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dnacalib_demo.py
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dnacalib_demo.py
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"""
This example demonstrates a few DNACalib's commands.
IMPORTANT: You have to setup the environment before running this example. Please refer to the 'Environment setup' section in README.md.
- usage in command line:
python dnacalib_demo.py
mayapy dnacalib_demo.py
- usage in Maya:
1. copy whole content of this file to Maya Script Editor
2. change value of ROOT_DIR to absolute path of dna_calibration, e.g. `c:/dna_calibration` in Windows or `/home/user/dna_calibration`. Important:
Use `/` (forward slash), because Maya uses forward slashes in path.
- customization:
- change CHARACTER_NAME to Taro, or the name of a custom DNA file placed in /data/dna_files
Expected: Script will generate Ada_output.dna in OUTPUT_DIR from original Ada.dna.
NOTE: If OUTPUT_DIR does not exist, it will be created.
"""
from os import makedirs
from os import path as ospath
# if you use Maya, use absolute path
ROOT_DIR = f"{ospath.dirname(ospath.abspath(__file__))}/..".replace("\\", "/")
OUTPUT_DIR = f"{ROOT_DIR}/output"
CHARACTER_NAME = "Ada"
DATA_DIR = f"{ROOT_DIR}/data"
CHARACTER_DNA = f"{DATA_DIR}/dna_files/{CHARACTER_NAME}.dna"
OUTPUT_DNA = f"{OUTPUT_DIR}/{CHARACTER_NAME}_output.dna"
from dna import DataLayer_All, FileStream, Status, BinaryStreamReader, BinaryStreamWriter
from dnacalib import (
CommandSequence,
DNACalibDNAReader,
RenameJointCommand,
ScaleCommand,
SetBlendShapeTargetDeltasCommand,
SetVertexPositionsCommand,
VectorOperation_Add,
VectorOperation_Interpolate,
)
def load_dna(path):
stream = FileStream(path, FileStream.AccessMode_Read, FileStream.OpenMode_Binary)
reader = BinaryStreamReader(stream, DataLayer_All)
reader.read()
if not Status.isOk():
status = Status.get()
raise RuntimeError(f"Error loading DNA: {status.message}")
return reader
def save_dna(reader, path):
stream = FileStream(path, FileStream.AccessMode_Write, FileStream.OpenMode_Binary)
writer = BinaryStreamWriter(stream)
writer.setFrom(reader)
writer.write()
if not Status.isOk():
status = Status.get()
raise RuntimeError(f"Error saving DNA: {status.message}")
def build_command_list():
# Abstraction to collect all commands into a sequence, and run them with only one invocation
commands = CommandSequence()
print("Creating a sequence of commands...")
# Instantiate command with parameters: scale-factor = 2 , origin-xyz = (0, 120, 0)
scale_by_two = ScaleCommand(2.0, [0.0, 120.0, 0.0])
# Alternatively a command can be instantiated empty, and populated with parameters later, e.g.:
# scale_by_two = ScaleCommand()
# scale_by_two.setScale(2.0)
# scale_by_two.setOrigin([0.0, 120.0, 0.0])
commands.add(scale_by_two)
print("Added command to scale dna")
# Rename by joint index (faster)
commands.add(RenameJointCommand(10, "NewJointA"))
# Rename by matching joint name (slower)
commands.add(RenameJointCommand("OldJointB", "NewJointB"))
print("Added command to rename joint")
# Interpolate blend shape target deltas between original DNA and below specified deltas
# ¯\_(ツ)_/¯
# Deltas in [[x, y, z], [x, y, z], [x, y, z]] format
blend_shape_target_deltas = [[0.0, 0.0, 2.0], [0.0, -1.0, 4.0], [3.0, -3.0, 8.0]]
vertex_indices = [0, 1, 2]
# Weights for interpolation between original deltas and above defined deltas
# 1.0 == take the new value completely, 0.0 means keep the old value
# Format: [Delta-0-Mask, Delta-1-Mask, Delta-2-Mask]
masks = [1.0, 0.0, 0.5]
set_blend_shapes_m0_b0 = SetBlendShapeTargetDeltasCommand(
0, # mesh index
0, # blend shape target index
blend_shape_target_deltas,
vertex_indices,
masks,
VectorOperation_Interpolate,
)
commands.add(set_blend_shapes_m0_b0)
print("Added command to change blend shape target deltas")
# Add vertex position deltas onto existing vertex positions
# Note the alternative data format, instead of using nested lists, separate all X, Y, Z
# components into distinct lists (might also be faster)
position_xs = [1.0, -4.5, 7.2]
position_ys = [2.0, -5.5, -8.3]
position_zs = [3.0, -6.5, 9.7]
# Weights to be multiplied with the above specified delta positions, before adding
# them onto the original data
# Format: [Delta-0-Weight, Delta-1-Weight, Delta-2-Weight]
masks = [1.0, 0.2, 0.4]
set_vertices_m0 = SetVertexPositionsCommand(
0, # mesh index
position_xs,
position_ys,
position_zs,
masks,
VectorOperation_Add,
)
commands.add(set_vertices_m0)
print("Added command to change vertex positions")
return commands
def calibrate_dna(input_path, output_path):
dna = load_dna(input_path)
# Copies DNA contents and will serve as input/output parameter to commands
calibrated = DNACalibDNAReader(dna)
commands = build_command_list()
print("Running command sequence...")
# Modifies calibrated DNA in-place
commands.run(calibrated)
print("Saving DNA...")
save_dna(calibrated, output_path)
print("Done.")
if __name__ == "__main__":
makedirs(OUTPUT_DIR, exist_ok=True)
calibrate_dna(CHARACTER_DNA, OUTPUT_DNA)