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Ryujinx/Spv.Generator/Autogenerated/CoreGrammar.cs
gdkchan 2232e4ae87
Vulkan backend (#2518)
* WIP Vulkan implementation

* No need to initialize attributes on the SPIR-V backend anymore

* Allow multithreading shaderc and vkCreateShaderModule

You'll only really see the benefit here with threaded-gal or parallel shader cache compile.

Fix shaderc multithreaded changes

Thread safety for shaderc Options constructor

Dunno how they managed to make a constructor not thread safe, but you do you. May avoid some freezes.

* Support multiple levels/layers for blit.

Fixes MK8D when scaled, maybe a few other games. AMD software "safe" blit not supported right now.

* TextureStorage should hold a ref of the foreign storage, otherwise it might be freed while in use

* New depth-stencil blit method for AMD

* Workaround for AMD driver bug

* Fix some tessellation related issues (still doesn't work?)

* Submit command buffer before Texture GetData. (UE4 fix)

* DrawTexture support

* Fix BGRA on OpenGL backend

* Fix rebase build break

* Support format aliasing on SetImage

* Fix uniform buffers being lost when bindings are out of order

* Fix storage buffers being lost when bindings are out of order

(also avoid allocations when changing bindings)

* Use current command buffer for unscaled copy (perf)

Avoids flushing commands and renting a command buffer when fulfilling copy dependencies and when games do unscaled copies.

* Update to .net6

* Update Silk.NET to version 2.10.1

Somehow, massive performance boost. Seems like their vtable for looking up vulkan methods was really slow before.

* Fix PrimitivesGenerated query, disable Transform Feedback queries for now

Lets Splatoon 2 work on nvidia. (mostly)

* Update counter queue to be similar to the OGL one

Fixes softlocks when games had to flush counters.

* Don't throw when ending conditional rendering for now

This should be re-enabled when conditional rendering is enabled on nvidia etc.

* Update findMSB/findLSB to match master's instruction enum

* Fix triangle overlay on SMO, Captain Toad, maybe others?

* Don't make Intel Mesa pay for Intel Windows bugs

* Fix samplers with MinFilter Linear or Nearest (fixes New Super Mario Bros U Deluxe black borders)

* Update Spv.Generator

* Add alpha test emulation on shader (but no shader specialisation yet...)

* Fix R4G4B4A4Unorm texture format permutation

* Validation layers should be enabled for any log level other than None

* Add barriers around vkCmdCopyImage

Write->Read barrier for src image (we want to wait for a write to read it)
Write->Read barrier for dst image (we want to wait for the copy to complete before use)

* Be a bit more careful with texture access flags, since it can be used for anything

* Device local mapping for all buffers

May avoid issues with drivers with NVIDIA on linux/older gpus on windows when using large buffers (?)
Also some performance things and fixes issues with opengl games loading textures weird.

* Cleanup, disable device local buffers for now.

* Add single queue support

Multiqueue seems to be a bit more responsive on NVIDIA. Should fix texture flush on intel. AMD has been forced to single queue for an experiment.

* Fix some validation errors around extended dynamic state

* Remove Intel bug workaround, it was fixed on the latest driver

* Use circular queue for checking consumption on command buffers

Speeds up games that spam command buffers a little. Avoids checking multiple command buffers if multiple are active at once.

* Use SupportBufferUpdater, add single layer flush

* Fix counter queue leak when game decides to use host conditional rendering

* Force device local storage for textures (fixes linux performance)

* Port #3019

* Insert barriers around vkCmdBlitImage (may fix some amd flicker)

* Fix transform feedback on Intel, gl_Position feedback and clears to inexistent depth buffers

* Don't pause transform feedback for multi draw

* Fix draw outside of render pass and missing capability

* Workaround for wrong last attribute on AMD (affects FFVII, STRIKERS1945, probably more)

* Better workaround for AMD vertex buffer size alignment issue

* More instructions + fixes on SPIR-V backend

* Allow custom aspect ratio on Vulkan

* Correct GTK UI status bar positions

* SPIR-V: Functions must always end with a return

* SPIR-V: Fix ImageQuerySizeLod

* SPIR-V: Set DepthReplacing execution mode when FragDepth is modified

* SPIR-V: Implement LoopContinue IR instruction

* SPIR-V: Geometry shader support

* SPIR-V: Use correct binding number on storage buffers array

* Reduce allocations for Spir-v serialization

Passes BinaryWriter instead of the stream to Write and WriteOperand

- Removes creation of BinaryWriter for each instruction
- Removes allocations for literal string

* Some optimizations to Spv.Generator

- Dictionary for lookups of type declarations, constants, extinst
- LiteralInteger internal data format -> ushort
- Deterministic HashCode implementation to avoid spirv result not being the same between runs
- Inline operand list instead of List<T>, falls back to array if many operands. (large performance boost)

TODO: improve instruction allocation, structured program creator, ssa?

* Pool Spv.Generator resources, cache delegates, spv opts

- Pools for Instructions and LiteralIntegers. Can be passed in when creating the generator module.
  - NewInstruction is called instead of new Instruction()
  - Ryujinx SpirvGenerator passes in some pools that are static. The idea is for these to be shared between threads eventually.
- Estimate code size when creating the output MemoryStream
- LiteralInteger pools using ThreadStatic pools that are initialized before and after creation... not sure of a better way since the way these are created is via implicit cast.

Also, cache delegates for Spv.Generator for functions that are passed around to GenerateBinary etc, since passing the function raw creates a delegate on each call.

TODO: update python spv cs generator to make the coregrammar with NewInstruction and the `params` overloads.

* LocalDefMap for Ssa Rewriter

Rather than allocating a large array of all registers for each block in the shader, allocate one array of all registers and clear it between blocks. Reduces allocations in the shader translator.

* SPIR-V: Transform feedback support

* SPIR-V: Fragment shader interlock support (and image coherency)

* SPIR-V: Add early fragment tests support

* SPIR-V: Implement SwizzleAdd, add missing Triangles ExecutionMode for geometry shaders, remove SamplerType field from TextureMeta

* Don't pass depth clip state right now (fix decals)

Explicitly disabling it is incorrect. OpenGL currently automatically disables based on depth clamp, which is the behaviour if this state is omitted.

* Multisampling support

* Multisampling: Use resolve if src samples count > dst samples count

* Multisampling: We can only resolve for unscaled copies

* SPIR-V: Only add FSI exec mode if used.

* SPIR-V: Use ConstantComposite for Texture Offset Vector

Fixes a bunch of freezes with SPIR-V on AMD hardware, and validation errors. Note: Obviously assumes input offsets are constant, which they currently are.

* SPIR-V: Don't OpReturn if we already OpExit'ed

Fixes spir-v parse failure and stack smashing in RADV (obviously you still need bolist)

* SPIR-V: Only use input attribute type for input attributes

Output vertex attributes should always be of type float.

* Multithreaded Pipeline Compilation

* Address some feedback

* Make this 32

* Update topology with GpuAccessorState

* Cleanup for merge (note: disables spir-v)

* Make more robust to shader compilation failure

- Don't freeze when GLSL compilation fails
- Background SPIR-V pipeline compile failure results in skipped draws, similar to GLSL compilation failure.

* Fix Multisampling

* Only update fragment scale count if a vertex texture needs a scale.

Fixes a performance regression introduced by texture scaling in the vertex stage where support buffer updates would be very frequent, even at 1x, if any textures were used on the vertex stage.

This check doesn't exactly look cheap (a flag in the shader stage would probably be preferred), but it is much cheaper than uploading scales in both vulkan and opengl, so it will do for now.

* Use a bitmap to do granular tracking for buffer uploads.

This path is only taken if the much faster check of "is the buffer rented at all" is triggered, so it doesn't actually end up costing too much, and the time saved by not ending render passes (and on gpu for not waiting on barriers) is probably helpful.

Avoids ending render passes to update buffer data (not all the time)
- 140-180 to 35-45 in SMO metro kingdom (these updates are in the UI)
- Very variable 60-150(!) to 16-25 in mario kart 8 (these updates are in the UI)

As well as allowing more data to be preloaded persistently, this will also allow more data to be loaded in the preload buffer, which should be faster as it doesn't need to insert barriers between draws. (and on tbdr, does not need to flush and reload tile memory)

Improves performance in GPU limited scenarios. Should notably improve performance on TBDR gpus. Still a lot more to do here.

* Copy query results after RP ends, rather than ending to copy

We need to end the render pass to get the data (submit command buffer) anyways...

Reduces render passes created in games that use queries.

* Rework Query stuff a bit to avoid render pass end

Tries to reset returned queries in background when possible, rather than ending the render pass.

Still ends render pass when resetting a counter after draws, but maybe that can be solved too. (by just pulling an empty object off the pool?)

* Remove unnecessary lines

Was for testing

* Fix validation error for query reset

Need to think of a better way to do this.

* SPIR-V: Fix SwizzleAdd and some validation errors

* SPIR-V: Implement attribute indexing and StoreAttribute

* SPIR-V: Fix TextureSize for MS and Buffer sampler types

* Fix relaunch issues

* SPIR-V: Implement LogicalExclusiveOr

* SPIR-V: Constant buffer indexing support

* Ignore unsupported attributes rather than throwing (matches current GLSL behaviour)

* SPIR-V: Implement tessellation support

* SPIR-V: Geometry shader passthrough support

* SPIR-V: Implement StoreShader8/16 and StoreStorage8/16

* SPIR-V: Resolution scale support and fix TextureSample multisample with LOD bug

* SPIR-V: Fix field index for scale count

* SPIR-V: Fix another case of wrong field index

* SPIRV/GLSL: More scaling related fixes

* SPIR-V: Fix ImageLoad CompositeExtract component type

* SPIR-V: Workaround for Intel FrontFacing bug

* Enable SPIR-V backend by default

* Allow null samplers (samplers are not required when only using texelFetch to access the texture)

* Fix some validation errors related to texel block view usage flag and invalid image barrier base level

* Use explicit subgroup size if we can (might fix some block flickering on AMD)

* Take componentMask and scissor into account when clearing framebuffer attachments

* Add missing barriers around CmdFillBuffer (fixes Monster Hunter Rise flickering on NVIDIA)

* Use ClampToEdge for Clamp sampler address mode on Vulkan (fixes Hollow Knight)

Clamp is unsupported on Vulkan, but ClampToEdge behaves almost the same. ClampToBorder on the other hand (which was being used before) is pretty different

* Shader specialization for new Vulkan required state (fixes remaining alpha test issues, vertex stretching on AMD on Crash Bandicoot, etc)

* Check if the subgroup size is supported before passing a explicit size

* Only enable ShaderFloat64 if the GPU supports it

* We don't need to recompile shaders if alpha test state changed but alpha test is disabled

* Enable shader cache on Vulkan and implement MultiplyHighS32/U32 on SPIR-V (missed those before)

* Fix pipeline state saving before it is updated.

This should fix a few warnings and potential stutters due to bad pipeline states being saved in the cache. You may need to clear your guest cache.

* Allow null samplers on OpenGL backend

* _unit0Sampler should be set only for binding 0

* Remove unused PipelineConverter format variable (was causing IOR)

* Raise textures limit to 64 on Vulkan

* No need to pack the shader binaries if shader cache is disabled

* Fix backbuffer not being cleared and scissor not being re-enabled on OpenGL

* Do not clear unbound framebuffer color attachments

* Geometry shader passthrough emulation

* Consolidate UpdateDepthMode and GetDepthMode implementation

* Fix A1B5G5R5 texture format and support R4G4 on Vulkan

* Add barrier before use of some modified images

* Report 32 bit query result on AMD windows (smo issue)

* Add texture recompression support (disabled for now)

It recompresses ASTC textures into BC7, which might reduce VRAM usage significantly on games that uses ASTC textures

* Do not report R4G4 format as supported on Vulkan

It was causing mario head to become white on Super Mario 64 (???)

* Improvements to -1 to 1 depth mode.

- Transformation is only applied on the last stage in the vertex pipeline.
- Should fix some issues with geometry and tessellation (hopefully)
- Reading back FragCoord Z on fragment will transform back to -1 to 1.

* Geometry Shader index count from ThreadsPerInputPrimitive

Generally fixes SPIR-V emitting too many triangles, may change games in OpenGL

* Remove gl_FragDepth scaling

This is always 0-1; the other two issues were causing the problems. Fixes regression with Xenoblade.

* Add Gl StencilOp enum values to Vulkan

* Update guest cache to v1.1 (due to specialization state changes)

This will explode your shader cache from earlier vulkan build, but it must be done. 😔

* Vulkan/SPIR-V support for viewport inverse

* Fix typo

* Don't create query pools for unsupported query types

* Return of the Vector Indexing Bug

One day, everyone will get this right.

