smbinterp/interp/grid/__init__.py

import sys
from   collections import defaultdict

from xml.dom.minidom import Document

import numpy as np
from scipy.spatial import KDTree

from interp.baker import run_baker
import interp.grid.simplex

#TODO: do logging right
from interp.tools import log

class grid(object):
  def __init__(self, verts = None, q = None):
    """
      verts = array of arrays (if passed in, will convert to numpy.array)
              [
                [x0,y0],
                [x1,y1], ...
              ]

      q     = array (1D) of physical values
    """

    if verts != None:
      self.verts = np.array(verts)
      self.tree  = KDTree(self.verts)

    if q != None:
      log.debug("found q")
      self.q = np.array(q)
    else:
      log.debug("no q")

    self.cells          = {}
    self.cells_for_vert = defaultdict(list)

  def get_containing_simplex(self, X):
    if not self.cells:
      raise Exception("cell connectivity is not set up")

    # get closest point
    (dist, indicies) = self.tree.query(X, 2)
    closest_point = indicies[0]

    log.debug('X: %s' % X)
    log.debug('point index: %d' % closest_point)
    log.debug('actual point %s' % self.verts[closest_point])
    log.debug('distance = %0.4f' % dist[0])

    simplex = None
    checked_cells = []
    cells_to_check = list(self.cells_for_vert[closest_point])

    attempts = 0
    while not simplex and cells_to_check:
      attempts += 1

      # if attempts > 20:
      #   raise Exception("probably recursing to many times")

      cur_cell = cells_to_check.pop(0)
      checked_cells.append(cur_cell)

      if cur_cell.contains(X, self):
        simplex = cur_cell
        continue

      for neighbor in cur_cell.neighbors:
        if (neighbor not in checked_cells) and (neighbor not in cells_to_check):
          cells_to_check.append(neighbor)

    if not simplex:
      raise Exception('no containing simplex found')

    log.debug("simplex vert indicies: %s" % simplex.verts)
    R = self.create_mesh(simplex.verts)

    log.debug('total attempts before finding simplex: %d' % attempts)
    return R

  def create_mesh(self, indicies):
    """
      this function takes a list of indicies, and then creates
      and returns a grid object (collection of verts and q).

      note: the input is indicies, the grid contains verts
    """
    p = [self.verts[i]  for i in indicies]
    q = [self.q[i]      for i in indicies]
    return grid(p, q)

  def get_simplex_and_nearest_points(self, X, extra_points = 3, simplex_size = 3):
    """
      this returns two grid objects: R and S.

      R is a grid object that is supposedly a containing simplex
        around point X (TODO: it tends not to be)

      S is S_j from baker's paper : some verts from all point that are not the simplex
    """
    log.debug("extra verts: %d" % extra_points)
    log.debug("simplex size: %d" % simplex_size)

    r_mesh = self.get_containing_simplex(X)

    # and some UNIQUE extra verts
    (dist, indicies) = self.tree.query(X, simplex_size + extra_points)
    log.debug("extra indicies: %s" % indicies)

    unique_indicies = []
    for index in indicies:
      close_point_in_R = False
      for rvert in r_mesh.verts:
        if all(rvert == self.verts[index]):
          close_point_in_R = True
          break

      if not close_point_in_R:
        unique_indicies.append(index)
      else:
        log.debug('throwing out %s: %s' % (index, self.verts[index]))

    log.debug("indicies: %s" % indicies)
    log.debug("unique indicies: %s" % unique_indicies)
    s_mesh = self.create_mesh(unique_indicies)

    return (r_mesh, s_mesh)

  def run_baker(self, X, extra_points = 3, order = 2):
    (R, S) = self.get_simplex_and_nearest_points(X, extra_points)
    answer = run_baker(X, R, S, order)
    return answer

  def for_qhull_generator(self):
    """
      this returns a generator that should be fed into qdelaunay
    """

    yield str(len(self.verts[0]));
    yield '%d' % len(self.verts)

    for p in self.verts:
      yield "%f %f %f" % tuple(p)

  def for_qhull(self):
    """
      this returns a single string that should be fed into qdelaunay
    """
    r  = '%d\n' % len(self.verts[0])
    r += '%d\n' % len(self.verts)
    for p in self.verts:
      r += "%f %f %f\n" % tuple(p)
    return r

  def __str__(self):
    r = ''
    assert( len(self.verts) == len(self.q) )
    for c, i in enumerate(zip(self.verts, self.q)):
      r += "%d vert(%s): q(%0.4f)" % (c,i[0], i[1])
      cell_str = ", ".join([str(f.name) for f in self.cells_for_vert[c]])
      r += "  cells: [%s]" % cell_str
      r += "\n"
    if self.cells:
      for v in self.cells.itervalues():
        r += "%s\n" % v
    return r

