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|
/**
* @file llimagej2coj.cpp
* @brief This is an implementation of JPEG2000 encode/decode using OpenJPEG.
*
* $LicenseInfo:firstyear=2006&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "llimagej2coj.h"
// this is defined so that we get static linking.
#if LL_LINUX || !LL_USESYSTEMLIBS
#include "openjpeg/openjpeg.h"
#include "openjpeg/event.h"
#include "openjpeg/cio.h"
#else
#include <openjpeg-2.5/openjpeg.h>
#include <openjpeg-2.5/event.h>
#include <openjpeg-2.5/cio.h>
#endif
#define MAX_ENCODED_DISCARD_LEVELS 5
// Factory function: see declaration in llimagej2c.cpp
LLImageJ2CImpl* fallbackCreateLLImageJ2CImpl()
{
return new LLImageJ2COJ();
}
std::string LLImageJ2COJ::getEngineInfo() const
{
#ifdef OPENJPEG_VERSION
return std::string("OpenJPEG: " OPENJPEG_VERSION ", Runtime: ")
+ opj_version();
#else
return std::string("OpenJPEG runtime: ") + opj_version();
#endif
}
// Return string from message, eliminating final \n if present
static std::string chomp(const char* msg)
{
// stomp trailing \n
std::string message = msg;
if (!message.empty())
{
size_t last = message.size() - 1;
if (message[last] == '\n')
{
message.resize(last);
}
}
return message;
}
/**
sample error callback expecting a LLFILE* client object
*/
void error_callback(const char* msg, void*)
{
LL_DEBUGS() << "LLImageJ2COJ: " << chomp(msg) << LL_ENDL;
}
/**
sample warning callback expecting a LLFILE* client object
*/
void warning_callback(const char* msg, void*)
{
LL_DEBUGS() << "LLImageJ2COJ: " << chomp(msg) << LL_ENDL;
}
/**
sample debug callback expecting no client object
*/
void info_callback(const char* msg, void*)
{
LL_DEBUGS() << "LLImageJ2COJ: " << chomp(msg) << LL_ENDL;
}
// Divide a by 2 to the power of b and round upwards
int ceildivpow2(int a, int b)
{
return (a + (1 << b) - 1) >> b;
}
class JPEG2KBase
{
public:
JPEG2KBase() {}
U8* buffer = nullptr;
OPJ_SIZE_T size = 0;
OPJ_OFF_T offset = 0;
};
#define WANT_VERBOSE_OPJ_SPAM LL_DEBUG
static void opj_info(const char* msg, void* user_data)
{
llassert(user_data);
#if WANT_VERBOSE_OPJ_SPAM
LL_INFOS("OpenJPEG") << msg << LL_ENDL;
#endif
}
static void opj_warn(const char* msg, void* user_data)
{
llassert(user_data);
#if WANT_VERBOSE_OPJ_SPAM
LL_WARNS("OpenJPEG") << msg << LL_ENDL;
#endif
}
static void opj_error(const char* msg, void* user_data)
{
llassert(user_data);
#if WANT_VERBOSE_OPJ_SPAM
LL_WARNS("OpenJPEG") << msg << LL_ENDL;
#endif
}
static OPJ_SIZE_T opj_read(void * buffer, OPJ_SIZE_T bytes, void* user_data)
{
llassert(user_data);
JPEG2KBase* jpeg_codec = static_cast<JPEG2KBase*>(user_data);
OPJ_SIZE_T remainder = (jpeg_codec->size - jpeg_codec->offset);
if (remainder <= 0)
{
jpeg_codec->offset = jpeg_codec->size;
// Indicate end of stream (hacky?)