* Check for transform feedback query support

Sometimes transform feedback is supported without the query type.

* Fix gl_FragCoord.z transformation

FragCoord.z is always in 0-1, even when the real depth range is -1 to 1. Turns out the only bug was geo and tess stage outputs.

Fixes Pokemon Sword/Shield, possibly others.

* Fix Avalonia Rebase

Vulkan is currently not available on Avalonia, but the build does work and you can use opengl.

* Fix headless build

* Add support for BC6 and BC7 decompression, decompress all BC formats if they are not supported by the host

* Fix BCn 4/5 conversion, GetTextureTarget

BCn 4/5 could generate invalid data when a line's size in bytes was not divisible by 4, which both backends expect.

GetTextureTarget was not creating a view with the replacement format.

* Fix dependency

* Fix inverse viewport transform vector type on SPIR-V

* Do not require null descriptors support

* If MultiViewport is not supported, do not try to set more than one viewport/scissor

* Bounds check on bitmap add.

* Flush queries on attachment change rather than program change

Occlusion queries are usually used in a depth only pass so the attachments changing is a better indication of the query block ending.

Write mask changes are also considered since some games do depth only pass by setting 0 write mask on all the colour targets.

* Add support for avalonia (#6)

* add avalonia support

* only lock around skia flush

* addressed review

* cleanup

* add fallback size if avalonia attempts to render but the window size is 0. read desktop scale after enabling dpi check

* fix getting window handle on linux. skip render is size is 0

* Combine non-buffer with buffer image descriptor sets

* Support multisample texture copy with automatic resolve on Vulkan

* Remove old CompileShader methods from the Vulkan backend

* Add minimal pipeline layouts that only contains used bindings

They are used by helper shaders, the intention is avoiding needing to recompile the shaders (from GLSL to SPIR-V) if the bindings changes on the translated guest shaders

* Pre-compile helper shader as SPIR-V, and some fixes

* Remove pre-compiled shaderc binary for Windows as its no longer needed by default

* Workaround RADV crash

Enabling the descriptor indexing extension, even if it is not used, forces the radv driver to use "bolist".

* Use RobustBufferAccess on NVIDIA gpus

Avoids the SMO waterfall triangle on older NVIDIA gpus.

* Implement GPU selector and expose texture recompression on the UI and config

* Fix and enable background compute shader compilation

Also disables warnings from shader cache pipeline misses.

* Fix error due to missing subpass dependency when Attachment Write -> Shader Read barriers are added

* If S8D24 is not supported, use D32FS8

* Ensure all fences are destroyed on dispose

* Pre-allocate arrays up front on DescriptorSetUpdater, allows the removal of some checks

* Add missing clear layer parameter after rebase

* Use selected gpu from config for avalonia (#7)

* use configured device

* address review

* Fix D32S8 copy workaround (AMD)

Fixes water in Pokemon Legends Arceus on AMD GPUs. Possibly fixes other things.

* Use push descriptors for uniform buffer updates (disabled for now)

* Push descriptor support check, buffer redundancy checks

Should make push descriptors faster, needs more testing though.

* Increase light command buffer pool to 2 command buffers, throw rather than returning invalid cbs

* Adjust bindings array sizes

* Force submit command buffers if memory in use by its resources is high

* Add workaround for AMD GCN cubemap view sins

`ImageCreateCubeCompatibleBit` seems to generally break 2D array textures with mipmaps... even if they are eventually aliased as a cubemap with mipmaps. Forcing a copy here works around the issue.

This could be used in future if enabling this bit reduces performance on certain GPUs. (mobile class is generally a worry)

Currently also enabled on Linux as I don't know if they managed to dodge this bug (someone please tell me). Not enabled on Vega at the moment, but easy to add if the issue is there.

* Add mobile, non-RX variants to the GCN regex.

Also make sure that the 3 digit ones only include numbers starting with 7 or 8.

* Increase image limit per stage from 8 to 16

Xenoblade Chronicles 2 was hiting the limit of 8

* Minor code cleanup

* Fix NRE caused by SupportBufferUpdater calling pipeline ClearBuffer

* Add gpu selector to Avalonia (#8)

* Add gpu selector to avalonia settings

* show backend label on window

* some fixes

* address review

* Minor changes to the Avalonia UI

* Update graphics window UI and locales. (#9)

* Update xaml and update locales

* locale updates

Did my best here but likely needs to be checked by native speakers, especially the use of ampersands in greek, russian and turkish?

* Fix locales with more (?) correct translations.

* add separator to render widget

* fix spanish and portuguese

* Add new IdList, replaces buffer list that could not remove elements and had unbounded growth

* Don't crash the settings window if Vulkan is not supported

* Fix Actions menu not being clickable on GTK UI after relaunch

* Rename VulkanGraphicsDevice to VulkanRenderer and Renderer to OpenGLRenderer

* Fix IdList and make it not thread safe

* Revert useless OpenGL format table changes

* Fix headless project build

* List throws ArgumentOutOfRangeException

* SPIR-V: Fix tessellation

* Increase shader cache version due to tessellation fix

* Reduce number of Sync objects created (improves perf in some specific titles)

* Fix vulkan validation errors for NPOT compressed upload and GCN workaround.

* Add timestamp to the shader cache and force rebuild if host cache is outdated

* Prefer Mail box present mode for popups (#11)

* Prefer Mail box present mode

* fix debug

* switch present mode when vsync is toggled

* only disable vsync on the main window

* SPIR-V: Fix geometry shader input load with transform feedback

* BC7 Encoder: Prefer more precision on alpha rather than RGB when alpha is 0

* Fix Avalonia build

* Address initial PR feedback

* Only set transform feedback outputs on last vertex stage

* Address riperiperi PR feedback

* Remove outdated comment

* Remove unused constructor

* Only throw for negative results

* Throw for QueueSubmit and other errors

No point in delaying the inevitable

* Transform feedback decorations inside gl_PerVertex struct breaks the NVIDIA compiler

* Fix some resolution scale issues

* No need for two UpdateScale calls

* Fix comments on SPIR-V generator project

* Try to fix shader local memory size

On DOOM, a shader is using local memory, but both Low and High size are 0, CRS size is 1536, it seems to store on that region?

* Remove RectangleF that is now unused

* Fix ImageGather with multiple offsets

Needs ImageGatherExtended capability, and must use `ConstantComposite` instead of `CompositeConstruct`

* Address PR feedback from jD in all projects except Avalonia

* Address most of jD PR feedback on Avalonia

* Remove unsafe

* Fix VulkanSkiaGpu

* move present mode request out of Create Swapchain method

* split more parts of create swapchain

* addressed reviews

* addressed review

* Address second batch of jD PR feedback

* Fix buffer <-> image copy row length and height alignment

AlignUp helper does not support NPOT alignment, and ASTC textures can have NPOT block sizes

* Better fix for NPOT alignment issue

* Use switch expressions on Vulkan EnumConversion

Thanks jD

* Fix Avalonia build

* Add Vulkan selection prompt on startup

* Grammar fixes on Vulkan prompt message

* Add missing Vulkan migration flag

Co-authored-by: riperiperi <rhy3756547@hotmail.com>
Co-authored-by: Emmanuel Hansen <emmausssss@gmail.com>
Co-authored-by: MutantAura <44103205+MutantAura@users.noreply.github.com>
2022-07-31 18:26:06 -03:00

