iffreader.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 <maya/MString.h>
#include <maya/MStatus.h>
#include "iffreader.h"

IFFimageReader::IFFimageReader ()
{
    fImage = NULL;
    fBuffer = NULL;
    fZBuffer = NULL;
}

IFFimageReader::~IFFimageReader ()
{
    close ();
}

MStatus IFFimageReader::open (MString filename)
{
    close ();

   fImage = ILopen (filename.asChar (), "rb");

    if (NULL == fImage)
        return MS::kFailure;

    // Read top-to-bottom, not bottom-to-top
    ILctrl (fImage, ILF_Updown, 1);
    // Convert all data to RGBA, even if there's no alpha channel
    ILctrl (fImage, ILF_Pack, 0);
    // If the data is 16 bits, read in the full 16 bits. Otherwise,
    // truncate to 8 bits. Default behaviour is to truncate 16 bit
    // data to 8 bits.
    if (ILgetbpp (fImage) == 2)
        ILctrl (fImage, ILF_Full, 1);
    else
        ILctrl (fImage, ILF_Full, 0);
    // Generate a zero alpha mask if there's no alpha channel
    ILctrl (fImage, ILF_NoMask, 0);

    return MS::kSuccess;
}

MStatus IFFimageReader::close ()
{
    if (NULL == fImage)
        return MS::kFailure;

    if (ILclose (fImage))
    {
        fImage = NULL;
        return MS::kFailure;
    }

    fImage = NULL;

    if (NULL != fBuffer)
    {
        delete [] fBuffer;
        fBuffer = NULL;
    }
    if (NULL != fZBuffer)
    {
        delete [] fZBuffer;
        fZBuffer = NULL;
    }

    return MS::kSuccess;
}

MStatus IFFimageReader::getSize (int &x, int &y)
{
    if (NULL == fImage)
        return MS::kFailure;

    if (ILgetsize (fImage, &x, &y))
        return MS::kFailure;

    return MS::kSuccess;
}

int IFFimageReader::getBytesPerChannel ()
{
    return ILgetbpp (fImage);
}

bool IFFimageReader::isRGB ()
{
    if (NULL == fImage)
        return false;
    int type = ILgettype (fImage);
    if (type == -1)
        return false;
    return (type&ILH_RGB) ? true : false;
}

bool IFFimageReader::isGrayscale ()
{
    if (NULL == fImage)
        return false;
    int type = ILgettype (fImage);
    if (type == -1)
        return false;
    return (type&ILH_Black) ? true : false;
}

bool IFFimageReader::hasAlpha ()
{
    if (NULL == fImage)
        return false;
    int type = ILgettype (fImage);
    if (type == -1)
        return false;
    return (type&ILH_Alpha) ? true : false;
}

bool IFFimageReader::hasDepthMap ()
{
    if (NULL == fImage)
        return false;
    int type = ILgettype (fImage);
    if (type == -1)
        return false;
    return (type&ILH_Zbuffer) ? true : false;
}

MStatus IFFimageReader::readImage ()
{
    if (NULL == fImage)
        return MS::kFailure;

    if (NULL != fBuffer || NULL != fZBuffer)
        return MS::kFailure;

    int width,height;
    ILgetsize (fImage, &width, &height);

    int bpp; // bytes per pixel, not bits per pixel
    bpp = ILgetbpp (fImage);

    int type;
    type = ILgettype (fImage);

    if ((type & ILH_RGB) || (type & ILH_Black))
        fBuffer = new byte [width * height * bpp * 4];

    if (type & ILH_Zbuffer)
        fZBuffer = new float [width * height];

    if (ILload (fImage, fBuffer, fZBuffer))
        return MS::kFailure;

    return MS::kSuccess;
}

MStatus IFFimageReader::getPixel (int x, int y, int *r, int *g, int *b,
                                  int *a)
{
    if (NULL == fBuffer)
        return MS::kFailure;
    int width,height;
    ILgetsize (fImage, &width, &height);
    if (x >= width || y >= height || x < 0 || y < 0)
        return MS::kFailure;
    if (ILgetbpp (fImage) == 2) {
        int *ptr = (int *)&fBuffer [(y * width + x) * 4];
        // On IRIX pixels are stored as ABGR and on NT as BGRA
#if     defined(_WIN32) || defined(LINUX)
        if (NULL != r)
            *r = ptr [2];
        if (NULL != g)
            *g = ptr [1];
        if (NULL != b)
            *b = ptr [0];
        if (NULL != a)
            *a = ptr [3];
#else
        if (NULL != r)
            *r = ptr [3];
        if (NULL != g)
            *g = ptr [2];
        if (NULL != b)
            *b = ptr [1];
        if (NULL != a)
            *a = ptr [0];
#endif
    } else {
        byte *ptr = &fBuffer [(y * width + x) * 4];
#if     defined(_WIN32) || defined(LINUX)
        if (NULL != r)
            *r = ptr [2];
        if (NULL != g)
            *g = ptr [1];
        if (NULL != b)
            *b = ptr [0];
        if (NULL != a)
            *a = ptr [3];
#else
        if (NULL != r)
            *r = ptr [3];
        if (NULL != g)
            *g = ptr [2];
        if (NULL != b)
            *b = ptr [1];
        if (NULL != a)
            *a = ptr [0];
#endif
    }
    return MS::kSuccess;
}

MStatus IFFimageReader::getDepth (int x, int y, float *d)
{
    if (NULL == fZBuffer || NULL == d)
        return MS::kFailure;
    int width,height;
    ILgetsize (fImage, &width, &height);
    if (x >= width || y >= height || x < 0 || y < 0)
        return MS::kFailure;
    float depth = fZBuffer [y * width + x];
    if (depth == 0.)
        *d = 0.;
    else
        *d = -1.0f/depth;
    return MS::kSuccess;
}

MString IFFimageReader::errorString ()
{
    return FLstrerror (FLerror ());
}

const byte *IFFimageReader::getPixelMap () const
{
    return fBuffer;
}

const float *IFFimageReader::getDepthMap () const
{
    return fZBuffer;
}