polyPrimitiveCmd.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.
// ==========================================================================
//+

//
//   Description:
//      This plugin creates the following types of polygon primitives
//      at the origin:
//          1) Icosahedron
//          2) Dodecahedron
//          3) Tetrahedron
//          4) Cube
//          5) Octahedron
//          6) Plane
//          7) Cylinder
//          8) Truncated Icosahedron (soccer ball)
//
//   Usage:
//      polyPrimitive <primitive_number> <options...>
//
//
//   Options: ******NOT IMPLEMENTED YET******
//       Plane:
//       Cube:
//          X Sections: number of horizontal sections
//          Y Sections: number of vertical sections
//          Size: width and height of the square
//
//       Cylinder:
//          Radius: radius of the cylinder
//          Sides: number of polygons around the cylinder
//          Height: height of the cylinder
//          Sections: number of vertical sections
//
//
//   Related files:
//       polyPrimitiveCmd.mel
//
//
//   Limitations:
//       Newly created primitives are always placed at origin
//
//   Note:
//       Original implementation for OpenAlias in the 
//       jptPolyPrimitives plugin
//

#include <maya/MIOStream.h>
#include <math.h>

#include <maya/MPxCommand.h>
#include <maya/MString.h>
#include <maya/MArgList.h>
#include <maya/MGlobal.h>
#include <maya/MPoint.h>
#include <maya/MIntArray.h>
#include <maya/MDoubleArray.h>
#include <maya/MFloatPoint.h>
#include <maya/MFloatPointArray.h>
#include <maya/MDagPath.h>
#include <maya/MFnPlugin.h>
#include <maya/MFnMesh.h>

#ifndef M_PI
#define M_PI            3.14159265358979323846  /* pi */
#endif

// Macro for error checking
#define checkErr(stat,msg)                                      \
    if ( MS::kSuccess != stat ) {                       \
        displayError(msg);                                      \
                return stat;                                            \
        }

// Primitive face connect data //

static int tetra_gons[12] = {
    1,2,3,
    2,4,3,
    1,3,4,
    1,4,2
};

static int cube_gons[24] = {
    1,4,3,2,
    8,5,6,7,
    3,7,6,2,
    1,5,8,4,
    3,4,8,7,
    2,6,5,1
};

static int octa_gons[24] = {
    2,3,1,
    3,4,1,
    4,5,1,
    1,5,2,
    6,3,2,
    6,4,3,
    6,5,4,
    6,2,5
};

static int dodeca_gons[60] = {
        1,5,3,4,2,
    8,6,7,1,2,
    1,7,17,20,5,
    6,11,12,17,7,
    17,12,9,16,20,
    5,20,16,14,3,
    3,14,15,19,4,
    2,4,19,18,8,
    8,18,13,11,6,
    9,12,11,13,10,
    10,13,18,19,15,
    10,15,14,16,9
};

static int icosa_gons[60] = {
    2,10,1,
    1,11,2,
    1,8,7,
    1,7,11,
    1,10,8,
    5,2,6,
    10,2,5,
    2,11,6,
    4,9,3,
    3,12,4,
    5,6,3,
    3,9,5,
    6,12,3,
    7,8,4,
    4,12,7,
    4,8,9,
    5,9,10,
    6,11,12,
    7,12,11,
    8,10,9
};

