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Integrate Instant-Meshes 1. Drop windows 32bit support Add windows 64bit support. 2. Remove Script(quickjs) support The current integrated quickjs is a very old version which doesn’t support windows 64bit system. In the future, (TODO)WebAssembly should be integrate as plugin system. 3. Integrate Instant-Meshes Instant-Meshes take less than 1 second on all three platforms. 4. Remove QuadriFlow Current implementation of QuadriFlow is too slow (take about 5 seconds on the example model) to do realtime remeshing.
2020-01-04 10:29:10 +00:00
// Copyright (c) 2005, 2006 ASCLEPIOS Project, INRIA Sophia-Antipolis (France)
// Copyright (c) 2007 Geometrica Project, INRIA Sophia-Antipolis (France)
// Copyright (c) 2008 GeometryFactory, Sophia-Antipolis (France)
// All rights reserved.
//
// The files in this directory are part of the ImageIO Library.
// You can redistribute them and/or modify them under the terms of the
// GNU Lesser General Public License as published by the Free Software Foundation;
// either version 3 of the License, or (at your option) any later version.
//
// Licensees holding a valid commercial license may use this file in
// accordance with the commercial license agreement provided with the software.
//
// These files are provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
// $URL$
// $Id$
// SPDX-License-Identifier: LGPL-3.0+
//
#ifndef IMAGEIO_H
#define IMAGEIO_H
#include <CGAL/config.h>
#include <CGAL/export/ImageIO.h>
#include <CGAL/auto_link/ImageIO.h>
#include <stdlib.h>
#include <stdio.h>
#include <boost/cstdint.hpp> // for uint32_t, etc.
#ifdef CGAL_USE_ZLIB
#include <zlib.h>
/* see http://www.gzip.org/zlib/
for details and documentation
*/
#endif
#if (defined(_LINUX_) || defined(_SOLARIS_))
/* should be declared in stdio.h
*/
extern int fileno( FILE *stream);
extern FILE *fdopen (int fildes, const char *mode);
/* should be declared in string.h
*/
#ifndef __cplusplus
extern char *strdup(const char *s);
extern int strncasecmp(const char *s1, const char *s2, size_t n);
#endif
#endif
#ifndef LONGINT
#if (defined _ALPHA_ || (defined _SGI_ && (defined _64_ || defined _64_M4_ || defined _64_M3_)))
/* the 64-bits type on 64-bits platform (long int) */
#define LONGINT long int
#else
#ifdef __GNUC__
/* the 64-bits type on 32-bits platform (long long int) */
#define LONGINT long long int
#else
/*#define LONGINT __int64 */
#define LONGINT long int
#endif
#endif
#endif
/** file open mode */
typedef enum {
/** no file open */
OM_CLOSE,
/** file is stdin or stdout */
OM_STD,
/** file is gzipped */
#ifdef CGAL_USE_ZLIB
OM_GZ,
#endif
/** normal file */
OM_FILE
} OPEN_MODE;
/** data mode */
typedef enum {
/** data are binary */
DM_BINARY,
/** data are ascii */
DM_ASCII
} DATA_MODE;
/** kind of image word */
typedef enum {
/** fixed type */
WK_FIXED,
/** floating point */
WK_FLOAT,
/** unknown (uninitialized) */
WK_UNKNOWN
} WORD_KIND;
/** image word sign */
typedef enum {
/** signed */
SGN_SIGNED,
/** unsigned */
SGN_UNSIGNED,
/** unknown (uninitialized or floating point words) */
SGN_UNKNOWN
} SIGN;
/** endianness */
typedef enum {
/** Little endian processor */
END_LITTLE,
/** Big endian processor */
END_BIG,
/** Unknown endianness (unopenned file) */
END_UNKNOWN
} ENDIANNESS;
/** inrimage vectorial storage mode */
typedef enum {
/** interlaced vectors (i.e. x1, y1, z1, x2, y2, z2, x3, y3, z3, ...) */
VM_INTERLACED,
/** non interlaced vectors (i.e. x1, x2, x3, ..., y1, y2, y3, ..., z1, z2, z3...) */
VM_NON_INTERLACED,
/** scalar inrimage */
VM_SCALAR
} VECTORIAL_MODE;
#ifdef CGAL_USE_ZLIB
typedef gzFile _ImageIO_file;
#else
typedef FILE* _ImageIO_file;
#endif
#define IMAGE_FORMAT_NAME_LENGTH 100
struct point_image;
/** defines the type of function called to test if an image is of a given
format. The first parameter is an array of char of size 5 (ends with
character 0) that describes the first file character (magic string). The
second parameter is the filename. The output value is >=0 if the image is
of that given format and <0 otherwise */
typedef int (*TEST_IMAGE_FORMAT)(char *,const char *);
/** defines the type of function called to read an image or an image header
from a file corresponding to a given format. The first parameter is the
file name whereas the second parameter is an _image structure. Note that
the file has been already opened (the file descriptor fd is valid).
