Changes in / [2f5c49d:7b3f154] in sasview
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sasview/sasview.py
r3b0f8cc rf36e01f 74 74 PLUGIN_MODEL_DIR = 'plugin_models' 75 75 APP_NAME = 'SasView' 76 77 # Set SAS_MODELPATH so sasmodels can find our custom models78 os.environ['SAS_MODELPATH'] = os.path.join(sasdir, PLUGIN_MODEL_DIR)79 76 80 77 from matplotlib import backend_bases -
src/sas/sasgui/perspectives/calculator/model_editor.py
rc351bf1 r07ec714 106 106 self.model2_string = "cylinder" 107 107 self.name = 'Sum' + M_NAME 108 self.factor = 'scale_factor' 108 109 self._notes = '' 109 110 self._operator = '+' … … 132 133 self.model2_name = str(self.model2.GetValue()) 133 134 self.good_name = True 134 self.fill_op erator_combox()135 self.fill_oprator_combox() 135 136 136 137 def _layout_name(self): … … 490 491 a sum or multiply model then create the appropriate string 491 492 """ 493 492 494 name = '' 495 493 496 if operator == '*': 494 497 name = 'Multi' 495 factor = 'background' 498 factor = 'BackGround' 499 f_oper = '+' 496 500 else: 497 501 name = 'Sum' 498 502 factor = 'scale_factor' 499 503 f_oper = '*' 504 505 self.factor = factor 500 506 self._operator = operator 501 self.explanation = (" Plugin_model = scale_factor * (model_1 {} "502 "model_2) + background").format(operator)507 self.explanation = " Plugin Model = %s %s (model1 %s model2)\n" % \ 508 (self.factor, f_oper, self._operator) 503 509 self.explanationctr.SetLabel(self.explanation) 504 510 self.name = name + M_NAME 505 511 506 512 507 def fill_op erator_combox(self):513 def fill_oprator_combox(self): 508 514 """ 509 515 fill the current combobox with the operator … … 521 527 return [self.model1_name, self.model2_name] 522 528 523 def write_string(self, fname, model1_name, model2_name):529 def write_string(self, fname, name1, name2): 524 530 """ 525 531 Write and Save file … … 527 533 self.fname = fname 528 534 description = self.desc_tcl.GetValue().lstrip().rstrip() 529 desc_line = '' 530 if description.strip() != '': 531 # Sasmodels generates a description for us. If the user provides 532 # their own description, add a line to overwrite the sasmodels one 533 desc_line = "\nmodel_info.description = '{}'".format(description) 534 name = os.path.splitext(os.path.basename(self.fname))[0] 535 output = SUM_TEMPLATE.format(name=name, model1=model1_name, 536 model2=model2_name, operator=self._operator, desc_line=desc_line) 537 with open(self.fname, 'w') as out_f: 538 out_f.write(output) 535 if description == '': 536 description = name1 + self._operator + name2 537 text = self._operator_choice.GetValue() 538 if text.count('+') > 0: 539 factor = 'scale_factor' 540 f_oper = '*' 541 default_val = '1.0' 542 else: 543 factor = 'BackGround' 544 f_oper = '+' 545 default_val = '0.0' 546 path = self.fname 547 try: 548 out_f = open(path, 'w') 549 except: 550 raise 551 lines = SUM_TEMPLATE.split('\n') 552 for line in lines: 553 try: 554 if line.count("scale_factor"): 555 line = line.replace('scale_factor', factor) 556 #print "scale_factor", line 557 if line.count("= %s"): 558 out_f.write(line % (default_val) + "\n") 559 elif line.count("import Model as P1"): 560 if self.is_p1_custom: 561 line = line.replace('#', '') 562 out_f.write(line % name1 + "\n") 563 else: 564 out_f.write(line + "\n") 565 elif line.count("import %s as P1"): 566 if not self.is_p1_custom: 567 line = line.replace('#', '') 568 out_f.write(line % (name1) + "\n") 569 else: 570 out_f.write(line + "\n") 571 elif line.count("import Model as P2"): 572 if self.is_p2_custom: 573 line = line.replace('#', '') 574 out_f.write(line % name2 + "\n") 575 else: 576 out_f.write(line + "\n") 577 elif line.count("import %s as P2"): 578 if not self.is_p2_custom: 579 line = line.replace('#', '') 580 