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/*
* Copyright LWJGL. All rights reserved.
* License terms: https://www.lwjgl.org/license
* MACHINE GENERATED FILE, DO NOT EDIT
*/
package org.lwjgl.opengles;
import java.nio.*;
import org.lwjgl.*;
import org.lwjgl.system.*;
import static org.lwjgl.system.Checks.*;
import static org.lwjgl.system.JNI.*;
import static org.lwjgl.system.MemoryStack.*;
import static org.lwjgl.system.MemoryUtil.*;
/**
* Native bindings to the KHR_debug extension.
*
* This extension allows the GL to notify applications when various events occur that may be useful during application development, debugging and
* profiling.
*
* These events are represented in the form of enumerable messages with a human-readable string representation. Examples of debug events include incorrect
* use of the GL, warnings of undefined behavior, and performance warnings.
*
* A message is uniquely identified by a source, a type and an implementation-dependent ID within the source and type pair.
*
* A message's source identifies the origin of the message and can either describe components of the GL, the window system, third-party external sources
* such as external debuggers, or even the application itself.
*
* The type of the message roughly identifies the nature of the event that caused the message. Examples include errors, performance warnings, warnings
* about undefined behavior or notifications identifying that the application is within a specific section of the application code.
*
* A message's ID for a given source and type further distinguishes messages within namespaces. For example, an error caused by a negative parameter value
* or an invalid internal texture format are both errors generated by the API, but would likely have different message IDs.
*
* Each message is also assigned to a severity level that denotes roughly how "important" that message is in comparison to other messages across all
* sources and types. For example, notification of a GL error would likely have a higher severity than a performance warning due to redundant state changes.
*
* Furthermore, every message contains an implementation-dependent string representation that provides a useful description of the event.
*
* Messages are communicated to the application through an application-defined callback function that is called by the GL implementation on each debug
* message. The motivation for the callback routine is to free application developers from actively having to query whether a GL error, or any other
* debuggable event has happened after each call to a GL function. With a callback, developers can keep their code free of debug checks, set breakpoints in
* the callback function, and only have to react to messages as they occur. In situations where using a callback is not possible, a message log is also
* provided that stores only copies of recent messages until they are actively queried.
*
* To control the volume of debug output, messages can be disabled either individually by ID, or entire sets of messages can be turned off based on
* combination of source and type, through the entire application code or only section of the code encapsulated in debug groups. A debug group may also be
* used to annotate the command stream using descriptive texts.
*
* This extension also defines debug markers, a mechanism for the OpenGL application to annotate the command stream with markers for discrete events.
*
* When profiling or debugging an OpenGL application with a built-in or an external debugger or profiler, it is difficult to relate the commands within the
* command stream to the elements of the scene or parts of the program code to which they correspond. Debug markers and debug groups help obviate this by
* allowing applications to specify this link. For example, a debug marker can be used to identify the beginning of a frame in the command stream and a
* debug group can encapsulate a specific command stream to identify a rendering pass. Debug groups also allow control of the debug outputs volume per
* section of an application code providing an effective way to handle the massive amount of debug outputs that drivers can generate.
*
* Some existing implementations of ARB_debug_output only expose the ARB_debug_output extension string if the context was created with the debug
* flag {GLX|WGL}_CONTEXT_DEBUG_BIT_ARB as specified in {GLX|WGL}_ARB_create_context. The behavior is not obvious when the functionality is brought into
* the OpenGL core specification because the extension string and function entry points must always exist.
*
* This extension modifies the existing ARB_debug_output extension to allow implementations to always have an empty message log. The specific messages
* written to the message log or callback routines are already implementation defined, so this specification simply makes it explicit that it's fine for
* there to be zero messages generated, even when a GL error occurs, which is useful if the context is non-debug.
*
* Debug output can be enabled and disabled by changing the {@link #GL_DEBUG_OUTPUT_KHR DEBUG_OUTPUT_KHR} state.
*
* Finally, this extension defines a mechanism for OpenGL applications to label their objects (textures, buffers, shaders, etc.) with a descriptive string.
*
* When profiling or debugging an OpenGL application within an external or built-in (debut output API) debugger or profiler it is difficult to identify
* objects from their object names (integers).
*
* Even when the object itself is viewed it can be problematic to differentiate between similar objects. Attaching a descriptive string, a label, to an
* object obviates this difficulty.
*
* The intended purpose of this extension is purely to improve the user experience within OpenGL development tools and application built-in profilers and
* debuggers. This extension typically improves OpenGL programmers efficiency by allowing them to instantly detect issues and the reason for these issues
* giving him more time to focus on adding new features to an OpenGL application.
*/
public class KHRDebug {
/** Tokens accepted by the {@code target} parameters of Enable, Disable, and IsEnabled. */
public static final int
GL_DEBUG_OUTPUT_KHR = 0x92E0,
GL_DEBUG_OUTPUT_SYNCHRONOUS_KHR = 0x8242;
/** Returned by GetIntegerv when {@code pname} is CONTEXT_FLAGS. */
public static final int GL_CONTEXT_FLAG_DEBUG_BIT_KHR = 0x2;
/** Tokens accepted by the {@code value} parameters of GetBooleanv, GetIntegerv, GetFloatv, GetDoublev and GetInteger64v. */
public static final int
GL_MAX_DEBUG_MESSAGE_LENGTH_KHR = 0x9143,
GL_MAX_DEBUG_LOGGED_MESSAGES_KHR = 0x9144,
GL_DEBUG_LOGGED_MESSAGES_KHR = 0x9145,
GL_DEBUG_NEXT_LOGGED_MESSAGE_LENGTH_KHR = 0x8243,
GL_MAX_DEBUG_GROUP_STACK_DEPTH_KHR = 0x826C,
GL_DEBUG_GROUP_STACK_DEPTH_KHR = 0x826D,
GL_MAX_LABEL_LENGTH_KHR = 0x82E8;
/** Tokens accepted by the {@code pname} parameter of GetPointerv. */
public static final int
GL_DEBUG_CALLBACK_FUNCTION_KHR = 0x8244,
GL_DEBUG_CALLBACK_USER_PARAM_KHR = 0x8245;
/**
* Tokens accepted or provided by the {@code source} parameters of DebugMessageControl, DebugMessageInsert and DEBUGPROC, and the {@code sources} parameter
* of GetDebugMessageLog.
*/
public static final int
GL_DEBUG_SOURCE_API_KHR = 0x8246,
GL_DEBUG_SOURCE_WINDOW_SYSTEM_KHR = 0x8247,
GL_DEBUG_SOURCE_SHADER_COMPILER_KHR = 0x8248,
GL_DEBUG_SOURCE_THIRD_PARTY_KHR = 0x8249,
GL_DEBUG_SOURCE_APPLICATION_KHR = 0x824A,
GL_DEBUG_SOURCE_OTHER_KHR = 0x824B;
/**
* Tokens accepted or provided by the {@code type} parameters of DebugMessageControl, DebugMessageInsert and DEBUGPROC, and the {@code types} parameter of
* GetDebugMessageLog.
