Пример #1
0
def volume_linearBarycenterSave(session, volumes, folder, frames = 25, niter = 20, reg = None, rate = 'Linear', interpolate_colors = True,
            subregion = 'all', step = 1, maxsize = None, model_id = None):
    '''OT interpolate between maps.'''
    if len(volumes) < 2:
        raise CommandError('volume morph requires 2 or more volumes, got %d' % len(volumes))


    vs = [tuple(v.matrix_size(step = step, subregion = subregion))
            for v in volumes]
    if len(set(vs)) > 1:
        sizes = ' and '.join([str(s) for s in vs])
        raise CommandError("Volume grid sizes don't match: %s" % sizes)
    
    

    if frames > 0 :
        play_step = 1./frames


    if not (maxsize == None):
        if np.product(vs[0]) > maxsize**3 : 
            print('Your structure is bigger than maxsize, resizing for better tractability')
            print('resizing volumes to maxsize')
            print('You can change maxsize option to prevent resizing')
            downscale_ratio = round(max(list(set(vs))[0])/maxsize)
            step = downscale_ratio 

    if reg == None : 
        reg = max(volumes[0].matrix(step = step, subregion = subregion).shape)/60.

    from .mergedmorph import linear_save

    linear_save(volumes, folder, frames, niter, reg, rate, subregion, step, model_id)
Пример #2
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def volume_morphOT(session, volumes, frames = 25, start = 0, play_step = .04,
            play_direction = 1, niter = 20, reg = None, rate = 'linear',  play_range = None, 
            constant_volume = False, scale_factors = None,
            hide_original_maps = True, interpolate_colors = True, maxsize = 60,
            subregion = 'all', step = 1, model_id = None):
    '''OT interpolate between maps.'''
    
    
    if len(volumes) < 2:
        raise CommandError('volume morph requires 2 or more volumes, got %d' % len(volumes))

    if play_range is None:
        prange = (0.0,1.0)
    else:
        prange = play_range

    if not scale_factors is None and len(volumes) != len(scale_factors):
        raise CommandError('Number of scale factors (%d) does not match number of volumes (%d)'
                            % (len(scale_factors), len(volumes)))
    vs = [tuple(v.matrix_size(step = step, subregion = subregion))
            for v in volumes]

    if len(set(vs)) > 1:
        sizes = ' and '.join([str(s) for s in vs])
        raise CommandError("Volume grid sizes don't match: %s" % sizes)


    """if play_step == None :  #Not putting those line allows bouncing back
        if frames > 0 :
            play_step = 1./frames   #bounces back
            #play_step = (prange[-1] - prange[0]) / float(frames)  #doesnt bounce back"""

    if np.product(vs[0]) > maxsize**3 : 
        print('Your structure is bigger than maxsize, you might consider using barycenterSave for efficiency issue')
        print('resizing volumes to maxsize')
        downscale_ratio = round(max(list(set(vs))[0])/maxsize)
        step = downscale_ratio 

    

    if reg == None : 
        reg = max(volumes[0].matrix(step = step, subregion = subregion).shape) / 60.

    

    from .mergedmorph import morph_maps_ot
    im = morph_maps_ot(volumes, frames, start, play_step, play_direction, prange,
                     constant_volume, scale_factors,
                    hide_original_maps, interpolate_colors, subregion, step, model_id, niter, reg, rate)
    
    return im
Пример #3
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def shape_box_path(session, atoms, width = 1.0, twist = 0.0, color = (190,190,190,255),
                   center = None, rotation = None, qrotation = None,
                   coordinate_system = None, mesh = False, slab = None,
                   report_cuts = False, cut_scale = 1.0,
                   name = 'box path', model_id = None):

    if len(atoms) < 2:
        raise CommandError('Must specify at least 2 atoms, got %d' % len(atoms))

    points = atoms.scene_coords

    from .boxpath import box_path
    varray, tarray = box_path(points, width, twist)

