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yanjie:main yanjie:sample-delivery yanjie:customer-demo yanjie:silicone yanjie:android-main yanjie:sdk-dev yanjie:pre-module-dev yanjie:display yanjie:cli yanjie:dev
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Branches Tags
yanjie:sample-delivery yanjie:customer-demo yanjie:main yanjie:silicone yanjie:android-main yanjie:sdk-dev yanjie:pre-module-dev yanjie:display yanjie:cli yanjie:dev
yanjie:0528-5 yanjie:0528-1 yanjie:0528-6 yanjie:0521-4 yanjie:0.4.0 yanjie:0.3.1 yanjie:0.3.0 yanjie:0.2.0 yanjie:0.1.0

10 Commits
59e9203363 ... main

Author SHA1 Message Date
lenn
011bfe2450 feat: 切向力算法更新 + AD反解x模块 2026-05-25 14:44:31 +08:00
lenn
e52c86ea1a feat(devkit): 终端打印pzt_angle/magnitude/state 2026-05-23 19:14:14 +08:00
lenn
f1ae60c69f feat(devkit): 动态阈值=K*mean, POST_INIT_STABLE_CNT=200, get_pzt_angle返回cop/base坐标, CSV打印全部输出 2026-05-23 18:46:32 +08:00
lenn
c906e8ac66 feat(devkit): 动态阈值公式改为K*mean, POST_INIT_STABLE_CNT=10, get_pzt_angle返回cop/base坐标, CSV增加cop_x/y/base_x/y列 2026-05-23 18:23:20 +08:00
lenn
dff8489c36 feat(devkit): 每帧打印接收数据,持续输出到CSV文件 2026-05-22 16:33:20 +08:00
lenn
030479a962 feat(devkit): 替换切向力算法为动态阈值版本,重新编译exe 2026-05-22 16:11:26 +08:00
lenn
b581e310ed update frontend components and cargo config 2026-05-20 10:18:27 +08:00
lenn
c579544351 Revert "fix: compensate tangential force edge and full-surface cases" 
This reverts commit aa08a75aef.
 2026-05-20 09:45:47 +08:00
lenn
aa08a75aef fix: compensate tangential force edge and full-surface cases 2026-05-20 09:39:14 +08:00
lenn
6187976b6b feat: integrate tangential force HUD 2026-05-20 08:33:20 +08:00
42 changed files with 33145 additions and 175 deletions
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This file lists modules PyInstaller was not able to find. This does not
necessarily mean these modules are required for running your program. Both
Python's standard library and 3rd-party Python packages often conditionally
import optional modules, some of which may be available only on certain
platforms.
Types of import:
* top-level: imported at the top-level - look at these first
* conditional: imported within an if-statement
* delayed: imported within a function
* optional: imported within a try-except-statement
IMPORTANT: Do NOT post this list to the issue-tracker. Use it as a basis for
tracking down the missing module yourself. Thanks!
missing module named pwd - imported by posixpath (delayed, conditional, optional), shutil (delayed, optional), tarfile (optional), pathlib (optional), netrc (delayed, optional), subprocess (delayed, conditional, optional), http.server (delayed, optional)
missing module named grp - imported by shutil (delayed, optional), tarfile (optional), pathlib (optional), subprocess (delayed, conditional, optional)
missing module named 'collections.abc' - imported by _colorize (top-level), typing (top-level), traceback (top-level), logging (top-level), selectors (top-level), http.client (top-level), importlib.resources.readers (top-level), inspect (top-level), tracemalloc (top-level), multiprocessing.managers (top-level), typing_extensions (top-level), asyncio.base_events (top-level), asyncio.coroutines (top-level), grpc.aio._metadata (top-level), google.protobuf.internal.containers (top-level), google.protobuf.internal.well_known_types (top-level), numpy._typing._array_like (top-level), numpy._typing._nested_sequence (conditional), numpy._typing._shape (top-level), numpy._typing._dtype_like (top-level), numpy.lib._function_base_impl (top-level), _pyrepl.types (top-level), numpy.lib._npyio_impl (top-level), numpy.random._common (top-level), numpy.random._generator (top-level), numpy.random.bit_generator (top-level), numpy.random.mtrand (top-level), numpy.polynomial._polybase (top-level), xml.etree.ElementTree (top-level)
missing module named _posixsubprocess - imported by subprocess (conditional), multiprocessing.util (delayed)
missing module named fcntl - imported by pathlib._os (optional), subprocess (optional)
missing module named _posixshmem - imported by multiprocessing.resource_tracker (conditional), multiprocessing.shared_memory (conditional)
missing module named _scproxy - imported by urllib.request (conditional)
missing module named posix - imported by posixpath (optional), shutil (conditional), importlib._bootstrap_external (conditional), pathlib._os (optional), os (conditional, optional), _pyrepl.trace (conditional)
missing module named resource - imported by posix (top-level)
missing module named _frozen_importlib_external - imported by importlib._bootstrap (delayed), importlib (optional), importlib.abc (optional), zipimport (top-level)
excluded module named _frozen_importlib - imported by importlib (optional), importlib.abc (optional), zipimport (top-level)
missing module named multiprocessing.BufferTooShort - imported by multiprocessing (top-level), multiprocessing.connection (top-level)
missing module named multiprocessing.AuthenticationError - imported by multiprocessing (top-level), multiprocessing.forkserver (top-level), multiprocessing.connection (top-level)
missing module named multiprocessing.get_context - imported by multiprocessing (top-level), multiprocessing.pool (top-level), multiprocessing.managers (top-level), multiprocessing.sharedctypes (top-level)
missing module named multiprocessing.TimeoutError - imported by multiprocessing (top-level), multiprocessing.pool (top-level)
missing module named multiprocessing.set_start_method - imported by multiprocessing (top-level), multiprocessing.spawn (top-level)
missing module named multiprocessing.get_start_method - imported by multiprocessing (top-level), multiprocessing.spawn (top-level)
missing module named pyimod02_importers - imported by C:\Python314\Lib\site-packages\PyInstaller\hooks\rthooks\pyi_rth_pkgutil.py (delayed)
missing module named _dummy_thread - imported by numpy._core.arrayprint (optional)
missing module named 'numpy_distutils.cpuinfo' - imported by numpy.f2py.diagnose (delayed, conditional, optional)
missing module named 'numpy_distutils.fcompiler' - imported by numpy.f2py.diagnose (delayed, conditional, optional)
missing module named 'numpy_distutils.command' - imported by numpy.f2py.diagnose (delayed, conditional, optional)
missing module named numpy_distutils - imported by numpy.f2py.diagnose (delayed, optional)
missing module named charset_normalizer - imported by numpy.f2py.crackfortran (optional)
missing module named vms_lib - imported by platform (delayed, optional)
missing module named 'java.lang' - imported by platform (delayed, optional)
missing module named java - imported by platform (delayed)
missing module named psutil - imported by numpy.testing._private.utils (delayed, optional)
missing module named termios - imported by tty (top-level), _pyrepl.pager (delayed, optional)
missing module named readline - imported by cmd (delayed, conditional, optional), code (delayed, conditional, optional), pdb (delayed, conditional, optional), rlcompleter (optional)
missing module named win32pdh - imported by numpy.testing._private.utils (delayed, conditional)
missing module named _typeshed - imported by numpy.random.bit_generator (top-level)
missing module named numpy.random.RandomState - imported by numpy.random (top-level), numpy.random._generator (top-level)
missing module named pyodide_js - imported by threadpoolctl (delayed, optional)
missing module named numpy._core.zeros - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.vstack - imported by numpy._core (top-level), numpy.lib._shape_base_impl (top-level), numpy (conditional)
missing module named numpy._core.void - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.vecmat - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.vecdot - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.ushort - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.unsignedinteger - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.ulonglong - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.ulong - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.uintp - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.uintc - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.uint64 - imported by numpy._core (conditional), numpy (conditional), numpy._array_api_info (top-level)
missing module named numpy._core.uint32 - imported by numpy._core (conditional), numpy (conditional), numpy._array_api_info (top-level)
missing module named numpy._core.uint16 - imported by numpy._core (conditional), numpy (conditional), numpy._array_api_info (top-level)
missing module named numpy._core.uint - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.ubyte - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.trunc - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.true_divide - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.transpose - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy.lib._function_base_impl (top-level), numpy (conditional)
missing module named numpy._core.trace - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.timedelta64 - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.tensordot - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.tanh - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.tan - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.swapaxes - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.sum - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.subtract - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.str_ - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.square - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.sqrt - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional), numpy.fft._pocketfft (top-level)
missing module named numpy._core.spacing - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.sort - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.sinh - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.single - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.signedinteger - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.signbit - imported by numpy._core (delayed), numpy.testing._private.utils (delayed), numpy (conditional)
missing module named numpy._core.sign - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.short - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.rint - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.right_shift - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.result_type - imported by numpy._core (delayed), numpy.testing._private.utils (delayed), numpy (conditional), numpy.fft._pocketfft (top-level)
missing module named numpy._core.remainder - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.reciprocal - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional), numpy.fft._pocketfft (top-level)
missing module named numpy._core.radians - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.rad2deg - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.prod - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.power - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.positive - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.pi - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.outer - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.ones - imported by numpy._core (top-level), numpy.lib._polynomial_impl (top-level), numpy (conditional)
missing module named numpy._core.object_ - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy.testing._private.utils (delayed), numpy (conditional)
missing module named numpy._core.number - imported by numpy._core (delayed), numpy.testing._private.utils (delayed), numpy (conditional)
missing module named numpy._core.not_equal - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.nextafter - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.newaxis - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.negative - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.ndarray - imported by numpy._core (top-level), numpy.testing._private.utils (top-level), numpy.lib._utils_impl (top-level), numpy (conditional)
missing module named numpy._core.multiply - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.moveaxis - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.modf - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.mod - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.minimum - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.maximum - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.max - imported by numpy._core (delayed), numpy.testing._private.utils (delayed), numpy (conditional)
missing module named numpy._core.matvec - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.matrix_transpose - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.matmul - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.longlong - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.longdouble - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.long - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.logical_xor - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.logical_or - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.logical_not - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.logical_and - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.logaddexp2 - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.logaddexp - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.log10 - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.log2 - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.log1p - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.log - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.linspace - imported by numpy._core (top-level), numpy.lib._index_tricks_impl (top-level), numpy (conditional)
missing module named numpy._core.less_equal - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.less - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.left_shift - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.ldexp - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.lcm - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.isscalar - imported by numpy._core (delayed), numpy.testing._private.utils (delayed), numpy.lib._polynomial_impl (top-level), numpy (conditional)
missing module named numpy._core.isnat - imported by numpy._core (top-level), numpy.testing._private.utils (top-level), numpy (conditional)
missing module named numpy._core.isnan - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy.testing._private.utils (delayed), numpy (conditional)
missing module named numpy._core.isfinite - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.intp - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy.testing._private.utils (top-level), numpy (conditional), numpy._array_api_info (top-level)
missing module named numpy._core.integer - imported by numpy._core (conditional), numpy (conditional), numpy.fft._helper (top-level)
missing module named numpy._core.intc - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.int64 - imported by numpy._core (conditional), numpy (conditional), numpy._array_api_info (top-level)
missing module named numpy._core.int32 - imported by numpy._core (conditional), numpy (conditional), numpy._array_api_info (top-level)
missing module named numpy._core.int16 - imported by numpy._core (conditional), numpy (conditional), numpy._array_api_info (top-level)
missing module named numpy._core.int8 - imported by numpy._core (conditional), numpy (conditional), numpy._array_api_info (top-level)
missing module named numpy._core.inf - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy.testing._private.utils (delayed), numpy (conditional)
missing module named numpy._core.inexact - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.iinfo - imported by numpy._core (top-level), numpy.lib._twodim_base_impl (top-level), numpy (conditional)
missing module named numpy._core.hypot - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.hstack - imported by numpy._core (top-level), numpy.lib._polynomial_impl (top-level), numpy (conditional)
missing module named numpy._core.heaviside - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.half - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.greater_equal - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.greater - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.gcd - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.frompyfunc - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.frexp - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.fmod - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.fmin - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.fmax - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.floor_divide - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.floor - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.floating - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.float_power - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.float32 - imported by numpy._core (top-level), numpy.testing._private.utils (top-level), numpy (conditional), numpy._array_api_info (top-level)
missing module named numpy._core.float16 - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.finfo - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy.lib._polynomial_impl (top-level), numpy (conditional)
missing module named numpy._core.fabs - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.expm1 - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.exp2 - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.exp - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.euler_gamma - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.errstate - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy.testing._private.utils (delayed), numpy (conditional)
missing module named numpy._core.equal - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.empty_like - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional), numpy.fft._pocketfft (top-level)
missing module named numpy._core.empty - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy.testing._private.utils (top-level), numpy (conditional), numpy.fft._helper (top-level)
missing module named numpy._core.e - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.double - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.dot - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy.lib._polynomial_impl (top-level), numpy (conditional)
missing module named numpy._core.divmod - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.divide - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.diagonal - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.degrees - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.deg2rad - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.datetime64 - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.csingle - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.cross - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.count_nonzero - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.cosh - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.cos - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.copysign - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.conjugate - imported by numpy._core (conditional), numpy (conditional), numpy.fft._pocketfft (top-level)
missing module named numpy._core.conj - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.complexfloating - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.complex64 - imported by numpy._core (conditional), numpy (conditional), numpy._array_api_info (top-level)
missing module named numpy._core.clongdouble - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.character - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.ceil - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.cdouble - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.cbrt - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.bytes_ - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.byte - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.bool_ - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.bitwise_xor - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.bitwise_or - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.bitwise_count - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.bitwise_and - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.atleast_3d - imported by numpy._core (top-level), numpy.lib._shape_base_impl (top-level), numpy (conditional)
missing module named numpy._core.atleast_2d - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.atleast_1d - imported by numpy._core (top-level), numpy.lib._polynomial_impl (top-level), numpy (conditional)
missing module named numpy._core.asarray - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy.lib._array_utils_impl (top-level), numpy (conditional), numpy.fft._helper (top-level), numpy.fft._pocketfft (top-level)
missing module named numpy._core.asanyarray - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.array_repr - imported by numpy._core (top-level), numpy.testing._private.utils (top-level), numpy (conditional)
missing module named numpy._core.array2string - imported by numpy._core (delayed), numpy.testing._private.utils (delayed), numpy (conditional)
missing module named numpy._core.array - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy.testing._private.utils (top-level), numpy.lib._polynomial_impl (top-level), numpy (conditional)
missing module named numpy._core.argsort - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.arctanh - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.arctan2 - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.arctan - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.arcsinh - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.arcsin - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.arccosh - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.arccos - imported by numpy._core (conditional), numpy (conditional)
missing module named numpy._core.arange - imported by numpy._core (top-level), numpy.testing._private.utils (top-level), numpy (conditional), numpy.fft._helper (top-level)
missing module named numpy._core.amin - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.amax - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named numpy._core.all - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy.testing._private.utils (delayed), numpy (conditional)
missing module named numpy._core.add - imported by numpy._core (top-level), numpy.linalg._linalg (top-level), numpy (conditional)
missing module named yaml - imported by numpy.__config__ (delayed)
missing module named numpy._distributor_init_local - imported by numpy (optional), numpy._distributor_init (optional)
missing module named defusedxml - imported by openpyxl.xml (delayed, optional)
missing module named lxml - imported by openpyxl.xml (delayed, optional)
missing module named 'defusedxml.ElementTree' - imported by openpyxl.xml.functions (conditional)
missing module named 'lxml.etree' - imported by openpyxl.xml.functions (conditional)
missing module named PIL - imported by openpyxl.drawing.image (optional)
missing module named openpyxl.tests - imported by openpyxl.reader.excel (optional)
missing module named google.protobuf.pyext._message - imported by google.protobuf.pyext (conditional, optional), google.protobuf.internal.api_implementation (conditional, optional), google.protobuf.descriptor (conditional), google.protobuf.pyext.cpp_message (conditional)
missing module named google.protobuf.enable_deterministic_proto_serialization - imported by google.protobuf (optional), google.protobuf.internal.api_implementation (optional)
missing module named google.protobuf.internal._api_implementation - imported by google.protobuf.internal (optional), google.protobuf.internal.api_implementation (optional)
missing module named grpc_reflection - imported by grpc (optional)
missing module named grpc_health - imported by grpc (optional)
missing module named pkg_resources - imported by grpc_tools.protoc (conditional)

