# # Copyright (c) 2002, 2003, 2004, 2005, 2006 Art Haas # # This file is part of PythonCAD. # # PythonCAD is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # PythonCAD is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with PythonCAD; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # # # The class for a drawing # import sys import math import types from PythonCAD.Generic import globals from PythonCAD.Generic import layer from PythonCAD.Generic import graphicobject from PythonCAD.Generic import point from PythonCAD.Generic import style from PythonCAD.Generic import linetype from PythonCAD.Generic import tolerance from PythonCAD.Generic import intersections from PythonCAD.Generic import dimension from PythonCAD.Generic import color from PythonCAD.Generic import text from PythonCAD.Generic import units from PythonCAD.Generic import options from PythonCAD.Generic import baseobject from PythonCAD.Generic import entity from PythonCAD.Generic import logger from PythonCAD.Generic import util from PythonCAD.Generic import tools class Image(entity.Entity): """The class representing a CAD drawing. This class contains all the interface-neutral parts of a drawing. An image is essentially a collection of Layer objects, plus the bits needed to store the colors, linetypes, and styles used in a drawing. Each instance has several attributes: active_layer: The currently active Layer top_layer: The initial Layer in the Image scale: The scale factor of the Image The following methods are available for each instance: {get/set}Scale(): Get/Set the current scale factor. hasColor(): See if a color is already in use in the drawing. addColor(): Add a Color to the set available for objects in the drawing. hasLinetype(): See if a Linetype is found in the drawing. addLinetype(): Add a Linetype to the set available for objects in the drawing. hasStyle(): See if a Style is in the drawing. addStyle(): Add a Style to the set available for objects in the drawing. {get/set}ActiveLayer(): Get/Set the currently active Layer. addChildLayer(): Make one Layer object a child of another. addLayer(): Make one Layer object a child of the active Layer's parent. delLayer(): Remove a Layer from the image. findPoint(): Find a Point object in the drawing. mapPoint(): Find objects in the drawing where at some location. {get/set}CurrentPoint(): Get/Set a coordinate pair addObject(): Add an object to the drawing. delObject(): Delete an object from the drawing. getObject(): Return an object with a specific entity ID selectObject(): Store a references to an object in the drawing. deselectObject(): Release a reference to a stored object. getSelectedObjects(): Retrieve all the selected objects. clearSelectedObjects(): Release all references to selected objects. hasSelection(): Return whether the image has an active selection. getExtents(): Find the size of the drawing. {get/set}Option(): Retrieve/Store an option used in the drawing. {get/set}Filename(): Get/Set the filename for this image. getImageEntities(): Get all the instances of certain image-wide object. {get/set}Units(): Get/Set the basic length unit in the image. scaleLength(): Return a linear distance in millimeters. getClosestPoint(): Return the point/coordinates nearest to a given x/y pair. {start/end}Action(): Begin/End a sequence of actions to be treated as one event inAction(): Test if the Image is currently in a startAction()/endAction() block getAction(): Return the number of startAction()/endAction() blocks performed. {get/set}Tool(): Get/Set the active Tool used in the Image. """ __options = [ 'AUTOSPLIT', 'HIGHLIGHT_POINTS', 'LEADER_ARROW_SIZE', 'CHAMFER_LENGTH', 'FILLET_RADIUS', 'INACTIVE_LAYER_COLOR', 'BACKGROUND_COLOR', 'SINGLE_POINT_COLOR', 'MULTI_POINT_COLOR', 'UNITS', 'LINE_STYLE', 'LINE_TYPE', 'LINE_COLOR', 'LINE_THICKNESS', 'TEXT_STYLE', 'FONT_FAMILY', 'FONT_STYLE', 'FONT_WEIGHT', 'TEXT_SIZE', 'FONT_COLOR', 'TEXT_ANGLE', 'TEXT_ALIGNMENT', 'DIM_STYLE', 'DIM_PRIMARY_FONT_FAMILY', 'DIM_PRIMARY_FONT_STYLE', 'DIM_PRIMARY_FONT_WEIGHT', 'DIM_PRIMARY_FONT_COLOR', 'DIM_PRIMARY_TEXT_SIZE', 'DIM_PRIMARY_TEXT_ANGLE', 'DIM_PRIMARY_TEXT_ALIGNMENT', 'DIM_PRIMARY_PREFIX', 'DIM_PRIMARY_SUFFIX', 'DIM_PRIMARY_PRECISION', 'DIM_PRIMARY_UNITS', 'DIM_PRIMARY_LEADING_ZERO', 'DIM_PRIMARY_TRAILING_DECIMAL', 'DIM_SECONDARY_FONT_FAMILY', 'DIM_SECONDARY_FONT_WEIGHT', 'DIM_SECONDARY_FONT_STYLE', 'DIM_SECONDARY_FONT_COLOR', 'DIM_SECONDARY_TEXT_SIZE', 'DIM_SECONDARY_TEXT_ANGLE', 'DIM_SECONDARY_TEXT_ALIGNMENT', 'DIM_SECONDARY_PREFIX', 'DIM_SECONDARY_SUFFIX', 'DIM_SECONDARY_PRECISION', 'DIM_SECONDARY_UNITS', 'DIM_SECONDARY_LEADING_ZERO', 'DIM_SECONDARY_TRAILING_DECIMAL', 'DIM_OFFSET', 'DIM_EXTENSION', 'DIM_COLOR', 'DIM_THICKNESS', 'DIM_POSITION', 'DIM_POSITION_OFFSET', 'DIM_ENDPOINT', 'DIM_ENDPOINT_SIZE', 'DIM_DUAL_MODE', 'DIM_DUAL_MODE_OFFSET', 'RADIAL_DIM_PRIMARY_PREFIX', 'RADIAL_DIM_PRIMARY_SUFFIX', 'RADIAL_DIM_SECONDARY_PREFIX', 'RADIAL_DIM_SECONDARY_SUFFIX', 'RADIAL_DIM_DIA_MODE', 'ANGULAR_DIM_PRIMARY_PREFIX', 'ANGULAR_DIM_PRIMARY_SUFFIX', 'ANGULAR_DIM_SECONDARY_PREFIX', 'ANGULAR_DIM_SECONDARY_SUFFIX' ] __messages = { 'scale_changed' : True, 'units_changed' : True, 'tool_changed' : True, 'added_object' : True, 'deleted_object' : True, 'selected_object' : True, 'deselected_object' : True, 'active_layer_changed' : True, 'current_point_changed' : True, 'group_action_started' : True, 'group_action_ended' : True, 'option_changed' : True } def __init__(self, **kw): """Instatiate a Image object. Image() There are no parameters used to create the object. """ super(Image, self).__init__(**kw) self.__scale = 1.0 self.__cp = None self.__styles = [] self.__dimstyles = [] self.__textstyles = [] self.__linetypes = [] self.__colors = baseobject.TypedDict(keytype=color.Color) self.__units = units.Unit(units.MILLIMETERS) self.__options = baseobject.TypedDict(keytype=str) # miscellaneous options self.__fonts = baseobject.TypedDict(keytype=types.StringTypes) # font names self.__tool = None self.__selected = [] self.__filename = None self.__vars = {} self.__busy = False self.__undo = [] self.__redo = [] self.__delhist = {} self.__logs = {} self.__action = 0L self.__closing = False # # add the initial layer # _top = layer.Layer(_(u'TopLayer')) _top.setParent(self) self.__top_layer = _top self.__active_layer = _top _top.connect('modified', self.__objectModified) _top.connect('added_child', self.__layerAddedChild) _top.connect('removed_child', self.__layerRemovedChild) _log = layer.LayerLog(_top) _top.setLog(_log) self.setDefaults() self.connect('modified', self.__objectModified) self.__vars['image'] = self def __contains__(self, obj): """Define if an object is in the Drawing. Defining this method allows the use of 'in' type test. """ _res = False if isinstance(obj, style.Style): _res = obj in self.