    if report_cuts:
        from .boxpath import cut_distances
        cuts = cut_distances(varray)
        lines = '\n'.join(['\t'.join(['%6.2f'%(d*cut_scale,) for d in cut])
                           for cut in cuts])
        session.logger.info('Box cuts for %d segments\n' % len(cuts) + lines + '\n')

    p = _show_surface(session, varray, tarray, color, mesh,
                      center, rotation, qrotation, coordinate_system,
                      slab, model_id, name)
    return p
Пример #4
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def shape_sphere(session, radius = 1.0, center = None, rotation = None,
                 qrotation = None, coordinate_system = None,
                 divisions = 72,
                 color = (190,190,190,255), mesh = False,
                 slab = None, name = None, model_id = None):

    ntri = _sphere_triangles(divisions)
    from chimerax.geometry.sphere import sphere_triangulation
    varray, tarray = sphere_triangulation(ntri)
    
    if isinstance(radius, (float, int)):
        varray *= radius
        sphere = True
    elif isinstance(radius, (list, tuple)):
        for a in range(3):
            varray[:,a] *= radius[a]
        sphere = (radius[1] == radius[0] and radius[2] == radius[0])
    else:
        # TODO: Need to handle numpy arrays.
        raise CommandError('shape sphere: radius is not a float, int, list or tuple, got "%s" type %s'
                           % (radius, repr(radius)))

    from chimerax.core.commands import Center
    if isinstance(center, Center):
        center = center.scene_coordinates()
        
    if name is None:
        name = 'sphere' if sphere else 'ellipsoid'

    s = _show_surface(session, varray, tarray, color, mesh,
                      center, rotation, qrotation, coordinate_system,
                      slab, model_id, name)
    return s
Пример #5
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def shape_ribbon(session, atoms, follow_bonds = False,
                 width = 1.0, height = 0.1, yaxis = None, twist = 0,
                 divisions = 15, segment_subdivisions = 10,
                 color = None, band_length = 0.0,
                 mesh = None,
                 name = 'ribbon', model_id = None):

    if len(atoms) == 0:
        raise CommandError('No atoms specified')

    from chimerax.surface.tube import ribbon_through_atoms
    va,na,ta,ca = ribbon_through_atoms(atoms, width, yaxis, twist, band_length,
                                       segment_subdivisions, divisions,
                                       follow_bonds, color)

    if va is None:
        return None

    if height != 0:
        from chimerax.mask.depthmask import slab_surface
        va, na, ta = slab_surface(va, ta, na, (-0.5*height, 0.5*height), sharp_edges = True)
        from numpy import concatenate
        ca = concatenate((ca,ca,ca,ca))

    s = _surface_model(session, model_id, name)
    s.set_geometry(va, na, ta)
    s.vertex_colors = ca
    if mesh or (mesh is None and width == 0):
        s.display_style = s.Mesh
    _add_surface(s)

    return s
Пример #6
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def shape_icosahedron(session, radius = 1.0, center = None, rotation = None,
                      qrotation = None, coordinate_system = None,
                      divisions = 72,
                      color = (190,190,190,255), mesh = None,
                      sphere_factor = 0.0, orientation = '222', lattice = None,
                      slab = None, name = 'icosahedron', model_id = None):

    from chimerax.geometry.icosahedron import coordinate_system_names as csnames
    if orientation not in csnames:
        raise CommandError('Unknown orientation "%s", use %s'
                           % (orientation, ', '.join(csnames)))
    if lattice is not None and mesh is None:
        mesh = True