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4
devkit/je-skin-devkit-server.spec
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@@ -5,8 +5,8 @@ a = Analysis(
['sensor_server.py'], ['sensor_server.py'],
pathex=[], pathex=[],
binaries=[], binaries=[],
datas=[('sensor_stream_pb2.py', '.'), ('sensor_stream_pb2_grpc.py', '.')], datas=[],
hiddenimports=['grpc', 'openpyxl', 'numpy'], hiddenimports=[],
hookspath=[], hookspath=[],
hooksconfig={}, hooksconfig={},
runtime_hooks=[], runtime_hooks=[],

237
devkit/sensor_server.py
View File

@@ -26,7 +26,6 @@ import sys
import time import time
from concurrent import futures from concurrent import futures
from pathlib import Path from pathlib import Path
import grpc import grpc
import sensor_stream_pb2 import sensor_stream_pb2
import sensor_stream_pb2_grpc import sensor_stream_pb2_grpc
@@ -231,30 +230,56 @@ def _append_analysis_log(source_csv: str, stats: dict):
class SensorPushServicer(sensor_stream_pb2_grpc.SensorPushServicer): class SensorPushServicer(sensor_stream_pb2_grpc.SensorPushServicer):
"""接收实时传感器帧streaming""" """接收实时传感器帧streaming"""
_csv_path = None # 类变量,记录当前 CSV 路径
def __init__(self): def __init__(self):
self.frame_count = 0 self.frame_count = 0
self.last_report_time = time.time() self.last_report_time = time.time()
self.last_angle = None self.last_angle = None
self._csv_file = None
self._csv_writer = None
def _open_csv(self):
"""打开一个新的 CSV 文件用于持续写入"""
ts = time.strftime("%Y%m%d_%H%M%S")
SensorPushServicer._csv_path = os.path.join(os.getcwd(), f"sensor_log_{ts}.csv")
self._csv_file = open(SensorPushServicer._csv_path, "w", newline="", encoding="utf-8-sig")
self._csv_writer = csv.writer(self._csv_file)
header = ["seq", "timestamp_ms", "dts_ms", "angle", "magnitude", "state", "cop_x", "cop_y", "base_x", "base_y", "resultant_force"] + [f"ch{i}" for i in range(SENSOR_ROWS * SENSOR_COLS)]
self._csv_writer.writerow(header)
self._csv_file.flush()
print(f"[SensorPush] CSV logging to: {SensorPushServicer._csv_path}")
def _close_csv(self):
"""关闭 CSV 文件"""
if self._csv_file:
self._csv_file.close()
print(f"[SensorPush] CSV saved: {SensorPushServicer._csv_path}")
self._csv_file = None
self._csv_writer = None
def Upload(self, request_iterator, context): def Upload(self, request_iterator, context):
print("[SensorPush] Client connected, waiting for frames...") print("[SensorPush] Client connected, waiting for frames...")
reset_baseline() reset_baseline()
self.last_angle = None self.last_angle = None
self.frame_count = 0
self._open_csv()
for frame in request_iterator: for frame in request_iterator:
self.frame_count += 1 self.frame_count += 1
angle = 0.0 angle = 0.0
magnitude = 0.0
state = 0
ok = True ok = True
message = "OK" message = "OK"
cop_x = cop_y = base_x = base_y = 0.0
total_press = 0.0
threshold = 0.0
if len(frame.matrix) == SENSOR_ROWS * SENSOR_COLS: if len(frame.matrix) == SENSOR_ROWS * SENSOR_COLS:
try: try:
angle = get_pzt_angle(frame.matrix) angle, magnitude, state, cop_x, cop_y, base_x, base_y, total_press, threshold = get_pzt_angle(frame.matrix)
self.last_angle = angle self.last_angle = angle
if self.frame_count <= 10 or self.frame_count % 30 == 0: print(f"devkit: angle={angle:.2f}, magnitude={magnitude:.4f}, state={state}, cop_x={cop_x:.4f}, cop_y={cop_y:.4f}, base_x={base_x:.4f}, base_y={base_y:.4f}, total_press={total_press:.2f}, thresh={threshold:.2f}")
print(
f"[SensorPush] PZT angle frame #{frame.seq} "
f"dts={frame.dts_ms} angle={angle:.2f}"
)
except Exception as e: except Exception as e:
ok = False ok = False
message = str(e) message = str(e)
@@ -262,6 +287,18 @@ class SensorPushServicer(sensor_stream_pb2_grpc.SensorPushServicer):
else: else:
ok = False ok = False
message = f"Invalid matrix length: {len(frame.matrix)}" message = f"Invalid matrix length: {len(frame.matrix)}"
print(f"[Recv #{frame.seq}] INVALID len={len(frame.matrix)}")
# 持续写入 CSV
if self._csv_writer:
row = [frame.seq, frame.timestamp_ms, frame.dts_ms,
f"{angle:.4f}", f"{magnitude:.4f}", state,
f"{cop_x:.4f}", f"{cop_y:.4f}", f"{base_x:.4f}", f"{base_y:.4f}",
frame.resultant_force]
row += list(frame.matrix)
self._csv_writer.writerow(row)
if self.frame_count % 10 == 0:
self._csv_file.flush()
yield sensor_stream_pb2.PztAngleResponse( yield sensor_stream_pb2.PztAngleResponse(
seq=frame.seq, seq=frame.seq,
@@ -270,6 +307,14 @@ class SensorPushServicer(sensor_stream_pb2_grpc.SensorPushServicer):
dts_ms=frame.dts_ms, dts_ms=frame.dts_ms,
ok=ok, ok=ok,
message=message, message=message,
magnitude=magnitude,
state=state,
cop_x=cop_x,
cop_y=cop_y,
base_x=base_x,
base_y=base_y,
total_press=total_press,
threshold=threshold,
) )
if self.frame_count % 100 == 0: if self.frame_count % 100 == 0:
@@ -290,6 +335,7 @@ class SensorPushServicer(sensor_stream_pb2_grpc.SensorPushServicer):
f"total={self.frame_count} | ~{fps:.1f} fps" f"total={self.frame_count} | ~{fps:.1f} fps"
) )
self._close_csv()
print(f"[SensorPush] Stream ended. Total: {self.frame_count}") print(f"[SensorPush] Stream ended. Total: {self.frame_count}")
@@ -350,67 +396,84 @@ def serve(port: int):
import numpy as np import numpy as np
import threading from collections import deque
# ===================== 算法参数===================== # ===================== 算法参数=====================
TOTAL_PRESSURE_LOW_THRESHOLD = 500 COP_INIT_MEDIAN_FRAMES = 1 # 初始COP取中位数的帧数
COP_STABILITY_FRAMES_REQUIRED = 5 NOISE_COLLECT_FRAMES = 10 # 动态阈值基线采集帧数
SENSOR_ROWS = 12 THRESH_K = 5 # 阈值 = K * mean
SENSOR_COLS = 7 SENSOR_ROWS = 12
SENSOR_COLS = 7
# ===================== 二次静置精修参数 =====================
POST_INIT_WINDOW_CNT = 60000
POST_INIT_STABLE_CNT = 100
POST_INIT_STABLE_THRESH = 0.1
# ===================== 线程安全全局状态 ===================== # ===================== 线程安全全局状态 =====================
first_frame = None first_contact_CoP_x = None
first_frame_lock = threading.Lock() first_contact_CoP_y = None
contact_initialized = False
first_contact_CoP_x = None # 候选初始CoP缓冲
first_contact_CoP_y = None cop_init_x_buf = deque(maxlen=COP_INIT_MEDIAN_FRAMES)
contact_initialized = False cop_init_y_buf = deque(maxlen=COP_INIT_MEDIAN_FRAMES)
total_pressure_low_counter = 0 # 动态阈值
noise_sum_buf = deque(maxlen=NOISE_COLLECT_FRAMES)
dynamic_thresh = None
# 二次静置精修状态
post_init_frame_cnt = 0
post_stable_cnt = 0
post_refined_flag = False
post_cand_x = None
post_cand_y = None
# ===================== 基线减除 =====================
def subtract_baseline(current_frame):
global first_frame
current_frame = np.array(current_frame, dtype=np.float32).flatten()
with first_frame_lock:
if first_frame is None:
first_frame = current_frame.copy()
diff = current_frame - first_frame
return np.clip(diff, 0, None)
# ===================== 重置CoP状态 ===================== # ===================== 重置CoP状态 =====================
def reset_cop_state(): def reset_cop_state():
global first_contact_CoP_x, first_contact_CoP_y, contact_initialized global first_contact_CoP_x, first_contact_CoP_y, contact_initialized
global total_pressure_low_counter global post_init_frame_cnt, post_stable_cnt, post_refined_flag
global post_cand_x, post_cand_y
first_contact_CoP_x = None first_contact_CoP_x = None
first_contact_CoP_y = None first_contact_CoP_y = None
contact_initialized = False contact_initialized = False
total_pressure_low_counter = 0 cop_init_x_buf.clear()
cop_init_y_buf.clear()
post_init_frame_cnt = 0
post_stable_cnt = 0
post_refined_flag = False
post_cand_x = None
post_cand_y = None
# ===================== CoP压力中心计算 ===================== # ===================== CoP压力中心计算 =====================
def compute_pressure_direction(baseline_subtracted_frame): def compute_pressure_direction(raw_frame):
global first_contact_CoP_x, first_contact_CoP_y, contact_initialized global first_contact_CoP_x, first_contact_CoP_y, contact_initialized
global total_pressure_low_counter global post_init_frame_cnt, post_stable_cnt, post_refined_flag
global post_cand_x, post_cand_y
global noise_sum_buf, dynamic_thresh
rows, cols = SENSOR_ROWS, SENSOR_COLS rows, cols = SENSOR_ROWS, SENSOR_COLS
frame_flat = np.asarray(baseline_subtracted_frame, dtype=np.float32).flatten() frame_flat = np.asarray(raw_frame, dtype=np.float32).flatten()
frame2d = frame_flat.reshape(rows, cols) frame2d = frame_flat.reshape(rows, cols)
total_pressure = np.sum(frame2d) total_pressure = np.sum(frame2d)
if total_pressure < TOTAL_PRESSURE_LOW_THRESHOLD:
total_pressure_low_counter += 1
else:
total_pressure_low_counter = 0
if total_pressure_low_counter >= COP_STABILITY_FRAMES_REQUIRED: # 动态阈值
reset_cop_state() if dynamic_thresh is None:
return 0.0, 0.0 noise_sum_buf.append(total_pressure)
if len(noise_sum_buf) >= NOISE_COLLECT_FRAMES:
sums = np.array(noise_sum_buf)
dynamic_thresh = THRESH_K * float(np.mean(sums))
if total_pressure == 0: # 低压重置
return 0.0, 0.0 if total_pressure == 0 or (dynamic_thresh is not None and total_pressure < dynamic_thresh):
if contact_initialized and dynamic_thresh is not None:
reset_cop_state()
return 0.0, 0.0, 0, rows-1, 0, cols-1, 0.0, 0.0, 0.0, 0.0, 0.0, 0, 0.0, dynamic_thresh
x_grid = np.tile(np.arange(cols), (rows, 1)) x_grid = np.tile(np.arange(cols), (rows, 1))
y_grid = np.repeat(np.arange(rows), cols).reshape(rows, cols) y_grid = np.repeat(np.arange(rows), cols).reshape(rows, cols)
@@ -419,44 +482,98 @@ def compute_pressure_direction(baseline_subtracted_frame):
delta_CoP_x = 0.0 delta_CoP_x = 0.0
delta_CoP_y = 0.0 delta_CoP_y = 0.0
base_x = cop_x
base_y = cop_y
# ============ 初始点稳定判断(中位数判定) ============
if not contact_initialized: if not contact_initialized:
first_contact_CoP_x = cop_x cop_init_x_buf.append(cop_x)
first_contact_CoP_y = cop_y cop_init_y_buf.append(cop_y)
contact_initialized = True
else: if len(cop_init_x_buf) >= COP_INIT_MEDIAN_FRAMES:
delta_CoP_x = cop_x - first_contact_CoP_x first_contact_CoP_x = float(np.median(cop_init_x_buf))
delta_CoP_y = cop_y - first_contact_CoP_y first_contact_CoP_y = float(np.median(cop_init_y_buf))
contact_initialized = True
cop_init_x_buf.clear()
cop_init_y_buf.clear()
# ========== 计算偏移量 ==========
else:
# 二次静置精修
post_init_frame_cnt += 1
if not post_refined_flag and post_init_frame_cnt <= POST_INIT_WINDOW_CNT:
if post_cand_x is not None:
dist_val = np.hypot(cop_x - post_cand_x, cop_y - post_cand_y)
if dist_val <= POST_INIT_STABLE_THRESH:
post_stable_cnt += 1
else:
post_cand_x = cop_x
post_cand_y = cop_y
post_stable_cnt = 1
else:
post_cand_x = cop_x
post_cand_y = cop_y
post_stable_cnt = 1
if post_stable_cnt >= POST_INIT_STABLE_CNT:
first_contact_CoP_x = post_cand_x
first_contact_CoP_y = post_cand_y
post_refined_flag = True
else:
post_refined_flag = True
delta_CoP_x = cop_x - first_contact_CoP_x
delta_CoP_y = first_contact_CoP_y - cop_y
base_x = first_contact_CoP_x
base_y = first_contact_CoP_y
magnitude = np.hypot(delta_CoP_x, delta_CoP_y)
if not contact_initialized:
state = 0
elif not post_refined_flag:
state = 1
else:
state = 2
return (cop_x, cop_y,
0, rows-1, 0, cols-1,
delta_CoP_x, delta_CoP_y,
base_x, base_y,
magnitude, state,
total_pressure, dynamic_thresh)
return delta_CoP_x, delta_CoP_y
# ===================== 角度计算核心 ===================== # ===================== 角度计算核心 =====================
def compute_vector_angle(x: float, y: float) -> tuple[float, float]: def compute_vector_angle(x: float, y: float) -> tuple[float, float]:
epsilon = 1e-8 epsilon = 1e-8
mag = np.hypot(x, y) mag = np.hypot(x, y)
angle = np.degrees(np.arctan2(y, x + epsilon)) angle = np.degrees(np.arctan2(y, x + epsilon))
if angle < 0: if angle < 0:
angle += 360 angle += 360
return angle, mag return angle, mag
def compute_PZT_angle(Px: float, Py: float) -> tuple[float, float]: def compute_PZT_angle(Px: float, Py: float) -> tuple[float, float]:
return compute_vector_angle(Px, -Py) return compute_vector_angle(Px, Py)
# ===================== 核心入口函数 ===================== # ===================== 核心入口函数 =====================
def get_pzt_angle(adc_data): def get_pzt_angle(adc_data):
if len(adc_data) != 84: if len(adc_data) != 84:
raise ValueError("ADC数据长度必须为84") raise ValueError("ADC数据长度必须为84")
baseline_subtracted = subtract_baseline(adc_data) result = compute_pressure_direction(adc_data)
dx, dy = compute_pressure_direction(baseline_subtracted) cop_x, cop_y = result[0], result[1]
dx, dy = result[6], result[7]
base_x, base_y = result[8], result[9]
magnitude = result[10]
state = int(result[11])
total_press = result[12]
threshold = result[13]
pzt_angle, _ = compute_PZT_angle(dx, dy) pzt_angle, _ = compute_PZT_angle(dx, dy)
return pzt_angle, magnitude, state, cop_x, cop_y, base_x, base_y, total_press, threshold
return pzt_angle
# ===================== 重置基线(校准用) ===================== # ===================== 重置基线(校准用) =====================
def reset_baseline(): def reset_baseline():
global first_frame
with first_frame_lock:
first_frame = None
reset_cop_state() reset_cop_state()