static double trunc_icosa_vtxArray[][3] = {
        { 0.00000000, 0.00000000, 1.00000000 },
        { 0.39524780, 0.00000000, 0.91857395 },
        { -0.22278550, 0.32647698, 0.91857395 },
        { -0.14409696, -0.36804505, 0.91857395 },
        { 0.56771009, 0.32647698, 0.75572282 },
        { 0.49542801, -0.36804505, 0.78682468 },
        { -0.58966797, 0.28490989, 0.75572282 },
        { -0.05032380, 0.65295495, 0.75572282 },
        { 0.16209500, -0.59550930, 0.78682468 },
        { -0.51097943, -0.40961312, 0.75572282 },
        { 0.84035260, 0.28490989, 0.46112243 },
        { 0.34492458, 0.65295495, 0.67429775 },
        { 0.76807052, -0.40961312, 0.49222429 },
        { -0.64395201, 0.58569638, 0.49222429 },
        { -0.73376494, -0.08313546, 0.67429775 },
        { -0.31061900, 0.81316063, 0.49222429 },
        { 0.10140353, -0.86454163, 0.49222429 },
        { -0.57166993, -0.67864447, 0.46112243 },
        { 0.78606856, 0.58569638, 0.19762390 },
        { 0.94053281, -0.08313546, 0.32937316 },
        { 0.47987757, 0.81316063, 0.32937316 },
        { 0.70737904, -0.67864447, 0.19762390 },
        { -0.84233203, 0.51843879, 0.14730069 },
        { -0.93214496, -0.15039373, 0.32937316 },
        { -0.17566601, 0.97336729, 0.14730069 },
        { 0.37404603, -0.90610970, 0.19762390 },
        { -0.26547894, -0.90610970, 0.32937316 },
        { -0.83196474, -0.51843879, 0.19762390 },
        { 0.83196474, 0.51843879, -0.19762390 },
        { 0.98642507, -0.15039373, -0.06587463 },
        { 0.21958178, 0.97336729, 0.06587463 },
        { 0.84233203, -0.51843879, -0.14730069 },
        { -0.70737904, 0.67864447, -0.19762390 },
        { -0.98642507, 0.15039373, 0.06587463 },
        { -0.37404603, 0.90610970, -0.19762390 },
        { 0.17566601, -0.97336729, -0.14730069 },
        { -0.21958178, -0.97336729, -0.06587463 },
        { -0.78606856, -0.58569638, -0.19762390 },
        { 0.57166993, 0.67864447, -0.46112243 },
        { 0.93214496, 0.15039373, -0.32937316 },
        { 0.26547894, 0.90610970, -0.32937316 },
        { 0.64395201, -0.58569638, -0.49222429 },
        { -0.76807052, 0.40961312, -0.49222429 },
        { -0.94053281, 0.08313546, -0.32937316 },
        { -0.10140353, 0.86454163, -0.49222429 },
        { 0.31061900, -0.81316063, -0.49222429 },
        { -0.47987757, -0.81316063, -0.32937316 },
        { -0.84035260, -0.28490989, -0.46112243 },
        { 0.51097943, 0.40961312, -0.75572282 },
        { 0.73376494, 0.08313546, -0.67429775 },
        { 0.58966797, -0.28490989, -0.75572282 },
        { -0.49542801, 0.36804505, -0.78682468 },
        { -0.16209500, 0.59550930, -0.78682468 },
        { 0.05032380, -0.65295495, -0.75572282 },
        { -0.34492458, -0.65295495, -0.67429775 },
        { -0.56771009, -0.32647698, -0.75572282 },
        { 0.14409696, 0.36804505, -0.91857395 },
        { 0.22278550, -0.32647698, -0.91857395 },
        { -0.39524780, 0.00000000, -0.91857395 },
        { 0.00000000, 0.00000000, -1.00000000 }
};

static int trunc_icosa_faceCountArray[] =
{
        6, 6, 5, 6,     5,
        6, 5, 6, 6,     6,
        5, 6, 5, 6,     5,
        6, 6, 6, 5,     6,
        5, 5, 6, 6, 6,
        5, 6, 5, 6,     6,
        5, 6 
};

static int trunc_icosa_faceConnectArray[] = 
{
        0,1,4,11,7,2,
        0,2,6,14,9,3,
        3,8,5,1,0,
        5,12,19,10,4,1,
        7,15,13,6,2,
        9,17,26,16,8,3,
        4,10,18,20,11,
        5,8,16,25,21,12,
        6,13,22,33,23,14,
        7,11,20,30,24,15,
        9,14,23,27,17,
        19,29,39,28,18,10,
        21,31,29,19,12,
        13,15,24,34,32,22,
        26,36,35,25,16,
        27,37,46,36,26,17,
        28,38,40,30,20,18,
        21,25,35,45,41,31,
        22,32,42,43,33,
        33,43,47,37,27,23,
        24,30,40,44,34,
        39,49,48,38,28,
        29,31,41,50,49,39,
        32,34,44,52,51,42,
        35,36,46,54,53,45,
        47,55,54,46,37,
        48,56,52,44,40,38,
        41,45,53,57,50,
        51,58,55,47,43,42,
        48,49,50,57,59,56,
        51,52,56,59,58,
        53,54,55,58,59,57
};


// Class definition //

class polyPrimitive : public MPxCommand
{
public:
                                        polyPrimitive() {};
        virtual                 ~polyPrimitive(); 

        MStatus                 doIt( const MArgList& args );
        MStatus                 redoIt();
        MStatus                 undoIt();

        inline bool             isUndoable() const { return true; };
        static void*    creator();

public:
        inline void             FILL( double x, double y, double z );
        void                    create_icosa_points();
        void                    create_dodecahedron();
        void                    create_tetrahedron();
        void                    create_cube();
        void                    create_octahedron();
        void                    create_truncated_icosahedron();
        void                    createPlane();
        void                    createCylinder();

