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For historical reasons, I am constructing a struct in C++ that emulates a lua Table.

typedef union Value Value;
typedef struct LuaTable LuaTable;
typedef struct TableValue TableValue;

enum ValueType {
    INT = 0,
    BOOL = 1,
    FLOAT = 2,
    STRING = 3,
    TABLE = 4,
};

struct LuaTable {
    std::vector<TableValue> array;
    std::map<std::string, TableValue> hashmap;
};

union Value {
    int c_int;
    bool c_bool;
    double c_float;
    std::string c_str;
    LuaTable table;
};

struct TableValue {
  ValueType type;
  Value val;
};

I may simplify this such that a table is either a list or a map.

I would like to access this struct through LuaJIT FFI with some high-level syntax:

x = c_tbl.a.b.c

is a proxy for

LuaTable l_tbl {...};
...
l_tbl['a']['b']['c']

Before I start thinking about lazy evaluation (build up the prefix in some metatable), I would generally like to know if I am thinking about this the right way.

The simplest way would be to initialize c_tbl by parsing the LuaTable struct. This is the point where I am stuck. Is there a straightforward way to parse a recursive struct like this? I am willing to re-design this to alleviate parsing / traversal difficulties.

  • Do you want to create something in Lua that uses metamethods to proxy reads back to your C++ struct, or do you want to copy your C++ struct into Lua as just a regular Lua table? – Joseph Sible-Reinstate Monica Nov 20 '20 at 20:32
  • Small remarks. In Lua 5.3, the integer type is 64-bit and not 32-not. A Lua value has more types than you emulate, maybe the additional ones are not needed: nil, function, coroutine (thread), userdata. – prapin Nov 20 '20 at 20:40
  • @prapin - yeah, so I am only concerned with data, sans nil. Thanks for the correction about the integer precision. – user18764 Nov 20 '20 at 21:46
  • @josephSible-ReinstateMonica I was thinking about a proxy via metatables but was not quite sure about return types if the read is not a leaf node. I guess every table other than a leaf node code be a proxy. Then there's the additional complexity of iterating over proxy objects. Gotta start simple, though. – user18764 Nov 20 '20 at 21:46
  • 1
    read only. underlying data is immutable. it's essentially nested configuration that does not have the liberty of being directly exposed to lua. Cannot use JSON, otherwise i would just parse it. My main concern is accessing non-leaf nodes. Or am I thinking about this incorrectly? Should everything be thought of as a pointer, and I should be agnostic to whether it's the value or a proxy? – user18764 Nov 21 '20 at 0:44
2

Something like this would work, if you're okay with using the Lua C API instead of FFI:

#include <string>
#include <map>
#include <vector>
#include <lua5.1/lua.hpp>

typedef struct LuaTable LuaTable;
typedef struct TableValue TableValue;

struct LuaTable {
    std::vector<TableValue> array;
    std::map<std::string, TableValue> hashmap;
};

struct TableValue {
  enum {
    INT = 0,
    BOOL = 1,
    FLOAT = 2,
    STRING = 3,
    TABLE = 4,
  } type;
  union {
    int c_int;
    bool c_bool;
    double c_float;
    std::string c_str;
    LuaTable table;
  };

  TableValue(int i) : type(INT), c_int(i) {}
  TableValue(bool b) : type(BOOL), c_bool(b) {}
  TableValue(double d) : type(FLOAT), c_float(d) {}
  TableValue(const char *c) : type(STRING), c_str(c) {}
  TableValue(const std::string &s) : type(STRING), c_str(s) {}
  TableValue(std::string &&s) : type(STRING), c_str(s) {}
  TableValue(const LuaTable &t) : type(TABLE), table(t) {}
  TableValue(LuaTable &&t) : type(TABLE), table(t) {}
  TableValue(const TableValue &other) : type(other.type) {
    switch(type) {
    case INT:
      c_int = other.c_int;
      break;
    case BOOL:
      c_bool = other.c_bool;
      break;
    case FLOAT:
      c_float = other.c_float;
      break;
    case STRING:
      new (&c_str) std::string(other.c_str);
      break;
    case TABLE:
      new (&table) LuaTable(other.table);
    }
  }
  // TODO write assignment operators and move constructor
  ~TableValue() {
    switch(type) {
    case STRING:
      {
        using std::string;
        c_str.~string();
      }
      break;
    case TABLE:
      table.~LuaTable();
    }
  }
};

