/usr/lib/python2.7/dist-packages/guiqwt/image.py is in python-guiqwt 3.0.3-2ubuntu1.
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2622 2623 2624 2625 2626 2627 2628 2629 2630 | # -*- coding: utf-8 -*-
#
# Copyright © 2009-2010 CEA
# Pierre Raybaut
# Licensed under the terms of the CECILL License
# (see guiqwt/__init__.py for details)
# pylint: disable=C0103
"""
guiqwt.image
------------
The `image` module provides image-related objects and functions:
* :py:class:`guiqwt.image.ImagePlot`: a 2D curve and image plotting widget,
derived from :py:class:`guiqwt.curve.CurvePlot`
* :py:class:`guiqwt.image.ImageItem`: simple images
* :py:class:`guiqwt.image.TrImageItem`: images supporting arbitrary
affine transform
* :py:class:`guiqwt.image.XYImageItem`: images with non-linear X/Y axes
* :py:class:`guiqwt.image.Histogram2DItem`: 2D histogram
* :py:class:`guiqwt.image.ImageFilterItem`: rectangular filtering area
that may be resized and moved onto the processed image
* :py:func:`guiqwt.image.assemble_imageitems`
* :py:func:`guiqwt.image.get_plot_source_rect`
* :py:func:`guiqwt.image.get_image_from_plot`
``ImageItem``, ``TrImageItem``, ``XYImageItem``, ``Histogram2DItem`` and
``ImageFilterItem`` objects are plot items (derived from QwtPlotItem) that
may be displayed on a :py:class:`guiqwt.image.ImagePlot` plotting widget.
.. seealso::
Module :py:mod:`guiqwt.curve`
Module providing curve-related plot items and plotting widgets
Module :py:mod:`guiqwt.plot`
Module providing ready-to-use curve and image plotting widgets and
dialog boxes
Examples
~~~~~~~~
Create a basic image plotting widget:
* before creating any widget, a `QApplication` must be instantiated (that
is a `Qt` internal requirement):
>>> import guidata
>>> app = guidata.qapplication()
* that is mostly equivalent to the following (the only difference is that
the `guidata` helper function also installs the `Qt` translation
corresponding to the system locale):
>>> from PyQt4.QtGui import QApplication
>>> app = QApplication([])
* now that a `QApplication` object exists, we may create the plotting
widget:
>>> from guiqwt.image import ImagePlot
>>> plot = ImagePlot(title="Example")
Generate random data for testing purpose:
>>> import numpy as np
>>> data = np.random.rand(100, 100)
Create a simple image item:
* from the associated plot item class (e.g. `XYImageItem` to create
an image with non-linear X/Y axes): the item properties are then
assigned by creating the appropriate style parameters object
(e.g. :py:class:`guiqwt.styles.ImageParam`)
>>> from guiqwt.curve import ImageItem
>>> from guiqwt.styles import ImageParam
>>> param = ImageParam()
>>> param.label = 'My image'
>>> image = ImageItem(param)
>>> image.set_data(data)
* or using the `plot item builder` (see :py:func:`guiqwt.builder.make`):
>>> from guiqwt.builder import make
>>> image = make.image(data, title='My image')
Attach the image to the plotting widget:
>>> plot.add_item(image)
Display the plotting widget:
>>> plot.show()
>>> app.exec_()
Reference
~~~~~~~~~
.. autoclass:: ImagePlot
:members:
:inherited-members:
.. autoclass:: BaseImageItem
:members:
:inherited-members:
.. autoclass:: RawImageItem
:members:
:inherited-members:
.. autoclass:: ImageItem
:members:
:inherited-members:
.. autoclass:: TrImageItem
:members:
:inherited-members:
.. autoclass:: XYImageItem
:members:
:inherited-members:
.. autoclass:: RGBImageItem
:members:
:inherited-members:
.. autoclass:: MaskedImageItem
:members:
:inherited-members:
.. autoclass:: ImageFilterItem
:members:
:inherited-members:
.. autoclass:: XYImageFilterItem
:members:
:inherited-members:
.. autoclass:: Histogram2DItem
:members:
:inherited-members:
.. autofunction:: assemble_imageitems
.. autofunction:: get_plot_qrect
.. autofunction:: get_image_from_plot
"""
#FIXME: traceback in scaler when adding here 'from __future__ import division'
from __future__ import print_function, unicode_literals
import sys
import os.path as osp
from math import fabs
import numpy as np
from guidata.qt.QtGui import QColor, QImage
from guidata.qt.QtCore import QRectF, QPointF, QRect
from guidata.utils import assert_interfaces_valid, update_dataset
from guidata.py3compat import getcwd, is_text_string
# Local imports
from guiqwt.transitional import QwtPlotItem, QwtInterval
from guiqwt.config import _
from guiqwt.interfaces import (IBasePlotItem, IBaseImageItem, IHistDataSource,
IImageItemType, ITrackableItemType,
IColormapImageItemType, IVoiImageItemType,
ISerializableType, ICSImageItemType,
IExportROIImageItemType, IStatsImageItemType)
from guiqwt.curve import CurvePlot, CurveItem, PolygonMapItem
from guiqwt.colormap import FULLRANGE, get_cmap, get_cmap_name
from guiqwt.styles import (ImageParam, ImageAxesParam, TrImageParam,
RGBImageParam, MaskedImageParam, XYImageParam,
RawImageParam)
from guiqwt.shapes import RectangleShape
from guiqwt import io
from guiqwt.geometry import translate, scale, rotate, colvector
from guiqwt.baseplot import canvas_to_axes, axes_to_canvas
stderr = sys.stderr
try:
from guiqwt.histogram2d import histogram2d, histogram2d_func
from guiqwt._scaler import (_histogram, _scale_tr, _scale_xy, _scale_rect,
_scale_quads,
INTERP_NEAREST, INTERP_LINEAR, INTERP_AA)
except ImportError:
print(("Module 'guiqwt.image': missing C extension"), file=sys.stderr)
print(("try running :"
"python setup.py build_ext --inplace -c mingw32" ), file=sys.stderr)
raise
LUT_SIZE = 1024
LUT_MAX = float(LUT_SIZE-1)
def _nanmin(data):
if isinstance(data, np.ma.MaskedArray):
data = data.data
if data.dtype.name in ("float32", "float64", "float128"):
return np.nanmin(data)
else:
return data.min()
def _nanmax(data):
if isinstance(data, np.ma.MaskedArray):
data = data.data
if data.dtype.name in ("float32", "float64", "float128"):
return np.nanmax(data)
else:
return data.max()
def pixelround(x, corner=None):
"""
Return pixel index (int) from pixel coordinate (float)
corner: None (not a corner), 'TL' (top-left corner),
'BR' (bottom-right corner)
"""
assert corner is None or corner in ('TL', 'BR')
if corner is None:
return np.floor(x)
elif corner == 'BR':
return np.ceil(x)
elif corner == 'TL':
return np.floor(x)
#==============================================================================
# Base image item class
#==============================================================================
class BaseImageItem(QwtPlotItem):
__implements__ = (IBasePlotItem, IBaseImageItem, IHistDataSource,
IVoiImageItemType, ICSImageItemType, IStatsImageItemType,
IExportROIImageItemType)
_can_select = True
_can_resize = False
_can_move = False
_can_rotate = False
_readonly = False
_private = False
def __init__(self, data=None, param=None):
super(BaseImageItem, self).__init__()
self.bg_qcolor = QColor()
self.bounds = QRectF()
# BaseImageItem needs:
# param.background
# param.alpha_mask
# param.alpha
# param.colormap
if param is None:
param = self.get_default_param()
self.imageparam = param
self.selected = False
self.data = None
self.min = 0.0
self.max = 1.0
self.cmap_table = None
self.cmap = None
self.colormap_axis = None
self._offscreen = np.array((1, 1), np.uint32)
# Linear interpolation is the default interpolation algorithm:
# it's almost as fast as 'nearest pixel' method but far smoother
self.interpolate = None
self.set_interpolation(INTERP_LINEAR)
x1, y1 = self.bounds.left(), self.bounds.top()
x2, y2 = self.bounds.right(), self.bounds.bottom()
self.border_rect = RectangleShape(x1, y1, x2, y2)
self.border_rect.set_style("plot", "shape/imageborder")
# A, B, Background, Colormap
self.lut = (1.0, 0.0, None, np.zeros((LUT_SIZE, ), np.uint32))
self.set_lut_range([0., 255.])
