from struct import Struct, pack
import inspect
from typing import List
import numpy as np
from numpy import zeros, allclose
from pyNastran.utils.numpy_utils import integer_types
from pyNastran.op2.result_objects.op2_objects import get_times_dtype
from pyNastran.op2.tables.oes_stressStrain.real.oes_objects import StressObject, StrainObject, OES_Object
from pyNastran.f06.f06_formatting import _eigenvalue_header #, get_key0
from pyNastran.op2.op2_interface.write_utils import to_column_bytes, view_dtype, view_idtype_as_fdtype
[docs]class RealShearArray(OES_Object):
def __init__(self, data_code, is_sort1, isubcase, dt):
OES_Object.__init__(self, data_code, isubcase, apply_data_code=False)
#self.code = [self.format_code, self.sort_code, self.s_code]
self.nelements = 0 # result specific
#if is_sort1:
#self.add_new_eid = self.add_new_eid_sort1
#else:
#raise NotImplementedError('SORT2')
@property
def is_real(self) -> bool:
return True
@property
def is_complex(self) -> bool:
return False
@property
def nnodes_per_element(self) -> int:
return 1
def _reset_indices(self) -> None:
self.itotal = 0
self.ielement = 0
def _get_msgs(self):
raise NotImplementedError()
[docs] def build(self):
"""sizes the vectorized attributes of the RealShearArray"""
#print('ntimes=%s nelements=%s ntotal=%s' % (self.ntimes, self.nelements, self.ntotal))
assert self.ntimes > 0, 'ntimes=%s' % self.ntimes
assert self.nelements > 0, 'nelements=%s' % self.nelements
assert self.ntotal > 0, 'ntotal=%s' % self.ntotal
#self.names = []
self.nelements //= self.ntimes
self.itime = 0
self.ielement = 0
self.itotal = 0
#self.ntimes = 0
#self.nelements = 0
self.is_built = True
#print("ntimes=%s nelements=%s ntotal=%s" % (self.ntimes, self.nelements, self.ntotal))
dtype, idtype, fdtype = get_times_dtype(self.nonlinear_factor, self.size, self.analysis_fmt)
_times = zeros(self.ntimes, dtype=dtype)
element = zeros(self.nelements, dtype='int32')
# [max_shear, avg_shear, margin]
data = zeros((self.ntimes, self.ntotal, 3), dtype='float32')
if self.load_as_h5:
#for key, value in sorted(self.data_code.items()):
#print(key, value)
group = self._get_result_group()
self._times = group.create_dataset('_times', data=_times)
self.element = group.create_dataset('element', data=element)
self.data = group.create_dataset('data', data=data)
else:
self._times = _times
self.element = element
self.data = data
[docs] def build_dataframe(self):
"""creates a pandas dataframe"""
import pandas as pd
headers = self.get_headers()
if self.nonlinear_factor not in (None, np.nan):
#Mode 1 2 3
#Freq 1.482246e-10 3.353940e-09 1.482246e-10
#Eigenvalue -8.673617e-19 4.440892e-16 8.673617e-19
#Radians 9.313226e-10 2.107342e-08 9.313226e-10
#ElementID Item
#22 max_shear 8.050749e-13 5.871460e-07 2.035239e-12
# avg_shear -8.050749e-13 5.871460e-07 2.035239e-12
# margin 1.401298e-45 1.401298e-45 1.401298e-45
column_names, column_values = self._build_dataframe_transient_header()
data_frame = self._build_pandas_transient_elements(
