"""Classes following the PICMI standard
"""
from PICMI_Base import *
import numpy as np
from pywarpx import *


class Grid(PICMI_Grid):
    def init(self, **kw):

        amr.n_cell = '%d  %d  %d'%(self.nx, self.ny, self.nz)

        # Maximum allowable size of each subdomain in the problem domain; 
        #    this is used to decompose the domain for parallel calculations.
        amr.max_grid_size = kw.get('max_grid_size', 32)

        # Maximum level in hierarchy (for now must be 0, i.e., one level in total)
        amr.max_level = kw.get('max_level', 0)

        # Geometry
        geometry.coord_sys = kw.get('coord_sys', 0)  # 0: Cartesian
        geometry.is_periodic = '%d %d %d'%(self.bcxmin=='periodic', self.bcymin=='periodic', self.bczmin=='periodic')  # Is periodic?  
        geometry.prob_lo = '%7.0e %7.0e %7.0e'%(self.xmin, self.ymin, self.zmin)  # physical domain
        geometry.prob_hi = '%7.0e %7.0e %7.0e'%(self.xmax, self.ymax, self.zmax)

    def getxmin(self):
        return warpx.getProbLo(0)
    def getxmax(self):
        return warpx.getProbHi(0)
    def getymin(self):
        return warpx.getProbLo(1)
    def getymax(self):
        return warpx.getProbHi(1)
    def getzmin(self):
        return warpx.getProbLo(2)
    def getzmax(self):
        return warpx.getProbHi(2)

class EM_solver(PICMI_EM_solver):
    def init(self, **kw):

        if self.current_deposition_algo is not None:
            algo.current_deposition = self.current_deposition_algo
        if self.charge_deposition_algo is not None:
            algo.charge_deposition = self.charge_deposition_algo
        if self.field_gathering_algo is not None:
            algo.field_gathering = self.field_gathering_algo
        if self.particle_pusher_algo is not None:
            algo.particle_pusher = self.particle_pusher_algo


class Species(PICMI_Species):
    def init(self, **kw):

        self.species_number = particles.nspecies
        particles.nspecies = particles.nspecies + 1
        particles.species_names = particles.species_names + ' ' + self.name

        self.bucket = Bucket.Bucket(self.name, mass=self.mass, charge=self.charge, injection_style = 'python')
        Particles.particles_list.append(self.bucket)

    def add_particles(self, n=None,
                      x=None, y=None, z=None,
                      ux=None, uy=None, uz=None, w=None,
                      unique_particles=None, **kw):
        pid = np.array([w]).T
        add_particles(self.species_number, x, y, z, ux, uy, uz, pid, unique_particles)


class Simulation(PICMI_Simulation):
    def set_warpx_attr(self, warpx_obj, attr, kw):
        value = kw.get(attr, None)
        if value is not None:
            setattr(warpx_obj, attr, value)
            setattr(self, attr, value)

    def init(self, **kw):

        warpx.verbose = self.verbose
        warpx.cfl = self.cfl
        amr.plot_int = self.plot_int

        self.amrex = AMReX()
        self.amrex.init()
        warpx.init()

    def step(self, nsteps=-1):
        warpx.evolve(nsteps)
        
    def finalize(self):
        warpx.finalize()
        self.amrex.finalize()