__styles elif isinstance(obj, linetype.Linetype): _res = obj in self.__linetypes elif isinstance(obj, color.Color): _res = obj in self.__colors elif isinstance(obj, dimension.DimStyle): _res = obj in self.__dimstyles elif isinstance(obj, text.TextStyle): _res = obj in self.__textstyles else: _layers = [self.__top_layer] while (len(_layers)): _layer = _layers.pop() _res = obj in _layer if _res: break _layers.extend(_layer.getSublayers()) return _res def close(self): """Release all the entities stored in the drawing close() """ # print "in image::close()" self.__cp = None del self.__styles[:] del self.__dimstyles[:] del self.__textstyles[:] del self.__linetypes[:] self.__colors.clear() self.__options.clear() self.__fonts.clear() del self.__selected[:] self.__filename = None self.__vars.clear() del self.__undo[:] del self.__redo[:] self.__delhist.clear() self.__logs.clear() self.__closing = True _top = self.__top_layer _layers = [] _sublayers = [_top] while len(_sublayers): _layer = _sublayers.pop() _layers.append(_layer) _sublayers.extend(_layer.getSublayers()) _layers.reverse() for _layer in _layers: # print "closing layer " + _layer.getName() _layer.clear() self.delLayer(_layer) _layer.finish() self.disconnect(self) def addChildLayer(self, l, p=None): """Add a child Layer of the active Layer. addChildLayer(l [, p]) There is a one required argument: l: The child Layer There is one optional argument: p: The new parent Layer of the child The default parent is the currently active layer. The child layer cannot be a layer found when moving up from the new parent layer to the topmost layer. """ _child = l if not isinstance(_child, layer.Layer): raise TypeError, "Unexpected type for layer: " + `type(_child)` _pl = p if _pl is None: _pl = self.__active_layer if not isinstance(_pl, layer.Layer): raise TypeError, "Unexpected type for parent layer: " + `type(_pl)` if _pl.getParent() is not self: raise ValueError, "Parent layer not in Image." if _child is _pl: raise ValueError, "Child and parent layers identical." _tpl = _pl.getParentLayer() while _tpl is not None: if _tpl is _child: raise ValueError, "Child layer found in parent chain" _tpl = _tpl.getParentLayer() if not self.inUndo(): self.ignore('modified') try: _child.setParentLayer(_pl) finally: if not self.inUndo(): self.receive('modified') if _child.getParent() is not self: _child.setParent(self) # # restore the Layer log if possible # _cid = _child.getID() _log = _child.getLog() if _log is None: _log = layer.LayerLog(_child) _child.setLog(_log) _oldlog = self.__logs.get(_cid) if _oldlog is not None: # re-attach old log _log.transferData(_oldlog) del self.__logs[_cid] # # re-add deleted entity history # _data = self.__delhist.get(_cid) if _data is not None: _child.setDeletedEntityData(_data) del self.__delhist[_cid] _child.connect('modified', self.__objectModified) _child.connect('added_child', self.__layerAddedChild) _child.connect('removed_child', self.__layerRemovedChild) self.__active_layer = _child def addLayer(self, l): """Add a new Layer as a child of the active Layer's parent. addLayer(l) If the active layer is the topmost Layer in the drawing, the Layer is added as a child Layer to that Layer. Otherwise, the new layer is added and is a sibling to the active Layer. """ _layer = l if not isinstance(_layer, layer.Layer): raise TypeError, "Invalid Layer type: " + `type(_layer)` _pl = self.__active_layer.getParentLayer() if _pl is None: _pl = self.__top_layer self.addChildLayer(l, _pl) def delLayer(self, l): """Remove a Layer from the drawing. delLayer(l) A Layer object cannot be removed until its children are either deleted or moved to another Layer. The topmost Layer in a drawing cannot be deleted. """ _layer = l if not isinstance(_layer, layer.Layer): raise TypeError, "Invalid Layer type: " + `type(_layer)` if _layer.getParent() is not self: raise ValueError, "Layer not found in Image: " + _layer.getName() if (self.__closing or (_layer.getParentLayer() is not None and not _layer.hasSublayers())): if not self.__closing: # print "deleting layer ..." _lid = _layer.getID() _data = _layer.getDeletedEntityData() # # save the layer info so it can be reattched if # the layer deletion is undone # if len(_data): # print "has DeletedEntityData()" self.__delhist[_lid] = _data _log = _layer.getLog() if _log is not None: # print "Saving log file ..." _log.detatch() if not self.__closing: self.__logs[_lid] = _log _layer.setLog(None) # # stop listening for messages # _layer.disconnect(self) # # call setParent() before setParentLayer() so # the Layer's getValues() calls will have # the parent layer information # _layer.setParent(None) if not self.inUndo(): self.ignore('modified') try: _layer.setParentLayer(None) finally: if not self.inUndo(): self.receive('modified') def hasLayer(self, l): """Return whether or not a layer is in a drawing. hasLayer(l) """ _layer = l if not isinstance(_layer, layer.Layer): raise TypeError, "Invalid Layer type : " + `type(_layer)` _flag = False _l = _layer _p = _l.getParentLayer() while _p is not None: _l = _p _p = _p.getParentLayer() if _l is self.__top_layer: _flag = True _image = _layer.getParent() if ((_image is self and _flag is False) or (_image is not self and _flag is True)): raise ValueError, "Image/Layer parent inconsistency" return _flag def getActiveLayer(self): """Return the active Layer in the drawing. getActiveLayer() The active Layer is the Layer to which any new objects will be stored. """ return self.__active_layer def setActiveLayer(self, l=None): """Set the active Layer in the Image. setActiveLayer(l) The the Layer 'l' to be the active Layer in the drawing. If the function is called without arguments, the topmost Layer in the drawing is set to the active layer. """ _layer = l if _layer is None: _layer = self.__top_layer if not isinstance(_layer, layer.Layer): raise TypeError, "Invalid Layer type: " + `type(_layer)` if _layer is not self.__top_layer: _l = _layer _p = _l.getParentLayer() while _p is not None: _l = _p _p = _p.getParentLayer() if _l is not self.__top_layer: raise ValueError, "Layer not found in image: " + `_layer` _parent = _layer.getParentLayer() if not _parent.hasSublayers(): raise ValueError, "Layer not in parent sublayer: " + `_layer` if _layer not in _parent.getSublayers(): raise ValueError, "Layer not in parent sublayers: " + `_layer` if _layer.getParent() is not self: raise ValueError, "Image/Layer parent inconsistency" _active = self.__active_layer if _layer is not _active: self.__active_layer = _layer self.sendMessage('active_layer_changed', _active) active_layer = property(getActiveLayer, setActiveLayer, None, "Image active Layer object.") def getTopLayer(self): """Return the top Layer of the image getTopLayer() """ return self.