self.setItemAttribute(QwtPlotItem.AutoScale)
self.setItemAttribute(QwtPlotItem.Legend, True)
self._filename = None # The file this image comes from
self.histogram_cache = None
if data is not None:
self.set_data(data)
self.imageparam.update_image(self)
#---- Public API ----------------------------------------------------------
def get_default_param(self):
"""Return instance of the default imageparam DataSet"""
raise NotImplementedError
def set_filename(self, fname):
self._filename = fname
def get_filename(self):
fname = self._filename
if fname is not None and not osp.isfile(fname):
other_try = osp.join(getcwd(), osp.basename(fname))
if osp.isfile(other_try):
self.set_filename(other_try)
fname = other_try
return fname
def get_filter(self, filterobj, filterparam):
"""Provides a filter object over this image's content"""
raise NotImplementedError
def get_pixel_coordinates(self, xplot, yplot):
"""
Return (image) pixel coordinates
Transform the plot coordinates (arbitrary plot Z-axis unit)
into the image coordinates (pixel unit)
Rounding is necessary to obtain array indexes from these coordinates
"""
return xplot, yplot
def get_plot_coordinates(self, xpixel, ypixel):
"""
Return plot coordinates
Transform the image coordinates (pixel unit)
into the plot coordinates (arbitrary plot Z-axis unit)
"""
return xpixel, ypixel
def get_closest_indexes(self, x, y, corner=None):
"""
Return closest image pixel indexes
corner: None (not a corner), 'TL' (top-left corner),
'BR' (bottom-right corner)
"""
x, y = self.get_pixel_coordinates(x, y)
i_max = self.data.shape[1]-1
j_max = self.data.shape[0]-1
if corner == 'BR':
i_max += 1
j_max += 1
i = max([0, min([i_max, int(pixelround(x, corner))])])
j = max([0, min([j_max, int(pixelround(y, corner))])])
return i, j
def get_closest_index_rect(self, x0, y0, x1, y1):
"""
Return closest image rectangular pixel area index bounds
Avoid returning empty rectangular area (return 1x1 pixel area instead)
Handle reversed/not-reversed Y-axis orientation
"""
ix0, iy0 = self.get_closest_indexes(x0, y0, corner='TL')
ix1, iy1 = self.get_closest_indexes(x1, y1, corner='BR')
if ix0 > ix1:
ix1, ix0 = ix0, ix1
if iy0 > iy1:
iy1, iy0 = iy0, iy1
if ix0 == ix1:
ix1 += 1
if iy0 == iy1:
iy1 += 1
return ix0, iy0, ix1, iy1
def align_rectangular_shape(self, shape):
"""Align rectangular shape to image pixels"""
ix0, iy0, ix1, iy1 = self.get_closest_index_rect(*shape.get_rect())
x0, y0 = self.get_plot_coordinates(ix0, iy0)
x1, y1 = self.get_plot_coordinates(ix1, iy1)
shape.set_rect(x0, y0, x1, y1)
def get_closest_pixel_indexes(self, x, y):
"""
Return closest pixel indexes
Instead of returning indexes of an image pixel like the method
'get_closest_indexes', this method returns the indexes of the
closest pixel which is not necessarily on the image itself
(i.e. indexes may be outside image index bounds: negative or
superior than the image dimension)
.. note::
This is *not* the same as retrieving the canvas pixel coordinates
(which depends on the zoom level)
"""
x, y = self.get_pixel_coordinates(x, y)
i = int(pixelround(x))
j = int(pixelround(y))
return i, j
def get_x_values(self, i0, i1):
return np.arange(i0, i1)
def get_y_values(self, j0, j1):
return np.arange(j0, j1)
def get_data(self, x0, y0, x1=None, y1=None):
"""
Return image data
Arguments: x0, y0 [, x1, y1]
Return image level at coordinates (x0,y0)
If x1,y1 are specified:
Return image levels (np.ndarray) in rectangular area (x0,y0,x1,y1)
"""
i0, j0 = self.get_closest_indexes(x0, y0)
if x1 is None or y1 is None:
return self.data[j0, i0]
else:
i1, j1 = self.get_closest_indexes(x1, y1)
i1 += 1
j1 += 1
return (self.get_x_values(i0, i1), self.get_y_values(j0, j1),
self.data[j0:j1, i0:i1])
def get_closest_coordinates(self, x, y):
"""Return closest image pixel coordinates"""
return self.get_closest_indexes(x, y)
def get_coordinates_label(self, xc, yc):
title = self.title().text()
z = self.get_data(xc, yc)
return "%s:<br>x = %d<br>y = %d<br>z = %g" % (title, xc, yc, z)
def set_background_color(self, qcolor):
#mask = np.uint32(255*self.imageparam.alpha+0.5).clip(0,255) << 24
self.bg_qcolor = qcolor
a, b, _bg, cmap = self.lut
if qcolor is None:
self.lut = (a, b, None, cmap)
else:
self.lut = (a, b, np.uint32(QColor(qcolor).rgb() & 0xffffff), cmap)
def set_color_map(self, name_or_table):
if name_or_table is self.cmap_table:
# This avoids rebuilding the LUT all the time
return
if is_text_string(name_or_table):
table = get_cmap(name_or_table)
else:
table = name_or_table
self.cmap_table = table
self.cmap = table.colorTable(FULLRANGE)
cmap_a = self.lut[3]
alpha = self.imageparam.alpha
alpha_mask = self.imageparam.alpha_mask
for i in range(LUT_SIZE):
if alpha_mask:
pix_alpha = alpha*(i/float(LUT_SIZE-1))
else:
pix_alpha = alpha
alpha_channel = np.uint32(255*pix_alpha+0.5).clip(0, 255) << 24
cmap_a[i] = np.uint32((table.rgb(FULLRANGE, i/LUT_MAX))
& 0xffffff) | alpha_channel
plot = self.plot()
if plot:
plot.update_colormap_axis(self)
def get_color_map(self):
return self.cmap_table
def get_color_map_name(self):
return get_cmap_name(self.get_color_map())
def set_interpolation(self, interp_mode, size=None):
"""
Set image interpolation mode
interp_mode: INTERP_NEAREST, INTERP_LINEAR, INTERP_AA
size (integer): (for anti-aliasing only) AA matrix size
"""
if interp_mode in (INTERP_NEAREST, INTERP_LINEAR):
self.interpolate = (interp_mode,)
if interp_mode == INTERP_AA:
aa = np.ones((size, size), self.data.dtype)
self.interpolate = (interp_mode, aa)
def get_interpolation(self):
"""Get interpolation mode"""
return self.interpolate
def set_lut_range(self, lut_range):
"""
Set LUT transform range
*lut_range* is a tuple: (min, max)
"""
self.min, self.max = lut_range
_a, _b, bg, cmap = self.lut
if self.max == self.min:
self.lut = (LUT_MAX, self.min, bg, cmap)
else:
fmin, fmax = float(self.min), float(self.max) # avoid overflows
self.lut = (LUT_MAX/(fmax-fmin), -LUT_MAX*fmin/(fmax-fmin),
bg, cmap)
def get_lut_range(self):
"""Return the LUT transform range tuple: (min, max)"""
return self.min, self.max
def get_lut_range_full(self):
"""Return full dynamic range"""
return _nanmin(self.data), _nanmax(self.data)
def get_lut_range_max(self):
"""Get maximum range for this dataset"""
kind = self.data.dtype.kind
if kind in np.typecodes['AllFloat']:
info = np.finfo(self.data.dtype)
else:
info = np.iinfo(self.data.dtype)
return info.min, info.max
def update_border(self):
"""Update image border rectangle to fit image shape"""
bounds = self.boundingRect().getCoords()
self.border_rect.set_rect(*bounds)
def draw_border(self, painter, xMap, yMap, canvasRect):
"""Draw image border rectangle"""
self.border_rect.draw(painter, xMap, yMap, canvasRect)
def draw_image(self, painter, canvasRect, src_rect, dst_rect, xMap, yMap):
"""
Draw image with painter on canvasRect
.. warning::
`src_rect` and `dst_rect` are coordinates tuples
(xleft, ytop, xright, ybottom)
"""
dest = _scale_rect(self.data, src_rect, self._offscreen, dst_rect,
self.lut, self.interpolate)
qrect = QRectF(QPointF(dest[0], dest[1]), QPointF(dest[2], dest[3]))
painter.drawImage(qrect, self._image, qrect)
def export_roi(self, src_rect, dst_rect, dst_image,
apply_lut=False, apply_interpolation=False,
original_resolution=False):
"""Export Region Of Interest to array"""
if apply_lut:
a, b, _bg, _cmap = self.lut
else:
a, b = 1., 0.
interp = self.interpolate if apply_interpolation else (INTERP_NEAREST,)
_scale_rect(self.data, src_rect, dst_image, dst_rect,
(a, b, None), interp)
#---- QwtPlotItem API -----------------------------------------------------
def draw(self, painter, xMap, yMap, canvasRect):
x1, y1, x2, y2 = canvasRect.getCoords()
i1, i2 = xMap.invTransform(x1), xMap.invTransform(x2)
j1, j2 = yMap.invTransform(y1), yMap.invTransform(y2)
xl, yt, xr, yb = self.boundingRect().getCoords()
dest = (xMap.transform(xl), yMap.transform(yt),
xMap.transform(xr)+1, yMap.transform(yb)+1)
W = canvasRect.right()
H = canvasRect.bottom()
if self._offscreen.shape != (H, W):
self._offscreen = np.empty((H, W), np.uint32)
self._image = QImage(self._offscreen, W, H, QImage.Format_ARGB32)
self._image.ndarray = self._offscreen
self.notify_new_offscreen()
self.draw_image(painter, canvasRect, (i1, j1, i2, j2),
dest, xMap, yMap)
self.draw_border(painter, xMap, yMap, canvasRect)
def boundingRect(self):
return self.bounds
def notify_new_offscreen(self):
# callback for those derived classes who need it
pass
def setVisible(self, enable):
if not enable:
self.unselect() # when hiding item, unselect it
if enable:
self.border_rect.show()
else:
self.border_rect.hide()
QwtPlotItem.setVisible(self, enable)
#---- IBasePlotItem API ----------------------------------------------------
def types(self):
return (IImageItemType, IVoiImageItemType, IColormapImageItemType,
ITrackableItemType, ICSImageItemType, IExportROIImageItemType,
IStatsImageItemType, IStatsImageItemType)
def set_readonly(self, state):
"""Set object readonly state"""
self._readonly = state
def is_readonly(self):
"""Return object readonly state"""
return self._readonly
def set_private(self, state):
"""Set object as private"""
self._private = state
def is_private(self):
"""Return True if object is private"""
return self._private
def select(self):
"""Select item"""
self.selected = True
self.border_rect.select()
def unselect(self):
"""Unselect item"""
self.selected = False
self.border_rect.unselect()
def is_empty(self):
"""Return True if item data is empty"""
return self.data is None or self.data.size == 0
def set_selectable(self, state):
"""Set item selectable state"""
self._can_select = state
def set_resizable(self, state):
"""Set item resizable state
(or any action triggered when moving an handle, e.g. rotation)"""
self._can_resize = state
def set_movable(self, state):
"""Set item movable state"""
self._can_move = state
def set_rotatable(self, state):
"""Set item rotatable state"""
self._can_rotate = state
def can_select(self):
return self._can_select
def can_resize(self):
return self._can_resize
def can_move(self):
return self._can_move
def can_rotate(self):
return self._can_rotate
def hit_test(self, pos):
plot = self.plot()
ax = self.xAxis()
ay = self.yAxis()
return self.border_rect.poly_hit_test(plot, ax, ay, pos)
def update_item_parameters(self):
pass
def get_item_parameters(self, itemparams):
itemparams.add("ShapeParam", self, self.border_rect.shapeparam)
def set_item_parameters(self, itemparams):
self.border_rect.set_item_parameters(itemparams)
def move_local_point_to(self, handle, pos, ctrl=None):
"""Move a handle as returned by hit_test to the new position pos
ctrl: True if <Ctrl> button is being pressed, False otherwise"""
pass
def move_local_shape(self, old_pos, new_pos):
"""Translate the shape such that old_pos becomes new_pos
in canvas coordinates"""
pass
def move_with_selection(self, delta_x, delta_y):
"""
Translate the shape together with other selected items
delta_x, delta_y: translation in plot coordinates
"""
pass
#---- IBaseImageItem API --------------------------------------------------
def can_setfullscale(self):
return True
def can_sethistogram(self):
return False
def get_histogram(self, nbins):
"""interface de IHistDataSource"""
if self.data is None:
return [0,], [0, 1]
if self.histogram_cache is None \
or nbins != self.histogram_cache[0].shape[0]:
#from guidata.utils import tic, toc
if True:
#tic("histo1")
res = np.histogram(self.data, nbins)
#toc("histo1")
else:
#TODO: _histogram is faster, but caching is buggy
# in this version
#tic("histo2")
_min = _nanmin(self.data)
_max = _nanmax(self.data)
if self.data.dtype in (np.float64, np.float32):
bins = np.unique(np.array(np.linspace(_min, _max, nbins+1),
dtype=self.data.dtype))
else:
