Exemplo n.º 1
0
void CzPlatformRender::DrawPrimitives(CzRenderPrim3* prims, CzRenderMaterial* materials, int num_prims, bool single_material)
{
	while (num_prims-- > 0)
	{
		CIwMaterial::AlphaMode am = (CIwMaterial::AlphaMode)materials->AlphaMode;	// TODO Add proper method to map Marmalade Alpha mode to Marmalade
		int vc = prims->VertCount;

		// Set up vertex streams
		if (prims->UVs != NULL)
			IwGxSetUVStream((CIwFVec2*)prims->UVs, 0);
		else
			IwGxSetUVStream(NULL);
		if (prims->ModelSpace)
			IwGxSetVertStreamModelSpace((CIwFVec3*)prims->Verts, vc);
		else
			IwGxSetVertStreamViewSpace((CIwFVec3*)prims->Verts, vc);
		IwGxSetColStream((CIwColour*)prims->Colours);
		IwGxSetNormStream((CIwFVec3*)prims->Normals);

		CzTexture texture = materials->Image->getTexture();
		CIwTexture* mt = static_cast<CIwTexture*>(texture);
		bool filter;
		if (materials->Image->isFilterSet())
			filter = mt->GetFiltering();
		else
			filter = materials->Filter;

		// Only create new render material if something important has changed
		if (texture != CurrentTexture || CurrentAlphaMode != materials->AlphaMode || CurrentFilter != filter || CurrentTexture == NULL || CurrentTiled != materials->Tiled)
		{
			CIwMaterial* mat = IW_GX_ALLOC_MATERIAL();
			mat->SetTexture(mt);
			mat->SetDepthWriteMode(CIwMaterial::DEPTH_WRITE_DISABLED);
			mat->SetClamping(!materials->Tiled);
			mat->SetFiltering(filter);
			mat->SetAlphaMode(am);
			mat->SetCullMode(CIwMaterial::CULL_BACK);
//			mat->SetCullMode(CIwMaterial::CULL_NONE);
			IwGxSetMaterial(mat);
			CurrentTexture = texture;
			CurrentAlphaMode = materials->AlphaMode;
			CurrentTiled = materials->Tiled;
			CurrentFilter = filter;
		}
		else
		{
			RedundantTextureCalls++;
		}
	
		// Render the primitive
		IwGxDrawPrims(CzToIwGxPrimType[prims->Type], prims->Indices, prims->IndicesCount);

		// Move to next primitive
		prims++;
		if (!single_material)
			materials++;
	}
}
Exemplo n.º 2
0
void CRenderer::DrawBatch()
{
	if ( GetVBSize() > 0 )
	{
		IwGxLightingOff();
		IwGxSetMaterial( mCurrMtl ); 
		IwGxSetUVStream( mUVB );
		IwGxSetColStream(mCB, mCBSize); 
		IwGxSetVertStreamScreenSpaceSubPixel( mVB, mVBSize );
		if ( mIBSize == 0 )
		{
			IwGxDrawPrims(mBuffType, NULL, mVBSize);
		}
		else
		{
			IwGxDrawPrims(mBuffType, mIB, mIBSize);
		}
		
		
		mCurrMtl = NULL;
		//DefaultMaterial();
	
		IwGxFlush(); 
		IwGxSetColStream(NULL); 
		//IwGxSetUVStream( NULL );
		ResetBuffers();
	}
}
Exemplo n.º 3
0
void renderMap() {
	IwGxLightingOff();
	
	CIwMaterial* pMat = IW_GX_ALLOC_MATERIAL();
    pMat->SetModulateMode(CIwMaterial::MODULATE_NONE);
    pMat->SetTexture(mapTexture);

	IwGxSetMaterial(pMat);

	IwGxSetScreenSpaceSlot(-1);

	float zoom = getMapZoom()->getZoom();

	int16 hScrW = (double)IwGxGetScreenWidth()*0.5f;
	int16 hScrH = (double)IwGxGetScreenHeight()*0.5f;
	int16 x1 = hScrW - hScrW*zoom;
	int16 x2 = hScrW + hScrW*zoom;
	int16 y1 = hScrH - hScrH*zoom;
	int16 y2 = hScrH + hScrH*zoom;

	mapVertZoom[0].x = x1, mapVertZoom[0].y = y1;
	mapVertZoom[1].x = x1, mapVertZoom[1].y = y2;
	mapVertZoom[2].x = x2, mapVertZoom[2].y = y2;
	mapVertZoom[3].x = x2, mapVertZoom[3].y = y1;