static void q64936405_push(lua_State *L, const TableValue *v) {
    if(!v) {
        lua_pushnil(L);
        return;
    }
    switch(v->type) {
    case TableValue::INT:
        lua_pushinteger(L, v->c_int);
        break;
    case TableValue::BOOL:
        lua_pushboolean(L, v->c_bool);
        break;
    case TableValue::FLOAT:
        lua_pushnumber(L, v->c_float);
        break;
    case TableValue::STRING:
        lua_pushlstring(L, v->c_str.c_str(), v->c_str.length());
        break;
    case TableValue::TABLE:
        // TODO consider making a weak table somewhere to hold these, so retrieving the same subtable multiple times doesn't make duplicate userdata
        // and also make them compare equal like they would in a real table
        const LuaTable **t = static_cast<const LuaTable **>(lua_newuserdata(L, sizeof *t));
        *t = &v->table;
        lua_getfield(L, LUA_REGISTRYINDEX, "q64936405");
        lua_setmetatable(L, -2);
        break;
    }
}

static int q64936405_index(lua_State *L) {
    const LuaTable *t = *static_cast<const LuaTable **>(luaL_checkudata(L, 1, "q64936405"));
    if(lua_isnumber(L, 2)) {
        lua_Integer k = lua_tointeger(L, 2);
        if(k >= 1 && k <= t->array.size()) {
            q64936405_push(L, &t->array[k - 1]);
        } else {
            lua_pushnil(L);
        }
    } else {
        size_t len;
        const char *rawk = luaL_checklstring(L, 2, &len);
        const TableValue *v;
        { // this block makes sure a Lua error won't cause UB by skipping the iterator's destruction
            auto it = t->hashmap.find(std::string{rawk, len});
            if(it == t->hashmap.end()) {
                v = nullptr;
            } else {
                v = &it->second;
            }
        }
        q64936405_push(L, v);
    }
    return 1;
}

static int q64936405_len(lua_State *L) {
    const LuaTable *t = *static_cast<const LuaTable **>(luaL_checkudata(L, 1, "q64936405"));
    lua_pushinteger(L, t->array.size());
    return 1;
}

// it's important that once this is passed to Lua, it's immutable until the lua_State is closed
// otherwise Bad Things will happen
static const LuaTable the_struct{
    {
        42,
        true,
        0.5,
        "foo",
        LuaTable{
            {
                "nested"
            }, {
                {"foo", "bar"}
            }
        }
    }, {
        {"one", 1},
        {"two", 2}
    }
};

extern "C"
int luaopen_q64936405(lua_State *L) {
    const LuaTable **v = static_cast<const LuaTable **>(lua_newuserdata(L, sizeof *v));
    *v = &the_struct;
    luaL_newmetatable(L, "q64936405");
    lua_pushcfunction(L, q64936405_index);
    lua_setfield(L, -2, "__index");
    lua_pushcfunction(L, q64936405_len);
    lua_setfield(L, -2, "__len");
    lua_setmetatable(L, -2);
    // TODO write __pairs and __ipairs
    return 1;
}

I rolled your ValueType and Value into TableValue but otherwise kept the structure you wanted.

Test it with this:

local q64936405 = require('q64936405')
print(q64936405[1])
print(q64936405[2])
print(q64936405[3])
print(q64936405[4])
print(q64936405[5][1])
print(q64936405[5].foo)
print(q64936405.one)
print(q64936405.two)
print(#q64936405)

The result:

42
true
0.5
foo
nested
bar
1
2
5

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