lib/error.hpp: fix merge conflicts
commit
e8d41efeef
12
Makefile
12
Makefile
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@ -1,12 +0,0 @@
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all: build
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build:
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bash ./scripts/build.sh
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clean:
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bash ./scripts/clean.sh
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mrproper:
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bash ./scripts/clean.sh
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bash ./scripts/clean_dependencies.sh
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setup:
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bash ./scripts/setup_project.sh
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test:
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bash ./scripts/test.sh
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Binary file not shown.
Binary file not shown.
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@ -89,10 +89,7 @@ namespace ErrorCodes {
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const uint8_t NOT_YET_KNOWN = 7;
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//file errors
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const uint8_t FILE_READ_FAILED = 8;
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const uint8_t FILE_WRITE_FAILED = 9;
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const uint8_t FILE_NOT_FOUND = 10;
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const uint8_t INVALID_TYPE = 8;
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const uint8_t UNIMPLEMENTED = 254;
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119
src/lib/nbt.cpp
119
src/lib/nbt.cpp
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@ -36,7 +36,7 @@
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#endif
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namespace NBT {
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namespace helper {
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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 (currentPosition>=dataSize) return ErrorOr<int8_t>(true, ErrorCodes::OUT_OF_RANGE);
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return ErrorOr<int8_t>((int8_t) data[currentPosition]);
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@ -92,7 +92,7 @@ namespace NBT {
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*(valueAsBytes+2) = data[currentPosition+1];
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*(valueAsBytes+3) = data[currentPosition];
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#else
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#error "NBT::helper::readFloat: An implementation for your endianness is unavailable."
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#error "NBT::Helper::readFloat: An implementation for your endianness is unavailable."
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#endif
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#endif
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float dereferencedValue = *value;
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@ -126,7 +126,7 @@ namespace NBT {
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*(valueAsBytes+6) = data[currentPosition+1];
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*(valueAsBytes+7) = data[currentPosition];
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#else
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#error "NBT::helper::readDouble: An implementation for your endianness is unavailable."
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#error "NBT::Helper::readDouble: An implementation for your endianness is unavailable."
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#endif
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#endif
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double dereferencedValue = *value;
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@ -232,7 +232,7 @@ namespace NBT {
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destination->push_back(*(valueAsBytes+1));
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destination->push_back(*valueAsBytes);
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#else
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#error "NBT::helper::writeInt16: An implementation for your endianness is unavailable."
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#error "NBT::Helper::writeInt16: An implementation for your endianness is unavailable."
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#endif
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#endif
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delete value;
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@ -255,7 +255,7 @@ namespace NBT {
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destination->push_back(*(valueAsBytes+1));
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destination->push_back(*valueAsBytes);
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#else
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#error "NBT::helper::writeInt16: An implementation for your endianness is unavailable."
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#error "NBT::Helper::writeInt16: An implementation for your endianness is unavailable."
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#endif
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#endif
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delete value;
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@ -286,7 +286,7 @@ namespace NBT {
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destination->push_back(*(valueAsBytes+1));
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destination->push_back(*valueAsBytes);
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#else
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#error "NBT::helper::writeInt16: An implementation for your endianness is unavailable."
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#error "NBT::Helper::writeInt16: An implementation for your endianness is unavailable."
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#endif
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#endif
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delete value;
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@ -309,7 +309,7 @@ namespace NBT {
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destination->push_back(*(valueAsBytes+1));
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destination->push_back(*valueAsBytes);
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#else
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#error "NBT::helper::writeInt16: An implementation for your endianness is unavailable."
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#error "NBT::Helper::writeInt16: An implementation for your endianness is unavailable."
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#endif
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#endif
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delete value;
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@ -340,7 +340,7 @@ namespace NBT {
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destination->push_back(*(valueAsBytes+1));
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destination->push_back(*valueAsBytes);
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#else
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#error "NBT::helper::writeInt16: An implementation for your endianness is unavailable."
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#error "NBT::Helper::writeInt16: An implementation for your endianness is unavailable."
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#endif
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#endif
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delete value;
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@ -363,7 +363,7 @@ namespace NBT {
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void writeString(std::vector<uint8_t>* destination, tiny_utf8::string data) {
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ErrorOr<std::vector<uint8_t>> exportedString = JavaCompat::exportJavaString(data);
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if(exportedString.isError){
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std::cerr << "NBT::helpers::writeString encountered an error: " << (int) exportedString.errorCode << std::endl;