return (OPJ_OFF_T)-1;
}
OPJ_SIZE_T to_read = llclamp(U32(bytes), U32(0), U32(remainder));
memcpy(buffer, jpeg_codec->buffer + jpeg_codec->offset, to_read);
jpeg_codec->offset += to_read;
return to_read;
}
static OPJ_SIZE_T opj_write(void * buffer, OPJ_SIZE_T bytes, void* user_data)
{
llassert(user_data);
JPEG2KBase* jpeg_codec = static_cast<JPEG2KBase*>(user_data);
OPJ_SIZE_T remainder = jpeg_codec->size - jpeg_codec->offset;
if (remainder < bytes)
{
OPJ_SIZE_T new_size = jpeg_codec->size + (bytes - remainder);
U8* new_buffer = (U8*)ll_aligned_malloc_16(new_size);
memcpy(new_buffer, jpeg_codec->buffer, jpeg_codec->offset);
U8* old_buffer = jpeg_codec->buffer;
jpeg_codec->buffer = new_buffer;
ll_aligned_free_16(old_buffer);
jpeg_codec->size = new_size;
}
memcpy(jpeg_codec->buffer + jpeg_codec->offset, buffer, bytes);
jpeg_codec->offset += bytes;
return bytes;
}
static OPJ_OFF_T opj_skip(OPJ_OFF_T bytes, void* user_data)
{
JPEG2KBase* jpeg_codec = static_cast<JPEG2KBase*>(user_data);
jpeg_codec->offset += bytes;
if (jpeg_codec->offset > jpeg_codec->size)
{
jpeg_codec->offset = jpeg_codec->size;
// Indicate end of stream
return (OPJ_OFF_T)-1;
}
if (jpeg_codec->offset < 0)
{
// Shouldn't be possible?
jpeg_codec->offset = 0;
return (OPJ_OFF_T)-1;
}
return bytes;
}
static OPJ_BOOL opj_seek(OPJ_OFF_T bytes, void * user_data)
{
JPEG2KBase* jpeg_codec = static_cast<JPEG2KBase*>(user_data);
jpeg_codec->offset = bytes;
jpeg_codec->offset = llclamp(U32(jpeg_codec->offset), U32(0), U32(jpeg_codec->size));
return OPJ_TRUE;
}
static void opj_free_user_data(void * user_data)
{
JPEG2KBase* jpeg_codec = static_cast<JPEG2KBase*>(user_data);
// Don't free, data is managed externally
jpeg_codec->buffer = nullptr;
jpeg_codec->size = 0;
jpeg_codec->offset = 0;
}
static void opj_free_user_data_write(void * user_data)
{
JPEG2KBase* jpeg_codec = static_cast<JPEG2KBase*>(user_data);
// Free, data was allocated here
ll_aligned_free_16(jpeg_codec->buffer);
jpeg_codec->buffer = nullptr;
jpeg_codec->size = 0;
jpeg_codec->offset = 0;
}
class JPEG2KDecode : public JPEG2KBase
{
public:
JPEG2KDecode(S8 discardLevel)
{
memset(&event_mgr, 0, sizeof(opj_event_mgr_t));
memset(¶meters, 0, sizeof(opj_dparameters_t));
event_mgr.error_handler = error_callback;
event_mgr.warning_handler = warning_callback;
event_mgr.info_handler = info_callback;
opj_set_default_decoder_parameters(¶meters);
parameters.cp_reduce = discardLevel;
}
~JPEG2KDecode()
{
if (decoder)
{
opj_destroy_codec(decoder);
}
decoder = nullptr;
if (image)
{
opj_image_destroy(image);
}
image = nullptr;
if (stream)
{
opj_stream_destroy(stream);
}
stream = nullptr;
if (codestream_info)
{
opj_destroy_cstr_info(&codestream_info);
}
codestream_info = nullptr;
}
bool readHeader(
U8* data,
U32 dataSize,
S32& widthOut,
S32& heightOut,
