opencv/modules/imgcodecs/src/grfmt_hdr.cpp

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#include "precomp.hpp"
#include "grfmt_hdr.hpp"
#include "rgbe.hpp"

#ifdef HAVE_IMGCODEC_HDR

namespace cv
{

HdrDecoder::HdrDecoder()
{
    m_signature = "#?RGBE";
    m_signature_alt = "#?RADIANCE";
    file = NULL;
    m_type = CV_32FC3;
}

HdrDecoder::~HdrDecoder()
{
}

size_t HdrDecoder::signatureLength() const
{
    return m_signature.size() > m_signature_alt.size() ?
           m_signature.size() : m_signature_alt.size();
}

bool  HdrDecoder::readHeader()
{
    file = fopen(m_filename.c_str(), "rb");
    if(!file) {
        return false;
    }
    RGBE_ReadHeader(file, &m_width, &m_height, NULL);
    if(m_width <= 0 || m_height <= 0) {
        fclose(file);
        file = NULL;
        return false;
    }
    return true;
}

bool HdrDecoder::readData(Mat& _img)
{
    Mat img(m_height, m_width, CV_32FC3);
    if(!file) {
        if(!readHeader()) {
            return false;
        }
    }
    RGBE_ReadPixels_RLE(file, const_cast<float*>(img.ptr<float>()), img.cols, img.rows);
    fclose(file); file = NULL;

    if(_img.depth() == img.depth()) {
        img.convertTo(_img, _img.type());
    } else {
        img.convertTo(_img, _img.type(), 255);
    }
    return true;
}

bool HdrDecoder::checkSignature( const String& signature ) const
{
    if (signature.size() >= m_signature.size() &&
        0 == memcmp(signature.c_str(), m_signature.c_str(), m_signature.size())
    )
        return true;
    if (signature.size() >= m_signature_alt.size() &&
        0 == memcmp(signature.c_str(), m_signature_alt.c_str(), m_signature_alt.size())
    )
        return true;
    return false;
}

ImageDecoder HdrDecoder::newDecoder() const
{
    return makePtr<HdrDecoder>();
}

HdrEncoder::HdrEncoder()
{
    m_description = "Radiance HDR (*.hdr;*.pic)";
}

HdrEncoder::~HdrEncoder()
{
}

bool HdrEncoder::write( const Mat& input_img, const std::vector<int>& params )
{
    Mat img;
    CV_Assert(input_img.channels() == 3 || input_img.channels() == 1);
    if(input_img.channels() == 1) {
         std::vector<Mat> splitted(3, input_img);
         merge(splitted, img);
    } else {
        input_img.copyTo(img);
    }
    if(img.depth() != CV_32F) {
        img.convertTo(img, CV_32FC3, 1/255.0f);
    }
    CV_Assert(params.empty() || params[0] == HDR_NONE || params[0] == HDR_RLE);
    FILE *fout = fopen(m_filename.c_str(), "wb");
    if(!fout) {
        return false;
    }

    RGBE_WriteHeader(fout, img.cols, img.rows, NULL);
    if(params.empty() || params[0] == HDR_RLE) {
        RGBE_WritePixels_RLE(fout, const_cast<float*>(img.ptr<float>()), img.cols, img.rows);
    } else {
        RGBE_WritePixels(fout, const_cast<float*>(img.ptr<float>()), img.cols * img.rows);
    }

    fclose(fout);
    return true;
}

ImageEncoder HdrEncoder::newEncoder() const
{
    return makePtr<HdrEncoder>();
}

bool HdrEncoder::isFormatSupported( int depth ) const {
    return depth != CV_64F;
}

}

#endif // HAVE_IMGCODEC_HDR