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std::cerr << "NBT::Helpers::writeString encountered an error: " << (int) exportedString.errorCode << std::endl;
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std::abort();
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}
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*destination = exportedString.value;
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@ -426,7 +426,7 @@ namespace NBT {
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// deal with end tag before trying to access the name
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if (nextTag == TagType::END) return ErrorOr<uint64_t>(1);
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ErrorOr<int16_t> nameSize = helper::readInt16(data, dataSize, currentPosition+1);
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ErrorOr<int16_t> nameSize = Helper::readInt16(data, dataSize, currentPosition+1);
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if (nameSize.isError) {
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return ErrorOr<uint64_t>(true, nameSize.errorCode);
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}
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@ -446,28 +446,28 @@ namespace NBT {
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case TagType::DOUBLE:
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return ErrorOr<uint64_t>(prefixSize+8);
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case TagType::INT8_ARRAY: {
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ErrorOr<int32_t> arrayLength = helper::readInt32(data, dataSize, currentPosition+prefixSize);
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ErrorOr<int32_t> arrayLength = Helper::readInt32(data, dataSize, currentPosition+prefixSize);
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if (arrayLength.isError) {
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return ErrorOr<uint64_t>(true, arrayLength.errorCode);
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}
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return ErrorOr<uint64_t>((uint64_t) arrayLength.value + prefixSize + 4);
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}
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case TagType::STRING: {
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ErrorOr<int16_t> stringSize = helper::readInt16(data, dataSize, currentPosition+prefixSize);
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ErrorOr<int16_t> stringSize = Helper::readInt16(data, dataSize, currentPosition+prefixSize);
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if (stringSize.isError) {
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return ErrorOr<uint64_t>(true, stringSize.errorCode);
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}
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return ErrorOr<uint64_t>((uint64_t) stringSize.value + prefixSize + 2);
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}
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case TagType::INT32_ARRAY: {
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ErrorOr<int32_t> arrayLength = helper::readInt32(data, dataSize, currentPosition+prefixSize);
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ErrorOr<int32_t> arrayLength = Helper::readInt32(data, dataSize, currentPosition+prefixSize);
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if (arrayLength.isError) {
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return ErrorOr<uint64_t>(true, arrayLength.errorCode);
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}
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return ErrorOr<uint64_t>((uint64_t) arrayLength.value*4 + prefixSize + 4);
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}
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case TagType::INT64_ARRAY: {
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ErrorOr<int32_t> arrayLength = helper::readInt32(data, dataSize, currentPosition+prefixSize);
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ErrorOr<int32_t> arrayLength = Helper::readInt32(data, dataSize, currentPosition+prefixSize);
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if (arrayLength.isError) {
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return ErrorOr<uint64_t>(true, arrayLength.errorCode);
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}
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@ -509,7 +509,7 @@ namespace NBT {
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return ErrorOr<int32_t>(1);
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}
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ErrorOr<int16_t> nameSize = helper::readInt16(data, dataSize, currentPosition+1);
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ErrorOr<int16_t> nameSize = Helper::readInt16(data, dataSize, currentPosition+1);
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if (nameSize.isError) {
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return ErrorOr<int32_t>(true, nameSize.errorCode);
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}
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@ -517,10 +517,10 @@ namespace NBT {
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uint64_t prefixSize = (uint64_t) nameSize.value + 3;
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switch (nextTag) {
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case TagType::INT8_ARRAY: {
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return helper::readInt32(data, dataSize, currentPosition+prefixSize);
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return Helper::readInt32(data, dataSize, currentPosition+prefixSize);
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}
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case TagType::STRING: {
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ErrorOr<int16_t> stringSize = helper::readInt16(data, dataSize, currentPosition+prefixSize);
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ErrorOr<int16_t> stringSize = Helper::readInt16(data, dataSize, currentPosition+prefixSize);
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if (stringSize.isError) {
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return ErrorOr<int32_t>(true, stringSize.errorCode);
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}
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@ -528,13 +528,13 @@ namespace NBT {
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}
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case TagType::LIST: {
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// add an additional byte for the contained data type
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return helper::readInt32(data, dataSize, currentPosition+prefixSize+1);
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return Helper::readInt32(data, dataSize, currentPosition+prefixSize+1);
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}
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case TagType::INT32_ARRAY: {
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return helper::readInt32(data, dataSize, currentPosition+prefixSize);
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return Helper::readInt32(data, dataSize, currentPosition+prefixSize);
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}
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case TagType::INT64_ARRAY: {
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return helper::readInt32(data, dataSize, currentPosition+prefixSize);
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return Helper::readInt32(data, dataSize, currentPosition+prefixSize);
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}
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default:
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// unknown tag or parsing error
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@ -543,56 +543,15 @@ namespace NBT {
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}
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}
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//Tag constructors
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// generic class that all tag types are derived from
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template <typename T>
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Tag<T>::Tag() {
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}
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template <typename T>
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Tag<T>::Tag(uint8_t tagType, tiny_utf8::string name, uint16_t nameSize, T content, uint32_t size)
