game.cpp

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// Game.cpp: implementation of the CGame class.
//
//////////////////////////////////////////////////////////////////////

#include "Game.h"

//////////////////////////////////////////////////////////////////////
// Construction/Destruction
//////////////////////////////////////////////////////////////////////

CGame::CGame()
{
	m_fEnableLogging = false;

	m_pD3D = NULL;
	m_pD3DDevice = NULL;
	m_dwFrames = 0;
	m_dwStartTime = 0;
	m_dwEndTime = 0;

	m_pCube1 = NULL;
	m_pCube2 = NULL;
	m_pCube3 = NULL;
	m_pCube4 = NULL;
	m_pCube5 = NULL;
	m_pCube6 = NULL;
}

CGame::~CGame()
{
	//Game finished, so record time
	m_dwEndTime = timeGetTime();

	DWORD dwDuration = (m_dwEndTime - m_dwStartTime) / 1000;
	
	//Log stats
	WriteToLog("Statistics:");
	WriteToLog("\tStart Time (ms): %d", m_dwStartTime);
	WriteToLog("\tEnd Time (ms): %d", m_dwEndTime);
	WriteToLog("\tDuration (s): %d", dwDuration);
	WriteToLog("\tTotal Frame Count: %d", m_dwFrames);
	WriteToLog("\tAverage FPS: %d", (m_dwFrames / dwDuration));

	//Clean up objects/interfaces
	SafeDelete(m_pCube1);
	SafeDelete(m_pCube2);
	SafeDelete(m_pCube3);
	SafeDelete(m_pCube4);
	SafeDelete(m_pCube5);
	SafeDelete(m_pCube6);

	SafeRelease(m_pD3DDevice);
	SafeRelease(m_pD3D);
}

bool CGame::Initialise(HWND hWnd, UINT nWidth, UINT nHeight)
{
	if(SUCCEEDED(InitialiseD3D(hWnd, nWidth, nHeight)))
	{
		return InitialiseGame();
	}
	else
	{
		return false;
	}

	return true;
}

bool CGame::InitialiseGame()
{
	//Setup games objects here
	m_pCube1 = new CCuboid(m_pD3DDevice);
	m_pCube1->SetPosition(0.0, 0.0, 0.0);

	m_pCube2 = new CCuboid(m_pD3DDevice);
	m_pCube2->SetPosition(15.0, 0.0, 0.0);

	m_pCube3 = new CCuboid(m_pD3DDevice);
	m_pCube3->SetPosition(-15.0, 0.0, 0.0);

	m_pCube4 = new CCuboid(m_pD3DDevice);
	m_pCube4->SetSize(40.0, 10.0, 10.0);
	m_pCube4->SetPosition(0.0, 0.0, 15.0);

	m_pCube5 = new CCuboid(m_pD3DDevice);
	m_pCube5->SetSize(17.5, 10.0, 10.0);
	m_pCube5->SetPosition(-12.5, 0.0, -15.0);

	m_pCube6 = new CCuboid(m_pD3DDevice);
	m_pCube6->SetSize(17.5, 10.0, 10.0);
	m_pCube6->SetPosition(12.5, 0.0, -15.0);

	return true;
}

D3DFORMAT CGame::CheckDisplayMode(UINT nWidth, UINT nHeight, UINT nDepth)
{
	UINT x;
	D3DDISPLAYMODE d3ddm;

	for(x = 0; x < m_pD3D->GetAdapterModeCount(0); x++)
	{
		m_pD3D->EnumAdapterModes(0, x, &d3ddm);
		if(d3ddm.Width == nWidth)
		{
			if(d3ddm.Height == nHeight)
			{
				if((d3ddm.Format == D3DFMT_R5G6B5) || (d3ddm.Format == D3DFMT_X1R5G5B5) || (d3ddm.Format == D3DFMT_X4R4G4B4))
				{
					if(nDepth == 16)
					{
						return d3ddm.Format;
					}
				}
				else if((d3ddm.Format == D3DFMT_R8G8B8) || (d3ddm.Format == D3DFMT_X8R8G8B8))
				{
					if(nDepth == 32)
					{
						return d3ddm.Format;
					}
				}
			}
		}
	}

	return D3DFMT_UNKNOWN;
}

HRESULT CGame::InitialiseD3D(HWND hWnd, UINT nWidth, UINT nHeight)
{
	WriteToLog("InitialiseD3D Started...");

    //First of all, create the main D3D object. If it is created successfully we 
    //should get a pointer to an IDirect3D8 interface.
    m_pD3D = Direct3DCreate8(D3D_SDK_VERSION);
    if(m_pD3D == NULL)
    {
		WriteToLog("\tUnable to create DirectX8 interface.");
        return E_FAIL;
    }

