150 lines
5.7 KiB
Diff
150 lines
5.7 KiB
Diff
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diff -ur a/setup.py b/setup.py
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--- a/setup.py 2024-07-31 09:34:03.585371800 -0400
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+++ b/setup.py 2024-07-31 09:35:01.472775930 -0400
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@@ -161,7 +161,7 @@
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# https://pip.pypa.io/en/stable/reference/pip_install.html#installation-order
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# at this point we can be sure pip has already installed numpy
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numpy_incl = pkg_resources.resource_filename(
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- "numpy", "core/include"
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+ "numpy", "_core/include"
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)
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for ext in self.extensions:
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@@ -505,7 +505,7 @@
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# -----------------------------------------------------------------
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- def_macros = [("NDEBUG", 1)]
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+ def_macros = [("NDEBUG", 1), ("NPY_TARGET_VERSION", "NPY_1_20_API_VERSION"),]
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# Define macros for Windows platform
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if os.name == "nt":
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def_macros.append(("WIN32", 1))
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diff -ur a/src/utils.c b/src/utils.c
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--- a/src/utils.c 2024-07-31 09:34:03.588371821 -0400
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+++ b/src/utils.c 2024-07-31 09:36:08.648172551 -0400
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@@ -767,8 +767,8 @@
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return float_id;
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}
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- H5Tinsert(complex_id, "r", HOFFSET(npy_complex64, real), float_id);
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- H5Tinsert(complex_id, "i", HOFFSET(npy_complex64, imag), float_id);
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+ H5Tinsert(complex_id, "r", 0, float_id);
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+ H5Tinsert(complex_id, "i", 4, float_id);
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H5Tclose(float_id);
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return complex_id;
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}
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@@ -792,8 +792,8 @@
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return float_id;
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}
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- H5Tinsert(complex_id, "r", HOFFSET(npy_complex128, real), float_id);
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- H5Tinsert(complex_id, "i", HOFFSET(npy_complex128, imag), float_id);
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+ H5Tinsert(complex_id, "r", 0, float_id);
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+ H5Tinsert(complex_id, "i", 8, float_id);
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H5Tclose(float_id);
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return complex_id;
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}
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@@ -824,8 +824,8 @@
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return err;
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}
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- H5Tinsert(complex_id, "r", HOFFSET(npy_complex192, real), float_id);
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- H5Tinsert(complex_id, "i", HOFFSET(npy_complex192, imag), float_id);
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+ H5Tinsert(complex_id, "r", 0, float_id);
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+ H5Tinsert(complex_id, "i", 12, float_id);
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H5Tclose(float_id);
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return complex_id;
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}
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@@ -856,8 +856,8 @@
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return err;
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}
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- H5Tinsert(complex_id, "r", HOFFSET(npy_complex256, real), float_id);
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- H5Tinsert(complex_id, "i", HOFFSET(npy_complex256, imag), float_id);
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+ H5Tinsert(complex_id, "r", 0, float_id);
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+ H5Tinsert(complex_id, "i", 16, float_id);
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H5Tclose(float_id);
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return complex_id;
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}
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diff -ur a/tables/atom.py b/tables/atom.py
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--- a/tables/atom.py 2024-07-31 09:34:03.589371829 -0400
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+++ b/tables/atom.py 2024-07-31 09:36:43.663352202 -0400
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@@ -276,15 +276,15 @@
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>>> atom1 = StringAtom(itemsize=10) # same as ``atom2``
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>>> atom2 = Atom.from_kind('string', 10) # same as ``atom1``
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>>> atom3 = IntAtom()
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- >>> atom1 == 'foo'
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+ >>> bool(atom1 == 'foo')
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False
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- >>> atom1 == atom2
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+ >>> bool(atom1 == atom2)
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True
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- >>> atom2 != atom1
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+ >>> bool(atom2 != atom1)
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False
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- >>> atom1 == atom3
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+ >>> bool(atom1 == atom3)
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False
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- >>> atom3 != atom2
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+ >>> bool(atom3 != atom2)
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True
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"""
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diff -ur a/tables/index.py b/tables/index.py
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--- a/tables/index.py 2024-07-31 09:34:03.591371843 -0400
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+++ b/tables/index.py 2024-07-31 09:38:32.692911595 -0400
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@@ -581,7 +581,8 @@
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# Add a second offset in this case
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# First normalize the number of rows
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offset2 = (nrow % self.nslicesblock) * slicesize // lbucket
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- idx += offset2
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+ assert offset2 < 2**(indsize*8)
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+ idx += np.asarray(offset2).astype(idx.dtype)
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# Add the last row at the beginning of arr & idx (if needed)
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if (indsize == 8 and nelementsILR > 0):
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# It is possible that the values in LR are already sorted.
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@@ -622,11 +623,11 @@
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show_stats("Entering final_idx32", tref)
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# Do an upcast first in order to add the offset.
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idx = idx.astype('uint64')
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- idx += offset
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+ idx += np.asarray(offset).astype(idx.dtype)
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# The next partition is valid up to table sizes of
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# 2**30 * 2**18 = 2**48 bytes, that is, 256 Tera-elements,
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# which should be a safe figure, at least for a while.
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- idx //= self.lbucket
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+ idx //= np.asarray(self.lbucket).astype(idx.dtype)
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# After the division, we can downsize the indexes to 'uint32'
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idx = idx.astype('uint32')
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if profile:
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@@ -2002,7 +2003,7 @@
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else:
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self.indicesLR._read_index_slice(start, stop, idx)
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if indsize == 8:
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- idx //= lbucket
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+ idx //= np.asarray(lbucket).astype(idx.dtype)
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elif indsize == 2:
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# The chunkmap size cannot be never larger than 'int_'
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idx = idx.astype("int_")
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diff -ur a/tables/utils.py b/tables/utils.py
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--- a/tables/utils.py 2024-07-31 09:34:03.606371947 -0400
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+++ b/tables/utils.py 2024-07-31 09:39:41.246261430 -0400
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@@ -75,7 +75,7 @@
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# with atom from a generic python type. If copy is stated as True, it
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# is assured that it will return a copy of the object and never the same
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# object or a new one sharing the same memory.
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-def convert_to_np_atom(arr, atom, copy=False):
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+def convert_to_np_atom(arr, atom, copy=None):
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"""Convert a generic object into a NumPy object compliant with atom."""
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# First, convert the object into a NumPy array
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@@ -109,7 +109,7 @@
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# Check whether the object needs to be copied to make the operation
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# safe to in-place conversion.
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- copy = atom.type in ['time64']
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+ copy = True if atom.type in ['time64'] else None
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nparr = convert_to_np_atom(object, atom, copy)
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# Finally, check the byteorder and change it if needed
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byteorder = byteorders[nparr.dtype.byteorder]
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