CMS 3D CMS Logo

All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Properties Friends Macros Pages
ElectronIdMLP.cc
Go to the documentation of this file.
1 #include "ElectronIdMLP.h"
2 #include <cmath>
3 
4 double ElectronIdMLP::value(int index,double in0,double in1,double in2,double in3,double in4,double in5,double in6,double in7,double in8) {
5  input0 = (in0 - 0)/1;
6  input1 = (in1 - 0)/1;
7  input2 = (in2 - 0)/1;
8  input3 = (in3 - 0)/1;
9  input4 = (in4 - 0)/1;
10  input5 = (in5 - 0)/1;
11  input6 = (in6 - 0)/1;
12  input7 = (in7 - 0)/1;
13  input8 = (in8 - 0)/1;
14  switch(index) {
15  case 0:
16  return ((neuron0x9f46aa8()*1)+0);
17  default:
18  return 0.;
19  }
20 }
21 
23  return input0;
24 }
25 
27  return input1;
28 }
29 
31  return input2;
32 }
33 
35  return input3;
36 }
37 
39  return input4;
40 }
41 
43  return input5;
44 }
45 
47  return input6;
48 }
49 
51  return input7;
52 }
53 
55  return input8;
56 }
57 
59  double input = -1.22145;
60  input += synapse0x9f24e98();
61  input += synapse0x9f444b0();
62  input += synapse0x9f444d8();
63  input += synapse0x9f44500();
64  input += synapse0x9f44528();
65  input += synapse0x9f44550();
66  input += synapse0x9f44578();
67  input += synapse0x9f445a0();
68  input += synapse0x9f445c8();
69  return input;
70 }
71 
73  double input = input0x9f44320();
74  return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
75 }
76 
78  double input = -2.3169;
79  input += synapse0x9f447c8();
80  input += synapse0x9f447f0();
81  input += synapse0x9f44818();
82  input += synapse0x9f44840();
83  input += synapse0x9f44868();
84  input += synapse0x9f44890();
85  input += synapse0x9f448b8();
86  input += synapse0x9f448e0();
87  input += synapse0x9f44990();
88  return input;
89 }
90 
92  double input = input0x9f445f0();
93  return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
94 }
95 
97  double input = 0.497047;
98  input += synapse0x9f44b48();
99  input += synapse0x9f44b70();
100  input += synapse0x9f44b98();
101  input += synapse0x9f44bc0();
102  input += synapse0x9f44be8();
103  input += synapse0x9f44c10();
104  input += synapse0x9f44c38();
105  input += synapse0x9f44c60();
106  input += synapse0x9f44c88();
107  return input;
108 }
109 
111  double input = input0x9f449b8();
112  return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
113 }
114 
116  double input = -3.54065;
117  input += synapse0x9f44e88();
118  input += synapse0x9f44eb0();
119  input += synapse0x9f44ed8();
120  input += synapse0x9f44f00();
121  input += synapse0x9f44f28();
122  input += synapse0x9f44f50();
123  input += synapse0x9f44908();
124  input += synapse0x9f44930();
125  input += synapse0x9f44958();
126  return input;
127 }
128 
130  double input = input0x9f44cb0();
131  return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
132 }
133 
135  double input = -2.10164;
136  input += synapse0x9f45258();
137  input += synapse0x9f45280();
138  input += synapse0x9f452a8();
139  input += synapse0x9f452d0();
140  input += synapse0x9f452f8();
141  input += synapse0x9f45320();
142  input += synapse0x9f45348();
143  input += synapse0x9f45370();
144  input += synapse0x9f45398();
145  return input;
146 }
147 
149  double input = input0x9f45080();
150  return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
151 }
152 
154  double input = 0.540837;
155  input += synapse0x9f455b8();
156  input += synapse0x9f455e0();
157  input += synapse0x9f45608();
158  input += synapse0x9f45630();
159  input += synapse0x9f45658();
160  input += synapse0x9f45680();
