ardupilot/libraries/AP_Scripting/lua_boxed_numerics.cpp

#include <AP_HAL/AP_HAL.h>
#include "lua_boxed_numerics.h"


extern const AP_HAL::HAL& hal;

uint32_t coerce_to_uint32_t(lua_State *L, int arg) {
    { // userdata
        const uint32_t * ud = static_cast<uint32_t *>(luaL_testudata(L, arg, "uint32_t"));
        if (ud != nullptr) {
            return *ud;
        }
    }
    { // integer

        // if this assert fails, you will need to add an upper bounds
        // check that ensures the value isn't greater then UINT32_MAX
        static_assert(sizeof(lua_Number) == sizeof(uint32_t), "32 bit integers are only supported");

        int success;
        const lua_Integer v = lua_tointegerx(L, arg, &success);
        if (success && v >= 0) {
            return static_cast<uint32_t>(v);
        }
    }
    { // float
        int success;
        const lua_Number v = lua_tonumberx(L, arg, &success);
        if (success && v >= 0 && v <= float(UINT32_MAX)) {
            return static_cast<uint32_t>(v);
        }
    }
    // failure
    return luaL_argerror(L, arg, "Unable to coerce to uint32_t");
}

// creates a new userdata for a uint32_t
int new_uint32_t(lua_State *L) {
    luaL_checkstack(L, 2, "Out of stack");

    *static_cast<uint32_t *>(lua_newuserdata(L, sizeof(uint32_t))) = 0;
    luaL_getmetatable(L, "uint32_t");
    lua_setmetatable(L, -2);
    return 1;
}

// the exposed constructor to lua calls to create a uint32_t
int lua_new_uint32_t(lua_State *L);
int lua_new_uint32_t(lua_State *L) {
    const int args = lua_gettop(L);
    if (args > 1) {
        return luaL_argerror(L, args, "too many arguments");
    }

    *static_cast<uint32_t *>(lua_newuserdata(L, sizeof(uint32_t))) = (args == 1) ? coerce_to_uint32_t(L, 1) : 0;
    luaL_getmetatable(L, "uint32_t");
    lua_setmetatable(L, -2);
    return 1;
}

uint32_t * check_uint32_t(lua_State *L, int arg) {
    void *data = luaL_checkudata(L, arg, "uint32_t");
    return static_cast<uint32_t *>(data);
}

#define UINT32_T_BOX_OP(name, sym) \
    static int uint32_t___##name(lua_State *L) { \
        const int args = lua_gettop(L); \
        if (args > 2) { \
            return luaL_argerror(L, args, "too many arguments"); \
        } else if (args < 2) { \
            return luaL_argerror(L, args, "too few arguments"); \
        } \
          \
        uint32_t v1 = coerce_to_uint32_t(L, 1); \
        uint32_t v2 = coerce_to_uint32_t(L, 2); \
          \
        new_uint32_t(L); \
        *static_cast<uint32_t *>(luaL_checkudata(L, -1, "uint32_t")) = v1 sym v2; \
        return 1; \
    }

UINT32_T_BOX_OP(add, +)
UINT32_T_BOX_OP(sub, -)
UINT32_T_BOX_OP(mul, *)
UINT32_T_BOX_OP(div, /)
UINT32_T_BOX_OP(mod, %)
UINT32_T_BOX_OP(idiv, /)
UINT32_T_BOX_OP(band, &)
UINT32_T_BOX_OP(bor, |)
UINT32_T_BOX_OP(bxor, ^)
UINT32_T_BOX_OP(shl, <<)
UINT32_T_BOX_OP(shr, >>)

#define UINT32_T_BOX_OP_BOOL(name, sym) \
    static int uint32_t___##name(lua_State *L) { \
        const int args = lua_gettop(L); \
        luaL_checkstack(L, 1, "Out of stack"); \
        if (args > 2) { \
            return luaL_argerror(L, args, "too many arguments"); \
        } else if (args < 2) { \
            return luaL_argerror(L, args, "too few arguments"); \
        } \
          \
        uint32_t v1 = coerce_to_uint32_t(L, 1); \
        uint32_t v2 = coerce_to_uint32_t(L, 2); \
          \
        lua_pushboolean(L, v1 sym v2); \
        return 1; \
    }

