1 /*
2  * Copyright 2015 Google Inc.
3  *
4  * Use of this source code is governed by a BSD-style license that can be
5  * found in the LICENSE file.
6  */
7 
8 #include "SkCodecPriv.h"
9 #include "SkColorPriv.h"
10 #include "SkColorTable.h"
11 #include "SkGifCodec.h"
12 #include "SkStream.h"
13 #include "SkSwizzler.h"
14 #include "SkUtils.h"
15 
16 #include "gif_lib.h"
17 
18 /*
19  * Checks the start of the stream to see if the image is a gif
20  */
IsGif(const void * buf,size_t bytesRead)21 bool SkGifCodec::IsGif(const void* buf, size_t bytesRead) {
22     if (bytesRead >= GIF_STAMP_LEN) {
23         if (memcmp(GIF_STAMP,   buf, GIF_STAMP_LEN) == 0 ||
24             memcmp(GIF87_STAMP, buf, GIF_STAMP_LEN) == 0 ||
25             memcmp(GIF89_STAMP, buf, GIF_STAMP_LEN) == 0)
26         {
27             return true;
28         }
29     }
30     return false;
31 }
32 
33 /*
34  * Error function
35  */
gif_error(const char * msg,SkCodec::Result result=SkCodec::kInvalidInput)36 static SkCodec::Result gif_error(const char* msg, SkCodec::Result result = SkCodec::kInvalidInput) {
37     SkCodecPrintf("Gif Error: %s\n", msg);
38     return result;
39 }
40 
41 
42 /*
43  * Read function that will be passed to gif_lib
44  */
read_bytes_callback(GifFileType * fileType,GifByteType * out,int32_t size)45 static int32_t read_bytes_callback(GifFileType* fileType, GifByteType* out, int32_t size) {
46     SkStream* stream = (SkStream*) fileType->UserData;
47     return (int32_t) stream->read(out, size);
48 }
49 
50 /*
51  * Open the gif file
52  */
open_gif(SkStream * stream)53 static GifFileType* open_gif(SkStream* stream) {
54 #if GIFLIB_MAJOR < 5
55     return DGifOpen(stream, read_bytes_callback);
56 #else
57     return DGifOpen(stream, read_bytes_callback, nullptr);
58 #endif
59 }
60 
61 /*
62  * Check if a there is an index of the color table for a transparent pixel
63  */
find_trans_index(const SavedImage & image)64 static uint32_t find_trans_index(const SavedImage& image) {
65     // If there is a transparent index specified, it will be contained in an
66     // extension block.  We will loop through extension blocks in reverse order
67     // to check the most recent extension blocks first.
68     for (int32_t i = image.ExtensionBlockCount - 1; i >= 0; i--) {
69         // Get an extension block
70         const ExtensionBlock& extBlock = image.ExtensionBlocks[i];
71 
72         // Specifically, we need to check for a graphics control extension,
73         // which may contain transparency information.  Also, note that a valid
74         // graphics control extension is always four bytes.  The fourth byte
75         // is the transparent index (if it exists), so we need at least four
76         // bytes.
77         if (GRAPHICS_EXT_FUNC_CODE == extBlock.Function && extBlock.ByteCount >= 4) {
78             // Check the transparent color flag which indicates whether a
79             // transparent index exists.  It is the least significant bit of
80             // the first byte of the extension block.
81             if (1 == (extBlock.Bytes[0] & 1)) {
82                 // Use uint32_t to prevent sign extending
83                 return extBlock.Bytes[3];
84             }
85 
86             // There should only be one graphics control extension for the image frame
87             break;
88         }
89     }
90 
91     // Use maximum unsigned int (surely an invalid index) to indicate that a valid
92     // index was not found.