bins = np.arange(_min, _max+2,
dtype=self.data.dtype)
res2 = np.zeros((bins.size+1,), np.uint32)
_histogram(self.data.flatten(), bins, res2)
#toc("histo2")
res = res2[1:-1], bins
self.histogram_cache = res
else:
res = self.histogram_cache
return res
def __process_cross_section(self, ydata, apply_lut):
if apply_lut:
a, b, bg, cmap = self.lut
return (ydata*a+b).clip(0, LUT_MAX)
else:
return ydata
def get_stats(self, x0, y0, x1, y1):
"""Return formatted string with stats on image rectangular area
(output should be compatible with AnnotatedShape.get_infos)"""
ix0, iy0, ix1, iy1 = self.get_closest_index_rect(x0, y0, x1, y1)
data = self.data[iy0:iy1, ix0:ix1]
xfmt = self.imageparam.xformat
yfmt = self.imageparam.yformat
zfmt = self.imageparam.zformat
return "<br>".join([
"<b>%s</b>" % self.imageparam.label,
"%sx%s %s" % (self.data.shape[1],
self.data.shape[0],
str(self.data.dtype)),
"",
"%s ≤ x ≤ %s" % (xfmt % x0, xfmt % x1),
"%s ≤ y ≤ %s" % (yfmt % y0, yfmt % y1),
"%s ≤ z ≤ %s" % (zfmt % data.min(),
zfmt % data.max()),
"‹z› = " + zfmt % data.mean(),
"σ(z) = " + zfmt % data.std(),
])
def get_xsection(self, y0, apply_lut=False):
"""Return cross section along x-axis at y=y0"""
_ix, iy = self.get_closest_indexes(0, y0)
return (self.get_x_values(0, self.data.shape[1]),
self.__process_cross_section(self.data[iy,:], apply_lut))
def get_ysection(self, x0, apply_lut=False):
"""Return cross section along y-axis at x=x0"""
ix, _iy = self.get_closest_indexes(x0, 0)
return (self.get_y_values(0, self.data.shape[0]),
self.__process_cross_section(self.data[:, ix], apply_lut))
def get_average_xsection(self, x0, y0, x1, y1, apply_lut=False):
"""Return average cross section along x-axis"""
ix0, iy0, ix1, iy1 = self.get_closest_index_rect(x0, y0, x1, y1)
ydata = self.data[iy0:iy1, ix0:ix1].mean(axis=0)
return (self.get_x_values(ix0, ix1),
self.__process_cross_section(ydata, apply_lut))
def get_average_ysection(self, x0, y0, x1, y1, apply_lut=False):
"""Return average cross section along y-axis"""
ix0, iy0, ix1, iy1 = self.get_closest_index_rect(x0, y0, x1, y1)
ydata = self.data[iy0:iy1, ix0:ix1].mean(axis=1)
return (self.get_y_values(iy0, iy1),
self.__process_cross_section(ydata, apply_lut))
assert_interfaces_valid(BaseImageItem)
#==============================================================================
# Raw Image item (image item without scale)
#==============================================================================
class RawImageItem(BaseImageItem):
"""
Construct a simple image item
* data: 2D NumPy array
* param (optional): image parameters
(:py:class:`guiqwt.styles.RawImageParam` instance)
"""
__implements__ = (IBasePlotItem, IBaseImageItem, IHistDataSource,
IVoiImageItemType, ISerializableType)
#---- BaseImageItem API ---------------------------------------------------
def get_default_param(self):
"""Return instance of the default imageparam DataSet"""
return RawImageParam(_("Image"))
#---- Serialization methods -----------------------------------------------
def __reduce__(self):
fname = self.get_filename()
if fname is None:
fn_or_data = self.data
else:
fn_or_data = fname
state = self.imageparam, self.get_lut_range(), fn_or_data, self.z()
res = ( self.__class__, (), state )
return res
def __setstate__(self, state):
param, lut_range, fn_or_data, z = state
self.imageparam = param
if is_text_string(fn_or_data):
self.set_filename(fn_or_data)
self.load_data()
elif fn_or_data is not None: # should happen only with previous API
self.set_data(fn_or_data)
self.set_lut_range(lut_range)
self.setZ(z)
self.imageparam.update_image(self)
def serialize(self, writer):
"""Serialize object to HDF5 writer"""
fname = self.get_filename()
load_from_fname = fname is not None
data = None if load_from_fname else self.data
writer.write(load_from_fname, group_name='load_from_fname')
writer.write(fname, group_name='fname')
writer.write(data, group_name='Zdata')
writer.write(self.get_lut_range(), group_name='lut_range')
writer.write(self.z(), group_name='z')
self.imageparam.update_param(self)
writer.write(self.imageparam, group_name='imageparam')
def deserialize(self, reader):
"""Deserialize object from HDF5 reader"""
lut_range = reader.read(group_name='lut_range')
if reader.read(group_name='load_from_fname'):
self.set_filename(reader.read(group_name='fname',
func=reader.read_unicode))
self.load_data()
else:
data = reader.read(group_name='Zdata', func=reader.read_array)
self.set_data(data)
self.set_lut_range(lut_range)
self.setZ(reader.read('z'))
self.imageparam = self.get_default_param()
reader.read('imageparam', instance=self.imageparam)
self.imageparam.update_image(self)
#---- Public API ----------------------------------------------------------
def load_data(self, lut_range=None):
"""
Load data from *filename* and eventually apply specified lut_range
*filename* has been set using method 'set_filename'
"""
data = io.imread(self.get_filename(), to_grayscale=True)
self.set_data(data, lut_range=lut_range)
def set_data(self, data, lut_range=None):
"""
Set Image item data
* data: 2D NumPy array
* lut_range: LUT range -- tuple (levelmin, levelmax)
"""
if lut_range is not None:
_min, _max = lut_range
else:
_min, _max = _nanmin(data), _nanmax(data)
self.data = data
self.histogram_cache = None
self.update_bounds()
self.update_border()
self.set_lut_range([_min, _max])
def update_bounds(self):
if self.data is None:
return
self.bounds = QRectF(0, 0, self.data.shape[1], self.data.shape[0])
#---- IBasePlotItem API ---------------------------------------------------
def types(self):
return (IImageItemType, IVoiImageItemType, IColormapImageItemType,
ITrackableItemType, ICSImageItemType, ISerializableType,
IExportROIImageItemType, IStatsImageItemType)
def update_item_parameters(self):
self.imageparam.update_param(self)
def get_item_parameters(self, itemparams):
BaseImageItem.get_item_parameters(self, itemparams)
self.update_item_parameters()
itemparams.add("ImageParam", self, self.imageparam)
def set_item_parameters(self, itemparams):
update_dataset(self.imageparam, itemparams.get("ImageParam"),
visible_only=True)
self.imageparam.update_image(self)
BaseImageItem.set_item_parameters(self, itemparams)
#---- IBaseImageItem API --------------------------------------------------
def can_setfullscale(self):
return True
def can_sethistogram(self):
return True
assert_interfaces_valid(RawImageItem)
#==============================================================================
# Image item
#==============================================================================
class ImageItem(RawImageItem):
"""
Construct a simple image item
* data: 2D NumPy array
* param (optional): image parameters
(:py:class:`guiqwt.styles.ImageParam` instance)
"""
__implements__ = (IBasePlotItem, IBaseImageItem, IHistDataSource,
IVoiImageItemType, IExportROIImageItemType)
def __init__(self, data=None, param=None):
self.xmin = None
self.xmax = None
self.ymin = None
self.ymax = None
super(ImageItem, self).__init__(data=data, param=param)
#---- BaseImageItem API ---------------------------------------------------
def get_default_param(self):
"""Return instance of the default imageparam DataSet"""
return ImageParam(_("Image"))
#---- Serialization methods -----------------------------------------------
def __reduce__(self):
fname = self.get_filename()
if fname is None:
fn_or_data = self.data
else:
fn_or_data = fname
(xmin, xmax), (ymin, ymax) = self.get_xdata(), self.get_ydata()
state = (self.imageparam, self.get_lut_range(), fn_or_data, self.z(),
xmin, xmax, ymin, ymax)
res = ( self.__class__, (), state )
return res
def __setstate__(self, state):
param, lut_range, fn_or_data, z, xmin, xmax, ymin, ymax = state
self.set_xdata(xmin, xmax)
self.set_ydata(ymin, ymax)
self.imageparam = param
if is_text_string(fn_or_data):
self.set_filename(fn_or_data)
self.load_data()
elif fn_or_data is not None: # should happen only with previous API
self.set_data(fn_or_data)
self.set_lut_range(lut_range)
self.setZ(z)
self.imageparam.update_image(self)
def serialize(self, writer):
"""Serialize object to HDF5 writer"""
super(ImageItem, self).serialize(writer)
(xmin, xmax), (ymin, ymax) = self.get_xdata(), self.get_ydata()
writer.write(xmin, group_name='xmin')
writer.write(xmax, group_name='xmax')
writer.write(ymin, group_name='ymin')
writer.write(ymax, group_name='ymax')
def deserialize(self, reader):
"""Deserialize object from HDF5 reader"""
super(ImageItem, self).deserialize(reader)
for attr in ('xmin', 'xmax', 'ymin', 'ymax'):
# Note: do not be tempted to write the symetric code in `serialize`
# because calling `get_xdata` and `get_ydata` is necessary
setattr(self, attr, reader.read(attr, func=reader.read_float))
#---- Public API ----------------------------------------------------------
def get_xdata(self):
"""Return (xmin, xmax)"""
xmin, xmax = self.xmin, self.xmax
if xmin is None:
xmin = 0.
if xmax is None:
xmax = self.data.shape[1]
return xmin, xmax
def get_ydata(self):
"""Return (ymin, ymax)"""
ymin, ymax = self.ymin, self.ymax
if ymin is None:
ymin = 0.
if ymax is None:
ymax = self.data.shape[0]
return ymin, ymax
def set_xdata(self, xmin=None, xmax=None):
self.xmin, self.xmax = xmin, xmax
def set_ydata(self, ymin=None, ymax=None):
self.ymin, self.ymax = ymin, ymax
def update_bounds(self):
if self.data is None:
return
(xmin, xmax), (ymin, ymax) = self.get_xdata(), self.get_ydata()
self.bounds = QRectF(QPointF(xmin, ymin), QPointF(xmax, ymax))
#---- BaseImageItem API ---------------------------------------------------
def get_pixel_coordinates(self, xplot, yplot):
"""Return (image) pixel coordinates (from plot coordinates)"""
(xmin, xmax), (ymin, ymax) = self.get_xdata(), self.get_ydata()
xpix = self.data.shape[1]*(xplot-xmin)/float(xmax-xmin)
ypix = self.data.shape[0]*(yplot-ymin)/float(ymax-ymin)
return xpix, ypix
def get_plot_coordinates(self, xpixel, ypixel):
"""Return plot coordinates (from image pixel coordinates)"""
(xmin, xmax), (ymin, ymax) = self.get_xdata(), self.get_ydata()
xplot = xmin+(xmax-xmin)*xpixel/float(self.data.shape[1])
yplot = ymin+(ymax-ymin)*ypixel/float(self.data.shape[0])
return xplot, yplot
def get_x_values(self, i0, i1):
xmin, xmax = self.get_xdata()
xfunc = lambda index: xmin+(xmax-xmin)*index/float(self.data.shape[1])
return np.linspace(xfunc(i0), xfunc(i1), i1-i0)
def get_y_values(self, j0, j1):
ymin, ymax = self.get_ydata()
yfunc = lambda index: ymin+(ymax-ymin)*index/float(self.data.shape[0])
return np.linspace(yfunc(j0), yfunc(j1), j1-j0)
def get_closest_coordinates(self, x, y):
"""Return closest image pixel coordinates"""
(xmin, xmax), (ymin, ymax) = self.get_xdata(), self.get_ydata()
i, j = self.get_closest_indexes(x, y)
xpix = np.linspace(xmin, xmax, self.data.shape[1]+1)
ypix = np.linspace(ymin, ymax, self.data.shape[0]+1)
return xpix[i], ypix[j]
def _rescale_src_rect(self, src_rect):
sxl, syt, sxr, syb = src_rect
xl, yt, xr, yb = self.boundingRect().getCoords()
H, W = self.data.shape[:2]
x0 = W*(sxl-xl)/(xr-xl)
x1 = W*(sxr-xl)/(xr-xl)
y0 = H*(syt-yt)/(yb-yt)
y1 = H*(syb-yt)/(yb-yt)
return x0, y0, x1, y1
def draw_image(self, painter, canvasRect, src_rect, dst_rect, xMap, yMap):
if self.data is None:
return
src2 = self._rescale_src_rect(src_rect)
dst_rect = tuple([int(i) for i in dst_rect])
dest = _scale_rect(self.data, src2, self._offscreen, dst_rect,
self.lut, self.interpolate)
qrect = QRectF(QPointF(dest[0], dest[1]), QPointF(dest[2], dest[3]))
painter.drawImage(qrect, self._image, qrect)
def export_roi(self, src_rect, dst_rect, dst_image,
apply_lut=False, apply_interpolation=False,
original_resolution=False):
"""Export Region Of Interest to array"""
if apply_lut:
a, b, _bg, _cmap = self.lut
else:
a, b = 1., 0.
