glMemoryBarrier - defines a barrier ordering memory transactions
void glMemoryBarrier(GLbitfield barriers);
void glMemoryBarrierByRegion(GLbitfield barriers);
For glMemoryBarrier, must be a bitwise combination of any of GL_VERTEX_ATTRIB_ARRAY_BARRIER_BIT, GL_ELEMENT_ARRAY_BARRIER_BIT, GL_UNIFORM_BARRIER_BIT, GL_TEXTURE_FETCH_BARRIER_BIT, GL_SHADER_IMAGE_ACCESS_BARRIER_BIT, GL_COMMAND_BARRIER_BIT, GL_PIXEL_BUFFER_BARRIER_BIT, GL_TEXTURE_UPDATE_BARRIER_BIT, GL_BUFFER_UPDATE_BARRIER_BIT, GL_FRAMEBUFFER_BARRIER_BIT, GL_TRANSFORM_FEEDBACK_BARRIER_BIT, GL_ATOMIC_COUNTER_BARRIER_BIT, or GL_SHADER_STORAGE_BARRIER_BIT.
For glMemoryBarrier, must be a bitwise combination of any of GL_ATOMIC_COUNTER_BARRIER_BIT, or GL_FRAMEBUFFER_BARRIER_BIT, GL_SHADER_IMAGE_ACCESS_BARRIER_BIT, GL_SHADER_STORAGE_BARRIER_BIT. GL_TEXTURE_FETCH_BARRIER_BIT, or GL_UNIFORM_BARRIER_BIT.
If the special value GL_ALL_BARRIER_BITS is specified, all supported barriers for the corresponding command will be inserted.
DESCRIPTION FOR GLMEMORYBARRIER¶
glMemoryBarrier defines a barrier ordering the memory transactions issued prior to the command relative to those issued after the barrier. For the purposes of this ordering, memory transactions performed by shaders are considered to be issued by the rendering command that triggered the execution of the shader. barriers is a bitfield indicating the set of operations that are synchronized with shader stores; the bits used in barriers are as follows:
If barriers is GL_ALL_BARRIER_BITS, shader memory accesses will be synchronized relative to all the operations described above.
Implementations may cache buffer object and texture image memory that could be written by shaders in multiple caches; for example, there may be separate caches for texture, vertex fetching, and one or more caches for shader memory accesses. Implementations are not required to keep these caches coherent with shader memory writes. Stores issued by one invocation may not be immediately observable by other pipeline stages or other shader invocations because the value stored may remain in a cache local to the processor executing the store, or because data overwritten by the store is still in a cache elsewhere in the system. When glMemoryBarrier is called, the GL flushes and/or invalidates any caches relevant to the operations specified by the barriers parameter to ensure consistent ordering of operations across the barrier.
To allow for independent shader invocations to communicate by reads and writes to a common memory address, image variables in the OpenGL Shading Language may be declared as "coherent". Buffer object or texture image memory accessed through such variables may be cached only if caches are automatically updated due to stores issued by any other shader invocation. If the same address is accessed using both coherent and non-coherent variables, the accesses using variables declared as coherent will observe the results stored using coherent variables in other invocations. Using variables declared as "coherent" guarantees only that the results of stores will be immediately visible to shader invocations using similarly-declared variables; calling glMemoryBarrier is required to ensure that the stores are visible to other operations.
The following guidelines may be helpful in choosing when to use coherent memory accesses and when to use barriers.
DESCRIPTION FOR GLMEMORYBARRIERBYREGION¶
glMemoryBarrierByRegion behaves as described above for glMemoryBarrier, with two differences:
First, it narrows the region under consideration so that only reads and writes of prior fragment shaders that are invoked for a smaller region of the framebuffer will be completed/reflected prior to subsequent reads and writes of following fragment shaders. The size of the region is implementation-dependent and may be as small as one framebuffer pixel.
Second, it only applies to memory transactions that may be read by or written by a fragment shader. Therefore, only the barrier bits
When barriers is GL_ALL_BARRIER_BITS, shader memory accesses will be synchronized relative to all these barrier bits, but not to other barrier bits specific to glMemoryBarrier. This implies that reads and writes for scatter/gather-like algorithms may or may not be completed/reflected after a glMemoryBarrierByRegion command. However, for uses such as deferred shading, where a linked list of visible surfaces with the head at a framebuffer address may be constructed, and the entirety of the list is only dependent on previous executions at that framebuffer address, glMemoryBarrierByRegion may be significantly more efficient than glMemoryBarrier.
GL_SHADER_STORAGE_BARRIER_BIT is available only if the GL version is 4.3 or higher.
GL_QUERY_BUFFER_BARRIER_BIT is available only if the GL version is 4.4 or higher.
GL_INVALID_VALUE is generated if barriers is not the special value GL_ALL_BARRIER_BITS, and has any bits set other than those described above for glMemoryBarrier or glMemoryBarrierByRegion respectively.
|Function / Feature Name||2.0||2.1||3.0||3.1||3.2||3.3||4.0||4.1||4.2||4.3||4.4||4.5|
glBindImageTexture(), glBufferData(), glMapBuffer(), glMapBufferRange(), glFlushMappedBufferRange(), memoryBarrier()
Copyright © 2011-2014 Khronos Group. This material may be distributed subject to the terms and conditions set forth in the Open Publication License, v 1.0, 8 June 1999. http://opencontent.org/openpub/.
Copyright © 2011-2014 Khronos Group