    IwGxSetUVStream(mapDefaultUvs);
    IwGxSetVertStreamScreenSpace(mapVertZoom, 4);

    IwGxDrawPrims(IW_GX_QUAD_LIST, NULL, 4);
}
Exemplo n.º 4
0
// This is the main rendering function that you have to implement and provide to ImGui (via setting up 'RenderDrawListsFn' in the ImGuiIO structure)
void ImGui_Marmalade_RenderDrawLists(ImDrawData* draw_data)
{
    // Handle cases of screen coordinates != from framebuffer coordinates (e.g. retina displays)
    ImGuiIO& io = ImGui::GetIO();
    draw_data->ScaleClipRects(io.DisplayFramebufferScale);

    // Render command lists
    for(int n = 0; n < draw_data->CmdListsCount; n++)
    {
        const ImDrawList* cmd_list = draw_data->CmdLists[n];
        const unsigned char* vtx_buffer = (const unsigned char*)&cmd_list->VtxBuffer.front();
        const ImDrawIdx* idx_buffer = &cmd_list->IdxBuffer.front();
        int nVert = cmd_list->VtxBuffer.size();
        CIwFVec2* pVertStream = IW_GX_ALLOC(CIwFVec2, nVert);
        CIwFVec2* pUVStream = IW_GX_ALLOC(CIwFVec2, nVert);
        CIwColour* pColStream = IW_GX_ALLOC(CIwColour, nVert);

        for( int i=0; i < nVert; i++ )
        {
            // TODO: optimize multiplication on gpu using vertex shader
            pVertStream[i].x = cmd_list->VtxBuffer[i].pos.x * g_scale.x;
            pVertStream[i].y = cmd_list->VtxBuffer[i].pos.y * g_scale.y;
            pUVStream[i].x = cmd_list->VtxBuffer[i].uv.x;
            pUVStream[i].y = cmd_list->VtxBuffer[i].uv.y;
            pColStream[i] = cmd_list->VtxBuffer[i].col;
        }

        IwGxSetVertStreamScreenSpace(pVertStream, nVert);
        IwGxSetUVStream(pUVStream);
        IwGxSetColStream(pColStream, nVert);
        IwGxSetNormStream(0);

        for (int cmd_i = 0; cmd_i < cmd_list->CmdBuffer.size(); cmd_i++)
        {
            const ImDrawCmd* pcmd = &cmd_list->CmdBuffer[cmd_i];
            if (pcmd->UserCallback)
            {
                pcmd->UserCallback(cmd_list,pcmd);
            }
            else
            {
                CIwMaterial* pCurrentMaterial = IW_GX_ALLOC_MATERIAL();
                pCurrentMaterial->SetShadeMode(CIwMaterial::SHADE_FLAT);
                pCurrentMaterial->SetCullMode(CIwMaterial::CULL_NONE);
                pCurrentMaterial->SetFiltering(false);
                pCurrentMaterial->SetAlphaMode(CIwMaterial::ALPHA_BLEND);
                pCurrentMaterial->SetDepthWriteMode(CIwMaterial::DEPTH_WRITE_NORMAL);
                pCurrentMaterial->SetAlphaTestMode(CIwMaterial::ALPHATEST_DISABLED);
                pCurrentMaterial->SetTexture((CIwTexture*)pcmd->TextureId);
                IwGxSetMaterial(pCurrentMaterial);
                IwGxDrawPrims(IW_GX_TRI_LIST, (uint16*)idx_buffer, pcmd->ElemCount);
            }
            idx_buffer += pcmd->ElemCount;
        }
        IwGxFlush();
    }

    // TODO: restore modified state (i.e. mvp matrix)
}
Exemplo n.º 5
0
void CRenderer::DrawDirect( IwGxPrimType type, CIwSVec2 * vertex, CIwSVec2 * uv, uint16* indexStream, CIwColour * colour, int32 vertexCount, CIwMaterial * mat )
{
	IwGxLightingOff();
	IwGxSetMaterial( mat ); 
	IwGxSetUVStream( uv );
	IwGxSetColStream(colour, vertexCount); 
	IwGxSetVertStreamScreenSpaceSubPixel( vertex, vertexCount );
	IwGxDrawPrims(type, indexStream, vertexCount);