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: tagType(tagType), name(name), nameSize(nameSize), content(content) ,size(size)
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{}
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End::End() : Tag::Tag(0, "", 0, 0, 0) {}
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Byte::Byte(tiny_utf8::string name, uint16_t nameSize, int8_t content)
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: Tag::Tag(1, name, nameSize, content, 1)
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{}
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Byte::Byte(uint8_t data[]){
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if(validate(data)){
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this->tagType = 1;
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uint8_t nameSizeSlice[] = {data[1], data[2]};
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ErrorOr<int16_t> readIntResult = helper::readInt16(nameSizeSlice, 2, 0);
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if(!readIntResult.isError){
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this->nameSize = readIntResult.value;
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}else{
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throw readIntResult.errorCode;
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}
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uint8_t nameSlice[this->nameSize+2];
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for(int i=0; i<this->nameSize+2; i++){
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nameSlice[i] = data[i+1];
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}
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ErrorOr<tiny_utf8::string> readStringResult = helper::readString(nameSlice, this->nameSize, 0);
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if(!readStringResult.isError){
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this->name = readStringResult.value;
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}else{
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throw readStringResult.errorCode;
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}
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//int8 needs only one byte
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this->content = data[this->nameSize+4];
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}
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}
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//more conditions will be added
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bool Byte::validate(uint8_t data[]){
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if(data[0] == 0x01){
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return true;
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}else{
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return false;
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}
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ErrorOr<std::vector<uint8_t>> Tag<T>::toRawData() {
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return ErrorOr<std::vector<uint8_t>>(true, ErrorCodes::INVALID_TYPE);
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}
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bool validateRawListContents(uint8_t data[], uint64_t dataSize, uint64_t initialPosition, uint64_t* processedDataSize) {
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@ -601,7 +560,7 @@ namespace NBT {
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// headerless tags
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//
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// add one byte to position to skip the type byte
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ErrorOr<int32_t> elementCount = helper::readInt32(data, dataSize, initialPosition+1);
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ErrorOr<int32_t> elementCount = Helper::readInt32(data, dataSize, initialPosition+1);
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if (elementCount.isError) {
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return false;
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}
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@ -634,7 +593,7 @@ namespace NBT {
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}
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case TagType::INT8_ARRAY: {
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for (int32_t i=0; i<elementCount.value; i++) {
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ErrorOr<std::vector<int8_t>> nextArray = helper::readInt8Array(data, dataSize, initialPosition+*processedDataSize);
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ErrorOr<std::vector<int8_t>> nextArray = Helper::readInt8Array(data, dataSize, initialPosition+*processedDataSize);
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if (nextArray.isError) {
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return false;
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}
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@ -644,12 +603,12 @@ namespace NBT {
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}
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case TagType::STRING: {
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for (int32_t i=0; i<elementCount.value; i++) {
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ErrorOr<tiny_utf8::string> nextString = helper::readString(data, dataSize, initialPosition+*processedDataSize);
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ErrorOr<tiny_utf8::string> nextString = Helper::readString(data, dataSize, initialPosition+*processedDataSize);
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if (nextString.isError) {
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return false;
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}
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// this cannot be an error because it just got checked
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int16_t nextStringSize = helper::readInt16(data, dataSize, initialPosition+*processedDataSize).value;
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int16_t nextStringSize = Helper::readInt16(data, dataSize, initialPosition+*processedDataSize).value;
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*processedDataSize += (uint64_t) nextStringSize + 2;
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}
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return true;
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@ -685,7 +644,7 @@ namespace NBT {
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}
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case TagType::INT32_ARRAY: {
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for (int32_t i=0; i<elementCount.value; i++) {
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ErrorOr<std::vector<int32_t>> nextArray = helper::readInt32Array(data, dataSize, initialPosition+*processedDataSize);
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ErrorOr<std::vector<int32_t>> nextArray = Helper::readInt32Array(data, dataSize, initialPosition+*processedDataSize);
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if (nextArray.isError) {
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return false;
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}
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@ -695,7 +654,7 @@ namespace NBT {
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}
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case TagType::INT64_ARRAY: {
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for (int32_t i=0; i<elementCount.value; i++) {
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ErrorOr<std::vector<int64_t>> nextArray = helper::readInt64Array(data, dataSize, initialPosition+*processedDataSize);
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ErrorOr<std::vector<int64_t>> nextArray = Helper::readInt64Array(data, dataSize, initialPosition+*processedDataSize);
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if (nextArray.isError) {
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return false;
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}
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@ -737,11 +696,11 @@ namespace NBT {
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uint64_t currentPosition = initialPosition;
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#define return if (processedDataSize!=nullptr) *processedDataSize = currentPosition-initialPosition; return
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while (currentPosition<dataSize) {
