# -*- coding: ISO-8859-1 -*- # # # Copyright (C) 2005-2006 André Wobst # # This file is part of PyX (http://pyx.sourceforge.net/). # # PyX 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. # # PyX 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 PyX; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA import math from pyx import path, unit class _positioner: """interface definition of axis tick position methods - these methods are used for the postitioning of the ticks when painting an axis""" # TODO: should we add a local transformation (for label text etc?) # (this might replace tickdirection (and even tickposition?)) def vbasepath(self, v1=None, v2=None): """return the basepath as a path - like basepath, but for graph coordinates""" def vgridpath(self, v): """return the gridpath as a path for a given position v in graph coordinates - might return None when no gridpath is available""" return None def vtickpoint_pt(self, v): """return tick position (x, y) in pts for a tick at position v in graph coordinates""" def vtickdirection(self, v): """return direction tuple (dx, dy) for a tick at position v in graph coordinates""" class pathpositioner(_positioner): """axis tick position methods along an arbitrary path""" def __init__(self, p, direction=1): self.path = p self.normpath = p.normpath() self.arclen_pt = self.normpath.arclen_pt() self.arclen = self.arclen_pt * unit.t_pt self.direction = direction def vbasepath(self, v1=None, v2=None): if v1 is None: if v2 is None: return self.path else: return self.normpath.split(self.normpath.arclentoparam(v2 * self.arclen))[0] else: if v2 is None: return self.normpath.split(self.normpath.arclentoparam(v1 * self.arclen))[1] else: return self.normpath.split(*self.normpath.arclentoparam([v1 * self.arclen, v2 * self.arclen]))[1] def vtickpoint_pt(self, v): return self.normpath.at_pt(self.normpath.arclentoparam(v * self.arclen)) def vtickdirection(self, v): return self.normpath.rotation(self.normpath.arclentoparam(v * self.arclen)).apply_pt(0, self.direction) class lineaxispos_pt: """an axispos linear along a line with a fix direction for the ticks""" def __init__(self, x1_pt, y1_pt, x2_pt, y2_pt, fixtickdirection, vgridpath): self.x1_pt = x1_pt self.y1_pt = y1_pt self.x2_pt = x2_pt self.y2_pt = y2_pt self.fixtickdirection = fixtickdirection self.vgridpath = vgridpath def vbasepath(self, v1=None, v2=None): if v1 is None: v1 = 0 if v2 is None: v2 = 1 return path.line_pt((1-v1)*self.x1_pt+v1*self.x2_pt, (1-v1)*self.y1_pt+v1*self.y2_pt, (1-v2)*self.x1_pt+v2*self.x2_pt, (1-v2)*self.y1_pt+v2*self.y2_pt) def vtickpoint_pt(self, v): return (1-v)*self.x1_pt+v*self.x2_pt, (1-v)*self.y1_pt+v*self.y2_pt def vtickdirection(self, v): return self.fixtickdirection class flexlineaxispos_pt(lineaxispos_pt): """an axispos linear along a line with flexible direction for the ticks""" def __init__(self, vtickpoint_pt, vtickdirection, vgridpath): self.vtickpoint_pt = vtickpoint_pt self.vtickdirection = vtickdirection self.vgridpath = vgridpath def vbasepath(self, v1=None, v2=None): if v1 is None: v1 = 0 if v2 is None: v2 = 1 x1_pt, y1_pt = self.vtickpoint_pt(v1) x2_pt, y2_pt = self.vtickpoint_pt(v2) return path.line_pt(x1_pt, y1_pt, x2_pt, y2_pt)