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00001 #include "ElectronIdMLP.h" 00002 #include <cmath> 00003 00004 double ElectronIdMLP::value(int index,double in0,double in1,double in2,double in3,double in4,double in5,double in6,double in7,double in8) { 00005 input0 = (in0 - 0)/1; 00006 input1 = (in1 - 0)/1; 00007 input2 = (in2 - 0)/1; 00008 input3 = (in3 - 0)/1; 00009 input4 = (in4 - 0)/1; 00010 input5 = (in5 - 0)/1; 00011 input6 = (in6 - 0)/1; 00012 input7 = (in7 - 0)/1; 00013 input8 = (in8 - 0)/1; 00014 switch(index) { 00015 case 0: 00016 return ((neuron0x9f46aa8()*1)+0); 00017 default: 00018 return 0.; 00019 } 00020 } 00021 00022 double ElectronIdMLP::neuron0x9f43138() { 00023 return input0; 00024 } 00025 00026 double ElectronIdMLP::neuron0x9f432c8() { 00027 return input1; 00028 } 00029 00030 double ElectronIdMLP::neuron0x9f434a0() { 00031 return input2; 00032 } 00033 00034 double ElectronIdMLP::neuron0x9f43698() { 00035 return input3; 00036 } 00037 00038 double ElectronIdMLP::neuron0x9f43870() { 00039 return input4; 00040 } 00041 00042 double ElectronIdMLP::neuron0x9f43a48() { 00043 return input5; 00044 } 00045 00046 double ElectronIdMLP::neuron0x9f43c20() { 00047 return input6; 00048 } 00049 00050 double ElectronIdMLP::neuron0x9f43e10() { 00051 return input7; 00052 } 00053 00054 double ElectronIdMLP::neuron0x9f44008() { 00055 return input8; 00056 } 00057 00058 double ElectronIdMLP::input0x9f44320() { 00059 double input = -1.22145; 00060 input += synapse0x9f24e98(); 00061 input += synapse0x9f444b0(); 00062 input += synapse0x9f444d8(); 00063 input += synapse0x9f44500(); 00064 input += synapse0x9f44528(); 00065 input += synapse0x9f44550(); 00066 input += synapse0x9f44578(); 00067 input += synapse0x9f445a0(); 00068 input += synapse0x9f445c8(); 00069 return input; 00070 } 00071 00072 double ElectronIdMLP::neuron0x9f44320() { 00073 double input = input0x9f44320(); 00074 return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input))); 00075 } 00076 00077 double ElectronIdMLP::input0x9f445f0() { 00078 double input = -2.3169; 00079 input += synapse0x9f447c8(); 00080 input += synapse0x9f447f0(); 00081 input += synapse0x9f44818(); 00082 input += synapse0x9f44840(); 00083 input += synapse0x9f44868(); 00084 input += synapse0x9f44890(); 00085 input += synapse0x9f448b8(); 00086 input += synapse0x9f448e0(); 00087 input += synapse0x9f44990(); 00088 return input; 00089 } 00090 00091 double ElectronIdMLP::neuron0x9f445f0() { 00092 double input = input0x9f445f0(); 00093 return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input))); 00094 } 00095 00096 double ElectronIdMLP::input0x9f449b8() { 00097 double input = 0.497047; 00098 input += synapse0x9f44b48(); 00099 input += synapse0x9f44b70(); 00100 input += synapse0x9f44b98(); 00101 input += synapse0x9f44bc0(); 00102 input += synapse0x9f44be8(); 00103 input += synapse0x9f44c10(); 00104 input += synapse0x9f44c38(); 00105 input += synapse0x9f44c60(); 00106 input += synapse0x9f44c88(); 00107 return input; 00108 } 00109 00110 double ElectronIdMLP::neuron0x9f449b8() { 00111 double input = input0x9f449b8(); 00112 