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ErrorOr<uint64_t> nextTagSize = helper::totalTagSize(data, dataSize, currentPosition);
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ErrorOr<uint64_t> nextTagSize = Helper::totalTagSize(data, dataSize, currentPosition);
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if (nextTagSize.isError) {
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if (nextTagSize.errorCode == ErrorCodes::NOT_YET_KNOWN) {
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// attempt parsing the name
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ErrorOr<tiny_utf8::string> tagName = helper::readString(data, dataSize, currentPosition+1);
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ErrorOr<tiny_utf8::string> tagName = Helper::readString(data, dataSize, currentPosition+1);
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if (tagName.isError) {
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return false;
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}
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@ -750,7 +709,7 @@ namespace NBT {
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//
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// there is no way this is an error bc it gets
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// checked while trying to parse the string above
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int16_t nameSize = helper::readInt16(data, dataSize, currentPosition+1).value;
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int16_t nameSize = Helper::readInt16(data, dataSize, currentPosition+1).value;
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uint64_t* processedTagSize = new uint64_t;
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*processedTagSize = 0;
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@ -791,7 +750,7 @@ namespace NBT {
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// nameSize cannot be an error here bc it got checked in
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// nextTagSize() already
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int16_t nameSize = helper::readInt16(data, dataSize, currentPosition+1).value;
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int16_t nameSize = Helper::readInt16(data, dataSize, currentPosition+1).value;
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// attempt parsing the name
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//
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@ -800,7 +759,7 @@ namespace NBT {
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// being guarded against with
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// if (currentPosition + nextTagSize.value > dataSize) return false;
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// It might, however, turn out to be a useful check in the future.
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ErrorOr<tiny_utf8::string> name = helper::readString(data, dataSize, currentPosition+1);
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ErrorOr<tiny_utf8::string> name = Helper::readString(data, dataSize, currentPosition+1);
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if (name.isError) {
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return false;
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}
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@ -825,7 +784,7 @@ namespace NBT {
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// in the future.
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//
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// type byte + two name size bytes = 3
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ErrorOr<tiny_utf8::string> content = helper::readString(data, dataSize, currentPosition+nameSize+3);
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ErrorOr<tiny_utf8::string> content = Helper::readString(data, dataSize, currentPosition+nameSize+3);
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if (content.isError) {
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return false;
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}
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|
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@ -41,7 +41,7 @@
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#include "error.hpp"
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namespace NBT {
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namespace helper {
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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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ErrorOr<int16_t> readInt16(uint8_t data[], uint64_t dataSize, uint64_t currentPosition);
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ErrorOr<int32_t> readInt32(uint8_t data[], uint64_t dataSize, uint64_t currentPosition);
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@ -85,32 +85,21 @@ namespace NBT {
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const uint8_t COMPOUND = 10;
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const uint8_t INT32_ARRAY= 11;
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const uint8_t INT64_ARRAY= 12;
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// This is a workaround that's not part of the spec.
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const uint8_t INVALID = 255;
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// This class is used as a placeholder for implementing the end tag.
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class End {};
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}
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//Generic parent class to make declaration easier
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// generic class that all tag types are derived from
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template <typename T>
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class Tag{
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public:
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uint8_t tagType;
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tiny_utf8::string name;
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uint16_t nameSize;
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T content;
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int32_t size;
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struct Tag {
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const uint8_t type = TagType::INVALID;
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T* containedData;
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Tag(){}
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Tag(uint8_t tagType, tiny_utf8::string name, uint16_t nameSize, T content, uint32_t size);
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};
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class End: public Tag<uint8_t>{
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public:
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End();
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};
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class Byte: public Tag<int8_t>{
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public:
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Byte(tiny_utf8::string name, uint16_t nameSize, int8_t content);
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Byte(uint8_t data[]);
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bool validate(uint8_t data[]);
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Tag();
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ErrorOr<std::vector<uint8_t>> toRawData();
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};
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|
||||
bool validateRawNBTData(uint8_t data[], uint64_t dataSize, uint64_t initialPosition=0, uint64_t* processedDataSize=nullptr);
|
||||
|
|
|
@ -41,29 +41,29 @@ int main(){
|
|||
// int8 ############################################################
|
||||
// read successfully
|
||||
currentPosition = 5;
|
||||
ASSERT(NBT::helper::readInt8(dataForIntTest, dataSize, currentPosition).value == 35);
|
||||
ASSERT(NBT::helper::readInt8(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt8(dataForIntTest, dataSize, currentPosition).value == 35);
|
||||
ASSERT(NBT::Helper::readInt8(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
// begin of data
|
||||
currentPosition = 0;
|
||||
ASSERT(NBT::helper::readInt8(dataForIntTest, dataSize, currentPosition).value == 30);
|
||||
ASSERT(NBT::helper::readInt8(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt8(dataForIntTest, dataSize, currentPosition).value == 30);