5315 lines
182 KiB
C#

// AUTOGENERATED: DO NOT EDIT
// Last update date: 2021-01-06 23:02:26.837899
#region Grammar License
// Copyright (c) 2014-2020 The Khronos Group Inc.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and/or associated documentation files (the "Materials"),
// to deal in the Materials without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Materials, and to permit persons to whom the
// Materials are furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Materials.
//
// MODIFICATIONS TO THIS FILE MAY MEAN IT NO LONGER ACCURATELY REFLECTS KHRONOS
// STANDARDS. THE UNMODIFIED, NORMATIVE VERSIONS OF KHRONOS SPECIFICATIONS AND
// HEADER INFORMATION ARE LOCATED AT https://www.khronos.org/registry/
//
// THE MATERIALS ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
// THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM,OUT OF OR IN CONNECTION WITH THE MATERIALS OR THE USE OR OTHER DEALINGS
// IN THE MATERIALS.
#endregion
using static Spv.Specification;
namespace Spv.Generator
{
public partial class Module
{
// Miscellaneous
public Instruction Nop()
{
Instruction result = NewInstruction(Op.OpNop);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Undef(Instruction resultType)
{
Instruction result = NewInstruction(Op.OpUndef, GetNewId(), resultType);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SizeOf(Instruction resultType, Instruction pointer)
{
Instruction result = NewInstruction(Op.OpSizeOf, GetNewId(), resultType);
result.AddOperand(pointer);
AddToFunctionDefinitions(result);
return result;
}
// Debug
public Instruction SourceContinued(string continuedSource)
{
Instruction result = NewInstruction(Op.OpSourceContinued);
result.AddOperand(continuedSource);
AddDebug(result);
return result;
}
public Instruction Source(SourceLanguage sourceLanguage, LiteralInteger version, Instruction file = null, string source = null)
{
Instruction result = NewInstruction(Op.OpSource);
result.AddOperand(sourceLanguage);
result.AddOperand(version);
if (file != null)
{
result.AddOperand(file);
}
if (source != null)
{
result.AddOperand(source);
}
AddDebug(result);
return result;
}
public Instruction SourceExtension(string extension)
{
Instruction result = NewInstruction(Op.OpSourceExtension);
result.AddOperand(extension);
AddDebug(result);
return result;
}
public Instruction Name(Instruction target, string name)
{
Instruction result = NewInstruction(Op.OpName);
result.AddOperand(target);
result.AddOperand(name);
AddDebug(result);
return result;
}
public Instruction MemberName(Instruction type, LiteralInteger member, string name)
{
Instruction result = NewInstruction(Op.OpMemberName);
result.AddOperand(type);
result.AddOperand(member);
result.AddOperand(name);
AddDebug(result);
return result;
}
public Instruction String(string str)
{
Instruction result = NewInstruction(Op.OpString, GetNewId());
result.AddOperand(str);
AddDebug(result);
return result;
}
public Instruction Line(Instruction file, LiteralInteger line, LiteralInteger column)
{
Instruction result = NewInstruction(Op.OpLine);
result.AddOperand(file);
result.AddOperand(line);
result.AddOperand(column);
AddDebug(result);
return result;
}
public Instruction NoLine()
{
Instruction result = NewInstruction(Op.OpNoLine);
AddDebug(result);
return result;
}
public Instruction ModuleProcessed(string process)
{
Instruction result = NewInstruction(Op.OpModuleProcessed);
result.AddOperand(process);
AddDebug(result);
return result;
}
// Annotation
public Instruction Decorate(Instruction target, Decoration decoration)
{
Instruction result = NewInstruction(Op.OpDecorate);
result.AddOperand(target);
result.AddOperand(decoration);
AddAnnotation(result);
return result;
}
public Instruction Decorate(Instruction target, Decoration decoration, Operand parameter)
{
Instruction result = NewInstruction(Op.OpDecorate);
result.AddOperand(target);
result.AddOperand(decoration);
result.AddOperand(parameter);
AddAnnotation(result);
return result;
}
public Instruction Decorate(Instruction target, Decoration decoration, params Operand[] parameters)
{
Instruction result = NewInstruction(Op.OpDecorate);
result.AddOperand(target);
result.AddOperand(decoration);
result.AddOperand(parameters);
AddAnnotation(result);
return result;
}
public Instruction MemberDecorate(Instruction structureType, LiteralInteger member, Decoration decoration)
{
Instruction result = NewInstruction(Op.OpMemberDecorate);
result.AddOperand(structureType);
result.AddOperand(member);
result.AddOperand(decoration);
AddAnnotation(result);
return result;
}
public Instruction MemberDecorate(Instruction structureType, LiteralInteger member, Decoration decoration, Operand parameter)
{
Instruction result = NewInstruction(Op.OpMemberDecorate);
result.AddOperand(structureType);
result.AddOperand(member);
result.AddOperand(decoration);
result.AddOperand(parameter);
AddAnnotation(result);
return result;
}
public Instruction MemberDecorate(Instruction structureType, LiteralInteger member, Decoration decoration, params Operand[] parameters)
{
Instruction result = NewInstruction(Op.OpMemberDecorate);
result.AddOperand(structureType);
result.AddOperand(member);
result.AddOperand(decoration);
result.AddOperand(parameters);
AddAnnotation(result);
return result;
}
public Instruction DecorationGroup()
{
Instruction result = NewInstruction(Op.OpDecorationGroup, GetNewId());
AddAnnotation(result);
return result;
}
public Instruction GroupDecorate(Instruction decorationGroup, params Instruction[] targets)
{
Instruction result = NewInstruction(Op.OpGroupDecorate);
result.AddOperand(decorationGroup);
result.AddOperand(targets);
AddAnnotation(result);
return result;
}
public Instruction GroupMemberDecorate(Instruction decorationGroup, params Operand[] targets)
{
Instruction result = NewInstruction(Op.OpGroupMemberDecorate);
result.AddOperand(decorationGroup);
result.AddOperand(targets);
AddAnnotation(result);
return result;
}
public Instruction DecorateId(Instruction target, Decoration decoration, params Operand[] parameters)
{
Instruction result = NewInstruction(Op.OpDecorateId);
result.AddOperand(target);
result.AddOperand(decoration);
result.AddOperand(parameters);
AddAnnotation(result);
return result;
}
public Instruction DecorateString(Instruction target, Decoration decoration, params Operand[] parameters)
{
Instruction result = NewInstruction(Op.OpDecorateString);
result.AddOperand(target);
result.AddOperand(decoration);
result.AddOperand(parameters);
AddAnnotation(result);
return result;
}
public Instruction DecorateStringGOOGLE(Instruction target, Decoration decoration, params Operand[] parameters)
{
Instruction result = NewInstruction(Op.OpDecorateStringGOOGLE);
result.AddOperand(target);
result.AddOperand(decoration);
result.AddOperand(parameters);
AddAnnotation(result);
return result;
}
public Instruction MemberDecorateString(Instruction structType, LiteralInteger member, Decoration decoration, params Operand[] parameters)
{
Instruction result = NewInstruction(Op.OpMemberDecorateString);
result.AddOperand(structType);
result.AddOperand(member);
result.AddOperand(decoration);
result.AddOperand(parameters);
AddAnnotation(result);
return result;
}
public Instruction MemberDecorateStringGOOGLE(Instruction structType, LiteralInteger member, Decoration decoration, params Operand[] parameters)
{
Instruction result = NewInstruction(Op.OpMemberDecorateStringGOOGLE);
result.AddOperand(structType);
result.AddOperand(member);
result.AddOperand(decoration);
result.AddOperand(parameters);
AddAnnotation(result);
return result;
}
// Type-Declaration
public Instruction TypeVoid(bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeVoid);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeBool(bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeBool);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeInt(LiteralInteger width, LiteralInteger signedness, bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeInt);
result.AddOperand(width);
result.AddOperand(signedness);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeFloat(LiteralInteger width, bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeFloat);
result.AddOperand(width);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeVector(Instruction componentType, LiteralInteger componentCount, bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeVector);
result.AddOperand(componentType);
result.AddOperand(componentCount);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeMatrix(Instruction columnType, LiteralInteger columnCount, bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeMatrix);
result.AddOperand(columnType);
result.AddOperand(columnCount);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeImage(Instruction sampledType, Dim dim, LiteralInteger depth, LiteralInteger arrayed, LiteralInteger mS, LiteralInteger sampled, ImageFormat imageFormat, AccessQualifier accessQualifier = (AccessQualifier)int.MaxValue, bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeImage);
result.AddOperand(sampledType);
result.AddOperand(dim);
result.AddOperand(depth);
result.AddOperand(arrayed);
result.AddOperand(mS);
result.AddOperand(sampled);
result.AddOperand(imageFormat);
if (accessQualifier != (AccessQualifier)int.MaxValue)
{
result.AddOperand(accessQualifier);
}
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeSampler(bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeSampler);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeSampledImage(Instruction imageType, bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeSampledImage);
result.AddOperand(imageType);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeArray(Instruction elementType, Instruction length, bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeArray);
result.AddOperand(elementType);
result.AddOperand(length);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeRuntimeArray(Instruction elementType, bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeRuntimeArray);
result.AddOperand(elementType);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeStruct(bool forceIdAllocation, params Instruction[] parameters)
{
Instruction result = NewInstruction(Op.OpTypeStruct);
result.AddOperand(parameters);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeOpaque(string thenameoftheopaquetype, bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeOpaque);
result.AddOperand(thenameoftheopaquetype);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypePointer(StorageClass storageClass, Instruction type, bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypePointer);
result.AddOperand(storageClass);
result.AddOperand(type);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeFunction(Instruction returnType, bool forceIdAllocation, params Instruction[] parameters)
{
Instruction result = NewInstruction(Op.OpTypeFunction);
result.AddOperand(returnType);
result.AddOperand(parameters);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeEvent(bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeEvent);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeDeviceEvent(bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeDeviceEvent);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeReserveId(bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeReserveId);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeQueue(bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeQueue);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypePipe(AccessQualifier qualifier, bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypePipe);
result.AddOperand(qualifier);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeForwardPointer(Instruction pointerType, StorageClass storageClass, bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeForwardPointer);
result.AddOperand(pointerType);
result.AddOperand(storageClass);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypePipeStorage(bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypePipeStorage);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
public Instruction TypeNamedBarrier(bool forceIdAllocation = false)
{
Instruction result = NewInstruction(Op.OpTypeNamedBarrier);
AddTypeDeclaration(result, forceIdAllocation);
return result;
}
// Constant-Creation
public Instruction ConstantTrue(Instruction resultType)
{
Instruction result = NewInstruction(Op.OpConstantTrue, Instruction.InvalidId, resultType);
AddConstant(result);
return result;
}
public Instruction ConstantFalse(Instruction resultType)
{
Instruction result = NewInstruction(Op.OpConstantFalse, Instruction.InvalidId, resultType);
AddConstant(result);
return result;
}
public Instruction Constant(Instruction resultType, LiteralInteger value)
{
Instruction result = NewInstruction(Op.OpConstant, Instruction.InvalidId, resultType);
result.AddOperand(value);
AddConstant(result);
return result;
}
public Instruction ConstantComposite(Instruction resultType, params Instruction[] constituents)
{
Instruction result = NewInstruction(Op.OpConstantComposite, Instruction.InvalidId, resultType);
result.AddOperand(constituents);
AddConstant(result);
return result;
}
public Instruction ConstantSampler(Instruction resultType, SamplerAddressingMode samplerAddressingMode, LiteralInteger param, SamplerFilterMode samplerFilterMode)
{
Instruction result = NewInstruction(Op.OpConstantSampler, Instruction.InvalidId, resultType);
result.AddOperand(samplerAddressingMode);
result.AddOperand(param);
result.AddOperand(samplerFilterMode);
AddConstant(result);
return result;
}
public Instruction ConstantNull(Instruction resultType)
{
Instruction result = NewInstruction(Op.OpConstantNull, Instruction.InvalidId, resultType);
AddConstant(result);
return result;
}
public Instruction SpecConstantTrue(Instruction resultType)
{
Instruction result = NewInstruction(Op.OpSpecConstantTrue, GetNewId(), resultType);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SpecConstantFalse(Instruction resultType)
{
Instruction result = NewInstruction(Op.OpSpecConstantFalse, GetNewId(), resultType);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SpecConstant(Instruction resultType, LiteralInteger value)
{
Instruction result = NewInstruction(Op.OpSpecConstant, GetNewId(), resultType);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SpecConstantComposite(Instruction resultType, params Instruction[] constituents)
{
Instruction result = NewInstruction(Op.OpSpecConstantComposite, GetNewId(), resultType);
result.AddOperand(constituents);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SpecConstantOp(Instruction resultType, LiteralInteger opcode)
{
Instruction result = NewInstruction(Op.OpSpecConstantOp, GetNewId(), resultType);
result.AddOperand(opcode);
AddToFunctionDefinitions(result);
return result;
}
// Memory
public Instruction Variable(Instruction resultType, StorageClass storageClass, Instruction initializer = null)
{
Instruction result = NewInstruction(Op.OpVariable, GetNewId(), resultType);
result.AddOperand(storageClass);
if (initializer != null)
{
result.AddOperand(initializer);
}
return result;
}
public Instruction ImageTexelPointer(Instruction resultType, Instruction image, Instruction coordinate, Instruction sample)
{
Instruction result = NewInstruction(Op.OpImageTexelPointer, GetNewId(), resultType);
result.AddOperand(image);
result.AddOperand(coordinate);
result.AddOperand(sample);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Load(Instruction resultType, Instruction pointer, MemoryAccessMask memoryAccess = (MemoryAccessMask)int.MaxValue)
{
Instruction result = NewInstruction(Op.OpLoad, GetNewId(), resultType);
result.AddOperand(pointer);
if (memoryAccess != (MemoryAccessMask)int.MaxValue)
{
result.AddOperand(memoryAccess);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction Store(Instruction pointer, Instruction obj, MemoryAccessMask memoryAccess = (MemoryAccessMask)int.MaxValue)
{
Instruction result = NewInstruction(Op.OpStore);
result.AddOperand(pointer);
result.AddOperand(obj);
if (memoryAccess != (MemoryAccessMask)int.MaxValue)
{
result.AddOperand(memoryAccess);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction CopyMemory(Instruction target, Instruction source, MemoryAccessMask memoryAccess0 = (MemoryAccessMask)int.MaxValue, MemoryAccessMask memoryAccess1 = (MemoryAccessMask)int.MaxValue)
{
Instruction result = NewInstruction(Op.OpCopyMemory);
result.AddOperand(target);
result.AddOperand(source);
if (memoryAccess0 != (MemoryAccessMask)int.MaxValue)
{
result.AddOperand(memoryAccess0);
}
if (memoryAccess1 != (MemoryAccessMask)int.MaxValue)
{
result.AddOperand(memoryAccess1);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction CopyMemorySized(Instruction target, Instruction source, Instruction size, MemoryAccessMask memoryAccess0 = (MemoryAccessMask)int.MaxValue, MemoryAccessMask memoryAccess1 = (MemoryAccessMask)int.MaxValue)
{
Instruction result = NewInstruction(Op.OpCopyMemorySized);
result.AddOperand(target);
result.AddOperand(source);
result.AddOperand(size);
if (memoryAccess0 != (MemoryAccessMask)int.MaxValue)
