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Merge branch 'experimental' into dev

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This commit is contained in:
Simon Pribylski
2025-08-04 10:22:42 +02:00
parent cd03175b98 1ca88106ac
commit d1d71ed086
97 changed files with 3654 additions and 2069 deletions
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188
include/td/Maths.h Normal file
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@@ -0,0 +1,188 @@
#pragma once
#include <cstdint>
namespace td {
static constexpr float PI = 3.141592653f;
template <typename T>
struct Vec2 {
union {
T x;
T r;
};
union {
T y;
T g;
};
constexpr Vec2(T X = T(0), T Y = T(0)) : x(X), y(Y) {}
};
template <typename T>
inline bool operator==(const Vec2<T>& vec2, const Vec2<T>& other) {
return vec2.x == other.x && vec2.y == other.y;
}
template <typename T>
struct Vec3 {
union {
T x;
T r;
};
union {
T y;
T g;
};
union {
T z;
T b;
};
constexpr Vec3(T X = 0, T Y = 0, T Z = 0) : x(X), y(Y), z(Z) {}
};
template <typename T>
inline bool operator==(const Vec3<T>& vec3, const Vec3<T>& other) {
return vec3.x == other.x && vec3.y == other.y && vec3.z == other.z;
}
template <typename T>
struct Vec4 {
union {
T x;
T r;
};
union {
T y;
T g;
};
union {
T z;
T b;
};
union {
T w;
T a;
};
constexpr Vec4(Vec3<T> vec, T W = 1) : x(vec.x), y(vec.y), z(vec.z), w(W) {}
constexpr Vec4(T X = 0, T Y = 0, T Z = 0, T W = 0) : x(X), y(Y), z(Z), w(W) {}
};
template <typename T>
inline bool operator==(const Vec4<T>& vec4, const Vec4<T>& other) {
return vec4.x == other.x && vec4.y == other.y && vec4.z == other.z && vec4.w = other.w;
}
using Vec2i = Vec2<int>;
using Vec2u = Vec2<unsigned int>;
using Vec2f = Vec2<float>;
using Vec2d = Vec2<double>;
using Vec3i = Vec3<int>;
using Vec3u = Vec3<unsigned int>;
using Vec3f = Vec3<float>;
using Vec3d = Vec3<double>;
using Vec4i = Vec4<int>;
using Vec4u = Vec4<unsigned int>;
using Vec4f = Vec4<float>;
using Vec4d = Vec4<double>;
using Color = Vec3<unsigned char>;
template <typename T>
struct Mat4 {
static const std::size_t MATRIX_SIZE = 4;
T x0, x1, x2, x3;
T y0, y1, y2, y3;
T z0, z1, z2, z3;
T w0, w1, w2, w3;
T operator[](std::size_t offset) const {
return reinterpret_cast<const T*>(this)[offset];
}
T& operator[](std::size_t offset) {
return reinterpret_cast<T*>(this)[offset];
}
T* data() {
return reinterpret_cast<T*>(this);
}
const T* data() const {
return reinterpret_cast<const T*>(this);
}
T at(std::size_t row, std::size_t column) const {
return operator[](row * MATRIX_SIZE + column);
}
T& at(std::size_t row, std::size_t column) {
return operator[](row * MATRIX_SIZE + column);
}
};
typedef Mat4<float> Mat4f;
typedef Mat4<int> Mat4i;
typedef Mat4<double> Mat4d;
template <typename T>
inline bool operator==(const Mat4<T>& mat, const Mat4<T>& other) {
return mat.x0 == other.x0 && mat.y0 == other.y0 && mat.z0 == other.z0 && mat.w0 == other.w0 && mat.x1 == other.x1 &&
mat.y1 == other.y1 && mat.z1 == other.z1 && mat.w1 == other.w1 && mat.x2 == other.x2 && mat.y2 == other.y2 &&
mat.z2 == other.z2 && mat.w2 == other.w2 && mat.x3 == other.x3 && mat.y3 == other.y3 && mat.z3 == other.z3 &&
mat.w3 == other.w3;
}
namespace maths {
template<typename T>
Mat4<T> Transpose(const Mat4<T>& mat) {
Mat4<T> result;
result.x1 = mat.y0;
result.x2 = mat.z0;
result.x3 = mat.w0;
result.y0 = mat.x1;
result.y2 = mat.z1;
result.y3 = mat.w1;
result.z0 = mat.x2;
result.z1 = mat.y2;
result.z3 = mat.w2;
result.w0 = mat.x3;
result.w1 = mat.y3;
result.w2 = mat.z3;
result.x0 = mat.x0;
result.y1 = mat.y1;
result.z2 = mat.z2;
result.w3 = mat.w3;
return result;
}
Mat4f Perspective(float fovY, float aspectRatio, float zNear, float zFar);
Mat4f Look(const Vec3f& eye, const Vec3f& center, const Vec3f& up);
Mat4f Inverse(const Mat4f& mat);
template<typename T>
T Lerp(T v0, T v1, T t) {
return (T(1) - t) * v0 + t * v1;
}
} // namespace maths
} // namespace td

30
include/td/Types.h
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@@ -2,13 +2,19 @@
#include <cstdint>
#include <fpm/fixed.hpp>
#include <td/Maths.h>
namespace sp {
class DataBuffer;
} // namespace sp
namespace td {
using FpFloat = fpm::fixed_16_16;
enum class Team : std::uint8_t {
Blue = 0,
enum class TeamColor : std::int8_t {
None = -1,
Blue,
Red,
};
@@ -30,7 +36,7 @@ enum class EntityType : std::uint8_t {
Zombie = 0,
Spider,
Pigman,
Skeleton,
Skelon,
Creeper,
Silverfish,
Blaze,
@@ -60,12 +66,22 @@ struct TowerCoords {
std::int16_t y;
};
struct EntityCoords {
FpFloat x;
FpFloat y;
};
using EntityCoords = Vec2<FpFloat>;
using PeerID = std::uint16_t;
using StepsType = std::uint16_t;
enum class Direction : std::uint8_t {
PositiveX = 1 << 0,
NegativeX = 1 << 1,
PositiveY = 1 << 2,
NegativeY = 1 << 3,
};
sp::DataBuffer& operator<<(sp::DataBuffer& a_Buffer, const EntityCoords& a_Coords);
sp::DataBuffer& operator<<(sp::DataBuffer& a_Buffer, const FpFloat& a_Float);
sp::DataBuffer& operator>>(sp::DataBuffer& a_Buffer, EntityCoords& a_Coords);
sp::DataBuffer& operator>>(sp::DataBuffer& a_Buffer, FpFloat& a_Float);
} // namespace td

60
include/td/common/Array.h Normal file
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#pragma once
#include <cstdint>
namespace td {
/**
* Reflectable std::array
*/
template <typename T, std::size_t S>
class Array {
private:
T* m_Data;
public:
Array() : m_Data(new T[S]) {}
Array(const Array& a_Other) : Array() {
*this = a_Other;
}
Array(Array&& a_Other) {
m_Data = a_Other.m_Data;
a_Other.m_Data = nullptr;
}
Array(const std::initializer_list<T>& args) {
std::size_t i = 0;
for(const T& element : args) {
m_Data[i] = element;
i++;
}
}
Array& operator=(const Array& a_Other) {
for (std::size_t i = 0; i < S; i++) {
m_Data[i] = a_Other.m_Data[i];
}
return *this;
}
Array& operator=(Array&& a_Other) {
std::swap(m_Data, a_Other.m_Data);
return *this;
}
T& operator[](std::size_t a_Index) {
return m_Data[a_Index];
}
const T& operator[](std::size_t a_Index) const {
return m_Data[a_Index];
}
~Array() {
delete [] m_Data;
}
};
} // namespace td