|
||||
ASSERT(NBT::Helper::readInt8(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
// end of data
|
||||
currentPosition = 9;
|
||||
ASSERT(NBT::helper::readInt8(dataForIntTest, dataSize, currentPosition).value == 39);
|
||||
ASSERT(NBT::helper::readInt8(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt8(dataForIntTest, dataSize, currentPosition).value == 39);
|
||||
ASSERT(NBT::Helper::readInt8(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
// out of bounds
|
||||
currentPosition = 10;
|
||||
ASSERT(NBT::helper::readInt8(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt8(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
ASSERT(NBT::Helper::readInt8(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt8(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
// read from a bigger blob
|
||||
currentPositionInBlob = 0x13A;
|
||||
ASSERT(NBT::helper::readInt8(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::helper::readInt8(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == 100);
|
||||
ASSERT(NBT::Helper::readInt8(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::Helper::readInt8(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == 100);
|
||||
|
||||
std::cout << "Passed readInt8 NBT helper test" << std::endl;
|
||||
|
||||
std::vector<uint8_t>* writeInt8TestResult = new std::vector<uint8_t>();
|
||||
NBT::helper::writeInt8(writeInt8TestResult, (int8_t) 8);
|
||||
NBT::Helper::writeInt8(writeInt8TestResult, (int8_t) 8);
|
||||
std::vector<uint8_t> dereferencedWriteInt8TestResult = *writeInt8TestResult;
|
||||
delete writeInt8TestResult;
|
||||
ASSERT(dereferencedWriteInt8TestResult.back() == (uint8_t) 8);
|
||||
|
@ -73,33 +73,33 @@ int main(){
|
|||
// int16 ###########################################################
|
||||
// read successfully
|
||||
currentPosition = 5;
|
||||
ASSERT(NBT::helper::readInt16(dataForIntTest, dataSize, currentPosition).value == 8996);
|
||||
ASSERT(NBT::helper::readInt16(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt16(dataForIntTest, dataSize, currentPosition).value == 8996);
|
||||
ASSERT(NBT::Helper::readInt16(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
// begin of data
|
||||
currentPosition = 0;
|
||||
ASSERT(NBT::helper::readInt16(dataForIntTest, dataSize, currentPosition).value == 7711);
|
||||
ASSERT(NBT::helper::readInt16(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt16(dataForIntTest, dataSize, currentPosition).value == 7711);
|
||||
ASSERT(NBT::Helper::readInt16(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
// end of data
|
||||
currentPosition = 8;
|
||||
ASSERT(NBT::helper::readInt16(dataForIntTest, dataSize, currentPosition).value == 9767);
|
||||
ASSERT(NBT::helper::readInt16(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt16(dataForIntTest, dataSize, currentPosition).value == 9767);
|
||||
ASSERT(NBT::Helper::readInt16(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
// partially out of bounds
|
||||
currentPosition = 9;
|
||||
ASSERT(NBT::helper::readInt16(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt16(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::Helper::readInt16(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt16(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
// fully out of bounds
|
||||
currentPosition = 10;
|
||||
ASSERT(NBT::helper::readInt16(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt16(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
ASSERT(NBT::Helper::readInt16(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt16(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
// read from a bigger blob
|
||||
currentPositionInBlob = 0xb9;
|
||||
ASSERT(NBT::helper::readInt16(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::helper::readInt16(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == 2000);
|
||||
ASSERT(NBT::Helper::readInt16(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::Helper::readInt16(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == 2000);
|
||||
|
||||
std::cout << "Passed readInt16 NBT helper test" << std::endl;
|
||||
|
||||
std::vector<uint8_t>* writeInt16TestResult = new std::vector<uint8_t>();
|
||||
NBT::helper::writeInt16(writeInt16TestResult, (int16_t) 0xABCD);
|
||||
NBT::Helper::writeInt16(writeInt16TestResult, (int16_t) 0xABCD);
|
||||
std::vector<uint8_t> dereferencedWriteInt16TestResult = *writeInt16TestResult;
|
||||
delete writeInt16TestResult;
|
||||
ASSERT(dereferencedWriteInt16TestResult[0] == (uint8_t) 0xAB && dereferencedWriteInt16TestResult[1] == (uint8_t) 0xCD);
|
||||
|
@ -109,33 +109,33 @@ int main(){
|
|||
// int32 ###########################################################
|
||||
// read successfully
|
||||
currentPosition = 5;
|
||||
ASSERT(NBT::helper::readInt32(dataForIntTest, dataSize, currentPosition).value == 589571366);
|
||||
ASSERT(NBT::helper::readInt32(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt32(dataForIntTest, dataSize, currentPosition).value == 589571366);
|
||||
ASSERT(NBT::Helper::readInt32(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
// begin of data
|
||||
currentPosition = 0;
|
||||
ASSERT(NBT::helper::readInt32(dataForIntTest, dataSize, currentPosition).value == 505356321);
|
||||
ASSERT(NBT::helper::readInt32(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt32(dataForIntTest, dataSize, currentPosition).value == 505356321);
|
||||
ASSERT(NBT::Helper::readInt32(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
// end of data
|
||||
currentPosition = 6;
|
||||
ASSERT(NBT::helper::readInt32(dataForIntTest, dataSize, currentPosition).value == 606414375);
|
||||
ASSERT(NBT::helper::readInt32(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt32(dataForIntTest, dataSize, currentPosition).value == 606414375);
|
||||
ASSERT(NBT::Helper::readInt32(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
// partially out of bounds
|
||||
currentPosition = 7;
|
||||
ASSERT(NBT::helper::readInt32(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt32(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::Helper::readInt32(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt32(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
// fully out of bounds
|
||||
currentPosition = 10;
|
||||
ASSERT(NBT::helper::readInt32(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt32(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
ASSERT(NBT::Helper::readInt32(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt32(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
// read from a bigger blob
|
||||
currentPositionInBlob = 0xc3;
|
||||
ASSERT(NBT::helper::readInt32(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::helper::readInt32(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == 10101010);
|
||||
ASSERT(NBT::Helper::readInt32(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::Helper::readInt32(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == 10101010);
|
||||
|
||||
std::cout << "Passed readInt32 NBT helper test" << std::endl;
|
||||
|
||||
std::vector<uint8_t>* writeInt32TestResult = new std::vector<uint8_t>();
|
||||
NBT::helper::writeInt32(writeInt32TestResult, (int32_t) 0x12345678);
|
||||
NBT::Helper::writeInt32(writeInt32TestResult, (int32_t) 0x12345678);
|
||||
// delete before checking assertions so we don't leak
|
||||
std::vector<uint8_t> dereferencedWriteInt32TestResult = *writeInt32TestResult;
|
||||
delete writeInt32TestResult;
|
||||
|
@ -151,33 +151,33 @@ int main(){
|
|||
// int64 ###########################################################
|
||||
// read successfully
|
||||
currentPosition = 1;
|
||||
ASSERT(NBT::helper::readInt64(dataForIntTest, dataSize, currentPosition).value == 2242829044932683046);
|
||||
ASSERT(NBT::helper::readInt64(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt64(dataForIntTest, dataSize, currentPosition).value == 2242829044932683046);
|
||||
ASSERT(NBT::Helper::readInt64(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
// begin of data
|
||||
currentPosition = 0;
|
||||
ASSERT(NBT::helper::readInt64(dataForIntTest, dataSize, currentPosition).value == 2170488872094606373);
|
||||
ASSERT(NBT::helper::readInt64(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt64(dataForIntTest, dataSize, currentPosition).value == 2170488872094606373);
|
||||
ASSERT(NBT::Helper::readInt64(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
// end of data
|
||||
currentPosition = 2;
|
||||
ASSERT(NBT::helper::readInt64(dataForIntTest, dataSize, currentPosition).value == 2315169217770759719);
|
||||
ASSERT(NBT::helper::readInt64(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt64(dataForIntTest, dataSize, currentPosition).value == 2315169217770759719);
