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GifDecoder_Impl.h
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GifDecoder_Impl.h
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/*
* Animated GIFs Display Code for SmartMatrix and 32x32 RGB LED Panels
*
* This file contains code to parse animated GIF files
*
* Written by: Craig A. Lindley
*
* Copyright (c) 2014 Craig A. Lindley
* Minor modifications by Louis Beaudoin (pixelmatix)
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#define GIFDEBUG 0
#define tempBufferSz 260
#if defined (ARDUINO)
#include <Arduino.h>
#elif defined (SPARK)
#include "application.h"
#endif
// This file contains C code, and ESP32 Arduino has changed to use the C++ template version of min()/max() which we can't use with C, so we can't depend on a #define min() from Arduino anymore
#ifndef min
#define min(a,b) ((a)<(b)?(a):(b))
#endif
#include "GifDecoder.h"
#if GIFDEBUG == 1
#define DEBUG_SCREEN_DESCRIPTOR 1
#define DEBUG_GLOBAL_COLOR_TABLE 1
#define DEBUG_PROCESSING_PLAIN_TEXT_EXT 1
#define DEBUG_PROCESSING_GRAPHIC_CONTROL_EXT 1
#define DEBUG_PROCESSING_APP_EXT 1
#define DEBUG_PROCESSING_COMMENT_EXT 1
#define DEBUG_PROCESSING_FILE_TERM 1
#define DEBUG_PROCESSING_TABLE_IMAGE_DESC 1
#define DEBUG_PROCESSING_TBI_DESC_START 1
#define DEBUG_PROCESSING_TBI_DESC_INTERLACED 1
#define DEBUG_PROCESSING_TBI_DESC_LOCAL_COLOR_TABLE 1
#define DEBUG_PROCESSING_TBI_DESC_LZWCODESIZE 1
#define DEBUG_PROCESSING_TBI_DESC_DATABLOCKSIZE 1
#define DEBUG_PROCESSING_TBI_DESC_LZWIMAGEDATA_OVERFLOW 1
#define DEBUG_PROCESSING_TBI_DESC_LZWIMAGEDATA_SIZE 1
#define DEBUG_PARSING_DATA 1
#define DEBUG_DECOMPRESS_AND_DISPLAY 1
#define DEBUG_WAIT_FOR_KEY_PRESS 0
#endif
#include "GifDecoder.h"
// Error codes
#define ERROR_NONE 0
#define ERROR_DONE_PARSING 1
#define ERROR_WAITING 2
#define ERROR_FILEOPEN -1
#define ERROR_FILENOTGIF -2
#define ERROR_BADGIFFORMAT -3
#define ERROR_UNKNOWNCONTROLEXT -4
#define GIFHDRTAGNORM "GIF87a" // tag in valid GIF file
#define GIFHDRTAGNORM1 "GIF89a" // tag in valid GIF file
#define GIFHDRSIZE 6
// Global GIF specific definitions
#define COLORTBLFLAG 0x80
#define INTERLACEFLAG 0x40
#define TRANSPARENTFLAG 0x01
#define NO_TRANSPARENT_INDEX -1
// Disposal methods
#define DISPOSAL_NONE 0
#define DISPOSAL_LEAVE 1
#define DISPOSAL_BACKGROUND 2
#define DISPOSAL_RESTORE 3
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::setStartDrawingCallback(callback f) {
startDrawingCallback = f;
}
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::setUpdateScreenCallback(callback f) {
updateScreenCallback = f;
}
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::setDrawPixelCallback(pixel_callback f) {
drawPixelCallback = f;
}
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::setScreenClearCallback(callback f) {
screenClearCallback = f;
}
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::setFileSeekCallback(file_seek_callback f) {
fileSeekCallback = f;
}
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::setFilePositionCallback(file_position_callback f) {
filePositionCallback = f;
}
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::setFileReadCallback(file_read_callback f) {
fileReadCallback = f;
}
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::setFileReadBlockCallback(file_read_block_callback f) {
fileReadBlockCallback = f;
}
// Backup the read stream by n bytes
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::backUpStream(int n) {
fileSeekCallback(filePositionCallback() - n);
}
// Read a file byte
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
int GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::readByte() {
int b = fileReadCallback();
if (b == -1) {
#if GIFDEBUG == 1
Serial.println("Read error or EOF occurred");
#endif
}
return b;
}
// Read a file word
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
int GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::readWord() {
int b0 = readByte();
int b1 = readByte();
return (b1 << 8) | b0;
}
// Read the specified number of bytes into the specified buffer
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
int GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::readIntoBuffer(void *buffer, int numberOfBytes) {
int result = fileReadBlockCallback(buffer, numberOfBytes);
if (result == -1) {
Serial.println("Read error or EOF occurred");
}
return result;
}
// Fill a portion of imageData buffer with a color index
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::fillImageDataRect(uint8_t colorIndex, int x, int y, int width, int height) {
int yOffset;
for (int yy = y; yy < height + y; yy++) {
yOffset = yy * maxGifWidth;
for (int xx = x; xx < width + x; xx++) {
imageData[yOffset + xx] = colorIndex;
}
}
}
// Fill entire imageData buffer with a color index
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::fillImageData(uint8_t colorIndex) {
memset(imageData, colorIndex, gifsize);
}
// Copy image data in rect from a src to a dst
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::copyImageDataRect(uint8_t *dst, uint8_t *src, int x, int y, int width, int height) {
int yOffset, offset;
for (int yy = y; yy < height + y; yy++) {
yOffset = yy * maxGifWidth;
for (int xx = x; xx < width + x; xx++) {
offset = yOffset + xx;
dst[offset] = src[offset];
}
}
}
// Make sure the file is a Gif file
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
bool GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::parseGifHeader() {
char buffer[10];
readIntoBuffer(buffer, GIFHDRSIZE);
if ((strncmp(buffer, GIFHDRTAGNORM, GIFHDRSIZE) != 0) &&
(strncmp(buffer, GIFHDRTAGNORM1, GIFHDRSIZE) != 0)) {
return false;
}
else {
return true;
}
}
// Parse the logical screen descriptor
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::parseLogicalScreenDescriptor() {
lsdWidth = readWord();
lsdHeight = readWord();
lsdPackedField = readByte();
lsdBackgroundIndex = readByte();
lsdAspectRatio = readByte();
#if GIFDEBUG == 1 && DEBUG_SCREEN_DESCRIPTOR == 1
Serial.print("lsdWidth: ");
Serial.println(lsdWidth);
Serial.print("lsdHeight: ");
Serial.println(lsdHeight);
Serial.print("lsdPackedField: ");
Serial.println(lsdPackedField, HEX);
Serial.print("lsdBackgroundIndex: ");
Serial.println(lsdBackgroundIndex);
Serial.print("lsdAspectRatio: ");
Serial.println(lsdAspectRatio);
#endif
}
// Parse the global color table
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::parseGlobalColorTable() {
// Does a global color table exist?
if (lsdPackedField & COLORTBLFLAG) {
// A GCT was present determine how many colors it contains
colorCount = 1 << ((lsdPackedField & 7) + 1);
#if GIFDEBUG == 1 && DEBUG_GLOBAL_COLOR_TABLE == 1
Serial.print("Global color table with ");
Serial.print(colorCount);
Serial.println(" colors present");
#endif
// Read color values into the palette array
int colorTableBytes = sizeof(rgb_24) * colorCount;
readIntoBuffer(palette, colorTableBytes);
}
}
// Parse plain text extension and dispose of it
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::parsePlainTextExtension() {
#if GIFDEBUG == 1 && DEBUG_PROCESSING_PLAIN_TEXT_EXT == 1
Serial.println("\nProcessing Plain Text Extension");
#endif
// Read plain text header length
uint8_t len = readByte();
// Consume plain text header data
readIntoBuffer(tempBuffer, len);
// Consume the plain text data in blocks
len = readByte();
while (len != 0) {
readIntoBuffer(tempBuffer, len);
len = readByte();
}
}
// Parse a graphic control extension
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::parseGraphicControlExtension() {
#if GIFDEBUG == 1 && DEBUG_PROCESSING_GRAPHIC_CONTROL_EXT == 1
Serial.println("\nProcessing Graphic Control Extension");
#endif
int len = readByte(); // Check length
if (len != 4) {