161  input += synapse0x9f456a8();
162  input += synapse0x9f456d0();
163  input += synapse0x9f456f8();
164  return input;
165 }
166 
168  double input = input0x9f453c0();
169  return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
170 }
171 
173  double input = 0.568144;
174  input += synapse0x9f45918();
175  input += synapse0x9f45940();
176  input += synapse0x9f45968();
177  input += synapse0x9f45990();
178  input += synapse0x9f459b8();
179  input += synapse0x9f459e0();
180  input += synapse0x9f45a08();
181  input += synapse0x9f45a30();
182  input += synapse0x9f45a58();
183  return input;
184 }
185 
187  double input = input0x9f45720();
188  return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
189 }
190 
192  double input = -0.779783;
193  input += synapse0x9f45d00();
194  input += synapse0x9f45d28();
195  input += synapse0x9f24ec0();
196  input += synapse0x9ea6a58();
197  input += synapse0x9ea69e0();
198  input += synapse0x9ca2f20();
199  input += synapse0x9e985c0();
200  input += synapse0x9e985e8();
201  input += synapse0x9e98610();
202  return input;
203 }
204 
206  double input = input0x9f45a80();
207  return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
208 }
209 
211  double input = 0.146916;
212  input += synapse0x9ea6b70();
213  input += synapse0x9f45f58();
214  input += synapse0x9f45f80();
215  input += synapse0x9f45fa8();
216  input += synapse0x9f45fd0();
217  input += synapse0x9f45ff8();
218  input += synapse0x9f46020();
219  input += synapse0x9f46048();
220  input += synapse0x9f46070();
221  return input;
222 }
223 
225  double input = input0x9f44f78();
226  return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
227 }
228 
230  double input = -0.350685;
231  input += synapse0x9f46270();
232  input += synapse0x9f46298();
233  input += synapse0x9f462c0();
234  input += synapse0x9f462e8();
235  input += synapse0x9f46310();
236  input += synapse0x9f46338();
237  input += synapse0x9f46360();
238  input += synapse0x9f46388();
239  input += synapse0x9f463b0();
240  return input;
241 }
242 
244  double input = input0x9f46098();
245  return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
246 }
247 
249  double input = 1.71591;
250  input += synapse0x9f465d8();
251  input += synapse0x9f46600();
252  input += synapse0x9f46628();
253  input += synapse0x9f46650();
254  input += synapse0x9f46678();
255  input += synapse0x9f466a0();
256  input += synapse0x9f466c8();
257  input += synapse0x9f466f0();
258  input += synapse0x9f46718();
259  return input;
260 }
261 
263  double input = input0x9f463d8();
264  return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
265 }
266 
268  double input = -1.70461;
269  input += synapse0x9f46940();
270  input += synapse0x9f46968();
271  input += synapse0x9f46990();
272  input += synapse0x9f469b8();
273  input += synapse0x9f469e0();
274  input += synapse0x9f46a08();
275  input += synapse0x9f46a30();
276  input += synapse0x9f46a58();
277  input += synapse0x9f46a80();
278  return input;
279 }
280 
282  double input = input0x9f46740();
283  return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input)));
284 }
285 
287  double input = 0.345943;
288  input += synapse0x9f46ca0();
289  input += synapse0x9f46cc8();
290  input += synapse0x9f46cf0();
291  input += synapse0x9f46d18();
292  input += synapse0x9f46d40();
293  input += synapse0x9f46d68();
294  input += synapse0x9f46d90();
295  input += synapse0x9f46db8();
296  input += synapse0x9f46de0();
297  input += synapse0x9f46e08();
298  input += synapse0x9f46e30();
299  input += synapse0x9f46e58();
