# AnalogClock's base classes # E. A. Tacao # http://j.domaindlx.com/elements28/wxpython/ # 15 Fev 2006, 22:00 GMT-03:00 # Distributed under the wxWidgets license. # Tags: phoenix-port from time import strftime, localtime import math import wx from styles import * #---------------------------------------------------------------------- _targets = [HOUR, MINUTE, SECOND] #---------------------------------------------------------------------- class Element: """Base class for face, hands and tick marks.""" def __init__(self, idx=0, pos=None, size=None, offset=0, clocksize=None, scale=1, rotate=False, kind=""): self.idx = idx self.pos = pos self.size = size self.offset = offset self.clocksize = clocksize self.scale = scale self.rotate = rotate self.kind = kind self.text = None self.angfac = [6, 30][self.kind == "hours"] def _pol2rect(self, m, t): return m * math.cos(math.radians(t)), m * math.sin(math.radians(t)) def _rect2pol(self, x, y): return math.hypot(x, y), math.degrees(math.atan2(y, x)) def DrawRotated(self, dc, offset=0): pass def DrawStraight(self, dc, offset=0): pass def Draw(self, dc, offset=0): if self.rotate: self.DrawRotated(dc, offset) else: self.DrawStraight(dc, offset) def RecalcCoords(self, clocksize, centre, scale): pass def GetSize(self): return self.size def GetOffset(self): return self.offset def GetIsRotated(self, rotate): return self.rotate def GetMaxSize(self, scale=1): return self.size * scale def GetScale(self): return self.scale def SetIsRotated(self, rotate): self.rotate = rotate def GetMaxSize(self, scale=1): return self.size * scale def GetPolygon(self): return self.polygon def SetPosition(self, pos): self.pos = pos def SetSize(self, size): self.size = size def SetOffset(self, offset): self.offset = offset def SetClockSize(self, clocksize): self.clocksize = clocksize def SetScale(self, scale): self.scale = scale def SetIsRotated(self, rotate): self.rotate = rotate def SetPolygon(self, polygon): self.polygon = polygon #---------------------------------------------------------------------- class ElementWithDyer(Element): """Base class for clock face and hands.""" def __init__(self, **kwargs): self.dyer = kwargs.pop("dyer", Dyer()) Element.__init__(self, **kwargs) def GetFillColour(self): return self.dyer.GetFillColour() def GetBorderColour(self): return self.dyer.GetBorderColour() def GetBorderWidth(self): return self.dyer.GetBorderWidth() def GetShadowColour(self): return self.dyer.GetShadowColour() def SetFillColour(self, colour): self.dyer.SetFillColour(colour) def SetBorderColour(self, colour): self.dyer.SetBorderColour(colour) def SetBorderWidth(self, width): self.dyer.SetBorderWidth(width) def SetShadowColour(self, colour): self.dyer.SetShadowColour(colour) #---------------------------------------------------------------------- class Face(ElementWithDyer): """Holds info about the clock face.""" def __init__(self, **kwargs): ElementWithDyer.__init__(self, **kwargs) def Draw(self, dc): self.dyer.Select(dc) dc.DrawCircle(self.pos.x, self.pos.y, self.radius) def RecalcCoords(self, clocksize, centre, scale): self.radius = min(clocksize.Get()) / 2. - self.dyer.width / 2. self.pos = centre #---------------------------------------------------------------------- class Hand(ElementWithDyer): """Holds info about a clock hand.""" def __init__(self, **kwargs): self.lenfac = kwargs.pop("lenfac") ElementWithDyer.__init__(self, **kwargs) self.SetPolygon([[-1, 0], [0, -1], [1, 0], [0, 4]]) def Draw(self, dc, end, offset=0): radius, centre, r = end angle = math.degrees(r) polygon = self.polygon[:] vscale = radius / max([y for x, y in polygon]) for i, (x, y) in enumerate(polygon): x *= self.scale * self.size y *= vscale * self.lenfac m, t = self._rect2pol(x, y) polygon[i] = self._pol2rect(m, t - angle) dc.DrawPolygon(polygon, centre.x + offset, centre.y + offset) def RecalcCoords(self, clocksize, centre, scale): self.pos = centre self.scale = scale #---------------------------------------------------------------------- class TickSquare(Element): """Holds info about a tick mark.""" def __init__(self, **kwargs): Element.