Mercurial > octave
view libinterp/operators/op-int.h @ 22197:e43d83253e28
refill multi-line macro definitions
Use the Emacs C++ mode style for line continuation markers in
multi-line macro definitions.
* make_int.cc, __dsearchn__.cc, __magick_read__.cc, besselj.cc,
bitfcns.cc, bsxfun.cc, cellfun.cc, data.cc, defun-dld.h, defun-int.h,
defun.h, det.cc, error.h, find.cc, gcd.cc, graphics.cc, interpreter.h,
jit-ir.h, jit-typeinfo.h, lookup.cc, ls-mat5.cc, max.cc, mexproto.h,
mxarray.in.h, oct-stream.cc, ordschur.cc, pr-output.cc, profiler.h,
psi.cc, regexp.cc, sparse-xdiv.cc, sparse-xpow.cc, tril.cc, txt-eng.h,
utils.cc, variables.cc, variables.h, xdiv.cc, xpow.cc, __glpk__.cc,
ov-base.cc, ov-base.h, ov-cell.cc, ov-ch-mat.cc, ov-classdef.cc,
ov-complex.cc, ov-cx-mat.cc, ov-cx-sparse.cc, ov-float.cc, ov-float.h,
ov-flt-complex.cc, ov-flt-cx-mat.cc, ov-flt-re-mat.cc,
ov-int-traits.h, ov-lazy-idx.h, ov-perm.cc, ov-re-mat.cc,
ov-re-sparse.cc, ov-scalar.cc, ov-scalar.h, ov-str-mat.cc,
ov-type-conv.h, ov.cc, ov.h, op-class.cc, op-int-conv.cc, op-int.h,
op-str-str.cc, ops.h, lex.ll, Array.cc, CMatrix.cc, CSparse.cc,
MArray.cc, MArray.h, MDiagArray2.cc, MDiagArray2.h, MSparse.h,
Sparse.cc, dMatrix.cc, dSparse.cc, fCMatrix.cc, fMatrix.cc,
idx-vector.cc, f77-fcn.h, quit.h, bsxfun-decl.h, bsxfun-defs.cc,
lo-specfun.cc, oct-convn.cc, oct-convn.h, oct-norm.cc, oct-norm.h,
oct-rand.cc, Sparse-op-decls.h, Sparse-op-defs.h, mx-inlines.cc,
mx-op-decl.h, mx-op-defs.h, mach-info.cc, oct-group.cc, oct-passwd.cc,
oct-syscalls.cc, oct-time.cc, data-conv.cc, kpse.cc, lo-ieee.h,
lo-macros.h, oct-cmplx.h, oct-glob.cc, oct-inttypes.cc,
oct-inttypes.h, oct-locbuf.h, oct-sparse.h, url-transfer.cc,
oct-conf-post.in.h, shared-fcns.h: Refill macro definitions.
| author | John W. Eaton <jwe@octave.org> |
|---|---|
| date | Mon, 01 Aug 2016 12:40:18 -0400 |
| parents | 278fc29b69ca |
| children | bac0d6f07a3e |
line wrap: on
line source
/* Copyright (C) 1996-2015 John W. Eaton This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Octave is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, see <http://www.gnu.org/licenses/>. */ #if ! defined (octave_op_int_h) #define octave_op_int_h 1 #include "octave-config.h" #include "quit.h" #include "bsxfun.h" #define DEFINTBINOP_OP(name, t1, t2, op, t3) \ static octave_value \ CONCAT2 (oct_binop_, name) (const octave_base_value& a1, \ const octave_base_value& a2) \ { \ const octave_ ## t1& v1 = dynamic_cast<const octave_ ## t1&> (a1); \ const octave_ ## t2& v2 = dynamic_cast<const octave_ ## t2&> (a2); \ octave_value retval = octave_value \ (v1.t1 ## _value () op v2.t2 ## _value ()); \ return retval; \ } #define DEFINTNDBINOP_OP(name, t1, t2, e1, e2, op, t3) \ static octave_value \ CONCAT2 (oct_binop_, name) (const octave_base_value& a1, \ const octave_base_value& a2) \ { \ const octave_ ## t1& v1 = dynamic_cast<const octave_ ## t1&> (a1); \ const octave_ ## t2& v2 = dynamic_cast<const octave_ ## t2&> (a2); \ octave_value retval = octave_value \ (v1.e1 ## _value () op v2.e2 ## _value ()); \ return retval; \ } #define DEFINTBINOP_FN(name, t1, t2, f, t3, op) \ static octave_value \ CONCAT2 (oct_binop_, name) (const octave_base_value& a1, \ const octave_base_value& a2) \ { \ const octave_ ## t1& v1 = dynamic_cast<const octave_ ## t1&> (a1); \ const octave_ ## t2& v2 = dynamic_cast<const octave_ ## t2&> (a2); \ octave_value retval = octave_value (f (v1.t1 ## _value (), v2.t2 ## _value ())); \ return retval; \ } #define DEFINTNDBINOP_FN(name, t1, t2, e1, e2, f, t3, op) \ static octave_value \ CONCAT2 (oct_binop_, name) (const octave_base_value& a1, \ const octave_base_value& a2) \ { \ const octave_ ## t1& v1 = dynamic_cast<const octave_ ## t1&> (a1); \ const octave_ ## t2& v2 = dynamic_cast<const octave_ ## t2&> (a2); \ octave_value retval = octave_value (f (v1.e1 ## _value (), v2.e2 ## _value ())); \ return retval; \ } #define OCTAVE_CONCAT_FN2(T1, T2) \ DEFNDCATOP_FN2 (T1 ## _ ## T2 ## _s_s, T1 ## _scalar, T2 ## _scalar, , T1 ## NDArray, T1 ## _array, T2 ## _array, concat) \ DEFNDCATOP_FN2 (T1 ## _ ## T2 ## _s_m, T1 ## _scalar, T2 ## _matrix, , T1 ## NDArray, T1 ## _array, T2 ## _array, concat) \ DEFNDCATOP_FN2 (T1 ## _ ## T2 ## _m_s, T1 ## _matrix, T2 ## _scalar, , T1 ## NDArray, T1 ## _array, T2 ## _array, concat) \ DEFNDCATOP_FN2 (T1 ## _ ## T2 ## _m_m, T1 ## _matrix, T2 ## _matrix, , T1 ## NDArray, T1 ## _array, T2 ## _array, concat) #define OCTAVE_INSTALL_CONCAT_FN2(T1, T2) \ INSTALL_CATOP (octave_ ## T1 ## _scalar, octave_ ## T2 ## _scalar, T1 ## _ ## T2 ## _s_s) \ INSTALL_CATOP (octave_ ## T1 ## _scalar, octave_ ## T2 ## _matrix, T1 ## _ ## T2 ## _s_m) \ INSTALL_CATOP (octave_ ## T1 ## _matrix, octave_ ## T2 ## _scalar, T1 ## _ ## T2 ## _m_s) \ INSTALL_CATOP (octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, T1 ## _ ## T2 ## _m_m) #define OCTAVE_DOUBLE_INT_CONCAT_FN(TYPE) \ DEFNDCATOP_FN2 (double ## _ ## TYPE ## _s_s, scalar, TYPE ## _scalar, TYPE ## NDArray, , array, TYPE ## _array, concat) \ DEFNDCATOP_FN2 (double ## _ ## TYPE ## _s_m, scalar, TYPE ## _matrix, TYPE ## NDArray, , array, TYPE ## _array, concat) \ DEFNDCATOP_FN2 (double ## _ ## TYPE ## _m_s, matrix, TYPE ## _scalar, TYPE ## NDArray, , array, TYPE ## _array, concat) \ DEFNDCATOP_FN2 (double ## _ ## TYPE ## _m_m, matrix, TYPE ## _matrix, TYPE ## NDArray, , array, TYPE ## _array, concat) #define OCTAVE_INSTALL_DOUBLE_INT_CONCAT_FN(TYPE) \ INSTALL_CATOP (octave_scalar, octave_ ## TYPE ## _scalar, double ## _ ## TYPE ## _s_s) \ INSTALL_CATOP (octave_scalar, octave_ ## TYPE ## _matrix, double ## _ ## TYPE ## _s_m) \ INSTALL_CATOP (octave_matrix, octave_ ## TYPE ## _scalar, double ## _ ## TYPE ## _m_s) \ INSTALL_CATOP (octave_matrix, octave_ ## TYPE ## _matrix, double ## _ ## TYPE ## _m_m) #define OCTAVE_INT_DOUBLE_CONCAT_FN(TYPE) \ DEFNDCATOP_FN2 (TYPE ## _ ## double ## _s_s, TYPE ## _scalar, scalar, , TYPE ## NDArray, TYPE ## _array, array, concat) \ DEFNDCATOP_FN2 (TYPE ## _ ## double ## _s_m, TYPE ## _scalar, matrix, , TYPE ## NDArray, TYPE ## _array, array, concat) \ DEFNDCATOP_FN2 (TYPE ## _ ## double ## _m_s, TYPE ## _matrix, scalar, , TYPE ## NDArray, TYPE ## _array, array, concat) \ DEFNDCATOP_FN2 (TYPE ## _ ## double ## _m_m, TYPE ## _matrix, matrix, , TYPE ## NDArray, TYPE ## _array, array, concat) #define OCTAVE_INSTALL_INT_DOUBLE_CONCAT_FN(TYPE) \ INSTALL_CATOP (octave_ ## TYPE ## _scalar, octave_scalar, TYPE ## _ ## double ## _s_s) \ INSTALL_CATOP (octave_ ## TYPE ## _scalar, octave_matrix, TYPE ## _ ## double ## _s_m) \ INSTALL_CATOP (octave_ ## TYPE ## _matrix, octave_scalar, TYPE ## _ ## double ## _m_s) \ INSTALL_CATOP (octave_ ## TYPE ## _matrix, octave_matrix, TYPE ## _ ## double ## _m_m) #define OCTAVE_FLOAT_INT_CONCAT_FN(TYPE) \ DEFNDCATOP_FN2 (float ## _ ## TYPE ## _s_s, float_scalar, TYPE ## _scalar, TYPE ## NDArray, , float_array, TYPE ## _array, concat) \ DEFNDCATOP_FN2 (float ## _ ## TYPE ## _s_m, float_scalar, TYPE ## _matrix, TYPE ## NDArray, , float_array, TYPE ## _array, concat) \ DEFNDCATOP_FN2 (float ## _ ## TYPE ## _m_s, float_matrix, TYPE ## _scalar, TYPE ## NDArray, , float_array, TYPE ## _array, concat) \ DEFNDCATOP_FN2 (float ## _ ## TYPE ## _m_m, float_matrix, TYPE ## _matrix, TYPE ## NDArray, , float_array, TYPE ## _array, concat) #define OCTAVE_INSTALL_FLOAT_INT_CONCAT_FN(TYPE) \ INSTALL_CATOP (octave_float_scalar, octave_ ## TYPE ## _scalar, float ## _ ## TYPE ## _s_s) \ INSTALL_CATOP (octave_float_scalar, octave_ ## TYPE ## _matrix, float ## _ ## TYPE ## _s_m) \ INSTALL_CATOP (octave_float_matrix, octave_ ## TYPE ## _scalar, float ## _ ## TYPE ## _m_s) \ INSTALL_CATOP (octave_float_matrix, octave_ ## TYPE ## _matrix, float ## _ ## TYPE ## _m_m) #define OCTAVE_INT_FLOAT_CONCAT_FN(TYPE) \ DEFNDCATOP_FN2 (TYPE ## _ ## float ## _s_s, TYPE ## _scalar, float_scalar, , TYPE ## NDArray, TYPE ## _array, float_array, concat) \ DEFNDCATOP_FN2 (TYPE ## _ ## float ## _s_m, TYPE ## _scalar, float_matrix, , TYPE ## NDArray, TYPE ## _array, float_array, concat) \ DEFNDCATOP_FN2 (TYPE ## _ ## float ## _m_s, TYPE ## _matrix, float_scalar, , TYPE ## NDArray, TYPE ## _array, float_array, concat) \ DEFNDCATOP_FN2 (TYPE ## _ ## float ## _m_m, TYPE ## _matrix, float_matrix, , TYPE ## NDArray, TYPE ## _array, float_array, concat) #define OCTAVE_INSTALL_INT_FLOAT_CONCAT_FN(TYPE) \ INSTALL_CATOP (octave_ ## TYPE ## _scalar, octave_float_scalar, TYPE ## _ ## float ## _s_s) \ INSTALL_CATOP (octave_ ## TYPE ## _scalar, octave_float_matrix, TYPE ## _ ## float ## _s_m) \ INSTALL_CATOP (octave_ ## TYPE ## _matrix, octave_float_scalar, TYPE ## _ ## float ## _m_s) \ INSTALL_CATOP (octave_ ## TYPE ## _matrix, octave_float_matrix, TYPE ## _ ## float ## _m_m) // For compatibility, concatenation with a character always returns a // character. #define OCTAVE_CHAR_INT_CONCAT_FN(TYPE) \ DEFNDCHARCATOP_FN (char ## _ ## TYPE ## _m_s, char_matrix, TYPE ## _scalar, concat) \ DEFNDCHARCATOP_FN (char ## _ ## TYPE ## _m_m, char_matrix, TYPE ## _matrix, concat) #define OCTAVE_INSTALL_CHAR_INT_CONCAT_FN(TYPE) \ INSTALL_CATOP (octave_char_matrix_str, octave_ ## TYPE ## _scalar, char ## _ ## TYPE ## _m_s) \ INSTALL_CATOP (octave_char_matrix_str, octave_ ## TYPE ## _matrix, char ## _ ## TYPE ## _m_m) \ INSTALL_CATOP (octave_char_matrix_sq_str, octave_ ## TYPE ## _scalar, char ## _ ## TYPE ## _m_s) \ INSTALL_CATOP (octave_char_matrix_sq_str, octave_ ## TYPE ## _matrix, char ## _ ## TYPE ## _m_m) #define OCTAVE_INT_CHAR_CONCAT_FN(TYPE) \ DEFNDCHARCATOP_FN (TYPE ## _ ## char ## _s_m, TYPE ## _scalar, char_matrix, concat) \ DEFNDCHARCATOP_FN (TYPE ## _ ## char ## _m_m, TYPE ## _matrix, char_matrix, concat) #define OCTAVE_INSTALL_INT_CHAR_CONCAT_FN(TYPE) \ INSTALL_CATOP (octave_ ## TYPE ## _scalar, octave_char_matrix_str, TYPE ## _ ## char ## _s_m) \ INSTALL_CATOP (octave_ ## TYPE ## _matrix, octave_char_matrix_str, TYPE ## _ ## char ## _m_m) \ INSTALL_CATOP (octave_ ## TYPE ## _scalar, octave_char_matrix_sq_str, TYPE ## _ ## char ## _s_m) \ INSTALL_CATOP (octave_ ## TYPE ## _matrix, octave_char_matrix_sq_str, TYPE ## _ ## char ## _m_m) #define OCTAVE_CONCAT_FN(TYPE) \ DEFNDCATOP_FN (TYPE ## _s_s, TYPE ## _scalar, TYPE ## _scalar, TYPE ## _array, TYPE ## _array, concat) \ DEFNDCATOP_FN (TYPE ## _s_m, TYPE ## _scalar, TYPE ## _matrix, TYPE ## _array, TYPE ## _array, concat) \ DEFNDCATOP_FN (TYPE ## _m_s, TYPE ## _matrix, TYPE ## _scalar, TYPE ## _array, TYPE ## _array, concat) \ DEFNDCATOP_FN (TYPE ## _m_m, TYPE ## _matrix, TYPE ## _matrix, TYPE ## _array, TYPE ## _array, concat) #define OCTAVE_INSTALL_CONCAT_FN(TYPE) \ INSTALL_CATOP (octave_ ## TYPE ## _scalar, octave_ ## TYPE ## _scalar, TYPE ## _s_s) \ INSTALL_CATOP (octave_ ## TYPE ## _scalar, octave_ ## TYPE ## _matrix, TYPE ## _s_m) \ INSTALL_CATOP (octave_ ## TYPE ## _matrix, octave_ ## TYPE ## _scalar, TYPE ## _m_s) \ INSTALL_CATOP (octave_ ## TYPE ## _matrix, octave_ ## TYPE ## _matrix, TYPE ## _m_m) // scalar unary ops. #define OCTAVE_S_INT_UNOPS(TYPE) \ \ DEFUNOP_OP (s_not, TYPE ## _scalar, !) \ DEFUNOP_OP (s_uplus, TYPE ## _scalar, /* no-op */) \ DEFUNOP (s_uminus, TYPE ## _scalar) \ { \ const octave_ ## TYPE ## _scalar & v = dynamic_cast<const octave_ ## TYPE ## _scalar &> (a); \ octave_value retval = octave_value (- v. TYPE ## _scalar_value ()); \ return retval; \ } \ DEFUNOP_OP (s_transpose, TYPE ## _scalar, /* no-op */) \ DEFUNOP_OP (s_hermitian, TYPE ## _scalar, /* no-op */) \ \ DEFNCUNOP_METHOD (s_incr, TYPE ## _scalar, increment) \ DEFNCUNOP_METHOD (s_decr, TYPE ## _scalar, decrement) // scalar by scalar ops. #define OCTAVE_SS_INT_ARITH_OPS(PFX, T1, T2, T3) \ \ DEFINTBINOP_OP (PFX ## _add, T1 ## scalar, T2 ## scalar, +, T3) \ DEFINTBINOP_OP (PFX ## _sub, T1 ## scalar, T2 ## scalar, -, T3) \ DEFINTBINOP_OP (PFX ## _mul, T1 ## scalar, T2 ## scalar, *, T3) \ \ DEFBINOP (PFX ## _div, T1 ## scalar, T2 ## scalar) \ { \ const octave_ ## T1 ## scalar& v1 = dynamic_cast<const octave_ ## T1 ## scalar&> (a1); \ const octave_ ## T2 ## scalar& v2 = dynamic_cast<const octave_ ## T2 ## scalar&> (a2); \ \ if (! v2.T2 ## scalar_value ()) \ warn_divide_by_zero (); \ \ octave_value retval = octave_value (v1.T1 ## scalar_value () / v2.T2 ## scalar_value ()); \ return retval; \ } \ \ DEFINTBINOP_FN (PFX ## _pow, T1 ## scalar, T2 ## scalar, xpow, T3, ^) \ \ DEFBINOP (PFX ## _ldiv, T1 ## scalar, T2 ## scalar) \ { \ const octave_ ## T1 ## scalar& v1 = dynamic_cast<const octave_ ## T1 ## scalar&> (a1); \ const octave_ ## T2 ## scalar& v2 = dynamic_cast<const octave_ ## T2 ## scalar&> (a2); \ \ if (! v1.T1 ## scalar_value ()) \ warn_divide_by_zero (); \ \ octave_value retval = octave_value (v2.T2 ## scalar_value () / v1.T1 ## scalar_value ()); \ return retval; \ } \ \ DEFINTBINOP_OP (PFX ## _el_mul, T1 ## scalar, T2 ## scalar, *, T3) \ \ DEFBINOP (PFX ## _el_div, T1 ## scalar, T2 ## scalar) \ { \ const octave_ ## T1 ## scalar& v1 = dynamic_cast<const octave_ ## T1 ## scalar&> (a1); \ const octave_ ## T2 ## scalar& v2 = dynamic_cast<const octave_ ## T2 ## scalar&> (a2); \ \ if (! v2.T2 ## scalar_value ()) \ warn_divide_by_zero (); \ \ octave_value retval = octave_value (v1.T1 ## scalar_value () / v2.T2 ## scalar_value ()); \ return retval; \ } \ \ DEFINTBINOP_FN (PFX ## _el_pow, T1 ## scalar, T2 ## scalar, xpow, T3, .^) \ \ DEFBINOP (PFX ## _el_ldiv, T1 ## scalar, T2 ## scalar) \ { \ const octave_ ## T1 ## scalar& v1 = dynamic_cast<const octave_ ## T1 ## scalar&> (a1); \ const octave_ ## T2 ## scalar& v2 = dynamic_cast<const octave_ ## T2 ## scalar&> (a2); \ \ if (! v1.T1 ## scalar_value ()) \ warn_divide_by_zero (); \ \ octave_value retval = octave_value (v2.T2 ## scalar_value () / v1.T1 ## scalar_value ()); \ return retval; \ } #define OCTAVE_SS_INT_BOOL_OPS(PFX, T1, T2, Z1, Z2) \ DEFBINOP (PFX ## _el_and, T2, T2) \ { \ const octave_ ## T1 ## scalar& v1 = dynamic_cast<const octave_ ## T1 ## scalar&> (a1); \ const octave_ ## T2 ## scalar& v2 = dynamic_cast<const octave_ ## T2 ## scalar&> (a2); \ \ return v1.T1 ## scalar_value () != Z1 && v2.T2 ## scalar_value () != Z2; \ } \ \ DEFBINOP (PFX ## _el_or, T1, T2) \ { \ const octave_ ## T1 ## scalar& v1 = dynamic_cast<const octave_ ## T1 ## scalar&> (a1); \ const octave_ ## T2 ## scalar& v2 = dynamic_cast<const octave_ ## T2 ## scalar&> (a2); \ \ return v1.T1 ## scalar_value () != Z1 || v2.T2 ## scalar_value () != Z2; \ } #define OCTAVE_SS_INT_CMP_OPS(PFX, T1, T2) \ DEFBINOP_OP (PFX ## _lt, T1 ## scalar, T2 ## scalar, <) \ DEFBINOP_OP (PFX ## _le, T1 ## scalar, T2 ## scalar, <=) \ DEFBINOP_OP (PFX ## _eq, T1 ## scalar, T2 ## scalar, ==) \ DEFBINOP_OP (PFX ## _ge, T1 ## scalar, T2 ## scalar, >=) \ DEFBINOP_OP (PFX ## _gt, T1 ## scalar, T2 ## scalar, >) \ DEFBINOP_OP (PFX ## _ne, T1 ## scalar, T2 ## scalar, !=) #define OCTAVE_SS_POW_OPS(T1, T2) \ octave_value \ xpow (const octave_ ## T1& a, const octave_ ## T2& b) \ { \ return pow (a, b); \ } \ \ octave_value \ xpow (const octave_ ## T1& a, double b) \ { \ return pow (a, b); \ } \ \ octave_value \ xpow (double a, const octave_ ## T1& b) \ { \ return pow (a, b); \ } \ \ octave_value \ xpow (const octave_ ## T1& a, float b) \ { \ return powf (a, b); \ } \ \ octave_value \ xpow (float a, const octave_ ## T1& b) \ { \ return powf (a, b); \ } #define OCTAVE_SS_INT_OPS(TYPE) \ OCTAVE_S_INT_UNOPS (TYPE) \ OCTAVE_SS_POW_OPS (TYPE, TYPE) \ OCTAVE_SS_INT_ARITH_OPS (ss, TYPE ## _, TYPE ## _, TYPE) \ OCTAVE_SS_INT_ARITH_OPS (ssx, TYPE ## _, , TYPE) \ OCTAVE_SS_INT_ARITH_OPS (sxs, , TYPE ## _, TYPE) \ OCTAVE_SS_INT_ARITH_OPS (ssfx, TYPE ## _, float_, TYPE) \ OCTAVE_SS_INT_ARITH_OPS (sfxs, float_, TYPE ## _, TYPE) \ OCTAVE_SS_INT_CMP_OPS (ss, TYPE ## _, TYPE ## _) \ OCTAVE_SS_INT_CMP_OPS (sx, TYPE ## _, ) \ OCTAVE_SS_INT_CMP_OPS (xs, , TYPE ## _) \ OCTAVE_SS_INT_CMP_OPS (sfx, TYPE ## _, float_) \ OCTAVE_SS_INT_CMP_OPS (fxs, float_, TYPE ## _) \ OCTAVE_SS_INT_BOOL_OPS (ss, TYPE ## _, TYPE ## _, octave_ ## TYPE (0), octave_ ## TYPE (0)) \ OCTAVE_SS_INT_BOOL_OPS (sx, TYPE ## _, , octave_ ## TYPE (0), 0) \ OCTAVE_SS_INT_BOOL_OPS (xs, , TYPE ## _, 0, octave_ ## TYPE (0)) \ OCTAVE_SS_INT_BOOL_OPS (sfx, TYPE ## _, float_, octave_ ## TYPE (0), 0) \ OCTAVE_SS_INT_BOOL_OPS (fxs, float_, TYPE ## _, 0, octave_ ## TYPE (0)) // scalar by matrix ops. #define OCTAVE_SM_INT_ARITH_OPS(PFX, TS, TM, TI) \ \ DEFINTNDBINOP_OP (PFX ## _add, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, +, TI) \ DEFINTNDBINOP_OP (PFX ## _sub, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, -, TI) \ DEFINTNDBINOP_OP (PFX ## _mul, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, *, TI) \ \ /* DEFBINOP (PFX ## _div, TS ## scalar, TM ## matrix) */ \ /* { */ \ /* const octave_ ## TS ## scalar& v1 = dynamic_cast<const octave_ ## TS ## scalar&> (a1); */ \ /* const