column_values, column_names,
headers, self.element, self.data)
else:
#Static axial SMa torsion SMt
#ElementID
#14 0.0 1.401298e-45 0.0 1.401298e-45
#15 0.0 1.401298e-45 0.0 1.401298e-45
data_frame = pd.DataFrame(self.data[0], columns=headers, index=self.element)
data_frame.index.name = 'ElementID'
data_frame.columns.names = ['Static']
self.data_frame = data_frame
def __eq__(self, table): # pragma: no cover
assert self.is_sort1 == table.is_sort1
self._eq_header(table)
if not np.array_equal(self.data, table.data):
msg = 'table_name=%r class_name=%s\n' % (self.table_name, self.__class__.__name__)
msg += '%s\n' % str(self.code_information())
ntimes = self.data.shape[0]
i = 0
if self.is_sort1:
for itime in range(ntimes):
for ieid, eid, in enumerate(self.element):
t1 = self.data[itime, ieid, :]
t2 = table.data[itime, ieid, :]
(max_shear, avg_shear, margin) = t1
(max_shear2, avg_shear2, margin2) = t2
if not allclose(t1, t2):
#if not np.array_equal(t1, t2):
msg += '%s\n (%s, %s, %s)\n (%s, %s, %s)\n' % (
eid,
max_shear, avg_shear, margin,
max_shear2, avg_shear2, margin2)
i += 1
if i > 10:
print(msg)
raise ValueError(msg)
else:
raise NotImplementedError(self.is_sort2)
if i > 0:
print(msg)
raise ValueError(msg)
return True
def add_sort1(self, dt, eid, max_shear, avg_shear, margin):
"""
ELEMENT MAX AVG SAFETY ELEMENT MAX AVG SAFETY
ID. SHEAR SHEAR MARGIN ID. SHEAR SHEAR MARGIN
328 1.721350E+03 1.570314E+03 7.2E+01
"""
self._times[self.itime] = dt
self.element[self.ielement] = eid
self.data[self.itime, self.ielement, :] = [max_shear, avg_shear, margin]
self.ielement += 1
[docs] def get_stats(self, short: bool=False) -> List[str]:
if not self.is_built:
return [
'<%s>\n' % self.__class__.__name__,
f' ntimes: {self.ntimes:d}\n',
f' ntotal: {self.ntotal:d}\n',
]
nelements = self.nelements
ntimes = self.ntimes
#ntotal = self.ntotal
msg = []
if self.nonlinear_factor not in (None, np.nan): # transient
msg.append(' type=%s ntimes=%i nelements=%i\n'
% (self.__class__.__name__, ntimes, nelements))
ntimes_word = 'ntimes'
else:
msg.append(' type=%s nelements=%i\n'
% (self.__class__.__name__, nelements))
ntimes_word = '1'
msg.append(' eType\n')
headers = self.get_headers()
n = len(headers)
msg.append(' data: [%s, nnodes, %i] where %i=[%s]\n' % (ntimes_word, n, n, str(', '.join(headers))))
msg.append(' element.shape = %s\n' % str(self.element.shape).replace('L', ''))
msg.append(' data.shape = %s\n' % str(self.data.shape).replace('L', ''))
msg.append(f' element type: {self.element_name}-{self.element_type}\n')
msg += self.get_data_code()
return msg
[docs] def write_f06(self, f06_file, header=None, page_stamp='PAGE %s',
page_num: int=1, is_mag_phase: bool=False, is_sort1: bool=True):
if header is None:
header = []
msg_temp = self.get_f06_header()
# write the f06
ntimes = self.data.shape[0]
eids = self.element
is_odd = False
nwrite = len(eids)
if len(eids) % 2 == 1:
nwrite -= 1
is_odd = True
for itime in range(ntimes):
dt = self._times[itime] # TODO: rename this...