22
devkit/sensor_stream_pb2.py
View File

@@ -24,7 +24,7 @@ _sym_db = _symbol_database.Default()
DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(b'\n\x13sensor_stream.proto\x12\rsensor_stream\"\x85\x01\n\x0bSensorFrame\x12\x0b\n\x03seq\x18\x01 \x01(\x04\x12\x14\n\x0ctimestamp_ms\x18\x02 \x01(\x04\x12\x0c\n\x04rows\x18\x03 \x01(\r\x12\x0c\n\x04\x63ols\x18\x04 \x01(\r\x12\x0e\n\x06matrix\x18\x05 \x03(\r\x12\x17\n\x0fresultant_force\x18\x06 \x01(\x01\x12\x0e\n\x06\x64ts_ms\x18\x07 \x01(\r\"q\n\x10PztAngleResponse\x12\x0b\n\x03seq\x18\x01 \x01(\x04\x12\x14\n\x0ctimestamp_ms\x18\x02 \x01(\x04\x12\r\n\x05\x61ngle\x18\x03 \x01(\x02\x12\x0e\n\x06\x64ts_ms\x18\x04 \x01(\r\x12\n\n\x02ok\x18\x05 \x01(\x08\x12\x0f\n\x07message\x18\x06 \x01(\t\"8\n\x0eProcessRequest\x12\x10\n\x08\x63sv_path\x18\x01 \x01(\t\x12\x14\n\x0csave_as_xlsx\x18\x02 \x01(\x08\"\xa6\x01\n\x0fProcessResponse\x12\n\n\x02ok\x18\x01 \x01(\x08\x12\x13\n\x0boutput_path\x18\x02 \x01(\t\x12\x13\n\x0bgroups_used\x18\x03 \x01(\r\x12\x12\n\nmean_value\x18\x04 \x01(\x01\x12\x11\n\tthreshold\x18\x05 \x01(\x01\x12\x12\n\nrows_total\x18\x06 \x01(\r\x12\x11\n\trows_kept\x18\x07 \x01(\r\x12\x0f\n\x07message\x18\x08 \x01(\t2W\n\nSensorPush\x12I\n\x06Upload\x12\x1a.sensor_stream.SensorFrame\x1a\x1f.sensor_stream.PztAngleResponse(\x01\x30\x01\x32_\n\x0f\x45xportProcessor\x12L\n\x0bProcessFile\x12\x1d.sensor_stream.ProcessRequest\x1a\x1e.sensor_stream.ProcessResponseb\x06proto3') DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(b'\n\x13sensor_stream.proto\x12\rsensor_stream\"\x85\x01\n\x0bSensorFrame\x12\x0b\n\x03seq\x18\x01 \x01(\x04\x12\x14\n\x0ctimestamp_ms\x18\x02 \x01(\x04\x12\x0c\n\x04rows\x18\x03 \x01(\r\x12\x0c\n\x04\x63ols\x18\x04 \x01(\r\x12\x0e\n\x06matrix\x18\x05 \x03(\r\x12\x17\n\x0fresultant_force\x18\x06 \x01(\x01\x12\x0e\n\x06\x64ts_ms\x18\x07 \x01(\r\"\xd1\x01\n\x10PztAngleResponse\x12\x0b\n\x03seq\x18\x01 \x01(\x04\x12\x14\n\x0ctimestamp_ms\x18\x02 \x01(\x04\x12\r\n\x05\x61ngle\x18\x03 \x01(\x02\x12\x0e\n\x06\x64ts_ms\x18\x04 \x01(\r\x12\n\n\x02ok\x18\x05 \x01(\x08\x12\x0f\n\x07message\x18\x06 \x01(\t\x12\x11\n\tmagnitude\x18\x07 \x01(\x02\x12\r\n\x05state\x18\x08 \x01(\r\x12\r\n\x05\x63op_x\x18\t \x01(\x02\x12\r\n\x05\x63op_y\x18\n \x01(\x02\x12\x0e\n\x06\x62\x61se_x\x18\x0b \x01(\x02\x12\x0e\n\x06\x62\x61se_y\x18\x0c \x01(\x02\"8\n\x0eProcessRequest\x12\x10\n\x08\x63sv_path\x18\x01 \x01(\t\x12\x14\n\x0csave_as_xlsx\x18\x02 \x01(\x08\"\xa6\x01\n\x0fProcessResponse\x12\n\n\x02ok\x18\x01 \x01(\x08\x12\x13\n\x0boutput_path\x18\x02 \x01(\t\x12\x13\n\x0bgroups_used\x18\x03 \x01(\r\x12\x12\n\nmean_value\x18\x04 \x01(\x01\x12\x11\n\tthreshold\x18\x05 \x01(\x01\x12\x12\n\nrows_total\x18\x06 \x01(\r\x12\x11\n\trows_kept\x18\x07 \x01(\r\x12\x0f\n\x07message\x18\x08 \x01(\t2W\n\nSensorPush\x12I\n\x06Upload\x12\x1a.sensor_stream.SensorFrame\x1a\x1f.sensor_stream.PztAngleResponse(\x01\x30\x01\x32_\n\x0f\x45xportProcessor\x12L\n\x0bProcessFile\x12\x1d.sensor_stream.ProcessRequest\x1a\x1e.sensor_stream.ProcessResponseb\x06proto3')
_globals = globals() _globals = globals()
_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, _globals) _builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, _globals)
@@ -33,14 +33,14 @@ if not _descriptor._USE_C_DESCRIPTORS:
DESCRIPTOR._loaded_options = None DESCRIPTOR._loaded_options = None
_globals['_SENSORFRAME']._serialized_start=39 _globals['_SENSORFRAME']._serialized_start=39
_globals['_SENSORFRAME']._serialized_end=172 _globals['_SENSORFRAME']._serialized_end=172
_globals['_PZTANGLERESPONSE']._serialized_start=174 _globals['_PZTANGLERESPONSE']._serialized_start=175
_globals['_PZTANGLERESPONSE']._serialized_end=287 _globals['_PZTANGLERESPONSE']._serialized_end=384
_globals['_PROCESSREQUEST']._serialized_start=289 _globals['_PROCESSREQUEST']._serialized_start=386
_globals['_PROCESSREQUEST']._serialized_end=345 _globals['_PROCESSREQUEST']._serialized_end=442
_globals['_PROCESSRESPONSE']._serialized_start=348 _globals['_PROCESSRESPONSE']._serialized_start=445
_globals['_PROCESSRESPONSE']._serialized_end=514 _globals['_PROCESSRESPONSE']._serialized_end=611
_globals['_SENSORPUSH']._serialized_start=516 _globals['_SENSORPUSH']._serialized_start=613
_globals['_SENSORPUSH']._serialized_end=603 _globals['_SENSORPUSH']._serialized_end=700
_globals['_EXPORTPROCESSOR']._serialized_start=605 _globals['_EXPORTPROCESSOR']._serialized_start=702
_globals['_EXPORTPROCESSOR']._serialized_end=700 _globals['_EXPORTPROCESSOR']._serialized_end=797
# @@protoc_insertion_point(module_scope) # @@protoc_insertion_point(module_scope)

127
devkit/test_pzt.py Normal file
View File

@@ -0,0 +1,127 @@
"""
独立测试脚本读取84个原始ADC数据传入CoP算法计算角度终端打印结果。
用法:
python test_pzt.py # 从 stdin 逐行读取每行84个逗号分隔数值
python test_pzt.py data.csv # 从 CSV 文件逐行读取
python test_pzt.py --random # 生成随机测试数据(调试用)
"""
import sys
import csv
import numpy as np
# ── 从 sensor_server.py 导入算法 ──
sys.path.insert(0, ".")
from sensor_server import (
get_pzt_angle,
reset_baseline,
subtract_baseline,
compute_pressure_direction,
compute_PZT_angle,
)
def print_result(data_label: str, pzt_angle: float, magnitude: float, state: int, cop_x: float, cop_y: float, base_x: float, base_y: float):
dx = cop_x - base_x
dy = base_y - cop_y
print(
f"devkit: angle={pzt_angle:.2f}, magnitude={magnitude:.4f}, state={state}, "
f"cop_x={cop_x:.4f}, cop_y={cop_y:.4f}, dx={dx:.4f}, dy={dy:.4f}"
)
def process_values(values: list[int | float]):
"""处理一帧84个值并打印结果"""
if len(values) != 84:
print(f"[ERROR] 期望84个值实际收到 {len(values)}", file=sys.stderr)
return
try:
pzt_angle, magnitude, state, cop_x, cop_y, base_x, base_y = get_pzt_angle(values)
print_result("", pzt_angle, magnitude, state, cop_x, cop_y, base_x, base_y)
except Exception as e:
print(f"[ERROR] 计算失败: {e}", file=sys.stderr)
def run_random_test():
"""生成随机数据测试算法"""
reset_baseline()
print("[TEST] 使用随机数据测试 CoP 算法")
print("[TEST] 先用全零帧建立基线...")
process_values([0] * 84)
print("[TEST] 模拟右侧偏移按压...")
# 模拟row 5-7, col 4-6 区域有压力
data = [0.0] * 84
for r in range(5, 8):
for c in range(4, 7):
idx = r * 7 + c
data[idx] = 100.0 + (c - 4) * 50 # 右侧更强
process_values(data)
print("[TEST] 模拟下方偏移按压...")
data2 = [0.0] * 84
for r in range(8, 11):
for c in range(2, 5):
idx = r * 7 + c
data2[idx] = 150.0 + (r - 8) * 30
process_values(data2)
print("[TEST] 完成")
def run_csv_mode(filepath: str):
"""从 CSV 文件逐行读取并处理"""
reset_baseline()
print(f"[CSV] 读取文件: {filepath}")
with open(filepath, "r", encoding="utf-8-sig", newline="") as f:
reader = csv.reader(f)
for i, row in enumerate(reader):
if not row:
continue
# 跳过 header
if row[0].strip() in ("seq", "timestamp_ms"):
print(f"[CSV] 跳过 header: {row[:5]}...")
continue
try:
values = [float(v) for v in row]
if len(values) == 84:
process_values(values)
elif len(values) > 84:
process_values(values[:84])
except ValueError:
continue
def run_stdin_mode():
"""从 stdin 逐行读取"""
reset_baseline()
print("[STDIN] 等待输入每行84个逗号分隔数值Ctrl+C 退出)...")
try:
for line in sys.stdin:
line = line.strip()
if not line:
continue
try:
values = [float(v) for v in line.split(",")]
if len(values) >= 84:
process_values(values[:84])
except ValueError:
continue
except KeyboardInterrupt:
print("\n[STDIN] 已退出")
def main():
if len(sys.argv) > 1:
arg = sys.argv[1]
if arg == "--random":
run_random_test()
elif arg == "--help" or arg == "-h":
print(__doc__)
else:
run_csv_mode(arg)
else:
run_stdin_mode()
if __name__ == "__main__":
main()

