def _caption_seinfeld(self):
caption = self.text
drawing = Drawing()
drawing.font = 'assets/fonts/NimbusSanL-RegIta.otf'
drawing.font_size = self.width / 14
text = fill(caption, 25)
drawing.fill_color = Color('#000')
drawing.translate(10, self.height / 12)
# the number of shadows depends on image width, with a min of 1
shadows = max(int(self.width / 150), 1)
for _ in range(shadows):
drawing.translate(-1, 1)
drawing.gravity = 'south'
drawing.text(0, 0, text)
drawing.fill_color = Color('#fff')
drawing.text(0, 0, text)
return caption, drawing
def _caption_sanandreas(self):
caption = self.text
drawing = Drawing()
drawing.font = 'assets/fonts/TwCenMTStd-ExtraBold.otf'
drawing.font_size = self.width / 20
drawing.text_interline_spacing = drawing.font_size / 5
drawing.fill_opacity = 0.8
drawing.gravity = 'south'
text = fill(caption, 30)
drawing.fill_color = Color('#000')
offset = drawing.font_size / 12
drawing.translate(offset, self.height / 15)
drawing.text(0, 0, text)
drawing.translate(-offset, offset)
drawing.fill_color = Color('#eee')
drawing.text(0, 0, text)
return caption, drawing
def _caption_akari(self):
caption = 'わぁい{0} あかり{0}大好き'.format(self.text)
drawing = Drawing()
drawing.font = 'assets/fonts/rounded-mgenplus-1c-bold.ttf'
drawing.font_size = self.width / 15
text = fill(caption, 23)
drawing.gravity = 'south'
drawing.text_interline_spacing = drawing.font_size / -5
offset = max(self.width / 400, 2)
# first the shadow
drawing.translate(offset, -offset)
drawing.fill_color = Color('#000')
drawing.fill_opacity = 0.5
drawing.text(0, 0, text)
# then the text
drawing.translate(-offset, offset)
drawing.fill_color = Color('#fff')
drawing.fill_opacity = 1.0
drawing.stroke_color = Color('#000')
drawing.stroke_width = max(self.width / 600, 1)
drawing.text(0, 0, text)
return caption, drawing
def process(self, area: os.DirEntry, city: os.DirEntry, pic: os.DirEntry,
save_dir: str):
# os.DirEntry.name is the picture's filename
filename = pic.name
# Store the absolute path of the current directory
# so that we can return to it when we're done,
# so that the calling function doesn't end up
# with a working directory that is not the same
# as the one it had before the call to process()
return_dir = os.path.abspath(os.curdir)
# os.path.splitext gives us both the file name and
# the extension of the picture. We need the extension
# because we're going to use it to tell Wand
# (and, in turn, ImageMagick) what extension
# to give to the image and we want to retain
# the original one
(name, extension) = os.path.splitext(pic)
text = f'{city.name}({area.name})'
save_name = f'{self.i}-{text}{extension}'
if self.edit:
with Image(filename=filename) as image:
draw = Drawing()
draw.fill_color = "white"
draw.font_size = 90
draw.gravity = "south_east"
draw.text(30, 30, text)
draw.draw(image)
os.chdir(save_dir)
image.save(filename=save_name)
self.i = self.i + 1
else:
copyfile(pic.name, f"{save_dir}/{save_name}")
os.chdir(return_dir)
def generate(count):
# ---------------get three colors-------------------------------
colorString = random.choice(result)
color = []
for i in colorString:
color += [int(i)]
# for i in range(len(color)):
# color[i] = math.floor(color[i]/255*65535)
color1 = color[0:3]
color2 = color[3:6]
color3 = color[6:9]
# --------------------------------------------------------------
# ----------get the base layer texture--------------------------
Scenes = pathwalk('./SceneData')
randomScene = random.choice(Scenes)
randomScene = randomScene[0] + '/' + randomScene[1]
print(randomScene)
randomSceneImage = Image(filename=randomScene)
widthRange = randomSceneImage.size[0] - 100
heightRange = randomSceneImage.size[1] - 32
randomSceneImage.crop(left=random.randint(0, widthRange),
top=random.randint(0, heightRange),
width=100,
height=32)
# randomSceneImage.save(filename='.\\photoWand\\'+str(j+1) + '_texture.jpg')
# --------------------------------------------------------------
# ----------create the base layer, base texture +base color-----
baseImage = Image(
width=100,
height=32,
background=Color('rgb(' + str(color1[0]) + ',' + str(color1[1]) + ',' +
str(color1[2]) + ')'))
# print('base_color = ' + 'rgb('+str(color1[0])+','+str(color1[1])+','+str(color1[2])+')')
baseImage.composite_channel(channel='undefined',
image=randomSceneImage,
operator='blend',
left=0,
top=0)
baseImage.gaussian_blur(4, 10)
