1 //
2 // Copyright 2005-2007 Adobe Systems Incorporated
3 //
4 // Distributed under the Boost Software License, Version 1.0
5 // See accompanying file LICENSE_1_0.txt or copy at
6 // http://www.boost.org/LICENSE_1_0.txt
7 //
8 #ifdef _MSC_VER
9 #pragma warning(disable : 4244) // conversion from 'gil::image<V,Alloc>::coord_t' to 'int', possible loss of data (visual studio compiler doesn't realize that the two types are the same)
10 #pragma warning(disable : 4503) // decorated name length exceeded, name was truncated
11 #pragma warning(disable : 4701) // potentially uninitialized local variable 'result' used in boost/crc.hpp
12 #endif
13
14 #include <boost/gil.hpp>
15 #include <boost/gil/extension/dynamic_image/dynamic_image_all.hpp>
16
17 #include <boost/core/ignore_unused.hpp>
18 #include <boost/crc.hpp>
19 #include <boost/mp11.hpp>
20
21 #include <ios>
22 #include <iostream>
23 #include <fstream>
24 #include <map>
25 #include <stdexcept>
26 #include <string>
27 #include <type_traits>
28 #include <vector>
29
30 using namespace boost::gil;
31 using namespace std;
32 using namespace boost;
33
34 extern rgb8c_planar_view_t sample_view;
35 void error_if(bool condition);
36
37 #if BOOST_WORKAROUND(BOOST_MSVC, >= 1400)
38 #pragma warning(push)
39 #pragma warning(disable:4127) //conditional expression is constant
40 #endif
41
42 // When BOOST_GIL_GENERATE_REFERENCE_DATA is defined, the reference data is generated and saved.
43 // When it is undefined, regression tests are checked against it
44 //#define BOOST_GIL_GENERATE_REFERENCE_DATA
45
46 ////////////////////////////////////////////////////
47 ///
48 /// Some algorithms to use in testing
49 ///
50 ////////////////////////////////////////////////////
51
52 template <typename GrayView, typename R>
gray_image_hist(GrayView const & img_view,R & hist)53 void gray_image_hist(GrayView const& img_view, R& hist)
54 {
55 for (auto it = img_view.begin(); it != img_view.end(); ++it)
56 ++hist[*it];
57
58 // Alternatively, prefer the algorithm with lambda
59 // for_each_pixel(img_view, [&hist](gray8_pixel_t const& pixel) {
60 // ++hist[pixel];
61 // });
62 }
63
64 template <typename V, typename R>
get_hist(const V & img_view,R & hist)65 void get_hist(const V& img_view, R& hist) {
66 gray_image_hist(color_converted_view<gray8_pixel_t>(img_view), hist);
67 }
68
69 // testing custom color conversion
70 template <typename C1, typename C2>
71 struct my_color_converter_impl : public default_color_converter_impl<C1,C2> {};
72 template <typename C1>
73 struct my_color_converter_impl<C1,gray_t> {
74 template <typename P1, typename P2>
operator ()my_color_converter_impl75 void operator()(const P1& src, P2& dst) const {
76 default_color_converter_impl<C1,gray_t>()(src,dst);
77 get_color(dst,gray_color_t())=channel_invert(get_color(dst,gray_color_t()));
78 }
79 };
80
81 struct my_color_converter {
82 template <typename SrcP,typename DstP>
operator ()my_color_converter83 void operator()(const SrcP& src,DstP& dst) const {
84 using src_cs_t = typename color_space_type<SrcP>::type;
85 using dst_cs_t = typename color_space_type<DstP>::type;
86 my_color_converter_impl<src_cs_t,dst_cs_t>()(src,dst);
87 }
88 };
89
90 /// Models a Unary Function
91 /// \tparam P models PixelValueConcept
92 template <typename P>
93 struct mandelbrot_fn
94 {
95 using point_t = boost::gil::point_t;
96 using const_t = mandelbrot_fn<P>;
97 using value_type = P;
98 using reference = value_type;
99 using const_reference = value_type;
100 using argument_type = point_t;
101 using result_type = reference;
102 static constexpr bool is_mutable = false;
103
104 value_type _in_color,_out_color;
105 point_t _img_size;
106 static const int MAX_ITER=100; // max number of iterations
107