__top_layer top_layer = property(getTopLayer, None, None, "Image top Layer.") def getScale(self): """Return the image's scale factor. getScale() """ return self.__scale def setScale(self, scale): """Set the image's scale factor. setScale(scale) The scale must be a float greater than 0. """ _s = util.get_float(scale) if _s < 1e-10: raise ValueError, "Invalid scale factor: %g" % _s _os = self.__scale if abs(_os - _s) > 1e-10: self.__scale = _s self.sendMessage('scale_changed', _os) self.modified() scale = property(getScale, setScale, None, "Image scale factor.") def canParent(self, obj): """Test if an Entity can be the parent of another Entity. canParent(obj) This method overrides the Entity::canParent() method. An Image can be the parent of Layer entities only. """ return isinstance(obj, layer.Layer) def getImageEntities(self, entity): """Return all the entities of a particular type getImageEntities(entity) The argument 'entity' should be one of the following: color, linetype, style, font, dimstyle, or textstyle """ if entity == "color": _objs = self.__colors.keys() elif entity == "linetype": _objs = self.__linetypes[:] elif entity == "style": _objs = self.__styles[:] elif entity == "font": _objs = self.__fonts.keys() elif entity == "dimstyle": _objs = self.__dimstyles[:] elif entity == "textstyle": _objs = self.__textstyles[:] else: raise ValueError, "Invalid image entity: " + `entity` return _objs def addColor(self, c): """Add a Color object to the drawing. addColor(c) """ if not isinstance(c, color.Color): raise TypeError, "Invalid Color type: " + `type(c)` if c not in self.__colors: self.__colors[c] = True # maybe count entities ? def hasColor(self, c): """Check if a Color already exists in the drawing. hasColor(c) """ _c = c if not isinstance(_c, color.Color): _c = color.Color(c) return _c in self.__colors def addLinetype(self, lt): """Add a Linetype to the drawing. addLinetype(lt) """ if not isinstance(lt, linetype.Linetype): raise TypeError, "Invalid Linetype type: " + `type(lt)` if lt not in self.__linetypes: self.__linetypes.append(lt) def hasLinetype(self, lt): """Check if a Linetype already exists in the drawing. hasLinetype(lt) """ if not isinstance(lt, linetype.Linetype): raise TypeError, "Invalid Linetype type: " + `type(lt)` return lt in self.__linetypes def addStyle(self, s): """Add a Style to the drawing. addStyle(s) """ if not isinstance(s, style.Style): raise TypeError, "Invalid Style type: " + `type(s)` if s not in self.__styles: _col = s.getColor() if _col not in self.__colors: self.__colors[_col] = True _lt = s.getLinetype() if _lt not in self.__linetypes: self.__linetypes.append(_lt) self.__styles.append(s) def hasStyle(self, s): """Check if a Style already exists within the drawing. hasStyle(s) """ _s = s if not isinstance(_s, style.Style): _s = style.Style(s) return _s in self.__styles def addDimStyle(self, ds): """Add a DimStyle to the drawing addDimStyle(ds) """ if not isinstance(ds, dimension.DimStyle): raise TypeError, "Invalid DimStyle type: " + `type(ds)` if ds not in self.__dimstyles: _col = ds.getValue('DIM_COLOR') if _col is not None and _col not in self.__colors: self.__colors[_col] = True _col = ds.getValue('DIM_PRIMARY_FONT_COLOR') if _col is not None and _col not in self.__colors: self.__colors[_col] = True _col = ds.getValue('DIM_SECONDARY_FONT_COLOR') if _col is not None and _col not in self.__colors: self.__colors[_col] = True _family = ds.getValue('DIM_PRIMARY_FONT_FAMILY') if _family is not None and _family not in self.__fonts: self.__fonts[_family] = 1 _family = ds.getValue('DIM_SECONDARY_FONT_FAMILY') if _family is not None and _family not in self.__fonts: self.__fonts[_family] = 1 self.__dimstyles.append(ds) def hasDimStyle(self, ds): """Check if a DimStyle already exists within the drawing. hasDimStyle(ds) """ if not isinstance(ds, dimension.DimStyle): raise TypeError, "Invalid DimStyle type: " + `type(ds)` return ds in self.__dimstyles def addTextStyle(self, ts): """Add a TextStyle to the drawing. addTextStyle(ts) """ # print "Image::addTextStyle() ..." if not isinstance(ts, text.TextStyle): raise TypeError, "Invalid TextStyle type: " + `type(ts)` if ts not in self.__textstyles: # print "adding TextStyle: %s" % ts.getName() _color = ts.getColor() if _color not in self.__colors: self.__colors[_color] = True _family = ts.getFamily() if _family in self.__fonts: self.__fonts[_family] = 1 self.__textstyles.append(ts) def hasTextStyle(self, ts): """Return whether or not a TextStyle is already in an image. hasTextStyle(ts) """ if not isinstance(ts, text.TextStyle): raise TypeError, "Invalid TextStyle: " + str(ts) return ts in self.__textstyles def addFont(self, family): """Store the usage of a font in the image. addFont(family) Invoking this method does not set the current text font to the value used in this function. That must be done with setOption(). """ if not isinstance(family, types.StringTypes): raise TypeError, "Invalid font family type: " + `type(family)` self.__fonts[family] = 1 def getUnits(self): """Return the currently selected unit. getUnits() """ return self.__units.getUnit() def setUnits(self, unit): """Set the basic unit for the image. setUnits(unit) The available choices for the units are defined in the units.py file. """ _ou = self.__units.getUnit() self.__units.setUnit(unit) if unit != _ou: self.sendMessage('units_changed', _ou) self.modified() units = property(getUnits, setUnits, None, "Linear dimensional units for the image.") def scaleLength(self, l): """Convert some distance to a value in millimeters. scaleLength(l) The argument 'l' should be a float equal or greater than 0.0. """ _l = util.get_float(l) if _l < 0.0: raise ValueError, "Invalid scaling length: %g" % _l return self.__units.toMillimeters(_l) def getClosestPoint(self, x, y, **kw): """Return a Point or (x, y) coordinate tuple in the Image. getClosestPoint(self, x, y [,**kw]) The function has two required arguments x: A float representing the x-coordinate y: A float representing the y-coordinate The accepted keyword arguements are: tolerance: The distance between the existing objects and the 'x' and 'y' arguments. The default value is 1e-10. This method returns a tuple of two values, one of which will be None. If an existing Point was found in the active layer, the first value in the tuple is the point, and the second value is None. If no point was found, the first value will be None and the second value will be a tuple of (x, y) coordinates where a new Point could be created. When the method returns the coordinate tuple, the location could be a projected point onto an Entity found in the Layer, or possibly the intersection of two or more entities, or simply a distinct point in the Layer if no nearby entities were found. """ _x = util.get_float(x) _y = util.get_float(y) _t = tolerance.TOL if 'tolerance' in kw: _val = util.get_float(kw['tolerance']) if _val < 0.0: raise ValueError, "Invalid negative tolerance: %f" % _val _t = _val _types = {'point' : True} _active_layer = self.