__init__(self, **kwargs) def Draw(self, dc, offset=0): width = height = self.size * self.scale x = self.pos.x - width / 2. y = self.pos.y - height / 2. dc.DrawRectangle(x + offset, y + offset, width, height) #---------------------------------------------------------------------- class TickCircle(Element): """Holds info about a tick mark.""" def __init__(self, **kwargs): Element.__init__(self, **kwargs) def Draw(self, dc, offset=0): radius = self.size * self.scale / 2. x = self.pos.x y = self.pos.y dc.DrawCircle(x + offset, y + offset, radius) #---------------------------------------------------------------------- class TickPoly(Element): """Holds info about a tick mark.""" def __init__(self, **kwargs): Element.__init__(self, **kwargs) self.SetPolygon([[0, 1], [1, 0], [2, 1], [1, 5]]) def _calcPolygon(self): width = max([x for x, y in self.polygon]) height = max([y for x, y in self.polygon]) tscale = self.size / max(width, height) * self.scale polygon = [(x * tscale, y * tscale) for x, y in self.polygon] width = max([x for x, y in polygon]) height = max([y for x, y in polygon]) return polygon, width, height def DrawStraight(self, dc, offset=0): polygon, width, height = self._calcPolygon() x = self.pos.x - width / 2. y = self.pos.y - height / 2. dc.DrawPolygon(polygon, x + offset, y + offset) def DrawRotated(self, dc, offset=0): polygon, width, height = self._calcPolygon() angle = 360 - self.angfac * (self.idx + 1) r = math.radians(angle) for i in range(len(polygon)): m, t = self._rect2pol(*polygon[i]) t -= angle polygon[i] = self._pol2rect(m, t) x = self.pos.x - math.cos(r) * width / 2. - math.sin(r) * height / 2. y = self.pos.y - math.cos(r) * height / 2. + math.sin(r) * width / 2. dc.DrawPolygon(polygon, x + offset, y + offset) #---------------------------------------------------------------------- class TickDecimal(Element): """Holds info about a tick mark.""" def __init__(self, **kwargs): Element.__init__(self, **kwargs) self.text = "%s" % (self.idx + 1) def DrawStraight(self, dc, offset=0): width, height = dc.GetTextExtent(self.text) x = self.pos.x - width / 2. y = self.pos.y - height / 2. dc.DrawText(self.text, x + offset, y + offset) def DrawRotated(self, dc, offset=0): width, height = dc.GetTextExtent(self.text) angle = 360 - self.angfac * (self.idx + 1) r = math.radians(angle) x = self.pos.x - math.cos(r) * width / 2. - math.sin(r) * height / 2. y = self.pos.y - math.cos(r) * height / 2. + math.sin(r) * width / 2. dc.DrawRotatedText(self.text, x + offset, y + offset, angle) #---------------------------------------------------------------------- class TickRoman(TickDecimal): """Holds info about a tick mark.""" def __init__(self, **kwargs): TickDecimal.__init__(self, **kwargs) self.text = ["I","II","III","IV","V", \ "VI","VII","VIII","IX","X", \ "XI","XII","XIII","XIV","XV", \ "XVI","XVII","XVIII","XIX","XX", \ "XXI","XXII","XXIII","XXIV","XXV", \ "XXVI","XXVII","XXVIII","XXIX","XXX", \ "XXXI","XXXII","XXXIII","XXXIV","XXXV", \ "XXXVI","XXXVII","XXXVIII","XXXIX","XL", \ "XLI","XLII","XLIII","XLIV","XLV", \ "XLVI","XLVII","XLVIII","XLIX","L", \ "LI","LII","LIII","LIV","LV", \ "LVI","LVII","LVIII","LIX","LX"][self.idx] #---------------------------------------------------------------------- class TickBinary(TickDecimal): """Holds info about a tick mark.""" def __init__(self, **kwargs): TickDecimal.__init__(self, **kwargs) def d2b(n, b=""): while n > 0: b = str(n % 2) + b; n = n >> 1 return b.zfill(4) self.text = d2b(self.idx + 1) #---------------------------------------------------------------------- class TickHex(TickDecimal): """Holds info about a tick mark.""" def __init__(self, **kwargs): TickDecimal.__init__(self, **kwargs) self.text = hex(self.idx + 1)[2:].upper() #---------------------------------------------------------------------- class TickNone(Element): """Holds info about a tick mark.""" def __init__(self, **kwargs): Element.