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https://github.com/DarkflameUniverse/DarkflameServer.git
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4fe335cc66
* Update AMFDeserializeTests.cpp Redo Amf3 functionality Overhaul the whole thing due to it being outdated and clunky to use Sometimes you want to keep the value Update AMFDeserializeTests.cpp * Fix enum and constructors Correct enum to a class and simplify names. Add a proper default constructor * Update MasterServer.cpp * Fix bugs and add more tests * Refactor: AMF with templates in mind - Remove hard coded bodge - Use templates and generics to allow for much looser typing and strengthened implementation - Move code into header only implementation for portability Refactor: Convert AMF implementation to templates - Rip out previous implementation - Remove all extraneous terminology - Add proper overloads for all types of inserts - Fix up tests and codebase * Fix compiler errors * Check for null first * Add specialization for const char* * Update tests for new template specialization * Switch BitStream to use references * Rename files * Check enum bounds on deserialize I did this on a phone
448 lines
12 KiB
C++
448 lines
12 KiB
C++
#include <fstream>
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#include <memory>
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#include <gtest/gtest.h>
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#include "AMFDeserialize.h"
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#include "Amf3.h"
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#include "Game.h"
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#include "dLogger.h"
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/**
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* Helper method that all tests use to get their respective AMF.
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*/
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AMFBaseValue* ReadFromBitStream(RakNet::BitStream* bitStream) {
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AMFDeserialize deserializer;
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AMFBaseValue* returnValue(deserializer.Read(bitStream));
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return returnValue;
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}
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/**
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* @brief Test reading an AMFUndefined value from a BitStream.
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*/
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TEST(dCommonTests, AMFDeserializeAMFUndefinedTest) {
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CBITSTREAM;
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bitStream.Write<uint8_t>(0x00);
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std::unique_ptr<AMFBaseValue> res(ReadFromBitStream(&bitStream));
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ASSERT_EQ(res->GetValueType(), eAmf::Undefined);
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}
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/**
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* @brief Test reading an AMFNull value from a BitStream.
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*
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*/
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TEST(dCommonTests, AMFDeserializeAMFNullTest) {
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CBITSTREAM;
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bitStream.Write<uint8_t>(0x01);
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std::unique_ptr<AMFBaseValue> res(ReadFromBitStream(&bitStream));
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ASSERT_EQ(res->GetValueType(), eAmf::Null);
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}
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/**
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* @brief Test reading an AMFFalse value from a BitStream.
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*/
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TEST(dCommonTests, AMFDeserializeAMFFalseTest) {
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CBITSTREAM;
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bitStream.Write<uint8_t>(0x02);
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std::unique_ptr<AMFBaseValue> res(ReadFromBitStream(&bitStream));
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ASSERT_EQ(res->GetValueType(), eAmf::False);
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}
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/**
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* @brief Test reading an AMFTrue value from a BitStream.
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*/
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TEST(dCommonTests, AMFDeserializeAMFTrueTest) {
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CBITSTREAM;
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bitStream.Write<uint8_t>(0x03);
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std::unique_ptr<AMFBaseValue> res(ReadFromBitStream(&bitStream));
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ASSERT_EQ(res->GetValueType(), eAmf::True);
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}
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/**
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* @brief Test reading an AMFInteger value from a BitStream.
