It is a proposal, and the format is subject to change.
Comments on this document can be sent to the PNG specification maintainers at
png-info@uunet.uu.net
or
at
png-list@dworkin.wustl.edu
.
Distribution of this memo is unlimited.
At present, the latest version of this document is available on the World Wide Web from
ftp://swrinde.nde.swri.edu/pub/png-group/documents/mpng/
.
Mostly due to comments from Andreas and Tom Lane. The changes invalidate files written according to the ninth draft.
A PND stream defines an image in terms of a basis PNG, PNP, or PND image and the differences from that image. This can provide a much more compact way of representing subsequent images than using a complete PNG or PNP stream for each.
A composite frame stream defines a single image whose subimages can be PNG, PND, or PNP single-image streams. A composite frame can be independent, or, if it contains PND streams, it can depend upon the information in the previous composite frame. The composite frame format provides a mechanism for using a subimage as a "sprite" that can be moved from one location to another in subsequent dependent composite frames.
The PNF and PND formats use the same chunk structure that is defined in the PNG specification, and share other features of the PNG format.
Note: This [proposed] specification depends on the PNG
Portable Network Graphics)
and PNP (Portable Network Photograph) specifications.
PNP is under discussion by pnp-list@dworkin.wustl.edu
. The PNG
specification is available at the PNG home page,
http://quest.jpl.nasa.gov/PNG/A PNF stream describes a sequence of single images, each of which can be composed of one or more PNG, PNP, PND (PNG-Delta, defined herein), or composite images.
PNF is pronounced "Ping-frames."
When the PNF stream is a standalone file, the first eight bytes are
138 80 78 70 13 10 26 10which is similar to the PNG signature with "\212 P N F" instead of "\211 P N G" in bytes 1-4. Use ".pnf" as the file suffix.
PNF does not accommodate sound or complex sequencing information, nor does
it accommodate playing a stream backwards. Those are left to be described
in the MPNG specification, which is yet to be defined, and is being discussed
in the mpng-list@dworkin.wustl.edu
mailing list.
Chunk structure (length, name, CRC) and the chunk-naming system are identical to those defined in the PNG specification. As in PNG, all integers that require more than one byte will be in network byte order.
A PNF stream consists of a FHDR chunk, followed by one or more image definitions, followed by the FEND chunk. The first image can be a PNG stream (IHDR, PNG chunks, IEND), a PNP stream PHDR, PNP chunks, PEND), or an "initial" composite frame (CHDR, composite frame chunks, CEND). Subsequent images can be any of these, or a PND stream (DHDR, PND chunks, DEND), or a "dependent" composite frame. Each chunk of the PNF stream or of any image definition is an independent entity, i.e., no chunk is enclosed in the data segment of another chunk.
4 bytes: max_frame_width (unsigned integer, default 2^31-1) 4 bytes: max_frame_height (unsigned integer, default 2^31-1) 4 bytes: max_number_of_frames (unsigned integer, default 2^31-1) There are not more than max_number_of_frames in this PNF stream. 4 bytes: max_chunk_length (unsigned integer, default 2^31-1) No chunk in this stream, including in any included PNGs or PNPs, has a data field exceeding this length. 4 bytes: ticks_per_second (unsigned integer, default 1) 4 bytes: frame_duration (unsigned integer, default 1) in ticks. The time between the beginning of displaying one frame until the beginning of displaying the next. 4 bytes: total_duration (unsigned integer, default 2^31-1 in ticks. Maximum total duration of the entire stream. The sum of the individual frame_durations must not exceed this value (under actual playback conditions the display is likely to take longer). 4 bytes: default_gamma (unsigned integer, default 100000). The value of gamma, times 100000, to be assumed for any images or subimages in the stream that do not supply their own value of gamma. This default gamma value also applies to the background color or application-supplied background image, if the gamma value for the background is unknown, and is the gamma value to be assumed when using the gPLT chunk. 1 byte: max_bit_depth (unsigned integer, default 16) 1 byte: background_source (unsigned integer, default 0) 0: use the supplied background color 1: read the current display contents or application specified background if possible, but if not possible, then use supplied background color 2: background is not required. 2 bytes: red_background (unsigned integer, default 0) 2 bytes: green_background (unsigned integer, default 0) 2 bytes: blue_background (unsigned integer, default 0) 1 byte: ok_to_discard (unsigned integer, default 0) 0: image data of each frame must be retained until the subsequent frame is processed. 1: image data may be discarded after processing each frame. This is a promise that this PNF stream contains no PNDs or dependent composite frames)Any of the FHDR data fields can be set equal to zero, meaning that the value assumes the default value. Encoders are strongly encouraged not to use zeros, especially for the max_frame_width and max_frame_height fields, though, if the information is available when the encoder is writing the FHDR chunk.