S32& components,
S32& discard_level)
{
parameters.flags |= OPJ_DPARAMETERS_DUMP_FLAG;
decoder = opj_create_decompress(OPJ_CODEC_J2K);
if (!opj_setup_decoder(decoder, ¶meters))
{
return false;
}
if (stream)
{
opj_stream_destroy(stream);
}
stream = opj_stream_create(dataSize, true);
if (!stream)
{
return false;
}
opj_stream_set_user_data(stream, this, opj_free_user_data);
opj_stream_set_user_data_length(stream, dataSize);
opj_stream_set_read_function(stream, opj_read);
opj_stream_set_write_function(stream, opj_write);
opj_stream_set_skip_function(stream, opj_skip);
opj_stream_set_seek_function(stream, opj_seek);
buffer = data;
size = dataSize;
offset = 0;
// enable decoding partially loaded images
opj_decoder_set_strict_mode(decoder, OPJ_FALSE);
/* Read the main header of the codestream and if necessary the JP2 boxes*/
if (!opj_read_header((opj_stream_t*)stream, decoder, &image))
{
return false;
}
codestream_info = opj_get_cstr_info(decoder);
if (!codestream_info)
{
return false;
}
U32 tileDimX = codestream_info->tdx;
U32 tileDimY = codestream_info->tdy;
U32 tilesW = codestream_info->tw;
U32 tilesH = codestream_info->th;
widthOut = S32(tilesW * tileDimX);
heightOut = S32(tilesH * tileDimY);
components = codestream_info->nbcomps;
discard_level = 0;
while (tilesW > 1 && tilesH > 1 && discard_level < MAX_DISCARD_LEVEL)
{
discard_level++;
tilesW >>= 1;
tilesH >>= 1;
}
return true;
}
bool decode(U8* data, U32 dataSize, U32* channels, U8 discard_level)
{
parameters.flags &= ~OPJ_DPARAMETERS_DUMP_FLAG;
decoder = opj_create_decompress(OPJ_CODEC_J2K);
opj_setup_decoder(decoder, ¶meters);
opj_set_info_handler(decoder, opj_info, this);
opj_set_warning_handler(decoder, opj_warn, this);
opj_set_error_handler(decoder, opj_error, this);
if (stream)
{
opj_stream_destroy(stream);
}
stream = opj_stream_create(dataSize, true);
if (!stream)
{
return false;
}
opj_stream_set_user_data(stream, this, opj_free_user_data);
opj_stream_set_user_data_length(stream, dataSize);
opj_stream_set_read_function(stream, opj_read);
opj_stream_set_write_function(stream, opj_write);
opj_stream_set_skip_function(stream, opj_skip);
opj_stream_set_seek_function(stream, opj_seek);
buffer = data;
size = dataSize;
offset = 0;
if (image)
{
opj_image_destroy(image);
image = nullptr;
}
// needs to happen before opj_read_header and opj_decode...
opj_set_decoded_resolution_factor(decoder, discard_level);
// enable decoding partially loaded images
opj_decoder_set_strict_mode(decoder, OPJ_FALSE);
if (!opj_read_header(stream, decoder, &image))
{
return false;
}
// needs to happen before decode which may fail
if (channels)
{
*channels = image->numcomps;
}
OPJ_BOOL decoded = opj_decode(decoder, stream, image);
// count was zero. The latter is just a sanity check before we
// dereference the array.