2
package-lock.json generated
View File

@@ -6,7 +6,7 @@
"packages": { "packages": {
"": { "": {
"name": "JE-Skin", "name": "JE-Skin",
"version": "0.3.0", "version": "0.4.0",
"license": "MIT", "license": "MIT",
"dependencies": { "dependencies": {
"@tauri-apps/api": "^2", "@tauri-apps/api": "^2",

2
src-tauri/Cargo.toml
View File

@@ -15,7 +15,7 @@ name = "tauri_demo_lib"
crate-type = ["staticlib", "cdylib", "rlib"] crate-type = ["staticlib", "cdylib", "rlib"]
[features] [features]
default = [] default = ["multi-dim"]
devkit = ["dep:tonic", "dep:prost", "dep:prost-types", "dep:async-stream", "dep:dirs"] devkit = ["dep:tonic", "dep:prost", "dep:prost-types", "dep:async-stream", "dep:dirs"]
multi-dim = ["dep:ndarray"] multi-dim = ["dep:ndarray"]

8
src-tauri/proto/sensor_stream.proto
View File

@@ -27,6 +27,14 @@ message PztAngleResponse {
uint32 dts_ms = 4; uint32 dts_ms = 4;
bool ok = 5; bool ok = 5;
string message = 6; string message = 6;
float magnitude = 7;
uint32 state = 8;
float cop_x = 9;
float cop_y = 10;
float base_x = 11;
float base_y = 12;
float total_press = 13;
float threshold = 14;
} }
message ProcessRequest { message ProcessRequest {

BIN
src-tauri/resources/je-skin-devkit-server.exe
View File

Binary file not shown.

162
src-tauri/src/ad_solver.rs Normal file
View File

@@ -0,0 +1,162 @@
/// AD值反解x计算器
/// AD = -5.732*x^3 - 131.5*x^2 + 31980*x + 13490 (x <= 6.57)
/// AD = -377.8*x^2 + 26040*x + 51120 (x > 6.57)
const X_BOUNDARY: f64 = 6.57;
/// 二次方程在边界处的AD值
/// 当 x = 6.57 时AD = -377.8*6.57^2 + 26040*6.57 + 51120
const AD_BOUNDARY: f64 = 205895.10;
/// 二次方程求解器
/// -377.8*x^2 + 26040*x + 51120 = ad
/// 返回 x > 6.57 的那个解
fn solve_quadratic(ad: f64) -> Option<f64> {
let a = -377.8;
let b = 26040.0;
let c = 51120.0 - ad;
let discriminant = b * b - 4.0 * a * c;
if discriminant < 0.0 {
return None;
}
let sqrt_d = discriminant.sqrt();
let x1 = (-b + sqrt_d) / (2.0 * a);
let x2 = (-b - sqrt_d) / (2.0 * a);
// 选择 x > 6.57 的解(只可能有一个解满足这个条件)
if x1 > X_BOUNDARY && x1 > 0.0 {
Some(x1)
} else if x2 > X_BOUNDARY && x2 > 0.0 {
Some(x2)
} else {
None
}
}
/// 计算三次多项式的值
/// f(x) = -5.732*x^3 - 131.5*x^2 + 31980*x + 13490
fn cubic_value(x: f64) -> f64 {
-5.732 * x.powi(3) - 131.5 * x.powi(2) + 31980.0 * x + 13490.0
}
/// 使用二分法求解三次方程 (x <= 6.57)
/// 三次方程在 [0, 6.57] 范围内是单调递增的
fn solve_cubic_bisection(ad: f64) -> Option<f64> {
let mut low = 0.0;
let mut high = X_BOUNDARY;
let target = ad;
// 检查目标是否在范围内
let low_ad = cubic_value(low);
let high_ad = cubic_value(high);
if target < low_ad.min(high_ad) || target > low_ad.max(high_ad) {
return None;
}
for _i in 0..100 {
let mid = (low + high) / 2.0;
let mid_ad = cubic_value(mid);
if (high - low).abs() < 1e-10 {
return Some((low + high) / 2.0);
}
if mid_ad > target {
high = mid;
} else {
low = mid;
}
}
Some((low + high) / 2.0)
}
/// 主求解函数根据AD值反解x
pub fn solve_for_x(ad: f64) -> Option<f64> {
// 如果 AD <= 边界值,使用三次方程 (x <= 6.57)
// 如果 AD > 边界值,使用二次方程 (x > 6.57)
if ad <= AD_BOUNDARY {
return solve_cubic_bisection(ad);
}
// AD > 边界值,使用二次方程
solve_quadratic(ad)
}
/// 批量求解,用于验证所有解
pub fn solve_for_x_all(ad: f64) -> Vec<f64> {
let mut results = Vec::new();
// 三次方程解
if let Some(x) = solve_cubic_bisection(ad) {
results.push(x);
}
// 二次方程解
if let Some(x) = solve_quadratic(ad) {
results.push(x);
}
results
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_cubic_forward() {
// 测试 x <= 6.57 的正向计算
let x = 5.0;
let ad = cubic_value(x);
println!("x={}, ad={}", x, ad);
let solved = solve_for_x(ad).unwrap();
println!("solved={}", solved);
assert!((solved - x).abs() < 0.01, "x={}, solved={}", x, solved);
}
#[test]
fn test_quadratic_forward() {
// 测试 x > 6.57 的正向计算
let x = 10.0;
let ad = -377.8 * x * x + 26040.0 * x + 51120.0;
let solved = solve_for_x(ad).unwrap();
assert!((solved - x).abs() < 0.01, "x={}, solved={}", x, solved);
}
#[test]
fn test_boundary() {
// 测试边界值
let x = 6.57;
let ad_cubic = cubic_value(x);
let ad_quad = -377.8 * x * x + 26040.0 * x + 51120.0;
println!("x=6.57 时三次方程 AD = {:.2}", ad_cubic);
println!("x=6.57 时二次方程 AD = {:.2}", ad_quad);
println!("边界值 AD_BOUNDARY = {:.2}", AD_BOUNDARY);
// 边界处两个公式应该有显著差异
assert!((ad_cubic - ad_quad).abs() > 100.0);
}
#[test]
fn test_known_values() {
// 测试一些已知值
let test_cases = [
(0.0, cubic_value(0.0)),
(3.0, cubic_value(3.0)),
(6.0, cubic_value(6.0)),
(8.0, -377.8 * 8.0 * 8.0 + 26040.0 * 8.0 + 51120.0),
(15.0, -377.8 * 15.0 * 15.0 + 26040.0 * 15.0 + 51120.0),
];
for (x, ad) in test_cases {
let solved = solve_for_x(ad).unwrap();
assert!((solved - x).abs() < 0.01, "x={}, ad={}, solved={}", x, ad, solved);
}
}
}

14
src-tauri/src/devkit/client.rs
View File

@@ -278,10 +278,16 @@ async fn run_grpc_upload(
angle: message.angle, angle: message.angle,
}; };
::log::debug!( ::log::debug!(
"python pzt angle: seq={} dts_ms={} angle={:.2}", "devkit: angle={:.2}, magnitude={:.4}, state={}, cop_x={:.4}, cop_y={:.4}, base_x={:.4}, base_y={:.4}, total_press={:.2}, thresh={:.2}",
message.seq, message.angle,
message.dts_ms, message.magnitude,
message.angle message.state,
message.cop_x,
message.cop_y,
message.base_x,
message.base_y,
message.total_press,
message.threshold
); );
app.emit("devkit_pzt_angle", payload)?; app.emit("devkit_pzt_angle", payload)?;
} else { } else {

1
src-tauri/src/lib.rs
View File

@@ -1,3 +1,4 @@
pub mod ad_solver;
mod commands; mod commands;
mod lan_game; mod lan_game;
pub mod log; pub mod log;

11
src-tauri/src/serial_core/codecs/tactile_a.rs
View File

@@ -77,11 +77,12 @@ impl TactileACodec {
.chunks_exact(2) .chunks_exact(2)
.map(|chunk| { .map(|chunk| {
let raw = u16::from_le_bytes([chunk[0], chunk[1]]) as i32; let raw = u16::from_le_bytes([chunk[0], chunk[1]]) as i32;
if raw < 15 { raw
0 // if raw < 15 {
} else { // 0
raw // } else {
} // raw
// }
}) })
.collect::<Vec<i32>>(); .collect::<Vec<i32>>();

25
src-tauri/src/serial_core/model.rs
View File

@@ -13,6 +13,7 @@ pub struct HudPacket {
pub panels: Vec<HudSignalPanel>, pub panels: Vec<HudSignalPanel>,
pub summary: HudSummary, pub summary: HudSummary,
pub pressure_matrix: Option<Vec<f32>>, pub pressure_matrix: Option<Vec<f32>>,
pub spatial_force: Option<HudSpatialForce>,
} }
#[derive(serde::Serialize, Clone)] #[derive(serde::Serialize, Clone)]
@@ -74,6 +75,14 @@ pub struct HudSignalIcon {
pub tone: HudTone, pub tone: HudTone,
} }
#[derive(serde::Serialize, Clone)]
#[serde(rename_all = "camelCase")]
pub struct HudSpatialForce {
pub angle_deg: f32,
pub magnitude: f32,
pub confidence: f32,
}
struct HudPanelUpdate { struct HudPanelUpdate {
source_id: String, source_id: String,
values: Vec<f32>, values: Vec<f32>,
@@ -89,6 +98,7 @@ pub struct HudChartState {
order: Vec<String>, order: Vec<String>,
summary_points: Vec<f32>, summary_points: Vec<f32>,
pressure_matrix: Option<Vec<f32>>, pressure_matrix: Option<Vec<f32>>,
spatial_force: Option<HudSpatialForce>,
last_frame_seen: Option<Instant>, last_frame_seen: Option<Instant>,
} }
@@ -99,6 +109,7 @@ impl HudChartState {
order: Vec::new(), order: Vec::new(),
summary_points: Vec::new(), summary_points: Vec::new(),
pressure_matrix: None, pressure_matrix: None,
spatial_force: None,
last_frame_seen: None, last_frame_seen: None,
} }
} }
@@ -115,6 +126,10 @@ impl HudChartState {
self.pressure_matrix = Some(values.iter().map(|value| *value as f32).collect()); self.pressure_matrix = Some(values.iter().map(|value| *value as f32).collect());
} }
pub fn record_spatial_force(&mut self, spatial_force: Option<HudSpatialForce>) {
self.spatial_force = spatial_force;
}
pub fn apply_frame(&mut self, frame: &TestFrame, decoded_values: Option<&[i32]>) -> HudPacket { pub fn apply_frame(&mut self, frame: &TestFrame, decoded_values: Option<&[i32]>) -> HudPacket {
let now = Instant::now(); let now = Instant::now();
self.last_frame_seen = Some(now); self.last_frame_seen = Some(now);
@@ -130,9 +145,15 @@ impl HudChartState {
pub fn prune_stale(&mut self) -> Option<HudPacket> { pub fn prune_stale(&mut self) -> Option<HudPacket> {
let before = self.panels.len(); let before = self.panels.len();
let summary_points_before = self.summary_points.len(); let summary_points_before = self.summary_points.len();
let had_pressure_matrix = self.pressure_matrix.is_some();
let had_spatial_force = self.spatial_force.is_some();
self.prune_stale_at(Instant::now()); self.prune_stale_at(Instant::now());
if before == self.panels.len() && summary_points_before == self.summary_points.len() { if before == self.panels.len()
&& summary_points_before == self.summary_points.len()
&& had_pressure_matrix == self.pressure_matrix.is_some()
&& had_spatial_force == self.spatial_force.is_some()
{
return None; return None;
} }
@@ -187,6 +208,7 @@ impl HudChartState {
if summary_stale { if summary_stale {
self.summary_points.clear(); self.summary_points.clear();
self.pressure_matrix = None; self.pressure_matrix = None;
self.spatial_force = None;
self.last_frame_seen = None; self.last_frame_seen = None;
} }
} }
@@ -205,6 +227,7 @@ impl HudChartState {
panels, panels,
summary: build_summary(&self.summary_points), summary: build_summary(&self.summary_points),
pressure_matrix: self.pressure_matrix.clone(), pressure_matrix: self.pressure_matrix.clone(),
spatial_force: self.spatial_force.clone(),
} }
} }