__init__(self, **kwargs) def Draw(self, dc, offset=0): pass #---------------------------------------------------------------------- class Dyer: """Stores info about colours and borders of clock Elements.""" def __init__(self, border=None, width=0, fill=None, shadow=None): """ self.border (wx.Colour) border colour self.width (int) border width self.fill (wx.Colour) fill colour self.shadow (wx.Colour) shadow colour """ self.border = border or \ wx.SystemSettings.GetColour(wx.SYS_COLOUR_WINDOWTEXT) self.fill = fill or \ wx.SystemSettings.GetColour(wx.SYS_COLOUR_WINDOWTEXT) self.shadow = shadow or \ wx.SystemSettings.GetColour(wx.SYS_COLOUR_3DSHADOW) self.width = width def Select(self, dc, shadow=False): """Selects the current settings into the dc.""" if not shadow: dc.SetPen(wx.Pen(self.border, self.width, wx.PENSTYLE_SOLID)) dc.SetBrush(wx.Brush(self.fill, wx.BRUSHSTYLE_SOLID)) dc.SetTextForeground(self.fill) else: dc.SetPen(wx.Pen(self.shadow, self.width, wx.PENSTYLE_SOLID)) dc.SetBrush(wx.Brush(self.shadow, wx.BRUSHSTYLE_SOLID)) dc.SetTextForeground(self.shadow) def GetFillColour(self): return self.fill def GetBorderColour(self): return self.border def GetBorderWidth(self): return self.width def GetShadowColour(self): return self.shadow def SetFillColour(self, colour): self.fill = colour def SetBorderColour(self, colour): self.border = colour def SetBorderWidth(self, width): self.width = width def SetShadowColour(self, colour): self.shadow = colour #---------------------------------------------------------------------- class HandSet: """Manages the set of hands.""" def __init__(self, parent, h, m, s): self.parent = parent self.hands = [h, m, s] self.radius = 1 self.centre = wx.Point(1, 1) def _draw(self, dc, shadow=False): ends = [int(x) for x in strftime("%I %M %S", localtime()).split()] flags = [self.parent.clockStyle & flag \ for flag in self.parent.allHandStyles] a_hand = self.hands[0] if shadow: offset = self.parent.shadowOffset * a_hand.GetScale() else: offset = 0 for i, hand in enumerate(self.hands): # Is this hand supposed to be drawn? if flags[i]: idx = ends[i] # Is this the hours hand? if i == 0: idx = idx * 5 + ends[1] / 12 - 1 # else prevent exceptions on leap seconds elif idx <= 0 or idx > 60: idx = 59 # and adjust idx offset for minutes and non-leap seconds else: idx = idx - 1 angle = math.radians(180 - 6 * (idx + 1)) hand.dyer.Select(dc, shadow) hand.Draw(dc, (self.radius, self.centre, angle), offset) def Draw(self, dc): if self.parent.clockStyle & SHOW_SHADOWS: self._draw(dc, True) self._draw(dc) def RecalcCoords(self, clocksize, centre, scale): self.centre = centre [hand.RecalcCoords(clocksize, centre, scale) for hand in self.hands] def SetMaxRadius(self, radius): self.radius = radius def GetSize(self, target): r = [] for i, hand in enumerate(self.hands): if _targets[i] & target: r.append(hand.GetSize()) return tuple(r) def GetFillColour(self, target): r = [] for i, hand in enumerate(self.hands): if _targets[i] & target: r.append(hand.GetFillColour()) return tuple(r) def GetBorderColour(self, target): r = [] for i, hand in enumerate(self.hands): if _targets[i] & target: r.append(hand.GetBorderColour()) return tuple(r) def GetBorderWidth(self, target): r = [] for i, hand in enumerate(self.hands): if _targets[i] & target: r.append(hand.GetBorderWidth()) return tuple(r) def GetShadowColour(self): r = [] for i, hand in enumerate(self.hands): if _targets[i] & target: r.append(hand.GetShadowColour()) return tuple(r) def SetSize(self, size, target): for i, hand in enumerate(self.hands): if _targets[i] & target: hand.SetSize(size) def SetFillColour(self, colour, target): for i, hand in enumerate(self.hands): if _targets[i] & target: hand.SetFillColour(colour) def SetBorderColour(self, colour, target): for i, hand in enumerate(self.hands): if _targets[i] & target: hand.SetBorderColour(colour) def SetBorderWidth(self, width, target): for i, hand in enumerate(self.hands): if _targets[i] & target: hand.SetBorderWidth(width) def SetShadowColour(self, colour): for i, hand in enumerate(self.hands): hand.SetShadowColour(colour) #---------------------------------------------------------------------- class TickSet: """Manages a set of tick marks.""" def __init__(self, parent, **kwargs): self.parent = parent self.dyer = Dyer() self.noe = {"minutes": 60, "hours": 12}[kwargs["kind"]] self.font = wx.SystemSettings.GetFont(wx.SYS_DEFAULT_GUI_FONT) style = kwargs.pop("style") self.kwargs = kwargs self.SetStyle(style) def _draw(self, dc, shadow=False): dc.SetFont(self.font) a_tick = self.ticks[0] if shadow: offset = self.parent.shadowOffset * a_tick.GetScale() else: offset = 0 clockStyle = self.parent.clockStyle for idx, tick in self.ticks.items(): draw = False # Are we a set of hours? if self.noe == 12: # Should we show all hours ticks? if clockStyle & SHOW_HOURS_TICKS: draw = True # Or is this tick a quarter and should we show only quarters? elif clockStyle & SHOW_QUARTERS_TICKS and not (idx + 1) % 3.: draw = True # Are we a set of minutes and minutes should be shown? elif self.noe == 60 and clockStyle & SHOW_MINUTES_TICKS: # If this tick occupies the same position of an hour/quarter # tick, should we still draw it anyway? if clockStyle & OVERLAP_TICKS: draw = True # Right, sir. I promise I won't overlap any tick. else: # Ensure that this tick won't overlap an hour tick. if clockStyle & SHOW_HOURS_TICKS: if (idx + 1) % 5.: draw = True # Ensure that this tick won't overlap a quarter tick. elif clockStyle & SHOW_QUARTERS_TICKS: if (idx + 1) % 15.: draw = True # We're not drawing quarters nor hours, so we can draw all # minutes ticks. else: draw = True if draw: tick.Draw(dc, offset) def Draw(self, dc): if self.parent.clockStyle & SHOW_SHADOWS: self.dyer.Select(dc, True) self._draw(dc, True) self.dyer.Select(dc) self._draw(dc) def RecalcCoords(self, clocksize, centre, scale): a_tick = self.ticks[0] size = a_tick.GetMaxSize(scale) maxsize = size # Try to find a 'good' max size for text-based ticks. if a_tick.text is not None: self.font.SetPointSize(size) dc = wx.MemoryDC() dc.SelectObject(wx.Bitmap(*clocksize.Get())) dc.SetFont(self.font) maxsize = size for tick in self.ticks.values(): maxsize = max(*(dc.GetTextExtent(tick.text) + (maxsize,))) radius = self.radius = min(clocksize.Get()) / 2. - \ self.dyer.width / 2. - \ maxsize / 2. - \ a_tick.GetOffset() * scale - \ self.parent.shadowOffset * scale # If we are a set of hours, the number of elements of this tickset is # 12 and ticks are separated by a distance of 30 degrees; # if we are a set of minutes, the number of elements of this tickset is # 60 and ticks are separated by a distance of 6 degrees. angfac = [6, 30][self.noe == 12] for i, tick in self.ticks.items(): tick.SetClockSize(clocksize) tick.SetScale(scale) deg = 180 - angfac * (i + 1) angle = math.radians(deg) x = centre.x + radius * math.sin(angle) y = centre.y + radius * math.cos(angle) tick.SetPosition(wx.Point(x, y)) def GetSize(self): return self.kwargs["size"] def GetFillColour(self): return self.dyer.GetFillColour() def GetBorderColour(self): return self.dyer.GetBorderColour() def GetBorderWidth(self): return self.dyer.GetBorderWidth() def GetPolygon(self): a_tick = self.ticks.values()[0] return a_tick.GetPolygon() def GetFont(self): return self.font def GetOffset(self): a_tick = self.ticks[0] return a_tick.GetOffset() def GetShadowColour(self): return self.dyer.GetShadowColour() def GetIsRotated(self): a_tick = self.ticks[0] return a_tick.GetIsRotated() def GetStyle(self): return self.style def SetSize(self, size): self.kwargs["size"] = size [tick.SetSize(size) for tick in self.ticks.values()] def SetFillColour(self, colour): self.dyer.SetFillColour(colour) def SetBorderColour(self, colour): self.dyer.SetBorderColour(colour) def SetBorderWidth(self, width): self.dyer.SetBorderWidth(width) def SetPolygon(self, polygon): [tick.SetPolygon(polygon) for tick in self.ticks.values()] def SetFont(self, font): self.font = font def SetOffset(self, offset): self.kwargs["offset"] = offset [tick.SetOffset(offset) for tick in self.ticks.values()] def SetShadowColour(self, colour): self.dyer.SetShadowColour(colour) def SetIsRotated(self, rotate): self.kwargs["rotate"] = rotate [tick.SetIsRotated(rotate) for tick in self.ticks.values()] def SetStyle(self, style): self.style = style tickclass = allTickStyles[style] self.kwargs["rotate"] = self.parent.clockStyle & ROTATE_TICKS self.ticks = {} for i in range(self.noe): self.kwargs["idx"] = i self.ticks[i] = tickclass(**self.kwargs) #---------------------------------------------------------------------- class Box: """Gathers info about the clock face and tick sets.""" def __init__(self, parent, Face, TicksM, TicksH): self.parent = parent self.Face = Face self.TicksH = TicksH self.TicksM = TicksM def GetNiceRadiusForHands(self, centre): a_tick = self.TicksM.ticks[0] scale = a_tick.GetScale() bw = max(self.TicksH.dyer.width / 2. * scale, self.TicksM.dyer.width / 2. * scale) mgt = self.TicksM.ticks[59] my = mgt.pos.y + mgt.GetMaxSize(scale) + bw hgt = self.TicksH.ticks[11] hy = hgt.pos.y + hgt.GetMaxSize(scale) + bw niceradius = centre.y - max(my, hy) return niceradius def Draw(self, dc): [getattr(self, attr).Draw(dc) \ for attr in ["Face", "TicksM", "TicksH"]] def RecalcCoords(self, size, centre, scale): [getattr(self, attr).RecalcCoords(size, centre, scale) \ for attr in ["Face", "TicksH", "TicksM"]] def GetTickSize(self, target): r = [] for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) r.append(tick.GetSize()) return tuple(r) def GetTickFillColour(self, target): r = [] for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) r.append(tick.GetFillColour()) return tuple(r) def GetTickBorderColour(self, target): r = [] for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) r.append(tick.GetBorderColour()) return tuple(r) def GetTickBorderWidth(self, target): r = [] for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) r.append(tick.GetBorderWidth()) return tuple(r) def GetTickPolygon(self, target): r = [] for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) r.append(tick.GetPolygon()) return tuple(r) def GetTickFont(self, target): r = [] for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) r.append(tick.GetFont()) return tuple(r) def GetIsRotated(self): a_tickset = self.TicksH return a_tickset.GetIsRotated() def GetTickOffset(self, target): r = [] for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) r.append(tick.GetOffset()) return tuple(r) def GetShadowColour(self): a_tickset = self.TicksH return a_tickset.GetShadowColour() def GetTickStyle(self, target): r = [] for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) r.append(tick.GetStyle()) return tuple(r) def SetTickSize(self, size, target): for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) tick.SetSize(size) def SetTickFillColour(self, colour, target): for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) tick.SetFillColour(colour) def SetTickBorderColour(self, colour, target): for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) tick.SetBorderColour(colour) def SetTickBorderWidth(self, width, target): for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) tick.SetBorderWidth(width) def SetTickPolygon(self, polygon, target): for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) tick.SetPolygon(polygon) def SetTickFont(self, font, target): fs = font.GetNativeFontInfoDesc() for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) tick.SetFont(wx.FontFromNativeInfoString(fs)) def SetIsRotated(self, rotate): [getattr(self, attr).SetIsRotated(rotate) \ for attr in ["TicksH", "TicksM"]] def SetTickOffset(self, offset, target): for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) tick.SetOffset(offset) def SetShadowColour(self, colour): for attr in ["TicksH", "TicksM"]: tick = getattr(self, attr) tick.SetShadowColour(colour) def SetTickStyle(self, style, target): for i, attr in enumerate(["TicksH", "TicksM"]): if _targets[i] & target: tick = getattr(self, attr) tick.SetStyle(style) #---------------------------------------------------------------------- # Relationship between styles and ticks class names. allTickStyles = {TICKS_BINARY: TickBinary, TICKS_CIRCLE: TickCircle, TICKS_DECIMAL: TickDecimal, TICKS_HEX: TickHex, TICKS_NONE: TickNone, TICKS_POLY: TickPoly, TICKS_ROMAN: TickRoman, TICKS_SQUARE: TickSquare} # ## ### eof