List of usage examples for org.lwjgl.opengl GL15 glDeleteBuffers
public static void glDeleteBuffers(@NativeType("GLuint const *") int[] buffers)
From source file:com.flowpowered.caustic.lwjgl.gl20.GL20VertexArray.java
License:MIT License
@Override public void setData(VertexData vertexData) { checkCreated();/*from w ww .j a v a 2s .c o m*/ // Generate a new indices buffer if we don't have one yet if (indicesBufferID == 0) { indicesBufferID = GL15.glGenBuffers(); } // Bind the indices buffer GL15.glBindBuffer(GL15.GL_ELEMENT_ARRAY_BUFFER, indicesBufferID); // Get the new count of indices final int newIndicesCount = vertexData.getIndicesCount(); // If the new count is greater than or 50% smaller than the old one, we'll reallocate the memory // In the first case because we need more space, in the other to save space if (newIndicesCount > indicesCount || newIndicesCount <= indicesCount * 0.5) { GL15.glBufferData(GL15.GL_ELEMENT_ARRAY_BUFFER, vertexData.getIndicesBuffer(), GL15.GL_STATIC_DRAW); } else { // Else, we replace the data with the new one, but we don't resize, so some old data might be left trailing in the buffer GL15.glBufferSubData(GL15.GL_ELEMENT_ARRAY_BUFFER, 0, vertexData.getIndicesBuffer()); } // Unbind the indices buffer GL15.glBindBuffer(GL15.GL_ELEMENT_ARRAY_BUFFER, 0); // Update the total indices count indicesCount = newIndicesCount; // Ensure the count fits under the total one indicesDrawCount = indicesDrawCount <= 0 ? indicesCount : Math.min(indicesDrawCount, indicesCount); // Ensure that the indices offset and count fits inside the valid part of the buffer indicesOffset = Math.min(indicesOffset, indicesDrawCount - 1); indicesDrawCount -= indicesOffset; // Bind the vao if (extension.has()) { extension.glBindVertexArray(id); } // Create a new array of attribute buffers ID of the correct size final int attributeCount = vertexData.getAttributeCount(); final int[] newAttributeBufferIDs = new int[attributeCount]; // Copy all the old buffer IDs that will fit in the new array so we can reuse them System.arraycopy(attributeBufferIDs, 0, newAttributeBufferIDs, 0, Math.min(attributeBufferIDs.length, newAttributeBufferIDs.length)); // Delete any buffers that we don't need (new array is smaller than the previous one) for (int i = newAttributeBufferIDs.length; i < attributeBufferIDs.length; i++) { GL15.glDeleteBuffers(attributeBufferIDs[i]); } // Create new buffers if necessary (new array is larger than the previous one) for (int i = attributeBufferIDs.length; i < newAttributeBufferIDs.length; i++) { newAttributeBufferIDs[i] = GL15.glGenBuffers(); } // Copy the old valid attribute buffer sizes final int[] newAttributeBufferSizes = new int[attributeCount]; System.arraycopy(attributeBufferSizes, 0, newAttributeBufferSizes, 0, Math.min(attributeBufferSizes.length, newAttributeBufferSizes.length)); // If we don't have a vao, we have to save the properties manually if (!extension.has()) { attributeSizes = new int[attributeCount]; attributeTypes = new int[attributeCount]; attributeNormalizing = new boolean[attributeCount]; } // Upload the new vertex data for (int i = 0; i < attributeCount; i++) { final VertexAttribute attribute = vertexData.getAttribute(i); final ByteBuffer attributeData = attribute.getData(); // Get the current buffer size final int bufferSize = newAttributeBufferSizes[i]; // Get the new buffer size final int newBufferSize = attributeData.remaining(); // Bind the target buffer GL15.glBindBuffer(GL15.GL_ARRAY_BUFFER, newAttributeBufferIDs[i]); // If the new count is greater than or 50% smaller than the old one, we'll reallocate the memory if (newBufferSize > bufferSize || newBufferSize <= bufferSize * 0.5) { GL15.glBufferData(GL15.GL_ARRAY_BUFFER, attributeData, GL15.GL_STATIC_DRAW); } else { // Else, we replace the data with the new one, but we don't resize, so some old data might be left trailing in the buffer GL15.glBufferSubData(GL15.GL_ARRAY_BUFFER, 0, attributeData); } // Update