Mercurial > traipse_dev
view orpg/mapper/miniatures.py @ 4:c0da99091e1d grumpy-goblin
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author | sirebral |
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date | Wed, 15 Jul 2009 02:09:11 -0500 |
parents | 4385a7d0efd1 |
children | 2b9e766f9dee |
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# Copyright (C) 2000-2001 The OpenRPG Project # # openrpg-dev@lists.sourceforge.net # # This program 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. # # This program 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 this program; if not, write to the Free Software # Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. # -- # # File: mapper/miniatures.py # Author: Chris Davis # Maintainer: # Version: # $Id: miniatures.py,v 1.46 2007/12/07 20:39:50 digitalxero Exp $ # # Description: This file contains some of the basic definitions for the chat # utilities in the orpg project. # __version__ = "$Id: miniatures.py,v 1.46 2007/12/07 20:39:50 digitalxero Exp $" from base import * import thread import time import urllib import os.path MIN_STICKY_BACK = -0XFFFFFF MIN_STICKY_FRONT = 0xFFFFFF ##---------------------------------------- ## miniature object ##---------------------------------------- FACE_NONE = 0 FACE_NORTH = 1 FACE_NORTHEAST = 2 FACE_EAST = 3 FACE_SOUTHEAST = 4 FACE_SOUTH = 5 FACE_SOUTHWEST = 6 FACE_WEST = 7 FACE_NORTHWEST = 8 SNAPTO_ALIGN_CENTER = 0 SNAPTO_ALIGN_TL = 1 def cmp_zorder(first,second): f = first.zorder s = second.zorder if f == None: f = 0 if s == None: s = 0 if f == s: value = 0 elif f < s: value = -1 else: value = 1 return value class BmpMiniature: def __init__(self, id,path, bmp, pos=cmpPoint(0,0), heading=FACE_NONE, face=FACE_NONE, label="", locked=False, hide=False, snap_to_align=SNAPTO_ALIGN_CENTER, zorder=0, width=0, height=0, log=None, local=False, localPath='', localTime=-1): self.log = log self.log.log("Enter BmpMiniature", ORPG_DEBUG) self.heading = heading self.face = face self.label = label self.path = path self.bmp = bmp self.pos = pos self.selected = False self.locked = locked self.snap_to_align = snap_to_align self.hide = hide self.id = id self.zorder = zorder self.left = 0 self.local = local self.localPath = localPath self.localTime = localTime if not width: self.width = 0 else: self.width = width if not height: self.height = 0 else: self.height = height self.right = bmp.GetWidth() self.top = 0 self.bottom = bmp.GetHeight() self.isUpdated = False self.gray = False self.log.log("Exit BmpMiniature", ORPG_DEBUG) def __del__(self): self.log.log("Enter BmpMiniature->__del__(self)", ORPG_DEBUG) del self.bmp self.bmp = None self.log.log("Exit BmpMiniature->__del__(self)", ORPG_DEBUG) def set_bmp(self, bmp): self.log.log("Enter BmpMiniature->set_bmp(self, bmp)", ORPG_DEBUG) self.bmp = bmp self.log.log("Exit BmpMiniature->set_bmp(self, bmp)", ORPG_DEBUG) def set_min_props(self, heading=FACE_NONE, face=FACE_NONE, label="", locked=False, hide=False, width=0, height=0): self.log.log("Enter BmpMiniature->set_min_props(self, heading, face, label, locked, hide, width, height)", ORPG_DEBUG) self.heading = heading self.face = face self.label = label if locked: self.locked = True else: self.locked = False if hide: self.hide = True else: self.hide = False self.width = int(width) self.height = int(height) self.isUpdated = True self.log.log("Exit BmpMiniature->set_min_props(self, heading, face, label, locked, hide, width, height)", ORPG_DEBUG) def hit_test(self, pt): self.log.log("Enter BmpMiniature->hit_test(self, pt)", ORPG_DEBUG) rect = self.get_rect() result = None result = rect.InsideXY(pt.x, pt.y) self.log.log("Exit BmpMiniature->hit_test(self, pt)", ORPG_DEBUG) return result def get_rect(self): self.log.log("Enter BmpMiniature->get_rect(self)", ORPG_DEBUG) ret = wx.Rect(self.pos.x, self.pos.y, self.bmp.GetWidth(), self.bmp.GetHeight()) self.log.log("Exit BmpMiniature->get_rect(self)", ORPG_DEBUG) return ret def draw(self, dc, mini_layer, op=wx.COPY): self.log.log("Enter BmpMiniature->draw(self, dc, mini_layer, op)", ORPG_DEBUG) if isinstance(self.bmp, tuple): self.log.log("bmp is a tuple, it shouldnt be!", ORPG_INFO) self.bmp = wx.ImageFromMime(self.bmp[1], self.bmp[2]).ConvertToBitmap() if self.bmp != None and self.bmp.Ok(): # check if hidden and GM: we outline the mini in grey (little bit smaller than the actual size) # and write the label in the center of the mini if self.hide and mini_layer.canvas.frame.session.my_role() == mini_layer.canvas.frame.session.ROLE_GM: self.log.log("Enter BmpMiniature->draw->Draw Hidden", ORPG_DEBUG) # set the width and height of the image if self.width and self.height: tmp_image = self.bmp.ConvertToImage() tmp_image.Rescale(int(self.width), int(self.height)) tmp_image.ConvertAlphaToMask() self.bmp = tmp_image.ConvertToBitmap() mask = wx.Mask(self.bmp, wx.Colour(tmp_image.GetMaskRed(), tmp_image.GetMaskGreen(), tmp_image.GetMaskBlue())) self.bmp.SetMask(mask) del tmp_image del mask self.left = 0 self.right = self.bmp.GetWidth() self.top = 0 self.bottom = self.bmp.GetHeight() # grey outline graypen = wx.Pen("gray", 1, wx.DOT) dc.SetPen(graypen) dc.SetBrush(wx.TRANSPARENT_BRUSH) #if width or height < 20 then offset = 1 if self.bmp.GetWidth() <= 20: xoffset = 1 else: xoffset = 5 if self.bmp.GetHeight() <= 20: yoffset = 1 else: yoffset = 5 dc.DrawRectangle(self.pos.x + xoffset, self.pos.y + yoffset, self.bmp.GetWidth() - (xoffset * 2), self.bmp.GetHeight() - (yoffset * 2)) dc.SetBrush(wx.NullBrush) dc.SetPen(wx.NullPen) ## draw label in the center of the mini label = mini_layer.get_mini_label(self) if len(label): dc.SetTextForeground(wx.RED) (textWidth,textHeight) = dc.GetTextExtent(label) x = self.pos.x +((self.bmp.GetWidth() - textWidth) /2) - 1 y = self.pos.y + (self.bmp.GetHeight() / 2) dc.SetPen(wx.GREY_PEN) dc.SetBrush(wx.LIGHT_GREY_BRUSH) dc.DrawRectangle(x, y, textWidth+2, textHeight+2) if (textWidth+2 > self.right): self.right += int((textWidth+2-self.right)/2)+1 self.left -= int((textWidth+2-self.right)/2)+1 self.bottom = y+textHeight+2-self.pos.y dc.SetPen(wx.NullPen) dc.SetBrush(wx.NullBrush) dc.DrawText(label, x+1, y+1) #selected outline if self.selected: dc.SetPen(wx.RED_PEN) dc.SetBrush(wx.TRANSPARENT_BRUSH) dc.DrawRectangle(self.pos.x, self.pos.y, self.bmp.GetWidth(), self.bmp.GetHeight()) dc.SetBrush(wx.NullBrush) dc.SetPen(wx.NullPen) self.log.log("Exit BmpMiniature->draw->Draw Hidden", ORPG_DEBUG) return True elif self.hide: self.log.log("Enter/Exit BmpMiniature->draw->Skip Hidden", ORPG_DEBUG) return True else: self.log.log("Enter BmpMiniature->draw->Not Hidden", ORPG_DEBUG) # set the width and height of the image bmp = self.bmp if self.width and self.height: tmp_image = self.bmp.ConvertToImage() tmp_image.Rescale(int(self.width), int(self.height)) tmp_image.ConvertAlphaToMask() self.bmp = tmp_image.ConvertToBitmap() mask = wx.Mask(self.bmp, wx.Colour(tmp_image.GetMaskRed(), tmp_image.GetMaskGreen(), tmp_image.GetMaskBlue())) self.bmp.SetMask(mask) if self.gray: tmp_image = tmp_image.ConvertToGreyscale() bmp = tmp_image.ConvertToBitmap() else: bmp = self.bmp dc.DrawBitmap(bmp, self.pos.x, self.pos.y, True) self.left = 0 self.right = self.bmp.GetWidth() self.top = 0 self.bottom = self.bmp.GetHeight() # Draw the facing marker if needed if self.face != 0: x_mid = self.pos.x + (self.bmp.GetWidth()/2) x_right = self.pos.x + self.bmp.GetWidth() y_mid = self.pos.y + (self.bmp.GetHeight()/2) y_bottom = self.pos.y + self.bmp.GetHeight() dc.SetPen(wx.WHITE_PEN) dc.SetBrush(wx.RED_BRUSH) triangle = [] # Figure out which direction to draw the marker!! if self.face == FACE_WEST: triangle.append(cmpPoint(self.pos.x,self.pos.y)) triangle.append(cmpPoint(self.pos.x - 5, y_mid)) triangle.append(cmpPoint(self.pos.x, y_bottom)) elif self.face == FACE_EAST: triangle.append(cmpPoint(x_right, self.pos.y)) triangle.append(cmpPoint(x_right + 5, y_mid)) triangle.append(cmpPoint(x_right, y_bottom)) elif self.face == FACE_SOUTH: triangle.append(cmpPoint(self.pos.x, y_bottom)) triangle.append(cmpPoint(x_mid, y_bottom + 5)) triangle.append(cmpPoint(x_right, y_bottom)) elif self.face == FACE_NORTH: triangle.append(cmpPoint(self.pos.x, self.pos.y)) triangle.append(cmpPoint(x_mid, self.pos.y - 5)) triangle.append(cmpPoint(x_right, self.pos.y)) elif self.face == FACE_NORTHEAST: triangle.append(cmpPoint(x_mid, self.pos.y)) triangle.append(cmpPoint(x_right + 5, self.pos.y - 5)) triangle.append(cmpPoint(x_right, y_mid)) triangle.append(cmpPoint(x_right, self.pos.y)) elif self.face == FACE_SOUTHEAST: triangle.append(cmpPoint(x_right, y_mid)) triangle.append(cmpPoint(x_right + 5, y_bottom + 5)) triangle.append(cmpPoint(x_mid, y_bottom)) triangle.append(cmpPoint(x_right, y_bottom)) elif self.face == FACE_SOUTHWEST: triangle.append(cmpPoint(x_mid, y_bottom)) triangle.append(cmpPoint(self.pos.x - 5, y_bottom + 5)) triangle.append(cmpPoint(self.pos.x, y_mid)) triangle.append(cmpPoint(self.pos.x, y_bottom)) elif self.face == FACE_NORTHWEST: triangle.append(cmpPoint(self.pos.x, y_mid)) triangle.append(cmpPoint(self.pos.x - 5, self.pos.y - 5)) triangle.append(cmpPoint(x_mid, self.pos.y)) triangle.append(cmpPoint(self.pos.x, self.pos.y)) dc.DrawPolygon(triangle) dc.SetBrush(wx.NullBrush) dc.SetPen(wx.NullPen) # Draw the heading if needed if self.heading: x_adjust = 0 y_adjust = 4 x_half = self.bmp.GetWidth()/2 y_half = self.bmp.GetHeight()/2 x_quarter = self.bmp.GetWidth()/4 y_quarter = self.bmp.GetHeight()/4 x_3quarter = x_quarter*3 y_3quarter = y_quarter*3 x_full = self.bmp.GetWidth() y_full = self.bmp.GetHeight() x_center = self.pos.x + x_half y_center = self.pos.y + y_half # Remember, the pen/brush must be a different color than the # facing marker!!!! We'll use black/cyan for starters. # Also notice that we will draw the heading on top of the # larger facing marker. dc.SetPen(wx.BLACK_PEN) dc.SetBrush(wx.CYAN_BRUSH) triangle = [] # Figure out which direction to draw the marker!! if self.heading == FACE_NORTH: triangle.append(cmpPoint(x_center - x_quarter, y_center - y_half )) triangle.append(cmpPoint(x_center, y_center - y_3quarter )) triangle.append(cmpPoint(x_center + x_quarter, y_center - y_half )) elif self.heading == FACE_SOUTH: triangle.append(cmpPoint(x_center - x_quarter, y_center + y_half )) triangle.append(cmpPoint(x_center, y_center + y_3quarter )) triangle.append(cmpPoint(x_center + x_quarter, y_center + y_half )) elif self.heading == FACE_NORTHEAST: triangle.append(cmpPoint(x_center + x_quarter, y_center - y_half )) triangle.append(cmpPoint(x_center + x_3quarter, y_center - y_3quarter )) triangle.append(cmpPoint(x_center + x_half, y_center - y_quarter )) elif self.heading == FACE_EAST: triangle.append(cmpPoint(x_center + x_half, y_center - y_quarter )) triangle.append(cmpPoint(x_center + x_3quarter, y_center )) triangle.append(cmpPoint(x_center + x_half, y_center + y_quarter )) elif self.heading == FACE_SOUTHEAST: triangle.append(cmpPoint(x_center + x_half, y_center + y_quarter )) triangle.append(cmpPoint(x_center + x_3quarter, y_center + y_3quarter )) triangle.append(cmpPoint(x_center + x_quarter, y_center + y_half )) elif self.heading == FACE_SOUTHWEST: triangle.append(cmpPoint(x_center - x_quarter, y_center + y_half )) triangle.append(cmpPoint(x_center - x_3quarter, y_center + y_3quarter )) triangle.append(cmpPoint(x_center - x_half, y_center + y_quarter )) elif self.heading == FACE_WEST: triangle.append(cmpPoint(x_center - x_half, y_center + y_quarter )) triangle.append(cmpPoint(x_center - x_3quarter, y_center )) triangle.append(cmpPoint(x_center - x_half, y_center - y_quarter )) elif self.heading == FACE_NORTHWEST: triangle.append(cmpPoint(x_center - x_half, y_center - y_quarter )) triangle.append(cmpPoint(x_center - x_3quarter, y_center - y_3quarter )) triangle.append(cmpPoint(x_center - x_quarter, y_center - y_half )) dc.DrawPolygon(triangle) dc.SetBrush(wx.NullBrush) dc.SetPen(wx.NullPen) #selected outline if self.selected: dc.SetPen(wx.RED_PEN) dc.SetBrush(wx.TRANSPARENT_BRUSH) dc.DrawRectangle(self.pos.x, self.pos.y, self.bmp.GetWidth(), self.bmp.GetHeight()) dc.SetBrush(wx.NullBrush) dc.SetPen(wx.NullPen) # draw label label = mini_layer.get_mini_label(self) if len(label): dc.SetTextForeground(wx.RED) (textWidth,textHeight) = dc.GetTextExtent(label) x = self.pos.x +((self.bmp.GetWidth() - textWidth) /2) - 1 y = self.pos.y + self.bmp.GetHeight() + 6 dc.SetPen(wx.WHITE_PEN) dc.SetBrush(wx.WHITE_BRUSH) dc.DrawRectangle(x,y,textWidth+2,textHeight+2) if (textWidth+2 > self.right): self.right += int((textWidth+2-self.right)/2)+1 self.left -= int((textWidth+2-self.right)/2)+1 self.bottom = y+textHeight+2-self.pos.y dc.SetPen(wx.NullPen) dc.SetBrush(wx.NullBrush) dc.DrawText(label,x+1,y+1) self.top-=5 self.bottom+=5 self.left-=5 self.right+=5 self.log.log("Exit BmpMiniature->draw->Not Hidden", ORPG_DEBUG) return True else: self.log.log("Exit BmpMiniature->draw(self, dc, mini_layer, op) return False", ORPG_DEBUG) return False self.log.log("Exit BmpMiniature->draw(self, dc, mini_layer, op)", ORPG_DEBUG) def toxml(self, action="update"): self.log.log("Enter BmpMiniature->toxml(self, " + action + ")", ORPG_DEBUG) if action == "del": xml_str = "<miniature action='del' id='" + self.id + "'/>" self.log.log(xml_str, ORPG_DEBUG) self.log.log("Exit BmpMiniature->toxml(self, " + action + ")", ORPG_DEBUG) return