mandelbrot_fnmandelbrot_fn108 mandelbrot_fn() {}
mandelbrot_fnmandelbrot_fn109 mandelbrot_fn(const point_t& sz, const value_type& in_color, const value_type& out_color) : _in_color(in_color), _out_color(out_color), _img_size(sz) {}
110
operator ()mandelbrot_fn111 result_type operator()(const point_t& p) const {
112 // normalize the coords to (-2..1, -1.5..1.5)
113 // (actually make y -1.0..2 so it is asymmetric, so we can verify some view factory methods)
114 double t=get_num_iter(point<double>(p.x/(double)_img_size.x*3-2, p.y/(double)_img_size.y*3-1.0f));//1.5f));
115 t=pow(t,0.2);
116
117 value_type ret;
118 for (std::size_t k=0; k<num_channels<P>::value; ++k)
119 ret[k]=(typename channel_type<value_type>::type)(_in_color[k]*t + _out_color[k]*(1-t));
120 return ret;
121 }
122
123 private:
get_num_itermandelbrot_fn124 double get_num_iter(const point<double>& p) const {
125 point<double> Z(0,0);
126 for (int i=0; i<MAX_ITER; ++i) {
127 Z = point<double>(Z.x*Z.x - Z.y*Z.y + p.x, 2*Z.x*Z.y + p.y);
128 if (Z.x*Z.x + Z.y*Z.y > 4)
129 return i/(double)MAX_ITER;
130 }
131 return 0;
132 }
133 };
134
135 template <typename T>
x_gradient(const T & src,const gray8s_view_t & dst)136 void x_gradient(const T& src, const gray8s_view_t& dst) {
137 for (int y=0; y<src.height(); ++y) {
138 typename T::x_iterator src_it = src.row_begin(y);
139 gray8s_view_t::x_iterator dst_it = dst.row_begin(y);
140
141 for (int x=1; x<src.width()-1; ++x)
142 dst_it[x] = (src_it[x+1] - src_it[x-1]) / 2;
143 }
144 }
145
146 // A quick test whether a view is homogeneous
147
148 template <typename Pixel>
149 struct pixel_is_homogeneous : public std::true_type {};
150
151 template <typename P, typename C, typename L>
152 struct pixel_is_homogeneous<packed_pixel<P,C,L> > : public std::false_type {};
153
154 template <typename View>
155 struct view_is_homogeneous : public pixel_is_homogeneous<typename View::value_type> {};
156
157 ////////////////////////////////////////////////////
158 ///
159 /// Tests image view transformations and algorithms
160 ///
161 ////////////////////////////////////////////////////
162 class image_test {
163 public:
initialize()164 virtual void initialize() {}
finalize()165 virtual void finalize() {}
~image_test()166 virtual ~image_test() {}
167
168 void run();
169 protected:
170 virtual void check_view_impl(const rgb8c_view_t& view, const string& name)=0;
171 template <typename View>
check_view(const View & img_view,const string & name)172 void check_view(const View& img_view, const string& name) {
173 rgb8_image_t rgb_img(img_view.dimensions());
174 copy_and_convert_pixels(img_view,view(rgb_img));
175 check_view_impl(const_view(rgb_img), name);
176 }
177 private:
178 template <typename Img> void basic_test(const string& prefix);
179 template <typename View> void view_transformations_test(const View& img_view, const string& prefix);
180 template <typename View> void homogeneous_view_transformations_test(const View& img_view, const string& prefix, std::true_type);
homogeneous_view_transformations_test(const View & img_view,const string & prefix,std::false_type)181 template <typename View> void homogeneous_view_transformations_test(const View& img_view, const string& prefix, std::false_type)
182 {
183 boost::ignore_unused(img_view);
184 boost::ignore_unused(prefix);
185 }
186 template <typename View> void histogram_test(const View& img_view, const string& prefix);
187 void virtual_view_test();
188 void packed_image_test();
189 void dynamic_image_test();
190 template <typename Img> void image_all_test(const string& prefix);
191 };
192
193 // testing image iterators, clone, fill, locators, color convert
194 template <typename Img>
basic_test(const string & prefix)195 void image_test::basic_test(const string& prefix) {
