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luau/VM/src/lcorolib.cpp

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// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
// This code is based on Lua 5.x implementation licensed under MIT License; see lua_LICENSE.txt for details
#include "lualib.h"
#include "lstate.h"
#include "lvm.h"
#define CO_RUN 0 /* running */
#define CO_SUS 1 /* suspended */
#define CO_NOR 2 /* 'normal' (it resumed another coroutine) */
#define CO_DEAD 3
#define CO_STATUS_ERROR -1
#define CO_STATUS_BREAK -2
static const char* const statnames[] = {"running", "suspended", "normal", "dead"};
static int auxstatus(lua_State* L, lua_State* co)
{
if (co == L)
return CO_RUN;
if (co->status == LUA_YIELD)
return CO_SUS;
if (co->status == LUA_BREAK)
return CO_NOR;
if (co->status != 0) /* some error occurred */
return CO_DEAD;
if (co->ci != co->base_ci) /* does it have frames? */
return CO_NOR;
if (co->top == co->base)
return CO_DEAD;
return CO_SUS; /* initial state */
}
static int costatus(lua_State* L)
{
lua_State* co = lua_tothread(L, 1);
luaL_argexpected(L, co, 1, "thread");
lua_pushstring(L, statnames[auxstatus(L, co)]);
return 1;
}
static int auxresume(lua_State* L, lua_State* co, int narg)
{
// error handling for edge cases
if (co->status != LUA_YIELD)
{
int status = auxstatus(L, co);
if (status != CO_SUS)
{
lua_pushfstring(L, "cannot resume %s coroutine", statnames[status]);
return CO_STATUS_ERROR;
}
}
if (narg)
{
if (!lua_checkstack(co, narg))
luaL_error(L, "too many arguments to resume");
lua_xmove(L, co, narg);
}
co->singlestep = L->singlestep;
int status = lua_resume(co, L, narg);
if (status == 0 || status == LUA_YIELD)
{
int nres = cast_int(co->top - co->base);
if (nres)
{
/* +1 accounts for true/false status in resumefinish */
if (nres + 1 > LUA_MINSTACK && !lua_checkstack(L, nres + 1))
luaL_error(L, "too many results to resume");
lua_xmove(co, L, nres); /* move yielded values */
}
return nres;
}
else if (status == LUA_BREAK)
{
return CO_STATUS_BREAK;
}
else
{
lua_xmove(co, L, 1); /* move error message */
return CO_STATUS_ERROR;
}
}
static int interruptThread(lua_State* L, lua_State* co)
{
// notify the debugger that the thread was suspended
if (L->global->cb.debuginterrupt)
luau_callhook(L, L->global->cb.debuginterrupt, co);
return lua_break(L);
}
static int auxresumecont(lua_State* L, lua_State* co)
{
if (co->status == 0 || co->status == LUA_YIELD)
{
int nres = cast_int(co->top - co->base);
if (!lua_checkstack(L, nres + 1))
luaL_error(L, "too many results to resume");
lua_xmove(co, L, nres); /* move yielded values */
return nres;
}
else
{
lua_rawcheckstack(L, 2);
lua_xmove(co, L, 1); /* move error message */
return CO_STATUS_ERROR;
}
}
static int coresumefinish(lua_State* L, int r)
{
if (r < 0)
{
lua_pushboolean(L, 0);
lua_insert(L, -2);
return 2; /* return false + error message */
}
else
{
lua_pushboolean(L, 1);
lua_insert(L, -(r + 1));
return r + 1; /* return true + `resume' returns */
}
}
static int coresumey(lua_State* L)
{
lua_State* co = lua_tothread(L, 1);
luaL_argexpected(L, co, 1, "thread");
int narg = cast_int(L->top - L->base) - 1;
int r = auxresume(L, co, narg);
if (r == CO_STATUS_BREAK)
return interruptThread(L, co);
return coresumefinish(L, r);
}
static int coresumecont(lua_State* L, int status)
{
lua_State* co = lua_tothread(L, 1);
luaL_argexpected(L, co, 1, "thread");
// if coroutine still hasn't yielded after the break, break current thread again
if (co->status == LUA_BREAK)
return interruptThread(L, co);
int r = auxresumecont(L, co);
return coresumefinish(L, r);
}
static int auxwrapfinish(lua_State* L, int r)
{
if (r < 0)
{
if (lua_isstring(L, -1))
{ /* error object is a string? */
luaL_where(L, 1); /* add extra info */
lua_insert(L, -2);
lua_concat(L, 2);
}
lua_error(L); /* propagate error */
}
return r;
}
static int auxwrapy(lua_State* L)
{
lua_State* co = lua_tothread(L, lua_upvalueindex(1));
int narg = cast_int(L->top - L->base);
int r = auxresume(L, co, narg);
if (r == CO_STATUS_BREAK)
return interruptThread(L, co);
return auxwrapfinish(L, r);
}
static int auxwrapcont(lua_State* L, int status)
{
lua_State* co = lua_tothread(L, lua_upvalueindex(1));
// if coroutine still hasn't yielded after the break, break current thread again
if (co->status == LUA_BREAK)
return interruptThread(L, co);
int r = auxresumecont(L, co);
return auxwrapfinish(L, r);
}
static int cocreate(lua_State* L)
{
luaL_checktype(L, 1, LUA_TFUNCTION);
lua_State* NL = lua_newthread(L);
lua_xpush(L, NL, 1); // push function on top of NL
return 1;
}
static int cowrap(lua_State* L)
{
cocreate(L);
lua_pushcfunction(L, auxwrapy, NULL, 1, auxwrapcont);
return 1;
}
static int coyield(lua_State* L)
{
int nres = cast_int(L->top - L->base);
return lua_yield(L, nres);
}
static int corunning(lua_State* L)
{
if (lua_pushthread(L))
lua_pushnil(L); /* main thread is not a coroutine */
return 1;
}
static int coyieldable(lua_State* L)
{
lua_pushboolean(L, lua_isyieldable(L));
return 1;
}
static const luaL_Reg co_funcs[] = {
{"create", cocreate},
{"running", corunning},
{"status", costatus},
{"wrap", cowrap},
{"yield", coyield},
{"isyieldable", coyieldable},
{NULL, NULL},
};
LUALIB_API int luaopen_coroutine(lua_State* L)
{
luaL_register(L, LUA_COLIBNAME, co_funcs);
lua_pushcfunction(L, coresumey, "resume", 0, coresumecont);
lua_setfield(L, -2, "resume");
return 1;
}
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