interp = self.interpolate if apply_interpolation else (INTERP_NEAREST,)
_scale_rect(self.data, self._rescale_src_rect(src_rect),
dst_image, dst_rect, (a, b, None), interp)
assert_interfaces_valid(ImageItem)
#==============================================================================
# QuadGrid item
#==============================================================================
class QuadGridItem(RawImageItem):
"""
Construct a QuadGrid image
* X, Y, Z: A structured grid of quadrilaterals
each quad is defined by (X[i], Y[i]), (X[i], Y[i+1]),
(X[i+1], Y[i+1]), (X[i+1], Y[i])
* param (optional): image parameters (ImageParam instance)
"""
__implements__ = (IBasePlotItem, IBaseImageItem, IHistDataSource,
IVoiImageItemType)
def __init__(self, X, Y, Z, param=None):
assert X is not None
assert Y is not None
assert Z is not None
self.X = X
self.Y = Y
assert X.shape == Y.shape
assert Z.shape == X.shape
super(QuadGridItem, self).__init__(Z, param)
self.set_data(Z)
self.grid = 1
self.interpolate = (0, 0.5, 0.5)
self.imageparam.update_image(self)
#---- BaseImageItem API ---------------------------------------------------
def get_default_param(self):
"""Return instance of the default imageparam DataSet"""
return QuadGridParam(_("Quadrilaterals"))
def types(self):
return (IImageItemType, IVoiImageItemType, IColormapImageItemType,
ITrackableItemType)
def update_bounds(self):
xmin = self.X.min()
xmax = self.X.max()
ymin = self.Y.min()
ymax = self.Y.max()
self.bounds = QRectF(xmin, ymin, xmax-xmin, ymax-ymin)
def set_data(self, data, X=None, Y=None, lut_range=None):
"""
Set Image item data
* data: 2D NumPy array
* lut_range: LUT range -- tuple (levelmin, levelmax)
"""
if lut_range is not None:
_min, _max = lut_range
else:
_min, _max = _nanmin(data), _nanmax(data)
self.data = data
self.histogram_cache = None
if X is not None:
assert Y is not None
self.X = X
self.Y = Y
self.update_bounds()
self.update_border()
self.set_lut_range([_min, _max])
def draw_image(self, painter, canvasRect, src_rect, dst_rect, xMap, yMap):
self._offscreen[...] = np.uint32(0)
dest = _scale_quads(self.X, self.Y, self.data, src_rect,
self._offscreen, dst_rect,
self.lut, self.interpolate,
self.grid)
qrect = QRectF(QPointF(dest[0], dest[1]), QPointF(dest[2], dest[3]))
painter.drawImage(qrect, self._image, qrect)
xl, yt, xr, yb = dest
self._offscreen[yt:yb, xl:xr] = 0
def notify_new_offscreen(self):
# we always ensure the offscreen is clean before drawing
self._offscreen[...] = 0
assert_interfaces_valid(QuadGridItem)
#==============================================================================
# Image with a custom linear transform
#==============================================================================
class TrImageItem(RawImageItem):
"""
Construct a transformable image item
* data: 2D NumPy array
* param (optional): image parameters
(:py:class:`guiqwt.styles.TrImageParam` instance)
"""
__implements__ = (IBasePlotItem, IBaseImageItem, IExportROIImageItemType)
_can_select = True
_can_resize = True
_can_rotate = True
_can_move = True
def __init__(self, data=None, param=None):
self.tr = np.eye(3, dtype=float)
self.itr = np.eye(3, dtype=float)
self.points = np.array([ [0, 0, 2, 2],
[0, 2, 2, 0],
[1, 1, 1, 1] ], float)
super(TrImageItem, self).__init__(data, param)
#---- BaseImageItem API ---------------------------------------------------
def get_default_param(self):
"""Return instance of the default imageparam DataSet"""
return TrImageParam(_("Image"))
#---- Public API ----------------------------------------------------------
def set_transform(self, x0, y0, angle, dx=1.0, dy=1.0,
hflip=False, vflip=False):
self.imageparam.set_transform(x0, y0, angle, dx, dy, hflip, vflip)
if self.data is None:
return
ni, nj = self.data.shape
rot = rotate(-angle)
tr1 = translate(nj/2.+0.5, ni/2.+0.5)
xflip = -1. if hflip else 1.
yflip = -1. if vflip else 1.
sc = scale(xflip/dx, yflip/dy)
tr2 = translate(-x0, -y0)
self.tr = tr1*sc*rot*tr2
self.itr = self.tr.I
self.compute_bounds()
def get_transform(self):
return self.imageparam.get_transform()
def debug_transform(self, pt):
x0, y0, angle, dx, dy, _hflip, _vflip = self.get_transform()
ni, nj = self.data.shape
rot = rotate(-angle)
tr1 = translate(ni/2.+0.5, nj/2.+0.5)
sc = scale(dx, dy)
tr2 = translate(-x0, -y0)
p1 = tr1.I*pt
p2 = rot.I*pt
p3 = sc.I*pt
p4 = tr2.I*pt
print("src=", pt.T)
print("tr1:", p1.T)
print("tr1+rot:", p2.T)
print("tr1+rot+sc:", p3.T)
print("tr1+rot+tr2:", p4.T)
def set_crop(self, left, top, right, bottom):
self.imageparam.set_crop(left, top, right, bottom)
def get_crop(self):
return self.imageparam.get_crop()
def get_crop_coordinates(self):
"""Return crop rectangle coordinates"""
tpos = np.array(np.dot(self.itr, self.points))
xmin, ymin, _ = tpos.min(axis=1).flatten()
xmax, ymax, _ = tpos.max(axis=1).flatten()
left, top, right, bottom = self.imageparam.get_crop()
return (xmin+left, ymin+top, xmax-right, ymax-bottom)
def compute_bounds(self):
x0, y0, x1, y1 = self.get_crop_coordinates()
self.bounds = QRectF(QPointF(x0, y0), QPointF(x1, y1))
self.update_border()
#--- RawImageItem API -----------------------------------------------------
def set_data(self, data, lut_range=None):
RawImageItem.set_data(self, data, lut_range)
ni, nj = self.data.shape
self.points = np.array([[0, 0, nj, nj],
[0, ni, ni, 0],
[1, 1, 1, 1]], float)
self.compute_bounds()
#--- BaseImageItem API ----------------------------------------------------
def get_filter(self, filterobj, filterparam):
"""Provides a filter object over this image's content"""
raise NotImplementedError
#TODO: Implement TrImageFilterItem
# return TrImageFilterItem(self, filterobj, filterparam)
def get_pixel_coordinates(self, xplot, yplot):
"""Return (image) pixel coordinates (from plot coordinates)"""
v = self.tr*colvector(xplot, yplot)
xpixel, ypixel, _ = v[:, 0]
return xpixel, ypixel
def get_plot_coordinates(self, xpixel, ypixel):
"""Return plot coordinates (from image pixel coordinates)"""
v0 = self.itr*colvector(xpixel, ypixel)
xplot, yplot, _ = v0[:, 0].A.ravel()
return xplot, yplot
def get_x_values(self, i0, i1):
v0 = self.itr*colvector(i0, 0)
x0, _y0, _ = v0[:, 0].A.ravel()
v1 = self.itr*colvector(i1, 0)
x1, _y1, _ = v1[:, 0].A.ravel()
return np.linspace(x0, x1, i1-i0)
def get_y_values(self, j0, j1):
v0 = self.itr*colvector(0, j0)
_x0, y0, _ = v0[:, 0].A.ravel()
v1 = self.itr*colvector(0, j1)
_x1, y1, _ = v1[:, 0].A.ravel()
return np.linspace(y0, y1, j1-j0)
def get_closest_coordinates(self, x, y):
"""Return closest image pixel coordinates"""
xi, yi = self.get_closest_indexes(x, y)
v = self.itr*colvector(xi, yi)
x, y, _ = v[:, 0].A.ravel()
return x, y
def update_border(self):
tpos = np.dot(self.itr, self.points)
self.border_rect.set_points(tpos.T[:, :2])
def draw_border(self, painter, xMap, yMap, canvasRect):
self.border_rect.draw(painter, xMap, yMap, canvasRect)
def draw_image(self, painter, canvasRect, src_rect, dst_rect, xMap, yMap):
W = canvasRect.width()
H = canvasRect.height()
if W <= 1 or H <= 1:
return
x0, y0, x1, y1 = src_rect
cx = canvasRect.left()
cy = canvasRect.top()
sx = (x1-x0)/(W-1)
sy = (y1-y0)/(H-1)
# tr1 = tr(x0,y0)*scale(sx,sy)*tr(-cx,-cy)
tr = np.matrix( [[sx, 0, x0-cx*sx],
[ 0, sy, y0-cy*sy],
[ 0, 0, 1]], float)
mat = self.tr*tr
dst_rect = tuple([int(i) for i in dst_rect])
dest = _scale_tr(self.data, mat, self._offscreen, dst_rect,
self.lut, self.interpolate)
qrect = QRectF(QPointF(dest[0], dest[1]), QPointF(dest[2], dest[3]))
painter.drawImage(qrect, self._image, qrect)
def export_roi(self, src_rect, dst_rect, dst_image,
apply_lut=False, apply_interpolation=False,
original_resolution=False):
"""Export Region Of Interest to array"""
if apply_lut:
a, b, _bg, _cmap = self.lut
else:
a, b = 1., 0.
