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438fe3f9db
Mat pretty printer: fix submatrix indexation * fix submatrix indexation * fix channels
223 lines
5.8 KiB
Python
223 lines
5.8 KiB
Python
import gdb
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import numpy as np
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from enum import Enum
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np.set_printoptions(suppress=True) # prevent numpy exponential notation on print, default False
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# np.set_printoptions(threshold=sys.maxsize)
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def conv(obj, t):
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return gdb.parse_and_eval(f'({t})({obj})')
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def booli(obj):
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return conv(str(obj).lower(), 'bool')
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def stri(obj):
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s = f'"{obj}"'
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return conv(s.translate(s.maketrans('\n', ' ')), 'char*')
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class MagicValues(Enum):
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MAGIC_VAL = 0x42FF0000
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AUTO_STEP = 0
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CONTINUOUS_FLAG = 1 << 14
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SUBMATRIX_FLAG = 1 << 15
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class MagicMasks(Enum):
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MAGIC_MASK = 0xFFFF0000
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TYPE_MASK = 0x00000FFF
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DEPTH_MASK = 7
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class Depth(Enum):
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CV_8U = 0
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CV_8S = 1
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CV_16U = 2
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CV_16S = 3
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CV_32S = 4
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CV_32F = 5
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CV_64F = 6
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CV_16F = 7
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def create_enum(n):
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def make_type(depth, cn):
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return depth.value + ((cn - 1) << 3)
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defs = [(f'{depth.name}C{i}', make_type(depth, i)) for depth in Depth for i in range(1, n + 1)]
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return Enum('Type', defs)
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Type = create_enum(512)
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class Flags:
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def depth(self):
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return Depth(self.flags & MagicMasks.DEPTH_MASK.value)
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def dtype(self):
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depth = self.depth()
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ret = None
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if depth == Depth.CV_8U:
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ret = (np.uint8, 'uint8_t')
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elif depth == Depth.CV_8S:
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ret = (np.int8, 'int8_t')
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elif depth == Depth.CV_16U:
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ret = (np.uint16, 'uint16_t')
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elif depth == Depth.CV_16S:
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ret = (np.int16, 'int16_t')
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elif depth == Depth.CV_32S:
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ret = (np.int32, 'int32_t')
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elif depth == Depth.CV_32F:
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ret = (np.float32, 'float')
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elif depth == Depth.CV_64F:
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ret = (np.float64, 'double')
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elif depth == Depth.CV_16F:
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ret = (np.float16, 'float16')
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return ret
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def type(self):
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return Type(self.flags & MagicMasks.TYPE_MASK.value)
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def channels(self):
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return ((self.flags & (511 << 3)) >> 3) + 1
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def is_continuous(self):
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return (self.flags & MagicValues.CONTINUOUS_FLAG.value) != 0
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def is_submatrix(self):
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return (self.flags & MagicValues.SUBMATRIX_FLAG.value) != 0
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def __init__(self, flags):
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self.flags = flags
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def __iter__(self):
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return iter({
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'type': stri(self.type().name),
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'is_continuous': booli(self.is_continuous()),
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'is_submatrix': booli(self.is_submatrix())
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}.items())
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class Size:
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def __init__(self, ptr):
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self.ptr = ptr
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def dims(self):
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return int((self.ptr - 1).dereference())
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def to_numpy(self):
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return np.array([int(self.ptr[i]) for i in range(self.dims())], dtype=np.int64)
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def __iter__(self):
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return iter({'size': stri(self.to_numpy())}.items())
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class Mat:
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def __init__(self, m, size, flags):
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(dtype, ctype) = flags.dtype()
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elsize = np.dtype(dtype).itemsize
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shape = size.to_numpy()
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steps = np.asarray([int(m['step']['p'][i]) for i in range(len(shape))], dtype=np.int64)
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ptr = m['data']
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# either we are default-constructed or sizes are zero
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if int(ptr) == 0 or np.prod(shape * steps) == 0:
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self.mat = np.array([])
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self.view = self.mat
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return
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# we don't want to show excess brackets
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if flags.channels() != 1:
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shape = np.append(shape, flags.channels())
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steps = np.append(steps, elsize)
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# get the length of contiguous array from data to the last element of the matrix
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length = 1 + np.sum((shape - 1) * steps) // elsize
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if dtype != np.float16:
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# read all elements into self.mat
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ctype = gdb.lookup_type(ctype)
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ptr = ptr.cast(ctype.array(length - 1).pointer()).dereference()
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self.mat = np.array([ptr[i] for i in range(length)], dtype=dtype)
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else:
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# read as uint16_t and then reinterpret the bytes as float16
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u16 = gdb.lookup_type('uint16_t')
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ptr = ptr.cast(u16.array(length - 1).pointer()).dereference()
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self.mat = np.array([ptr[i] for i in range(length)], dtype=np.uint16)
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self.mat = self.mat.view(np.float16)
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# numpy will do the heavy lifting of strided access
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self.view = np.lib.stride_tricks.as_strided(self.mat, shape=shape, strides=steps)
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def __iter__(self):
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return iter({'data': stri(self.view)}.items())
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class MatPrinter:
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"""Print a cv::Mat"""
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def __init__(self, mat):
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self.mat = mat
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def views(self):
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m = self.mat
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flags = Flags(int(m['flags']))
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size = Size(m['size']['p'])
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data = Mat(m, size, flags)
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for x in [flags, size, data]:
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for k, v in x:
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yield 'view_' + k, v
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def real(self):
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m = self.mat
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for field in m.type.fields():
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k = field.name
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v = m[k]
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yield k, v
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# TODO: add an enum in interface.h with all cv::Mat element types and use that instead
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# yield 'test', gdb.parse_and_eval(f'(cv::MatTypes)0')
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def children(self): # TODO: hide real members under new child somehow
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yield from self.views()
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yield from self.real()
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def get_type(val):
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# Get the type.
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vtype = val.type
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# If it points to a reference, get the reference.
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if vtype.code == gdb.TYPE_CODE_REF:
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vtype = vtype.target()
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# Get the unqualified type, stripped of typedefs.
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vtype = vtype.unqualified().strip_typedefs()
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# Get the type name.
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typename = vtype.tag
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return typename
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def mat_printer(val):
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typename = get_type(val)
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if typename is None:
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return None
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if str(typename) == 'cv::Mat':
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return MatPrinter(val)
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gdb.pretty_printers.append(mat_printer)
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