See the PNG specification for the format of the PNG chunks.
Any chunks between IHDR and IEND are written and decoded according to the PNG specification. The image width and height must not exceed max_frame_width and max_frame_height from the FHDR chunk.
See Chapter 3, The PND Format, below, for the format of the PND stream. Any chunks between DHDR and DEND are written and decoded according to the PND format. The image width and height must not exceed max_frame_width and max_frame_height from the FHDR chunk.
See the PNP specification [not yet written] for the format of the PHDR and PNP chunks.
[It is assumed that the PNP stream will begin with a PHDR chunk and end with a PEND chunk, and it is assumed that the first two fields of PHDR will be unsigned 4-byte integers giving the image width and height. It is also assumed that the PNP image data will be contained in a sequence of PDAT chunks. These are not necessarily good assumptions. Nothing in this document should be construed to constrain the development of PNP in any way]
The image width and height must not exceed max_frame_width and max_frame_height from the FHDR chunk.
Any chunks between PHDR and PEND are written and decoded according to the PNP specification. Until PNP is defined, it is acceptable for viewers to display an empty width by height frame when a PNP stream is encountered. Such viewers should, when encountering a PHDR chunk, simply skip chunks until a PEND chunk is found.
n bytes: previous (number of bytes since the previous SEEK chunk) If previous == 0, then the number of bytes is unspecified. n bytes: next (number of bytes to the next SEEK chunk) If next == 0, then the number of bytes is unspecified. n is the length of the SEEK chunk, divided by two. n must be either 4 or 8.The SEEK chunk is only allowed at positions in the PNF stream where a restart is possible, and no information appearing prior to the SEEK chunk (other than the information in the FHDR chunk) is required to display the remainder of the stream properly. In addition to providing a mechanism for skipping frames or backspacing over frames, this provides a means of dealing with a corrupted datastream. The viewer would abandon processing and simply look for the next SEEK chunk before resuming. Note that looking for a PNG IHDR or PNP PHDR would not be sufficient because the PNG or PNP stream might be a subimage a of a composite frame rather than a complete frame description.
When n is eight, 32-bit machines will have to interpret "previous" as a set of two integers, the first representing the number of complete 4G blocks and the second (the last four bytes of "previous") as the remainder, and will have to treat "next" similarly.
"Previous" and "next" are measured from the first length byte of one SEEK chunk to the first length byte of another SEEK chunk.
Applications are allowed to forget everything preceding the SEEK chunk, except for data appearing in the FHDR chunk, so new instances of any needed chunks are required. The first frame following the SEEK chunk must not be defined by a PND stream or a "dependent" composite frame.
Multiple instances of the SEEK chunk are permitted.
Multiple instances of the dISC chunk are permitted.
4 bytes: duration (unsigned integer), in ticks, using the tick length determined from ticks_per_second defined in the FHDR chunk.Overrides the value of duration given in the FHDR chunk. The value of "duration" will remain in effect until another "dURa" chunk is encountered or until a "SEEK" chunk is encountered, when the duration reverts to the value from FHDR. Multiple instances of the dURa chunk are permitted, but no more than one dURa chunk is permitted between any two critical chunks. The dURa chunk takes effect immediately; if a dURa is encountered after an image has been displayed, the next image can be started after the specified number of ticks have elapsed since the previous image was started.