xs0, ys0, xs1, ys1 = src_rect
xd0, yd0, xd1, yd1 = dst_rect
if original_resolution:
_t1, _t2, _t3, xscale, yscale, _t4, _t5 = self.get_transform()
else:
xscale, yscale = (xs1-xs0)/float(xd1-xd0), (ys1-ys0)/float(yd1-yd0)
mat = self.tr*( translate(xs0, ys0)*scale(xscale, yscale) )
x0, y0, x1, y1 = self.get_crop_coordinates()
xd0 = max([xd0, xd0+int((x0-xs0)/xscale)])
yd0 = max([yd0, yd0+int((y0-ys0)/xscale)])
xd1 = min([xd1, xd1+int((x1-xs1)/xscale)])
yd1 = min([yd1, yd1+int((y1-ys1)/xscale)])
dst_rect = xd0, yd0, xd1, yd1
interp = self.interpolate if apply_interpolation else (INTERP_NEAREST,)
_scale_tr(self.data, mat, dst_image, dst_rect, (a, b, None), interp)
#---- IBasePlotItem API ---------------------------------------------------
def move_local_point_to(self, handle, pos, ctrl=None):
"""Move a handle as returned by hit_test to the new position pos
ctrl: True if <Ctrl> button is being pressed, False otherwise"""
x0, y0, angle, dx, dy, hflip, vflip = self.get_transform()
nx, ny = canvas_to_axes(self, pos)
handles = self.itr*self.points
p0 = colvector(nx, ny)
#self.debug_transform(p0)
center = handles.sum(axis=1)/4
vec0 = handles[:, handle] - center
vec1 = p0 - center
a0 = np.arctan2(vec0[1, 0], vec0[0, 0])
a1 = np.arctan2(vec1[1, 0], vec1[0, 0])
if self.can_rotate():
# compute angles
angle += a1-a0
if self.can_resize():
# compute pixel size
zoom = np.linalg.norm(vec1)/np.linalg.norm(vec0)
dx = zoom*dx
dy = zoom*dy
self.set_transform(x0, y0, angle, dx, dy, hflip, vflip)
def move_local_shape(self, old_pos, new_pos):
"""Translate the shape such that old_pos becomes new_pos
in canvas coordinates"""
x0, y0, angle, dx, dy, hflip, vflip = self.get_transform()
nx, ny = canvas_to_axes(self, new_pos)
ox, oy = canvas_to_axes(self, old_pos)
self.set_transform(x0+nx-ox, y0+ny-oy, angle, dx, dy, hflip, vflip)
if self.plot():
self.plot().SIG_ITEM_MOVED.emit(self, ox, oy, nx, ny)
def move_with_selection(self, delta_x, delta_y):
"""
Translate the shape together with other selected items
delta_x, delta_y: translation in plot coordinates
"""
x0, y0, angle, dx, dy, hflip, vflip = self.get_transform()
self.set_transform(x0+delta_x, y0+delta_y, angle, dx, dy, hflip, vflip)
assert_interfaces_valid(TrImageItem)
def assemble_imageitems(items, src_qrect, destw, desth, align=None,
add_images=False, apply_lut=False,
apply_interpolation=False,
original_resolution=False):
"""
Assemble together image items in qrect (`QRectF` object)
and return resulting pixel data
.. warning::
Does not support `XYImageItem` objects
"""
# align width to 'align' bytes
if align is not None:
print("guiqwt.image.assemble_imageitems: since v2.2, "\
"the `align` option is ignored", file=sys.stderr)
align = 1 #XXX: byte alignment is disabled until further notice!
aligned_destw = int(align*((int(destw)+align-1)/align))
aligned_desth = int(desth*aligned_destw/destw)
try:
output = np.zeros((aligned_desth, aligned_destw), np.float32)
except ValueError:
raise MemoryError
if not add_images:
dst_image = output
dst_rect = (0, 0, aligned_destw, aligned_desth)
src_rect = list(src_qrect.getCoords())
# The source QRect is generally coming from a rectangle shape which is
# adjusted to fit a given ROI on the image. So the rectangular area is
# aligned with image pixel edges: to avoid any rounding error, we reduce
# the rectangle area size by one half of a pixel, so that the area is now
# aligned with the center of image pixels.
pixel_width = src_qrect.width()/float(destw)
pixel_height = src_qrect.height()/float(desth)
src_rect[0] += .5*pixel_width
src_rect[1] += .5*pixel_height
src_rect[2] -= .5*pixel_width
src_rect[3] -= .5*pixel_height
for it in sorted(items, key=lambda obj: -obj.z()):
if it.isVisible() and src_qrect.intersects(it.boundingRect()):
if add_images:
dst_image = np.zeros_like(output)
it.export_roi(src_rect=src_rect, dst_rect=dst_rect,
dst_image=dst_image, apply_lut=apply_lut,
apply_interpolation=apply_interpolation,
original_resolution=original_resolution)
if add_images:
output += dst_image
return output
def get_plot_qrect(plot, p0, p1):
"""
Return `QRectF` rectangle object in plot coordinates
from top-left and bottom-right `QPointF` objects in canvas coordinates
"""
ax, ay = plot.X_BOTTOM, plot.Y_LEFT
p0x, p0y = plot.invTransform(ax, p0.x()), plot.invTransform(ay, p0.y())
p1x, p1y = plot.invTransform(ax, p1.x()+1), plot.invTransform(ay, p1.y()+1)
return QRectF(p0x, p0y, p1x-p0x, p1y-p0y)
def get_items_in_rectangle(plot, p0, p1, item_type=None):
"""Return items which bounding rectangle intersects (p0, p1)
item_type: default is `IExportROIImageItemType`"""
if item_type is None:
item_type = IExportROIImageItemType
items = plot.get_items(item_type=IExportROIImageItemType)
src_qrect = get_plot_qrect(plot, p0, p1)
return [it for it in items if src_qrect.intersects(it.boundingRect())]
def compute_trimageitems_original_size(items, src_w, src_h):
"""Compute `TrImageItem` original size from max dx and dy"""
trparams = [item.get_transform() for item in items
if isinstance(item, TrImageItem)]
if trparams:
dx_max = max([dx for _x, _y, _angle, dx, _dy, _hf, _vf in trparams])
dy_max = max([dy for _x, _y, _angle, _dx, dy, _hf, _vf in trparams])
return src_w/dx_max, src_h/dy_max
else:
return src_w, src_h
def get_image_from_qrect(plot, p0, p1, src_size=None,
adjust_range=None, item_type=None,
apply_lut=False, apply_interpolation=False,
original_resolution=False, add_images=False):
"""Return image array from `QRect` area (p0 and p1 are respectively the
top-left and bottom-right `QPointF` objects)
adjust_range: None (return raw data, dtype=np.float32), 'original'
(return data with original data type), 'normalize' (normalize range with
original data type)"""
assert adjust_range in (None, 'normalize', 'original')
items = get_items_in_rectangle(plot, p0, p1, item_type=item_type)
if not items:
raise TypeError(_("There is no supported image item in current plot."))
if src_size is None:
_src_x, _src_y, src_w, src_h = get_plot_qrect(plot, p0, p1).getRect()
else:
# The only benefit to pass the src_size list is to avoid any
# rounding error in the transformation computed in `get_plot_qrect`
src_w, src_h = src_size
destw, desth = compute_trimageitems_original_size(items, src_w, src_h)
data = get_image_from_plot(plot, p0, p1, destw=destw, desth=desth,
apply_lut=apply_lut, add_images=add_images,
apply_interpolation=apply_interpolation,
original_resolution=original_resolution)
if adjust_range is None:
return data
dtype = None
for item in items:
if dtype is None or item.data.dtype.itemsize > dtype.itemsize:
dtype = item.data.dtype
if adjust_range == 'normalize':
from guiqwt import io
data = io.scale_data_to_dtype(data, dtype=dtype)
else:
data = np.array(data, dtype=dtype)
return data
def get_image_in_shape(obj, norm_range=False, item_type=None,
apply_lut=False, apply_interpolation=False):
"""Return image array from rectangle shape"""
x0, y0, x1, y1 = obj.get_rect()
(x0, x1), (y0, y1) = sorted([x0, x1]), sorted([y0, y1])
xc0, yc0 = axes_to_canvas(obj, x0, y0)
xc1, yc1 = axes_to_canvas(obj, x1, y1)
adjust_range = 'normalize' if norm_range else 'original'
return get_image_from_qrect(obj.plot(), QPointF(xc0, yc0),
QPointF(xc1, yc1), src_size=(x1-x0, y1-y0),
adjust_range=adjust_range, item_type=item_type,
apply_lut=apply_lut,
apply_interpolation=apply_interpolation,
original_resolution=True)
def get_image_from_plot(plot, p0, p1, destw=None, desth=None, add_images=False,
apply_lut=False, apply_interpolation=False,
original_resolution=False):
"""
Return pixel data of a rectangular plot area (image items only)
p0, p1: resp. top-left and bottom-right points (`QPointF` objects)
apply_lut: apply contrast settings
add_images: add superimposed images (instead of replace by the foreground)
.. warning::
Support only the image items implementing the `IExportROIImageItemType`
interface, i.e. this does *not* support `XYImageItem` objects
"""
if destw is None:
destw = p1.x()-p0.x()+1
if desth is None:
desth = p1.y()-p0.y()+1
items = plot.get_items(item_type=IExportROIImageItemType)
qrect = get_plot_qrect(plot, p0, p1)
return assemble_imageitems(items, qrect, destw, desth,# align=4,
add_images=add_images, apply_lut=apply_lut,
apply_interpolation=apply_interpolation,
original_resolution=original_resolution)
#==============================================================================
# Image with custom X, Y axes
#==============================================================================
def to_bins(x):
"""Convert point center to point bounds"""
bx = np.zeros((x.shape[0]+1,), float)
bx[1:-1] = (x[:-1]+x[1:])/2
bx[0] = x[0]-(x[1]-x[0])/2
bx[-1] = x[-1]+(x[-1]-x[-2])/2
return bx
class XYImageItem(RawImageItem):
"""
Construct an image item with non-linear X/Y axes
* x: 1D NumPy array, must be increasing
* y: 1D NumPy array, must be increasing
* data: 2D NumPy array
* param (optional): image parameters
(:py:class:`guiqwt.styles.XYImageParam` instance)
"""
__implements__ = (IBasePlotItem, IBaseImageItem, ISerializableType)
def __init__(self, x=None, y=None, data=None, param=None):
# if x and y are not increasing arrays, sort them and data accordingly
if not np.all(np.diff(x) >= 0):
x_idx = np.argsort(x)
x = x[x_idx]
data = data[:, x_idx]
if not np.all(np.diff(y) >= 0):
y_idx = np.argsort(y)
y = y[y_idx]
data = data[y_idx, :]
super(XYImageItem, self).__init__(data, param)
self.x = None
self.y = None
if x is not None and y is not None:
self.set_xy(x, y)
#---- BaseImageItem API ---------------------------------------------------
def get_default_param(self):
"""Return instance of the default imageparam DataSet"""
return XYImageParam(_("Image"))
#---- Pickle methods ------------------------------------------------------
def __reduce__(self):
fname = self.get_filename()
if fname is None:
fn_or_data = self.data
else:
fn_or_data = fname
state = (self.imageparam, self.get_lut_range(),
self.x, self.y, fn_or_data, self.z())
res = ( self.__class__, (), state )
return res
def __setstate__(self, state):