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*/
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TEST(dCommonTests, AMFDeserializeAMFIntegerTest) {
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CBITSTREAM;
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{
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bitStream.Write<uint8_t>(0x04);
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// 127 == 01111111
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bitStream.Write<uint8_t>(127);
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std::unique_ptr<AMFBaseValue> res(ReadFromBitStream(&bitStream));
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ASSERT_EQ(res->GetValueType(), eAmf::Integer);
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// Check that the max value of a byte can be read correctly
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ASSERT_EQ(static_cast<AMFIntValue*>(res.get())->GetValue(), 127);
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}
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bitStream.Reset();
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{
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bitStream.Write<uint8_t>(0x04);
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bitStream.Write<uint32_t>(UINT32_MAX);
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std::unique_ptr<AMFBaseValue> res(ReadFromBitStream(&bitStream));
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ASSERT_EQ(res->GetValueType(), eAmf::Integer);
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// Check that we can read the maximum value correctly
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ASSERT_EQ(static_cast<AMFIntValue*>(res.get())->GetValue(), 536870911);
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}
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bitStream.Reset();
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{
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bitStream.Write<uint8_t>(0x04);
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// 131 == 10000011
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bitStream.Write<uint8_t>(131);
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// 255 == 11111111
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bitStream.Write<uint8_t>(255);
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// 127 == 01111111
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bitStream.Write<uint8_t>(127);
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std::unique_ptr<AMFBaseValue> res(ReadFromBitStream(&bitStream));
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ASSERT_EQ(res->GetValueType(), eAmf::Integer);
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// Check that short max can be read correctly
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ASSERT_EQ(static_cast<AMFIntValue*>(res.get())->GetValue(), UINT16_MAX);
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}
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bitStream.Reset();
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{
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bitStream.Write<uint8_t>(0x04);
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// 255 == 11111111
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bitStream.Write<uint8_t>(255);
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// 127 == 01111111
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bitStream.Write<uint8_t>(127);
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std::unique_ptr<AMFBaseValue> res(ReadFromBitStream(&bitStream));
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ASSERT_EQ(res->GetValueType(), eAmf::Integer);
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// Check that 2 byte max can be read correctly
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ASSERT_EQ(static_cast<AMFIntValue*>(res.get())->GetValue(), 16383);
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}
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}
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/**
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* @brief Test reading an AMFDouble value from a BitStream.
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*/
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TEST(dCommonTests, AMFDeserializeAMFDoubleTest) {
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CBITSTREAM;
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bitStream.Write<uint8_t>(0x05);
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bitStream.Write<double>(25346.4f);
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std::unique_ptr<AMFBaseValue> res(ReadFromBitStream(&bitStream));
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ASSERT_EQ(res->GetValueType(), eAmf::Double);
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ASSERT_EQ(static_cast<AMFDoubleValue*>(res.get())->GetValue(), 25346.4f);
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}
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/**
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* @brief Test reading an AMFString value from a BitStream.
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*/
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TEST(dCommonTests, AMFDeserializeAMFStringTest) {
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CBITSTREAM;
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bitStream.Write<uint8_t>(0x06);
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bitStream.Write<uint8_t>(0x0F);
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std::string toWrite = "stateID";
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for (auto e : toWrite) bitStream.Write<char>(e);
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std::unique_ptr<AMFBaseValue> res(ReadFromBitStream(&bitStream));
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ASSERT_EQ(res->GetValueType(), eAmf::String);
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ASSERT_EQ(static_cast<AMFStringValue*>(res.get())->GetValue(), "stateID");
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}
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/**
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* @brief Test reading an AMFArray value from a BitStream.
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*/
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TEST(dCommonTests, AMFDeserializeAMFArrayTest) {
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CBITSTREAM;
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// Test empty AMFArray
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bitStream.Write<uint8_t>(0x09);
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bitStream.Write<uint8_t>(0x01);
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bitStream.Write<uint8_t>(0x01);
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{
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std::unique_ptr<AMFBaseValue> res(ReadFromBitStream(&bitStream));
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ASSERT_EQ(res->GetValueType(), eAmf::Array);
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ASSERT_EQ(static_cast<AMFArrayValue*>(res.get())->GetAssociative().size(), 0);
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ASSERT_EQ(static_cast<AMFArrayValue*>(res.get())->GetDense().size(), 0);
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}
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bitStream.Reset();
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// Test a key'd value and dense value
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bitStream.Write<uint8_t>(0x09);
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bitStream.Write<uint8_t>(0x03);
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bitStream.Write<uint8_t>(0x15);
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for (auto e : "BehaviorID") if (e != '\0') bitStream.Write<char>(e);
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bitStream.Write<uint8_t>(0x06);
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bitStream.Write<uint8_t>(0x0B);
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for (auto e : "10447") if (e != '\0') bitStream.Write<char>(e);
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bitStream.Write<uint8_t>(0x01);
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bitStream.Write<uint8_t>(0x06);
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bitStream.Write<uint8_t>(0x0B);
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for (auto e : "10447") if (e != '\0') bitStream.Write<char>(e);
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{
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std::unique_ptr<AMFBaseValue> res(ReadFromBitStream(&bitStream));
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ASSERT_EQ(res->GetValueType(), eAmf::Array);
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ASSERT_EQ(static_cast<AMFArrayValue*>(res.get())->GetAssociative().size(), 1);
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ASSERT_EQ(static_cast<AMFArrayValue*>(res.get())->GetDense().size(), 1);
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ASSERT_EQ(static_cast<AMFArrayValue*>(res.get())->Get<std::string>("BehaviorID")->GetValue(), "10447");
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ASSERT_EQ(static_cast<AMFArrayValue*>(res.get())->Get<std::string>(0)->GetValue(), "10447");
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}
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}
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/**
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* @brief This test checks that if we recieve an unimplemented eAmf
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* we correctly throw an error and can actch it.