UINT32_T_BOX_OP_BOOL(eq, ==)
UINT32_T_BOX_OP_BOOL(lt, <)
UINT32_T_BOX_OP_BOOL(le, <=)

#define UINT32_T_BOX_OP_UNARY(name, sym) \
    static int uint32_t___##name(lua_State *L) { \
        const int args = lua_gettop(L); \
        luaL_checkstack(L, 1, "Out of stack"); \
        if (args != 1) { \
            return luaL_argerror(L, args, "Expected 1 argument"); \
        } \
          \
        uint32_t v1 = coerce_to_uint32_t(L, 1); \
          \
        new_uint32_t(L); \
        *static_cast<uint32_t *>(luaL_checkudata(L, -1, "uint32_t")) = sym v1; \
        return 1; \
    }

// DO NOT SUPPORT UNARY NEGATION
UINT32_T_BOX_OP_UNARY(bnot, ~)

static int uint32_t_toint(lua_State *L) {
    const int args = lua_gettop(L);
    if (args != 1) {
        return luaL_argerror(L, args, "Expected 1 argument");
    }

    uint32_t v = *static_cast<uint32_t *>(luaL_checkudata(L, 1, "uint32_t"));

    lua_pushinteger(L, static_cast<lua_Integer>(v));

    return 1;
}

static int uint32_t_tofloat(lua_State *L) {
    const int args = lua_gettop(L);
    if (args != 1) {
        return luaL_argerror(L, args, "Expected 1 argument");
    }

    uint32_t v = *static_cast<uint32_t *>(luaL_checkudata(L, 1, "uint32_t"));

    lua_pushnumber(L, static_cast<lua_Number>(v));

    return 1;
}

static int uint32_t___tostring(lua_State *L) {
    const int args = lua_gettop(L);
    if (args != 1) {
        return luaL_argerror(L, args, "Expected 1 argument");
    }

    uint32_t v = *static_cast<uint32_t *>(luaL_checkudata(L, 1, "uint32_t"));

    char buf[32];
    hal.util->snprintf(buf, ARRAY_SIZE(buf), "%u", (unsigned)v);

    lua_pushstring(L, buf);

    return 1;
}

const luaL_Reg uint32_t_meta[] = {
    {"__add", uint32_t___add},
    {"__sub", uint32_t___sub},
    {"__mul", uint32_t___mul},
    {"__div", uint32_t___div},
    {"__mod", uint32_t___mod},
    {"__idiv", uint32_t___idiv},
    {"__band", uint32_t___band},
    {"__bor", uint32_t___bor},
    {"__bxor", uint32_t___bxor},
    {"__shl", uint32_t___shl},
    {"__shr", uint32_t___shr},
    {"__shr", uint32_t___shr},
    {"__eq", uint32_t___eq},
    {"__lt", uint32_t___lt},
    {"__le", uint32_t___le},
    {"__bnot", uint32_t___bnot},
    {"__tostring", uint32_t___tostring},
    {"toint", uint32_t_toint},
    {"tofloat", uint32_t_tofloat},
    {NULL, NULL}
};

void load_boxed_numerics(lua_State *L) {
    luaL_checkstack(L, 5, "Out of stack");
    luaL_newmetatable(L, "uint32_t");
    luaL_setfuncs(L, uint32_t_meta, 0);
    lua_pushstring(L, "__index");
    lua_pushvalue(L, -2);
    lua_settable(L, -3);
    lua_pop(L, 1);
}

void load_boxed_numerics_sandbox(lua_State *L) {
    // if there are ever more drivers then move to a table based solution
    lua_pushstring(L, "uint32_t");
    lua_pushcfunction(L, lua_new_uint32_t);
    lua_settable(L, -3);
}
AP_Scripting: Add boxed numerics for uint32_t types Also fixes bad check in send_text that could seg fault in send_text And fixes the fact that all freshly allocated userdata's need to be memset 2019-04-23 21:21:28 -03:00			`#include <AP_HAL/AP_HAL.h>`
			`#include "lua_boxed_numerics.h"`

