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New Addon: Import Autodesk .max #105013

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Sebastian Sille wants to merge 136 commits from (deleted):nrgsille-import_max into main
pull from: (deleted):nrgsille-import_max
merge into: blender:main

When changing the target branch, be careful to rebase the branch in your fork to match. See documentation.
Conversation 25 Commits 136 Files Changed 2 +153 -37
3 changed files with 153 additions and 37 deletions
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2
io_scene_3ds/import_3ds.py
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@ -274,6 +274,8 @@ def add_texture_to_material(image, contextWrapper, pct, extend, alpha, scale, of
elif mapto == 'ALPHA':
shader.location = (-300,0)
img_wrap = contextWrapper.alpha_texture
img_wrap.use_alpha = False
links.new(img_wrap.node_image.outputs['Color'], img_wrap.socket_dst)
elif mapto == 'EMISSION':
shader.location = (0,-900)
img_wrap = contextWrapper.emission_color_texture

2
io_scene_fbx/__init__.py
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@ -5,7 +5,7 @@
bl_info = {
"name": "FBX format",
"author": "Campbell Barton, Bastien Montagne, Jens Restemeier, @Mysteryem",
"version": (5, 8, 6),
"version": (5, 8, 7),
"blender": (3, 6, 0),
"location": "File > Import-Export",
"description": "FBX IO meshes, UVs, vertex colors, materials, textures, cameras, lamps and actions",