196 using View = typename Img::view_t;
197
198 // make a 20x20 image
199 Img img(typename View::point_t(20,20));
200 const View& img_view=view(img);
201
202 // fill it with red
203 rgb8_pixel_t red8(255,0,0), green8(0,255,0), blue8(0,0,255), white8(255,255,255);
204 typename View::value_type red,green,blue,white;
205 color_convert(red8,red);
206 default_color_converter()(red8,red);
207 red=color_convert_deref_fn<rgb8_ref_t,typename Img::view_t::value_type>()(red8);
208
209 color_convert(green8,green);
210 color_convert(blue8,blue);
211 color_convert(white8,white);
212 fill(img_view.begin(),img_view.end(),red);
213
214 color_convert(red8,img_view[0]);
215
216 // pointer to first pixel of second row
217 typename View::reference rt=img_view.at(0,0)[img_view.width()];
218 typename View::x_iterator ptr=&rt;
219 typename View::reference rt2=*(img_view.at(0,0)+img_view.width());
220 typename View::x_iterator ptr2=&rt2;
221 error_if(ptr!=ptr2);
222 error_if(img_view.x_at(0,0)+10!=10+img_view.x_at(0,0));
223
224 // draw a blue line along the diagonal
225 typename View::xy_locator loc=img_view.xy_at(0,img_view.height()-1);
226 for (int y=0; y<img_view.height(); ++y) {
227 *loc=blue;
228 ++loc.x();
229 loc.y()--;
230 }
231
232 // draw a green dotted line along the main diagonal with step of 3
233 loc=img_view.xy_at(img_view.width()-1,img_view.height()-1);
234 while (loc.x()>=img_view.x_at(0,0)) {
235 *loc=green;
236 loc-=typename View::point_t(3,3);
237 }
238
239 // Clone and make every red pixel white
240 Img imgWhite(img);
241 for (typename View::iterator it=view(imgWhite).end(); (it-1)!=view(imgWhite).begin(); --it) {
242 if (*(it-1)==red)
243 *(it-1)=white;
244 }
245
246 check_view(img_view,prefix+"red_x");
247 check_view(view(imgWhite),prefix+"white_x");
248 }
249
250 template <typename View>
histogram_test(const View & img_view,const string & prefix)251 void image_test::histogram_test(const View& img_view, const string& prefix) {
252 // vector<int> histogram(255,0);
253 // get_hist(cropped,histogram.begin());
254 unsigned char histogram[256];
255 fill(histogram,histogram+256,0);
256 get_hist(img_view,histogram);
257 gray8c_view_t hist_view=interleaved_view(256,1,(const gray8_pixel_t*)histogram,256);
258 check_view(hist_view,prefix+"histogram");
259 }
260
261 template <typename View>
view_transformations_test(const View & img_view,const string & prefix)262 void image_test::view_transformations_test(const View& img_view, const string& prefix) {
263 check_view(img_view,prefix+"original");
264
265 check_view(subimage_view(img_view, iround(img_view.dimensions()/4), iround(img_view.dimensions()/2)),prefix+"cropped");
266 check_view(color_converted_view<gray8_pixel_t>(img_view),prefix+"gray8");
267 check_view(color_converted_view<gray8_pixel_t>(img_view,my_color_converter()),prefix+"my_gray8");
268 check_view(transposed_view(img_view),prefix+"transpose");
269 check_view(rotated180_view(img_view),prefix+"rot180");
270 check_view(rotated90cw_view(img_view),prefix+"90cw");
271 check_view(rotated90ccw_view(img_view),prefix+"90ccw");
272 check_view(flipped_up_down_view(img_view),prefix+"flipped_ud");
273 check_view(flipped_left_right_view(img_view),prefix+"flipped_lr");
274 check_view(subsampled_view(img_view,typename View::point_t(2,1)),prefix+"subsampled");
275 check_view(kth_channel_view<0>(img_view),prefix+"0th_k_channel");
276 homogeneous_view_transformations_test(img_view, prefix, view_is_homogeneous<View>());
277 }
278
279 template <typename View>
homogeneous_view_transformations_test(const View & img_view,const string & prefix,std::true_type)280 void image_test::homogeneous_view_transformations_test(const View& img_view, const string& prefix, std::true_type) {