93     return SK_MaxU32;
94 }
95 
ceil_div(uint32_t a,uint32_t b)96 inline uint32_t ceil_div(uint32_t a, uint32_t b) {
97     return (a + b - 1) / b;
98 }
99 
100 /*
101  * Gets the output row corresponding to the encoded row for interlaced gifs
102  */
get_output_row_interlaced(uint32_t encodedRow,uint32_t height)103 inline uint32_t get_output_row_interlaced(uint32_t encodedRow, uint32_t height) {
104     SkASSERT(encodedRow < height);
105     // First pass
106     if (encodedRow * 8 < height) {
107         return encodedRow * 8;
108     }
109     // Second pass
110     if (encodedRow * 4 < height) {
111         return 4 + 8 * (encodedRow - ceil_div(height, 8));
112     }
113     // Third pass
114     if (encodedRow * 2 < height) {
115         return 2 + 4 * (encodedRow - ceil_div(height, 4));
116     }
117     // Fourth pass
118     return 1 + 2 * (encodedRow - ceil_div(height, 2));
119 }
120 
121 /*
122  * This function cleans up the gif object after the decode completes
123  * It is used in a SkAutoTCallIProc template
124  */
CloseGif(GifFileType * gif)125 void SkGifCodec::CloseGif(GifFileType* gif) {
126 #if GIFLIB_MAJOR < 5 || (GIFLIB_MAJOR == 5 && GIFLIB_MINOR == 0)
127     DGifCloseFile(gif);
128 #else
129     DGifCloseFile(gif, nullptr);
130 #endif
131 }
132 
133 /*
134  * This function free extension data that has been saved to assist the image
135  * decoder
136  */
FreeExtension(SavedImage * image)137 void SkGifCodec::FreeExtension(SavedImage* image) {
138     if (NULL != image->ExtensionBlocks) {
139 #if GIFLIB_MAJOR < 5
140         FreeExtension(image);
141 #else
142         GifFreeExtensions(&image->ExtensionBlockCount, &image->ExtensionBlocks);
143 #endif
144     }
145 }
146 
147 /*
148  * Read enough of the stream to initialize the SkGifCodec.
149  * Returns a bool representing success or failure.
150  *
151  * @param codecOut
152  * If it returned true, and codecOut was not nullptr,
153  * codecOut will be set to a new SkGifCodec.
154  *
155  * @param gifOut
156  * If it returned true, and codecOut was nullptr,
157  * gifOut must be non-nullptr and gifOut will be set to a new
158  * GifFileType pointer.
159  *
160  * @param stream
161  * Deleted on failure.
162  * codecOut will take ownership of it in the case where we created a codec.
163  * Ownership is unchanged when we returned a gifOut.
164  *
165  */
ReadHeader(SkStream * stream,SkCodec ** codecOut,GifFileType ** gifOut)166 bool SkGifCodec::ReadHeader(SkStream* stream, SkCodec** codecOut, GifFileType** gifOut) {
167     SkAutoTDelete<SkStream> streamDeleter(stream);
168 
169     // Read gif header, logical screen descriptor, and global color table
170     SkAutoTCallVProc<GifFileType, CloseGif> gif(open_gif(stream));
171 
172     if (nullptr == gif) {
173         gif_error("DGifOpen failed.\n");
174         return false;
175     }
176 
177     // Read through gif extensions to get to the image data.  Set the
178     // transparent index based on the extension data.
179     uint32_t transIndex;
180     SkCodec::Result result = ReadUpToFirstImage(gif, &transIndex);
181     if (kSuccess != result){
182         return false;
183     }
184 
185     // Read the image descriptor
186     if (GIF_ERROR == DGifGetImageDesc(gif)) {
187         return false;
188     }
189     // If reading the image descriptor is successful, the image count will be
190     // incremented.
191     SkASSERT(gif->ImageCount >= 1);
192 
193     if (nullptr != codecOut) {
194         SkISize size;
195         SkIRect frameRect;
196         if (!GetDimensions(gif, &size, &frameRect)) {
197             gif_error("Invalid gif size.\n");
198             return false;
199         }
200         bool frameIsSubset = (size != frameRect.size());
201 
202         // Determine the recommended alpha type.  The transIndex might be valid if it less
203         // than 256.  We are not certain that the index is valid until we process the color
204         // table, since some gifs have color tables with less than 256 colors.  If
205         // there might be a valid transparent index, we must indicate that the image has
206         // alpha.
207         // In the case where we must support alpha, we have the option to set the
208         // suggested alpha type to kPremul or kUnpremul.  Both are valid since the alpha
209         // component will always be 0xFF or the entire 32-bit pixel will be set to zero.
210         // We prefer kPremul because we support kPremul, and it is more efficient to use
211         // kPremul directly even when kUnpremul is supported.
212         SkAlphaType alphaType = (transIndex < 256) ? kPremul_SkAlphaType : kOpaque_SkAlphaType;
213 
214         // Return the codec
215         // kIndex is the most natural color type for gifs, so we set this as
216         // the default.