Serial.println("Bad graphic control extension");
}
int packedBits = readByte();
frameDelay = readWord();
transparentColorIndex = readByte();
if ((packedBits & TRANSPARENTFLAG) == 0) {
// Indicate no transparent index
transparentColorIndex = NO_TRANSPARENT_INDEX;
}
disposalMethod = (packedBits >> 2) & 7;
if (disposalMethod > 3) {
disposalMethod = 0;
//Serial.println("Invalid disposal value");
}
readByte(); // Toss block end
#if GIFDEBUG == 1 && DEBUG_PROCESSING_GRAPHIC_CONTROL_EXT == 1
Serial.print("PacketBits: ");
Serial.println(packedBits, HEX);
Serial.print("Frame delay: ");
Serial.println(frameDelay);
Serial.print("transparentColorIndex: ");
Serial.println(transparentColorIndex);
Serial.print("disposalMethod: ");
Serial.println(disposalMethod);
#endif
}
// Parse application extension
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::parseApplicationExtension() {
memset(tempBuffer, 0, tempBufferSz);
#if GIFDEBUG == 1 && DEBUG_PROCESSING_APP_EXT == 1
Serial.println("\nProcessing Application Extension");
#endif
// Read block length
uint8_t len = readByte();
// Read app data
readIntoBuffer(tempBuffer, len);
#if GIFDEBUG == 1 && DEBUG_PROCESSING_APP_EXT == 1
// Conditionally display the application extension string
if (strlen(tempBuffer) != 0) {
Serial.print("Application Extension: ");
Serial.println(tempBuffer);
}
#endif
// Consume any additional app data
len = readByte();
while (len != 0) {
readIntoBuffer(tempBuffer, len);
len = readByte();
}
}
// Parse comment extension
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::parseCommentExtension() {
#if GIFDEBUG == 1 && DEBUG_PROCESSING_COMMENT_EXT == 1
Serial.println("\nProcessing Comment Extension");
#endif
// Read block length
uint8_t len = readByte();
while (len != 0) {
// Clear buffer
memset(tempBuffer, 0, tempBufferSz);
// Read len bytes into buffer
readIntoBuffer(tempBuffer, len);
#if GIFDEBUG == 1 && DEBUG_PROCESSING_COMMENT_EXT == 1
// Display the comment extension string
if (strlen(tempBuffer) != 0) {
Serial.print("Comment Extension: ");
Serial.println(tempBuffer);
}
#endif
// Read the new block length
len = readByte();
}
}
// Parse file terminator
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
int GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::parseGIFFileTerminator() {
#if GIFDEBUG == 1 && DEBUG_PROCESSING_FILE_TERM == 1
Serial.println("\nProcessing file terminator");
#endif
uint8_t b = readByte();
if (b != 0x3B) {
#if GIFDEBUG == 1 && DEBUG_PROCESSING_FILE_TERM == 1
Serial.print("Terminator byte: ");
Serial.println(b, HEX);
#endif
Serial.println("Bad GIF file format - Bad terminator");
return ERROR_BADGIFFORMAT;
}
else {
return ERROR_NONE;
}
}
// Parse table based image data
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::parseTableBasedImage() {
#if GIFDEBUG == 1 && DEBUG_PROCESSING_TBI_DESC_START == 1
Serial.println("\nProcessing Table Based Image Descriptor");
#endif
#if GIFDEBUG == 1 && DEBUG_PARSING_DATA == 1
Serial.println("File Position: ");
Serial.println(filePositionCallback());
Serial.println("File Size: ");
//Serial.println(file.size());
#endif
// Parse image descriptor
tbiImageX = readWord();
tbiImageY = readWord();
tbiWidth = readWord();
tbiHeight = readWord();
tbiPackedBits = readByte();
#if GIFDEBUG == 1
Serial.print("tbiImageX: ");
Serial.println(tbiImageX);
Serial.print("tbiImageY: ");
Serial.println(tbiImageY);
Serial.print("tbiWidth: ");
Serial.println(tbiWidth);
Serial.print("tbiHeight: ");
Serial.println(tbiHeight);
Serial.print("PackedBits: ");
Serial.println(tbiPackedBits, HEX);
#endif
// Is this image interlaced ?
tbiInterlaced = ((tbiPackedBits & INTERLACEFLAG) != 0);
#if GIFDEBUG == 1 && DEBUG_PROCESSING_TBI_DESC_INTERLACED == 1
Serial.print("Image interlaced: ");
Serial.println((tbiInterlaced != 0) ? "Yes" : "No");
#endif
// Does this image have a local color table ?