281 check_view(nth_channel_view(img_view,0),prefix+"0th_n_channel");
282 }
283
virtual_view_test()284 void image_test::virtual_view_test()
285 {
286 using deref_t = mandelbrot_fn<rgb8_pixel_t>;
287 using point_t = deref_t::point_t;
288 using locator_t = virtual_2d_locator<deref_t, false>;
289 using my_virt_view_t = image_view<locator_t>;
290
291 boost::function_requires<PixelLocatorConcept<locator_t> >();
292 gil_function_requires<StepIteratorConcept<locator_t::x_iterator> >();
293
294 point_t dims(200,200);
295 my_virt_view_t mandel(dims, locator_t(point_t(0,0), point_t(1,1), deref_t(dims, rgb8_pixel_t(255,0,255), rgb8_pixel_t(0,255,0))));
296
297 gray8s_image_t img(dims);
298 fill_pixels(view(img),0); // our x_gradient algorithm doesn't change the first & last column, so make sure they are 0
299 x_gradient(color_converted_view<gray8_pixel_t>(mandel), view(img));
300 check_view(color_converted_view<gray8_pixel_t>(const_view(img)), "mandelLuminosityGradient");
301
302 view_transformations_test(mandel,"virtual_");
303 histogram_test(mandel,"virtual_");
304 }
305
306 // Test alignment and packed images
packed_image_test()307 void image_test::packed_image_test()
308 {
309 using bgr131_image_t = bit_aligned_image3_type<1,3,1, bgr_layout_t>::type;
310 using bgr131_pixel_t = bgr131_image_t::value_type;
311 bgr131_pixel_t fill_val(1,3,1);
312
313 bgr131_image_t bgr131_img(3,10);
314 fill_pixels(view(bgr131_img), fill_val);
315
316 bgr131_image_t bgr131a_img(3,10,1);
317 copy_pixels(const_view(bgr131_img), view(bgr131a_img));
318
319 bgr131_image_t bgr131b_img(3,10,4);
320 copy_pixels(const_view(bgr131_img), view(bgr131b_img));
321
322 error_if(bgr131_img!=bgr131a_img || bgr131a_img!=bgr131b_img);
323 }
324
dynamic_image_test()325 void image_test::dynamic_image_test()
326 {
327 using any_image_t = any_image
328 <
329 gray8_image_t,
330 bgr8_image_t,
331 argb8_image_t,
332 rgb8_image_t,
333 rgb8_planar_image_t
334 >;
335 rgb8_planar_image_t img(sample_view.dimensions());
336 copy_pixels(sample_view, view(img));
337 any_image_t any_img=any_image_t(img);
338
339 check_view(view(any_img), "dynamic_");
340 check_view(flipped_left_right_view(view(any_img)), "dynamic_fliplr");
341 check_view(flipped_up_down_view(view(any_img)), "dynamic_flipud");
342
343 any_image_t::view_t subimageView=subimage_view(view(any_img),0,0,10,15);
344
345 check_view(subimageView, "dynamic_subimage");
346 check_view(subsampled_view(rotated180_view(view(any_img)), 2,1), "dynamic_subimage_subsampled180rot");
347 }
348
349 template <typename Img>
image_all_test(const string & prefix)350 void image_test::image_all_test(const string& prefix) {
351 basic_test<Img>(prefix+"basic_");
352
353 Img img;
354 img.recreate(sample_view.dimensions());
355 copy_and_convert_pixels(sample_view,view(img));
356
357 view_transformations_test(view(img), prefix+"views_");
358
359 histogram_test(const_view(img),prefix+"histogram_");
360 }
361
run()362 void image_test::run() {
363 initialize();
364
365 image_all_test<bgr8_image_t>("bgr8_");
366 image_all_test<rgb8_image_t>("rgb8_");
367 image_all_test<rgb8_planar_image_t>("planarrgb8_");
368 image_all_test<gray8_image_t>("gray8_");
369
370 // FIXME: https://github.com/boostorg/gil/issues/447
371 // Disable bgc121_image_t drawing as work around for a mysterious bug
372 // revealing itself when using MSVC 64-bit optimized build.
373 #if !(defined(NDEBUG) && defined (_MSC_VER) && defined(_WIN64))
374 using bgr121_ref_t = bit_aligned_pixel_reference
375 <
376 boost::uint8_t,
377 mp11::mp_list_c<int, 1, 2, 1>,
378 bgr_layout_t,
379 true
380 > const;
381 using bgr121_image_t = image<bgr121_ref_t, false>;
382 image_all_test<bgr121_image_t>("bgr121_");
383 #endif
384
385 // TODO: Remove?
