mirror of https://github.com/JakubMelka/PDF4QT.git
544 lines
22 KiB
C++
544 lines
22 KiB
C++
// Copyright (C) 2019 Jakub Melka
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//
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// This file is part of PdfForQt.
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//
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// PdfForQt is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// PdfForQt is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with PDFForQt. If not, see <https://www.gnu.org/licenses/>.
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#ifndef PDFCOLORSPACES_H
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#define PDFCOLORSPACES_H
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#include "pdfflatarray.h"
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#include "pdffunction.h"
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#include <QColor>
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#include <QImage>
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#include <QSharedPointer>
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namespace pdf
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{
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class PDFArray;
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class PDFObject;
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class PDFStream;
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class PDFPattern;
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class PDFDocument;
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class PDFDictionary;
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class PDFAbstractColorSpace;
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using PDFColorComponent = float;
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using PDFColor = PDFFlatArray<PDFColorComponent, 4>;
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using PDFColorSpacePointer = QSharedPointer<PDFAbstractColorSpace>;
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static constexpr const int COLOR_SPACE_MAX_LEVEL_OF_RECURSION = 12;
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static constexpr const char* COLOR_SPACE_DICTIONARY = "ColorSpace";
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static constexpr const char* COLOR_SPACE_NAME_DEVICE_GRAY = "DeviceGray";
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static constexpr const char* COLOR_SPACE_NAME_DEVICE_RGB = "DeviceRGB";
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static constexpr const char* COLOR_SPACE_NAME_DEVICE_CMYK = "DeviceCMYK";
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static constexpr const char* COLOR_SPACE_NAME_ABBREVIATION_DEVICE_GRAY = "G";
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static constexpr const char* COLOR_SPACE_NAME_ABBREVIATION_DEVICE_RGB = "RGB";
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static constexpr const char* COLOR_SPACE_NAME_ABBREVIATION_DEVICE_CMYK = "CMYK";
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static constexpr const char* COLOR_SPACE_NAME_DEFAULT_GRAY = "DefaultGray";
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static constexpr const char* COLOR_SPACE_NAME_DEFAULT_RGB = "DefaultRGB";
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static constexpr const char* COLOR_SPACE_NAME_DEFAULT_CMYK = "DefaultCMYK";
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static constexpr const char* COLOR_SPACE_NAME_CAL_GRAY = "CalGray";
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static constexpr const char* COLOR_SPACE_NAME_CAL_RGB = "CalRGB";
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static constexpr const char* COLOR_SPACE_NAME_LAB = "Lab";
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static constexpr const char* COLOR_SPACE_NAME_ICCBASED = "ICCBased";
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static constexpr const char* COLOR_SPACE_NAME_INDEXED = "Indexed";
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static constexpr const char* COLOR_SPACE_NAME_SEPARATION = "Separation";
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static constexpr const char* COLOR_SPACE_NAME_PATTERN = "Pattern";
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static constexpr const char* CAL_WHITE_POINT = "WhitePoint";
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static constexpr const char* CAL_BLACK_POINT = "BlackPoint";
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static constexpr const char* CAL_GAMMA = "Gamma";
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static constexpr const char* CAL_MATRIX = "Matrix";
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static constexpr const char* CAL_RANGE = "Range";
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static constexpr const char* ICCBASED_ALTERNATE = "Alternate";
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static constexpr const char* ICCBASED_N = "N";
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static constexpr const char* ICCBASED_RANGE = "Range";
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/// Image raw data - containing data for image. Image data are row-ordered, and by components.
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/// So the row can be for 3-components RGB like 'RGBRGBRGB...RGB', where size of row in bytes is 3 * width of image.