|
||||
ASSERT(NBT::Helper::readInt64(dataForIntTest, dataSize, currentPosition).isError == false);
|
||||
// partially out of bounds
|
||||
currentPosition = 3;
|
||||
ASSERT(NBT::helper::readInt64(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt64(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::Helper::readInt64(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt64(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
// fully out of bounds
|
||||
currentPosition = 10;
|
||||
ASSERT(NBT::helper::readInt64(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt64(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
ASSERT(NBT::Helper::readInt64(dataForIntTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt64(dataForIntTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
// read from a bigger blob
|
||||
currentPositionInBlob = 0xf1;
|
||||
ASSERT(NBT::helper::readInt64(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::helper::readInt64(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == 810001800766);
|
||||
ASSERT(NBT::Helper::readInt64(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::Helper::readInt64(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == 810001800766);
|
||||
|
||||
std::cout << "Passed readInt64 NBT helper test" << std::endl;
|
||||
|
||||
std::vector<uint8_t>* writeInt64TestResult = new std::vector<uint8_t>();
|
||||
NBT::helper::writeInt64(writeInt64TestResult, (int64_t) 0x0123456789ABCDEF);
|
||||
NBT::Helper::writeInt64(writeInt64TestResult, (int64_t) 0x0123456789ABCDEF);
|
||||
// delete before checking assertions so we don't leak
|
||||
std::vector<uint8_t> dereferencedWriteInt64TestResult = *writeInt64TestResult;
|
||||
delete writeInt64TestResult;
|
||||
|
@ -213,34 +213,34 @@ int main(){
|
|||
// int8 "array" ####################################################
|
||||
// read successfully
|
||||
currentPosition = 0;
|
||||
ASSERT(NBT::helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).value == std::vector<int8_t>({1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20}));
|
||||
ASSERT(NBT::helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).value == std::vector<int8_t>({1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20}));
|
||||
ASSERT(NBT::Helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).isError == false);
|
||||
// read empty
|
||||
currentPosition = 112;
|
||||
ASSERT(NBT::helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).value == std::vector<int8_t>());
|
||||
ASSERT(NBT::helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).value == std::vector<int8_t>());
|
||||
ASSERT(NBT::Helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).isError == false);
|
||||
// read overrun
|
||||
currentPosition = 20;
|
||||
ASSERT(NBT::helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::Helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
// read with size partially out of bounds
|
||||
currentPosition = 114;
|
||||
ASSERT(NBT::helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::Helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
// read out of bounds
|
||||
currentPosition = 200;
|
||||
ASSERT(NBT::helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
ASSERT(NBT::Helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt8Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
// read from a bigger blob
|
||||
currentPositionInBlob = 0x148;
|
||||
ASSERT(NBT::helper::readInt8Array(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::helper::readInt8Array(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == std::vector<int8_t>({(int8_t) 0x71, (int8_t) 0x35, (int8_t) 0x77, (int8_t) 0x62, (int8_t) 0x54, (int8_t) 0x64, (int8_t) 0xf5, (int8_t) 0x32}));
|
||||
ASSERT(NBT::Helper::readInt8Array(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::Helper::readInt8Array(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == std::vector<int8_t>({(int8_t) 0x71, (int8_t) 0x35, (int8_t) 0x77, (int8_t) 0x62, (int8_t) 0x54, (int8_t) 0x64, (int8_t) 0xf5, (int8_t) 0x32}));
|
||||
|
||||
std::cout << "Passed readInt8Array NBT helper test" << std::endl;
|
||||
|
||||
std::vector<uint8_t>* int8ArrayTestOutput = new std::vector<uint8_t>();
|
||||
int8_t writeDataTest[] = {1,2,3,4};
|
||||
NBT::helper::writeInt8Array(int8ArrayTestOutput, writeDataTest, (uint32_t)4);
|
||||
NBT::Helper::writeInt8Array(int8ArrayTestOutput, writeDataTest, (uint32_t)4);
|
||||
ASSERT(
|
||||
int8ArrayTestOutput->at(0) == 0 &&
|
||||
int8ArrayTestOutput->at(1) == 0 &&
|
||||
|
@ -252,7 +252,7 @@ int main(){
|
|||
int8ArrayTestOutput->at(7) == 4
|
||||
);
|
||||
int8ArrayTestOutput->clear();
|
||||
NBT::helper::writeInt8Array(int8ArrayTestOutput, std::vector<int8_t>({1,2,3,4}));
|
||||
NBT::Helper::writeInt8Array(int8ArrayTestOutput, std::vector<int8_t>({1,2,3,4}));
|
||||
ASSERT(
|
||||
int8ArrayTestOutput->at(0) == 0 &&
|
||||
int8ArrayTestOutput->at(1) == 0 &&
|
||||
|
@ -269,34 +269,34 @@ int main(){
|
|||
// int32 "array" ###################################################
|
||||
// read successfully
|
||||
currentPosition = 68;
|
||||
ASSERT(NBT::helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).value == std::vector<int32_t>({1027489600, 1094861636, 1162233672, 1229605708, 1296977744, 1364349780, 1431721816, 1499093852, 1566465888, 1633837924}));
|
||||
ASSERT(NBT::helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).value == std::vector<int32_t>({1027489600, 1094861636, 1162233672, 1229605708, 1296977744, 1364349780, 1431721816, 1499093852, 1566465888, 1633837924}));
|
||||
ASSERT(NBT::Helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).isError == false);
|
||||
// read empty
|
||||
currentPosition = 112;
|
||||
ASSERT(NBT::helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).value == std::vector<int32_t>());
|
||||
ASSERT(NBT::helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).value == std::vector<int32_t>());
|
||||
ASSERT(NBT::Helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).isError == false);
|
||||
// read overrun
|
||||
currentPosition = 20;
|
||||
ASSERT(NBT::helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::Helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
// read with size partially out of bounds
|
||||
currentPosition = 114;
|
||||
ASSERT(NBT::helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::Helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
// read out of bounds
|
||||
currentPosition = 200;
|
||||
ASSERT(NBT::helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
ASSERT(NBT::Helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt32Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
// read from a bigger blob
|
||||
currentPositionInBlob = 0xd5;
|
||||
ASSERT(NBT::helper::readInt32Array(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::helper::readInt32Array(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == std::vector<int32_t>({(int32_t) 0x17bfe83c, (int32_t) 0xa8fb, (int32_t) 0x7fffffff, (int32_t) 0x61727261}));
|
||||
ASSERT(NBT::Helper::readInt32Array(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::Helper::readInt32Array(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == std::vector<int32_t>({(int32_t) 0x17bfe83c, (int32_t) 0xa8fb, (int32_t) 0x7fffffff, (int32_t) 0x61727261}));
|
||||
|
||||
std::cout << "Passed readInt32Array NBT helper test" << std::endl;
|
||||
|
||||
std::vector<uint8_t>* int32ArrayTestOutput = new std::vector<uint8_t>();
|
||||
int32_t input32[] = {0x01234567, 0x01234567};
|
||||
NBT::helper::writeInt32Array(int32ArrayTestOutput, input32, 2);
|
||||
NBT::Helper::writeInt32Array(int32ArrayTestOutput, input32, 2);
|
||||
ASSERT(
|
||||
int32ArrayTestOutput->at(0) == 0x00 &&
|
||||
int32ArrayTestOutput->at(1) == 0x00 &&
|
||||
|
@ -312,7 +312,7 @@ int main(){
|
|||
int32ArrayTestOutput->at(11) == 0x67
|
||||
);
|
||||
int32ArrayTestOutput->clear();
|
||||
NBT::helper::writeInt32Array(int32ArrayTestOutput, std::vector<int32_t>({0x01234567, 0x01234567}));
|
||||
NBT::Helper::writeInt32Array(int32ArrayTestOutput, std::vector<int32_t>({0x01234567, 0x01234567}));
|
||||
ASSERT(
|
||||
int32ArrayTestOutput->at(0) == 0x00 &&
|
||||
int32ArrayTestOutput->at(1) == 0x00 &&
|
||||
|
@ -334,34 +334,34 @@ int main(){
|
|||
// int64 "array" ###################################################
|
||||
// read successfully
|
||||
currentPosition = 44;
|
||||
ASSERT(NBT::helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).value == std::vector<int64_t>({2966230773313449776, 3544952156018063160, 4123673537695186954, 4413034230074983236, 4991755612779596620}));
|
||||