386 view_transformations_test(subsampled_view(sample_view, point_t(1,2)), "subsampled_");
387 view_transformations_test(color_converted_view<gray8_pixel_t>(sample_view),"color_converted_");
388
389 virtual_view_test();
390 packed_image_test();
391 dynamic_image_test();
392
393 finalize();
394 }
395
396 ////////////////////////////////////////////////////
397 ///
398 /// Performs or generates image tests using checksums
399 ///
400 ////////////////////////////////////////////////////
401
402 class checksum_image_mgr : public image_test
403 {
404 protected:
405 using crc_map_t = map<string, boost::crc_32_type::value_type>;
406 crc_map_t _crc_map;
407 };
408
409 ////////////////////////////////////////////////////
410 ///
411 /// Performs image tests by comparing image pixel checksums against a reference
412 ///
413 ////////////////////////////////////////////////////
414
415 class checksum_image_test : public checksum_image_mgr {
416 public:
checksum_image_test(const char * filename)417 checksum_image_test(const char* filename) : _filename(filename) {}
418 private:
419 const char* _filename;
420 void initialize() override;
421 void check_view_impl(const rgb8c_view_t& v, const string& name) override;
422 };
423
424 // Load the checksums from the reference file and create the start image
initialize()425 void checksum_image_test::initialize() {
426 boost::crc_32_type::value_type crc_result;
427 fstream checksum_ref(_filename,ios::in);
428 while (true) {
429 string crc_name;
430 checksum_ref >> crc_name >> std::hex >> crc_result;
431 if(checksum_ref.fail()) break;
432 if (!crc_name.empty() && crc_name[0] == '#')
433 {
434 crc_result = 0; // skip test case
435 crc_name = crc_name.substr(1);
436 }
437 _crc_map[crc_name]=crc_result;
438 }
439 checksum_ref.close();
440 }
441
442 // Create a checksum for the given view and compare it with the reference checksum. Throw exception if different
check_view_impl(const rgb8c_view_t & img_view,const string & name)443 void checksum_image_test::check_view_impl(const rgb8c_view_t& img_view, const string& name) {
444 boost::crc_32_type checksum_acumulator;
445 checksum_acumulator.process_bytes(img_view.row_begin(0),img_view.size()*3);
446 unsigned int const crc_expect = _crc_map[name];
447 if (crc_expect == 0)
448 {
449 cerr << "Skipping checksum check for " << name << " (crc=0)" << endl;
450 return;
451 }
452
453 boost::crc_32_type::value_type const crc = checksum_acumulator.checksum();
454 if (crc==crc_expect) {
455 cerr << "Checking checksum for " << name << " (crc=" << std::hex << crc << ")" << endl;
456 }
457 else {
458 cerr << "Checksum error in " << name
459 << " (crc=" << std::hex << crc << " != " << std::hex << crc_expect << ")" << endl;
460 error_if(true);
461 }
462 }
463
464 ////////////////////////////////////////////////////
465 ///
466 /// Generates a set of reference checksums to compare against
467 ///
468 ////////////////////////////////////////////////////
469
470 class checksum_image_generate : public checksum_image_mgr {
471 public:
checksum_image_generate(const char * filename)472 checksum_image_generate(const char* filename) : _filename(filename) {}
473 private:
474 const char* _filename;
475 void check_view_impl(const rgb8c_view_t& img_view, const string& name) override;
476 void finalize() override;
477 };
478
479 // Add the checksum of the given view to the map of checksums
check_view_impl(const rgb8c_view_t & img_view,const string & name)480 void checksum_image_generate::check_view_impl(const rgb8c_view_t& img_view, const string& name) {
481 boost::crc_32_type result;
482 result.process_bytes(img_view.row_begin(0),img_view.size()*3);
483 cerr << "Generating checksum for " << name << endl;
484 _crc_map[name] = result.checksum();
485 }
486
487 // Save the checksums into the reference file
finalize()488 void checksum_image_generate::finalize() {