__active_layer _cp = _sep = None _hits = _active_layer.mapCoords(_x, _y, tolerance=_t, types=_types) if len(_hits) > 0: for _obj, _pt in _hits: _px, _py = _obj.getCoords() _sqlen = pow((_x - _px), 2) + pow((_y - _py), 2) if _sep is None or _sqlen < _sep: _sep = _sqlen _cp = _obj return _cp, None # # see if any other Layer contains a Point ... # _layers = [self.__top_layer] while len(_layers): _layer = _layers.pop() if _layer is not _active_layer: _hits = _layer.mapCoords(_x, _y, tolerance=_t, types=_types) if len(_hits) > 0: for _obj, _pt in _hits: _px, _py = _obj.getCoords() _sqlen = pow((_x - _px), 2) + pow((_y - _py), 2) if _sep is None or _sqlen < _sep: _sep = _sqlen _cp = _pt _layers.extend(_layer.getSublayers()) if _cp is not None: return None, (_cp.x, _cp.y) # # no Point entities found so try for object intersections and # mapped points # _objlist = [] _intlist = [] _types = {'point' : False, 'segment' : True, 'circle' : True, 'arc' : True, 'polyline' : True, 'hcline' : True, 'vcline' : True, 'acline' : True, 'cline' : True, 'ccircle' : True, } _layers = [self.__top_layer] while len(_layers): _layer = _layers.pop() _hits = _layer.mapCoords(_x, _y, tolerance=_t, types=_types) if len(_hits) > 0: for _obj, _pt in _hits: if _obj is _pt: # should have been seen above ... if _layer is _active_layer: return _obj, None else: return None, (_pt.x, _pt.y) else: for _tobj, _mp in _objlist: for _ix, _iy in intersections.find_intersections(_tobj, _obj): if ((abs(_ix - _x) < _t) and (abs(_iy - _y) < _t)): _sqlen = pow((_x - _ix), 2) + pow((_y - _iy), 2) _intlist.append((_sqlen, (_ix, _iy))) _objlist.append((_obj, _pt)) _layers.extend(_layer.getSublayers()) # # use the nearest intersection point if one is available # if len(_intlist): _intlist.sort() _cp = _intlist[0][1] # # look for the mapped point if no intersection was available # if _cp is None and len(_objlist): for _obj, _pt in _objlist: _px, _py = _pt _sqlen = pow((_x - _px), 2) + pow((_y - _py), 2) if _sep is None or _sqlen < _sep: _sep = _sqlen _cp = (_px, _py) if _cp is None: _cp = (_x, _y) return None, _cp def findPoint(self, x, y, tol=tolerance.TOL): """Return a Point object found at the x-y coordinates. findPoint(self, x, y [,tol]) The function has two required arguments x: A float representing the x-coordinate y: A float representing the y-coordinate The optional argument 'tol' gives a distance between the existing objects and the 'x' and 'y' arguments. The default value is 1e-10. This method returns a tuple of two objects, the first object is a Point object, and the second object is a boolean True/False value indicating if the point is an exisiting point in the active layer or a newly created point. If there were no Point objects found within the tolerance supplied, the Point object in the tuple is None. """ _x = util.get_float(x) _y = util.get_float(y) _t = tolerance.toltest(tol) _test_point = point.Point(_x, _y) _active_layer = self.__active_layer _new_pt = False _pt = None _pts = _active_layer.find('point', _x, _y, _t) if len(_pts) != 0: _pt = _pts[0] if _pt is None: _objs = [] _ptmap = {} _layers = [self.__top_layer] while len(_layers): _layer = _layers.pop() if _layer is not _active_layer: _pts = _layer.find('point', _x, _y, _t) if len(_pts) != 0: _pt = _pts[0].clone() _new_pt = True break _stop = False for _obj, _map_pt in _layer.mapPoint(_test_point, _t, None): if isinstance(_obj, dimension.Dimension): continue if len(_objs): for _tobj in _objs: _ints = intersections.find_intersections(_tobj, _obj) _count = len(_ints) if _count == 1: _stop = True _x, _y = _ints[0] _pt = point.Point(_x, _y) _new_pt = True break elif _count == 2: _stop = True _tx, _ty = _test_point.getCoords() _x1, _y1 = _ints[0] _d1 = math.hypot((_tx - _x1), (_ty - _y1)) _x2, _y2 = _ints[1] _d2 = math.hypot((_tx - _x2), (_ty - _y2)) if _d1 < _d2: _pt = point.Point(_x1, _y1) else: _pt = point.Point(_x2, _y2) _new_pt = True break else: pass # this should handle _count > 2 _ptmap[_obj] = _map_pt _objs.append(_obj) if _stop: break _layers.extend(_layer.getSublayers()) if _pt is None: # need to use one of the mapped points ... _min_sep = None _map_obj = None for _obj in _ptmap: _sep = _ptmap[_obj] - _test_point if _min_sep is None or _sep < _min_sep: _map_obj = _obj if _map_obj is not None: _pt = _ptmap[_map_obj] _new_pt = True return _pt, _new_pt def mapCoords(self, x, y, tol, count=None): """Return a set of Layers with objects found at the (x, y) location mapCoords(self, x, y, tol[, count]) This method has three required arguments: x: A float representing the x-coordinate y: A float representing the y-coordinate tol: A positive float giving the maximum distance between the x and y coordinates and the projected points of the objects There is a single optional argument: count: An integer value specifying the maximum number of objects to retrieve in any layer. By default the limit is the 'sys.maxint' value, essentially making the count unlimited. The function returns a list of tuples, where each tuple is of the form (layer, list). The 'list' in the tuple is itself a list of tuples consiting of an entity and either an existing Point in the layer or an x/y coordinate pair. """ _x = util.get_float(x) _y = util.get_float(y) _t = tolerance.toltest(tol) _count = count if _count is None: _count = sys.maxint if not isinstance(_count, int): _count = int(count) if _count < 0: raise ValueError, "Invalid negative entity count: %d" % _count _objlist = [] if _count == 0: return _objlist _active_layer = self.__active_layer _hits = _active_layer.mapCoords(_x, _y, tolerance=_t, count=_count) if len(_hits): _objlist.append((_active_layer, _hits)) else: _layers = [self.__top_layer] while len(_layers): _layer = _layers.pop() if _layer is not _active_layer: _hits = _layer.mapCoords(_x, _y, tolerance=_t, count=_count) if len(_hits): _objlist.append((_layer, _hits)) _layers.extend(_layer.getSublayers()) return _objlist def mapPoint(self, x, y, tol, count=2): """Return a set of Layers with objects found at the (x,y) location mapPoint(self, x, y, tol[, count]) This method has three required arguments: x: A float representing the x-coordinate y: A float representing the y-coordinate tol: A positive float giving the maximum distance between the x and y coordinates and the projected points of the objects There is a single optional argument: count: The maximum number of objects to retrieve in any layer. The default value of objects is 2. Setting 'count' to either None or a negative value will result in the maximum number of objects as unlimited. The function returns a dict object, with each key being a Layer object where some objects were found, and the value being a list of some tuples. Read the doc-string info for the layer::mapPoint() method for details regarding the tuple(s) in the list. If any objects in the currently active layer are identified, no other layers in the drawing will be examined. If there were no objects found within the tolerance supplied, the function returns an empty dict. """ _x = util.get_float(x) _y = util.get_float(y) _t = tolerance.toltest(tol) _count = count if _count is None: _count = sys.maxint else: if not isinstance(_count, int): _count = int(count) if _count < 0: # What if _count == 0 ??? _count = sys.maxint _tp = point.Point(_x, _y) _active_layer = self.