xml_str xml_str = "<miniature" xml_str += " action='" + action + "'" xml_str += " label='" + self.label + "'" xml_str+= " id='" + self.id + "'" if self.pos != None: xml_str += " posx='" + str(self.pos.x) + "'" xml_str += " posy='" + str(self.pos.y) + "'" if self.heading != None: xml_str += " heading='" + str(self.heading) + "'" if self.face != None: xml_str += " face='" + str(self.face) + "'" if self.path != None: xml_str += " path='" + urllib.quote(self.path).replace('%3A', ':') + "'" if self.locked: xml_str += " locked='1'" else: xml_str += " locked='0'" if self.hide: xml_str += " hide='1'" else: xml_str += " hide='0'" if self.snap_to_align != None: xml_str += " align='" + str(self.snap_to_align) + "'" if self.id != None: xml_str += " zorder='" + str(self.zorder) + "'" if self.width != None: xml_str += " width='" + str(self.width) + "'" if self.height != None: xml_str += " height='" + str(self.height) + "'" if self.local: xml_str += ' local="' + str(self.local) + '"' xml_str += ' localPath="' + str(urllib.quote(self.localPath).replace('%3A', ':')) + '"' xml_str += ' localTime="' + str(self.localTime) + '"' xml_str += " />" self.log.log(xml_str, ORPG_DEBUG) self.log.log("Exit BmpMiniature->toxml(self, " + action + ")", ORPG_DEBUG) if (action == "update" and self.isUpdated) or action == "new": self.isUpdated = False return xml_str else: return '' def takedom(self, xml_dom): self.log.log("Enter BmpMiniature->takedom(self, xml_dom)", ORPG_DEBUG) self.id = xml_dom.getAttribute("id") self.log.log("self.id=" + str(self.id), ORPG_DEBUG) if xml_dom.hasAttribute("posx"): self.pos.x = int(xml_dom.getAttribute("posx")) self.log.log("self.pos.x=" + str(self.pos.x), ORPG_DEBUG) if xml_dom.hasAttribute("posy"): self.pos.y = int(xml_dom.getAttribute("posy")) self.log.log("self.pos.y=" + str(self.pos.y), ORPG_DEBUG) if xml_dom.hasAttribute("heading"): self.heading = int(xml_dom.getAttribute("heading")) self.log.log("self.heading=" + str(self.heading), ORPG_DEBUG) if xml_dom.hasAttribute("face"): self.face = int(xml_dom.getAttribute("face")) self.log.log("self.face=" + str(self.face), ORPG_DEBUG) if xml_dom.hasAttribute("path"): self.path = urllib.unquote(xml_dom.getAttribute("path")) self.set_bmp(ImageHandler.load(self.path, 'miniature', self.id)) self.log.log("self.path=" + self.path, ORPG_DEBUG) if xml_dom.hasAttribute("locked"): if xml_dom.getAttribute("locked") == '1' or xml_dom.getAttribute("locked") == 'True': self.locked = True else: self.locked = False self.log.log("self.locked=" + str(self.locked), ORPG_DEBUG) if xml_dom.hasAttribute("hide"): if xml_dom.getAttribute("hide") == '1' or xml_dom.getAttribute("hide") == 'True': self.hide = True else: self.hide = False self.log.log("self.hide=" + str(self.hide), ORPG_DEBUG) if xml_dom.hasAttribute("label"): self.label = xml_dom.getAttribute("label") self.log.log("self.label=" + self.label, ORPG_DEBUG) if xml_dom.hasAttribute("zorder"): self.zorder = int(xml_dom.getAttribute("zorder")) self.log.log("self.zorder=" + str(self.zorder), ORPG_DEBUG) if xml_dom.hasAttribute("align"): if xml_dom.getAttribute("align") == '1' or xml_dom.getAttribute("align") == 'True': self.snap_to_align = 1 else: self.snap_to_align = 0 self.log.log("self.snap_to_align=" + str(self.snap_to_align), ORPG_DEBUG) if xml_dom.hasAttribute("width"): self.width = int(xml_dom.getAttribute("width")) self.log.log("self.width=" + str(self.width), ORPG_DEBUG) if xml_dom.hasAttribute("height"): self.height = int(xml_dom.getAttribute("height")) self.log.log("self.height=" + str(self.height), ORPG_DEBUG) self.log.log("Exit BmpMiniature->takedom(self, xml_dom)", ORPG_DEBUG) ##----------------------------- ## miniature layer ##----------------------------- class miniature_layer(layer_base): def __init__(self, canvas): self.canvas = canvas self.log = self.canvas.log self.log.log("Enter miniature_layer", ORPG_DEBUG) self.settings = self.canvas.settings layer_base.__init__(self) self.miniatures = [] self.serial_number = 0 self.log.log("Exit miniature_layer", ORPG_DEBUG) def next_serial(self): self.log.log("Enter miniature_layer->next_serial(self)", ORPG_DEBUG) self.serial_number += 1 self.log.log("Exit miniature_layer->next_serial(self)", ORPG_DEBUG) return self.serial_number def get_next_highest_z(self): self.log.log("Enter miniature_layer->get_next_highest_z(self)", ORPG_DEBUG) z = len(self.miniatures)+1 self.log.log("Exit miniature_layer->get_next_highest_z(self)", ORPG_DEBUG) return z def cleanly_collapse_zorder(self): self.log.log("Enter miniature_layer->cleanly_collapse_zorder(self)", ORPG_DEBUG) # lock the zorder stuff sorted_miniatures = self.miniatures[:] sorted_miniatures.sort(cmp_zorder) i = 0 for mini in sorted_miniatures: mini.zorder = i i = i + 1 self.log.log("Exit miniature_layer->cleanly_collapse_zorder(self)", ORPG_DEBUG) # unlock the zorder stuff def collapse_zorder(self): self.log.log("Enter miniature_layer->collapse_zorder(self)", ORPG_DEBUG) # lock the zorder stuff sorted_miniatures = self.miniatures[:] sorted_miniatures.sort(cmp_zorder) i = 0 for mini in sorted_miniatures: if (mini.zorder != MIN_STICKY_BACK) and (mini.zorder != MIN_STICKY_FRONT): mini.zorder = i else: pass i = i + 1 self.log.log("Exit miniature_layer->collapse_zorder(self)", ORPG_DEBUG) # unlock the zorder stuff def rollback_serial(self): self.log.log("Enter miniature_layer->rollback_serial(self)", ORPG_DEBUG) self.serial_number -= 1 self.log.log("Exit miniature_layer->rollback_serial(self)", ORPG_DEBUG) def add_miniature(self, id, path, pos=cmpPoint(0,0), label="", heading=FACE_NONE, face=FACE_NONE, width=0, height=0, local=False, localPath='', localTime=-1): self.log.log("Enter miniature_layer->add_miniature(self, id, path, pos, label, heading, face, width, height)", ORPG_DEBUG) self.log.log("Before mini creation: " + str(self.get_next_highest_z()), ORPG_DEBUG) bmp = ImageHandler.load(path, 'miniature', id) if bmp: mini = BmpMiniature(id, path, bmp, pos, heading, face, label, zorder=self. get_next_highest_z(), width=width, height=height, log=self.log, local=local, localPath=localPath, localTime=localTime) self.log.log("After mini creation:" + str(self.get_next_highest_z()), ORPG_DEBUG) self.miniatures.append(mini) self.log.log("After mini addition:" + str(self.get_next_highest_z()), ORPG_DEBUG) xml_str = "<map><miniatures>" xml_str += mini.toxml("new") xml_str += "</miniatures></map>" self.canvas.frame.session.send(xml_str) else: self.log.log("Invalid image " + path + " has been ignored!", ORPG_DEBUG) self.log.log("Exit miniature_layer->add_miniature(self, id, path, pos, label, heading, face, width, height)", ORPG_DEBUG) def get_miniature_by_id(self, id): self.log.log("Enter