	IwGxFlush(); 
	IwGxSetColStream(NULL); 
}
Exemplo n.º 6
0
void myIwGxDoneStars()
{
    IwGxSetScreenSpaceSlot(3);
    IwGxSetVertStreamScreenSpace( svertices, ssend_vertices );
    CIwMaterial *pMat = IW_GX_ALLOC_MATERIAL();
    pMat->SetAlphaMode( CIwMaterial::ALPHA_ADD );
    pMat->SetTexture( star_texture );
    pMat->SetColAmbient( 0xFF, 0xFF, 0xFF, 0xFF );
    IwGxSetMaterial( pMat );
    IwGxSetUVStream( suvdata );
    IwGxSetColStream( scolors, ssend_vertices );
    IwGxDrawPrims( IW_GX_QUAD_LIST, NULL, ssend_vertices );
    IwGxFlush();
}
Exemplo n.º 7
0
void ResourceManager::paint(const char* res, int x, int y, int w, int h, int* lm, int* tm, int* rm, int* bm) {
	int width, height;
	if (res == NULL) return;
	CIwMaterial* t = load(res, &width, &height);
	if (t == NULL) return;
    if (vertC + 4 >= MAX_VERTS) return;
	if (width != 0) {
		if (lm != 0) {
			*lm = (*lm * w) / width;
			x -= *lm;
			w += *lm;
		}
		if (rm != 0) {
			*rm = (*rm * w) / width;
			w += *rm;
		}
	}
	if (height != 0) {
		if (tm != 0) {
			*tm = (*tm * h) / height;
			y -= *tm;
			h += *tm;
		}
		if (bm != NULL) {
			*bm = (*bm * h) / height;
			h += *bm;
		}
	}
    int offset = vertC;
	xy3[vertC].x = x,     xy3[vertC].y = y;      vertC++;
	xy3[vertC].x = x,     xy3[vertC].y = y + h;  vertC++;
	xy3[vertC].x = x + w, xy3[vertC].y = y + h;  vertC++;
	xy3[vertC].x = x + w, xy3[vertC].y = y;      vertC++;
	IwGxSetVertStreamScreenSpace(xy3 + offset, 4);
	IwGxSetMaterial(t);
	static CIwFVec2 uvs[4] = {
		CIwFVec2(0, 0),
		CIwFVec2(0, 1),
		CIwFVec2(1, 1),
		CIwFVec2(1, 0),
	};
/*	static CIwSVec2 uvs[4] = {
		CIwSVec2(0,           0),
		CIwSVec2(0,           IW_GEOM_ONE),
		CIwSVec2(IW_GEOM_ONE, IW_GEOM_ONE),
		CIwSVec2(IW_GEOM_ONE, 0),
	};*/
	IwGxSetUVStream(uvs);
	IwGxDrawPrims(IW_GX_QUAD_LIST, NULL, 4);
}
Exemplo n.º 8
0
void renderImageWorldSpace(CIwFVec2& position, float angle, float scaleFactor,
                        int textureSize, float worldRot, int frameNumber, int numFrames, float z) {
	
	static CIwSVec3 vertices[4];
	static CIwSVec2 UVs[4];
	
	//set up model space vertices
	
	int vertexDist = scaleFactor*textureSize/2;
	
	vertices[0] = CIwSVec3(-1*vertexDist, -1*vertexDist, z);
	vertices[2] = CIwSVec3(vertexDist, -1*vertexDist,    z);
	vertices[3] = CIwSVec3(vertexDist, vertexDist,       z);
	vertices[1] = CIwSVec3(-1*vertexDist, vertexDist,    z);
	
	CIwMat modelTransform = CIwMat::g_Identity;
	modelTransform.SetRotZ(IW_ANGLE_FROM_RADIANS(angle));
	modelTransform.SetTrans(CIwVec3(position.x, -position.y, 0));
	    
	CIwMat rot = CIwMat::g_Identity;
 	rot.SetRotZ(IW_ANGLE_FROM_RADIANS(worldRot));
	modelTransform = modelTransform*rot;
	
	IwGxSetModelMatrix(&modelTransform, false);
	
	float frameRatio = 1.0/numFrames;
	
	//set up sprite UV's
    
    iwfixed cf = IW_FIXED((float)frameNumber  / numFrames);
    iwfixed nf = IW_FIXED((frameNumber + 1.0) / numFrames);
    
	UVs[0] = CIwSVec2(cf, 0);
	UVs[2] = CIwSVec2(nf, 0);
	UVs[3] = CIwSVec2(nf, IW_GEOM_ONE);
	UVs[1] = CIwSVec2(cf, IW_GEOM_ONE);
		
	//render the unit in model space
	IwGxSetUVStream(UVs);
	
	IwGxSetZDepthFixed(8);	
	
