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Merge branch 'Input' of https://github.com/dean11/Danbias into Input

This commit is contained in:
Dennis Andersen 2014-02-25 00:07:01 +01:00
parent a987c2e618 b46b6525cd
commit 282cbebd7c
59 changed files with 2338 additions and 1645 deletions
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93
Code/Game/GameClient/DanBiasGame_Impl.cpp
View File

@ -14,68 +14,81 @@
#include <GameServerAPI.h> #include <GameServerAPI.h>
#include "../WindowManager/WindowShell.h" #include "../WindowManager/WindowShell.h"
#include "L_inputClass.h"
#include "WinTimer.h" #include "WinTimer.h"
#include "vld.h" #include "vld.h"
#include "EventHandler/EventHandler.h" #include "EventHandler/EventHandler.h"
#include "GameClientState\SharedStateContent.h" #include "GameClientState/SharedStateContent.h"
#include "Utilities.h"
using namespace ::Oyster; using namespace ::Oyster;
using namespace ::Oyster::Event; using namespace ::Oyster::Event;
using namespace ::Oyster::Network; using namespace ::Oyster::Network;
using namespace ::Utility::DynamicMemory; using namespace ::Utility::DynamicMemory;
using namespace ::DanBias::Client; using namespace ::DanBias::Client;
using namespace ::Utility::DynamicMemory;
LRESULT CALLBACK WindowCallBack(HWND handle, UINT message, WPARAM wParam, LPARAM lParam );
void ClientEventFunction( NetEvent<NetworkClient*, NetworkClient::ClientEventArgs> e ); void ClientEventFunction( NetEvent<NetworkClient*, NetworkClient::ClientEventArgs> e );
#pragma region Game Data
namespace DanBias namespace DanBias
{ {
#pragma region Game Data
class DanBiasGamePrivateData class DanBiasGamePrivateData
{ {
public: public:
WindowShell* window; WindowShell* window;
InputClass inputObj;
Utility::WinTimer timer; Utility::WinTimer timer;
UniquePointer<Client::GameClientState> state; UniquePointer<Client::GameClientState> state;
SharedStateContent sharedStateContent;
NetworkClient networkClient; NetworkClient networkClient;
SharedStateContent sharedStateContent;
bool serverOwner; bool serverOwner;
float capFrame; float capFrame;
DanBiasGamePrivateData() DanBiasGamePrivateData()
{ {
this->capFrame = 0; this->sharedStateContent.network = nullptr;
this->sharedStateContent.mouseDevice = nullptr;
this->sharedStateContent.keyboardDevice = nullptr;
this->serverOwner = false;
this->capFrame = 0;
}
~DanBiasGamePrivateData()
{
//SafeDeleteInstance( this->sharedStateContent.mouseDevice );
//SafeDeleteInstance( this->sharedStateContent.keyboardDevice );
} }
} data; } data;
}
#pragma endregion #pragma endregion
namespace DanBias
{
//-------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------
// Interface API functions // Interface API functions
//-------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------
DanBiasClientReturn DanBiasGame::Initiate(DanBiasGameDesc& desc) DanBiasClientReturn DanBiasGame::Initiate( DanBiasGameDesc& desc )
{ {
WindowShell::CreateConsoleWindow(); WindowShell::CreateConsoleWindow();
//if(! data.window->CreateWin(WindowShell::WINDOW_INIT_DESC(L"Window", cPOINT(1600, 900), cPOINT()))) //if(! data.window->CreateWin(WindowShell::WINDOW_INIT_DESC(L"Window", cPOINT(1600, 900), cPOINT())))
WindowShell::WINDOW_INIT_DESC winDesc; WindowShell::WINDOW_INIT_DESC winDesc;
winDesc.windowSize.x = 1280; winDesc.windowSize.x = 1280;
winDesc.windowSize.y = 720; winDesc.windowSize.y = 720;
winDesc.windowProcCallback = WindowCallBack;
if(! data.window->CreateWin(winDesc) ) if(! data.window->CreateWin(winDesc) )
return DanBiasClientReturn_Error; return DanBiasClientReturn_Error;
if( FAILED( InitDirect3D() ) ) if( FAILED( InitInput(data.window->GetHWND()) ) )
return DanBiasClientReturn_Error; return DanBiasClientReturn_Error;
if( FAILED( InitInput() ) ) if( FAILED( InitDirect3D() ) )
return DanBiasClientReturn_Error; return DanBiasClientReturn_Error;
data.serverOwner = false; data.serverOwner = false;
@ -83,7 +96,6 @@ namespace DanBias
data.networkClient.SetMessagePump( ClientEventFunction ); data.networkClient.SetMessagePump( ClientEventFunction );
data.sharedStateContent.network = &data.networkClient; data.sharedStateContent.network = &data.networkClient;
data.sharedStateContent.input = &data.inputObj;
// Start in main menu state // Start in main menu state
data.state = new Client::MainState(); data.state = new Client::MainState();
@ -137,7 +149,6 @@ namespace DanBias
//-------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------
HRESULT DanBiasGame::InitDirect3D() HRESULT DanBiasGame::InitDirect3D()
{ {
Oyster::Graphics::API::Option p; Oyster::Graphics::API::Option p;
p.modelPath = L"..\\Content\\Models\\"; p.modelPath = L"..\\Content\\Models\\";
p.texturePath = L"..\\Content\\Textures\\"; p.texturePath = L"..\\Content\\Textures\\";
@ -153,35 +164,27 @@ namespace DanBias
//-------------------------------------------------------------------------------------- //--------------------------------------------------------------------------------------
// Init the input // Init the input
//------------------------------------------------------------------------------------- //-------------------------------------------------------------------------------------
HRESULT DanBiasGame::InitInput() HRESULT DanBiasGame::InitInput( HWND handle )
{ {
if(!data.inputObj.Initialize(data.window->GetHINSTANCE(), data.window->GetHWND(), data.window->GetHeight(), data.window->GetWidth())) data.sharedStateContent.mouseDevice = dynamic_cast<Input::Mouse*>( ::Input::InputManager::Instance()->CreateDevice(Input::Enum::SAIType_Mouse, handle) );
if( !data.sharedStateContent.mouseDevice )
{ {
MessageBox(0, L"Could not initialize the input object.", L"Error", MB_OK); MessageBox( 0, L"Could not initialize the mouseDevice.", L"Error", MB_OK );
return E_FAIL; return E_FAIL;
} }
data.sharedStateContent.keyboardDevice= dynamic_cast<Input::Keyboard*>( ::Input::InputManager::Instance()->CreateDevice(Input::Enum::SAIType_Keyboard, handle) );
if( !data.sharedStateContent.keyboardDevice )
{
MessageBox( 0, L"Could not initialize the raw keyboard device.", L"Error", MB_OK );
return E_FAIL;
}
return S_OK; return S_OK;
} }
DanBiasGame::Result DanBiasGame::Update(float deltaTime) DanBiasGame::Result DanBiasGame::Update(float deltaTime)
{ {
{ // updating mouse input
// TODO: Is obosolete when Dennis's input system is wired in
POINT mousePos;
GetCursorPos( &mousePos );
RECT windowVertex;
GetWindowRect( data.window->GetHWND(), &windowVertex );
float mouseNormalisedX = (float)(mousePos.x - windowVertex.left);
mouseNormalisedX /= (float)(windowVertex.right - windowVertex.left);
float mouseNormalisedY = (float)(mousePos.y - windowVertex.top);
mouseNormalisedY /= (float)(windowVertex.bottom - windowVertex.top);
data.inputObj.Update( mouseNormalisedX, mouseNormalisedY );
}
if( data.serverOwner ) if( data.serverOwner )
{ {
DanBias::GameServerAPI::ServerUpdate(); DanBias::GameServerAPI::ServerUpdate();
@ -251,6 +254,8 @@ namespace DanBias
data.networkClient.Disconnect(); data.networkClient.Disconnect();
data.state = nullptr; data.state = nullptr;
SafeDeleteInstance( data.sharedStateContent.network );
EventHandler::Instance().Clean(); EventHandler::Instance().Clean();
Graphics::API::Clean(); Graphics::API::Clean();
@ -261,6 +266,22 @@ namespace DanBias
} //End namespace DanBias } //End namespace DanBias
LRESULT CALLBACK WindowCallBack(HWND handle, UINT message, WPARAM wParam, LPARAM lParam )
{
switch ( message )
{
case WM_DESTROY:
PostQuitMessage( 0 );
break;
case WM_INPUT:
message = 0;
break;
default: break;
}
return DefWindowProc( handle, message, wParam, lParam );
}
void ClientEventFunction( NetEvent<NetworkClient*, NetworkClient::ClientEventArgs> e ) void ClientEventFunction( NetEvent<NetworkClient*, NetworkClient::ClientEventArgs> e )
{ {
if( DanBias::data.state ) if( DanBias::data.state )

14
Code/Game/GameClient/GameClient.vcxproj
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@ -106,7 +106,7 @@
<Optimization>Disabled</Optimization> <Optimization>Disabled</Optimization>
<PreprocessorDefinitions>DANBIAS_GAME_DLL_EXPORT;WIN32;_DEBUG;_WINDOWS;%(PreprocessorDefinitions)</PreprocessorDefinitions> <PreprocessorDefinitions>DANBIAS_GAME_DLL_EXPORT;WIN32;_DEBUG;_WINDOWS;%(PreprocessorDefinitions)</PreprocessorDefinitions>
<SDLCheck>true</SDLCheck> <SDLCheck>true</SDLCheck>
<AdditionalIncludeDirectories>$(SolutionDir)Misc\OysterMath;$(SolutionDir)Misc\Input;$(SolutionDir)OysterGraphics;$(SolutionDir)Misc\Utilities;$(SolutionDir)Game\LevelLoader</AdditionalIncludeDirectories> <AdditionalIncludeDirectories>$(SolutionDir)Misc\OysterMath;$(SolutionDir)Misc\Input\Include;$(SolutionDir)OysterGraphics;$(SolutionDir)Misc\Utilities;$(SolutionDir)Game\LevelLoader</AdditionalIncludeDirectories>
</ClCompile> </ClCompile>
<Link> <Link>
<SubSystem>Windows</SubSystem> <SubSystem>Windows</SubSystem>
@ -123,7 +123,7 @@
<Optimization>Disabled</Optimization> <Optimization>Disabled</Optimization>
<PreprocessorDefinitions>DANBIAS_GAME_DLL_EXPORT;WIN32;_DEBUG;_WINDOWS;%(PreprocessorDefinitions)</PreprocessorDefinitions> <PreprocessorDefinitions>DANBIAS_GAME_DLL_EXPORT;WIN32;_DEBUG;_WINDOWS;%(PreprocessorDefinitions)</PreprocessorDefinitions>
<SDLCheck>true</SDLCheck> <SDLCheck>true</SDLCheck>
<AdditionalIncludeDirectories>$(SolutionDir)Misc\OysterMath;$(SolutionDir)Misc\Input;$(SolutionDir)OysterGraphics;$(SolutionDir)Misc\Utilities;$(SolutionDir)Game\LevelLoader</AdditionalIncludeDirectories> <AdditionalIncludeDirectories>$(SolutionDir)Misc\OysterMath;$(SolutionDir)Misc\Input\Include;$(SolutionDir)OysterGraphics;$(SolutionDir)Misc\Utilities;$(SolutionDir)Game\LevelLoader</AdditionalIncludeDirectories>
</ClCompile> </ClCompile>
<Link> <Link>
<SubSystem>Windows</SubSystem> <SubSystem>Windows</SubSystem>
@ -142,7 +142,7 @@
<IntrinsicFunctions>true</IntrinsicFunctions> <IntrinsicFunctions>true</IntrinsicFunctions>
<PreprocessorDefinitions>DANBIAS_GAME_DLL_EXPORT;WIN32;NDEBUG;_WINDOWS;%(PreprocessorDefinitions)</PreprocessorDefinitions> <PreprocessorDefinitions>DANBIAS_GAME_DLL_EXPORT;WIN32;NDEBUG;_WINDOWS;%(PreprocessorDefinitions)</PreprocessorDefinitions>
<SDLCheck>true</SDLCheck> <SDLCheck>true</SDLCheck>
<AdditionalIncludeDirectories>$(SolutionDir)Misc\OysterMath;$(SolutionDir)Misc\Input;$(SolutionDir)OysterGraphics;$(SolutionDir)Misc\Utilities;$(SolutionDir)Game\LevelLoader</AdditionalIncludeDirectories> <AdditionalIncludeDirectories>$(SolutionDir)Misc\OysterMath;$(SolutionDir)Misc\Input\Include;$(SolutionDir)OysterGraphics;$(SolutionDir)Misc\Utilities;$(SolutionDir)Game\LevelLoader</AdditionalIncludeDirectories>
</ClCompile> </ClCompile>
<Link> <Link>
<SubSystem>Windows</SubSystem> <SubSystem>Windows</SubSystem>
@ -163,7 +163,7 @@
<IntrinsicFunctions>true</IntrinsicFunctions> <IntrinsicFunctions>true</IntrinsicFunctions>
<PreprocessorDefinitions>DANBIAS_GAME_DLL_EXPORT;WIN32;NDEBUG;_WINDOWS;%(PreprocessorDefinitions)</PreprocessorDefinitions> <PreprocessorDefinitions>DANBIAS_GAME_DLL_EXPORT;WIN32;NDEBUG;_WINDOWS;%(PreprocessorDefinitions)</PreprocessorDefinitions>
<SDLCheck>true</SDLCheck> <SDLCheck>true</SDLCheck>
<AdditionalIncludeDirectories>$(SolutionDir)Misc\OysterMath;$(SolutionDir)Misc\Input;$(SolutionDir)OysterGraphics;$(SolutionDir)Misc\Utilities;$(SolutionDir)Game\LevelLoader</AdditionalIncludeDirectories> <AdditionalIncludeDirectories>$(SolutionDir)Misc\OysterMath;$(SolutionDir)Misc\Input\Include;$(SolutionDir)OysterGraphics;$(SolutionDir)Misc\Utilities;$(SolutionDir)Game\LevelLoader</AdditionalIncludeDirectories>
</ClCompile> </ClCompile>
<Link> <Link>
<SubSystem>Windows</SubSystem> <SubSystem>Windows</SubSystem>
@ -224,8 +224,11 @@
<ClCompile Include="GameClientState\MainState.cpp" /> <ClCompile Include="GameClientState\MainState.cpp" />
<ClCompile Include="GameClientState\NetLoadState.cpp" /> <ClCompile Include="GameClientState\NetLoadState.cpp" />
<ClCompile Include="GameClientState\RespawnUI.cpp" /> <ClCompile Include="GameClientState\RespawnUI.cpp" />
<ClCompile Include="GameClientState\StatsUI.cpp" />
</ItemGroup> </ItemGroup>
<ItemGroup> <ItemGroup>
<ClInclude Include="GameClientState\Buttons\Plane_UI.h" />
<ClInclude Include="GameClientState\Buttons\Text_UI.h" />
<ClInclude Include="GameClientState\Camera_Basic.h" /> <ClInclude Include="GameClientState\Camera_Basic.h" />
<ClInclude Include="GameClientState\Buttons\ButtonEllipse.h" /> <ClInclude Include="GameClientState\Buttons\ButtonEllipse.h" />
<ClInclude Include="GameClientState\Buttons\EventButtonGUI.h" /> <ClInclude Include="GameClientState\Buttons\EventButtonGUI.h" />
@ -249,10 +252,13 @@
<ClInclude Include="GameClientState\NetLoadState.h" /> <ClInclude Include="GameClientState\NetLoadState.h" />
<ClInclude Include="GameClientState\RespawnUI.h" /> <ClInclude Include="GameClientState\RespawnUI.h" />
<ClInclude Include="GameClientState\SharedStateContent.h" /> <ClInclude Include="GameClientState\SharedStateContent.h" />
<ClInclude Include="GameClientState\StatsUI.h" />
<ClInclude Include="Include\DanBiasGame.h" />
<ClInclude Include="Include\GameClient.h" /> <ClInclude Include="Include\GameClient.h" />
<ClInclude Include="GameClientState\LobbyState.h" /> <ClInclude Include="GameClientState\LobbyState.h" />
<ClInclude Include="GameClientState\C_Object.h" /> <ClInclude Include="GameClientState\C_Object.h" />
<ClInclude Include="GameClientState\Buttons\TextField.h" /> <ClInclude Include="GameClientState\Buttons\TextField.h" />
<ClInclude Include="Win32Input.h" />
</ItemGroup> </ItemGroup>
<Import Project="$(VCTargetsPath)\Microsoft.Cpp.targets" /> <Import Project="$(VCTargetsPath)\Microsoft.Cpp.targets" />
<ImportGroup Label="ExtensionTargets"> <ImportGroup Label="ExtensionTargets">

2
Code/Game/GameClient/GameClient.vcxproj.user
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@ -1,7 +1,7 @@
<?xml version="1.0" encoding="utf-8"?> <?xml version="1.0" encoding="utf-8"?>
<Project ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003"> <Project ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
<PropertyGroup> <PropertyGroup>
<ShowAllFiles>false</ShowAllFiles> <ShowAllFiles>true</ShowAllFiles>
</PropertyGroup> </PropertyGroup>
<PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'"> <PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
<LocalDebuggerWorkingDirectory>$(OutDir)</LocalDebuggerWorkingDirectory> <LocalDebuggerWorkingDirectory>$(OutDir)</LocalDebuggerWorkingDirectory>

2
Code/Game/GameClient/GameClientState/Buttons/EventButtonGUI.h
View File

@ -113,7 +113,7 @@ namespace DanBias
{ {
if(buttonText.size() > 0) if(buttonText.size() > 0)
{ {
Oyster::Graphics::API::RenderText(buttonText, pos - Float3(size.x * 0.5f, size.y * 0.25f, -0.001f), size, size.y * 0.5f, textColor); Oyster::Graphics::API::RenderText(buttonText, pos - Float3(size.x * 0.5f, size.y * 0.25f, +0.001f), size, size.y * 0.5f, textColor);
} }
} }

51
Code/Game/GameClient/GameClientState/Buttons/Plane_UI.h Normal file
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@ -0,0 +1,51 @@
#ifndef DANBIAS_CLIENT_PLANE_UI_H
#define DANBIAS_CLIENT_PLANE_UI_H
#include "DllInterfaces/GFXAPI.h"
namespace DanBias
{
namespace Client
{
class Plane_UI
{
public:
Plane_UI( )
{
pos = Oyster::Math::Float3::null;
size = Oyster::Math::Float2::null;
tintColor = Oyster::Math::Float4(1);
texture = NULL;
}
Plane_UI( std::wstring textureName, Oyster::Math::Float3 pos, Oyster::Math::Float2 size, Oyster::Math::Float4 tintColor = Oyster::Math::Float4(1))
: pos(pos), size(size), tintColor(tintColor)
{
CreateTexture(textureName);
}
virtual ~Plane_UI()
{
Oyster::Graphics::API::DeleteTexture(texture);
texture = NULL;
}
void CreateTexture(std::wstring textureName)
{
//Create texture
texture = Oyster::Graphics::API::CreateTexture(textureName);
}
virtual void RenderTexture() const
{
if(texture)
Oyster::Graphics::API::RenderGuiElement(texture, pos, size, tintColor);
}
private:
Oyster::Math::Float3 pos;
Oyster::Math::Float2 size;
Oyster::Graphics::API::Texture texture;
Oyster::Math::Float4 tintColor;
};
}
}
#endif

45
Code/Game/GameClient/GameClientState/Buttons/Text_UI.h Normal file
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@ -0,0 +1,45 @@
#ifndef DANBIAS_CLIENT_TEXT_UI_H
#define DANBIAS_CLIENT_TEXT_UI_H
#include "DllInterfaces/GFXAPI.h"
namespace DanBias
{
namespace Client
{
class Text_UI
{
public:
Text_UI( )
{
pos = Oyster::Math::Float3::null;
size = Oyster::Math::Float2::null;
text = L"";
textColor = Oyster::Math::Float4(1);
}
Text_UI(std::wstring text, Oyster::Math::Float3 pos, Oyster::Math::Float2 size, Oyster::Math::Float4 textColor = Oyster::Math::Float4(1))
: pos(pos), size(size), text(text), textColor(textColor)
{
}
void setText(std::wstring text)
{
this->text = text;
}
void RenderText() const
{
if(text.size() > 0)
{
Oyster::Graphics::API::RenderText(text, pos, size, size.y * 0.5f, textColor);
}
}
private:
Oyster::Math::Float3 pos;
Oyster::Math::Float2 size;
std::wstring text;
Oyster::Math::Float4 textColor;
};
}
}
#endif

6
Code/Game/GameClient/GameClientState/C_Object.cpp
View File

@ -138,9 +138,9 @@ bool C_Object::InitRB(RBInitData RBInit)
} }
void C_Object::updateRBWorld() void C_Object::updateRBWorld()
{ {
Oyster::Math3D::Float4x4 translation = Oyster::Math3D::TranslationMatrix(this->position); Oyster::Math3D::Float4x4 translation = Oyster::Math3D::TranslationMatrix(this->RBposition);
Oyster::Math3D::Float4x4 rot = Oyster::Math3D::RotationMatrix(this->rotation); Oyster::Math3D::Float4x4 rot = Oyster::Math3D::RotationMatrix(this->RBrotation);
Oyster::Math3D::Float4x4 scale = Oyster::Math3D::ScalingMatrix(this->scale); Oyster::Math3D::Float4x4 scale = Oyster::Math3D::ScalingMatrix(this->RBscale);
RBworld = translation * rot * scale; RBworld = translation * rot * scale;
} }
Oyster::Math::Float4x4 C_Object::getRBWorld() const Oyster::Math::Float4x4 C_Object::getRBWorld() const