header = _eigenvalue_header(self, header, itime, ntimes, dt)
f06_file.write(''.join(header + msg_temp))
#print("self.data.shape=%s itime=%s ieids=%s" % (str(self.data.shape), itime, str(ieids)))
max_shear = self.data[itime, :, 0]
avg_shear = self.data[itime, :, 1]
margin = self.data[itime, :, 2]
out = []
for eid, max_sheari, avg_sheari, margini in zip(eids, max_shear, avg_shear, margin):
#[max_sheari, avg_sheari, margini] = write_floats_13e([max_sheari, avg_sheari, margini])
out.append([eid, max_sheari, avg_sheari, margini])
for i in range(0, nwrite, 2):
f06_file.write(' %8i %13s %10.4E %13s %8i %13s %10.4E %s\n' % (
tuple(out[i] + out[i + 1])))
if is_odd:
f06_file.write(' %8i %13s %10.4E %s\n' % tuple(out[-1]))
f06_file.write(page_stamp % page_num)
page_num += 1
return page_num - 1
[docs] def write_op2(self, op2_file, op2_ascii, itable, new_result, date,
is_mag_phase=False, endian='>'):
"""writes an OP2"""
frame = inspect.currentframe()
call_frame = inspect.getouterframes(frame, 2)
op2_ascii.write(f'{self.__class__.__name__}.write_op2: {call_frame[1][3]}\n')
if itable == -1:
self._write_table_header(op2_file, op2_ascii, date)
itable = -3
#if isinstance(self.nonlinear_factor, float):
#op2_format = '%sif' % (7 * self.ntimes)
#raise NotImplementedError()
#else:
#op2_format = 'i21f'
#s = Struct(op2_format)
unused_eids = self.element
# table 4 info
#ntimes = self.data.shape[0]
#nnodes = self.data.shape[1]
nelements = self.data.shape[1]
# 21 = 1 node, 3 principal, 6 components, 9 vectors, 2 p/ovm
#ntotal = ((nnodes * 21) + 1) + (nelements * 4)
ntotali = self.num_wide
ntotal = ntotali * nelements
#print('shape = %s' % str(self.data.shape))
#assert self.ntimes == 1, self.ntimes
op2_ascii.write(f' ntimes = {self.ntimes}\n')
eids = self.element
eids_device = self.element * 10 + self.device_code
#fmt = '%2i %6f'
#print('ntotal=%s' % (ntotal))
#assert ntotal == 193, ntotal
if not self.is_sort1:
raise NotImplementedError('SORT2')
struct1 = Struct(endian + b'i 3f')
fdtype = self.data.dtype
if self.size == fdtype.itemsize:
pass
else:
print(f'downcasting {self.class_name}...')
#idtype = np.int32(1)
fdtype = np.float32(1.0)
# [eid, max_shear, avg_shear, margin]
data_out = np.empty((nelements, 4), dtype=fdtype)
data_out[:, 0] = view_idtype_as_fdtype(eids_device, fdtype)
op2_ascii.write(f'nelements={nelements:d}\n')
for itime in range(self.ntimes):
#print('3, %s' % itable)
self._write_table_3(op2_file, op2_ascii, new_result, itable, itime)
# record 4
#print('stress itable = %s' % itable)
itable -= 1
#print('4, %s' % itable)
header = [4, itable, 4,
4, 1, 4,
4, 0, 4,
4, ntotal, 4,
4 * ntotal]
op2_file.write(pack('%ii' % len(header), *header))
op2_ascii.write('r4 [4, 0, 4]\n')
op2_ascii.write(f'r4 [4, {itable:d}, 4]\n')
op2_ascii.write(f'r4 [4, {4 * ntotal:d}, 4]\n')
# [eid, max_shear, avg_shear, margin]
data_out[:, 1:] = self.data[itime, :, :]
op2_file.write(data_out)
itable -= 1
header = [4 * ntotal,]
op2_file.write(pack('i', *header))
op2_ascii.write('footer = %s\n' % header)
new_result = False
return itable
[docs]class RealShearStressArray(RealShearArray, StressObject):
def __init__(self, data_code, is_sort1, isubcase, dt):
RealShearArray.__init__(self, data_code, is_sort1, isubcase, dt)
StressObject.__init__(self, data_code, isubcase)
[docs]class RealShearStrainArray(RealShearArray, StrainObject):
def __init__(self, data_code, is_sort1, isubcase, dt):
RealShearArray.__init__(self, data_code, is_sort1, isubcase, dt)
StrainObject.__init__(self, data_code, isubcase)