489 fstream checksum_ref(_filename,ios::out);
490 for (crc_map_t::const_iterator it=_crc_map.begin(); it!=_crc_map.end(); ++it) {
491 checksum_ref << it->first << " " << std::hex << it->second << "\r\n";
492 }
493 checksum_ref.close();
494 }
495
496 ////////////////////////////////////////////////////
497 ///
498 /// Performs or generates image tests using image I/O
499 ///
500 ////////////////////////////////////////////////////
501
502 extern const string in_dir;
503 extern const string out_dir;
504 extern const string ref_dir;
505
506 const string in_dir=""; // directory of source images
507 const string out_dir=in_dir+"image-out/"; // directory where to write output
508 const string ref_dir=in_dir+"image-ref/"; // reference directory to compare written with actual output
509
static_checks()510 void static_checks() {
511 gil_function_requires<ImageConcept<rgb8_image_t> >();
512
513 static_assert(view_is_basic<rgb8_step_view_t>::value, "");
514 static_assert(view_is_basic<cmyk8c_planar_step_view_t>::value, "");
515 static_assert(view_is_basic<rgb8_planar_view_t>::value, "");
516
517 static_assert(view_is_step_in_x<rgb8_step_view_t>::value, "");
518 static_assert(view_is_step_in_x<cmyk8c_planar_step_view_t>::value, "");
519 static_assert(!view_is_step_in_x<rgb8_planar_view_t>::value, "");
520
521 static_assert(!is_planar<rgb8_step_view_t>::value, "");
522 static_assert(is_planar<cmyk8c_planar_step_view_t>::value, "");
523 static_assert(is_planar<rgb8_planar_view_t>::value, "");
524
525 static_assert(view_is_mutable<rgb8_step_view_t>::value, "");
526 static_assert(!view_is_mutable<cmyk8c_planar_step_view_t>::value, "");
527 static_assert(view_is_mutable<rgb8_planar_view_t>::value, "");
528
529 static_assert(std::is_same
530 <
531 derived_view_type<cmyk8c_planar_step_view_t>::type,
532 cmyk8c_planar_step_view_t
533 >::value, "");
534 static_assert(std::is_same
535 <
536 derived_view_type
537 <
538 cmyk8c_planar_step_view_t, std::uint16_t, rgb_layout_t
539 >::type,
540 rgb16c_planar_step_view_t
541 >::value, "");
542 static_assert(std::is_same
543 <
544 derived_view_type
545 <
546 cmyk8c_planar_step_view_t, use_default, rgb_layout_t, std::false_type, use_default, std::false_type
547 >::type,
548 rgb8c_step_view_t
549 >::value, "");
550
551 // test view get raw data (mostly compile-time test)
552 {
553 rgb8_image_t rgb8(100,100);
554 unsigned char* data=interleaved_view_get_raw_data(view(rgb8));
555 const unsigned char* cdata=interleaved_view_get_raw_data(const_view(rgb8));
556 error_if(data!=cdata);
557 }
558
559 {
560 rgb16s_planar_image_t rgb8(100,100);
561 short* data=planar_view_get_raw_data(view(rgb8),1);
562 const short* cdata=planar_view_get_raw_data(const_view(rgb8),1);
563 error_if(data!=cdata);
564 }
565 }
566
567 using image_test_t = checksum_image_test;
568 using image_generate_t = checksum_image_generate;
569
570 #ifdef BOOST_GIL_GENERATE_REFERENCE_DATA
571 using image_mgr_t = image_generate_t;
572 #else
573 using image_mgr_t = image_test_t;
574 #endif
575
test_image(const char * ref_checksum)576 void test_image(const char* ref_checksum) {
577 image_mgr_t mgr(ref_checksum);
578
579 cerr << "Reading checksums from " << ref_checksum << endl;
580 mgr.run();
581 static_checks();
582 }
583
main(int argc,char * argv[])584 int main(int argc, char* argv[])
585 {
586 try
587 {
588 if (argc != 2)
589 throw std::runtime_error("No file with reference checksums specified");
590
591 std::string local_name = argv[1];
592 std::ifstream file_is_there(local_name.c_str());
593 if (!file_is_there)
594 throw std::runtime_error("Unable to open gil_reference_checksums.txt");
595
596 test_image(local_name.c_str());
597
598 return EXIT_SUCCESS;
599 }
600 catch (std::exception const& e)
601 {
602 std::cerr << e.what() << std::endl;
603 return EXIT_FAILURE;
604 }
605 catch (...)
606 {
607 return EXIT_FAILURE;
608 }
609 }
610