*/
public static final int
GL_DEBUG_TYPE_ERROR_KHR = 0x824C,
GL_DEBUG_TYPE_DEPRECATED_BEHAVIOR_KHR = 0x824D,
GL_DEBUG_TYPE_UNDEFINED_BEHAVIOR_KHR = 0x824E,
GL_DEBUG_TYPE_PORTABILITY_KHR = 0x824F,
GL_DEBUG_TYPE_PERFORMANCE_KHR = 0x8250,
GL_DEBUG_TYPE_OTHER_KHR = 0x8251,
GL_DEBUG_TYPE_MARKER_KHR = 0x8268;
/** Tokens accepted or provided by the {@code type} parameters of DebugMessageControl and DEBUGPROC, and the {@code types} parameter of GetDebugMessageLog. */
public static final int
GL_DEBUG_TYPE_PUSH_GROUP_KHR = 0x8269,
GL_DEBUG_TYPE_POP_GROUP_KHR = 0x826A;
/**
* Tokens accepted or provided by the {@code severity} parameters of DebugMessageControl, DebugMessageInsert and DEBUGPROC callback functions, and the
* {@code severities} parameter of GetDebugMessageLog.
*/
public static final int
GL_DEBUG_SEVERITY_HIGH_KHR = 0x9146,
GL_DEBUG_SEVERITY_MEDIUM_KHR = 0x9147,
GL_DEBUG_SEVERITY_LOW_KHR = 0x9148,
GL_DEBUG_SEVERITY_NOTIFICATION_KHR = 0x826B;
/** Returned by GetError. */
public static final int
GL_STACK_UNDERFLOW_KHR = 0x504,
GL_STACK_OVERFLOW_KHR = 0x503;
/** Tokens accepted or provided by the {@code identifier} parameters of ObjectLabel and GetObjectLabel. */
public static final int
GL_BUFFER_KHR = 0x82E0,
GL_SHADER_KHR = 0x82E1,
GL_PROGRAM_KHR = 0x82E2,
GL_QUERY_KHR = 0x82E3,
GL_PROGRAM_PIPELINE_KHR = 0x82E4,
GL_SAMPLER_KHR = 0x82E6;
static { GLES.initialize(); }
protected KHRDebug() {
throw new UnsupportedOperationException();
}
static boolean isAvailable(GLESCapabilities caps) {
return checkFunctions(
caps.glDebugMessageControlKHR, caps.glDebugMessageInsertKHR, caps.glDebugMessageCallbackKHR, caps.glGetDebugMessageLogKHR, caps.glGetPointervKHR,
caps.glPushDebugGroupKHR, caps.glPopDebugGroupKHR, caps.glObjectLabelKHR, caps.glGetObjectLabelKHR, caps.glObjectPtrLabelKHR,
caps.glGetObjectPtrLabelKHR
);
}
// --- [ glDebugMessageControlKHR ] ---
/**
* Unsafe version of: {@link #glDebugMessageControlKHR DebugMessageControlKHR}
*
* @param count the length of the array {@code ids}
*/
public static native void nglDebugMessageControlKHR(int source, int type, int severity, int count, long ids, boolean enabled);
/**
* Controls the volume of debug output in the active debug group, by disabling specific or groups of messages.
*
* If {@code enabled} is {@link GLES20#GL_TRUE TRUE}, the referenced subset of messages will be enabled. If {@link GLES20#GL_FALSE FALSE}, then those messages will be disabled.
*
* This command can reference different subsets of messages by first considering the set of all messages, and filtering out messages based on the following
* ways:
*
*
* - If {@code source}, {@code type}, or {@code severity} is {@link GLES20#GL_DONT_CARE DONT_CARE}, the messages from all sources, of all types, or of all severities are
* referenced respectively.
* - When values other than {@link GLES20#GL_DONT_CARE DONT_CARE} are specified, all messages whose source, type, or severity match the specified {@code source}, {@code type},
* or {@code severity} respectively will be referenced.
* - If {@code count} is greater than zero, then {@code ids} is an array of {@code count} message IDs for the specified combination of {@code source} and
* {@code type}. In this case, if {@code source} or {@code type} is {@link GLES20#GL_DONT_CARE DONT_CARE}, or {@code severity} is not {@link GLES20#GL_DONT_CARE DONT_CARE}, the error
* {@link GLES20#GL_INVALID_OPERATION INVALID_OPERATION} is generated.
*
*
* Unrecognized message IDs in {@code ids} are ignored. If {@code count} is zero, the value if {@code ids} is ignored.
*
* Although messages are grouped into an implicit hierarchy by their sources and types, there is no explicit per-source, per-type or per-severity enabled
* state. Instead, the enabled state is stored individually for each message. There is no difference between disabling all messages from one source in a
* single call, and individually disabling all messages from that source using their types and IDs.
*
* If the {@link #GL_DEBUG_OUTPUT_KHR DEBUG_OUTPUT_KHR} state is disabled the GL operates the same as if messages of every {@code source}, {@code type} or {@code severity} are
* disabled.