300
include/td/common/DataBuffer.h
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@@ -1,300 +0,0 @@
#pragma once
/**
* \file DataBuffer.h
* \brief File containing the td::DataBuffer class
*/
#include <algorithm>
#include <array>
#include <cassert>
#include <cstdint>
#include <cstring>
#include <string>
#include <td/common/VarInt.h>
#include <vector>
namespace td {
/**
* \class DataBuffer
* \brief Class used to manipulate memory
*/
class DataBuffer {
private:
typedef std::vector<std::uint8_t> Data;
Data m_Buffer;
std::size_t m_ReadOffset;
public:
typedef Data::iterator iterator;
typedef Data::const_iterator const_iterator;
typedef Data::reference reference;
typedef Data::const_reference const_reference;
typedef Data::difference_type difference_type;
DataBuffer();
DataBuffer(const DataBuffer& other);
DataBuffer(const DataBuffer& other, difference_type offset);
DataBuffer(DataBuffer&& other);
DataBuffer(const std::string& str);
DataBuffer& operator=(const DataBuffer& other);
DataBuffer& operator=(DataBuffer&& other);
/**
* \brief Append data to the buffer
*/
template <typename T>
void Append(const T& data) {
std::size_t size = sizeof(data);
std::size_t end_pos = m_Buffer.size();
m_Buffer.resize(m_Buffer.size() + size);
std::memcpy(&m_Buffer[end_pos], &data, size);
}
/**
* \brief Append data to the buffer
*/
template <typename T>
DataBuffer& operator<<(const T& data) {
Append(data);
return *this;
}
/**
* \brief Append a string to the buffer
* \warning Don't use it for binary data !
* \param str The string to append
*/
DataBuffer& operator<<(const std::string& str);
/**
* \brief Append data to the buffer from another const buffer
* \param data The buffer to append
*/
DataBuffer& operator<<(const DataBuffer& data);
/**
* \brief Append a vector to the buffer by first writing the size
* \param data The vector to append
*/
template <typename T>
DataBuffer& operator<<(const std::vector<T>& data) {
*this << VarInt{data.size()};
for (const auto& element : data) {
*this << element;
}
return *this;
}
/**
* \brief Append an array to the buffer by first writing the size
* \param data The buffer to append
*/
template <typename T, std::size_t Size>
DataBuffer& operator<<(const std::array<T, Size>& data) {
for (const auto& element : data) {
*this << element;
}
return *this;
}
/**
* \brief Read some data from the buffer and assign to desired variable
*/
template <typename T>
DataBuffer& operator>>(T& data) {
assert(m_ReadOffset + sizeof(T) <= GetSize());
data = *(reinterpret_cast<T*>(&m_Buffer[m_ReadOffset]));
m_ReadOffset += sizeof(T);
return *this;
}
/**
* \brief Read some data from the buffer and assign to the new buffer
* \param data The buffer to assign
*/
DataBuffer& operator>>(DataBuffer& data);
/**
* \brief Read a string from the buffer
* \param str The string to assign in the new buffer
* \warning Don't use it for binary data !
*/
DataBuffer& operator>>(std::string& str);
/**
* \brief Read a vector (size + data) from the buffer
* \pre The vector is assumed to be empty
*/
template <typename T>
DataBuffer& operator>>(std::vector<T>& data) {
VarInt arraySize;
*this >> arraySize;
for (std::size_t i = 0; i < arraySize.GetValue(); i++) {
T newElement;
*this >> newElement;
data.push_back(newElement);
}
return *this;
}
/**
* \brief Read an array from the buffer
*/
template <std::size_t Size, typename T>
DataBuffer& operator>>(std::array<T, Size>& data) {
for (std::size_t i = 0; i < Size; i++) {
T newElement;
*this >> newElement;
data[i] = newElement;
}
return *this;
}
/**
* \brief Write some data to the buffer
* \param buffer The buffer to write
* \param amount The amount of data to write
*/
void WriteSome(const char* buffer, std::size_t amount);
/**
* \brief Write some data to the buffer
* \param buffer The buffer to write
* \param amount The amount of data to write
*/
void WriteSome(const std::uint8_t* buffer, std::size_t amount);
/**
* \brief Read some data from the buffer
* \param buffer The buffer to Read
* \param amount The amount of data from the buffer
*/
void ReadSome(char* buffer, std::size_t amount);
/**
* \brief Read some data from the buffer
* \param buffer The buffer to Read
* \param amount The amount of data from the buffer
*/
void ReadSome(std::uint8_t* buffer, std::size_t amount);
/**
* \brief Read some data from the buffer
* \param buffer The buffer to Read
* \param amount The amount of data from the buffer
*/
void ReadSome(DataBuffer& buffer, std::size_t amount);
/**
* \brief Resize the buffer
* \param size The new size of the buffer
*/
void Resize(std::size_t size) {
m_Buffer.resize(size);
}
/**
* \brief Reserve some space in the buffer
* \param amount The amount of space to reserve
*/
void Reserve(std::size_t amount) {
m_Buffer.reserve(amount);
}
/**
* \brief Clear the buffer
*/
void Clear() {
m_Buffer.clear();
m_ReadOffset = 0;
}
/**
* \brief When the buffer has been read entirely
*/
bool IsFinished() const {
return m_ReadOffset >= m_Buffer.size();
}
/**
* \brief Get the buffer data
*/
std::uint8_t* data() {
return m_Buffer.data();
}
/**
* \brief Get the buffer data
*/
const std::uint8_t* data() const {
return m_Buffer.data();
}
/**
* \brief Get the read offset
*/
std::size_t GetReadOffset() const {
return m_ReadOffset;
}
/**
* \brief Set the read offset
* \param pos The new read offset
*/
void SetReadOffset(std::size_t pos);
/**
* \brief Get the size of the buffer
*/
std::size_t GetSize() const;
/**
* \brief Get the remaining size of the buffer
*/
std::size_t GetRemaining() const;
/**
* \brief Read a file into the buffer
* \param fileName The name of the file to read
*/
bool ReadFile(const std::string& fileName);
/**
* \brief Write a file into the buffer
* \param fileName The name of the file to write to
*/
bool WriteFile(const std::string& fileName) const;
/**
* \brief Allocate the buffer on the heap
* \warning Don't forget to free the data !
*/
std::uint8_t* HeapAllocatedData() const {
std::uint8_t* newBuffer = new std::uint8_t[GetSize()];
std::memcpy(newBuffer, data(), GetSize());
return newBuffer;
}
/**
* \brief Operator == to compare two DataBuffer
*/
bool operator==(const DataBuffer& other) const {
return m_Buffer == other.m_Buffer;
}
iterator begin();
iterator end();
const_iterator begin() const;
const_iterator end() const;
};
/**
* \brief Operator << to write a DataBuffer to an ostream
*/
std::ostream& operator<<(std::ostream& os, const DataBuffer& buffer);
} // namespace td

58
include/td/common/VarInt.h
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@@ -1,58 +0,0 @@
#pragma once
/**
* \file VarInt.h
* \brief File containing the td::VarInt class
*/
#include <cstddef>
#include <cstdint>
namespace td {
class DataBuffer;
/**
* \class VarInt
* \brief Variable-length format such that smaller numbers use fewer bytes.
*/
class VarInt {
private:
std::uint64_t m_Value;
public:
VarInt() : m_Value(0) {}
/**
* \brief Construct a variable integer from a value
* \param value The value of the variable integer
*/
VarInt(std::uint64_t value) : m_Value(value) {}
/**
* \brief Get the value of the variable integer
*/
std::uint64_t GetValue() const {
return m_Value;
}
/**
* \brief Get the length of the serialized variable integer
*/
std::size_t GetSerializedLength() const;
/**
* \brief Serialize the variable integer
* \param out The buffer to write the serialized variable integer to
* \param var The variable integer to serialize
*/
friend DataBuffer& operator<<(DataBuffer& out, const VarInt& var);
/**
* \brief Deserialize the variable integer
* \param in The buffer to read the serialized variable integer from
* \param var The variable integer to deserialize
*/
friend DataBuffer& operator>>(DataBuffer& in, VarInt& var);
};
} // namespace td

46
include/td/game/Game.h Normal file
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#pragma once
#include <td/game/World.h>
namespace td {
namespace game {
enum class GameState : std::uint8_t {
Lobby,
Game,
EndGame,
Disconnected,
Closed
};
typedef std::map<std::uint8_t, Player> PlayerList;
class Game {
protected:
World* m_World;
GameState m_GameState = GameState::Lobby;
PlayerList m_Players;
public:
Game(World* world);
virtual ~Game();
virtual void Tick(std::uint64_t delta);
GameState GetGameState() const { return m_GameState; }
void SetGameState(GameState gameState) { m_GameState = gameState; };
const World* GetWorld() const { return m_World; }
World* GetWorld() { return m_World; }
const PlayerList& GetPlayers() const { return m_Players; }
PlayerList& GetPlayers() { return m_Players; }
const Player* GetPlayerById(PlayerID id) const;
Player* GetPlayerById(PlayerID id);
};
} // namespace game
} // namespace td

132
include/td/game/Mobs.h Normal file
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@@ -0,0 +1,132 @@
#pragma once
#include <td/game/Towers.h>
#include <td/Maths.h>
#include <td/Types.h>
#include <td/game/Team.h>
#include <memory>
#include <vector>
#include <sp/protocol/ConcreteMessage.h>
#include <sp/common/GenericHandler.h>
#include <sp/protocol/MessageFactory.h>
namespace td {
using Vec2fp = Vec2<FpFloat>;
namespace game {
enum class EffectType : std::uint8_t {
Slowness = 0,
Stun,
Fire,
Poison,
Heal,
};
enum class MobType : std::uint8_t {
Zombie = 0,
Spider,
Skeleton,
Pigman,
Creeper,
Silverfish,
Blaze,
Witch,
Slime,
Giant,
MOB_COUNT
};
typedef std::uint32_t MobID;
typedef std::uint8_t MobLevel;
typedef std::vector<TowerType> TowerImmunities;
typedef std::vector<EffectType> EffectImmunities;
struct MobStats {
float m_Damage;
float m_Speed;
Vec2f m_Size;
std::uint16_t m_MoneyCost;
std::uint16_t m_ExpCost;
std::uint16_t m_MaxLife;
std::uint16_t m_ExpReward;
};
struct EffectDuration {
EffectType type;
float duration; // in seconds
Tower* tower; // the tower that gived the effect
};
const MobStats* GetMobStats(MobType type, std::uint8_t level);
const TowerImmunities& GetMobTowerImmunities(MobType type, std::uint8_t level);
const EffectImmunities& GetMobEffectImmunities(MobType type, std::uint8_t level);
class MobHandler;
struct MobData {};
class Mob : public sp::MessageBase<MobType, MobHandler> {
public:
MobID m_ID;
MobLevel m_Level;
PlayerID m_Sender;
float m_Health;
Vec2fp m_Position;
Direction m_Direction;
std::vector<EffectDuration> m_Effects;
const Tower* m_LastDamage; // the last tower that damaged the mob
float m_HitCooldown;
TeamCastle* m_CastleTarget;
// utils::CooldownTimer m_AttackTimer;
MobPtr m_Next;
Mob() {}
Mob& operator=(const Mob& a_Other) = default;
};
template <MobType ID>
using ConcreteMob = sp::ConcreteMessage<MobData, Mob, ID>;
using Zombie = ConcreteMob<MobType::Zombie>;
using Spider = ConcreteMob<MobType::Spider>;
using Skeleton = ConcreteMob<MobType::Skeleton>;
using PigMan = ConcreteMob<MobType::Pigman>;
using Creeper = ConcreteMob<MobType::Creeper>;
using Silverfish = ConcreteMob<MobType::Silverfish>;
using Blaze = ConcreteMob<MobType::Blaze>;
using Witch = ConcreteMob<MobType::Witch>;
using Slime = ConcreteMob<MobType::Slime>;
using Giant = ConcreteMob<MobType::Giant>;
using AllMobs = std::tuple<Zombie, Spider, Skeleton, PigMan, Creeper, Silverfish, Blaze, Witch, Slime, Giant>;
class MobHandler : public sp::GenericHandler<AllMobs> {};
using MobFactory = sp::MessageFactory<Mob, AllMobs>;
class MobListener {
public:
virtual void OnMobSpawn(Mob* mob) {
MobHandler h;
}
virtual void OnMobDie(Mob* mob) {}
virtual void OnMobDamage(Mob* target, float damage, Tower* damager) {}
virtual void OnMobTouchCastle(Mob* damager, TeamCastle* enemyCastle) {}
virtual void OnMobCastleDamage(Mob* damager, TeamCastle* enemyCastle, float damage) {}
};
using MobList = std::vector<MobPtr>;
// typedef utils::ObjectNotifier<MobListener> MobNotifier;
} // namespace game
} // namespace td