373
Code/Game/GameClient/GameClientState/GameState.cpp
View File

@ -9,6 +9,9 @@
#include "C_obj/C_DynamicObj.h" #include "C_obj/C_DynamicObj.h"
#include "C_obj/C_StaticObj.h" #include "C_obj/C_StaticObj.h"
#include "Utilities.h" #include "Utilities.h"
#include "GamingUI.h"
#include "RespawnUI.h"
#include "StatsUI.h"
using namespace ::DanBias::Client; using namespace ::DanBias::Client;
using namespace ::Oyster; using namespace ::Oyster;
@ -24,25 +27,13 @@ struct GameState::MyData
MyData(){} MyData(){}
GameClientState::ClientState nextState; GameClientState::ClientState nextState;
NetworkClient *nwClient; NetworkClient *nwClient;
InputClass *input; ::Input::Mouse *mouseInput;
::Input::Keyboard *keyboardInput;
::std::map<int, ::Utility::DynamicMemory::UniquePointer<::DanBias::Client::C_StaticObj>> *staticObjects; ::std::map<int, ::Utility::DynamicMemory::UniquePointer<::DanBias::Client::C_StaticObj>> *staticObjects;
::std::map<int, ::Utility::DynamicMemory::UniquePointer<::DanBias::Client::C_DynamicObj>> *dynamicObjects; ::std::map<int, ::Utility::DynamicMemory::UniquePointer<::DanBias::Client::C_DynamicObj>> *dynamicObjects;
::std::map<int, ::Utility::DynamicMemory::UniquePointer<::DanBias::Client::C_Light>> *lights; ::std::map<int, ::Utility::DynamicMemory::UniquePointer<::DanBias::Client::C_Light>> *lights;
bool key_forward;
bool key_backward;
bool key_strafeRight;
bool key_strafeLeft;
bool key_Shoot;
bool key_Jump;
// DEGUG KEYS
bool key_Reload_Shaders;
bool key_Wireframe_Toggle;
bool renderWhireframe;
// !DEGUG KEYS
C_Player player; C_Player player;
Camera_FPSV2 camera; Camera_FPSV2 camera;
@ -73,14 +64,10 @@ bool GameState::Init( SharedStateContent &shared )
this->privData = new MyData(); this->privData = new MyData();
this->privData->key_forward = false;
this->privData->key_backward = false;
this->privData->key_strafeRight = false;
this->privData->key_strafeLeft = false;
this->privData->nextState = GameClientState::ClientState_Same; this->privData->nextState = GameClientState::ClientState_Same;
this->privData->nwClient = shared.network; this->privData->nwClient = shared.network;
this->privData->input = shared.input; this->privData->mouseInput = shared.mouseDevice;
this->privData->keyboardInput = shared.keyboardDevice;
this->privData->staticObjects = &shared.staticObjects; this->privData->staticObjects = &shared.staticObjects;
this->privData->dynamicObjects = &shared.dynamicObjects; this->privData->dynamicObjects = &shared.dynamicObjects;
this->privData->lights = &shared.lights; this->privData->lights = &shared.lights;
@ -89,16 +76,18 @@ bool GameState::Init( SharedStateContent &shared )
Float aspectRatio = gfxOp.Resolution.x / gfxOp.Resolution.y; Float aspectRatio = gfxOp.Resolution.x / gfxOp.Resolution.y;
this->privData->camera.SetPerspectiveProjection( Utility::Value::Radian(90.0f), aspectRatio, 0.1f, 1000.0f ); this->privData->camera.SetPerspectiveProjection( Utility::Value::Radian(90.0f), aspectRatio, 0.1f, 1000.0f );
Graphics::API::SetProjection( this->privData->camera.GetProjectionMatrix() ); Graphics::API::SetProjection( this->privData->camera.GetProjectionMatrix() );
gfxOp.AmbientValue = 1.0f; gfxOp.AmbientValue = 0.5f;
gfxOp.GlobalGlowTint = Math::Float3(2,1,1);
gfxOp.GlobalTint = Math::Float3(1,1,1);
Graphics::API::SetOptions(gfxOp); Graphics::API::SetOptions(gfxOp);
//tell server ready //tell server ready
this->privData->nwClient->Send( Protocol_General_Status(Protocol_General_Status::States_ready) ); this->privData->nwClient->Send( Protocol_General_Status(Protocol_General_Status::States_ready) );
// DEGUG KEYS // DEGUG KEYS
this->privData->key_Reload_Shaders = false; this->key_Reload_Shaders = false;
this->privData->key_Wireframe_Toggle = false; this->key_Wireframe_Toggle = false;
this->privData->renderWhireframe = false; this->renderWhireframe = false;
// !DEGUG KEYS // !DEGUG KEYS
auto light = this->privData->lights->begin(); auto light = this->privData->lights->begin();
@ -107,6 +96,14 @@ bool GameState::Init( SharedStateContent &shared )
light->second->Render(); light->second->Render();
} }
// create UI states
this->gameUI = new GamingUI(this->privData->mouseInput, this->privData->keyboardInput, this->privData->nwClient, &this->privData->camera);
this->respawnUI = new RespawnUI(this->privData->nwClient, 20);
this->statsUI = new StatsUI();
this->currGameUI = gameUI;
((GamingUI*)gameUI)->Init();
((RespawnUI*)respawnUI)->Init();
((StatsUI*)statsUI)->Init();
return true; return true;
} }
@ -140,8 +137,8 @@ void GameState::InitiatePlayer( int id, const std::string &modelName, const floa
this->privData->camera.SetPosition( this->privData->player.getPos() ); this->privData->camera.SetPosition( this->privData->player.getPos() );
Float3 offset = Float3( 0.0f ); Float3 offset = Float3( 0.0f );
// DEBUG position of camera so we can see the player model // DEBUG position of camera so we can see the player model
offset.y = this->privData->player.getScale().y * 5.0f; //offset.y = this->privData->player.getScale().y * 5.0f;
offset.z = this->privData->player.getScale().z * -5.0f; //offset.z = this->privData->player.getScale().z * -5.0f;
// !DEBUG // !DEBUG
this->privData->camera.SetHeadOffset( offset ); this->privData->camera.SetHeadOffset( offset );
this->privData->camera.UpdateOrientation(); this->privData->camera.UpdateOrientation();
@ -163,7 +160,25 @@ void GameState::InitiatePlayer( int id, const std::string &modelName, const floa
GameClientState::ClientState GameState::Update( float deltaTime ) GameClientState::ClientState GameState::Update( float deltaTime )
{ {
this->ReadKeyInput(); GameStateUI::UIState UIstate = this->currGameUI->Update( deltaTime );
switch (UIstate)
{
case DanBias::Client::GameStateUI::UIState_same:
break;
case DanBias::Client::GameStateUI::UIState_gaming:
break;
case DanBias::Client::GameStateUI::UIState_main_menu:
//this->privData->nextState =
break;
case DanBias::Client::GameStateUI::UIState_shut_down:
this->privData->nextState = ClientState_Quit;
break;
default:
break;
}
// DEBUG keybindings
ReadKeyInput();
return this->privData->nextState; return this->privData->nextState;
} }
@ -188,19 +203,12 @@ bool GameState::Render()
if( dynamicObject->second ) if( dynamicObject->second )
{ {
dynamicObject->second->Render(); dynamicObject->second->Render();
} }
} }
#ifdef _DEBUG //RB DEBUG render wire frame
/*auto light = this->privData->lights->begin(); if(this->renderWhireframe)
for( ; light != this->privData->lights->end(); ++light )
{
light->second->Render();
}*/
#ifdef _DEBUG
//RB DEBUG render wire frame
if(this->privData->renderWhireframe)
{ {
Oyster::Graphics::API::StartRenderWireFrame(); Oyster::Graphics::API::StartRenderWireFrame();
@ -239,8 +247,25 @@ bool GameState::Render()
} }
} }
} }
//!RB DEBUG #endif //!RB DEBUG
#endif
Oyster::Graphics::API::StartGuiRender();
// render gui elemnts
if(currGameUI->HaveGUIRender())
currGameUI->RenderGUI();
if(renderStats)
{
if(statsUI->HaveGUIRender())
statsUI->RenderGUI();
}
Oyster::Graphics::API::StartTextRender();
if(currGameUI->HaveTextRender())
currGameUI->RenderText();
if(renderStats)
{
if(statsUI->HaveTextRender())
statsUI->RenderText();
}
Oyster::Graphics::API::EndFrame(); Oyster::Graphics::API::EndFrame();
return true; return true;
@ -275,6 +300,28 @@ bool GameState::Release()
privData = NULL; privData = NULL;
} }
if(respawnUI)
{
respawnUI->Release();
delete respawnUI;
respawnUI = NULL;
}
if(gameUI)
{
gameUI->Release();
delete gameUI;
gameUI = NULL;
}
if(statsUI)
{
statsUI->Release();
delete statsUI;
statsUI = NULL;
}
currGameUI = NULL;
return true; return true;
} }
@ -285,147 +332,57 @@ void GameState::ChangeState( ClientState next )
void GameState::ReadKeyInput() void GameState::ReadKeyInput()
{ {
if( this->privData->input->IsKeyPressed(DIK_W) ) #ifdef _DEBUG // DEGUG KEYS
{
//if(!this->privData->key_forward)
{
this->privData->nwClient->Send( Protocol_PlayerMovementForward() );
this->privData->key_forward = true;
}
}
else
this->privData->key_forward = false;
if( this->privData->input->IsKeyPressed(DIK_S) )
{
//if( !this->privData->key_backward )
{
this->privData->nwClient->Send( Protocol_PlayerMovementBackward() );
this->privData->key_backward = true;
}
}
else
this->privData->key_backward = false;
if( this->privData->input->IsKeyPressed(DIK_A) )
{
//if( !this->privData->key_strafeLeft )
{
this->privData->nwClient->Send( Protocol_PlayerMovementLeft() );
this->privData->key_strafeLeft = true;
}
}
else
this->privData->key_strafeLeft = false;
if( this->privData->input->IsKeyPressed(DIK_D) )
{
//if( !this->privData->key_strafeRight )
{
this->privData->nwClient->Send( Protocol_PlayerMovementRight() );
this->privData->key_strafeRight = true;
}
}
else
this->privData->key_strafeRight = false;
//send delta mouse movement
{
static const float mouseSensitivity = Radian( 1.0f );
this->privData->camera.PitchDown( this->privData->input->GetPitch() * mouseSensitivity );
float yaw = this->privData->input->GetYaw();
//if( yaw != 0.0f ) //This made the camera reset to a specific rotation.
{
this->privData->nwClient->Send( Protocol_PlayerLeftTurn(yaw * mouseSensitivity) );
}
}
// shoot
if( this->privData->input->IsKeyPressed(DIK_Z) )
{
if( !this->privData->key_Shoot )
{
Protocol_PlayerShot playerShot;
playerShot.primaryPressed = true;
playerShot.secondaryPressed = false;
playerShot.utilityPressed = false;
this->privData->nwClient->Send( playerShot );
this->privData->key_Shoot = true;
}
}
else
this->privData->key_Shoot = false;
if( this->privData->input->IsKeyPressed(DIK_X) )
{
if( !this->privData->key_Shoot )
{
Protocol_PlayerShot playerShot;
playerShot.primaryPressed = false;
playerShot.secondaryPressed = true;
playerShot.utilityPressed = false;
this->privData->nwClient->Send( playerShot );
this->privData->key_Shoot = true;
}
}
else
this->privData->key_Shoot = false;
if( this->privData->input->IsKeyPressed(DIK_C) )
{
if( !this->privData->key_Shoot )
{
Protocol_PlayerShot playerShot;
playerShot.primaryPressed = false;
playerShot.secondaryPressed = false;
playerShot.utilityPressed = true;
this->privData->nwClient->Send( playerShot );
this->privData->key_Shoot = true;
}
}
else
this->privData->key_Shoot = false;
// jump
if( this->privData->input->IsKeyPressed(DIK_SPACE) )
{
if(!this->privData->key_Jump)
{
this->privData->nwClient->Send( Protocol_PlayerJump() );
this->privData->key_Jump = true;
}
}
else
this->privData->key_Jump = false;
// DEGUG KEYS
// Reload shaders // Reload shaders
if( this->privData->input->IsKeyPressed(DIK_R) ) if( this->privData->keyboardInput->IsKeyDown(::Input::Enum::SAKI_R) )
{ {
if( !this->privData->key_Reload_Shaders ) if( !this->key_Reload_Shaders )
{ {
#ifdef _DEBUG
Graphics::API::ReloadShaders(); Graphics::API::ReloadShaders();
#endif
this->privData->key_Reload_Shaders = true; this->key_Reload_Shaders = true;
} }
} }
else else
this->privData->key_Reload_Shaders = false; this->key_Reload_Shaders = false;
// toggle wire frame render // toggle wire frame render
if( this->privData->input->IsKeyPressed(DIK_T) ) if( this->privData->keyboardInput->IsKeyDown(::Input::Enum::SAKI_T) )
{ {
if( !this->privData->key_Wireframe_Toggle ) if( !this->key_Wireframe_Toggle )
{ {
this->privData->renderWhireframe = !this->privData->renderWhireframe; this->renderWhireframe = !this->renderWhireframe;
this->privData->key_Wireframe_Toggle = true; this->key_Wireframe_Toggle = true;
// DEBUG set you as dead when render wireframe
this->currGameUI = respawnUI;
// !DEBUG
} }
} }
else else
this->privData->key_Wireframe_Toggle = false; {
// !DEGUG KEYS this->key_Wireframe_Toggle = false;
// TODO: implement sub-menu // DEBUG set you as dead when render wireframe
this->currGameUI = gameUI;
// !DEBUG
}
#endif // !DEGUG KEYS
// toggle wire frame render
if( this->privData->keyboardInput->IsKeyDown(::Input::Enum::SAKI_Tab) )
{
if( !this->key_showStats )
{
this->renderStats = true;
this->key_showStats = true;
}
}
else
{
this->renderStats = false;
this->key_showStats = false;
}
} }
const GameClientState::NetEvent & GameState::DataRecieved( const GameClientState::NetEvent &message ) const GameClientState::NetEvent & GameState::DataRecieved( const GameClientState::NetEvent &message )
@ -447,8 +404,22 @@ const GameClientState::NetEvent & GameState::DataRecieved( const GameClientState
switch(ID) switch(ID)
{ {
case protocol_Gameplay_ObjectPickup: break; /** @todo TODO: implement */ case protocol_Gameplay_ObjectPickup: break; /** @todo TODO: implement */
case protocol_Gameplay_ObjectDamage: break; /** @todo TODO: implement */ case protocol_Gameplay_ObjectDamage:
case protocol_Gameplay_ObjectHealthStatus: break; /** @todo TODO: implement */ {
Protocol_ObjectDamage decoded(data);
if( this->privData->myId == decoded.object_ID )
{
if(currGameUI == gameUI)
{
((GamingUI*)currGameUI)->SetHPtext(std::to_wstring(decoded.healthLost));
}
}
}
return GameClientState::event_processed;
case protocol_Gameplay_ObjectHealthStatus:
{
}
return GameClientState::event_processed;
case protocol_Gameplay_ObjectPosition: case protocol_Gameplay_ObjectPosition:
{ {
Protocol_ObjectPosition decoded(data); Protocol_ObjectPosition decoded(data);
@ -513,19 +484,21 @@ const GameClientState::NetEvent & GameState::DataRecieved( const GameClientState
this->privData->player.updateRBWorld(); this->privData->player.updateRBWorld();
// !RB DEBUG // !RB DEBUG
} }
else
C_DynamicObj *object = (*this->privData->dynamicObjects)[decoded.object_ID];
if( object )
{ {
object->setPos( position ); C_DynamicObj *object = (*this->privData->dynamicObjects)[decoded.object_ID];
object->setRot( rotation );
object->updateWorld(); if( object )
// RB DEBUG {
object->setRBPos ( position ); object->setPos( position );
object->setRBRot ( rotation ); object->setRot( rotation );
object->updateRBWorld(); object->updateWorld();
// !RB DEBUG // RB DEBUG
object->setRBPos ( position );
object->setRBRot ( rotation );
object->updateRBWorld();
// !RB DEBUG
}
} }
} }
return GameClientState::event_processed; return GameClientState::event_processed;
@ -582,8 +555,46 @@ const GameClientState::NetEvent & GameState::DataRecieved( const GameClientState
case protocol_Gameplay_ObjectLeaveTeam: break; /** @todo TODO: implement */ case protocol_Gameplay_ObjectLeaveTeam: break; /** @todo TODO: implement */
case protocol_Gameplay_ObjectWeaponCooldown: break; /** @todo TODO: implement */ case protocol_Gameplay_ObjectWeaponCooldown: break; /** @todo TODO: implement */
case protocol_Gameplay_ObjectWeaponEnergy: break; /** @todo TODO: implement */ case protocol_Gameplay_ObjectWeaponEnergy: break; /** @todo TODO: implement */
case protocol_Gameplay_ObjectRespawn: break; /** @todo TODO: implement */ case protocol_Gameplay_ObjectRespawn:
case protocol_Gameplay_ObjectDie: break; /** @todo TODO: implement */ {
// set player pos
Protocol_ObjectRespawn decoded(data);
// move player. Remember to change camera
this->privData->camera.SetPosition( decoded.position );
this->privData->player.setPos( decoded.position );
this->privData->player.updateWorld();
// RB DEBUG
this->privData->player.setRBPos ( decoded.position );
this->privData->player.updateRBWorld();
// !RB DEBUG
this->currGameUI = this->gameUI;
}
return GameClientState::event_processed;
case protocol_Gameplay_ObjectDie:
{
Protocol_ObjectDie decoded(data);
// if is this player. Remember to change camera
if( this->privData->myId == decoded.objectID )
{
this->currGameUI = this->respawnUI;
// set countdown
((RespawnUI*)currGameUI)->SetCountdown( decoded.seconds );
}
}
return GameClientState::event_processed;
case protocol_Gameplay_ObjectDisconnectPlayer:
{
//Removes
Protocol_ObjectDisconnectPlayer decoded(data);
auto object = this->privData->dynamicObjects->find( decoded.objectID );
if( object != this->privData->dynamicObjects->end() )
{
object->second = nullptr;
this->privData->dynamicObjects->erase( object );
}
}
return GameClientState::event_processed;
default: break; default: break;
} }
} }

11
Code/Game/GameClient/GameClientState/GameState.h
View File

@ -3,6 +3,7 @@
#include "GameClientState.h" #include "GameClientState.h"
#include "OysterMath.h" #include "OysterMath.h"
#include <string> #include <string>
#include "GameStateUI.h"
namespace DanBias { namespace Client namespace DanBias { namespace Client
{ {
@ -31,6 +32,16 @@ namespace DanBias { namespace Client
private: private:
struct MyData; struct MyData;
::Utility::DynamicMemory::UniquePointer<MyData> privData; ::Utility::DynamicMemory::UniquePointer<MyData> privData;
GameStateUI *currGameUI, *gameUI, *respawnUI, *statsUI;
// DEGUG KEYS
bool key_Reload_Shaders;
bool key_Wireframe_Toggle;
bool renderWhireframe;
bool key_showStats;
bool renderStats;
// !DEGUG KEYS
}; };
} } } }
#endif #endif

4
Code/Game/GameClient/GameClientState/GameStateUI.h
View File

@ -1,5 +1,5 @@
#ifndef DANBIAS_CLIENT_GAMECLIENTSTATE_H #ifndef DANBIAS_CLIENT_GAMESTATEUI_H
#define DANBIAS_CLIENT_GAMECLIENTSTATE_H #define DANBIAS_CLIENT_GAMESTATEUI_H
#include "Utilities.h" #include "Utilities.h"
#include "NetworkClient.h" #include "NetworkClient.h"

188
Code/Game/GameClient/GameClientState/GamingUI.cpp
View File

@ -6,148 +6,174 @@ using namespace ::DanBias::Client;
using namespace ::Oyster::Network; using namespace ::Oyster::Network;
using namespace ::GameLogic; using namespace ::GameLogic;
using namespace ::Utility::Value; using namespace ::Utility::Value;
using namespace ::Oyster::Math;
using namespace ::Input;
GamingUI::GamingUI() : GamingUI::GamingUI() :
GameStateUI() GameStateUI()
{ {
/* Should never be called! */ /* Should never be called! */
this->input = nullptr; this->mouseInput = nullptr;
this->keyboardInput = nullptr;
this->netClient = nullptr; this->netClient = nullptr;
this->camera = nullptr; this->camera = nullptr;
this->plane = nullptr;
this->text = nullptr;
} }
GamingUI::GamingUI( InputClass *input, NetworkClient *connection, Camera_FPSV2 *camera ) : GamingUI::GamingUI( Mouse *mouseInput, Keyboard *keyboardInput, NetworkClient *connection, Camera_FPSV2 *camera ) :
GameStateUI() GameStateUI()
{ {
this->input = input; this->mouseInput = mouseInput;
this->keyboardInput = keyboardInput;
this->netClient = connection; this->netClient = connection;
this->camera = camera; this->camera = camera;
} }
GamingUI::~GamingUI() { /* Do nothing */ } GamingUI::~GamingUI() { /* Do nothing */ }
bool GamingUI::Init()
{
// z value should be between 0.5 - 0.9 so that it will be behind other states
// add textures and text
this->plane = new Plane_UI(L"box_tex.png", Float3(0.5f, 0.0f, 0.5f), Float2(0.3f, 0.1f));
this->text = new Text_UI(L"hej", Float3(0.5f,0.0f,0.1f), Float2(0.1f,0.1f));
return true;
}
GameStateUI::UIState GamingUI::Update( float deltaTime ) GameStateUI::UIState GamingUI::Update( float deltaTime )
{ {
ReadKeyInput();
return this->nextState; return this->nextState;
} }
bool GamingUI::HaveGUIRender() const bool GamingUI::HaveGUIRender() const
{ {
return false; // TODO: change to true when we want UI elements like a crosshair return true;
} }
bool GamingUI::HaveTextRender() const bool GamingUI::HaveTextRender() const
{ {
return false; // TODO: change to true when we want UI elements like a chat window return true;
} }
void GamingUI::RenderGUI() const void GamingUI::RenderGUI() const
{ {
// TODO: Render crosshairs and such here. Don't forget to adjust GamingUI::HaveGUIRender this->plane->RenderTexture();
} }
void GamingUI::RenderText() const void GamingUI::RenderText() const
{ {
// TODO: Render chattext and such here. Don't forget to adjust GamingUI::HaveGUIRender this->text->RenderText();
} }
bool GamingUI::Release() bool GamingUI::Release()
{ {
// TODO: Release UI components here. // TODO: Release UI components here.
if(this->plane)
delete this->plane;
if(this->text)
delete this->text;
return true; return true;
} }
void GamingUI::SetHPtext( std::wstring hp )
{
this->text->setText(hp);
}
void GamingUI::ReadKeyInput() void GamingUI::ReadKeyInput()
{ {
if( this->input->IsKeyPressed(DIK_W) ) if( this->keyboardInput->IsKeyDown(::Input::Enum::SAKI_W) )
{ { // move forward
this->netClient->Send( Protocol_PlayerMovementForward() ); this->netClient->Send( Protocol_PlayerMovementForward() );
} }
if( this->input->IsKeyPressed(DIK_S) ) if( this->keyboardInput->IsKeyDown(::Input::Enum::SAKI_S) )
{ { // move backward
this->netClient->Send( Protocol_PlayerMovementBackward() ); this->netClient->Send( Protocol_PlayerMovementBackward() );
} }
if( this->input->IsKeyPressed(DIK_A) ) if( this->keyboardInput->IsKeyDown(::Input::Enum::SAKI_A) )
{ { // strafe left
this->netClient->Send( Protocol_PlayerMovementLeft() ); this->netClient->Send( Protocol_PlayerMovementLeft() );
} }
if( this->input->IsKeyPressed(DIK_D) ) if( this->keyboardInput->IsKeyDown(::Input::Enum::SAKI_D) )
{ { // strafe right
this->netClient->Send( Protocol_PlayerMovementRight() ); this->netClient->Send( Protocol_PlayerMovementRight() );
} }
// if( this->input->IsKeyPressed(DIK_R) ) if( this->keyboardInput->IsKeyDown(::Input::Enum::SAKI_Space) )
// { { // jump
// if( !this->key_Reload_Shaders ) if(!this->key_Jump)
// { {
//#ifdef _DEBUG this->netClient->Send( Protocol_PlayerJump() );
// Graphics::API::ReloadShaders(); this->key_Jump = true;
//#endif }
// this->key_Reload_Shaders = true; }
// } else
// } this->key_Jump = false;
// else
// this->key_Reload_Shaders = false; // shoot
if( this->mouseInput->IsBtnDown(::Input::Enum::SAMI_MouseLeftBtn) )
{
if( !this->key_Shoot )
{
Protocol_PlayerShot playerShot;
playerShot.primaryPressed = true;
playerShot.secondaryPressed = false;
playerShot.utilityPressed = false;
this->netClient->Send( playerShot );
this->key_Shoot = true;
}
}
else
this->key_Shoot = false;
if( this->mouseInput->IsBtnDown(::Input::Enum::SAMI_MouseRightBtn) )
{
if( !this->key_Shoot )
{
Protocol_PlayerShot playerShot;
playerShot.primaryPressed = false;
playerShot.secondaryPressed = true;
playerShot.utilityPressed = false;
this->netClient->Send( playerShot );
this->key_Shoot = true;
}
}
else
this->key_Shoot = false;
if( this->mouseInput->IsBtnDown(::Input::Enum::SAMI_MouseMiddleBtn) )
{
if( !this->key_Shoot )
{
Protocol_PlayerShot playerShot;
playerShot.primaryPressed = false;
playerShot.secondaryPressed = false;
playerShot.utilityPressed = true;
this->netClient->Send( playerShot );
this->key_Shoot = true;
}
}
else
this->key_Shoot = false;
//send delta mouse movement //send delta mouse movement
{ {
static const float mouseSensitivity = Radian( 1.0f ); static const float mouseSensitivity = Radian( 1.0f );
this->camera->PitchDown( this->input->GetPitch() * mouseSensitivity ); ::Input::Struct::SAIPointFloat2D deltaPos;
this->netClient->Send( Protocol_PlayerLeftTurn(this->input->GetYaw() * mouseSensitivity) ); this->mouseInput->GetDeltaPosition( deltaPos );
this->camera->PitchDown( deltaPos.y * mouseSensitivity );;
//if( deltaPos.x != 0.0f ) //This made the camera reset to a specific rotation. Why?
{
this->netClient->Send( Protocol_PlayerLeftTurn(deltaPos.x * mouseSensitivity) );
}
} }
// shoot if( this->keyboardInput->IsKeyDown(::Input::Enum::SAKI_Escape) )
//if( this->input->IsKeyPressed(DIK_Z) )
//{
// if( !this->key_Shoot )
// {
// Protocol_PlayerShot playerShot;
// playerShot.primaryPressed = true;
// playerShot.secondaryPressed = false;
// playerShot.utilityPressed = false;
// this->netClient->Send( playerShot );
// this->key_Shoot = true;
// }
//}
//else
// this->key_Shoot = false;
//if( this->input->IsKeyPressed(DIK_X) )
//{
// if( !this->key_Shoot )
// {
// Protocol_PlayerShot playerShot;
// playerShot.primaryPressed = false;
// playerShot.secondaryPressed = true;
// playerShot.utilityPressed = false;
// this->netClient->Send( playerShot );
// this->key_Shoot = true;
// }
//}
//else
// this->key_Shoot = false;
//if( this->input->IsKeyPressed(DIK_C) )
//{
// if( !this->key_Shoot )
// {
// Protocol_PlayerShot playerShot;
// playerShot.primaryPressed = false;
// playerShot.secondaryPressed = false;
// playerShot.utilityPressed = true;
// this->netClient->Send( playerShot );
// this->key_Shoot = true;
// }
//}
//else
// this->key_Shoot = false;
// jump
if( this->input->IsKeyPressed(DIK_SPACE) )
{ {
this->netClient->Send( Protocol_PlayerJump() ); this->nextState = GameStateUI::UIState_shut_down;
} }
} }

22
Code/Game/GameClient/GameClientState/GamingUI.h
View File

@ -2,16 +2,19 @@
#define DANBIAS_CLIENT_GAMING_UI_H #define DANBIAS_CLIENT_GAMING_UI_H
#include "GameStateUI.h" #include "GameStateUI.h"
#include "L_inputClass.h" #include "Input.h"
#include "Camera_FPSV2.h" #include "Camera_FPSV2.h"
#include "Buttons\Text_UI.h"
#include "Buttons\Plane_UI.h"
namespace DanBias { namespace Client namespace DanBias { namespace Client
{ {
class GamingUI : public GameStateUI class GamingUI : public GameStateUI
{ {
public: public:
GamingUI( InputClass *input, ::Oyster::Network::NetworkClient *connection, Camera_FPSV2 *camera ); GamingUI( ::Input::Mouse *mouseInput, ::Input::Keyboard *keyboardInput, ::Oyster::Network::NetworkClient *connection, Camera_FPSV2 *camera );
virtual ~GamingUI(); virtual ~GamingUI();
bool Init();
UIState Update( float deltaTime ); UIState Update( float deltaTime );
bool HaveGUIRender() const; bool HaveGUIRender() const;
@ -19,12 +22,25 @@ namespace DanBias { namespace Client
void RenderGUI() const; void RenderGUI() const;
void RenderText() const; void RenderText() const;
bool Release(); bool Release();
void SetHPtext( std::wstring hp );
private: private:
InputClass *input; ::Input::Mouse *mouseInput;
::Input::Keyboard *keyboardInput;
::Oyster::Network::NetworkClient *netClient; ::Oyster::Network::NetworkClient *netClient;
Camera_FPSV2 *camera; Camera_FPSV2 *camera;
// TODO add multiple UI elements
Text_UI* text;
Plane_UI* plane;
bool key_forward;
bool key_backward;
bool key_strafeRight;
bool key_strafeLeft;
bool key_Shoot;
bool key_Jump;
GamingUI(); GamingUI();
void ReadKeyInput(); void ReadKeyInput();
}; };

18
Code/Game/GameClient/GameClientState/LanMenuState.cpp
View File

@ -28,7 +28,8 @@ struct LanMenuState::MyData
GameClientState::ClientState nextState; GameClientState::ClientState nextState;
NetworkClient *nwClient; NetworkClient *nwClient;
InputClass *input; ::Input::Mouse *mouseInput;
::Input::Keyboard *keyboardInput;
Graphics::API::Texture background; Graphics::API::Texture background;
EventButtonCollection guiElements; EventButtonCollection guiElements;
@ -53,7 +54,8 @@ bool LanMenuState::Init( SharedStateContent &shared )
this->privData->nextState = GameClientState::ClientState_Same; this->privData->nextState = GameClientState::ClientState_Same;
this->privData->nwClient = shared.network; this->privData->nwClient = shared.network;
this->privData->input = shared.input; this->privData->mouseInput = shared.mouseDevice;
this->privData->keyboardInput = shared.keyboardDevice;
this->privData->background = Graphics::API::CreateTexture( L"color_white.png" ); this->privData->background = Graphics::API::CreateTexture( L"color_white.png" );
@ -80,6 +82,9 @@ bool LanMenuState::Init( SharedStateContent &shared )
this->privData->connectPort = 15151; this->privData->connectPort = 15151;
this->privData->keyboardInput->BindTextTarget( &(*this->privData->connectIP)[0] );
this->privData->keyboardInput->Activate();
return true; return true;
} }
@ -87,10 +92,13 @@ GameClientState::ClientState LanMenuState::Update( float deltaTime )
{ {
MouseInput mouseState; MouseInput mouseState;
{ {
this->privData->input->GetMousePos( mouseState.x, mouseState.y ); ::Input::Struct::SAIPointInt2D pos;
mouseState.mouseButtonPressed = this->privData->input->IsMousePressed(); this->privData->mouseInput->GetPixelPosition( pos );
}
mouseState.x = pos.x;
mouseState.y = pos.y;
mouseState.mouseButtonPressed = this->privData->mouseInput->IsBtnDown( ::Input::Enum::SAMI_MouseLeftBtn );
}
EventHandler::Instance().Update( mouseState ); EventHandler::Instance().Update( mouseState );
return this->privData->nextState; return this->privData->nextState;