300  return input;
301 }
302 
304  double input = input0x9f46aa8();
305  return (input * 1)+0;
306 }
307 
309  return (neuron0x9f43138()*0.879971);
310 }
311 
313  return (neuron0x9f432c8()*0.0961671);
314 }
315 
317  return (neuron0x9f434a0()*1.66153);
318 }
319 
321  return (neuron0x9f43698()*0.321611);
322 }
323 
325  return (neuron0x9f43870()*1.12196);
326 }
327 
329  return (neuron0x9f43a48()*-5.17401);
330 }
331 
333  return (neuron0x9f43c20()*4.4513);
334 }
335 
337  return (neuron0x9f43e10()*-1.27001);
338 }
339 
341  return (neuron0x9f44008()*-10.3839);
342 }
343 
345  return (neuron0x9f43138()*0.284838);
346 }
347 
349  return (neuron0x9f432c8()*0.0613191);
350 }
351 
353  return (neuron0x9f434a0()*0.0915991);
354 }
355 
357  return (neuron0x9f43698()*-0.549085);
358 }
359 
361  return (neuron0x9f43870()*-0.388214);
362 }
363 
365  return (neuron0x9f43a48()*1.82147);
366 }
367 
369  return (neuron0x9f43c20()*4.79833);
370 }
371 
373  return (neuron0x9f43e10()*-1.77169);
374 }
375 
377  return (neuron0x9f44008()*-3.25212);
378 }
379 
381  return (neuron0x9f43138()*1.08682);
382 }
383 
385  return (neuron0x9f432c8()*0.0571666);
386 }
387 
389  return (neuron0x9f434a0()*-1.90535);
390 }
391 
393  return (neuron0x9f43698()*-2.15635);
394 }
395 
397  return (neuron0x9f43870()*-1.183);
398 }
399 
401  return (neuron0x9f43a48()*-1.53323);
402 }
403 
405  return (neuron0x9f43c20()*1.59348);
406 }
407 
409  return (neuron0x9f43e10()*-0.834021);
410 }
411 
413  return (neuron0x9f44008()*-1.08357);
414 }
415 
417  return (neuron0x9f43138()*-0.959033);
418 }
419 
421  return (neuron0x9f432c8()*0.150702);
422 }
423 
425  return (neuron0x9f434a0()*0.603047);
426 }
427 
429  return (neuron0x9f43698()*0.766931);
430 }
431 
433  return (neuron0x9f43870()*1.33327);
434 }
435 
437  return (neuron0x9f43a48()*0.397085);
438 }
439 
441  return (neuron0x9f43c20()*2.83518);
442 }
443 
445  return (neuron0x9f43e10()*2.53477);
446 }
447 
449  return (neuron0x9f44008()*-1.20442);
450 }
451 
453  return (neuron0x9f43138()*-0.0646114);
454 }
455 
457  return (neuron0x9f432c8()*-0.330255);
458 }
459 
461  return (neuron0x9f434a0()*-1.87624);
462 }
463 
465  return (neuron0x9f43698()*-0.872878);
466 }
467 
469  return (neuron0x9f43870()*0.789821);
470 }
471 
473  return (neuron0x9f43a48()*2.97713);
474 }
475 
477  return (neuron0x9f43c20()*3.70241);
478 }
479 
481  return (neuron0x9f43e10()*2.25345);
482 }
483 
485  return (neuron0x9f44008()*9.12485);
486 }
487 
489  return (neuron0x9f43138()*-1.76594);
490 }
491 
493  return (neuron0x9f432c8()*0.325989);
494 }
495 
497  return (neuron0x9f434a0()*-1.57176);
498 }
499 
501  return (neuron0x9f43698()*-1.49181);
502 }
503 
505  return (neuron0x9f43870()*-0.436626);
506 }
507 
509  return (neuron0x9f43a48()*-0.415296);
510 }
511 
513  return (neuron0x9f43c20()*0.686166);
514 }
515 
517  return (neuron0x9f43e10()*1.197);
518 }
519 
521  return (neuron0x9f44008()*1.08228);
522 }
523 
525  return (neuron0x9f43138()*0.6264);
526 }
527 
529  return (neuron0x9f432c8()*-0.0527889);
530 }
531 
533  return (neuron0x9f434a0()*0.0420227);
534 }
535 
537  return (neuron0x9f43698()*-0.503423);
538 }
539 
541  return (neuron0x9f43870()*0.015745);
542 }
543 
545  return (neuron0x9f43a48()*-2.27786);
546 }
547 
549  return (neuron0x9f43c20()*-2.78804);
550 }
551 
553  return (neuron0x9f43e10()*0.278226);
554 }
555 
557  return (neuron0x9f44008()*1.43897);
558 }
559 
561  return (neuron0x9f43138()*-0.113819);
562 }
563 
565  return (neuron0x9f432c8()*-0.526026);
566 }
567 