	IwGxSetVertStreamModelSpace(vertices, 4);
	IwGxDrawPrims(IW_GX_QUAD_STRIP, NULL, 4);
	
    IwGxFlush();
}
Exemplo n.º 9
0
void renderCamera() {

	IwGxLightingOff();

    // Refresh dynamic texture
    if (g_CameraTexture != NULL)
        g_CameraTexture->ChangeTexels((uint8*)g_pCameraTexelsRGB565, CIwImage::RGB_565);

    CIwMaterial* pMat = IW_GX_ALLOC_MATERIAL();
    pMat->SetModulateMode(CIwMaterial::MODULATE_NONE);
    pMat->SetTexture(g_CameraTexture);

    IwGxSetMaterial(pMat);

	IwGxSetScreenSpaceSlot(-1);

    IwGxSetUVStream(cameraUvs);
    IwGxSetVertStreamScreenSpace(cameraVert, 4);

    IwGxDrawPrims(IW_GX_QUAD_LIST, NULL, 4);
}
Exemplo n.º 10
0
// BatchDrawPrims - Currently only supports batching of Quad lists
void CzPlatformRender::BatchDrawPrims(bool filter)
{
	if (NextMaterial == 0)
		return;

	// Allocate memory from data cache for verts, UV's and colours
	for (int t = 0; t < NextMaterial; t++)
	{
		int prim_count = MaterialUsedCounts[t] * 4;
		BatchVerts[t] = IW_GX_ALLOC(CzVec2, prim_count);
		BatchUVs[t] = IW_GX_ALLOC(CzVec2, prim_count);
		BatchColours[t] = IW_GX_ALLOC(CzColour, prim_count);
		BatchIndices[t] = IW_GX_ALLOC(uint16, prim_count);
	}

	// Populate the data cache
	CzRenderPrim** prims = Primitives;
	for (int t = 0; t < NextPrimitive; t++)
	{
		CzRenderPrim *prim = *prims;
		int mat_id = prim->MaterialID;
		int idx = MaterialIndices[mat_id];
		CzVec2* v = BatchVerts[mat_id] + idx;
		CzVec2* uv = BatchUVs[mat_id] + idx;
		CzColour* c = BatchColours[mat_id] + idx;
		uint16* i = BatchIndices[mat_id] + idx;
		for (int t2 = 0; t2 < 4; t2++)
		{
			v->x = (prim->Verts + t2)->x;
			v->y = (prim->Verts + t2)->y;
			uv->x = (prim->UVs + t2)->x;
			uv->y = (prim->UVs + t2)->y;
			c->set(*(prim->Colours + t2));
			v++; uv++; c++;
		}
// TODO: ERROR - Does not work with batched ngon
		*i++ = idx;
		*i++ = idx + 3;
		*i++ = idx + 2;
		*i++ = idx + 1;
		MaterialIndices[mat_id] += 4;
		prims++;
	}

	// Render batched streams
	CzRenderMaterial** mats = Materials;
	for (int t = 0; t < NextMaterial; t++)
	{
		int count = MaterialUsedCounts[t] * 4;
		IwGxSetUVStream((CIwFVec2*)BatchUVs[t], 0);
		IwGxSetVertStreamScreenSpace((CIwFVec2*)BatchVerts[t], count);
		IwGxSetColStream((CIwColour*)(BatchColours[t]), count);
		IwGxSetNormStream(NULL);
		CIwMaterial* mat = IW_GX_ALLOC_MATERIAL();
		CIwTexture* texture = static_cast<CIwTexture*>((*mats)->Image->getTexture());
		mat->SetTexture(texture);
		mat->SetDepthWriteMode(CIwMaterial::DEPTH_WRITE_DISABLED);
		mat->SetClamping(false);
		mat->SetFiltering(filter);
		mat->SetAlphaMode(CIwMaterial::ALPHA_BLEND);
		mat->SetCullMode(CIwMaterial::CULL_BACK);
//		mat->SetCullMode(CIwMaterial::CULL_NONE);
		IwGxSetMaterial(mat);
		IwGxDrawPrims(IW_GX_QUAD_LIST, BatchIndices[t], count);
		mats++;
	}

	// Reset batch pointers
	for (int t = 0; t < NextMaterial; t++)
		MaterialUsedCounts[t] = 0;
	for (int t = 0; t < NextMaterial; t++)
		MaterialIndices[t] = 0;
	NextPrimitive = 0;
	NextMaterial = 0;
}
Exemplo n.º 11
0
void CameraDefend::Render() {
	if (defended) {
		IwGxLightingOff();

		animMatSuccess->SetModulateMode(CIwMaterial::MODULATE_NONE);
		animMatSuccess->SetAlphaMode(CIwMaterial::ALPHA_BLEND);