octave_ ## TM ## matrix& v2 = dynamic_cast<const octave_ ## TM ## matrix&> (a2); */ \ /* */ \ /* Matrix m1 = v1.TM ## matrix_value (); */ \ /* Matrix m2 = v2.TM ## matrix_value (); */ \ /* */ \ /* return octave_value (xdiv (m1, m2)); */ \ /* } */ \ \ /* DEFBINOP_FN (PFX ## _pow, TS ## scalar, TM ## matrix, xpow) */ \ \ DEFBINOP (PFX ## _ldiv, TS ## scalar, TM ## matrix) \ { \ const octave_ ## TS ## scalar& v1 = dynamic_cast<const octave_ ## TS ## scalar&> (a1); \ const octave_ ## TM ## matrix& v2 = dynamic_cast<const octave_ ## TM ## matrix&> (a2); \ \ if (! v1.TS ## scalar_value ()) \ warn_divide_by_zero (); \ \ octave_value retval = octave_value (v2.TS ## scalar_value () / v1.TS ## scalar_value ()); \ return retval; \ } \ \ DEFINTNDBINOP_OP (PFX ## _el_mul, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, *, TI) \ DEFBINOP (PFX ## _el_div, TS ## scalar, TM ## matrix) \ { \ const octave_ ## TS ## scalar& v1 = dynamic_cast<const octave_ ## TS ## scalar&> (a1); \ const octave_ ## TM ## matrix& v2 = dynamic_cast<const octave_ ## TM ## matrix&> (a2); \ \ octave_value retval = octave_value (v1.TS ## scalar_value () / v2.TM ## array_value ()); \ return retval; \ } \ \ DEFINTNDBINOP_FN (PFX ## _el_pow, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, elem_xpow, TI, .^) \ \ DEFBINOP (PFX ## _el_ldiv, TS ## scalar, TM ## matrix) \ { \ const octave_ ## TS ## scalar& v1 = dynamic_cast<const octave_ ## TS ## scalar&> (a1); \ const octave_ ## TM ## matrix& v2 = dynamic_cast<const octave_ ## TM ## matrix&> (a2); \ \ if (! v1.TS ## scalar_value ()) \ warn_divide_by_zero (); \ \ octave_value retval = octave_value (v2.TM ## array_value () / v1.TS ## scalar_value ()); \ return retval; \ } #define OCTAVE_SM_INT_CMP_OPS(PFX, TS, TM) \ DEFNDBINOP_FN (PFX ## _lt, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_lt) \ DEFNDBINOP_FN (PFX ## _le, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_le) \ DEFNDBINOP_FN (PFX ## _eq, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_eq) \ DEFNDBINOP_FN (PFX ## _ge, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_ge) \ DEFNDBINOP_FN (PFX ## _gt, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_gt) \ DEFNDBINOP_FN (PFX ## _ne, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_ne) #define OCTAVE_SM_INT_BOOL_OPS(PFX, TS, TM) \ DEFNDBINOP_FN (PFX ## _el_and, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_and) \ DEFNDBINOP_FN (PFX ## _el_or, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_or) \ DEFNDBINOP_FN (PFX ## _el_and_not, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_and_not) \ DEFNDBINOP_FN (PFX ## _el_or_not, TS ## scalar, TM ## matrix, TS ## scalar, TM ## array, mx_el_or_not) #define OCTAVE_SM_POW_OPS(T1, T2) \ octave_value \ elem_xpow (const octave_ ## T1& a, const T2 ## NDArray& b) \ { \ T2 ## NDArray result (b.dims ()); \ for (int i = 0; i < b.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = pow (a, b(i)); \ } \ return octave_value (result); \ } \ \ octave_value \ elem_xpow (const octave_ ## T1& a, const NDArray& b) \ { \ T1 ## NDArray result (b.dims ()); \ for (int i = 0; i < b.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = pow (a, b(i)); \ } \ return octave_value (result); \ } \ \ octave_value \ elem_xpow (double a, const T2 ## NDArray& b) \ { \ T2 ## NDArray result (b.dims ()); \ for (int i = 0; i < b.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = pow (a, b(i)); \ } \ return octave_value (result); \ } \ \ octave_value \ elem_xpow (const octave_ ## T1& a, const FloatNDArray& b) \ { \ T1 ## NDArray result (b.dims ()); \ for (int i = 0; i < b.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = powf (a, b(i)); \ } \ return octave_value (result); \ } \ \ octave_value \ elem_xpow (float a, const T2 ## NDArray& b) \ { \ T2 ## NDArray result (b.dims ()); \ for (int i = 0; i < b.