*
* @param source the source of debug messages to enable or disable. One of:
{@link #GL_DEBUG_SOURCE_API_KHR DEBUG_SOURCE_API_KHR} {@link #GL_DEBUG_SOURCE_WINDOW_SYSTEM_KHR DEBUG_SOURCE_WINDOW_SYSTEM_KHR} {@link #GL_DEBUG_SOURCE_SHADER_COMPILER_KHR DEBUG_SOURCE_SHADER_COMPILER_KHR} {@link #GL_DEBUG_SOURCE_THIRD_PARTY_KHR DEBUG_SOURCE_THIRD_PARTY_KHR} {@link #GL_DEBUG_SOURCE_APPLICATION_KHR DEBUG_SOURCE_APPLICATION_KHR} {@link #GL_DEBUG_SOURCE_OTHER_KHR DEBUG_SOURCE_OTHER_KHR}
* @param type the type of debug messages to enable or disable. One of:
{@link #GL_DEBUG_TYPE_ERROR_KHR DEBUG_TYPE_ERROR_KHR} {@link #GL_DEBUG_TYPE_DEPRECATED_BEHAVIOR_KHR DEBUG_TYPE_DEPRECATED_BEHAVIOR_KHR} {@link #GL_DEBUG_TYPE_UNDEFINED_BEHAVIOR_KHR DEBUG_TYPE_UNDEFINED_BEHAVIOR_KHR} {@link #GL_DEBUG_TYPE_PORTABILITY_KHR DEBUG_TYPE_PORTABILITY_KHR} {@link #GL_DEBUG_TYPE_PERFORMANCE_KHR DEBUG_TYPE_PERFORMANCE_KHR} {@link #GL_DEBUG_TYPE_OTHER_KHR DEBUG_TYPE_OTHER_KHR} {@link #GL_DEBUG_TYPE_MARKER_KHR DEBUG_TYPE_MARKER_KHR}
* @param severity the severity of debug messages to enable or disable. One of:
{@link #GL_DEBUG_SEVERITY_HIGH_KHR DEBUG_SEVERITY_HIGH_KHR} {@link #GL_DEBUG_SEVERITY_MEDIUM_KHR DEBUG_SEVERITY_MEDIUM_KHR} {@link #GL_DEBUG_SEVERITY_LOW_KHR DEBUG_SEVERITY_LOW_KHR} {@link #GL_DEBUG_SEVERITY_NOTIFICATION_KHR DEBUG_SEVERITY_NOTIFICATION_KHR}
* @param ids an array of unsigned integers containing the ids of the messages to enable or disable
* @param enabled whether the selected messages should be enabled or disabled
*/
public static void glDebugMessageControlKHR(int source, int type, int severity, IntBuffer ids, boolean enabled) {
nglDebugMessageControlKHR(source, type, severity, remainingSafe(ids), memAddressSafe(ids), enabled);
}
/**
* Controls the volume of debug output in the active debug group, by disabling specific or groups of messages.
*
* If {@code enabled} is {@link GLES20#GL_TRUE TRUE}, the referenced subset of messages will be enabled. If {@link GLES20#GL_FALSE FALSE}, then those messages will be disabled.
*
* This command can reference different subsets of messages by first considering the set of all messages, and filtering out messages based on the following
* ways:
*
*
* - If {@code source}, {@code type}, or {@code severity} is {@link GLES20#GL_DONT_CARE DONT_CARE}, the messages from all sources, of all types, or of all severities are
* referenced respectively.
* - When values other than {@link GLES20#GL_DONT_CARE DONT_CARE} are specified, all messages whose source, type, or severity match the specified {@code source}, {@code type},
* or {@code severity} respectively will be referenced.
* - If {@code count} is greater than zero, then {@code ids} is an array of {@code count} message IDs for the specified combination of {@code source} and
* {@code type}. In this case, if {@code source} or {@code type} is {@link GLES20#GL_DONT_CARE DONT_CARE}, or {@code severity} is not {@link GLES20#GL_DONT_CARE DONT_CARE}, the error
* {@link GLES20#GL_INVALID_OPERATION INVALID_OPERATION} is generated.
*
*
* Unrecognized message IDs in {@code ids} are ignored. If {@code count} is zero, the value if {@code ids} is ignored.
*
* Although messages are grouped into an implicit hierarchy by their sources and types, there is no explicit per-source, per-type or per-severity enabled
* state. Instead, the enabled state is stored individually for each message. There is no difference between disabling all messages from one source in a
* single call, and individually disabling all messages from that source using their types and IDs.
*
* If the {@link #GL_DEBUG_OUTPUT_KHR DEBUG_OUTPUT_KHR} state is disabled the GL operates the same as if messages of every {@code source}, {@code type} or {@code severity} are
* disabled.
*
* @param source the source of debug messages to enable or disable. One of:
{@link #GL_DEBUG_SOURCE_API_KHR DEBUG_SOURCE_API_KHR} {@link #GL_DEBUG_SOURCE_WINDOW_SYSTEM_KHR DEBUG_SOURCE_WINDOW_SYSTEM_KHR} {@link #GL_DEBUG_SOURCE_SHADER_COMPILER_KHR DEBUG_SOURCE_SHADER_COMPILER_KHR} {@link #GL_DEBUG_SOURCE_THIRD_PARTY_KHR DEBUG_SOURCE_THIRD_PARTY_KHR} {@link #GL_DEBUG_SOURCE_APPLICATION_KHR DEBUG_SOURCE_APPLICATION_KHR} {@link #GL_DEBUG_SOURCE_OTHER_KHR DEBUG_SOURCE_OTHER_KHR}
* @param type the type of debug messages to enable or disable. One of:
{@link #GL_DEBUG_TYPE_ERROR_KHR DEBUG_TYPE_ERROR_KHR} {@link #GL_DEBUG_TYPE_DEPRECATED_BEHAVIOR_KHR DEBUG_TYPE_DEPRECATED_BEHAVIOR_KHR} {@link #GL_DEBUG_TYPE_UNDEFINED_BEHAVIOR_KHR DEBUG_TYPE_UNDEFINED_BEHAVIOR_KHR} {@link #GL_DEBUG_TYPE_PORTABILITY_KHR DEBUG_TYPE_PORTABILITY_KHR} {@link #GL_DEBUG_TYPE_PERFORMANCE_KHR DEBUG_TYPE_PERFORMANCE_KHR} {@link #GL_DEBUG_TYPE_OTHER_KHR DEBUG_TYPE_OTHER_KHR} {@link #GL_DEBUG_TYPE_MARKER_KHR DEBUG_TYPE_MARKER_KHR}
* @param severity the severity of debug messages to enable or disable. One of:
{@link #GL_DEBUG_SEVERITY_HIGH_KHR DEBUG_SEVERITY_HIGH_KHR} {@link #GL_DEBUG_SEVERITY_MEDIUM_KHR DEBUG_SEVERITY_MEDIUM_KHR} {@link #GL_DEBUG_SEVERITY_LOW_KHR DEBUG_SEVERITY_LOW_KHR} {@link #GL_DEBUG_SEVERITY_NOTIFICATION_KHR DEBUG_SEVERITY_NOTIFICATION_KHR}
* @param enabled whether the selected messages should be enabled or disabled
*/
public static void glDebugMessageControlKHR(int source, int type, int severity, int id, boolean enabled) {
MemoryStack stack = stackGet(); int stackPointer = stack.getPointer();
try {
IntBuffer ids = stack.ints(id);
nglDebugMessageControlKHR(source, type, severity, 1, memAddress(ids), enabled);
} finally {
stack.setPointer(stackPointer);
}
}
// --- [ glDebugMessageInsertKHR ] ---
/**
* Unsafe version of: {@link #glDebugMessageInsertKHR DebugMessageInsertKHR}
*
* @param length the length of the string contained in the character array whose address is given by {@code message}
*/
public static native void nglDebugMessageInsertKHR(int source, int type, int id, int severity, int length, long message);
/**
* This function can be called by applications and third-party libraries to generate their own messages, such as ones containing timestamp information or
* signals about specific render system events.