569  return (neuron0x9f434a0()*0.280854);
570 }
571 
573  return (neuron0x9f43698()*-0.565832);
574 }
575 
577  return (neuron0x9f43870()*-4.1776);
578 }
579 
581  return (neuron0x9f43a48()*2.4344);
582 }
583 
585  return (neuron0x9f43c20()*1.19602);
586 }
587 
589  return (neuron0x9f43e10()*3.02645);
590 }
591 
593  return (neuron0x9f44008()*-0.38682);
594 }
595 
597  return (neuron0x9f43138()*-2.22478);
598 }
599 
601  return (neuron0x9f432c8()*0.203476);
602 }
603 
605  return (neuron0x9f434a0()*2.45698);
606 }
607 
609  return (neuron0x9f43698()*0.938005);
610 }
611 
613  return (neuron0x9f43870()*-0.155581);
614 }
615 
617  return (neuron0x9f43a48()*-1.84449);
618 }
619 
621  return (neuron0x9f43c20()*1.62976);
622 }
623 
625  return (neuron0x9f43e10()*-1.3476);
626 }
627 
629  return (neuron0x9f44008()*-5.67653);
630 }
631 
633  return (neuron0x9f43138()*-1.1783);
634 }
635 
637  return (neuron0x9f432c8()*0.919324);
638 }
639 
641  return (neuron0x9f434a0()*0.100647);
642 }
643 
645  return (neuron0x9f43698()*1.14597);
646 }
647 
649  return (neuron0x9f43870()*-0.270844);
650 }
651 
653  return (neuron0x9f43a48()*0.982664);
654 }
655 
657  return (neuron0x9f43c20()*1.50571);
658 }
659 
661  return (neuron0x9f43e10()*-1.14533);
662 }
663 
665  return (neuron0x9f44008()*4.69291);
666 }
667 
669  return (neuron0x9f43138()*0.105787);
670 }
671 
673  return (neuron0x9f432c8()*0.460172);
674 }
675 
677  return (neuron0x9f434a0()*0.138901);
678 }
679 
681  return (neuron0x9f43698()*1.72831);
682 }
683 
685  return (neuron0x9f43870()*-1.36692);
686 }
687 
689  return (neuron0x9f43a48()*3.09794);
690 }
691 
693  return (neuron0x9f43c20()*0.170757);
694 }
695 
697  return (neuron0x9f43e10()*3.36054);
698 }
699 
701  return (neuron0x9f44008()*5.85824);
702 }
703 
705  return (neuron0x9f43138()*0.77873);
706 }
707 
709  return (neuron0x9f432c8()*0.0264436);
710 }
711 
713  return (neuron0x9f434a0()*0.86123);
714 }
715 
717  return (neuron0x9f43698()*1.8242);
718 }
719 
721  return (neuron0x9f43870()*3.66502);
722 }
723 
725  return (neuron0x9f43a48()*-0.182076);
726 }
727 
729  return (neuron0x9f43c20()*0.59582);
730 }
731 
733  return (neuron0x9f43e10()*0.667454);
734 }
735 
737  return (neuron0x9f44008()*1.1529);
738 }
739 
741  return (neuron0x9f44320()*-3.27612);
742 }
743 
745  return (neuron0x9f445f0()*-2.11621);
746 }
747 
749  return (neuron0x9f449b8()*-4.88221);
750 }
751 
753  return (neuron0x9f44cb0()*1.89605);
754 }
755 
757  return (neuron0x9f45080()*-1.18343);
758 }
759 
761  return (neuron0x9f453c0()*5.41139);
762 }
763 
765  return (neuron0x9f45720()*-3.83221);
766 }
767 
769  return (neuron0x9f45a80()*-0.743994);
770 }
771 
773  return (neuron0x9f44f78()*7.23992);
774 }
775 
777  return (neuron0x9f46098()*2.98399);
778 }
779 
781  return (neuron0x9f463d8()*-1.92682);
782 }
783 
785  return (neuron0x9f46740()*-3.21289);
786 }
787 
788 
double synapse0x9f46d90()
double synapse0x9f44e88()
double input0x9f45080()
double synapse0x9f469b8()
double neuron0x9f44cb0()
double synapse0x9f44890()
double synapse0x9f45f58()
double input0x9f46aa8()
double synapse0x9f45918()
double synapse0x9f46338()
double neuron0x9f43a48()
double synapse0x9f46628()
double synapse0x9f45630()
double synapse0x9f46678()
double synapse0x9f456f8()
double synapse0x9f46020()
double synapse0x9ea6b70()
double synapse0x9f45968()
double synapse0x9f45fa8()
double synapse0x9f444b0()
double synapse0x9f459b8()
double synapse0x9f44b70()
double synapse0x9f44990()
double input0x9f46098()
double synapse0x9f45258()
double synapse0x9f45658()