  def normalize_q(self, new_max = 0.1):
    largest_number = np.max(np.abs(self.q))
    self.q *= new_max/largest_number


  def get_xml(self):
    doc = Document()
    ps = doc.createElement("points")
    doc.appendChild(ps)
    for i in zip(self.verts, self.q):
      p = doc.createElement("point")

      p.setAttribute("x", str(i[0][0]))
      p.setAttribute('y', str(i[0][1]))
      p.setAttribute('z', str(i[0][2]))
      p.setAttribute('q', str(i[1]   ))
      ps.appendChild(p)

    return doc

  def toxml(self):
    return self.get_xml().toxml()
  def toprettyxml(self):
    return self.get_xml().toprettyxml()


class cell(object):
  def __init__(self, name):
    self.name      = name
    self.verts     = []
    self.neighbors = []

  def add_vert(self, v):
    """
       v should be an index into grid.verts
    """
    self.verts.append(v)

  def add_neighbor(self, n):
    """
       reference to another cell object
    """
    self.neighbors.append(n)

  def contains(self, X, G):
    """
      X = point of interest
      G = corrensponding grid object (G.verts)
      because of the way i'm storing things,
      a cell simply stores indicies, and so one
      must pass in a reference to the grid object
      containing real verts.

      this simply calls grid.simplex.contains
    """
    return interp.grid.simplex.contains(X, [G.verts[i] for i in self.verts])

  def __str__(self):
    neighbors = [str(i.name) for i in self.neighbors]
    return '<cell %s: verts: %s neighbors: [%s]>' %\
           (
             self.name,
             self.verts,
             ", ".join(neighbors)
           )

  __repr__ = __str__
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00			`import sys`
			`from collections import defaultdict`

added functionality for supporting the GL front-end 2011-01-26 22:01:18 -08:00			`from xml.dom.minidom import Document`

putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00			`import numpy as np`
minor: removed useless improts, and changed used appropriate class variable 2010-11-08 15:25:59 -08:00			`from scipy.spatial import KDTree`
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00
middle of refactor 2010-10-23 12:49:15 -07:00			`from interp.baker import run_baker`
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`import interp.grid.simplex`
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`#TODO: do logging right`
			`from interp.tools import log`
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00
			`class grid(object):`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00			`def __init__(self, verts = None, q = None):`
major refactoring --HG-- rename : lib/baker/__init__.py => interp/baker/__init__.py rename : lib/grid/DD.py => interp/grid/DD.py rename : lib/grid/DDD.py => interp/grid/DDD.py rename : lib/grid/__init__.py => interp/grid/__init__.py rename : lib/grid/qhull.py => interp/grid/qhull.py rename : lib/grid/simplex.py => interp/grid/simplex.py rename : lib/grid/smcqdelaunay.py => interp/grid/smcqdelaunay.py rename : lib/baker/tools.py => interp/tools.py 2010-10-22 15:10:58 -07:00			`"""`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00			`verts = array of arrays (if passed in, will convert to numpy.array)`
			`[`
			`[x0,y0],`
			`[x1,y1], ...`
			`]`

			`q = array (1D) of physical values`
major refactoring --HG-- rename : lib/baker/__init__.py => interp/baker/__init__.py rename : lib/grid/DD.py => interp/grid/DD.py rename : lib/grid/DDD.py => interp/grid/DDD.py rename : lib/grid/__init__.py => interp/grid/__init__.py rename : lib/grid/qhull.py => interp/grid/qhull.py rename : lib/grid/simplex.py => interp/grid/simplex.py rename : lib/grid/smcqdelaunay.py => interp/grid/smcqdelaunay.py rename : lib/baker/tools.py => interp/tools.py 2010-10-22 15:10:58 -07:00			`"""`

added functionality for supporting the GL front-end 2011-01-26 22:01:18 -08:00			`if verts != None:`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00			`self.verts = np.array(verts)`
added some logging to hunt down why q wasn't being populated 2011-02-15 14:22:28 -08:00			`self.tree = KDTree(self.verts)`

