skia2/third_party/gif/SkGifImageReader.h

/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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#ifndef SkGifImageReader_h
#define SkGifImageReader_h

// Define ourselves as the clientPtr.  Mozilla just hacked their C++ callback class into this old C decoder,
// so we will too.
class SkGifCodec;

#include "SkCodec.h"
#include "SkCodecPriv.h"
#include "SkCodecAnimation.h"
#include "SkColorTable.h"
#include "SkData.h"
#include "SkImageInfo.h"
#include "SkStreamBuffer.h"
#include "../private/SkTArray.h"
#include <memory>
#include <vector>

typedef SkTArray<unsigned char, true> SkGIFRow;


#define SK_MAX_DICTIONARY_ENTRY_BITS 12
#define SK_MAX_DICTIONARY_ENTRIES    4096 // 2^SK_MAX_DICTIONARY_ENTRY_BITS
#define SK_MAX_COLORS                256
#define SK_BYTES_PER_COLORMAP_ENTRY  3

// List of possible parsing states.
enum SkGIFState {
    SkGIFType,
    SkGIFGlobalHeader,
    SkGIFGlobalColormap,
    SkGIFImageStart,
    SkGIFImageHeader,
    SkGIFImageColormap,
    SkGIFImageBody,
    SkGIFLZWStart,
    SkGIFLZW,
    SkGIFSubBlock,
    SkGIFExtension,
    SkGIFControlExtension,
    SkGIFConsumeBlock,
    SkGIFSkipBlock,
    SkGIFDone,
    SkGIFCommentExtension,
    SkGIFApplicationExtension,
    SkGIFNetscapeExtensionBlock,
    SkGIFConsumeNetscapeExtension,
    SkGIFConsumeComment
};

struct SkGIFFrameContext;
class SkGIFColorMap;

// LZW decoder state machine.
class SkGIFLZWContext final : public SkNoncopyable {
public:
    SkGIFLZWContext(SkGifCodec* client, const SkGIFFrameContext* frameContext)
        : codesize(0)
        , codemask(0)
        , clearCode(0)
        , avail(0)
        , oldcode(0)
        , firstchar(0)
        , bits(0)
        , datum(0)
        , ipass(0)
        , irow(0)
        , rowsRemaining(0)
        , alwaysWriteTransparentPixels(false)
        , rowIter(0)
        , m_client(client)
        , m_frameContext(frameContext)
    { }

    bool prepareToDecode(const SkGIFColorMap& globalMap);
    bool outputRow(const unsigned char* rowBegin);
    bool doLZW(const unsigned char* block, size_t bytesInBlock);
    bool hasRemainingRows() { return SkToBool(rowsRemaining); }

private:
    // LZW decoding states and output states.
    int codesize;
    int codemask;
    int clearCode; // Codeword used to trigger dictionary reset.
    int avail; // Index of next available slot in dictionary.
    int oldcode;
    unsigned char firstchar;
    int bits; // Number of unread bits in "datum".
    int datum; // 32-bit input buffer.
    int ipass; // Interlace pass; Ranges 1-4 if interlaced.
    size_t irow; // Current output row, starting at zero.
    size_t rowsRemaining; // Rows remaining to be output.
    // This depends on the GIFFrameContext. If the frame is not
    // interlaced and it is independent, it is always safe to
    // write transparent pixels.
    bool alwaysWriteTransparentPixels;

    unsigned short prefix[SK_MAX_DICTIONARY_ENTRIES];
    unsigned char suffix[SK_MAX_DICTIONARY_ENTRIES];
    unsigned short suffixLength[SK_MAX_DICTIONARY_ENTRIES];
    SkGIFRow rowBuffer; // Single scanline temporary buffer.
    unsigned char* rowIter;

    SkGifCodec* const m_client;
    const SkGIFFrameContext* m_frameContext;
};

class SkGIFColorMap final {
public:
    SkGIFColorMap()
        : m_isDefined(false)
        , m_colors(0)
        , m_packColorProc(nullptr)
    {
    }

    void setNumColors(size_t colors) {
        m_colors = colors;
    }

    size_t numColors() const { return m_colors; }

    void setRawData(const char* data, size_t size)
    {
        // FIXME: Can we avoid this copy?
        m_rawData = SkData::MakeWithCopy(data, size);
        SkASSERT(m_colors * SK_BYTES_PER_COLORMAP_ENTRY == size);
        m_isDefined = true;
    }
    bool isDefined() const { return m_isDefined; }