{
result.AddOperand(memoryAccess0);
}
if (memoryAccess1 != (MemoryAccessMask)int.MaxValue)
{
result.AddOperand(memoryAccess1);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction AccessChain(Instruction resultType, Instruction baseObj, Instruction index)
{
Instruction result = NewInstruction(Op.OpAccessChain, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(index);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AccessChain(Instruction resultType, Instruction baseObj, Instruction index0, Instruction index1)
{
Instruction result = NewInstruction(Op.OpAccessChain, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(index0);
result.AddOperand(index1);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AccessChain(Instruction resultType, Instruction baseObj, Instruction index0, Instruction index1, Instruction index2)
{
Instruction result = NewInstruction(Op.OpAccessChain, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(index0);
result.AddOperand(index1);
result.AddOperand(index2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AccessChain(Instruction resultType, Instruction baseObj, params Instruction[] indexes)
{
Instruction result = NewInstruction(Op.OpAccessChain, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(indexes);
AddToFunctionDefinitions(result);
return result;
}
public Instruction InBoundsAccessChain(Instruction resultType, Instruction baseObj, params Instruction[] indexes)
{
Instruction result = NewInstruction(Op.OpInBoundsAccessChain, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(indexes);
AddToFunctionDefinitions(result);
return result;
}
public Instruction PtrAccessChain(Instruction resultType, Instruction baseObj, Instruction element, params Instruction[] indexes)
{
Instruction result = NewInstruction(Op.OpPtrAccessChain, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(element);
result.AddOperand(indexes);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ArrayLength(Instruction resultType, Instruction structure, LiteralInteger arraymember)
{
Instruction result = NewInstruction(Op.OpArrayLength, GetNewId(), resultType);
result.AddOperand(structure);
result.AddOperand(arraymember);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GenericPtrMemSemantics(Instruction resultType, Instruction pointer)
{
Instruction result = NewInstruction(Op.OpGenericPtrMemSemantics, GetNewId(), resultType);
result.AddOperand(pointer);
AddToFunctionDefinitions(result);
return result;
}
public Instruction InBoundsPtrAccessChain(Instruction resultType, Instruction baseObj, Instruction element, params Instruction[] indexes)
{
Instruction result = NewInstruction(Op.OpInBoundsPtrAccessChain, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(element);
result.AddOperand(indexes);
AddToFunctionDefinitions(result);
return result;
}
public Instruction PtrEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpPtrEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction PtrNotEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpPtrNotEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction PtrDiff(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpPtrDiff, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
// Function
public Instruction Function(Instruction resultType, FunctionControlMask functionControl, Instruction functionType)
{
Instruction result = NewInstruction(Op.OpFunction, GetNewId(), resultType);
result.AddOperand(functionControl);
result.AddOperand(functionType);
return result;
}
public void AddFunction(Instruction function)
{
AddToFunctionDefinitions(function);
}
public Instruction FunctionParameter(Instruction resultType)
{
Instruction result = NewInstruction(Op.OpFunctionParameter, GetNewId(), resultType);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FunctionEnd()
{
Instruction result = NewInstruction(Op.OpFunctionEnd);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FunctionCall(Instruction resultType, Instruction function, params Instruction[] parameters)
{
Instruction result = NewInstruction(Op.OpFunctionCall, GetNewId(), resultType);
result.AddOperand(function);
result.AddOperand(parameters);
AddToFunctionDefinitions(result);
return result;
}
// Image
public Instruction SampledImage(Instruction resultType, Instruction image, Instruction sampler)
{
Instruction result = NewInstruction(Op.OpSampledImage, GetNewId(), resultType);
result.AddOperand(image);
result.AddOperand(sampler);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSampleImplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSampleImplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSampleExplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSampleExplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(imageOperands);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSampleDrefImplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction dRef, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSampleDrefImplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(dRef);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSampleDrefExplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction dRef, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSampleDrefExplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(dRef);
result.AddOperand(imageOperands);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSampleProjImplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSampleProjImplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSampleProjExplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSampleProjExplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(imageOperands);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSampleProjDrefImplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction dRef, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSampleProjDrefImplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(dRef);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSampleProjDrefExplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction dRef, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSampleProjDrefExplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(dRef);
result.AddOperand(imageOperands);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageFetch(Instruction resultType, Instruction image, Instruction coordinate, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageFetch, GetNewId(), resultType);
result.AddOperand(image);
result.AddOperand(coordinate);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageGather(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction component, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageGather, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(component);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageDrefGather(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction dRef, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageDrefGather, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(dRef);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageRead(Instruction resultType, Instruction image, Instruction coordinate, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageRead, GetNewId(), resultType);
result.AddOperand(image);
result.AddOperand(coordinate);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageWrite(Instruction image, Instruction coordinate, Instruction texel, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageWrite);
result.AddOperand(image);
result.AddOperand(coordinate);
result.AddOperand(texel);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction Image(Instruction resultType, Instruction sampledImage)
{
Instruction result = NewInstruction(Op.OpImage, GetNewId(), resultType);
result.AddOperand(sampledImage);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageQueryFormat(Instruction resultType, Instruction image)
{
Instruction result = NewInstruction(Op.OpImageQueryFormat, GetNewId(), resultType);
result.AddOperand(image);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageQueryOrder(Instruction resultType, Instruction image)
{
Instruction result = NewInstruction(Op.OpImageQueryOrder, GetNewId(), resultType);
result.AddOperand(image);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageQuerySizeLod(Instruction resultType, Instruction image, Instruction levelofDetail)
{
Instruction result = NewInstruction(Op.OpImageQuerySizeLod, GetNewId(), resultType);
result.AddOperand(image);
result.AddOperand(levelofDetail);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageQuerySize(Instruction resultType, Instruction image)
{
Instruction result = NewInstruction(Op.OpImageQuerySize, GetNewId(), resultType);
result.AddOperand(image);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageQueryLod(Instruction resultType, Instruction sampledImage, Instruction coordinate)
{
Instruction result = NewInstruction(Op.OpImageQueryLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageQueryLevels(Instruction resultType, Instruction image)
{
Instruction result = NewInstruction(Op.OpImageQueryLevels, GetNewId(), resultType);
result.AddOperand(image);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageQuerySamples(Instruction resultType, Instruction image)
{
Instruction result = NewInstruction(Op.OpImageQuerySamples, GetNewId(), resultType);
result.AddOperand(image);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseSampleImplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSparseSampleImplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseSampleExplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSparseSampleExplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(imageOperands);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseSampleDrefImplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction dRef, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSparseSampleDrefImplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(dRef);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseSampleDrefExplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction dRef, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSparseSampleDrefExplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(dRef);
result.AddOperand(imageOperands);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseSampleProjImplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSparseSampleProjImplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseSampleProjExplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSparseSampleProjExplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(imageOperands);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseSampleProjDrefImplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction dRef, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSparseSampleProjDrefImplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(dRef);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseSampleProjDrefExplicitLod(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction dRef, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSparseSampleProjDrefExplicitLod, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(dRef);
result.AddOperand(imageOperands);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseFetch(Instruction resultType, Instruction image, Instruction coordinate, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSparseFetch, GetNewId(), resultType);
result.AddOperand(image);
result.AddOperand(coordinate);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseGather(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction component, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSparseGather, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(component);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseDrefGather(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction dRef, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSparseDrefGather, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(dRef);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseTexelsResident(Instruction resultType, Instruction residentCode)
{
Instruction result = NewInstruction(Op.OpImageSparseTexelsResident, GetNewId(), resultType);
result.AddOperand(residentCode);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSparseRead(Instruction resultType, Instruction image, Instruction coordinate, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSparseRead, GetNewId(), resultType);
result.AddOperand(image);
result.AddOperand(coordinate);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction ImageSampleFootprintNV(Instruction resultType, Instruction sampledImage, Instruction coordinate, Instruction granularity, Instruction coarse, ImageOperandsMask imageOperands, params Instruction[] imageOperandIds)
{
Instruction result = NewInstruction(Op.OpImageSampleFootprintNV, GetNewId(), resultType);
result.AddOperand(sampledImage);
result.AddOperand(coordinate);
result.AddOperand(granularity);
result.AddOperand(coarse);
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperands);
}
if (imageOperands != (ImageOperandsMask)int.MaxValue)
{
result.AddOperand(imageOperandIds);
}
AddToFunctionDefinitions(result);
return result;
}
// Conversion
public Instruction ConvertFToU(Instruction resultType, Instruction floatValue)
{
Instruction result = NewInstruction(Op.OpConvertFToU, GetNewId(), resultType);
result.AddOperand(floatValue);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ConvertFToS(Instruction resultType, Instruction floatValue)
{
Instruction result = NewInstruction(Op.OpConvertFToS, GetNewId(), resultType);
result.AddOperand(floatValue);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ConvertSToF(Instruction resultType, Instruction signedValue)
{
Instruction result = NewInstruction(Op.OpConvertSToF, GetNewId(), resultType);
result.AddOperand(signedValue);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ConvertUToF(Instruction resultType, Instruction unsignedValue)
{
Instruction result = NewInstruction(Op.OpConvertUToF, GetNewId(), resultType);
result.AddOperand(unsignedValue);
AddToFunctionDefinitions(result);
return result;
}
public Instruction UConvert(Instruction resultType, Instruction unsignedValue)
{
Instruction result = NewInstruction(Op.OpUConvert, GetNewId(), resultType);
result.AddOperand(unsignedValue);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SConvert(Instruction resultType, Instruction signedValue)
{
Instruction result = NewInstruction(Op.OpSConvert, GetNewId(), resultType);
result.AddOperand(signedValue);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FConvert(Instruction resultType, Instruction floatValue)
{
Instruction result = NewInstruction(Op.OpFConvert, GetNewId(), resultType);
result.AddOperand(floatValue);
AddToFunctionDefinitions(result);
return result;
}
public Instruction QuantizeToF16(Instruction resultType, Instruction value)
{
Instruction result = NewInstruction(Op.OpQuantizeToF16, GetNewId(), resultType);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ConvertPtrToU(Instruction resultType, Instruction pointer)
{
Instruction result = NewInstruction(Op.OpConvertPtrToU, GetNewId(), resultType);
result.AddOperand(pointer);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SatConvertSToU(Instruction resultType, Instruction signedValue)
{
Instruction result = NewInstruction(Op.OpSatConvertSToU, GetNewId(), resultType);
result.AddOperand(signedValue);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SatConvertUToS(Instruction resultType, Instruction unsignedValue)
{
Instruction result = NewInstruction(Op.OpSatConvertUToS, GetNewId(), resultType);
result.AddOperand(unsignedValue);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ConvertUToPtr(Instruction resultType, Instruction integerValue)
{
Instruction result = NewInstruction(Op.OpConvertUToPtr, GetNewId(), resultType);
result.AddOperand(integerValue);
AddToFunctionDefinitions(result);
return result;
}
public Instruction PtrCastToGeneric(Instruction resultType, Instruction pointer)
{
Instruction result = NewInstruction(Op.OpPtrCastToGeneric, GetNewId(), resultType);
result.AddOperand(pointer);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GenericCastToPtr(Instruction resultType, Instruction pointer)
{
Instruction result = NewInstruction(Op.OpGenericCastToPtr, GetNewId(), resultType);
result.AddOperand(pointer);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GenericCastToPtrExplicit(Instruction resultType, Instruction pointer, StorageClass storage)
{
Instruction result = NewInstruction(Op.OpGenericCastToPtrExplicit, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(storage);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Bitcast(Instruction resultType, Instruction operand)
{
Instruction result = NewInstruction(Op.OpBitcast, GetNewId(), resultType);
result.AddOperand(operand);
AddToFunctionDefinitions(result);
return result;
}
// Composite
public Instruction VectorExtractDynamic(Instruction resultType, Instruction vector, Instruction index)
{
Instruction result = NewInstruction(Op.OpVectorExtractDynamic, GetNewId(), resultType);