out_f.write(line % (name2) + "\n") 581 else: 582 out_f.write(line + "\n") 583 elif line.count("P1 = find_model"): 584 out_f.write(line % (name1) + "\n") 585 elif line.count("P2 = find_model"): 586 out_f.write(line % (name2) + "\n") 587 588 elif line.count("self.description = '%s'"): 589 out_f.write(line % description + "\n") 590 #elif line.count("run") and line.count("%s"): 591 # out_f.write(line % self._operator + "\n") 592 #elif line.count("evalDistribution") and line.count("%s"): 593 # out_f.write(line % self._operator + "\n") 594 elif line.count("return") and line.count("%s") == 2: 595 #print "line return", line 596 out_f.write(line % (f_oper, self._operator) + "\n") 597 elif line.count("out2")and line.count("%s"): 598 out_f.write(line % self._operator + "\n") 599 else: 600 out_f.write(line + "\n") 601 except: 602 raise 603 out_f.close() 604 #else: 605 # msg = "Name exists already." 539 606 540 607 def compile_file(self, path): … … 1211 1278 """ 1212 1279 SUM_TEMPLATE = """ 1213 from sasmodels.core import load_model_info 1214 from sasmodels.sasview_model import make_model_from_info 1215 1216 model_info = load_model_info('{model1}{operator}{model2}', force_mixture=True) 1217 model_info.name = '{name}'{desc_line} 1218 Model = make_model_from_info(model_info) 1280 # A sample of an experimental model function for Sum/Multiply(Pmodel1,Pmodel2) 1281 import os 1282 import sys 1283 import copy 1284 import collections 1285 1286 import numpy 1287 1288 from sas.sascalc.fit.pluginmodel import Model1DPlugin 1289 from sasmodels.sasview_model import find_model 1290 1291 class Model(Model1DPlugin): 1292 name = os.path.splitext(os.path.basename(__file__))[0] 1293 is_multiplicity_model = False 1294 def __init__(self, multiplicity=1): 1295 Model1DPlugin.__init__(self, name='') 1296 P1 = find_model('%s') 1297 P2 = find_model('%s') 1298 p_model1 = P1() 1299 p_model2 = P2() 1300 ## Setting model name model description 1301 self.description = '%s' 1302 if self.name.rstrip().lstrip() == '': 1303 self.name = self._get_name(p_model1.name, p_model2.name) 1304 if self.description.rstrip().lstrip() == '': 1305 self.description = p_model1.name 1306 self.description += p_model2.name 1307 self.fill_description(p_model1, p_model2) 1308 1309 ## Define parameters 1310 self.params = collections.OrderedDict() 1311 1312 ## Parameter details [units, min, max] 1313 self.details = {} 1314 ## Magnetic Panrameters 1315 self.magnetic_params = [] 1316 # non-fittable parameters 1317 self.non_fittable = p_model1.non_fittable 1318 self.non_fittable += p_model2.non_fittable 1319 1320 ##models 1321 self.p_model1= p_model1 1322 self.p_model2= p_model2 1323 1324 1325 ## dispersion 1326 self._set_dispersion() 1327 ## Define parameters 1328 self._set_params() 1329 ## New parameter:scaling_factor 1330 self.params['scale_factor'] = %s 1331 1332 ## Parameter details [units, min, max] 1333 self._set_details() 1334 self.details['scale_factor'] = ['', 0.0, numpy.inf] 1335 1336 1337 #list of parameter that can be fitted 1338 self._set_fixed_params() 1339 1340 ## parameters with orientation 1341 self.orientation_params = [] 1342 for item in self.p_model1.orientation_params: 1343 new_item = "p1_" + item 1344 if not new_item in self.orientation_params: 1345 self.orientation_params.append(new_item) 1346 1347 for item in self.p_model2.orientation_params: 1348 new_item = "p2_" + item 1349 if not new_item in self.orientation_params: 1350 self.orientation_params.append(new_item) 1351 ## magnetic params 1352 self.magnetic_params = [] 1353 for item in self.p_model1.magnetic_params: 1354 new_item = "p1_" + item 1355 if not new_item in self.magnetic_params: 1356 self.magnetic_params.append(new_item) 1357 1358 for item in self.p_model2.magnetic_params: 1359 new_item = "p2_" + item 1360 if not new_item in self.magnetic_params: 1361 self.magnetic_params.append(new_item) 1362 # get multiplicity if model provide it, else 1. 