param, lut_range, x, y, fn_or_data, z = state
self.imageparam = param
if is_text_string(fn_or_data):
self.set_filename(fn_or_data)
self.load_data(lut_range)
elif fn_or_data is not None: # should happen only with previous API
self.set_data(fn_or_data, lut_range=lut_range)
self.set_xy(x, y)
self.setZ(z)
self.imageparam.update_image(self)
def serialize(self, writer):
"""Serialize object to HDF5 writer"""
super(XYImageItem, self).serialize(writer)
writer.write(self.x, group_name='Xdata')
writer.write(self.y, group_name='Ydata')
def deserialize(self, reader):
"""Deserialize object from HDF5 reader"""
super(XYImageItem, self).deserialize(reader)
x = reader.read(group_name='Xdata', func=reader.read_array)
y = reader.read(group_name='Ydata', func=reader.read_array)
self.set_xy(x, y)
#---- Public API ----------------------------------------------------------
def set_xy(self, x, y):
ni, nj = self.data.shape
x = np.array(x, float)
y = np.array(y, float)
if not np.all(np.diff(x) >= 0):
raise ValueError("x must be an increasing 1D array")
if not np.all(np.diff(y) >= 0):
raise ValueError("y must be an increasing 1D array")
if x.shape[0] == nj:
self.x = to_bins(x)
elif x.shape[0] == nj+1:
self.x = x
else:
raise IndexError("x must be a 1D array of length %d or %d" \
% (nj, nj+1))
if y.shape[0] == ni:
self.y = to_bins(y)
elif y.shape[0] == ni+1:
self.y = y
else:
raise IndexError("y must be a 1D array of length %d or %d" \
% (ni, ni+1))
self.bounds = QRectF(QPointF(self.x[0], self.y[0]),
QPointF(self.x[-1], self.y[-1]))
self.update_border()
#--- BaseImageItem API ----------------------------------------------------
def get_filter(self, filterobj, filterparam):
"""Provides a filter object over this image's content"""
return XYImageFilterItem(self, filterobj, filterparam)
def draw_image(self, painter, canvasRect, src_rect, dst_rect, xMap, yMap):
xytr = (self.x, self.y, src_rect)
dst_rect = tuple([int(i) for i in dst_rect])
dest = _scale_xy(self.data, xytr, self._offscreen, dst_rect,
self.lut, self.interpolate)
qrect = QRectF(QPointF(dest[0], dest[1]), QPointF(dest[2], dest[3]))
painter.drawImage(qrect, self._image, qrect)
def get_pixel_coordinates(self, xplot, yplot):
"""Return (image) pixel coordinates (from plot coordinates)"""
return self.x.searchsorted(xplot), self.y.searchsorted(yplot)
def get_plot_coordinates(self, xpixel, ypixel):
"""Return plot coordinates (from image pixel coordinates)"""
return self.x[int(pixelround(xpixel))], self.y[int(pixelround(ypixel))]
def get_x_values(self, i0, i1):
return self.x[i0:i1]
def get_y_values(self, j0, j1):
return self.y[j0:j1]
def get_closest_coordinates(self, x, y):
"""Return closest image pixel coordinates"""
i, j = self.get_closest_indexes(x, y)
return self.x[i], self.y[j]
#---- IBasePlotItem API ---------------------------------------------------
def types(self):
return (IImageItemType, IVoiImageItemType, IColormapImageItemType,
ITrackableItemType, ISerializableType, ICSImageItemType)
#---- IBaseImageItem API --------------------------------------------------
def can_setfullscale(self):
return True
def can_sethistogram(self):
return True
assert_interfaces_valid(XYImageItem)
#==============================================================================
# RGB Image with alpha channel
#==============================================================================
class RGBImageItem(ImageItem):
"""
Construct a RGB/RGBA image item
* data: NumPy array of uint8 (shape: NxMx[34] -- 3: RGB, 4: RGBA)
(last dimension: 0: Red, 1: Green, 2: Blue {, 3:Alpha})
* param (optional): image parameters
(:py:class:`guiqwt.styles.RGBImageParam` instance)
"""
__implements__ = (IBasePlotItem, IBaseImageItem, ISerializableType)
def __init__(self, data=None, param=None):
self.orig_data = None
super(RGBImageItem, self).__init__(data, param)
self.lut = None
#---- BaseImageItem API ---------------------------------------------------
def get_default_param(self):
"""Return instance of the default imageparam DataSet"""
return RGBImageParam(_("Image"))
#---- Public API ----------------------------------------------------------
def recompute_alpha_channel(self):
data = self.orig_data
if self.orig_data is None:
return
H, W, NC = data.shape
R = data[..., 0].astype(np.uint32)
G = data[..., 1].astype(np.uint32)
B = data[..., 2].astype(np.uint32)
use_alpha = self.imageparam.alpha_mask
alpha = self.imageparam.alpha
if NC > 3 and use_alpha:
A = data[..., 3].astype(np.uint32)
else:
A = np.zeros((H, W), np.uint32)
A[:,:]=int(255*alpha)
self.data[:,:] = (A<<24)+(R<<16)+(G<<8)+B
#--- BaseImageItem API ----------------------------------------------------
# Override lut/bg handling
def set_lut_range(self, range):
pass
def set_background_color(self, qcolor):
self.lut = None
def set_color_map(self, name_or_table):
self.lut = None
#---- RawImageItem API ----------------------------------------------------
def load_data(self):
"""
Load data from *filename*
*filename* has been set using method 'set_filename'
"""
data = io.imread(self.get_filename(), to_grayscale=False)
self.set_data(data)
def set_data(self, data):
H, W, NC = data.shape
self.orig_data = data
self.data = np.empty((H, W), np.uint32)
self.recompute_alpha_channel()
self.update_bounds()
self.update_border()
self.lut = None
#---- IBasePlotItem API ---------------------------------------------------
def types(self):
return (IImageItemType, ITrackableItemType, ISerializableType)
#---- IBaseImageItem API --------------------------------------------------
def can_setfullscale(self):
return True
def can_sethistogram(self):
return False
assert_interfaces_valid(RGBImageItem)
#==============================================================================
# Masked Image
#==============================================================================
class MaskedArea(object):
"""Defines masked areas for a masked image item"""
def __init__(self, geometry=None, x0=None, y0=None, x1=None, y1=None,
inside=None):
self.geometry = geometry
self.x0 = x0
self.y0 = y0
self.x1 = x1
self.y1 = y1
self.inside = inside
def __eq__(self, other):
return self.geometry == other.geometry and self.x0 == other.x0 and \
self.y0 == other.y0 and self.x1 == other.x1 and \
self.y1 == other.y1 and self.inside == other.inside
def serialize(self, writer):
"""Serialize object to HDF5 writer"""
for name in ('geometry', 'inside', 'x0', 'y0', 'x1', 'y1'):
writer.write(getattr(self, name), name)
def deserialize(self, reader):
"""Deserialize object from HDF5 reader"""
self.geometry = reader.read('geometry')
self.inside = reader.read('inside')
for name in ('x0', 'y0', 'x1', 'y1'):
setattr(self, name, reader.read(name, func=reader.read_float))
class MaskedImageItem(ImageItem):
"""
Construct a masked image item
* data: 2D NumPy array
* mask (optional): 2D NumPy array
* param (optional): image parameters
(:py:class:`guiqwt.styles.MaskedImageParam` instance)
"""
__implements__ = (IBasePlotItem, IBaseImageItem, IHistDataSource,
IVoiImageItemType)
def __init__(self, data=None, mask=None, param=None):
self.orig_data = None
self._mask = mask
self._mask_filename = None
self._masked_areas = []
super(MaskedImageItem, self).__init__(data, param)
#---- BaseImageItem API ---------------------------------------------------
def get_default_param(self):
"""Return instance of the default imageparam DataSet"""
return MaskedImageParam(_("Image"))
#---- Pickle methods -------------------------------------------------------
def __reduce__(self):
fname = self.get_filename()
if fname is None:
fn_or_data = self.data
else:
fn_or_data = fname
state = (self.imageparam, self.get_lut_range(), fn_or_data, self.z(),
self.get_mask_filename(), self.get_masked_areas())
res = ( self.__class__, (), state )
return res
def __setstate__(self, state):
param, lut_range, fn_or_data, z, mask_fname, old_masked_areas = state
if old_masked_areas and isinstance(old_masked_areas[0], MaskedArea):
masked_areas = old_masked_areas
else:
# Compatibility with old format
masked_areas = []
for geometry, x0, y0, x1, y1, inside in old_masked_areas:
area = MaskedArea(geometry=geometry, x0=x0, y0=y0, x1=x1, y1=y1,
inside=inside)
masked_areas.append(area)
self.imageparam = param
if is_text_string(fn_or_data):
self.set_filename(fn_or_data)
self.load_data(lut_range)
elif fn_or_data is not None: # should happen only with previous API
self.set_data(fn_or_data, lut_range=lut_range)
self.setZ(z)
self.imageparam.update_image(self)
if mask_fname is not None:
self.set_mask_filename(mask_fname)
self.load_mask_data()
elif masked_areas and self.data is not None:
self.set_masked_areas(masked_areas)
self.apply_masked_areas()
def serialize(self, writer):
"""Serialize object to HDF5 writer"""
super(MaskedImageItem, self).serialize(writer)
writer.write(self.get_mask_filename(), group_name='mask_fname')
writer.write_object_list(self._masked_areas, 'masked_areas')
def deserialize(self, reader):
"""Deserialize object from HDF5 reader"""
super(MaskedImageItem, self).deserialize(reader)
mask_fname = reader.read(group_name='mask_fname',
func=reader.read_unicode)
masked_areas = reader.read_object_list('masked_areas', MaskedArea)
if mask_fname:
self.set_mask_filename(mask_fname)
self.load_mask_data()
elif masked_areas and self.data is not None:
self.set_masked_areas(masked_areas)
self.apply_masked_areas()
#---- Public API -----------------------------------------------------------
def update_mask(self):
if isinstance(self.data, np.ma.MaskedArray):
self.data.set_fill_value(self.imageparam.filling_value)
def set_mask(self, mask):
"""Set image mask"""
self.data.mask = mask
def get_mask(self):
"""Return image mask"""
return self.data.mask
def set_mask_filename(self, fname):
"""
Set mask filename
There are two ways for pickling mask data of `MaskedImageItem` objects:
1. using the mask filename (as for data itself)
2. using the mask areas (`MaskedAreas` instance, see set_mask_areas)
When saving objects, the first method is tried and then, if no
filename has been defined for mask data, the second method is used.