result.AddOperand(vector);
result.AddOperand(index);
AddToFunctionDefinitions(result);
return result;
}
public Instruction VectorInsertDynamic(Instruction resultType, Instruction vector, Instruction component, Instruction index)
{
Instruction result = NewInstruction(Op.OpVectorInsertDynamic, GetNewId(), resultType);
result.AddOperand(vector);
result.AddOperand(component);
result.AddOperand(index);
AddToFunctionDefinitions(result);
return result;
}
public Instruction VectorShuffle(Instruction resultType, Instruction vector1, Instruction vector2, params LiteralInteger[] components)
{
Instruction result = NewInstruction(Op.OpVectorShuffle, GetNewId(), resultType);
result.AddOperand(vector1);
result.AddOperand(vector2);
result.AddOperand(components);
AddToFunctionDefinitions(result);
return result;
}
public Instruction CompositeConstruct(Instruction resultType, params Instruction[] constituents)
{
Instruction result = NewInstruction(Op.OpCompositeConstruct, GetNewId(), resultType);
result.AddOperand(constituents);
AddToFunctionDefinitions(result);
return result;
}
public Instruction CompositeExtract(Instruction resultType, Instruction composite, params LiteralInteger[] indexes)
{
Instruction result = NewInstruction(Op.OpCompositeExtract, GetNewId(), resultType);
result.AddOperand(composite);
result.AddOperand(indexes);
AddToFunctionDefinitions(result);
return result;
}
public Instruction CompositeInsert(Instruction resultType, Instruction obj, Instruction composite, params LiteralInteger[] indexes)
{
Instruction result = NewInstruction(Op.OpCompositeInsert, GetNewId(), resultType);
result.AddOperand(obj);
result.AddOperand(composite);
result.AddOperand(indexes);
AddToFunctionDefinitions(result);
return result;
}
public Instruction CopyObject(Instruction resultType, Instruction operand)
{
Instruction result = NewInstruction(Op.OpCopyObject, GetNewId(), resultType);
result.AddOperand(operand);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Transpose(Instruction resultType, Instruction matrix)
{
Instruction result = NewInstruction(Op.OpTranspose, GetNewId(), resultType);
result.AddOperand(matrix);
AddToFunctionDefinitions(result);
return result;
}
public Instruction CopyLogical(Instruction resultType, Instruction operand)
{
Instruction result = NewInstruction(Op.OpCopyLogical, GetNewId(), resultType);
result.AddOperand(operand);
AddToFunctionDefinitions(result);
return result;
}
// Arithmetic
public Instruction SNegate(Instruction resultType, Instruction operand)
{
Instruction result = NewInstruction(Op.OpSNegate, GetNewId(), resultType);
result.AddOperand(operand);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FNegate(Instruction resultType, Instruction operand)
{
Instruction result = NewInstruction(Op.OpFNegate, GetNewId(), resultType);
result.AddOperand(operand);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IAdd(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpIAdd, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FAdd(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFAdd, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ISub(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpISub, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FSub(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFSub, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IMul(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpIMul, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FMul(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFMul, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction UDiv(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpUDiv, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SDiv(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpSDiv, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FDiv(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFDiv, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction UMod(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpUMod, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SRem(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpSRem, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SMod(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpSMod, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FRem(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFRem, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FMod(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFMod, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction VectorTimesScalar(Instruction resultType, Instruction vector, Instruction scalar)
{
Instruction result = NewInstruction(Op.OpVectorTimesScalar, GetNewId(), resultType);
result.AddOperand(vector);
result.AddOperand(scalar);
AddToFunctionDefinitions(result);
return result;
}
public Instruction MatrixTimesScalar(Instruction resultType, Instruction matrix, Instruction scalar)
{
Instruction result = NewInstruction(Op.OpMatrixTimesScalar, GetNewId(), resultType);
result.AddOperand(matrix);
result.AddOperand(scalar);
AddToFunctionDefinitions(result);
return result;
}
public Instruction VectorTimesMatrix(Instruction resultType, Instruction vector, Instruction matrix)
{
Instruction result = NewInstruction(Op.OpVectorTimesMatrix, GetNewId(), resultType);
result.AddOperand(vector);
result.AddOperand(matrix);
AddToFunctionDefinitions(result);
return result;
}
public Instruction MatrixTimesVector(Instruction resultType, Instruction matrix, Instruction vector)
{
Instruction result = NewInstruction(Op.OpMatrixTimesVector, GetNewId(), resultType);
result.AddOperand(matrix);
result.AddOperand(vector);
AddToFunctionDefinitions(result);
return result;
}
public Instruction MatrixTimesMatrix(Instruction resultType, Instruction leftMatrix, Instruction rightMatrix)
{
Instruction result = NewInstruction(Op.OpMatrixTimesMatrix, GetNewId(), resultType);
result.AddOperand(leftMatrix);
result.AddOperand(rightMatrix);
AddToFunctionDefinitions(result);
return result;
}
public Instruction OuterProduct(Instruction resultType, Instruction vector1, Instruction vector2)
{
Instruction result = NewInstruction(Op.OpOuterProduct, GetNewId(), resultType);
result.AddOperand(vector1);
result.AddOperand(vector2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Dot(Instruction resultType, Instruction vector1, Instruction vector2)
{
Instruction result = NewInstruction(Op.OpDot, GetNewId(), resultType);
result.AddOperand(vector1);
result.AddOperand(vector2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IAddCarry(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpIAddCarry, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ISubBorrow(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpISubBorrow, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction UMulExtended(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpUMulExtended, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SMulExtended(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpSMulExtended, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
// Bit
public Instruction ShiftRightLogical(Instruction resultType, Instruction baseObj, Instruction shift)
{
Instruction result = NewInstruction(Op.OpShiftRightLogical, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(shift);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ShiftRightArithmetic(Instruction resultType, Instruction baseObj, Instruction shift)
{
Instruction result = NewInstruction(Op.OpShiftRightArithmetic, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(shift);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ShiftLeftLogical(Instruction resultType, Instruction baseObj, Instruction shift)
{
Instruction result = NewInstruction(Op.OpShiftLeftLogical, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(shift);
AddToFunctionDefinitions(result);
return result;
}
public Instruction BitwiseOr(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpBitwiseOr, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction BitwiseXor(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpBitwiseXor, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction BitwiseAnd(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpBitwiseAnd, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Not(Instruction resultType, Instruction operand)
{
Instruction result = NewInstruction(Op.OpNot, GetNewId(), resultType);
result.AddOperand(operand);
AddToFunctionDefinitions(result);
return result;
}
public Instruction BitFieldInsert(Instruction resultType, Instruction baseObj, Instruction insert, Instruction offset, Instruction count)
{
Instruction result = NewInstruction(Op.OpBitFieldInsert, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(insert);
result.AddOperand(offset);
result.AddOperand(count);
AddToFunctionDefinitions(result);
return result;
}
public Instruction BitFieldSExtract(Instruction resultType, Instruction baseObj, Instruction offset, Instruction count)
{
Instruction result = NewInstruction(Op.OpBitFieldSExtract, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(offset);
result.AddOperand(count);
AddToFunctionDefinitions(result);
return result;
}
public Instruction BitFieldUExtract(Instruction resultType, Instruction baseObj, Instruction offset, Instruction count)
{
Instruction result = NewInstruction(Op.OpBitFieldUExtract, GetNewId(), resultType);
result.AddOperand(baseObj);
result.AddOperand(offset);
result.AddOperand(count);
AddToFunctionDefinitions(result);
return result;
}
public Instruction BitReverse(Instruction resultType, Instruction baseObj)
{
Instruction result = NewInstruction(Op.OpBitReverse, GetNewId(), resultType);
result.AddOperand(baseObj);
AddToFunctionDefinitions(result);
return result;
}
public Instruction BitCount(Instruction resultType, Instruction baseObj)
{
Instruction result = NewInstruction(Op.OpBitCount, GetNewId(), resultType);
result.AddOperand(baseObj);
AddToFunctionDefinitions(result);
return result;
}
// Relational_and_Logical
public Instruction Any(Instruction resultType, Instruction vector)
{
Instruction result = NewInstruction(Op.OpAny, GetNewId(), resultType);
result.AddOperand(vector);
AddToFunctionDefinitions(result);
return result;
}
public Instruction All(Instruction resultType, Instruction vector)
{
Instruction result = NewInstruction(Op.OpAll, GetNewId(), resultType);
result.AddOperand(vector);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IsNan(Instruction resultType, Instruction x)
{
Instruction result = NewInstruction(Op.OpIsNan, GetNewId(), resultType);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IsInf(Instruction resultType, Instruction x)
{
Instruction result = NewInstruction(Op.OpIsInf, GetNewId(), resultType);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IsFinite(Instruction resultType, Instruction x)
{
Instruction result = NewInstruction(Op.OpIsFinite, GetNewId(), resultType);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IsNormal(Instruction resultType, Instruction x)
{
Instruction result = NewInstruction(Op.OpIsNormal, GetNewId(), resultType);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SignBitSet(Instruction resultType, Instruction x)
{
Instruction result = NewInstruction(Op.OpSignBitSet, GetNewId(), resultType);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction LessOrGreater(Instruction resultType, Instruction x, Instruction y)
{
Instruction result = NewInstruction(Op.OpLessOrGreater, GetNewId(), resultType);
result.AddOperand(x);
result.AddOperand(y);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Ordered(Instruction resultType, Instruction x, Instruction y)
{
Instruction result = NewInstruction(Op.OpOrdered, GetNewId(), resultType);
result.AddOperand(x);
result.AddOperand(y);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Unordered(Instruction resultType, Instruction x, Instruction y)
{
Instruction result = NewInstruction(Op.OpUnordered, GetNewId(), resultType);
result.AddOperand(x);
result.AddOperand(y);
AddToFunctionDefinitions(result);
return result;
}
public Instruction LogicalEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpLogicalEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction LogicalNotEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpLogicalNotEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction LogicalOr(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpLogicalOr, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction LogicalAnd(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpLogicalAnd, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction LogicalNot(Instruction resultType, Instruction operand)
{
Instruction result = NewInstruction(Op.OpLogicalNot, GetNewId(), resultType);
result.AddOperand(operand);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Select(Instruction resultType, Instruction condition, Instruction object1, Instruction object2)
{
Instruction result = NewInstruction(Op.OpSelect, GetNewId(), resultType);
result.AddOperand(condition);
result.AddOperand(object1);
result.AddOperand(object2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpIEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction INotEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpINotEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction UGreaterThan(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpUGreaterThan, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SGreaterThan(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpSGreaterThan, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction UGreaterThanEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpUGreaterThanEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SGreaterThanEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpSGreaterThanEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ULessThan(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpULessThan, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SLessThan(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpSLessThan, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ULessThanEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpULessThanEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SLessThanEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpSLessThanEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FOrdEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFOrdEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FUnordEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFUnordEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FOrdNotEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFOrdNotEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FUnordNotEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFUnordNotEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FOrdLessThan(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFOrdLessThan, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FUnordLessThan(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFUnordLessThan, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FOrdGreaterThan(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFOrdGreaterThan, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FUnordGreaterThan(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFUnordGreaterThan, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FOrdLessThanEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFOrdLessThanEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FUnordLessThanEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFUnordLessThanEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FOrdGreaterThanEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFOrdGreaterThanEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FUnordGreaterThanEqual(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpFUnordGreaterThanEqual, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
// Derivative
public Instruction DPdx(Instruction resultType, Instruction p)
{
Instruction result = NewInstruction(Op.OpDPdx, GetNewId(), resultType);
result.AddOperand(p);
AddToFunctionDefinitions(result);
return result;
}
public Instruction DPdy(Instruction resultType, Instruction p)
{
Instruction result = NewInstruction(Op.OpDPdy, GetNewId(), resultType);
result.AddOperand(p);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Fwidth(Instruction resultType, Instruction p)
{
Instruction result = NewInstruction(Op.OpFwidth, GetNewId(), resultType);
result.AddOperand(p);
AddToFunctionDefinitions(result);
return result;
}
public Instruction DPdxFine(Instruction resultType, Instruction p)
{
Instruction result = NewInstruction(Op.OpDPdxFine, GetNewId(), resultType);
result.AddOperand(p);
AddToFunctionDefinitions(result);
return result;
}
public Instruction DPdyFine(Instruction resultType, Instruction p)
{
Instruction result = NewInstruction(Op.OpDPdyFine, GetNewId(), resultType);
result.AddOperand(p);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FwidthFine(Instruction resultType, Instruction p)
{