22
Code/Game/GameClient/GameClientState/LobbyAdminState.cpp
View File

@ -22,7 +22,7 @@ struct LobbyAdminState::MyData
GameClientState::ClientState nextState; GameClientState::ClientState nextState;
NetworkClient *nwClient; NetworkClient *nwClient;
InputClass *input; ::Input::Mouse *mouseInput;
Graphics::API::Texture background; Graphics::API::Texture background;
EventButtonCollection guiElements; EventButtonCollection guiElements;
} privData; } privData;
@ -43,7 +43,7 @@ bool LobbyAdminState::Init( SharedStateContent &shared )
this->privData->nextState = GameClientState::ClientState_Same; this->privData->nextState = GameClientState::ClientState_Same;
this->privData->nwClient = shared.network; this->privData->nwClient = shared.network;
this->privData->input = shared.input; this->privData->mouseInput = shared.mouseDevice;
this->privData->background = Graphics::API::CreateTexture( L"grass_md.png" ); this->privData->background = Graphics::API::CreateTexture( L"grass_md.png" );
@ -61,21 +61,15 @@ bool LobbyAdminState::Init( SharedStateContent &shared )
GameClientState::ClientState LobbyAdminState::Update( float deltaTime ) GameClientState::ClientState LobbyAdminState::Update( float deltaTime )
{ {
// Wishlist:
// picking
// mouse events
// different menus
// play sounds
// update animation
// send data to server
// check data from server
MouseInput mouseState; MouseInput mouseState;
{ {
this->privData->input->GetMousePos( mouseState.x, mouseState.y ); ::Input::Struct::SAIPointInt2D pos;
mouseState.mouseButtonPressed = this->privData->input->IsMousePressed(); this->privData->mouseInput->GetPixelPosition( pos );
}
mouseState.x = pos.x;
mouseState.y = pos.y;
mouseState.mouseButtonPressed = this->privData->mouseInput->IsBtnDown( ::Input::Enum::SAMI_MouseLeftBtn );
}
EventHandler::Instance().Update( mouseState ); EventHandler::Instance().Update( mouseState );
return this->privData->nextState; return this->privData->nextState;

22
Code/Game/GameClient/GameClientState/LobbyState.cpp
View File

@ -22,7 +22,7 @@ struct LobbyState::MyData
GameClientState::ClientState nextState; GameClientState::ClientState nextState;
NetworkClient *nwClient; NetworkClient *nwClient;
InputClass *input; ::Input::Mouse *mouseInput;
Graphics::API::Texture background; Graphics::API::Texture background;
EventButtonCollection guiElements; EventButtonCollection guiElements;
} privData; } privData;
@ -43,7 +43,7 @@ bool LobbyState::Init( SharedStateContent &shared )
this->privData->nextState = GameClientState::ClientState_Same; this->privData->nextState = GameClientState::ClientState_Same;
this->privData->nwClient = shared.network; this->privData->nwClient = shared.network;
this->privData->input = shared.input; this->privData->mouseInput = shared.mouseDevice;
this->privData->background = Graphics::API::CreateTexture( L"grass_md.png" ); this->privData->background = Graphics::API::CreateTexture( L"grass_md.png" );
@ -61,21 +61,15 @@ bool LobbyState::Init( SharedStateContent &shared )
GameClientState::ClientState LobbyState::Update( float deltaTime ) GameClientState::ClientState LobbyState::Update( float deltaTime )
{ {
// Wishlist:
// picking
// mouse events
// different menus
// play sounds
// update animation
// send data to server
// check data from server
MouseInput mouseState; MouseInput mouseState;
{ {
this->privData->input->GetMousePos( mouseState.x, mouseState.y ); ::Input::Struct::SAIPointInt2D pos;
mouseState.mouseButtonPressed = this->privData->input->IsMousePressed(); this->privData->mouseInput->GetPixelPosition( pos );
}
mouseState.x = pos.x;
mouseState.y = pos.y;
mouseState.mouseButtonPressed = this->privData->mouseInput->IsBtnDown( ::Input::Enum::SAMI_MouseLeftBtn );
}
EventHandler::Instance().Update( mouseState ); EventHandler::Instance().Update( mouseState );
return this->privData->nextState; return this->privData->nextState;

25
Code/Game/GameClient/GameClientState/MainState.cpp
View File

@ -24,8 +24,9 @@ struct MainState::MyData
GameClientState::ClientState nextState; GameClientState::ClientState nextState;
NetworkClient *nwClient; NetworkClient *nwClient;
InputClass *input; ::Input::Mouse *mouseInput;
Graphics::API::Texture background; Float3 mousePos;
Graphics::API::Texture background, mouseCursor;
EventButtonCollection guiElements; EventButtonCollection guiElements;
}; };
@ -47,9 +48,12 @@ bool MainState::Init( SharedStateContent &shared )
this->privData->nextState = GameClientState::ClientState_Same; this->privData->nextState = GameClientState::ClientState_Same;
this->privData->nwClient = shared.network; this->privData->nwClient = shared.network;
this->privData->input = shared.input; this->privData->mouseInput = shared.mouseDevice;
//this->privData->mouseInput->
this->privData->mousePos = Float3( 0.0f );
this->privData->background = Graphics::API::CreateTexture( L"color_white.png" ); this->privData->background = Graphics::API::CreateTexture( L"color_white.png" );
this->privData->mouseCursor = Graphics::API::CreateTexture( L"cursor_md.png" );
// create buttons // create buttons
ButtonRectangle<MainState*> *button; ButtonRectangle<MainState*> *button;
@ -77,16 +81,13 @@ GameClientState::ClientState MainState::Update( float deltaTime )
{ {
MouseInput mouseState; MouseInput mouseState;
{ {
bool test = this->privData->input->IsMousePressed(); ::Input::Struct::SAIPointFloat2D pos;
if(test) this->privData->mouseInput->GetNormalizedPosition( pos );
{ // HACK: debug trap still in use?
int i = 0;
};
this->privData->input->GetMousePos( mouseState.x, mouseState.y ); this->privData->mousePos.x = mouseState.x = pos.x;
mouseState.mouseButtonPressed = this->privData->input->IsMousePressed(); this->privData->mousePos.y = mouseState.y = pos.y;
mouseState.mouseButtonPressed = this->privData->mouseInput->IsBtnDown( ::Input::Enum::SAMI_MouseLeftBtn );
} }
EventHandler::Instance().Update( mouseState ); EventHandler::Instance().Update( mouseState );
return this->privData->nextState; return this->privData->nextState;
@ -97,6 +98,7 @@ bool MainState::Render()
Graphics::API::NewFrame(); Graphics::API::NewFrame();
Graphics::API::StartGuiRender(); Graphics::API::StartGuiRender();
Graphics::API::RenderGuiElement( this->privData->mouseCursor, this->privData->mousePos, Float2(0.1f), Float4(1.0f) );
Graphics::API::RenderGuiElement( this->privData->background, Float3(0.5f, 0.5f, 0.9f), Float2(1.0f), Float4(63.0f/255.0f,73.0f/255.0f,127.0f/255.0f,0.6f) ); Graphics::API::RenderGuiElement( this->privData->background, Float3(0.5f, 0.5f, 0.9f), Float2(1.0f), Float4(63.0f/255.0f,73.0f/255.0f,127.0f/255.0f,0.6f) );
this->privData->guiElements.RenderTexture(); this->privData->guiElements.RenderTexture();
@ -112,6 +114,7 @@ bool MainState::Release()
if( this->privData ) if( this->privData )
{ {
Graphics::API::DeleteTexture( this->privData->background ); Graphics::API::DeleteTexture( this->privData->background );
Graphics::API::DeleteTexture( this->privData->mouseCursor );
EventHandler::Instance().ReleaseCollection( &this->privData->guiElements ); EventHandler::Instance().ReleaseCollection( &this->privData->guiElements );
this->privData = NULL; this->privData = NULL;

24
Code/Game/GameClient/GameClientState/RespawnUI.cpp
View File

@ -3,6 +3,7 @@
using namespace ::DanBias::Client; using namespace ::DanBias::Client;
using namespace ::Oyster::Network; using namespace ::Oyster::Network;
using namespace ::Utility::Value; using namespace ::Utility::Value;
using namespace ::Oyster::Math;
RespawnUI::RespawnUI() : RespawnUI::RespawnUI() :
GameStateUI() GameStateUI()
@ -17,13 +18,23 @@ RespawnUI::RespawnUI( NetworkClient *connection, float delay ) :
{ {
this->netClient = connection; this->netClient = connection;
this->countDown = delay; this->countDown = delay;
this->text = nullptr;
} }
RespawnUI::~RespawnUI() { /* Do nothing */ } RespawnUI::~RespawnUI() { /* Do nothing */ }
bool RespawnUI::Init()
{
// z value should be between 0.5 - 0.9 so that it will be behind other states
// add textures and text
this->text = new Text_UI(L"DEAD", Float3(0.5f,0.0f,0.5f), Float2(0.2f,0.2f));
return true;
}
GameStateUI::UIState RespawnUI::Update( float deltaTime ) GameStateUI::UIState RespawnUI::Update( float deltaTime )
{ {
this->countDown = Max( this->countDown - deltaTime, 0.0f ); this->countDown = Max( this->countDown - deltaTime, 0.0f );
// countDown == 0
// return UIState_gaming state;
return this->nextState; return this->nextState;
} }
@ -34,25 +45,32 @@ bool RespawnUI::HaveGUIRender() const
bool RespawnUI::HaveTextRender() const bool RespawnUI::HaveTextRender() const
{ {
return false; // TODO: change to true when we want UI elements like a chat window return true; // TODO: change to true when we want UI elements like a chat window
} }
void RespawnUI::RenderGUI() const void RespawnUI::RenderGUI() const
{ {
// TODO: We need? // TODO:BLOODY SCREEN
} }
void RespawnUI::RenderText() const void RespawnUI::RenderText() const
{ {
this->text->RenderText();
// TODO: Text countdown somewhere on screen would be nice // TODO: Text countdown somewhere on screen would be nice
} }
bool RespawnUI::Release() bool RespawnUI::Release()
{ {
// TODO: Release UI components here. // TODO: Release UI components here.
if(this->text)
delete this->text;
return true; return true;
} }
void RespawnUI::SetCountdown( float cd )
{
this->countDown = cd;
// this text should be rendered
}

7
Code/Game/GameClient/GameClientState/RespawnUI.h
View File

@ -2,6 +2,8 @@
#define DANBIAS_CLIENT_RESPAWN_UI_H #define DANBIAS_CLIENT_RESPAWN_UI_H
#include "GameStateUI.h" #include "GameStateUI.h"
#include "Buttons\Text_UI.h"
#include "Buttons\Plane_UI.h"
namespace DanBias { namespace Client namespace DanBias { namespace Client
{ {
@ -10,18 +12,23 @@ namespace DanBias { namespace Client
public: public:
RespawnUI( ::Oyster::Network::NetworkClient *connection, float delay ); RespawnUI( ::Oyster::Network::NetworkClient *connection, float delay );
virtual ~RespawnUI(); virtual ~RespawnUI();
bool Init();
// TODO countdown
UIState Update( float deltaTime ); UIState Update( float deltaTime );
bool HaveGUIRender() const; bool HaveGUIRender() const;
bool HaveTextRender() const; bool HaveTextRender() const;
void RenderGUI() const; void RenderGUI() const;
void RenderText() const; void RenderText() const;
bool Release(); bool Release();
void SetCountdown( float cd );
private: private:
::Oyster::Network::NetworkClient *netClient; ::Oyster::Network::NetworkClient *netClient;
float countDown; float countDown;
// TODO add multiple UI elements
Text_UI* text;
RespawnUI(); RespawnUI();
}; };
} } } }

6
Code/Game/GameClient/GameClientState/SharedStateContent.h
View File

@ -15,7 +15,7 @@
#include "C_obj\C_DynamicObj.h" #include "C_obj\C_DynamicObj.h"
#include "C_Light.h" #include "C_Light.h"
#include "NetworkClient.h" #include "NetworkClient.h"
#include "L_inputClass.h" #include "Input.h"
namespace DanBias { namespace Client namespace DanBias { namespace Client
{ {
@ -26,7 +26,9 @@ namespace DanBias { namespace Client
::std::map<int, ::Utility::DynamicMemory::UniquePointer<::DanBias::Client::C_DynamicObj>> dynamicObjects; ::std::map<int, ::Utility::DynamicMemory::UniquePointer<::DanBias::Client::C_DynamicObj>> dynamicObjects;
::std::map<int, ::Utility::DynamicMemory::UniquePointer<::DanBias::Client::C_Light>> lights; ::std::map<int, ::Utility::DynamicMemory::UniquePointer<::DanBias::Client::C_Light>> lights;
::Oyster::Network::NetworkClient *network; ::Oyster::Network::NetworkClient *network;
InputClass* input;
::Input::Mouse *mouseDevice;
::Input::Keyboard *keyboardDevice;
}; };
} } } }

65
Code/Game/GameClient/GameClientState/StatsUI.cpp Normal file
View File

@ -0,0 +1,65 @@
#include "StatsUI.h"
#include <Protocols.h>
#include "Utilities.h"
using namespace ::DanBias::Client;
using namespace ::GameLogic;
using namespace ::Utility::Value;
using namespace ::Oyster::Math;
StatsUI::StatsUI() :
GameStateUI()
{
/* Should never be called! */
this->plane = nullptr;
this->text = nullptr;
}
StatsUI::~StatsUI() { /* Do nothing */ }
bool StatsUI::Init()
{
// z value should be between 0.1 - 0.5 so that it will be in front of other states
// add textures and text for player stats
this->plane = new Plane_UI(L"box_tex.png", Float3(0.0f, 0.0f, 0.5f), Float2(0.3f, 0.1f));
this->text = new Text_UI(L"Stats", Float3(0.0f,0.0f,0.1f), Float2(0.1f,0.1f));
return true;
}
GameStateUI::UIState StatsUI::Update( float deltaTime )
{
return this->nextState;
}
bool StatsUI::HaveGUIRender() const
{
// Set true if UIstate have any plane to render
return true;
}
bool StatsUI::HaveTextRender() const
{
// Set true if UIstate have any text to render
return true;
}
void StatsUI::RenderGUI() const
{
// render all the planes
this->plane->RenderTexture();
}
void StatsUI::RenderText() const
{
// render all the text
this->text->RenderText();
}
bool StatsUI::Release()
{
// TODO: Release UI components here.
if(this->plane)
delete this->plane;
if(this->text)
delete this->text;
return true;
}

34
Code/Game/GameClient/GameClientState/StatsUI.h Normal file
View File

@ -0,0 +1,34 @@
#ifndef DANBIAS_CLIENT_STATS_UI_H
#define DANBIAS_CLIENT_STATS_UI_H
#include "GameStateUI.h"
#include "Buttons\Text_UI.h"
#include "Buttons\Plane_UI.h"
namespace DanBias { namespace Client
{
class StatsUI : public GameStateUI
{
public:
StatsUI();
virtual ~StatsUI();
bool Init();
UIState Update( float deltaTime );
bool HaveGUIRender() const;
bool HaveTextRender() const;
void RenderGUI() const;
void RenderText() const;
bool Release();
// TODO add function to add a new players statistics
// TODO add function to remove a players statistics
private:
// TODO add multiple UI elements
// one for each player ingame
Text_UI* text;
Plane_UI* plane;
};
} }
#endif

2
Code/Game/GameClient/Include/DanBiasGame.h
View File

@ -55,7 +55,7 @@ namespace DanBias
}; };
static HRESULT InitDirect3D(); static HRESULT InitDirect3D();
static HRESULT InitInput(); static HRESULT InitInput( HWND handle );
static Result Update(float deltaTime); static Result Update(float deltaTime);
static HRESULT Render(); static HRESULT Render();

70
Code/Game/GameClient/Win32Input.h Normal file
View File

@ -0,0 +1,70 @@
/////////////////////////////////////////////////////////////////////
// Created by [Dennis Andersen] [2013]
/////////////////////////////////////////////////////////////////////
#ifndef INCLUDE_GUARD_RAW_INPUT_H
#define INCLUDE_GUARD_RAW_INPUT_H
#include "..\InputManager.h"
#include "Win32Keyboard.h"
#include "Win32Mouse.h"
#include <vector>
#define NOMINMAX
#include <Windows.h>
#include <map>
/**
* TODO:
* 1. Cordinate system
* 1.1. Pixel cordinates DONE
* 1.2. 0 - 1 cordinate DONW
* 1.3. Origo in middle of the screen ( -1 to 1 )
*/
//RIDEV_INPUTSINK to receive all keyboard input regardless of focus
//dx = +2*(x/w) -1
//dx = -2*(y/h) +1
namespace Input
{
enum RawInput_Usage
{
RawInput_Usage_pointer = 1,
RawInput_Usage_mouse = 2,
RawInput_Usage_joystick = 4,
RawInput_Usage_gamepad = 5,
RawInput_Usage_keyboard = 6,
RawInput_Usage_keypad = 7,
RawInput_Usage_multiAxisController = 8,
RawInput_Usage_TabletPCcontrols = 9,
};
class Win32Input :public InputManager
{
public:
Win32Input();
virtual~Win32Input();
InputObject* CreateDevice(const Enum::SAIType inputType, Typedefs::WindowHandle targetApplication) override;
void ToggleInputSystem(bool enable) override;
void Destroy() override;
private:
std::vector<Win32Keyboard*> keyboard;
std::vector<Win32Mouse*> mouse;
bool enabled;
bool exclusive;
HWND targetHwin;
private:
static Win32Input* instance;
static LRESULT RawInputParser(HWND h, LPARAM l);
static LRESULT CALLBACK RawWindowCallback(HWND h, UINT m, WPARAM w, LPARAM l);
static void WindowActivate(bool activate);
};
}
#endif

6
Code/Game/GameLogic/AttatchmentMassDriver.cpp
View File

@ -106,6 +106,8 @@ void AttatchmentMassDriver::ForcePush(const GameLogic::WEAPON_FIRE &usage, float
args.pushForce = pushForce; args.pushForce = pushForce;
Oyster::Physics::API::Instance().ApplyEffect(hitCone,&args,ForcePushAction); Oyster::Physics::API::Instance().ApplyEffect(hitCone,&args,ForcePushAction);
if(hitCone) delete hitCone;
} }
/******************************************************** /********************************************************
@ -141,6 +143,8 @@ void AttatchmentMassDriver::ForcePull(const WEAPON_FIRE &usage, float dt)
args.pushForce = -pushForce; args.pushForce = -pushForce;
Oyster::Physics::API::Instance().ApplyEffect(hitCone,&args,ForcePushAction); Oyster::Physics::API::Instance().ApplyEffect(hitCone,&args,ForcePushAction);
if(hitCone) delete hitCone;
} }
void AttatchmentMassDriver::PickUpObject(const WEAPON_FIRE &usage, float dt) void AttatchmentMassDriver::PickUpObject(const WEAPON_FIRE &usage, float dt)
@ -150,5 +154,5 @@ void AttatchmentMassDriver::PickUpObject(const WEAPON_FIRE &usage, float dt)
Oyster::Physics::API::Instance().ApplyEffect(hitSphere,this,AttemptPickUp); Oyster::Physics::API::Instance().ApplyEffect(hitSphere,this,AttemptPickUp);
delete hitSphere; if(hitSphere) delete hitSphere;
} }

129
Code/Game/GameLogic/Player.cpp
View File

@ -79,99 +79,133 @@ void Player::BeginFrame()
Oyster::Math::Float maxSpeed = 30; Oyster::Math::Float maxSpeed = 30;
// Rotate player accordingly
this->rigidBody->SetUp(this->rigidBody->GetState().centerPos.GetNormalized());
Oyster::Math::Quaternion firstUp = this->rigidBody->GetState().quaternion;
this->rigidBody->SetRotationAsAngularAxis(Oyster::Math3D::Float4(this->rigidBody->GetState().centerPos.GetNormalized(), this->rotationUp));
Oyster::Math::Quaternion secondTurn = this->rigidBody->GetState().quaternion;
this->rigidBody->SetRotation(secondTurn*firstUp);
// Direction data
Oyster::Math::Float4x4 xform; Oyster::Math::Float4x4 xform;
xform = this->rigidBody->GetState().GetOrientation(); xform = this->rigidBody->GetState().GetOrientation();
/* Handle turning */
/*if (left)
m_turnAngle -= dt * m_turnVelocity;
if (right)
m_turnAngle += dt * m_turnVelocity;
xform.setRotation (btQuaternion (btVector3(0.0, 1.0, 0.0), m_turnAngle));*/
Oyster::Math::Float3 linearVelocity = this->rigidBody->GetLinearVelocity();
Oyster::Math::Float speed = this->rigidBody->GetLinearVelocity().GetLength();
Oyster::Math::Float3 forwardDir = xform.v[2]; Oyster::Math::Float3 forwardDir = xform.v[2];
Oyster::Math::Float3 upDir = xform.v[1];
Oyster::Math::Float3 rightDir = xform.v[0]; Oyster::Math::Float3 rightDir = xform.v[0];
forwardDir.Normalize(); forwardDir.Normalize();
upDir.Normalize();
rightDir.Normalize(); rightDir.Normalize();
// Previous velocities data
Oyster::Math::Float3 linearVelocity = this->rigidBody->GetLinearVelocity();
Oyster::Math::Float3 forwardVelocity = linearVelocity*Oyster::Math::Float3(fabs(forwardDir.x), fabs(forwardDir.y), fabs(forwardDir.z));
Oyster::Math::Float forwardSpeed = (linearVelocity*forwardDir).GetLength();
Oyster::Math::Float3 rightVelocity = linearVelocity*Oyster::Math::Float3(fabs(rightDir.x), fabs(rightDir.y), fabs(rightDir.z));
Oyster::Math::Float rightSpeed = (linearVelocity*rightDir).GetLength();
Oyster::Math::Float3 upVelocity = linearVelocity*Oyster::Math::Float3(fabs(upDir.x), fabs(upDir.y), fabs(upDir.z));
// Walking data
Oyster::Math::Float3 walkDirection = Oyster::Math::Float3(0.0, 0.0, 0.0); Oyster::Math::Float3 walkDirection = Oyster::Math::Float3(0.0, 0.0, 0.0);
Oyster::Math::Float walkSpeed = this->moveSpeed*0.2f; Oyster::Math::Float walkSpeed = this->moveSpeed*0.2f;
if (key_forward > 0.001) // Check for input
if(key_forward > 0.001)
{ {
key_forward -= gameInstance->GetFrameTime(); key_forward -= gameInstance->GetFrameTime();
walkDirection += forwardDir; walkDirection += forwardDir;
walkDirection.Normalize();
} }
if (key_backward > 0.001) if(key_backward > 0.001)
{ {
key_backward -= gameInstance->GetFrameTime(); key_backward -= gameInstance->GetFrameTime();
walkDirection -= forwardDir; walkDirection -= forwardDir;
walkDirection.Normalize();
} }
if (key_strafeRight > 0.001) if(key_strafeRight > 0.001)
{ {
key_strafeRight -= gameInstance->GetFrameTime(); key_strafeRight -= gameInstance->GetFrameTime();
walkDirection -= rightDir; walkDirection += rightDir;
walkDirection.Normalize();
} }
if (key_strafeLeft > 0.001) if(key_strafeLeft > 0.001)
{ {
key_strafeLeft -= gameInstance->GetFrameTime(); key_strafeLeft -= gameInstance->GetFrameTime();
walkDirection += rightDir; walkDirection -= rightDir;
walkDirection.Normalize();
maxSpeed = 40;
} }
// Dampen velocity if certain keys are not pressed
if (key_forward <= 0.001 && key_backward <= 0.001 && key_strafeRight <= 0.001 && key_strafeLeft <= 0.001 && key_jump <= 0.001 && this->rigidBody->GetLambda() < 0.7f) if(key_jump <= 0.001 && this->rigidBody->GetLambda() < 0.9f)
{ {
/* Dampen when on the ground and not being moved by the player */ if(key_forward <= 0.001 && key_backward <= 0.001)
linearVelocity *= 0.2f;
this->rigidBody->SetLinearVelocity (linearVelocity);
}
else
{
if (speed < maxSpeed && this->rigidBody->GetLambda() < 1.0f)
{ {
Oyster::Math::Float3 velocity = linearVelocity + walkDirection * walkSpeed; forwardVelocity *= Oyster::Math::Float3(0.2f*fabs(forwardDir.x), 0.2f*fabs(forwardDir.y), 0.2f*fabs(forwardDir.z));
this->rigidBody->SetLinearVelocity(velocity);
} }
else if(speed < maxSpeed) if(key_strafeRight <= 0.001 && key_strafeLeft <= 0.001)
{ {
Oyster::Math::Float3 velocity = linearVelocity + (walkDirection * walkSpeed)*0.2f; rightVelocity *= Oyster::Math::Float3(0.2f*fabs(rightDir.x), 0.2f*fabs(rightDir.y), 0.2f*fabs(rightDir.z));
this->rigidBody->SetLinearVelocity(velocity); }
}
// Walk if walkdirection is something
if(walkDirection != Oyster::Math::Float3::null)
{
walkDirection.Normalize();
// If on the ground, accelerate normally
if(this->rigidBody->GetLambda() < 0.9f)
{
if(forwardSpeed < maxSpeed)
{
forwardVelocity += walkDirection*Oyster::Math::Float3(fabs(forwardDir.x), fabs(forwardDir.y), fabs(forwardDir.z)) * walkSpeed;
}
if(rightSpeed < maxSpeed)
{
rightVelocity += walkDirection*Oyster::Math::Float3(fabs(rightDir.x), abs(rightDir.y), fabs(rightDir.z)) * walkSpeed;
}
}
// If in the air, accelerate slower
if(this->rigidBody->GetLambda() >= 0.9f)
{
if(forwardSpeed < maxSpeed)
{
forwardVelocity += walkDirection*Oyster::Math::Float3(fabs(forwardDir.x), fabs(forwardDir.y), fabs(forwardDir.z)) * walkSpeed*0.2f;
}
if(rightSpeed < maxSpeed)
{
rightVelocity += walkDirection*Oyster::Math::Float3(fabs(rightDir.x), fabs(rightDir.y), fabs(rightDir.z)) * walkSpeed*0.2f;
}
} }
} }
if (key_jump > 0.001) // Adjust velocities so no squaring occurs
forwardVelocity *= Oyster::Math::Float3(fabs(forwardDir.x), fabs(forwardDir.y), fabs(forwardDir.z));
rightVelocity *= Oyster::Math::Float3(fabs(rightDir.x), fabs(rightDir.y), fabs(rightDir.z));
upVelocity *= Oyster::Math::Float3(fabs(upDir.x), fabs(upDir.y), fabs(upDir.z));
this->rigidBody->SetLinearVelocity(forwardVelocity+rightVelocity+upVelocity);
//Jump
if(key_jump > 0.001)
{ {
this->key_jump -= this->gameInstance->GetFrameTime(); this->key_jump -= this->gameInstance->GetFrameTime();
if(this->rigidBody->GetLambda() < 1.0f) if(this->rigidBody->GetLambda() < 0.9f)
{ {
Oyster::Math::Float3 up = this->rigidBody->GetState().GetOrientation().v[1].GetNormalized(); Oyster::Math::Float3 up = this->rigidBody->GetState().centerPos.GetNormalized();
this->rigidBody->ApplyImpulse(up*this->rigidBody->GetState().mass*20); this->rigidBody->ApplyImpulse(up*this->rigidBody->GetState().mass*20);
this->playerState = PLAYER_STATE::PLAYER_STATE_JUMPING; this->playerState = PLAYER_STATE::PLAYER_STATE_JUMPING;
} }
} }
Oyster::Math::Float3 pos = this->rigidBody->GetState().centerPos;
if(pos == Oyster::Math::Float3(0,0,0))
int i =0;
//this->weapon->Update(0.01f); //this->weapon->Update(0.01f);
} }
void Player::EndFrame() void Player::EndFrame()
{ {
// snap to axis
Oyster::Math::Float4 rotation;
this->rigidBody->SetUp(this->rigidBody->GetState().centerPos.GetNormalized());
//Object::EndFrame(); //Object::EndFrame();
} }
void Player::Move(const PLAYER_MOVEMENT &movement) void Player::Move(const PLAYER_MOVEMENT &movement)
@ -235,13 +269,10 @@ void Player::Rotate(const Oyster::Math3D::Float3& lookDir, const Oyster::Math3D:
// this is the camera right vector // this is the camera right vector
this->lookDir = lookDir; this->lookDir = lookDir;
//Oyster::Math::Float3 up = this->rigidBody->GetState().GetOrientation().v[1];
//this->rigidBody->SetUpAndRight(up, right);
} }
void Player::TurnLeft(Oyster::Math3D::Float deltaRadians) void Player::TurnLeft(Oyster::Math3D::Float deltaRadians)
{ {
this->rotationUp += deltaRadians; this->rotationUp += deltaRadians;
this->rigidBody->SetRotationAsAngularAxis(Oyster::Math3D::Float4(this->rigidBody->GetState().centerPos.GetNormalized(), this->rotationUp));
} }
void Player::Jump() void Player::Jump()

32
Code/Game/GameProtocols/ObjectProtocols.h
View File

@ -892,6 +892,38 @@ namespace GameLogic
Oyster::Network::CustomNetProtocol protocol; Oyster::Network::CustomNetProtocol protocol;
}; };
//#define protocol_Gameplay_ObjectDisconnectPlayer 367
struct Protocol_ObjectDisconnectPlayer :public Oyster::Network::CustomProtocolObject
{
int objectID;
Protocol_ObjectDisconnectPlayer()
{
this->protocol[0].type = Oyster::Network::NetAttributeType_Short;
this->protocol[0].value.netShort = protocol_Gameplay_ObjectDisconnectPlayer;
this->protocol[1].type = Oyster::Network::NetAttributeType_Int;
this->objectID = 0;
}
Protocol_ObjectDisconnectPlayer(int objectID)
{
this->protocol[0].type = Oyster::Network::NetAttributeType_Short;
this->protocol[0].value.netShort = protocol_Gameplay_ObjectDisconnectPlayer;
this->protocol[1].type = Oyster::Network::NetAttributeType_Int;
this->objectID = objectID;
}
Protocol_ObjectDisconnectPlayer(Oyster::Network::CustomNetProtocol& p)
{
this->objectID = p[1].value.netInt;
}
Oyster::Network::CustomNetProtocol GetProtocol() override
{
this->protocol[1].value = this->objectID;
return protocol;
}
private:
Oyster::Network::CustomNetProtocol protocol;
};
} }
#endif // !GAMELOGIC_PLAYER_PROTOCOLS_H #endif // !GAMELOGIC_PLAYER_PROTOCOLS_H

2
Code/Game/GameProtocols/ProtocolIdentificationID.h
View File

@ -69,6 +69,8 @@
#define protocol_Gameplay_ObjectWeaponEnergy 364 #define protocol_Gameplay_ObjectWeaponEnergy 364
#define protocol_Gameplay_ObjectRespawn 365 #define protocol_Gameplay_ObjectRespawn 365
#define protocol_Gameplay_ObjectDie 366 #define protocol_Gameplay_ObjectDie 366
//Disconnect
#define protocol_Gameplay_ObjectDisconnectPlayer 367
#define protocol_GameplayMAX 399 #define protocol_GameplayMAX 399

11
Code/Game/GameServer/Implementation/GameSession_Gameplay.cpp
View File

@ -61,8 +61,19 @@ using namespace DanBias;
switch (e.args.type) switch (e.args.type)
{ {
case NetworkClient::ClientEventArgs::EventType_Disconnect: case NetworkClient::ClientEventArgs::EventType_Disconnect:
{
//Send disconnect message to all the other players so the player can be removed from the client.
Protocol_ObjectDisconnectPlayer dp(cl->GetClient()->GetID());
for(int i = 0; i < this->gClients.Size(); i++)
{
if(this->gClients[i] && this->gClients[i] != cl)
{
this->gClients[i]->GetClient()->Send(dp);
}
}
printf("\t(%i : %s) - EventType_Disconnect\n", cl->GetClient()->GetID(), e.sender->GetIpAddress().c_str()); printf("\t(%i : %s) - EventType_Disconnect\n", cl->GetClient()->GetID(), e.sender->GetIpAddress().c_str());
this->gClients[temp]->Invalidate(); this->gClients[temp]->Invalidate();
}
break; break;
case NetworkClient::ClientEventArgs::EventType_ProtocolFailedToRecieve: case NetworkClient::ClientEventArgs::EventType_ProtocolFailedToRecieve:
break; break;

2
Code/Game/GameServer/Implementation/GameSession_General.cpp
View File

@ -234,7 +234,7 @@ bool GameSession::Join(gClient gameClient)
{ {
//Protocol_ObjectPosition p(movedObject->GetPosition(), id); //Protocol_ObjectPosition p(movedObject->GetPosition(), id);
Protocol_ObjectPositionRotation p(objects[i]->GetPosition(), objects[i]->GetRotation(), objects[i]->GetID()); Protocol_ObjectPositionRotation p(objects[i]->GetPosition(), objects[i]->GetRotation(), objects[i]->GetID());
GameSession::gameSession->Send(p.GetProtocol()); nwClient->Send(p.GetProtocol());
} }
} }

3
Code/Misc/Input/Include/ApplicationKeyboard.h
View File

@ -12,6 +12,8 @@ namespace Input
class ApplicationKeyboard : public InputObject class ApplicationKeyboard : public InputObject
{ {
public: public:
virtual ~ApplicationKeyboard();
bool IsActive() const; bool IsActive() const;
void Activate(); void Activate();
@ -25,7 +27,6 @@ namespace Input
::std::wstring::size_type writePos; ::std::wstring::size_type writePos;
ApplicationKeyboard(); ApplicationKeyboard();
~ApplicationKeyboard();
private: private:
bool active; bool active;

22
Code/Misc/Input/Include/Common.h
View File

@ -21,11 +21,16 @@ namespace Input
{ {
SAIType_Keyboard, SAIType_Keyboard,
SAIType_Mouse, SAIType_Mouse,
SAIType_ApplicationKeyboard, //SAIType_ApplicationKeyboard,
SAIType_futureExample1, SAIType_futureExample1,
SAIType_futureExample2, SAIType_futureExample2,
SAIType_futureExample3, SAIType_futureExample3,
}; };
enum InputOptionType
{
InputOptionType_RawInput,
InputOptionType_PlatformDefault,
};
enum ButtonState enum ButtonState
{ {
ButtonState_Press, // When button is pressed (once) ButtonState_Press, // When button is pressed (once)
@ -37,15 +42,24 @@ namespace Input
/*********************************************************************/ /*********************************************************************/
namespace Struct namespace Struct
{ {
struct SAIPoint2D struct SAIPointInt2D
{ {
int x; int x;
int y; int y;
SAIPoint2D() :x(0), y(0) { } SAIPointInt2D() :x(0), y(0) { }
SAIPoint2D(int _x, int _y) :x(_x), y(_y) { } SAIPointInt2D(int _x, int _y) :x(_x), y(_y) { }
int Length() { return (abs(x) + abs(y)); } int Length() { return (abs(x) + abs(y)); }
}; };
struct SAIPointFloat2D
{
float x;
float y;
SAIPointFloat2D() :x(0.0f), y(0.0f) { }
SAIPointFloat2D(float _x, float _y) :x(_x), y(_y) { }
float Length() { return (fabs(x) + fabs(y)); }
};
struct InputData; struct InputData;
} }
/*********************************************************************/ /*********************************************************************/

8
Code/Misc/Input/Include/InputManager.h
View File

@ -18,12 +18,12 @@ namespace Input
/** /**
* @return Returns an instance of the default input manager. * @return Returns an instance of the default input manager.
*/ */
static InputManager* Instance (); static InputManager* Instance ();
/** /**
* @return Returns a new input manager. Should be destroyd with DestroyInputManager function. * @return Returns a new input manager. Should be destroyd with DestroyInputManager function.
*/ */
static InputManager* CreateInputManager (); static InputManager* CreateInputManager ();
/** /**
* @return Destroys a input manager. * @return Destroys a input manager.
@ -37,7 +37,9 @@ namespace Input
* @see InputDescription * @see InputDescription
* @return Returns a handle to a device that can be rethrown to a specific device. * @return Returns a handle to a device that can be rethrown to a specific device.
*/ */
virtual InputObject* CreateDevice (const Enum::SAIType inputType, Typedefs::WindowHandle targetApplication = 0) = 0; virtual InputObject* CreateDevice ( const Enum::SAIType inputType, Typedefs::WindowHandle targetApplication ) = 0;
virtual Keyboard* CreateKeyboardDevice ( Typedefs::WindowHandle targetApplication ) { return (Keyboard*)CreateDevice(Enum::SAIType_Keyboard, targetApplication); }
virtual Mouse* CreateMouseDevice ( Typedefs::WindowHandle targetApplication ) { return (Mouse*)CreateDevice(Enum::SAIType_Mouse, targetApplication); }
/** Enables or Disables the Input proccessing. /** Enables or Disables the Input proccessing.
* @param The toggler. * @param The toggler.

8
Code/Misc/Input/Include/InputObject.h
View File

@ -13,8 +13,9 @@ namespace Input
public: public:
inline Enum::SAIType Type() { return type; } inline Enum::SAIType Type() { return type; }
virtual inline void Enable () { isEnabled = true; }; virtual void Activate () = 0;
virtual inline void Disable () { isEnabled = false; }; virtual void Deactivate () = 0;
virtual bool IsActive() = 0;
protected: protected:
InputObject(Enum::SAIType type) { this->type = type; } InputObject(Enum::SAIType type) { this->type = type; }
@ -22,9 +23,6 @@ namespace Input
private: private:
Enum::SAIType type; Enum::SAIType type;
protected:
bool isEnabled;
}; };
} }

71
Code/Misc/Input/Include/Keyboard.h
View File

@ -49,6 +49,10 @@ namespace Input
SAKI_7 , SAKI_7 ,
SAKI_8 , SAKI_8 ,
SAKI_9 , SAKI_9 ,
SAKI_Add ,
SAKI_Comma ,
SAKI_Minus ,
SAKI_Period ,
SAKI_A , SAKI_A ,
SAKI_B , SAKI_B ,
SAKI_C , SAKI_C ,
@ -133,9 +137,9 @@ namespace Input
//----------------------------------------------------------------------------------------------------------------------------- //-----------------------------------------------------------------------------------------------------------------------------
namespace Typedefs namespace Typedefs
{ {
typedef void(*OnKeyPressCallback)(Enum::SAKI key, const wchar_t[40], Keyboard* sender); typedef void(*OnKeyPressCallback)(Enum::SAKI key, Keyboard* sender);
typedef void(*OnKeyDownCallback)(Enum::SAKI key, const wchar_t[40], Keyboard* sender); typedef void(*OnKeyDownCallback)(Enum::SAKI key, Keyboard* sender);
typedef void(*OnKeyReleaseCallback)(Enum::SAKI key, const wchar_t[40], Keyboard* sender); typedef void(*OnKeyReleaseCallback)(Enum::SAKI key, Keyboard* sender);
} }
//----------------------------------------------------------------------------------------------------------------------------- //-----------------------------------------------------------------------------------------------------------------------------
@ -145,15 +149,22 @@ namespace Input
class KeyboardEvent class KeyboardEvent
{ {
public: public:
virtual void OnKeyPress(Enum::SAKI key, const wchar_t[40], Keyboard* sender) { } virtual void OnKeyPress(Enum::SAKI key, Keyboard* sender) { }
virtual void OnKeyDown(Enum::SAKI key, const wchar_t[40], Keyboard* sender) { } virtual void OnKeyDown(Enum::SAKI key, Keyboard* sender) { }
virtual void OnKeyRelease(Enum::SAKI key, const wchar_t[40], Keyboard* sender) { } virtual void OnKeyRelease(Enum::SAKI key, Keyboard* sender) { }
}; };
public: /* Manual check functions */ public: /* Manual check functions */
virtual ~Keyboard();
virtual bool IsKeyUp (Enum::SAKI key) = 0; virtual bool IsKeyUp (Enum::SAKI key) = 0;
virtual bool IsKeyDown (Enum::SAKI key) = 0; virtual bool IsKeyDown (Enum::SAKI key) = 0;
virtual const wchar_t* GetAsText(Enum::SAKI key) = 0; virtual wchar_t* GetAsText(Enum::SAKI key) = 0;
public: /* From InputObject */
virtual void Activate () override = 0;
virtual void Deactivate () override = 0;
virtual bool IsActive() override = 0;
public: /* global subscribe callback functions */ public: /* global subscribe callback functions */
void AddOnKeyPressCallback (Typedefs::OnKeyPressCallback func); void AddOnKeyPressCallback (Typedefs::OnKeyPressCallback func);
@ -168,45 +179,27 @@ namespace Input
void operator+= (KeyboardEvent* object); void operator+= (KeyboardEvent* object);
void operator-= (KeyboardEvent* object); void operator-= (KeyboardEvent* object);
void BindTextTarget( ::std::wstring *field );
void ReleaseTextTarget();
public:
struct KeyboardCallbackList;
protected: protected:
Keyboard(); Keyboard();
~Keyboard();
protected: protected: /* Internal event proc */
struct KeyboardCallbackList void InternalOnKeyPress(Enum::SAKI key);
{ void InternalOnKeyDown(Enum::SAKI key);
enum CallbackDataType void InternalOnKeyRelease(Enum::SAKI key);
{
CallbackDataType_OnPress,
CallbackDataType_OnDown,
CallbackDataType_OnRelease
} type;
union CallbackData
{
Typedefs::OnKeyPressCallback keyPressCallback;
Typedefs::OnKeyDownCallback keyDownCallback;
Typedefs::OnKeyReleaseCallback keyReleaseCallback;
CallbackData (){ memset(this, 0, sizeof(CallbackData)); }
CallbackData (Typedefs::OnKeyPressCallback o){ keyPressCallback = o; }
bool operator ==(CallbackData o){ return o.keyDownCallback == keyDownCallback; }
bool operator ==(Typedefs::OnKeyPressCallback o ){ return o == keyPressCallback; }
operator bool(){ return this->keyDownCallback != 0; }
} function;
KeyboardCallbackList *next;
KeyboardCallbackList(CallbackData func, CallbackDataType t) :function(func), next(0), type(t) { }
};
protected:
void ClearList(KeyboardCallbackList* first);
void AddToList(Keyboard::KeyboardCallbackList* first, KeyboardCallbackList::CallbackData data, KeyboardCallbackList::CallbackDataType type);
void RemoveFromList(KeyboardCallbackList* first, KeyboardCallbackList::CallbackData data);
bool ExistsInList(KeyboardCallbackList* first, KeyboardCallbackList::CallbackData data);
bool ExistsInList(std::vector<KeyboardEvent*>& list, KeyboardEvent* data);
protected: protected:
std::vector<KeyboardEvent*> keyEventSubscrivers; std::vector<KeyboardEvent*> keyEventSubscrivers;
KeyboardCallbackList* callbackList; KeyboardCallbackList* callbackList;
::std::wstring* textTarget;
::std::wstring::size_type writePos;
bool active;
Enum::InputOptionType inputMode;
}; };
} }

100
Code/Misc/Input/Include/Mouse.h
View File

@ -47,7 +47,8 @@ namespace Input
typedef void(*OnMousePressCallback)(Enum::SAMI btn, Mouse* sender); typedef void(*OnMousePressCallback)(Enum::SAMI btn, Mouse* sender);
typedef void(*OnMouseDownCallback)(Enum::SAMI btn, Mouse* sender); typedef void(*OnMouseDownCallback)(Enum::SAMI btn, Mouse* sender);
typedef void(*OnMouseReleaseCallback)(Enum::SAMI btn, Mouse* sender); typedef void(*OnMouseReleaseCallback)(Enum::SAMI btn, Mouse* sender);
typedef void(*OnMouseMoveCallback)(Struct::SAIPoint2D, Mouse* sender); typedef void(*OnMouseMovePixelPosCallback)(Struct::SAIPointInt2D cord, Mouse* sender);
typedef void(*OnMouseMoveVelocityCallback)(Struct::SAIPointInt2D cord, Mouse* sender);
typedef void(*OnMouseScrollCallback)(int delta, Mouse* sender); typedef void(*OnMouseScrollCallback)(int delta, Mouse* sender);
} }
//----------------------------------------------------------------------------------------------------------------------------- //-----------------------------------------------------------------------------------------------------------------------------
@ -55,91 +56,78 @@ namespace Input
class Mouse :public InputObject class Mouse :public InputObject
{ {
public: public:
class MouseEvent class MouseEvent
{ {
public: public:
virtual void OnMousePress ( Enum::SAMI key, Mouse* sender ) { } virtual void OnMousePress ( Enum::SAMI key, Mouse* sender ) { }
virtual void OnMouseDown ( Enum::SAMI key, Mouse* sender ) { } virtual void OnMouseDown ( Enum::SAMI key, Mouse* sender ) { }
virtual void OnMouseRelease ( Enum::SAMI key, Mouse* sender ) { } virtual void OnMouseRelease ( Enum::SAMI key, Mouse* sender ) { }
virtual void OnMouseMove ( Struct::SAIPoint2D coordinate, Mouse* sender ) { } virtual void OnMouseMovePixelPos ( Struct::SAIPointInt2D coordinate, Mouse* sender ) { }
virtual void OnMouseScroll ( int delta, Mouse* sender ) { } virtual void OnMouseMoveVelocity ( Struct::SAIPointInt2D coordinate, Mouse* sender ) { }
virtual void OnMouseScroll ( int delta, Mouse* sender ) { }
}; };
public: public: /* Manual check functions */
virtual bool IsBtnUp(Enum::SAMI key) = 0; virtual bool IsBtnUp(Enum::SAMI key) const = 0;
virtual bool IsBtnDown(Enum::SAMI key) = 0; virtual bool IsBtnDown(Enum::SAMI key) const = 0;
virtual int GetWheelDelta() const = 0;
public: virtual Struct::SAIPointInt2D& GetPixelPosition(Struct::SAIPointInt2D& targetMem = Struct::SAIPointInt2D()) const = 0;
int GetWheelDelta() const; virtual Struct::SAIPointFloat2D& GetNormalizedPosition(Struct::SAIPointFloat2D& targetMem = Struct::SAIPointFloat2D()) = 0;
Struct::SAIPoint2D & GetPixelPosition( Struct::SAIPoint2D &targetMem = Struct::SAIPoint2D() ) const; virtual Struct::SAIPointFloat2D& GetDeltaPosition(Struct::SAIPointFloat2D& targetMem = Struct::SAIPointFloat2D()) const = 0;
Struct::SAIPoint2D & GetDeltaPosition( Struct::SAIPoint2D &targetMem = Struct::SAIPoint2D() ) const;
public: /* From InputObject */
virtual void Activate () override = 0;
virtual void Deactivate () override = 0;
virtual bool IsActive() override = 0;
public: /* global subscribe callback functions */
void AddOnMousePressCallback( Typedefs::OnMousePressCallback func); void AddOnMousePressCallback( Typedefs::OnMousePressCallback func);
void AddOnMouseDownCallback( Typedefs::OnMouseDownCallback func ); void AddOnMouseDownCallback( Typedefs::OnMouseDownCallback func );
void AddOnMouseReleaseCallback( Typedefs::OnMouseReleaseCallback func ); void AddOnMouseReleaseCallback( Typedefs::OnMouseReleaseCallback func );
void AddOnMouseMoveCallback( Typedefs::OnMouseMoveCallback func ); void AddOnMouseMovePixelPosCallback( Typedefs::OnMouseMovePixelPosCallback func );
void AddOnMouseMoveVelocityCallback( Typedefs::OnMouseMoveVelocityCallback func );
void AddOnMouseScrollCallback( Typedefs::OnMouseScrollCallback func ); void AddOnMouseScrollCallback( Typedefs::OnMouseScrollCallback func );
void RemoveOnMousePressCallback( Typedefs::OnMousePressCallback func); void RemoveOnMousePressCallback( Typedefs::OnMousePressCallback func);
void RemoveOnMouseDownCallback( Typedefs::OnMouseDownCallback func ); void RemoveOnMouseDownCallback( Typedefs::OnMouseDownCallback func );
void RemoveOnMouseReleaseCallback( Typedefs::OnMouseReleaseCallback func ); void RemoveOnMouseReleaseCallback( Typedefs::OnMouseReleaseCallback func );
void RemoveOnMouseMoveCallback( Typedefs::OnMouseMoveCallback func ); void RemoveOnMouseMovePixelPosCallback( Typedefs::OnMouseMovePixelPosCallback func );
void RemoveOnMouseMoveVelocityCallback( Typedefs::OnMouseMoveVelocityCallback func );
void RemoveOnMouseScrollCallback( Typedefs::OnMouseScrollCallback func ); void RemoveOnMouseScrollCallback( Typedefs::OnMouseScrollCallback func );
public:
void operator+= (MouseEvent* object);
void operator-= (MouseEvent* object);
void SetPixelPos(int x, int y); void SetPixelPos(int x, int y);
void ToggleCursor(bool toggler); void ToggleCursor(bool toggler);
private: public:
void operator+= (MouseEvent* object); struct MouseCallbackList;
void operator-= (MouseEvent* object);
protected: protected:
Mouse(); Mouse();
~Mouse(); virtual ~Mouse();
protected: protected:
struct MouseCallbackList void InternalOnBtnPress(Enum::SAMI key);
{ void InternalOnBtnDown(Enum::SAMI key);
enum CallbackDataType void InternalOnBtnRelease(Enum::SAMI key);
{ void InternalOnMove(Struct::SAIPointInt2D pixelPos, Struct::SAIPointInt2D velocity);
CallbackDataType_OnPress, void InternalOnScroll(int delta);
CallbackDataType_OnDown,
CallbackDataType_OnRelease,
CallbackDataType_OnMove,
CallbackDataType_OnScroll,
} type;
union CallbackData
{
Typedefs::OnMousePressCallback mousePressCallback;
Typedefs::OnMouseDownCallback mouseDownCallback;
Typedefs::OnMouseReleaseCallback mouseReleaseCallback;
Typedefs::OnMouseMoveCallback mouseMoveCallback;
Typedefs::OnMouseScrollCallback mouseScrollCallback;
void* dummy;
CallbackData (){ memset(this, 0, sizeof(CallbackData)); }
CallbackData (void* d){ dummy = d; }
bool operator ==(CallbackData o){ return o.dummy == dummy; }
bool operator ==(void* o ){ return o == dummy; }
operator bool(){ return this->dummy != 0; }
} function;
MouseCallbackList *next;
MouseCallbackList(CallbackData func, CallbackDataType t) :function(func), next(0), type(t) { }
};
protected:
void ClearList(MouseCallbackList* first);
void AddToList(MouseCallbackList* first, MouseCallbackList::CallbackData data, MouseCallbackList::CallbackDataType type);
void RemoveFromList(MouseCallbackList* first, MouseCallbackList::CallbackData data);
bool ExistsInList(MouseCallbackList* first, MouseCallbackList::CallbackData data);
bool ExistsInList(std::vector<MouseEvent*>& list, MouseEvent* data);
protected: protected:
std::vector<MouseEvent*> mouseSubscribers; std::vector<MouseEvent*> mouseSubscribers;
MouseCallbackList* callbackList; MouseCallbackList* callbackList;
Struct::SAIPoint2D pixelPos, deltaPos; Struct::SAIPointInt2D pixelPos;
Struct::SAIPointInt2D velocity;
Struct::SAIPointFloat2D normalPos;
Struct::SAIPointFloat2D deltaPos;
bool isCurorLocked; bool isCurorLocked;
int wheelDelta; int wheelDelta;
Enum::InputOptionType inputMode;
}; };
} }

49
Code/Misc/Input/Include/Win32/Win32Input.h
View File

@ -8,16 +8,16 @@
#include "..\InputManager.h" #include "..\InputManager.h"
#include "Win32Keyboard.h" #include "Win32Keyboard.h"
#include "Win32Mouse.h" #include "Win32Mouse.h"
#include "Win32ApplicationKeyboard.h"
#include <vector> #include <vector>
#define NOMINMAX
#include <Windows.h> #include <Windows.h>
#include <map> #include <map>
/** /**
* TODO: * TODO:
* 1. Cordinate system * 1. Cordinate system
* 1.1. Pixel cordinates * 1.1. Pixel cordinates DONE
* 1.2. 0 - 1 cordinate * 1.2. 0 - 1 cordinate DONW
* 1.3. Origo in middle of the screen ( -1 to 1 ) * 1.3. Origo in middle of the screen ( -1 to 1 )
*/ */
@ -43,46 +43,6 @@ namespace Input
class Win32Input :public InputManager class Win32Input :public InputManager
{ {
// private:
// SubscribeList<INPUT_CALLBACK, const InputData*>* _procInput;
//
// bool _enabled;
// bool _mouseEnabled;
// bool _KeyboardEnabled;
// bool _exclusive;
// List<RawInputDeviceInstance> _deviceList;
//
// List<InputData> _mouseInput;
// List<InputData> _keyboardInput;
//
// HHOOK _msgHook;
//
// private:
// Win32Input ();
// ~Win32Input ();
//
// bool _addDevice (const RAWINPUTDEVICE* k, const int& count);
// RAWINPUT*_TranslateRawInput (LPARAM l);
// void _proccessRawMouseData (RAWMOUSE&);
// void _proccessRawKeyboardData (RAWKEYBOARD&);
//
// static LRESULT CALLBACK WM_INPUT_TRANSLATE (int nCode, WPARAM wParam, LPARAM lParam);
//
// public:
//
// static Win32Input* Self ();
// static void Destroy ();
//
// const wchar_t* Input_GetError () const;
//
// bool Input_AddDevice (IN const HWND& targetApplication);
// bool Input_AddDevice (IN const RAWINPUTDEVICE*, IN const int&);
//
// void Input_Subscribe (IN INPUT_CALLBACK fnc);
// void Input_Unsubscribe (IN INPUT_CALLBACK fnc);
//
// void Input_Disable ();
// void Input_Enable ();
public: public:
Win32Input(); Win32Input();
virtual~Win32Input(); virtual~Win32Input();
@ -96,12 +56,11 @@ namespace Input
std::vector<Win32Mouse*> mouse; std::vector<Win32Mouse*> mouse;
bool enabled; bool enabled;
bool exclusive;
HWND targetHwin; HWND targetHwin;
private: private:
static Win32Input* instance; static Win32Input* instance;
static void RawInputParser(HWND h, LPARAM l); static LRESULT RawInputParser(HWND h, LPARAM l);
static LRESULT CALLBACK RawWindowCallback(HWND h, UINT m, WPARAM w, LPARAM l); static LRESULT CALLBACK RawWindowCallback(HWND h, UINT m, WPARAM w, LPARAM l);
static void WindowActivate(bool activate); static void WindowActivate(bool activate);
}; };