return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input))); 00113 } 00114 00115 double ElectronIdMLP::input0x9f44cb0() { 00116 double input = -3.54065; 00117 input += synapse0x9f44e88(); 00118 input += synapse0x9f44eb0(); 00119 input += synapse0x9f44ed8(); 00120 input += synapse0x9f44f00(); 00121 input += synapse0x9f44f28(); 00122 input += synapse0x9f44f50(); 00123 input += synapse0x9f44908(); 00124 input += synapse0x9f44930(); 00125 input += synapse0x9f44958(); 00126 return input; 00127 } 00128 00129 double ElectronIdMLP::neuron0x9f44cb0() { 00130 double input = input0x9f44cb0(); 00131 return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input))); 00132 } 00133 00134 double ElectronIdMLP::input0x9f45080() { 00135 double input = -2.10164; 00136 input += synapse0x9f45258(); 00137 input += synapse0x9f45280(); 00138 input += synapse0x9f452a8(); 00139 input += synapse0x9f452d0(); 00140 input += synapse0x9f452f8(); 00141 input += synapse0x9f45320(); 00142 input += synapse0x9f45348(); 00143 input += synapse0x9f45370(); 00144 input += synapse0x9f45398(); 00145 return input; 00146 } 00147 00148 double ElectronIdMLP::neuron0x9f45080() { 00149 double input = input0x9f45080(); 00150 return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input))); 00151 } 00152 00153 double ElectronIdMLP::input0x9f453c0() { 00154 double input = 0.540837; 00155 input += synapse0x9f455b8(); 00156 input += synapse0x9f455e0(); 00157 input += synapse0x9f45608(); 00158 input += synapse0x9f45630(); 00159 input += synapse0x9f45658(); 00160 input += synapse0x9f45680(); 00161 input += synapse0x9f456a8(); 00162 input += synapse0x9f456d0(); 00163 input += synapse0x9f456f8(); 00164 return input; 00165 } 00166 00167 double ElectronIdMLP::neuron0x9f453c0() { 00168 double input = input0x9f453c0(); 00169 return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input))); 00170 } 00171 00172 double ElectronIdMLP::input0x9f45720() { 00173 double input = 0.568144; 00174 input += synapse0x9f45918(); 00175 input += synapse0x9f45940(); 00176 input += synapse0x9f45968(); 00177 input += synapse0x9f45990(); 00178 input += synapse0x9f459b8(); 00179 input += synapse0x9f459e0(); 00180 input += synapse0x9f45a08(); 00181 input += synapse0x9f45a30(); 00182 input += synapse0x9f45a58(); 00183 return input; 00184 } 00185 00186 double ElectronIdMLP::neuron0x9f45720() { 00187 double input = input0x9f45720(); 00188 return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input))); 00189 } 00190 00191 double ElectronIdMLP::input0x9f45a80() { 00192 double input = -0.779783; 00193 input += synapse0x9f45d00(); 00194 input += synapse0x9f45d28(); 00195 input += synapse0x9f24ec0(); 00196 input += synapse0x9ea6a58(); 00197 input += synapse0x9ea69e0(); 00198 input += synapse0x9ca2f20(); 00199 input += synapse0x9e985c0(); 00200 input += synapse0x9e985e8(); 00201 input += synapse0x9e98610(); 00202 return input; 00203 } 00204 00205 double ElectronIdMLP::neuron0x9f45a80() { 00206 double input = input0x9f45a80(); 00207 return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input))); 00208 } 00209 00210 double ElectronIdMLP::input0x9f44f78() { 00211 double input = 