102
include/td/game/Team.h Normal file
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@@ -0,0 +1,102 @@
#pragma once
#include <td/Types.h>
#include <td/misc/Shapes.h>
#include <vector>
#include <memory>
#include <cmath>
namespace td {
namespace game {
class Player;
class Spawn : public utils::shape::Rectangle {
private:
Direction m_Direction;
public:
Spawn() : m_Direction(Direction::PositiveX) {
SetWidth(5);
SetHeight(5);
}
Direction GetDirection() const { return m_Direction; }
void SetDirection(Direction direction) { m_Direction = direction; }
};
class Team;
class TeamCastle : public utils::shape::Rectangle {
private:
float m_Life;
public:
static constexpr int CastleMaxLife = 1000;
TeamCastle() : m_Life(CastleMaxLife) {
SetWidth(5);
SetHeight(5);
}
float GetLife() const { return m_Life; }
void SetLife(float life) { m_Life = life; }
void Damage(float damage) { m_Life = std::max(0.0f, m_Life - damage); }
void SetShape(utils::shape::Rectangle rect) {
SetCenter(rect.GetCenter());
SetSize(rect.GetSize());
}
};
class Team {
private:
std::vector<Player*> m_Players;
TeamColor m_Color;
Spawn m_Spawn;
TeamCastle m_TeamCastle;
public:
Team(TeamColor color) : m_Color(color) {}
void AddPlayer(Player* newPlayer);
void RemovePlayer(const Player* player);
TeamColor GetColor() const;
const Spawn& GetSpawn() const { return m_Spawn; }
Spawn& GetSpawn() { return m_Spawn; }
const TeamCastle& GetCastle() const { return m_TeamCastle; }
TeamCastle& GetCastle() { return m_TeamCastle; }
std::uint8_t GetPlayerCount() const;
};
struct TeamList {
std::array<Team, 2> m_Teams;
TeamList() : m_Teams{Team{TeamColor::Red}, Team{TeamColor::Blue}}{
}
Team& operator[](std::size_t a_Index) {
return m_Teams[a_Index];
}
Team& operator[](TeamColor a_Index) {
return m_Teams[static_cast<std::size_t>(a_Index)];
}
const Team& operator[](std::size_t a_Index) const {
return m_Teams[a_Index];
}
const Team& operator[](TeamColor a_Index) const {
return m_Teams[static_cast<std::size_t>(a_Index)];
}
};
} // namespace game
} // namespace td

147
include/td/game/Towers.h Normal file
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@@ -0,0 +1,147 @@
#pragma once
#include <memory>
#include <string>
#include <td/misc/Shapes.h>
#include <td/Types.h>
#include <sp/common/GenericHandler.h>
#include <sp/protocol/ConcreteMessage.h>
#include <sp/protocol/MessageFactory.h>
namespace td {
namespace game {
class World;
class Mob;
typedef std::shared_ptr<Mob> MobPtr;
enum class TowerSize : std::uint8_t {
Little = 3, // 3x3
Big = 5, // 5x5
};
enum class TowerPath : std::uint8_t {
Top = 0,
Base, // Base Path
Bottom
};
class TowerStats {
private:
float m_Rate;
float m_Damage;
std::uint8_t m_Range;
public:
TowerStats(float rate, float damage, std::uint8_t range) : m_Rate(rate), m_Damage(damage), m_Range(range) {}
float GetDamageRate() const {
return m_Rate;
}
float GetDamage() const {
return m_Damage;
}
std::uint8_t GetRange() const {
return m_Range;
}
};
class TowerLevel {
private:
// 1, 2, 3, 4
std::uint8_t m_Level : 3;
// 0 : base path 1 : top path (if there is bottom path) 2 : bottom path (if there is top path)
TowerPath m_Path : 2;
public:
TowerLevel() : m_Level(1), m_Path(TowerPath::Base) {}
TowerLevel(std::uint8_t level, TowerPath path) : m_Level(level), m_Path(path) {}
std::uint8_t GetLevel() const {
return m_Level;
}
TowerPath GetPath() const {
return m_Path;
}
void SetLevel(std::uint8_t level) {
m_Level = level;
}
void SetPath(TowerPath path) {
m_Path = path;
}
// operator to sort maps
friend bool operator<(const TowerLevel& level, const TowerLevel& other) {
return level.GetLevel() + static_cast<std::uint8_t>(level.GetPath()) * 4 <
other.GetLevel() + static_cast<std::uint8_t>(other.GetPath()) * 4;
}
};
using TowerID = std::uint16_t;
class TowerHandler;
class Tower : public utils::shape::Circle, public sp::MessageBase<TowerType, TowerHandler> {
public:
TowerID m_ID;
TowerLevel m_Level{};
PlayerID m_Builder;
public:
Tower() : m_ID(0), m_Level({}), m_Builder(0) {}
virtual TowerType GetType() const = 0;
virtual TowerSize GetSize() const = 0;
virtual void Tick(std::uint64_t delta, World* world) = 0;
};
struct TowerData {};
template <TowerType Type, TowerSize Size>
class ConcreteTower : public sp::ConcreteMessage<TowerData, Tower, Type, false> {
public:
using HandlerType = typename sp::ConcreteMessage<TowerData, Tower, Type, false>::HandlerType;
virtual TowerSize GetSize() const override {
return Size;
}
virtual TowerType GetType() const override {
return Type;
}
virtual void Tick(std::uint64_t delta, World* world) override {}
virtual void Dispatch(HandlerType& handler) const override {
handler.Handle(*this);
}
};
using TowerPtr = std::shared_ptr<Tower>;
using ArcherTower = ConcreteTower<TowerType::Archer, TowerSize::Little>;
using ArtilleryTower = ConcreteTower<TowerType::Artillery, TowerSize::Little>;
using IceTower = ConcreteTower<TowerType::Ice, TowerSize::Little>;
using LeachTower = ConcreteTower<TowerType::Leach, TowerSize::Big>;
using MageTower = ConcreteTower<TowerType::Mage, TowerSize::Little>;
using NecromancerTower = ConcreteTower<TowerType::Necromancer, TowerSize::Big>;
using PoisonTower = ConcreteTower<TowerType::Poison, TowerSize::Little>;
using QuakeTower = ConcreteTower<TowerType::Quake, TowerSize::Little>;
using SorcererTower = ConcreteTower<TowerType::Sorcerer, TowerSize::Little>;
using TurretTower = ConcreteTower<TowerType::Turret, TowerSize::Big>;
using ZeusTower = ConcreteTower<TowerType::Zeus, TowerSize::Little>;
using AllTowers = std::tuple<ArcherTower, ArtilleryTower, IceTower, LeachTower, MageTower, NecromancerTower, PoisonTower, QuakeTower,
SorcererTower, TurretTower, ZeusTower>;
using TowerFactory = sp::MessageFactory<Tower, AllTowers>;
class TowerHandler : public sp::GenericHandler<AllTowers> {};
} // namespace game
} // namespace td

130
include/td/game/World.h
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#pragma once
#include <td/game/GameHistory.h>
#include <td/game/WorldState.h>
#include <vector>
#include <td/simulation/WorldTicker.h>
#include <td/game/WorldTypes.h>
#include <td/protocol/packet/Packets.h>
namespace td {
namespace game {
class World {
private:
std::vector<WorldState> m_WorldStates;
GameHistory m_GameHistory;
protected:
TowerTileColorPalette m_TowerPlacePalette;
Color m_WalkablePalette;
std::vector<Color> m_DecorationPalette;
Color m_Background;
float m_OffsetTime;
ChunkList m_Chunks;
SpawnColorPalette m_SpawnColorPalette;
TilePalette m_TilePalette;
std::shared_ptr<sim::WorldSnapshot> m_CurrentState;
std::shared_ptr<sim::WorldSnapshot> m_NextState;
private:
sim::WorldTicker m_Ticker;
public:
World();
void Tick(float a_Delta);
bool LoadMap(const protocol::pdata::WorldHeader& worldHeader);
bool LoadMap(const protocol::pdata::WorldData& worldData);
bool LoadMapFromFile(const std::string& fileName);
bool SaveMap(const std::string& fileName) const;
void SpawnMobAt(MobID id, MobType type, std::uint8_t level, PlayerID sender, float x, float y, Direction dir);
TowerPtr PlaceTowerAt(TowerID id, TowerType type, std::int32_t x, std::int32_t y, PlayerID builder);
TowerPtr RemoveTower(TowerID id);
TilePtr GetTile(std::int32_t x, std::int32_t y) const;
const TowerTileColorPalette& GetTowerTileColorPalette() const {
return m_TowerPlacePalette;
}
const Color& GetWalkableTileColor() const {
return m_WalkablePalette;
}
const std::vector<Color>& GetDecorationPalette() const {
return m_DecorationPalette;
}
const Color& GetBackgroundColor() const {
return m_Background;
}
const TilePalette& GetTilePalette() const {
return m_TilePalette;
}
TilePtr GetTilePtr(TileIndex index) const {
if (index == 0)
return TilePtr(nullptr);
return m_TilePalette.at(index - 1);
}
bool CanPlaceLittleTower(const Vec2f& worldPos, PlayerID player) const;
bool CanPlaceBigTower(const Vec2f& worldPos, PlayerID player) const;
TowerPtr GetTower(const Vec2f& position) const; // returns null if no tower is here
const ChunkList& GetChunks() const {
return m_Chunks;
}
const Color& GetSpawnColor(TeamColor color) const {
return m_SpawnColorPalette[static_cast<std::size_t>(color)];
}
const SpawnColorPalette& GetSpawnColors() const {
return m_SpawnColorPalette;
}
const MobList& GetMobList() const {
return m_CurrentState->m_Mobs;
}
MobList& GetMobList() {
return m_CurrentState->m_Mobs;
}
const Color* GetTileColor(const TilePtr& tile) const;
Team& GetRedTeam() {
return m_CurrentState->m_Teams[TeamColor::Red];
}
const Team& GetRedTeam() const {
return m_CurrentState->m_Teams[TeamColor::Red];
}
Team& GetBlueTeam() {
return m_CurrentState->m_Teams[TeamColor::Blue];
}
const Team& GetBlueTeam() const {
return m_CurrentState->m_Teams[TeamColor::Red];
}
Team& GetTeam(TeamColor team) {
return m_CurrentState->m_Teams[team];
}
const Team& GetTeam(TeamColor team) const {
return m_CurrentState->m_Teams[team];
}
const TeamList& GetTeams() const {
return m_CurrentState->m_Teams;
}
const TowerList& GetTowers() const {
return m_CurrentState->m_Towers;
}
TowerPtr GetTowerById(TowerID tower);
const Player* GetPlayerById(PlayerID id) const;
const std::shared_ptr<sim::WorldSnapshot>& Tick(const protocol::LockStep& a_LockStep, FpFloat a_Delta);
void ResetSnapshots(std::shared_ptr<sim::WorldSnapshot>& a_Current, std::shared_ptr<sim::WorldSnapshot>& a_Next);
private:
std::uint16_t GetCursorPos();
void TickMobs(std::uint64_t delta);
void CleanDeadMobs();
};
} // namespace game
} // namespace td
} // namespace td