			`if q != None:`
			`log.debug("found q")`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00			`self.q = np.array(q)`
added some logging to hunt down why q wasn't being populated 2011-02-15 14:22:28 -08:00			`else:`
			`log.debug("no q")`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00
refactored the term 'face' to 'cell' to match what I've found in literature 2010-11-08 14:07:48 -08:00			`self.cells = {}`
			`self.cells_for_vert = defaultdict(list)`
major refactoring --HG-- rename : lib/baker/__init__.py => interp/baker/__init__.py rename : lib/grid/DD.py => interp/grid/DD.py rename : lib/grid/DDD.py => interp/grid/DDD.py rename : lib/grid/__init__.py => interp/grid/__init__.py rename : lib/grid/qhull.py => interp/grid/qhull.py rename : lib/grid/simplex.py => interp/grid/simplex.py rename : lib/grid/smcqdelaunay.py => interp/grid/smcqdelaunay.py rename : lib/baker/tools.py => interp/tools.py 2010-10-22 15:10:58 -07:00
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00			`def get_containing_simplex(self, X):`
refactored the term 'face' to 'cell' to match what I've found in literature 2010-11-08 14:07:48 -08:00			`if not self.cells:`
			`raise Exception("cell connectivity is not set up")`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00
			`# get closest point`
			`(dist, indicies) = self.tree.query(X, 2)`
			`closest_point = indicies[0]`

			`log.debug('X: %s' % X)`
			`log.debug('point index: %d' % closest_point)`
			`log.debug('actual point %s' % self.verts[closest_point])`
			`log.debug('distance = %0.4f' % dist[0])`

			`simplex = None`
refactored the term 'face' to 'cell' to match what I've found in literature 2010-11-08 14:07:48 -08:00			`checked_cells = []`
			`cells_to_check = list(self.cells_for_vert[closest_point])`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00
			`attempts = 0`
refactored the term 'face' to 'cell' to match what I've found in literature 2010-11-08 14:07:48 -08:00			`while not simplex and cells_to_check:`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00			`attempts += 1`

			`# if attempts > 20:`
			`# raise Exception("probably recursing to many times")`

refactored the term 'face' to 'cell' to match what I've found in literature 2010-11-08 14:07:48 -08:00			`cur_cell = cells_to_check.pop(0)`
			`checked_cells.append(cur_cell)`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00
refactored the term 'face' to 'cell' to match what I've found in literature 2010-11-08 14:07:48 -08:00			`if cur_cell.contains(X, self):`
			`simplex = cur_cell`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00			`continue`

refactored the term 'face' to 'cell' to match what I've found in literature 2010-11-08 14:07:48 -08:00			`for neighbor in cur_cell.neighbors:`
			`if (neighbor not in checked_cells) and (neighbor not in cells_to_check):`
			`cells_to_check.append(neighbor)`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00
			`if not simplex:`
fixed bug where faces_for_vert came back changed for subsequent calls to get_containing_simplex (was adding/removing from list alias, now I copy the list). 2010-11-01 19:24:12 -07:00			`raise Exception('no containing simplex found')`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00
fixed bug where faces_for_vert came back changed for subsequent calls to get_containing_simplex (was adding/removing from list alias, now I copy the list). 2010-11-01 19:24:12 -07:00			`log.debug("simplex vert indicies: %s" % simplex.verts)`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00			`R = self.create_mesh(simplex.verts)`

			`log.debug('total attempts before finding simplex: %d' % attempts)`
			`return R`

			`def create_mesh(self, indicies):`
			`"""`
			`this function takes a list of indicies, and then creates`
			`and returns a grid object (collection of verts and q).`

			`note: the input is indicies, the grid contains verts`
			`"""`
added a generic get simplex and points function to the grid 2010-10-29 11:43:18 -07:00			`p = [self.verts[i] for i in indicies]`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00			`q = [self.q[i] for i in indicies]`
			`return grid(p, q)`

			`def get_simplex_and_nearest_points(self, X, extra_points = 3, simplex_size = 3):`
			`"""`
			`this returns two grid objects: R and S.`

			`R is a grid object that is supposedly a containing simplex`
added a generic get simplex and points function to the grid 2010-10-29 11:43:18 -07:00			`around point X (TODO: it tends not to be)`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00
			`S is S_j from baker's paper : some verts from all point that are not the simplex`
			`"""`
added a generic get simplex and points function to the grid 2010-10-29 11:43:18 -07:00			`log.debug("extra verts: %d" % extra_points)`
			`log.debug("simplex size: %d" % simplex_size)`

			`r_mesh = self.get_containing_simplex(X)`

			`# and some UNIQUE extra verts`
			`(dist, indicies) = self.tree.query(X, simplex_size + extra_points)`
fixed bug where faces_for_vert came back changed for subsequent calls to get_containing_simplex (was adding/removing from list alias, now I copy the list). 2010-11-01 19:24:12 -07:00			`log.debug("extra indicies: %s" % indicies)`
added a generic get simplex and points function to the grid 2010-10-29 11:43:18 -07:00
			`unique_indicies = []`
			`for index in indicies:`
			`close_point_in_R = False`
			`for rvert in r_mesh.verts:`
			`if all(rvert == self.verts[index]):`
			`close_point_in_R = True`
			`break`