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class PDFImageData
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{
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public:
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enum class MaskingType
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{
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None,
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ColorKeyMasking, ///< Masking by color key
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Image, ///< Masking by image with alpha mask
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ImageMask, ///< Masking by 1-bit image (see "ImageMask" entry in image's dictionary), current color from the graphic state is used to paint an image
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};
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explicit PDFImageData() :
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m_components(0),
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m_bitsPerComponent(0),
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m_width(0),
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m_height(0),
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m_stride(0),
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m_maskingType(MaskingType::None)
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{
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}
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explicit inline PDFImageData(unsigned int components,
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unsigned int bitsPerComponent,
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unsigned int width,
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unsigned int height,
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unsigned int stride,
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MaskingType maskingType,
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QByteArray data,
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std::vector<PDFInteger>&& colorKeyMask,
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std::vector<PDFReal>&& decode) :
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m_components(components),
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m_bitsPerComponent(bitsPerComponent),
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m_width(width),
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m_height(height),
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m_stride(stride),
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m_maskingType(maskingType),
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m_data(qMove(data)),
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m_colorKeyMask(qMove(colorKeyMask)),
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m_decode(qMove(decode))
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{
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}
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unsigned int getComponents() const { return m_components; }
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unsigned int getBitsPerComponent() const { return m_bitsPerComponent; }
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unsigned int getWidth() const { return m_width; }
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unsigned int getHeight() const { return m_height; }
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unsigned int getStride() const { return m_stride; }
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MaskingType getMaskingType() const { return m_maskingType; }
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const QByteArray& getData() const { return m_data; }
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const std::vector<PDFInteger>& getColorKeyMask() const { return m_colorKeyMask; }
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const std::vector<PDFReal>& getDecode() const { return m_decode; }
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/// Returns number of color channels
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unsigned int getColorChannels() const { return m_components; }
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// TODO: Implement alpha channel functionality
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/// Returns number of alpha transparency channels (0 or 1)
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unsigned int getAlphaChannels() const { return 0; }
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bool isValid() const { return m_width && m_height && m_components && m_bitsPerComponent; }
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const unsigned char* getRow(unsigned int rowIndex) const;
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private:
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unsigned int m_components;
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unsigned int m_bitsPerComponent;
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unsigned int m_width;
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unsigned int m_height;
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unsigned int m_stride;
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MaskingType m_maskingType;
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QByteArray m_data;
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/// Mask entry of the image. If it is empty, no color key masking is induced.
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/// If it is not empty, then it should contain 2 x number of color components,
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/// consisting of [ min_0, max_0, min_1, max_1, ... , min_n, max_n ].
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std::vector<PDFInteger> m_colorKeyMask;
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/// Decode array. If it is empty, then no decoding is performed. If it is nonempty,
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/// then contains n pairs of numbers, where n is number of color components. If ImageMask
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/// in the image dictionary is true, then decode array should be [0 1] or [1 0].
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std::vector<PDFReal> m_decode;
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};
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using PDFColor3 = std::array<PDFColorComponent, 3>;
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/// Matrix for color component multiplication (for example, conversion between some color spaces)
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template<size_t Rows, size_t Cols>
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class PDFColorComponentMatrix
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{
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public:
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explicit constexpr inline PDFColorComponentMatrix() : m_values() { }
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template<typename... Components>
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explicit constexpr inline PDFColorComponentMatrix(Components... components) : m_values({ static_cast<PDFColorComponent>(components)... }) { }
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std::array<PDFColorComponent, Rows> operator*(const std::array<PDFColorComponent, Cols>& color) const
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{
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std::array<PDFColorComponent, Rows> result = { };
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for (size_t row = 0; row < Rows; ++row)
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{
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for (size_t column = 0; column < Cols; ++column)
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{
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result[row] += m_values[row * Cols + column] * color[column];
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}
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}
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return result;
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}
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inline typename std::array<PDFColorComponent, Rows * Cols>::iterator begin() { return m_values.begin(); }
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inline typename std::array<PDFColorComponent, Rows * Cols>::iterator end() { return m_values.end(); }
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private:
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std::array<PDFColorComponent, Rows * Cols> m_values;
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};
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using PDFColorComponentMatrix_3x3 = PDFColorComponentMatrix<3, 3>;
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/// Represents PDF's color space (abstract class). Contains functions for parsing
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/// color spaces.
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class PDFAbstractColorSpace
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{
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public:
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explicit PDFAbstractColorSpace() = default;
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virtual ~PDFAbstractColorSpace() = default;
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virtual QColor getDefaultColor() const = 0;
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virtual QColor getColor(const PDFColor& color) const = 0;
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virtual size_t getColorComponentCount() const = 0;
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virtual QImage getImage(const PDFImageData& imageData) const;
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/// Checks, if number of color components is OK, and if yes, converts them to the QColor value.
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/// If they are not OK, exception is thrown.