0.146916; 00212 input += synapse0x9ea6b70(); 00213 input += synapse0x9f45f58(); 00214 input += synapse0x9f45f80(); 00215 input += synapse0x9f45fa8(); 00216 input += synapse0x9f45fd0(); 00217 input += synapse0x9f45ff8(); 00218 input += synapse0x9f46020(); 00219 input += synapse0x9f46048(); 00220 input += synapse0x9f46070(); 00221 return input; 00222 } 00223 00224 double ElectronIdMLP::neuron0x9f44f78() { 00225 double input = input0x9f44f78(); 00226 return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input))); 00227 } 00228 00229 double ElectronIdMLP::input0x9f46098() { 00230 double input = -0.350685; 00231 input += synapse0x9f46270(); 00232 input += synapse0x9f46298(); 00233 input += synapse0x9f462c0(); 00234 input += synapse0x9f462e8(); 00235 input += synapse0x9f46310(); 00236 input += synapse0x9f46338(); 00237 input += synapse0x9f46360(); 00238 input += synapse0x9f46388(); 00239 input += synapse0x9f463b0(); 00240 return input; 00241 } 00242 00243 double ElectronIdMLP::neuron0x9f46098() { 00244 double input = input0x9f46098(); 00245 return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input))); 00246 } 00247 00248 double ElectronIdMLP::input0x9f463d8() { 00249 double input = 1.71591; 00250 input += synapse0x9f465d8(); 00251 input += synapse0x9f46600(); 00252 input += synapse0x9f46628(); 00253 input += synapse0x9f46650(); 00254 input += synapse0x9f46678(); 00255 input += synapse0x9f466a0(); 00256 input += synapse0x9f466c8(); 00257 input += synapse0x9f466f0(); 00258 input += synapse0x9f46718(); 00259 return input; 00260 } 00261 00262 double ElectronIdMLP::neuron0x9f463d8() { 00263 double input = input0x9f463d8(); 00264 return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input))); 00265 } 00266 00267 double ElectronIdMLP::input0x9f46740() { 00268 double input = -1.70461; 00269 input += synapse0x9f46940(); 00270 input += synapse0x9f46968(); 00271 input += synapse0x9f46990(); 00272 input += synapse0x9f469b8(); 00273 input += synapse0x9f469e0(); 00274 input += synapse0x9f46a08(); 00275 input += synapse0x9f46a30(); 00276 input += synapse0x9f46a58(); 00277 input += synapse0x9f46a80(); 00278 return input; 00279 } 00280 00281 double ElectronIdMLP::neuron0x9f46740() { 00282 double input = input0x9f46740(); 00283 return (input < -100) ? 0 : (input > 100) ? 1 : (1/(1+exp(-input))); 00284 } 00285 00286 double ElectronIdMLP::input0x9f46aa8() { 00287 double input = 0.345943; 00288 input += synapse0x9f46ca0(); 00289 input += synapse0x9f46cc8(); 00290 input += synapse0x9f46cf0(); 00291 input += synapse0x9f46d18(); 00292 input += synapse0x9f46d40(); 00293 input += synapse0x9f46d68(); 00294 input += synapse0x9f46d90(); 00295 input += synapse0x9f46db8(); 00296 input += synapse0x9f46de0(); 00297 input += synapse0x9f46e08(); 00298 input += synapse0x9f46e30(); 00299 input += synapse0x9f46e58(); 00300 return input; 00301 } 00302 00303 double ElectronIdMLP::neuron0x9f46aa8() { 00304 double input = input0x9f46aa8(); 00305 return (input * 1)+0; 00306 } 00307 00308 double ElectronIdMLP::synapse0x9f24e98() { 00309 return (neuron0x9f43138()*0.879971); 00310 } 00311 00312 double ElectronIdMLP::synapse0x9f444b0() { 