The output value is >0 if the whole image has been read, it is 0 if
only the header has been read and it is <0 otherwise */
typedef int (*READ_IMAGE_HEADER)(const char *, struct point_image *);
/** defines the type of function called to write an image to a file
corresponding to a given format.
The first parameter is the full file name whereas the second parameter
is an _image structure.
Note that the file has to be opened and closed in the function.
The output value is >=0 if the whole image has been written
correctly and it is <0 otherwise */
typedef int (*WRITE_IMAGE)(char *,struct point_image *);
/** Image Format descriptor */
typedef struct imformat {
/** a pointer on a function that tests if an image is of a given format */
TEST_IMAGE_FORMAT testImageFormat;
/** a pointer on a function that reads the header of an image file */
READ_IMAGE_HEADER readImageHeader;
/** a pointer on a function that writes image of a given
format */
WRITE_IMAGE writeImage;
/* the file extension of format (including a dot ".": if several
extensions may be used, they should be separed with a
comma ".inr,.inr.gz" */
char fileExtension[IMAGE_FORMAT_NAME_LENGTH];
/** the usual name given to a format : for instance "inrimage", "gif" */
char realName[IMAGE_FORMAT_NAME_LENGTH];
/* pointer towards the next image format*/
struct imformat *next;
} IMAGE_FORMAT, *PTRIMAGE_FORMAT;
/** Image descriptor */
typedef struct point_image {
/** Image x dimension (number of columns) */
std::size_t xdim;
/** Image y dimension (number of rows) */
std::size_t ydim;
/** Image z dimension (number of planes) */
std::size_t zdim;
/** Image vectorial dimension */
std::size_t vdim;
/** Image voxel size in x dimension */
double vx;
/** Image voxel size in y dimension */
double vy;
/** Image voxel size in z dimension */
double vz;
/** Image offset in x dimension */
float tx;
/** Image offset in y dimension */
float ty;
/** Image offset in z dimension */
float tz;
/** Image rotation vector in x dimension */
float rx;
/** Image rotation vector in y dimension */
float ry;
/** Image rotation vector in z dimension */
float rz;
/** Image center in x dimension */
int cx;
/** Image center in y dimension */
int cy;
/** Image center in z dimension */
int cz;
/** spm */
float spm_offset;
float spm_scale;
/** Image data buffer */
void *data;
/** Image word size (in bytes) */
std::size_t wdim;
/** Image format to use for I/0. Should not be set by user */
PTRIMAGE_FORMAT imageFormat;
/** Data buffer vectors are interlaced or non interlaced */
VECTORIAL_MODE vectMode;
/** Image words kind */
WORD_KIND wordKind;
/** Image words sign */
SIGN sign;
/** User defined strings array. The user can use any internal purpose string.
Each string is written at then end of header after a '#' character. */
char **user;
/** Number of user defined strings */
unsigned int nuser;
/** Image file descriptor */
_ImageIO_file fd;
/** Kind of image file descriptor */
OPEN_MODE openMode;
/** Written words endianness */
ENDIANNESS endianness;
/** Kind of image data encoding */
DATA_MODE dataMode;
} _image;
/** Error codes */
#define ImageIO_NO_ERROR 0
#define ImageIO_UNKNOWN_TYPE -1
#define ImageIO_OPENING -2
#define ImageIO_READING_HEADER -3
#define ImageIO_READING_IMAGE -4
#define ImageIO_WRITING_HEADER -3
#define ImageIO_WRITING_IMAGE -4
#define ImageIO_WRITING_DATA -5
/** Allocates and initializes an image descriptor */
CGAL_IMAGEIO_EXPORT _image *_initImage();
/** Free an image descriptor
@param im image descriptor */
CGAL_IMAGEIO_EXPORT void _freeImage(_image *im);
/** creates an image descriptor from the given header information
@param x image x dimension (number of columns)
@param y image y dimension (number of rows)
@param z image z dimension (number of planes)
@param v image vectorial dimension
@param vx image voxel size in x dimension
@param vy image voxel size in y dimension
@param vz image voxel size in z dimension
@param w image word size in bytes
@param wk image word kind
@param sgn image word sign */
CGAL_IMAGEIO_EXPORT _image *_createImage(int x, int y, int z, int v,
float vx, float vy, float vz, int w,
WORD_KIND wk, SIGN sgn);
/** Reads an image from a file and returns an image descriptor or NULL if<br>
reading failed.<br>
Reads from stdin if image name is NULL.