bool localColorTable = ((tbiPackedBits & COLORTBLFLAG) != 0);
if (localColorTable) {
int colorBits = ((tbiPackedBits & 7) + 1);
colorCount = 1 << colorBits;
#if GIFDEBUG == 1 && DEBUG_PROCESSING_TBI_DESC_LOCAL_COLOR_TABLE == 1
Serial.print("Local color table with ");
Serial.print(colorCount);
Serial.println(" colors present");
#endif
// Read colors into palette
int colorTableBytes = sizeof(rgb_24) * colorCount;
readIntoBuffer(palette, colorTableBytes);
}
// One time initialization of imageData before first frame
if (keyFrame) {
if (transparentColorIndex == NO_TRANSPARENT_INDEX) {
fillImageData(lsdBackgroundIndex);
}
else {
fillImageData(transparentColorIndex);
}
keyFrame = false;
rectX = 0;
rectY = 0;
rectWidth = maxGifWidth;
rectHeight = maxGifHeight;
}
// Don't clear matrix screen for these disposal methods
if ((prevDisposalMethod != DISPOSAL_NONE) && (prevDisposalMethod != DISPOSAL_LEAVE)) {
if(screenClearCallback)
(*screenClearCallback)();
}
// Process previous disposal method
if (prevDisposalMethod == DISPOSAL_BACKGROUND) {
// Fill portion of imageData with previous background color
fillImageDataRect(prevBackgroundIndex, rectX, rectY, rectWidth, rectHeight);
}
else if (prevDisposalMethod == DISPOSAL_RESTORE) {
copyImageDataRect(imageData, imageDataBU, rectX, rectY, rectWidth, rectHeight);
}
// Save disposal method for this frame for next time
prevDisposalMethod = disposalMethod;
if (disposalMethod != DISPOSAL_NONE) {
// Save dimensions of this frame
rectX = tbiImageX;
rectY = tbiImageY;
rectWidth = tbiWidth;
rectHeight = tbiHeight;
// limit rectangle to the bounds of maxGifWidth*maxGifHeight
if(rectX + rectWidth > maxGifWidth)
rectWidth = maxGifWidth-rectX;
if(rectY + rectHeight > maxGifHeight)
rectHeight = maxGifHeight-rectY;
if(rectX >= maxGifWidth || rectY >= maxGifHeight) {
rectX = rectY = rectWidth = rectHeight = 0;
}
if (disposalMethod == DISPOSAL_BACKGROUND) {
if (transparentColorIndex != NO_TRANSPARENT_INDEX) {
prevBackgroundIndex = transparentColorIndex;
}
else {
prevBackgroundIndex = lsdBackgroundIndex;
}
}
else if (disposalMethod == DISPOSAL_RESTORE) {
copyImageDataRect(imageDataBU, imageData, rectX, rectY, rectWidth, rectHeight);
}
}
// Read the min LZW code size
lzwCodeSize = readByte();
#if GIFDEBUG == 1 && DEBUG_PROCESSING_TBI_DESC_LZWCODESIZE == 1
Serial.print("LzwCodeSize: ");
Serial.println(lzwCodeSize);
Serial.println("File Position Before: ");
Serial.println(filePositionCallback());
#endif
unsigned long filePositionBefore = filePositionCallback();
// Gather the lzw image data
// NOTE: the dataBlockSize byte is left in the data as the lzw decoder needs it
int offset = 0;
int dataBlockSize = readByte();
while (dataBlockSize != 0) {
#if GIFDEBUG == 1 && DEBUG_PROCESSING_TBI_DESC_DATABLOCKSIZE == 1
Serial.print("dataBlockSize: ");
Serial.println(dataBlockSize);
#endif
backUpStream(1);
dataBlockSize++;
fileSeekCallback(filePositionCallback() + dataBlockSize);
offset += dataBlockSize;
dataBlockSize = readByte();
}
#if GIFDEBUG == 1 && DEBUG_PROCESSING_TBI_DESC_LZWIMAGEDATA_SIZE == 1
Serial.print("total lzwImageData Size: ");
Serial.println(offset);
Serial.println("File Position Test: ");
Serial.println(filePositionCallback());
#endif
// this is the position where GIF decoding needs to pick up after decompressing frame
unsigned long filePositionAfter = filePositionCallback();
fileSeekCallback(filePositionBefore);
// Process the animation frame for display
// Initialize the LZW decoder for this frame
lzw_decode_init(lzwCodeSize);
lzw_setTempBuffer((uint8_t*)tempBuffer);
// Make sure there is at least some delay between frames
if (frameDelay < 1) {
frameDelay = 1;
}
// Decompress LZW data and display the frame
decompressAndDisplayFrame(filePositionAfter);