    // Build RGBA table using the data stream.
    sk_sp<SkColorTable> buildTable(SkColorType dstColorType, size_t transparentPixel) const;

private:
    bool m_isDefined;
    size_t m_colors;
    sk_sp<SkData> m_rawData;
    mutable PackColorProc m_packColorProc;
    mutable sk_sp<SkColorTable> m_table;
};

// LocalFrame output state machine.
struct SkGIFFrameContext : SkNoncopyable {
public:
    SkGIFFrameContext(int id)
        : m_frameId(id)
        , m_xOffset(0)
        , m_yOffset(0)
        , m_width(0)
        , m_height(0)
        , m_transparentPixel(kNotFound)
        , m_disposalMethod(SkCodecAnimation::Keep_DisposalMethod)
        , m_requiredFrame(SkCodec::kNone)
        , m_dataSize(0)
        , m_progressiveDisplay(false)
        , m_interlaced(false)
        , m_delayTime(0)
        , m_currentLzwBlock(0)
        , m_isComplete(false)
        , m_isHeaderDefined(false)
        , m_isDataSizeDefined(false)
    {
    }

    static constexpr size_t kNotFound = static_cast<size_t>(-1);

    ~SkGIFFrameContext()
    {
    }

    void addLzwBlock(const void* data, size_t size)
    {
        m_lzwBlocks.push_back(SkData::MakeWithCopy(data, size));
    }

    bool decode(SkGifCodec* client, const SkGIFColorMap& globalMap, bool* frameDecoded);

    int frameId() const { return m_frameId; }
    void setRect(unsigned x, unsigned y, unsigned width, unsigned height)
    {
        m_xOffset = x;
        m_yOffset = y;
        m_width = width;
        m_height = height;
    }
    SkIRect frameRect() const { return SkIRect::MakeXYWH(m_xOffset, m_yOffset, m_width, m_height); }
    unsigned xOffset() const { return m_xOffset; }
    unsigned yOffset() const { return m_yOffset; }
    unsigned width() const { return m_width; }
    unsigned height() const { return m_height; }
    size_t transparentPixel() const { return m_transparentPixel; }
    void setTransparentPixel(size_t pixel) { m_transparentPixel = pixel; }
    SkCodecAnimation::DisposalMethod getDisposalMethod() const { return m_disposalMethod; }
    void setDisposalMethod(SkCodecAnimation::DisposalMethod disposalMethod) { m_disposalMethod = disposalMethod; }
    size_t getRequiredFrame() const { return m_requiredFrame; }
    void setRequiredFrame(size_t req) { m_requiredFrame = req; }
    unsigned delayTime() const { return m_delayTime; }
    void setDelayTime(unsigned delay) { m_delayTime = delay; }
    bool isComplete() const { return m_isComplete; }
    void setComplete() { m_isComplete = true; }
    bool isHeaderDefined() const { return m_isHeaderDefined; }
    void setHeaderDefined() { m_isHeaderDefined = true; }
    bool isDataSizeDefined() const { return m_isDataSizeDefined; }
    int dataSize() const { return m_dataSize; }
    void setDataSize(int size)
    {
        m_dataSize = size;
        m_isDataSizeDefined = true;
    }
    bool progressiveDisplay() const { return m_progressiveDisplay; }
    void setProgressiveDisplay(bool progressiveDisplay) { m_progressiveDisplay = progressiveDisplay; }
    bool interlaced() const { return m_interlaced; }
    void setInterlaced(bool interlaced) { m_interlaced = interlaced; }

    void clearDecodeState() { m_lzwContext.reset(); }
    const SkGIFColorMap& localColorMap() const { return m_localColorMap; }
    SkGIFColorMap& localColorMap() { return m_localColorMap; }

private:
    int m_frameId;
    unsigned m_xOffset;
    unsigned m_yOffset; // With respect to "screen" origin.
    unsigned m_width;
    unsigned m_height;
    size_t m_transparentPixel; // Index of transparent pixel. Value is kNotFound if there is no transparent pixel.
    SkCodecAnimation::DisposalMethod m_disposalMethod; // Restore to background, leave in place, etc.
    size_t m_requiredFrame;
    int m_dataSize;

    bool m_progressiveDisplay; // If true, do Haeberli interlace hack.
    bool m_interlaced; // True, if scanlines arrive interlaced order.

    unsigned m_delayTime; // Display time, in milliseconds, for this image in a multi-image GIF.