545
src-tauri/src/serial_core/multi_dim_force.rs
View File

@@ -1,122 +1,527 @@
use ndarray::Array2;
const TOTAL_PRESSURE_LOW_THRESHOLD: usize = 500;
const COP_STABILITY_FRAMES_REQUIRED: usize = 5;
const SENSOR_ROWS: usize = 12; const SENSOR_ROWS: usize = 12;
const SENSOR_COLS: usize = 7; const SENSOR_COLS: usize = 7;
const SENSOR_COUNT: usize = SENSOR_ROWS * SENSOR_COLS;
const CONTACT_ENTER_TOTAL_THRESHOLD: f32 = 520.0;
const CONTACT_ENTER_PEAK_THRESHOLD: f32 = 50.0;
const CONTACT_EXIT_TOTAL_THRESHOLD: f32 = 260.0;
const CONTACT_EXIT_PEAK_THRESHOLD: f32 = 28.0;
const CONTACT_ENTER_FRAMES_REQUIRED: usize = 2;
const CONTACT_EXIT_FRAMES_REQUIRED: usize = 8;
const BASELINE_IDLE_ALPHA: f32 = 0.035;
const BASELINE_BOOTSTRAP_ALPHA: f32 = 1.0;
const BASELINE_NOISE_FLOOR: f32 = 5.0;
const ACTIVE_CELL_MIN_VALUE: f32 = 18.0;
const ACTIVE_CELL_PEAK_RATIO: f32 = 0.14;
const MIN_ACTIVE_CELLS: usize = 3;
const ANCHOR_LERP_ALPHA: f32 = 0.018;
const VECTOR_SMOOTHING_ALPHA: f32 = 0.16;
const REPORT_MAGNITUDE_ENTER: f32 = 0.12;
const REPORT_MAGNITUDE_EXIT: f32 = 0.045;
const REPORT_CONFIDENCE_ENTER: f32 = 0.14;
const REPORT_CONFIDENCE_EXIT: f32 = 0.06;
const REPORT_HOLD_FRAMES: usize = 10;
const ASYMMETRY_WEIGHT: f32 = 1.1;
const DRIFT_WEIGHT: f32 = 0.65;
const MOTION_WEIGHT: f32 = 0.25;
#[derive(Debug, Clone, Copy)]
pub struct PztSpatialAnalysis {
pub angle_deg: f32,
pub magnitude: f32,
pub planar_x: f32,
pub planar_y: f32,
pub confidence: f32,
pub contact_active: bool,
pub reportable: bool,
}
pub struct PztProcessor { pub struct PztProcessor {
first_frame: Option<Vec<f32>>, baseline_frame: Option<Vec<f32>>,
first_contact_cop_x: Option<f32>, contact_active: bool,
first_contact_cop_y: Option<f32>, contact_enter_counter: usize,
contact_initialized: bool, contact_exit_counter: usize,
total_pressure_low_counter: usize, anchor_cop_x: Option<f32>,
anchor_cop_y: Option<f32>,
last_cop_x: Option<f32>,
last_cop_y: Option<f32>,
smoothed_x: f32,
smoothed_y: f32,
report_active: bool,
report_hold_counter: usize,
held_report: Option<PztSpatialAnalysis>,
}
#[derive(Clone, Copy)]
struct ContactStats {
total: f32,
peak: f32,
active_total: f32,
active_cells: usize,
min_row: usize,
max_row: usize,
min_col: usize,
max_col: usize,
cop_x: f32,
cop_y: f32,
asymmetry_x: f32,
asymmetry_y: f32,
} }
impl PztProcessor { impl PztProcessor {
pub fn new() -> Self { pub fn new() -> Self {
Self { Self {
first_frame: None, baseline_frame: None,
first_contact_cop_x: None, contact_active: false,
first_contact_cop_y: None, contact_enter_counter: 0,
contact_initialized: false, contact_exit_counter: 0,
total_pressure_low_counter: 0, anchor_cop_x: None,
anchor_cop_y: None,
last_cop_x: None,
last_cop_y: None,
smoothed_x: 0.0,
smoothed_y: 0.0,
report_active: false,
report_hold_counter: 0,
held_report: None,
} }
} }
fn subtract_baseline(&mut self, current_frame: &[f32]) -> Vec<f32> { fn reset_tracking_state(&mut self) {
if self.first_frame.is_none() { self.contact_active = false;
self.first_frame = Some(current_frame.to_vec()); self.contact_enter_counter = 0;
self.contact_exit_counter = 0;
self.anchor_cop_x = None;
self.anchor_cop_y = None;
self.last_cop_x = None;
self.last_cop_y = None;
self.smoothed_x = 0.0;
self.smoothed_y = 0.0;
}
fn reset_report_state(&mut self) {
self.report_active = false;
self.report_hold_counter = 0;
self.held_report = None;
}
fn update_idle_baseline(&mut self, raw_frame: &[f32], alpha: f32) {
match self.baseline_frame.as_mut() {
Some(baseline) => {
for (base, current) in baseline.iter_mut().zip(raw_frame.iter().copied()) {
*base += (current - *base) * alpha;
}
}
None => {
self.baseline_frame = Some(raw_frame.to_vec());
}
}
}
fn subtract_baseline(&mut self, raw_frame: &[f32]) -> Vec<f32> {
if self.baseline_frame.is_none() {
self.update_idle_baseline(raw_frame, BASELINE_BOOTSTRAP_ALPHA);
} }
let baseline = self.first_frame.as_ref().unwrap(); let baseline = self
current_frame .baseline_frame
.as_ref()
.expect("baseline should exist after bootstrap");
raw_frame
.iter() .iter()
.zip(baseline.iter()) .zip(baseline.iter())
.map(|(c, b)| (c - b).max(0.0)) .map(|(raw, base)| (raw - base - BASELINE_NOISE_FLOOR).max(0.0))
.collect() .collect()
} }
fn reset_cop_state(&mut self) { fn pressure_metrics(frame: &[f32]) -> (f32, f32) {
self.first_contact_cop_x = None; let total = frame.iter().sum::<f32>();
self.first_contact_cop_y = None; let peak = frame.iter().copied().fold(0.0, f32::max);
self.contact_initialized = false; (total, peak)
self.total_pressure_low_counter = 0;
} }
fn compute_pressure_direction(&mut self, frame: &[f32]) -> (f32, f32) { fn is_contact_enter_frame(frame: &[f32]) -> bool {
let frame2d = Array2::from_shape_vec((SENSOR_ROWS, SENSOR_COLS), frame.to_vec()).unwrap(); let (total, peak) = Self::pressure_metrics(frame);
let total_pressure: f32 = frame2d.sum(); total >= CONTACT_ENTER_TOTAL_THRESHOLD && peak >= CONTACT_ENTER_PEAK_THRESHOLD
if total_pressure < TOTAL_PRESSURE_LOW_THRESHOLD as f32 { }
self.total_pressure_low_counter += 1;
} else { fn is_contact_exit_frame(frame: &[f32]) -> bool {
self.total_pressure_low_counter = 0; let (total, peak) = Self::pressure_metrics(frame);
total <= CONTACT_EXIT_TOTAL_THRESHOLD || peak <= CONTACT_EXIT_PEAK_THRESHOLD
}
fn inactive_analysis() -> PztSpatialAnalysis {
PztSpatialAnalysis {
angle_deg: 0.0,
magnitude: 0.0,
planar_x: 0.0,
planar_y: 0.0,
confidence: 0.0,
contact_active: false,
reportable: false,
}
}
fn weak_contact_analysis() -> PztSpatialAnalysis {
PztSpatialAnalysis {
contact_active: true,
..Self::inactive_analysis()
}
}
fn compute_contact_stats(frame: &[f32]) -> Option<ContactStats> {
let total = frame.iter().sum::<f32>();
if total <= 0.0 {
return None;
} }
if self.total_pressure_low_counter >= COP_STABILITY_FRAMES_REQUIRED { let peak = frame.iter().copied().fold(0.0, f32::max);
self.reset_cop_state(); if peak <= 0.0 {
return (0.0, 0.0); return None;
} }
if total_pressure == 0.0 { let active_threshold = (peak * ACTIVE_CELL_PEAK_RATIO).max(ACTIVE_CELL_MIN_VALUE);
return (0.0, 0.0);
}
let mut sum_x = 0.0; let mut active_total = 0.0;
let mut sum_y = 0.0; let mut active_cells = 0usize;
let mut weighted_col_sum = 0.0;
let mut weighted_row_sum = 0.0;
let mut min_row = SENSOR_ROWS;
let mut max_row = 0usize;
let mut min_col = SENSOR_COLS;
let mut max_col = 0usize;
for r in 0..SENSOR_ROWS { for row in 0..SENSOR_ROWS {
for c in 0..SENSOR_COLS { for col in 0..SENSOR_COLS {
let val = frame2d[(r, c)]; let index = row * SENSOR_COLS + col;
sum_x += val * c as f32; let value = frame[index];
sum_y += val * r as f32; if value < active_threshold {
continue;
}
active_cells += 1;
active_total += value;
weighted_col_sum += value * col as f32;
weighted_row_sum += value * row as f32;
min_row = min_row.min(row);
max_row = max_row.max(row);
min_col = min_col.min(col);
max_col = max_col.max(col);
} }
} }
let cop_x = sum_x / total_pressure; if active_cells < MIN_ACTIVE_CELLS || active_total <= 0.0 {
let cop_y = sum_y / total_pressure; return None;
if !self.contact_initialized {
self.first_contact_cop_x = Some(cop_x);
self.first_contact_cop_y = Some(cop_y);
self.contact_initialized = true;
return (0.0, 0.0);
} }
let dx = cop_x - self.first_contact_cop_x.unwrap(); let cop_x = weighted_col_sum / active_total;
let dy = cop_y - self.first_contact_cop_y.unwrap(); let cop_y = weighted_row_sum / active_total;
let bbox_center_x = (min_col + max_col) as f32 * 0.5;
let bbox_center_y = (min_row + max_row) as f32 * 0.5;
let half_width = ((max_col - min_col).max(1) as f32) * 0.5;
let half_height = ((max_row - min_row).max(1) as f32) * 0.5;
(dx, dy) let mut asymmetry_x = 0.0;
let mut asymmetry_y = 0.0;
for row in min_row..=max_row {
for col in min_col..=max_col {
let index = row * SENSOR_COLS + col;
let value = frame[index];
if value < active_threshold {
continue;
}
asymmetry_x += value * ((col as f32 - bbox_center_x) / half_width);
asymmetry_y += value * ((row as f32 - bbox_center_y) / half_height);
}
}
Some(ContactStats {
total,
peak,
active_total,
active_cells,
min_row,
max_row,
min_col,
max_col,
cop_x,
cop_y,
asymmetry_x: asymmetry_x / active_total,
asymmetry_y: asymmetry_y / active_total,
})
} }
fn compute_vector_angle(x: f32, y: f32) -> (f32, f32) { fn compute_vector_angle(x: f32, y: f32) -> (f32, f32) {
let epsilon = 1e-8; let magnitude = (x * x + y * y).sqrt();
let mag = (x * x + y * y).sqrt(); if magnitude <= f32::EPSILON {
let mut angle = (y).atan2(x + epsilon).to_degrees(); return (0.0, 0.0);
}
let mut angle = y.atan2(x).to_degrees();
if angle < 0.0 { if angle < 0.0 {
angle += 360.0; angle += 360.0;
} }
(angle, mag)
(angle, magnitude)
} }
fn compute_pzt_angle(px: f32, py: f32) -> (f32, f32) { fn update_contact_state(&mut self, raw_frame: &[f32], frame: &[f32]) -> bool {
Self::compute_vector_angle(px, -py) if self.contact_active {
if Self::is_contact_exit_frame(frame) {
self.contact_exit_counter += 1;
if self.contact_exit_counter >= CONTACT_EXIT_FRAMES_REQUIRED {
self.update_idle_baseline(raw_frame, BASELINE_IDLE_ALPHA);
self.reset_tracking_state();
self.reset_report_state();
return false;
}
} else {
self.contact_exit_counter = 0;
}
return true;
}
if Self::is_contact_enter_frame(frame) {
self.contact_enter_counter += 1;
if self.contact_enter_counter >= CONTACT_ENTER_FRAMES_REQUIRED {
self.contact_active = true;
self.contact_enter_counter = 0;
self.contact_exit_counter = 0;
return true;
}
return false;
}
self.contact_enter_counter = 0;
self.update_idle_baseline(raw_frame, BASELINE_IDLE_ALPHA);
false
} }
pub fn get_pzt_angle(&mut self, adc_data: &[f32]) -> Result<f32, &'static str> { fn store_report(&mut self, mut analysis: PztSpatialAnalysis) -> PztSpatialAnalysis {
if adc_data.len() != 84 { analysis.reportable = true;
self.report_active = true;
self.report_hold_counter = 0;
self.held_report = Some(analysis);
analysis
}
fn hold_or_drop_report(&mut self) -> PztSpatialAnalysis {
if self.report_active && self.report_hold_counter < REPORT_HOLD_FRAMES {
self.report_hold_counter += 1;
if let Some(mut held) = self.held_report {
held.reportable = true;
return held;
}
}
self.reset_report_state();
Self::weak_contact_analysis()
}
fn stabilize_report(&mut self, analysis: PztSpatialAnalysis) -> PztSpatialAnalysis {
if !analysis.contact_active {
self.reset_report_state();
return analysis;
}
let can_enter = analysis.magnitude >= REPORT_MAGNITUDE_ENTER
&& analysis.confidence >= REPORT_CONFIDENCE_ENTER;
let can_stay = analysis.magnitude >= REPORT_MAGNITUDE_EXIT
&& analysis.confidence >= REPORT_CONFIDENCE_EXIT;
if self.report_active {
if can_stay {
return self.store_report(analysis);
}
return self.hold_or_drop_report();
}
if can_enter {
return self.store_report(analysis);
}
analysis
}
pub fn get_pzt_analysis(
&mut self,
adc_data: &[f32],
) -> Result<PztSpatialAnalysis, &'static str> {
if adc_data.len() != SENSOR_COUNT {
return Err("ADC data length must be 84"); return Err("ADC data length must be 84");
} }
let baseline = self.subtract_baseline(adc_data); let baseline_subtracted = self.subtract_baseline(adc_data);
let (dx, dy) = self.compute_pressure_direction(&baseline); if !self.update_contact_state(adc_data, &baseline_subtracted) {
let (angle, _) = Self::compute_pzt_angle(dx, dy); return Ok(Self::inactive_analysis());
}
Ok(angle) let Some(stats) = Self::compute_contact_stats(&baseline_subtracted) else {
return Ok(self.stabilize_report(Self::weak_contact_analysis()));
};
let Some(anchor_x) = self.anchor_cop_x else {
self.anchor_cop_x = Some(stats.cop_x);
self.anchor_cop_y = Some(stats.cop_y);
self.last_cop_x = Some(stats.cop_x);
self.last_cop_y = Some(stats.cop_y);
return Ok(self.stabilize_report(Self::weak_contact_analysis()));
};
let anchor_y = self.anchor_cop_y.unwrap_or(stats.cop_y);
let last_x = self.last_cop_x.unwrap_or(stats.cop_x);
let last_y = self.last_cop_y.unwrap_or(stats.cop_y);
let drift_x = stats.cop_x - anchor_x;
let drift_y = stats.cop_y - anchor_y;
let motion_x = stats.cop_x - last_x;
let motion_y = stats.cop_y - last_y;
let combined_x = stats.asymmetry_x * ASYMMETRY_WEIGHT
+ drift_x * DRIFT_WEIGHT
+ motion_x * MOTION_WEIGHT;
let combined_y = stats.asymmetry_y * ASYMMETRY_WEIGHT
+ drift_y * DRIFT_WEIGHT
+ motion_y * MOTION_WEIGHT;
self.smoothed_x += (combined_x - self.smoothed_x) * VECTOR_SMOOTHING_ALPHA;
self.smoothed_y += (combined_y - self.smoothed_y) * VECTOR_SMOOTHING_ALPHA;
self.anchor_cop_x = Some(anchor_x + drift_x * ANCHOR_LERP_ALPHA);
self.anchor_cop_y = Some(anchor_y + drift_y * ANCHOR_LERP_ALPHA);
self.last_cop_x = Some(stats.cop_x);
self.last_cop_y = Some(stats.cop_y);
let planar_x = self.smoothed_x;
let planar_y = -self.smoothed_y;
let (angle_deg, magnitude) = Self::compute_vector_angle(planar_x, planar_y);
let active_span_rows = (stats.max_row - stats.min_row + 1) as f32 / SENSOR_ROWS as f32;
let active_span_cols = (stats.max_col - stats.min_col + 1) as f32 / SENSOR_COLS as f32;
let activity = (stats.active_cells as f32 / SENSOR_COUNT as f32).clamp(0.0, 1.0);
let span = ((active_span_rows + active_span_cols) * 0.5).clamp(0.0, 1.0);
let pressure_ratio = (stats.active_total / stats.total.max(1.0)).clamp(0.0, 1.0);
let peak_ratio =
(stats.peak / (stats.total / stats.active_cells as f32 + 1.0)).clamp(0.0, 1.0);
let confidence =
((activity * 0.35) + (span * 0.2) + (pressure_ratio * 0.3) + (peak_ratio * 0.15))
.clamp(0.0, 1.0);
Ok(self.stabilize_report(PztSpatialAnalysis {
angle_deg,
magnitude,
planar_x,
planar_y,
confidence,
contact_active: true,
reportable: false,
}))
}
pub fn get_pzt_angle(&mut self, adc_data: &[f32]) -> Result<f32, &'static str> {
Ok(self.get_pzt_analysis(adc_data)?.angle_deg)
}
pub fn should_report(analysis: &PztSpatialAnalysis) -> bool {
analysis.reportable
} }
pub fn reset_baseline(&mut self) { pub fn reset_baseline(&mut self) {
self.first_frame = None; self.baseline_frame = None;
self.reset_cop_state(); self.reset_tracking_state();
self.reset_report_state();
}
}
#[cfg(test)]
mod tests {
use super::{PztProcessor, SENSOR_COLS, SENSOR_ROWS};
fn index(row: usize, col: usize) -> usize {
row * SENSOR_COLS + col
}
fn make_frame(active: &[(usize, usize, f32)]) -> [f32; SENSOR_ROWS * SENSOR_COLS] {
let mut frame = [0.0; SENSOR_ROWS * SENSOR_COLS];
for (row, col, value) in active {
frame[index(*row, *col)] = *value;
}
frame
}
#[test]
fn idle_frame_does_not_report_contact() {
let mut processor = PztProcessor::new();
let frame = [0.0; SENSOR_ROWS * SENSOR_COLS];
let analysis = processor.get_pzt_analysis(&frame).unwrap();
assert!(!analysis.contact_active);
assert!(!analysis.reportable);
assert_eq!(analysis.magnitude, 0.0);
}
#[test]
fn right_heavy_contact_reports_rightward_angle_after_confirmation() {
let mut processor = PztProcessor::new();
let baseline = [0.0; SENSOR_ROWS * SENSOR_COLS];
let contact = make_frame(&[
(5, 2, 120.0),
(5, 3, 180.0),
(5, 4, 280.0),
(6, 2, 110.0),
(6, 3, 170.0),
(6, 4, 260.0),
(7, 2, 100.0),
(7, 3, 150.0),
(7, 4, 240.0),
]);
let _ = processor.get_pzt_analysis(&baseline).unwrap();
let mut analysis = processor.get_pzt_analysis(&contact).unwrap();
for _ in 0..8 {
analysis = processor.get_pzt_analysis(&contact).unwrap();
}
assert!(analysis.contact_active);
assert!(analysis.reportable);
assert!(analysis.magnitude > 0.0);
assert!(analysis.angle_deg <= 45.0 || analysis.angle_deg >= 315.0);
}
#[test]
fn report_stays_active_through_short_weak_gap() {
let mut processor = PztProcessor::new();
let baseline = [0.0; SENSOR_ROWS * SENSOR_COLS];
let contact = make_frame(&[
(5, 2, 120.0),
(5, 3, 180.0),
(5, 4, 280.0),
(6, 2, 110.0),
(6, 3, 170.0),
(6, 4, 260.0),
(7, 2, 100.0),
(7, 3, 150.0),
(7, 4, 240.0),
]);
let weak = make_frame(&[(5, 3, 55.0), (5, 4, 60.0), (6, 3, 50.0), (6, 4, 58.0)]);
let _ = processor.get_pzt_analysis(&baseline).unwrap();
for _ in 0..10 {
let _ = processor.get_pzt_analysis(&contact).unwrap();
}
let analysis = processor.get_pzt_analysis(&weak).unwrap();
assert!(analysis.reportable);
} }
} }

