99 lines
3.2 KiB
Python
99 lines
3.2 KiB
Python
from __future__ import annotations
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import numpy as np
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from backend.node_registry import register_node
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from backend.execution_context import emit_warning
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from backend.data_types import DataField
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@register_node(display_name="Rotate")
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class RotateField:
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@classmethod
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def INPUT_TYPES(cls):
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return {
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"required": {
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"field": ("DATA_FIELD",),
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"angle": ("FLOAT", {"default": 90.0, "min": -360.0, "max": 360.0, "step": 1.0}),
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"interpolation": (["bilinear", "nearest", "bicubic"],),
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"expand_canvas": ("BOOLEAN", {"default": True}),
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}
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}
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OUTPUTS = (
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('DATA_FIELD', 'field'),
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)
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FUNCTION = "process"
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DESCRIPTION = (
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"Rotate a DATA_FIELD counterclockwise by an angle in degrees. "
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"Optionally expand the canvas to keep the full rotated field while preserving the field center."
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)
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def process(
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self,
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field: DataField,
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angle: float,
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interpolation: str,
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expand_canvas: bool,
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) -> tuple:
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if field.overlays:
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self._send_warning("Rotate clears annotation/markup overlays!")
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angle = float(angle)
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order_map = {
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"nearest": 0,
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"bilinear": 1,
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"bicubic": 3,
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}
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if interpolation not in order_map:
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raise ValueError(f"Unknown interpolation mode: {interpolation}")
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normalized_angle = angle % 360.0
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snapped_quarters = int(round(normalized_angle / 90.0)) % 4
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snapped_angle = snapped_quarters * 90.0
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is_right_angle = abs(normalized_angle - snapped_angle) < 1e-9
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if is_right_angle and expand_canvas:
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rotated = np.rot90(field.data, k=snapped_quarters).copy()
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elif abs(normalized_angle) < 1e-9:
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rotated = field.data.copy()
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else:
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from scipy.ndimage import rotate as nd_rotate
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rotated = nd_rotate(
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field.data,
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angle=angle,
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reshape=bool(expand_canvas),
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order=order_map[interpolation],
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mode="nearest",
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prefilter=order_map[interpolation] > 1,
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)
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new_xreal, new_yreal = self._rotated_extents(field, angle, expand_canvas)
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center_x = field.xoff + field.xreal / 2.0
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center_y = field.yoff + field.yreal / 2.0
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result = field.replace(
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data=np.asarray(rotated, dtype=np.float64),
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xreal=new_xreal,
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yreal=new_yreal,
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xoff=center_x - new_xreal / 2.0,
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yoff=center_y - new_yreal / 2.0,
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overlays=[],
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)
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return (result,)
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def _send_warning(self, message: str):
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emit_warning(message)
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@staticmethod
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def _rotated_extents(field: DataField, angle: float, expand_canvas: bool) -> tuple[float, float]:
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if not expand_canvas:
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return (field.xreal, field.yreal)
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theta = np.deg2rad(angle)
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cos_t = abs(float(np.cos(theta)))
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sin_t = abs(float(np.sin(theta)))
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new_xreal = field.xreal * cos_t + field.yreal * sin_t
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new_yreal = field.xreal * sin_t + field.yreal * cos_t
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return (new_xreal, new_yreal)
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