double neuron0x9f46098()
double synapse0x9f46070()
double synapse0x9e98610()
double synapse0x9f46940()
double synapse0x9f455e0()
double synapse0x9f44bc0()
double synapse0x9ea6a58()
double synapse0x9f44f50()
double synapse0x9f45398()
double synapse0x9f45608()
double synapse0x9f44c60()
double input0x9f45720()
double synapse0x9f46a80()
Exp< T >::type exp(const T &t)
Definition: Exp.h:22
double synapse0x9f44f00()
double synapse0x9f45fd0()
double input0x9f463d8()
double synapse0x9f46718()
double synapse0x9f469e0()
double synapse0x9f45d28()
double synapse0x9f46d18()
double synapse0x9f44b48()
double synapse0x9f46e08()
double neuron0x9f46740()
double neuron0x9f432c8()
double neuron0x9f463d8()
double synapse0x9f448b8()
double synapse0x9f45ff8()
double synapse0x9f46ca0()
double neuron0x9f43c20()
double synapse0x9f46a58()
double neuron0x9f43698()
double synapse0x9f447f0()
double synapse0x9f445c8()
double synapse0x9f24ec0()
double input0x9f449b8()
double synapse0x9f46360()
double neuron0x9f43e10()
double synapse0x9f45d00()
double synapse0x9f456d0()
double neuron0x9f45080()
double synapse0x9f46cf0()
double synapse0x9f466c8()
double synapse0x9f46d40()
double synapse0x9f44908()
double synapse0x9f44b98()
double synapse0x9f46db8()
double synapse0x9f445a0()
double synapse0x9f46cc8()
double synapse0x9f45940()
double synapse0x9f45990()
double neuron0x9f45a80()
double synapse0x9f45f80()
double synapse0x9f44868()
double synapse0x9f45a30()
double synapse0x9f463b0()
double synapse0x9f465d8()
double synapse0x9f46a30()
double neuron0x9f434a0()
double synapse0x9f46990()
double synapse0x9f44500()
double synapse0x9f46a08()
double input0x9f44320()
double synapse0x9f462c0()
double synapse0x9f44eb0()
double synapse0x9f44840()
double synapse0x9f44528()
tuple input
Definition: collect_tpl.py:10
double synapse0x9f46048()
double synapse0x9f44be8()
double synapse0x9f44958()
double synapse0x9f46650()
double input0x9f45a80()
double neuron0x9f46aa8()
double neuron0x9f44f78()
double synapse0x9e985c0()
double input0x9f453c0()
double synapse0x9f44930()
double synapse0x9f459e0()
double synapse0x9f44c88()
double synapse0x9f45370()
double synapse0x9f46270()
double synapse0x9f46968()
double neuron0x9f44008()
double synapse0x9f45280()
double neuron0x9f445f0()
double synapse0x9f448e0()
double synapse0x9f45320()
double neuron0x9f45720()
double value(int index, double in0, double in1, double in2, double in3, double in4, double in5, double in6, double in7, double in8)
Definition: ElectronIdMLP.cc:4
double neuron0x9f453c0()
double synapse0x9f46310()
double synapse0x9f44578()
double synapse0x9f45680()
double synapse0x9f46de0()
double synapse0x9f46298()
double synapse0x9f24e98()
double synapse0x9f46388()
double synapse0x9f45348()
double synapse0x9f452f8()
double input0x9f44f78()
double synapse0x9f466a0()
double synapse0x9f456a8()
double neuron0x9f43138()
double synapse0x9f462e8()
double synapse0x9f46e30()
double synapse0x9f455b8()
double synapse0x9f44ed8()
double input0x9f445f0()
double synapse0x9f452a8()
double synapse0x9f466f0()
double synapse0x9f44818()
double synapse0x9ea69e0()
double synapse0x9f44550()
double neuron0x9f449b8()
double neuron0x9f43870()
double synapse0x9f46d68()
double input0x9f46740()
double neuron0x9f44320()
double synapse0x9f444d8()
double synapse0x9f447c8()
double input0x9f44cb0()
double synapse0x9f44f28()
double synapse0x9f45a58()
double synapse0x9f44c38()
double synapse0x9f46600()
double synapse0x9f45a08()
double synapse0x9e985e8()
double synapse0x9f46e58()
double synapse0x9f452d0()
double synapse0x9f44c10()
double synapse0x9ca2f20()