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* Yes this leaks memory.
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*/
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TEST(dCommonTests, AMFDeserializeUnimplementedValuesTest) {
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std::vector<eAmf> unimplementedValues = {
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eAmf::XMLDoc,
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eAmf::Date,
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eAmf::Object,
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eAmf::XML,
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eAmf::ByteArray,
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eAmf::VectorInt,
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eAmf::VectorUInt,
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eAmf::VectorDouble,
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eAmf::VectorObject,
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eAmf::Dictionary
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};
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// Run unimplemented tests to check that errors are thrown if
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// unimplemented AMF values are attempted to be parsed.
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std::ifstream fileStream;
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fileStream.open("AMFBitStreamUnimplementedTest.bin", std::ios::binary);
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// Read a test BitStream from a file
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std::vector<char> baseBitStream;
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char byte = 0;
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while (fileStream.get(byte)) {
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baseBitStream.push_back(byte);
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}
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fileStream.close();
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for (auto value : unimplementedValues) {
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RakNet::BitStream testBitStream;
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for (auto element : baseBitStream) {
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testBitStream.Write(element);
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}
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testBitStream.Write(value);
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bool caughtException = false;
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try {
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ReadFromBitStream(&testBitStream);
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} catch (eAmf unimplementedValueType) {
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caughtException = true;
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}
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ASSERT_EQ(caughtException, true);
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}
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}
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/**
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* @brief Test reading a packet capture from live from a BitStream
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*/
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TEST(dCommonTests, AMFDeserializeLivePacketTest) {
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std::ifstream testFileStream;
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testFileStream.open("AMFBitStreamTest.bin", std::ios::binary);
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// Read a test BitStream from a file
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RakNet::BitStream testBitStream;
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char byte = 0;
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while (testFileStream.get(byte)) {
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testBitStream.Write<char>(byte);
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}
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testFileStream.close();
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std::unique_ptr<AMFBaseValue> resultFromFn(ReadFromBitStream(&testBitStream));
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auto result = static_cast<AMFArrayValue*>(resultFromFn.get());
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// Test the outermost array
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ASSERT_EQ(result->Get<std::string>("BehaviorID")->GetValue(), "10447");
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ASSERT_EQ(result->Get<std::string>("objectID")->GetValue(), "288300744895913279");
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// Test the execution state array
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auto executionState = result->GetArray("executionState");
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ASSERT_NE(executionState, nullptr);
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auto strips = executionState->GetArray("strips")->GetDense();
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ASSERT_EQ(strips.size(), 1);
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auto stripsPosition0 = dynamic_cast<AMFArrayValue*>(strips[0]);
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auto actionIndex = stripsPosition0->Get<double>("actionIndex");
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ASSERT_EQ(actionIndex->GetValue(), 0.0f);
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auto stripIdExecution = stripsPosition0->Get<double>("id");
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ASSERT_EQ(stripIdExecution->GetValue(), 0.0f);
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auto stateIdExecution = executionState->Get<double>("stateID");
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ASSERT_EQ(stateIdExecution->GetValue(), 0.0f);
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auto states = result->GetArray("states")->GetDense();
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ASSERT_EQ(states.size(), 1);
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auto firstState = dynamic_cast<AMFArrayValue*>(states[0]);
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auto stateID = firstState->Get<double>("id");
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ASSERT_EQ(stateID->GetValue(), 0.0f);
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auto stripsInState = firstState->GetArray("strips")->GetDense();
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ASSERT_EQ(stripsInState.size(), 1);
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auto firstStrip = dynamic_cast<AMFArrayValue*>(stripsInState[0]);
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auto actionsInFirstStrip = firstStrip->GetArray("actions")->GetDense();
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ASSERT_EQ(actionsInFirstStrip.size(), 3);
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auto actionID = firstStrip->Get<double>("id");
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ASSERT_EQ(actionID->GetValue(), 0.0f);
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auto uiArray = firstStrip->GetArray("ui");
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auto xPos = uiArray->Get<double>("x");
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auto yPos = uiArray->Get<double>("y");
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ASSERT_EQ(xPos->GetValue(), 103.0f);
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ASSERT_EQ(yPos->GetValue(), 82.0f);
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auto stripId = firstStrip->Get<double>("id");
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ASSERT_EQ(stripId->GetValue(), 0.0f);
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auto firstAction = dynamic_cast<AMFArrayValue*>(actionsInFirstStrip[0]);
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auto firstType = firstAction->Get<std::string>("Type");
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ASSERT_EQ(firstType->GetValue(), "OnInteract");