		IwGxSetMaterial(animMatSuccess);
		IwGxSetUVStream(anim_uvs_success);

		IwGxSetVertStreamScreenSpace(animVertsLeftSuccess, 4);
		IwGxDrawPrims(IW_GX_QUAD_LIST, NULL, 4);

		IwGxSetVertStreamScreenSpace(animVertsRightSuccess, 4);
		IwGxDrawPrims(IW_GX_QUAD_LIST, NULL, 4);

		if (animMatSuccess->GetAnimCelID() == animMatSuccess->GetAnimCelNum() - 1) {
			defended = false;
		}
	} else {
		animMatSuccess->SetAnimCelID(0);
	}

	if (!isActive()) return;

	{
		Ghost* ghost = getGameState()->getGhost();
		GhostAttack* attack = (ghost != NULL) ? ghost->getAttack() : NULL;

		if (attack != NULL && 
			((attack->getInterval() <  750 && attack->getInterval() > 600) ||
			 (attack->getInterval() <  400 && attack->getInterval() > 250))) {
			dotTexture = dotTextureRed;
		} else {
			dotTexture = dotTextureGreen;
		}
	}

	Iw2DSetAlphaMode(IW_2D_ALPHA_NONE);
	Iw2DSetTransformMatrix(CIwFMat2D::g_Identity);

	CIwFMat2D rot;
	rot.SetRot(rad(dotAngle), CIwFVec2(
		dotVertsTopLeftLeft.x + dotVertsSizeLeft.x/2, 
		dotVertsTopLeftLeft.y + dotVertsSizeLeft.y/2));
	Iw2DSetTransformMatrix(rot);
	Iw2DDrawImage(dotTexture, dotVertsTopLeftLeft, dotVertsSizeLeft);

	rot.SetRot(rad(dotAngle), CIwFVec2(
		dotVertsTopLeftRight.x + dotVertsSizeRight.x/2, 
		dotVertsTopLeftRight.y + dotVertsSizeRight.y/2));
	Iw2DSetTransformMatrix(rot);
	Iw2DDrawImage(dotTexture, dotVertsTopLeftRight, dotVertsSizeRight);

	bool isDrwaing = true;
	for (int i = 0; i < DEFEND_TOUCHES_MAX; i++) {
		// Is any touch drawing?
		if (touch[i]->drawing) break;

		if (i == DEFEND_TOUCHES_MAX - 1) {
			isDrwaing = false;
			animMat->SetAnimCelID(0);
		}
	}

	if (isDrwaing) {
		IwGxLightingOff();

		animMat->SetModulateMode(CIwMaterial::MODULATE_NONE);
		animMat->SetAlphaMode(CIwMaterial::ALPHA_BLEND);

		IwGxSetMaterial(animMat);
		IwGxSetUVStream(anim_uvs);

		IwGxSetVertStreamScreenSpace(animVertsLeft, 4);
		IwGxDrawPrims(IW_GX_QUAD_LIST, NULL, 4);

		IwGxSetVertStreamScreenSpace(animVertsRight, 4);
		IwGxDrawPrims(IW_GX_QUAD_LIST, NULL, 4);
	}
}
Exemplo n.º 12
0
void MapBackground::RenderBackgroundOnSurface(CIw2DSurface* pSurface)
{
	std::list<MapTile*>::iterator iter = gVectorImageUrls.begin();

	// Set up a view matrix to rotate what we are viewing about the z-axis
	// This normalizes the center of the screen to (0,0), so we need to offset
	// our coordinates.
	// We also need to scale in our X and Y directions.

	CIwColour colClear;
	colClear = IwGxGetColClear();

	if (g_dAlpha < 0xFF)
	{
		IwGxSetColClear(0, 0, 0, 0);
	}

	CIwColour* cols = IW_GX_ALLOC(CIwColour, 4);
	for (int i = 0; i < 4; ++i)
	{
		cols[i].r = cols[i].g = cols[i].b = 0xff;
		cols[i].a = (uint8)g_dAlpha;
	}
	//static CIwSVec2 uvs[4] =
	//{
	//	CIwSVec2(0 << 12, 0 << 12),
	//	CIwSVec2(0 << 12, 1 << 12),
	//	CIwSVec2(1 << 12, 1 << 12),
	//	CIwSVec2(1 << 12, 0 << 12),
	//};
	static CIwSVec2 uvs[4] =
	{
		CIwSVec2((0 << 12) + 1, (0 << 12) + 1),
		CIwSVec2((0 << 12) + 1, (1 << 12) - 1),
		CIwSVec2((1 << 12) - 1, (1 << 12) - 1),
		CIwSVec2((1 << 12) - 1, (0 << 12) + 1),
	};

