C++ API Reference
gammaShader/gammaShader.cpp
//
// DESCRIPTION: Gamma correction utility node
//
// Produces dependency graph node GammaNode
// This node is an example of manipulating color with gamma correction.
// The inputs for this node are input color and gamma values. The gamma input has 3 float values so that they
// can be applied to each rgb channel of an input color separately.
// The output attribute of the GammaNode node is called "outColor". To use this shader, create a GammaNode and
// connect its output to an input of a surface/shader node such as Color.
//
#include <math.h>
#include <maya/MPxNode.h>
#include <maya/MIOStream.h>
#include <maya/MString.h>
#include <maya/MTypeId.h>
#include <maya/MPlug.h>
#include <maya/MDataBlock.h>
#include <maya/MDataHandle.h>
#include <maya/MFnNumericAttribute.h>
#include <maya/MFloatVector.h>
#include <maya/MFnPlugin.h>
#include <maya/MDrawRegistry.h>
#include <maya/MPxShadingNodeOverride.h>
#include <maya/MViewport2Renderer.h>
#include <maya/MFragmentManager.h>
//
// Node declaration
class Gamma:public MPxNode
{
public:
Gamma();
~Gamma() override;
MStatus compute( const MPlug&, MDataBlock& ) override;
SchedulingType schedulingType() const override { return SchedulingType::kParallel; }
static void * creator();
static MStatus initialize();
// Id tag for use with binary file format
static MTypeId id;
private:
// Input attributes
static MObject aColor; // Input color
static MObject aGamma; // R, G, B correction
// Output attributes
static MObject aOutColor;
};
//
// Override declaration
class GammaOverride : public MHWRender::MPxShadingNodeOverride
{
public:
static MHWRender::MPxShadingNodeOverride* creator(const MObject& obj);
~GammaOverride() override;
MString fragmentName() const override;
private:
GammaOverride(const MObject& obj);
MString fFragmentName;
};
//
// Node definition
MTypeId Gamma::id( 0x81009 );
// Attributes
MObject Gamma::aColor;
MObject Gamma::aGamma;
MObject Gamma::aOutColor;
#define MAKE_INPUT(attr) \
CHECK_MSTATUS ( attr.setKeyable(true) ); \
CHECK_MSTATUS ( attr.setStorable(true) ); \
CHECK_MSTATUS ( attr.setReadable(true) ); \
CHECK_MSTATUS ( attr.setWritable(true) );
#define MAKE_OUTPUT(attr) \
CHECK_MSTATUS ( attr.setKeyable(false) ); \
CHECK_MSTATUS ( attr.setStorable(false) ); \
CHECK_MSTATUS ( attr.setReadable(true) ); \
CHECK_MSTATUS ( attr.setWritable(false) );
//
// DESCRIPTION:
Gamma::Gamma()
{
}
//
// DESCRIPTION:
Gamma::~Gamma()
{
}
//
// DESCRIPTION:
void *Gamma::creator()
{
return new Gamma();
}
//
// DESCRIPTION:
MStatus Gamma::initialize()
{
// Input attributes
aColor = nAttr.createColor( "color", "c" );
MAKE_INPUT(nAttr);
aGamma = nAttr.createPoint( "gamma", "g" );
MAKE_INPUT(nAttr);
CHECK_MSTATUS ( nAttr.setDefault(1.f, 1.f, 1.f) );
// Output attributes
aOutColor= nAttr.createColor( "outColor", "oc" );
MAKE_OUTPUT(nAttr);
// Add attributes to the node database.
CHECK_MSTATUS ( addAttribute(aColor) );
CHECK_MSTATUS ( addAttribute(aGamma) );
CHECK_MSTATUS ( addAttribute(aOutColor) );
// All input affect the output color
CHECK_MSTATUS ( attributeAffects( aColor, aOutColor ));
CHECK_MSTATUS ( attributeAffects( aGamma, aOutColor ));
return MS::kSuccess;
}
//
// DESCRIPTION:
MStatus Gamma::compute(const MPlug &plug, MDataBlock &block)
{
if ((plug != aOutColor) && (plug.parent() != aOutColor))
return MS::kUnknownParameter;
MFloatVector & icol = block.inputValue( aColor ).asFloatVector();
MFloatVector & igam = block.inputValue( aGamma ).asFloatVector();
MDataHandle och = block.outputValue( aOutColor );
MFloatVector & ocol = och.asFloatVector();
ocol[0]= powf(icol[0], 1.f/igam[0]);
ocol[1]= powf(icol[1], 1.f/igam[1]);
ocol[2]= powf(icol[2], 1.f/igam[2]);
och.setClean();
return MS::kSuccess;
}
//
// Override definition
MHWRender::MPxShadingNodeOverride* GammaOverride::creator(
const MObject& obj)
{
return new GammaOverride(obj);
}
GammaOverride::GammaOverride(const MObject& obj)
: MPxShadingNodeOverride(obj)
, fFragmentName("")
{
// Define fragments needed for VP2 version of shader, this could also be
// defined in a separate XML file
//
// Define the input and output parameter names to match the input and
// output attribute names so that the values are automatically populated
// on the shader.