If the PND stream is a standalone file (not usually the case), the first eight bytes are
140 80 78 68 13 10 26 10which is similar to the PNG signature with "\213 P N D" instead of "\211 P N G" in bytes 1-4. Use ".pnd" as the file suffix.
PND is pronounced "Ping-delta."
The decoder must have available a basis (decoded) image from which the original chunk data is known. How the basis image is made available to the decoder is up to the implementation. It could be in a separate file or it could be provided earlier in a PNF datastream. The basis image can be the result of decoding a PNG, a PNP, or another PND stream. If alpha or transparency is present, then the decoder must also have available the original background against which the basis image was displayed, if transparency or alpha are to be composited against the background.
The decoder must not have modified the pixel data in the basis image by applying output transformations such as gAMA or cHRM, or by compositing the image against a background. Instead, the decoder must make available to the PND decoder the unmodified pixel data along with the values for the gAMA, cHRM, and any other recognized chunks from the basis image datastream.
A PND stream consists of a DHDR and DEND enclosing other optional chunks (if there are no other chunks, the decoder simply copies the basis image).
Chunk structure (length, name, CRC) and the chunk-naming system are identical to those defined in the PNG specification. Definitions of compression_type, filter_type, and interlace_type are also the same as defined in the PNG specification.
1 byte: delta_type 0: image replacement 1: subtraction, by bytes, modulo 256.[We might want to add other delta_types like an interplane Paeth filter]
1 byte: copy-safe 0: This stream contains no changes that would render unknown chunks unsafe-to-copy. All chunks will be copied from the previous image unless they are mentioned in a NOCO chunk. 1: This stream contains changes that would render unknown chunks unsafe-to-copy. Such chunks will not be copied from the previous image unless they are mentioned in a COPY chunk.
See the PNG specification for the format of the PNG chunks. The PNG stream must contain at least IHDR and IEND but may inherit other chunk data from the basis image. Except for IDAT, any chunks appearing between IHDR and IEND are always treated as replacements or additions and not as deltas.
The image width and height, color_type, and bit_depth must match those of the basis image, and the basis image must have been derived from a PNG stream or from a sequence of PND streams that depend upon a PNG stream, but not from a PNP stream.
The compression method, filter method, and interlace method need not be the same. [We might want to add a compression_type that uses deflate with the previous image data as a preset dictionary]
The IDAT chunk data contains a filtered and perhaps interlaced set of delta pixel samples. The delta samples are presented in the order specified by interlace method, filtered according to the filter method and compressed according to the compression method given in the IHDR chunk. The actual pixel values are calculated using the method defined in the delta_type field of the DHDR chunk.
When delta_type == 1, an encoder calculates the bytes in the IDAT chunk by subtracting the new image bytes from the basis image bytes, modulo 256. When decoding the IDAT chunk, the new image bytes are obtained by adding the delta bytes to the basis image bytes, modulo 256. This is similar in operation to the PNG SUB filter.
When color_type is 3, the deltas are differences between index values (by bytes), not between color samples.
4 bytes: chunkname_1 etc. 4 bytes: chunkname_nCOPY provides a list of chunknames that are to be copied (values inherited) from the basis image, regardless of the copy-safe rules, and regardless of whether the chunk is recognized or not. The number of names is determined from the chunk length, divided by 4.
There can be multiple instances of the COPY chunk. COPY chunks must appear before IHDR or PHDR if either is present.
The COPY chunk does not specify the placement of chunks within the resulting PNG stream; it merely marks them for copying. The decoder can place them in any order, relative to their order in the basis image, that obeys the chunk-ordering rules for copy-safe chunks given in the PNG specification.
The COPY chunk data itself is inherited (unless "COPY" appears in a NOCO chunk), so a COPY chunk need only appear in the first of a sequence of PND streams, if there are no changes.