180
io_scene_fbx/fbx_utils.py
View File

@ -1318,42 +1318,154 @@ class AnimationCurveNodeWrapper:
min_reldiff_fac = fac * 1.0e-3 # min relative value evolution: 0.1% of current 'order of magnitude'.
min_absdiff_fac = 0.1 # A tenth of reldiff...
are_keyed = []
for values, frame_write_mask in zip(self._frame_values_array, self._frame_write_mask_array):
# Initialise to no frames written.
frame_write_mask[:] = False
# Initialise to no values enabled for writing.
self._frame_write_mask_array[:] = False
# Create views of the 'previous' and 'current' mask and values. The memoryview, .data, of each array is used
# for its iteration and indexing performance compared to the array.
key = values[1:].data
p_key = values[:-1].data
key_write = frame_write_mask[1:].data
p_key_write = frame_write_mask[:-1].data
# Values are enabled for writing if they differ enough from either of their adjacent values or if they differ
# enough from the closest previous value that is enabled due to either of these conditions.
for sampled_values, enabled_mask in zip(self._frame_values_array, self._frame_write_mask_array):
# Create overlapping views of the 'previous' (all but the last) and 'current' (all but the first)
# `sampled_values` and `enabled_mask`.
# Calculate absolute values from `sampled_values` so that the 'previous' and 'current' absolute arrays can
# be views into the same array instead of separately calculated arrays.
abs_sampled_values = np.abs(sampled_values)
# 'previous' views.
p_val_view = sampled_values[:-1]
p_abs_val_view = abs_sampled_values[:-1]
p_enabled_mask_view = enabled_mask[:-1]
# 'current' views.
c_val_view = sampled_values[1:]
c_abs_val_view = abs_sampled_values[1:]
c_enabled_mask_view = enabled_mask[1:]
p_keyedval = values[0]
is_keyed = False
for idx, (val, p_val) in enumerate(zip(key, p_key)):
if val == p_val:
# Never write keyframe when value is exactly the same as prev one!
continue
# This is contracted form of relative + absolute-near-zero difference:
# absdiff = abs(a - b)
# if absdiff < min_reldiff_fac * min_absdiff_fac:
# If enough difference from previous sampled value, enable the current value *and* the previous one!
# The difference check is symmetrical, so this will compare each value to both of its adjacent values.
# Unless it is forcefully enabled later, this is the only way that the first value can be enabled.
# This is a contracted form of relative + absolute-near-zero difference:
# def is_different(a, b):
# abs_diff = abs(a - b)
# if abs_diff < min_reldiff_fac * min_absdiff_fac:
# return False
# return (absdiff / ((abs(a) + abs(b)) / 2)) > min_reldiff_fac
# return (abs_diff / ((abs(a) + abs(b)) / 2)) > min_reldiff_fac
# Note that we ignore the '/ 2' part here, since it's not much significant for us.
if abs(val - p_val) > (min_reldiff_fac * max(abs(val) + abs(p_val), min_absdiff_fac)):
# If enough difference from previous sampled value, key this value *and* the previous one!
key_write[idx] = True
p_key_write[idx] = True
p_keyedval = val
is_keyed = True
elif abs(val - p_keyedval) > (min_reldiff_fac * max((abs(val) + abs(p_keyedval)), min_absdiff_fac)):
# Else, if enough difference from previous keyed value, key this value only!
key_write[idx] = True
p_keyedval = val
is_keyed = True
are_keyed.append(is_keyed)
# Contracted form using only builtin Python functions:
# return abs(a - b) > (min_reldiff_fac * max(abs(a) + abs(b), min_absdiff_fac))
abs_diff = np.abs(c_val_view - p_val_view)
different_if_greater_than = min_reldiff_fac * np.maximum(c_abs_val_view + p_abs_val_view, min_absdiff_fac)
enough_diff_p_val_mask = abs_diff > different_if_greater_than
# Enable both the current values *and* the previous values where `enough_diff_p_val_mask` is True. Some
# values may get set to True twice because the views overlap, but this is not a problem.
p_enabled_mask_view[enough_diff_p_val_mask] = True
c_enabled_mask_view[enough_diff_p_val_mask] = True
# Else, if enough difference from previous enabled value, enable the current value only!
# For each 'current' value, get the index of the nearest previous enabled value in `sampled_values` (or
# itself if the value is enabled).
# Start with an array that is the index of the 'current' value in `sampled_values`. The 'current' values are
# all but the first value, so the indices will be from 1 to `len(sampled_values)` exclusive.
# Let len(sampled_values) == 9:
# [1, 2, 3, 4, 5, 6, 7, 8]
p_enabled_idx_in_sampled_values = np.arange(1, len(sampled_values))
# Replace the indices of all disabled values with 0 in preparation of filling them in with the index of the
# nearest previous enabled value. We choose to replace with 0 so that if there is no nearest previous
# enabled value, we instead default to `sampled_values[0]`.
c_val_disabled_mask = ~c_enabled_mask_view
# Let `c_val_disabled_mask` be:
# [F, F, T, F, F, T, T, T]
# Set indices to 0 where `c_val_disabled_mask` is True:
# [1, 2, 3, 4, 5, 6, 7, 8]
# v v v v
# [1, 2, 0, 4, 5, 0, 0, 0]
p_enabled_idx_in_sampled_values[c_val_disabled_mask] = 0
# Accumulative maximum travels across the array from left to right, filling in the zeroed indices with the
# maximum value so far, which will be the closest previous enabled index because the non-zero indices are
# strictly increasing.
# [1, 2, 0, 4, 5, 0, 0, 0]
# v v v v
# [1, 2, 2, 4, 5, 5, 5, 5]
p_enabled_idx_in_sampled_values = np.maximum.accumulate(p_enabled_idx_in_sampled_values)