17
Code/Misc/Input/Include/Win32/Win32Keyboard.h
View File

@ -5,6 +5,7 @@
#define INPUT_KEYBOARD_H #define INPUT_KEYBOARD_H
#include "..\Keyboard.h" #include "..\Keyboard.h"
#define NOMINMAX
#include <Windows.h> #include <Windows.h>
namespace Input namespace Input
@ -12,24 +13,34 @@ namespace Input
class Win32Keyboard :public Keyboard class Win32Keyboard :public Keyboard
{ {
public: public:
Win32Keyboard(); Win32Keyboard(HWND target);
~Win32Keyboard(); ~Win32Keyboard();
bool IsKeyUp (Enum::SAKI key) override; bool IsKeyUp (Enum::SAKI key) override;
bool IsKeyDown (Enum::SAKI key) override; bool IsKeyDown (Enum::SAKI key) override;
const wchar_t* GetAsText(Enum::SAKI key) override; wchar_t* GetAsText(Enum::SAKI key) override;
void ProccessKeyboardData (bool isUp, Enum::SAKI key, unsigned int makeCode, bool isE0); public: /* From InputObject */
void Activate () override;
void Deactivate () override;
inline bool IsActive() override { return this->isActive; }
void ProccessKeyboardData (RAWKEYBOARD keyboard);
bool Create( );
private: private:
void MapKey(RAWKEYBOARD& rawKB, Enum::SAKI& out_key, bool& isE0);
struct Keys struct Keys
{ {
bool isE0; bool isE0;
bool isDown; bool isDown;
unsigned int makecode; unsigned int makecode;
}; };
RAWINPUTDEVICE device;
static const int MAXKEYS = 256; static const int MAXKEYS = 256;
Keys keys[MAXKEYS]; Keys keys[MAXKEYS];
bool isActive;
}; };
} }

25
Code/Misc/Input/Include/Win32/Win32Mouse.h
View File

@ -12,13 +12,22 @@ namespace Input
class Win32Mouse :public Mouse class Win32Mouse :public Mouse
{ {
public: public:
Win32Mouse(); Win32Mouse(HWND target);
~Win32Mouse(); ~Win32Mouse();
bool IsBtnUp(Enum::SAMI key) override; bool IsBtnUp(Enum::SAMI key) const override;
bool IsBtnDown(Enum::SAMI key) override; bool IsBtnDown(Enum::SAMI key) const override;
int GetWheelDelta() const override;
Struct::SAIPointInt2D& GetPixelPosition(Struct::SAIPointInt2D &targetMem = Struct::SAIPointInt2D()) const override;
Struct::SAIPointFloat2D& GetNormalizedPosition(Struct::SAIPointFloat2D &targetMem = Struct::SAIPointFloat2D()) override;
Struct::SAIPointFloat2D& GetDeltaPosition(Struct::SAIPointFloat2D& targetMem = Struct::SAIPointFloat2D()) const override;
void Activate () override;
void Deactivate () override;
inline bool IsActive() override { return this->isActive; }
void ProccessMouseData (bool isDown, Enum::SAMI btn, int delta, Struct::SAIPoint2D velocity, unsigned int makeCode); void ProccessMouseData (RAWMOUSE mouse);
bool Create( );
private: private:
struct Buttons struct Buttons
@ -26,8 +35,12 @@ namespace Input
unsigned int makeCode; unsigned int makeCode;
bool isDown; bool isDown;
}; };
static const int MAXBUTTONS = 25; static const int MAXBUTTONS =Enum::SAMI_Unknown;
Buttons buttons[25]; Buttons buttons[MAXBUTTONS];
RAWINPUTDEVICE device;
Struct::SAIPointInt2D windowSize;
bool isActive;
Struct::SAIPointInt2D winCursPos;
}; };
} }

15
Code/Misc/Input/Input.vcxproj
View File

@ -20,17 +20,14 @@
</ItemGroup> </ItemGroup>
<ItemGroup> <ItemGroup>
<ClCompile Include="L_inputClass.cpp" /> <ClCompile Include="L_inputClass.cpp" />
<ClCompile Include="Source\ApplicationKeyboard.cpp" />
<ClCompile Include="Source\InputManager.cpp" /> <ClCompile Include="Source\InputManager.cpp" />
<ClCompile Include="Source\Keyboard.cpp" /> <ClCompile Include="Source\Keyboard.cpp" />
<ClCompile Include="Source\Mouse.cpp" /> <ClCompile Include="Source\Mouse.cpp" />
<ClCompile Include="Source\Win32\Win32ApplicationKeyboard.cpp" />
<ClCompile Include="Source\Win32\Win32Input.cpp" /> <ClCompile Include="Source\Win32\Win32Input.cpp" />
<ClCompile Include="Source\Win32\Win32Keyboard.cpp" /> <ClCompile Include="Source\Win32\Win32Keyboard.cpp" />
<ClCompile Include="Source\Win32\Win32Mouse.cpp" /> <ClCompile Include="Source\Win32\Win32Mouse.cpp" />
</ItemGroup> </ItemGroup>
<ItemGroup> <ItemGroup>
<ClInclude Include="Include\ApplicationKeyboard.h" />
<ClInclude Include="Include\Common.h" /> <ClInclude Include="Include\Common.h" />
<ClInclude Include="Include\Input.h" /> <ClInclude Include="Include\Input.h" />
<ClInclude Include="Include\InputManager.h" /> <ClInclude Include="Include\InputManager.h" />
@ -38,17 +35,11 @@
<ClInclude Include="Include\Keyboard.h" /> <ClInclude Include="Include\Keyboard.h" />
<ClInclude Include="Include\Mouse.h" /> <ClInclude Include="Include\Mouse.h" />
<ClInclude Include="Include\PreReq.h" /> <ClInclude Include="Include\PreReq.h" />
<ClInclude Include="Include\Win32\Win32ApplicationKeyboard.h" />
<ClInclude Include="Include\Win32\Win32Input.h" /> <ClInclude Include="Include\Win32\Win32Input.h" />
<ClInclude Include="Include\Win32\Win32Keyboard.h" /> <ClInclude Include="Include\Win32\Win32Keyboard.h" />
<ClInclude Include="Include\Win32\Win32Mouse.h" /> <ClInclude Include="Include\Win32\Win32Mouse.h" />
<ClInclude Include="L_inputClass.h" /> <ClInclude Include="L_inputClass.h" />
</ItemGroup> </ItemGroup>
<ItemGroup>
<ProjectReference Include="..\Utilities\Utilities.vcxproj">
<Project>{2ec4dded-8f75-4c86-a10b-e1e8eb29f3ee}</Project>
</ProjectReference>
</ItemGroup>
<PropertyGroup Label="Globals"> <PropertyGroup Label="Globals">
<ProjectGuid>{7E3990D2-3D94-465C-B58D-64A74B3ECF9B}</ProjectGuid> <ProjectGuid>{7E3990D2-3D94-465C-B58D-64A74B3ECF9B}</ProjectGuid>
<RootNamespace>Input</RootNamespace> <RootNamespace>Input</RootNamespace>
@ -136,7 +127,7 @@
<WarningLevel>Level3</WarningLevel> <WarningLevel>Level3</WarningLevel>
<Optimization>Disabled</Optimization> <Optimization>Disabled</Optimization>
<SDLCheck>true</SDLCheck> <SDLCheck>true</SDLCheck>
<AdditionalIncludeDirectories>$(SolutionDir)Misc\Utilities;%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories> <AdditionalIncludeDirectories>%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories>
</ClCompile> </ClCompile>
<Link> <Link>
<GenerateDebugInformation>true</GenerateDebugInformation> <GenerateDebugInformation>true</GenerateDebugInformation>
@ -149,7 +140,7 @@
<FunctionLevelLinking>true</FunctionLevelLinking> <FunctionLevelLinking>true</FunctionLevelLinking>
<IntrinsicFunctions>true</IntrinsicFunctions> <IntrinsicFunctions>true</IntrinsicFunctions>
<SDLCheck>true</SDLCheck> <SDLCheck>true</SDLCheck>
<AdditionalIncludeDirectories>$(SolutionDir)Misc\Utilities;%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories> <AdditionalIncludeDirectories>%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories>
</ClCompile> </ClCompile>
<Link> <Link>
<GenerateDebugInformation>true</GenerateDebugInformation> <GenerateDebugInformation>true</GenerateDebugInformation>
@ -164,7 +155,7 @@
<FunctionLevelLinking>true</FunctionLevelLinking> <FunctionLevelLinking>true</FunctionLevelLinking>
<IntrinsicFunctions>true</IntrinsicFunctions> <IntrinsicFunctions>true</IntrinsicFunctions>
<SDLCheck>true</SDLCheck> <SDLCheck>true</SDLCheck>
<AdditionalIncludeDirectories>$(SolutionDir)Misc\Utilities;%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories> <AdditionalIncludeDirectories>%(AdditionalIncludeDirectories)</AdditionalIncludeDirectories>
</ClCompile> </ClCompile>
<Link> <Link>
<GenerateDebugInformation>true</GenerateDebugInformation> <GenerateDebugInformation>true</GenerateDebugInformation>

141
Code/Misc/Input/Main.cpp
View File

@ -1,101 +1,68 @@
#include "RawInput.h" #include <atomic>
// include the basic windows header file #include <vector>
#include <windows.h> #include <iostream>
#include <windowsx.h> #include <chrono>
#include <cassert> #include <ctime>
#include <map>
#include <thread>
#include <chrono>
#include <iomanip>
#include <mutex>
#include <bitset>
#include <Windows.h>
#include "Include\Input.h"
#include "WindowShell.h"
HWND hWnd; using namespace std;
// this is the main message handler for the program using namespace Input;
LRESULT CALLBACK WindowProc(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam) using namespace Input::Enum;
Input::Keyboard* keyboard = 0;
Input::Mouse* mouse = 0;
void KeyPress(Input::Enum::SAKI key, Input::Keyboard* sender)
{ {
// sort through and find what code to run for the message given if(key == SAKI_A)
switch(message) {
{ if(mouse->IsActive()) mouse->Deactivate();
// this message is read when the window is closed else mouse->Activate();
case WM_DESTROY:
{ }
// close the application entirely
PostQuitMessage(0);
return 0;
} break;
case WM_KEYUP:
MessageBox(0, L"WM_KEYUP", L"", 0);
break;
case WM_KEYDOWN:
MessageBox(0, L"WM_KEYDOWN", L"", 0);
break;
//case WM_INPUT:
// MessageBox(0, L"WM_INPUT_MAIN", L"", 0);
//break;
}
// Handle any messages the switch statement didn't
return DefWindowProc (hWnd, message, wParam, lParam);
} }
void initWindow(HINSTANCE h, int i)
void MouseVelocity(Input::Struct::SAIPointInt2D vel, Input::Mouse* sender)
{ {
// this struct holds information for the window class int i = vel.Length();
WNDCLASSEX wc; if(abs(i) > 2)
i = 0;
// clear out the window class for use
ZeroMemory(&wc, sizeof(WNDCLASSEX));
// fill in the struct with the needed information
wc.cbSize = sizeof(WNDCLASSEX);
wc.style = CS_HREDRAW | CS_VREDRAW;
wc.lpfnWndProc = WindowProc;
wc.hInstance = h;
wc.hCursor = LoadCursor(NULL, IDC_ARROW);
wc.hbrBackground = (HBRUSH)COLOR_WINDOW;
wc.lpszClassName = L"WindowClass1";
// register the window class
RegisterClassEx(&wc);
// create the window and use the result as the handle
hWnd = CreateWindowEx(NULL,
L"WindowClass1", // name of the window class
L"Our First Windowed Program", // title of the window
WS_OVERLAPPEDWINDOW, // window style
300, // x-position of the window
300, // y-position of the window
500, // width of the window
400, // height of the window
NULL, // we have no parent window, NULL
NULL, // we aren't using menus, NULL
h, // application handle
NULL); // used with multiple windows, NULL
// display the window on the screen
ShowWindow(hWnd, i);
} }
void initRaw()
int WINAPI WinMain( HINSTANCE hinst, HINSTANCE prevInst, PSTR cmdLine, int cmdShow)
{ {
//RawInput::Self()->Input_AddDevice(hWnd); std::wstring text;
}
// the entry point for any Windows program
int WINAPI WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPSTR lpCmdLine, int nCmdShow)
{
initWindow(hInstance, nCmdShow);
initRaw();
WindowShell::CreateWin(WindowShell::WINDOW_INIT_DESC());
WindowShell::CreateConsoleWindow();
keyboard = Input::InputManager::Instance()->CreateKeyboardDevice(WindowShell::GetHWND());
mouse = Input::InputManager::Instance()->CreateMouseDevice(WindowShell::GetHWND());
// this struct holds Windows event messages mouse->AddOnMouseMoveVelocityCallback(MouseVelocity);
MSG msg; keyboard->BindTextTarget( &text );
keyboard->AddOnKeyPressCallback(KeyPress);
// wait for the next message in the queue, store the result in 'msg' int oldLen = 0;
while(GetMessage(&msg, NULL, 0, 0))
{
// translate keystroke messages into the right format
TranslateMessage(&msg);
// send the message to the WindowProc function
DispatchMessage(&msg);
//RawInput::Self()->Input_Read(); while (WindowShell::Frame())
} {
if(text.length() != oldLen)
{
wprintf(text.c_str());
oldLen =text.length();
}
}
RawInput::Destroy(); system("pause");
return msg.wParam; return cmdShow;
} }

130
Code/Misc/Input/Source/Keyboard.cpp
View File

@ -8,11 +8,34 @@ using namespace Input::Enum;
using namespace Input::Typedefs; using namespace Input::Typedefs;
using namespace Input::Struct; using namespace Input::Struct;
struct Keyboard::KeyboardCallbackList
void Keyboard::ClearList(Keyboard::KeyboardCallbackList* first)
{ {
KeyboardCallbackList* w = first; enum CallbackDataType
KeyboardCallbackList* removee = 0; {
CallbackDataType_OnPress,
CallbackDataType_OnDown,
CallbackDataType_OnRelease
} type;
union CallbackData
{
Typedefs::OnKeyPressCallback keyPressCallback;
Typedefs::OnKeyDownCallback keyDownCallback;
Typedefs::OnKeyReleaseCallback keyReleaseCallback;
CallbackData (){ memset(this, 0, sizeof(CallbackData)); }
CallbackData (Typedefs::OnKeyPressCallback o){ keyPressCallback = o; }
bool operator ==(CallbackData o){ return o.keyDownCallback == keyDownCallback; }
bool operator ==(Typedefs::OnKeyPressCallback o ){ return o == keyPressCallback; }
operator bool(){ return this->keyDownCallback != 0; }
} function;
KeyboardCallbackList *next;
KeyboardCallbackList(CallbackData func, CallbackDataType t) :function(func), next(0), type(t) { }
};
void ClearList(Keyboard::KeyboardCallbackList* first)
{
Keyboard::KeyboardCallbackList* w = first;
Keyboard::KeyboardCallbackList* removee = 0;
while (w) while (w)
{ {
@ -21,27 +44,27 @@ void Keyboard::ClearList(Keyboard::KeyboardCallbackList* first)
delete removee; delete removee;
} }
} }
void Keyboard::AddToList(Keyboard::KeyboardCallbackList* first, KeyboardCallbackList::CallbackData data, KeyboardCallbackList::CallbackDataType type) void AddToList(Keyboard::KeyboardCallbackList* first, Keyboard::KeyboardCallbackList::CallbackData data, Keyboard::KeyboardCallbackList::CallbackDataType type)
{ {
KeyboardCallbackList *w = first; Keyboard::KeyboardCallbackList *w = first;
KeyboardCallbackList *prev = first; Keyboard::KeyboardCallbackList *prev = first;
while (w) while (w)
{ prev = w; w = w->next; } { prev = w; w = w->next; }
KeyboardCallbackList::CallbackData f; Keyboard::KeyboardCallbackList::CallbackData f;
f = data; f = data;
prev->next = new KeyboardCallbackList(f, type); prev->next = new Keyboard::KeyboardCallbackList(f, type);
} }
void Keyboard::RemoveFromList(KeyboardCallbackList* first, KeyboardCallbackList::CallbackData data) void RemoveFromList(Keyboard::KeyboardCallbackList* first, Keyboard::KeyboardCallbackList::CallbackData data)
{ {
KeyboardCallbackList *w = first; Keyboard::KeyboardCallbackList *w = first;
KeyboardCallbackList *prev = first; Keyboard::KeyboardCallbackList *prev = first;
while (w) while (w)
{ {
if(data == w->function) if(data == w->function)
{ {
KeyboardCallbackList *removee = w; Keyboard::KeyboardCallbackList *removee = w;
w = w->next; w = w->next;
prev->next = w; prev->next = w;
delete removee; delete removee;
@ -51,9 +74,9 @@ void Keyboard::RemoveFromList(KeyboardCallbackList* first, KeyboardCallbackList:
w = w->next; w = w->next;
} }
} }
bool Keyboard::ExistsInList(KeyboardCallbackList* first, KeyboardCallbackList::CallbackData data) bool ExistsInList(Keyboard::KeyboardCallbackList* first, Keyboard::KeyboardCallbackList::CallbackData data)
{ {
KeyboardCallbackList *w = first; Keyboard::KeyboardCallbackList *w = first;
while (w) while (w)
{ {
if(data == w->function) if(data == w->function)
@ -64,7 +87,7 @@ bool Keyboard::ExistsInList(KeyboardCallbackList* first, KeyboardCallbackList::C
} }
return true; return true;
} }
bool Keyboard::ExistsInList(std::vector<KeyboardEvent*>& list, KeyboardEvent* data) bool ExistsInList(std::vector<Keyboard::KeyboardEvent*>& list, Keyboard::KeyboardEvent* data)
{ {
for (unsigned int i = 0; i < list.size(); i++) for (unsigned int i = 0; i < list.size(); i++)
{ {
@ -74,15 +97,76 @@ bool Keyboard::ExistsInList(std::vector<KeyboardEvent*>& list, KeyboardEvent* da
return false; return false;
} }
Keyboard::Keyboard() Keyboard::Keyboard()
: InputObject(SAIType_Keyboard) : InputObject(SAIType_Keyboard)
, callbackList(0) , callbackList(0)
, active(1)
, textTarget(0)
, writePos(0)
{} {}
Keyboard::~Keyboard() Keyboard::~Keyboard()
{ {
} }
void Keyboard::InternalOnKeyPress(Enum::SAKI key)
{
for (unsigned int i = 0; i < this->keyEventSubscrivers.size(); i++)
{
if(this->keyEventSubscrivers[i])
{
this->keyEventSubscrivers[i]->OnKeyPress(key, this);
}
}
KeyboardCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == KeyboardCallbackList::CallbackDataType_OnPress)
w->function.keyPressCallback(key, this);
w = w->next;
}
}
void Keyboard::InternalOnKeyDown(Enum::SAKI key)
{
for (unsigned int i = 0; i < this->keyEventSubscrivers.size(); i++)
{
if(this->keyEventSubscrivers[i])
{
this->keyEventSubscrivers[i]->OnKeyDown(key, this);
}
}
KeyboardCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == KeyboardCallbackList::CallbackDataType_OnDown)
w->function.keyDownCallback(key, this);
w = w->next;
}
}
void Keyboard::InternalOnKeyRelease(Enum::SAKI key)
{
for (unsigned int i = 0; i < this->keyEventSubscrivers.size(); i++)
{
if(this->keyEventSubscrivers[i])
{
this->keyEventSubscrivers[i]->OnKeyRelease(key, this);
}
}
KeyboardCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == KeyboardCallbackList::CallbackDataType_OnRelease)
w->function.keyReleaseCallback(key, this);
w = w->next;
}
}
void Keyboard::AddOnKeyPressCallback (OnKeyPressCallback func) void Keyboard::AddOnKeyPressCallback (OnKeyPressCallback func)
{ {
KeyboardCallbackList::CallbackData d; KeyboardCallbackList::CallbackData d;
@ -134,3 +218,17 @@ void Keyboard::operator-= (KeyboardEvent* object)
} }
} }
void Keyboard::BindTextTarget( ::std::wstring *field )
{
this->textTarget = field;
if( field )
{
this->writePos = field->size();
}
}
void Keyboard::ReleaseTextTarget( )
{
this->BindTextTarget( nullptr );
}

192
Code/Misc/Input/Source/Mouse.cpp
View File

@ -9,11 +9,41 @@ using namespace Input::Enum;
using namespace Input::Struct; using namespace Input::Struct;
using namespace Input::Typedefs; using namespace Input::Typedefs;
struct Mouse::MouseCallbackList
void Mouse::ClearList(Mouse::MouseCallbackList* first)
{ {
MouseCallbackList* w = first; enum CallbackDataType
MouseCallbackList* removee = 0; {
CallbackDataType_OnPress,
CallbackDataType_OnDown,
CallbackDataType_OnRelease,
CallbackDataType_OnMovePixelPos,
CallbackDataType_OnMoveVelocity,
CallbackDataType_OnScroll,
} type;
union CallbackData
{
Typedefs::OnMousePressCallback mousePressCallback;
Typedefs::OnMouseDownCallback mouseDownCallback;
Typedefs::OnMouseReleaseCallback mouseReleaseCallback;
Typedefs::OnMouseMovePixelPosCallback mouseMovePixelPosCallback;
Typedefs::OnMouseMoveVelocityCallback mouseMoveVelocityCallback;
Typedefs::OnMouseScrollCallback mouseScrollCallback;
void* dummy;
CallbackData (){ memset(this, 0, sizeof(CallbackData)); }
CallbackData (void* d){ dummy = d; }
bool operator ==(CallbackData o){ return o.dummy == dummy; }
bool operator ==(void* o ){ return o == dummy; }
operator bool(){ return this->dummy != 0; }
} function;
MouseCallbackList *next;
MouseCallbackList(CallbackData func, CallbackDataType t) :function(func), next(0), type(t) { }
};
void ClearList(Mouse::MouseCallbackList* first)
{
Mouse::MouseCallbackList* w = first;
Mouse::MouseCallbackList* removee = 0;
while (w) while (w)
{ {
@ -22,27 +52,27 @@ void Mouse::ClearList(Mouse::MouseCallbackList* first)
delete removee; delete removee;
} }
} }
void Mouse::AddToList(Mouse::MouseCallbackList* first, MouseCallbackList::CallbackData data, MouseCallbackList::CallbackDataType type) void AddToList(Mouse::MouseCallbackList* first, Mouse::MouseCallbackList::CallbackData data, Mouse::MouseCallbackList::CallbackDataType type)
{ {
MouseCallbackList *w = first; Mouse::MouseCallbackList *w = first;
MouseCallbackList *prev = first; Mouse::MouseCallbackList *prev = first;
while (w) while (w)
{ prev = w; w = w->next; } { prev = w; w = w->next; }
MouseCallbackList::CallbackData f; Mouse::MouseCallbackList::CallbackData f;
f = data; f = data;
prev->next = new MouseCallbackList(f, type); prev->next = new Mouse::MouseCallbackList(f, type);
} }
void Mouse::RemoveFromList(MouseCallbackList* first, MouseCallbackList::CallbackData data) void RemoveFromList(Mouse::MouseCallbackList* first, Mouse::MouseCallbackList::CallbackData data)
{ {
MouseCallbackList *w = first; Mouse::MouseCallbackList *w = first;
MouseCallbackList *prev = first; Mouse::MouseCallbackList *prev = first;
while (w) while (w)
{ {
if(data == w->function) if(data == w->function)
{ {
MouseCallbackList *removee = w; Mouse::MouseCallbackList *removee = w;
w = w->next; w = w->next;
prev->next = w; prev->next = w;
delete removee; delete removee;
@ -52,9 +82,9 @@ void Mouse::RemoveFromList(MouseCallbackList* first, MouseCallbackList::Callback
w = w->next; w = w->next;
} }
} }
bool Mouse::ExistsInList(MouseCallbackList* first, MouseCallbackList::CallbackData data) bool ExistsInList(Mouse::MouseCallbackList* first, Mouse::MouseCallbackList::CallbackData data)
{ {
MouseCallbackList *w = first; Mouse::MouseCallbackList *w = first;
while (w) while (w)
{ {
if(data == w->function) if(data == w->function)
@ -65,7 +95,7 @@ bool Mouse::ExistsInList(MouseCallbackList* first, MouseCallbackList::CallbackDa
} }
return true; return true;
} }
bool Mouse::ExistsInList(std::vector<MouseEvent*>& list, MouseEvent* data) bool ExistsInList(std::vector<Mouse::MouseEvent*>& list, Mouse::MouseEvent* data)
{ {
for (unsigned int i = 0; i < list.size(); i++) for (unsigned int i = 0; i < list.size(); i++)
{ {
@ -89,38 +119,107 @@ Mouse::~Mouse()
} }
int Mouse::GetWheelDelta() const void Mouse::InternalOnBtnPress(Enum::SAMI btn)
{ {
return this->wheelDelta; for (unsigned int i = 0; i < this->mouseSubscribers.size(); i++)
{
if(this->mouseSubscribers[i])
this->mouseSubscribers[i]->OnMousePress(btn, this);
}
MouseCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == MouseCallbackList::CallbackDataType_OnPress)
w->function.mousePressCallback(btn, this);
w = w->next;
}
}
void Mouse::InternalOnBtnDown(Enum::SAMI btn)
{
for (unsigned int i = 0; i < this->mouseSubscribers.size(); i++)
{
if(this->mouseSubscribers[i])
this->mouseSubscribers[i]->OnMouseDown(btn, this);
}
MouseCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == MouseCallbackList::CallbackDataType_OnDown)
w->function.mouseDownCallback(btn, this);
w = w->next;
}
}
void Mouse::InternalOnBtnRelease(Enum::SAMI btn)
{
for (unsigned int i = 0; i < this->mouseSubscribers.size(); i++)
{
if(this->mouseSubscribers[i])
this->mouseSubscribers[i]->OnMouseRelease(btn, this);
}
MouseCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == MouseCallbackList::CallbackDataType_OnRelease)
w->function.mouseReleaseCallback(btn, this);
w = w->next;
}
}
void Mouse::InternalOnMove(Struct::SAIPointInt2D pixelPos, Struct::SAIPointInt2D velocity)
{
for (unsigned int i = 0; i < this->mouseSubscribers.size(); i++)
{
if(this->mouseSubscribers[i])
{
this->mouseSubscribers[i]->OnMouseMovePixelPos(pixelPos, this);
this->mouseSubscribers[i]->OnMouseMoveVelocity(velocity, this);
}
}
MouseCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == MouseCallbackList::CallbackDataType_OnMovePixelPos)
w->function.mouseMovePixelPosCallback(pixelPos, this);
else if (w->type == MouseCallbackList::CallbackDataType_OnMoveVelocity)
w->function.mouseMoveVelocityCallback(velocity, this);
w = w->next;
}
}
void Mouse::InternalOnScroll(int delta)
{
for (unsigned int i = 0; i < this->mouseSubscribers.size(); i++)
{
if(this->mouseSubscribers[i])
this->mouseSubscribers[i]->OnMouseScroll(delta, this);
}
MouseCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == MouseCallbackList::CallbackDataType_OnScroll)
w->function.mouseScrollCallback(delta, this);
w = w->next;
}
} }
SAIPoint2D & Mouse::GetPixelPosition( Struct::SAIPoint2D &targetMem ) const
{
targetMem.x = this->pixelPos.x;
targetMem.y = this->pixelPos.y;
return targetMem;
}
SAIPoint2D & Mouse::GetDeltaPosition( Struct::SAIPoint2D &targetMem ) const
{
targetMem.x = this->deltaPos.x;
targetMem.y = this->deltaPos.y;
return targetMem;
}
void Mouse::AddOnMousePressCallback( Typedefs::OnMousePressCallback func) void Mouse::AddOnMousePressCallback( Typedefs::OnMousePressCallback func)
{ {
MouseCallbackList::CallbackData d; MouseCallbackList::CallbackData d;
d.mousePressCallback = func; d.mousePressCallback = func;
if(!this->callbackList) this->callbackList = new MouseCallbackList(d, MouseCallbackList::CallbackDataType_OnRelease); if(!this->callbackList) this->callbackList = new MouseCallbackList(d, MouseCallbackList::CallbackDataType_OnPress);
else AddToList(this->callbackList, d, MouseCallbackList::CallbackDataType_OnRelease); else AddToList(this->callbackList, d, MouseCallbackList::CallbackDataType_OnPress);
} }
void Mouse::AddOnMouseDownCallback( Typedefs::OnMouseDownCallback func ) void Mouse::AddOnMouseDownCallback( Typedefs::OnMouseDownCallback func )
{ {
MouseCallbackList::CallbackData d; MouseCallbackList::CallbackData d;
d.mouseDownCallback = func; d.mouseDownCallback = func;
if(!this->callbackList) this->callbackList = new MouseCallbackList(d, MouseCallbackList::CallbackDataType_OnRelease); if(!this->callbackList) this->callbackList = new MouseCallbackList(d, MouseCallbackList::CallbackDataType_OnDown);
else AddToList(this->callbackList, d, MouseCallbackList::CallbackDataType_OnRelease); else AddToList(this->callbackList, d, MouseCallbackList::CallbackDataType_OnDown);
} }
void Mouse::AddOnMouseReleaseCallback( Typedefs::OnMouseReleaseCallback func ) void Mouse::AddOnMouseReleaseCallback( Typedefs::OnMouseReleaseCallback func )
{ {
@ -129,19 +228,26 @@ void Mouse::AddOnMouseReleaseCallback( Typedefs::OnMouseReleaseCallback func )
if(!this->callbackList) this->callbackList = new MouseCallbackList(d, MouseCallbackList::CallbackDataType_OnRelease); if(!this->callbackList) this->callbackList = new MouseCallbackList(d, MouseCallbackList::CallbackDataType_OnRelease);
else AddToList(this->callbackList, d, MouseCallbackList::CallbackDataType_OnRelease); else AddToList(this->callbackList, d, MouseCallbackList::CallbackDataType_OnRelease);
} }
void Mouse::AddOnMouseMoveCallback( Typedefs::OnMouseMoveCallback func ) void Mouse::AddOnMouseMovePixelPosCallback( Typedefs::OnMouseMovePixelPosCallback func )
{ {
MouseCallbackList::CallbackData d; MouseCallbackList::CallbackData d;
d.mouseMoveCallback = func; d.mouseMovePixelPosCallback = func;
if(!this->callbackList) this->callbackList = new MouseCallbackList(d, MouseCallbackList::CallbackDataType_OnRelease); if(!this->callbackList) this->callbackList = new MouseCallbackList(d, MouseCallbackList::CallbackDataType_OnMovePixelPos);
else AddToList(this->callbackList, d, MouseCallbackList::CallbackDataType_OnRelease); else AddToList(this->callbackList, d, MouseCallbackList::CallbackDataType_OnMovePixelPos);
}
void Mouse::AddOnMouseMoveVelocityCallback( Typedefs::OnMouseMoveVelocityCallback func )
{
MouseCallbackList::CallbackData d;
d.mouseMoveVelocityCallback = func;
if(!this->callbackList) this->callbackList = new MouseCallbackList(d, MouseCallbackList::CallbackDataType_OnMoveVelocity);
else AddToList(this->callbackList, d, MouseCallbackList::CallbackDataType_OnMoveVelocity);
} }
void Mouse::AddOnMouseScrollCallback( Typedefs::OnMouseScrollCallback func ) void Mouse::AddOnMouseScrollCallback( Typedefs::OnMouseScrollCallback func )
{ {
MouseCallbackList::CallbackData d; MouseCallbackList::CallbackData d;
d.mouseScrollCallback = func; d.mouseScrollCallback = func;
if(!this->callbackList) this->callbackList = new MouseCallbackList(d, MouseCallbackList::CallbackDataType_OnRelease); if(!this->callbackList) this->callbackList = new MouseCallbackList(d, MouseCallbackList::CallbackDataType_OnScroll);
else AddToList(this->callbackList, d, MouseCallbackList::CallbackDataType_OnRelease); else AddToList(this->callbackList, d, MouseCallbackList::CallbackDataType_OnScroll);
} }
void Mouse::RemoveOnMousePressCallback( Typedefs::OnMousePressCallback func) void Mouse::RemoveOnMousePressCallback( Typedefs::OnMousePressCallback func)
@ -156,7 +262,11 @@ void Mouse::RemoveOnMouseReleaseCallback( Typedefs::OnMouseReleaseCallback func
{ {
RemoveFromList(this->callbackList, func); RemoveFromList(this->callbackList, func);
} }
void Mouse::RemoveOnMouseMoveCallback( Typedefs::OnMouseMoveCallback func ) void Mouse::RemoveOnMouseMovePixelPosCallback( Typedefs::OnMouseMovePixelPosCallback func )
{
RemoveFromList(this->callbackList, func);
}
void Mouse::RemoveOnMouseMoveVelocityCallback( Typedefs::OnMouseMoveVelocityCallback func )
{ {
RemoveFromList(this->callbackList, func); RemoveFromList(this->callbackList, func);
} }

792
Code/Misc/Input/Source/Win32/Win32Input.cpp
View File

@ -16,608 +16,17 @@ using namespace Input::Enum;
using namespace Input::Struct; using namespace Input::Struct;
using namespace Input::Typedefs; using namespace Input::Typedefs;
/*
bool Win32Input::Input_AddDevice(IN const HWND& targetApplication)
{
assert(targetApplication != 0);
static const UINT c = 2;
RAWINPUTDEVICE devices[c] =
{
{ 0x01, RawInput_Usage_keyboard, RIDEV_NOLEGACY, targetApplication },
{ 0x01, RawInput_Usage_mouse, RIDEV_NOLEGACY | RIDEV_CAPTUREMOUSE, targetApplication }
};
if(! _addDevice( devices , c ) ) return false;
ShowCursor(FALSE);
//RECT r;
//GetWindow
//GetWindowRect(
return true;
}
bool Win32Input::Input_AddDevice(IN const RAWINPUTDEVICE* d, const int& count)
{
for (int i = 0; i < count; i++)
if(!d[i].hwndTarget)
{
this->_errorMsg = L"Must specify target application";
return false;
}
if(! _addDevice( d, count ) ) return false;
return true;
}
//Win32InputDEVICE d = { 0x01, type, RIDEV_REMOVE, NULL };
//this->_errorMsg = L"Failed to unregister device";
void Win32Input::Input_Disable()
{
this->_enabled = false;
}
void Win32Input::Input_Enable()
{
this->_enabled = true;
}
void Win32Input::Input_Read()
{
//for (int i = 0; i < this->_idleKeyData.size(); i++)
// this->_proccessRawKeyboardData(this->_idleKeyData.pop());
//for (int i = 0; i < this->_idleMouseData.size(); i++)
// this->_proccessRawMouseData(this->_idleMouseData.pop());
//
//this->_idleKeyData.clear();
//this->_idleMouseData.clear();
}
bool Win32Input::_addDevice (const RAWINPUTDEVICE* k, const int& count)
{
if(RegisterRawInputDevices(k, count, sizeof(RAWINPUTDEVICE)) == FALSE)
{
DWORD h = GetLastError();
INPUT_EXCEPT( L"Failed to register device" );
return false;
}
for (int q = 0; q < count; q++)
{
RawInputDeviceInstance i;
memcpy(&i.description, &k[q], sizeof(RAWINPUTDEVICE));
this->_deviceList.push(i);
}
return true;
}
*/
Win32Input *Win32Input::instance = 0; Win32Input *Win32Input::instance = 0;
void MapKey(RAWKEYBOARD& rawKB, bool& out_isUp, SAKI& out_key, unsigned int& sCode, bool& isE0) TRACKMOUSEEVENT tme;
{
//------------------------------------------------------------------------------------// LRESULT Win32Input::RawInputParser(HWND h, LPARAM l)
// http://molecularmusings.wordpress.com/2011/09/05/properly-handling-keyboard-input/ //
//------------------------------------------------------------------------------------//
UINT virtualKey = rawKB.VKey;
UINT scanCode = rawKB.MakeCode;
UINT flags = rawKB.Flags;
if (virtualKey == 255)
{
// discard "fake keys" which are part of an escaped sequence
return;
}
else if (virtualKey == VK_SHIFT)
{
// correct left-hand / right-hand SHIFT
virtualKey = MapVirtualKey(scanCode, MAPVK_VSC_TO_VK_EX);
}
else if (virtualKey == VK_NUMLOCK)
{
// correct PAUSE/BREAK and NUM LOCK silliness, and set the extended bit
scanCode = (MapVirtualKey(virtualKey, MAPVK_VK_TO_VSC) | 0x100);
}
// e0 and e1 are escape sequences used for certain special keys, such as PRINT and PAUSE/BREAK.
// see http://www.win.tue.nl/~aeb/linux/kbd/scancodes-1.html
isE0 = ((flags & RI_KEY_E0) != 0);
const bool isE1 = ((flags & RI_KEY_E1) != 0);
if (isE1)
{
// for escaped sequences, turn the virtual key into the correct scan code using MapVirtualKey.
// however, MapVirtualKey is unable to map VK_PAUSE (this is a known bug), hence we map that by hand.
if (virtualKey == VK_PAUSE) scanCode = 0x45;
else scanCode = MapVirtualKey(virtualKey, MAPVK_VK_TO_VSC);
}
switch (virtualKey)
{
// right-hand CONTROL and ALT have their e0 bit set
case VK_CONTROL:
if (isE0) out_key = SAKI_RightCtrl;
else out_key = SAKI_LeftCtrl;
break;
case VK_MENU:
if (isE0) out_key = SAKI_RightAlt;
else out_key = SAKI_LeftAlt;
break;
// NUMPAD ENTER has its e0 bit set
case VK_RETURN:
if (isE0) out_key = SAKI_NumpadEnter;
break;
// the standard INSERT, DELETE, HOME, END, PRIOR and NEXT keys will always have their e0 bit set, but the
// corresponding keys on the NUMPAD will not.
case VK_INSERT:
if (!isE0) out_key = SAKI_Numpad0;
break;
case VK_DELETE:
if (!isE0) out_key = SAKI_NumpadDecimal;
break;
case VK_HOME:
if (!isE0) out_key = SAKI_Numpad7;
break;
case VK_END:
if (!isE0) out_key = SAKI_Numpad1;
break;
case VK_PRIOR:
if (!isE0) out_key = SAKI_Numpad9;
break;
case VK_NEXT:
if (!isE0) out_key = SAKI_Numpad3;
break;
// the standard arrow keys will always have their e0 bit set, but the
// corresponding keys on the NUMPAD will not.
case VK_LEFT:
if (!isE0) out_key = SAKI_Numpad4;
break;
case VK_RIGHT:
if (!isE0) out_key = SAKI_Numpad6;
break;
case VK_UP:
if (!isE0) out_key = SAKI_Numpad8;
break;
case VK_DOWN:
if (!isE0) out_key = SAKI_Numpad2;
break;
// NUMPAD 5 doesn't have its e0 bit set
case VK_CLEAR:
if (!isE0) out_key = SAKI_Numpad5;
break;
case 0x03 : //VK_CANCEL
break;
case 0x08 : //VK_BACK
out_key = SAKI_Backspace;
break;
case 0x09 : //VK_TAB
out_key = SAKI_Tab;
break;
case 0x10 : //VK_SHIFT
out_key = SAKI_LeftShift;
out_key = SAKI_RightShift;
break;
case 0x13 : //VK_PAUSE
out_key = SAKI_Pause;
break;
case 0x14 : //VK_CAPITAL
out_key = SAKI_CapsLock;
break;
case 0x15 : //VK_KANA
break;
case 0x1B : //VK_ESCAPE
out_key = SAKI_Escape;
break;
case 0x1C : //VK_CONVERT
break;
case 0x1D : //VK_NONCONVERT
break;
case 0x1E : //VK_ACCEPT
break;
case 0x1F : //VK_MODECHANGE
break;
case 0x20 : //VK_SPACE
out_key = SAKI_Space;
break;
case 0x29 : //VK_SELECT
break;
case 0x2A : //VK_PRINT
out_key = SAKI_PrintScreen;
break;
case 0x2B : //VK_EXECUTE
break;
case 0x2C : //VK_SNAPSHOT
break;
case 0x2F : //VK_HELP
break;
case 0x30 : //0 key
out_key = SAKI_0;
break;
case 0x31 : //1 key
out_key = SAKI_1;
break;
case 0x32 : //2 key
out_key = SAKI_2;
break;
case 0x33 : //3 key
out_key = SAKI_3;
break;
case 0x34 : //4 key
out_key = SAKI_4;
break;
case 0x35 : //5 key
out_key = SAKI_5;
break;
case 0x36 : //6 key
out_key = SAKI_6;
break;
case 0x37 : //7 key
out_key = SAKI_7;
break;
case 0x38 : //8 key
out_key = SAKI_8;
break;
case 0x39 : //9 key
out_key = SAKI_9;
break;
case 0x41 : //A key
out_key = SAKI_A;
break;
case 0x42 : //B key
out_key = SAKI_B;
break;
case 0x43 : //C key
out_key = SAKI_C;
break;
case 0x44 : //D key
out_key = SAKI_D;
break;
case 0x45 : //E key
out_key = SAKI_E;
break;
case 0x46 : //F key
out_key = SAKI_F;
break;
case 0x47 : //G key
out_key = SAKI_G;
break;
case 0x48 : //H key
out_key = SAKI_H;
break;
case 0x49 : //I key
out_key = SAKI_I;
break;
case 0x4A : //J key
out_key = SAKI_J;
break;
case 0x4B : //K key
out_key = SAKI_K;
break;
case 0x4C : //L key
out_key = SAKI_L;
break;
case 0x4D : //M key
out_key = SAKI_M;
break;
case 0x4E : //N key
out_key = SAKI_N;
break;
case 0x4F : //O key
out_key = SAKI_O;
break;
case 0x50 : //P key
out_key = SAKI_P;
break;
case 0x51 : //Q key
out_key = SAKI_Q;
break;
case 0x52 : //R key
out_key = SAKI_R;
break;
case 0x53 : //S key
out_key = SAKI_S;
break;
case 0x54 : //T key
out_key = SAKI_T;
break;
case 0x55 : //U key
out_key = SAKI_U;
break;
case 0x56 : //V key
out_key = SAKI_V;
break;
case 0x57 : //W key
out_key = SAKI_W;
break;
case 0x58 : //X key
out_key = SAKI_X;
break;
case 0x59 : //Y key
out_key = SAKI_Y;
break;
case 0x5A : //Z key
out_key = SAKI_Z;
break;
case 0x5B : //VK_LWIN
break;
case 0x5C : //VK_RWIN
break;
case 0x5D : //VK_APPS
break;
case 0x5F : //VK_SLEEP
break;
case 0x60 : //VK_NUMPAD0
out_key = SAKI_Numpad0;
break;
case 0x61 : //VK_NUMPAD1
out_key = SAKI_Numpad1;
break;
case 0x62 : //VK_NUMPAD2
out_key = SAKI_Numpad2;
break;
case 0x63 : //VK_NUMPAD3
out_key = SAKI_Numpad3;
break;
case 0x64 : //VK_NUMPAD4
out_key = SAKI_Numpad4;
break;
case 0x65 : //VK_NUMPAD5
out_key = SAKI_Numpad5;
break;
case 0x66 : //VK_NUMPAD6
out_key = SAKI_Numpad6;
break;
case 0x67 : //VK_NUMPAD7
out_key = SAKI_Numpad7;
break;
case 0x68 : //VK_NUMPAD8
out_key = SAKI_Numpad8;
break;
case 0x69 : //VK_NUMPAD9
out_key = SAKI_Numpad9;
break;
case 0x6A : //VK_MULTIPLY
out_key = SAKI_NumpadMultiply;
break;
case 0x6B : //VK_ADD
out_key = SAKI_NumpadPlus;
break;
case 0x6C : //VK_SEPARATOR
break;
case 0x6D : //VK_SUBTRACT
out_key = SAKI_NumpadSubtract;
break;
case 0x6E : //VK_DECIMAL
out_key = SAKI_NumpadDecimal;
break;
case 0x6F : //VK_DIVIDE
out_key = SAKI_NumpadDivide;
break;
case 0x70 : //VK_F1
out_key = SAKI_F1;
break;
case 0x71 : //VK_F2
out_key = SAKI_F2;
break;
case 0x72 : //VK_F3
out_key = SAKI_F3;
break;
case 0x73 : //VK_F4
out_key = SAKI_F4;
break;
case 0x74 : //VK_F5
out_key = SAKI_F5;
break;
case 0x75 : //VK_F6
out_key = SAKI_F6;
break;
case 0x76 : //VK_F7
out_key = SAKI_F7;
break;
case 0x77 : //VK_F8
out_key = SAKI_F8;
break;
case 0x78 : //VK_F9
out_key = SAKI_F9;
break;
case 0x79 : //VK_F10
out_key = SAKI_F10;
break;
case 0x7A : //VK_F11
out_key = SAKI_F11;
break;
case 0x7B : //VK_F12
out_key = SAKI_F12;
break;
case 0x7C : //VK_F13
out_key = SAKI_F13;
break;
case 0x7D : //VK_F14
out_key = SAKI_F14;
break;
case 0x7E : //VK_F15
out_key = SAKI_F15;
break;
case 0x7F : //VK_F16
out_key = SAKI_F16;
break;
case 0x80 : //VK_F17
out_key = SAKI_F17;
break;
case 0x81 : //VK_F18
out_key = SAKI_F18;
break;
case 0x82 : //VK_F19
out_key = SAKI_F19;
break;
case 0x83 : //VK_F20
out_key = SAKI_F20;
break;
case 0x84 : //VK_F21
out_key = SAKI_F21;
break;
case 0x85 : //VK_F22
out_key = SAKI_F22;
break;
case 0x86 : //VK_F23
out_key = SAKI_F23;
break;
case 0x87 : //VK_F24
out_key = SAKI_F24;
break;
case 0x90 : //VK_NUMLOCK
out_key = SAKI_Numlock;
break;
case 0x91 : //VK_SCROLL
out_key = SAKI_ScrlLock;
break;
case 0xA0 : //VK_LSHIFT
out_key = SAKI_LeftShift;
break;
case 0xA1 : //VK_RSHIFT
out_key = SAKI_RightShift;
break;
case 0xA2 : //VK_LCONTROL
out_key = SAKI_LeftCtrl;
break;
case 0xA3 : //VK_RCONTROL
out_key = SAKI_RightCtrl;
break;
case 0xA4 : //VK_LMENU
out_key = SAKI_LeftAlt;
break;
case 0xA5 : //VK_RMENU
out_key = SAKI_RightCtrl;
break;
case 0xAD : //VK_VOLUME_MUTE
out_key = SAKI_VolumeMute;
break;
case 0xAE : //VK_VOLUME_DOWN
out_key = SAKI_VolumeDown;
break;
case 0xAF : //VK_VOLUME_UP
out_key = SAKI_VolumeUp;
break;
case 0xB0 : //VK_MEDIA_NEXT_TRACK
out_key = SAKI_MediaNext;
break;
case 0xB1 : //VK_MEDIA_PREV_TRACK
out_key = SAKI_MediaPrev;
break;
case 0xB2 : //VK_MEDIA_STOP
out_key = SAKI_MediaStop;
break;
case 0xB3 : //VK_MEDIA_PLAY_PAUSE
out_key = SAKI_MediaPlayPause;
break;
case 0xBB://VK_OEM_PLUS
break;
case 0xBC://VK_OEM_COMMA
break;
case 0xBD://VK_OEM_MINUS
break;
case 0xBE://VK_OEM_PERIOD
break;
case 0xBA://VK_OEM_1
break;
case 0xBF://VK_OEM_2
break;
case 0xC0://VK_OEM_3
break;
case 0xDB://VK_OEM_4
break;
case 0xDC://VK_OEM_5
break;
case 0xDD://VK_OEM_6
break;
case 0xDE://VK_OEM_7
break;
case 0xDF://VK_OEM_8
break;
}
out_isUp = ((flags & RI_KEY_BREAK) != 0);
rawKB.MakeCode = scanCode;
sCode = scanCode;
}
void MapButton(RAWMOUSE& rawMouse, bool &isUp, Enum::SAMI& btn, int& delta, Struct::SAIPoint2D& vel, unsigned int& mcode)
{
if(rawMouse.lLastX != 0 || rawMouse.lLastY != 0)
{
vel.x = rawMouse.lLastX;
vel.y = rawMouse.lLastY;
}
if( rawMouse.usButtonFlags > 0 )
{
//--------------------------------------------------------------------------------------
//Mouse button pressed
if(rawMouse.usButtonFlags == RI_MOUSE_LEFT_BUTTON_DOWN)
{
btn = SAMI_MouseLeftBtn;
isUp = false;
}
else if(rawMouse.usButtonFlags == RI_MOUSE_MIDDLE_BUTTON_DOWN)
{
btn = SAMI_MouseMiddleBtn;
isUp = false;
}
else if(rawMouse.usButtonFlags == RI_MOUSE_RIGHT_BUTTON_DOWN)
{
btn = SAMI_MouseRightBtn;
isUp = false;
}
//--------------------------------------------------------------------------------------
//Mouse button Released
else if(rawMouse.usButtonFlags == RI_MOUSE_LEFT_BUTTON_UP)
{
btn = SAMI_MouseLeftBtn;
isUp = true;
}
else if(rawMouse.usButtonFlags == RI_MOUSE_MIDDLE_BUTTON_UP)
{
btn = SAMI_MouseMiddleBtn;
isUp = true;
}
else if(rawMouse.usButtonFlags == RI_MOUSE_RIGHT_BUTTON_UP)
{
btn = SAMI_MouseRightBtn;
isUp = true;
}
//--------------------------------------------------------------------------------------
else if (rawMouse.usButtonFlags == RI_MOUSE_WHEEL)
{
delta = ((int)rawMouse.usButtonData);
if(delta > 120) delta = -1;
else delta = 1;
}
}
}
void Win32Input::RawInputParser(HWND h, LPARAM l)
{ {
LRESULT val = 0;
//Get The size of the raw data buffer //Get The size of the raw data buffer
UINT bufferSize; UINT bufferSize;
GetRawInputData((HRAWINPUT)l, RID_INPUT, NULL, &bufferSize, sizeof(RAWINPUTHEADER)); GetRawInputData((HRAWINPUT)l, RID_INPUT, NULL, &bufferSize, sizeof(RAWINPUTHEADER));
if (bufferSize < 1) if (bufferSize < 1)
{ { return 0; }
return;
}
//Create and read the raw input data //Create and read the raw input data
LPBYTE rawBufferIn = new BYTE[bufferSize]; LPBYTE rawBufferIn = new BYTE[bufferSize];
@ -625,63 +34,78 @@ void Win32Input::RawInputParser(HWND h, LPARAM l)
if ( readBytes != bufferSize ) if ( readBytes != bufferSize )
{ {
delete [] rawBufferIn; delete [] rawBufferIn;
return; return 0;
} }
RAWINPUT* raw = (RAWINPUT*)rawBufferIn; RAWINPUT* raw = (RAWINPUT*)rawBufferIn;
if(!Win32Input::instance->enabled) if(!Win32Input::instance->enabled)
{ {
if(FAILED ( DefRawInputProc(&raw, 1, sizeof(RAWINPUTHEADER)) ) ) val = DefRawInputProc(&raw, 1, sizeof(RAWINPUTHEADER));
{
}
} }
else else
{ {
if(raw->header.dwType == RIM_TYPEMOUSE) if(raw->header.dwType == RIM_TYPEMOUSE)
{ {
bool once = false;
for (unsigned int i = 0; i < Win32Input::instance->mouse.size(); i++) for (unsigned int i = 0; i < Win32Input::instance->mouse.size(); i++)
{ {
bool isUp = true; if(Win32Input::instance->mouse[i]->IsActive())
Enum::SAMI btn = Enum::SAMI_Unknown; {
int delta = 0; Win32Input::instance->mouse[i]->ProccessMouseData(raw->data.mouse);
Struct::SAIPoint2D vel; }
unsigned int mcode = 0; else
MapButton(raw->data.mouse, isUp, btn, delta, vel, mcode); {
if(!once) val = DefRawInputProc(&raw, 1, sizeof(RAWINPUTHEADER));
Win32Input::instance->mouse[i]->ProccessMouseData(isUp, btn, delta, vel, mcode); }
} }
} }
else if(raw->header.dwType == RIM_TYPEKEYBOARD) else if(raw->header.dwType == RIM_TYPEKEYBOARD)
{ {
bool once = false;
for (unsigned int i = 0; i < Win32Input::instance->keyboard.size(); i++) for (unsigned int i = 0; i < Win32Input::instance->keyboard.size(); i++)
{ {
bool isUp; if(Win32Input::instance->keyboard[i]->IsActive())
SAKI key = SAKI_Unknown; {
unsigned int makeCode; Win32Input::instance->keyboard[i]->ProccessKeyboardData(raw->data.keyboard);
bool isE0; }
MapKey(raw->data.keyboard, isUp, key, makeCode, isE0); else
Win32Input::instance->keyboard[i]->ProccessKeyboardData(isUp, key, makeCode, isE0); {
if(!once) val = DefRawInputProc(&raw, 1, sizeof(RAWINPUTHEADER));
}
} }
} }
} }
delete raw; delete raw;
return val;
} }
LRESULT CALLBACK Win32Input::RawWindowCallback(HWND h, UINT m, WPARAM w, LPARAM l) LRESULT CALLBACK Win32Input::RawWindowCallback(HWND h, UINT m, WPARAM w, LPARAM l)
{ {
LRESULT val = 0;
switch (m) switch (m)
{ {
case WM_INPUT: case WM_INPUT:
Win32Input::instance->RawInputParser(h, l); return Win32Input::instance->RawInputParser(h, l);
break; break;
case WM_ACTIVATE: case WM_ACTIVATE:
Win32Input::instance->WindowActivate((w == TRUE)); Win32Input::instance->WindowActivate((w == TRUE));
break; break;
case WM_CREATE: case WM_CREATE:
Win32Input::instance->WindowActivate(true); Win32Input::instance->WindowActivate(true);
//tme.cbSize=sizeof(tme);
//tme.dwFlags=TME_HOVER;
//tme.hwndTrack=h;//hanlde of window you want the mouse over message for.
//tme.dwHoverTime=HOVER_DEFAULT;
//if(TrackMouseEvent(&tme) == FALSE)
//{ }
break;
case WM_MOUSEHOVER:
//val = 0;
break;
case WM_MOUSELEAVE:
//val = 0;
break; break;
} }
@ -689,19 +113,20 @@ LRESULT CALLBACK Win32Input::RawWindowCallback(HWND h, UINT m, WPARAM w, LPARAM
} }
void Win32Input::WindowActivate(bool activate) void Win32Input::WindowActivate(bool activate)
{ {
if(activate) //if(activate)
{ //{
ShowCursor(0); // ShowCursor(0);
} //}
else //else
{ //{
ShowCursor(0); // ShowCursor(1);
} //}
} }
Win32Input::Win32Input() Win32Input::Win32Input()
{ {
this->targetHwin = 0;
if(!this->instance) if(!this->instance)
{ {
this->instance = this; this->instance = this;
@ -730,62 +155,72 @@ InputObject* Win32Input::CreateDevice(const SAIType inputType, Typedefs::WindowH
{ {
if(!this->instance->targetHwin) if(!this->instance->targetHwin)
{ {
this->targetHwin = CreateWindowExW( 0, L"RawInputCallbackFunc" , NULL, NULL, NULL, NULL, NULL, RECT rc;
NULL, (HWND)targetApplication, NULL, (HINSTANCE)GetModuleHandle(0), NULL ); GetClientRect((HWND)targetApplication, &rc);
AdjustWindowRect(&rc, GetWindowStyle((HWND)targetApplication), FALSE);
rc.right = rc.right - rc.left;
rc.bottom = rc.bottom - rc.top;
this->targetHwin = CreateWindowExW( 0, L"RawInputCallbackFunc" , NULL, NULL, rc.left, rc.top, rc.right, rc.bottom,
(HWND)targetApplication, NULL, (HINSTANCE)GetModuleHandle(0), NULL );
} }
InputObject* val = 0; InputObject* val = 0;
RAWINPUTDEVICE rid;
rid.usUsagePage = 0x01;
rid.hwndTarget = this->instance->targetHwin;
switch (inputType) switch (inputType)
{ {
case SAIType_Keyboard: case SAIType_Keyboard:
{ {
rid.usUsage = RawInput_Usage_keyboard; Win32Keyboard* obj = new Win32Keyboard(this->targetHwin);
rid.dwFlags = RIDEV_NOLEGACY; if(!obj->Create())
if(RegisterRawInputDevices(&rid, 1, sizeof(RAWINPUTDEVICE)) == TRUE)
{
Win32Keyboard* obj = new Win32Keyboard();
this->keyboard.push_back(obj);
val = obj;
}
else
{ {
delete obj;
return 0; return 0;
} }
this->keyboard.push_back(obj);
val = obj;
} }
break; break;
case SAIType_Mouse: case SAIType_Mouse:
{ {
rid.usUsage = RawInput_Usage_mouse; Win32Mouse* obj = new Win32Mouse(this->targetHwin);
rid.dwFlags = RIDEV_NOLEGACY | RIDEV_CAPTUREMOUSE; if(!obj->Create())
if(RegisterRawInputDevices(&rid, 1, sizeof(RAWINPUTDEVICE)) == TRUE)
{
int i = 0;
val = (InputObject*)1;
Win32Mouse* obj = new Win32Mouse();
this->mouse.push_back(obj);
val = obj;
}
else
{ {
delete obj;
return 0; return 0;
} }
this->mouse.push_back(obj);
val = obj;
} }
break; break;
case SAIType_ApplicationKeyboard:
val = new Win32ApplicationKeyboard();
break;
} }
return val; return val;
} }
void Win32Input::ToggleInputSystem(bool enable) void Win32Input::ToggleInputSystem(bool enable)
{ {
this->enabled = enable; this->enabled = enable;
if(this->enabled)
{
for (unsigned int i = 0; i < this->mouse.size(); i++)
{ this->mouse[i]->Deactivate(); }
for (unsigned int i = 0; i < this->keyboard.size(); i++)
{ this->keyboard[i]->Deactivate(); }
}
else
{
for (unsigned int i = 0; i < this->mouse.size(); i++)
{ this->mouse[i]->Activate(); }
for (unsigned int i = 0; i < this->keyboard.size(); i++)
{ this->keyboard[i]->Activate(); }
}
} }
void Win32Input::Destroy () void Win32Input::Destroy ()
{ {
@ -806,52 +241,3 @@ void Win32Input::Destroy ()
this->keyboard.resize(0); this->keyboard.resize(0);
} }
/* This method is used with hooks!
LRESULT CALLBACK RawInput::WM_INPUT_TRANSLATE (int nCode, WPARAM wParam, LPARAM lparam)
{
if (nCode < 0) return CallNextHookEx(RawInput::Self()->_msgHook, nCode, wParam, lparam);
MSG *m = (MSG*)lparam;
if(m->message == WM_INPUT)
{
RAWINPUT* raw = RawInput::Self()->_TranslateRawInput(m->lParam);
if(!raw) goto nextHook;
if(!RawInput::Self()->Self()->_enabled)
{
if(FAILED ( DefRawInputProc(&raw, 1, sizeof(RAWINPUTHEADER)) ) )
RawInput::Self()->_errorMsg = L"Failed to proccess default raw input";
goto _final;
}
// if(raw->header.dwType == RIM_TYPEMOUSE) RawInput::Self()->_idleMouseData.insert(raw->data.mouse);
//else if(raw->header.dwType == RIM_TYPEKEYBOARD) RawInput::Self()->_proccessRawKeyboardData(raw->data.keyboard);
_final:
//if(FAILED ( DefRawInputProc(&raw, 1, sizeof(RAWINPUTHEADER)) ) )
// RawInput::Self()->_errorMsg = L"Failed to proccess default raw input";
delete raw;
}
else if (m->message == WM_QUIT)
{
if(UnhookWindowsHookEx(RawInput::Self()->_msgHook) == FALSE)
{
RawInput::Self()->_errorMsg = L"Failed to unhook message hook!";
}
}
nextHook:
return CallNextHookEx(RawInput::Self()->_msgHook, nCode, wParam, lparam);
}
*/