21
include/td/game/WorldState.h
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#pragma once
#include <td/protocol/command/Commands.h>
namespace td {
namespace game {
class WorldState {
private:
// list of players, mobs, towers, castles
public:
WorldState() {}
WorldState GetNextState(const protocol::LockStep& a_Step);
private:
void Tick(float a_Delta);
};
} // namespace game
} // namespace td

117
include/td/game/WorldTypes.h Normal file
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#pragma once
#include <td/Maths.h>
#include <td/game/Team.h>
#include <td/game/Towers.h>
#include <sp/io/SerializableMessage.h>
namespace td {
namespace game {
using ChunkCoord = Vec2<std::int16_t>;
class Game;
enum class TileType : std::uint8_t {
None = 0,
Tower,
Walk,
Decoration,
/*Heal,
Lava,
Bedrock,
Freeze,
Ice,*/
};
static constexpr Color BLACK{0, 0, 0};
static constexpr Color WHITE{255, 255, 255};
static constexpr Color RED{255, 0, 0};
static constexpr Color GREEN{0, 255, 0};
static constexpr Color BLUE{0, 0, 255};
class TileHandler;
using Tile = sp::MessageBase<TileType, TileHandler>;
template <TileType ID, typename TileData>
using ConcreteTile = sp::ConcreteMessage<TileData, Tile, ID>;
namespace data {
struct EmptyData {};
struct TowerTileData {
std::uint8_t m_ColorPaletteRef;
TeamColor m_TeamOwner;
};
struct WalkableTileData {
Direction m_Direction;
};
struct DecorationTileData {
std::uint16_t m_ColorPaletteRef;
};
} // namespace data
using EmptyTile = ConcreteTile<TileType::None, data::EmptyData>;
using TowerTile = ConcreteTile<TileType::Tower, data::TowerTileData>;
using WalkableTile = ConcreteTile<TileType::Walk, data::WalkableTileData>;
using DecorationTile = ConcreteTile<TileType::Decoration, data::DecorationTileData>;
using AllTiles = std::tuple<EmptyTile, TowerTile, WalkableTile, DecorationTile>;
using TileFactory = sp::MessageFactory<Tile, AllTiles>;
class TileHandler : public sp::GenericHandler<AllTiles> {};
using TilePtr = sp::SerializableMessage<TileFactory>;
// typedef std::shared_ptr<Tile> TilePtr;
typedef std::vector<std::uint16_t> ChunkPalette;
typedef std::shared_ptr<WalkableTile> WalkableTilePtr;
typedef std::uint32_t TileIndex;
// 32 x 32 area
struct Chunk {
enum { ChunkWidth = 32, ChunkHeight = 32, ChunkSize = ChunkWidth * ChunkHeight };
using ChunkData = std::array<std::uint16_t, ChunkSize>;
using ChunkPackedData = std::vector<uint64_t>;
// stores index of tile palette
ChunkPalette m_Palette;
ChunkPackedData m_Data;
TileIndex GetTileIndex(std::uint16_t tileNumber) const;
};
typedef std::shared_ptr<Chunk> ChunkPtr;
typedef std::array<Color, 2> TowerTileColorPalette;
typedef std::vector<TilePtr> TilePalette;
typedef std::array<Color, 2> SpawnColorPalette;
typedef std::vector<TowerPtr> TowerList;
using ChunkList = std::unordered_map<ChunkCoord, ChunkPtr>;
} // namespace game
} // namespace td
namespace std {
template <>
struct hash<td::game::ChunkCoord> {
std::size_t operator()(const td::game::ChunkCoord& key) const noexcept {
return std::hash<std::int16_t>()(key.x << 16 | key.y);
}
};
} // namespace std

48
include/td/input/Display.h Normal file
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#pragma once
#include <string>
#include <SDL3/SDL_video.h>
#include <SDL3/SDL_keycode.h>
#include <td/misc/Signal.h>
namespace td {
class Display {
public:
utils::Signal<float> OnAspectRatioChange;
utils::Signal<SDL_Keycode> OnKeyDown;
Display(int a_Width, int a_Height, const std::string& a_Title);
~Display();
void PollEvents();
void Update();
bool IsCloseRequested() {
return m_ShouldClose;
}
float GetAspectRatio() {
return m_AspectRatio;
}
int GetWindowWidth() {
return m_LastWidth;
}
int GetWindowHeight() {
return m_LastHeight;
}
private:
SDL_Window* m_Window;
SDL_GLContext m_GLContext;
int m_LastWidth, m_LastHeight;
float m_AspectRatio;
bool m_ShouldClose;
};
} // namespace td

96
include/td/misc/Shapes.h Normal file
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#pragma once
#include <cstdint>
namespace td {
namespace utils {
namespace shape {
class Point {
private:
float m_X, m_Y;
public:
Point() : m_X(0), m_Y(0) {}
Point(float x, float y) : m_X(x), m_Y(y) {}
float GetX() const { return m_X; }
float GetY() const { return m_Y; }
void SetX(float x) { m_X = x; }
void SetY(float y) { m_Y = y; }
float Distance(const Point& point) const;
float DistanceSquared(const Point& point) const;
};
class Circle;
class Rectangle {
private:
Point m_Center;
float m_Width, m_Height;
public:
Rectangle() : m_Center(), m_Width(0), m_Height(0) {}
const Point& GetCenter() const { return m_Center; }
float GetCenterX() const { return m_Center.GetX(); }
float GetCenterY() const { return m_Center.GetY(); }
float GetWidth() const { return m_Width; }
float GetHeight() const { return m_Height; }
Point GetTopLeft() const { return { m_Center.GetX() - (m_Width / 2.0f), m_Center.GetY() - (m_Height / 2.0f) }; }
Point GetBottomRight() const { return { m_Center.GetX() + (m_Width / 2.0f), m_Center.GetY() + (m_Height / 2.0f) }; }
void SetCenter(const Point& center) { m_Center = center; }
void SetCenterX(float x) { m_Center.SetX(x); }
void SetCenterY(float y) { m_Center.SetY(y); }
void SetSize(float width, float height) { SetWidth(width); SetHeight(height); }
void SetSize(Point size) { SetSize(size.GetX(), size.GetY()); }
Point GetSize() { return { m_Width, m_Height }; }
void SetWidth(float width) { m_Width = width; }
void SetHeight(float height) { m_Height = height; }
bool CollidesWith(const Point& point) const;
bool CollidesWith(const Rectangle& rect) const;
bool CollidesWith(const Circle& circle) const;
// distance from the closest side of the rectangle
float Distance(const Circle& circle) const;
float DistanceSquared(const Circle& circle) const;
};
class Circle {
private:
Point m_Center;
float m_Radius;
public:
Circle(float x, float y, float radius) : m_Center(x, y), m_Radius(radius) {}
Circle() : m_Radius(0) {}
const Point& GetCenter() const { return m_Center; }
float GetCenterX() const { return m_Center.GetX(); }
float GetCenterY() const { return m_Center.GetY(); }
float GetRadius() const { return m_Radius; }
void SetCenter(const Point& center) { m_Center = center; }
void SetCenterX(float x) { m_Center.SetX(x); }
void SetCenterY(float y) { m_Center.SetY(y); }
void SetRadius(float radius) { m_Radius = radius; }
bool CollidesWith(const Point& point) const;
bool CollidesWith(const Rectangle& rect) const;
bool CollidesWith(const Circle& circle) const;
// distance from the closest side of the rectangle
float Distance(const Rectangle& rect) const;
float DistanceSquared(const Rectangle& rect) const;
};
} // namespace shape
} // namespace utils
} // namespace td

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include/td/misc/Signal.h Normal file
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#pragma once
#include <algorithm>
#include <functional>
#include <td/common/NonCopyable.h>
#include <vector>
namespace td {
namespace utils {
template <typename... Args>
class Signal : private NonCopyable {
private:
using CallBack = std::function<void(Args...)>;
std::vector<CallBack> m_Callbacks;
public:
void Connect(CallBack&& a_Callback) {
m_Callbacks.push_back(std::move(a_Callback));
}
void operator()(Args... args) const {
for (const CallBack& callback : m_Callbacks) {
callback(args...);
}
}
};
} // namespace utils
} // namespace td