1363 try: 1364 multiplicity1 = p_model1.multiplicity 1365 try: 1366 multiplicity2 = p_model2.multiplicity 1367 except: 1368 multiplicity2 = 1 1369 except: 1370 multiplicity1 = 1 1371 multiplicity2 = 1 1372 ## functional multiplicity of the model 1373 self.multiplicity1 = multiplicity1 1374 self.multiplicity2 = multiplicity2 1375 self.multiplicity_info = [] 1376 1377 def _clone(self, obj): 1378 import copy 1379 obj.params = copy.deepcopy(self.params) 1380 obj.description = copy.deepcopy(self.description) 1381 obj.details = copy.deepcopy(self.details) 1382 obj.dispersion = copy.deepcopy(self.dispersion) 1383 obj.p_model1 = self.p_model1.clone() 1384 obj.p_model2 = self.p_model2.clone() 1385 #obj = copy.deepcopy(self) 1386 return obj 1387 1388 def _get_name(self, name1, name2): 1389 p1_name = self._get_upper_name(name1) 1390 if not p1_name: 1391 p1_name = name1 1392 name = p1_name 1393 name += "_and_" 1394 p2_name = self._get_upper_name(name2) 1395 if not p2_name: 1396 p2_name = name2 1397 name += p2_name 1398 return name 1399 1400 def _get_upper_name(self, name=None): 1401 if name is None: 1402 return "" 1403 upper_name = "" 1404 str_name = str(name) 1405 for index in range(len(str_name)): 1406 if str_name[index].isupper(): 1407 upper_name += str_name[index] 1408 return upper_name 1409 1410 def _set_dispersion(self): 1411 self.dispersion = collections.OrderedDict() 1412 ##set dispersion only from p_model 1413 for name , value in self.p_model1.dispersion.iteritems(): 1414 #if name.lower() not in self.p_model1.orientation_params: 1415 new_name = "p1_" + name 1416 self.dispersion[new_name]= value 1417 for name , value in self.p_model2.dispersion.iteritems(): 1418 #if name.lower() not in self.p_model2.orientation_params: 1419 new_name = "p2_" + name 1420 self.dispersion[new_name]= value 1421 1422 def function(self, x=0.0): 1423 return 0 1424 1425 def getProfile(self): 1426 try: 1427 x,y = self.p_model1.getProfile() 1428 except: 1429 x = None 1430 y = None 1431 1432 return x, y 1433 1434 def _set_params(self): 1435 for name , value in self.p_model1.params.iteritems(): 1436 # No 2D-supported 1437 #if name not in self.p_model1.orientation_params: 1438 new_name = "p1_" + name 1439 self.params[new_name]= value 1440 1441 for name , value in self.p_model2.params.iteritems(): 1442 # No 2D-supported 1443 #if name not in self.p_model2.orientation_params: 1444 new_name = "p2_" + name 1445 self.params[new_name]= value 1446 1447 # Set "scale" as initializing 1448 self._set_scale_factor() 1449 1450 1451 def _set_details(self): 1452 for name ,detail in self.p_model1.details.iteritems(): 1453 new_name = "p1_" + name 1454 #if new_name not in self.orientation_params: 1455 self.details[new_name]= detail 1456 1457 for name ,detail in self.p_model2.details.iteritems(): 1458 new_name = "p2_" + name 1459 #if new_name not in self.orientation_params: 1460 self.details[new_name]= detail 1461 1462 def _set_scale_factor(self): 1463 pass 1464 1465 1466 def setParam(self, name, value): 1467 # set param to this (p1, p2) model 1468 self._setParamHelper(name, value) 1469 1470 ## setParam to p model 1471 model_pre = '' 1472 new_name = '' 1473 name_split = name.split('_', 1) 1474 if len(name_split) == 2: 1475 model_pre = name.split('_', 1)[0] 1476 new_name = name.split('_', 1)[1] 1477 if model_pre == "p1": 1478 if new_name in self.p_model1.getParamList(): 1479 self.p_model1.setParam(new_name, value) 1480 elif model_pre == "p2": 1481 if new_name in self.p_model2.getParamList(): 1482 self.p_model2.setParam(new_name, value) 1483 elif name == 'scale_factor': 1484 self.params['scale_factor'] = value 1485 else: 1486 raise ValueError, "Model does not contain parameter %s" % name 1487 1488 def getParam(self, name): 1489 # Look for dispersion parameters 1490 toks = name.split('.') 