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import re |
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import numpy as np |
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import numexpr |
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import pandas as pd |
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from .prompt import check_is_number |
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class DeformAnimKeys(): |
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def __init__(self, anim_args, seed=-1): |
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self.fi = FrameInterpolater(anim_args.max_frames, seed) |
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self.angle_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.angle)) |
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self.transform_center_x_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.transform_center_x)) |
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self.transform_center_y_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.transform_center_y)) |
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self.zoom_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.zoom)) |
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self.translation_x_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.translation_x)) |
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self.translation_y_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.translation_y)) |
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self.translation_z_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.translation_z)) |
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self.rotation_3d_x_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.rotation_3d_x)) |
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self.rotation_3d_y_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.rotation_3d_y)) |
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self.rotation_3d_z_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.rotation_3d_z)) |
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self.perspective_flip_theta_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.perspective_flip_theta)) |
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self.perspective_flip_phi_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.perspective_flip_phi)) |
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self.perspective_flip_gamma_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.perspective_flip_gamma)) |
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self.perspective_flip_fv_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.perspective_flip_fv)) |
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self.noise_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.noise_schedule)) |
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self.strength_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.strength_schedule)) |
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self.contrast_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.contrast_schedule)) |
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self.cfg_scale_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.cfg_scale_schedule)) |
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self.ddim_eta_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.ddim_eta_schedule)) |
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self.ancestral_eta_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.ancestral_eta_schedule)) |
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self.pix2pix_img_cfg_scale_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.pix2pix_img_cfg_scale_schedule)) |
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self.subseed_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.subseed_schedule)) |
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self.subseed_strength_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.subseed_strength_schedule)) |
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self.checkpoint_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.checkpoint_schedule), is_single_string = True) |
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self.steps_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.steps_schedule)) |
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self.seed_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.seed_schedule)) |
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self.sampler_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.sampler_schedule), is_single_string = True) |
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self.clipskip_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.clipskip_schedule)) |
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self.noise_multiplier_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.noise_multiplier_schedule)) |
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self.mask_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.mask_schedule), is_single_string = True) |
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self.noise_mask_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.noise_mask_schedule), is_single_string = True) |
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self.kernel_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.kernel_schedule)) |
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self.sigma_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.sigma_schedule)) |
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self.amount_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.amount_schedule)) |
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self.threshold_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.threshold_schedule)) |
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self.aspect_ratio_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.aspect_ratio_schedule)) |
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self.fov_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.fov_schedule)) |
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self.near_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.near_schedule)) |
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self.cadence_flow_factor_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.cadence_flow_factor_schedule)) |
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self.redo_flow_factor_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.redo_flow_factor_schedule)) |
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self.far_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.far_schedule)) |
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self.hybrid_comp_alpha_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.hybrid_comp_alpha_schedule)) |
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self.hybrid_comp_mask_blend_alpha_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.hybrid_comp_mask_blend_alpha_schedule)) |
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self.hybrid_comp_mask_contrast_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.hybrid_comp_mask_contrast_schedule)) |
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self.hybrid_comp_mask_auto_contrast_cutoff_high_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.hybrid_comp_mask_auto_contrast_cutoff_high_schedule)) |
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self.hybrid_comp_mask_auto_contrast_cutoff_low_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.hybrid_comp_mask_auto_contrast_cutoff_low_schedule)) |
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self.hybrid_flow_factor_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(anim_args.hybrid_flow_factor_schedule)) |
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class ControlNetKeys(): |
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def __init__(self, anim_args, controlnet_args): |
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self.fi = FrameInterpolater(max_frames=anim_args.max_frames) |
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self.schedules = {} |
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for i in range(1, 6): |
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for suffix in ['weight', 'guidance_start', 'guidance_end']: |
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prefix = f"cn_{i}" |
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key = f"{prefix}_{suffix}_schedule_series" |
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self.schedules[key] = self.fi.get_inbetweens(self.fi.parse_key_frames(getattr(controlnet_args, f"{prefix}_{suffix}"))) |
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setattr(self, key, self.schedules[key]) |
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class LooperAnimKeys(): |
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def __init__(self, loop_args, anim_args, seed): |
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self.fi = FrameInterpolater(anim_args.max_frames, seed) |
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self.use_looper = loop_args.use_looper |
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self.imagesToKeyframe = loop_args.init_images |
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self.image_strength_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(loop_args.image_strength_schedule)) |
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self.blendFactorMax_series = self.fi.get_inbetweens(self.fi.parse_key_frames(loop_args.blendFactorMax)) |
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self.blendFactorSlope_series = self.fi.get_inbetweens(self.fi.parse_key_frames(loop_args.blendFactorSlope)) |
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self.tweening_frames_schedule_series = self.fi.get_inbetweens(self.fi.parse_key_frames(loop_args.tweening_frames_schedule)) |
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self.color_correction_factor_series = self.fi.get_inbetweens(self.fi.parse_key_frames(loop_args.color_correction_factor)) |
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class FrameInterpolater(): |
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def __init__(self, max_frames=0, seed=-1) -> None: |
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self.max_frames = max_frames |
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self.seed = seed |
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def sanitize_value(self, value): |
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return value.replace("'","").replace('"',"").replace('(',"").replace(')',"") |
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def get_inbetweens(self, key_frames, integer=False, interp_method='Linear', is_single_string = False): |
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key_frame_series = pd.Series([np.nan for a in range(self.max_frames)]) |
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max_f = self.max_frames -1 |
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s = self.seed |
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for i in range(0, self.max_frames): |
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if i in key_frames: |
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value = key_frames[i] |
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value_is_number = check_is_number(self.sanitize_value(value)) |
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if value_is_number: |
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key_frame_series[i] = self.sanitize_value(value) |
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if not value_is_number: |
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t = i |
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key_frame_series[i] = numexpr.evaluate(value) if not is_single_string else self.sanitize_value(value) |
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elif is_single_string: |
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key_frame_series[i] = key_frame_series[i-1] |
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key_frame_series = key_frame_series.astype(float) if not is_single_string else key_frame_series |
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if interp_method == 'Cubic' and len(key_frames.items()) <= 3: |
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interp_method = 'Quadratic' |
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if interp_method == 'Quadratic' and len(key_frames.items()) <= 2: |
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interp_method = 'Linear' |
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key_frame_series[0] = key_frame_series[key_frame_series.first_valid_index()] |
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key_frame_series[self.max_frames-1] = key_frame_series[key_frame_series.last_valid_index()] |
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key_frame_series = key_frame_series.interpolate(method=interp_method.lower(), limit_direction='both') |
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if integer: |
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return key_frame_series.astype(int) |
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return key_frame_series |
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def parse_key_frames(self, string): |
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frames = dict() |
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for match_object in string.split(","): |
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frameParam = match_object.split(":") |
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max_f = self.max_frames -1 |
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s = self.seed |
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frame = int(self.sanitize_value(frameParam[0])) if check_is_number(self.sanitize_value(frameParam[0].strip())) else int(numexpr.evaluate(frameParam[0].strip().replace("'","",1).replace('"',"",1)[::-1].replace("'","",1).replace('"',"",1)[::-1])) |
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frames[frame] = frameParam[1].strip() |
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if frames == {} and len(string) != 0: |
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raise RuntimeError('Key Frame string not correctly formatted') |
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return frames |