AP_Scripting: Fix up some warnings -Remove some non forward declared issues -Remove forced min/max values from the enum range check 2019-04-29 05:21:20 -03:00
AP_Scripting: Add boxed numerics for uint32_t types Also fixes bad check in send_text that could seg fault in send_text And fixes the fact that all freshly allocated userdata's need to be memset 2019-04-23 21:21:28 -03:00			`extern const AP_HAL::HAL& hal;`

AP_Scripting: Add support for UART drivers Also improves the handling of uint32_t arguments 2020-01-08 16:34:26 -04:00			`uint32_t coerce_to_uint32_t(lua_State *L, int arg) {`
AP_Scripting: Add boxed numerics for uint32_t types Also fixes bad check in send_text that could seg fault in send_text And fixes the fact that all freshly allocated userdata's need to be memset 2019-04-23 21:21:28 -03:00			`{ // userdata`
			`const uint32_t * ud = static_cast<uint32_t *>(luaL_testudata(L, arg, "uint32_t"));`
			`if (ud != nullptr) {`
			`return *ud;`
			`}`
			`}`
			`{ // integer`

			`// if this assert fails, you will need to add an upper bounds`
			`// check that ensures the value isn't greater then UINT32_MAX`
			`static_assert(sizeof(lua_Number) == sizeof(uint32_t), "32 bit integers are only supported");`

			`int success;`
			`const lua_Integer v = lua_tointegerx(L, arg, &success);`
			`if (success && v >= 0) {`
			`return static_cast<uint32_t>(v);`
			`}`
			`}`
			`{ // float`
			`int success;`
			`const lua_Number v = lua_tonumberx(L, arg, &success);`
AP_Scripting: remove compile errors and warnings 2020-09-18 05:09:44 -03:00			`if (success && v >= 0 && v <= float(UINT32_MAX)) {`
AP_Scripting: Add boxed numerics for uint32_t types Also fixes bad check in send_text that could seg fault in send_text And fixes the fact that all freshly allocated userdata's need to be memset 2019-04-23 21:21:28 -03:00			`return static_cast<uint32_t>(v);`
			`}`
			`}`
			`// failure`
			`return luaL_argerror(L, arg, "Unable to coerce to uint32_t");`
			`}`

AP_Scripting: Fix up uint32_t manipulation, fix AP_Notify This also adds a touched up version of the foxhunt demo that was done at the 2019 developer unconf 2019-10-16 04:15:14 -03:00			`// creates a new userdata for a uint32_t`
AP_Scripting: Add a one arg variant of uint32_t, and expose table unpack 2019-10-15 17:51:31 -03:00			`int new_uint32_t(lua_State *L) {`
			`luaL_checkstack(L, 2, "Out of stack");`

AP_Scripting: Fix up uint32_t manipulation, fix AP_Notify This also adds a touched up version of the foxhunt demo that was done at the 2019 developer unconf 2019-10-16 04:15:14 -03:00			`static_cast<uint32_t >(lua_newuserdata(L, sizeof(uint32_t))) = 0;`
			`luaL_getmetatable(L, "uint32_t");`
			`lua_setmetatable(L, -2);`
			`return 1;`
			`}`

			`// the exposed constructor to lua calls to create a uint32_t`
AP_Scripting: Forward declare lua_new_uint32_t 2020-01-06 14:56:20 -04:00			`int lua_new_uint32_t(lua_State *L);`
AP_Scripting: Fix up uint32_t manipulation, fix AP_Notify This also adds a touched up version of the foxhunt demo that was done at the 2019 developer unconf 2019-10-16 04:15:14 -03:00			`int lua_new_uint32_t(lua_State *L) {`
AP_Scripting: Add a one arg variant of uint32_t, and expose table unpack 2019-10-15 17:51:31 -03:00			`const int args = lua_gettop(L);`
			`if (args > 1) {`
			`return luaL_argerror(L, args, "too many arguments");`
			`}`

