diff --git a/src/gui/widgets/fanchart.py b/src/gui/widgets/fanchart.py index bc3125044..9499e99cc 100644 --- a/src/gui/widgets/fanchart.py +++ b/src/gui/widgets/fanchart.py @@ -145,6 +145,12 @@ class FanChartBaseWidget(Gtk.DrawingArea): def __init__(self, dbstate, callback_popup=None): GObject.GObject.__init__(self) + st_cont = self.get_style_context() + col = st_cont.lookup_color('text_color') + if col[0]: + self.textcolor = (col[1].red, col[1].green, col[1].blue) + else: + self.textcolor = (0, 0, 0) self.dbstate = dbstate self.translating = False self.goto = None @@ -440,6 +446,32 @@ class FanChartBaseWidget(Gtk.DrawingArea): return color[0], color[1], color[2], alpha + def fontcolor(self, r, g, b, a): + """ + return the font color based on the r, g, b of the background + """ + if a == 0: + return self.textcolor + try: + return self.cache_fontcolor[(r, g, b)] + except KeyError: + hls = colorsys.rgb_to_hls(r/255, g/255, b/255) + # we use the lightness value to determine white or black font + if hls[1] > 0.4: + self.cache_fontcolor[(r, g, b)] = (0, 0, 0) + else: + self.cache_fontcolor[(r, g, b)] = (1, 1, 1) + return self.cache_fontcolor[(r, g, b)] + + def fontbold(self, a): + """ + The font should be bold if no transparency and font is set. + In that case, True is returned + """ + if a >= 1. and self.filter: + return True + return False + def draw_innerring(self, cr, person, userdata, start, inc): """ Procedure to draw a person in the inner ring position @@ -475,6 +507,163 @@ class FanChartBaseWidget(Gtk.DrawingArea): cr.set_source_rgba(r/255., g/255., b/255., a) cr.fill() + def draw_text(self, cr, text, radius, start, stop, + height=PIXELS_PER_GENERATION, radial=False, + fontcolor=(0, 0, 0), bold=False): + """ + Display text at a particular radius, between start and stop + degrees. + """ + cr.save() + font = Pango.FontDescription(self.fontdescr) + fontsize = self.fontsize + font.set_size(fontsize * Pango.SCALE) + if bold: + font.set_weight(Pango.Weight.BOLD) + cr.set_source_rgb(fontcolor[0], fontcolor[1], fontcolor[2]) + if radial and self.radialtext: + cr.save() + layout = self.create_pango_layout(text) + layout.set_font_description(font) + w, h = layout.get_size() + w = w / Pango.SCALE + 5 # 5 pixel padding + h = h / Pango.SCALE + 4 # 4 pixel padding + #first we check if height is ok + degneedheight = h / radius * (180 / math.pi) + degavailheight = stop-start + degoffsetheight = 0 + if degneedheight > degavailheight: + #reduce height + fontsize = degavailheight / degneedheight * fontsize / 2 + font.set_size(fontsize * Pango.SCALE) + layout = self.create_pango_layout(text) + layout.set_font_description(font) + w, h = layout.get_size() + w = w / Pango.SCALE + 5 # 5 pixel padding + h = h / Pango.SCALE + 4 # 4 pixel padding + #first we check if height is ok + degneedheight = h / radius * (180 / math.pi) + degavailheight = stop-start + if degneedheight > degavailheight: + #we could not fix it, no text + text = "" + if text: + #spread rest + degoffsetheight = (degavailheight - degneedheight) / 2 + txlen = len(text) + if w > height: + txlen = int(w/height * txlen) + cont = True + while cont: + layout = self.create_pango_layout(text[:txlen]) + layout.set_font_description(font) + w, h = layout.get_size() + w = w / Pango.SCALE + 5 # 5 pixel padding + h = h / Pango.SCALE + 4 # 4 pixel padding + if w > height: + if txlen <= 1: + cont = False + txlen = 0 + else: + txlen -= 1 + else: + cont = False + # offset for