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QColor getCheckedColor(const PDFColor& color) const;
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/// Parses the desired color space. If desired color space is not found, then exception is thrown.
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/// If everything is OK, then shared pointer to the new color space is returned.
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/// \param colorSpaceDictionary Dictionary containing color spaces of the page
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/// \param document Document (for loading objects)
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/// \param colorSpace Identification of color space (either name or array), must be a direct object
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static PDFColorSpacePointer createColorSpace(const PDFDictionary* colorSpaceDictionary,
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const PDFDocument* document,
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const PDFObject& colorSpace);
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/// Creates device color space by name. Color space can be created by this function only, if
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/// it is simple - one of the basic device color spaces (gray, RGB or CMYK).
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/// \param colorSpaceDictionary Dictionary containing color spaces of the page
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/// \param document Document (for loading objects)
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/// \param name Name of the color space
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static PDFColorSpacePointer createDeviceColorSpaceByName(const PDFDictionary* colorSpaceDictionary,
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const PDFDocument* document,
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const QByteArray& name);
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/// Converts a vector of real numbers to the PDFColor
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static PDFColor convertToColor(const std::vector<PDFReal>& components);
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protected:
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/// Clips the color component to range [0, 1]
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static constexpr PDFColorComponent clip01(PDFColorComponent component) { return qBound<PDFColorComponent>(0.0, component, 1.0); }
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/// Clips the color to range [0 1] in all components
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static constexpr PDFColor3 clip01(const PDFColor3& color)
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{
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PDFColor3 result = color;
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for (PDFColorComponent& component : result)
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{
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component = clip01(component);
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}
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return result;
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}
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/// Parses the desired color space. If desired color space is not found, then exception is thrown.
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/// If everything is OK, then shared pointer to the new color space is returned.
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/// \param colorSpaceDictionary Dictionary containing color spaces of the page
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/// \param document Document (for loading objects)
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/// \param colorSpace Identification of color space (either name or array), must be a direct object
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/// \param recursion Recursion guard
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static PDFColorSpacePointer createColorSpaceImpl(const PDFDictionary* colorSpaceDictionary,
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const PDFDocument* document,
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const PDFObject& colorSpace,
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int recursion);
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/// Creates device color space by name. Color space can be created by this function only, if
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/// it is simple - one of the basic device color spaces (gray, RGB or CMYK).
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/// \param colorSpaceDictionary Dictionary containing color spaces of the page
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/// \param document Document (for loading objects)
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/// \param name Name of the color space
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static PDFColorSpacePointer createDeviceColorSpaceByNameImpl(const PDFDictionary* colorSpaceDictionary,
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const PDFDocument* document,
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const QByteArray& name,
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int recursion);
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/// Converts XYZ value to the standard RGB value (linear). No gamma correction is applied.
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/// Default transformation matrix is applied.
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/// \param xyzColor Color in XYZ space
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static PDFColor3 convertXYZtoRGB(const PDFColor3& xyzColor);
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/// Multiplies color by factor
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/// \param color Color to be multiplied
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/// \param factor Multiplication factor
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static constexpr PDFColor3 colorMultiplyByFactor(const PDFColor3& color, PDFColorComponent factor)
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{
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PDFColor3 result = color;
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for (PDFColorComponent& component : result)
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{
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component *= factor;
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}
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return result;
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}
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/// Multiplies color by factors (stored in components of the color)
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/// \param color Color to be multiplied
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/// \param factor Multiplication factors
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static constexpr PDFColor3 colorMultiplyByFactors(const PDFColor3& color, const PDFColor3& factors)
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{
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PDFColor3 result = { };
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for (size_t i = 0; i < color.size(); ++i)
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{
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result[i] = color[i] * factors[i];
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}
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return result;
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}
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/// Powers color by factors (stored in components of the color)
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/// \param color Color to be multiplied
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/// \param factor Power factors
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static constexpr PDFColor3 colorPowerByFactors(const PDFColor3& color, const PDFColor3& factors)
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{
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PDFColor3 result = { };
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for (size_t i = 0; i < color.size(); ++i)
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{
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result[i] = std::powf(color[i], factors[i]);