00313 return (neuron0x9f432c8()*0.0961671); 00314 } 00315 00316 double ElectronIdMLP::synapse0x9f444d8() { 00317 return (neuron0x9f434a0()*1.66153); 00318 } 00319 00320 double ElectronIdMLP::synapse0x9f44500() { 00321 return (neuron0x9f43698()*0.321611); 00322 } 00323 00324 double ElectronIdMLP::synapse0x9f44528() { 00325 return (neuron0x9f43870()*1.12196); 00326 } 00327 00328 double ElectronIdMLP::synapse0x9f44550() { 00329 return (neuron0x9f43a48()*-5.17401); 00330 } 00331 00332 double ElectronIdMLP::synapse0x9f44578() { 00333 return (neuron0x9f43c20()*4.4513); 00334 } 00335 00336 double ElectronIdMLP::synapse0x9f445a0() { 00337 return (neuron0x9f43e10()*-1.27001); 00338 } 00339 00340 double ElectronIdMLP::synapse0x9f445c8() { 00341 return (neuron0x9f44008()*-10.3839); 00342 } 00343 00344 double ElectronIdMLP::synapse0x9f447c8() { 00345 return (neuron0x9f43138()*0.284838); 00346 } 00347 00348 double ElectronIdMLP::synapse0x9f447f0() { 00349 return (neuron0x9f432c8()*0.0613191); 00350 } 00351 00352 double ElectronIdMLP::synapse0x9f44818() { 00353 return (neuron0x9f434a0()*0.0915991); 00354 } 00355 00356 double ElectronIdMLP::synapse0x9f44840() { 00357 return (neuron0x9f43698()*-0.549085); 00358 } 00359 00360 double ElectronIdMLP::synapse0x9f44868() { 00361 return (neuron0x9f43870()*-0.388214); 00362 } 00363 00364 double ElectronIdMLP::synapse0x9f44890() { 00365 return (neuron0x9f43a48()*1.82147); 00366 } 00367 00368 double ElectronIdMLP::synapse0x9f448b8() { 00369 return (neuron0x9f43c20()*4.79833); 00370 } 00371 00372 double ElectronIdMLP::synapse0x9f448e0() { 00373 return (neuron0x9f43e10()*-1.77169); 00374 } 00375 00376 double ElectronIdMLP::synapse0x9f44990() { 00377 return (neuron0x9f44008()*-3.25212); 00378 } 00379 00380 double ElectronIdMLP::synapse0x9f44b48() { 00381 return (neuron0x9f43138()*1.08682); 00382 } 00383 00384 double ElectronIdMLP::synapse0x9f44b70() { 00385 return (neuron0x9f432c8()*0.0571666); 00386 } 00387 00388 double ElectronIdMLP::synapse0x9f44b98() { 00389 return (neuron0x9f434a0()*-1.90535); 00390 } 00391 00392 double ElectronIdMLP::synapse0x9f44bc0() { 00393 return (neuron0x9f43698()*-2.15635); 00394 } 00395 00396 double ElectronIdMLP::synapse0x9f44be8() { 00397 return (neuron0x9f43870()*-1.183); 00398 } 00399 00400 double ElectronIdMLP::synapse0x9f44c10() { 00401 return (neuron0x9f43a48()*-1.53323); 00402 } 00403 00404 double ElectronIdMLP::synapse0x9f44c38() { 00405 return (neuron0x9f43c20()*1.59348); 00406 } 00407 00408 double ElectronIdMLP::synapse0x9f44c60() { 00409 return (neuron0x9f43e10()*-0.834021); 00410 } 00411 00412 double ElectronIdMLP::synapse0x9f44c88() { 00413 return (neuron0x9f44008()*-1.08357); 00414 } 00415 00416 double ElectronIdMLP::synapse0x9f44e88() { 00417 return (neuron0x9f43138()*-0.959033); 00418 } 00419 00420 double ElectronIdMLP::synapse0x9f44eb0() { 00421 return (neuron0x9f432c8()*0.150702); 00422 } 00423 00424 double ElectronIdMLP::synapse0x9f44ed8() { 00425 return (neuron0x9f434a0()*0.603047); 00426 } 00427 00428 double ElectronIdMLP::synapse0x9f44f00() { 00429 return (neuron0x9f43698()*0.766931); 00430 } 