217         SkImageInfo imageInfo = SkImageInfo::Make(size.width(), size.height(), kIndex_8_SkColorType,
218                 alphaType);
219         *codecOut = new SkGifCodec(imageInfo, streamDeleter.detach(), gif.detach(), transIndex,
220                 frameRect, frameIsSubset);
221     } else {
222         SkASSERT(nullptr != gifOut);
223         streamDeleter.detach();
224         *gifOut = gif.detach();
225     }
226     return true;
227 }
228 
229 /*
230  * Assumes IsGif was called and returned true
231  * Creates a gif decoder
232  * Reads enough of the stream to determine the image format
233  */
NewFromStream(SkStream * stream)234 SkCodec* SkGifCodec::NewFromStream(SkStream* stream) {
235     SkCodec* codec = nullptr;
236     if (ReadHeader(stream, &codec, nullptr)) {
237         return codec;
238     }
239     return nullptr;
240 }
241 
SkGifCodec(const SkImageInfo & srcInfo,SkStream * stream,GifFileType * gif,uint32_t transIndex,const SkIRect & frameRect,bool frameIsSubset)242 SkGifCodec::SkGifCodec(const SkImageInfo& srcInfo, SkStream* stream, GifFileType* gif,
243         uint32_t transIndex, const SkIRect& frameRect, bool frameIsSubset)
244     : INHERITED(srcInfo, stream)
245     , fGif(gif)
246     , fSrcBuffer(new uint8_t[this->getInfo().width()])
247     , fFrameRect(frameRect)
248     // If it is valid, fTransIndex will be used to set fFillIndex.  We don't know if
249     // fTransIndex is valid until we process the color table, since fTransIndex may
250     // be greater than the size of the color table.
251     , fTransIndex(transIndex)
252     // Default fFillIndex is 0.  We will overwrite this if fTransIndex is valid, or if
253     // there is a valid background color.
254     , fFillIndex(0)
255     , fFrameIsSubset(frameIsSubset)
256     , fSwizzler(NULL)
257     , fColorTable(NULL)
258 {}
259 
onRewind()260 bool SkGifCodec::onRewind() {
261     GifFileType* gifOut = nullptr;
262     if (!ReadHeader(this->stream(), nullptr, &gifOut)) {
263         return false;
264     }
265 
266     SkASSERT(nullptr != gifOut);
267     fGif.reset(gifOut);
268     return true;
269 }
270 
ReadUpToFirstImage(GifFileType * gif,uint32_t * transIndex)271 SkCodec::Result SkGifCodec::ReadUpToFirstImage(GifFileType* gif, uint32_t* transIndex) {
272     // Use this as a container to hold information about any gif extension
273     // blocks.  This generally stores transparency and animation instructions.
274     SavedImage saveExt;
275     SkAutoTCallVProc<SavedImage, FreeExtension> autoFreeExt(&saveExt);
276     saveExt.ExtensionBlocks = nullptr;
277     saveExt.ExtensionBlockCount = 0;
278     GifByteType* extData;
279     int32_t extFunction;
280 
281     // We will loop over components of gif images until we find an image.  Once
282     // we find an image, we will decode and return it.  While many gif files
283     // contain more than one image, we will simply decode the first image.
284     GifRecordType recordType;
285     do {
286         // Get the current record type
287         if (GIF_ERROR == DGifGetRecordType(gif, &recordType)) {
288             return gif_error("DGifGetRecordType failed.\n", kInvalidInput);
289         }
290         switch (recordType) {
291             case IMAGE_DESC_RECORD_TYPE: {
292                 *transIndex = find_trans_index(saveExt);
293 
294                 // FIXME: Gif files may have multiple images stored in a single
295                 //        file.  This is most commonly used to enable
296                 //        animations.  Since we are leaving animated gifs as a
297                 //        TODO, we will return kSuccess after decoding the
298                 //        first image in the file.  This is the same behavior
299                 //        as SkImageDecoder_libgif.
300                 //
301                 //        Most times this works pretty well, but sometimes it
302                 //        doesn't.  For example, I have an animated test image
303                 //        where the first image in the file is 1x1, but the
304                 //        subsequent images are meaningful.  This currently
305                 //        displays the 1x1 image, which is not ideal.  Right
306                 //        now I am leaving this as an issue that will be
307                 //        addressed when we implement animated gifs.