			`static_cast<uint32_t >(lua_newuserdata(L, sizeof(uint32_t))) = (args == 1) ? coerce_to_uint32_t(L, 1) : 0;`
			`luaL_getmetatable(L, "uint32_t");`
			`lua_setmetatable(L, -2);`
			`return 1;`
			`}`

			`uint32_t * check_uint32_t(lua_State *L, int arg) {`
			`void *data = luaL_checkudata(L, arg, "uint32_t");`
			`return static_cast<uint32_t *>(data);`
			`}`

AP_Scripting: Add boxed numerics for uint32_t types Also fixes bad check in send_text that could seg fault in send_text And fixes the fact that all freshly allocated userdata's need to be memset 2019-04-23 21:21:28 -03:00			`#define UINT32_T_BOX_OP(name, sym) \`
			`static int uint32_t___##name(lua_State *L) { \`
			`const int args = lua_gettop(L); \`
			`if (args > 2) { \`
			`return luaL_argerror(L, args, "too many arguments"); \`
			`} else if (args < 2) { \`
			`return luaL_argerror(L, args, "too few arguments"); \`
			`} \`
			`\`
			`uint32_t v1 = coerce_to_uint32_t(L, 1); \`
			`uint32_t v2 = coerce_to_uint32_t(L, 2); \`
			`\`
			`new_uint32_t(L); \`
			`static_cast<uint32_t >(luaL_checkudata(L, -1, "uint32_t")) = v1 sym v2; \`
			`return 1; \`
			`}`

			`UINT32_T_BOX_OP(add, +)`
			`UINT32_T_BOX_OP(sub, -)`
			`UINT32_T_BOX_OP(mul, *)`
			`UINT32_T_BOX_OP(div, /)`
			`UINT32_T_BOX_OP(mod, %)`
			`UINT32_T_BOX_OP(idiv, /)`
			`UINT32_T_BOX_OP(band, &)`
			`UINT32_T_BOX_OP(bor, \|)`
			`UINT32_T_BOX_OP(bxor, ^)`
			`UINT32_T_BOX_OP(shl, <<)`
			`UINT32_T_BOX_OP(shr, >>)`

			`#define UINT32_T_BOX_OP_BOOL(name, sym) \`
			`static int uint32_t___##name(lua_State *L) { \`
			`const int args = lua_gettop(L); \`
			`luaL_checkstack(L, 1, "Out of stack"); \`
			`if (args > 2) { \`
			`return luaL_argerror(L, args, "too many arguments"); \`
			`} else if (args < 2) { \`
			`return luaL_argerror(L, args, "too few arguments"); \`
			`} \`
			`\`
			`uint32_t v1 = coerce_to_uint32_t(L, 1); \`
			`uint32_t v2 = coerce_to_uint32_t(L, 2); \`
			`\`
			`lua_pushboolean(L, v1 sym v2); \`
			`return 1; \`
			`}`

AP_Scripting: fixed equality test for uint32_t 2020-07-03 04:01:30 -03:00			`UINT32_T_BOX_OP_BOOL(eq, ==)`
AP_Scripting: Add boxed numerics for uint32_t types Also fixes bad check in send_text that could seg fault in send_text And fixes the fact that all freshly allocated userdata's need to be memset 2019-04-23 21:21:28 -03:00			`UINT32_T_BOX_OP_BOOL(lt, <)`
			`UINT32_T_BOX_OP_BOOL(le, <=)`

			`#define UINT32_T_BOX_OP_UNARY(name, sym) \`
			`static int uint32_t___##name(lua_State *L) { \`
			`const int args = lua_gettop(L); \`
			`luaL_checkstack(L, 1, "Out of stack"); \`
			`if (args != 1) { \`
			`return luaL_argerror(L, args, "Expected 1 argument"); \`
			`} \`
			`\`
			`uint32_t v1 = coerce_to_uint32_t(L, 1); \`
			`\`
			`new_uint32_t(L); \`
			`static_cast<uint32_t >(luaL_checkudata(L, -1, "uint32_t")) = sym v1; \`
			`return 1; \`
			`}`