751
Code/Misc/Input/Source/Win32/Win32Keyboard.cpp
View File

@ -1,14 +1,22 @@
///////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////
// Created by [Dennis Andersen] [2013] // Created by [Dennis Andersen] [2013]
///////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////
#include "..\..\Include\Win32\Win32Keyboard.h" #include "..\..\Include\Win32\Win32Input.h"
#include <algorithm>
#pragma warning ( disable : 4172 ) #pragma warning ( disable : 4172 )
using namespace Input; using namespace Input;
using namespace Input::Enum; using namespace Input::Enum;
using namespace std;
Win32Keyboard::Win32Keyboard()
Win32Keyboard::Win32Keyboard(HWND target)
{ {
this->isActive = false;
this->device.usUsagePage = 0x01;
this->device.hwndTarget = target;
this->device.usUsage = RawInput_Usage_keyboard;
this->device.dwFlags = RIDEV_NOLEGACY;
memset(&this->keys[0], 0, sizeof(Win32Keyboard::Keys) * MAXKEYS); memset(&this->keys[0], 0, sizeof(Win32Keyboard::Keys) * MAXKEYS);
} }
Win32Keyboard::~Win32Keyboard() Win32Keyboard::~Win32Keyboard()
@ -24,115 +32,680 @@ bool Win32Keyboard::IsKeyDown (SAKI key)
{ {
return this->keys[key].isDown; return this->keys[key].isDown;
} }
const wchar_t* Win32Keyboard::GetAsText(Enum::SAKI key) wchar_t* Win32Keyboard::GetAsText(Enum::SAKI key)
{ {
if(Enum::SAKI_Unknown == key) return 0; if(Enum::SAKI_Unknown == key) return 0;
// getting a human-readable string // getting a human-readable string
UINT temp = (this->keys[key].makecode << 16) | (this->keys[key].isE0 << 24); UINT temp = (this->keys[key].makecode << 16) | (this->keys[key].isE0 << 24);
wchar_t buff[56] = {0}; wchar_t buff[16] = {0};
GetKeyNameTextW((LONG)temp, buff, 64); GetKeyNameTextW((LONG)temp, buff, 16);
return buff; return buff;
} }
void Win32Keyboard::ProccessKeyboardData (bool isUp, SAKI key, unsigned int makeCode, bool isE0)
void Win32Keyboard::Activate ()
{ {
if(key == SAKI_Unknown) return; if(this->isActive) return;
//The key is released.
if(isUp)/*(k.Flags == RI_KEY_BREAK || k.Flags == (RI_KEY_BREAK | RI_KEY_E0) || k.Flags == (RI_KEY_BREAK | RI_KEY_E1))*/ this->Create();
}
void Win32Keyboard::Deactivate ()
{
if(!this->isActive) return;
RAWINPUTDEVICE d;
d.dwFlags = RIDEV_REMOVE;
d.hwndTarget = 0;
d.usUsage = RawInput_Usage_keyboard;
d.usUsagePage = 0x01;
if(RegisterRawInputDevices(&d, 1, sizeof(RAWINPUTDEVICE)))
{ {
if(key == SAKI_LeftAlt) this->isActive = true;
{ } }
else if(key == SAKI_LeftCtrl) }
{}
else if(key == SAKI_LeftShift) void Win32Keyboard::ProccessKeyboardData (RAWKEYBOARD keyboard)
{} {
else if(key == SAKI_RightAlt) if(!this->active)
{} {
else if(key == SAKI_RightCtrl) return;
{} }
else if(key == SAKI_RightShift)
{} bool isUp = (( keyboard.Flags & RI_KEY_BREAK) != 0);
else SAKI key = SAKI_Unknown;
bool isE0;
MapKey(keyboard, key, isE0);
if(key != SAKI_Unknown)
{
//The key is released.
if(isUp)/*(k.Flags == RI_KEY_BREAK || k.Flags == (RI_KEY_BREAK | RI_KEY_E0) || k.Flags == (RI_KEY_BREAK | RI_KEY_E1))*/
{ {
InternalOnKeyRelease(key);
this->keys[key].isDown = false; this->keys[key].isDown = false;
this->keys[key].isE0 = isE0; this->keys[key].isE0 = isE0;
this->keys[key].makecode = makeCode; this->keys[key].makecode = keyboard.MakeCode;
for (unsigned int i = 0; i < this->keyEventSubscrivers.size(); i++)
{
if(this->keyEventSubscrivers[i])
{
this->keyEventSubscrivers[i]->OnKeyRelease(key, GetAsText(key), this);
}
}
KeyboardCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == KeyboardCallbackList::CallbackDataType_OnRelease)
w->function.keyReleaseCallback(key, GetAsText(key), this);
w = w->next;
}
} }
//The key is pressed.
//this->_procCollection.kd.key = (RIK)k.VKey; else /*if (k.Flags == RI_KEY_MAKE || k.Flags == (RI_KEY_MAKE | RI_KEY_E0) || k.Flags == (RI_KEY_MAKE | RI_KEY_E1))*/
//this->_procCollection.kd.released = true;
}
//The key is pressed.
else /*if (k.Flags == RI_KEY_MAKE || k.Flags == (RI_KEY_MAKE | RI_KEY_E0) || k.Flags == (RI_KEY_MAKE | RI_KEY_E1))*/
{
if(key == SAKI_LeftAlt)
{}
else if(key == SAKI_LeftCtrl)
{}
else if(key == SAKI_LeftShift)
{}
else if(key == SAKI_RightAlt)
{}
else if(key == SAKI_RightCtrl)
{}
else if(key == SAKI_RightShift)
{}
else
{ {
if(this->keys[key].isDown) if(this->keys[key].isDown)
{ {
for (unsigned int i = 0; i < this->keyEventSubscrivers.size(); i++) this->InternalOnKeyDown(key);
{
if(this->keyEventSubscrivers[i])
{
this->keyEventSubscrivers[i]->OnKeyDown(key, GetAsText(key), this);
}
}
KeyboardCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == KeyboardCallbackList::CallbackDataType_OnDown)
w->function.keyDownCallback(key, GetAsText(key), this);
w = w->next;
}
} }
else else
{ {
this->InternalOnKeyPress(key);
this->keys[key].isDown = true; this->keys[key].isDown = true;
this->keys[key].isE0 = isE0; this->keys[key].isE0 = isE0;
this->keys[key].makecode = makeCode; this->keys[key].makecode = keyboard.MakeCode;
for (unsigned int i = 0; i < this->keyEventSubscrivers.size(); i++)
{
if(this->keyEventSubscrivers[i])
{
this->keyEventSubscrivers[i]->OnKeyPress(key, GetAsText(key), this);
}
}
KeyboardCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == KeyboardCallbackList::CallbackDataType_OnPress)
w->function.keyPressCallback(key, GetAsText(key), this);
w = w->next;
}
} }
} }
} }
if(this->textTarget)
{ //Parse text
UINT virtualKey = MapVirtualKey(keyboard.VKey, MAPVK_VK_TO_CHAR);
if(this->keys[SAKI_Backspace].isDown)
{
if( this->writePos > 0 )
{
--this->writePos;
this->textTarget->erase( this->writePos, 1 );
}
}
else if (this->keys[SAKI_Delete].isDown)
{
if( this->writePos < this->textTarget->size() )
{
this->textTarget->erase( this->writePos, 1 );
}
}
else if (this->keys[SAKI_Left].isDown)
{
this->writePos = std::max( this->writePos - 1, (wstring::size_type)0 );
}
else if (this->keys[SAKI_Right].isDown)
{
this->writePos = std::min( this->writePos + 1, this->textTarget->size() );
}
else if (virtualKey && !isUp)
{
wchar_t test = towlower((wchar_t)virtualKey);
if( this->keys[SAKI_LeftShift].isDown || this->keys[SAKI_RightShift].isDown )
{
if(key == SAKI_0) test = L'=';
else if(key == SAKI_1) test = L'!';
else if(key == SAKI_2) test = L'"';
else if(key == SAKI_3) test = L'#';
else if(key == SAKI_4) test = L'¤';
else if(key == SAKI_5) test = L'%';
else if(key == SAKI_6) test = L'&';
else if(key == SAKI_7) test = L'/';
else if(key == SAKI_8) test = L'(';
else if(key == SAKI_9) test = L')';
else if(key == SAKI_Add) test = L'?';
test = towupper(test);
}
else if( this->keys[SAKI_LeftAlt].isDown || this->keys[SAKI_RightAlt].isDown )
{
if(key == SAKI_2) test = L'@';
else if(key == SAKI_3) test = L'£';
else if(key == SAKI_4) test = L'$';
else if(key == SAKI_5) test = L'';
else if(key == SAKI_7) test = L'{';
else if(key == SAKI_8) test = L'[';
else if(key == SAKI_9) test = L']';
else if(key == SAKI_0) test = L'}';
else if(key == SAKI_Add) test = L'\\';
}
this->textTarget->insert( this->writePos, 1, test);
++this->writePos;
}
}
} }
void Win32Keyboard::MapKey(RAWKEYBOARD& rawKB, SAKI& out_key, bool& isE0)
{
//------------------------------------------------------------------------------------//
// http://molecularmusings.wordpress.com/2011/09/05/properly-handling-keyboard-input/ //
//------------------------------------------------------------------------------------//
UINT virtualKey = rawKB.VKey;
UINT scanCode = rawKB.MakeCode;
UINT flags = rawKB.Flags;
if (virtualKey == 255)
{
// discard "fake keys" which are part of an escaped sequence
return;
}
else if (virtualKey == VK_SHIFT)
{
// correct left-hand / right-hand SHIFT
virtualKey = MapVirtualKey(scanCode, MAPVK_VSC_TO_VK_EX);
}
else if (virtualKey == VK_NUMLOCK)
{
// correct PAUSE/BREAK and NUM LOCK silliness, and set the extended bit
scanCode = (MapVirtualKey(virtualKey, MAPVK_VK_TO_VSC) | 0x100);
}
// e0 and e1 are escape sequences used for certain special keys, such as PRINT and PAUSE/BREAK.
// see http://www.win.tue.nl/~aeb/linux/kbd/scancodes-1.html
isE0 = ((flags & RI_KEY_E0) != 0);
const bool isE1 = ((flags & RI_KEY_E1) != 0);
if (isE1)
{
// for escaped sequences, turn the virtual key into the correct scan code using MapVirtualKey.
// however, MapVirtualKey is unable to map VK_PAUSE (this is a known bug), hence we map that by hand.
if (virtualKey == VK_PAUSE) scanCode = 0x45;
else scanCode = MapVirtualKey(virtualKey, MAPVK_VK_TO_VSC);
}
switch (virtualKey)
{
// right-hand CONTROL and ALT have their e0 bit set
case VK_CONTROL:
if (isE0) out_key = SAKI_RightCtrl;
else out_key = SAKI_LeftCtrl;
break;
case VK_MENU:
if (isE0) out_key = SAKI_RightAlt;
else out_key = SAKI_LeftAlt;
break;
// NUMPAD ENTER has its e0 bit set
case VK_RETURN:
if (isE0) out_key = SAKI_NumpadEnter;
break;
// the standard INSERT, DELETE, HOME, END, PRIOR and NEXT keys will always have their e0 bit set, but the
// corresponding keys on the NUMPAD will not.
case VK_INSERT:
if (!isE0) out_key = SAKI_Numpad0;
break;
case VK_DELETE:
if (!isE0) out_key = SAKI_NumpadDecimal;
break;
case VK_HOME:
if (!isE0) out_key = SAKI_Numpad7;
break;
case VK_END:
if (!isE0) out_key = SAKI_Numpad1;
break;
case VK_PRIOR:
if (!isE0) out_key = SAKI_Numpad9;
break;
case VK_NEXT:
if (!isE0) out_key = SAKI_Numpad3;
break;
// the standard arrow keys will always have their e0 bit set, but the
// corresponding keys on the NUMPAD will not.
case VK_LEFT:
if (!isE0) out_key = SAKI_Numpad4;
break;
case VK_RIGHT:
if (!isE0) out_key = SAKI_Numpad6;
break;
case VK_UP:
if (!isE0) out_key = SAKI_Numpad8;
break;
case VK_DOWN:
if (!isE0) out_key = SAKI_Numpad2;
break;
// NUMPAD 5 doesn't have its e0 bit set
case VK_CLEAR:
if (!isE0) out_key = SAKI_Numpad5;
break;
case 0x03 : //VK_CANCEL
break;
case 0x08 : //VK_BACK
out_key = SAKI_Backspace;
break;
case 0x09 : //VK_TAB
out_key = SAKI_Tab;
break;
case 0x10 : //VK_SHIFT
out_key = SAKI_LeftShift;
out_key = SAKI_RightShift;
break;
case 0x13 : //VK_PAUSE
out_key = SAKI_Pause;
break;
case 0x14 : //VK_CAPITAL
out_key = SAKI_CapsLock;
break;
case 0x15 : //VK_KANA
break;
case 0x1B : //VK_ESCAPE
out_key = SAKI_Escape;
break;
case 0x1C : //VK_CONVERT
break;
case 0x1D : //VK_NONCONVERT
break;
case 0x1E : //VK_ACCEPT
break;
case 0x1F : //VK_MODECHANGE
break;
case 0x20 : //VK_SPACE
out_key = SAKI_Space;
break;
case 0x29 : //VK_SELECT
break;
case 0x2A : //VK_PRINT
out_key = SAKI_PrintScreen;
break;
case 0x2B : //VK_EXECUTE
break;
case 0x2C : //VK_SNAPSHOT
break;
case 0x2F : //VK_HELP
break;
case 0x30 : //0 key
out_key = SAKI_0;
break;
case 0x31 : //1 key
out_key = SAKI_1;
break;
case 0x32 : //2 key
out_key = SAKI_2;
break;
case 0x33 : //3 key
out_key = SAKI_3;
break;
case 0x34 : //4 key
out_key = SAKI_4;
break;
case 0x35 : //5 key
out_key = SAKI_5;
break;
case 0x36 : //6 key
out_key = SAKI_6;
break;
case 0x37 : //7 key
out_key = SAKI_7;
break;
case 0x38 : //8 key
out_key = SAKI_8;
break;
case 0x39 : //9 key
out_key = SAKI_9;
break;
case 0x41 : //A key
out_key = SAKI_A;
break;
case 0x42 : //B key
out_key = SAKI_B;
break;
case 0x43 : //C key
out_key = SAKI_C;
break;
case 0x44 : //D key
out_key = SAKI_D;
break;
case 0x45 : //E key
out_key = SAKI_E;
break;
case 0x46 : //F key
out_key = SAKI_F;
break;
case 0x47 : //G key
out_key = SAKI_G;
break;
case 0x48 : //H key
out_key = SAKI_H;
break;
case 0x49 : //I key
out_key = SAKI_I;
break;
case 0x4A : //J key
out_key = SAKI_J;
break;
case 0x4B : //K key
out_key = SAKI_K;
break;
case 0x4C : //L key
out_key = SAKI_L;
break;
case 0x4D : //M key
out_key = SAKI_M;
break;
case 0x4E : //N key
out_key = SAKI_N;
break;
case 0x4F : //O key
out_key = SAKI_O;
break;
case 0x50 : //P key
out_key = SAKI_P;
break;
case 0x51 : //Q key
out_key = SAKI_Q;
break;
case 0x52 : //R key
out_key = SAKI_R;
break;
case 0x53 : //S key
out_key = SAKI_S;
break;
case 0x54 : //T key
out_key = SAKI_T;
break;
case 0x55 : //U key
out_key = SAKI_U;
break;
case 0x56 : //V key
out_key = SAKI_V;
break;
case 0x57 : //W key
out_key = SAKI_W;
break;
case 0x58 : //X key
out_key = SAKI_X;
break;
case 0x59 : //Y key
out_key = SAKI_Y;
break;
case 0x5A : //Z key
out_key = SAKI_Z;
break;
case 0x5B : //VK_LWIN
break;
case 0x5C : //VK_RWIN
break;
case 0x5D : //VK_APPS
break;
case 0x5F : //VK_SLEEP
break;
case 0x60 : //VK_NUMPAD0
out_key = SAKI_Numpad0;
break;
case 0x61 : //VK_NUMPAD1
out_key = SAKI_Numpad1;
break;
case 0x62 : //VK_NUMPAD2
out_key = SAKI_Numpad2;
break;
case 0x63 : //VK_NUMPAD3
out_key = SAKI_Numpad3;
break;
case 0x64 : //VK_NUMPAD4
out_key = SAKI_Numpad4;
break;
case 0x65 : //VK_NUMPAD5
out_key = SAKI_Numpad5;
break;
case 0x66 : //VK_NUMPAD6
out_key = SAKI_Numpad6;
break;
case 0x67 : //VK_NUMPAD7
out_key = SAKI_Numpad7;
break;
case 0x68 : //VK_NUMPAD8
out_key = SAKI_Numpad8;
break;
case 0x69 : //VK_NUMPAD9
out_key = SAKI_Numpad9;
break;
case 0x6A : //VK_MULTIPLY
out_key = SAKI_NumpadMultiply;
break;
case 0x6B : //VK_ADD
out_key = SAKI_NumpadPlus;
break;
case 0x6C : //VK_SEPARATOR
break;
case 0x6D : //VK_SUBTRACT
out_key = SAKI_NumpadSubtract;
break;
case 0x6E : //VK_DECIMAL
out_key = SAKI_NumpadDecimal;
break;
case 0x6F : //VK_DIVIDE
out_key = SAKI_NumpadDivide;
break;
case 0x70 : //VK_F1
out_key = SAKI_F1;
break;
case 0x71 : //VK_F2
out_key = SAKI_F2;
break;
case 0x72 : //VK_F3
out_key = SAKI_F3;
break;
case 0x73 : //VK_F4
out_key = SAKI_F4;
break;
case 0x74 : //VK_F5
out_key = SAKI_F5;
break;
case 0x75 : //VK_F6
out_key = SAKI_F6;
break;
case 0x76 : //VK_F7
out_key = SAKI_F7;
break;
case 0x77 : //VK_F8
out_key = SAKI_F8;
break;
case 0x78 : //VK_F9
out_key = SAKI_F9;
break;
case 0x79 : //VK_F10
out_key = SAKI_F10;
break;
case 0x7A : //VK_F11
out_key = SAKI_F11;
break;
case 0x7B : //VK_F12
out_key = SAKI_F12;
break;
case 0x7C : //VK_F13
out_key = SAKI_F13;
break;
case 0x7D : //VK_F14
out_key = SAKI_F14;
break;
case 0x7E : //VK_F15
out_key = SAKI_F15;
break;
case 0x7F : //VK_F16
out_key = SAKI_F16;
break;
case 0x80 : //VK_F17
out_key = SAKI_F17;
break;
case 0x81 : //VK_F18
out_key = SAKI_F18;
break;
case 0x82 : //VK_F19
out_key = SAKI_F19;
break;
case 0x83 : //VK_F20
out_key = SAKI_F20;
break;
case 0x84 : //VK_F21
out_key = SAKI_F21;
break;
case 0x85 : //VK_F22
out_key = SAKI_F22;
break;
case 0x86 : //VK_F23
out_key = SAKI_F23;
break;
case 0x87 : //VK_F24
out_key = SAKI_F24;
break;
case 0x90 : //VK_NUMLOCK
out_key = SAKI_Numlock;
break;
case 0x91 : //VK_SCROLL
out_key = SAKI_ScrlLock;
break;
case 0xA0 : //VK_LSHIFT
out_key = SAKI_LeftShift;
break;
case 0xA1 : //VK_RSHIFT
out_key = SAKI_RightShift;
break;
case 0xA2 : //VK_LCONTROL
out_key = SAKI_LeftCtrl;
break;
case 0xA3 : //VK_RCONTROL
out_key = SAKI_RightCtrl;
break;
case 0xA4 : //VK_LMENU
out_key = SAKI_LeftAlt;
break;
case 0xA5 : //VK_RMENU
out_key = SAKI_RightCtrl;
break;
case 0xAD : //VK_VOLUME_MUTE
out_key = SAKI_VolumeMute;
break;
case 0xAE : //VK_VOLUME_DOWN
out_key = SAKI_VolumeDown;
break;
case 0xAF : //VK_VOLUME_UP
out_key = SAKI_VolumeUp;
break;
case 0xB0 : //VK_MEDIA_NEXT_TRACK
out_key = SAKI_MediaNext;
break;
case 0xB1 : //VK_MEDIA_PREV_TRACK
out_key = SAKI_MediaPrev;
break;
case 0xB2 : //VK_MEDIA_STOP
out_key = SAKI_MediaStop;
break;
case 0xB3 : //VK_MEDIA_PLAY_PAUSE
out_key = SAKI_MediaPlayPause;
break;
case 0xBB://VK_OEM_PLUS
out_key = SAKI_Add;
break;
case 0xBC://VK_OEM_COMMA
out_key = SAKI_Comma;
break;
case 0xBD://VK_OEM_MINUS
out_key = SAKI_Minus;
break;
case 0xBE://VK_OEM_PERIOD
out_key = SAKI_Period;
break;
case 0xBA://VK_OEM_1
break;
case 0xBF://VK_OEM_2
break;
case 0xC0://VK_OEM_3
break;
case 0xDB://VK_OEM_4
break;
case 0xDC://VK_OEM_5
break;
case 0xDD://VK_OEM_6
break;
case 0xDE://VK_OEM_7
break;
case 0xDF://VK_OEM_8
break;
}
}
bool Win32Keyboard::Create()
{
if(RegisterRawInputDevices(&this->device, 1, sizeof(RAWINPUTDEVICE)) == TRUE)
{
this->isActive = true;
return true;
}
return false;
}