308                 //
309                 //        It is also possible (not explicitly disallowed in the
310                 //        specification) that gif files provide multiple
311                 //        images in a single file that are all meant to be
312                 //        displayed in the same frame together.  I will
313                 //        currently leave this unimplemented until I find a
314                 //        test case that expects this behavior.
315                 return kSuccess;
316             }
317             // Extensions are used to specify special properties of the image
318             // such as transparency or animation.
319             case EXTENSION_RECORD_TYPE:
320                 // Read extension data
321                 if (GIF_ERROR == DGifGetExtension(gif, &extFunction, &extData)) {
322                     return gif_error("Could not get extension.\n", kIncompleteInput);
323                 }
324 
325                 // Create an extension block with our data
326                 while (nullptr != extData) {
327                     // Add a single block
328 
329 #if GIFLIB_MAJOR < 5
330                     if (AddExtensionBlock(&saveExt, extData[0],
331                                           &extData[1]) == GIF_ERROR) {
332 #else
333                     if (GIF_ERROR == GifAddExtensionBlock(&saveExt.ExtensionBlockCount,
334                                                           &saveExt.ExtensionBlocks,
335                                                           extFunction, extData[0], &extData[1])) {
336 #endif
337                         return gif_error("Could not add extension block.\n", kIncompleteInput);
338                     }
339                     // Move to the next block
340                     if (GIF_ERROR == DGifGetExtensionNext(gif, &extData)) {
341                         return gif_error("Could not get next extension.\n", kIncompleteInput);
342                     }
343                 }
344                 break;
345 
346             // Signals the end of the gif file
347             case TERMINATE_RECORD_TYPE:
348                 break;
349 
350             default:
351                 // DGifGetRecordType returns an error if the record type does
352                 // not match one of the above cases.  This should not be
353                 // reached.
354                 SkASSERT(false);
355                 break;
356         }
357     } while (TERMINATE_RECORD_TYPE != recordType);
358 
359     return gif_error("Could not find any images to decode in gif file.\n", kInvalidInput);
360 }
361 
362 bool SkGifCodec::GetDimensions(GifFileType* gif, SkISize* size, SkIRect* frameRect) {
363     // Get the encoded dimension values
364     SavedImage* image = &gif->SavedImages[gif->ImageCount - 1];
365     const GifImageDesc& desc = image->ImageDesc;
366     int frameLeft = desc.Left;
367     int frameTop = desc.Top;
368     int frameWidth = desc.Width;
369     int frameHeight = desc.Height;
370     int width = gif->SWidth;
371     int height = gif->SHeight;
372 
373     // Ensure that the decode dimensions are large enough to contain the frame
374     width = SkTMax(width, frameWidth + frameLeft);
375     height = SkTMax(height, frameHeight + frameTop);
376 
377     // All of these dimensions should be positive, as they are encoded as unsigned 16-bit integers.
378     // It is unclear why giflib casts them to ints.  We will go ahead and check that they are
379     // in fact positive.
380     if (frameLeft < 0 || frameTop < 0 || frameWidth < 0 || frameHeight < 0 || width <= 0 ||
381             height <= 0) {
382         return false;
383     }
384 
385     frameRect->setXYWH(frameLeft, frameTop, frameWidth, frameHeight);
386     size->set(width, height);
387     return true;
388 }
389 
390 void SkGifCodec::initializeColorTable(const SkImageInfo& dstInfo, SkPMColor* inputColorPtr,
391         int* inputColorCount) {
392     // Set up our own color table
393     const uint32_t maxColors = 256;
394     SkPMColor colorPtr[256];
395     if (NULL != inputColorCount) {
396         // We set the number of colors to maxColors in order to ensure
397         // safe memory accesses.  Otherwise, an invalid pixel could
398         // access memory outside of our color table array.
399         *inputColorCount = maxColors;
400     }
401 
402     // Get local color table
403     ColorMapObject* colorMap = fGif->Image.ColorMap;
404     // If there is no local color table, use the global color table
405     if (NULL == colorMap) {
406         colorMap = fGif->SColorMap;
407     }
408 
409     uint32_t colorCount = 0;
410     if (NULL != colorMap) {
411         colorCount = colorMap->ColorCount;
412         // giflib guarantees these properties
413         SkASSERT(colorCount == (unsigned) (1 << (colorMap->BitsPerPixel)));
414         SkASSERT(colorCount <= 256);
415         for (uint32_t i = 0; i < colorCount; i++) {
416             colorPtr[i] = SkPackARGB32(0xFF, colorMap->Colors[i].Red,
417                     colorMap->Colors[i].Green, colorMap->Colors[i].Blue);
418         }
419     }
420 
421     // Fill in the color table for indices greater than color count.