If a chunkname appears in a COPY chunk and also appears in a NOCO chunk, the last instance takes precedence.
Applications that reconstruct a PNG or PNF stream from a PND stream and a basis PNG, PNF, or PND stream should not write the COPY chunk to the resulting PNG or PNF stream, because the COPY chunk would not be recognized by a PNG or PNF decoder.
It is not an error for a chunkname to appear in the copy list, when that chunk does not appear in the basis image.
4 bytes: chunkname_1 etc. 4 bytes: chunkname_nNOCO provides a list of chunknames that are not to be copied (values not to be inherited) from the basis image, regardless of the copy-safe rules, and regardless of whether the chunk is recognized or not. The number of names is determined from the chunk length, divided by 4.
There can be multiple instances of the NOCO chunk. The NOCO chunks must appear before IHDR or PHDR, if either is present.
If a chunkname appears in a COPY chunk and also appears in a NOCO chunk, the last instance takes precedence.
It is not an error for a chunkname to appear in the NOCO list, when that chunk does not appear in the basis image.
Applications that reconstruct a PNG or PNF stream from a PND stream and a basis PNG, PNF, or PND stream should not write the NOCO chunk to the resulting PNG or PNF stream.
The NOCO chunk data itself is inherited (unless "NOCO" appears in a NOCO chunk), so a NOCO chunk need only appear in the first of a sequence of PND streams, if there are no changes.
1 byte: (unsigned integer) fade_type 0: fade out 1: fade in 2: fade in but don't change fully transparent pixels 2 bytes: (unsigned integer) alpha_deltaWhen "fade_type" is 0, the value of alpha_delta is subtracted from the alpha sample of every pixel in the basis image, but the result is not allowed to fall below zero.
When "fade_type" is 1, the value of alpha_delta is added to the alpha sample of every pixel in the basis image, but the result is not allowed to exceed the maximum alpha value for the image's bit depth.
When "fade_type" is 2, the value of alpha_delta is added to the alpha sample of any pixel in the basis image that has a non-zero value, and the result is not allowed to exceed the maximum alpha value for the image's bit depth.
If color_type is 3, then the value of alpha_delta is added to or subtracted from the alpha values that were defined by the tRNS chunk data in the basis image, and the resulting values become the tRNS data exported to any subsequent image. The maximum alpha value for this color_type is 255, regardless of the bit depth.
If color_type is 0 or 2, the fADE chunk is ignored.
If DDAT, IDAT, or PDAT is also present, the fade operation is performed after decoding and applying the DDAT/IDAT/PDAT chunk data.
A gAMA, cHRM, or similar chunk existing in the basis image would not affect the pixel data inherited by this PND stream because they are not used in decoding the pixel data. Applications are responsible for ensuring that the pixel values that are inherited from the previous image have not been transformed in any way after decompressing and unfiltering them.
When processing the oFFs and pHYS chunks, the viewer is responsible for providing the correct background if alpha or transparency is present; when the image size or location changes, the background will not be the same background against which the basis image was composited.
When processing the tRNS chunk, if color_type is 3 and PLTE is not supplied, then the number of allowable entries is determined from the number of PLTE entries in the basis image.
A composite frame can be an "initial" frame or a "dependent" frame. If it is "dependent" then it requires information inherited from the previous frame, such as the global palette (gPLT) and any PNG, PNP, or PND subimages that are to be redisplayed or that are to serve as the basis for a PND subimage. PNF viewers that process composite frames must be prepared to "remember" any number of such subimages from the immediately previous composite frame.
PNF viewers are expected to recognize and process the PNG pHYs and oFFs chunks encountered in subimages, even though these are ancillary chunks. When the pHYs chunk appears with unit_specifier=0, then that subimage should be scaled to to obtain the desired aspect ratio by scaling the image height and leaving the image width fixed.