61
include/td/protocol/Dispatcher.h
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#pragma once
/**
* \file PacketDispatcher.h
* \brief File containing the td::protocol::PacketDispatcher class
*/
#include <td/common/NonCopyable.h>
#include <td/protocol/packet/Packets.h>
#include <map>
namespace td {
namespace protocol {
/**
* \class Dispatcher
* \brief Class used to dispatch things
*/
template <typename T_Enum, typename T_Handler, typename T>
class Dispatcher : private NonCopyable {
private:
std::map<T_Enum, std::vector<T_Handler*>> m_Handlers;
public:
/**
* \brief Constructor
*/
Dispatcher() {}
/**
* \brief Dispatch a packet
* \param packet The packet to dispatch
*/
void Dispatch(const T& packet);
/**
* \brief Register a packet handler
* \param type The packet type
* \param handler The packet handler
*/
void RegisterHandler(T_Enum type, T_Handler& handler);
/**
* \brief Unregister a packet handler
* \param type The packet type
* \param handler The packet handler
*/
void UnregisterHandler(T_Enum type, T_Handler& handler);
/**
* \brief Unregister a packet handler
* \param handler The packet handler
*/
void UnregisterHandler(T_Handler& handler);
};
} // namespace protocol
} // namespace td
#include "Dispatcher.inl"

38
include/td/protocol/Dispatcher.inl
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@@ -1,38 +0,0 @@
#pragma once
namespace td {
namespace protocol {
template <typename T_Enum, typename T_Handler, typename T>
void Dispatcher<T_Enum, T_Handler, T>::Dispatch(const T& packet) {
T_Enum type = packet.GetType();
for (auto* handler : m_Handlers[type])
handler->Check(packet);
}
template <typename T_Enum, typename T_Handler, typename T>
void Dispatcher<T_Enum, T_Handler, T>::RegisterHandler(T_Enum type, T_Handler& handler) {
auto found = std::find(m_Handlers[type].begin(), m_Handlers[type].end(), &handler);
if (found == m_Handlers[type].end())
m_Handlers[type].push_back(&handler);
}
template <typename T_Enum, typename T_Handler, typename T>
void Dispatcher<T_Enum, T_Handler, T>::UnregisterHandler(T_Enum type, T_Handler& handler) {
m_Handlers[type].erase(std::remove(m_Handlers[type].begin(), m_Handlers[type].end(), &handler), m_Handlers[type].end());
}
template <typename T_Enum, typename T_Handler, typename T>
void Dispatcher<T_Enum, T_Handler, T>::UnregisterHandler(T_Handler& handler) {
for (auto& pair : m_Handlers) {
if (pair.second.empty())
continue;
PacketType type = pair.first;
m_Handlers[type].erase(std::remove(m_Handlers[type].begin(), m_Handlers[type].end(), &handler), m_Handlers[type].end());
}
}
} // namespace protocol
} // namespace td

22
include/td/protocol/command/CommandData.h
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#include <array>
#include <string>
#include <td/Types.h>
#include <sp/protocol/BitField.h>
namespace td {
namespace protocol {
namespace cdata {
struct PlaceTower {
TowerType m_Type : 4;
PlayerID m_Placer : 4;
sp::BitField<TowerType, 4> m_Type;
sp::BitField<PlayerID, 4> m_Placer;
TowerCoords m_Position;
};
struct UpgradeTower {
TowerID m_Tower : 12;
std::uint8_t m_Upgrade : 4;
sp::BitField<TowerID, 12> m_Tower;
sp::BitField<std::uint8_t, 4> m_Upgrade;
};
struct SpawnTroop {
EntityType m_Type : 5;
std::uint8_t m_Level : 3;
sp::BitField<EntityType, 5> m_Type;
sp::BitField<std::uint8_t, 3> m_Level;
EntityCoords m_Position;
PlayerID m_Sender;
};
struct UseItem {
ShopItem m_Item : 4;
PlayerID m_User : 4;
sp::BitField<ShopItem, 4> m_Item;
sp::BitField<PlayerID, 4> m_User;
EntityCoords m_Position;
};
struct TeamChange {
PlayerID m_Player : 7;
Team m_NewTeam : 1;
sp::BitField<PlayerID, 7> m_Player;
sp::BitField<TeamColor, 1> m_NewTeam;
};
struct PlayerJoin {

22
include/td/protocol/command/CommandDeclare.h
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#pragma once
namespace td {
namespace protocol {
/**
* \def DeclareAllPacket
* \brief Avoids repetitive operations on commands
*/
#define DeclareAllCommand() \
DeclareCommand(End) \
DeclareCommand(PlaceTower) \
DeclareCommand(PlayerJoin) \
DeclareCommand(SpawnTroop) \
DeclareCommand(TeamChange) \
DeclareCommand(UpgradeTower) \
DeclareCommand(UseItem)
} // namespace protocol
} // namespace td

17
include/td/protocol/command/CommandDispatcher.h
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#pragma once
/**
* \file CommandDispatcher.h
* \brief File containing the td::protocol::CommandDispatcher class
*/
#include <td/protocol/Dispatcher.h>
#include <td/protocol/command/Commands.h>
namespace td {
namespace protocol {
using CommandDispatcher = Dispatcher<CommandType, CommandVisitor, Command>;
} // namespace protocol
} // namespace td

19
include/td/protocol/command/CommandFactory.h
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#pragma once
#include <memory>
#include <td/protocol/command/Commands.h>
namespace td {
namespace protocol {
namespace CommandFactory {
template <typename CommandDerived, typename = typename std::enable_if<std::is_base_of<Command, CommandDerived>::value>::type>
std::shared_ptr<CommandDerived> CreateCommand() {
return std::make_shared<CommandDerived>();
}
const std::shared_ptr<Command>& CreateReadOnlyCommand(CommandType a_Type);
} // namespace CommandFactory
} // namespace protocol
} // namespace td

21
include/td/protocol/command/CommandSerializer.h
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#pragma once
#include <memory>
#include <td/common/DataBuffer.h>
namespace td {
namespace protocol {
class Command;
using CommandPtr = std::shared_ptr<Command>;
namespace CommandSerializer {
DataBuffer Serialize(const Command& a_Command);
std::shared_ptr<Command> Deserialize(DataBuffer& a_Data);
} // namespace CommandSerializer
} // namespace protocol
} // namespace td

39
include/td/protocol/command/CommandVisitor.h
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#pragma once
/**
* \file CommandVisitor.h
* \brief File containing the td::protocol::CommandVisitor class
*/
#include <td/protocol/command/Commands.h>
namespace td {
namespace protocol {
#define DeclareCommand(CommandName, ...) \
/** This function is called when the packet processed by CommandVisitor::Check is a CommandName */ \
virtual void Visit(const commands::CommandName&) {}
/**
* \class CommandVisitor
* \brief This class uses double-dispatch in order to find the real type of a packet
*/
class CommandVisitor : private NonCopyable {
protected:
CommandVisitor() {}
virtual ~CommandVisitor() {}
public:
/**
* \brief Calls the right CommandVisitor::Visit method corresponding to the real type of the packet
* \param packet the Command to visit
*/
void Check(const Command& packet);
DeclareAllCommand()
};
#undef DeclareCommand
} // namespace protocol
} // namespace td

120
include/td/protocol/command/Commands.h
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* \brief File containing the definitions of the lockstep commands
*/
#include <memory>
#include <sp/common/GenericHandler.h>
#include <sp/protocol/ConcreteMessage.h>
#include <sp/protocol/MessageDispatcher.h>
#include <sp/protocol/MessageFactory.h>
#include <td/Types.h>
#include <td/common/NonCopyable.h>
#include <td/protocol/command/CommandData.h>
#include <td/protocol/command/CommandDeclare.h>
#include <memory>
#include <sp/io/SerializableMessage.h>
namespace td {
namespace protocol {
class CommandVisitor;
/** A Command id is 8 bits wide */
using CommandID = std::uint8_t;
#define DeclareCommand(CommandName, ...) /** CommandName */ CommandName,
/**
* \enum CommandType
* \brief Map a Command to an id
*/
enum class CommandType : CommandID {
DeclareAllCommand()
/** The number of Commands */
COMMAND_COUNT
};
#undef DeclareCommand
class Command : private NonCopyable {
public:
/**
* \return The real type of the Command
*/
virtual CommandType GetType() const = 0;
private:
/** Use a CommandVisitor to make double-dispatch possible */
virtual void Accept(CommandVisitor& a_Visitor) const = 0;
friend class CommandVisitor;
enum class CommandID : std::uint8_t {
End = 0,
PlaceTower,
PlayerJoin,
SpawnTroop,
TeamChange,
UpgradeTower,
UseItem,
};
class CommandHandler;
using CommandBase = sp::MessageBase<CommandID, CommandHandler>;
template <typename TData, CommandID ID>
using CommandMessage = sp::ConcreteMessage<TData, CommandBase, ID>;
namespace commands {
/**
* \class ConcreteCommand
* \brief A Command associated with an id and holding data
* \tparam PT The Command type
* \tparam Data The structure holding the data of the Command (in td::protocol::data namespace)
*/
template <CommandType CT, typename Data>
class ConcreteCommand : public Command {
public:
/** The type of the struct holding the data */
using CommandDataType = Data;
/** The structure holding the actual data */
CommandDataType m_Data;
/** Construct the Command with data of type CommandDataType */
ConcreteCommand(const CommandDataType& a_Data = {});
constexpr CommandType GetType() const override {
return CT;
};
private:
void Accept(CommandVisitor& a_Visitor) const override;
};
// define TD_INSTANCIATE_COMMANDS
// before including this file
// if you want to instantiate templates
#ifdef TD_INSTANCIATE_COMMANDS
#define DeclareCommand(CommandName, ...) \
using CommandName = ConcreteCommand<CommandType::CommandName, cdata::CommandName>; \
template class ConcreteCommand<CommandType::CommandName, cdata::CommandName>;
#else
#define DeclareCommand(CommandName, ...) /** Defines the CommandName Command */ \
using CommandName = ConcreteCommand<CommandType::CommandName, cdata::CommandName>;
#endif
DeclareAllCommand()
#undef DeclareCommand
using EndCommand = CommandMessage<cdata::End, CommandID::End>;
using PlaceTowerCommand = CommandMessage<cdata::PlaceTower, CommandID::PlaceTower>;
using PlayerJoinCommand = CommandMessage<cdata::PlayerJoin, CommandID::PlayerJoin>;
using SpawnTroopCommand = CommandMessage<cdata::SpawnTroop, CommandID::SpawnTroop>;
using TeamChangeCommand = CommandMessage<cdata::TeamChange, CommandID::TeamChange>;
using UpgradeTowerCommand = CommandMessage<cdata::UpgradeTower, CommandID::UpgradeTower>;
using UseItemCommand = CommandMessage<cdata::UseItem, CommandID::UseItem>;
} // namespace commands
using LockStep = std::vector<std::shared_ptr<protocol::Command>>;
using AllCommands = std::tuple<commands::EndCommand, commands::PlaceTowerCommand, commands::PlayerJoinCommand,
commands::SpawnTroopCommand, commands::TeamChangeCommand, commands::UpgradeTowerCommand, commands::UseItemCommand>;
class CommandHandler : public sp::GenericHandler<AllCommands> {};
using CommandDispatcher = sp::MessageDispatcher<CommandBase>;
using CommandFactory = sp::MessageFactory<CommandBase, AllCommands>;
using CommandPtr = sp::SerializableMessage<CommandFactory>;
using LockStep = std::vector<CommandPtr>;
} // namespace protocol
} // namespace td

