L, 1);
return killit;
}
Bassert(lua_type(L, -1)==LUA_TSTRING);
errstr = lua_tostring(L, -1);
OSD_Printf(OSD_ERROR "actor %d (sprite %d, state \"%s\") runtime error: %s\n",
actortile, iActor, estate->name, errstr);
if (L_ErrorFunc)
L_ErrorFunc(errstr);
lua_pop(L, 1);
return -1;
}
return 0;
}