"""
self._mask_filename = fname
def get_mask_filename(self):
return self._mask_filename
def load_mask_data(self):
data = io.imread(self.get_mask_filename(), to_grayscale=True)
self.set_mask(data)
self._mask_changed()
def set_masked_areas(self, areas):
"""Set masked areas (see set_mask_filename)"""
self._masked_areas = areas
def get_masked_areas(self):
return self._masked_areas
def add_masked_area(self, geometry, x0, y0, x1, y1, inside):
area = MaskedArea(geometry=geometry, x0=x0, y0=y0, x1=x1, y1=y1,
inside=inside)
for _area in self._masked_areas:
if area == _area:
return
self._masked_areas.append(area)
def _mask_changed(self):
"""Emit the :py:data:`guiqwt.baseplot.BasePlot.SIG_MASK_CHANGED` signal"""
plot = self.plot()
if plot is not None:
plot.SIG_MASK_CHANGED.emit(self)
def apply_masked_areas(self):
"""Apply masked areas"""
for area in self._masked_areas:
if area.geometry == 'rectangular':
self.mask_rectangular_area(area.x0, area.y0, area.x1, area.y1,
area.inside, trace=False, do_signal=False)
else:
self.mask_circular_area(area.x0, area.y0, area.x1, area.y1,
area.inside, trace=False, do_signal=False)
self._mask_changed()
def mask_all(self):
"""Mask all pixels"""
self.data.mask = True
self._mask_changed()
def unmask_all(self):
"""Unmask all pixels"""
self.data.mask = np.ma.nomask
self.set_masked_areas([])
self._mask_changed()
def mask_rectangular_area(self, x0, y0, x1, y1, inside=True,
trace=True, do_signal=True):
"""
Mask rectangular area
If inside is True (default), mask the inside of the area
Otherwise, mask the outside
"""
ix0, iy0, ix1, iy1 = self.get_closest_index_rect(x0, y0, x1, y1)
if inside:
self.data[iy0:iy1, ix0:ix1] = np.ma.masked
else:
indexes = np.ones(self.data.shape, dtype=np.bool)
indexes[iy0:iy1, ix0:ix1] = False
self.data[indexes] = np.ma.masked
if trace:
self.add_masked_area('rectangular', x0, y0, x1, y1, inside)
if do_signal:
self._mask_changed()
def mask_circular_area(self, x0, y0, x1, y1, inside=True,
trace=True, do_signal=True):
"""
Mask circular area, inside the rectangle (x0, y0, x1, y1), i.e.
circle with a radius of ``.5\*(x1-x0)``
If inside is True (default), mask the inside of the area
Otherwise, mask the outside
"""
ix0, iy0, ix1, iy1 = self.get_closest_index_rect(x0, y0, x1, y1)
xc, yc = .5*(x0+x1), .5*(y0+y1)
radius = .5*(x1-x0)
xdata, ydata = self.get_x_values(ix0, ix1), self.get_y_values(iy0, iy1)
for ix in range(ix0, ix1):
for iy in range(iy0, iy1):
distance = np.sqrt((xdata[ix-ix0]-xc)**2+(ydata[iy-iy0]-yc)**2)
if inside:
if distance <= radius:
self.data[iy, ix] = np.ma.masked
elif distance > radius:
self.data[iy, ix] = np.ma.masked
if not inside:
self.mask_rectangular_area(x0, y0, x1, y1, inside, trace=False)
if trace:
self.add_masked_area('circular', x0, y0, x1, y1, inside)
if do_signal:
self._mask_changed()
def is_mask_visible(self):
"""Return mask visibility"""
return self.imageparam.show_mask
def set_mask_visible(self, state):
"""Set mask visibility"""
self.imageparam.show_mask = state
plot = self.plot()
if plot is not None:
plot.replot()
#---- BaseImageItem API ----------------------------------------------------
def draw_image(self, painter, canvasRect, src_rect, dst_rect, xMap, yMap):
ImageItem.draw_image(self, painter, canvasRect,
src_rect, dst_rect, xMap, yMap)
if self.data is None:
return
if self.is_mask_visible():
_a, _b, bg, _cmap = self.lut
alpha_masked = np.uint32(255*self.imageparam.alpha_masked+0.5
).clip(0, 255) << 24
alpha_unmasked = np.uint32(255*self.imageparam.alpha_unmasked+0.5
).clip(0, 255) << 24
cmap = np.array([np.uint32(0x000000 & 0xffffff) | alpha_unmasked,
np.uint32(0xffffff & 0xffffff) | alpha_masked],
dtype=np.uint32)
lut = (1, 0, bg, cmap)
shown_data = np.ma.getmaskarray(self.data)
src2 = self._rescale_src_rect(src_rect)
dst_rect = tuple([int(i) for i in dst_rect])
dest = _scale_rect(shown_data, src2, self._offscreen, dst_rect,
lut, (INTERP_NEAREST,))
qrect = QRectF(QPointF(dest[0], dest[1]), QPointF(dest[2], dest[3]))
painter.drawImage(qrect, self._image, qrect)
#---- RawImageItem API -----------------------------------------------------
def set_data(self, data, lut_range=None):
"""
Set Image item data
* data: 2D NumPy array
* lut_range: LUT range -- tuple (levelmin, levelmax)
"""
ImageItem.set_data(self, data, lut_range)
self.orig_data = data
self.data = data.view(np.ma.MaskedArray)
self.set_mask(self._mask)
self._mask = None # removing reference to this temporary array
if self.imageparam.filling_value is None:
self.imageparam.filling_value = self.data.get_fill_value()
# self.data.harden_mask()
self.update_mask()
#==============================================================================
# Image filter
#==============================================================================
#TODO: Implement get_filter methods for image items other than XYImageItem!
class ImageFilterItem(BaseImageItem):
"""
Construct a rectangular area image filter item
* image: :py:class:`guiqwt.image.RawImageItem` instance
* filter: function (x, y, data) --> data
* param: image filter parameters
(:py:class:`guiqwt.styles.ImageFilterParam` instance)
"""
__implements__ = (IBasePlotItem, IBaseImageItem)
_can_select = True
_can_resize = True
_can_move = True
def __init__(self, image, filter, param):
self.use_source_cmap = None
self.image = None # BaseImageItem constructor will try to set this
# item's color map using the method 'set_color_map'
super(ImageFilterItem, self).__init__(param=param)
self.border_rect.set_style("plot", "shape/imagefilter")
self.image = image
self.filter = filter
self.imagefilterparam = param
self.imagefilterparam.update_imagefilter(self)
#---- Public API -----------------------------------------------------------
def set_image(self, image):
"""
Set the image item on which the filter will be applied
* image: :py:class:`guiqwt.image.RawImageItem` instance
"""
self.image = image
def set_filter(self, filter):
"""
Set the filter function
* filter: function (x, y, data) --> data
"""
self.filter = filter
#---- QwtPlotItem API ------------------------------------------------------
def boundingRect(self):
x0, y0, x1, y1 = self.border_rect.get_rect()
return QRectF(x0, y0, x1-x0, y1-y0)
#---- IBasePlotItem API ----------------------------------------------------
def update_item_parameters(self):
BaseImageItem.update_item_parameters(self)
self.imagefilterparam.update_param(self)
def get_item_parameters(self, itemparams):
BaseImageItem.get_item_parameters(self, itemparams)
self.update_item_parameters()
itemparams.add("ImageFilterParam", self, self.imagefilterparam)
def set_item_parameters(self, itemparams):
update_dataset(self.imagefilterparam,
itemparams.get("ImageFilterParam"),
visible_only=True)
self.imagefilterparam.update_imagefilter(self)
BaseImageItem.set_item_parameters(self, itemparams)
def move_local_point_to(self, handle, pos, ctrl=None):
"""Move a handle as returned by hit_test to the new position pos
ctrl: True if <Ctrl> button is being pressed, False otherwise"""
npos = canvas_to_axes(self, pos)
self.border_rect.move_point_to(handle, npos)
def move_local_shape(self, old_pos, new_pos):
"""Translate the shape such that old_pos becomes new_pos
in canvas coordinates"""
old_pt = canvas_to_axes(self, old_pos)
new_pt = canvas_to_axes(self, new_pos)
self.border_rect.move_shape(old_pt, new_pt)
if self.plot():
self.plot().SIG_ITEM_MOVED.emit(self, *(old_pt+new_pt))
def move_with_selection(self, delta_x, delta_y):
"""
Translate the shape together with other selected items
delta_x, delta_y: translation in plot coordinates
"""
self.border_rect.move_with_selection(delta_x, delta_y)
def set_color_map(self, name_or_table):
if self.use_source_cmap:
if self.image is not None:
self.image.set_color_map(name_or_table)
else:
BaseImageItem.set_color_map(self, name_or_table)
def get_color_map(self):
if self.use_source_cmap:
return self.image.get_color_map()
else:
return BaseImageItem.get_color_map(self)
def get_lut_range(self):
if self.use_source_cmap:
return self.image.get_lut_range()
else:
return BaseImageItem.get_lut_range(self)
def set_lut_range(self, lut_range):
if self.use_source_cmap:
self.image.set_lut_range(lut_range)
else:
BaseImageItem.set_lut_range(self, lut_range)
#---- IBaseImageItem API ---------------------------------------------------
def types(self):
return (IImageItemType, IVoiImageItemType, IColormapImageItemType,
ITrackableItemType)
def can_setfullscale(self):
return False
def can_sethistogram(self):
return True
class XYImageFilterItem(ImageFilterItem):
"""
Construct a rectangular area image filter item
* image: :py:class:`guiqwt.image.XYImageItem` instance
* filter: function (x, y, data) --> data
* param: image filter parameters
(:py:class:`guiqwt.styles.ImageFilterParam` instance)
"""
def __init__(self, image, filter, param):
ImageFilterItem.__init__(self, image, filter, param)
def set_image(self, image):
"""
Set the image item on which the filter will be applied
* image: :py:class:`guiqwt.image.XYImageItem` instance
"""
ImageFilterItem.set_image(self, image)
def draw_image(self, painter, canvasRect, src_rect, dst_rect, xMap, yMap):
bounds = self.boundingRect()
filt_qrect = bounds & self.image.boundingRect()
x0, y0, x1, y1 = filt_qrect.getCoords()
i0, i1 = xMap.transform(x0), xMap.transform(x1)
j0, j1 = yMap.transform(y0), yMap.transform(y1)
dstRect = QRect(i0, j0, i1-i0, j1-j0)
if not dstRect.intersects(canvasRect):
return
x, y, data = self.image.get_data(x0, y0, x1, y1)
new_data = self.filter(x, y, data)
self.data = new_data
if self.use_source_cmap:
lut = self.image.lut
else:
lut = self.lut
dest = _scale_xy(new_data, (x, y, src_rect),
self._offscreen, dstRect.getCoords(),
lut, self.interpolate)
qrect = QRectF(QPointF(dest[0], dest[1]), QPointF(dest[2], dest[3]))
painter.drawImage(qrect, self._image, qrect)
assert_interfaces_valid(ImageFilterItem)
#==============================================================================
# 2-D Histogram
#==============================================================================
class Histogram2DItem(BaseImageItem):
"""
Construct a 2D histogram item
* X: data (1-D array)
* Y: data (1-D array)
* param (optional): style parameters
(:py:class:`guiqwt.styles.Histogram2DParam` instance)
"""
__implements__ = (IBasePlotItem, IBaseImageItem, IHistDataSource,
IVoiImageItemType,)
def __init__(self, X, Y, param=None, Z=None):
if param is None:
param = ImageParam(_("Image"))
self._z = Z # allows set_bins to
super(Histogram2DItem, self).__init__(param=param)
# Set by parameters
self.nx_bins = 0
self.ny_bins = 0
self.logscale = None
# internal use
self._x = None
self._y = None
# Histogram parameters
self.histparam = param
self.histparam.update_histogram(self)
self.set_lut_range([0, 10.])
self.set_data(X, Y, Z)
#---- Public API -----------------------------------------------------------
def set_bins(self, NX, NY):
"""Set histogram bins"""
self.nx_bins = NX
self.ny_bins = NY
self.data = np.zeros((self.ny_bins, self.nx_bins), float)
if self._z is not None:
self.data_tmp = np.zeros((self.ny_bins, self.nx_bins), float)
def set_data(self, X, Y, Z=None):
"""Set histogram data"""
self._x = X
self._y = Y
self._z = Z
self.bounds = QRectF(QPointF(X.min(), Y.min()),
QPointF(X.max(), Y.max()))
self.update_border()
#---- QwtPlotItem API ------------------------------------------------------
fill_canvas = True
def draw_image(self, painter, canvasRect, src_rect, dst_rect, xMap, yMap):
computation = self.histparam.computation
i1, j1, i2, j2 = src_rect
if computation == -1 or self._z is None:
self.data[:,:] = 0.0
nmax = histogram2d(self._x, self._y, i1, i2, j1, j2,
self.data, self.logscale)
else:
self.data_tmp[:,:] = 0.0
if computation in (2, 4): # sum, avg
self.data[:,:] = 0.0
elif computation in (1, 5): # min, argmin
val = np.inf
self.data[:,:] = val
elif computation in (0, 6): # max, argmax
val = -np.inf
self.data[:,:] = val
elif computation==3:
self.data[:,:] = 1.