ASSERT(NBT::helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).value == std::vector<int64_t>({2966230773313449776, 3544952156018063160, 4123673537695186954, 4413034230074983236, 4991755612779596620}));
|
||||
ASSERT(NBT::Helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).isError == false);
|
||||
// read empty
|
||||
currentPosition = 112;
|
||||
ASSERT(NBT::helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).value == std::vector<int64_t>());
|
||||
ASSERT(NBT::helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).value == std::vector<int64_t>());
|
||||
ASSERT(NBT::Helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).isError == false);
|
||||
// read overrun
|
||||
currentPosition = 20;
|
||||
ASSERT(NBT::helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::Helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
// read with size partially out of bounds
|
||||
currentPosition = 114;
|
||||
ASSERT(NBT::helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::Helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
// read out of bounds
|
||||
currentPosition = 200;
|
||||
ASSERT(NBT::helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
ASSERT(NBT::Helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readInt64Array(dataForIntArrayTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
// read from a bigger blob
|
||||
currentPositionInBlob = 0x107;
|
||||
ASSERT(NBT::helper::readInt64Array(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::helper::readInt64Array(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == std::vector<int64_t>({(int64_t) 239865, (int64_t) 23586749, (int64_t) 9223372036854775807, (int64_t) 188944201329624, (int64_t) 3116157694992754}));
|
||||
ASSERT(NBT::Helper::readInt64Array(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::Helper::readInt64Array(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == std::vector<int64_t>({(int64_t) 239865, (int64_t) 23586749, (int64_t) 9223372036854775807, (int64_t) 188944201329624, (int64_t) 3116157694992754}));
|
||||
|
||||
std::cout << "Passed readInt64Array NBT helper test" << std::endl;
|
||||
|
||||
std::vector<uint8_t>* int64ArrayTestOutput = new std::vector<uint8_t>();
|
||||
int64_t input64[] = {0x0123456789ABCDEF, 0x0123456789ABCDEF};
|
||||
NBT::helper::writeInt64Array(int64ArrayTestOutput, input64, 2);
|
||||
NBT::Helper::writeInt64Array(int64ArrayTestOutput, input64, 2);
|
||||
ASSERT(
|
||||
int64ArrayTestOutput->at(0) == 0x00 &&
|
||||
int64ArrayTestOutput->at(1) == 0x00 &&
|
||||
|
@ -385,7 +385,7 @@ int main(){
|
|||
int64ArrayTestOutput->at(19) == 0xEF
|
||||
);
|
||||
int64ArrayTestOutput->clear();
|
||||
NBT::helper::writeInt64Array(int64ArrayTestOutput, std::vector<int64_t>({0x0123456789ABCDEF, 0x0123456789ABCDEF}));
|
||||
NBT::Helper::writeInt64Array(int64ArrayTestOutput, std::vector<int64_t>({0x0123456789ABCDEF, 0x0123456789ABCDEF}));
|
||||
ASSERT(
|
||||
int64ArrayTestOutput->at(0) == 0x00 &&
|
||||
int64ArrayTestOutput->at(1) == 0x00 &&
|
||||
|
@ -418,25 +418,25 @@ int main(){
|
|||
dataSize = 4;
|
||||
currentPosition = 0;
|
||||
// read successfully
|
||||
ASSERT(NBT::helper::readFloat(dataForFloatTest, dataSize, currentPosition).value == -63351.46484375f);
|
||||
ASSERT(NBT::helper::readFloat(dataForFloatTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readFloat(dataForFloatTest, dataSize, currentPosition).value == -63351.46484375f);
|
||||
ASSERT(NBT::Helper::readFloat(dataForFloatTest, dataSize, currentPosition).isError == false);
|
||||
// read overrun
|
||||
currentPosition = 1;
|
||||
ASSERT(NBT::helper::readFloat(dataForFloatTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readFloat(dataForFloatTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::Helper::readFloat(dataForFloatTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readFloat(dataForFloatTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
// read out of bounds
|
||||
currentPosition = 4;
|
||||
ASSERT(NBT::helper::readFloat(dataForFloatTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readFloat(dataForFloatTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
ASSERT(NBT::Helper::readFloat(dataForFloatTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readFloat(dataForFloatTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
// read from a bigger blob
|
||||
currentPositionInBlob = 0xad;
|
||||
ASSERT(NBT::helper::readFloat(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::helper::readFloat(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == 35.2678337097168);
|
||||
ASSERT(NBT::Helper::readFloat(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::Helper::readFloat(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == 35.2678337097168);
|
||||
|
||||
std::cout << "Passed readFloat NBT helper test" << std::endl;
|
||||
|
||||
std::vector<uint8_t>* writeFloatTestResult = new std::vector<uint8_t>();
|
||||
NBT::helper::writeFloat(writeFloatTestResult, (float) -63351.46484375f);
|
||||
NBT::Helper::writeFloat(writeFloatTestResult, (float) -63351.46484375f);
|
||||
std::vector<uint8_t> dereferencedWriteFloatTestResult = *writeFloatTestResult;
|
||||
delete writeFloatTestResult;
|
||||
ASSERT(
|
||||
|
@ -453,25 +453,25 @@ int main(){
|
|||
dataSize = 8;
|
||||
currentPosition = 0;
|
||||
// read successfully
|
||||
ASSERT(NBT::helper::readDouble(dataForDoubleTest, dataSize, currentPosition).value == -20.015625476837158203125);
|
||||
ASSERT(NBT::helper::readDouble(dataForDoubleTest, dataSize, currentPosition).isError == false);
|
||||
ASSERT(NBT::Helper::readDouble(dataForDoubleTest, dataSize, currentPosition).value == -20.015625476837158203125);
|
||||
ASSERT(NBT::Helper::readDouble(dataForDoubleTest, dataSize, currentPosition).isError == false);
|
||||
// read overrun
|
||||
currentPosition = 1;
|
||||
ASSERT(NBT::helper::readDouble(dataForDoubleTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readDouble(dataForDoubleTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::Helper::readDouble(dataForDoubleTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readDouble(dataForDoubleTest, dataSize, currentPosition).errorCode == ErrorCodes::OVERRUN);
|
||||
// read out of bounds
|
||||
currentPosition = 8;
|
||||
ASSERT(NBT::helper::readDouble(dataForDoubleTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::helper::readDouble(dataForDoubleTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
ASSERT(NBT::Helper::readDouble(dataForDoubleTest, dataSize, currentPosition).isError == true);
|
||||
ASSERT(NBT::Helper::readDouble(dataForDoubleTest, dataSize, currentPosition).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
// read from a bigger blob
|
||||
currentPositionInBlob = 0x9d;
|
||||
ASSERT(NBT::helper::readDouble(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::helper::readDouble(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == 623593.6542742235);
|
||||
ASSERT(NBT::Helper::readDouble(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::Helper::readDouble(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == 623593.6542742235);
|
||||
|
||||
std::cout << "Passed readDouble NBT helper test" << std::endl;
|
||||
|
||||
std::vector<uint8_t>* writeDoubleTestResult = new std::vector<uint8_t>();
|
||||
NBT::helper::writeDouble(writeDoubleTestResult, (double) -20.015625476837158203125);
|
||||
NBT::Helper::writeDouble(writeDoubleTestResult, (double) -20.015625476837158203125);
|
||||
std::vector<uint8_t> dereferencedWriteDoubleTestResult = *writeDoubleTestResult;
|
||||
delete writeDoubleTestResult;
|
||||
ASSERT(
|
||||
|
@ -533,16 +533,16 @@ int main(){
|
|||
tiny_utf8::string normalString = tiny_utf8::string(normalStdString);
|
||||
delete nextChar;
|
||||
|
||||
ASSERT(normalString == NBT::helper::readString(reinterpret_cast<uint8_t*>(javaStdString.data()), javaStdString.size(), 0).value)
|
||||
ASSERT(normalString == NBT::Helper::readString(reinterpret_cast<uint8_t*>(javaStdString.data()), javaStdString.size(), 0).value)
|
||||
|
||||
javaStdString[0] = '1';
|
||||
ASSERT(NBT::helper::readString(reinterpret_cast<uint8_t*>(javaStdString.data()), javaStdString.size(), 0).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::helper::readString(reinterpret_cast<uint8_t*>(javaStdString.data()), javaStdString.size(), javaStdString.size()).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
ASSERT(NBT::Helper::readString(reinterpret_cast<uint8_t*>(javaStdString.data()), javaStdString.size(), 0).errorCode == ErrorCodes::OVERRUN);
|
||||
ASSERT(NBT::Helper::readString(reinterpret_cast<uint8_t*>(javaStdString.data()), javaStdString.size(), javaStdString.size()).errorCode == ErrorCodes::OUT_OF_RANGE);
|
||||
|
||||
//reading data from the blob at the top of this file
|
||||