The image data field points to a xdim * ydim * zdim * vdim buffer
containing voxels in order:
(Z1, Y1, X1, V1) (Z1, Y1, X1, V2), ... , (Z1, Y1, X1, Vt),
(Z1, Y1, X2, V1) ... ... , (Z1, Y1, X2, Vt),
...
(Z1, Y1, Xn, V1) ... ... , (Z1, Y1, Xn, Vt),
(Z1, Y2, X1, V1) ... ... , (Z1, Y2, X1, Vt),
...
(Z2, Y1, X1, V1) ... ... , (Z2, Y1, X1, Vt),
...
... ... , (Zl, Ym, Xn, Vt)
Read the following format:
Inrimage,
GIF,
IRIS,
ANALYSE,
PGM,
PPM,
BMP,
GIS (CEA, IRISA, ENST 3D image format).
See also:
http://www.dcs.ed.ac.uk/home/mxr/gfx/2d-hi.html and
http://www.gzip.org/zlib/
@param name image file name or NULL for stdin */
CGAL_IMAGEIO_EXPORT _image* _readImage(const char *name);
/** Reads an image from a file and returns an image descriptor or NULL if<br>
reading failed.<br>
Reads from stdin if image name is NULL.
If the image is vectorial, it is uninterlaced, i.e. the image data
field points to a xdim * ydim * zdim * vdim buffer containing voxels
in order:
(V1, Z1, Y1, X1) (V1, Z1, Y1, X2), ... , (V1, Z1, Y1, Xn),
(V1, Z1, Y2, X1) ... ... , (V1, Z1, Y2, Xn),
...
(V1, Z1, Ym, X1) ... ... , (V1, Z1, Ym, Xn),
(V1, Z2, Y1, X1) ... ... , (V1, Z2, Y1, Xn),
...
(V2, Z1, Y1, X1) ... ... , (V2, Z1, Y1, Xn),
...
... ... , (Vt, Zl, Ym, Xn)
@param name image file name or NULL */
CGAL_IMAGEIO_EXPORT _image* _readNonInterlacedImage(const char *name);
/** Read an image from a file. The word type is supposed to be unsigned
char, and the dimensions are (rx, ry, rz). */
CGAL_IMAGEIO_EXPORT _image* _readImage_raw(const char *name,
const unsigned int rx,
const unsigned int ry,
const unsigned int rz,
const double vx = 1.,
const double vy = 1.,
const double vz = 1.,
const unsigned int offset = 0,
const std::size_t wdim = 1,
WORD_KIND wk = WK_FIXED,
SIGN sgned = SGN_UNSIGNED
);
/** Writes given image in file 'name'.<br>
If name ends with '.gz', file is gzipped.<br>
If name is NULL, image is sent to stdout.
@param im image descriptor
@param name file name to store image or NULL */
CGAL_IMAGEIO_EXPORT int _writeImage(_image *im, const char *name);
/** Read one slice of given image whose header has already been read.<br>
File descriptor is let at the beginning of next slice and closed<br>
when end of file is encountered.<br>
If data buffer is NULL, it is allocated for one slice only.<br>
This funtion is dedicated to read huge inrimages.
@param im image descriptor */
CGAL_IMAGEIO_EXPORT void _getNextSlice(_image *im);
/** adds a format in the list of image format. Test if all mandatory
fields have been filled
@param format : an image format
@return -1 if it failed (missing information) and 0 if it succeeded */
CGAL_IMAGEIO_EXPORT int addImageFormat( PTRIMAGE_FORMAT format);
/** returns the first available image format */
CGAL_IMAGEIO_EXPORT PTRIMAGE_FORMAT firstImageFormat();
/** Reads header from an image file<br>
If file is an inrimage, only header is read. Otherwise, whole image<br>
is read and image file descriptor is closed.<br>
If name is NULL, header is read from STDIN
@param name image file name or NULL */
CGAL_IMAGEIO_EXPORT _image* _readImageHeader(const char *name);
CGAL_IMAGEIO_EXPORT _image *_readImageHeaderAndGetError( const char *name, int *error );
/** Reads body from an inrmage whose header has been read by
_readImageHeader
@param im image to read */
CGAL_IMAGEIO_EXPORT int _readImageData(_image *im);
/** Reads body from a vectorial inrimage whose header has been read by
_readImageHeader. The image is uninterlaced
(see _readNonInterlacedImage for details).