__active_layer _objdict = {} _hits = _active_layer.mapPoint(_tp, _t, _count) if len(_hits): _objdict[_active_layer] = _hits else: _layers = [self.__top_layer] while len(_layers): _layer = _layers.pop() if _layer is not _active_layer: _hits = _layer.mapPoint(_tp, _t, _count) if len(_hits): _objdict[_layer] = _hits _layers.extend(_layer.getSublayers()) return _objdict def getCurrentPoint(self): """Get the current point defined for the Image. getCurrentPoint() This method returns a tuple containing two floats, or None if the point has not been defined """ return self.__cp def setCurrentPoint(self, x, y): """Set the current point. setCurrentPoint(x, y) Arguments 'x' and 'y' should be floats """ _x = util.get_float(x) _y = util.get_float(y) if self.__cp is not None: _cx, _cy = self.__cp if self.__cp is None or abs(_cx - _x) > 1e-10 or abs(_cy - _y) > 1e-10: self.__cp = (_x, _y) self.sendMessage('current_point_changed') current_point = property(getCurrentPoint, None, None, 'Current point') def __objectModified(self, obj, *args): # print "Image::objectModified()" # print "obj: " + `obj` if self.__closing: return if obj.inUndo(): raise RuntimeError, "Recieved 'modified' during undo: " + `obj` _oid = obj.getID() _pid = None _parent = obj.getParent() if _parent is None: if obj is not self: raise ValueError, "Invalid object without parent: " + `obj` else: _pid = _parent.getID() if _parent is self: if not isinstance(obj, layer.Layer): raise ValueError, "Non-layer with Image as parent: " + `obj` else: _layer = None for _child in self.getChildren(): _cid = _child.getID() if _cid == _pid: _layer = _child break if _layer is None: raise ValueError, "Parent %d not in Image children: %s" % (_pid, `_parent`) _lobj = _layer.getObject(_oid) if _lobj is not obj: raise ValueError, "Object %d not found in Layer: %s" % (_oid, `obj`) _i = self.__action # print "i: %d" % _i _undo = self.__undo # print "len(self.__undo): %d" % len(_undo) if len(_undo) == _i: _undo.insert(_i, [(_pid, _oid)]) else: _undo[_i].append((_pid, _oid)) if not self.__busy: self.__action = _i + 1 def __layerAddedChild(self, l, *args): # print "Image::layerAddedChild() ..." _alen = len(args) if _alen < 1: raise ValueError, "Invalid argument count: %d" % _alen _obj = args[0] # print "obj: " + `_obj` _obj.connect('modified', self.__objectModified) if isinstance(_obj, graphicobject.GraphicObject): self.addStyle(_obj.getStyle()) self.addLinetype(_obj.getLinetype()) self.addColor(_obj.getColor()) _obj.connect('style_changed', self.__styleChanged) _obj.connect('color_changed', self.__colorChanged) _obj.connect('linetype_changed', self.__linetypeChanged) if isinstance(_obj, text.TextBlock): self.addColor(_obj.getColor()) self.addTextStyle(_obj.getTextStyle()) _obj.connect('font_color_changed', self.__colorChanged) _obj.connect('textstyle_changed', self.__textstyleChanged) if isinstance(_obj, dimension.Dimension): self.addDimStyle(_obj.getDimStyle()) self.addColor(_obj.getColor()) _obj.connect('dimstyle_changed', self.__dimstyleChanged) _obj.connect('color_changed', self.__colorChanged) _ds1, _ds2 = _obj.getDimstrings() self.addColor(_ds1.getColor()) self.addTextStyle(_ds1.getTextStyle()) _ds1.connect('font_color_changed', self.__colorChanged) _ds1.connect('textstyle_changed', self.__textstyleChanged) self.addColor(_ds2.getColor()) self.addTextStyle(_ds2.getTextStyle()) _ds2.connect('font_color_changed', self.__colorChanged) _ds2.connect('textstyle_changed', self.__textstyleChanged) self.sendMessage('added_object', l, _obj) # # If a Point was added set the Layer to the global AUTOSPLIT # option value unless the Layer has autosplitting set # if isinstance(_obj, point.Point) and l.getAutosplit(): l.setAutosplit(self.getOption('AUTOSPLIT')) def __layerRemovedChild(self, l, *args): # print "Image::layerRemovedChild() ..." _alen = len(args) if _alen < 1: raise ValueError, "Invalid argument count: %d" % _alen _obj = args[0] # print "obj: " + `_obj` _obj.disconnect(self) if isinstance(_obj, dimension.Dimension): _ds1, _ds2 = _obj.getDimstrings() _ds1.disconnect(self) _ds2.disconnect(self) _objs = self.__selected for _i in range(len(_objs)): if _obj is _objs[_i]: del _objs[_i] break self.sendMessage('deleted_object', l, _obj) def __styleChanged(self, obj, *args): _alen = len(args) if _alen < 1: raise ValueError, "Invalid argument count: %d" % _alen self.addStyle(obj.getStyle()) def __colorChanged(self, obj, *args): _alen = len(args) if _alen < 1: raise ValueError, "Invalid argument count: %d" % _alen self.addColor(obj.getColor()) def __linetypeChanged(self, obj, *args): _alen = len(args) if _alen < 1: raise ValueError, "Invalid argument count: %d" % _alen self.addLinetype(obj.getLinetype()) def __textstyleChanged(self, obj, *args): _alen = len(args) if _alen < 1: raise ValueError, "Invalid argument count: %d" % _alen self.addTextStyle(obj.getTextstyle()) def __dimstyleChanged(self, obj, *args): _alen = len(args) if _alen < 1: raise ValueError, "Invalid argument count: %d" % _alen self.addDimStyle(obj.getDimStyle()) def printStack(self, undo): if undo: print "Image undo list:" _stack = self.__undo else: print "Image redo list:" _stack = self.__redo print "length: %d" % len(_stack) for _data in _stack: print _data def canUndo(self): return len(self.__undo) > 0 def canRedo(self): return len(self.__redo) > 0 def doUndo(self): # print "Image::doUndo() ..." if len(self.__undo): _act = self.__undo.pop() # print "Actions: " + str(_act) # print "undo length: %d" % len(self.__undo) self.__redo.append(_act[:]) self.__action = len(self.__undo) _act.reverse() self.ignore('modified') self.sendMessage('group_action_started') try: _sid = self.getID() _layers = {} for _pid, _oid in _act: # print "pid: " + str(_pid) # print "oid: %d" % _oid _obj = None if _pid is None: if _oid != _sid: raise ValueError, "Invalid orphan: %d" % _oid _obj = self if _obj is None and _pid == _sid: _obj = _layers.get(_oid) if _obj is None: for _layer in self.getChildren(): _lid = _layer.getID() _layers[_lid] = _layer if _lid == _oid: _obj = _layer break if _obj is None: raise ValueError, "Layer %d not found in Image" % _oid if _obj is None: _par = _layers.get(_pid) if _par is None: for _layer in self.getChildren(): _lid = _layer.getID() _layers[_lid] = _layer if _lid == _pid: _par = _layer break if _par is None: raise ValueError, "Parent layer not found: %d" % _pid _obj = _par.getObject(_oid) if _obj is None: raise ValueError, "Object %d not found in parent %d" % (_oid, _pid) # print "executing undo on obj: " + `_obj` _obj.undo() finally: self.sendMessage('group_action_ended') self.receive('modified') def doRedo(self): # print "Image::doRedo() ..." if len(self.__redo): _act = self.__redo.pop() self.__action = len(self.__undo) # # wrap all the redo() actions within a # startAction()/endAction block - this will # ensure that all the 'modified' messages the # redo operations generate will be stored in # in the undo list as a single set of operations # self.startAction() try: _sid = self.getID() _layers = {} for _pid, _oid in _act: _obj = None if _pid is None: if _oid != _sid: raise ValueError, "Invalid orphan: %d" % _oid _obj = self if _obj is None and _pid == _sid: _obj = _layers.get(_oid) if _obj is None: for _layer in self.getChildren(): _lid = _layer.getID() _layers[_lid] = _layer if _lid == _oid: _obj = _layer break if _obj is None: raise ValueError, "Layer %d not found in Image" % _oid if _obj is None: _par = _layers.get(_pid) if _par is None: for _layer in self.getChildren(): _lid = _layer.getID() _layers[_lid] = _layer if _lid == _pid: _par = _layer break if _par is None: raise ValueError, "Parent layer not found: %d" % _pid _obj = _par.getObject(_oid) if _obj is None: raise ValueError, "Object %d not found in parent %d" % (_oid, _pid) # print "executing redo on obj: " + `_obj` _obj.redo() finally: self.endAction() def addObject(self, obj, l=None): """Add an object to the Drawing. addObject(obj [, l]) Argument 'obj' is the entity to be added in the Image. Optional arguement 'l' is the Layer that will contain the object. If no layer is specfied then the object is placed in the active Layer. """ _layer = l if _layer is None: _layer = self.__active_layer _op = obj.getParent() if _op is not None: raise RuntimeError, "Object already in layer '%s'" % _op.getName() if not isinstance(_layer, layer.Layer): raise TypeError, "Invalid Layer: " + `type(_layer)` if _layer.getParent() is not self: raise RuntimeError, "Layer not found in Image." _layer.setAutosplit(self.getOption('AUTOSPLIT')) _layer.addObject(obj) def delObject(self, obj): """Remove an object from the Drawing. delObject(obj) Argument 'obj' must be an object stored in a Layer in the Image. """ _layer = obj.getParent() if _layer is None: raise RuntimeError, "Object not stored within a Layer." if _layer.getParent() is not self: raise RuntimeError, "Object parent Layer not found in Image." _layer.delObject(obj) def getObject(self, eid): """Retrieve an object with a specified ID. getObject(eid) Argument eid is an entity ID. If an object with an ID of that specified is found, the object is returned. Otherwise this method returns None. """ _layers = [self.__top_layer] while len(_layers): _layer = _layers.pop() if _layer.getID() == eid: return _layer _obj = _layer.getObject(eid) if _obj is not None: return _obj _layers.extend(_layer.getSublayers()) return None def startAction(self): """Set the Image to the point starting a sequence of operations. startAction() This method is called in conjunction with endAction() to store a sequence of operations on an Image as a single operation for undo/redo purposes. """ if self.__busy: raise ValueError, "Image already in busy state" self.__busy = True self.sendMessage('group_action_started') def endAction(self): """Set the Image to the point completing a sequence of operations. endAction() This method is called in conjunction with startAction() to store a sequence of operations on an Image as a single operation for undo/redo purposes. """ if not self.__busy: raise ValueError, "Image not in busy state" self.__busy = False self.__action = len(self.__undo) self.sendMessage('group_action_ended') def inAction(self): """Test if the Image is with a startAction()/endAction() operation. inAction() This method returns a boolean. """ return self.__busy def getAction(self): return self.__action action = property(getAction, None, None, "Action value.") def selectObject(self, obj): """Store a reference to an object in the Image. selectObject(obj) The argument 'obj' is one of the objects stored in the Image. Storing an object with selectObject() is the means by which objects can be copied or modified. """ _parent = obj.getParent() if _parent is None: raise ValueError, "Object has no parent: " + `obj` if not isinstance(_parent, layer.Layer): raise TypeError, "Invalid object parent: " + `type(_parent)` if _parent.getParent() is not self: raise ValueError, "Object not in Image: " + `obj` _seen = False for _obj in self.__selected: if _obj is obj: _seen = True break if not _seen: self.__selected.append(obj) self.sendMessage('selected_object', obj) def deselectObject(self, obj): """Remove any occurance of an object in the Image. deselectObject(obj) If the object is not already selected a ValueError is returned. """ _parent = obj.getParent() if _parent is None: raise ValueError, "Object has no parent: " + `obj` if not isinstance(_parent, layer.Layer): raise TypeError, "Invalid object parent: " + `type(_parent)` if _parent.getParent() is not self: raise ValueError, "Object not in Image: " + `obj` _objs = self.__selected for _i in range(len(_objs)): if _objs[_i] is obj: del _objs[_i] self.sendMessage('deselected_object', obj) break def getSelectedObjects(self, delete=True): """Return all the currently selected objects. getSelectedObjects([delete]) Optional argument 'delete' defaults to True, so calling this method with no arguments will deselected all the selected objects. If the argument is False, the selected entities remain stored. """ util.test_boolean(delete) _objs = self.__selected[:] if delete: self.clearSelectedObjects() return _objs def clearSelectedObjects(self): """Empty the list list of selected objects. clearSelectedObjects() """ for _obj in self.__selected: self.sendMessage('deselected_object', _obj) del self.__selected[:] def hasSelection(self): """Return whether or not there are selected objects in the drawing. hasSelection() """ return len(self.__selected) > 0 def getImageVariables(self): """Get the dictionary storing the variables local to the image. getImageVariables() """ return self.