114 lines
4.1 KiB
C++
114 lines
4.1 KiB
C++
// Copyright 2022, FOSS-VG Developers and Contributers
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//
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// This program is free software: you can redistribute it and/or modify it
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// under the terms of the GNU Affero General Public License as published
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// by the Free Software Foundation, version 3.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied
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// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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// See the GNU Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// version 3 along with this program.
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// If not, see https://www.gnu.org/licenses/agpl-3.0.en.html
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#include <bit>
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#include <cstdint>
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#include <vector>
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#include "nbt.h++"
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#include "error.h++"
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// This is just an example for how to find out if the system is big endian
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// or little endian. Do not use this.
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int endianness_example() {
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if constexpr (std::endian::native == std::endian::big)
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{
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// Big-endian system
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return 0;
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}
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else if constexpr (std::endian::native == std::endian::little)
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{
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// Little-endian system
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return 1;
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}
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else
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{
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// Something else
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return 2;
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// How did we even end up here?
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}
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}
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namespace NBT {
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namespace helper {
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ErrorOr<int8_t> readInt8(uint8_t data[], uint64_t dataSize, uint64_t currentPosition) {
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if (dataSize<=currentPosition) return ErrorOr<int8_t>(true, ErrorCodes::RANGE_ERROR);
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return ErrorOr<int8_t>((int8_t) data[currentPosition]);
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}
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ErrorOr<int16_t> readInt16(uint8_t data[], uint64_t dataSize, uint64_t currentPosition) {
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//TODO: implement
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return ErrorOr<int16_t>((int16_t) 0);
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}
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ErrorOr<int32_t> readInt32(uint8_t data[], uint64_t dataSize, uint64_t currentPosition) {
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//TODO: implement
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return ErrorOr<int32_t>((int32_t) 0);
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}
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ErrorOr<int64_t> readInt64(uint8_t data[], uint64_t dataSize, uint64_t currentPosition) {
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//TODO: implement
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return ErrorOr<int64_t>((int64_t) 0);
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}
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//FIXME: we just assume that float is a single-precision IEEE754
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// floating point number
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ErrorOr<float> readFloat32(uint8_t data[], uint64_t dataSize, uint64_t currentPosition) {
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//TODO: implement assuming standard single-precision IEEE754 float
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// Alternatively, maybe calculate a floating point number by using
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// the stored value as math instructions?
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return ErrorOr<float>(0.0f);
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}
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//FIXME: we just assume that double is a double-precision IEEE754
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// floating point number
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ErrorOr<double> readFloat64(uint8_t data[], uint64_t dataSize, uint64_t currentPosition) {
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//TODO: implement assuming standard double-precision IEEE754 float
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// Alternatively, maybe calculate a floating point number by using
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// the stored value as math instructions?
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return ErrorOr<double>(0.0);
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}
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ErrorOr<std::vector<int8_t>> readInt8Array(uint8_t data[], uint64_t dataSize, uint64_t currentPosition) {
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//TODO: implement
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return ErrorOr<std::vector<int8_t>>({0});
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}
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// Maybe use a struct that holds decoded (de-Java-fied) string
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// data, decoded size, and original size? Original size is needed
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// so the parser knows where to continue.
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//ErrorOr<> readString(uint8_t data[], uint64_t dataSize, uint64_t currentPosition) {
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//TODO: implement
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// return ErrorOr<>("");
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//}
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ErrorOr<std::vector<int32_t>> readInt32Array(uint8_t data[], uint64_t dataSize, uint64_t currentPosition) {
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//TODO: implement
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return ErrorOr<std::vector<int32_t>>({0});
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}
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ErrorOr<std::vector<int64_t>> readInt64Array(uint8_t data[], uint64_t dataSize, uint64_t currentPosition) {
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//TODO: implement
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return ErrorOr<std::vector<int64_t>>({0});
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}
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}
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bool validateRawNBTData(uint8_t data[], uint64_t dataSize){
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//state machine?
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//TODO: implement
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return false;
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}
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}
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