    if lattice is None:
        varray, tarray = icosahedral_geometry(radius, divisions,
                                              sphere_factor, orientation)
        edge_mask = None
    else:
        hk = lattice
        varray, tarray, edge_mask = hk_icosahedral_geometry(radius, hk,
                                                            sphere_factor,
                                                            orientation)
    s = _show_surface(session, varray, tarray, color, mesh,
                      center, rotation, qrotation, coordinate_system,
                      slab, model_id, name, edge_mask = edge_mask)
    return s
Пример #7
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def volume_barycenterOT(session,
                        volumes,
                        weights,
                        niter=20,
                        reg=None,
                        interpolate_colors=True,
                        subregion='all',
                        step=1,
                        model_id=None,
                        maxsize=60):
    '''computes one weighted barycenter between two or more maps.'''
    if len(volumes) < 2:
        raise CommandError('volume morph requires 2 or more volumes, got %d' %
                           len(volumes))

    vs = [
        tuple(v.matrix_size(step=step, subregion=subregion)) for v in volumes
    ]

    if len(set(vs)) > 1:
        sizes = ' and '.join([str(s) for s in vs])
        raise CommandError("Volume grid sizes don't match: %s" % sizes)

    if np.product(vs[0]) > maxsize**3:
        print(
            'Your structure is bigger than maxsize, resizing for better tractability'
        )
        print('resizing volumes to maxsize')
        print('You can change maxsize option to prevent resizing')
        downscale_ratio = round(max(list(set(vs))[0]) / maxsize)
        step = downscale_ratio

    if reg == None:
        reg = max(volumes[0].matrix(step=step,
                                    subregion=subregion).shape) / 60.

    from .mergedmorph import ot_barycenter

    im = ot_barycenter(volumes, weights, niter, reg, subregion, step, model_id)

    return im
Пример #8
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def shape_triangle(session, atoms = None, point = None,
                   color = (190,190,190,255), mesh = False,
                   center = None, rotation = None, qrotation = None, coordinate_system = None,
                   divisions = 1,
                   slab = None, name = 'triangle', model_id = None):

    points = point  # List of points.  Name is point so user command repeated option name is "point"
    if atoms is not None:
        if len(atoms) != 3:
            raise CommandError('shape triangle: Must specify 3 atoms, got %d' % len(atoms))
        if (center is not None or rotation is not None or
            qrotation is not None or coordinate_system is not None):
            raise CommandError('shape triangle: Cannot use center, rotation, qrotation, '
                               'or coordinateSystem options if atom positions are used.')
        vertices = atoms.scene_coords
    elif points is not None:
        if len(points) != 3:
            raise CommandError('shape triangle: Must specify 3 points, got %d' % len(points))
        from chimerax.core.commands import Center
        vertices = [(p.scene_coordinates() if isinstance(p,Center) else p) for p in points]
    else:
        # Equilateral triangle centered at origin, edge length 1.
        from math import sqrt
        vertices = ((-0.5,-sqrt(3)/6,0),(0.5,-sqrt(3)/6,0),(0,sqrt(3)/3,0))
        
    from numpy import array, float32, int32
    varray = array(vertices, float32)
    tarray = array(((0,1,2),), int32)

    div = 1
    while divisions > div:
        from chimerax.surface import subdivide_triangles
        varray, tarray = subdivide_triangles(varray, tarray)
        div *= 2
        
    s = _show_surface(session, varray, tarray, color, mesh,
                      center, rotation, qrotation, coordinate_system,
                      slab, model_id, name, sharp_slab = True)
    return s
Пример #9
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def shape_tube(session, atoms, radius = 1.0, band_length = 0.0, follow_bonds = False,
               divisions = 15, segment_subdivisions = 10,
               color = None, mesh = None,
               name = 'tube', model_id = None):

    if len(atoms) == 0:
        raise CommandError('No atoms specified')

    from chimerax.surface.tube import tube_through_atoms
    va,na,ta,ca = tube_through_atoms(atoms, radius, band_length,
                                     segment_subdivisions, divisions,
                                     follow_bonds, color)
    if va is None:
        return None

    s = _surface_model(session, model_id, name)
    s.set_geometry(va, na, ta)
    s.vertex_colors = ca
    if mesh or (mesh is None and radius == 0):
        s.display_style = s.Mesh
    _add_surface(s)

    return s
Пример #10
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def movie_record(session,
                 directory=None,
                 pattern=None,
                 format=None,
                 size=None,
                 supersample=1,
                 limit=90000):
    '''Start recording a movie.

