Mercurial > octave-dspies
view test/build_bc_overloads_expected.m @ 19010:3fb030666878 draft default tip dspies
Added special-case logical-indexing function
* logical-index.h (New file) : Logical-indexing function. May be called on
octave_value types via call_bool_index
* nz-iterators.h : Add base-class nz_iterator for iterator types. Array has
template bool for whether to internally store row-col or compute on the fly
Add skip_ahead method which skips forward to the next nonzero after its
argument
Add flat_index for computing octave_idx_type index of current position (with
assertion failure in the case of overflow)
Move is_zero to separate file
* ov-base-diag.cc, ov-base-mat.cc, ov-base-sparse.cc, ov-perm.cc
(do_index_op): Add call to call_bool_index in logical-index.h
* Array.h : Move forward-declaration for array_iterator to separate header file
* dim-vector.cc (dim_max): Refers to idx-bounds.h (max_idx)
* array-iter-decl.h (New file): Header file for forward declaration of
array-iterator
* direction.h : Add constants fdirc and bdirc to avoid having to reconstruct
them
* dv-utils.h, dv-utils.cc (New files) :
Utility functions for querying and constructing dim-vectors
* idx-bounds.h (New file) :
Utility constants and functions for determining whether things will overflow
the maximum allowed bounds
* interp-idx.h (New function : to_flat_idx) : Converts row-col pair to linear
index of octave_idx_type
* is-zero.h (New file) : Function for determining whether an element is zero
* logical-index.tst : Add tests for correct return-value dimensions and large
sparse matrix behavior
author | David Spies <dnspies@gmail.com> |
---|---|
date | Fri, 25 Jul 2014 13:39:31 -0600 |
parents | b1283d4c06c2 |
children |
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% this script is intended to be Matlab compatible % first, run the script % % ./build_bc_overloads_tests.sh overloads_only % % to generate the overloaded functions. % ex.double = 1; ex.single = single (1); ex.logical = true; ex.char = 'char'; ex.int8 = int8 (1); ex.int16 = int16 (1); ex.int32 = int32 (1); ex.int64 = int64 (1); ex.uint8 = uint8 (1); ex.uint16 = uint16 (1); ex.uint32 = uint32 (1); ex.uint64 = uint64 (1); ex.cell = {}; ex.struct = struct (); ex.function_handle = @numel; f = fieldnames (ex); n = numel (f); fid = fopen ('bc_overloads_expected','w'); fid for i = 1:n for j = 1:n s = tbcover (ex.(f{i}), ex.(f{j})); fprintf (fid, '%s %s %s\n', f{i}, f{j}, s); end end fclose (fid)