*
* The value of {@code id} specifies the ID for the message and {@code severity} indicates its severity level as defined by the caller. The string
* {@code buf} contains the string representation of the message. The parameter {@code length} contains the number of characters in {@code buf}. If
* {@code length} is negative, it is implied that {@code buf} contains a null terminated string. The error {@link GLES20#GL_INVALID_VALUE INVALID_VALUE} will be generated if the
* number of characters in {@code buf}, excluding the null terminator when {@code length} is negative, is not less than the value of
* {@link #GL_MAX_DEBUG_MESSAGE_LENGTH_KHR MAX_DEBUG_MESSAGE_LENGTH_KHR}.
*
* If the {@link #GL_DEBUG_OUTPUT_KHR DEBUG_OUTPUT_KHR} state is disabled calls to DebugMessageInsert are discarded and do not generate an error.
*
* @param source the source of the debug message to insert. One of:
{@link #GL_DEBUG_SOURCE_API_KHR DEBUG_SOURCE_API_KHR} {@link #GL_DEBUG_SOURCE_WINDOW_SYSTEM_KHR DEBUG_SOURCE_WINDOW_SYSTEM_KHR} {@link #GL_DEBUG_SOURCE_SHADER_COMPILER_KHR DEBUG_SOURCE_SHADER_COMPILER_KHR} {@link #GL_DEBUG_SOURCE_THIRD_PARTY_KHR DEBUG_SOURCE_THIRD_PARTY_KHR} {@link #GL_DEBUG_SOURCE_APPLICATION_KHR DEBUG_SOURCE_APPLICATION_KHR} {@link #GL_DEBUG_SOURCE_OTHER_KHR DEBUG_SOURCE_OTHER_KHR}
* @param type the type of the debug message insert. One of:
{@link #GL_DEBUG_TYPE_ERROR_KHR DEBUG_TYPE_ERROR_KHR} {@link #GL_DEBUG_TYPE_DEPRECATED_BEHAVIOR_KHR DEBUG_TYPE_DEPRECATED_BEHAVIOR_KHR} {@link #GL_DEBUG_TYPE_UNDEFINED_BEHAVIOR_KHR DEBUG_TYPE_UNDEFINED_BEHAVIOR_KHR} {@link #GL_DEBUG_TYPE_PORTABILITY_KHR DEBUG_TYPE_PORTABILITY_KHR} {@link #GL_DEBUG_TYPE_PERFORMANCE_KHR DEBUG_TYPE_PERFORMANCE_KHR} {@link #GL_DEBUG_TYPE_OTHER_KHR DEBUG_TYPE_OTHER_KHR} {@link #GL_DEBUG_TYPE_MARKER_KHR DEBUG_TYPE_MARKER_KHR}
* @param id the user-supplied identifier of the message to insert. One of:
{@link #GL_DEBUG_SEVERITY_HIGH_KHR DEBUG_SEVERITY_HIGH_KHR} {@link #GL_DEBUG_SEVERITY_MEDIUM_KHR DEBUG_SEVERITY_MEDIUM_KHR} {@link #GL_DEBUG_SEVERITY_LOW_KHR DEBUG_SEVERITY_LOW_KHR} {@link #GL_DEBUG_SEVERITY_NOTIFICATION_KHR DEBUG_SEVERITY_NOTIFICATION_KHR}
* @param severity the severity of the debug messages to insert
* @param message a character array containing the message to insert
*/
public static void glDebugMessageInsertKHR(int source, int type, int id, int severity, ByteBuffer message) {
nglDebugMessageInsertKHR(source, type, id, severity, message.remaining(), memAddress(message));
}
/**
* This function can be called by applications and third-party libraries to generate their own messages, such as ones containing timestamp information or
* signals about specific render system events.
*
* The value of {@code id} specifies the ID for the message and {@code severity} indicates its severity level as defined by the caller. The string
* {@code buf} contains the string representation of the message. The parameter {@code length} contains the number of characters in {@code buf}. If
* {@code length} is negative, it is implied that {@code buf} contains a null terminated string. The error {@link GLES20#GL_INVALID_VALUE INVALID_VALUE} will be generated if the
* number of characters in {@code buf}, excluding the null terminator when {@code length} is negative, is not less than the value of
* {@link #GL_MAX_DEBUG_MESSAGE_LENGTH_KHR MAX_DEBUG_MESSAGE_LENGTH_KHR}.
*
* If the {@link #GL_DEBUG_OUTPUT_KHR DEBUG_OUTPUT_KHR} state is disabled calls to DebugMessageInsert are discarded and do not generate an error.
*
* @param source the source of the debug message to insert. One of:
{@link #GL_DEBUG_SOURCE_API_KHR DEBUG_SOURCE_API_KHR} {@link #GL_DEBUG_SOURCE_WINDOW_SYSTEM_KHR DEBUG_SOURCE_WINDOW_SYSTEM_KHR} {@link #GL_DEBUG_SOURCE_SHADER_COMPILER_KHR DEBUG_SOURCE_SHADER_COMPILER_KHR} {@link #GL_DEBUG_SOURCE_THIRD_PARTY_KHR DEBUG_SOURCE_THIRD_PARTY_KHR} {@link #GL_DEBUG_SOURCE_APPLICATION_KHR DEBUG_SOURCE_APPLICATION_KHR} {@link #GL_DEBUG_SOURCE_OTHER_KHR DEBUG_SOURCE_OTHER_KHR}
* @param type the type of the debug message insert. One of:
{@link #GL_DEBUG_TYPE_ERROR_KHR DEBUG_TYPE_ERROR_KHR} {@link #GL_DEBUG_TYPE_DEPRECATED_BEHAVIOR_KHR DEBUG_TYPE_DEPRECATED_BEHAVIOR_KHR} {@link #GL_DEBUG_TYPE_UNDEFINED_BEHAVIOR_KHR DEBUG_TYPE_UNDEFINED_BEHAVIOR_KHR} {@link #GL_DEBUG_TYPE_PORTABILITY_KHR DEBUG_TYPE_PORTABILITY_KHR} {@link #GL_DEBUG_TYPE_PERFORMANCE_KHR DEBUG_TYPE_PERFORMANCE_KHR} {@link #GL_DEBUG_TYPE_OTHER_KHR DEBUG_TYPE_OTHER_KHR} {@link #GL_DEBUG_TYPE_MARKER_KHR DEBUG_TYPE_MARKER_KHR}
* @param id the user-supplied identifier of the message to insert. One of:
{@link #GL_DEBUG_SEVERITY_HIGH_KHR DEBUG_SEVERITY_HIGH_KHR} {@link #GL_DEBUG_SEVERITY_MEDIUM_KHR DEBUG_SEVERITY_MEDIUM_KHR} {@link #GL_DEBUG_SEVERITY_LOW_KHR DEBUG_SEVERITY_LOW_KHR} {@link #GL_DEBUG_SEVERITY_NOTIFICATION_KHR DEBUG_SEVERITY_NOTIFICATION_KHR}
* @param severity the severity of the debug messages to insert
* @param message a character array containing the message to insert
*/
public static void glDebugMessageInsertKHR(int source, int type, int id, int severity, CharSequence message) {
MemoryStack stack = stackGet(); int stackPointer = stack.getPointer();
try {
ByteBuffer messageEncoded = stack.UTF8(message, false);
nglDebugMessageInsertKHR(source, type, id, severity, messageEncoded.remaining(), memAddress(messageEncoded));
} finally {
stack.setPointer(stackPointer);
}
}
// --- [ glDebugMessageCallbackKHR ] ---
/** Unsafe version of: {@link #glDebugMessageCallbackKHR DebugMessageCallbackKHR} */
public static native void nglDebugMessageCallbackKHR(long callback, long userParam);
/**
* Specifies a callback to receive debugging messages from the GL.