// Graphic control extension is for a single frame
transparentColorIndex = NO_TRANSPARENT_INDEX;
disposalMethod = DISPOSAL_NONE;
}
// Parse gif data
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
int GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::parseData() {
if(nextFrameTime_ms > millis())
return ERROR_WAITING;
#if GIFDEBUG == 1 && DEBUG_PARSING_DATA == 1
Serial.println("\nParsing Data Block");
#endif
bool parsedFrame = false;
while (!parsedFrame) {
#if GIFDEBUG == 1 && DEBUG_WAIT_FOR_KEY_PRESS == 1
Serial.println("\nPress Key For Next");
while(Serial.read() <= 0);
#endif
// Determine what kind of data to process
uint8_t b = readByte();
if (b == 0x2c) {
// Parse table based image
#if GIFDEBUG == 1 && DEBUG_PARSING_DATA == 1
Serial.println("\nParsing Table Based");
#endif
parseTableBasedImage();
parsedFrame = true;
}
else if (b == 0x21) {
// Parse extension
b = readByte();
#if GIFDEBUG == 1 && DEBUG_PARSING_DATA == 1
Serial.println("\nParsing Extension");
#endif
// Determine which kind of extension to parse
switch (b) {
case 0x01:
// Plain test extension
parsePlainTextExtension();
break;
case 0xf9:
// Graphic control extension
parseGraphicControlExtension();
break;
case 0xfe:
// Comment extension
parseCommentExtension();
break;
case 0xff:
// Application extension
parseApplicationExtension();
break;
default:
Serial.print("Unknown control extension: ");
Serial.println(b, HEX);
return ERROR_UNKNOWNCONTROLEXT;
}
}
else {
#if GIFDEBUG == 1 && DEBUG_PARSING_DATA == 1
Serial.println("\nParsing Done");
#endif
// Push unprocessed byte back into the stream for later processing
backUpStream(1);
return ERROR_DONE_PARSING;
}
}
return ERROR_NONE;
}
// from neomatrix_config.h
extern void show_free_mem(const char *);
extern void *mallocordie(const char *varname, uint32_t req, bool psram);
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
int GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::startDecoding(void) {
if (!stack) {
// use PSRAM if available for those bigger buffers.
stack = (uint8_t *) mallocordie("stack", LZW_SIZTABLE, true);
prefix = (uint16_t *) mallocordie("prefix", LZW_SIZTABLE*2, true);
suffix = (uint8_t *) mallocordie("suffix", LZW_SIZTABLE, true);
imageData = (uint8_t *) mallocordie("imageData", gifsize, true);
imageDataBU = (uint8_t *) mallocordie("imageDataBU", gifsize, true);
// skip PSRAM on those, hey are too small to bother
palette = (rgb_24 *) mallocordie("palette", sizeof(rgb_24)*256, false);
tempBuffer = (char *) mallocordie("tempBuffer", tempBufferSz, false); // 260 bytes
// from neomatrix_config.h:
show_free_mem();
}
// For 64x64 GIFS on a 64x96 display, PSRAM saves 24KB of real RAM:
// after:
// Heap/32-bit Memory Available : 200752 bytes total, 73548 bytes largest free block
// 8-bit/malloc/DMA Memory Available: 127204 bytes total, 64624 bytes largest free block
// Total PSRAM used: 24576 bytes total, 4169596 PSRAM bytes free
//
// before:
// Heap/32-bit Memory Available : 187424 bytes total, 84752 bytes largest free block
// 8-bit/malloc/DMA Memory Available: 102672 bytes total, 64624 bytes largest free block
// Initialize variables
keyFrame = true;
prevDisposalMethod = DISPOSAL_NONE;
transparentColorIndex = NO_TRANSPARENT_INDEX;
nextFrameTime_ms = 0;
fileSeekCallback(0);
// Validate the header
if (! parseGifHeader()) {
Serial.println("Not a GIF file");
return ERROR_FILENOTGIF;
}
// If we get here we have a gif file to process
// Parse the logical screen descriptor
parseLogicalScreenDescriptor();
// Parse the global color table
parseGlobalColorTable();
return ERROR_NONE;
}
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
int GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::decodeFrame(void) {
// Parse gif data
int result = parseData();