miniature_layer->get_miniature_by_id(self, id)", ORPG_DEBUG) for mini in self.miniatures: if str(mini.id) == str(id): self.log.log("Exit miniature_layer->get_miniature_by_id(self, id) return miniID: " + str(id), ORPG_DEBUG) return mini self.log.log("Exit miniature_layer->get_miniature_by_id(self, id) return None", ORPG_DEBUG) return None def del_miniature(self, min): self.log.log("Enter miniature_layer->del_miniature(self, min)", ORPG_DEBUG) xml_str = "<map><miniatures>" xml_str += min.toxml("del") xml_str += "</miniatures></map>" self.canvas.frame.session.send(xml_str) self.miniatures.remove(min) del min self.collapse_zorder() self.log.log("Exit miniature_layer->del_miniature(self, min)", ORPG_DEBUG) def del_all_miniatures(self): self.log.log("Enter miniature_layer->del_all_miniatures(self)", ORPG_DEBUG) while len(self.miniatures): min = self.miniatures.pop() del min self.collapse_zorder() self.log.log("Exit miniature_layer->del_all_miniatures(self)", ORPG_DEBUG) def layerDraw(self, dc, topleft, size): self.log.log("Enter miniature_layer->layerDraw(self, dc, topleft, size)", ORPG_DEBUG) sorted_miniatures = self.miniatures[:] sorted_miniatures.sort(cmp_zorder) for m in sorted_miniatures: if (m.pos.x>topleft[0]-m.right and m.pos.y>topleft[1]-m.bottom and m.pos.x<topleft[0]+size[0]-m.left and m.pos.y<topleft[1]+size[1]-m.top): m.draw(dc, self) self.log.log("Exit miniature_layer->layerDraw(self, dc, topleft, size)", ORPG_DEBUG) def find_miniature(self, pt, only_unlocked=False): self.log.log("Enter miniature_layer->find_miniature(self, pt, only_unlocked)", ORPG_DEBUG) min_list = [] for m in self.miniatures: if m.hit_test(pt): if m.hide and self.canvas.frame.session.my_role() != self.canvas.frame.session.ROLE_GM: continue if only_unlocked and not m.locked: min_list.append(m) elif not only_unlocked and m.locked: min_list.append(m) else: continue if len(min_list) > 0: self.log.log("Exit miniature_layer->find_miniature(self, pt, only_unlocked)", ORPG_DEBUG) return min_list else: self.log.log("Exit miniature_layer->find_miniature(self, pt, only_unlocked)", ORPG_DEBUG) return None def layerToXML(self, action="update"): """ format """ self.log.log("Enter miniature_layer->layerToXML(self, " + action + ")", ORPG_DEBUG) minis_string = "" if self.miniatures: for m in self.miniatures: minis_string += m.toxml(action) if minis_string != '': s = "<miniatures" s += " serial='" + str(self.serial_number) + "'" s += ">" s += minis_string s += "</miniatures>" self.log.log("Exit miniature_layer->layerToXML(self, " + action + ")", ORPG_DEBUG) return s else: self.log.log("Exit miniature_layer->layerToXML(self, " + action + ") return None", ORPG_DEBUG) return "" def layerTakeDOM(self, xml_dom): self.log.log("Enter miniature_layer->layerTakeDOM(self, xml_dom)", ORPG_DEBUG) if xml_dom.hasAttribute('serial'): self.serial_number = int(xml_dom.getAttribute('serial')) children = xml_dom._get_childNodes() for c in children: action = c.getAttribute("action") id = c.getAttribute('id') if action == "del": mini = self.get_miniature_by_id(id) if mini: self.miniatures.remove(mini) del mini else: self.log.log("Map Synchronization Error :: Update of unknown mini attempted", ORPG_DEBUG) #wx.MessageBox("Deletion of unknown mini attempted","Map Synchronization Error") elif action == "new": pos = cmpPoint(int(c.getAttribute('posx')),int(c.getAttribute('posy'))) path = urllib.unquote(c.getAttribute('path')) label = c.getAttribute('label') height = width = heading = face = snap_to_align = zorder = 0 locked = hide = False if c.hasAttribute('height'): height = int(c.getAttribute('height')) if c.hasAttribute('width'): width = int(c.getAttribute('width')) if c.getAttribute('locked') == 'True' or c.getAttribute('locked') == '1': locked = True if c.getAttribute('hide') == 'True' or c.getAttribute('hide') == '1': hide = True if c.getAttribute('heading'): heading = int(c.getAttribute('heading')) if c.hasAttribute('face'): face = int(c.getAttribute('face')) if c.hasAttribute('align'): snap_to_align = int(c.getAttribute('align')) if c.getAttribute('zorder'): zorder = int(c.getAttribute('zorder')) min = BmpMiniature(id, path, ImageHandler.load(path, 'miniature', id), pos, heading, face, label, locked, hide, snap_to_align, zorder, width, height, self.log) self.miniatures.append(min) if c.hasAttribute('local') and c.getAttribute('local') == 'True' and os.path.exists(urllib.unquote(c.getAttribute('localPath'))): localPath = urllib.unquote(c.getAttribute('localPath')) local = True localTime = float(c.getAttribute('localTime')) if localTime-time.time() <= 144000: file = open(localPath, "rb") imgdata = file.read() file.close() filename = os.path.split(localPath) (imgtype,j) = mimetypes.guess_type(filename[1]) postdata = urllib.urlencode({'filename':filename[1], 'imgdata':imgdata, 'imgtype':imgtype}) thread.start_new_thread(self.upload, (postdata, localPath, True)) # collapse the zorder. If the client behaved well, then nothing should change. # Otherwise, this will ensure that there's some kind of z-order self.collapse_zorder() else: mini = self.get_miniature_by_id(id) if mini: mini.takedom(c) else: self.log.log("Map Synchronization Error :: Update of unknown mini attempted", ORPG_DEBUG) #wx.MessageBox("Update of unknown mini attempted","Map Synchronization Error") self.log.log("Exit miniature_layer->layerTakeDOM(self, xml_dom)", ORPG_DEBUG) def upload(self, postdata, filename, modify=False, pos=cmpPoint(0,0)): self.lock.acquire() url = self.settings.get_setting('ImageServerBaseURL') file = urllib.urlopen(url, postdata) recvdata = file.read() file.close() try: xml_dom = minidom.parseString(recvdata)._get_documentElement() if xml_dom.nodeName == 'path': path = xml_dom.getAttribute('url') path = urllib.unquote(path) if not modify: start = path.rfind("/") + 1 if self.canvas.parent.layer_handlers[2].auto_label: min_label = path[start:len(path)-4] else: min_label = "" id = 'mini-' + self.canvas.frame.session.get_next_id() self.add_miniature(id, path, pos=pos, label=min_label, local=True, localPath=filename, localTime=time.time()) else: self.miniatures[len(self.miniatures)-1].local = True self.miniatures[len(self.miniatures)-1].localPath = filename self.miniatures[len(self.miniatures)-1].localTime = time.time() self.miniatures[len(self.miniatures)-1].path = path else: print xml_dom.getAttribute('msg') except Exception, e: print e print recvdata urllib.urlcleanup() self.lock.release() #################################################################### ## helper function def get_mini_label(self, mini): # override this to change the label displayed under each mini (and the label on hidden minis) return mini.label