    //Get the current display mode
    D3DDISPLAYMODE d3ddm;

	d3ddm.Format = CheckDisplayMode(nWidth, nHeight, 32);
	if(d3ddm.Format != D3DFMT_UNKNOWN)
	{
		//Width x Height x 32bit has been selected
		d3ddm.Width = nWidth;
		d3ddm.Height = nHeight;

		WriteToLog("\t%d x %d x 32bit back buffer format selected. Format = %d.", nWidth, nHeight, d3ddm.Format);
	}
	else
	{
		d3ddm.Format = CheckDisplayMode(nWidth, nHeight, 16);
		if(d3ddm.Format != D3DFMT_UNKNOWN)
		{
            //Width x Height x 16bit has been selected
			d3ddm.Width = nWidth;
			d3ddm.Height = nHeight;

			WriteToLog("\t%d x %d x 16bit back buffer format selected. Format = %d.", nWidth, nHeight, d3ddm.Format);
		}
        else
		{
			WriteToLog("\tUnable to select back buffer format for %d x %d.", nWidth, nHeight);
            return E_FAIL;
        }
	}


    //Create a structure to hold the settings for our device
    D3DPRESENT_PARAMETERS d3dpp; 
    ZeroMemory(&d3dpp, sizeof(d3dpp));

	d3dpp.Windowed = FALSE;
    d3dpp.BackBufferCount = 1;
    d3dpp.BackBufferFormat = d3ddm.Format;
    d3dpp.BackBufferWidth = d3ddm.Width;
    d3dpp.BackBufferHeight = d3ddm.Height;
    d3dpp.hDeviceWindow = hWnd;
    d3dpp.SwapEffect = D3DSWAPEFFECT_COPY_VSYNC;
	d3dpp.FullScreen_RefreshRateInHz = D3DPRESENT_RATE_DEFAULT;
    d3dpp.FullScreen_PresentationInterval = D3DPRESENT_INTERVAL_ONE;

	//Select the best depth buffer, select 32, 24 or 16 bit
    if(m_pD3D->CheckDeviceFormat(D3DADAPTER_DEFAULT, D3DDEVTYPE_HAL, d3ddm.Format, D3DUSAGE_DEPTHSTENCIL, D3DRTYPE_SURFACE, D3DFMT_D32) == D3D_OK)
	{
        d3dpp.AutoDepthStencilFormat = D3DFMT_D32;
        d3dpp.EnableAutoDepthStencil = TRUE;

		WriteToLog("\t32bit depth buffer selected");
    }
    else if(m_pD3D->CheckDeviceFormat(D3DADAPTER_DEFAULT, D3DDEVTYPE_HAL, d3ddm.Format, D3DUSAGE_DEPTHSTENCIL, D3DRTYPE_SURFACE, D3DFMT_D24X8) == D3D_OK)
    {
		d3dpp.AutoDepthStencilFormat = D3DFMT_D24X8;
        d3dpp.EnableAutoDepthStencil = TRUE;

		WriteToLog("\t24bit depth buffer selected");
	}
    else if(m_pD3D->CheckDeviceFormat(D3DADAPTER_DEFAULT, D3DDEVTYPE_HAL, d3ddm.Format, D3DUSAGE_DEPTHSTENCIL, D3DRTYPE_SURFACE, D3DFMT_D16) == D3D_OK)
    {
		d3dpp.AutoDepthStencilFormat = D3DFMT_D16;
        d3dpp.EnableAutoDepthStencil = TRUE;

		WriteToLog("\t16bit depth buffer selected");
	}
    else
	{
        d3dpp.EnableAutoDepthStencil = FALSE;
		WriteToLog("\tUnable to select depth buffer.");
	}


    //Create a Direct3D device.
    if(FAILED(m_pD3D->CreateDevice(D3DADAPTER_DEFAULT, D3DDEVTYPE_HAL, hWnd, 
                                   D3DCREATE_SOFTWARE_VERTEXPROCESSING, &d3dpp, &m_pD3DDevice)))
    {
		WriteToLog("\tUnable to create device.");
        return E_FAIL;
    }
    
	//Turn on back face culling. This is becuase we want to hide the back of our polygons
    m_pD3DDevice->SetRenderState(D3DRS_CULLMODE, D3DCULL_CCW);

	//Turn off lighting becuase we are specifying that our vertices have colour
    m_pD3DDevice->SetRenderState(D3DRS_LIGHTING, FALSE);

	//Turn on Depth Buffering
    m_pD3DDevice->SetRenderState(D3DRS_ZENABLE, D3DZB_TRUE);