	static CIwSVec2 uvsRot[4] =
	{
		CIwSVec2((0 << 12) + 20, (0 << 12) + 20),
		CIwSVec2((0 << 12) + 20, (1 << 12) - 20),
		CIwSVec2((1 << 12) - 20, (1 << 12) - 20),
		CIwSVec2((1 << 12) - 20, (0 << 12) + 20),
	};

	while (iter != gVectorImageUrls.end())
	{
		MapTile* pTile = *iter;
		
		CIwTexture* pTexture = pTile->pTexture;

		if (pTexture)
		{
			//Calculate the top left of the map image
			CIwSVec2 topLeft = pTile->location;

			CIwMaterial* pMat = IW_GX_ALLOC_MATERIAL();
			pMat->SetAlphaMode(CIwMaterial::ALPHA_BLEND);
			pMat->SetModulateMode(CIwMaterial::MODULATE_RGB);

			// Use Texture on Material
			pMat->SetTexture(pTexture);
			IwGxSetMaterial(pMat);

			int xOffset = IwGxGetScreenWidth() / 2;
			int yOffset = IwGxGetScreenHeight() / 2;

			CIwSVec3* pWSCoords= IW_GX_ALLOC(CIwSVec3, 4);
 			pWSCoords[0].x = topLeft.x; pWSCoords[0].y = topLeft.y;
			pWSCoords[1].x = topLeft.x; pWSCoords[1].y = topLeft.y + 256;
			pWSCoords[2].x = topLeft.x + 256; pWSCoords[2].y = topLeft.y + 256;
			pWSCoords[3].x = topLeft.x + 256; pWSCoords[3].y = topLeft.y;
			pWSCoords[0].z = pWSCoords[1].z = pWSCoords[2].z = pWSCoords[3].z = 0;

			// Scale the coordinates by offsetting, scaling and rendering
			for (int i = 0; i < 4; ++i)
			{
				pWSCoords[i].x -= xOffset;
				pWSCoords[i].y -= yOffset;
			}

			IwGxSetVertStreamWorldSpace(pWSCoords, 4);

			if (g_bScaledMode)
			{
				IwGxSetUVStream(uvsRot);
			}
			else
			{
				IwGxSetUVStream(uvs);
			}
			IwGxSetColStream(cols);
			IwGxDrawPrims(IW_GX_QUAD_LIST, NULL, 4);
		}
		iter++;
	}
	IwGxSetColStream(NULL);
	//IwGxSetColClear(colClear.r, colClear.g, colClear.b, colClear.a);
}
Exemplo n.º 13
0
void MapBackground::DownloadTiles()
{
	CIwTexture* tx = (CIwTexture*)IwGetResManager()->GetResNamed("logo", IW_GX_RESTYPE_TEXTURE);
	uint32 w1 = tx->GetWidth();
	uint32 h1 = tx->GetHeight();

	//static CIwSVec2 uvs[4] =
	//{
	//	CIwSVec2(0 << 12, 0 << 12),
	//	CIwSVec2(0 << 12, 1 << 12),
	//	CIwSVec2(1 << 12, 1 << 12),
	//	CIwSVec2(1 << 12, 0 << 12),
	//};

	static CIwSVec2 uvs[4] =
	{
		CIwSVec2((0 << 12) + 10, (0 << 12) + 10),
		CIwSVec2((0 << 12) + 10, (1 << 12) - 10),
		CIwSVec2((1 << 12) - 10, (1 << 12) - 10),
		CIwSVec2((1 << 12) - 10, (0 << 12) + 10),
	};
	
	int w = w1/2;
	int h = h1/2;

	int counter = 0;

	while (true)
	{
		IwGetHTTPQueue()->Update();
		IwGetNotificationHandler()->Update();
		IwGetMultiplayerHandler()->Update();

		IwGxClear(IW_GX_COLOUR_BUFFER_F | IW_GX_DEPTH_BUFFER_F);

		CIwMaterial* pMat = IW_GX_ALLOC_MATERIAL();
		pMat->SetModulateMode(CIwMaterial::MODULATE_NONE);
		pMat->SetTexture(tx);
		IwGxSetMaterial(pMat);

