cosmotool/python/_cosmotool.pyx
2014-11-21 14:21:07 +01:00

403 lines
11 KiB
Cython

from libcpp cimport bool
from libcpp cimport string as cppstring
from libcpp.vector cimport vector as cppvector
from cython.parallel cimport prange
import numpy as np
cimport numpy as np
from cpython cimport PyObject, Py_INCREF
cimport cython
np.import_array()
cdef extern from "loadSimu.hpp" namespace "CosmoTool":
cdef cppclass SimuData:
np.float_t BoxSize
np.float_t time
np.float_t Hubble
np.float_t Omega_M
np.float_t Omega_Lambda
np.int64_t TotalNumPart
np.int64_t NumPart
np.int64_t *Id
float *Pos[3]
float *Vel[3]
int *type
float *Mass
bool noAuto
cdef const int NEED_GADGET_ID
cdef const int NEED_POSITION
cdef const int NEED_VELOCITY
cdef const int NEED_TYPE
cdef const int NEED_MASS
cdef extern from "loadGadget.hpp" namespace "CosmoTool":
SimuData *loadGadgetMulti(const char *fname, int id, int flags) nogil except +
void cxx_writeGadget "CosmoTool::writeGadget" (const char * s, SimuData *data) except +
cdef extern from "safe_gadget.hpp":
SimuData *loadGadgetMulti_safe(cppstring.string s, int flags) nogil
SimuData **alloc_simudata(int num) nogil
void del_simudata(SimuData **d) nogil
cdef extern from "loadRamses.hpp" namespace "CosmoTool":
SimuData *loadRamsesSimu(const char *basename, int id, int cpuid, bool dp, int flags) except +
class PySimulationBase(object):
def getPositions(self):
raise NotImplementedError("getPositions is not implemented")
def getVelocities(self):
raise NotImplementedError("getVelocities is not implemented")
def getIdentifiers(self):
raise NotImplementedError("getIdentifiers is not implemented")
def getTypes(self):
raise NotImplementedError("getTypes is not implemented")
def getOmega_M(self):
raise NotImplementedError("getOmega_M is not implemented")
def getOmega_Lambda(self):
raise NotImplementedError("getOmega_Lambda is not implemented")
def getTime(self):
raise NotImplementedError("getTime is not implemented")
def getHubble(self):
raise NotImplementedError("getHubble is not implemented")
def getBoxsize(self):
raise NotImplementedError("getBoxsize is not implemented")
def getMasses(self):
raise NotImplementedError("getMasses is not implemented")
cdef class Simulation:
cdef list positions
cdef list velocities
cdef object identifiers
cdef object types
cdef object masses
cdef SimuData *data
property BoxSize:
def __get__(Simulation self):
return self.data.BoxSize
property time:
def __get__(Simulation self):
return self.data.time
property Hubble:
def __get__(Simulation self):
return self.data.Hubble
property Omega_M:
def __get__(Simulation self):
return self.data.Omega_M
property Omega_Lambda:
def __get__(Simulation self):
return self.data.Omega_Lambda
property positions:
def __get__(Simulation self):
return self.positions
property velocities:
def __get__(Simulation self):
return self.velocities
property identifiers:
def __get__(Simulation self):
return self.identifiers
property types:
def __get__(Simulation self):
return self.types
property masses:
def __get__(Simulation self):
return self.masses
property numParticles:
def __get__(Simulation self):
return self.data.NumPart
property totalNumParticles:
def __get__(Simulation self):
return self.data.TotalNumPart
def __cinit__(Simulation self):
self.data = <SimuData *>0
def __dealloc__(Simulation self):
if self.data != <SimuData *>0:
print("Clearing simulation data")
del self.data
class _PySimulationAdaptor(PySimulationBase):
def __init__(self,sim):
self.simu = sim
def getBoxsize(self):
return self.simu.BoxSize
def getPositions(self):
return self.simu.positions
def getTypes(self):
return self.simu.types
def getVelocities(self):
return self.simu.velocities
def getIdentifiers(self):
return self.simu.identifiers
def getTime(self):
return self.simu.time
def getHubble(self):
return self.simu.Hubble
def getOmega_M(self):
return self.simu.Omega_M
def getOmega_Lambda(self):
return self.simu.Omega_Lambda
def getMasses(self):
return self.simu.masses
cdef class ArrayWrapper:
cdef void* data_ptr
cdef int size
cdef int type_array
cdef set_data(self, int size, int type_array, void* data_ptr):
""" Set the data of the array
This cannot be done in the constructor as it must recieve C-level
arguments.
Parameters:
-----------
size: int
Length of the array.
data_ptr: void*
Pointer to the data
"""
self.data_ptr = data_ptr
self.size = size
self.type_array = type_array
def __array__(self):
""" Here we use the __array__ method, that is called when numpy
tries to get an array from the object."""