36
include/td/protocol/packet/PacketData.h
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@@ -3,6 +3,8 @@
#include <td/Types.h>
#include <vector>
#include <td/protocol/command/Commands.h>
#include <td/common/Array.h>
#include <td/game/WorldTypes.h>
// Make it dynamic ?
#define LOCKSTEP_BUFFER_SIZE 10
@@ -41,6 +43,11 @@ struct PlayerLeave {
PlayerID m_PlayerId;
};
struct PredictCommand {
CommandPtr m_Command;
std::uint16_t m_FrameNumber;
};
/** Keep alive */
struct KeepAlive {
std::uint64_t m_KeepAliveId;
@@ -59,7 +66,6 @@ struct ChatMessage {
// TODO: handle players joining in the first second
struct BeginGame {
MapData m_Map;
std::vector<PlayerInfo> m_BlueTeam;
std::vector<PlayerInfo> m_RedTeam;
// optional, used for players joining mid game
@@ -71,6 +77,34 @@ struct LockSteps {
std::array<LockStep, LOCKSTEP_BUFFER_SIZE> m_LockSteps;
};
struct WorldHeader {
game::TowerTileColorPalette m_TowerPlacePalette;
Color m_WalkablePalette;
std::vector<Color> m_DecorationPalette;
Color m_Background;
game::SpawnColorPalette m_SpawnColorPalette;
game::TilePalette m_TilePalette;
game::Spawn m_RedSpawn, m_BlueSpawn;
game::TeamCastle m_RedCastle, m_BlueCastle;
};
struct WorldData {
game::ChunkList m_Chunks;
};
struct SpawnTroop {
sp::BitField<EntityType, 5> m_Type;
sp::BitField<std::uint8_t, 3> m_Level;
};
struct PlaceTower {
TowerType m_Type;
TowerCoords m_Position;
};
} // namespace pdata
} // namespace protocol
} // namespace td

48
include/td/protocol/packet/PacketDeclare.h
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@@ -1,48 +0,0 @@
#pragma once
/**
* \file PacketDeclare.h
* \brief Holds the definitions of the packets (but not their content)
*/
namespace td {
namespace protocol {
/**
* \enum PacketSender
* \brief Indicate who should send a packet
*/
enum class PacketSenderType {
/** Sent by clients and server */
Both = 1,
/** Sent by clients to the server */
Client,
/** Sent by server to the clients */
Server,
};
enum class PacketSendType {
Reliable = 1,
Unreliable,
UnreliableOrdered,
};
/**
* \def DeclareAllPacket
* \brief Avoids repetitive operations on packets
*/
#define DeclareAllPacket() \
DeclarePacket(ChatMessage, Reliable, Both) \
DeclarePacket(BeginGame, Reliable, Server) \
DeclarePacket(Disconnect, Reliable, Both) \
DeclarePacket(KeepAlive, Reliable, Both) \
DeclarePacket(LockSteps, Unreliable, Both) \
DeclarePacket(LoggingSuccess, Reliable, Server) \
DeclarePacket(PlayerJoin, Reliable, Server) \
DeclarePacket(PlayerLeave, Reliable, Server) \
DeclarePacket(PlayerLogin, Reliable, Client) \
} // namespace protocol
} // namespace td

17
include/td/protocol/packet/PacketDispatcher.h
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@@ -1,17 +0,0 @@
#pragma once
/**
* \file PacketDispatcher.h
* \brief File containing the td::protocol::PacketDispatcher class
*/
#include <td/protocol/Dispatcher.h>
#include <td/protocol/packet/Packets.h>
namespace td {
namespace protocol {
using PacketDispatcher = Dispatcher<PacketType, PacketVisitor, Packet>;
} // namespace protocol
} // namespace td

19
include/td/protocol/packet/PacketFactory.h
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@@ -1,19 +0,0 @@
#pragma once
#include <memory>
#include <td/protocol/packet/Packets.h>
namespace td {
namespace protocol {
namespace PacketFactory {
template <typename PacketDerived, typename = typename std::enable_if<std::is_base_of<Packet, PacketDerived>::value>::type>
std::unique_ptr<PacketDerived> CreatePacket() {
return std::make_unique<PacketDerived>();
}
const std::unique_ptr<Packet>& CreateReadOnlyPacket(PacketType a_Type);
} // namespace PacketFactory
} // namespace protocol
} // namespace td

47
include/td/protocol/packet/PacketSerialize.h Normal file
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@@ -0,0 +1,47 @@
#pragma once
#include <td/protocol/packet/PacketData.h>
namespace td {
template <typename T>
sp::DataBuffer& operator<<(sp::DataBuffer& a_Buffer, const Vec2<T>& a_Vec) {
return a_Buffer << a_Vec.x << a_Vec.y;
}
template <typename T>
sp::DataBuffer& operator>>(sp::DataBuffer& a_Buffer, Vec2<T>& a_Vec) {
return a_Buffer >> a_Vec.x >> a_Vec.y;
}
template <typename T>
sp::DataBuffer& operator<<(sp::DataBuffer& a_Buffer, const Vec3<T>& a_Vec) {
return a_Buffer << a_Vec.x << a_Vec.y << a_Vec.z;
}
template <typename T>
sp::DataBuffer& operator>>(sp::DataBuffer& a_Buffer, Vec3<T>& a_Vec) {
return a_Buffer >> a_Vec.x >> a_Vec.y >> a_Vec.z;
}
template <typename T>
sp::DataBuffer& operator<<(sp::DataBuffer& a_Buffer, const Vec4<T>& a_Vec) {
return a_Buffer << a_Vec.x << a_Vec.y << a_Vec.z << a_Vec.w;
}
template <typename T>
sp::DataBuffer& operator>>(sp::DataBuffer& a_Buffer, Vec4<T>& a_Vec) {
return a_Buffer >> a_Vec.x >> a_Vec.y >> a_Vec.z >> a_Vec.w;
}
namespace game {
sp::DataBuffer& operator<<(sp::DataBuffer& a_Buffer, const TeamCastle& a_Castle);
sp::DataBuffer& operator>>(sp::DataBuffer& a_Buffer, TeamCastle& a_Castle);
sp::DataBuffer& operator<<(sp::DataBuffer& a_Buffer, const Spawn& a_Spawn);
sp::DataBuffer& operator>>(sp::DataBuffer& a_Buffer, Spawn& a_Spawn);
} // namespace game
} // namespace td

21
include/td/protocol/packet/PacketSerializer.h
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@@ -1,21 +0,0 @@
#pragma once
#include <memory>
#include <td/common/DataBuffer.h>
namespace td {
namespace protocol {
class Packet;
using PacketPtr = std::unique_ptr<Packet>;
namespace PacketSerializer {
DataBuffer Serialize(const Packet& a_Packet);
std::unique_ptr<Packet> Deserialize(DataBuffer& a_Data);
} // namespace PacketSerializer
} // namespace protocol
} // namespace td

39
include/td/protocol/packet/PacketVisitor.h
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@@ -1,39 +0,0 @@
#pragma once
/**
* \file PacketVisitor.h
* \brief File containing the td::protocol::PacketVisitor class
*/
#include <td/protocol/packet/Packets.h>
namespace td {
namespace protocol {
#define DeclarePacket(PacketName, ...) \
/** This function is called when the packet processed by PacketVisitor::Check is a PacketName */ \
virtual void Visit(const packets::PacketName&) {}
/**
* \class PacketVisitor
* \brief This class uses double-dispatch in order to find the real type of a packet
*/
class PacketVisitor : private NonCopyable {
protected:
PacketVisitor() {}
virtual ~PacketVisitor() {}
public:
/**
* \brief Calls the right PacketVisitor::Visit method corresponding to the real type of the packet
* \param packet the Packet to visit
*/
void Check(const Packet& packet);
DeclareAllPacket()
};
#undef DeclarePacket
} // namespace protocol
} // namespace td

