//----SET void TBox::CreateBox(unsigned int m_iColor, const bool bText, const bool bSprite, const bool bLine) { if (m_pTextSprite == nullptr && bText) { m_pTextSprite = GfxTextSpriteCreate(); GfxSpriteSetFilteringEnabled(m_pTextSprite, true); } m_bIsDrawable = true; if (bLine) { //Line m_pLineSprite = GfxLineSpriteCreate(); } if (bSprite) { //Image TGfxImage * pImage = GfxImageCreate(1, 1); GfxImageGetData(pImage)[0] = EGfxColor_White; TGfxTexture * pTexture = GfxTextureCreate(pImage); m_pSprite = GfxSpriteCreate(pTexture); GfxSpriteSetFilteringEnabled(m_pSprite, false); GfxSpriteSetPivot(m_pSprite, 0.5f, 0.5f); SetColor(m_iColor); } }
void Initialize() { g_pBackground = GfxImageLoad("gfx/bg3.tga"); g_pTextureTest = GfxTextureCreate(g_pBackground); g_pSpritesBg = GfxSpriteCreate(g_pTextureTest); g_pTexture = GfxTextureLoad("gfx/tileset.tga"); // On crée g_pTexture ici et on l'envoie dans l'appel de fonction g_pSpriteHero = CreateTile(g_pTexture, 7, 7, 7, 5); // Initialisée en dehors du scope pour l'utiliser autre part ( Donc on n'écrit pas "TGfxSPrite *" devant ) ( debug mode = 2, 1 | normal mode = 0, 0 ) TGfxImage * pMapImage = GfxImageLoad("gfx/map.tga"); // Pas en const car on peut vouloir la delete ( Si on le laisse comme ça, il sera inutile et prendra de la mémoire inutile ! il faut le delete après la boucle avec le destroy int iImgSizeX = GfxImageGetSizeX(pMapImage); int iImgSizeY = GfxImageGetSizeY(pMapImage); for (int y = 0; y < iImgSizeY; ++y) { for (int x = 0; x < iImgSizeX; ++x) { const int iIndex = x + y * iImgSizeX; if (GfxImageGetData(pMapImage)[iIndex] == GfxColor(255, 255, 255, 255)) // SI je veux aller voir le premier élément je dois mettre [0] { g_pSpriteWall[g_iWallCount] = CreateTile(g_pTexture, 6, 1, x, y); // 6 et 1 au lieu de 1 et 1 pour mur ( 1, 1 = debug mode test ) g_iWallCount++; } if (GfxImageGetData(pMapImage)[iIndex] == GfxColor(255, 0, 0, 255)) // SI je veux aller voir le premier élément je dois mettre [0] { g_pSpriteDeathWall[g_iDeathWallCount] = CreateTile(g_pTexture, 7, 1, x, y); g_iDeathWallCount++; } } } GfxImageDestroy(pMapImage); // for (int i = 0; i < WALL_HEIGHT; i++) !!!!!! Attention que ça doit bien s'adapter à la taille du tableau !!!!!! // { // g_pSpriteWall[i] = CreateTile(g_pTexture, 12, 3, 0, i); // } // TGfxImage Les 3 permettent d'afficher des choses. // TGfxTexture Une image est un ensemble de pixel d'un certaine taille. // TGfxSprite 32 bits par pixel. // Un sprite n'est pas autonome, ça fait référence à une texture existente, il contiendra les info qui lui diront avec quelle rotation, quelle SCALE, et quelle partie de la texture utiliser ! Le sprite c'est la transformation. une partie de la texture }