# Only disabled values need to be checked against their nearest previous enabled values.
# We can additionally ignore all values which equal their immediately previous value because those values
# will never be enabled if they were not enabled by the earlier difference check against immediately
# previous values.
p_enabled_diff_to_check_mask = np.logical_and(c_val_disabled_mask, p_val_view != c_val_view)
# Convert from a mask to indices because we need the indices later and because the array of indices will
# usually be smaller than the mask array making it faster to index other arrays with.
p_enabled_diff_to_check_idx = np.flatnonzero(p_enabled_diff_to_check_mask)
# `p_enabled_idx_in_sampled_values` from earlier:
# [1, 2, 2, 4, 5, 5, 5, 5]
# `p_enabled_diff_to_check_mask` assuming no values equal their immediately previous value:
# [F, F, T, F, F, T, T, T]
# `p_enabled_diff_to_check_idx`:
# [ 2, 5, 6, 7]
# `p_enabled_idx_in_sampled_values_to_check`:
# [ 2, 5, 5, 5]
p_enabled_idx_in_sampled_values_to_check = p_enabled_idx_in_sampled_values[p_enabled_diff_to_check_idx]
# Get the 'current' disabled values that need to be checked.
c_val_to_check = c_val_view[p_enabled_diff_to_check_idx]
c_abs_val_to_check = c_abs_val_view[p_enabled_diff_to_check_idx]
# Get the nearest previous enabled value for each value to be checked.
nearest_p_enabled_val = sampled_values[p_enabled_idx_in_sampled_values_to_check]
abs_nearest_p_enabled_val = np.abs(nearest_p_enabled_val)
# Check the relative + absolute-near-zero difference again, but against the nearest previous enabled value
# this time.
abs_diff = np.abs(c_val_to_check - nearest_p_enabled_val)
different_if_greater_than = (min_reldiff_fac
* np.maximum(c_abs_val_to_check + abs_nearest_p_enabled_val, min_absdiff_fac))
enough_diff_p_enabled_val_mask = abs_diff > different_if_greater_than
# If there are any that are different enough from the previous enabled value, then we have to check them all
# iteratively because enabling a new value can change the nearest previous enabled value of some elements,
# which changes their relative + absolute-near-zero difference:
# `p_enabled_diff_to_check_idx`:
# [2, 5, 6, 7]
# `p_enabled_idx_in_sampled_values_to_check`:
# [2, 5, 5, 5]
# Let `enough_diff_p_enabled_val_mask` be:
# [F, F, T, T]
# The first index that is newly enabled is 6:
# [2, 5,>6<,5]
# But 6 > 5, so the next value's nearest previous enabled index is also affected:
# [2, 5, 6,>6<]
# We had calculated a newly enabled index of 7 too, but that was calculated against the old nearest previous
# enabled index of 5, which has now been updated to 6, so whether 7 is enabled or not needs to be
# recalculated:
# [F, F, T, ?]
if np.any(enough_diff_p_enabled_val_mask):
# Accessing .data, the memoryview of the array, iteratively or by individual index is faster than doing
# the same with the array itself.
zipped = zip(p_enabled_diff_to_check_idx.data,
c_val_to_check.data,
c_abs_val_to_check.data,
p_enabled_idx_in_sampled_values_to_check.data,
enough_diff_p_enabled_val_mask.data)
# While iterating, we could set updated values into `enough_diff_p_enabled_val_mask` as we go and then
# update `enabled_mask` in bulk after the iteration, but if we're going to update an array while
# iterating, we may as well update `enabled_mask` directly instead and skip the bulk update.
# Additionally, the number of `True` writes to `enabled_mask` is usually much less than the number of
# updates that would be required to `enough_diff_p_enabled_val_mask`.
c_enabled_mask_view_mv = c_enabled_mask_view.data
# While iterating, keep track of the most recent newly enabled index, so we can tell when we need to
# recalculate whether the current value needs to be enabled.
new_p_enabled_idx = -1
# Keep track of its value too for performance.
new_p_enabled_val = -1
new_abs_p_enabled_val = -1
for cur_idx, c_val, c_abs_val, old_p_enabled_idx, enough_diff in zipped:
if new_p_enabled_idx > old_p_enabled_idx:
# The nearest previous enabled value is newly enabled and was not included when
# `enough_diff_p_enabled_val_mask` was calculated, so whether the current value is different
# enough needs to be recalculated using the newly enabled value.
# Check if the relative + absolute-near-zero difference is enough to enable this value.
enough_diff = (abs(c_val - new_p_enabled_val)
> (min_reldiff_fac * max(c_abs_val + new_abs_p_enabled_val, min_absdiff_fac)))
if enough_diff:
# The current value needs to be enabled.
c_enabled_mask_view_mv[cur_idx] = True
# Update the index and values for this newly enabled value.
new_p_enabled_idx = cur_idx
new_p_enabled_val = c_val
new_abs_p_enabled_val = c_abs_val
# If we write nothing (action doing nothing) and are in 'force_keep' mode, we key everything! :P
# See T41766.
@ -1362,7 +1474,9 @@ class AnimationCurveNodeWrapper:
# one key in this case.
# See T41719, T41605, T41254...
if self.force_keying or (force_keep and not self):
are_keyed[:] = [True] * len(are_keyed)
are_keyed = [True] * len(self._frame_write_mask_array)
else:
are_keyed = np.any(self._frame_write_mask_array, axis=1)
# If we did key something, ensure first and last sampled values are keyed as well.
if self.force_startend_keying: