// ------------------------------------------------------------------------------------------------ #include "Core.hpp" #include "Base/Shared.hpp" #include "Base/Color3.hpp" #include "Base/Color4.hpp" #include "Entity/Player.hpp" // ------------------------------------------------------------------------------------------------ namespace SqMod { // ------------------------------------------------------------------------------------------------ static inline bool SqCanBeInteger(HSQUIRRELVM vm, Int32 idx) { switch (sq_gettype(vm, idx)) { case OT_NULL: case OT_INTEGER: case OT_FLOAT: case OT_BOOL: return true; default: return false; } } // ------------------------------------------------------------------------------------------------ SQRESULT SqGrabPlayerMessageColor(HSQUIRRELVM vm, Int32 idx, Uint32 & color, Int32 & msgidx) { const Int32 top = sq_gettop(vm); // Is the color argument a Color3/Color4 instance? if (sq_gettype(vm, idx) == OT_INSTANCE) { // Whether it failed to retrieve a Color3 value bool failed = false; // Attempt to extract a Color3 value try { color = (Var< Color3 >(vm, idx).value.GetRGBA() | 0xFF); } catch (...) { failed = true; } // Did we failed to retrieve a Color3 instance? if (failed) { // Attempt to extract a Color4 value try { color = Var< Color4 >(vm, idx).value.GetRGBA(); } catch (const Sqrat::Exception & e) { return sq_throwerror(vm, e.what()); } } // The message starts right after the color msgidx += 1; } // Is the color argument an unpacked RGBA color? else if ((top - msgidx) >= 4 && SqCanBeInteger(vm, idx) && SqCanBeInteger(vm, idx+1) && SqCanBeInteger(vm, idx+2) && SqCanBeInteger(vm, idx+3)) { color = SQMOD_PACK_RGBA(ConvTo< Uint8 >::From(PopStackInteger(vm, idx)), ConvTo< Uint8 >::From(PopStackInteger(vm, idx+1)), ConvTo< Uint8 >::From(PopStackInteger(vm, idx+2)), ConvTo< Uint8 >::From(PopStackInteger(vm, idx+3))); // The message starts right after the color msgidx += 4; } // Is the color argument an unpacked RGB color? else if ((top - msgidx) >= 3 && SqCanBeInteger(vm, idx) && SqCanBeInteger(vm, idx+1) && SqCanBeInteger(vm, idx+2)) { color = SQMOD_PACK_RGBA(ConvTo< Uint8 >::From(PopStackInteger(vm, idx)), ConvTo< Uint8 >::From(PopStackInteger(vm, idx+1)), ConvTo< Uint8 >::From(PopStackInteger(vm, idx+2)), 0xFF); // The message starts right after the color msgidx += 3; } // Is the color argument an packed RGBA color? else if (SqCanBeInteger(vm, idx)) { color = static_cast< Uint32 >(PopStackInteger(vm, idx)); // The message starts right after the color msgidx += 1; } // Is the first argument a string which can be interpreted as a color? else if (sq_gettype(vm, idx) == OT_STRING) { CSStr str = nullptr; SQInteger len = 0; // Attempt to retrieve the color argument as a string if (SQ_FAILED(sq_getstringandsize(vm, idx, &str, &len))) { return sq_throwerror(vm, "Cannot retrieve the color string"); } // Do we even have any color? else if (!str || *str == '\0') { return sq_throwerror(vm, "Invalid or empty color string"); } // Skip white space at the beginning while (std::isspace(*str) != 0) { ++str, --len; } // Is the first character a number sign? if (*str == '#') { // Attempt to treat the value as a hex color color = ConvTo< Uint32 >::From(std::strtoull(++str, nullptr, 16)); // Adjust the color if necessary switch (ClampMin(--len, static_cast< SQInteger >(0))) { case 0: { color = 0x000000FF; } break; case 1: { color <<= 28; color |= 0x00000FF; } break; case 2: { color <<= 24; color |= 0x0000FF; } break; case 3: { color <<= 20; color |= 0x000FF; } break; case 4: { color <<= 16; color |= 0x00FF; } break; case 5: { color <<= 12; color |= 0x0FF; } break; case 6: { color <<= 8; color |= 0xFF; } break; case 7: { color <<= 4; color |= 0x0; } break; } } // Are the first characters 0x so we can treat this as hex? else if (*str == '0' && (*(str+1) == 'x' || *(str+1) == 'X')) { // Attempt to treat the value as a hex color color = ConvTo< Uint32 >::From(std::strtoull(str, nullptr, 16)); // Adjust the color if necessary switch (ClampMin(len-2, static_cast< SQInteger >(0))) { case 0: { color = 0x000000FF; } break; case 1: { color <<= 28; color |= 0x00000FF; } break; case 2: { color <<= 24; color |= 0x0000FF; } break; case 3: { color <<= 20; color |= 0x000FF; } break; case 4: { color <<= 16; color |= 0x00FF; } break; case 5: { color <<= 12; color |= 0x0FF; } break; case 6: { color <<= 8; color |= 0xFF; } break; case 7: { color <<= 4; color |= 0x0; } break; } } else { // Attempt to treat the value as a color name try { color = (::SqMod::GetColor(str).GetRGBA() | 0xFF); } catch (...) { return sq_throwerror(vm, "Cannot identify color string"); } } // The message starts right after the color msgidx += 1; } else { return sq_throwerror(vm, "Unable to identify a valid color"); } // At this point we've extracted the color return SQ_OK; } // ------------------------------------------------------------------------------------------------ static SQInteger SqBroadcastMsg(HSQUIRRELVM vm) { // The function needs at least 2 arguments const Int32 top = sq_gettop(vm); // Was the message color specified? if (top <= 1) { return sq_throwerror(vm, "Missing message color"); } // Was the message value specified? else if (top <= 2) { return sq_throwerror(vm, "Missing message value"); } // The index where the message should start Int32 msgidx = 2; // The message color Uint32 color = 0; // Attempt to identify and extract the color const SQRESULT res = SqGrabPlayerMessageColor(vm, 2, color, msgidx); // Did we fail to identify a color? if (SQ_FAILED(res)) { return res; // Propagate the error! } // Attempt to generate the string value StackStrF val(vm, msgidx); // Have we failed to retrieve the string? if (SQ_FAILED(val.mRes)) { return val.mRes; // Propagate the error! } // Obtain the ends of the entity pool Core::Players::const_iterator itr = Core::Get().GetPlayers().cbegin(); Core::Players::const_iterator end = Core::Get().GetPlayers().cend(); // The number of players that the message was sent to Uint32 count = 0; // Currently processed player CPlayer * player = nullptr; // Process each entity in the pool for (; itr != end; ++itr) { // Grab the player instance player = itr->mInst; // Is this player instance valid? if (VALID_ENTITYEX(itr->mID, SQMOD_PLAYER_POOL) && player != nullptr) { // Send the resulted message string const vcmpError result = _Func->SendClientMessage(itr->mID, color, "%s%s%s", player->mMessagePrefix.c_str(), val.mPtr, player->mMessagePostfix.c_str()); // Check the result if (result == vcmpErrorTooLargeInput) { return sq_throwerror(vm, ToStrF("Client message too big [%s]", player->GetTag().c_str())); } // Add this player to the count ++count; } } // Push the count count on the stack sq_pushinteger(vm, count); // Specify that this function returned a value return 1; } // ------------------------------------------------------------------------------------------------ static SQInteger SqBroadcastMsgP(HSQUIRRELVM vm) { const Int32 top = sq_gettop(vm); // Was the index of the message prefix specified? if (top <= 1) { return sq_throwerror(vm, "Missing prefix index"); } // Was the message value specified? else if (top <= 2) { return sq_throwerror(vm, "Missing message value"); } // The prefix index Uint32 index = 0; // Attempt to extract the argument values try { index = ConvTo< Uint32 >::From(Var< SQInteger >(vm, 2).value); } catch (const Sqrat::Exception & e) { return sq_throwerror(vm, e.what()); } // Perform a range check on the specified prefix index if (index >= SQMOD_PLAYER_MSG_PREFIXES) { return sq_throwerror(vm, ToStrF("Prefix index is out of range: %u >= %u", index, SQMOD_PLAYER_MSG_PREFIXES)); } // Attempt to generate the string value StackStrF val(vm, 3); // Have we failed to retrieve the string? if (SQ_FAILED(val.mRes)) { return val.mRes; // Propagate the error! } vcmpError result = vcmpErrorNone; // Obtain the ends of the entity pool Core::Players::const_iterator itr = Core::Get().GetPlayers().cbegin(); Core::Players::const_iterator end = Core::Get().GetPlayers().cend(); // The number of players that the message was sent to Uint32 count = 0; // Currently processed player CPlayer * player = nullptr; // Process each entity in the pool for (; itr != end; ++itr) { // Grab the player instance player = itr->mInst; // Is this player instance valid? if (VALID_ENTITYEX(itr->mID, SQMOD_PLAYER_POOL) && player != nullptr) { // Send the resulted message string if (player->mLimitPrefixPostfixMessage) { result = _Func->SendClientMessage(itr->mID, player->mMessageColor, "%s%s", player->mMessagePrefixes[index].c_str(), val.mPtr); } else { result = _Func->SendClientMessage(itr->mID, player->mMessageColor, "%s%s%s%s", player->mMessagePrefix.c_str(), player->mMessagePrefixes[index].c_str(), val.mPtr, player->mMessagePostfix.c_str()); } // Check the result if (result == vcmpErrorTooLargeInput) { return sq_throwerror(vm, ToStrF("Client message too big [%s]", player->GetTag().c_str())); } // Add this player to the count ++count; } } // Push the count count on the stack sq_pushinteger(vm, count); // Specify that this function returned a value return 1; } // ------------------------------------------------------------------------------------------------ static SQInteger SqBroadcastMsgEx(HSQUIRRELVM vm) { const Int32 top = sq_gettop(vm); // Was the index of the message prefix specified? if (top <= 1) { return sq_throwerror(vm, "Missing prefix index"); } // Was the message color specified? else if (top <= 2) { return sq_throwerror(vm, "Missing message color"); } // Was the message value specified? else if (top <= 3) { return sq_throwerror(vm, "Missing message value"); } // The prefix index Uint32 index = 0; // Attempt to extract the argument values try { index = ConvTo< Uint32 >::From(Var< SQInteger >(vm, 2).value); } catch (const Sqrat::Exception & e) { return sq_throwerror(vm, e.what()); } // Perform a range check on the specified prefix index if (index >= SQMOD_PLAYER_MSG_PREFIXES) { return sq_throwerror(vm, ToStrF("Prefix index is out of range: %u >= %u", index, SQMOD_PLAYER_MSG_PREFIXES)); } // The index where the message should start Int32 msgidx = 3; // The message color Uint32 color = 0; // Attempt to identify and extract the color const SQRESULT res = SqGrabPlayerMessageColor(vm, 3, color, msgidx); // Did we fail to identify a color? if (SQ_FAILED(res)) { return res; // Propagate the error! } // Attempt to generate the string value StackStrF val(vm, msgidx); // Have we failed to retrieve the string? if (SQ_FAILED(val.mRes)) { return val.mRes; // Propagate the error! } vcmpError result = vcmpErrorNone; // Obtain the ends of the entity pool Core::Players::const_iterator itr = Core::Get().GetPlayers().cbegin(); Core::Players::const_iterator end = Core::Get().GetPlayers().cend(); // The number of players that the message was sent to Uint32 count = 0; // Currently processed player CPlayer * player = nullptr; // Process each entity in the pool for (; itr != end; ++itr) { // Grab the player instance player = itr->mInst; // Is this player instance valid? if (VALID_ENTITYEX(itr->mID, SQMOD_PLAYER_POOL) && player != nullptr) { // Send the resulted message string if (player->mLimitPrefixPostfixMessage) { result = _Func->SendClientMessage(itr->mID, color, "%s%s", player->mMessagePrefixes[index].c_str(), val.mPtr); } else { result = _Func->SendClientMessage(itr->mID, color, "%s%s%s%s", player->mMessagePrefix.c_str(), player->mMessagePrefixes[index].c_str(), val.mPtr, player->mMessagePostfix.c_str()); } // Check the result if (result == vcmpErrorTooLargeInput) { return sq_throwerror(vm, ToStrF("Client message too big [%s]", player->GetTag().c_str())); } // Add this player to the count ++count; } } // Push the count count on the stack sq_pushinteger(vm, count); // Specify that this function returned a value return 1; } // ------------------------------------------------------------------------------------------------ static SQInteger SqBroadcastMessage(HSQUIRRELVM vm) { const Int32 top = sq_gettop(vm); // Was the message value specified? if (top <= 1) { return sq_throwerror(vm, "Missing message value"); } // Attempt to generate the string value StackStrF val(vm, 2); // Have we failed to retrieve the string? if (SQ_FAILED(val.mRes)) { return val.mRes; // Propagate the error! } // Obtain the ends of the entity pool Core::Players::const_iterator itr = Core::Get().GetPlayers().cbegin(); Core::Players::const_iterator end = Core::Get().GetPlayers().cend(); // The number of players that the message was sent to Uint32 count = 0; // Currently processed player CPlayer * player = nullptr; // Process each entity in the pool for (; itr != end; ++itr) { // Grab the player instance player = itr->mInst; // Is this player instance valid? if (VALID_ENTITYEX(itr->mID, SQMOD_PLAYER_POOL) && player != nullptr) { // Send the resulted message string const vcmpError result = _Func->SendClientMessage(itr->mID, player->mMessageColor, "%s%s%s", player->mMessagePrefix.c_str(), val.mPtr, player->mMessagePostfix.c_str()); // Check the result if (result == vcmpErrorTooLargeInput) { return sq_throwerror(vm, ToStrF("Client message too big [%s]", player->GetTag().c_str())); } // Add this player to the count ++count; } } // Push the count count