131
include/td/protocol/packet/Packets.h
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@@ -7,107 +7,66 @@
#include <td/common/NonCopyable.h>
#include <td/protocol/packet/PacketData.h>
#include <td/protocol/packet/PacketDeclare.h>
#include <sp/protocol/ConcreteMessage.h>
#include <sp/protocol/MessageBase.h>
#include <sp/protocol/MessageDispatcher.h>
#include <sp/protocol/MessageFactory.h>
#include <sp/common/GenericHandler.h>
namespace td {
namespace protocol {
class PacketVisitor;
/** A Packet id is 8 bits wide */
using PacketID = std::uint8_t;
using PeerID = std::uint16_t;
#define DeclarePacket(PacketName, ...) /** PacketName */ PacketName,
/**
* \enum PacketType
* \brief Map a Packet to an id
*/
enum class PacketType : PacketID {
DeclareAllPacket()
/** The number of packets */
PACKET_COUNT
enum class PacketID : std::uint8_t {
ChatMessage = 0,
BeginGame,
Disconnect,
KeepAlive,
LockSteps,
LoggingSuccess,
PlayerJoin,
PlayerLeave,
PlayerLogin,
PredictCommand,
WorldHeader,
WorldData,
};
class PacketHandler;
#undef DeclarePacket
class Packet : private NonCopyable {
public:
/**
* \return The real type of the packet
*/
virtual PacketType GetType() const = 0;
/**
* \brief The network peer who sent the packet
*/
PeerID m_Sender;
private:
/** Use a PacketVisitor to make double-dispatch possible */
virtual void Accept(PacketVisitor& a_Visitor) const = 0;
friend class PacketVisitor;
};
using PacketBase = sp::MessageBase<PacketID, PacketHandler>;
template <typename TData, PacketID ID>
using PacketMessage = sp::ConcreteMessage<TData, PacketBase, ID>;
namespace packets {
/**
* \class ConcretePacket
* \brief A Packet associated with an id and holding data
* \tparam PT The packet type
* \tparam Data The structure holding the data of the packet (in td::protocol::data namespace)
*/
template <PacketType PT, typename Data>
class ConcretePacket : public Packet {
public:
/** The type of the struct holding the data */
using PacketDataType = Data;
/** The structure holding the actual data */
PacketDataType m_Data;
/** Construct the packet with data of type PacketDataType */
ConcretePacket(const PacketDataType& a_Data = {});
constexpr PacketType GetType() const override {
return PT;
};
private:
void Accept(PacketVisitor& a_Visitor) const override;
};
// define TD_INSTANCIATE_PACKETS
// before including this file
// if you want to instantiate templates
#ifdef TD_INSTANCIATE_PACKETS
#define DeclarePacket(PacketName, ...) \
using PacketName = ConcretePacket<PacketType::PacketName, pdata::PacketName>; \
template class ConcretePacket<PacketType::PacketName, pdata::PacketName>;
#else
#define DeclarePacket(PacketName, ...) /** Defines the PacketName packet */ \
using PacketName = ConcretePacket<PacketType::PacketName, pdata::PacketName>;
#endif
DeclareAllPacket()
#undef DeclarePacket
using BeginGamePacket = PacketMessage<pdata::BeginGame, PacketID::BeginGame>;
using ChatMessagePacket = PacketMessage<pdata::ChatMessage, PacketID::ChatMessage>;
using DisconnectPacket = PacketMessage<pdata::Disconnect, PacketID::Disconnect>;
using KeepAlivePacket = PacketMessage<pdata::KeepAlive, PacketID::KeepAlive>;
using LockStepsPacket = PacketMessage<pdata::LockSteps, PacketID::LockSteps>;
using LoggingSuccessPacket = PacketMessage<pdata::LoggingSuccess, PacketID::LoggingSuccess>;
using PlayerJoinPacket = PacketMessage<pdata::PlayerJoin, PacketID::PlayerJoin>;
using PlayerLeavePacket = PacketMessage<pdata::PlayerLeave, PacketID::PlayerLeave>;
using PlayerLoginPacket = PacketMessage<pdata::PlayerLogin, PacketID::PlayerLogin>;
using PredictCommandPacket = PacketMessage<pdata::PredictCommand, PacketID::PredictCommand>;
using WorldHeaderPacket = PacketMessage<pdata::WorldHeader, PacketID::WorldHeader>;
using WorldDataPacket = PacketMessage<pdata::WorldData, PacketID::WorldData>;
} // namespace packets
using AllPackets = std::tuple<packets::BeginGamePacket, packets::ChatMessagePacket, packets::DisconnectPacket,
packets::KeepAlivePacket, packets::LockStepsPacket, packets::LoggingSuccessPacket, packets::PlayerJoinPacket,
packets::PlayerLeavePacket, packets::PlayerLoginPacket, packets::PredictCommandPacket, packets::WorldHeaderPacket, packets::WorldDataPacket>;
class PacketHandler : public sp::GenericHandler<AllPackets> {};
using PacketDispatcher = sp::MessageDispatcher<PacketBase>;
using PacketFactory = sp::MessageFactory<PacketBase, AllPackets>;
} // namespace protocol
} // namespace td

41
include/td/render/Camera.h Normal file
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@@ -0,0 +1,41 @@
#pragma once
#include <td/Maths.h>
#include <td/misc/Signal.h>
namespace td {
namespace render {
class Camera {
private:
Mat4f m_ViewMatrix;
Mat4f m_ProjectionMatrix;
Mat4f m_InvViewMatrix;
Mat4f m_InvProjectionMatrix;
float m_CamDistance = 25.0f;
Vec3f m_CamPos{0, m_CamDistance, 0};
Vec2f m_CamLook{};
float m_Yaw = -PI / 2.0f;
float m_Pitch = -PI / 2.0f + 0.0000001f;
public:
utils::Signal<> OnPerspectiveChange;
utils::Signal<> OnViewChange;
const Mat4f& GetViewMatrix() const {
return m_ViewMatrix;
}
const Mat4f& GetProjectionMatrix() const {
return m_ProjectionMatrix;
}
void UpdatePerspective(float a_AspectRatio);
void SetCamPos(const Vec3f& a_NewPos);
};
} // namespace render
} // namespace td

8
include/td/render/OpenGL.h Normal file
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@@ -0,0 +1,8 @@
#pragma once
#ifdef TD_GL_LOADER_GLEW
#include <GL/glew.h>
#else
#include <glbinding/gl/gl.h>
using namespace gl;
#endif

77
include/td/render/Renderer.h Normal file
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@@ -0,0 +1,77 @@
#pragma once
#include <memory>
#include <td/render/Camera.h>
#include <td/render/loader/GLLoader.h>
#include <td/render/shader/CameraShaderProgram.h>
namespace td {
namespace render {
class BasicRenderer {
public:
virtual void Render(float a_Lerp) = 0;
virtual ~BasicRenderer() {}
void Render(const GL::VertexArray& a_Vao);
};
template <typename TShader>
class Renderer : public BasicRenderer {
protected:
std::unique_ptr<TShader> m_Shader;
Camera& m_Camera;
public:
Renderer(Camera& a_Camera);
virtual ~Renderer() {}
template <typename T>
float Lerp(const T& a_Mob, float a_LerpFactor, const std::function<float(const T&)>& a_MemberGetter) {
return static_cast<float>(maths::Lerp(a_MemberGetter(a_Mob), a_MemberGetter(*a_Mob.m_Next), a_LerpFactor));
}
};
class RenderPipeline {
private:
std::vector<std::unique_ptr<BasicRenderer>> m_Renderers;
public:
RenderPipeline();
virtual ~RenderPipeline() {}
template <typename T, typename... Args>
void AddRenderer(Args&&... args) {
m_Renderers.push_back(std::make_unique<T>(args...));
}
void Clear() {
m_Renderers.clear();
}
void Render(float a_Lerp) {
for (auto& renderer : m_Renderers) {
renderer->Render(a_Lerp);
}
}
};
template <typename TShader>
Renderer<TShader>::Renderer(Camera& a_Camera) : m_Shader(std::make_unique<TShader>()), m_Camera(a_Camera) {
a_Camera.OnPerspectiveChange.Connect([this]() {
m_Shader->Start();
m_Shader->SetProjectionMatrix(m_Camera.GetProjectionMatrix());
});
a_Camera.OnViewChange.Connect([this]() {
m_Shader->Start();
m_Shader->SetViewMatrix(m_Camera.GetViewMatrix());
});
}
} // namespace render
} // namespace td

86
include/td/render/loader/GLLoader.h Normal file
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@@ -0,0 +1,86 @@
#pragma once
#include <sp/common/NonCopyable.h>
#include <vector>
namespace td {
namespace GL {
struct VertexAttribPointer {
unsigned int m_Index;
unsigned int m_Size;
unsigned int m_Offset;
};
class ElementBuffer : private sp::NonCopyable {
private:
unsigned int m_ID = 0;
std::size_t m_TriangleCount;
public:
ElementBuffer(ElementBuffer&& other) {
std::swap(m_ID, other.m_ID);
m_TriangleCount = other.m_TriangleCount;
}
explicit ElementBuffer(const std::vector<unsigned int>& indicies);
~ElementBuffer();
void Bind() const;
void Unbind() const;
std::size_t GetTriangleCount() const {
return m_TriangleCount;
}
};
class VertexBuffer : private sp::NonCopyable {
private:
unsigned int m_ID = 0, m_DataStride;
std::vector<VertexAttribPointer> m_VertexAttribs;
public:
VertexBuffer(VertexBuffer&& other) {
std::swap(m_ID, other.m_ID);
m_VertexAttribs = std::move(other.m_VertexAttribs);
m_DataStride = other.m_DataStride;
}
VertexBuffer(const std::vector<float>& data, unsigned int stride);
~VertexBuffer();
void Bind() const;
void Unbind() const;
void AddVertexAttribPointer(unsigned int index, unsigned int coordinateSize, unsigned int offset);
void BindVertexAttribs() const;
};
class VertexArray : private sp::NonCopyable {
private:
unsigned int m_ID = 0;
ElementBuffer m_ElementBuffer;
std::vector<VertexBuffer> m_VertexBuffers; // use to destroy vbos when become unused
public:
VertexArray(VertexArray&& other) : m_ElementBuffer(std::move(other.m_ElementBuffer)) {
std::swap(m_ID, other.m_ID);
m_VertexBuffers = std::move(other.m_VertexBuffers);
}
VertexArray(ElementBuffer&& indicies);
~VertexArray();
std::size_t GetVertexCount() const {
return m_ElementBuffer.GetTriangleCount();
}
void BindVertexBuffer(VertexBuffer&& vbo);
void Bind() const;
void Unbind() const;
private:
void BindElementArrayBuffer();
};
} // namespace GL
} // namespace td

25
include/td/render/loader/WorldLoader.h Normal file
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@@ -0,0 +1,25 @@
#pragma once
#include <td/game/World.h>
#include <td/render/loader/GLLoader.h>
namespace td {
namespace render {
namespace WorldLoader {
struct RenderData {
std::vector<float> positions;
std::vector<float> colors;
};
GL::VertexArray LoadMobModel();
GL::VertexArray LoadWorldModel(const td::game::World* world);
GL::VertexArray LoadTileSelectModel();
RenderData LoadTowerModel(const game::TowerPtr& tower);
} // namespace WorldLoader
} // namespace render
} // namespace td

