In this article we are going to explore OpenGL ES and its impact on different aspects of everyday life. OpenGL ES has been the subject of interest and debate for a long time, and its influence extends to multiple areas, from politics to popular culture. We'll dive into the different aspects that make OpenGL ES a relevant and interesting topic, and analyze how it has evolved over time. From its origin to its current relevance, we will dive into a complete analysis of OpenGL ES and its importance in our society.
Original author(s) | ARB |
---|---|
Developer(s) | Khronos Group |
Initial release | 28 July 2003 |
Stable release | 3.2[1]
/ 10 August 2015 |
Operating system | Cross-platform |
Platform | Cross-platform |
Successor | Vulkan |
Type | API |
License | Free of charge, royalty or licensing |
Website | www |
OpenGL for Embedded Systems (OpenGL ES or GLES) is a subset[2] of the OpenGL computer graphics rendering application programming interface (API) for rendering 2D and 3D computer graphics such as those used by video games, typically hardware-accelerated using a graphics processing unit (GPU). It is designed for embedded systems like smartphones, tablet computers, video game consoles and PDAs. OpenGL ES is the "most widely deployed 3D graphics API in history".[3]
The API is cross-language and multi-platform. The GLU library and the original GLUT are not available for OpenGL ES, freeglut however, supports it. OpenGL ES is managed by the non-profit technology consortium Khronos Group. Vulkan, a next-generation API from Khronos, is made for simpler high performance drivers for mobile and desktop devices.[4]
Several versions of the OpenGL ES specification now exist. OpenGL ES 1.0 is drawn up against the OpenGL 1.3 specification, OpenGL ES 1.1 is defined relative to the OpenGL 1.5 specification and OpenGL ES 2.0 is defined relative to the OpenGL 2.0 specification. This means that, for example, an application written for OpenGL ES 1.0 should be easily portable to the desktop OpenGL 1.3; as the OpenGL ES is a stripped-down version of the API, the reverse may or may not be true, depending on the particular features used.
OpenGL ES comes with its own version of shading language (OpenGL ES SL), which is different from OpenGL SL.[5]
Version 1.0 and 1.1 both have common (CM) and common lite (CL) profiles, the difference being that the common lite profile only supports fixed-point instead of floating point data type support, whereas common supports both.
OpenGL ES 1.0 was released publicly July 28, 2003. OpenGL ES 1.0 is based on the original OpenGL 1.3 API, with much functionality removed and a little bit added. One significant difference between OpenGL and OpenGL ES is that OpenGL ES removed the need to bracket OpenGL library calls with glBegin
and glEnd
. Other significant differences are that the calling semantics for primitive rendering functions were changed in favor of vertex arrays, and fixed-point data types were introduced for vertex coordinates. Attributes were also added to better support the computational abilities of embedded processors, which often lack a floating point unit (FPU). Many other functions and rendering primitives were removed in version 1.0 to produce a lightweight interface, including:
ARB_Image
pixel class operations, bitmaps, and 3D textures are not supported;The actual version is 1.0.0.2.[6]
Extension Name | Sort #Number | Details |
---|---|---|
OES_byte_coordinates | OpenGL ES Extension #4 | (formerly OpenGL Extension #291) |
OES_compressed_paletted_texture | OpenGL ES Extension #6 | (formerly OpenGL Extension #294) |
OES_fixed_point | OpenGL ES Extension #9 | (formerly OpenGL Extension #292) |
OES_query_matrix | OpenGL ES Extension #16 | (formerly OpenGL Extension #296) |