4 bytes: composite_frame_width (unsigned integer) (must match that of the previous frame if frame_type = 1, and must not exceed max_frame_width in the FHDR chunk) 4 bytes: composite_frame_height (unsigned integer) (must match that of the previous frame if frame_type = 1, and must not exceed max_frame_height in the FHDR chunk) 4 bytes: x_dimension (unsigned integer), default 0, corresponding to composite_frame_width, in micrometers. If non-zero, this value is to be used when processing pHYs and oFFs chunks found in subimages, even if the actual frame dimensions are otherwise available. 4 bytes: y_dimension (unsigned integer), default 0, corresponding to composite_frame_height. 1 byte: frame_type 0: Initial frame 1: Dependent frame
The LOCA chunk gives the position, measured downward and to the right of the upper left corner of the frame, where the following subimage is to be located.
The chunk's contents are:
4 bytes: Image position, X axis (signed integer) 4 bytes: Image position, Y axis (signed integer)Negative values are permitted, and denote displacement in the opposite directions. LOCA can specify an image placement that is partially or wholly outside the frame boundaries. In such cases, the resulting subimage must be clipped to fit within the frame, or not displayed at all if it falls entirely outside the frame.
If the subimage contains an oFFs chunk, the subimage's offset is computed with respect to the position defined by the LOCA chunk (convert the oFFs distances to pixel units, and add them to the image position defined by LOCA).
After processing one subimage, the offset values revert to (0,0) until another LOCA chunk is encountered.
1 byte: source 0: none (subimage will be completely defined in this frame by a PNG or PNP stream) 1: subimage defined in previous frame. It is an error to set source=1 when ok_to_discard from the FHDR chunk or dISC chunk is not zero. 2: subimage previously defined in this frame 1 byte: destination 0: discard immediately after displaying subimage 1: keep (make available for use by next PNF) It is an error to set destination=1 when ok_to_discard from the FHDR chunk or dISC chunk is not zero. 2: discard after completion of this PNF 2 bytes: source ID (unsigned integer) when source=0: omitted when source=1: subimage identified by "destination ID" in the previous frame when source=2: subimage identified by "destination ID" earlier in this frame 2 bytes: destination ID (unsigned integer) when destination=0: omitted when destination=1: the "source ID" by which this subimage can be identified later in this frame or in the following frame when destination=2: the "source ID" by which this subimage can be identified later in this frame. Can be the same as the destination ID of a previous subimage, if the previous subimage will no longer be required.If a SODE chunk is not followed by a subimage description (IHDR, DHDR, or PHDR), i.e. a CEND chunk or another SODE chunk is encountered prior to encountering any IHDR, DHDR, or PHDR chunk, then the subimage from the previous frame with the specified source ID is given the specified destination ID and is retained for possible use in the following frame, but is not displayed in the present frame.
If a subimage header chunk (IHDR or PHDR) is not preceded by a SODE chunk (i.e. no SODE chunk was encountered after the preceding CHDR, IEND, PEND, or DEND chunk), the chunk will be treated as if it had been preceded by a SODE chunk with source=0, destination=0, source ID and destination ID omitted.
The DHDR chunk introducing a PND stream must be preceded by a SODE chunk with a valid source ID.
The format of this chunk is identical to that of the [proposed] sPLT PNG chunk. The chunk's contents are a zero-byte-terminated text string that names the palette, followed by a series of palette entries, each a ten-byte series, containing five unsigned integers:
name: n bytes (ASCII text) null byte 1 byte (terminator) red: 2 bytes (0 = black, 65535 = red) green: 2 bytes (0 = black, 65535 = green) blue: 2 bytes (0 = black, 65535 = blue) alpha: 2 bytes (0 = fully transparent, 65535 = fully opaque) frequency: 2 bytes (relative frequency of occurrence) ...
There can be any number of entries; a decoder determines the number of entries from the remaining chunk length after the null-terminated "name" string. This length not divisible by ten is an error. Entries must appear in decreasing order of "frequency".