23
include/td/render/renderer/EntityRenderer.h Normal file
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@@ -0,0 +1,23 @@
#pragma once
#include <td/render/Renderer.h>
#include <td/render/shader/EntityShader.h>
#include <td/game/World.h>
namespace td {
namespace render {
class EntityRenderer : public Renderer<shader::EntityShader> {
private:
const game::World& m_World;
std::unique_ptr<GL::VertexArray> m_EntityVao;
public:
EntityRenderer(Camera& a_Camera, const game::World& a_World);
virtual ~EntityRenderer();
virtual void Render(float a_Lerp) override;
};
} // namespace render
} // namespace td

23
include/td/render/renderer/TowerRenderer.h Normal file
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@@ -0,0 +1,23 @@
#pragma once
#include <td/render/Renderer.h>
#include <td/render/shader/EntityShader.h>
#include <td/game/World.h>
namespace td {
namespace render {
class TowerRenderer : public Renderer<shader::EntityShader> {
private:
const game::World& m_World;
std::unique_ptr<GL::VertexArray> m_EntityVao;
public:
TowerRenderer(Camera& a_Camera, const game::World& a_World);
virtual ~TowerRenderer();
virtual void Render(float a_Lerp) override;
};
} // namespace render
} // namespace td

23
include/td/render/renderer/WorldRenderer.h Normal file
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@@ -0,0 +1,23 @@
#pragma once
#include <td/game/World.h>
#include <td/render/Renderer.h>
#include <td/render/loader/GLLoader.h>
#include <td/render/shader/WorldShader.h>
namespace td {
namespace render {
class WorldRenderer : public Renderer<shader::WorldShader> {
private:
std::unique_ptr<GL::VertexArray> m_WorldVao;
public:
WorldRenderer(Camera& a_Camera, const game::World& a_World);
virtual ~WorldRenderer();
virtual void Render(float a_Lerp) override;
};
} // namespace render
} // namespace td

23
include/td/render/shader/CameraShaderProgram.h Normal file
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@@ -0,0 +1,23 @@
#pragma once
#include <td/render/shader/ShaderProgram.h>
namespace td {
namespace shader {
class CameraShaderProgram : public ShaderProgram {
private:
unsigned int m_LocationProjection = 0, m_LocationView = 0;
public:
CameraShaderProgram() {}
void SetProjectionMatrix(const Mat4f& proj) const;
void SetViewMatrix(const Mat4f& view) const;
virtual void GetAllUniformLocation();
};
} // namespace shader
} // namespace td

24
include/td/render/shader/EntityShader.h Normal file
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@@ -0,0 +1,24 @@
#pragma once
#include <td/render/shader/CameraShaderProgram.h>
namespace td {
namespace shader {
class EntityShader : public CameraShaderProgram {
private:
unsigned int m_LocationPosition = 0;
unsigned int m_LocationColorEffect = 0;
protected:
virtual void GetAllUniformLocation();
public:
EntityShader();
void SetColorEffect(const Vec3f& color);
void SetModelPos(const Vec3f& pos) const;
};
} // namespace shader
} // namespace td

43
include/td/render/shader/ShaderProgram.h Executable file
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@@ -0,0 +1,43 @@
#pragma once
#include <string>
#include <td/Maths.h>
#include <td/render/OpenGL.h>
namespace td {
namespace shader {
class ShaderProgram {
public:
ShaderProgram();
virtual ~ShaderProgram();
void Start() const;
void Stop() const;
protected:
void LoadProgramFile(const std::string& vertexFile, const std::string& fragmentFile);
void LoadProgram(const std::string& vertexSource, const std::string& fragmentSource);
virtual void GetAllUniformLocation() = 0;
int GetUniformLocation(const std::string& uniformName) const;
void LoadFloat(unsigned int location, float value) const;
void LoadInt(unsigned int location, int value) const;
void LoadVector(unsigned int location, const Vec2f& vector) const;
void LoadVector(unsigned int location, const Vec3f& vector) const;
void LoadBoolean(unsigned int location, bool value) const;
void LoadMat4(unsigned int location, const Mat4f& mat) const;
void CleanUp() const;
private:
unsigned int m_ProgramID;
unsigned int m_VertexShaderID;
unsigned int m_FragmentShaderID;
unsigned int LoadShaderFromFile(const std::string& file, GLenum type);
unsigned int LoadShader(const std::string& source, GLenum type);
};
} // namespace shader
} // namespace td

14
include/td/render/shader/WorldShader.h Normal file
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@@ -0,0 +1,14 @@
#pragma once
#include <td/render/shader/CameraShaderProgram.h>
namespace td {
namespace shader {
class WorldShader : public CameraShaderProgram {
public:
WorldShader();
};
} // namespace shader
} // namespace td

63
include/td/simulation/ClientSimulation.h Normal file
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@@ -0,0 +1,63 @@
#pragma once
#include <td/game/World.h>
#include <optional>
namespace td {
namespace sim {
using GameHistory = std::vector<td::protocol::LockStep>;
using GameBuffer = std::vector<std::optional<td::protocol::LockStep>>;
// TODO: OnEnd signal
class ClientSimulation : public protocol::PacketHandler {
private:
std::uint64_t m_StepTime;
game::World& m_World;
GameBuffer m_History;
std::uint64_t m_CurrentTime;
std::uint64_t m_LastTime;
std::size_t m_CurrentStep;
std::shared_ptr<WorldSnapshot> m_LastSnapshot;
std::uint64_t m_LastValidStep;
static const protocol::LockStep EMPTY_LOCKSTEP;
public:
/**
* \brief Replay constructor
* \param a_StepTime in ms
*/
ClientSimulation(game::World& a_World, GameHistory&& a_History, std::uint64_t a_StepTime);
/**
* \brief Live update constructor (continuous game updates)
* \param a_StepTime in ms
*/
ClientSimulation(game::World& a_World, std::uint64_t a_StepTime);
/**
* \return the progress [0-1] between two steps
*/
float Update();
void Handle(const protocol::packets::LockStepsPacket& a_LockSteps) override;
void Handle(const protocol::packets::PredictCommandPacket& a_Predict) override;
private:
void Step();
/**
* \brief Ticks a_Count times
*/
void FastForward(std::size_t a_Count);
/**
* \brief Tries to recompute simulation if needed (for example in late command receival)
*/
void FastReplay();
};
} // namespace sim
} // namespace td

27
include/td/simulation/CommandApply.h Normal file
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@@ -0,0 +1,27 @@
#pragma once
#include <td/game/World.h>
#include <td/protocol/command/Commands.h>
namespace td {
namespace sim {
class CommandApply : public protocol::CommandHandler {
private:
const game::World& m_World;
WorldSnapshot& m_Snapshot;
public:
CommandApply(const game::World& a_World, WorldSnapshot& a_Snapshot);
virtual void Handle(const protocol::commands::EndCommand& a_End) override;
virtual void Handle(const protocol::commands::PlaceTowerCommand& a_PlaceTower) override;
virtual void Handle(const protocol::commands::PlayerJoinCommand& a_PlayerJoin) override;
virtual void Handle(const protocol::commands::SpawnTroopCommand& a_SpawnTroop) override;
virtual void Handle(const protocol::commands::TeamChangeCommand& a_TeamChange) override;
virtual void Handle(const protocol::commands::UpgradeTowerCommand& a_UpgradeTower) override;
virtual void Handle(const protocol::commands::UseItemCommand& a_UseItem) override;
};
} // namespace sim
} // namespace td

2
include/td/game/GameHistory.h → include/td/simulation/GameHistory.h
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@@ -24,7 +24,7 @@ class GameHistory {
void FromPacket(td::protocol::pdata::LockSteps&& a_Steps);
td::protocol::packets::LockSteps ToPacket(HistorySizeType a_StartIndex);
td::protocol::packets::LockStepsPacket ToPacket(HistorySizeType a_StartIndex);
};
} // namespace game

22
include/td/simulation/ServerSimulation.h Normal file
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@@ -0,0 +1,22 @@
#pragma once
#include <td/game/World.h>
namespace td {
namespace sim {
// TODO: OnEnd signal
class ServerSimulation {
private:
game::World& m_World;
std::uint64_t m_StepTime;
std::uint64_t m_CurrentTime;
public:
ServerSimulation(game::World& a_World, std::uint64_t a_StepTime);
void Update();
};
} // namespace sim
} // namespace td

18
include/td/simulation/WorldSnapshot.h Normal file
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@@ -0,0 +1,18 @@
#pragma once
#include <td/game/WorldTypes.h>
#include <td/game/Mobs.h>
namespace td {
namespace sim {
struct WorldSnapshot {
game::MobList m_Mobs;
game::TowerList m_Towers;
game::TeamList m_Teams;
};
} // namespace sim
} // namespace td

41
include/td/simulation/WorldTicker.h Normal file
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@@ -0,0 +1,41 @@
#pragma once
#include <td/protocol/command/Commands.h>
#include <td/simulation/WorldSnapshot.h>
namespace td {
namespace game {
class World;
}
namespace sim {
class IWorldSystem {
public:
virtual void Tick(const game::World& a_World, WorldSnapshot& a_State, FpFloat a_Delta) = 0;
virtual ~IWorldSystem() = default;
};
class WorldTicker {
private:
std::vector<std::unique_ptr<IWorldSystem>> m_Systems;
public:
WorldTicker();
WorldSnapshot NextStep(
const game::World& a_World, WorldSnapshot& a_PreviousState, const protocol::LockStep& a_LockStep, FpFloat a_Delta);
private:
void ApplySteps(const game::World& a_World, WorldSnapshot& a_State, const protocol::LockStep& a_LockStep);
void Tick(const game::World& a_World, WorldSnapshot& a_State, FpFloat a_Delta);
WorldSnapshot CreateNext(WorldSnapshot& a_PreviousState);
template <typename T>
void AddSystem() {
m_Systems.push_back(std::make_unique<T>());
}
};
} // namespace sim
} // namespace td

14
include/td/simulation/system/EntityMove.h Normal file
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@@ -0,0 +1,14 @@
#pragma once
#include <td/simulation/WorldTicker.h>
namespace td {
namespace sim {
class EntityMove : public IWorldSystem {
public:
virtual void Tick(const game::World& a_World, WorldSnapshot& a_State, FpFloat a_Delta) override;
};
} // namespace sim
} // namespace td