histogram2d_func(self._x, self._y, self._z, i1, i2, j1, j2,
self.data_tmp, self.data, computation)
if computation in (0, 1, 5, 6):
self.data[self.data==val] = np.nan
else:
self.data[self.data_tmp==0.0] = np.nan
if self.histparam.auto_lut:
nmin = _nanmin(self.data)
nmax = _nanmax(self.data)
self.set_lut_range([nmin, nmax])
self.plot().update_colormap_axis(self)
src_rect = (0, 0, self.nx_bins, self.ny_bins)
drawfunc = lambda *args: BaseImageItem.draw_image(self, *args)
if self.fill_canvas:
x1, y1, x2, y2 = canvasRect.getCoords()
drawfunc(painter, canvasRect, src_rect, (x1, y1, x2, y2), xMap, yMap)
else:
drawfunc(painter, canvasRect, src_rect, dst_rect, xMap, yMap)
#---- IBasePlotItem API ---------------------------------------------------
def types(self):
return (IColormapImageItemType, IImageItemType, ITrackableItemType,
IVoiImageItemType, IColormapImageItemType, ICSImageItemType)
def update_item_parameters(self):
BaseImageItem.update_item_parameters(self)
self.histparam.update_param(self)
def get_item_parameters(self, itemparams):
BaseImageItem.get_item_parameters(self, itemparams)
itemparams.add("Histogram2DParam", self, self.histparam)
def set_item_parameters(self, itemparams):
update_dataset(self.histparam, itemparams.get("Histogram2DParam"),
visible_only=True)
self.histparam = itemparams.get("Histogram2DParam")
self.histparam.update_histogram(self)
BaseImageItem.set_item_parameters(self, itemparams)
#---- IBaseImageItem API --------------------------------------------------
def can_setfullscale(self):
return True
def can_sethistogram(self):
return True
def get_histogram(self, nbins):
"""interface de IHistDataSource"""
if self.data is None:
return [0,], [0, 1]
_min = _nanmin(self.data)
_max = _nanmax(self.data)
if self.data.dtype in (np.float64, np.float32):
bins = np.unique(np.array(np.linspace(_min, _max, nbins+1),
dtype=self.data.dtype))
else:
bins = np.arange(_min, _max+2,
dtype=self.data.dtype)
res2 = np.zeros((bins.size+1,), np.uint32)
_histogram(self.data.flatten(), bins, res2)
#toc("histo2")
res = res2[1:-1], bins
return res
assert_interfaces_valid(Histogram2DItem)
#==============================================================================
# Image Plot Widget
#==============================================================================
class ImagePlot(CurvePlot):
"""
Construct a 2D curve and image plotting widget
(this class inherits :py:class:`guiqwt.curve.CurvePlot`)
* parent: parent widget
* title: plot title (string)
* xlabel, ylabel, zlabel: resp. bottom, left and right axis titles
(strings)
* xunit, yunit, zunit: resp. bottom, left and right axis units
(strings)
* yreverse: reversing y-axis direction of increasing values (bool)
* aspect_ratio: height to width ratio (float)
* lock_aspect_ratio: locking aspect ratio (bool)
"""
DEFAULT_ITEM_TYPE = IImageItemType
AUTOSCALE_TYPES = (CurveItem, BaseImageItem, PolygonMapItem)
AXIS_CONF_OPTIONS = ("image_axis", "color_axis", "image_axis", None)
def __init__(self, parent=None,
title=None, xlabel=None, ylabel=None, zlabel=None,
xunit=None, yunit=None, zunit=None, yreverse=True,
aspect_ratio=1.0, lock_aspect_ratio=True,
gridparam=None, section="plot"):
self.lock_aspect_ratio = lock_aspect_ratio
if zlabel is not None:
if ylabel is not None and not is_text_string(ylabel):
ylabel = ylabel[0]
ylabel = (ylabel, zlabel)
if zunit is not None:
if yunit is not None and not is_text_string(yunit):
yunit = yunit[0]
yunit = (yunit, zunit)
super(ImagePlot, self).__init__(parent=parent, title=title,
xlabel=xlabel, ylabel=ylabel,
xunit=xunit, yunit=yunit,
gridparam=gridparam, section=section)
self.colormap_axis = self.Y_RIGHT
axiswidget = self.axisWidget(self.colormap_axis)
axiswidget.setColorBarEnabled(True)
self.enableAxis(self.colormap_axis)
self.__aspect_ratio = None
self.set_axis_direction('left', yreverse)
self.set_aspect_ratio(aspect_ratio, lock_aspect_ratio)
self.replot() # Workaround for the empty image widget bug
#---- QwtPlot API ---------------------------------------------------------
def showEvent(self, event):
"""Override BasePlot method"""
if self.lock_aspect_ratio:
self._start_autoscaled = True
CurvePlot.showEvent(self, event)
#---- CurvePlot API -------------------------------------------------------
def do_zoom_view(self, dx, dy):
"""Reimplement CurvePlot method"""
CurvePlot.do_zoom_view(self, dx, dy,
lock_aspect_ratio=self.lock_aspect_ratio)
def do_zoom_rect_view(self, start, end):
"""Reimplement CurvePlot method"""
CurvePlot.do_zoom_rect_view(self, start, end)
if self.lock_aspect_ratio:
self.apply_aspect_ratio()
#---- Levels histogram-related API ----------------------------------------
def update_lut_range(self, _min, _max):
"""update the LUT scale"""
#self.set_items_lut_range(_min, _max, replot=False)
self.updateAxes()
#---- Image scale/aspect ratio -related API -------------------------------
def set_full_scale(self, item):
if item.can_setfullscale():
bounds = item.boundingRect()
self.set_plot_limits(bounds.left(), bounds.right(),
bounds.top(), bounds.bottom())
def get_current_aspect_ratio(self):
"""Return current aspect ratio"""
dx = self.axisScaleDiv(self.X_BOTTOM).range()
dy = self.axisScaleDiv(self.Y_LEFT).range()
h = self.canvasMap(self.Y_LEFT).pDist()
w = self.canvasMap(self.X_BOTTOM).pDist()
return fabs((h*dx)/(w*dy))
def get_aspect_ratio(self):
"""Return aspect ratio"""
return self.__aspect_ratio
def set_aspect_ratio(self, ratio=None, lock=None):
"""Set aspect ratio"""
if ratio is not None:
self.__aspect_ratio = ratio
if lock is not None:
self.lock_aspect_ratio = lock
self.apply_aspect_ratio()
def apply_aspect_ratio(self, full_scale=False):
if not self.isVisible():
return
ymap = self.canvasMap(self.Y_LEFT)
xmap = self.canvasMap(self.X_BOTTOM)
h = ymap.pDist()
w = xmap.pDist()
dx1, dy1 = xmap.sDist(), fabs(ymap.sDist())
x0, y0 = xmap.s1(), ymap.s1()
x1, y1 = xmap.s2(), ymap.s2()
if y0 > y1:
y0, y1 = y1, y0
if full_scale:
if w == 0:
return # avoid division by zero
dy2 = (h*dx1)/(w*self.__aspect_ratio)
fix_yaxis = dy2 > dy1
else:
fix_yaxis = True
if fix_yaxis:
if w == 0:
return # avoid division by zero
dy2 = (h*dx1)/(w*self.__aspect_ratio)
delta_y = .5*(dy2-dy1)
y0 -= delta_y
y1 += delta_y
else:
if h == 0:
return # avoid division by zero
dx2 = (w*dy1*self.__aspect_ratio)/h
delta_x = .5*(dx2-dx1)
x0 -= delta_x
x1 += delta_x
self.set_plot_limits(x0, x1, y0, y1)
#---- LUT/colormap-related API --------------------------------------------
def notify_colormap_changed(self):
"""Levels histogram range has changed"""
item = self.get_last_active_item(IColormapImageItemType)
if item is not None:
self.update_colormap_axis(item)
self.replot()
self.SIG_LUT_CHANGED.emit(self)
def update_colormap_axis(self, item):
if IColormapImageItemType not in item.types():
return
zaxis = self.colormap_axis
axiswidget = self.axisWidget(zaxis)
self.setAxisScale(zaxis, item.min, item.max)
# XXX: the colormap can't be displayed if min>max, to fix this
# we should pass an inverted colormap along with _max, _min values
axiswidget.setColorMap(QwtInterval(item.min, item.max),
item.get_color_map())
self.updateAxes()
#---- QwtPlot API ---------------------------------------------------------
def resizeEvent(self, event):
"""Reimplement Qt method to resize widget"""
CurvePlot.resizeEvent(self, event)
if self.lock_aspect_ratio:
self.apply_aspect_ratio()
self.replot()
#---- BasePlot API --------------------------------------------------------
def add_item(self, item, z=None, autoscale=True):
"""
Add a *plot item* instance to this *plot widget*
* item: :py:data:`qwt.QwtPlotItem` object implementing the
:py:data:`guiqwt.interfaces.IBasePlotItem` interface
* z: item's z order (None -> z = max(self.get_items())+1)
autoscale: True -> rescale plot to fit image bounds
"""
CurvePlot.add_item(self, item, z)
if isinstance(item, BaseImageItem):
parent = self.parent()
if parent is not None:
parent.setUpdatesEnabled(False)
self.update_colormap_axis(item)
if autoscale:
self.do_autoscale()
if parent is not None:
parent.setUpdatesEnabled(True)
def set_active_item(self, item):
"""Override base set_active_item to change the grid's
axes according to the selected item"""
old_active = self.active_item
CurvePlot.set_active_item(self, item)
if item is not None and old_active is not item:
self.update_colormap_axis(item)
def disable_unused_axes(self):
"""Disable unused axes"""
CurvePlot.disable_unused_axes(self)
self.enableAxis(self.colormap_axis)
def do_autoscale(self, replot=True, axis_id=None):
"""Do autoscale on all axes"""
CurvePlot.do_autoscale(self, replot=False, axis_id=axis_id)
self.updateAxes()
if self.lock_aspect_ratio:
self.replot()
self.apply_aspect_ratio(full_scale=True)
if replot:
self.replot()
self.SIG_PLOT_AXIS_CHANGED.emit(self)
def get_axesparam_class(self, item):
"""Return AxesParam dataset class associated to item's type"""
if isinstance(item, BaseImageItem):
return ImageAxesParam
else:
return CurvePlot.get_axesparam_class(self, item)
def edit_axis_parameters(self, axis_id):
"""Edit axis parameters"""
#XXX: removed the following workaround as the associated bug can't be
# reproduced anymore with guiqwt 3. However, keeping the workaround
# here (commented) as it could become useful eventually.
#-----
# #FIXME: without the following workaround, aspect ratio is changed
# # when applying axis parameters
# # (see also guiqwt.styles.ItemParameters.update)
# ratio = self.get_current_aspect_ratio()
#-----
if axis_id != self.colormap_axis:
CurvePlot.edit_axis_parameters(self, axis_id)
#-----
# self.set_aspect_ratio(ratio=ratio)
# self.replot()
#-----
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