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = powf (a, b(i)); \ } \ return octave_value (result); \ } #define OCTAVE_SM_CONV(TS, TM) \ DEFCONV (TS ## s_ ## TM ## m_conv, TM ## scalar, TM ## matrix) \ { \ const octave_ ## TS ## scalar& v = dynamic_cast<const octave_ ## TS ## scalar&> (a); \ \ return new octave_ ## TM ## matrix (v.TM ## array_value ()); \ } #define OCTAVE_SM_INT_OPS(TYPE) \ OCTAVE_SM_POW_OPS (TYPE, TYPE) \ OCTAVE_SM_INT_ARITH_OPS (sm, TYPE ## _, TYPE ## _, TYPE) \ OCTAVE_SM_INT_ARITH_OPS (smx, TYPE ## _, , TYPE) \ OCTAVE_SM_INT_ARITH_OPS (sxm, , TYPE ## _, TYPE) \ OCTAVE_SM_INT_ARITH_OPS (smfx, TYPE ## _, float_, TYPE) \ OCTAVE_SM_INT_ARITH_OPS (sfxm, float_, TYPE ## _, TYPE) \ OCTAVE_SM_INT_CMP_OPS (sm, TYPE ## _, TYPE ## _) \ OCTAVE_SM_INT_CMP_OPS (xm, , TYPE ## _) \ OCTAVE_SM_INT_CMP_OPS (smx, TYPE ## _, ) \ OCTAVE_SM_INT_CMP_OPS (fxm, float_, TYPE ## _) \ OCTAVE_SM_INT_CMP_OPS (smfx, TYPE ## _, float_) \ OCTAVE_SM_INT_BOOL_OPS (sm, TYPE ## _, TYPE ## _) \ OCTAVE_SM_INT_BOOL_OPS (xm, , TYPE ## _) \ OCTAVE_SM_INT_BOOL_OPS (smx, TYPE ## _, ) \ OCTAVE_SM_INT_BOOL_OPS (fxm, float_, TYPE ## _) \ OCTAVE_SM_INT_BOOL_OPS (smfx, TYPE ## _, float_) \ OCTAVE_SM_CONV (TYPE ## _, TYPE ## _) \ OCTAVE_SM_CONV (TYPE ## _, complex_) \ OCTAVE_SM_CONV (TYPE ## _, float_complex_) // matrix by scalar ops. #define OCTAVE_MS_INT_ARITH_OPS(PFX, TM, TS, TI) \ \ DEFINTNDBINOP_OP (PFX ## _add, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, +, TI) \ DEFINTNDBINOP_OP (PFX ## _sub, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, -, TI) \ DEFINTNDBINOP_OP (PFX ## _mul, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, *, TI) \ \ DEFBINOP (PFX ## _div, TM ## matrix, TS ## scalar) \ { \ const octave_ ## TM ## matrix& v1 = dynamic_cast<const octave_ ## TM ## matrix&> (a1); \ const octave_ ## TS ## scalar& v2 = dynamic_cast<const octave_ ## TS ## scalar&> (a2); \ \ if (! v2.TS ## scalar_value ()) \ warn_divide_by_zero (); \ \ octave_value retval = octave_value (v1.TM ## array_value () / v2.TS ## scalar_value ()); \ return retval; \ } \ \ /* DEFBINOP_FN (PFX ## _pow, TM ## matrix, TS ## scalar, xpow) */ \ \ /* DEFBINOP (PFX ## _ldiv, TM ## matrix, TS ## scalar) */ \ /* { */ \ /* const octave_ ## TM ## matrix& v1 = dynamic_cast<const octave_ ## TM ## matrix&> (a1); */ \ /* const octave_ ## TS ## scalar& v2 = dynamic_cast<const octave_ ## TS ## scalar&> (a2); */ \ /* */ \ /* Matrix m1 = v1.TM ## matrix_value (); */ \ /* Matrix m2 = v2.TM ## matrix_value (); */ \ /* */ \ /* return octave_value (xleftdiv (m1, m2)); */ \ /* } */ \ \ DEFINTNDBINOP_OP (PFX ## _el_mul, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, *, TI) \ \ DEFBINOP (PFX ## _el_div, TM ## matrix, TS ## scalar) \ { \ const octave_ ## TM ## matrix& v1 = dynamic_cast<const octave_ ## TM ## matrix&> (a1); \ const octave_ ## TS ## scalar& v2 = dynamic_cast<const octave_ ## TS ## scalar&> (a2); \ \ if (! v2.TS ## scalar_value ()) \ warn_divide_by_zero (); \ \ octave_value retval = octave_value (v1.TM ## array_value () / v2.TS ## scalar_value ()); \ return retval; \ } \ \ DEFINTNDBINOP_FN (PFX ## _el_pow, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, elem_xpow, TI, .^) \ \ DEFBINOP (PFX ## _el_ldiv, TM ## matrix, TS ## scalar) \ { \ const octave_ ## TM ## matrix& v1 = dynamic_cast<const octave_ ## TM ## matrix&> (a1); \ const octave_ ## TS ## scalar& v2 = dynamic_cast<const octave_ ## TS ## scalar&> (a2); \ \ octave_value retval = v2.TS ## scalar_value () / v1.TM ## array_value (); \ return retval; \ } #define OCTAVE_MS_INT_CMP_OPS(PFX, TM, TS) \ DEFNDBINOP_FN (PFX ## _lt, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_lt) \ DEFNDBINOP_FN (PFX ## _le, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_le) \ DEFNDBINOP_FN (PFX ## _eq, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_eq) \ DEFNDBINOP_FN (PFX ## _ge, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_ge) \ DEFNDBINOP_FN (PFX ## _gt, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_gt) \ DEFNDBINOP_FN (PFX ## _ne, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_ne) #define OCTAVE_MS_INT_BOOL_OPS(PFX, TM, TS) \ DEFNDBINOP_FN (PFX ## _el_and, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_and) \ DEFNDBINOP_FN (PFX ## _el_or, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_or) \ DEFNDBINOP_FN (PFX ## _el_not_and, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_not_and) \ DEFNDBINOP_FN (PFX ## _el_not_or, TM ## matrix, TS ## scalar, TM ## array, TS ## scalar, mx_el_not_or) #define OCTAVE_MS_INT_ASSIGN_OPS(PFX, TM, TS, TE) \ DEFNDASSIGNOP_FN (PFX ## _assign, TM ## matrix, TS ## scalar, TM ## scalar, assign) #define OCTAVE_MS_INT_ASSIGNEQ_OPS(PFX, TM) \ DEFNDASSIGNOP_OP (PFX ## _assign_add, TM ## matrix, TM ## scalar, TM ## scalar, +=) \ DEFNDASSIGNOP_OP (PFX ## _assign_sub, TM ## matrix, TM ## scalar, TM ## scalar, -=) \ DEFNDASSIGNOP_OP (PFX ## _assign_mul, TM ## matrix, TM ## scalar, TM ## scalar, *=) \ DEFNDASSIGNOP_OP (PFX ## _assign_div, TM ## matrix, TM ## scalar, TM ## scalar, /=) #define OCTAVE_MS_POW_OPS(T1, T2) \ octave_value elem_xpow (T1 ## NDArray a, octave_ ## T2 b) \ { \ T1 ## NDArray result (a.dims ()); \ for (int i = 0; i < a.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = pow (a(i), b); \ } \ return octave_value (result); \ } \ \ octave_value elem_xpow (T1 ## NDArray a, double b) \ { \ T1 ## NDArray result (a.dims ()); \ for (int i = 0; i < a.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = pow (a(i), b); \ } \ return octave_value (result); \ } \ \ octave_value elem_xpow (NDArray a, octave_ ## T2 b) \ { \ T2 ## NDArray result (a.dims ()); \ for (int i = 0; i < a.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = pow (a(i), b); \ } \ return octave_value (result); \ } \ \ octave_value elem_xpow (T1 ## NDArray a, float b) \ { \ T1 ## NDArray result (a.dims ()); \ for (int i = 0; i < a.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = powf (a(i), b); \ } \ return octave_value (result); \ } \ \ octave_value elem_xpow (FloatNDArray a, octave_ ## T2 b) \ { \ T2 ## NDArray result (a.dims ()); \ for (int i = 0; i < a.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = powf (a(i), b); \ } \ return octave_value (result); \ } #define OCTAVE_MS_INT_OPS(TYPE) \ OCTAVE_MS_POW_OPS (TYPE, TYPE) \ OCTAVE_MS_INT_ARITH_OPS (ms, TYPE ## _, TYPE ## _, TYPE) \ OCTAVE_MS_INT_ARITH_OPS (msx, TYPE ## _, , TYPE) \ OCTAVE_MS_INT_ARITH_OPS (mxs, , TYPE ## _, TYPE) \ OCTAVE_MS_INT_ARITH_OPS (msfx, TYPE ## _, float_, TYPE) \ OCTAVE_MS_INT_ARITH_OPS (mfxs, float_, TYPE ## _, TYPE) \ OCTAVE_MS_INT_CMP_OPS (ms, TYPE ## _, TYPE ## _) \ OCTAVE_MS_INT_CMP_OPS (mx, TYPE ## _, ) \ OCTAVE_MS_INT_CMP_OPS (mxs, , TYPE ## _) \ OCTAVE_MS_INT_CMP_OPS (mfx, TYPE ## _, float_) \ OCTAVE_MS_INT_CMP_OPS (mfxs, float_, TYPE ## _) \ OCTAVE_MS_INT_BOOL_OPS (ms, TYPE ## _, TYPE ## _) \ OCTAVE_MS_INT_BOOL_OPS (mx, TYPE ## _, ) \ OCTAVE_MS_INT_BOOL_OPS (mxs, , TYPE ## _) \ OCTAVE_MS_INT_BOOL_OPS (mfx, TYPE ## _, float_) \ OCTAVE_MS_INT_BOOL_OPS (mfxs, float_, TYPE ## _) \ OCTAVE_MS_INT_ASSIGN_OPS (ms, TYPE ## _, TYPE ## _, TYPE ## _) \ OCTAVE_MS_INT_ASSIGNEQ_OPS (mse, TYPE ## _) \ OCTAVE_MS_INT_ASSIGN_OPS (mx, TYPE ## _, , ) \ OCTAVE_MS_INT_ASSIGN_OPS (mfx, TYPE ## _, float_, float_) // matrix unary ops. #define OCTAVE_M_INT_UNOPS(TYPE) \ \ DEFNDUNOP_OP (m_not, TYPE ## _matrix, TYPE ## _array, !) \ DEFNDUNOP_OP (m_uplus, TYPE ## _matrix, TYPE ## _array, /* no-op */) \ DEFUNOP (m_uminus, TYPE ## _matrix) \ { \ const octave_ ## TYPE ## _matrix & v = dynamic_cast<const octave_ ## TYPE ## _matrix &> (a); \ octave_value retval = octave_value (- v. TYPE ## _array_value ()); \ return retval; \ } \ \ DEFUNOP (m_transpose, TYPE ## _matrix) \ { \ const octave_ ## TYPE ## _matrix& v = dynamic_cast<const octave_ ## TYPE ## _matrix&> (a); \ \ if (v.ndims () > 2) \ error ("transpose not defined for N-D objects"); \ \ return octave_value (v.TYPE ## _array_value ().transpose ()); \ } \ \ DEFNCUNOP_METHOD (m_incr, TYPE ## _matrix, increment) \ DEFNCUNOP_METHOD (m_decr, TYPE ## _matrix, decrement) \ DEFNCUNOP_METHOD (m_changesign, TYPE ## _matrix, changesign) // matrix by matrix ops. #define OCTAVE_MM_INT_ARITH_OPS(PFX, T1, T2, T3) \ \ DEFINTNDBINOP_OP (PFX ## _add, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, +, T3) \ DEFINTNDBINOP_OP (PFX ## _sub, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, -, T3) \ \ /* DEFBINOP_OP (PFX ## _mul, T1 ## matrix, T2 ## matrix, *) */ \ /* DEFBINOP_FN (PFX ## _div, T1 ## matrix, T2 ## matrix, xdiv) */ \ \ DEFBINOPX (PFX ## _pow, T1 ## matrix, T2 ## matrix) \ { \ error ("can't do A ^ B for A and B both matrices"); \ } \ \ /* DEFBINOP_FN (PFX ## _ldiv, T1 ## matrix, T2 ## matrix, xleftdiv) */ \ \ DEFINTNDBINOP_FN (PFX ## _el_mul, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, product, T3, .