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}
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return result;
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}
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/// Converts RGB values of range [0.0, 1.0] to standard QColor
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/// \param color Color to be converted
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static inline QColor fromRGB01(const PDFColor3& color)
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{
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PDFColorComponent r = clip01(color[0]);
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PDFColorComponent g = clip01(color[1]);
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PDFColorComponent b = clip01(color[2]);
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QColor result(QColor::Rgb);
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result.setRgbF(r, g, b, 1.0);
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return result;
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}
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};
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class PDFDeviceGrayColorSpace : public PDFAbstractColorSpace
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{
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public:
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explicit PDFDeviceGrayColorSpace() = default;
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virtual ~PDFDeviceGrayColorSpace() = default;
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virtual QColor getDefaultColor() const override;
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virtual QColor getColor(const PDFColor& color) const override;
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virtual size_t getColorComponentCount() const override;
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};
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class PDFDeviceRGBColorSpace : public PDFAbstractColorSpace
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{
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public:
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explicit PDFDeviceRGBColorSpace() = default;
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virtual ~PDFDeviceRGBColorSpace() = default;
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virtual QColor getDefaultColor() const override;
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virtual QColor getColor(const PDFColor& color) const override;
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virtual size_t getColorComponentCount() const override;
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};
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class PDFDeviceCMYKColorSpace : public PDFAbstractColorSpace
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{
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public:
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explicit PDFDeviceCMYKColorSpace() = default;
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virtual ~PDFDeviceCMYKColorSpace() = default;
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virtual QColor getDefaultColor() const override;
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virtual QColor getColor(const PDFColor& color) const override;
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virtual size_t getColorComponentCount() const override;
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};
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class PDFXYZColorSpace : public PDFAbstractColorSpace
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{
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public:
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virtual QColor getDefaultColor() const override;
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protected:
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explicit PDFXYZColorSpace(PDFColor3 whitePoint);
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virtual ~PDFXYZColorSpace() = default;
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PDFColor3 m_whitePoint;
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/// What are these coefficients? We want to map white point from XYZ space to white point
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/// of RGB space. These coefficients are reciprocal values to the point converted from XYZ white
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/// point. So, if we call getColor(m_whitePoint), then we should get vector (1.0, 1.0, 1.0)
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/// after multiplication by these coefficients.
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PDFColor3 m_correctionCoefficients;
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};
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class PDFCalGrayColorSpace : public PDFXYZColorSpace
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{
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public:
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explicit PDFCalGrayColorSpace(PDFColor3 whitePoint, PDFColor3 blackPoint, PDFColorComponent gamma);
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virtual ~PDFCalGrayColorSpace() = default;
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virtual QColor getColor(const PDFColor& color) const override;
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virtual size_t getColorComponentCount() const override;
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/// Creates CalGray color space from provided values.
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/// \param document Document
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/// \param dictionary Dictionary
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static PDFColorSpacePointer createCalGrayColorSpace(const PDFDocument* document, const PDFDictionary* dictionary);
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private:
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PDFColor3 m_blackPoint;
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PDFColorComponent m_gamma;
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};
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class PDFCalRGBColorSpace : public PDFXYZColorSpace
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{
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public:
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explicit PDFCalRGBColorSpace(PDFColor3 whitePoint, PDFColor3 blackPoint, PDFColor3 gamma, PDFColorComponentMatrix_3x3 matrix);
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virtual ~PDFCalRGBColorSpace() = default;
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virtual QColor getColor(const PDFColor& color) const override;
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virtual size_t getColorComponentCount() const override;
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/// Creates CalRGB color space from provided values.
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/// \param document Document
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/// \param dictionary Dictionary
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static PDFColorSpacePointer createCalRGBColorSpace(const PDFDocument* document, const PDFDictionary* dictionary);
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private:
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PDFColor3 m_blackPoint;
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PDFColor3 m_gamma;
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PDFColorComponentMatrix_3x3 m_matrix;
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};
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class PDFLabColorSpace : public PDFXYZColorSpace
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{
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public:
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explicit PDFLabColorSpace(PDFColor3 whitePoint, PDFColor3 blackPoint, PDFColorComponent aMin, PDFColorComponent aMax, PDFColorComponent bMin, PDFColorComponent bMax);
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virtual ~PDFLabColorSpace() = default;
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virtual QColor getColor(const PDFColor& color) const override;
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virtual size_t getColorComponentCount() const override;
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/// Creates Lab color space from provided values.