OES_read_format | OpenGL ES Extension #17 | (formerly OpenGL Extension #295) |
OES_single_precision | OpenGL ES Extension #18 | (formerly OpenGL Extension #293) |
optional | Mesa (most drivers) | |
OES_compressed_ETC1_RGB8_texture | OpenGL ES Extension #5 |
OpenGL ES 1.1 added features such as mandatory support for multitexture, better multitexture support (including combiners and dot product texture operations), automatic mipmap generation, vertex buffer objects, state queries, user clip planes, and greater control over point rendering.[7] Actual Version is 1.1.12.[8]
Extension Name | Sort #Number |
---|---|
OES_draw_texture | OpenGL ES Extension #7 |
OES_matrix_get | OpenGL ES Extension #11 |
OES_point_size_array | OpenGL ES Extension #14 |
OES_point_sprite | OpenGL ES Extension #15 |
optional | Mesa (all drivers) |
OES_framebuffer_object | OpenGL ES Extension #10 (became core in ES 2.0)[9] |
OES_EGL_image | OpenGL ES Extension #23 |
OES_EGL_image_external | OpenGL ES Extension #87 |
OES_required_internalformat | OpenGL ES Extension # TBD |
OpenGL ES 2.0 was publicly released in March 2007.[10] It is roughly based on OpenGL 2.0, but it eliminates most of the fixed-function rendering pipeline in favor of a programmable one in a move similar to the transition from OpenGL 3.0 to 3.1.[11] Control flow in shaders is generally limited to forward branching and to loops where the maximum number of iterations can easily be determined at compile time.[12] Almost all rendering features of the transform and lighting stage, such as the specification of materials and light parameters formerly specified by the fixed-function API, are replaced by shaders written by the graphics programmer. As a result, OpenGL ES 2.0 is not backward compatible with OpenGL ES 1.1. Some incompatibilities between the desktop version of OpenGL and OpenGL ES 2.0 persisted until OpenGL 4.1, which added the GL_ARB_ES2_compatibility
extension.[13]
Actual version is 2.0.25.[14]
The Khronos Group has written a document describing the differences between OpenGL ES 2.0 and ordinary OpenGL 2.0.[15]
Extension Name | Sort #Number |
---|---|
OES_texture_cube_map | OpenGL ES Extension #20 |
OES_texture_npot | OpenGL ES Extension #37 |
OES_depth24 | OpenGL ES Extension #24 |
OES_depth_texture | OpenGL ES Extension #44 |
OES_element_index_uint | OpenGL ES Extension #26 |
OES_fbo_render_mipmap | OpenGL ES Extension #27 |
OES_get_program_binary | OpenGL ES Extension #47 |
OES_mapbuffer | OpenGL ES Extension #29 |
OES_packed_depth_stencil | OpenGL ES Extension #43 |
OES_rgb8_rgba8 | OpenGL ES Extension #30 |
OES_stencil8 | OpenGL ES Extension #33 |
OES_vertex_half_float | OpenGL ES Extension #38 |
additional | in MESA (all drivers) |
OES_EGL_image | OpenGL ES Extension #23 (different for 1.1) |
OES_EGL_image_external | OpenGL ES Extension #87 (different for 1.1) |
OES_texture_3D | OpenGL ES Extension #34 (became core in ES 3.0)[16] |
OES_texture_float_linear OES_texture_half_float_linear | OpenGL ES Extension #35, extended in ES 3.0 and 3.1 |
OES_texture_float OES_texture_half_float | OpenGL ES Extension #36, extended in ES 3.0 and 3.1 |
OES_standard_derivatives | OpenGL ES Extension #45 |
OES_vertex_array_object | OpenGL ES Extension #71 (became core in ES 3.0)[16] |
OES_surfaceless_context | OpenGL ES Extension #116 |
OES_depth_texture_cube_map | OpenGL ES Extension #136 |
EXT_texture_filter_anisotropic | OpenGL ES Extension #41 |
EXT_texture_type_2_10_10_10_REV | OpenGL ES Extension #42 |
EXT_texture_compression_dxt1 | OpenGL ES Extension #49 |
EXT_texture_format_BGRA8888 | OpenGL ES Extension #51 |
EXT_discard_framebuffer | OpenGL ES Extension #64 |
EXT_blend_minmax | OpenGL ES Extension #65 |