00431 00432 double ElectronIdMLP::synapse0x9f44f28() { 00433 return (neuron0x9f43870()*1.33327); 00434 } 00435 00436 double ElectronIdMLP::synapse0x9f44f50() { 00437 return (neuron0x9f43a48()*0.397085); 00438 } 00439 00440 double ElectronIdMLP::synapse0x9f44908() { 00441 return (neuron0x9f43c20()*2.83518); 00442 } 00443 00444 double ElectronIdMLP::synapse0x9f44930() { 00445 return (neuron0x9f43e10()*2.53477); 00446 } 00447 00448 double ElectronIdMLP::synapse0x9f44958() { 00449 return (neuron0x9f44008()*-1.20442); 00450 } 00451 00452 double ElectronIdMLP::synapse0x9f45258() { 00453 return (neuron0x9f43138()*-0.0646114); 00454 } 00455 00456 double ElectronIdMLP::synapse0x9f45280() { 00457 return (neuron0x9f432c8()*-0.330255); 00458 } 00459 00460 double ElectronIdMLP::synapse0x9f452a8() { 00461 return (neuron0x9f434a0()*-1.87624); 00462 } 00463 00464 double ElectronIdMLP::synapse0x9f452d0() { 00465 return (neuron0x9f43698()*-0.872878); 00466 } 00467 00468 double ElectronIdMLP::synapse0x9f452f8() { 00469 return (neuron0x9f43870()*0.789821); 00470 } 00471 00472 double ElectronIdMLP::synapse0x9f45320() { 00473 return (neuron0x9f43a48()*2.97713); 00474 } 00475 00476 double ElectronIdMLP::synapse0x9f45348() { 00477 return (neuron0x9f43c20()*3.70241); 00478 } 00479 00480 double ElectronIdMLP::synapse0x9f45370() { 00481 return (neuron0x9f43e10()*2.25345); 00482 } 00483 00484 double ElectronIdMLP::synapse0x9f45398() { 00485 return (neuron0x9f44008()*9.12485); 00486 } 00487 00488 double ElectronIdMLP::synapse0x9f455b8() { 00489 return (neuron0x9f43138()*-1.76594); 00490 } 00491 00492 double ElectronIdMLP::synapse0x9f455e0() { 00493 return (neuron0x9f432c8()*0.325989); 00494 } 00495 00496 double ElectronIdMLP::synapse0x9f45608() { 00497 return (neuron0x9f434a0()*-1.57176); 00498 } 00499 00500 double ElectronIdMLP::synapse0x9f45630() { 00501 return (neuron0x9f43698()*-1.49181); 00502 } 00503 00504 double ElectronIdMLP::synapse0x9f45658() { 00505 return (neuron0x9f43870()*-0.436626); 00506 } 00507 00508 double ElectronIdMLP::synapse0x9f45680() { 00509 return (neuron0x9f43a48()*-0.415296); 00510 } 00511 00512 double ElectronIdMLP::synapse0x9f456a8() { 00513 return (neuron0x9f43c20()*0.686166); 00514 } 00515 00516 double ElectronIdMLP::synapse0x9f456d0() { 00517 return (neuron0x9f43e10()*1.197); 00518 } 00519 00520 double ElectronIdMLP::synapse0x9f456f8() { 00521 return (neuron0x9f44008()*1.08228); 00522 } 00523 00524 double ElectronIdMLP::synapse0x9f45918() { 00525 return (neuron0x9f43138()*0.6264); 00526 } 00527 00528 double ElectronIdMLP::synapse0x9f45940() { 00529 return (neuron0x9f432c8()*-0.0527889); 00530 } 00531 00532 double ElectronIdMLP::synapse0x9f45968() { 00533 return (neuron0x9f434a0()*0.0420227); 00534 } 00535 00536 double ElectronIdMLP::synapse0x9f45990() { 00537 return (neuron0x9f43698()*-0.503423); 00538 } 00539 00540 double ElectronIdMLP::synapse0x9f459b8() { 00541 return (neuron0x9f43870()*0.015745); 00542 } 00543 00544 double ElectronIdMLP::synapse0x9f459e0() { 00545 return (neuron0x9f43a48()*-2.27786); 00546 } 00547 00548 double ElectronIdMLP::synapse0x9f45a08() { 00549 return (neuron0x9f43c20()*-2.78804); 00550 } 00551 00552 double ElectronIdMLP::synapse0x9f45a30() { 00553 return (neuron0x9f43e10()*0.278226); 00554 } 00555 00556 double ElectronIdMLP::synapse0x9f45a58() { 00557 return (neuron0x9f44008()*1.43897); 00558 } 00559 00560 double ElectronIdMLP::synapse0x9f45d00() { 00561 return (neuron0x9f43138()*-0.113819); 00562 } 00563 00564 double ElectronIdMLP::synapse0x9f45d28() { 00565 return (neuron0x9f432c8()*-0.526026); 00566 } 00567 00568 double ElectronIdMLP::synapse0x9f24ec0() { 00569 return (neuron0x9f434a0()*0.280854); 00570 } 00571 00572 double ElectronIdMLP::synapse0x9ea6a58() { 00573 return (neuron0x9f43698()*-0.565832); 00574 } 00575 00576 double ElectronIdMLP::synapse0x9ea69e0() { 00577 return (neuron0x9f43870()*-4.1776); 00578 } 00579 00580 double ElectronIdMLP::synapse0x9ca2f20() { 00581 return (neuron0x9f43a48()*2.4344); 00582 } 00583 00584 double ElectronIdMLP::synapse0x9e985c0() { 00585 return (neuron0x9f43c20()*1.19602); 00586 } 00587 00588 double ElectronIdMLP::synapse0x9e985e8() { 00589 return (neuron0x9f43e10()*3.02645); 00590 } 00591 00592 double ElectronIdMLP::synapse0x9e98610() { 00593 return (neuron0x9f44008()*-0.38682); 00594 } 00595 00596 double ElectronIdMLP::synapse0x9ea6b70() { 00597 return (neuron0x9f43138()*-2.22478); 00598 } 00599 00600 double ElectronIdMLP::synapse0x9f45f58() { 00601 return (neuron0x9f432c8()*0.203476); 00602 } 00603 00604 double ElectronIdMLP::synapse0x9f45f80() { 00605 return (neuron0x9f434a0()*2.45698); 00606 } 00607 00608 double ElectronIdMLP::synapse0x9f45fa8() { 00609 return (neuron0x9f43698()*0.938005); 00610 } 00611 00612 double ElectronIdMLP::synapse0x9f45fd0() { 00613 return (neuron0x9f43870()*-0.155581); 00614 } 00615 00616 double ElectronIdMLP::synapse0x9f45ff8() { 00617 return (neuron0x9f43a48()*-1.84449); 00618 } 00619 00620 double ElectronIdMLP::synapse0x9f46020() { 00621 return (neuron0x9f43c20()*1.62976); 00622 } 00623 00624 double ElectronIdMLP::synapse0x9f46048() { 00625 return (neuron0x9f43e10()*-1.3476); 00626 } 00627 00628 double ElectronIdMLP::synapse0x9f46070() { 00629 return (neuron0x9f44008()*-5.67653); 00630 } 00631 00632 double ElectronIdMLP::synapse0x9f46270() { 00633 return (neuron0x9f43138()*-1.1783); 00634 } 00635 00636 double ElectronIdMLP::synapse0x9f46298() { 00637 return (neuron0x9f432c8()*0.919324); 00638 } 00639 00640 double ElectronIdMLP::synapse0x9f462c0() { 00641 return (neuron0x9f434a0()*0.100647); 00642 } 00643 00644 double ElectronIdMLP::synapse0x9f462e8() { 00645 return (neuron0x9f43698()*1.14597); 00646 } 00647 00648 double ElectronIdMLP::synapse0x9f46310() { 00649 return (neuron0x9f43870()*-0.270844); 00650 } 00651 00652 double ElectronIdMLP::synapse0x9f46338() { 00653 return (neuron0x9f43a48()*0.982664); 00654 } 00655 00656 double ElectronIdMLP::synapse0x9f46360() { 00657 return (neuron0x9f43c20()*1.50571); 00658 } 00659 00660 double ElectronIdMLP::synapse0x9f46388() { 00661 return (neuron0x9f43e10()*-1.14533); 00662 } 00663 00664 double ElectronIdMLP::synapse0x9f463b0() { 00665 return (neuron0x9f44008()*4.69291); 00666 } 00667 00668 double ElectronIdMLP::synapse0x9f465d8() { 