    Parameters
    ----------
    directory : string
      A temporary directory for saving image files before the movie is encoded.
      If a directory is specified, it must already exist -- it will not be created.
      If no directory is specified a temporary system directory is created.
    pattern : string
      File name including a "*" character that is substituted with the frame number
      when saving images.
    format : string
      Image file format (default ppm) for saving frames. Possible values ppm, png, jpeg.
      ppm is fastest but takes the most disk space because it is not compressed.
    size : 2 int
      Width and height in pixels of movie.
    supersample : int
      Amount of supersampling when saving individual image frames.
    limit : int
      Maximum number of frames to save.  This is a safe guard so that the entire computer disk storage
      is not filled with images if a movie recording is never stopped.
    '''
    if ignore_movie_commands(session):
        return

    from . import formats
    if format is None:
        format = formats.default_image_format
    else:
        fmts = formats.image_formats
        format = format.upper()
        if not format in fmts:
            raise CommandError('Unsupported image file format %s, use %s' %
                               (format, ', '.join(fmts)))

    from os.path import isdir, expanduser
    if directory and not isdir(expanduser(directory)):
        raise CommandError('Directory %s does not exist' % (directory, ))
    if pattern and pattern.count('*') != 1:
        raise CommandError('Pattern must contain exactly one "*"')

    if not size is None and len(size) != 2:
        raise CommandError('Size must be two comma-separated integers')

    if not supersample is None and supersample < 0:
        raise CommandError('Supersample must be a positive integer')

    movie = getattr(session, 'movie', None)
    if movie is None:
        from .movie import Movie
        movie = Movie(format, directory, pattern, size, supersample, limit,
                      False, session)
        session.movie = movie
    elif movie.is_recording():
        raise CommandError("Already recording a movie")
    else:
        movie.supersample = supersample
        movie.limit = limit

    movie.start_recording()
Пример #11
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def encode_op(session,
              output=None,
              format=None,
              quality=None,
              qscale=None,
              bitrate=None,
              framerate=25,
              round_trip=False,
              reset_mode=RESET_CLEAR,
              wait=False,
              verbose=False):

    from . import formats

    output_size = None
    bit_rate = None
    qual = None
    if output:
        from os import path
        output = path.expanduser(output)

    if format is None:
        if output:
            format = format_from_file_suffix(output)
            if format is None:
                suffixes = set(fmt['suffix']
                               for fmt in formats.formats.values())
                sufs = ', '.join('*.%s' % s for s in suffixes)
                from os.path import basename
                raise CommandError(
                    'Unrecognized movie file suffix %s, use %s' %
                    (basename(output), sufs))
    if format is None:
        fmt_name = formats.default_video_format
    elif format.lower() in formats.formats:
        fmt_name = format.lower()
    else:
        raise CommandError('Unrecognized movie format %s' % format)
    f = formats.formats[fmt_name]
    if bitrate is None and qscale is None and quality is None:
        quality = formats.default_quality
    if quality:
        qopt = f['ffmpeg_quality']
        qual = (qopt['option_name'], qopt[quality])
    elif qscale:
        qual = ('-qscale:v', qscale)
    elif bitrate:
        bit_rate = bitrate

    if output is None:
        import os.path
        ext = f['suffix']
        from .movie import DEFAULT_OUTFILE
        output = '%s.%s' % (os.path.splitext(DEFAULT_OUTFILE)[0], ext)

    movie = getattr(session, 'movie', None)
    if movie is None:
        raise CommandError('No frames have been recorded')
    if movie.is_recording():
        movie.stop_recording()
    movie.verbose = verbose

    movie.start_encoding(output, f['ffmpeg_name'], output_size,
                         f['ffmpeg_codec'], "yuv420p", f['size_restriction'],
                         framerate, bit_rate, qual, round_trip, reset_mode)