EXT_read_format_bgra | OpenGL ES Extension #66 |
EXT_multi_draw_arrays | OpenGL ES Extension #69 |
EXT_frag_depth | OpenGL ES Extension #86 |
EXT_unpack_subimage | OpenGL ES Extension #90 |
EXT_texture_rg | OpenGL ES Extension #103 |
EXT_draw_buffers | OpenGL ES Extension #151 |
EXT_compressed_ETC1_RGB8_sub_texture | OpenGL ES Extension #188 |
NV_draw_buffers | OpenGL ES Extension #91 |
NV_fbo_color_attachments | OpenGL ES Extension #92 |
NV_read_buffer | OpenGL ES Extension #93 |
NV_read_depth_stencil | OpenGL ES Extension #94 |
ANGLE_texture_compression_dxt | OpenGL ES Extension #111 |
The OpenGL ES 3.0 specification[17] was publicly released in August 2012.[18] It is backwards compatible with OpenGL ES 2.0, and partially compatible with WebGL 2.0,[19] as WebGL 2.0 was designed to have a high degree of interoperability with OpenGL ES 3.0.[20] The current version of the OpenGL ES 3.0 standard is 3.0.6, released in November 2019.[21]
New functionality in the OpenGL ES 3.0 specification includes:
Extension Name | Sort #Number | Details |
---|---|---|
KHR_context_flush_control | OpenGL ES Extension #191 | (for GL_KHR_context_flush_control only) |
additional | in MESA (all drivers) | |
OES_texture_compression_astc | OpenGL ES Extension #162 | |
EXT_texture_border_clamp | OpenGL ES Extension #182 | |
EXT_draw_elements_base_vertex | OpenGL ES Extension #204 | |
OES_EGL_image_external_essl3 | OpenGL ES Extension #220 | |
MESA_shader_integer_functions | OpenGL ES Extension #495 |
The OpenGL ES 3.1 specification[23] was publicly released in March 2014. New functionality in OpenGL ES 3.1 includes:[24]
OpenGL ES 3.1 is backward compatible with OpenGL ES 2.0 and 3.0, thus enabling applications to incrementally incorporate new features. Actual Version is 3.1-(November 2016).[25]
Extension Name | Sort #Number |
---|---|
ARB_arrays_of_arrays | ARB Extension #120 |
ARB_compute_shader | ARB Extension #122 |
ARB_explicit_uniform_location | ARB Extension #128 |
ARB_framebuffer_no_attachments | ARB Extension #130 |
ARB_program_interface_query | ARB Extension #134 |
ARB_shader_atomic_counters | ARB Extension #114 |
ARB_shader_image_load_store | ARB Extension #115 |
ARB_shader_storage_buffer_object | ARB Extension #137 |
ARB_separate_shader_objects | ARB Extension #97 |
ARB_stencil_texturing | ARB Extension #138 |
ARB_vertex_attrib_binding | ARB Extension #125 |
ARB_draw_indirect | ARB Extension #87 |
ARB_shading_language_packing | ARB Extension #116 |
ARB_shader_image_size | ARB Extension #136 |
ARB_texture_storage_multisample | ARB Extension #141 |
ARB_texture_multisample | ARB Extension #67 |
EXT_shader_integer_mix | OpenGL ES Extension #161 |
optional | Mesa (all drivers OpenGL ES 3.1+) |
ARB_sample_locations | ARB Extension #181 |
OES_texture_view | OpenGL ES Extension #218 |
NV_image_formats | OpenGL ES Extension #200 |
EXT_render_snorm | OpenGL ES Extension #206 |
EXT_texture_norm16 | OpenGL ES Extension #207 |
The OpenGL ES 3.2 specification[26] was publicly released in August 2015. New capabilities in OpenGL ES 3.2 include:
Actual State is 3.2.6 July 2019.[27][28]
Extension Name | Sort #Number |
---|---|
KHR_blend_equation_advanced | OpenGL ES Extension #168 |
EXT_color_buffer_float | OpenGL ES Extension #137 |
KHR_debug | OpenGL ES Extension #118 |
KHR_robustness | OpenGL ES Extension #190 |
OES_copy_image | OpenGL ES Extension #208 |
OES_draw_buffers_indexed | OpenGL ES Extension #209 |
OES_draw_elements_base_vertex | OpenGL ES Extension #219 |
OES_geometry_shader | OpenGL ES Extension #210 |
OES_gpu_shader5 | OpenGL ES Extension #211 |
OES_sample_shading | OpenGL ES Extension #169 |
OES_sample_variables | OpenGL ES Extension #170 |
