public void update() { setCylinderValues(); //Updates mesh multiCylinder.UpdateCylinders(); }
public void update(float bottomStart, float height, float botWidth, float topWidth, float thickness) { float maxWidth = (topWidth > botWidth)? topWidth : botWidth; float widthDiff = (topWidth > botWidth) ? topWidth - botWidth : botWidth - topWidth; Cylinder c0 = multiCylinder.cylinders[0]; Cylinder c1 = multiCylinder.cylinders[1]; Cylinder c2 = multiCylinder.cylinders[2]; //Sets outer shell values c0.bottomStart = bottomStart; c0.height = height; c0.botWidth = botWidth; c0.topWidth = topWidth; c0.tiling = 2; c0.uvBot = 0; c0.uvTop = (height) / (6 * maxWidth / c0.tiling); if (c0.uvTop > 240 / 512f) { } c0.uvTop = 240 / 512f; //Sets top bit values c1.bottomStart = bottomStart + height; c1.height = 0; c1.botWidth = topWidth; c1.topWidth = topWidth - thickness * topWidth; c1.uvBot = (241 / 512f); c1.uvTop = ((512 - 241) / 512f); c1.tiling = ((int)(6 * (30 / 512f) / (thickness * topWidth) * (6 * topWidth))) / 6f; //Sets inner shell values c2.bottomStart = bottomStart + height; c2.height = -height; c2.botWidth = topWidth - thickness * topWidth; c2.topWidth = botWidth - thickness * topWidth; c2.uvBot = ((512 - 240) / 512f); c2.uvTop = 1; //Updates mesh multiCylinder.UpdateCylinders(); }
public void update() { getDecouplerShroudValues(); topWidth += antiZFightSizeIncrease; botWidth += antiZFightSizeIncrease; float maxWidth = (topWidth > botWidth)? topWidth : botWidth; float widthDiff = (topWidth > botWidth) ? topWidth - botWidth : botWidth - topWidth; Cylinder c0 = multiCylinder.cylinders[0]; //outside shell Cylinder c1 = multiCylinder.cylinders[1]; //top flat bit Cylinder c2 = multiCylinder.cylinders[2]; //inside Cylinder c3 = multiCylinder.cylinders[3]; //bottom tucked in edge Cylinder c4 = multiCylinder.cylinders[4]; //top bevel in edge Vector2 bevel = new Vector2((botWidth - topWidth), height).normalized + Vector2.right; bevel = bevel.normalized * topBevelSize; //Creates bottom edge c3.bottomStart = vertOffset - bottomEdgeSize; c3.height = bottomEdgeSize; c3.botWidth = botWidth - bottomEdgeSize; c3.topWidth = botWidth; c3.tiling = 2; c3.uvBot = 0; c3.uvTop = .01f; //Sets outer shell values c0.bottomStart = vertOffset; c0.height = height - bevel.y; c0.botWidth = botWidth; c0.topWidth = topWidth; c0.tiling = 2; c0.uvBot = 0.01f; c0.uvTop = 240 / 512f - .01f; //c0.uvTop = (height) / (6*maxWidth / c0.tiling); //if (c0.uvTop > 240 / 512f) { //} //Set top Bevel c4.bottomStart = vertOffset + height - bevel.y; c4.height = bevel.y; c4.botWidth = topWidth; c4.topWidth = topWidth - bevel.x; c4.tiling = 2; c4.uvBot = 240 / 512f - .01f; c4.uvTop = 240 / 512f; //Sets top bit values c1.bottomStart = vertOffset + height; c1.height = 0; c1.botWidth = topWidth - bevel.x; c1.topWidth = (topWidth - bevel.x) - thickness * topWidth; c1.uvBot = (241 / 512f); c1.uvTop = ((512 - 241) / 512f); c1.tiling = ((int)(6 * (30 / 512f) / (thickness * topWidth) * (6 * topWidth))) / 6f; //Sets inner shell values c2.bottomStart = vertOffset + height; c2.height = -height; c2.botWidth = topWidth - thickness * topWidth; c2.topWidth = botWidth - thickness * topWidth; c2.uvBot = ((512 - 240) / 512f); c2.uvTop = 1; topWidth -= antiZFightSizeIncrease; botWidth -= antiZFightSizeIncrease; //Updates mesh multiCylinder.UpdateCylinders(); }