46
src-tauri/src/serial_core/serial.rs
View File

@@ -1,13 +1,13 @@
#[cfg(feature = "devkit")]
use crate::devkit::{proto::SensorFrame, DevKitState};
use crate::serial_core::codec::Codec; use crate::serial_core::codec::Codec;
use crate::serial_core::codecs::tactile_a::TactileACodec; use crate::serial_core::codecs::tactile_a::TactileACodec;
use crate::serial_core::frame::{FrameHandler, TactileAFrame, TestFrame}; use crate::serial_core::frame::{FrameHandler, TactileAFrame, TestFrame};
use crate::serial_core::model::{HudChartState, HudPacket}; use crate::serial_core::model::{HudChartState, HudPacket, HudSpatialForce};
#[cfg(feature = "multi-dim")] #[cfg(feature = "multi-dim")]
use crate::serial_core::multi_dim_force::PztProcessor; use crate::serial_core::multi_dim_force::PztProcessor;
use crate::serial_core::record::Recording; use crate::serial_core::record::Recording;
use crate::serial_core::record::{FrameTiming, RecordedFrame}; use crate::serial_core::record::{FrameTiming, RecordedFrame};
#[cfg(feature = "devkit")]
use crate::devkit::{proto::SensorFrame, DevKitState};
use anyhow::Result; use anyhow::Result;
use log::debug; use log::debug;
use std::future::pending; use std::future::pending;
@@ -15,14 +15,14 @@ use std::future::pending;
use std::sync::atomic::Ordering; use std::sync::atomic::Ordering;
use std::sync::{Arc, Mutex}; use std::sync::{Arc, Mutex};
use std::time::Instant; use std::time::Instant;
use tauri::{AppHandle, Emitter};
#[cfg(feature = "devkit")] #[cfg(feature = "devkit")]
use tauri::Manager; use tauri::Manager;
use tauri::{AppHandle, Emitter};
use tokio::io::{AsyncReadExt, AsyncWriteExt}; use tokio::io::{AsyncReadExt, AsyncWriteExt};
use tokio::time::{self, Duration, MissedTickBehavior}; use tokio::time::{self, Duration, MissedTickBehavior};
use tokio_serial::SerialStream; use tokio_serial::SerialStream;
use tokio_util::sync::CancellationToken; use tokio_util::sync::CancellationToken;
use crate::ad_solver::solve_for_x;
const AUTO_SUB_INTERVAL: Duration = Duration::from_nanos(16_666_667); const AUTO_SUB_INTERVAL: Duration = Duration::from_nanos(16_666_667);
pub enum PollMode<F> { pub enum PollMode<F> {
@@ -33,6 +33,7 @@ pub enum PollMode<F> {
struct PendingSubFrame<F> { struct PendingSubFrame<F> {
frame: F, frame: F,
values: Vec<i32>, values: Vec<i32>,
spatial_force: Option<HudSpatialForce>,
} }
pub trait SerialFrame: Clone + Send + 'static { pub trait SerialFrame: Clone + Send + 'static {
@@ -266,6 +267,7 @@ where
let display_values = build_display_values( let display_values = build_display_values(
&mut chart_state, &mut chart_state,
pending.values.as_slice(), pending.values.as_slice(),
pending.spatial_force,
); );
if let Some(packet) = pending if let Some(packet) = pending
@@ -309,23 +311,36 @@ where
drop(record); drop(record);
if let Some(vals) = decode_res { if let Some(vals) = decode_res {
let mut spatial_force = None;
#[cfg(feature = "multi-dim")] #[cfg(feature = "multi-dim")]
{ {
let pzt_values = vals.iter().map(|value| *value as f32).collect::<Vec<f32>>(); let pzt_values = vals.iter().map(|value| *value as f32).collect::<Vec<f32>>();
if let Ok(angle) = pzt_processor.get_pzt_angle(&pzt_values) { if let Ok(analysis) = pzt_processor.get_pzt_analysis(&pzt_values) {
// debug!("pzt angle: {:.2}", angle); // debug!(
// "spatial force: angle={:.2}°, magnitude={:.2}, dx={:.2}, dy={:.2}",
// analysis.angle_deg, analysis.magnitude, analysis.planar_x, analysis.planar_y
// );
if PztProcessor::should_report(&analysis) {
spatial_force = Some(HudSpatialForce {
angle_deg: analysis.angle_deg,
magnitude: analysis.magnitude,
confidence: analysis.confidence,
});
}
} }
} }
#[cfg(feature = "devkit")] #[cfg(feature = "devkit")]
{ {
let summary = vals.iter().copied().sum::<i32>(); let summary = vals.iter().copied().sum::<i32>();
let force = raw_to_g1(summary as u32); let force = raw_to_g1(summary as u32);
push_devkit_frame(&app, vals.as_slice(), frame.dts_ms(), force); push_devkit_frame(&app, vals.as_slice(), frame.dts_ms(), force);
} }
pending_sub_frame = Some(PendingSubFrame { pending_sub_frame = Some(PendingSubFrame {
frame: frame.clone(), frame: frame.clone(),
values: vals, values: vals,
spatial_force,
}); });
} else if let Some(packet) = frame.to_hud_packet(&mut chart_state, None) { } else if let Some(packet) = frame.to_hud_packet(&mut chart_state, None) {
app.emit("hud_stream", packet)?; app.emit("hud_stream", packet)?;
@@ -337,11 +352,18 @@ where
Ok(()) Ok(())
} }
fn build_display_values(chart_state: &mut HudChartState, values: &[i32]) -> Option<Vec<i32>> { fn build_display_values(
chart_state: &mut HudChartState,
values: &[i32],
spatial_force: Option<HudSpatialForce>,
) -> Option<Vec<i32>> {
let summary = values.iter().copied().sum::<i32>(); let summary = values.iter().copied().sum::<i32>();
let force = raw_to_g1(summary as u32); let force = raw_to_g1(summary as u32);
// let force_solve = solve_for_x(summary as f64)?;
// println!("force_solve: {force_solve}");
chart_state.record_summary(force as f32); chart_state.record_summary(force as f32);
chart_state.record_pressure_matrix(values); chart_state.record_pressure_matrix(values);
chart_state.record_spatial_force(spatial_force);
Some(vec![summary]) Some(vec![summary])
} }
@@ -398,12 +420,12 @@ fn infer_matrix_shape(len: usize) -> (u32, u32) {
} }
fn raw_to_g1(raw: u32) -> f64 { fn raw_to_g1(raw: u32) -> f64 {
const X: [u32; 12] = [ const X: [u32; 13] = [
0, 84402, 117218, 140176, 159126, 175812, 191484, 208758, 224703, 252448, 302361, 352703, 0, 16811, 41350, 79241, 94615, 127446, 149559, 175900, 195056, 237852, 267810, 322472, 378511,
]; ];
const Y: [f64; 12] = [ const Y: [f64; 13] = [
0.0, 160.0, 260.0, 360.0, 460.0, 560.0, 660.0, 760.0, 860.0, 1060.0, 1560.0, 2060.0, 0.0, 57.0, 97.0, 197.0, 257.0, 357.0, 457.0, 557.0, 657.0, 857.0, 1057.0, 1557.0, 2057.0,
]; ];
let n = X.len(); let n = X.len();