258
Code/Misc/Input/Source/Win32/Win32Mouse.cpp
View File

@ -1,73 +1,177 @@
///////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////
// Created by [Dennis Andersen] [2013] // Created by [Dennis Andersen] [2013]
///////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////
#include "..\..\Include\Win32\Win32Mouse.h" #include "..\..\Include\Win32\Win32Input.h"
using namespace Input; using namespace Input;
using namespace Input::Enum; using namespace Input::Enum;
using namespace Input::Struct; using namespace Input::Struct;
using namespace Input::Typedefs; using namespace Input::Typedefs;
void MapButton(RAWMOUSE& rawMouse, bool &isUp, Enum::SAMI& btn, int& delta, Struct::SAIPointInt2D& vel, unsigned int& mcode)
Win32Mouse::Win32Mouse()
{ {
if(rawMouse.lLastX != 0 || rawMouse.lLastY != 0)
{
vel.x = rawMouse.lLastX;
vel.y = rawMouse.lLastY;
}
if( rawMouse.usButtonFlags > 0 )
{
//--------------------------------------------------------------------------------------
//Mouse button pressed
if(rawMouse.usButtonFlags == RI_MOUSE_LEFT_BUTTON_DOWN)
{
btn = SAMI_MouseLeftBtn;
isUp = false;
}
else if(rawMouse.usButtonFlags == RI_MOUSE_MIDDLE_BUTTON_DOWN)
{
btn = SAMI_MouseMiddleBtn;
isUp = false;
}
else if(rawMouse.usButtonFlags == RI_MOUSE_RIGHT_BUTTON_DOWN)
{
btn = SAMI_MouseRightBtn;
isUp = false;
}
//--------------------------------------------------------------------------------------
//Mouse button Released
else if(rawMouse.usButtonFlags == RI_MOUSE_LEFT_BUTTON_UP)
{
btn = SAMI_MouseLeftBtn;
isUp = true;
}
else if(rawMouse.usButtonFlags == RI_MOUSE_MIDDLE_BUTTON_UP)
{
btn = SAMI_MouseMiddleBtn;
isUp = true;
}
else if(rawMouse.usButtonFlags == RI_MOUSE_RIGHT_BUTTON_UP)
{
btn = SAMI_MouseRightBtn;
isUp = true;
}
//--------------------------------------------------------------------------------------
else if (rawMouse.usButtonFlags == RI_MOUSE_WHEEL)
{
delta = ((int)rawMouse.usButtonData);
if(delta > 120) delta = -1;
else delta = 1;
}
}
}
void ContainPoint(Struct::SAIPointInt2D& pixelPos, Struct::SAIPointInt2D& windowSize)
{
if(pixelPos.x < 0) { pixelPos.x = 0; }
else if(pixelPos.x > windowSize.x) { pixelPos.x = windowSize.x; }
if(pixelPos.y < 0) { pixelPos.y = 0; }
else if(pixelPos.y > windowSize.y) { pixelPos.y = windowSize.y; }
}
Win32Mouse::Win32Mouse(HWND target)
{
this->isActive = false;
this->device.usUsagePage = 0x01;
this->device.hwndTarget = target;
this->device.usUsage = RawInput_Usage_mouse;
this->device.dwFlags = RIDEV_NOLEGACY | RIDEV_CAPTUREMOUSE;
memset(&this->buttons[0], 0, sizeof(Buttons) * MAXBUTTONS); memset(&this->buttons[0], 0, sizeof(Buttons) * MAXBUTTONS);
} }
Win32Mouse::~Win32Mouse() Win32Mouse::~Win32Mouse()
{ { }
}
bool Win32Mouse::IsBtnUp(Enum::SAMI btn) bool Win32Mouse::IsBtnUp(Enum::SAMI btn) const
{ {
if(btn == SAMI_Unknown) return false; if(btn == SAMI_Unknown) return false;
return !this->buttons[btn].isDown; return !this->buttons[btn].isDown;
} }
bool Win32Mouse::IsBtnDown(Enum::SAMI btn) bool Win32Mouse::IsBtnDown(Enum::SAMI btn) const
{ {
if(btn == SAMI_Unknown) return false; if(btn == SAMI_Unknown) return false;
return this->buttons[btn].isDown; return this->buttons[btn].isDown;
} }
int Win32Mouse::GetWheelDelta() const
void Win32Mouse::ProccessMouseData (bool isUp, Enum::SAMI btn, int delta, Struct::SAIPoint2D velocity, unsigned int makeCode)
{ {
return this->wheelDelta;
}
SAIPointInt2D& Win32Mouse::GetPixelPosition( Struct::SAIPointInt2D &targetMem ) const
{
memcpy(&targetMem, &this->pixelPos, sizeof(SAIPointFloat2D));
return targetMem;
}
SAIPointFloat2D& Win32Mouse::GetNormalizedPosition(Struct::SAIPointFloat2D& targetMem)
{
RECT windowVertex;
GetWindowRect( this->device.hwndTarget, &windowVertex );
this->normalPos.x = (float)(pixelPos.x - windowVertex.left);
this->normalPos.x /= (float)(windowVertex.right - windowVertex.left);
this->normalPos.y = (float)(pixelPos.y - windowVertex.top);
this->normalPos.y /= (float)(windowVertex.bottom - windowVertex.top);
memcpy(&targetMem, &this->normalPos, sizeof(SAIPointFloat2D));
return targetMem;
}
SAIPointFloat2D& Win32Mouse::GetDeltaPosition(Struct::SAIPointFloat2D& targetMem) const
{
memcpy(&targetMem, &this->deltaPos, sizeof(SAIPointFloat2D));
return targetMem;
}
void Win32Mouse::Activate ()
{
if(this->isActive) return;
this->Create();
}
void Win32Mouse::Deactivate ()
{
if(!this->isActive) return;
RAWINPUTDEVICE d;
d.dwFlags = RIDEV_REMOVE;
d.hwndTarget = 0;
d.usUsage = RawInput_Usage_mouse;
d.usUsagePage = 0x01;
if(RegisterRawInputDevices(&d, 1, sizeof(RAWINPUTDEVICE)))
{
this->isActive = false;
SetCursorPos(this->winCursPos.x, this->winCursPos.y);
ShowCursor(TRUE);
}
}
void Win32Mouse::ProccessMouseData (RAWMOUSE mouse)
{
bool isUp = true;
Enum::SAMI btn = Enum::SAMI_Unknown;
int delta = 0;
Struct::SAIPointInt2D velocity;
unsigned int makeCode = 0;
MapButton(mouse, isUp, btn, delta, velocity, makeCode);
if(velocity.Length() != 0) if(velocity.Length() != 0)
{ {
this->pixelPos.x += this->deltaPos.x = velocity.x; this->pixelPos.x += velocity.x;
this->pixelPos.y += this->deltaPos.y = velocity.y; this->pixelPos.y += velocity.y;
for (unsigned int i = 0; i < this->mouseSubscribers.size(); i++) ContainPoint(this->pixelPos, this->windowSize);
{
if(this->mouseSubscribers[i]) InternalOnMove(this->pixelPos, velocity);
this->mouseSubscribers[i]->OnMouseMove(this->pixelPos, this);
}
MouseCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == MouseCallbackList::CallbackDataType_OnMove)
w->function.mouseMoveCallback(this->pixelPos, this);
w = w->next;
}
} }
if(delta != 0) if(delta != 0)
{ {
for (unsigned int i = 0; i < this->mouseSubscribers.size(); i++) InternalOnScroll(delta);
{
if(this->mouseSubscribers[i])
this->mouseSubscribers[i]->OnMouseScroll(delta, this);
}
MouseCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == MouseCallbackList::CallbackDataType_OnMove)
w->function.mouseScrollCallback(delta, this);
w = w->next;
}
} }
@ -79,54 +183,54 @@ void Win32Mouse::ProccessMouseData (bool isUp, Enum::SAMI btn, int delta, Struct
//The btn is released. //The btn is released.
if(isUp) if(isUp)
{ {
for (unsigned int i = 0; i < this->mouseSubscribers.size(); i++) InternalOnBtnRelease(btn);
{
if(this->mouseSubscribers[i])
this->mouseSubscribers[i]->OnMouseRelease(btn, this);
}
MouseCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == MouseCallbackList::CallbackDataType_OnRelease)
w->function.mouseReleaseCallback(btn, this);
w = w->next;
}
} }
//The btn is pressed. //The btn is pressed.
else else
{ {
//The btn is down since last frame
if(this->buttons[btn].isDown) if(this->buttons[btn].isDown)
{ {
for (unsigned int i = 0; i < this->mouseSubscribers.size(); i++) InternalOnBtnDown(btn);
{
if(this->mouseSubscribers[i])
this->mouseSubscribers[i]->OnMouseDown(btn, this);
}
MouseCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == MouseCallbackList::CallbackDataType_OnDown)
w->function.mouseDownCallback(btn, this);
w = w->next;
}
} }
else else
{ {
for (unsigned int i = 0; i < this->mouseSubscribers.size(); i++) InternalOnBtnPress(btn);
{
if(this->mouseSubscribers[i])
this->mouseSubscribers[i]->OnMousePress(btn, this);
}
MouseCallbackList *w = this->callbackList;
while (w)
{
if(w->function)
if (w->type == MouseCallbackList::CallbackDataType_OnPress)
w->function.mousePressCallback(btn, this);
w = w->next;
}
} }
} }
} }
bool Win32Mouse::Create()
{
if(!this->device.hwndTarget)
{
RECT desktop;
const HWND hDesktop = GetDesktopWindow();
GetClientRect(hDesktop, &desktop);
windowSize.x = desktop.right;
windowSize.y = desktop.bottom;
this->device.dwFlags = 0;
}
else
{
RECT re;
GetClientRect(this->device.hwndTarget, &re);
windowSize.x = re.right - re.left;
windowSize.y = re.bottom - re.top;
}
if(RegisterRawInputDevices(&this->device, 1, sizeof(RAWINPUTDEVICE)) == TRUE)
{
this->isActive = true;
POINT p;
GetCursorPos(&p);
this->winCursPos.x = p.x;
this->winCursPos.y = p.y;
ShowCursor(FALSE);
return true;
}
return false;
}

23
Code/Misc/WindowManager/WindowShell.cpp
View File

@ -77,7 +77,6 @@ bool WindowShell::CreateWin(WINDOW_INIT_DESC &desc)
if(!desc.hInstance) desc.hInstance = GetModuleHandle(0); if(!desc.hInstance) desc.hInstance = GetModuleHandle(0);
if(desc.windowSize.x <= 0) desc.windowSize.x = 50; if(desc.windowSize.x <= 0) desc.windowSize.x = 50;
if(desc.windowSize.y <= 0) desc.windowSize.y = 50; if(desc.windowSize.y <= 0) desc.windowSize.y = 50;
__windowShellData.parent = desc.parent; __windowShellData.parent = desc.parent;
__windowShellData.hIns = desc.hInstance; __windowShellData.hIns = desc.hInstance;
@ -111,20 +110,14 @@ bool WindowShell::CreateWin(WINDOW_INIT_DESC &desc)
RECT rectW; RECT rectW;
int width;
int height;
DWORD style = desc.windowStyle; DWORD style = desc.windowStyle;
bool windowed = false; bool windowed = false;
width = desc.windowSize.x + GetSystemMetrics(SM_CXFIXEDFRAME)*2; rectW.left = 0;
height = desc.windowSize.y + GetSystemMetrics(SM_CYFIXEDFRAME)*2 + GetSystemMetrics(SM_CYCAPTION); rectW.top = 0;
rectW.right = desc.windowSize.x;
rectW.bottom = desc.windowSize.y;
rectW.left=(GetSystemMetrics(SM_CXSCREEN)-width)/2;
rectW.top=(GetSystemMetrics(SM_CYSCREEN)-height)/2;
rectW.right=rectW.left+width;
rectW.bottom=rectW.top+height;
if(__windowShellData.parent) if(__windowShellData.parent)
{ {
rectW.left = 0; rectW.left = 0;
@ -135,6 +128,8 @@ bool WindowShell::CreateWin(WINDOW_INIT_DESC &desc)
windowed = true; windowed = true;
} }
AdjustWindowRect(& rectW, style, FALSE);
if(windowed) if(windowed)
{ {
__windowShellData.hWnd = CreateWindowExW( __windowShellData.hWnd = CreateWindowExW(
@ -161,8 +156,8 @@ bool WindowShell::CreateWin(WINDOW_INIT_DESC &desc)
style, style,
desc.windowPosition.x, desc.windowPosition.x,
desc.windowPosition.y, desc.windowPosition.y,
desc.windowSize.x, rectW.right - rectW.left,
desc.windowSize.y, rectW.bottom - rectW.top,
0, 0,
0, 0,
__windowShellData.hIns, __windowShellData.hIns,
@ -173,7 +168,6 @@ bool WindowShell::CreateWin(WINDOW_INIT_DESC &desc)
if( !__windowShellData.hWnd ) if( !__windowShellData.hWnd )
{ {
printf("Failed to create window handle : Code ( %ul )", GetLastError()); printf("Failed to create window handle : Code ( %ul )", GetLastError());
//MessageBox(0, L"Failed to create window", L"Error!", 0);
return false; return false;
} }
@ -258,3 +252,4 @@ bool WindowShell::Frame()
return true; return true;
} }

2
Code/Misc/WindowManager/WindowShell.h
View File

@ -40,7 +40,7 @@ public:
POINT _windowSize = cPOINT(800, 600), POINT _windowSize = cPOINT(800, 600),
POINT _windowPosition = cPOINT(0,0), POINT _windowPosition = cPOINT(0,0),
UINT _windowClassStyle = (CS_HREDRAW | CS_VREDRAW | CS_OWNDC), UINT _windowClassStyle = (CS_HREDRAW | CS_VREDRAW | CS_OWNDC),
UINT _windowStyle = (WS_POPUPWINDOW|WS_SYSMENU|WS_CAPTION), UINT _windowStyle = (WS_POPUPWINDOW|WS_CAPTION),
HICON _icon = LoadIcon(0, IDI_APPLICATION), HICON _icon = LoadIcon(0, IDI_APPLICATION),
HCURSOR _cursor = LoadCursor(NULL, IDC_ARROW), HCURSOR _cursor = LoadCursor(NULL, IDC_ARROW),
HBRUSH _background = (HBRUSH)GetStockObject(BLACK_BRUSH) HBRUSH _background = (HBRUSH)GetStockObject(BLACK_BRUSH)

3
Code/OysterGraphics/Definitions/GraphicalDefinition.h
View File

@ -62,6 +62,9 @@ namespace Oyster
struct PostData struct PostData
{ {
float Amb; float Amb;
Math::Float3 Tint;
Math::Float3 GlowTint;
float PAD;
}; };
struct Text2D struct Text2D

2
Code/OysterGraphics/DllInterfaces/GFXAPI.cpp
View File

@ -123,6 +123,8 @@ namespace Oyster
Definitions::PostData pd; Definitions::PostData pd;
pd.Amb = option.AmbientValue; pd.Amb = option.AmbientValue;
pd.Tint = option.GlobalTint;
pd.GlowTint = option.GlobalGlowTint;
void* data = Render::Resources::Post::Data.Map(); void* data = Render::Resources::Post::Data.Map();
memcpy(data,&pd,sizeof(Definitions::PostData)); memcpy(data,&pd,sizeof(Definitions::PostData));

3
Code/OysterGraphics/DllInterfaces/GFXAPI.h
View File

@ -30,6 +30,9 @@ namespace Oyster
//between 0-1 //between 0-1
float AmbientValue; float AmbientValue;
Math::Float3 GlobalTint;
Math::Float3 GlobalGlowTint;
Math::Float2 Resolution; Math::Float2 Resolution;
//Bytes on the GPU //Bytes on the GPU

2
Code/OysterGraphics/OysterGraphics.vcxproj.user
View File

@ -1,6 +1,6 @@
<?xml version="1.0" encoding="utf-8"?> <?xml version="1.0" encoding="utf-8"?>
<Project ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003"> <Project ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
<PropertyGroup> <PropertyGroup>
<ShowAllFiles>true</ShowAllFiles> <ShowAllFiles>false</ShowAllFiles>
</PropertyGroup> </PropertyGroup>
</Project> </Project>

4
Code/OysterGraphics/Render/GuiRenderer.cpp
View File

@ -56,8 +56,8 @@ namespace Oyster
//size.x = size.x / (text.length() * TEXT_SPACING /2); //size.x = size.x / (text.length() * TEXT_SPACING /2);
pos *= 2; pos.xy *= 2;
pos -= 1; pos.xy -= 1;
pos.y *= -1; pos.y *= -1;

4
Code/OysterGraphics/Shader/Passes/Gather/GatherPixel.hlsl
View File

@ -41,8 +41,8 @@ PixelOut main(VertexOut input)
{ {
PixelOut output; PixelOut output;
float4 DiffGlow = Diffuse.Sample(S1, input.UV); float4 DiffGlow = Diffuse.Sample(S1, input.UV);
float3 tint = Color*(1-DiffGlow) + GlowColor * DiffGlow; float3 tint = Color*(1-DiffGlow.w) + GlowColor * DiffGlow.w;
tint = tint / 2; tint = Color*(1-DiffGlow.w) + GlowColor * DiffGlow.w;
output.DiffuseGlow = DiffGlow * float4(tint,1); output.DiffuseGlow = DiffGlow * float4(tint,1);
//NORMALIZE //NORMALIZE

2
Code/OysterGraphics/Shader/Passes/Light/LightPass.hlsl
View File

@ -47,7 +47,7 @@ void main( uint3 DTid : SV_DispatchThreadID, uint3 GTid : SV_GroupThreadID )
DepthBase = DepthBase /4; DepthBase = DepthBase /4;
Ambient[DTid.xy/2] = float4(DiffBase.xyz, AmbValue); Ambient[DTid.xy/2] = float4(DiffBase.xyz, AmbValue);
Ambient[DTid.xy/2 + float2(Pixels.x/2, 0)] = GUI[DTid.xy]; Ambient[DTid.xy/2 + float2(Pixels.x/2, 0)] = GUI[DTid.xy];
Ambient[DTid.xy/2 + float2(0, Pixels.y/2)] = float4(DiffBase.xyz * DiffBase.w * 10 /* * (2-DepthBase) */,1); Ambient[DTid.xy/2 + float2(0, Pixels.y/2)] = float4(DiffBase.xyz * DiffBase.w /* * (2-DepthBase) */,DiffBase.w);
Ambient[DTid.xy/2 + Pixels/2] = float4(NormalSpec[DTid.xy].xyz * float3(1,1,-1),1); Ambient[DTid.xy/2 + Pixels/2] = float4(NormalSpec[DTid.xy].xyz * float3(1,1,-1),1);
} }

2
Code/OysterGraphics/Shader/Passes/Light/SSAO.hlsli
View File

@ -1,7 +1,7 @@
#include "Defines.hlsli" #include "Defines.hlsli"
#include "PosManipulation.hlsli" #include "PosManipulation.hlsli"
static float Radius = 10; static float Radius = 1;
float GetSSAO(float3 pos, float2 uv, int2 texCoord2, uint2 rndID) float GetSSAO(float3 pos, float2 uv, int2 texCoord2, uint2 rndID)
{ {

8
Code/OysterGraphics/Shader/Passes/Post/PostPass.hlsl
View File

@ -9,6 +9,8 @@ SamplerState S1 : register(s0);
cbuffer Size : register(b0) cbuffer Size : register(b0)
{ {
float AmbFactor; float AmbFactor;
float3 Color;
float3 GlowColor;
} }
[numthreads(16, 16, 1)] [numthreads(16, 16, 1)]
@ -26,9 +28,10 @@ void main( uint3 DTid : SV_DispatchThreadID )
SSAO = SSAO / 16; SSAO = SSAO / 16;
float4 Light = Diffuse[DTid.xy] + saturate(Specular[DTid.xy]); float4 Light = Diffuse[DTid.xy] + saturate(Specular[DTid.xy]);
float3 Amb = Ambient[DTid.xy/2].xyz * SSAO; float3 Amb = Ambient[DTid.xy/2].xyz * SSAO * Color;
float3 Glow = Ambient[DTid.xy/2 + uint2(0,Output.Length.y/2)].xyz; float4 Glow = Ambient[DTid.xy/2 + uint2(0,Output.Length.y/2)];
Glow = float4(Glow.xyz * GlowColor, 1);
float4 GUI; float4 GUI;
uint2 index = DTid.xy/2 + uint2((uint)Output.Length.x/(uint)2,0); uint2 index = DTid.xy/2 + uint2((uint)Output.Length.x/(uint)2,0);
@ -40,4 +43,5 @@ void main( uint3 DTid : SV_DispatchThreadID )
//Output[DTid.xy] = float4(Ambient[DTid.xy/2 + uint2(Output.Length*0.5f)].xyz,1); //Output[DTid.xy] = float4(Ambient[DTid.xy/2 + uint2(Output.Length*0.5f)].xyz,1);
//Output[DTid.xy] = SSAO * float4(1,1,1,1); //Output[DTid.xy] = SSAO * float4(1,1,1,1);
//Output[DTid.xy] = Ambient[DTid.xy];
} }

52
Code/Physics/GamePhysics/Implementation/SimpleRigidBody.cpp
View File

@ -168,9 +168,15 @@ void SimpleRigidBody::SetRotationAsAngularAxis(::Oyster::Math::Float4 angularAxi
return; return;
} }
float s = sin(angularAxis.w/2);
float x = angularAxis.x * s;
float y = angularAxis.y * s;
float z = angularAxis.z * s;
float w = cos(angularAxis.w/2);
btTransform trans; btTransform trans;
btVector3 vector(angularAxis.x, angularAxis.y, angularAxis.z); btVector3 vector(angularAxis.x, angularAxis.y, angularAxis.z);
btQuaternion quaternion(vector, angularAxis.w); btQuaternion quaternion(x,y,z,w);
trans = this->rigidBody->getWorldTransform(); trans = this->rigidBody->getWorldTransform();
trans.setRotation(quaternion); trans.setRotation(quaternion);
@ -263,22 +269,11 @@ Float4x4 SimpleRigidBody::GetRotation() const
Float4 SimpleRigidBody::GetRotationAsAngularAxis() Float4 SimpleRigidBody::GetRotationAsAngularAxis()
{ {
Float4 axis = Float4::null; Float4 axis = Float4::null;
Float s = sqrtf(1 - this->state.quaternion.real*this->state.quaternion.real); btTransform trans;
axis.w = 2*acos(this->state.quaternion.real*this->state.quaternion.real); trans = this->rigidBody->getWorldTransform();
axis.xyz = trans.getRotation().getAxis();
if(1 - this->state.quaternion.real > 0.001f) axis.w = trans.getRotation().getAngle();
{
axis.x = this->state.quaternion.imaginary.x/s;
axis.y = this->state.quaternion.imaginary.y/s;
axis.z = this->state.quaternion.imaginary.z/s;
}
else
{
axis.x = this->state.quaternion.imaginary.x;
axis.y = this->state.quaternion.imaginary.y;
axis.z = this->state.quaternion.imaginary.z;
}
return axis; return axis;
} }
@ -353,7 +348,8 @@ void SimpleRigidBody::PreStep (const btCollisionWorld* collisionWorld)
{ {
btTransform xform; btTransform xform;
xform = this->rigidBody->getWorldTransform (); xform = this->rigidBody->getWorldTransform ();
btVector3 down = -xform.getBasis()[1]; Float3 normalDown = -this->state.centerPos.GetNormalized();
btVector3 down(normalDown.x, normalDown.y, normalDown.z);
btVector3 forward = xform.getBasis()[2]; btVector3 forward = xform.getBasis()[2];
down.normalize (); down.normalize ();
forward.normalize(); forward.normalize();
@ -361,12 +357,17 @@ void SimpleRigidBody::PreStep (const btCollisionWorld* collisionWorld)
this->raySource[0] = xform.getOrigin(); this->raySource[0] = xform.getOrigin();
this->raySource[1] = xform.getOrigin(); this->raySource[1] = xform.getOrigin();
if(this->state.reach.y < 1.0f)
Float angle = acos(Float3(0, 1, 0).Dot(this->state.centerPos.GetNormalized())); Float angle = acos(Float3(0, 1, 0).Dot(this->state.centerPos.GetNormalized()));
down.setZ(-down.z()); //down.setZ(-down.z());
down.setX(-down.x());
btVector3 targetPlus = down * this->state.reach.y * btScalar(1.1); btVector3 targetPlus = down * this->state.reach.y * btScalar(1.1);
if(this->state.mass == 40)
{
const char* breakpoint = "STOP";
}
this->rayTarget[0] = this->raySource[0] + targetPlus; this->rayTarget[0] = this->raySource[0] + targetPlus;
this->rayTarget[1] = this->raySource[1] + forward * this->state.reach.y * btScalar(1.1); this->rayTarget[1] = this->raySource[1] + forward * this->state.reach.y * btScalar(1.1);
@ -383,7 +384,6 @@ void SimpleRigidBody::PreStep (const btCollisionWorld* collisionWorld)
{ {
if (rayResult.m_collisionObject == m_me) if (rayResult.m_collisionObject == m_me)
return 1.0; return 1.0;
return ClosestRayResultCallback::addSingleResult (rayResult, normalInWorldSpace); return ClosestRayResultCallback::addSingleResult (rayResult, normalInWorldSpace);
} }
protected: protected:
@ -412,4 +412,14 @@ void SimpleRigidBody::PreStep (const btCollisionWorld* collisionWorld)
float SimpleRigidBody::GetLambda() const float SimpleRigidBody::GetLambda() const
{ {
return this->rayLambda[0]; return this->rayLambda[0];
}
void SimpleRigidBody::MoveToLimbo()
{
this->rigidBody->setCollisionFlags(this->rigidBody->getCollisionFlags() | btCollisionObject::CF_NO_CONTACT_RESPONSE);
}
void SimpleRigidBody::ReleaseFromLimbo()
{
this->rigidBody->setCollisionFlags(btCollisionObject::CF_KINEMATIC_OBJECT);
} }

3
Code/Physics/GamePhysics/Implementation/SimpleRigidBody.h
View File

@ -69,6 +69,9 @@ namespace Oyster
float GetLambda() const; float GetLambda() const;
void MoveToLimbo();
void ReleaseFromLimbo();
private: private:
btCollisionShape* collisionShape; btCollisionShape* collisionShape;

3
Code/Physics/GamePhysics/PhysicsAPI.h
View File

@ -169,6 +169,9 @@ namespace Oyster
virtual void CallSubscription_AfterCollisionResponse(ICustomBody* bodyA, ICustomBody* bodyB, Math::Float kineticEnergyLoss) = 0; virtual void CallSubscription_AfterCollisionResponse(ICustomBody* bodyA, ICustomBody* bodyB, Math::Float kineticEnergyLoss) = 0;
virtual void CallSubscription_Move() = 0; virtual void CallSubscription_Move() = 0;
virtual void MoveToLimbo() = 0;
virtual void ReleaseFromLimbo() = 0;
/******************************************************** /********************************************************
* @return the void pointer set by SetCustomTag. * @return the void pointer set by SetCustomTag.
* nullptr if none is set. * nullptr if none is set.