*
* The function's prototype must follow the type definition of DEBUGPROC including its platform-dependent calling convention. Anything else will result in
* undefined behavior. Only one debug callback can be specified for the current context, and further calls overwrite the previous callback. Specifying
* {@code NULL} as the value of {@code callback} clears the current callback and disables message output through callbacks. Applications can provide
* user-specified data through the pointer {@code userParam}. The context will store this pointer and will include it as one of the parameters in each call
* to the callback function.
*
* If the application has specified a callback function for receiving debug output, the implementation will call that function whenever any enabled message
* is generated. The source, type, ID, and severity of the message are specified by the DEBUGPROC parameters {@code source}, {@code type}, {@code id}, and
* {@code severity}, respectively. The string representation of the message is stored in {@code message} and its length (excluding the null-terminator) is
* stored in {@code length}. The parameter {@code userParam} is the user-specified parameter that was given when calling DebugMessageCallback.
*
* Applications can query the current callback function and the current user-specified parameter by obtaining the values of {@link #GL_DEBUG_CALLBACK_FUNCTION_KHR DEBUG_CALLBACK_FUNCTION_KHR}
* and {@link #GL_DEBUG_CALLBACK_USER_PARAM_KHR DEBUG_CALLBACK_USER_PARAM_KHR}, respectively.
*
* Applications that specify a callback function must be aware of certain special conditions when executing code inside a callback when it is called by the
* GL, regardless of the debug source.
*
* The memory for {@code message} is owned and managed by the GL, and should only be considered valid for the duration of the function call.
*
* The behavior of calling any GL or window system function from within the callback function is undefined and may lead to program termination.
*
* Care must also be taken in securing debug callbacks for use with asynchronous debug output by multi-threaded GL implementations.
*
* If the {@link #GL_DEBUG_OUTPUT_KHR DEBUG_OUTPUT_KHR} state is disabled then the GL will not call the callback function.
*
* @param callback a callback function that will be called when a debug message is generated
* @param userParam a user supplied pointer that will be passed on each invocation of {@code callback}
*/
public static void glDebugMessageCallbackKHR(GLDebugMessageKHRCallbackI callback, long userParam) {
nglDebugMessageCallbackKHR(memAddressSafe(callback), userParam);
}
// --- [ glGetDebugMessageLogKHR ] ---
/**
* Unsafe version of: {@link #glGetDebugMessageLogKHR GetDebugMessageLogKHR}
*
* @param bufsize the size of the buffer whose address is given by {@code messageLog}
*/
public static native int nglGetDebugMessageLogKHR(int count, int bufsize, long sources, long types, long ids, long severities, long lengths, long messageLog);
/**
* Retrieves messages from the debug message log.
*
* This function fetches a maximum of {@code count} messages from the message log, and will return the number of messages successfully fetched.
*
* Messages will be fetched from the log in order of oldest to newest. Those messages that were fetched will be removed from the log.
*
* The sources, types, severities, IDs, and string lengths of fetched messages will be stored in the application-provided arrays {@code sources},
* {@code types}, {@code severities}, {@code ids}, and {@code lengths}, respectively. The application is responsible for allocating enough space for each
* array to hold up to {@code count} elements. The string representations of all fetched messages are stored in the {@code messageLog} array. If multiple
* messages are fetched, their strings are concatenated into the same {@code messageLog} array and will be separated by single null terminators. The last
* string in the array will also be null-terminated. The maximum size of {@code messageLog}, including the space used by all null terminators, is given by
* {@code bufSize}. If {@code bufSize} is less than zero and {@code messageLog} is not {@code NULL}, an {@link GLES20#GL_INVALID_VALUE INVALID_VALUE} error will be generated. If a message's
* string, including its null terminator, can not fully fit within the {@code messageLog} array's remaining space, then that message and any subsequent
* messages will not be fetched and will remain in the log. The string lengths stored in the array {@code lengths} include the space for the null terminator of each string.
*
* Any or all of the arrays {@code sources}, {@code types}, {@code ids}, {@code severities}, {@code lengths} and {@code messageLog} can also be null
* pointers, which causes the attributes for such arrays to be discarded when messages are fetched, however those messages will still be removed from the
* log. Thus to simply delete up to {@code count} messages from the message log while ignoring their attributes, the application can call the function with
* null pointers for all attribute arrays.
*
* If the context was created without the {@link #GL_CONTEXT_FLAG_DEBUG_BIT_KHR CONTEXT_FLAG_DEBUG_BIT_KHR}, then the GL can opt to never add messages to the message log so GetDebugMessageLog will
* always return zero.
*
* @param count the number of debug messages to retrieve from the log
* @param sources an array of variables to receive the sources of the retrieved messages
* @param types an array of variables to receive the types of the retrieved messages
* @param ids an array of unsigned integers to receive the ids of the retrieved messages
* @param severities an array of variables to receive the severites of the retrieved messages
* @param lengths an array of variables to receive the lengths of the received messages
* @param messageLog an array of characters that will receive the messages
*/
public static int glGetDebugMessageLogKHR(int count, IntBuffer sources, IntBuffer types, IntBuffer ids, IntBuffer severities, IntBuffer lengths, ByteBuffer messageLog) {
if ( CHECKS ) {
checkSafe(sources, count);
checkSafe(types, count);
checkSafe(ids, count);
checkSafe(severities, count);
checkSafe(lengths, count);
}
return nglGetDebugMessageLogKHR(count, remainingSafe(messageLog), memAddressSafe(sources), memAddressSafe(types), memAddressSafe(ids), memAddressSafe(severities), memAddressSafe(lengths), memAddressSafe(messageLog));
}
// --- [ glGetPointervKHR ] ---
public static native void nglGetPointervKHR(int pname, long params);
public static void glGetPointervKHR(int pname, PointerBuffer params) {
if ( CHECKS )
check(params, 1);
nglGetPointervKHR(pname, memAddress(params));
}
public static long glGetPointerKHR(int pname) {
MemoryStack stack = stackGet(); int stackPointer = stack.getPointer();
try {
PointerBuffer params = stack.callocPointer(1);
nglGetPointervKHR(pname, memAddress(params));
return params.get(0);
} finally {
stack.setPointer(stackPointer);
}
}
// --- [ glPushDebugGroupKHR ] ---
/**
* Unsafe version of: {@link #glPushDebugGroupKHR PushDebugGroupKHR}
*
* @param length the length of the message to be sent to the debug output stream
*/
public static native void nglPushDebugGroupKHR(int source, int id, int length, long message);
/**
* Pushes a debug group described by the string {@code message} into the command stream. The value of {@code id} specifies the ID of messages generated.