if (!decoded || !image || !image->numcomps)
{
opj_end_decompress(decoder, stream);
return false;
}
opj_end_decompress(decoder, stream);
return true;
}
opj_image_t* getImage() { return image; }
private:
opj_dparameters_t parameters;
opj_event_mgr_t event_mgr;
opj_image_t* image = nullptr;
opj_codec_t* decoder = nullptr;
opj_stream_t* stream = nullptr;
opj_codestream_info_v2_t* codestream_info = nullptr;
};
class JPEG2KEncode : public JPEG2KBase
{
public:
const OPJ_UINT32 TILE_SIZE = 64 * 64 * 3;
JPEG2KEncode(const char* comment_text_in, bool reversible)
{
memset(¶meters, 0, sizeof(opj_cparameters_t));
memset(&event_mgr, 0, sizeof(opj_event_mgr_t));
event_mgr.error_handler = error_callback;
event_mgr.warning_handler = warning_callback;
event_mgr.info_handler = info_callback;
opj_set_default_encoder_parameters(¶meters);
parameters.cod_format = OPJ_CODEC_J2K;
parameters.cp_disto_alloc = 1;
parameters.max_cs_size = (1 << 15);
if (reversible)
{
parameters.tcp_numlayers = 1;
parameters.tcp_rates[0] = 1.0f;
}
else
{
parameters.tcp_numlayers = 5;
parameters.tcp_rates[0] = 1920.0f;
parameters.tcp_rates[1] = 960.0f;
parameters.tcp_rates[2] = 480.0f;
parameters.tcp_rates[3] = 120.0f;
parameters.tcp_rates[4] = 30.0f;
parameters.irreversible = 1;
parameters.tcp_mct = 1;
}
if (comment_text)
{
free(comment_text);
}
comment_text = comment_text_in ? strdup(comment_text_in) : nullptr;
parameters.cp_comment = comment_text ? comment_text : (char*)"no comment";
llassert(parameters.cp_comment);
}
~JPEG2KEncode()
{
if (encoder)
{
opj_destroy_codec(encoder);
}
encoder = nullptr;
if (image)
{
opj_image_destroy(image);
}
image = nullptr;
if (stream)
{
opj_stream_destroy(stream);
}
stream = nullptr;
if (comment_text)
{
free(comment_text);
}
comment_text = nullptr;
}
bool encode(const LLImageRaw& rawImageIn, LLImageJ2C &compressedImageOut)
{
setImage(rawImageIn);
encoder = opj_create_compress(OPJ_CODEC_J2K);
parameters.tcp_mct = (image->numcomps >= 3) ? 1 : 0;
parameters.cod_format = OPJ_CODEC_J2K;
parameters.prog_order = OPJ_RLCP;
parameters.cp_disto_alloc = 1;
if (!opj_setup_encoder(encoder, ¶meters, image))
{
return false;
}
opj_set_info_handler(encoder, opj_info, this);
opj_set_warning_handler(encoder, opj_warn, this);
opj_set_error_handler(encoder, opj_error, this);
U32 tile_count = (rawImageIn.getWidth() >> 6) * (rawImageIn.getHeight() >> 6);
U32 data_size_guess = tile_count * TILE_SIZE;
// will be freed in opj_free_user_data_write
buffer = (U8*)ll_aligned_malloc_16(data_size_guess);
size = data_size_guess;
offset = 0;
memset(buffer, 0, data_size_guess);
if (stream)
{
opj_stream_destroy(stream);
}
stream = opj_stream_create(data_size_guess, false);
if (!stream)
{
return false;
}
opj_stream_set_user_data(stream, this, opj_free_user_data_write);
opj_stream_set_user_data_length(stream, data_size_guess);
opj_stream_set_read_function(stream, opj_read);
opj_stream_set_write_function(stream, opj_write);
opj_stream_set_skip_function(stream, opj_skip);
opj_stream_set_seek_function(stream, opj_seek);
OPJ_BOOL started = opj_start_compress(encoder, image, stream);
if (!started)
{
return false;
}
if (!opj_encode(encoder, stream))
{
return false;
}
OPJ_BOOL encoded = opj_end_compress(encoder, stream);
// if we successfully encoded, then stream out the compressed data...