cdef np.npy_intp shape[1]
shape[0] = <np.npy_intp> self.size
# Create a 1D array, of length 'size'
ndarray = np.PyArray_SimpleNewFromData(1, shape, self.type_array, self.data_ptr)
return ndarray
def __dealloc__(self):
""" Frees the array. This is called by Python when all the
references to the object are gone. """
pass
cdef object wrap_array(void *p, np.uint64_t s, int typ):
cdef np.ndarray ndarray
cdef ArrayWrapper wrapper
wrapper = ArrayWrapper()
wrapper.set_data(s, typ, p)
ndarray = np.array(wrapper, copy=False)
ndarray.base = <PyObject*> wrapper
Py_INCREF(wrapper)
return ndarray
cdef object wrap_float_array(float *p, np.uint64_t s):
return wrap_array(<void *>p, s, np.NPY_FLOAT32)
cdef object wrap_int64_array(np.int64_t* p, np.uint64_t s):
return wrap_array(<void *>p, s, np.NPY_INT64)
cdef object wrap_int_array(int* p, np.uint64_t s):
return wrap_array(<void *>p, s, np.NPY_INT)
cdef object wrap_simudata(SimuData *data, int flags):
cdef Simulation simu
simu = Simulation()
simu.data = data
if flags & NEED_POSITION:
simu.positions = [wrap_float_array(data.Pos[i], data.NumPart) for i in xrange(3)]
else:
simu.positions = None
if flags & NEED_VELOCITY:
simu.velocities = [wrap_float_array(data.Vel[i], data.NumPart) for i in xrange(3)]
else:
simu.velocities = None
if flags & NEED_GADGET_ID:
simu.identifiers = wrap_int64_array(data.Id, data.NumPart)
else:
simu.identifiers = None
if flags & NEED_TYPE:
simu.types = wrap_int_array(data.type, data.NumPart)
else:
simu.types = None
if flags & NEED_MASS:
simu.masses = wrap_float_array(data.Mass, data.NumPart)
else:
simu.masses = None
return simu
def loadGadget(str filename, int snapshot_id, bool loadPosition = True, bool loadVelocity = False, bool loadId = False, bool loadType = False, bool loadMass=False):
"""loadGadget(filename, cpu_id, loadPosition=True, loadVelocity=False, loadId=False, loadType=False)
It loads a gadget-1 snapshot and return a PySimulationBase object. If cpu_id is negative then the snapshot is considered not to be part of a set of snapshots written by different cpu. Otherwise the filename is modified to reflectt this cpu_id.
"""
cdef int flags
cdef SimuData *data
cdef Simulation simu
flags = 0
if loadPosition:
flags |= NEED_POSITION
if loadVelocity:
flags |= NEED_VELOCITY
if loadId:
flags |= NEED_GADGET_ID
if loadType:
flags |= NEED_TYPE
if loadMass:
flags |= NEED_MASS
data = loadGadgetMulti(filename, snapshot_id, flags)
if data == <SimuData*>0:
return None
return _PySimulationAdaptor(wrap_simudata(data, flags))
def loadParallelGadget(object filename_list, bool loadPosition = True, bool loadVelocity = False, bool loadId = False, bool loadType = False, bool loadMass=False):
cdef int flags, i, num_files
cdef list out_arrays
cdef SimuData ** data
cdef SimuData * local_data
cdef Simulation simu
cdef cppvector[cppstring.string] filenames
flags = 0
if loadPosition:
flags |= NEED_POSITION
if loadVelocity:
flags |= NEED_VELOCITY
if loadId:
flags |= NEED_GADGET_ID
if loadType:
flags |= NEED_TYPE
if loadMass:
flags |= NEED_MASS
num_files = len(filename_list)
filenames.resize(num_files)
data = alloc_simudata(num_files)
for i,l in enumerate(filename_list):
filenames[i] = l
with nogil:
for i in prange(num_files):
local_data = loadGadgetMulti_safe(filenames[i], flags)
data[i] = local_data
# data[i] = loadGadgetMulti(filenames[i].c_str(), -1, flags)
out_arrays = []
for i in xrange(num_files):
if data[i] == <SimuData*>0:
out_arrays.append(None)
else:
out_arrays.append(_PySimulationAdaptor(wrap_simudata(data[i], flags)))
del_simudata(data)
return out_arrays
def writeGadget(str filename, object simulation):
cdef SimuData simdata
cdef np.ndarray[np.float32_t, ndim=1] pos, vel
cdef np.ndarray[np.int64_t, ndim=1] ids
cdef np.int64_t NumPart
cdef int j
if not isinstance(simulation,PySimulationBase):
raise TypeError("Second argument must be of type SimulationBase")
NumPart = simulation.positions[0].size
simdata.noAuto = True
for j in xrange(3):
pos = simulation.getPositions()[j]
vel = simulation.getVelocities()[j]
if pos.size != NumPart or vel.size != NumPart:
raise ValueError("Invalid number of particles")
simdata.Pos[j] = <float *>pos.data
simdata.Vel[j] = <float *>vel.data
ids = simulation.getIdentifiers()
simdata.Id = <np.int64_t *>ids.data
simdata.BoxSize = simulation.getBoxsize()
simdata.time = simulation.getTime()
simdata.Hubble = simulation.getHubble()
simdata.Omega_M = simulation.getOmega_M()
simdata.Omega_Lambda = simulation.getOmega_Lambda()
simdata.TotalNumPart = NumPart
simdata.NumPart = NumPart
cxx_writeGadget(filename, &simdata)
def loadRamses(str basepath, int snapshot_id, int cpu_id, bool doublePrecision = False, bool loadPosition = True, bool loadVelocity = False):
""" loadRamses(basepath, snapshot_id, cpu_id, doublePrecision=False, loadPosition=True, loadVelocity=False)
Loads the indicated snapshot based on the cpu id, snapshot id and basepath. It is important to specify the correct precision in doublePrecision.
"""
cdef int flags
cdef SimuData *data
cdef Simulation simu
flags = 0
if loadPosition:
flags |= NEED_POSITION
if loadVelocity:
flags |= NEED_VELOCITY
data = loadRamsesSimu(basepath, snapshot_id, cpu_id, doublePrecision, flags)
if data == <SimuData*>0:
return None
return _PySimulationAdaptor(wrap_simudata(data, flags))