void Initialize() { int sizeX = (GfxGetDisplaySizeX() / 2); int sizeY = (GfxGetDisplaySizeY() / 2); g_pLines = GfxLineSpriteCreate(); g_pLines2 = GfxLineSpriteCreate(); ArcheoStuffs::DrawCircle(g_pLines, TGfxVec2(0, 0), 8, GfxColor(255, 255, 0, 255), true); // Player creation for (int i = 0; i < g_iNbrCave; i++) { g_bCaveSearched[i] = false; } g_pImage = GfxImageCreate(1,1); unsigned int * pData = GfxImageGetData(g_pImage); *pData = EGfxColor_White; g_pTexture = GfxTextureCreate(g_pImage); g_pSpritePlayer = GfxSpriteCreate(g_pTexture); g_pSpriteBase = GfxSpriteCreate(g_pTexture); GfxSpriteSetScale(g_pSpritePlayer, 16, 16); GfxSpriteSetColor(g_pSpritePlayer, GfxColor(255, 255, 0, 255)); g_TPlayerData.iPos = TGfxVec2(sizeX - 8, sizeY - 8); g_TPlayerData.iPosX = sizeX - 8; g_TPlayerData.iPosY = sizeY - 8; GfxSpriteSetScale(g_pSpriteBase, 32, 32); GfxSpriteSetColor(g_pSpriteBase, GfxColor(0, 255, 0, 255)); GfxSpriteSetPosition(g_pSpriteBase, sizeX-16, sizeY-16); for (int i = 0; i < g_iNbrCave; i++) { ArcheoStuffs::CreateCave(i); } }
void ChangeColor(int iPosX, int iPosY, int iImgSizeX) { GfxTextureDestroy(g_pBackgroundTexture); GfxSpriteDestroy(g_pBackgroundSprite); g_pData = GfxImageGetData(g_pBackgroundImage); const int iIndex = iPosX + (iPosY * iImgSizeX); if (g_pData[iIndex] == GfxColor(255, 0, 0, 255)) { g_pData[iIndex] = EGfxColor_White; } else { g_pData[iIndex] = EGfxColor_Red; } g_pBackgroundTexture = GfxTextureCreate(g_pBackgroundImage); g_pBackgroundSprite = GfxSpriteCreate(g_pBackgroundTexture); GfxSpriteSetScale(g_pBackgroundSprite, 32, 32); GfxSpriteSetFilteringEnabled(g_pBackgroundSprite, false); }
void Initialize() { g_pBackgroundImage = GfxImageLoad("map.tga"); g_pData = GfxImageGetData(g_pBackgroundImage); const int iImgSizeX = GfxImageGetSizeX(g_pBackgroundImage); const int iImgSizeY = GfxImageGetSizeY(g_pBackgroundImage); for (int y = 0; y < iImgSizeY; ++y) { for (int x = 0; x < iImgSizeX; ++x) { const int iIndex = x + (y * iImgSizeX); if (g_pData[iIndex] == GfxColor(0, 0, 255, 255) || g_pData[iIndex] == GfxColor(255, 0, 0, 255) || g_pData[iIndex] == GfxColor(0, 255, 0, 255)) { g_pData[iIndex] = EGfxColor_White; } } } g_pBackgroundTexture = GfxTextureCreate(g_pBackgroundImage); g_pBackgroundSprite = GfxSpriteCreate(g_pBackgroundTexture); GfxSpriteSetScale(g_pBackgroundSprite, 32, 32); GfxSpriteSetFilteringEnabled(g_pBackgroundSprite, false); g_pSpriteIncome = GfxTextSpriteCreate(); GfxTextSpritePrintf(g_pSpriteIncome, "revenue: $%d", g_iIncome); GfxSpriteSetFilteringEnabled(g_pSpriteIncome, false); GfxSpriteSetScale(g_pSpriteIncome, 2, 2); GfxSpriteSetPosition(g_pSpriteIncome, float((GfxGetDisplaySizeX() / 2) - GfxSpriteGetSizeX(g_pSpriteIncome)), 290); GfxSpriteSetColor(g_pSpriteIncome, GfxColor(255, 255, 255, 255)); TGfxImage * pMapImage = GfxImageLoad("map.tga"); const int iSecondImgSizeX = GfxImageGetSizeX(pMapImage); const int iSecondImgSizeY = GfxImageGetSizeY(pMapImage); for (int i = 0; i < 3; i++) // Boucle créant les numéros sur les buildings { for (int y = 0; y < iSecondImgSizeY; ++y) { for (int