* The parameter {@code length} contains the number of characters in {@code message}. If {@code length} is negative, it is implied that {@code message}
* contains a null terminated string. The message has the specified {@code source} and {@code id}, {@code type} {@link #GL_DEBUG_TYPE_PUSH_GROUP_KHR DEBUG_TYPE_PUSH_GROUP_KHR}, and
* {@code severity} {@link #GL_DEBUG_SEVERITY_NOTIFICATION_KHR DEBUG_SEVERITY_NOTIFICATION_KHR}. The GL will put a new debug group on top of the debug group stack which inherits the control of the
* volume of debug output of the debug group previously residing on the top of the debug group stack. Because debug groups are strictly hierarchical, any
* additional control of the debug output volume will only apply within the active debug group and the debug groups pushed on top of the active debug
* group.
*
* An {@link GLES20#GL_INVALID_ENUM INVALID_ENUM} error is generated if the value of {@code source} is neither {@link #GL_DEBUG_SOURCE_APPLICATION_KHR DEBUG_SOURCE_APPLICATION_KHR} nor {@link #GL_DEBUG_SOURCE_THIRD_PARTY_KHR DEBUG_SOURCE_THIRD_PARTY_KHR}. An
* {@link GLES20#GL_INVALID_VALUE INVALID_VALUE} error is generated if {@code length} is negative and the number of characters in {@code message}, excluding the null-terminator,
* is not less than the value of {@link #GL_MAX_DEBUG_MESSAGE_LENGTH_KHR MAX_DEBUG_MESSAGE_LENGTH_KHR}.
*
* @param source the source of the debug message. One of:
{@link #GL_DEBUG_SOURCE_APPLICATION_KHR DEBUG_SOURCE_APPLICATION_KHR} {@link #GL_DEBUG_SOURCE_THIRD_PARTY_KHR DEBUG_SOURCE_THIRD_PARTY_KHR}
* @param id the identifier of the message
* @param message a string containing the message to be sent to the debug output stream
*/
public static void glPushDebugGroupKHR(int source, int id, ByteBuffer message) {
nglPushDebugGroupKHR(source, id, message.remaining(), memAddress(message));
}
/**
* Pushes a debug group described by the string {@code message} into the command stream. The value of {@code id} specifies the ID of messages generated.
* The parameter {@code length} contains the number of characters in {@code message}. If {@code length} is negative, it is implied that {@code message}
* contains a null terminated string. The message has the specified {@code source} and {@code id}, {@code type} {@link #GL_DEBUG_TYPE_PUSH_GROUP_KHR DEBUG_TYPE_PUSH_GROUP_KHR}, and
* {@code severity} {@link #GL_DEBUG_SEVERITY_NOTIFICATION_KHR DEBUG_SEVERITY_NOTIFICATION_KHR}. The GL will put a new debug group on top of the debug group stack which inherits the control of the
* volume of debug output of the debug group previously residing on the top of the debug group stack. Because debug groups are strictly hierarchical, any
* additional control of the debug output volume will only apply within the active debug group and the debug groups pushed on top of the active debug
* group.
*
* An {@link GLES20#GL_INVALID_ENUM INVALID_ENUM} error is generated if the value of {@code source} is neither {@link #GL_DEBUG_SOURCE_APPLICATION_KHR DEBUG_SOURCE_APPLICATION_KHR} nor {@link #GL_DEBUG_SOURCE_THIRD_PARTY_KHR DEBUG_SOURCE_THIRD_PARTY_KHR}. An
* {@link GLES20#GL_INVALID_VALUE INVALID_VALUE} error is generated if {@code length} is negative and the number of characters in {@code message}, excluding the null-terminator,
* is not less than the value of {@link #GL_MAX_DEBUG_MESSAGE_LENGTH_KHR MAX_DEBUG_MESSAGE_LENGTH_KHR}.
*
* @param source the source of the debug message. One of:
{@link #GL_DEBUG_SOURCE_APPLICATION_KHR DEBUG_SOURCE_APPLICATION_KHR} {@link #GL_DEBUG_SOURCE_THIRD_PARTY_KHR DEBUG_SOURCE_THIRD_PARTY_KHR}
* @param id the identifier of the message
* @param message a string containing the message to be sent to the debug output stream
*/
public static void glPushDebugGroupKHR(int source, int id, CharSequence message) {
MemoryStack stack = stackGet(); int stackPointer = stack.getPointer();
try {
ByteBuffer messageEncoded = stack.UTF8(message, false);
nglPushDebugGroupKHR(source, id, messageEncoded.remaining(), memAddress(messageEncoded));
} finally {
stack.setPointer(stackPointer);
}
}
// --- [ glPopDebugGroupKHR ] ---
/** Unsafe version of: {@link #glPopDebugGroupKHR PopDebugGroupKHR} */
public static native void nglPopDebugGroupKHR();
/**
* Pops the active debug group. When a debug group is popped, the GL will also generate a debug output message describing its cause based on the
* {@code message} string, the source {@code source}, and an ID {@code id} submitted to the associated {@link #glPushDebugGroupKHR PushDebugGroupKHR} command.
* {@link #GL_DEBUG_TYPE_PUSH_GROUP_KHR DEBUG_TYPE_PUSH_GROUP_KHR} and {@link #GL_DEBUG_TYPE_POP_GROUP_KHR DEBUG_TYPE_POP_GROUP_KHR} share a single namespace for message {@code id}. {@code severity} has the value
* {@link #GL_DEBUG_SEVERITY_NOTIFICATION_KHR DEBUG_SEVERITY_NOTIFICATION_KHR}. The {@code type} has the value {@link #GL_DEBUG_TYPE_POP_GROUP_KHR DEBUG_TYPE_POP_GROUP_KHR}. Popping a debug group restores the debug output volume
* control of the parent debug group.