	WriteToLog("InitialiseD3D Finished OK");

    return S_OK;
}

LPDIRECT3DDEVICE8 CGame::GetDevice()
{
	return m_pD3DDevice;
}

void CGame::GameLoop()
{
    //Enter the game loop
    MSG msg; 
    BOOL fMessage;

    PeekMessage(&msg, NULL, 0U, 0U, PM_NOREMOVE);

	//Game started, so record time
	m_dwStartTime = timeGetTime();

    while(msg.message != WM_QUIT)
    {
        fMessage = PeekMessage(&msg, NULL, 0U, 0U, PM_REMOVE);

        if(fMessage)
        {
            //Process message
            TranslateMessage(&msg);
            DispatchMessage(&msg);
        }
        else
        {
            //No message to process, so render the current scene
            Render();
        }

    }
}

void CGame::Render()
{
    if(m_pD3DDevice == NULL)
    {
        return;
    }

    //Clear the back buffer and depth buffer
    m_pD3DDevice->Clear(0, NULL, D3DCLEAR_TARGET|D3DCLEAR_ZBUFFER, D3DCOLOR_XRGB(0, 0, 0), 1.0f, 0);
    
    //Begin the scene
    m_pD3DDevice->BeginScene();
    
	//Setup the rotation, camera, and perspective matrices
    SetupRotation();
	SetupCamera();
	SetupPerspective();


    //Rendering our objects
    m_pCube1->Render();
	m_pCube2->Render();
	m_pCube3->Render();
	m_pCube4->Render();
	m_pCube5->Render();
	m_pCube6->Render();


    //End the scene
    m_pD3DDevice->EndScene();
    
    //Filp the back and front buffers so that whatever has been rendered on the back buffer
    //will now be visible on screen (front buffer).
    m_pD3DDevice->Present(NULL, NULL, NULL, NULL);

	//Count Frames
	m_dwFrames++;
}

void CGame::SetupRotation()
{
    //Here we will rotate our world.
    D3DXMATRIX matWorld, matWorldX, matWorldY, matWorldZ;
    
	//Create the transformation matrices
	D3DXMatrixRotationX(&matWorldX, timeGetTime()/400.0f);
	D3DXMatrixRotationY(&matWorldY, timeGetTime()/400.0f);	
	D3DXMatrixRotationZ(&matWorldZ, timeGetTime()/400.0f);	

	//Combine the transformations by multiplying them together
	D3DXMatrixMultiply(&matWorld, &matWorldX, &matWorldY);
	D3DXMatrixMultiply(&matWorld, &matWorld, &matWorldZ);

	//Apply the tansformation
    m_pD3DDevice->SetTransform(D3DTS_WORLD, &matWorld);
}

void CGame::SetupCamera()
{
	//Here we will setup the camera.
	//The camera has three settings: "Camera Position", "Look at Position" and "Up Direction"
	//We have set the following:
	//Camera Position:	(0, 0, -100)
	//Look at Position: (0, 0, 0)
	//Up direction:		Y-Axis.
    D3DXMATRIX matView;
    D3DXMatrixLookAtLH(&matView, &D3DXVECTOR3(0.0f, 0.0f,-100.0f),		//Camera Position
                                 &D3DXVECTOR3(0.0f, 0.0f, 0.0f),		//Look At Position
                                 &D3DXVECTOR3(0.0f, 1.0f, 0.0f));		//Up Direction
    m_pD3DDevice->SetTransform(D3DTS_VIEW, &matView);
}

void CGame::SetupPerspective()
{
	//Here we specify the field of view, aspect ration and near and far clipping planes.
    D3DXMATRIX matProj;
    D3DXMatrixPerspectiveFovLH(&matProj, D3DX_PI/4, 1.0f, 1.0f, 500.0f);
    m_pD3DDevice->SetTransform(D3DTS_PROJECTION, &matProj);
}

void CGame::WriteToLog(char *lpszText, ...)
{
	if(m_fEnableLogging)
	{
		va_list argList;
		FILE *pFile;

		//Initialize variable argument list
		va_start(argList, lpszText);

		//Open the log file for appending
		pFile = fopen("log.txt", "a+");

		//Write the text and a newline
		vfprintf(pFile, lpszText, argList);
		putc('\n', pFile);

		//Close the file
		fclose(pFile);
		va_end(argList);
	}
}

void CGame::EnableLogging()
{
	m_fEnableLogging = true;
	
	FILE* pFile;

	//Clear the file contents
	pFile = fopen("log.txt", "wb");

	//Close it up and return success
	fclose(pFile);
}