if (encoded)
{
// "append" (set) the data we "streamed" (memcopied) for writing to the formatted image
// with side-effect of setting the actually encoded size to same
compressedImageOut.allocateData(offset);
memcpy(compressedImageOut.getData(), buffer, offset);
compressedImageOut.updateData(); // update width, height etc from header
}
return encoded;
}
void setImage(const LLImageRaw& raw)
{
opj_image_cmptparm_t cmptparm[MAX_ENCODED_DISCARD_LEVELS];
memset(&cmptparm[0], 0, MAX_ENCODED_DISCARD_LEVELS * sizeof(opj_image_cmptparm_t));
S32 numcomps = raw.getComponents();
S32 width = raw.getWidth();
S32 height = raw.getHeight();
for (S32 c = 0; c < numcomps; c++)
{
cmptparm[c].prec = 8;
cmptparm[c].sgnd = 0;
cmptparm[c].dx = parameters.subsampling_dx;
cmptparm[c].dy = parameters.subsampling_dy;
cmptparm[c].w = width;
cmptparm[c].h = height;
}
image = opj_image_create(numcomps, &cmptparm[0], OPJ_CLRSPC_SRGB);
image->x1 = width;
image->y1 = height;
const U8 *src_datap = raw.getData();
S32 i = 0;
for (S32 y = height - 1; y >= 0; y--)
{
for (S32 x = 0; x < width; x++)
{
const U8 *pixel = src_datap + (y*width + x) * numcomps;
for (S32 c = 0; c < numcomps; c++)
{
image->comps[c].data[i] = *pixel;
pixel++;
}
i++;
}
}
// This likely works, but there seems to be an issue openjpeg side
// check over after gixing that.
// De-interleave to component plane data
/*
switch (numcomps)
{
case 0:
default:
break;
case 1:
{
U32 rBitDepth = image->comps[0].bpp;
U32 bytesPerPixel = rBitDepth >> 3;
memcpy(image->comps[0].data, src, width * height * bytesPerPixel);
}
break;
case 2:
{
U32 rBitDepth = image->comps[0].bpp;
U32 gBitDepth = image->comps[1].bpp;
U32 totalBitDepth = rBitDepth + gBitDepth;
U32 bytesPerPixel = totalBitDepth >> 3;
U32 stride = width * bytesPerPixel;
U32 offset = 0;
for (S32 y = height - 1; y >= 0; y--)
{
const U8* component = src + (y * stride);
for (S32 x = 0; x < width; x++)
{
image->comps[0].data[offset] = *component++;
image->comps[1].data[offset] = *component++;
offset++;
}
}
}
break;
case 3:
{
U32 rBitDepth = image->comps[0].bpp;
U32 gBitDepth = image->comps[1].bpp;
U32 bBitDepth = image->comps[2].bpp;
U32 totalBitDepth = rBitDepth + gBitDepth + bBitDepth;
U32 bytesPerPixel = totalBitDepth >> 3;
U32 stride = width * bytesPerPixel;
U32 offset = 0;
for (S32 y = height - 1; y >= 0; y--)
{
const U8* component = src + (y * stride);
for (S32 x = 0; x < width; x++)
{
image->comps[0].data[offset] = *component++;
image->comps[1].data[offset] = *component++;
image->comps[2].data[offset] = *component++;
offset++;
}
}
}
break;
case 4:
{
U32 rBitDepth = image->comps[0].bpp;
U32 gBitDepth = image->comps[1].bpp;
U32 bBitDepth = image->comps[2].bpp;
U32 aBitDepth = image->comps[3].bpp;
U32 totalBitDepth = rBitDepth + gBitDepth + bBitDepth + aBitDepth;
U32 bytesPerPixel = totalBitDepth >> 3;
U32 stride = width * bytesPerPixel;
U32 offset = 0;
for (S32 y = height - 1; y >= 0; y--)
{
const U8* component = src + (y * stride);
for (S32 x = 0; x < width; x++)
{
image->comps[0].data[offset] = *component++;
image->comps[1].data[offset] = *component++;
image->comps[2].data[offset] = *component++;
image->comps[3].data[offset] = *component++;
offset++;
}
}
}
break;
}*/
}
opj_image_t* getImage() { return image; }
private:
opj_cparameters_t parameters;
opj_event_mgr_t event_mgr;
opj_image_t* image = nullptr;
opj_codec_t* encoder = nullptr;
opj_stream_t* stream = nullptr;
char* comment_text = nullptr;
};
LLImageJ2COJ::LLImageJ2COJ()
: LLImageJ2CImpl()
{
}
LLImageJ2COJ::~LLImageJ2COJ()
{
}
bool LLImageJ2COJ::initDecode(LLImageJ2C &base, LLImageRaw &raw_image, int discard_level, int* region)
{
base.mDiscardLevel = discard_level;
return false;
}
bool LLImageJ2COJ::initEncode(LLImageJ2C &base, LLImageRaw &raw_image, int blocks_size, int precincts_size, int levels)
{
LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE;
// No specific implementation for this method in the OpenJpeg case
return false;
}
bool LLImageJ2COJ::decodeImpl(LLImageJ2C &base, LLImageRaw &raw_image, F32 decode_time, S32 first_channel, S32 max_channel_count)
{
JPEG2KDecode decoder(0);
U32 image_channels = 0;
S32 data_size = base.getDataSize();
S32 max_bytes = (base.getMaxBytes() ? base.getMaxBytes() : data_size);
bool decoded = decoder.decode(base.getData(), max_bytes, &image_channels, base.mDiscardLevel);
// set correct channel count early so failed decodes don't miss it...