OES_shader_image_atomic | OpenGL ES Extension #171 |
OES_shader_io_blocks | OpenGL ES Extension #213 |
OES_shader_multisample_interpolation | OpenGL ES Extension #172 |
OES_tessellation_shader | OpenGL ES Extension #214 |
OES_texture_border_clamp | OpenGL ES Extension #215 |
OES_texture_buffer | OpenGL ES Extension #216 |
OES_texture_cube_map_array | OpenGL ES Extension #217 |
OES_texture_stencil8 | OpenGL ES Extension #173 |
OES_texture_storage_multisample_2d_array | OpenGL ES Extension #174 |
KHR_texture_compression_astc_ldr | OpenGL ES Extension #117 (LDR only) |
OES_primitive_bounding_box | OpenGL ES Extension #212 |
optional | Mesa (all drivers OpenGL ES 3.2+) |
KHR_texture_compression_astc_hdr | OpenGL ES Extension #117 (LDR included), ARB Extension #118 |
KHR_blend_equation_advanced_coherent | OpenGL ES Extension #168 |
KHR_texture_compression_astc_sliced_3d | OpenGL ES Extension #249 (ARB Extension #189) |
OpenGL ES Extension #267 |
Some more extensions are developed or in Development in Mesa for next OpenGL ES Version (see Mesamatrix).
Next generation API is Vulkan.[29]
For complete list of companies and their conformant products, view here
OpenGL ES 1.0 added an official 3D graphics API to the Android[30] and Symbian OS v8.0a[31][32] operating systems, as well as by QNX[33] It is also supported by the PlayStation 3 as one of its official graphics APIs[34] (the other one being low level libgcm library) with Nvidia's Cg in lieu of GLSL.[35] The PlayStation 3 also includes several features of the 2.0 version of OpenGL ES.
The 1.1 version of OpenGL ES is supported by:
Supported by:
Supported by:
Supported by some recent versions of these GPUs:[46][47]
Supported by Windows, Linux, Android (since version 5.0) on devices with appropriate hardware and drivers,[48] including:
Android Extension Pack (AEP) is a set of OpenGL ES 3.1 extensions, all bundled into a single extension introduced by Google in 2014. This allows applications to use all of the features of the set of extensions, while only testing for the presence of a single one. The AEP was officially added to Android Lollipop to provide extra features like tessellation over what was officially in the GLES 3.1 revision. OpenGL ES 3.2 update is largely made up of the AEP additions, which are already present in desktop OpenGL.[53]
OpenGL ES 3.2, incorporating the Android Extension Pack (AEP), "boasts a small number of improvements over last year’s OpenGL ES 3.1. Both make use of similar features from the AEP. From the AEP, OpenGL ES 3.2 compliant hardware will support Tessellation for additional geometry detail, new geometry shaders, ASTC texture compression for a smaller memory bandwidth footprint, floating point render targets for high accuracy compute processes, and new debugging features for developers. These high-end features are already found in the group’s full OpenGL 4 specification."[54][3]
Supported by Windows, Linux, Android (since version 6.0 possible, 7.0+ Vulkan 1.0 and OpenGL ES 3.2 needed) on devices with appropriate hardware and drivers, including:
OpenGL ES (and OpenGL) was deprecated in Apple's operating systems in favour of its own proprietary Metal graphics API, but still worked in up to at least iOS 12.[56]
There is currently no plan for a new core version of OpenGL ES, as adoption of Vulkan has been deemed to displace it in embedded and mobile applications. Development of extensions to OpenGL ES continues as of 2017. [57]
This section needs expansion. You can help by adding to it. (September 2014) |
A few libraries have been created to emulate OpenGL calls using GL ES:
Industry will ship >1.7 billion devices in 2015
Apps built using OpenGL ES will continue to run in iOS 12, but OpenGL ES is deprecated in iOS 13.