The "name" (e.g. "256 color including Macintosh default", "256 color including Windows-3.1 default", "50-color rgb palette for use with early versions of Mosaic") identifies the palette, which may permit applications or people to choose the appropriate one when more than one suggested palette appears in a PNF stream. The "name" string must consist only of printable ASCII characters and may not have leading or trailing blanks, but may have single embedded blanks. There must be at least one and no more than 79 characters in the name. Names are case-sensitive. Decoders should filter out any nonprintable characters, especially the ESC character, in the "name" string before displaying it, to avoid possible security hazards.
The red, green, and blue values are not premultiplied by alpha, nor are they precomposited against any background. A decoder can build a palette by compositing those palette entries against any background color or set of background colors that it chooses.
Each frequency entry is proportional to the approximate fraction of pixels in the images that are closest to that palette entry, without regard to any compositing against a background palette. The exact scale factor is chosen by the encoder, but should be chosen so that the range of individual values reasonably fills the range 0 to 65535. It is acceptable to artificially inflate the "frequency" values for "important" colors such as those in a company logo or in the facial features of a portrait. Zero is a valid value for frequency.
The palette uses 16 bits (2 bytes) per value regardless of the image bit depth specification. Decoders wishing to construct 8-bit palettes can accomplish this by scaling down the RGB entries to 8 bits, as described under "bit depth rescaling" in the PNG specification.
If the file gamma value for a subimage is different from the default gamma value from the FHDR chunk, decoders will need to gamma-correct the image samples before quantizing them to the gPLT palette.
Multiple gPLT chunks, with different names, are allowed within a composite frame description. If present, they must appear prior to any IHDR, DHDR, or PHDR chunk in the composite frame. The gPLT chunk may appear for any color type. When a subimage contains a PLTE or sPLT suggested palette, the gPLT data takes precedence.
Only one oFFs chunk is allowed within a composite frame description, and, if present, it must appear prior to any IHDR, DHDR, or PHDR chunk in the composite frame.
When the encoder knows that image data will not be needed by subsequent frames, it can make life easier for decoders by using the "ok_to_discard" field of the FHDR chunk or by using the dISC chunk, and by proper use of the destination_id field of the SODE chunks in composite frames.
When the encoder knows that all subsequent images will completely fill the display and do not use transparency, the background_source field of the FHDR chunk can be used to inform the decoder that it does not have to retain the background.
To retain a subimage from the previous composite frame for use in a later composite frame, but not display it in the present frame, the SODE chunk can be used to pass it along to the next frame without displaying it.
The gPLT chunk contains a "name" field that might be printed or displayed as text by some applications. As with the tEXt chunk, any non-printable characters in the gPLT "name" field, especially the ESC character, should not be displayed directly.
No known additional security concerns are raised by this format.
Detection of corrupted file transfers can be improved even beyond that available in PNG by using the FHDR max_chunk_size field to determine whether any chunk length (except for that of FHDR itself, which has a known length that can be checked) is unreasonably large.