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/// \param document Document
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/// \param dictionary Dictionary
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static PDFColorSpacePointer createLabColorSpace(const PDFDocument* document, const PDFDictionary* dictionary);
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private:
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PDFColor3 m_blackPoint;
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PDFColorComponent m_aMin;
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PDFColorComponent m_aMax;
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PDFColorComponent m_bMin;
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PDFColorComponent m_bMax;
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};
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class PDFICCBasedColorSpace : public PDFAbstractColorSpace
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{
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private:
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static constexpr const size_t MAX_COLOR_COMPONENTS = 4;
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using Ranges = std::array<PDFColorComponent, MAX_COLOR_COMPONENTS * 2>;
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public:
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explicit PDFICCBasedColorSpace(PDFColorSpacePointer alternateColorSpace, Ranges range);
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virtual ~PDFICCBasedColorSpace() = default;
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virtual QColor getDefaultColor() const override;
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virtual QColor getColor(const PDFColor& color) const override;
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virtual size_t getColorComponentCount() const override;
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/// Creates ICC based color space from provided values.
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/// \param colorSpaceDictionary Color space dictionary
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/// \param document Document
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/// \param stream Stream with ICC profile
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/// \param recursion Recursion guard
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static PDFColorSpacePointer createICCBasedColorSpace(const PDFDictionary* colorSpaceDictionary, const PDFDocument* document, const PDFStream* stream, int recursion);
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private:
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PDFColorSpacePointer m_alternateColorSpace;
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Ranges m_range;
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};
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class PDFIndexedColorSpace : public PDFAbstractColorSpace
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{
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public:
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explicit PDFIndexedColorSpace(PDFColorSpacePointer baseColorSpace, QByteArray&& colors, int maxValue);
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virtual ~PDFIndexedColorSpace() = default;
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virtual QColor getDefaultColor() const override;
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virtual QColor getColor(const PDFColor& color) const override;
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virtual size_t getColorComponentCount() const override;
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virtual QImage getImage(const PDFImageData& imageData) const override;
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/// Creates indexed color space from provided values.
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/// \param colorSpaceDictionary Color space dictionary
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/// \param document Document
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/// \param array Array with indexed color space definition
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/// \param recursion Recursion guard
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static PDFColorSpacePointer createIndexedColorSpace(const PDFDictionary* colorSpaceDictionary, const PDFDocument* document, const PDFArray* array, int recursion);
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private:
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static constexpr const int MIN_VALUE = 0;
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static constexpr const int MAX_VALUE = 255;
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PDFColorSpacePointer m_baseColorSpace;
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QByteArray m_colors;
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int m_maxValue;
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};
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class PDFSeparationColorSpace : public PDFAbstractColorSpace
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{
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public:
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explicit PDFSeparationColorSpace(QByteArray&& colorName, PDFColorSpacePointer alternateColorSpace, PDFFunctionPtr tintTransform);
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virtual ~PDFSeparationColorSpace() = default;
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virtual QColor getDefaultColor() const override;
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virtual QColor getColor(const PDFColor& color) const override;
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virtual size_t getColorComponentCount() const override;
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/// Creates separation color space from provided values.
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/// \param colorSpaceDictionary Color space dictionary
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/// \param document Document
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/// \param array Array with separation color space definition
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/// \param recursion Recursion guard
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static PDFColorSpacePointer createSeparationColorSpace(const PDFDictionary* colorSpaceDictionary, const PDFDocument* document, const PDFArray* array, int recursion);
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private:
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QByteArray m_colorName;
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PDFColorSpacePointer m_alternateColorSpace;
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PDFFunctionPtr m_tintTransform;
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};
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class PDFPatternColorSpace : public PDFAbstractColorSpace
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{
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public:
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explicit PDFPatternColorSpace(std::shared_ptr<PDFPattern>&& pattern) : m_pattern(qMove(pattern)) { }
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virtual ~PDFPatternColorSpace() override = default;
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virtual QColor getDefaultColor() const override;
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virtual QColor getColor(const PDFColor& color) const override;
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virtual size_t getColorComponentCount() const override;
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const PDFPattern* getPattern() const { return m_pattern.get(); }
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private:
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std::shared_ptr<PDFPattern> m_pattern;
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};
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// TODO: Implement DeviceN color space
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} // namespace pdf
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#endif // PDFCOLORSPACES_H
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