baseImage.resolution = (96, 96)
# --------------------------------------------------------------
# -----generate font--------------------------------------------
word = randomWords()
fonts = pathwalk('./fonts/font_en/')
randomFont = random.choice(fonts)
randomFont = randomFont[0] + randomFont[1]
initialPointsize = 45
draw = Drawing()
draw.font = randomFont
tmp = int(math.floor(abs(random.gauss(0, 1)) * 6))
if random.randint(1, 2) == 1:
rotateX = random.randint(0, tmp)
else:
rotateX = random.randint(360 - tmp, 360)
draw.rotate(rotateX)
# --------------------------------------------------------------
# --------get suitable FontPointSize----------------------------
draw.font_size = initialPointsize
metric = draw.get_font_metrics(image=baseImage, text=word)
while metric.text_width > 100 or metric.text_height > 36:
initialPointsize -= 5
draw.font_size = initialPointsize
metric = draw.get_font_metrics(image=baseImage, text=word)
# --------------------------------------------------------------
# ----------italic----------------------------------------------
if random.random() > 0.5:
draw.font_style = 'italic'
# --------------------------------------------------------------
# ----------underline-------------------------------------------
if random.random() > 0.5:
draw.text_decoration = 'underline'
# --------------------------------------------------------------
# ----------gravity---------------------------------------------
draw.gravity = 'center'
# --------------------------------------------------------------
# --------------shadow/border-----------------------------------
if random.random() < 0.5:
# shadow
addx = math.ceil(random.gauss(0, 2))
addy = math.ceil(random.gauss(0, 2))
draw.fill_color = Color('black')
draw.text(x=abs(int(addx)), y=abs(int(addy)), body=word)
else:
# border
draw.stroke_color = Color('rgb(' + str(color3[0]) + ',' +
str(color3[1]) + ',' + str(color3[2]) + ')')
draw.stroke_width = math.ceil(initialPointsize / 10) - 1
# --------------------------------------------------------------
# ----------print word------------------------------------------
draw.fill_color = Color('rgb(' + str(color2[0]) + ',' + str(color2[1]) +
',' + str(color2[2]) + ')')
draw.text(x=0, y=0, body=word)
draw.draw(baseImage)
# --------------------------------------------------------------
# ------------gray----------------------------------------------
baseImage.colorspace = 'gray'
# --------------------------------------------------------------
print(word)
baseImage.save(filename='./photo_en/' + str(count + 1) + '_' + word +
'.jpg')
draw.font_size = initialPointsize
metric = draw.get_font_metrics(image=baseImage, text=word)
# --------------------------------------------------------------
# ----------italic----------------------------------------------
if random.random() > 0.5:
draw.font_style = 'italic'
# --------------------------------------------------------------
# ----------underline-------------------------------------------
if random.random() > 0.5:
draw.text_decoration = 'underline'
# --------------------------------------------------------------
# ----------gravity---------------------------------------------
draw.gravity = 'center'
# --------------------------------------------------------------
# --------------shadow/border-----------------------------------
if random.random() < 0.5:
# shadow
addx = math.ceil(random.gauss(0, 2))
addy = math.ceil(random.gauss(0, 2))
draw.fill_color = Color('black')
draw.text(x=abs(addx), y=abs(addy), body=word)
else:
# border
draw.stroke_color = Color('rgb('+str(color3[0])+','+str(color3[1])+','+str(color3[2])+')')
draw.stroke_width = math.ceil(initialPointsize/10)-1
# --------------------------------------------------------------
draw.font_size = initialPointsize
metric = draw.get_font_metrics(image=baseImage, text=word)
# --------------------------------------------------------------
# ----------italic----------------------------------------------
if random.random() > 0.5:
draw.font_style = 'italic'
# --------------------------------------------------------------
# ----------underline-------------------------------------------
if random.random() > 0.5:
draw.text_decoration = 'underline'
# --------------------------------------------------------------
# ----------gravity---------------------------------------------
draw.gravity = 'center'