422     // This allows for predictable, safe behavior.
423     if (colorCount > 0) {
424         // Gifs have the option to specify the color at a single index of the color
425         // table as transparent.  If the transparent index is greater than the
426         // colorCount, we know that there is no valid transparent color in the color
427         // table.  If there is not valid transparent index, we will try to use the
428         // backgroundIndex as the fill index.  If the backgroundIndex is also not
429         // valid, we will let fFillIndex default to 0 (it is set to zero in the
430         // constructor).  This behavior is not specified but matches
431         // SkImageDecoder_libgif.
432         uint32_t backgroundIndex = fGif->SBackGroundColor;
433         if (fTransIndex < colorCount) {
434             colorPtr[fTransIndex] = SK_ColorTRANSPARENT;
435             fFillIndex = fTransIndex;
436         } else if (backgroundIndex < colorCount) {
437             fFillIndex = backgroundIndex;
438         }
439 
440         for (uint32_t i = colorCount; i < maxColors; i++) {
441             colorPtr[i] = colorPtr[fFillIndex];
442         }
443     } else {
444         sk_memset32(colorPtr, 0xFF000000, maxColors);
445     }
446 
447     fColorTable.reset(new SkColorTable(colorPtr, maxColors));
448     copy_color_table(dstInfo, this->fColorTable, inputColorPtr, inputColorCount);
449 }
450 
451 SkCodec::Result SkGifCodec::prepareToDecode(const SkImageInfo& dstInfo, SkPMColor* inputColorPtr,
452         int* inputColorCount, const Options& opts) {
453     // Check for valid input parameters
454     if (!conversion_possible(dstInfo, this->getInfo())) {
455         return gif_error("Cannot convert input type to output type.\n",
456                 kInvalidConversion);
457     }
458 
459     // Initialize color table and copy to the client if necessary
460     this->initializeColorTable(dstInfo, inputColorPtr, inputColorCount);
461 
462     this->initializeSwizzler(dstInfo, opts);
463     return kSuccess;
464 }
465 
466 void SkGifCodec::initializeSwizzler(const SkImageInfo& dstInfo, const Options& opts) {
467     const SkPMColor* colorPtr = get_color_ptr(fColorTable.get());
468     const SkIRect* frameRect = fFrameIsSubset ? &fFrameRect : nullptr;
469     fSwizzler.reset(SkSwizzler::CreateSwizzler(SkSwizzler::kIndex, colorPtr, dstInfo, opts,
470             frameRect));
471     SkASSERT(fSwizzler);
472 }
473 
474 bool SkGifCodec::readRow() {
475     return GIF_ERROR != DGifGetLine(fGif, fSrcBuffer.get(), fFrameRect.width());
476 }
477 
478 /*
479  * Initiates the gif decode
480  */
481 SkCodec::Result SkGifCodec::onGetPixels(const SkImageInfo& dstInfo,
482                                         void* dst, size_t dstRowBytes,
483                                         const Options& opts,
484                                         SkPMColor* inputColorPtr,
485                                         int* inputColorCount,
486                                         int* rowsDecoded) {
487     Result result = this->prepareToDecode(dstInfo, inputColorPtr, inputColorCount, opts);
488     if (kSuccess != result) {
489         return result;
490     }
491 
492     if (dstInfo.dimensions() != this->getInfo().dimensions()) {
493         return gif_error("Scaling not supported.\n", kInvalidScale);
494     }
495 
496     // Initialize the swizzler
497     if (fFrameIsSubset) {
498         // Fill the background
499         SkSampler::Fill(dstInfo, dst, dstRowBytes, this->getFillValue(dstInfo.colorType()),
500                 opts.fZeroInitialized);
501     }
502 
503     // Iterate over rows of the input
504     for (int y = fFrameRect.top(); y < fFrameRect.bottom(); y++) {
505         if (!this->readRow()) {
506             *rowsDecoded = y;
507             return gif_error("Could not decode line.\n", kIncompleteInput);
508         }
509         void* dstRow = SkTAddOffset<void>(dst, dstRowBytes * this->outputScanline(y));
510         fSwizzler->swizzle(dstRow, fSrcBuffer.get());
511     }
512     return kSuccess;
513 }
514 
515 // FIXME: This is similar to the implementation for bmp and png.  Can we share more code or
516 //        possibly make this non-virtual?