40
src/lib/components/CenterStage.svelte
View File

@@ -10,10 +10,12 @@
import NeonBreakoutArena from "$lib/components/NeonBreakoutArena.svelte"; import NeonBreakoutArena from "$lib/components/NeonBreakoutArena.svelte";
import PressureMatrixViewer from "$lib/components/PressureMatrixViewer.svelte"; import PressureMatrixViewer from "$lib/components/PressureMatrixViewer.svelte";
import SignalChart from "$lib/components/SignalChart.svelte"; import SignalChart from "$lib/components/SignalChart.svelte";
import SpatialForcePanel from "$lib/components/SpatialForcePanel.svelte";
import SummaryCurve from "$lib/components/SummaryCurve.svelte"; import SummaryCurve from "$lib/components/SummaryCurve.svelte";
import type { import type {
HudColorMapOption, HudColorMapOption,
HudSignalPanel, HudSignalPanel,
HudSpatialForce,
HudSummary, HudSummary,
LocaleCode, LocaleCode,
MatrixDisplayMode, MatrixDisplayMode,
@@ -26,6 +28,8 @@
export let rightPanels: HudSignalPanel[] = []; export let rightPanels: HudSignalPanel[] = [];
export let summary: HudSummary; export let summary: HudSummary;
export let pressureMatrix: number[] | null = null; export let pressureMatrix: number[] | null = null;
export let spatialForce: HudSpatialForce | null = null;
export let devkitSpatialForce: HudSpatialForce | null = null;
export let showConfigPanel = false; export let showConfigPanel = false;
export let configPanelTitle = ""; export let configPanelTitle = "";
export let configPanelHint = ""; export let configPanelHint = "";
@@ -314,6 +318,42 @@
</div> </div>
{/each} {/each}
<div
class="panel-motion-shell"
in:fly={{ x: 180, duration: 340, opacity: 0.08, easing: cubicOut }}
out:fly={{ x: 180, duration: 280, opacity: 0.06, easing: cubicIn }}
>
<SpatialForcePanel
{spatialForce}
{locale}
side="right"
panelIndex={rightPanels.length}
panelCode="ALG"
panelTitle={locale === "zh-CN" ? "本地切向力" : "Local Tangential"}
badgeLabel={locale === "zh-CN" ? "算法" : "ALGO"}
/>
</div>
<div
class="panel-motion-shell"
in:fly={{ x: 180, duration: 340, opacity: 0.08, easing: cubicOut }}
out:fly={{ x: 180, duration: 280, opacity: 0.06, easing: cubicIn }}
>
<SpatialForcePanel
spatialForce={devkitSpatialForce}
{locale}
side="right"
panelIndex={rightPanels.length + 1}
panelCode="DKT"
panelTitle={locale === "zh-CN" ? "DevKit 切向力" : "DevKit Tangential"}
badgeLabel="DEVKIT"
badgeTone="lime"
showMetrics={false}
requireMagnitude={false}
compactMetaText={locale === "zh-CN" ? "等待 DevKit 角度流" : "Waiting for DevKit angle"}
/>
</div>
{#if summaryCurveVisible && summarySide === "right"} {#if summaryCurveVisible && summarySide === "right"}
<div <div
class="panel-motion-shell" class="panel-motion-shell"

523
src/lib/components/SpatialForcePanel.svelte Normal file
View File

@@ -0,0 +1,523 @@
<script lang="ts">
import type { HudSpatialForce } from "$lib/types/hud";
export let spatialForce: HudSpatialForce | null = null;
export let side: "left" | "right" = "right";
export let panelIndex = 0;
export let locale: "zh-CN" | "en-US" = "zh-CN";
export let panelCode = "TAN";
export let panelTitle = "";
export let badgeLabel = "";
export let badgeTone: "cyan" | "lime" | "orange" = "cyan";
export let showMetrics = true;
export let requireMagnitude = true;
export let compactMetaText = "";
function formatValue(value: number | null, digits = 1): string {
if (value === null || !Number.isFinite(value)) {
return "--";
}
return value.toFixed(digits);
}
function normalizeAngle(value: number): number {
return ((value % 360) + 360) % 360;
}
function shortestAngleDelta(from: number, to: number): number {
const delta = ((to - from + 540) % 360) - 180;
return delta === -180 ? 180 : delta;
}
const jumpAngleThresholdDeg = 72;
let visualAngleDeg = 0;
let previousRawAngleDeg: number | null = null;
let snapVector = false;
let snapResetFrame: number | null = null;
function setSnapVector(): void {
snapVector = true;
if (typeof window === "undefined") {
return;
}
if (snapResetFrame !== null) {
window.cancelAnimationFrame(snapResetFrame);
}
snapResetFrame = window.requestAnimationFrame(() => {
snapVector = false;
snapResetFrame = null;
});
}
function updateVisualAngle(rawAngleDeg: number, active: boolean): void {
if (!active) {
previousRawAngleDeg = null;
visualAngleDeg = 0;
return;
}
if (previousRawAngleDeg === null) {
previousRawAngleDeg = rawAngleDeg;
visualAngleDeg = rawAngleDeg;
return;
}
const delta = shortestAngleDelta(previousRawAngleDeg, rawAngleDeg);
if (Math.abs(delta) < 0.001) {
return;
}
if (Math.abs(delta) >= jumpAngleThresholdDeg) {
setSnapVector();
}
visualAngleDeg += delta;
previousRawAngleDeg = rawAngleDeg;
}
$: i18n =
locale === "zh-CN"
? {
title: "切向力方向",
waiting: "等待数据",
angle: "ANGLE",
heading: "方向角",
strength: "强度",
confidence: "置信度"
}
: {
title: "Tangential Direction",
waiting: "Waiting",
angle: "ANGLE",
heading: "Heading",
strength: "Strength",
confidence: "Confidence"
};
$: resolvedTitle = panelTitle || i18n.title;
$: resolvedBadgeLabel = badgeLabel || i18n.angle;
$: resolvedCompactMetaText =
compactMetaText || (locale === "zh-CN" ? "仅使用角度流" : "Angle stream only");
$: hasData =
spatialForce !== null &&
Number.isFinite(spatialForce.angleDeg) &&
(!requireMagnitude || Number.isFinite(spatialForce.magnitude));
$: angleDeg = hasData ? normalizeAngle(spatialForce?.angleDeg ?? 0) : 0;
$: updateVisualAngle(angleDeg, hasData);
$: magnitude = hasData ? spatialForce?.magnitude ?? 0 : null;
$: confidence = hasData ? (spatialForce?.confidence ?? 0) * 100 : null;
</script>
<article
class="signal-panel spatial-panel side-{side}"
class:is-empty={!hasData}
aria-hidden={false}
style="--panel-index: {panelIndex};"
>
<header class="panel-head">
<div class="head-text">
<p class="panel-code">{panelCode}</p>
<p class="panel-title">{resolvedTitle}</p>
</div>
<div class="icon-layer" aria-hidden="true">
<span class={`icon-chip tone-${badgeTone}`}>{resolvedBadgeLabel}</span>
</div>
</header>
<div class="panel-body">
<div class="compass-stage">
<div class="compass-core">
<div class="compass-ring compass-ring-outer"></div>
<div class="compass-ring compass-ring-inner"></div>
<div class="compass-axis axis-horizontal"></div>
<div class="compass-axis axis-vertical"></div>
{#if hasData}
<div
class="compass-vector"
class:is-snap={snapVector}
style="transform: translateY(-50%) rotate({-visualAngleDeg}deg);"
>
<span class="vector-shaft"></span>
<span class="vector-head"></span>
</div>
{/if}
<div class="compass-center"></div>
<span class="compass-label label-top">90</span>
<span class="compass-label label-right">0</span>
<span class="compass-label label-bottom">270</span>
<span class="compass-label label-left">180</span>
</div>
{#if !hasData}
<div class="empty-state">
<span>{i18n.waiting}</span>
</div>
{/if}
</div>
<div class="angle-stage">
<p class="angle-label">{i18n.heading}</p>
{#if showMetrics}
<p class="angle-meta">{i18n.strength}: {formatValue(magnitude, 2)}</p>
<p class="angle-meta">{i18n.confidence}: {hasData ? `${formatValue(confidence, 0)}%` : "--"}</p>
{:else}
<p class="angle-meta">{resolvedCompactMetaText}</p>
<p class="angle-meta">{hasData ? (locale === "zh-CN" ? "实时对比中" : "Live comparison") : "--"}</p>
{/if}
</div>
</div>
</article>
<style>
.signal-panel {
--offset-x: 12%;
--enter-ms: 1800ms;
--fade-ms: 1000ms;
overflow: hidden;
inline-size: min(100%, clamp(34rem, 44vw, 44rem));
justify-self: start;
display: grid;
grid-template-rows: auto 1fr;
gap: 0.68rem;
padding: 0.88rem 0.96rem 1rem;
border: 1px solid rgb(var(--hud-border-strong-rgb) / 0.42);
border-radius: 0.92rem;
background:
linear-gradient(160deg, rgb(var(--hud-surface-alt-rgb) / 0.76) 0%, rgb(var(--hud-surface-rgb) / 0.62) 48%, rgb(var(--hud-surface-deep-rgb) / 0.76) 100%),
radial-gradient(circle at 12% 0, rgb(var(--hud-glow-rgb) / 0.1), transparent 40%);
box-shadow:
inset 0 0 0 1px rgb(var(--hud-border-strong-rgb) / 0.08),
inset 0 -24px 32px rgb(0 0 0 / 0.48),
0 0 14px rgb(var(--hud-glow-rgb) / 0.14);
opacity: 1;
transform: translateX(0) scale(1) rotate(0);
transition:
opacity var(--fade-ms) cubic-bezier(0.18, 0.88, 0.3, 1),
transform var(--enter-ms) cubic-bezier(0.2, 0.9, 0.28, 1),
border-color 460ms ease,
filter 760ms ease;
transition-delay: calc(var(--panel-index) * 140ms);
}
.signal-panel.side-left {
--offset-x: -132%;
}
.signal-panel.side-right {
--offset-x: 132%;
justify-self: end;
}
.spatial-panel.is-empty {
opacity: 0.82;
}
.panel-head {
display: flex;
justify-content: space-between;
align-items: flex-start;
gap: 0.4rem;
margin-block-end: 0;
}
.head-text {
min-width: 0;
}
.panel-code {
margin: 0;
font-size: 0.63rem;
color: rgb(var(--hud-text-dim-rgb) / 0.88);
letter-spacing: 0.12em;
text-transform: uppercase;
}
.panel-title {
margin: 0.12rem 0 0;
font-size: 1.08rem;
color: rgb(var(--hud-text-main-rgb) / 0.96);
letter-spacing: 0.05em;
}
.icon-layer {
display: flex;
flex-wrap: wrap;
align-items: center;
justify-content: flex-end;
gap: 0.26rem;
}
.icon-chip {
border: 1px solid rgb(var(--hud-border-strong-rgb) / 0.44);
border-radius: 999px;
padding: 0.08rem 0.36rem;
font-size: 0.58rem;
letter-spacing: 0.08em;
color: rgb(var(--hud-text-main-rgb) / 0.94);
background: rgb(var(--hud-surface-rgb) / 0.66);
}
.icon-chip.tone-cyan {
border-color: rgb(var(--hud-cyan-rgb) / 0.54);
}
.icon-chip.tone-lime {
border-color: rgb(var(--hud-lime-rgb) / 0.54);
}
.icon-chip.tone-orange {
border-color: rgb(var(--hud-orange-rgb) / 0.54);
}
.panel-body {
display: grid;
grid-template-columns: minmax(0, 1.1fr) minmax(10rem, 0.9fr);
gap: 0.72rem;
block-size: clamp(12rem, 15.5vw, 15rem);
min-block-size: clamp(12rem, 15.5vw, 15rem);
}
.compass-stage {
position: relative;
min-block-size: 0;
overflow: hidden;
border: 1px solid rgb(var(--hud-border-strong-rgb) / 0.32);
border-radius: 0.62rem;
background:
linear-gradient(180deg, rgb(var(--hud-surface-alt-rgb) / 0.68), rgb(var(--hud-surface-deep-rgb) / 0.78)),
radial-gradient(circle at 50% 0, rgb(var(--hud-glow-rgb) / 0.09), transparent 45%);
display: grid;
place-items: center;
}
.compass-core {
position: relative;
inline-size: min(72%, 13rem);
aspect-ratio: 1;
}
.compass-ring,
.compass-axis,
.compass-center,
.compass-vector {
position: absolute;
top: 50%;
left: 50%;
}
.compass-ring {
border-radius: 50%;
transform: translate(-50%, -50%);
}
.compass-ring-outer {
inline-size: 100%;
block-size: 100%;
border: 1px solid rgb(var(--hud-cyan-rgb) / 0.28);
box-shadow: 0 0 18px rgb(var(--hud-glow-rgb) / 0.08);
}
.compass-ring-inner {
inline-size: 62%;
block-size: 62%;
border: 1px dashed rgb(var(--hud-border-strong-rgb) / 0.3);
}
.compass-axis {
background: rgb(var(--hud-border-strong-rgb) / 0.18);
transform: translate(-50%, -50%);
}
.axis-horizontal {
inline-size: 86%;
block-size: 1px;
}
.axis-vertical {
inline-size: 1px;
block-size: 86%;
}
.compass-vector {
inline-size: 42%;
block-size: 0.9rem;
transform-origin: 0 50%;
transition: transform 220ms ease;
}
.compass-vector.is-snap {
transition-duration: 0ms;
}
.vector-shaft {
position: absolute;
top: 50%;
left: 0;
right: 0.7rem;
block-size: 2px;
transform: translateY(-50%);
border-radius: 999px;
background: linear-gradient(90deg, rgb(var(--hud-cyan-rgb) / 0.18), rgb(var(--hud-cyan-rgb) / 0.96));
box-shadow: 0 0 14px rgb(var(--hud-cyan-rgb) / 0.2);
}
.vector-head {
position: absolute;
top: 50%;
right: 0;
inline-size: 0;
block-size: 0;
transform: translateY(-50%);
border-top: 0.36rem solid transparent;
border-bottom: 0.36rem solid transparent;
border-left: 0.7rem solid rgb(var(--hud-lime-rgb) / 0.96);
filter: drop-shadow(0 0 8px rgb(var(--hud-lime-rgb) / 0.24));
}
.compass-center {
inline-size: 0.56rem;
block-size: 0.56rem;
transform: translate(-50%, -50%);
border-radius: 50%;
background: rgb(var(--hud-text-main-rgb) / 0.92);
box-shadow: 0 0 10px rgb(var(--hud-text-main-rgb) / 0.12);
}
.compass-label {
position: absolute;
font-size: 0.58rem;
color: rgb(var(--hud-text-dim-rgb) / 0.8);
letter-spacing: 0.08em;
}
.label-top {
top: -0.9rem;
left: 50%;
transform: translateX(-50%);
}
.label-right {
top: 50%;
right: -1rem;
transform: translateY(-50%);
}
.label-bottom {
bottom: -0.9rem;
left: 50%;
transform: translateX(-50%);
}
.label-left {
top: 50%;
left: -1.35rem;
transform: translateY(-50%);
}
.empty-state {
position: absolute;
inset: 0;
display: flex;
align-items: center;
justify-content: center;
color: rgb(var(--hud-text-dim-rgb) / 0.76);
font-size: 0.66rem;
letter-spacing: 0.08em;
text-transform: uppercase;
background: linear-gradient(180deg, rgb(var(--hud-surface-deep-rgb) / 0.06), rgb(var(--hud-surface-deep-rgb) / 0.18));
}
.angle-stage {
border: 1px solid rgb(var(--hud-border-rgb) / 0.26);
border-radius: 0.62rem;
padding: 0.9rem 0.85rem;
block-size: 100%;
min-block-size: 0;
overflow: hidden;
background:
linear-gradient(180deg, rgb(var(--hud-surface-rgb) / 0.72), rgb(var(--hud-surface-deep-rgb) / 0.84)),
radial-gradient(circle at 50% 0, rgb(var(--hud-glow-rgb) / 0.05), transparent 58%);
display: grid;
grid-template-rows: auto auto auto;
align-content: center;
justify-items: start;
gap: 0.36rem;
}
.angle-label {
margin: 0;
color: rgb(var(--hud-text-dim-rgb) / 0.82);
font-size: 0.68rem;
letter-spacing: 0.08em;
text-transform: uppercase;
}
.angle-meta {
margin: 0;
inline-size: 10rem;
min-block-size: 1rem;
white-space: nowrap;
overflow: hidden;
text-overflow: ellipsis;
color: rgb(var(--hud-text-dim-rgb) / 0.84);
font-size: 0.68rem;
font-variant-numeric: tabular-nums;
letter-spacing: 0.05em;
}
@media (max-width: 1180px) {
.signal-panel {
inline-size: min(100%, clamp(28rem, 40vw, 38rem));
}
}
@media (max-height: 900px) {
.signal-panel {
inline-size: min(100%, clamp(28rem, 38vw, 36rem));
padding: 0.7rem 0.76rem 0.8rem;
}
}
@media (max-height: 760px) {
.signal-panel {
inline-size: min(100%, clamp(24rem, 34vw, 30rem));
padding: 0.62rem 0.68rem 0.72rem;
gap: 0.48rem;
}
.panel-body {
block-size: clamp(9rem, 10vw, 10.8rem);
min-block-size: clamp(9rem, 10vw, 10.8rem);
}
}
@media (max-height: 680px) {
.signal-panel {
inline-size: min(100%, clamp(20rem, 28vw, 26rem));
padding: 0.52rem 0.58rem 0.6rem;
gap: 0.36rem;
}
}
@media (max-width: 900px) {
.signal-panel {
inline-size: 100%;
}
.panel-body {
grid-template-columns: 1fr;
block-size: auto;
min-block-size: auto;
}
.compass-core {
inline-size: min(58vw, 12rem);
}
}
</style>