*
* Attempting to pop the default debug group off the stack generates a {@link #GL_STACK_UNDERFLOW_KHR STACK_UNDERFLOW_KHR} error; pushing a debug group onto a stack containing
* {@link #GL_MAX_DEBUG_GROUP_STACK_DEPTH_KHR MAX_DEBUG_GROUP_STACK_DEPTH_KHR} minus one elements will generate a {@link #GL_STACK_OVERFLOW_KHR STACK_OVERFLOW_KHR} error.
*/
public static void glPopDebugGroupKHR() {
nglPopDebugGroupKHR();
}
// --- [ glObjectLabelKHR ] ---
/**
* Unsafe version of: {@link #glObjectLabelKHR ObjectLabelKHR}
*
* @param length the length of the label to be used for the object
*/
public static native void nglObjectLabelKHR(int identifier, int name, int length, long label);
/**
* Labels a named object identified within a namespace.
*
* @param identifier the namespace from which the name of the object is allocated. One of:
{@link #GL_BUFFER_KHR BUFFER_KHR} {@link #GL_SHADER_KHR SHADER_KHR} {@link #GL_PROGRAM_KHR PROGRAM_KHR} {@link #GL_QUERY_KHR QUERY_KHR} {@link #GL_PROGRAM_PIPELINE_KHR PROGRAM_PIPELINE_KHR} {@link #GL_SAMPLER_KHR SAMPLER_KHR} {@link GLES20#GL_TEXTURE TEXTURE} {@link GLES20#GL_RENDERBUFFER RENDERBUFFER} {@link GLES20#GL_FRAMEBUFFER FRAMEBUFFER} {@link GLES30#GL_TRANSFORM_FEEDBACK TRANSFORM_FEEDBACK}
* @param name the name of the object to label
* @param label a string containing the label to assign to the object
*/
public static void glObjectLabelKHR(int identifier, int name, ByteBuffer label) {
nglObjectLabelKHR(identifier, name, label.remaining(), memAddress(label));
}
/**
* Labels a named object identified within a namespace.
*
* @param identifier the namespace from which the name of the object is allocated. One of:
{@link #GL_BUFFER_KHR BUFFER_KHR} {@link #GL_SHADER_KHR SHADER_KHR} {@link #GL_PROGRAM_KHR PROGRAM_KHR} {@link #GL_QUERY_KHR QUERY_KHR} {@link #GL_PROGRAM_PIPELINE_KHR PROGRAM_PIPELINE_KHR} {@link #GL_SAMPLER_KHR SAMPLER_KHR} {@link GLES20#GL_TEXTURE TEXTURE} {@link GLES20#GL_RENDERBUFFER RENDERBUFFER} {@link GLES20#GL_FRAMEBUFFER FRAMEBUFFER} {@link GLES30#GL_TRANSFORM_FEEDBACK TRANSFORM_FEEDBACK}
* @param name the name of the object to label
* @param label a string containing the label to assign to the object
*/
public static void glObjectLabelKHR(int identifier, int name, CharSequence label) {
MemoryStack stack = stackGet(); int stackPointer = stack.getPointer();
try {
ByteBuffer labelEncoded = stack.UTF8(label, false);
nglObjectLabelKHR(identifier, name, labelEncoded.remaining(), memAddress(labelEncoded));
} finally {
stack.setPointer(stackPointer);
}
}
// --- [ glGetObjectLabelKHR ] ---
/**
* Unsafe version of: {@link #glGetObjectLabelKHR GetObjectLabelKHR}
*
* @param bufSize the length of the buffer whose address is in {@code label}
*/
public static native void nglGetObjectLabelKHR(int identifier, int name, int bufSize, long length, long label);
/**
* Retrieves the label of a named object identified within a namespace.
*
* @param identifier the namespace from which the name of the object is allocated. One of:
{@link #GL_BUFFER_KHR BUFFER_KHR} {@link #GL_SHADER_KHR SHADER_KHR} {@link #GL_PROGRAM_KHR PROGRAM_KHR} {@link #GL_QUERY_KHR QUERY_KHR} {@link #GL_PROGRAM_PIPELINE_KHR PROGRAM_PIPELINE_KHR} {@link #GL_SAMPLER_KHR SAMPLER_KHR} {@link GLES20#GL_TEXTURE TEXTURE} {@link GLES20#GL_RENDERBUFFER RENDERBUFFER} {@link GLES20#GL_FRAMEBUFFER FRAMEBUFFER} {@link GLES30#GL_TRANSFORM_FEEDBACK TRANSFORM_FEEDBACK}
* @param name the name of the object whose label to retrieve
* @param length the address of a variable to receive the length of the object label
* @param label a string that will receive the object label
*/
public static void glGetObjectLabelKHR(int identifier, int name, IntBuffer length, ByteBuffer label) {
if ( CHECKS )
checkSafe(length, 1);
nglGetObjectLabelKHR(identifier, name, label.remaining(), memAddressSafe(length), memAddress(label));
}
/**
* Retrieves the label of a named object identified within a namespace.
*
* @param identifier the namespace from which the name of the object is allocated. One of:
{@link #GL_BUFFER_KHR BUFFER_KHR} {@link #GL_SHADER_KHR SHADER_KHR} {@link #GL_PROGRAM_KHR PROGRAM_KHR} {@link #GL_QUERY_KHR QUERY_KHR} {@link #GL_PROGRAM_PIPELINE_KHR PROGRAM_PIPELINE_KHR} {@link #GL_SAMPLER_KHR SAMPLER_KHR} {@link GLES20#GL_TEXTURE TEXTURE} {@link GLES20#GL_RENDERBUFFER RENDERBUFFER} {@link GLES20#GL_FRAMEBUFFER FRAMEBUFFER} {@link GLES30#GL_TRANSFORM_FEEDBACK TRANSFORM_FEEDBACK}
* @param name the name of the object whose label to retrieve
* @param bufSize the length of the buffer whose address is in {@code label}
*/
public static String glGetObjectLabelKHR(int identifier, int name, int bufSize) {
MemoryStack stack = stackGet(); int stackPointer = stack.getPointer();
try {
IntBuffer length = stack.ints(0);
ByteBuffer label = stack.malloc(bufSize);
nglGetObjectLabelKHR(identifier, name, bufSize, memAddress(length), memAddress(label));
return memUTF8(label, length.get(0));
} finally {
stack.setPointer(stackPointer);
}
}
/**
* Retrieves the label of a named object identified within a namespace.
*
* @param identifier the namespace from which the name of the object is allocated. One of:
{@link #GL_BUFFER_KHR BUFFER_KHR} {@link #GL_SHADER_KHR SHADER_KHR} {@link #GL_PROGRAM_KHR PROGRAM_KHR} {@link #GL_QUERY_KHR QUERY_KHR} {@link #GL_PROGRAM_PIPELINE_KHR PROGRAM_PIPELINE_KHR} {@link #GL_SAMPLER_KHR SAMPLER_KHR} {@link GLES20#GL_TEXTURE TEXTURE} {@link GLES20#GL_RENDERBUFFER RENDERBUFFER} {@link GLES20#GL_FRAMEBUFFER FRAMEBUFFER} {@link GLES30#GL_TRANSFORM_FEEDBACK TRANSFORM_FEEDBACK}
* @param name the name of the object whose label to retrieve
*/
public static String glGetObjectLabelKHR(int identifier, int name) {
int bufSize = GLES20.glGetInteger(GL_MAX_LABEL_LENGTH_KHR);
MemoryStack stack = stackGet(); int stackPointer = stack.getPointer();
try {
IntBuffer length = stack.ints(0);
ByteBuffer label = stack.malloc(bufSize);
nglGetObjectLabelKHR(identifier, name, bufSize, memAddress(length), memAddress(label));
return memUTF8(label, length.get(0));
} finally {
stack.setPointer(stackPointer);
}
}
// --- [ glObjectPtrLabelKHR ] ---
/**
* Unsafe version of: {@link #glObjectPtrLabelKHR ObjectPtrLabelKHR}
*
* @param length the length of the label to be used for the object
*/
public static native void nglObjectPtrLabelKHR(long ptr, int length, long label);
/**
* Labels a sync object identified by a pointer.
*
* @param ptr a pointer identifying a sync object
* @param label a string containing the label to assign to the object
*/
public static void glObjectPtrLabelKHR(long ptr, ByteBuffer label) {
if ( CHECKS )
check(ptr);
nglObjectPtrLabelKHR(ptr, label.remaining(), memAddress(label));
}
/**
* Labels a sync object identified by a pointer.
*
* @param ptr a pointer identifying a sync object
* @param label a string containing the label to assign to the object
*/
public static void glObjectPtrLabelKHR(long ptr, CharSequence label) {
if ( CHECKS )
check(ptr);
MemoryStack stack = stackGet(); int stackPointer = stack.getPointer();
try {
ByteBuffer labelEncoded = stack.UTF8(label, false);
nglObjectPtrLabelKHR(ptr, labelEncoded.remaining(), memAddress(labelEncoded));
} finally {
stack.setPointer(stackPointer);
}
}
// --- [ glGetObjectPtrLabelKHR ] ---
/**
* Unsafe version of: {@link #glGetObjectPtrLabelKHR GetObjectPtrLabelKHR}
*
* @param bufSize the length of the buffer whose address is in {@code label}
*/
public static native void nglGetObjectPtrLabelKHR(long ptr, int bufSize, long length, long label);
/**
* Retrieves the label of a sync object identified by a pointer.
*
* @param ptr the name of the sync object whose label to retrieve
* @param length a variable to receive the length of the object label
* @param label a string that will receive the object label
*/
public static void glGetObjectPtrLabelKHR(long ptr, IntBuffer length, ByteBuffer label) {
if ( CHECKS ) {
check(ptr);
checkSafe(length, 1);
}
nglGetObjectPtrLabelKHR(ptr, label.remaining(), memAddressSafe(length), memAddress(label));
}
/**
* Retrieves the label of a sync object identified by a pointer.
*
* @param ptr the name of the sync object whose label to retrieve
* @param bufSize the length of the buffer whose address is in {@code label}
*/
public static String glGetObjectPtrLabelKHR(long ptr, int bufSize) {
if ( CHECKS )
check(ptr);
MemoryStack stack = stackGet(); int stackPointer = stack.getPointer();
try {
IntBuffer length = stack.ints(0);
ByteBuffer label = stack.malloc(bufSize);
nglGetObjectPtrLabelKHR(ptr, bufSize, memAddress(length), memAddress(label));
return memUTF8(label, length.get(0));
} finally {
stack.setPointer(stackPointer);
}
}
/**
* Retrieves the label of a sync object identified by a pointer.
*
* @param ptr the name of the sync object whose label to retrieve
*/
public static String glGetObjectPtrLabelKHR(long ptr) {
int bufSize = GLES20.glGetInteger(GL_MAX_LABEL_LENGTH_KHR);
if ( CHECKS )
check(ptr);
MemoryStack stack = stackGet(); int stackPointer = stack.getPointer();
try {
IntBuffer length = stack.ints(0);
ByteBuffer label = stack.malloc(bufSize);
nglGetObjectPtrLabelKHR(ptr, bufSize, memAddress(length), memAddress(label));
return memUTF8(label, length.get(0));
} finally {
stack.setPointer(stackPointer);
}
}
/** Array version of: {@link #glDebugMessageControlKHR DebugMessageControlKHR} */
public static void glDebugMessageControlKHR(int source, int type, int severity, int[] ids, boolean enabled) {
long __functionAddress = GLES.getICD().glDebugMessageControlKHR;
if ( CHECKS )
check(__functionAddress);
callPV(__functionAddress, source, type, severity, lengthSafe(ids), ids, enabled);
}
/** Array version of: {@link #glGetDebugMessageLogKHR GetDebugMessageLogKHR} */
public static int glGetDebugMessageLogKHR(int count, int[] sources, int[] types, int[] ids, int[] severities, int[] lengths, ByteBuffer messageLog) {
long __functionAddress = GLES.getICD().glGetDebugMessageLogKHR;
if ( CHECKS ) {
check(__functionAddress);
checkSafe(sources, count);
checkSafe(types, count);
checkSafe(ids, count);
checkSafe(severities, count);
checkSafe(lengths, count);
}
return callPPPPPPI(__functionAddress, count, remainingSafe(messageLog), sources, types, ids, severities, lengths, memAddressSafe(messageLog));
}
/** Array version of: {@link #glGetObjectLabelKHR GetObjectLabelKHR} */
public static void glGetObjectLabelKHR(int identifier, int name, int[] length, ByteBuffer label) {
long __functionAddress = GLES.getICD().glGetObjectLabelKHR;
if ( CHECKS ) {
check(__functionAddress);
checkSafe(length, 1);
}
callPPV(__functionAddress, identifier, name, label.remaining(), length, memAddress(label));
}
/** Array version of: {@link #glGetObjectPtrLabelKHR GetObjectPtrLabelKHR} */
public static void glGetObjectPtrLabelKHR(long ptr, int[] length, ByteBuffer label) {
long __functionAddress = GLES.getICD().glGetObjectPtrLabelKHR;
if ( CHECKS ) {
check(__functionAddress);
check(ptr);
checkSafe(length, 1);
}
callPPPV(__functionAddress, ptr, label.remaining(), length, memAddress(label));
}
}