@param im image descriptor*/
CGAL_IMAGEIO_EXPORT int _readNonInterlacedImageData(_image *im);
/** Reads body from a non-interlaced vectorial inrimage whose header has
been read by _readImageHeader. The image buffer is interlaced.
@param im image descriptor */
CGAL_IMAGEIO_EXPORT int _readNonInterlacedFileData(_image *im);
/** given an initialized file descriptor and a file name, open file
from stdout (if name == NULL), a gziped pipe (if file is gziped)
or a standard file otherwise.
@param im initialized image descriptor
@param name image file name */
CGAL_IMAGEIO_EXPORT void _openWriteImage(_image* im, const char *name) ;
/** open an image file from stdin (if name == NULL), from a pipe
(piped with gzip if image was compressed) or from a standard file
@param im initialized image descriptor
@param name image file name */
CGAL_IMAGEIO_EXPORT void _openReadImage(_image *im, const char *name);
/** close an image file descriptor that was opened using _openImage
@param im opened image descriptor */
/** return the bounding box of the image
@param im opened image descriptor */
CGAL_IMAGEIO_EXPORT void _get_image_bounding_box(_image* im,
double* x_min, double* y_min, double* z_min,
double* x_max, double* y_max, double* z_max);
/** returns the endianness of the hardware architecture */
CGAL_IMAGEIO_EXPORT ENDIANNESS _getEndianness();
/** initializes the list of supported image formats */
CGAL_IMAGEIO_EXPORT void initSupportedFileFormat();
/** prints supported image formats */
CGAL_IMAGEIO_EXPORT void printSupportedFileFormat();
/** free the list of supported image formats */
CGAL_IMAGEIO_EXPORT void removeSupportedFileFormat();
/** return image type in given file
@param fileName image file name */
CGAL_IMAGEIO_EXPORT PTRIMAGE_FORMAT imageType(const char *fileName);
extern "C" {
/** function prototype to allocate memory */
typedef void *(*ALLOCATION_FUNCTION)(size_t);
/** function prototype to free memory */
typedef void (*DEALLOCATION_FUNCTION)(void *);
}
/** set allocation and deallocation routines
@param alloc new allocation routine
@param del new deallocation routine */
CGAL_IMAGEIO_EXPORT void setImageIOAllocationRoutines(ALLOCATION_FUNCTION alloc,
DEALLOCATION_FUNCTION del);
/** call allocation routine */
CGAL_IMAGEIO_EXPORT void *ImageIO_alloc(size_t);
/** call deallocation routine */
CGAL_IMAGEIO_EXPORT void ImageIO_free(void *);
/** replaces fwrite function
@param im image to write
@param buf data buffer to write
@param len buffer length */
CGAL_IMAGEIO_EXPORT size_t ImageIO_write(const _image *im, const void *buf, size_t len);
/** replaces fread function
@param im image to read
@param buf data buffer to read
@param len buffer length */
CGAL_IMAGEIO_EXPORT size_t ImageIO_read(const _image *im, void *buf, size_t len);
/** replaces fgets function
*/
CGAL_IMAGEIO_EXPORT char *ImageIO_gets( const _image *im, char *str, int size );
/** replaces fseek function
*/
CGAL_IMAGEIO_EXPORT long ImageIO_seek( const _image *im, long offset, int whence );
/** replaces ferror function
*/
CGAL_IMAGEIO_EXPORT int ImageIO_error( const _image *im );
/** replaces fclose function
*/
CGAL_IMAGEIO_EXPORT int ImageIO_close( _image *im );
/** trilinear interpolation in an _image. The returned type is float (cast
are made if the image word type is different).
*/
CGAL_IMAGEIO_EXPORT float triLinInterp(const _image* image, float posx, float posy, float posz,
const float value_outside = 0.);
/** Alias for triLinInterp */
CGAL_IMAGEIO_EXPORT inline float trilinear_interpolation(const _image* image,
float posx, float posy, float posz)
{
return triLinInterp(image, posx, posy, posz);
}
namespace CGAL {
namespace IMAGEIO {
//
// The following definition are for the evaluate function.
//
template <WORD_KIND wordKind, SIGN sign, std::size_t wdim>
struct Word_type_generator
{
};
template <SIGN sign>
struct Word_type_generator<WK_FLOAT, sign, 4>
{
typedef float type;
};
template <SIGN sign>
struct Word_type_generator<WK_FLOAT, sign, 8>
{
typedef double type;
};
template <>
struct Word_type_generator<WK_FIXED, SGN_SIGNED, 1>
{
// typedef boost::int8_t type;
typedef char type;
};
template <>
struct Word_type_generator<WK_FIXED, SGN_UNSIGNED, 1>
{
typedef boost::uint8_t type;
};
template <>
struct Word_type_generator<WK_FIXED, SGN_SIGNED, 2>
{
typedef boost::int16_t type;
};
template <>
struct Word_type_generator<WK_FIXED, SGN_UNSIGNED, 2>
{
typedef boost::uint16_t type;
};
template <>
struct Word_type_generator<WK_FIXED, SGN_SIGNED, 4>
{
typedef boost::int32_t type;
};
template <>
struct Word_type_generator<WK_FIXED, SGN_UNSIGNED, 4>
{
typedef boost::uint32_t type;
};
template <WORD_KIND wordKind, SIGN sign, std::size_t wdim>
inline
typename Word_type_generator<wordKind, sign, wdim>::type
static_evaluate(const _image* image,
const std::size_t i,
const std::size_t j,
const std::size_t k)
{
typedef typename Word_type_generator<wordKind, sign, wdim>::type Word;
return static_evaluate<Word>(image, i, j, k);
}
template <typename Word>
inline
Word&
static_evaluate(const _image* image,
const std::size_t i,
const std::size_t j,
const std::size_t k)
{
return ((Word*)image->data)[(k * image->ydim + j) * image->xdim + i];
}
template <typename Word>
inline
Word&
static_evaluate(const _image* image,
const std::size_t i)
{
return ((Word*)image->data)[i];
}
} // end namespace IMAGEIO
} // end namespace CGAL
#define CGAL_IMAGE_IO_CASE(image_ptr,code) \
switch(image_ptr->wordKind) \
{ \
case WK_FLOAT: \
switch(image_ptr->wdim) \
{ \
case 4: { \
typedef CGAL::IMAGEIO::Word_type_generator<WK_FLOAT, SGN_UNKNOWN, 4>::type Word; \
code; \
break; \
} \
case 8: { \
typedef CGAL::IMAGEIO::Word_type_generator<WK_FLOAT, SGN_UNKNOWN, 8>::type Word; \
code; \
break; \
} \
default: \
break; \
} \
break; \
case WK_FIXED: \
switch(image_ptr->wdim) \
{ \
case 2: { \
if(image_ptr->sign == SGN_SIGNED) { \
typedef CGAL::IMAGEIO::Word_type_generator<WK_FIXED, SGN_SIGNED, 2>::type Word; \
code; \
break; \
} \
else { \
typedef CGAL::IMAGEIO::Word_type_generator<WK_FIXED, SGN_UNSIGNED, 2>::type Word; \
code; \
break; \
} \
} \
case 1: { \
if(image_ptr->sign == SGN_SIGNED) { \
typedef CGAL::IMAGEIO::Word_type_generator<WK_FIXED, SGN_SIGNED, 1>::type Word; \
code; \
break; \
} \
else { \
typedef CGAL::IMAGEIO::Word_type_generator<WK_FIXED, SGN_UNSIGNED, 1>::type Word; \
code; \
break; \
} \
} \
case 4: { \
if(image_ptr->sign == SGN_SIGNED) { \
typedef CGAL::IMAGEIO::Word_type_generator<WK_FIXED, SGN_SIGNED, 4>::type Word; \
code; \
break; \
} \
else { \
typedef CGAL::IMAGEIO::Word_type_generator<WK_FIXED, SGN_UNSIGNED, 4>::type Word; \
code; \
break; \
} \
} \
default: \
break; \
} \
break; \
default: \
break; \
}
CGAL_IMAGEIO_EXPORT float evaluate(const _image* image,const std::size_t i,const std::size_t j,const std::size_t k);
/** convert the data of the image to float
*/
CGAL_IMAGEIO_EXPORT void convertImageTypeToFloat(_image* image);
#ifdef CGAL_HEADER_ONLY
#include <CGAL/ImageIO_impl.h>
#endif // CGAL_HEADER_ONLY
#endif // end IMAGEIO_H