    std::unique_ptr<SkGIFLZWContext> m_lzwContext;
    std::vector<sk_sp<SkData>> m_lzwBlocks; // LZW blocks for this frame.
    SkGIFColorMap m_localColorMap;

    size_t m_currentLzwBlock;
    bool m_isComplete;
    bool m_isHeaderDefined;
    bool m_isDataSizeDefined;
};

class SkGifImageReader final : public SkNoncopyable {
public:
    // This takes ownership of stream.
    SkGifImageReader(SkStream* stream)
        : m_client(nullptr)
        , m_state(SkGIFType)
        , m_bytesToConsume(6) // Number of bytes for GIF type, either "GIF87a" or "GIF89a".
        , m_version(0)
        , m_screenWidth(0)
        , m_screenHeight(0)
        , m_loopCount(cLoopCountNotSeen)
        , m_streamBuffer(stream)
        , m_parseCompleted(false)
        , m_firstFrameHasAlpha(false)
        , m_firstFrameSupportsIndex8(false)
    {
    }

    ~SkGifImageReader()
    {
    }

    void setClient(SkGifCodec* client) { m_client = client; }

    unsigned screenWidth() const { return m_screenWidth; }
    unsigned screenHeight() const { return m_screenHeight; }

    // Option to pass to parse(). All enums are negative, because a non-negative value is used to
    // indicate that the Reader should parse up to and including the frame indicated.
    enum SkGIFParseQuery {
        // Parse enough to determine the size. Note that this parses the first frame's header,
        // since we may decide to expand based on the frame's dimensions.
        SkGIFSizeQuery        = -1,
        // Parse to the end, so we know about all frames.
        SkGIFFrameCountQuery  = -2,
        // Parse until we see the loop count.
        SkGIFLoopCountQuery   = -3,
    };

    // Parse incoming GIF data stream into internal data structures.
    // Non-negative values are used to indicate to parse through that frame.
    // Return true if parsing has progressed or there is not enough data.
    // Return false if a fatal error is encountered.
    bool parse(SkGIFParseQuery);

    // Decode the frame indicated by frameIndex.
    // frameComplete will be set to true if the frame is completely decoded.
    // The method returns false if there is an error.
    bool decode(size_t frameIndex, bool* frameComplete);

    size_t imagesCount() const
    {
        if (m_frames.empty())
            return 0;

        // This avoids counting an empty frame when the file is truncated right after
        // SkGIFControlExtension but before SkGIFImageHeader.
        // FIXME: This extra complexity is not necessary and we should just report m_frames.size().
        return m_frames.back()->isHeaderDefined() ? m_frames.size() : m_frames.size() - 1;
    }
    int loopCount() const {
        if (cLoopCountNotSeen == m_loopCount) {
            return 0;
        }
        return m_loopCount;
    }

    const SkGIFColorMap& globalColorMap() const
    {
        return m_globalColorMap;
    }

    const SkGIFFrameContext* frameContext(size_t index) const
    {
        return index < m_frames.size() ? m_frames[index].get() : 0;
    }

    void clearDecodeState() {
        for (size_t index = 0; index < m_frames.size(); index++) {
            m_frames[index]->clearDecodeState();
        }
    }

    // Return the color table for frame index (which may be the global color table).
    sk_sp<SkColorTable> getColorTable(SkColorType dstColorType, size_t index) const;

    bool firstFrameHasAlpha() const { return m_firstFrameHasAlpha; }

    bool firstFrameSupportsIndex8() const { return m_firstFrameSupportsIndex8; }

private:
    // Requires that one byte has been buffered into m_streamBuffer.
    unsigned char getOneByte() const {
        return reinterpret_cast<const unsigned char*>(m_streamBuffer.get())[0];
    }

    void addFrameIfNecessary();
    bool currentFrameIsFirstFrame() const
    {
        return m_frames.empty() || (m_frames.size() == 1u && !m_frames[0]->isComplete());
    }

    // Unowned pointer
    SkGifCodec* m_client;

    // Parsing state machine.
    SkGIFState m_state; // Current decoder master state.
    size_t m_bytesToConsume; // Number of bytes to consume for next stage of parsing.

    // Global (multi-image) state.
    int m_version; // Either 89 for GIF89 or 87 for GIF87.
    unsigned m_screenWidth; // Logical screen width & height.
    unsigned m_screenHeight;
    SkGIFColorMap m_globalColorMap;

    static constexpr int cLoopCountNotSeen = -2;
    int m_loopCount; // Netscape specific extension block to control the number of animation loops a GIF renders.

    std::vector<std::unique_ptr<SkGIFFrameContext>> m_frames;

    SkStreamBuffer m_streamBuffer;
    bool m_parseCompleted;

    // These values can be computed before we create a SkGIFFrameContext, so we
    // store them here instead of on m_frames[0].
    bool m_firstFrameHasAlpha;
    bool m_firstFrameSupportsIndex8;
};

#endif