if (result < ERROR_NONE) {
Serial.println("Error: ");
Serial.println(result);
Serial.println(" occurred during parsing of data");
return result;
}
if (result == ERROR_DONE_PARSING) {
//startDecoding();
// Initialize variables like with a new file
keyFrame = true;
prevDisposalMethod = DISPOSAL_NONE;
transparentColorIndex = NO_TRANSPARENT_INDEX;
nextFrameTime_ms = 0;
fileSeekCallback(0);
// parse Gif Header like with a new file
parseGifHeader();
// Parse the logical screen descriptor
parseLogicalScreenDescriptor();
// Parse the global color table
parseGlobalColorTable();
}
return result;
}
// Decompress LZW data and display animation frame
template <int maxGifWidth, int maxGifHeight, int lzwMaxBits>
void GifDecoder<maxGifWidth, maxGifHeight, lzwMaxBits>::decompressAndDisplayFrame(unsigned long filePositionAfter) {
// Each pixel of image is 8 bits and is an index into the palette
// How the image is decoded depends upon whether it is interlaced or not
// Decode the interlaced LZW data into the image buffer
if (tbiInterlaced) {
// Decode every 8th line starting at line 0
for (int line = tbiImageY + 0; line < tbiHeight + tbiImageY; line += 8) {
lzw_decode(imageData + (line * maxGifWidth) + tbiImageX, tbiWidth, min(imageData + (line * maxGifWidth) + maxGifWidth, imageData + gifsize));
}
// Decode every 8th line starting at line 4
for (int line = tbiImageY + 4; line < tbiHeight + tbiImageY; line += 8) {
lzw_decode(imageData + (line * maxGifWidth) + tbiImageX, tbiWidth, min(imageData + (line * maxGifWidth) + maxGifWidth, imageData + gifsize));
}
// Decode every 4th line starting at line 2
for (int line = tbiImageY + 2; line < tbiHeight + tbiImageY; line += 4) {
lzw_decode(imageData + (line * maxGifWidth) + tbiImageX, tbiWidth, min(imageData + (line * maxGifWidth) + maxGifWidth, imageData + gifsize));
}
// Decode every 2nd line starting at line 1
for (int line = tbiImageY + 1; line < tbiHeight + tbiImageY; line += 2) {
lzw_decode(imageData + (line * maxGifWidth) + tbiImageX, tbiWidth, min(imageData + (line * maxGifWidth) + maxGifWidth, imageData + gifsize));
}
}
else {
// Decode the non interlaced LZW data into the image data buffer
for (int line = tbiImageY; line < tbiHeight + tbiImageY; line++) {
lzw_decode(imageData + (line * maxGifWidth) + tbiImageX, tbiWidth, imageData + gifsize);
}
}
#if GIFDEBUG == 1 && DEBUG_DECOMPRESS_AND_DISPLAY == 1
Serial.println("File Position After: ");
Serial.println(filePositionCallback());
#endif
#if GIFDEBUG == 1 && DEBUG_WAIT_FOR_KEY_PRESS == 1
Serial.println("\nPress Key For Next");
while(Serial.read() <= 0);
#endif
// LZW doesn't parse through all the data, manually set position
fileSeekCallback(filePositionAfter);
// Optional callback can be used to get drawing routines ready
if(startDrawingCallback)
(*startDrawingCallback)();
// Image data is decompressed, now display portion of image affected by frame
int yOffset, pixel;
for (int y = tbiImageY; y < tbiHeight + tbiImageY; y++) {
yOffset = y * maxGifWidth;
for (int x = tbiImageX; x < tbiWidth + tbiImageX; x++) {
// Get the next pixel
pixel = imageData[yOffset + x];
// Check pixel transparency
if (pixel == transparentColorIndex) {
continue;
}
// Pixel not transparent so get color from palette and draw the pixel
if(drawPixelCallback)
(*drawPixelCallback)(x, y, palette[pixel].red, palette[pixel].green, palette[pixel].blue);
}
}
// Make animation frame visible
// swapBuffers() call can take up to 1/framerate seconds to return (it waits until a buffer copy is complete)
// note the time before calling
// wait until time to display next frame
while(nextFrameTime_ms > millis());
// calculate time to display next frame
nextFrameTime_ms = millis() + (10 * frameDelay);
if(updateScreenCallback)
(*updateScreenCallback)();
}