lightShader/lightShader.cpp

lightShader/lightShader.cpp
//-
// ==========================================================================
// Copyright 1995,2006,2008 Autodesk, Inc. All rights reserved.
//
// Use of this software is subject to the terms of the Autodesk
// license agreement provided at the time of installation or download,
// or which otherwise accompanies this software in either electronic
// or hard copy form.
// ==========================================================================
//+
#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/MFnLightDataAttribute.h>
#include <maya/MFloatVector.h>
#include <maya/MFnPlugin.h>
// DESCRIPTION:
// Produces dependency graph node lightNode
// This node is an example of a directional light.
// The inputs for this node are direction, color, and some boolean flags to indicate if the light is contributing to
// ambient, diffuse, and specular components. There is also a position input that can receive a connection from a 3d
// manipulator for placement within the scene.
// The output attribute of the LightNode node is a compound attribute called "lightData". To use this shader,
// create a LightNode and modify its inputs to see the different illumination results.
//
class LightNode : public MPxNode
{
public:
LightNode();
~LightNode() override;
MStatus compute( const MPlug&, MDataBlock& ) override;
void postConstructor() override;
static void * creator();
static MStatus initialize();
static MTypeId id;
private
:
// Inputs
static MObject aColor;
static MObject aPosition;
static MObject aInputDirection;
static MObject aInputAmbient;
static MObject aInputDiffuse;
static MObject aInputSpecular;
static MObject aIntensity;
// Outputs
static MObject aLightDirection;
static MObject aLightIntensity;
static MObject aLightAmbient;
static MObject aLightDiffuse;
static MObject aLightSpecular;
static MObject aLightShadowFraction;
static MObject aPreShadowIntensity;
static MObject aLightBlindData;
static MObject aLightData;
};
MTypeId LightNode::id( 0x81010 );
MObject LightNode::aColor;
MObject LightNode::aPosition;
MObject LightNode::aInputDirection;
MObject LightNode::aInputAmbient;
MObject LightNode::aInputDiffuse;
MObject LightNode::aInputSpecular;
MObject LightNode::aIntensity;
MObject LightNode::aLightData;
MObject LightNode::aLightDirection;
MObject LightNode::aLightIntensity;
MObject LightNode::aLightAmbient;
MObject LightNode::aLightDiffuse;
MObject LightNode::aLightSpecular;
MObject LightNode::aLightShadowFraction;
MObject LightNode::aPreShadowIntensity;
MObject LightNode::aLightBlindData;
void LightNode::postConstructor( )
{
setMPSafe(true);
}
//
// DESCRIPTION:
LightNode::LightNode()
{
}
//
// DESCRIPTION:
LightNode::~LightNode()
{
}
//
// DESCRIPTION:
void * LightNode::creator()
{
return new LightNode();
}
//
// DESCRIPTION:
MStatus LightNode::initialize()
{
aColor = nAttr.createColor( "color", "c" );
CHECK_MSTATUS ( nAttr.setKeyable(true) );
CHECK_MSTATUS ( nAttr.setStorable(true) );
CHECK_MSTATUS ( nAttr.setDefault(0.0f, 0.58824f, 0.644f) );
aPosition = nAttr.createPoint( "position", "pos" );
CHECK_MSTATUS ( nAttr.setKeyable(true) );
CHECK_MSTATUS ( nAttr.setStorable(true) );
aInputDirection = nAttr.createPoint( "inputDirection", "id" );
CHECK_MSTATUS ( nAttr.setKeyable(true) );
CHECK_MSTATUS ( nAttr.setStorable(true) );
CHECK_MSTATUS ( nAttr.setDefault(-1.0f, 0.0f, 0.0f) );
aInputAmbient = nAttr.create( "ambientOn", "an", MFnNumericData::kBoolean);
CHECK_MSTATUS ( nAttr.setKeyable(true) );
CHECK_MSTATUS ( nAttr.setStorable(true) );
CHECK_MSTATUS ( nAttr.setHidden(false) );
CHECK_MSTATUS ( nAttr.setDefault(true) );
aInputDiffuse = nAttr.create( "diffuseOn", "dn", MFnNumericData::kBoolean);
CHECK_MSTATUS ( nAttr.setKeyable(true) );
CHECK_MSTATUS ( nAttr.setStorable(true) );
CHECK_MSTATUS ( nAttr.setHidden(false) );
CHECK_MSTATUS ( nAttr.setDefault(true) );
aInputSpecular = nAttr.create( "specularOn", "sn", MFnNumericData::kBoolean);
CHECK_MSTATUS ( nAttr.setKeyable(true) );
CHECK_MSTATUS ( nAttr.setStorable(true) );
CHECK_MSTATUS ( nAttr.setHidden(false) );
CHECK_MSTATUS ( nAttr.setDefault(true) );
aIntensity = nAttr.create( "intensity", "i", MFnNumericData::kFloat);
CHECK_MSTATUS ( nAttr.setKeyable(true) );
CHECK_MSTATUS ( nAttr.setStorable(true) );
CHECK_MSTATUS ( nAttr.setHidden(false) );
CHECK_MSTATUS ( nAttr.setDefault(1.0f) );
// Outputs
aLightDirection = nAttr.createPoint( "lightDirection", "ld" );
CHECK_MSTATUS ( nAttr.setStorable(false) );
CHECK_MSTATUS ( nAttr.setHidden(true) );
CHECK_MSTATUS ( nAttr.setReadable(true) );
CHECK_MSTATUS ( nAttr.setWritable(false) );
CHECK_MSTATUS ( nAttr.setDefault(-1.0f, 0.0f, 0.0f) );
aLightIntensity = nAttr.createColor( "lightIntensity", "li" );
CHECK_MSTATUS ( nAttr.setStorable(false) );
CHECK_MSTATUS ( nAttr.setHidden(true) );
CHECK_MSTATUS ( nAttr.setReadable(true) );
CHECK_MSTATUS ( nAttr.setWritable(false) );
CHECK_MSTATUS ( nAttr.setDefault(1.0f, 0.5f, 0.2f) );
aLightAmbient = nAttr.create( "lightAmbient", "la",
CHECK_MSTATUS ( nAttr.setStorable(false) );
CHECK_MSTATUS ( nAttr.setHidden(true) );
CHECK_MSTATUS ( nAttr.setReadable(true) );
CHECK_MSTATUS ( nAttr.setWritable(false) );
nAttr.setDefault(true);
aLightDiffuse = nAttr.create( "lightDiffuse", "ldf",
CHECK_MSTATUS ( nAttr.setStorable(false) );
CHECK_MSTATUS ( nAttr.setHidden(true) );
CHECK_MSTATUS ( nAttr.setReadable(true) );
CHECK_MSTATUS ( nAttr.setWritable(false) );
CHECK_MSTATUS ( nAttr.setDefault(true) );
aLightSpecular = nAttr.create( "lightSpecular", "ls",
CHECK_MSTATUS ( nAttr.setStorable(false) );
CHECK_MSTATUS ( nAttr.setHidden(true) );
CHECK_MSTATUS ( nAttr.setReadable(true) );
CHECK_MSTATUS ( nAttr.setWritable(false) );
CHECK_MSTATUS ( nAttr.setDefault(true) );
aLightShadowFraction = nAttr.create("lightShadowFraction","lsf",
CHECK_MSTATUS ( nAttr.setStorable(false) );
CHECK_MSTATUS ( nAttr.setHidden(true) );
CHECK_MSTATUS ( nAttr.setReadable(true) );
CHECK_MSTATUS ( nAttr.setWritable(false) );
CHECK_MSTATUS ( nAttr.setDefault(0.0f) );
aPreShadowIntensity = nAttr.create("preShadowIntensity","psi",
CHECK_MSTATUS ( nAttr.setStorable(false) );
CHECK_MSTATUS ( nAttr.setHidden(true) );
CHECK_MSTATUS ( nAttr.setReadable(true) );
CHECK_MSTATUS ( nAttr.setWritable(false) );
CHECK_MSTATUS ( nAttr.setDefault(0.0f) );
aLightBlindData = nAttr.createAddr("lightBlindData","lbld");
CHECK_MSTATUS ( nAttr.setStorable(false) );
CHECK_MSTATUS ( nAttr.setHidden(true) );
CHECK_MSTATUS ( nAttr.setReadable(true) );
CHECK_MSTATUS ( nAttr.setWritable(false) );
aLightData = lAttr.create( "lightData", "ltd",
aLightDirection, aLightIntensity,
aLightAmbient,
aLightDiffuse, aLightSpecular,
aLightShadowFraction,
aPreShadowIntensity, aLightBlindData);
CHECK_MSTATUS ( nAttr.setReadable(true) );
CHECK_MSTATUS ( nAttr.setWritable(false) );
CHECK_MSTATUS ( lAttr.setStorable(false) );
CHECK_MSTATUS ( lAttr.setHidden(true) );
lAttr.setDefault(-1.0f, 0.0f, 0.0f, 1.0f, 0.5f, 0.2f, true, true,
true, 0.0f, 1.0f, NULL);
CHECK_MSTATUS ( addAttribute(aColor) );
CHECK_MSTATUS ( addAttribute(aPosition) );
CHECK_MSTATUS ( addAttribute(aInputDirection) );
CHECK_MSTATUS ( addAttribute(aInputAmbient) );
CHECK_MSTATUS ( addAttribute(aInputDiffuse) );
CHECK_MSTATUS ( addAttribute(aInputSpecular) );
CHECK_MSTATUS ( addAttribute(aIntensity) );
CHECK_MSTATUS ( addAttribute(aLightData) );
CHECK_MSTATUS ( attributeAffects (aLightIntensity, aLightData) );
CHECK_MSTATUS ( attributeAffects (aLightDirection, aLightData) );
CHECK_MSTATUS ( attributeAffects (aLightAmbient, aLightData) );
CHECK_MSTATUS ( attributeAffects (aLightDiffuse, aLightData) );
CHECK_MSTATUS ( attributeAffects (aLightSpecular, aLightData) );
CHECK_MSTATUS ( attributeAffects (aLightShadowFraction, aLightData) );
CHECK_MSTATUS ( attributeAffects (aPreShadowIntensity, aLightData) );
CHECK_MSTATUS ( attributeAffects (aLightBlindData, aLightData) );
CHECK_MSTATUS ( attributeAffects (aLightData, aLightData) );
CHECK_MSTATUS ( attributeAffects (aColor, aLightData) );
CHECK_MSTATUS ( attributeAffects (aPosition, aLightData) );
CHECK_MSTATUS ( attributeAffects (aInputDirection, aLightData) );
CHECK_MSTATUS ( attributeAffects (aInputAmbient, aLightData) );
CHECK_MSTATUS ( attributeAffects (aInputDiffuse, aLightData) );
CHECK_MSTATUS ( attributeAffects (aInputSpecular, aLightData) );
CHECK_MSTATUS ( attributeAffects (aIntensity, aLightData) );
return MS::kSuccess;
}
//
// DESCRIPTION:
MStatus LightNode::compute(
const MPlug& plug,
MDataBlock& block )
{
if ((plug != aLightData) && (plug.parent() != aLightData))
return MS::kUnknownParameter;
MFloatVector resultColor;
// Real user input
MFloatVector& LColor = block.inputValue( aColor ).asFloatVector();
// MFloatVector& Position = block.inputValue( aPosition ).asFloatVector();
float LIntensity = block.inputValue( aIntensity ).asFloat();
// Components to build LightData
MFloatVector& LDirection = block.inputValue( aInputDirection ).asFloatVector();
bool LAmbient = block.inputValue( aInputAmbient ).asBool();
bool LDiffuse = block.inputValue( aInputDiffuse ).asBool();
bool LSpecular = block.inputValue( aInputSpecular ).asBool();
// float LShadowF = block.inputValue( aLightShadowFraction ).asFloat();
resultColor = LColor * LIntensity;
// set ouput color attribute
MDataHandle outLightDataHandle = block.outputValue( aLightData );
MFloatVector& outIntensity = outLightDataHandle.child(aLightIntensity).asFloatVector();
outIntensity = resultColor;
MFloatVector& outDirection = outLightDataHandle.child(aLightDirection).asFloatVector();
outDirection = LDirection;
bool& outAmbient = outLightDataHandle.child(aLightAmbient).asBool();
outAmbient = LAmbient;
bool& outDiffuse = outLightDataHandle.child(aLightDiffuse).asBool();
outDiffuse = LDiffuse;
bool& outSpecular = outLightDataHandle.child(aLightSpecular).asBool();
outSpecular = LSpecular;
float& outSFraction = outLightDataHandle.child(aLightShadowFraction).asFloat();
outSFraction = 1.0f;
float& outPSIntensity = outLightDataHandle.child(aPreShadowIntensity).asFloat();
outPSIntensity = (resultColor[0] + resultColor[1] + resultColor[2]) / 3.0f;
void*& outBlindData = outLightDataHandle.child(aLightBlindData).asAddr();
outBlindData = NULL;
outLightDataHandle.setClean();
return MS::kSuccess;
}
//
// DESCRIPTION:
MStatus initializePlugin( MObject obj )
{
const MString UserClassify( "light" );
MFnPlugin plugin( obj, PLUGIN_COMPANY, "4.5", "Any");
CHECK_MSTATUS ( plugin.registerNode( "directLight", LightNode::id,
LightNode::creator, LightNode::initialize,
MPxNode::kDependNode, &UserClassify ) );
return MS::kSuccess;
}
//
// DESCRIPTION:
MStatus uninitializePlugin( MObject obj )
{
MFnPlugin plugin( obj );
CHECK_MSTATUS ( plugin.deregisterNode( LightNode::id ) );
return MS::kSuccess;
}