Instruction result = NewInstruction(Op.OpFwidthFine, GetNewId(), resultType);
result.AddOperand(p);
AddToFunctionDefinitions(result);
return result;
}
public Instruction DPdxCoarse(Instruction resultType, Instruction p)
{
Instruction result = NewInstruction(Op.OpDPdxCoarse, GetNewId(), resultType);
result.AddOperand(p);
AddToFunctionDefinitions(result);
return result;
}
public Instruction DPdyCoarse(Instruction resultType, Instruction p)
{
Instruction result = NewInstruction(Op.OpDPdyCoarse, GetNewId(), resultType);
result.AddOperand(p);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FwidthCoarse(Instruction resultType, Instruction p)
{
Instruction result = NewInstruction(Op.OpFwidthCoarse, GetNewId(), resultType);
result.AddOperand(p);
AddToFunctionDefinitions(result);
return result;
}
// Control-Flow
public Instruction Phi(Instruction resultType, params Instruction[] parameters)
{
Instruction result = NewInstruction(Op.OpPhi, GetNewId(), resultType);
result.AddOperand(parameters);
AddToFunctionDefinitions(result);
return result;
}
public Instruction LoopMerge(Instruction mergeBlock, Instruction continueTarget, LoopControlMask loopControl)
{
Instruction result = NewInstruction(Op.OpLoopMerge);
result.AddOperand(mergeBlock);
result.AddOperand(continueTarget);
result.AddOperand(loopControl);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SelectionMerge(Instruction mergeBlock, SelectionControlMask selectionControl)
{
Instruction result = NewInstruction(Op.OpSelectionMerge);
result.AddOperand(mergeBlock);
result.AddOperand(selectionControl);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Label()
{
Instruction result = NewInstruction(Op.OpLabel);
return result;
}
public Instruction Branch(Instruction targetLabel)
{
Instruction result = NewInstruction(Op.OpBranch);
result.AddOperand(targetLabel);
AddToFunctionDefinitions(result);
return result;
}
public Instruction BranchConditional(Instruction condition, Instruction trueLabel, Instruction falseLabel, params LiteralInteger[] branchweights)
{
Instruction result = NewInstruction(Op.OpBranchConditional);
result.AddOperand(condition);
result.AddOperand(trueLabel);
result.AddOperand(falseLabel);
result.AddOperand(branchweights);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Switch(Instruction selector, Instruction defaultObj, params Operand[] target)
{
Instruction result = NewInstruction(Op.OpSwitch);
result.AddOperand(selector);
result.AddOperand(defaultObj);
result.AddOperand(target);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Kill()
{
Instruction result = NewInstruction(Op.OpKill);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Return()
{
Instruction result = NewInstruction(Op.OpReturn);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ReturnValue(Instruction value)
{
Instruction result = NewInstruction(Op.OpReturnValue);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction Unreachable()
{
Instruction result = NewInstruction(Op.OpUnreachable);
AddToFunctionDefinitions(result);
return result;
}
public Instruction LifetimeStart(Instruction pointer, LiteralInteger size)
{
Instruction result = NewInstruction(Op.OpLifetimeStart);
result.AddOperand(pointer);
result.AddOperand(size);
AddToFunctionDefinitions(result);
return result;
}
public Instruction LifetimeStop(Instruction pointer, LiteralInteger size)
{
Instruction result = NewInstruction(Op.OpLifetimeStop);
result.AddOperand(pointer);
result.AddOperand(size);
AddToFunctionDefinitions(result);
return result;
}
public Instruction TerminateInvocation()
{
Instruction result = NewInstruction(Op.OpTerminateInvocation);
AddToFunctionDefinitions(result);
return result;
}
// Atomic
public Instruction AtomicLoad(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics)
{
Instruction result = NewInstruction(Op.OpAtomicLoad, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicStore(Instruction pointer, Instruction memory, Instruction semantics, Instruction value)
{
Instruction result = NewInstruction(Op.OpAtomicStore);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicExchange(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics, Instruction value)
{
Instruction result = NewInstruction(Op.OpAtomicExchange, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicCompareExchange(Instruction resultType, Instruction pointer, Instruction memory, Instruction equal, Instruction unequal, Instruction value, Instruction comparator)
{
Instruction result = NewInstruction(Op.OpAtomicCompareExchange, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(equal);
result.AddOperand(unequal);
result.AddOperand(value);
result.AddOperand(comparator);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicCompareExchangeWeak(Instruction resultType, Instruction pointer, Instruction memory, Instruction equal, Instruction unequal, Instruction value, Instruction comparator)
{
Instruction result = NewInstruction(Op.OpAtomicCompareExchangeWeak, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(equal);
result.AddOperand(unequal);
result.AddOperand(value);
result.AddOperand(comparator);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicIIncrement(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics)
{
Instruction result = NewInstruction(Op.OpAtomicIIncrement, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicIDecrement(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics)
{
Instruction result = NewInstruction(Op.OpAtomicIDecrement, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicIAdd(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics, Instruction value)
{
Instruction result = NewInstruction(Op.OpAtomicIAdd, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicISub(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics, Instruction value)
{
Instruction result = NewInstruction(Op.OpAtomicISub, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicSMin(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics, Instruction value)
{
Instruction result = NewInstruction(Op.OpAtomicSMin, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicUMin(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics, Instruction value)
{
Instruction result = NewInstruction(Op.OpAtomicUMin, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicSMax(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics, Instruction value)
{
Instruction result = NewInstruction(Op.OpAtomicSMax, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicUMax(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics, Instruction value)
{
Instruction result = NewInstruction(Op.OpAtomicUMax, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicAnd(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics, Instruction value)
{
Instruction result = NewInstruction(Op.OpAtomicAnd, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicOr(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics, Instruction value)
{
Instruction result = NewInstruction(Op.OpAtomicOr, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicXor(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics, Instruction value)
{
Instruction result = NewInstruction(Op.OpAtomicXor, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicFlagTestAndSet(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics)
{
Instruction result = NewInstruction(Op.OpAtomicFlagTestAndSet, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicFlagClear(Instruction pointer, Instruction memory, Instruction semantics)
{
Instruction result = NewInstruction(Op.OpAtomicFlagClear);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AtomicFAddEXT(Instruction resultType, Instruction pointer, Instruction memory, Instruction semantics, Instruction value)
{
Instruction result = NewInstruction(Op.OpAtomicFAddEXT, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(memory);
result.AddOperand(semantics);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
// Primitive
public Instruction EmitVertex()
{
Instruction result = NewInstruction(Op.OpEmitVertex);
AddToFunctionDefinitions(result);
return result;
}
public Instruction EndPrimitive()
{
Instruction result = NewInstruction(Op.OpEndPrimitive);
AddToFunctionDefinitions(result);
return result;
}
public Instruction EmitStreamVertex(Instruction stream)
{
Instruction result = NewInstruction(Op.OpEmitStreamVertex);
result.AddOperand(stream);
AddToFunctionDefinitions(result);
return result;
}
public Instruction EndStreamPrimitive(Instruction stream)
{
Instruction result = NewInstruction(Op.OpEndStreamPrimitive);
result.AddOperand(stream);
AddToFunctionDefinitions(result);
return result;
}
// Barrier
public Instruction ControlBarrier(Instruction execution, Instruction memory, Instruction semantics)
{
Instruction result = NewInstruction(Op.OpControlBarrier);
result.AddOperand(execution);
result.AddOperand(memory);
result.AddOperand(semantics);
AddToFunctionDefinitions(result);
return result;
}
public Instruction MemoryBarrier(Instruction memory, Instruction semantics)
{
Instruction result = NewInstruction(Op.OpMemoryBarrier);
result.AddOperand(memory);
result.AddOperand(semantics);
AddToFunctionDefinitions(result);
return result;
}
public Instruction NamedBarrierInitialize(Instruction resultType, Instruction subgroupCount)
{
Instruction result = NewInstruction(Op.OpNamedBarrierInitialize, GetNewId(), resultType);
result.AddOperand(subgroupCount);
AddToFunctionDefinitions(result);
return result;
}
public Instruction MemoryNamedBarrier(Instruction namedBarrier, Instruction memory, Instruction semantics)
{
Instruction result = NewInstruction(Op.OpMemoryNamedBarrier);
result.AddOperand(namedBarrier);
result.AddOperand(memory);
result.AddOperand(semantics);
AddToFunctionDefinitions(result);
return result;
}
// Group
public Instruction GroupAsyncCopy(Instruction resultType, Instruction execution, Instruction destination, Instruction source, Instruction numElements, Instruction stride, Instruction eventObj)
{
Instruction result = NewInstruction(Op.OpGroupAsyncCopy, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(destination);
result.AddOperand(source);
result.AddOperand(numElements);
result.AddOperand(stride);
result.AddOperand(eventObj);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupWaitEvents(Instruction execution, Instruction numEvents, Instruction eventsList)
{
Instruction result = NewInstruction(Op.OpGroupWaitEvents);
result.AddOperand(execution);
result.AddOperand(numEvents);
result.AddOperand(eventsList);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupAll(Instruction resultType, Instruction execution, Instruction predicate)
{
Instruction result = NewInstruction(Op.OpGroupAll, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(predicate);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupAny(Instruction resultType, Instruction execution, Instruction predicate)
{
Instruction result = NewInstruction(Op.OpGroupAny, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(predicate);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupBroadcast(Instruction resultType, Instruction execution, Instruction value, Instruction localId)
{
Instruction result = NewInstruction(Op.OpGroupBroadcast, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
result.AddOperand(localId);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupIAdd(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupIAdd, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupFAdd(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupFAdd, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupFMin(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupFMin, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupUMin(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupUMin, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupSMin(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupSMin, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupFMax(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupFMax, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupUMax(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupUMax, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupSMax(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupSMax, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupBallotKHR(Instruction resultType, Instruction predicate)
{
Instruction result = NewInstruction(Op.OpSubgroupBallotKHR, GetNewId(), resultType);
result.AddOperand(predicate);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupFirstInvocationKHR(Instruction resultType, Instruction value)
{
Instruction result = NewInstruction(Op.OpSubgroupFirstInvocationKHR, GetNewId(), resultType);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupAllKHR(Instruction resultType, Instruction predicate)
{
Instruction result = NewInstruction(Op.OpSubgroupAllKHR, GetNewId(), resultType);
result.AddOperand(predicate);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupAnyKHR(Instruction resultType, Instruction predicate)
{
Instruction result = NewInstruction(Op.OpSubgroupAnyKHR, GetNewId(), resultType);
result.AddOperand(predicate);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupAllEqualKHR(Instruction resultType, Instruction predicate)
{
Instruction result = NewInstruction(Op.OpSubgroupAllEqualKHR, GetNewId(), resultType);
result.AddOperand(predicate);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupReadInvocationKHR(Instruction resultType, Instruction value, Instruction index)
{
Instruction result = NewInstruction(Op.OpSubgroupReadInvocationKHR, GetNewId(), resultType);
result.AddOperand(value);
result.AddOperand(index);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupIAddNonUniformAMD(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupIAddNonUniformAMD, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupFAddNonUniformAMD(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupFAddNonUniformAMD, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupFMinNonUniformAMD(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupFMinNonUniformAMD, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupUMinNonUniformAMD(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupUMinNonUniformAMD, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupSMinNonUniformAMD(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupSMinNonUniformAMD, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupFMaxNonUniformAMD(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupFMaxNonUniformAMD, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupUMaxNonUniformAMD(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupUMaxNonUniformAMD, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupSMaxNonUniformAMD(Instruction resultType, Instruction execution, GroupOperation operation, Instruction x)
{
Instruction result = NewInstruction(Op.OpGroupSMaxNonUniformAMD, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(x);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupShuffleINTEL(Instruction resultType, Instruction data, Instruction invocationId)
{
Instruction result = NewInstruction(Op.OpSubgroupShuffleINTEL, GetNewId(), resultType);
result.AddOperand(data);
result.AddOperand(invocationId);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupShuffleDownINTEL(Instruction resultType, Instruction current, Instruction next, Instruction delta)
{
Instruction result = NewInstruction(Op.OpSubgroupShuffleDownINTEL, GetNewId(), resultType);
result.AddOperand(current);
result.AddOperand(next);
result.AddOperand(delta);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupShuffleUpINTEL(Instruction resultType, Instruction previous, Instruction current, Instruction delta)
{
Instruction result = NewInstruction(Op.OpSubgroupShuffleUpINTEL, GetNewId(), resultType);
result.AddOperand(previous);
result.AddOperand(current);
result.AddOperand(delta);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupShuffleXorINTEL(Instruction resultType, Instruction data, Instruction value)
{
Instruction result = NewInstruction(Op.OpSubgroupShuffleXorINTEL, GetNewId(), resultType);
result.AddOperand(data);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupBlockReadINTEL(Instruction resultType, Instruction ptr)
{
Instruction result = NewInstruction(Op.OpSubgroupBlockReadINTEL, GetNewId(), resultType);
result.AddOperand(ptr);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupBlockWriteINTEL(Instruction ptr, Instruction data)
{
Instruction result = NewInstruction(Op.OpSubgroupBlockWriteINTEL);
result.AddOperand(ptr);
result.AddOperand(data);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupImageBlockReadINTEL(Instruction resultType, Instruction image, Instruction coordinate)
{
Instruction result = NewInstruction(Op.OpSubgroupImageBlockReadINTEL, GetNewId(), resultType);
result.AddOperand(image);
result.AddOperand(coordinate);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupImageBlockWriteINTEL(Instruction image, Instruction coordinate, Instruction data)
{
Instruction result = NewInstruction(Op.OpSubgroupImageBlockWriteINTEL);
result.AddOperand(image);