S32 channels = (S32)image_channels - first_channel;
channels = llmin(channels, max_channel_count);
if (!decoded)
{
// reset the channel count if necessary
if (raw_image.getComponents() != channels)
{
raw_image.resize(raw_image.getWidth(), raw_image.getHeight(), S8(channels));
}
LL_DEBUGS("Texture") << "ERROR -> decodeImpl: failed to decode image!" << LL_ENDL;
return true; // done
}
opj_image_t *image = decoder.getImage();
// Component buffers are allocated in an image width by height buffer.
// The image placed in that buffer is ceil(width/2^factor) by
// ceil(height/2^factor) and if the factor isn't zero it will be at the
// top left of the buffer with black filled in the rest of the pixels.
// It is integer math so the formula is written in ceildivpo2.
// (Assuming all the components have the same width, height and
// factor.)
U32 comp_width = image->comps[0].w; // leave this unshifted by 'f' discard factor, the strides are always for the full buffer width
U32 f = image->comps[0].factor;
// do size the texture to the mem we'll acrually use...
U32 width = image->comps[0].w;
U32 height = image->comps[0].h;
raw_image.resize(U16(width), U16(height), S8(channels));
U8 *rawp = raw_image.getData();
// first_channel is what channel to start copying from
// dest is what channel to copy to. first_channel comes from the
// argument, dest always starts writing at channel zero.
for (S32 comp = first_channel, dest = 0; comp < first_channel + channels; comp++, dest++)
{
llassert(image->comps[comp].data);
if (image->comps[comp].data)
{
S32 offset = dest;
for (S32 y = (height - 1); y >= 0; y--)
{
for (S32 x = 0; x < width; x++)
{
rawp[offset] = image->comps[comp].data[y*comp_width + x];
offset += channels;
}
}
}
else // Some rare OpenJPEG versions have this bug.
{
LL_DEBUGS("Texture") << "ERROR -> decodeImpl: failed! (OpenJPEG bug)" << LL_ENDL;
}
}
base.setDiscardLevel(f);
return true; // done
}
bool LLImageJ2COJ::encodeImpl(LLImageJ2C &base, const LLImageRaw &raw_image, const char* comment_text, F32 encode_time, bool reversible)
{
JPEG2KEncode encode(comment_text, reversible);
bool encoded = encode.encode(raw_image, base);
if (encoded)
{
LL_WARNS() << "Openjpeg encoding implementation isn't complete, returning false" << LL_ENDL;
}
return encoded;
//return false;
}
bool LLImageJ2COJ::getMetadata(LLImageJ2C &base)
{
JPEG2KDecode decode(0);
S32 width = 0;
S32 height = 0;
S32 components = 0;
S32 discard_level = 0;
U32 dataSize = base.getDataSize();
U8* data = base.getData();
bool header_read = decode.readHeader(data, dataSize, width, height, components, discard_level);
if (!header_read)
{
return false;
}
base.mDiscardLevel = discard_level;
base.setSize(width, height, components);
return true;
}
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