        // What sort of shape we're making
        int shapeFlag;

        // Misc. primitive data
        //
        int num_verts;                  // Number of vertices of polygon
        int num_faces;                  // Number of faces on polygon
        int num_edges;                  // Number of edges on polygon
        int edges_per_face;             // Number of edges (or verticies) per face
        int num_face_connects;  // Number of elements in face connect array
        int *p_gons;                    // Pointer to static array of face connects
        MFloatPointArray iarr;
        MFloatPointArray pa;
        MIntArray faceCounts;
        MIntArray faceConnects;

        MObject newTransform;
        MDGModifier dgModifier;
};



// Class implementation //

polyPrimitive::~polyPrimitive() {}

void* polyPrimitive::creator()
{
        return new polyPrimitive();
}

void polyPrimitive::FILL( double x, double y, double z )
{
        MFloatPoint pnt( (float)x, (float)y, (float)z );
        iarr.append( pnt );
}


// Primitive creation methods //

void polyPrimitive::create_icosa_points()
{
    double a = sqrt( ( 1.0 - sqrt( .2 ) ) / 2.0 );
    double b = sqrt( ( 1.0 + sqrt( .2 ) ) / 2.0 );
    double z = 0.0;

    FILL(b,a,z); FILL(b,-a,z); FILL(-b,-a,z); FILL(-b,a,z);
    FILL(0,-b,-a); FILL(0,-b,a); FILL(0,b,a); FILL(0,b,-a);
    FILL(-a,0,-b); FILL(a,0,-b); FILL(a,0,b); FILL(-a,0,b);
}

void polyPrimitive::create_dodecahedron()
{
    // Generated from icosahedron points.
    create_icosa_points();
    MFloatPoint my_info[12];
        int idx;
    for( idx = 0; idx < 12; idx++ ) {
        my_info[idx].x=iarr[idx].x;
        my_info[idx].y=iarr[idx].y;
        my_info[idx].z=iarr[idx].z;
    }

        iarr.clear();

    // now generate the dodecahedron points:
    double x1,y1,z1,x2,y2,z2,x3,y3,z3;
    double xf, yf, zf;
    double len;

    for( idx = 0; idx < 20; idx++ ) {
        x1 = my_info[ icosa_gons[3*idx]-1 ].x;
        y1 = my_info[ icosa_gons[3*idx]-1 ].y;
        z1 = my_info[ icosa_gons[3*idx]-1 ].z;

        x2 = my_info[ icosa_gons[3*idx + 1]-1 ].x;
        y2 = my_info[ icosa_gons[3*idx + 1]-1 ].y;
        z2 = my_info[ icosa_gons[3*idx + 1]-1 ].z;

        x3 = my_info[ icosa_gons[3*idx + 2]-1 ].x;
        y3 = my_info[ icosa_gons[3*idx + 2]-1 ].y;
        z3 = my_info[ icosa_gons[3*idx + 2]-1 ].z;

        // the docecahedron vertex is the average of these points.
        xf = (x1+x2+x3)/3.0;
        yf = (y1+y2+y3)/3.0;
        zf = (z1+z2+z3)/3.0;

        // One more transformation: scale this point so it lies on the
        // unit sphere...
        len = sqrt( xf*xf + yf*yf + zf*zf );
        xf /= len; yf /= len; zf /= len;

        FILL( xf, yf, zf );
    }
}

void polyPrimitive::create_tetrahedron( )
{
    // First, create the points:
    double sq = sqrt(3.0);
    FILL(0.0,0.0,1.0); FILL(sq/2.0,0.0,-.5);
    FILL(-sq/4.0,.75,-.5); FILL(-sq/4.0,-.75,-.5);
}

void polyPrimitive::create_cube( )
{
    // First, create the points:
    double a = sqrt( 1.0/3.0 );