result.AddOperand(coordinate);
result.AddOperand(data);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupImageMediaBlockReadINTEL(Instruction resultType, Instruction image, Instruction coordinate, Instruction width, Instruction height)
{
Instruction result = NewInstruction(Op.OpSubgroupImageMediaBlockReadINTEL, GetNewId(), resultType);
result.AddOperand(image);
result.AddOperand(coordinate);
result.AddOperand(width);
result.AddOperand(height);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SubgroupImageMediaBlockWriteINTEL(Instruction image, Instruction coordinate, Instruction width, Instruction height, Instruction data)
{
Instruction result = NewInstruction(Op.OpSubgroupImageMediaBlockWriteINTEL);
result.AddOperand(image);
result.AddOperand(coordinate);
result.AddOperand(width);
result.AddOperand(height);
result.AddOperand(data);
AddToFunctionDefinitions(result);
return result;
}
// Device-Side_Enqueue
public Instruction EnqueueMarker(Instruction resultType, Instruction queue, Instruction numEvents, Instruction waitEvents, Instruction retEvent)
{
Instruction result = NewInstruction(Op.OpEnqueueMarker, GetNewId(), resultType);
result.AddOperand(queue);
result.AddOperand(numEvents);
result.AddOperand(waitEvents);
result.AddOperand(retEvent);
AddToFunctionDefinitions(result);
return result;
}
public Instruction EnqueueKernel(Instruction resultType, Instruction queue, Instruction flags, Instruction nDRange, Instruction numEvents, Instruction waitEvents, Instruction retEvent, Instruction invoke, Instruction param, Instruction paramSize, Instruction paramAlign, params Instruction[] localSize)
{
Instruction result = NewInstruction(Op.OpEnqueueKernel, GetNewId(), resultType);
result.AddOperand(queue);
result.AddOperand(flags);
result.AddOperand(nDRange);
result.AddOperand(numEvents);
result.AddOperand(waitEvents);
result.AddOperand(retEvent);
result.AddOperand(invoke);
result.AddOperand(param);
result.AddOperand(paramSize);
result.AddOperand(paramAlign);
result.AddOperand(localSize);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GetKernelNDrangeSubGroupCount(Instruction resultType, Instruction nDRange, Instruction invoke, Instruction param, Instruction paramSize, Instruction paramAlign)
{
Instruction result = NewInstruction(Op.OpGetKernelNDrangeSubGroupCount, GetNewId(), resultType);
result.AddOperand(nDRange);
result.AddOperand(invoke);
result.AddOperand(param);
result.AddOperand(paramSize);
result.AddOperand(paramAlign);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GetKernelNDrangeMaxSubGroupSize(Instruction resultType, Instruction nDRange, Instruction invoke, Instruction param, Instruction paramSize, Instruction paramAlign)
{
Instruction result = NewInstruction(Op.OpGetKernelNDrangeMaxSubGroupSize, GetNewId(), resultType);
result.AddOperand(nDRange);
result.AddOperand(invoke);
result.AddOperand(param);
result.AddOperand(paramSize);
result.AddOperand(paramAlign);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GetKernelWorkGroupSize(Instruction resultType, Instruction invoke, Instruction param, Instruction paramSize, Instruction paramAlign)
{
Instruction result = NewInstruction(Op.OpGetKernelWorkGroupSize, GetNewId(), resultType);
result.AddOperand(invoke);
result.AddOperand(param);
result.AddOperand(paramSize);
result.AddOperand(paramAlign);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GetKernelPreferredWorkGroupSizeMultiple(Instruction resultType, Instruction invoke, Instruction param, Instruction paramSize, Instruction paramAlign)
{
Instruction result = NewInstruction(Op.OpGetKernelPreferredWorkGroupSizeMultiple, GetNewId(), resultType);
result.AddOperand(invoke);
result.AddOperand(param);
result.AddOperand(paramSize);
result.AddOperand(paramAlign);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RetainEvent(Instruction eventObj)
{
Instruction result = NewInstruction(Op.OpRetainEvent);
result.AddOperand(eventObj);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ReleaseEvent(Instruction eventObj)
{
Instruction result = NewInstruction(Op.OpReleaseEvent);
result.AddOperand(eventObj);
AddToFunctionDefinitions(result);
return result;
}
public Instruction CreateUserEvent(Instruction resultType)
{
Instruction result = NewInstruction(Op.OpCreateUserEvent, GetNewId(), resultType);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IsValidEvent(Instruction resultType, Instruction eventObj)
{
Instruction result = NewInstruction(Op.OpIsValidEvent, GetNewId(), resultType);
result.AddOperand(eventObj);
AddToFunctionDefinitions(result);
return result;
}
public Instruction SetUserEventStatus(Instruction eventObj, Instruction status)
{
Instruction result = NewInstruction(Op.OpSetUserEventStatus);
result.AddOperand(eventObj);
result.AddOperand(status);
AddToFunctionDefinitions(result);
return result;
}
public Instruction CaptureEventProfilingInfo(Instruction eventObj, Instruction profilingInfo, Instruction value)
{
Instruction result = NewInstruction(Op.OpCaptureEventProfilingInfo);
result.AddOperand(eventObj);
result.AddOperand(profilingInfo);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GetDefaultQueue(Instruction resultType)
{
Instruction result = NewInstruction(Op.OpGetDefaultQueue, GetNewId(), resultType);
AddToFunctionDefinitions(result);
return result;
}
public Instruction BuildNDRange(Instruction resultType, Instruction globalWorkSize, Instruction localWorkSize, Instruction globalWorkOffset)
{
Instruction result = NewInstruction(Op.OpBuildNDRange, GetNewId(), resultType);
result.AddOperand(globalWorkSize);
result.AddOperand(localWorkSize);
result.AddOperand(globalWorkOffset);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GetKernelLocalSizeForSubgroupCount(Instruction resultType, Instruction subgroupCount, Instruction invoke, Instruction param, Instruction paramSize, Instruction paramAlign)
{
Instruction result = NewInstruction(Op.OpGetKernelLocalSizeForSubgroupCount, GetNewId(), resultType);
result.AddOperand(subgroupCount);
result.AddOperand(invoke);
result.AddOperand(param);
result.AddOperand(paramSize);
result.AddOperand(paramAlign);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GetKernelMaxNumSubgroups(Instruction resultType, Instruction invoke, Instruction param, Instruction paramSize, Instruction paramAlign)
{
Instruction result = NewInstruction(Op.OpGetKernelMaxNumSubgroups, GetNewId(), resultType);
result.AddOperand(invoke);
result.AddOperand(param);
result.AddOperand(paramSize);
result.AddOperand(paramAlign);
AddToFunctionDefinitions(result);
return result;
}
// Pipe
public Instruction ReadPipe(Instruction resultType, Instruction pipe, Instruction pointer, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpReadPipe, GetNewId(), resultType);
result.AddOperand(pipe);
result.AddOperand(pointer);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction WritePipe(Instruction resultType, Instruction pipe, Instruction pointer, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpWritePipe, GetNewId(), resultType);
result.AddOperand(pipe);
result.AddOperand(pointer);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ReservedReadPipe(Instruction resultType, Instruction pipe, Instruction reserveId, Instruction index, Instruction pointer, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpReservedReadPipe, GetNewId(), resultType);
result.AddOperand(pipe);
result.AddOperand(reserveId);
result.AddOperand(index);
result.AddOperand(pointer);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ReservedWritePipe(Instruction resultType, Instruction pipe, Instruction reserveId, Instruction index, Instruction pointer, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpReservedWritePipe, GetNewId(), resultType);
result.AddOperand(pipe);
result.AddOperand(reserveId);
result.AddOperand(index);
result.AddOperand(pointer);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ReserveReadPipePackets(Instruction resultType, Instruction pipe, Instruction numPackets, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpReserveReadPipePackets, GetNewId(), resultType);
result.AddOperand(pipe);
result.AddOperand(numPackets);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ReserveWritePipePackets(Instruction resultType, Instruction pipe, Instruction numPackets, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpReserveWritePipePackets, GetNewId(), resultType);
result.AddOperand(pipe);
result.AddOperand(numPackets);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction CommitReadPipe(Instruction pipe, Instruction reserveId, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpCommitReadPipe);
result.AddOperand(pipe);
result.AddOperand(reserveId);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction CommitWritePipe(Instruction pipe, Instruction reserveId, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpCommitWritePipe);
result.AddOperand(pipe);
result.AddOperand(reserveId);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IsValidReserveId(Instruction resultType, Instruction reserveId)
{
Instruction result = NewInstruction(Op.OpIsValidReserveId, GetNewId(), resultType);
result.AddOperand(reserveId);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GetNumPipePackets(Instruction resultType, Instruction pipe, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpGetNumPipePackets, GetNewId(), resultType);
result.AddOperand(pipe);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GetMaxPipePackets(Instruction resultType, Instruction pipe, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpGetMaxPipePackets, GetNewId(), resultType);
result.AddOperand(pipe);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupReserveReadPipePackets(Instruction resultType, Instruction execution, Instruction pipe, Instruction numPackets, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpGroupReserveReadPipePackets, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(pipe);
result.AddOperand(numPackets);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupReserveWritePipePackets(Instruction resultType, Instruction execution, Instruction pipe, Instruction numPackets, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpGroupReserveWritePipePackets, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(pipe);
result.AddOperand(numPackets);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupCommitReadPipe(Instruction execution, Instruction pipe, Instruction reserveId, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpGroupCommitReadPipe);
result.AddOperand(execution);
result.AddOperand(pipe);
result.AddOperand(reserveId);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupCommitWritePipe(Instruction execution, Instruction pipe, Instruction reserveId, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpGroupCommitWritePipe);
result.AddOperand(execution);
result.AddOperand(pipe);
result.AddOperand(reserveId);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ConstantPipeStorage(Instruction resultType, LiteralInteger packetSize, LiteralInteger packetAlignment, LiteralInteger capacity)
{
Instruction result = NewInstruction(Op.OpConstantPipeStorage, GetNewId(), resultType);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
result.AddOperand(capacity);
AddToFunctionDefinitions(result);
return result;
}
public Instruction CreatePipeFromPipeStorage(Instruction resultType, Instruction pipeStorage)
{
Instruction result = NewInstruction(Op.OpCreatePipeFromPipeStorage, GetNewId(), resultType);
result.AddOperand(pipeStorage);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ReadPipeBlockingINTEL(Instruction resultType, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpReadPipeBlockingINTEL, GetNewId(), resultType);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
public Instruction WritePipeBlockingINTEL(Instruction resultType, Instruction packetSize, Instruction packetAlignment)
{
Instruction result = NewInstruction(Op.OpWritePipeBlockingINTEL, GetNewId(), resultType);
result.AddOperand(packetSize);
result.AddOperand(packetAlignment);
AddToFunctionDefinitions(result);
return result;
}
// Non-Uniform
public Instruction GroupNonUniformElect(Instruction resultType, Instruction execution)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformElect, GetNewId(), resultType);
result.AddOperand(execution);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformAll(Instruction resultType, Instruction execution, Instruction predicate)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformAll, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(predicate);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformAny(Instruction resultType, Instruction execution, Instruction predicate)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformAny, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(predicate);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformAllEqual(Instruction resultType, Instruction execution, Instruction value)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformAllEqual, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformBroadcast(Instruction resultType, Instruction execution, Instruction value, Instruction id)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformBroadcast, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
result.AddOperand(id);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformBroadcastFirst(Instruction resultType, Instruction execution, Instruction value)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformBroadcastFirst, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformBallot(Instruction resultType, Instruction execution, Instruction predicate)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformBallot, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(predicate);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformInverseBallot(Instruction resultType, Instruction execution, Instruction value)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformInverseBallot, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformBallotBitExtract(Instruction resultType, Instruction execution, Instruction value, Instruction index)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformBallotBitExtract, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
result.AddOperand(index);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformBallotBitCount(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformBallotBitCount, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformBallotFindLSB(Instruction resultType, Instruction execution, Instruction value)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformBallotFindLSB, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformBallotFindMSB(Instruction resultType, Instruction execution, Instruction value)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformBallotFindMSB, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformShuffle(Instruction resultType, Instruction execution, Instruction value, Instruction id)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformShuffle, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
result.AddOperand(id);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformShuffleXor(Instruction resultType, Instruction execution, Instruction value, Instruction mask)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformShuffleXor, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
result.AddOperand(mask);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformShuffleUp(Instruction resultType, Instruction execution, Instruction value, Instruction delta)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformShuffleUp, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
result.AddOperand(delta);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformShuffleDown(Instruction resultType, Instruction execution, Instruction value, Instruction delta)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformShuffleDown, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