		CIwMat rotMat;
		rotMat.SetIdentity();
		double perCentAngle = (counter / 80.0);
		iwangle degAng = (iwangle)(IW_GEOM_ONE * perCentAngle);

		rotMat.SetRotZ(degAng);
		rotMat.t.z = -0x200;

		IwGxSetViewMatrix(&rotMat);

		CIwSVec3* pWSCoords= IW_GX_ALLOC(CIwSVec3, 4);
		pWSCoords[0].x = -w; pWSCoords[0].y = -h;
		pWSCoords[1].x = -w; pWSCoords[1].y = h;
		pWSCoords[2].x = w; pWSCoords[2].y = h;
		pWSCoords[3].x = w; pWSCoords[3].y = -h;
		pWSCoords[0].z = pWSCoords[1].z = pWSCoords[2].z = pWSCoords[3].z = 0;

		if (!g_bInProgress)
		{
			MapTile* pNextDownload = GetNextDownload(NULL);
			if (pNextDownload)
			{
				IwGetNotificationHandler()->PushNotification((int)this, pNextDownload->szImageUrl, 10*1000);
				g_bInProgress = true;
				LoadMapTileImage(pNextDownload);
			}
			else
			{
				IwGetNotificationHandler()->ClearNotification((int)this);
				break;
			}
		}

		IwGxSetVertStreamWorldSpace(pWSCoords, 4);
		IwGxSetUVStream(uvs);
		IwGxDrawPrims(IW_GX_QUAD_LIST, NULL, 4);
		IwGetNotificationHandler()->Render();

		IwGxFlush();
		IwGxSwapBuffers();
		s3eDeviceYield(50);

		counter++;
	}
}
Exemplo n.º 14
0
void GhostCollision::RenderEctoplasmaBar(float ectoPercent, double ghostRotation)
{
	CIwFMat ectoMatrix = CIwFMat();
	ectoMatrix.CopyRot(*modelMatrix);
	ectoMatrix.CopyTrans(*modelMatrix);
	ectoMatrix.PostRotateY(PI-ghostRotation);

	IwGxSetModelMatrix(&ectoMatrix);
	IwGxSetScreenSpaceSlot(1);

	if (ghostW < 0 || ghostX < 0 || ghostY < 0) ResolveLocation();

	const int16 w = 180;
	const int16 border_x1 = ghostX+ghostW/2 - (float)w*ectobarScale;
	const int16 border_x2 = ghostX+ghostW/2 + (float)w*ectobarScale;

	const float border_y1 = ghostY+0x20;
	const float border_y2 = ghostY+0x20 + (float)0x10*ectobarScale;
	const int16 z = 0x6;

	{
		CIwMaterial* pMat = IW_GX_ALLOC_MATERIAL();
		pMat->SetModulateMode(CIwMaterial::MODULATE_RGB);
		pMat->SetAlphaMode(CIwMaterial::ALPHA_BLEND);
		pMat->SetTexture(borderTexture);

		int16 x1 = border_x1, x2 = border_x2; 
		float y1 = border_y1, y2 = border_y2;
		border_Verts[0] = CIwFVec3(x1, y2, -z);
		border_Verts[1] = CIwFVec3(x2, y2, -z);
		border_Verts[2] = CIwFVec3(x2, y1, -z);
		border_Verts[3] = CIwFVec3(x1, y1, -z);
		border_Verts[4] = CIwFVec3(x1, y2,  z);
		border_Verts[5] = CIwFVec3(x2, y2,  z);
		border_Verts[6] = CIwFVec3(x2, y1,  z);
		border_Verts[7] = CIwFVec3(x1, y1,  z);

		IwGxSetMaterial(pMat);
		IwGxSetVertStream(border_Verts, 8);
		//IwGxSetColStream(s_Cols, 8);
		IwGxSetUVStream(s_UVs);
		IwGxDrawPrims(IW_GX_QUAD_STRIP, s_QuadStrip, 4);
	}

	float start_y1 = border_y1 + fabs((float)(border_y2 - border_y1)*0.200);
	float start_y2 = start_y1  + fabs((float)(border_y2 - border_y1)*0.720);
	float startWhScale = (float)((double)startTexture->GetWidth() / startTexture->GetHeight());
	int16 startW = (start_y2 - start_y1) * startWhScale;
	int16 start_x1 = border_x1 + abs((float)(border_x2 - border_x1)*0.0097);
	int16 start_x2 = start_x1 + startW;
	