			`// DO NOT SUPPORT UNARY NEGATION`
			`UINT32_T_BOX_OP_UNARY(bnot, ~)`

			`static int uint32_t_toint(lua_State *L) {`
			`const int args = lua_gettop(L);`
			`if (args != 1) {`
			`return luaL_argerror(L, args, "Expected 1 argument");`
			`}`

			`uint32_t v = static_cast<uint32_t >(luaL_checkudata(L, 1, "uint32_t"));`

			`lua_pushinteger(L, static_cast<lua_Integer>(v));`

			`return 1;`
			`}`

			`static int uint32_t_tofloat(lua_State *L) {`
			`const int args = lua_gettop(L);`
			`if (args != 1) {`
			`return luaL_argerror(L, args, "Expected 1 argument");`
			`}`

			`uint32_t v = static_cast<uint32_t >(luaL_checkudata(L, 1, "uint32_t"));`

			`lua_pushnumber(L, static_cast<lua_Number>(v));`

			`return 1;`
			`}`

			`static int uint32_t___tostring(lua_State *L) {`
			`const int args = lua_gettop(L);`
			`if (args != 1) {`
			`return luaL_argerror(L, args, "Expected 1 argument");`
			`}`

			`uint32_t v = static_cast<uint32_t >(luaL_checkudata(L, 1, "uint32_t"));`

			`char buf[32];`
			`hal.util->snprintf(buf, ARRAY_SIZE(buf), "%u", (unsigned)v);`

			`lua_pushstring(L, buf);`

			`return 1;`
			`}`

			`const luaL_Reg uint32_t_meta[] = {`
			`{"__add", uint32_t___add},`
			`{"__sub", uint32_t___sub},`
			`{"__mul", uint32_t___mul},`
			`{"__div", uint32_t___div},`
			`{"__mod", uint32_t___mod},`
			`{"__idiv", uint32_t___idiv},`
			`{"__band", uint32_t___band},`
			`{"__bor", uint32_t___bor},`
			`{"__bxor", uint32_t___bxor},`
			`{"__shl", uint32_t___shl},`
			`{"__shr", uint32_t___shr},`
			`{"__shr", uint32_t___shr},`
			`{"__eq", uint32_t___eq},`
			`{"__lt", uint32_t___lt},`
			`{"__le", uint32_t___le},`
			`{"__bnot", uint32_t___bnot},`
			`{"__tostring", uint32_t___tostring},`
			`{"toint", uint32_t_toint},`
			`{"tofloat", uint32_t_tofloat},`
			`{NULL, NULL}`
			`};`

			`void load_boxed_numerics(lua_State *L) {`
			`luaL_checkstack(L, 5, "Out of stack");`
			`luaL_newmetatable(L, "uint32_t");`
			`luaL_setfuncs(L, uint32_t_meta, 0);`
			`lua_pushstring(L, "__index");`
			`lua_pushvalue(L, -2);`
			`lua_settable(L, -3);`
			`lua_pop(L, 1);`
			`}`

			`void load_boxed_numerics_sandbox(lua_State *L) {`
			`// if there are ever more drivers then move to a table based solution`
			`lua_pushstring(L, "uint32_t");`
AP_Scripting: Fix up uint32_t manipulation, fix AP_Notify This also adds a touched up version of the foxhunt demo that was done at the 2019 developer unconf 2019-10-16 04:15:14 -03:00			`lua_pushcfunction(L, lua_new_uint32_t);`
AP_Scripting: Add boxed numerics for uint32_t types Also fixes bad check in send_text that could seg fault in send_text And fixes the fact that all freshly allocated userdata's need to be memset 2019-04-23 21:21:28 -03:00			`lua_settable(L, -3);`
			`}`