x = 0; x < iSecondImgSizeX; ++x) { const int iIndex = x + (y * iSecondImgSizeX); if (i == 0) { if (GfxImageGetData(pMapImage)[iIndex] == GfxColor(255, 0, 0, 255)) // RED CHECKING & CREATING { g_tBuilding[g_iBuildingCount].Create(x, y, g_iBuildingCount, SCALE); g_iBuildingCount++; } } else if (i == 1) { if (GfxImageGetData(pMapImage)[iIndex] == GfxColor(0, 255, 0, 255)) // GREEN CHECKING & CREATING { g_tBuilding[g_iBuildingCount].Create(x, y, g_iBuildingCount, SCALE); g_iBuildingCount++; } } else if (i == 2) { if (GfxImageGetData(pMapImage)[iIndex] == GfxColor(0, 0, 255, 255)) // BLUE CHECKING & CREATING { g_tBuilding[g_iBuildingCount].Create(x, y, g_iBuildingCount, SCALE); g_iBuildingCount++; } } } } } GfxImageDestroy(pMapImage); }
void Update() { //Effacer le sprite et texture de la mémoire if (g_pSprite != nullptr) { GfxSpriteDestroy(g_pSprite); g_pSprite = nullptr; // Libert l'adresse mémoire du sprite } if (g_pTexture != nullptr) { GfxTextureDestroy(g_pTexture); g_pTexture = nullptr; } TCamera tCamera; TSphere tSphere[MAX_SPHERES]; TPlan tPlan; tPlan.m_tPosition = TGfxVec3(0, -5, 0); tSphere[0].m_tPosition = TGfxVec3(-1, 0, 8); tSphere[0].m_tColor = TGfxVec3(255, 0, 0); tSphere[1].m_tPosition = TGfxVec3(-3, 0, 8); tSphere[1].m_tColor = TGfxVec3(255, 255, 0); tSphere[2].m_tPosition = TGfxVec3(1, 0, 8); tSphere[2].m_tColor = TGfxVec3(0, 0, 255); tSphere[3].m_tPosition = TGfxVec3(3, 0, 8); tSphere[3].m_tColor = TGfxVec3(255, 255, 0); tSphere[4].m_tPosition = TGfxVec3(0, 1, 8); tSphere[4].m_tColor = TGfxVec3(255, 0, 0); tSphere[5].m_tPosition = TGfxVec3(0, -1, 8); tSphere[5].m_tColor = TGfxVec3(0, 0, 255); tSphere[6].m_tPosition = TGfxVec3(0, -3, 8); tSphere[6].m_tColor = TGfxVec3(255, 255, 0); tSphere[7].m_tPosition = TGfxVec3(0, 3, 8); tSphere[7].m_tColor = TGfxVec3(255, 255, 0); tSphere[8].m_tPosition = TGfxVec3(-2, -2, 8); tSphere[8].m_tColor = TGfxVec3(255, 255, 0); tSphere[9].m_tPosition = TGfxVec3(-2, 2, 8); tSphere[9].m_tColor = TGfxVec3(255, 255, 0); tSphere[10].m_tPosition = TGfxVec3(2, 2, 8); tSphere[10].m_tColor = TGfxVec3(255, 255, 0); tSphere[11].m_tPosition = TGfxVec3(2, -2, 8); tSphere[11].m_tColor = TGfxVec3(255, 255, 0); tCamera.m_tPosition = TGfxVec3(g_fx, g_fy, g_fz); tCamera.m_fFOV = 120.f; tCamera.Render(g_pImage, tSphere, tPlan); g_pTexture = GfxTextureCreate(g_pImage); g_pSprite = GfxSpriteCreate(g_pTexture); GfxSpriteSetScale(g_pSprite, float(SCALE_FACTOR), float(SCALE_FACTOR)); GfxSpriteSetFilteringEnabled(g_pSprite, false); if (GfxInputIsPressed(EGfxInputID_KeyArrowUp)) { g_fy += 0.1f; } if (GfxInputIsPressed(EGfxInputID_KeyArrowDown)) { g_fy -= 0.1f; } if (GfxInputIsPressed(EGfxInputID_KeyArrowRight)) { g_fx += 0.1f; } if (GfxInputIsPressed(EGfxInputID_KeyArrowLeft)) { g_fx -= 0.1f; } if (GfxInputIsPressed(EGfxInputID_KeyCharS)) { g_fz -= 0.1f; } if (GfxInputIsPressed(EGfxInputID_KeyCharZ)) { g_fz += 0.1f; } }