result.AddOperand(delta);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformIAdd(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformIAdd, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformFAdd(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformFAdd, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformIMul(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformIMul, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformFMul(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformFMul, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformSMin(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformSMin, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformUMin(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformUMin, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformFMin(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformFMin, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformSMax(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformSMax, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformUMax(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformUMax, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformFMax(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformFMax, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformBitwiseAnd(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformBitwiseAnd, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformBitwiseOr(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformBitwiseOr, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformBitwiseXor(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformBitwiseXor, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformLogicalAnd(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformLogicalAnd, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformLogicalOr(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformLogicalOr, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformLogicalXor(Instruction resultType, Instruction execution, GroupOperation operation, Instruction value, Instruction clusterSize = null)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformLogicalXor, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(operation);
result.AddOperand(value);
if (clusterSize != null)
{
result.AddOperand(clusterSize);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformQuadBroadcast(Instruction resultType, Instruction execution, Instruction value, Instruction index)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformQuadBroadcast, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
result.AddOperand(index);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformQuadSwap(Instruction resultType, Instruction execution, Instruction value, Instruction direction)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformQuadSwap, GetNewId(), resultType);
result.AddOperand(execution);
result.AddOperand(value);
result.AddOperand(direction);
AddToFunctionDefinitions(result);
return result;
}
public Instruction GroupNonUniformPartitionNV(Instruction resultType, Instruction value)
{
Instruction result = NewInstruction(Op.OpGroupNonUniformPartitionNV, GetNewId(), resultType);
result.AddOperand(value);
AddToFunctionDefinitions(result);
return result;
}
// Reserved
public Instruction TraceRayKHR(Instruction accel, Instruction rayFlags, Instruction cullMask, Instruction sBTOffset, Instruction sBTStride, Instruction missIndex, Instruction rayOrigin, Instruction rayTmin, Instruction rayDirection, Instruction rayTmax, Instruction payload)
{
Instruction result = NewInstruction(Op.OpTraceRayKHR);
result.AddOperand(accel);
result.AddOperand(rayFlags);
result.AddOperand(cullMask);
result.AddOperand(sBTOffset);
result.AddOperand(sBTStride);
result.AddOperand(missIndex);
result.AddOperand(rayOrigin);
result.AddOperand(rayTmin);
result.AddOperand(rayDirection);
result.AddOperand(rayTmax);
result.AddOperand(payload);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ExecuteCallableKHR(Instruction sBTIndex, Instruction callableData)
{
Instruction result = NewInstruction(Op.OpExecuteCallableKHR);
result.AddOperand(sBTIndex);
result.AddOperand(callableData);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ConvertUToAccelerationStructureKHR(Instruction resultType, Instruction accel)
{
Instruction result = NewInstruction(Op.OpConvertUToAccelerationStructureKHR, GetNewId(), resultType);
result.AddOperand(accel);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IgnoreIntersectionKHR()
{
Instruction result = NewInstruction(Op.OpIgnoreIntersectionKHR);
AddToFunctionDefinitions(result);
return result;
}
public Instruction TerminateRayKHR()
{
Instruction result = NewInstruction(Op.OpTerminateRayKHR);
AddToFunctionDefinitions(result);
return result;
}
public Instruction TypeRayQueryKHR()
{
Instruction result = NewInstruction(Op.OpTypeRayQueryKHR, GetNewId());
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryInitializeKHR(Instruction rayQuery, Instruction accel, Instruction rayFlags, Instruction cullMask, Instruction rayOrigin, Instruction rayTMin, Instruction rayDirection, Instruction rayTMax)
{
Instruction result = NewInstruction(Op.OpRayQueryInitializeKHR);
result.AddOperand(rayQuery);
result.AddOperand(accel);
result.AddOperand(rayFlags);
result.AddOperand(cullMask);
result.AddOperand(rayOrigin);
result.AddOperand(rayTMin);
result.AddOperand(rayDirection);
result.AddOperand(rayTMax);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryTerminateKHR(Instruction rayQuery)
{
Instruction result = NewInstruction(Op.OpRayQueryTerminateKHR);
result.AddOperand(rayQuery);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGenerateIntersectionKHR(Instruction rayQuery, Instruction hitT)
{
Instruction result = NewInstruction(Op.OpRayQueryGenerateIntersectionKHR);
result.AddOperand(rayQuery);
result.AddOperand(hitT);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryConfirmIntersectionKHR(Instruction rayQuery)
{
Instruction result = NewInstruction(Op.OpRayQueryConfirmIntersectionKHR);
result.AddOperand(rayQuery);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryProceedKHR(Instruction resultType, Instruction rayQuery)
{
Instruction result = NewInstruction(Op.OpRayQueryProceedKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionTypeKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionTypeKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FragmentMaskFetchAMD(Instruction resultType, Instruction image, Instruction coordinate)
{
Instruction result = NewInstruction(Op.OpFragmentMaskFetchAMD, GetNewId(), resultType);
result.AddOperand(image);
result.AddOperand(coordinate);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FragmentFetchAMD(Instruction resultType, Instruction image, Instruction coordinate, Instruction fragmentIndex)
{
Instruction result = NewInstruction(Op.OpFragmentFetchAMD, GetNewId(), resultType);
result.AddOperand(image);
result.AddOperand(coordinate);
result.AddOperand(fragmentIndex);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ReadClockKHR(Instruction resultType, Instruction execution)
{
Instruction result = NewInstruction(Op.OpReadClockKHR, GetNewId(), resultType);
result.AddOperand(execution);
AddToFunctionDefinitions(result);
return result;
}
public Instruction WritePackedPrimitiveIndices4x8NV(Instruction indexOffset, Instruction packedIndices)
{
Instruction result = NewInstruction(Op.OpWritePackedPrimitiveIndices4x8NV);
result.AddOperand(indexOffset);
result.AddOperand(packedIndices);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ReportIntersectionNV(Instruction resultType, Instruction hit, Instruction hitKind)
{
Instruction result = NewInstruction(Op.OpReportIntersectionNV, GetNewId(), resultType);
result.AddOperand(hit);
result.AddOperand(hitKind);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ReportIntersectionKHR(Instruction resultType, Instruction hit, Instruction hitKind)
{
Instruction result = NewInstruction(Op.OpReportIntersectionKHR, GetNewId(), resultType);
result.AddOperand(hit);
result.AddOperand(hitKind);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IgnoreIntersectionNV()
{
Instruction result = NewInstruction(Op.OpIgnoreIntersectionNV);
AddToFunctionDefinitions(result);
return result;
}
public Instruction TerminateRayNV()
{
Instruction result = NewInstruction(Op.OpTerminateRayNV);
AddToFunctionDefinitions(result);
return result;
}
public Instruction TraceNV(Instruction accel, Instruction rayFlags, Instruction cullMask, Instruction sBTOffset, Instruction sBTStride, Instruction missIndex, Instruction rayOrigin, Instruction rayTmin, Instruction rayDirection, Instruction rayTmax, Instruction payloadId)
{
Instruction result = NewInstruction(Op.OpTraceNV);
result.AddOperand(accel);
result.AddOperand(rayFlags);
result.AddOperand(cullMask);
result.AddOperand(sBTOffset);
result.AddOperand(sBTStride);
result.AddOperand(missIndex);
result.AddOperand(rayOrigin);
result.AddOperand(rayTmin);
result.AddOperand(rayDirection);
result.AddOperand(rayTmax);
result.AddOperand(payloadId);
AddToFunctionDefinitions(result);
return result;
}
public Instruction TypeAccelerationStructureNV()
{
Instruction result = NewInstruction(Op.OpTypeAccelerationStructureNV, GetNewId());
AddToFunctionDefinitions(result);
return result;
}
public Instruction TypeAccelerationStructureKHR()
{
Instruction result = NewInstruction(Op.OpTypeAccelerationStructureKHR, GetNewId());
AddToFunctionDefinitions(result);
return result;
}
public Instruction ExecuteCallableNV(Instruction sBTIndex, Instruction callableDataId)
{
Instruction result = NewInstruction(Op.OpExecuteCallableNV);
result.AddOperand(sBTIndex);
result.AddOperand(callableDataId);
AddToFunctionDefinitions(result);
return result;
}
public Instruction TypeCooperativeMatrixNV(Instruction componentType, Instruction execution, Instruction rows, Instruction columns)
{
Instruction result = NewInstruction(Op.OpTypeCooperativeMatrixNV, GetNewId());
result.AddOperand(componentType);
result.AddOperand(execution);
result.AddOperand(rows);
result.AddOperand(columns);
AddToFunctionDefinitions(result);
return result;
}
public Instruction CooperativeMatrixLoadNV(Instruction resultType, Instruction pointer, Instruction stride, Instruction columnMajor, MemoryAccessMask memoryAccess = (MemoryAccessMask)int.MaxValue)
{
Instruction result = NewInstruction(Op.OpCooperativeMatrixLoadNV, GetNewId(), resultType);
result.AddOperand(pointer);
result.AddOperand(stride);
result.AddOperand(columnMajor);
if (memoryAccess != (MemoryAccessMask)int.MaxValue)
{
result.AddOperand(memoryAccess);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction CooperativeMatrixStoreNV(Instruction pointer, Instruction obj, Instruction stride, Instruction columnMajor, MemoryAccessMask memoryAccess = (MemoryAccessMask)int.MaxValue)
{
Instruction result = NewInstruction(Op.OpCooperativeMatrixStoreNV);
result.AddOperand(pointer);
result.AddOperand(obj);
result.AddOperand(stride);
result.AddOperand(columnMajor);
if (memoryAccess != (MemoryAccessMask)int.MaxValue)
{
result.AddOperand(memoryAccess);
}
AddToFunctionDefinitions(result);
return result;
}
public Instruction CooperativeMatrixMulAddNV(Instruction resultType, Instruction a, Instruction b, Instruction c)
{
Instruction result = NewInstruction(Op.OpCooperativeMatrixMulAddNV, GetNewId(), resultType);
result.AddOperand(a);
result.AddOperand(b);
result.AddOperand(c);
AddToFunctionDefinitions(result);
return result;
}
public Instruction CooperativeMatrixLengthNV(Instruction resultType, Instruction type)
{
Instruction result = NewInstruction(Op.OpCooperativeMatrixLengthNV, GetNewId(), resultType);
result.AddOperand(type);
AddToFunctionDefinitions(result);
return result;
}
public Instruction BeginInvocationInterlockEXT()
{
Instruction result = NewInstruction(Op.OpBeginInvocationInterlockEXT);
AddToFunctionDefinitions(result);
return result;
}
public Instruction EndInvocationInterlockEXT()
{
Instruction result = NewInstruction(Op.OpEndInvocationInterlockEXT);
AddToFunctionDefinitions(result);
return result;
}
public Instruction DemoteToHelperInvocationEXT()
{
Instruction result = NewInstruction(Op.OpDemoteToHelperInvocationEXT);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IsHelperInvocationEXT(Instruction resultType)
{
Instruction result = NewInstruction(Op.OpIsHelperInvocationEXT, GetNewId(), resultType);
AddToFunctionDefinitions(result);
return result;
}
public Instruction UCountLeadingZerosINTEL(Instruction resultType, Instruction operand)
{
Instruction result = NewInstruction(Op.OpUCountLeadingZerosINTEL, GetNewId(), resultType);
result.AddOperand(operand);
AddToFunctionDefinitions(result);
return result;
}
public Instruction UCountTrailingZerosINTEL(Instruction resultType, Instruction operand)
{
Instruction result = NewInstruction(Op.OpUCountTrailingZerosINTEL, GetNewId(), resultType);
result.AddOperand(operand);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AbsISubINTEL(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpAbsISubINTEL, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction AbsUSubINTEL(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpAbsUSubINTEL, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IAddSatINTEL(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpIAddSatINTEL, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction UAddSatINTEL(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpUAddSatINTEL, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IAverageINTEL(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpIAverageINTEL, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction UAverageINTEL(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpUAverageINTEL, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IAverageRoundedINTEL(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpIAverageRoundedINTEL, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction UAverageRoundedINTEL(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpUAverageRoundedINTEL, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction ISubSatINTEL(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpISubSatINTEL, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction USubSatINTEL(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpUSubSatINTEL, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction IMul32x16INTEL(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpIMul32x16INTEL, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction UMul32x16INTEL(Instruction resultType, Instruction operand1, Instruction operand2)
{
Instruction result = NewInstruction(Op.OpUMul32x16INTEL, GetNewId(), resultType);
result.AddOperand(operand1);
result.AddOperand(operand2);
AddToFunctionDefinitions(result);
return result;
}
public Instruction LoopControlINTEL(params LiteralInteger[] loopControlParameters)
{
Instruction result = NewInstruction(Op.OpLoopControlINTEL);
result.AddOperand(loopControlParameters);
AddToFunctionDefinitions(result);
return result;
}
public Instruction FPGARegINTEL(Instruction resultType, Instruction resultObj, Instruction input)
{
Instruction result = NewInstruction(Op.OpFPGARegINTEL, GetNewId(), resultType);
result.AddOperand(resultObj);
result.AddOperand(input);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetRayTMinKHR(Instruction resultType, Instruction rayQuery)
{
Instruction result = NewInstruction(Op.OpRayQueryGetRayTMinKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetRayFlagsKHR(Instruction resultType, Instruction rayQuery)
{
Instruction result = NewInstruction(Op.OpRayQueryGetRayFlagsKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionTKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionTKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionInstanceCustomIndexKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionInstanceCustomIndexKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionInstanceIdKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionInstanceIdKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionInstanceShaderBindingTableRecordOffsetKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionInstanceShaderBindingTableRecordOffsetKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionGeometryIndexKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionGeometryIndexKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionPrimitiveIndexKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionPrimitiveIndexKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionBarycentricsKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionBarycentricsKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionFrontFaceKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionFrontFaceKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionCandidateAABBOpaqueKHR(Instruction resultType, Instruction rayQuery)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionCandidateAABBOpaqueKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionObjectRayDirectionKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionObjectRayDirectionKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionObjectRayOriginKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionObjectRayOriginKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetWorldRayDirectionKHR(Instruction resultType, Instruction rayQuery)
{
Instruction result = NewInstruction(Op.OpRayQueryGetWorldRayDirectionKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetWorldRayOriginKHR(Instruction resultType, Instruction rayQuery)
{
Instruction result = NewInstruction(Op.OpRayQueryGetWorldRayOriginKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionObjectToWorldKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionObjectToWorldKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
public Instruction RayQueryGetIntersectionWorldToObjectKHR(Instruction resultType, Instruction rayQuery, Instruction intersection)
{
Instruction result = NewInstruction(Op.OpRayQueryGetIntersectionWorldToObjectKHR, GetNewId(), resultType);
result.AddOperand(rayQuery);
result.AddOperand(intersection);
AddToFunctionDefinitions(result);
return result;
}
}
}