on the stack sq_pushinteger(vm, count); // Specify that this function returned a value return 1; } // ------------------------------------------------------------------------------------------------ static SQInteger SqBroadcastAnnounce(HSQUIRRELVM vm) { const Int32 top = sq_gettop(vm); // Was the announcement value specified? if (top <= 1) { return sq_throwerror(vm, "Missing announcement value"); } // Attempt to generate the string value StackStrF val(vm, 2); // Have we failed to retrieve the string? if (SQ_FAILED(val.mRes)) { return val.mRes; // Propagate the error! } // Obtain the ends of the entity pool Core::Players::const_iterator itr = Core::Get().GetPlayers().cbegin(); Core::Players::const_iterator end = Core::Get().GetPlayers().cend(); // The number of players that the message was sent to Uint32 count = 0; // Currently processed player CPlayer * player = nullptr; // Process each entity in the pool for (; itr != end; ++itr) { // Grab the player instance player = itr->mInst; // Is this player instance valid? if (VALID_ENTITYEX(itr->mID, SQMOD_PLAYER_POOL) && player != nullptr) { // Send the resulted announcement string const vcmpError result = _Func->SendGameMessage(itr->mID, player->mAnnounceStyle, "%s%s%s", player->mAnnouncePrefix.c_str(), val.mPtr, player->mAnnouncePostfix.c_str()); // Validate the result if (result == vcmpErrorArgumentOutOfBounds) { return sq_throwerror(vm, ToStrF("Invalid announcement style %d [%s]", player->mAnnounceStyle, player->GetTag().c_str())); } else if (result == vcmpErrorTooLargeInput) { return sq_throwerror(vm, ToStrF("Game message too big [%s]", player->GetTag().c_str())); } // Add this player to the count ++count; } } // Push the count count on the stack sq_pushinteger(vm, count); // Specify that this function returned a value return 1; } // ------------------------------------------------------------------------------------------------ static SQInteger SqBroadcastAnnounceEx(HSQUIRRELVM vm) { const Int32 top = sq_gettop(vm); // Was the announcement style specified? if (top <= 1) { return sq_throwerror(vm, "Missing announcement style"); } // Was the announcement value specified? else if (top <= 2) { return sq_throwerror(vm, "Missing announcement value"); } Int32 style; // style to extract the argument values try { style = Var< Int32 >(vm, 2).value; } catch (const Sqrat::Exception & e) { return sq_throwerror(vm, e.what()); } // Attempt to generate the string value StackStrF val(vm, 3); // Have we failed to retrieve the string? if (SQ_FAILED(val.mRes)) { return val.mRes; // Propagate the error! } // Obtain the ends of the entity pool Core::Players::const_iterator itr = Core::Get().GetPlayers().cbegin(); Core::Players::const_iterator end = Core::Get().GetPlayers().cend(); // The number of players that the message was sent to Uint32 count = 0; // Currently processed player CPlayer * player = nullptr; // Process each entity in the pool for (; itr != end; ++itr) { // Grab the player instance player = itr->mInst; // Is this player instance valid? if (VALID_ENTITYEX(itr->mID, SQMOD_PLAYER_POOL) && player != nullptr) { // Send the resulted announcement string const vcmpError result = _Func->SendGameMessage(itr->mID, style, "%s%s%s", player->mAnnouncePrefix.c_str(), val.mPtr, player->mAnnouncePostfix.c_str()); // Validate the result if (result == vcmpErrorArgumentOutOfBounds) { return sq_throwerror(vm, ToStrF("Invalid announcement style %d [%s]", style, player->GetTag().c_str())); } else if (result == vcmpErrorTooLargeInput) { return sq_throwerror(vm, ToStrF("Game message too big [%s]", player->GetTag().c_str())); } // Add this player to the count ++count; } } // Push the count count on the stack sq_pushinteger(vm, count); // Specify that this function returned a value return 1; } // ================================================================================================ void Register_Broadcast(HSQUIRRELVM vm) { Table bns(vm); bns .SquirrelFunc(_SC("Msg"), &SqBroadcastMsg) .SquirrelFunc(_SC("MsgP"), &SqBroadcastMsgP) .SquirrelFunc(_SC("MsgEx"), &SqBroadcastMsgEx) .SquirrelFunc(_SC("Message"), &SqBroadcastMessage) .SquirrelFunc(_SC("Announce"), &SqBroadcastAnnounce) .SquirrelFunc(_SC("AnnounceEx"), &SqBroadcastAnnounceEx) .SquirrelFunc(_SC("Text"), &SqBroadcastAnnounce) .SquirrelFunc(_SC("TextEx"), &SqBroadcastAnnounceEx); RootTable(vm).Bind(_SC("SqBroadcast"), bns); } } // Namespace:: SqMod