static const MString sFragmentName("gammaShaderPluginFragment");
static const char* sFragmentBody =
"<fragment uiName=\"gammaShaderPluginFragment\" name=\"gammaShaderPluginFragment\" type=\"plumbing\" class=\"ShadeFragment\" version=\"1.0\">"
" <description><![CDATA[Gamma utility fragment]]></description>"
" <properties>"
" <float3 name=\"color\" />"
" <float3 name=\"gamma\" />"
" </properties>"
" <values>"
" <float3 name=\"color\" value=\"0.5,0.5,0.5\" />"
" <float3 name=\"gamma\" value=\"1.0,1.0,1.0\" />"
" </values>"
" <outputs>"
" <float3 name=\"outColor\" />"
" </outputs>"
" <implementation>"
" <implementation render=\"OGSRenderer\" language=\"Cg\" lang_version=\"2.1\">"
" <function_name val=\"gammaShaderPluginFragment\" />"
" <source><![CDATA["
"float3 gammaShaderPluginFragment(float3 icol, float3 igam) \n"
"{ \n"
" float3 result; \n"
" result.r = pow(icol.r, 1.0f/igam.r); \n"
" result.g = pow(icol.g, 1.0f/igam.g); \n"
" result.b = pow(icol.b, 1.0f/igam.b); \n"
" return result; \n"
"} \n]]>"
" </source>"
" </implementation>"
" <implementation render=\"OGSRenderer\" language=\"HLSL\" lang_version=\"11.0\">"
" <function_name val=\"gammaShaderPluginFragment\" />"
" <source><![CDATA["
"float3 gammaShaderPluginFragment(float3 icol, float3 igam) \n"
"{ \n"
" float3 result; \n"
" result.r = pow(icol.r, 1.0f/igam.r); \n"
" result.g = pow(icol.g, 1.0f/igam.g); \n"
" result.b = pow(icol.b, 1.0f/igam.b); \n"
" return result; \n"
"} \n]]>"
" </source>"
" </implementation>"
" <implementation render=\"OGSRenderer\" language=\"GLSL\" lang_version=\"3.0\">"
" <function_name val=\"gammaShaderPluginFragment\" />"
" <source><![CDATA["
"vec3 gammaShaderPluginFragment(vec3 icol, vec3 igam) \n"
"{ \n"
" vec3 result; \n"
" result.r = pow(icol.r, 1.0f/igam.r); \n"
" result.g = pow(icol.g, 1.0f/igam.g); \n"
" result.b = pow(icol.b, 1.0f/igam.b); \n"
" return result; \n"
"} \n]]>"
" </source>"
" </implementation>"
" </implementation>"
"</fragment>";
// Register fragments with the manager if needed
if (theRenderer)
{
theRenderer->getFragmentManager();
if (fragmentMgr)
{
// Add fragments if needed
bool fragAdded = fragmentMgr->hasFragment(sFragmentName);
if (!fragAdded)
{
fragAdded = (sFragmentName == fragmentMgr->addShadeFragmentFromBuffer(sFragmentBody, false));
}
// Use the fragment on successful add
if (fragAdded)
{
fFragmentName = sFragmentName;
}
}
}
}
GammaOverride::~GammaOverride()
{
}
MHWRender::DrawAPI GammaOverride::supportedDrawAPIs() const
{
}
MString GammaOverride::fragmentName() const
{
return fFragmentName;
}
//
// Plugin setup
static const MString sRegistrantId("gammaShaderPlugin");
MStatus initializePlugin( MObject obj )
{
const MString UserClassify( "utility/color:drawdb/shader/operation/gammaNode" );
MFnPlugin plugin( obj, PLUGIN_COMPANY, "4.5", "Any");
CHECK_MSTATUS ( plugin.registerNode( "gammaNode", Gamma::id,
Gamma::creator, Gamma::initialize,
MPxNode::kDependNode, &UserClassify ) );
"drawdb/shader/operation/gammaNode",
sRegistrantId,
GammaOverride::creator));
return MS::kSuccess;
}
MStatus uninitializePlugin( MObject obj )
{
MFnPlugin plugin( obj );
CHECK_MSTATUS ( plugin.deregisterNode( Gamma::id ) );
"drawdb/shader/operation/gammaNode",
sRegistrantId));
return MS::kSuccess;
}
// =====================================================================
// Copyright 2018 Autodesk, Inc. All rights reserved.
//
// This computer source code and related instructions and comments are
// the unpublished confidential and proprietary information of Autodesk,
// Inc. and are protected under applicable copyright and trade secret
// law. They may not be disclosed to, copied or used by any third party
// without the prior written consent of Autodesk, Inc.
// =====================================================================