AArch64 | |
ppc64le | |
s390x | |
x86-64 |
- Fix "env-script-interpreter" rpmlint warning
- Clean spec file.
- Build and package python3 bindings. - Switch to cmake build, autoconf will be removed in the next version. * Add 0001-Fix-CMakeLists.txt.patch
- Update to version 1.14.1 * Version number increment just to release pypi package. - Update to version 1.14 * Improvement against cyclic point change over applying standardizaion repeatedly. - Update to version 1.13 * Fix Issue#57 of SeekPath: Standardizations of choices of a,b,c axes for Cmma (67), Ccca(68), Ibca(73), Imma(74) were fixed. For monoclinic systems, lengths of non-unique axes are now checked by an exhaustive way. * Issue#79: Treatment of ir-kpoint search for special cases with three fold rotation (e.g., hexagonal or primitive FCC). - Update to version 1.12.2 * Minor release for memory leak fix (PR#71). - Update to version 1.12.1 * Bug fix of PR #70. #include <stddef.h> is inserted. In principle, this line is necessary to compile. - Update to version 1.12.2 * After this minor version, addition of new features will be stopped until version 2.0 will be released. * Experimental support of site symmetry symbols. * Comparisons of basis vector lengths are more carefully done for letting them work for different computer architectures to treat very small numerical different that is close to the machine precision. * Similarly, MOD-Z operation (bring values x inside the rage of 0<= x < 1) is now done considering the difference of machine precision. * To enable dense k-point mesh sampling, integer types of variables that represent grid point indices were changed from int to size_t. - Update to version 1.11.2 * Bug fix. Again, origin shift was still not correctly computed when the standardized basis vectors are rotated in this method to find most similar choice of basis vectors to the idealized ones. - Update to version 1.11.1 * Bug fix. Origin shift was not correctly computed when the standardized basis vectors are rotated in this method to find most similar choice of basis vectors to the idealized ones. This bug affected to 'origin_shift' and 'std_positions' in spglib dataset and the functions 'spg_standardize_cell', 'spg_find_primitive', and 'spg_refine_cell'. - Update to version 1.11.0 * This looks for a similar choice of starndardized basis vectors to that of idealized starndardized basis vectors among those generated by proper symmetry operations. * This computes a rigid rotation matrix introduced in the idealization step. The rotation is made to agree a-axes and a-b planes between systems before and after idealization. - Update to version 1.10.4 * Collection of minor fixes. A text on spglib algorithm is prepared for this version. This text will be available soon at arXiv. To be consistent between text and code, the code refactoring was made. - Update to version 1.10.3 * New algorithm to search translation part of space group operation is implmented by Michael Lamparski to improving the search speed especially for large unit cell systems. For this, new files 'overlap.*' are added and so the version number is incremented. - Update to version 1.10.2 * Automake didn't work due to the lack of determination.{c,h} lines. This was fixed. - Update to version 1.10.1 * A large refactoring was made to replace the outer-most iteration loop of symmetry search algorithm to a new file 'determination.c'. * These routines had accessed directly to a function close to spacegroup.c. Now these are replaced by passing through 'get_dataset'. - Update to version 1.10.0 * 'mapping_to_primitive' and 'std_mapping_to_primitive' in the spglib dataset are put available on the spglib document. 'spg_get_hall_number_from_symmetry' function ('get_hall_number_from_symmetry' method for python) is also - Update to version 1.9.10 * Pure translation search is made faster using a property of group, which is significantly effective for supercells with large multiplicity.
- Initial package based on 1.9.9