def convert(self, image): img = np.array(image) lip_u = img[:112, 100:300] arrx = np.sin(np.linspace(0, np.pi / 2, 100) + np.pi / 8)**2 * 80 - 20 arrx[-20:] += np.sin(np.linspace(0, np.pi / 2, 20)) * 10 arry = np.zeros(100) lip_u = improc.affine_transform(lip_u, arrx, arry) arrx = np.sin(np.linspace(0, 1, 100))**4 * 150 - 20 lip_u = improc.affine_transform(np.rot90(lip_u), arrx, arry) lip_u = np.rot90(lip_u, -1) lip_u = improc.resize(lip_u[20:103, 25:-22], [1.25, 1.25]) lip_u = np.uint8(lip_u * 255) lip_l = img[112:, 100:300] arrx = np.sin(np.linspace(0, np.pi / 2, 100))**1 * -70 arry = np.zeros(100) lip_l = improc.affine_transform(lip_l, arrx, arry) arrx = np.linspace(1, 0, 100)**3 * 80 lip_l = improc.affine_transform(np.rot90(lip_l), arrx, arry) lip_l = np.rot90(lip_l, -1) lip_l = improc.resize(lip_l[5:, 50:-5], [1.05, 1.25]) lip_l = np.uint8(lip_l * 255) img = np.concatenate([lip_u[:, 10:-1], lip_l[:, :-1]], axis=0) img = improc.mirror(img, axis=1) return improc.resize(Image.fromarray(img), [0.92, 1.])
def convert(self, image): mask = Image.open(self.mask_tex) image = np.array(image) image = improc.resize(improc.rotate(image, 37.2), [.76, .76]) image = Image.fromarray(np.uint8(image * 255)) image = improc.masking(image, mask) return image
def convert(self, image): mask = Image.open(self.mask_tex) image = improc.resize(image, [.66, 1.07]) image = np.array(image) image = improc.rotate(image, -5, resize=True) image = Image.fromarray(np.uint8(image * 255)) image = improc.masking(image, mask) return image
def convert(self, image): image = np.array(image) [r, c, d] = image.shape image = image[:, :int(c / 2)] arrx = np.sin(np.linspace(0, np.pi / 2, 36))**2 * 150 arry = np.zeros(36) image = improc.affine_transform(image, arrx, arry) image = Image.fromarray(np.uint8(image * 255)) image = improc.mirror(image, axis=1) return improc.resize(image, [.32, .38])
def convert(self, image): img = np.array(image) lip_u = img[:112, 100:300] lip_l = img[112:, 100:300] arrx = np.sin(np.linspace(0, np.pi / 2, 100) + np.pi / 8)**2 * 100 - 20 arry = np.zeros(100) lip_u = improc.affine_transform(lip_u, arrx, arry) arrx = np.sin(np.linspace(0, 1, 100))**2 * 100 - 20 lip_u = improc.affine_transform(np.rot90(lip_u), arrx, arry) lip_u = np.rot90(lip_u, -1)[:, 25:-18] arrx = np.sin(np.linspace(0, np.pi / 2, 100))**1 * -70 arry = np.zeros(100) lip_l = improc.affine_transform(lip_l, arrx, arry) arrx = np.linspace(1, 0, 100)**3 * 80 lip_l = improc.affine_transform(np.rot90(lip_l), arrx, arry) lip_l = np.rot90(lip_l, -1) img = np.concatenate([lip_u[:-20, :], lip_l[10:, 43:]], axis=0) img = improc.mirror(img, axis=1) img = Image.fromarray(np.uint8(img * 255)) return improc.resize(img, [0.9, 0.6])
def convert(self, image): return improc.resize(image, [.7, .7])
def convert(self, image): return improc.resize(image, [.32, .32])
def convert(self, image): return improc.resize(image, [.21, .21])
def convert(self, image): img = np.array(image) img[:, 1350:-1350] = np.roll(img[:, 1350:-1350], 250, axis=0) # nose move img = Image.fromarray(img) return improc.resize(img, [.15, .15])
def convert(self, image): image = image.crop((300, 470, 500, 500)) return improc.resize(image, [4.3, 4.3])
def convert(self, image): return improc.resize(improc.mirror(image), [0.3, 0.8])
def convert(self, image): return improc.resize(image, [0.82, 0.82])
def convert(self, image): image = np.array(image) image[:, 1350:-1350] = np.roll(image[:, 1350:-1350], 100, axis=0) # nose move image = Image.fromarray(image) return improc.resize(image, [.25, .25])
def convert(self, image): image = np.array(image) image = rotate(image, 3, resize=True) image = Image.fromarray(np.uint8(image * 255)) return improc.resize(image, [.5, .5])
def convert(self, image): return improc.resize(image, [1., .86])
def convert(self, image): return improc.resize(image, [.5, .5])
def convert(self, image): return improc.resize(image, [0.66, 0.7])