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auto firstCallback = firstAction->Get<std::string>("__callbackID__");
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ASSERT_EQ(firstCallback->GetValue(), "");
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auto secondAction = dynamic_cast<AMFArrayValue*>(actionsInFirstStrip[1]);
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auto secondType = secondAction->Get<std::string>("Type");
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ASSERT_EQ(secondType->GetValue(), "FlyUp");
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auto secondCallback = secondAction->Get<std::string>("__callbackID__");
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ASSERT_EQ(secondCallback->GetValue(), "");
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auto secondDistance = secondAction->Get<double>("Distance");
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ASSERT_EQ(secondDistance->GetValue(), 25.0f);
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auto thirdAction = dynamic_cast<AMFArrayValue*>(actionsInFirstStrip[2]);
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auto thirdType = thirdAction->Get<std::string>("Type");
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ASSERT_EQ(thirdType->GetValue(), "FlyDown");
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auto thirdCallback = thirdAction->Get<std::string>("__callbackID__");
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ASSERT_EQ(thirdCallback->GetValue(), "");
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auto thirdDistance = thirdAction->Get<double>("Distance");
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ASSERT_EQ(thirdDistance->GetValue(), 25.0f);
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}
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/**
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* @brief Tests that having no BitStream returns a nullptr.
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*/
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TEST(dCommonTests, AMFDeserializeNullTest) {
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std::unique_ptr<AMFBaseValue> result(ReadFromBitStream(nullptr));
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ASSERT_EQ(result.get(), nullptr);
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}
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TEST(dCommonTests, AMFBadConversionTest) {
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std::ifstream testFileStream;
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testFileStream.open("AMFBitStreamTest.bin", std::ios::binary);
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// Read a test BitStream from a file
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RakNet::BitStream testBitStream;
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char byte = 0;
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while (testFileStream.get(byte)) {
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testBitStream.Write<char>(byte);
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}
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testFileStream.close();
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std::unique_ptr<AMFBaseValue> resultFromFn(ReadFromBitStream(&testBitStream));
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auto result = static_cast<AMFArrayValue*>(resultFromFn.get());
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// Actually a string value.
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ASSERT_EQ(result->Get<double>("BehaviorID"), nullptr);
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// Does not exist in the associative portion
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ASSERT_EQ(result->Get<nullptr_t>("DOES_NOT_EXIST"), nullptr);
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result->Push(true);
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// Exists and is correct type
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ASSERT_NE(result->Get<bool>(0), nullptr);
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// Value exists but is wrong typing
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ASSERT_EQ(result->Get<std::string>(0), nullptr);
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// Value is out of bounds
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ASSERT_EQ(result->Get<bool>(1), nullptr);
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}
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/**
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* Below is the AMF that is in the AMFBitStreamTest.bin file that we are reading in
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* from a bitstream to test.
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args: amf3!
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{
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"objectID": "288300744895913279",
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"BehaviorID": "10447",
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"executionState": amf3!
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{
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"strips": amf3!
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[
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amf3!
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{
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"actionIndex": 0.0,
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"id": 0.0,
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},
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],
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"stateID": 0.0,
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},
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"states": amf3!
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[
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amf3!
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{
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"id": 0.0,
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"strips": amf3!
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[
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amf3!
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{
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"actions": amf3!
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[
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amf3!
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{
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"Type": "OnInteract",
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"__callbackID__": "",
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},
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amf3!
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{
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"Distance": 25.0,
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"Type": "FlyUp",
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"__callbackID__": "",
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},
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amf3!
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{
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"Distance": 25.0,
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"Type": "FlyDown",
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"__callbackID__": "",
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},
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],
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"id": 0.0,
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"ui": amf3!
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{
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"x": 103.0,
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"y": 82.0,
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},
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},
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],
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},
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],
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}
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*/
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