\211 P N F \r \n ^z \n # PNF signature FHDR 720 468 # width and height 20 65536 # 20 frames, max chunk length = 65kbytes 30 3 60 # 10 frames per second, duration 60 ticks 77000 8 # default gamma is 0.77, max_bit_depth 8 2 0 0 0 0 # Background not required, not OK discard tEXtTitle\0Sample Movie SEEK 0 n1 IHDR 720 468 ... IDAT ... IEND DHDR 1 0 IHDR 720 468 ...# A PNG-delta frame IDAT ... IEND DEND DHDR 1 0 IHDR 720 468 ...# Another PNG-delta frame IDAT ... IEND DEND SEEK n1 n2 # Ok to restart here because a IHDR 720 468 # complete PNG frame follows IDAT ... IEND DHDR 1 0 IHDR 720 468 ...# another PNG-delta frame IDAT ... IEND DEND SEEK n2 0 FEND # end of PNF stream
\211 P N F \r \n ^z \n # PNF signature FHDR 1024 512 1 8192 # width, height, nframes, maxchunklen 0 0 0 # tick length, frame duration unspecified 100000 # default gamma value is 100000 (gamma=1.0) 16 # depth 16 1 64 64 192 # sky blue background 1 # ok to discard CHDR 1024 512 0 0 0 # Initial composite frame, 1024 x 512 LOCA 6 6 # Location of first subimage SODE 0 2 1 # New object 1, keep for later use IHDR 500 500 16 0 .. # A graylevel image (note, no PNG gAMA 50000 # signature here) IDAT ... IEND # End of subimage SODE 2 0 1 # Reload object 1, discard afterwards LOCA 518 6 # Location for second subimage. Note # that SODE-LOCA order doesn't matter. DHDR 1 0 IHDR 500 500 16 0 .. # Png-delta, inherits gAMA and IDAT # from object 1 tEXtComment\0The faLS chunk is described in ftp://swrinde.... faLS ... # Apply pseudocolor to previous subimage # No DDAT or IDAT; pixels don't change IEND DEND # End of subimage LOCA 900 400 # Overlay near lower right-hand corner IHDR 101 101 2 3 ... # SODE can be omitted when the subimage # doesn't depend on another and # nothing depends on it. gAMA 50000 # We need a new gAMA, though, because PLTE ... # there's no "source ID" for object. tRNS ... # It's transparent (maybe a logo) IDAT ... # Note that the color type can differ IDAT ... # from that of the other objects. IEND # End of subimage CEND # End of composite frame FEND # End of PNF stream
\211 P N F \r \n ^z \n # PNF signature FHDR 512 512 ... # Start of PNF stream CHDR ... # First frame LOCA 0 0 # Location for object 1 SODE 0 1 1 # define object 1 and export to next frame PHDR 512 512 ... # it's a full-display PNP image gAMA 50000 PDAT ... PEND LOCA 300 200 # Location for object 2 SODE 0 1 2 # define object 2 and export to next frame IHDR 32 32 ... # It's a small PNG gAMA 50000 IDAT ... IEND CEND # end of frame CHDR ... # Next frame (repeat this CHDR-CEND # sequence with different locations to # move the objects around) LOCA 0 0 # New location for object 1 is still 0,0 SODE 1 1 1 1 # Retrieve object 1 from previous frame, # export to next DHDR 1 0 # A completely empty DHDR-DEND just # redisplays the object DEND # at the new location LOCA 310 205 # New location for object 2 SODE 1 1 2 2 # Retrieve object 2 from previous frame, # export it to the next DHDR 1 0 # Another empty DHDR-DEND DEND LOCA 400 500 # Location for another copy of object 2 SODE 2 1 2 3 # Reuse object 2 from this frame, # export it as object 3 DHDR 1 0 # Another DHDR-DEND tRNS ... # Make it semitransparent DEND CEND # End of frame CHDR ... # Another frame etc. CEND etc. # More frames FEND # End of PNF stream
\211 P N F \r \n ^z \n # PNF signature FHDR 64 64 16 # width, height, nframes 8192 # maxchunklen 30 6 140 # tick length, frame and total duration 50000 # default gamma 8 # max bit depth 8 0 # use application supplied background 192 192 192 # "browser gray" default background 0 # not ok to discard IHDR ... # PNG header PLTE ... tRNS ... # Entries are zero for the transparent color # and 16 for the nontransparent ones. They # will be barely visible) IDAT ... IEND dURa DHDR 1 0 fADE 2 16 # Add 16 to alpha for all nontransparent DEND # colors DHDR 1 0 # Repeat fADE 2 16 DEND etc. # Repeat DHDR-fADE-DEND 13 more times. The # opaque colors will end up with alpha=255 # and the transparent ones will still be 0. dURa 60 # Hold the last frame for at least 60 ticks # (2 sec). Applications might show it longer, # or they might ignore dURa; it's ancillary. FEND # end of PNF
Phone: (410) 278-6554
EMail: glennrp@arl.mil or randeg@alumni.rpi.edu
End of PNF Specification
Expires 13 February 1997