the buffer size to the new one newAttributeBufferSizes[i] = newBufferSize; // Next, we add the pointer to the data in the vao if (extension.has()) { // As a float, normalized or not GL20.glVertexAttribPointer(i, attribute.getSize(), attribute.getType().getGLConstant(), attribute.getUploadMode().normalize(), 0, 0); // Enable the attribute GL20.glEnableVertexAttribArray(i); } else { // Else we save the properties for rendering attributeSizes[i] = attribute.getSize(); attributeTypes[i] = attribute.getType().getGLConstant(); attributeNormalizing[i] = attribute.getUploadMode().normalize(); } } // Unbind the last vbo GL15.glBindBuffer(GL15.GL_ARRAY_BUFFER, 0); // Unbind the vao if (extension.has()) { extension.glBindVertexArray(0); } // Update the attribute buffer IDs to the new ones attributeBufferIDs = newAttributeBufferIDs; // Update the attribute buffer sizes to the new ones attributeBufferSizes = newAttributeBufferSizes; // Check for errors LWJGLUtil.checkForGLError(); }
From source file:com.flowpowered.caustic.lwjgl.gl30.GL30VertexArray.java
License:MIT License
@Override public void destroy() { checkCreated();//from w w w . j ava2s. c om // Delete the indices buffer GL15.glDeleteBuffers(indicesBufferID); // Delete the attribute buffers for (int attributeBufferID : attributeBufferIDs) { GL15.glDeleteBuffers(attributeBufferID); } // Delete the vao GL30.glDeleteVertexArrays(id); // Reset the IDs and data indicesBufferID = 0; attributeBufferIDs = EMPTY_ARRAY; attributeBufferSizes = EMPTY_ARRAY; // Update the state super.destroy(); // Check for errors LWJGLUtil.checkForGLError(); }
From source file:com.flowpowered.caustic.lwjgl.gl30.GL30VertexArray.java
License:MIT License
@Override public void setData(VertexData vertexData) { checkCreated();/*w w w .j a v a 2s.com*/ // Generate a new indices buffer if we don't have one yet if (indicesBufferID == 0) { indicesBufferID = GL15.glGenBuffers(); } // Bind the indices buffer GL15.glBindBuffer(GL15.GL_ELEMENT_ARRAY_BUFFER, indicesBufferID); // Get the new count of indices final int newIndicesCount = vertexData.getIndicesCount(); // If the new count is greater than or 50% smaller than the old one, we'll reallocate the memory // In the first case because we need more space, in the other to save space if (newIndicesCount > indicesCount || newIndicesCount <= indicesCount * 0.5) { GL15.glBufferData(GL15.GL_ELEMENT_ARRAY_BUFFER, vertexData.getIndicesBuffer(), GL15.GL_STATIC_DRAW); } else { // Else, we replace the data with the new one, but we don't resize, so some old data might be left trailing in the buffer GL15.glBufferSubData(GL15.GL_ELEMENT_ARRAY_BUFFER, 0, vertexData.getIndicesBuffer()); } // Unbind the indices buffer GL15.glBindBuffer(GL15.GL_ELEMENT_ARRAY_BUFFER, 0); // Update the total indices count indicesCount = newIndicesCount; // Ensure the count fits under the total one indicesDrawCount = indicesDrawCount <= 0 ? indicesCount : Math.min(indicesDrawCount, indicesCount); // Ensure that the indices offset and count fits inside the valid part of the buffer indicesOffset = Math.min(indicesOffset, indicesDrawCount - 1); indicesDrawCount -= indicesOffset; // Bind the vao GL30.glBindVertexArray(id); // Create a new array of attribute buffers ID of the correct size final int attributeCount = vertexData.getAttributeCount(); final int[] newAttributeBufferIDs = new int[attributeCount]; // Copy all the old buffer IDs that will fit in the new array so we can reuse them System.arraycopy(attributeBufferIDs, 0, newAttributeBufferIDs, 0, Math.min(attributeBufferIDs.length, newAttributeBufferIDs.length)); // Delete any buffers that we don't need (new array is smaller than the previous one) for (int i = newAttributeBufferIDs.length; i < attributeBufferIDs.length; i++) { GL15.glDeleteBuffers(attributeBufferIDs[i]); } // Create new buffers if necessary (new array is larger than the previous one) for (int i = attributeBufferIDs.length; i < newAttributeBufferIDs.length; i++) { newAttributeBufferIDs[i] = GL15.glGenBuffers(); } // Copy the old valid attribute buffer sizes final int[] newAttributeBufferSizes = new int[attributeCount]; System.arraycopy(attributeBufferSizes, 0, newAttributeBufferSizes, 0, Math.min(attributeBufferSizes.length, newAttributeBufferSizes.length)); // Upload the new vertex data for (int i = 0; i < attributeCount; i++) { final VertexAttribute attribute = vertexData.getAttribute(i); final ByteBuffer attributeData = attribute.getData(); // Get the current buffer size final int bufferSize = newAttributeBufferSizes[i]; // Get the new buffer size final int newBufferSize = attributeData.remaining(); // Bind the target buffer GL15.glBindBuffer(GL15.GL_ARRAY_BUFFER, newAttributeBufferIDs[i]); // If the new count is greater than or 50% smaller than the old one, we'll reallocate the memory if (newBufferSize > bufferSize || newBufferSize <= bufferSize * 0.5) { GL15.glBufferData(GL15.GL_ARRAY_BUFFER, attributeData, GL15.GL_STATIC_DRAW); } else { // Else, we replace the data with the new one, but we don't resize, so some old data might be left trailing in the buffer GL15.glBufferSubData(GL15.GL_ARRAY_BUFFER, 0, attributeData); } // Update the buffer size to the new one newAttributeBufferSizes[i] = newBufferSize; // Next, we add the pointer to the data in the vao // We have three ways to interpret integer data if (attribute.getType().isInteger() && attribute.getUploadMode() == UploadMode.KEEP_INT) { // Directly as an int GL30.glVertexAttribIPointer(i, attribute.getSize(), attribute.getType().getGLConstant(), 0, 0); } else { // Or as a float, normalized or not GL20.glVertexAttribPointer(i, attribute.getSize(), attribute.getType().getGLConstant(), attribute.getUploadMode().normalize(), 0, 0); } // Finally enable the attribute GL20.glEnableVertexAttribArray(i); } // Unbind the last vbo GL15.glBindBuffer(GL15.GL_ARRAY_BUFFER, 0); // Unbind the vao GL30.glBindVertexArray(0); // Update the attribute buffer IDs to the new ones attributeBufferIDs = newAttributeBufferIDs; // Update the attribute buffer sizes to the new ones attributeBufferSizes = newAttributeBufferSizes; // Check for errors LWJGLUtil.checkForGLError(); }
From source file:com.geekyaubergine.geekyjgameutil.model.ModelLoader.java
License:Open Source License
/** * Deletes data stored in VAO's and VBO's *//*from www. j a va2 s.c o m*/ public static void deleteData() { for (int vao : vaos) { GL30.glDeleteVertexArrays(vao); } for (int vbo : vbos) { GL15.glDeleteBuffers(vbo); } }
From source file:com.github.begla.blockmania.rendering.manager.VertexBufferObjectManager.java
License:Apache License
public synchronized Integer getVboId() { for (int i = _vertexBufferObjectPool.size() - 1; i >= 0; i--) GL15.glDeleteBuffers(_vertexBufferObjectPool.removeAt(i)); return createVbos(1).get(0); }
From source file:com.github.kajdreef.mazerunnermvn.Object.GameObject.java
public void destroy() { // Disable the VBO index from the VAO attributes list GL20.glDisableVertexAttribArray(0);/* ww w .j av a 2 s .c o m*/ // Delete the vertex VBO GL15.glBindBuffer(GL15.GL_ARRAY_BUFFER, 0); GL15.glDeleteBuffers(vboVerticesId); GL15.glBindBuffer(GL15.GL_ELEMENT_ARRAY_BUFFER, 0); GL15.glDeleteBuffers(vboIndicesId); // Delete the VAO GL30.glBindVertexArray(0); GL30.glDeleteVertexArrays(vaoId); }
From source file:com.google.gapid.glviewer.gl.Buffer.java
License:Apache License
public void delete() { GL15.glDeleteBuffers(handle); }
From source file:com.google.gapid.glviewer.gl.IndexBuffer.java
License:Apache License
@Override protected void release() { GL15.glDeleteBuffers(handle); }
From source file:com.grillecube.client.opengl.GLVertexBuffer.java
/** free the buffer object */ public void delete() { GL15.glDeleteBuffers(this.glID); this.glID = 0; }
From source file:com.grillecube.engine.opengl.object.GLVertexBuffer.java
/** free the buffer object */ public void delete() { GL15.glDeleteBuffers(this._id); this._id = 0; }