00669 return (neuron0x9f43138()*0.105787); 00670 } 00671 00672 double ElectronIdMLP::synapse0x9f46600() { 00673 return (neuron0x9f432c8()*0.460172); 00674 } 00675 00676 double ElectronIdMLP::synapse0x9f46628() { 00677 return (neuron0x9f434a0()*0.138901); 00678 } 00679 00680 double ElectronIdMLP::synapse0x9f46650() { 00681 return (neuron0x9f43698()*1.72831); 00682 } 00683 00684 double ElectronIdMLP::synapse0x9f46678() { 00685 return (neuron0x9f43870()*-1.36692); 00686 } 00687 00688 double ElectronIdMLP::synapse0x9f466a0() { 00689 return (neuron0x9f43a48()*3.09794); 00690 } 00691 00692 double ElectronIdMLP::synapse0x9f466c8() { 00693 return (neuron0x9f43c20()*0.170757); 00694 } 00695 00696 double ElectronIdMLP::synapse0x9f466f0() { 00697 return (neuron0x9f43e10()*3.36054); 00698 } 00699 00700 double ElectronIdMLP::synapse0x9f46718() { 00701 return (neuron0x9f44008()*5.85824); 00702 } 00703 00704 double ElectronIdMLP::synapse0x9f46940() { 00705 return (neuron0x9f43138()*0.77873); 00706 } 00707 00708 double ElectronIdMLP::synapse0x9f46968() { 00709 return (neuron0x9f432c8()*0.0264436); 00710 } 00711 00712 double ElectronIdMLP::synapse0x9f46990() { 00713 return (neuron0x9f434a0()*0.86123); 00714 } 00715 00716 double ElectronIdMLP::synapse0x9f469b8() { 00717 return (neuron0x9f43698()*1.8242); 00718 } 00719 00720 double ElectronIdMLP::synapse0x9f469e0() { 00721 return (neuron0x9f43870()*3.66502); 00722 } 00723 00724 double ElectronIdMLP::synapse0x9f46a08() { 00725 return (neuron0x9f43a48()*-0.182076); 00726 } 00727 00728 double ElectronIdMLP::synapse0x9f46a30() { 00729 return (neuron0x9f43c20()*0.59582); 00730 } 00731 00732 double ElectronIdMLP::synapse0x9f46a58() { 00733 return (neuron0x9f43e10()*0.667454); 00734 } 00735 00736 double ElectronIdMLP::synapse0x9f46a80() { 00737 return (neuron0x9f44008()*1.1529); 00738 } 00739 00740 double ElectronIdMLP::synapse0x9f46ca0() { 00741 return (neuron0x9f44320()*-3.27612); 00742 } 00743 00744 double ElectronIdMLP::synapse0x9f46cc8() { 00745 return (neuron0x9f445f0()*-2.11621); 00746 } 00747 00748 double ElectronIdMLP::synapse0x9f46cf0() { 00749 return (neuron0x9f449b8()*-4.88221); 00750 } 00751 00752 double ElectronIdMLP::synapse0x9f46d18() { 00753 return (neuron0x9f44cb0()*1.89605); 00754 } 00755 00756 double ElectronIdMLP::synapse0x9f46d40() { 00757 return (neuron0x9f45080()*-1.18343); 00758 } 00759 00760 double ElectronIdMLP::synapse0x9f46d68() { 00761 return (neuron0x9f453c0()*5.41139); 00762 } 00763 00764 double ElectronIdMLP::synapse0x9f46d90() { 00765 return (neuron0x9f45720()*-3.83221); 00766 } 00767 00768 double ElectronIdMLP::synapse0x9f46db8() { 00769 return (neuron0x9f45a80()*-0.743994); 00770 } 00771 00772 double ElectronIdMLP::synapse0x9f46de0() { 00773 return (neuron0x9f44f78()*7.23992); 00774 } 00775 00776 double ElectronIdMLP::synapse0x9f46e08() { 00777 return (neuron0x9f46098()*2.98399); 00778 } 00779 00780 double ElectronIdMLP::synapse0x9f46e30() { 00781 return (neuron0x9f463d8()*-1.92682); 00782 } 00783 00784 double ElectronIdMLP::synapse0x9f46e58() { 00785 return (neuron0x9f46740()*-3.21289); 00786 } 00787 00788
1.5.4