# --------------------------------------------------------------
# --------------shadow/border-----------------------------------
if random.random() < 0.5:
# shadow
addx = math.ceil(random.gauss(0, 2))
addy = math.ceil(random.gauss(0, 2))
draw.fill_color = Color('black')
draw.text(x=abs(addx), y=abs(addy), body=word)
else:
# border
draw.stroke_color = Color('rgb(' + str(color3[0]) + ',' +
str(color3[1]) + ',' + str(color3[2]) + ')')
draw.stroke_width = math.ceil(initialPointsize / 10) - 1
def generate(count):
# ---------------get three colors-------------------------------
colorString = random.choice(result)
color = []
for i in colorString:
color += [int(i)]
# for i in range(len(color)):
# color[i] = math.floor(color[i]/255*65535)
color1 = color[0:3]
color2 = color[3:6]
color3 = color[6:9]
# --------------------------------------------------------------
# ----------get the base layer texture--------------------------
Scenes = pathwalk('./SceneData')
randomScene = random.choice(Scenes)
randomScene = randomScene[0] + '/' + randomScene[1]
print(randomScene)
randomSceneImage = Image(filename=randomScene)
widthRange = randomSceneImage.size[0] - 100
heightRange = randomSceneImage.size[1] - 32
randomSceneImage.crop(left=random.randint(0, widthRange), top=random.randint(0, heightRange), width=100, height=32)
# randomSceneImage.save(filename='.\\photoWand\\'+str(j+1) + '_texture.jpg')
# --------------------------------------------------------------
# ----------create the base layer, base texture +base color-----
baseImage = Image(width=100, height=32, background=Color('rgb('+str(color1[0])+','+str(color1[1])+','+str(color1[2])+')'))
# print('base_color = ' + 'rgb('+str(color1[0])+','+str(color1[1])+','+str(color1[2])+')')
baseImage.composite_channel(channel='undefined', image=randomSceneImage, operator='blend', left=0, top=0)
baseImage.gaussian_blur(4, 10)
baseImage.resolution = (96, 96)
# --------------------------------------------------------------
# -----generate font--------------------------------------------
word = randomWords()
fonts = pathwalk('./fonts/font_en/')
randomFont = random.choice(fonts)
randomFont = randomFont[0] + randomFont[1]
initialPointsize = 45
draw = Drawing()
draw.font = randomFont
tmp = int(math.floor(abs(random.gauss(0, 1))*6))
if random.randint(1, 2) == 1:
rotateX = random.randint(0, tmp)
else:
rotateX = random.randint(360-tmp, 360)
draw.rotate(rotateX)
# --------------------------------------------------------------
# --------get suitable FontPointSize----------------------------
draw.font_size = initialPointsize
metric = draw.get_font_metrics(image=baseImage, text=word)
while metric.text_width > 100 or metric.text_height > 36:
initialPointsize -= 5
draw.font_size = initialPointsize
metric = draw.get_font_metrics(image=baseImage, text=word)
# --------------------------------------------------------------
# ----------italic----------------------------------------------
if random.random() > 0.5:
draw.font_style = 'italic'
# --------------------------------------------------------------
# ----------underline-------------------------------------------
if random.random() > 0.5:
draw.text_decoration = 'underline'
# --------------------------------------------------------------
# ----------gravity---------------------------------------------
draw.gravity = 'center'
# --------------------------------------------------------------
# --------------shadow/border-----------------------------------
if random.random() < 0.5:
# shadow
addx = math.ceil(random.gauss(0, 2))
addy = math.ceil(random.gauss(0, 2))
draw.fill_color = Color('black')
draw.text(x=abs(int(addx)), y=abs(int(addy)), body=word)
else:
# border
draw.stroke_color = Color('rgb('+str(color3[0])+','+str(color3[1])+','+str(color3[2])+')')
draw.stroke_width = math.ceil(initialPointsize/10)-1
# --------------------------------------------------------------
# ----------print word------------------------------------------
draw.fill_color = Color('rgb('+str(color2[0])+','+str(color2[1])+','+str(color2[2])+')')
draw.text(x=0, y=0, body=word)
draw.draw(baseImage)
# --------------------------------------------------------------
# ------------gray----------------------------------------------
baseImage.colorspace = 'gray'
# --------------------------------------------------------------
print(word)
baseImage.save(filename='./photo_en/'+str(count+1)+'_'+word+'.jpg')