	{
		CIwMaterial* pMat = IW_GX_ALLOC_MATERIAL();
		pMat->SetModulateMode(CIwMaterial::MODULATE_RGB);
		pMat->SetAlphaMode(CIwMaterial::ALPHA_BLEND);
		pMat->SetTexture(startTexture);

		int16 x1 = start_x1, x2 = start_x2;
		float y1 = start_y1, y2 = start_y2;
		start_Verts[0] = CIwFVec3(x1, y2, -z);
		start_Verts[1] = CIwFVec3(x2, y2, -z);
		start_Verts[2] = CIwFVec3(x2, y1, -z);
		start_Verts[3] = CIwFVec3(x1, y1, -z);
		start_Verts[4] = CIwFVec3(x1, y2,  z);
		start_Verts[5] = CIwFVec3(x2, y2,  z);
		start_Verts[6] = CIwFVec3(x2, y1,  z);
		start_Verts[7] = CIwFVec3(x1, y1,  z);

		IwGxSetMaterial(pMat);
		IwGxSetVertStream(start_Verts, 8);
		//IwGxSetColStream(s_Cols, 8);
		IwGxSetUVStream(s_UVs);
		IwGxDrawPrims(IW_GX_QUAD_STRIP, s_QuadStrip, 4);
	}

	float end_y1 = start_y1;
	float end_y2 = start_y2;
	float endWhScale = (float)((double)endTexture->GetWidth() / endTexture->GetHeight());
	int16 endW = (end_y2 - end_y1) * endWhScale;

	int endMaxX = border_x2 - abs((float)(border_x2 - border_x1)*0.0097) - endW;
	int endMinX = start_x2;
	int16 end_x1 = (double)(endMaxX - endMinX)*ectoPercent + endMinX;
	int16 end_x2 = end_x1 + endW;
	
	{
		CIwMaterial* pMat = IW_GX_ALLOC_MATERIAL();
		pMat->SetModulateMode(CIwMaterial::MODULATE_RGB);
		pMat->SetAlphaMode(CIwMaterial::ALPHA_BLEND);
		pMat->SetTexture(endTexture);

		int16 x1 = end_x1, x2 = end_x2;
		float y1 = end_y1, y2 = end_y2;
		end_Verts[0] = CIwFVec3(x1, y2, -z);
		end_Verts[1] = CIwFVec3(x2, y2, -z);
		end_Verts[2] = CIwFVec3(x2, y1, -z);
		end_Verts[3] = CIwFVec3(x1, y1, -z);
		end_Verts[4] = CIwFVec3(x1, y2,  z);
		end_Verts[5] = CIwFVec3(x2, y2,  z);
		end_Verts[6] = CIwFVec3(x2, y1,  z);
		end_Verts[7] = CIwFVec3(x1, y1,  z);

		IwGxSetMaterial(pMat);
		IwGxSetVertStream(end_Verts, 8);
		//IwGxSetColStream(s_Cols, 8);
		IwGxSetUVStream(s_UVs);
		IwGxDrawPrims(IW_GX_QUAD_STRIP, s_QuadStrip, 4);
	}
	
	float center_y1 = start_y1;
	float center_y2 = start_y2;
	int16 center_x1 = start_x2 - 1;
	int16 center_x2 = end_x1 + 1;
	
	{
		CIwMaterial* pMat = IW_GX_ALLOC_MATERIAL();
		pMat->SetModulateMode(CIwMaterial::MODULATE_RGB);
		pMat->SetAlphaMode(CIwMaterial::ALPHA_BLEND);
		pMat->SetTexture(centerTexture);

		int16 x1 = center_x1, x2 = center_x2; 
		float y1 = center_y1, y2 = center_y2;
		center_Verts[0] = CIwFVec3(x1, y2, -z);
		center_Verts[1] = CIwFVec3(x2, y2, -z);
		center_Verts[2] = CIwFVec3(x2, y1, -z);
		center_Verts[3] = CIwFVec3(x1, y1, -z);
		center_Verts[4] = CIwFVec3(x1, y2,  z);
		center_Verts[5] = CIwFVec3(x2, y2,  z);
		center_Verts[6] = CIwFVec3(x2, y1,  z);
		center_Verts[7] = CIwFVec3(x1, y1,  z);

		IwGxSetMaterial(pMat);
		IwGxSetVertStream(center_Verts, 8);
		//IwGxSetColStream(s_Cols, 8);
		IwGxSetUVStream(s_UVs);
		IwGxDrawPrims(IW_GX_QUAD_STRIP, s_QuadStrip, 4);
	}
	
}