7
src/lib/types/hud.ts
View File

@@ -41,11 +41,18 @@ export interface HudSignalPanel {
max: number | null; max: number | null;
} }
export interface HudSpatialForce {
angleDeg: number;
magnitude: number;
confidence: number;
}
export interface HudPacket { export interface HudPacket {
ts: number; ts: number;
panels: HudSignalPanel[]; panels: HudSignalPanel[];
summary: HudSummary; summary: HudSummary;
pressureMatrix: number[] | null; pressureMatrix: number[] | null;
spatialForce: HudSpatialForce | null;
} }
export interface HudSummary { export interface HudSummary {

79
src/routes/+page.svelte
View File

@@ -22,6 +22,7 @@
HudConfigLink, HudConfigLink,
HudNoticeTone, HudNoticeTone,
HudPacket, HudPacket,
HudSpatialForce,
PressureColorMapPreset, PressureColorMapPreset,
HudSignalPanel, HudSignalPanel,
HudSignalSeries, HudSignalSeries,
@@ -45,6 +46,13 @@
dtsMs: number; dtsMs: number;
} }
interface DevKitPztAngleEvent {
seq: number;
timestampMs: number;
dtsMs: number;
angle: number;
}
const copyByLocale: Record<LocaleCode, HudCopy> = { const copyByLocale: Record<LocaleCode, HudCopy> = {
"zh-CN": { "zh-CN": {
appName: "JE-Skin", appName: "JE-Skin",
@@ -228,6 +236,8 @@
let signalPanels: HudSignalPanel[] = buildInactivePanels(); let signalPanels: HudSignalPanel[] = buildInactivePanels();
let summary: HudSummary = buildEmptySummary(); let summary: HudSummary = buildEmptySummary();
let pressureMatrix: number[] | null = null; let pressureMatrix: number[] | null = null;
let spatialForce: HudSpatialForce | null = null;
let devkitSpatialForce: HudSpatialForce | null = null;
let matrixRows = 12; let matrixRows = 12;
let matrixCols = 7; let matrixCols = 7;
let rangeMin = DEFAULT_PRESSURE_RANGE_MIN; let rangeMin = DEFAULT_PRESSURE_RANGE_MIN;
@@ -268,6 +278,7 @@
rowsKept: number; rowsKept: number;
} | null = null; } | null = null;
let devkitStatusTimer: number | null = null; let devkitStatusTimer: number | null = null;
let devkitSpatialForceClearTimer: number | null = null;
let sessionStartedAt: number = Date.now(); let sessionStartedAt: number = Date.now();
$: uiCopy = copyByLocale[locale]; $: uiCopy = copyByLocale[locale];
@@ -295,6 +306,31 @@
return typeof window !== "undefined" && "__TAURI_INTERNALS__" in window; return typeof window !== "undefined" && "__TAURI_INTERNALS__" in window;
} }
function clearDevkitSpatialForce(): void {
devkitSpatialForce = null;
if (devkitSpatialForceClearTimer != null && typeof window !== "undefined") {
window.clearTimeout(devkitSpatialForceClearTimer);
devkitSpatialForceClearTimer = null;
}
hasSignalData = signalPanels.length > 0 || summary.points.length > 0 || spatialForce !== null;
}
function scheduleDevkitSpatialForceClear(): void {
if (typeof window === "undefined") {
return;
}
if (devkitSpatialForceClearTimer != null) {
window.clearTimeout(devkitSpatialForceClearTimer);
}
devkitSpatialForceClearTimer = window.setTimeout(() => {
devkitSpatialForce = null;
devkitSpatialForceClearTimer = null;
hasSignalData = signalPanels.length > 0 || summary.points.length > 0 || spatialForce !== null;
}, 420);
}
function clamp(value: number, min: number, max: number): number { function clamp(value: number, min: number, max: number): number {
return Math.min(max, Math.max(min, value)); return Math.min(max, Math.max(min, value));
} }
@@ -717,6 +753,8 @@
function resetReplayVisualState(): void { function resetReplayVisualState(): void {
pressureMatrix = buildZeroMatrix(); pressureMatrix = buildZeroMatrix();
spatialForce = null;
clearDevkitSpatialForce();
signalPanels = buildInactivePanels(); signalPanels = buildInactivePanels();
summary = buildEmptySummary(); summary = buildEmptySummary();
hasSignalData = false; hasSignalData = false;
@@ -752,6 +790,8 @@
replayHasDisplayedFrame = true; replayHasDisplayedFrame = true;
replayProgress = replayFrames.length > 1 ? safeIndex / (replayFrames.length - 1) : 1; replayProgress = replayFrames.length > 1 ? safeIndex / (replayFrames.length - 1) : 1;
pressureMatrix = frameValuesToMatrix(replayFrames[safeIndex].values); pressureMatrix = frameValuesToMatrix(replayFrames[safeIndex].values);
spatialForce = null;
clearDevkitSpatialForce();
signalPanels = buildInactivePanels(); signalPanels = buildInactivePanels();
summary = buildReplaySummaryAt(safeIndex); summary = buildReplaySummaryAt(safeIndex);
hasSignalData = true; hasSignalData = true;
@@ -1006,7 +1046,12 @@
summary = packet.summary; summary = packet.summary;
} }
pressureMatrix = packet.pressureMatrix; pressureMatrix = packet.pressureMatrix;
hasSignalData = signalPanels.length > 0 || packet.summary.points.length > 0; spatialForce = packet.spatialForce ?? null;
hasSignalData =
signalPanels.length > 0 ||
packet.summary.points.length > 0 ||
spatialForce !== null ||
devkitSpatialForce !== null;
} }
function clearHudPanels(): void { function clearHudPanels(): void {
@@ -1014,17 +1059,19 @@
signalPanels = buildInactivePanels(); signalPanels = buildInactivePanels();
summary = buildEmptySummary(); summary = buildEmptySummary();
pressureMatrix = null; pressureMatrix = null;
spatialForce = null;
clearDevkitSpatialForce();
} }
function startMockFeed(push: (packet: HudPacket) => void): () => void { function startMockFeed(push: (packet: HudPacket) => void): () => void {
let panels = buildInactivePanels(); let panels = buildInactivePanels();
let summaryValue = buildSummary(createSummaryPoints(randomBetween(480, 1440))); let summaryValue = buildSummary(createSummaryPoints(randomBetween(480, 1440)));
push({ ts: Date.now(), panels, summary: summaryValue, pressureMatrix: null }); push({ ts: Date.now(), panels, summary: summaryValue, pressureMatrix: null, spatialForce: null });
const timerId = window.setInterval(() => { const timerId = window.setInterval(() => {
summaryValue = evolveSummary(summaryValue); summaryValue = evolveSummary(summaryValue);
push({ ts: Date.now(), panels, summary: summaryValue, pressureMatrix: null }); push({ ts: Date.now(), panels, summary: summaryValue, pressureMatrix: null, spatialForce: null });
}, signalRenderTickMs); }, signalRenderTickMs);
return () => { return () => {
@@ -1788,12 +1835,25 @@
.catch((error) => { .catch((error) => {
console.error("Failed to listen for hud_stream:", error); console.error("Failed to listen for hud_stream:", error);
}); });
void listen<{ seq: number; timestampMs: number; dtsMs: number; angle: number }>( void listen<DevKitPztAngleEvent>("devkit_pzt_angle", (event) => {
"devkit_pzt_angle", const angleDeg = Number(event.payload.angle);
(event) => { if (!Number.isFinite(angleDeg)) {
console.log("[devkit_pzt_angle]", event.payload); clearDevkitSpatialForce();
return;
} }
)
devkitSpatialForce = {
angleDeg,
magnitude: 0,
confidence: 0
};
scheduleDevkitSpatialForceClear();
hasSignalData =
signalPanels.length > 0 ||
summary.points.length > 0 ||
spatialForce !== null ||
devkitSpatialForce !== null;
})
.then((unlisten) => { .then((unlisten) => {
if (disposed) { if (disposed) {
unlisten(); unlisten();
@@ -1812,6 +1872,7 @@
return () => { return () => {
disposed = true; disposed = true;
pauseReplayPlayback(); pauseReplayPlayback();
clearDevkitSpatialForce();
stopMockFeed?.(); stopMockFeed?.();
unlistenHudStream?.(); unlistenHudStream?.();
unlistenDevkitPztAngle?.(); unlistenDevkitPztAngle?.();
@@ -1930,6 +1991,8 @@
leftPanels={leftSignalPanels} leftPanels={leftSignalPanels}
rightPanels={rightSignalPanels} rightPanels={rightSignalPanels}
{pressureMatrix} {pressureMatrix}
{spatialForce}
{devkitSpatialForce}
showConfigPanel={isConfigPanelOpen} showConfigPanel={isConfigPanelOpen}
showPrecisionTestPanel={isPrecisionTestOpen} showPrecisionTestPanel={isPrecisionTestOpen}
{summary} {summary}