    FILL(a,a,a); FILL(a,-a,a); FILL(-a,-a,a); FILL(-a,a,a);
    FILL(a,a,-a); FILL(a,-a,-a); FILL(-a,-a,-a); FILL(-a,a,-a);
}

void polyPrimitive::create_octahedron( )
{
    FILL(0.0,0.0,1.0); FILL(1.0,0.0,0.0);
    FILL(0.0,1.0,0.0); FILL(-1.0,0.0,0.0);
    FILL(0.0,-1.0,0.0); FILL(0.0,0.0,-1.0);
}

void polyPrimitive::create_truncated_icosahedron( )
{
        num_verts = 60;
        int idx;
        for ( idx = 0; idx < num_verts; idx++ )
        {
                FILL(trunc_icosa_vtxArray[idx][0], 
                         trunc_icosa_vtxArray[idx][1],
                         trunc_icosa_vtxArray[idx][2]);
        }

        num_faces = 32;
        for ( idx = 0; idx < num_faces; idx++ )
        {
                faceCounts.append( trunc_icosa_faceCountArray[idx] );
        }

        for ( idx = 0; idx < 180; idx++ )
        {
                faceConnects.append( trunc_icosa_faceConnectArray[idx] );
        }
}

void polyPrimitive::createPlane( )
{
        int w = 2;
        int h = 2;
        double size = 2.0;
        double hSize, wSize;

        // Initialize class data
        //
        num_verts                = 0;
        num_faces                = 0;
        edges_per_face   = 4;

        if ( w < 1 ) w = 1;
        if ( h < 1 ) h = 1;
        if ( size < 0.0001 ) size = 1.0;

        wSize = size / w;
        hSize = size / h;

        // create vertices
        //
        double x, z;
        for ( z = -size/2.0; z <= size / 2.0; z += hSize )
        {
                for ( x = -size/2.0; x <= size/2.0; x += wSize )
                {
                        FILL( x, 0, z );
                        num_verts++;
                }
        }

        // create polys
        //
        int v0, v1, v2, v3;
        for ( int i = 0; i < h; i++ )
        {
                for ( int j = 0; j < w; j++ )
                {
                        v0 = j + (w+1) * i;
                        v1 = j + 1 + (w+1) * i;
                        v2 = j + 1 + (w+1) * (i+1);
                        v3 = j + (w+1) * (i+1);

                        faceConnects.append( v0 );
                        faceConnects.append( v3 );
                        faceConnects.append( v2 );
                        faceConnects.append( v1 );
                        num_faces++;
                        faceCounts.append( edges_per_face );
                }
        }

        num_face_connects = num_faces * edges_per_face;
        num_edges = num_face_connects/2;
}

void polyPrimitive::createCylinder()
{
        double r                = 1.0;
        double height   = 2.0;
        int sides               = 8;
        int sections    = 2;

        // Initialize class data
        //
        num_verts                = 0;
        num_faces                = 0;
        edges_per_face   = 0;


        if ( sides < 3 ) sides = 3;
        if ( sections < 1 ) sections = 1;
        if ( height <= 0 ) height = 1.0;
        if ( r <= 0 ) r = 1.0;

        // create verts
        //
        double angle, deg = 360.0 / (double) sides;
        double hSize = height / (double) sections;
        double x, z, y = height / 2.0;
        int i,j;

        for ( i = 0; i <= sections; i++ )
        {
                for ( j = sides - 1; j >= 0; j-- )
                {
                        angle = deg * j / 180.0 * M_PI;
                        x = cos( angle );
                        z = sin( angle );
                        FILL( x, y, z );
                        num_verts++;
                }       // for j
                
                y -= hSize;
        }       // for i
        

        // create polys
        //
        for ( i = 0; i < sides; i++ )
        {
                faceConnects.append( i );
                edges_per_face++;
        }
        num_faces++;
        faceCounts.append( edges_per_face );
        edges_per_face = 0;
                
        for ( i = sides-1; i >= 0; i-- )
        {
                faceConnects.append( i + sides * sections );
                edges_per_face++;
        }
        num_faces++;
        faceCounts.append( edges_per_face );
        edges_per_face = 0;

        int v0, v1, v2, v3;
        for ( i = 0; i < sections; i++ )
        {
                for ( j = 0; j < sides; j++ )
                {
                        if ( j == 0 )   // use last vtx on this section
                        {
                                v0 = sides - 1 + sides * i;
                                v3 = sides - 1 + sides * (i+1);
                        }
                        else            // use prev vtx
                        {
                                v0 = j - 1 + sides * i;
                                v3 = j - 1 + sides * (i+1);
                        }
                        v1 = j + sides * i;
                        v2 = j + sides * (i+1);
                        
                        faceConnects.append( v0 );
                        faceConnects.append( v3 );
                        faceConnects.append( v2 );
                        faceConnects.append( v1 );
                        num_faces++;
                        faceCounts.append( 4 );
                } // for j
        }       // for i

        num_face_connects = faceConnects.length();
        num_edges = num_face_connects/2;
}


MStatus polyPrimitive::doIt( const MArgList& args )
{
        // Command line argument specifies type of primitive to create
        //
        shapeFlag = 1;
        if ( args.length() > 0 )
                shapeFlag = args.asInt(0);

        return redoIt();
}

MStatus polyPrimitive::redoIt()
{               
        MStatus stat;

        // create a poly function set
        //
        MFnMesh fnPoly;

        iarr.clear();
        faceCounts.clear();
        faceConnects.clear();

        // Decide which type of primitive to create
        //
        switch( shapeFlag ) {
                case 1:
                default:
                        create_icosa_points();
                        num_verts                = 12;
                        num_faces                = 20;
                        edges_per_face   = 3;
                        p_gons = icosa_gons;
                        break;
                case 2:
                        create_dodecahedron();
                        num_verts                = 20;
                        num_faces                = 12;
                        edges_per_face   = 5;
                        p_gons = dodeca_gons;
                        break;
                case 3:
                        create_tetrahedron();
                        num_verts                = 4;
                        num_faces                = 4;
                        edges_per_face   = 3;
                        p_gons = tetra_gons;
                        break;
                case 4:
                        create_cube();
                        num_verts                = 8;
                        num_faces                = 6;
                        edges_per_face   = 4;
                        p_gons = cube_gons;
                        break;
                case 5:
                        create_octahedron();
                        num_verts                = 6;
                        num_faces                = 8;
                        edges_per_face   = 3;
                        p_gons = octa_gons;
                        break;
                case 6:
                        createPlane();
                        p_gons = NULL;
                        break;
                case 7:
                        createCylinder();
                        p_gons = NULL;
                        break;
                case 8:
                        create_truncated_icosahedron();
                        p_gons = NULL;
                        break;
        }
        
        // Construct the point array
        //
        pa.clear();
        int i;
        for ( i=0; i<num_verts; i++ )
                pa.append( iarr[i] );

        // If we are using polygon data then set up the face connect array
        // here. Otherwise, the create function will do it.
        //
        if ( NULL != p_gons ) {
                num_face_connects = num_faces * edges_per_face;
                num_edges = num_face_connects/2;

                for ( i=0; i<num_faces; i++ )
                        faceCounts.append( edges_per_face );

                for ( i=0; i<(num_faces*edges_per_face); i++ )
                        faceConnects.append( p_gons[i]-1 );
        }

        // Call the poly creation method to create the polygon
        newTransform = fnPoly.create( num_verts, num_faces, pa, 
                faceCounts, faceConnects, MObject::kNullObj, &stat );
        checkErr( stat, "Could not create MFnMesh" );

        // Primitive is created so tell shape it has changed
        //
        fnPoly.updateSurface();

        dgModifier.renameNode( newTransform, "pPrimitive1" );
        dgModifier.doIt();

        //
        // Put the polygon into a shading group
        MString cmd ("sets -e -fe initialShadingGroup ");
        cmd += fnPoly.name();
        dgModifier.commandToExecute( cmd );

        MFnDagNode fnDagNode( newTransform, &stat );
        if ( MS::kSuccess == stat )
        {
                cmd = "select ";
                cmd += fnDagNode.name();
                dgModifier.commandToExecute( cmd );
        }

        dgModifier.doIt();

        return MS::kSuccess;
}

MStatus polyPrimitive::undoIt()
{
        MStatus status;
        MDGModifier dgModifier;

        MFnDagNode dagNode( newTransform, &status );
        checkErr( status, "Could not get dagNode for transform" );

        MObject mesh = dagNode.child( 0, &status );
        checkErr( status, "Could not get dagNode's child" );

        MFnDependencyNode meshNode( mesh );
        status = dgModifier.deleteNode( mesh );
        checkErr( status, "Could not delete mesh" );    

        dgModifier.deleteNode( newTransform );
        checkErr( status, "Could not delete transform" );

        return dgModifier.doIt();
}

MStatus initializePlugin( MObject obj )
{
        MStatus   status;
        MFnPlugin plugin( obj, PLUGIN_COMPANY, "3.0", "Any");

        status = plugin.registerCommand( "polyPrimitiveTest", polyPrimitive::creator );
        if (!status) {
                status.perror("registerCommand");
                return status;
        }
        
        status = plugin.registerUI("polyPrimitiveCreateUI", "polyPrimitiveDeleteUI");
        if (!status) {
                status.perror("registerUI");
                return status;
        }

        return status;
}

MStatus uninitializePlugin( MObject obj)
{
        MStatus   status;
        MFnPlugin plugin( obj );

        status = plugin.deregisterCommand( "polyPrimitiveTest" );
        if (!status) {
                status.perror("deregisterCommand");
                return status;
        }

        return status;
}

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