void Update() { if (updateText || inputReceived) { manageText(); updateText = false; } if (inputReceived && !eqnInput) { inputReceived = false; bool isValid = ptSet.CompileAll(); ManageFeedback(); if (isValid) { if (presentPlane) { if (presentPlane.CalculatePlane()) { presentPlane.ApplyGraphAdjustment(); presentPlane.GetLocalPoint(); presentPlane.GetPlaneDirection(); } else { presentPlane.ApplyGraphAdjustment(); presentPlane.GetLocalPoint(); } } } } if (inputReceived && eqnInput) { inputReceived = false; bool isValid = eqnSet.CompileAll(); ManageFeedback(); if (isValid) { if (eqnSet.eqnCoefs["a"].Value == 0 && eqnSet.eqnCoefs["b"].Value == 0 && eqnSet.eqnCoefs["c"].Value == 0) { feedbacks.eqnFeedback.material.color = negativeFeedback; if (presentPlane) { presentPlane.forwardPlane.GetComponent <MeshRenderer>().enabled = false; presentPlane.backwardPlane.GetComponent <MeshRenderer>().enabled = false; } } else { generatePlanePts.eqnToPoints(); } } } }
public void updateDet(float newDet) { CalcOutput originalExpression = ptInput.currExpression; SetOutput(eqnSet.eqnCoefs["a"]); ptInput.RewriteInput(newDet); SetOutput(originalExpression); manageText(); eqnSet.CompileAll(); }
void Update() { //if only projecting on a line (cover over the 3rd basis) if (ptInput.lineCover.activeSelf) { Debug.Log("LINEEEEEEEE COVERRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRR"); presentline.forwardPlane.GetComponent <MeshRenderer>().enabled = false; presentline.backwardPlane.GetComponent <MeshRenderer>().enabled = false; updatePoint("pt3", new Vector3(0, 0, 0), false); } else if (!ptInput.lineCover.activeSelf && presentline.PlaneValid()) { presentline.forwardPlane.GetComponent <MeshRenderer>().enabled = true; presentline.backwardPlane.GetComponent <MeshRenderer>().enabled = true; } if (updateText || inputReceived) { manageText(); updateText = false; } if (inputReceived && !eqnInput) { inputReceived = false; bool isValid = ptSet.CompileAll(); ManageFeedback(); //plane stuff if (isValid) { if (presentline.CalculatePlane()) { presentline.ApplyGraphAdjustment(); presentline.GetLocalPoint(); presentline.GetPlaneDirection(); } else { presentline.ApplyGraphAdjustment(); presentline.GetLocalPoint(); } } } if (inputReceived && eqnInput) { inputReceived = false; bool isValid = eqnSet.CompileAll(); ManageFeedback(); if (isValid) { if (eqnSet.eqnCoefs["a"].Value == 0 && eqnSet.eqnCoefs["b"].Value == 0 && eqnSet.eqnCoefs["c"].Value == 0) { feedbacks.eqnFeedback.material.color = negativeFeedback; presentline.forwardPlane.GetComponent <MeshRenderer>().enabled = false; presentline.backwardPlane.GetComponent <MeshRenderer>().enabled = false; } else { generatePlanePts.eqnToPoints(); } } } }