1491 if len(toks)==2: 1492 for item in self.dispersion.keys(): 1493 # 2D not supported 1494 if item.lower()==toks[0].lower(): 1495 for par in self.dispersion[item]: 1496 if par.lower() == toks[1].lower(): 1497 return self.dispersion[item][par] 1498 else: 1499 # Look for standard parameter 1500 for item in self.params.keys(): 1501 if item.lower()==name.lower(): 1502 return self.params[item] 1503 return 1504 #raise ValueError, "Model does not contain parameter %s" % name 1505 1506 def _setParamHelper(self, name, value): 1507 # Look for dispersion parameters 1508 toks = name.split('.') 1509 if len(toks)== 2: 1510 for item in self.dispersion.keys(): 1511 if item.lower()== toks[0].lower(): 1512 for par in self.dispersion[item]: 1513 if par.lower() == toks[1].lower(): 1514 self.dispersion[item][par] = value 1515 return 1516 else: 1517 # Look for standard parameter 1518 for item in self.params.keys(): 1519 if item.lower()== name.lower(): 1520 self.params[item] = value 1521 return 1522 1523 raise ValueError, "Model does not contain parameter %s" % name 1524 1525 1526 def _set_fixed_params(self): 1527 self.fixed = [] 1528 for item in self.p_model1.fixed: 1529 new_item = "p1" + item 1530 self.fixed.append(new_item) 1531 for item in self.p_model2.fixed: 1532 new_item = "p2" + item 1533 self.fixed.append(new_item) 1534 1535 self.fixed.sort() 1536 1537 1538 def run(self, x = 0.0): 1539 self._set_scale_factor() 1540 return self.params['scale_factor'] %s \ 1541 (self.p_model1.run(x) %s self.p_model2.run(x)) 1542 1543 def runXY(self, x = 0.0): 1544 self._set_scale_factor() 1545 return self.params['scale_factor'] %s \ 1546 (self.p_model1.runXY(x) %s self.p_model2.runXY(x)) 1547 1548 ## Now (May27,10) directly uses the model eval function 1549 ## instead of the for-loop in Base Component. 1550 def evalDistribution(self, x = []): 1551 self._set_scale_factor() 1552 return self.params['scale_factor'] %s \ 1553 (self.p_model1.evalDistribution(x) %s \ 1554 self.p_model2.evalDistribution(x)) 1555 1556 def set_dispersion(self, parameter, dispersion): 1557 value= None 1558 new_pre = parameter.split("_", 1)[0] 1559 new_parameter = parameter.split("_", 1)[1] 1560 try: 1561 if new_pre == 'p1' and \ 1562 new_parameter in self.p_model1.dispersion.keys(): 1563 value= self.p_model1.set_dispersion(new_parameter, dispersion) 1564 if new_pre == 'p2' and \ 1565 new_parameter in self.p_model2.dispersion.keys(): 1566 value= self.p_model2.set_dispersion(new_parameter, dispersion) 1567 self._set_dispersion() 1568 return value 1569 except: 1570 raise 1571 1572 def fill_description(self, p_model1, p_model2): 1573 description = "" 1574 description += "This model gives the summation or multiplication of" 1575 description += "%s and %s. "% ( p_model1.name, p_model2.name ) 1576 self.description += description 1577 1578 if __name__ == "__main__": 1579 m1= Model() 1580 #m1.setParam("p1_scale", 25) 1581 #m1.setParam("p1_length", 1000) 1582 #m1.setParam("p2_scale", 100) 1583 #m1.setParam("p2_rg", 100) 1584 out1 = m1.runXY(0.01) 1585 1586 m2= Model() 1587 #m2.p_model1.setParam("scale", 25) 1588 #m2.p_model1.setParam("length", 1000) 1589 #m2.p_model2.setParam("scale", 100) 1590 #m2.p_model2.setParam("rg", 100) 1591 out2 = m2.p_model1.runXY(0.01) %s m2.p_model2.runXY(0.01)\n 1592 print "My name is %s."% m1.name 1593 print out1, " = ", out2 1594 if out1 == out2: 1595 print "===> Simple Test: Passed!" 1596 else: 1597 print "===> Simple Test: Failed!" 1219 1598 """ 1599 1220 1600 if __name__ == "__main__": 1221 1601 # app = wx.PySimpleApp()
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