import numpy as np import torch from PIL import Image as PILImage, ImageColor, ImageDraw, ImageFont from typing_extensions import override from comfy_api.latest import ComfyExtension, IO class TextOverlay(IO.ComfyNode): @classmethod def define_schema(cls): return IO.Schema( node_id="TextOverlay", display_name="Text Overlay", category="image/text", description="Overlay text on an image or batch of images.", search_aliases=["text", "label", "caption", "subtitle", "watermark", "title", "addlabel", "overlay"], inputs=[ IO.Image.Input("image"), IO.String.Input("text", multiline=True, default=""), IO.Combo.Input("position", options=["top", "bottom"], default="top"), IO.Combo.Input("align", options=["left", "center", "right"], default="left"), IO.Float.Input("font_size_percent", default=5.0, min=0.5, max=50.0, step=0.5, tooltip="Font size as a percentage of the image height.", advanced=True), #IO.Combo.Input("text_color", options=["white", "black", "red", "green", "blue", "yellow", "cyan", "magenta", "gray"], default="white", tooltip="Color of the text.", advanced=True), #IO.Combo.Input("outline_color", options=["auto", "none", "black", "white", "red", "green", "blue", "yellow"], default="auto", tooltip="Color of the text outline.", advanced=True), #IO.Float.Input("background_opacity", default=0.0, min=0.0, max=1.0, step=0.05, tooltip="Opacity of the background behind the text (0 = transparent, 1 = solid).", advanced=True), ], outputs=[IO.Image.Output()], ) @classmethod def execute(cls, image, text, position="top", align="left", font_size_percent=5.0, text_color="white", outline_color="auto", margin_percent=1.0, line_spacing=1.2, background_opacity=0.0, min_font_percent=2.0, outline_thickness_factor=0.04) -> IO.NodeOutput: if text.strip() == "": return IO.NodeOutput(image) text = text.replace("\\n", "\n").replace("\\t", "\t") try: text_color = ImageColor.getrgb(text_color)[:3] except ValueError: text_color = (255, 255, 255) luminance = 0.299 * text_color[0] + 0.587 * text_color[1] + 0.114 * text_color[2] contrast_color = (0, 0, 0) if luminance > 40 else (255, 255, 255) choice = outline_color.lower() if choice == "none": outline_color = None elif choice == "auto": outline_color = contrast_color else: outline_color = ImageColor.getrgb(outline_color)[:3] background_color = contrast_color if outline_color is None else outline_color frames = [cls.render_text_on_frame(frame, text, position, align, font_size_percent, margin_percent, text_color, outline_color, background_color, line_spacing, background_opacity, min_font_percent, outline_thickness_factor) for frame in image] return IO.NodeOutput(torch.stack(frames, dim=0)) @classmethod def render_text_on_frame(cls, frame, text, position="top", align="left", font_size_percent=5.0, margin_percent=1.0, text_color="white", outline_color="auto", background_color=None, line_spacing=1.2, background_opacity=0.0, min_font_percent=2.0, outline_thickness_factor=0.04, min_font_px=10): pil_image = PILImage.fromarray((frame.clamp(0.0, 1.0).cpu().numpy() * 255.0).astype(np.uint8), mode="RGB") width, height = pil_image.width, pil_image.height draw = ImageDraw.Draw(pil_image) margin = int(round(margin_percent / 100.0 * min(width, height))) max_width = max(1, width - 2 * margin) max_height = max(1, height - 2 * margin) # Font scales with resolution, then shrinks to fit the height. size = max(1, int(round(font_size_percent / 100.0 * height))) floor = min(size, max(min_font_px, int(round(min_font_percent / 100.0 * height)))) while True: font = ImageFont.load_default(size=size) stroke = max(1, int(round(size * outline_thickness_factor))) if outline_color is not None else 0 block = "\n".join(cls.wrap_text(text, font, max_width)) # convert line spacing to pixel spacing single = draw.textbbox((0, 0), "Ay", font=font, stroke_width=stroke) double = draw.multiline_textbbox((0, 0), "Ay\nAy", font=font, spacing=0, stroke_width=stroke) natural_advance = (double[3] - double[1]) - (single[3] - single[1]) pixel_spacing = int(round(size * line_spacing - natural_advance)) box = draw.multiline_textbbox((0, 0), block, font=font, spacing=pixel_spacing, stroke_width=stroke) block_height = box[3] - box[1] if block_height <= max_height or size <= floor: break size = max(floor, int(size * 0.9)) if background_opacity > 0: band = block_height + 2 * margin rect = [0, height - band, width, height] if position == "bottom" else [0, 0, width, band] overlay = PILImage.new("RGBA", pil_image.size, (0, 0, 0, 0)) ImageDraw.Draw(overlay).rectangle(rect, fill=(*background_color, int(round(background_opacity * 255)))) pil_image = PILImage.alpha_composite(pil_image.convert("RGBA"), overlay).convert("RGB") draw = ImageDraw.Draw(pil_image) anchor_h, x = {"left": ("l", margin), "center": ("m", width / 2), "right": ("r", width - margin)}[align] if position == "bottom": anchor_v, y = "d", height - margin else: anchor_v, y = "a", margin draw.multiline_text((x, y), block, font=font, fill=text_color, anchor=anchor_h + anchor_v, align=align, spacing=pixel_spacing, stroke_width=stroke, stroke_fill=outline_color) return torch.from_numpy(np.array(pil_image).astype(np.float32) / 255.0) @staticmethod def wrap_text(text, font, max_width): lines = [] for raw_line in text.split("\n"): words = raw_line.split() if not words: lines.append("") continue current = "" # Break the line into words and split words that are too long for word in words: while font.getlength(word) > max_width and len(word) > 1: cut = 1 while cut < len(word) and font.getlength(word[:cut + 1]) <= max_width: cut += 1 if current: lines.append(current) current = "" lines.append(word[:cut]) word = word[cut:] candidate = word if not current else current + " " + word if not current or font.getlength(candidate) <= max_width: current = candidate else: lines.append(current) current = word if current: lines.append(current) return lines class TextOverlayExtension(ComfyExtension): @override async def get_node_list(self) -> list[type[IO.ComfyNode]]: return [TextOverlay] async def comfy_entrypoint() -> TextOverlayExtension: return TextOverlayExtension()