Mercurial > touhou
view pytouhou/game/text.py @ 741:3555845f8cf4
Make it so we can use more than a single anm0 in an EclRunner.
author | Emmanuel Gil Peyrot <linkmauve@linkmauve.fr> |
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date | Tue, 07 Jan 2020 00:06:18 +0100 |
parents | f2c3848dabff |
children |
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# -*- encoding: utf-8 -*- ## ## Copyright (C) 2011 Emmanuel Gil Peyrot <linkmauve@linkmauve.fr> ## ## 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; version 3 only. ## ## 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. ## from pytouhou.vm import ANMRunner class Glyph(Element): def __init__(self, sprite, pos): Element.__init__(self, pos) self.sprite = sprite class Widget(Element): def __init__(self, pos, back_anm=None, back_script=22): Element.__init__(self, pos) self.changed = True self.frame = 0 # Set up the backround sprite self.back_anm = back_anm if back_anm: self.sprite = Sprite() self.anmrunner = ANMRunner(back_anm, back_script, self.sprite) def normal_update(self): if self.changed: if self.anmrunner is not None and not self.anmrunner.run_frame(): self.anmrunner = None self.changed = False self.frame += 1 class GlyphCollection(Widget): def __init__(self, pos, anm, back_anm=None, ref_script=0, xspacing=14, back_script=22): Widget.__init__(self, pos, back_anm, back_script) self.ref_sprite = Sprite() self.anm = anm self.glyphes = [] self.xspacing = xspacing # Set up ref sprite ANMRunner(anm, ref_script, self.ref_sprite) self.ref_sprite.corner_relative_placement = True #TODO: perhaps not right def set_length(self, length): current_length = len(self.glyphes) if length > current_length: self.glyphes.extend([Glyph(self.ref_sprite.copy(), (self.x + self.xspacing * i, self.y)) for i in range(current_length, length)]) self.objects = [self] + self.glyphes elif length < current_length: self.glyphes[:] = self.glyphes[:length] self.objects = [self] + self.glyphes def set_sprites(self, sprite_indexes): self.set_length(len(sprite_indexes)) for glyph, idx in zip(self.glyphes, sprite_indexes): glyph.sprite.anm = self.anm glyph.sprite.texcoords = self.anm.sprites[idx] glyph.sprite.changed = True def set_color(self, text=None, color=None): if text is not None: colors = {'white': (255, 255, 255), 'yellow': (255, 255, 0), 'blue': (192, 192, 255), 'darkblue': (160, 128, 255), 'purple': (224, 128, 255), 'red': (255, 64, 0)} color = colors[text] else: assert color is not None self.ref_sprite.color = color for glyph in self.glyphes: glyph.sprite.color = color def set_alpha(self, alpha): self.ref_sprite.alpha = alpha for glyph in self.glyphes: glyph.sprite.alpha = alpha class Text(GlyphCollection): def __init__(self, pos, ascii_anm, back_anm=None, text=b'', xspacing=14, shift=21, back_script=22, align='left'): GlyphCollection.__init__(self, pos, ascii_anm, back_anm, xspacing=xspacing, back_script=back_script) self.text = b'' self.shift = shift if align == 'center': self.x -= xspacing * len(text) // 2 elif align == 'right': self.x -= xspacing * len(text) else: assert align == 'left' self.set_text(text) def set_text(self, text): if isinstance(text, str): text = text.encode() if text == self.text: return self.set_sprites([c - self.shift for c in text]) self.text = text self.changed = True def timeout_update(self): GlyphCollection.normal_update(self) if self.frame == self.timeout: self.removed = True def move_timeout_update(self): if self.frame % 2: for glyph in self.glyphes: glyph.y -= 1 self.timeout_update() def fadeout_timeout_update(self): if self.frame >= self.start: if self.frame == self.start: self.fade(self.duration, 255) elif self.frame == self.timeout - self.duration: self.fade(self.duration, 0) self.fade_interpolator.update(self.frame) self.alpha = int(self.fade_interpolator.values[0]) for glyph in self.glyphes: glyph.sprite.alpha = self.alpha glyph.sprite.changed = True self.timeout_update() def fade(self, duration, alpha, formula=None): self.fade_interpolator = Interpolator((self.alpha,), self.frame, (alpha,), self.frame + duration, formula) def set_timeout(self, timeout, effect=None, duration=0, start=0): self.timeout = timeout + start if effect == 'move': self.update = self.move_timeout_update elif effect == 'fadeout': self.alpha = 0 for glyph in self.glyphes: glyph.sprite.alpha = 0 self.update = self.fadeout_timeout_update self.duration = duration self.start = start else: self.update = self.timeout_update class Counter(GlyphCollection): def __init__(self, pos, anm, back_anm=None, script=0, xspacing=16, value=0, back_script=22): GlyphCollection.__init__(self, pos, anm, back_anm=back_anm, ref_script=script, xspacing=xspacing, back_script=back_script) self.value = value self.set_value(value) def set_value(self, value): if value < 0: value = 0 if value == self.value: return self.set_length(value) self.value = value self.changed = True class Gauge(Element): def __init__(self, pos, anm, max_length=280, maximum=1, value=0): Element.__init__(self, pos) self.sprite = Sprite() self.anmrunner = ANMRunner(anm, 21, self.sprite) self.sprite.corner_relative_placement = True #TODO: perhaps not right self.max_length = max_length self.maximum = maximum self.set_value(value) def set_value(self, value): self.value = value self.sprite.width_override = self.max_length * value / self.maximum self.sprite.changed = True #TODO def update(self): #XXX if self.value == 0: self.sprite.visible = False else: self.sprite.visible = True if self.anmrunner is not None and not self.anmrunner.run_frame(): self.anmrunner = None class NativeText(Element): def __init__(self, pos, text, gradient=None, alpha=255, shadow=False, align='left'): self.removed = False self.x, self.y = pos self.text = text self.alpha = alpha self.shadow = shadow self.align = align self.frame = 0 self.gradient = gradient or [(255, 255, 255), (255, 255, 255), (128, 128, 255), (128, 128, 255)] self.update = self.normal_update def normal_update(self): self.frame += 1 def timeout_update(self): self.normal_update() if self.frame == self.timeout: self.removed = True def move_timeout_update(self): if self.frame % 2: self.y -= 1 self.timeout_update() def move_ex_timeout_update(self): if self.frame >= self.start: if self.frame == self.start: self.move_in(self.duration, self.to[0], self.to[1]) elif self.frame == self.timeout - self.duration: self.move_in(self.duration, self.end[0], self.end[1]) if self.offset_interpolator: self.offset_interpolator.update(self.frame) self.x, self.y = self.offset_interpolator.values self.timeout_update() def fadeout_timeout_update(self): if self.frame >= self.start: if self.frame == self.start: self.fade(self.duration, 255) elif self.frame == self.timeout - self.duration: self.fade(self.duration, 0) self.fade_interpolator.update(self.frame) self.alpha = int(self.fade_interpolator.values[0]) self.timeout_update() def fade(self, duration, alpha, formula=None): self.fade_interpolator = Interpolator((self.alpha,), self.frame, (alpha,), self.frame + duration, formula) def move_in(self, duration, x, y, formula=None): self.offset_interpolator = Interpolator((self.x, self.y), self.frame, (x, y), self.frame + duration, formula) def set_timeout(self, timeout, effect=None, duration=0, start=0, to=None, end=None): self.timeout = timeout + start if effect == 'move': self.update = self.move_timeout_update elif effect == 'move_ex': self.update = self.move_ex_timeout_update self.duration = duration self.start = start self.to[:] = [to[0], to[1]] self.end[:] = [end[0], end[1]] elif effect == 'fadeout': self.alpha = 0 self.update = self.fadeout_timeout_update self.duration = duration self.start = start else: self.update = self.timeout_update