currentPositionInBlob = 0x1cf;
|
||||
ASSERT(NBT::helper::readString(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::helper::readString(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == "Hello World!");
|
||||
ASSERT(NBT::Helper::readString(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).isError == false);
|
||||
ASSERT(NBT::Helper::readString(validNBTDataBlob, validNBTDataBlobSize, currentPositionInBlob).value == "Hello World!");
|
||||
|
||||
std::cout << "Passed readString NBT helper test." << std::endl;
|
||||
|
||||
|
@ -570,7 +570,7 @@ int main(){
|
|||
delete nextChar1;
|
||||
|
||||
std::vector<uint8_t>* exportedString = new std::vector<uint8_t>();
|
||||
NBT::helper::writeString(exportedString, normalString);
|
||||
NBT::Helper::writeString(exportedString, normalString);
|
||||
ASSERT(javaStdString1 == *exportedString);
|
||||
|
||||
std::cout << "Passed writeString NBT helper test." << std::endl;
|
||||
|
|
|
@ -101,16 +101,16 @@ int main() {
|
|||
// Basic valid data tests
|
||||
//##################################################################
|
||||
// const uint8_t END = 0;
|
||||
ErrorOr<uint64_t> totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x93);
|
||||
ErrorOr<int32_t> dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x93);
|
||||
ErrorOr<uint64_t> totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x93);
|
||||
ErrorOr<int32_t> dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x93);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 1);
|
||||
ASSERT(!dataLength.isError);
|
||||
ASSERT(dataLength.value == 0);
|
||||
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 477);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 477);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 477);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 477);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 1);
|
||||
|
@ -118,8 +118,8 @@ int main() {
|
|||
ASSERT(dataLength.value == 0);
|
||||
|
||||
//const uint8_t INT8 = 1;
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x133);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x133);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x133);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x133);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 8);
|
||||
|
@ -127,8 +127,8 @@ int main() {
|
|||
ASSERT(dataLength.value == 1);
|
||||
|
||||
//const uint8_t INT16 = 2;
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0xb1);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0xb1);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0xb1);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0xb1);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 10);
|
||||
|
@ -136,16 +136,16 @@ int main() {
|
|||
ASSERT(dataLength.value == 1);
|
||||
|
||||
//const uint8_t INT32 = 3;
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0xbb);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0xbb);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0xbb);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0xbb);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 12);
|
||||
ASSERT(!dataLength.isError);
|
||||
ASSERT(dataLength.value == 1);
|
||||
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x67);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x67);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x67);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x67);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 18);
|
||||
|
@ -153,8 +153,8 @@ int main() {
|
|||
ASSERT(dataLength.value == 1);
|
||||
|
||||
//const uint8_t INT64 = 4;
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0xe9);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0xe9);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0xe9);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0xe9);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 16);
|
||||
|
@ -162,8 +162,8 @@ int main() {
|
|||
ASSERT(dataLength.value == 1);
|
||||
|
||||
//const uint8_t FLOAT = 5;
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0xa5);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0xa5);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0xa5);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0xa5);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 12);
|
||||
|
@ -171,8 +171,8 @@ int main() {
|
|||
ASSERT(dataLength.value == 1);
|
||||
|
||||
//const uint8_t DOUBLE = 6;
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x94);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x94);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x94);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x94);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 17);
|
||||
|
@ -180,8 +180,8 @@ int main() {
|
|||
ASSERT(dataLength.value == 1);
|
||||
|
||||
//const uint8_t INT8_ARRAY = 7;
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x13b);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x13b);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x13b);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x13b);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 25);
|
||||
|
@ -189,16 +189,16 @@ int main() {
|
|||
ASSERT(dataLength.value == 8);
|
||||
|
||||
//const uint8_t STRING = 8;
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x1c6);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x1c6);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x1c6);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x1c6);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 23);
|
||||
ASSERT(!dataLength.isError);
|
||||
ASSERT(dataLength.value == 12);
|
||||
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x79);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x79);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x79);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x79);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 26);
|
||||
|
@ -206,16 +206,16 @@ int main() {
|
|||
ASSERT(dataLength.value == 12);
|
||||
|
||||
//const uint8_t LIST = 9;
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x154);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x154);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x154);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x154);
|
||||
|
||||
ASSERT(totalSize.isError);
|
||||
ASSERT(totalSize.errorCode == ErrorCodes::NOT_YET_KNOWN);
|
||||
ASSERT(!dataLength.isError);
|
||||
ASSERT(dataLength.value == 5);
|
||||
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x16a);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x16a);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x16a);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x16a);
|
||||
|
||||
ASSERT(totalSize.isError);
|
||||
ASSERT(totalSize.errorCode == ErrorCodes::NOT_YET_KNOWN);
|
||||
|
@ -223,8 +223,8 @@ int main() {
|
|||
ASSERT(dataLength.value == 12);
|
||||
|
||||
//const uint8_t COMPOUND = 10;
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x5c);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x5c);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0x5c);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0x5c);
|
||||
|
||||
ASSERT(totalSize.isError);
|
||||
ASSERT(totalSize.errorCode == ErrorCodes::NOT_YET_KNOWN);
|
||||
|
@ -232,8 +232,8 @@ int main() {
|
|||
ASSERT(dataLength.errorCode == ErrorCodes::NOT_YET_KNOWN);
|
||||
|
||||
//const uint8_t INT32_ARRAY= 11;
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0xc7);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0xc7);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0xc7);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0xc7);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 34);
|
||||
|
@ -241,8 +241,8 @@ int main() {
|
|||
ASSERT(dataLength.value == 4);
|
||||
|
||||
//const uint8_t INT64_ARRAY= 12;
|
||||
totalSize = NBT::helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0xf9);
|
||||
dataLength = NBT::helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0xf9);
|
||||
totalSize = NBT::Helper::totalTagSize(simpleNBTData, simpleNBTDataSize, 0xf9);
|
||||
dataLength = NBT::Helper::containedDataLength(simpleNBTData, simpleNBTDataSize, 0xf9);
|
||||
|
||||
ASSERT(!totalSize.isError);
|
||||
ASSERT(totalSize.value == 58);
|
||||
|
|
|
@ -27,5 +27,5 @@ int main() {
|
|||
std::cout << "This is supposed to abort." << std::endl;
|
||||
std::vector<uint8_t>* exportedString = new std::vector<uint8_t>();
|
||||
std::string overrunString = std::string(0xFFFFF, '.');
|
||||
NBT::helper::writeString(exportedString, tiny_utf8::string(overrunString));
|
||||
NBT::Helper::writeString(exportedString, tiny_utf8::string(overrunString));
|
||||
}
|
||||
|
|
Loading…
Reference in New Issue