__vars def getExtents(self): """Return the coordinates of a window holding the whole drawing getExtents() The function will return a tuple of the format: (xmin, ymin, xmax, ymax) Each value will be a float. """ _xmin = None _ymin = None _xmax = None _ymax = None _set = False _layers = [self.__top_layer] while (len(_layers)): _layer = _layers.pop() if _layer.isVisible(): _set = True _xmn, _ymn, _xmx, _ymx = _layer.getBoundary() if _xmin is None or _xmn < _xmin: _xmin = _xmn if _ymin is None or _ymn < _ymin: _ymin = _ymn if _xmax is None or _xmx > _xmax: _xmax = _xmx if _ymax is None or _ymx > _ymax: _ymax = _ymx _layers.extend(_layer.getSublayers()) if _set: # make sure the values are different if abs(_xmax - _xmin) < 1e-10: _xmin = _xmin - 1.0 _xmax = _xmax + 1.0 if abs(_ymax - _ymin) < 1e-10: _ymin = _ymin - 1.0 _ymax = _ymax + 1.0 else: _xmin = -1.0 _ymin = -1.0 _xmax = 1.0 _ymax = 1.0 return (_xmin, _ymin, _xmax, _ymax) def getOptions(cls): """Return the list of options that can be set in an Image. getOptions() This method returns a list of strings. """ return Image.__options[:] getOptions = classmethod(getOptions) def getOption(self, key): """Return the value of an option set in the drawing. getOption(key) Return the value of the option associated with the string 'key'. If there is no option found for that key, return None. """ if not isinstance(key, str): raise TypeError, "Invalid key type: " + `type(key)` if key not in Image.__options: raise ValueError, "Invalid option key: '%s'" % key return self.__options.get(key) def setOption(self, key, value): """Set an option in the drawing. setOption(key, value) Argument 'key' must be a string, and argument 'value' can any type of object. Using the same key twice will result on the second value overwriting the first. """ # # testOption will raise a exceptions for invalid values ... # if not isinstance(key, str): raise TypeError, "Invalid key type: " + `type(key)` options.OptionManager.testOption(key, value) if (key == 'LINE_COLOR' or key == 'FONT_COLOR' or key == 'BACKGROUND_COLOR' or key == 'INACTIVE_LAYER_COLOR' or key == 'SINGLE_POINT_COLOR' or key == 'MULTI_POINT_COLOR' or key == 'DIM_COLOR' or key == 'DIM_PRIMARY_FONT_COLOR' or key == 'DIM_SECONDARY_FONT_COLOR'): if value not in self.__colors: self.__colors[value] = True elif key == 'LINE_STYLE': self.setOption('LINE_COLOR', value.getColor()) self.setOption('LINE_TYPE', value.getLinetype()) self.setOption('LINE_THICKNESS', value.getThickness()) if value not in self.__styles: self.__styles.append(value) elif key == 'LINE_TYPE': if value not in self.__linetypes: self.__linetypes.append(value) elif key == 'DIM_STYLE': for _opt in value.getOptions(): _optval = value.getValue(_opt) self.setOption(_opt, _optval) if value not in self.__dimstyles: self.__dimstyles.append(value) elif key == 'TEXT_STYLE': self.setOption('FONT_COLOR', value.getColor()) self.setOption('FONT_WEIGHT', value.getWeight()) self.setOption('FONT_STYLE', value.getStyle()) self.setOption('FONT_FAMILY', value.getFamily()) self.setOption('TEXT_SIZE', value.getSize()) self.setOption('TEXT_ANGLE', value.getAngle()) self.setOption('TEXT_ALIGNMENT', value.getAlignment()) if value not in self.__textstyles: self.__textstyles.append(value) elif (key == 'FONT_FAMILY' or key == 'DIM_PRIMARY_FONT_FAMILY' or key == 'DIM_SECONDARY_FONT_FAMILY'): if value not in self.__fonts: self.__fonts[value] = True else: pass self.__options[key] = value self.sendMessage('option_changed', key, value) def setDefaults(self): """Set Image options to the current global settings. setDefaults() """ _gp = globals.prefs for _opt in Image.__options: self.setOption(_opt, _gp[_opt]) def setFilename(self, fname): """Set the filename for this image. setFilename(fname) The filename will be where the system will save the data in this file. """ self.__filename = fname def getFilename(self): """Return the filename for this image. getFilename() """ return self.__filename filename = property(getFilename, setFilename, None, "Image filename.") def setTool(self, tool=None): """Replace the Tool in the Image with a new Tool. setTool(tool) The argument 'tool' should be an instance of a Tool object or 'None'. """ if tool is not None and not isinstance(tool, tools.Tool): raise TypeError, "Invalid tool: " + `type(tool)` _ot = self.__tool if (_ot is not tool): self.__tool = tool self.sendMessage('tool_changed') def getTool(self): """Return the current Tool used in the drawing. getTool() """ return self.__tool tool = property(getTool, setTool, None, "Tool for adding/modifying entities.") def sendsMessage(self, m): if m in Image.__messages: return True return super(Image, self).sendsMessage(m) # # provide some default colors, linetypes, and styles # for an image # def add_defaults(image): # # standard styles # _sstyle = globals.prefs['STANDARD_STYLE'] _dstyle = globals.prefs['DEFAULT_STYLE'] _set_style = False for _style in globals.prefs['STYLES']: image.addStyle(_style) if _style.getName() == _dstyle.getName(): image.setOption('LINE_STYLE', _style) _set_style = True if not _set_style: image.setOption('LINE_STYLE', _sstyle) # # standard colors # for _color in globals.prefs['COLORS']: image.addColor(_color) # # standard linetypes # for _linetype in globals.prefs['LINETYPES']: image.addLinetype(_linetype) # # standards styles # # solid = linetype.Linetype('Solid') # dash1 = linetype.Linetype('Dash1', [4,1]) # dash2 = linetype.Linetype('Dash2', [8,2]) # dash3 = linetype.Linetype('Dash3', [12,2]) # dash4 = linetype.Linetype('Dash4', [10,2,2,2]) # dash5 = linetype.Linetype('Dash5', [15,5,5,5]) # st = style.Style('Solid White Line', solid, white, 1) # image.addStyle(st) # image.setOption('LINE_STYLE', st) # st = style.Style('Solid Black Line', solid, black, 1) # image.addStyle(st) # st = style.Style('Dashed Red Line', dash1, red, 1) # image.addStyle(st) # st = style.Style('Dashed Green Line', dash1, green, 1) # image.addStyle(st) # st = style.Style('Dashed Blue Line', dash1, blue, 1) # image.addStyle(st) # st = style.Style('Dashed Yellow Line', dash2, yellow, 1) # image.addStyle(st) # st = style.Style('Dashed Violet Line', dash2, violet, 1) # image.addStyle(st) # st = style.Style('Dashed Cyan Line', dash2, cyan, 1) # image.addStyle(st) _ds = dimension.Dimension.getDefaultDimStyle() image.addDimStyle(_ds) _dstyle = globals.prefs['DEFAULT_DIMSTYLE'] _dname = None if _dstyle is not None: _dname = _dstyle.getName() _set_style = False for _dimstyle in globals.prefs['DIMSTYLES']: image.addDimStyle(_dimstyle) _name = _dimstyle.getName() if _dname is not None and _name == _dname: image.setOption('DIM_STYLE', _dimstyle) _set_style = True if not _set_style: # print "setting DIM_STYLE to default _ds ..." image.setOption('DIM_STYLE', _ds) # for _opt in _ds.getOptions(): # _val = str(_ds.getValue(_opt)) # print "opt: %s; value: %s" % (_opt, _val) # # FIXME: re-examine this once new text stuff is in