517 uint32_t SkGifCodec::onGetFillValue(SkColorType colorType) const {
518     const SkPMColor* colorPtr = get_color_ptr(fColorTable.get());
519     return get_color_table_fill_value(colorType, colorPtr, fFillIndex);
520 }
521 
522 SkCodec::Result SkGifCodec::onStartScanlineDecode(const SkImageInfo& dstInfo,
523         const SkCodec::Options& opts, SkPMColor inputColorPtr[], int* inputColorCount) {
524     return this->prepareToDecode(dstInfo, inputColorPtr, inputColorCount, this->options());
525 }
526 
527 void SkGifCodec::handleScanlineFrame(int count, int* rowsBeforeFrame, int* rowsInFrame) {
528     if (fFrameIsSubset) {
529         const int currRow = this->currScanline();
530 
531         // The number of rows that remain to be skipped before reaching rows that we
532         // actually must decode into.
533         // This must be at least zero.  We also make sure that it is less than or
534         // equal to count, since we will skip at most count rows.
535         *rowsBeforeFrame = SkTMin(count, SkTMax(0, fFrameRect.top() - currRow));
536 
537         // Rows left to decode once we reach the start of the frame.
538         const int rowsLeft = count - *rowsBeforeFrame;
539 
540         // Count the number of that extend beyond the bottom of the frame.  We do not
541         // need to decode into these rows.
542         const int rowsAfterFrame = SkTMax(0, currRow + rowsLeft - fFrameRect.bottom());
543 
544         // Set the actual number of source rows that we need to decode.
545         *rowsInFrame = rowsLeft - rowsAfterFrame;
546     } else {
547         *rowsBeforeFrame = 0;
548         *rowsInFrame = count;
549     }
550 }
551 
552 int SkGifCodec::onGetScanlines(void* dst, int count, size_t rowBytes) {
553     int rowsBeforeFrame;
554     int rowsInFrame;
555     this->handleScanlineFrame(count, &rowsBeforeFrame, &rowsInFrame);
556 
557     if (fFrameIsSubset) {
558         // Fill the requested rows
559         SkImageInfo fillInfo = this->dstInfo().makeWH(this->dstInfo().width(), count);
560         uint32_t fillValue = this->onGetFillValue(this->dstInfo().colorType());
561         fSwizzler->fill(fillInfo, dst, rowBytes, fillValue, this->options().fZeroInitialized);
562 
563         // Start to write pixels at the start of the image frame
564         dst = SkTAddOffset<void>(dst, rowBytes * rowsBeforeFrame);
565     }
566 
567     for (int i = 0; i < rowsInFrame; i++) {
568         if (!this->readRow()) {
569             return i + rowsBeforeFrame;
570         }
571         fSwizzler->swizzle(dst, fSrcBuffer.get());
572         dst = SkTAddOffset<void>(dst, rowBytes);
573     }
574 
575     return count;
576 }
577 
578 bool SkGifCodec::onSkipScanlines(int count) {
579     int rowsBeforeFrame;
580     int rowsInFrame;
581     this->handleScanlineFrame(count, &rowsBeforeFrame, &rowsInFrame);
582 
583     for (int i = 0; i < rowsInFrame; i++) {
584         if (!this->readRow()) {
585             return false;
586         }
587     }
588 
589     return true;
590 }
591 
592 SkCodec::SkScanlineOrder SkGifCodec::onGetScanlineOrder() const {
593     if (fGif->Image.Interlace) {
594         return kOutOfOrder_SkScanlineOrder;
595     }
596     return kTopDown_SkScanlineOrder;
597 }
598 
599 int SkGifCodec::onOutputScanline(int inputScanline) const {
600     if (fGif->Image.Interlace) {
601         if (inputScanline < fFrameRect.top() || inputScanline >= fFrameRect.bottom()) {
602             return inputScanline;
603         }
604         return get_output_row_interlaced(inputScanline - fFrameRect.top(), fFrameRect.height()) +
605                 fFrameRect.top();
606     }
607     return inputScanline;
608 }
609