cairo-font system is 90 + rotval = self.rotate_value % 360 - 90 + if (start + rotval) % 360 > 179: + pos = start + degoffsetheight + 90 - 90 + else: + pos = stop - degoffsetheight + 180 + cr.rotate(pos * math.pi / 180) + layout.context_changed() + if (start + rotval) % 360 > 179: + cr.move_to(radius+2, 0) + else: + cr.move_to(-radius-height+6, 0) + PangoCairo.show_layout(cr, layout) + cr.restore() + else: + # center text: + # 1. determine degrees of the text we can draw + degpadding = 5 / radius * (180 / math.pi) # degrees for 5 pixel padding + degneed = degpadding + maxlen = len(text) + hoffset = 0 + for i in range(len(text)): + layout = self.create_pango_layout(text[i]) + layout.set_font_description(font) + w, h = layout.get_size() + w = w / Pango.SCALE + 2 # 2 pixel padding after letter + h = h / Pango.SCALE + 2 # 2 pixel padding + if h/2 > hoffset: + hoffset = h/2 + degneed += w / radius * (180 / math.pi) + if degneed > stop - start: + #outside of the box + maxlen = i + break + # 2. determine degrees over we can distribute before and after + if degneed > stop - start: + degover = 0 + else: + degover = stop - start - degneed - degpadding + # 3. now draw this text, letter per letter + text = text[:maxlen] + + # offset for cairo-font system is 90, padding used is 5: + pos = start + 90 + degpadding + degover / 2 + # Create a PangoLayout, set the font and text + # Draw the layout N_WORDS times in a circle + for i in range(len(text)): + layout = self.create_pango_layout(text[i]) + layout.set_font_description(font) + w, h = layout.get_size() + w = w / Pango.SCALE + 2 # 4 pixel padding after word + h = h / Pango.SCALE + 2 # 4 pixel padding + degneed = w / radius * (180 / math.pi) + if pos+degneed > stop + 90: + #failsafe, outside of the box, redo + break + + cr.save() + cr.rotate(pos * math.pi / 180) + pos = pos + degneed + # Inform Pango to re-layout the text with the new transformation + layout.context_changed() + #width, height = layout.get_size() + #r.move_to(- (width / Pango.SCALE) / 2.0, - radius) + cr.move_to(0, - radius - hoffset) + PangoCairo.show_layout(cr, layout) + cr.restore() + cr.restore() + + def draw_gradient(self, cr, widget, halfdist): + gradwidth = 10 + gradheight = 10 + starth = 15 + startw = 5 + alloc = self.get_allocation() + x, y, w, h = alloc.x, alloc.y, alloc.width, alloc.height + cr.save() + + cr.translate(-self.center_x, -self.center_y) + + font = Pango.FontDescription(self.fontdescr) + fontsize = self.fontsize + font.set_size(fontsize * Pango.SCALE) + for color, text in zip(self.gradcol, self.gradval): + cr.move_to(startw, starth) + cr.rectangle(startw, starth, gradwidth, gradheight) + cr.set_source_rgb(color[0], color[1], color[2]) + cr.fill() + layout = self.create_pango_layout(text) + layout.set_font_description(font) + cr.move_to(startw+gradwidth+4, starth) + cr.set_source_rgb(0, 0, 0) #black + PangoCairo.show_layout(cr, layout) + starth = starth+gradheight + cr.restore() + def person_under_cursor(self, curx, cury): """ Determine the generation and the position in the generation at @@ -512,10 +701,8 @@ class FanChartBaseWidget(Gtk.DrawingArea): # FIXME: add a way of expanding # find what person is in this position: selected = None - if (0 < generation < self.generations): + if (0 <= generation < self.generations): selected = self.personpos_at_angle(generation, pos, btype) - elif generation == 0: - selected = 0 elif generation == -2: for p in range(len(self.angle[generation])): start, stop, state = self.angle[generation][p] @@ -968,8 +1155,10 @@ class FanChartWidget(FanChartBaseWidget): cr.fill() cr.save() name = name_displayer.display(person) - self.draw_text(cr, name, CENTER - 10, 95, 455, False, - self.fontcolor(r, g, b), self.fontbold(a)) + self.draw_text(cr, name, CENTER - + (CENTER - (CHILDRING_WIDTH + TRANSLATE_PX))/2, 95, 455, + 10, False, + self.fontcolor(r, g, b, a), self.fontbold(a)) cr.restore() #draw center to move chart cr.set_source_rgb(0, 0, 0) # black @@ -1052,8 +1241,9 @@ class FanChartWidget(FanChartBaseWidget): # more space to print it radial radial = True radstart = radius - PIXELS_PER_GENERATION + 4 - self.draw_text(cr, name, radstart, start, stop, radial, - self.fontcolor(r, g, b), self.fontbold(a)) + self.draw_text(cr, name, radstart, start, stop, + PIXELS_PER_GENERATION, radial, + self.fontcolor(r, g, b, a), self.fontbold(a)) cr.restore() def draw_childring(self, cr): @@ -1075,183 +1265,6 @@ class FanChartWidget(FanChartBaseWidget): self.draw_innerring(cr, child, userdata, startangle, angleinc) startangle += angleinc - def draw_text(self, cr, text, radius, start, stop, radial=False, - fontcolor=(0, 0, 0), bold=False): - """ - Display text at a particular radius, between start and stop - degrees. - """ - cr.save() - font = Pango.FontDescription(self.fontdescr) - fontsize = self.fontsize - font.set_size(fontsize * Pango.SCALE) - if bold: - font.set_weight(Pango.Weight.BOLD) - cr.set_source_rgb(fontcolor[0], fontcolor[1], fontcolor[2]) - if radial and self.radialtext: - cr.save() - layout = self.create_pango_layout(text) - layout.set_font_description(font) - w, h = layout.get_size() - w = w / Pango.SCALE + 5 # 5 pixel padding - h = h / Pango.SCALE + 4 # 4 pixel padding - #first we check if height is ok - degneedheight = h / radius * (180 / math.pi) - degavailheight = stop-start - degoffsetheight = 0 - if degneedheight > degavailheight: - #reduce height - fontsize = degavailheight / degneedheight * fontsize / 2 - font.set_size(fontsize * Pango.SCALE) - layout = self.create_pango_layout(text) - layout.set_font_description(font) - w, h = layout.get_size() - w = w / Pango.SCALE + 5 # 5 pixel padding - h = h / Pango.SCALE + 4 # 4 pixel padding - #first we check if height is ok - degneedheight = h / radius * (180 / math.pi) - degavailheight = stop-start - if degneedheight > degavailheight: - #we could not fix it, no text - text = "" - if text: - #spread rest - degoffsetheight = (degavailheight - degneedheight) / 2 - txlen = len(text) - if w > PIXELS_PER_GENERATION: - txlen = int(w/PIXELS_PER_GENERATION * txlen) - cont = True - while cont: - layout = self.create_pango_layout(text[:txlen]) - layout.set_font_description(font) - w, h = layout.get_size() - w = w / Pango.SCALE + 5 # 5 pixel padding - h = h / Pango.SCALE + 4 # 4 pixel padding - if w > PIXELS_PER_GENERATION: - if txlen <= 1: - cont = False - txlen = 0 - else: - txlen -= 1 - else: - cont = False - # offset for cairo-font system is 90 - rotval = self.rotate_value % 360 - 90 - if (start + rotval) % 360 > 179: - pos = start + degoffsetheight + 90 - 90 - else: - pos = stop - degoffsetheight + 180 - cr.rotate(pos * math.pi / 180) - layout.context_changed() - if (start + rotval) % 360 > 179: - cr.move_to(radius+2, 0) - else: - cr.move_to(-radius-PIXELS_PER_GENERATION+6, 0) - PangoCairo.show_layout(cr, layout) - cr.restore() - else: - # center text: - # 1. determine degrees of the text we can draw - degpadding = 5 / radius * (180 / math.pi) # degrees for 5 pixel padding - degneed = degpadding - maxlen = len(text) - for i in range(len(text)): - layout = self.create_pango_layout(text[i]) - layout.set_font_description(font) - w, h = layout.get_size() - w = w / Pango.SCALE + 2 # 2 pixel padding after letter - h = h / Pango.SCALE + 2 # 2 pixel padding - degneed += w / radius * (180 / math.pi) - if degneed > stop - start: - #outside of the box - maxlen = i - break - # 2. determine degrees over we can distribute before and after - if degneed > stop - start: - degover = 0 - else: - degover = stop - start - degneed - degpadding - # 3. now draw this text, letter per letter - text = text[:maxlen] - - # offset for cairo-font system is 90, padding used is 5: - pos = start + 90 + degpadding + degover / 2 - # Create a PangoLayout, set the font and text - # Draw the layout N_WORDS times in a circle - for i in range(len(text)): - layout = self.create_pango_layout(text[i]) - layout.set_font_description(font) - w, h = layout.get_size() - w = w / Pango.SCALE + 2 # 4 pixel padding after word - h = h / Pango.SCALE + 2 # 4 pixel padding - degneed = w / radius * (180 / math.pi) - if pos+degneed > stop + 90: - #failsafe, outside of the box, redo - break - - cr.save() - cr.rotate(pos * math.pi / 180) - pos = pos + degneed - # Inform Pango to re-layout the text with the new transformation - layout.context_changed() - #width, height = layout.get_size() - #r.move_to(- (width / Pango.SCALE) / 2.0, - radius) - cr.move_to(0, - radius) - PangoCairo.show_layout(cr, layout) - cr.restore() - cr.restore() - - def draw_gradient(self, cr, widget, halfdist): - gradwidth = 10 - gradheight = 10 - starth = 15 - startw = 5 - alloc = self.get_allocation() - x, y, w, h = alloc.x, alloc.y, alloc.width, alloc.height - cr.save() - - cr.translate(-self.center_x, -self.center_y) - - font = Pango.FontDescription(self.fontdescr) - fontsize = self.fontsize - font.set_size(fontsize * Pango.SCALE) - for color, text in zip(self.gradcol, self.gradval): - cr.move_to(startw, starth) - cr.rectangle(startw, starth, gradwidth, gradheight) - cr.set_source_rgb(color[0], color[1], color[2]) - cr.fill() - layout = self.create_pango_layout(text) - layout.set_font_description(font) - cr.move_to(startw+gradwidth+4, starth) - cr.set_source_rgb(0, 0, 0) #black - PangoCairo.show_layout(cr, layout) - starth = starth+gradheight - cr.restore() - - def fontcolor(self, r, g, b): - """ - return the font color based on the r, g, b of the background - """ - try: - return self.cache_fontcolor[(r, g, b)] - except KeyError: - hls = colorsys.rgb_to_hls(r/255, g/255, b/255) - # we use the lightness value to determine white or black font - if hls[1] > 0.4: - self.cache_fontcolor[(r, g, b)] = (0, 0, 0) - else: - self.cache_fontcolor[(r, g, b)] = (255, 255, 255) - return self.cache_fontcolor[(r, g, b)] - - def fontbold(self, a): - """ - The font should be bold if no transparency and font is set. - In that case, True is returned - """ - if a >= 1. and self.filter: - return True - return False - def expand_parents(self, generation, selected, current): if generation >= self.generations: return selected = 2 * selected @@ -1356,6 +1369,8 @@ class FanChartWidget(FanChartBaseWidget): """ returns the person in generation generation at angle. """ + if generation == 0: + return 0 selected = None for p in range(len(self.angle[generation])): if self.data[generation][p][1]: # there is a person there