			`if not close_point_in_R:`
			`unique_indicies.append(index)`
			`else:`
			`log.debug('throwing out %s: %s' % (index, self.verts[index]))`

			`log.debug("indicies: %s" % indicies)`
			`log.debug("unique indicies: %s" % unique_indicies)`
			`s_mesh = self.create_mesh(unique_indicies)`

			`return (r_mesh, s_mesh)`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00
			`def run_baker(self, X, extra_points = 3, order = 2):`
added a generic get simplex and points function to the grid 2010-10-29 11:43:18 -07:00			`(R, S) = self.get_simplex_and_nearest_points(X, extra_points)`
			`answer = run_baker(X, R, S, order)`
			`return answer`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00
moved the qhull generator into the base grid class 2011-03-21 14:24:25 -07:00			`def for_qhull_generator(self):`
			`"""`
			`this returns a generator that should be fed into qdelaunay`
			`"""`

removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`yield str(len(self.verts[0]));`
moved the qhull generator into the base grid class 2011-03-21 14:24:25 -07:00			`yield '%d' % len(self.verts)`

			`for p in self.verts:`
			`yield "%f %f %f" % tuple(p)`

			`def for_qhull(self):`
			`"""`
			`this returns a single string that should be fed into qdelaunay`
			`"""`
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`r = '%d\n' % len(self.verts[0])`
moved the qhull generator into the base grid class 2011-03-21 14:24:25 -07:00			`r += '%d\n' % len(self.verts)`
			`for p in self.verts:`
			`r += "%f %f %f\n" % tuple(p)`
			`return r`

updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00			`def __str__(self):`
			`r = ''`
			`assert( len(self.verts) == len(self.q) )`
			`for c, i in enumerate(zip(self.verts, self.q)):`
added a generic get simplex and points function to the grid 2010-10-29 11:43:18 -07:00			`r += "%d vert(%s): q(%0.4f)" % (c,i[0], i[1])`
refactored the term 'face' to 'cell' to match what I've found in literature 2010-11-08 14:07:48 -08:00			`cell_str = ", ".join([str(f.name) for f in self.cells_for_vert[c]])`
			`r += " cells: [%s]" % cell_str`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00			`r += "\n"`
refactored the term 'face' to 'cell' to match what I've found in literature 2010-11-08 14:07:48 -08:00			`if self.cells:`
			`for v in self.cells.itervalues():`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00			`r += "%s\n" % v`
			`return r`

added functionality for supporting the GL front-end 2011-01-26 22:01:18 -08:00			`def normalize_q(self, new_max = 0.1):`
			`largest_number = np.max(np.abs(self.q))`
			`self.q *= new_max/largest_number`



			`def get_xml(self):`
			`doc = Document()`
			`ps = doc.createElement("points")`
			`doc.appendChild(ps)`
			`for i in zip(self.verts, self.q):`
			`p = doc.createElement("point")`

			`p.setAttribute("x", str(i[0][0]))`
			`p.setAttribute('y', str(i[0][1]))`
			`p.setAttribute('z', str(i[0][2]))`
			`p.setAttribute('q', str(i[1] ))`
			`ps.appendChild(p)`

			`return doc`

			`def toxml(self):`
			`return self.get_xml().toxml()`
			`def toprettyxml(self):`
			`return self.get_xml().toprettyxml()`


removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`class cell(object):`
			`def __init__(self, name):`
			`self.name = name`
			`self.verts = []`
			`self.neighbors = []`
updated the interp.grid object to be a better base class 2010-10-23 16:01:10 -07:00
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`def add_vert(self, v):`
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00			`"""`
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`v should be an index into grid.verts`
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00			`"""`
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`self.verts.append(v)`
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`def add_neighbor(self, n):`
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00			`"""`
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`reference to another cell object`
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00			`"""`
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`self.neighbors.append(n)`
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`def contains(self, X, G):`
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00			`"""`
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`X = point of interest`
			`G = corrensponding grid object (G.verts)`
			`because of the way i'm storing things,`
			`a cell simply stores indicies, and so one`
			`must pass in a reference to the grid object`
			`containing real verts.`
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`this simply calls grid.simplex.contains`
putting together a simple test case so that I can test my quad/cubic interpolator 2010-03-20 16:10:02 -07:00			`"""`
removed more traces of the delaunay stuff from the DD file. 2011-03-21 15:55:09 -07:00			`return interp.grid.simplex.contains(X, [G.verts[i] for i in self.verts])`

			`def __str__(self):`
			`neighbors = [str(i.name) for i in self.neighbors]`
			`return '<cell %s: verts: %s neighbors: [%s]>' %\`
			`(`
			`self.name,`
			`self.verts,`
			`", ".join(neighbors)`
			`)`

			`__repr__ = __str__`