place # # _ts = text.TextStyle('default') _ts = text.TextBlock.getDefaultTextStyle() image.addTextStyle(_ts) _tstyle = globals.prefs['DEFAULT_TEXTSTYLE'] _tname = None if _tstyle is not None: _tname = _tstyle.getName() _set_style = False for _textstyle in globals.prefs['TEXTSTYLES']: image.addTextStyle(_textstyle) _name = _textstyle.getName() if _tname is not None and _name == _tname: image.setOption('TEXT_STYLE', _textstyle) _set_style = True if not _set_style: image.setOption('TEXT_STYLE', _ts) # # these will override what the style has set # # image.setOption('FONT_FAMILY', globals.prefs['FONT_FAMILY']) # image.setOption('FONT_SIZE', globals.prefs['FONT_SIZE']) # image.setOption('FONT_STYLE', globals.prefs['FONT_STYLE']) # image.setOption('FONT_WEIGHT', globals.prefs['FONT_WEIGHT']) # _font_color = globals.prefs['FONT_COLOR'].clone() # image.setOption('FONT_COLOR', _font_color) # image.setOption('CHAMFER_LENGTH', globals.prefs['CHAMFER_LENGTH']) # image.setOption('FILLET_RADIUS', globals.prefs['FILLET_RADIUS']) image.setUnits(globals.prefs['UNITS']) # image.setOption('HIGHLIGHT_POINTS', globals.prefs['HIGHLIGHT_POINTS']) # image.setOption('INACTIVE_LAYER_COLOR', globals.prefs['INACTIVE_LAYER_COLOR']) # image.setOption('AUTOSPLIT', globals.prefs['AUTOSPLIT']) # image.setOption('LEADER_ARROW_SIZE', globals.prefs['LEADER_ARROW_SIZE']) # # Image history class # class ImageLog(entity.EntityLog): def __init__(self, image): if not isinstance(image, Image): raise TypeError, "Invalid Image: " + `image` super(ImageLog, self).__init__(image) image.connect('scale_changed', self.__scaleChanged) image.connect('units_changed', self.__unitsChanged) image.connect('added_child', self.__addedChild) image.connect('removed_child', self.__removedChild) def __scaleChanged(self, image, *args): _alen = len(args) if _alen < 1: raise ValueError, "Invalid argument count: %d" % _alen _scale = args[0] if not isinstance(_scale, float): raise TypeError, "Unexpected type for scale: " + `type(_scale)` if _scale < 1e-10: raise ValueError, "Invalid scale: %g" % _scale self.saveUndoData('scale_changed', _scale) def __unitsChanged(self, image, *args): _alen = len(args) if _alen < 1: raise ValueError, "Invalid argument count: %d" % _alen _units = args[0] # fixme - maybe add error checking ... self.saveUndoData('units_changed', _units) def __addedChild(self, image, *args): _alen = len(args) if _alen < 1: raise ValueError, "Invalid argument count: %d" % _alen _obj = args[0] _vals = _obj.getValues() if not isinstance(_vals, entity.EntityData): raise TypeError, "non EntityData for obj: " + `_obj` _vals.lock() self.saveUndoData('added_child', _vals) def __removedChild(self, image, *args): _alen = len(args) if _alen < 1: raise ValueError, "Invalid argument count: %d" % _alen _obj = args[0] _vals = _obj.getValues() if not isinstance(_vals, entity.EntityData): raise TypeError, "non EntityData for obj: " + `_obj` _vals.lock() self.saveUndoData('removed_child', _vals) def execute(self, undo, *args): # print "ImageLog::execute() ..." # print args util.test_boolean(undo) _alen = len(args) if len(args) == 0: raise ValueError, "No arguments to execute()" _img = self.getObject() _op = args[0] if _op == 'units_changed': if len(args) < 2: raise ValueError, "Invalid argument count: %d" % _alen _sdata = _img.getUnits() self.ignore(_op) try: _unit = args[1] if undo: _img.startUndo() try: _img.setUnits(_unit) finally: _img.endUndo() else: _img.startRedo() try: _img.setUnits(_unit) finally: _img.endRedo() finally: self.receive(_op) self.saveData(undo, _op, _sdata) elif _op == 'scale_changed': if len(args) < 2: raise ValueError, "Invalid argument count: %d" % _alen _sdata = _img.getScale() self.ignore(_op) try: _scale = args[1] if undo: _img.startUndo() try: _img.setScale(_scale) finally: _img.endUndo() else: _img.startRedo() try: _img.setScale(_scale) finally: _img.endRedo() finally: self.receive(_op) self.saveData(undo, _op, _sdata) elif _op == 'added_child': if len(args) < 2: raise ValueError, "Invalid argument count: %d" % _alen _vals = args[1] if not isinstance(_vals, entity.EntityData): raise TypeError, "Invalid EntityData: " + `_vals` self.ignore('modified') try: if undo: _lid = _vals.get('id') _layer = None for _child in _img.getChildren(): if _child.getID() == _lid: _layer = _child break if _layer is None: raise ValueError, "Layer not found in Image" _sdata = _vals self.ignore('removed_child') try: _img.startUndo() try: _img.delLayer(_layer) finally: _img.endUndo() finally: self.receive('removed_child') else: _pid = _vals.get('parent_layer') _parent_layer = None for _child in _img.getChildren(): if _child.getID() == _pid: _parent_layer = _child break if _parent_layer is None: raise ValueError, "Parent layer not found in Image" _layer = self.__makeLayer(_vals) self.ignore(_op) try: _img.startRedo() try: _img.addChildLayer(_layer, _parent_layer) finally: _img.endRedo() _sdata = _layer.getValues() _sdata.lock() finally: self.receive(_op) finally: self.receive('modified') self.saveData(undo, _op, _sdata) elif _op == 'removed_child': if len(args) < 2: raise ValueError, "Invalid argument count: %d" % _alen _vals = args[1] if not isinstance(_vals, entity.EntityData): raise TypeError, "Invalid EntityData: " + `_vals` self.ignore('modified') try: if undo: _pid = _vals.get('parent_layer') _parent_layer = None for _child in _img.getChildren(): if _child.getID() == _pid: _parent_layer = _child break if _parent_layer is None: raise ValueError, "Parent layer not found in Image" _layer = self.__makeLayer(_vals) self.ignore('added_child') try: _img.startUndo() try: _img.addChildLayer(_layer, _parent_layer) finally: _img.endUndo() _sdata = _layer.getValues() _sdata.lock() finally: self.receive('added_child') else: _lid = _vals.get('id') _layer = None for _child in _img.getChildren(): if _child.getID() == _lid: _layer = _child break if _layer is None: raise ValueError, "Layer not found in Image" _sdata = _vals self.ignore(_op) try: _img.startRedo() try: _img.delLayer(_layer) finally: _img.endRedo() finally: self.receive(_op) finally: self.receive('modified') self.saveData(undo, _op, _sdata) else: super(ImageLog, self).execute(undo, *args) def __makeLayer(self, values): _type = values.get('type') if _type != 'layer': _keys = values.keys() _keys.sort() for _key in _keys: print "key: %s: value: %s" % (_key, str(values.get(_key))) raise RuntimeError, "Invalid layer values" _id = values.get('id') if _id is None: raise ValueError, "Lost 'id' for recreating Layer" _name = values.get('name') if _name is None: raise ValueError, "Lost 'name' value for Layer" _scale = values.get('scale') if _scale is None: raise ValueError, "Lost 'scale' value for Layer" _layer = layer.Layer(_name, id=_id) _layer.setScale(_scale) return _layer