*) \ \ DEFINTNDBINOP_FN (PFX ## _el_div, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, quotient, T3, ./) \ \ DEFINTNDBINOP_FN (PFX ## _el_pow, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, elem_xpow, T3, .^) \ \ DEFBINOP (PFX ## _el_ldiv, T1 ## matrix, T2 ## matrix) \ { \ const octave_ ## T1 ## matrix& v1 = dynamic_cast<const octave_ ## T1 ## matrix&> (a1); \ const octave_ ## T2 ## matrix& v2 = dynamic_cast<const octave_ ## T2 ## matrix&> (a2); \ \ octave_value retval = octave_value (quotient (v2.T2 ## array_value (), v1.T1 ## array_value ())); \ return retval; \ } #define OCTAVE_MM_INT_CMP_OPS(PFX, T1, T2) \ DEFNDBINOP_FN (PFX ## _lt, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, mx_el_lt) \ DEFNDBINOP_FN (PFX ## _le, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, mx_el_le) \ DEFNDBINOP_FN (PFX ## _eq, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, mx_el_eq) \ DEFNDBINOP_FN (PFX ## _ge, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, mx_el_ge) \ DEFNDBINOP_FN (PFX ## _gt, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, mx_el_gt) \ DEFNDBINOP_FN (PFX ## _ne, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, mx_el_ne) #define OCTAVE_MM_INT_BOOL_OPS(PFX, T1, T2) \ DEFNDBINOP_FN (PFX ## _el_and, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, mx_el_and) \ DEFNDBINOP_FN (PFX ## _el_or, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, mx_el_or) \ DEFNDBINOP_FN (PFX ## _el_not_and, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, mx_el_not_and) \ DEFNDBINOP_FN (PFX ## _el_not_or, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, mx_el_not_or) \ DEFNDBINOP_FN (PFX ## _el_and_not, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, mx_el_and_not) \ DEFNDBINOP_FN (PFX ## _el_or_not, T1 ## matrix, T2 ## matrix, T1 ## array, T2 ## array, mx_el_or_not) #define OCTAVE_MM_INT_ASSIGN_OPS(PFX, TLHS, TRHS, TE) \ DEFNDASSIGNOP_FN (PFX ## _assign, TLHS ## matrix, TRHS ## matrix, TLHS ## array, assign) #define OCTAVE_MM_INT_ASSIGNEQ_OPS(PFX, TM) \ DEFNDASSIGNOP_OP (PFX ## _assign_add, TM ## matrix, TM ## matrix, TM ## array, +=) \ DEFNDASSIGNOP_OP (PFX ## _assign_sub, TM ## matrix, TM ## matrix, TM ## array, -=) \ DEFNDASSIGNOP_FNOP (PFX ## _assign_el_mul, TM ## matrix, TM ## matrix, TM ## array, product_eq) \ DEFNDASSIGNOP_FNOP (PFX ## _assign_el_div, TM ## matrix, TM ## matrix, TM ## array, quotient_eq) #define OCTAVE_MM_POW_OPS(T1, T2) \ octave_value \ elem_xpow (const T1 ## NDArray& a, const T2 ## NDArray& b) \ { \ dim_vector a_dims = a.dims (); \ dim_vector b_dims = b.dims (); \ if (a_dims != b_dims) \ { \ if (! is_valid_bsxfun ("operator .^", a_dims, b_dims)) \ err_nonconformant ("operator .^", a_dims, b_dims); \ \ return bsxfun_pow (a, b); \ } \ T1 ## NDArray result (a_dims); \ for (int i = 0; i < a.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = pow (a(i), b(i)); \ } \ return octave_value (result); \ } \ \ octave_value \ elem_xpow (const T1 ## NDArray& a, const NDArray& b) \ { \ dim_vector a_dims = a.dims (); \ dim_vector b_dims = b.dims (); \ if (a_dims != b_dims) \ { \ if (! is_valid_bsxfun ("operator .^", a_dims, b_dims)) \ err_nonconformant ("operator .^", a_dims, b_dims); \ \ return bsxfun_pow (a, b); \ } \ T1 ## NDArray result (a_dims); \ for (int i = 0; i < a.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = pow (a(i), b(i)); \ } \ return octave_value (result); \ } \ \ octave_value \ elem_xpow (const NDArray& a, const T2 ## NDArray& b) \ { \ dim_vector a_dims = a.dims (); \ dim_vector b_dims = b.dims (); \ if (a_dims != b_dims) \ { \ if (! is_valid_bsxfun ("operator .^", a_dims, b_dims)) \ err_nonconformant ("operator .^", a_dims, b_dims); \ \ return bsxfun_pow (a, b); \ } \ T2 ## NDArray result (a_dims); \ for (int i = 0; i < a.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = pow (a(i), b(i)); \ } \ return octave_value (result); \ } \ \ octave_value \ elem_xpow (const T1 ## NDArray& a, const FloatNDArray& b) \ { \ dim_vector a_dims = a.dims (); \ dim_vector b_dims = b.dims (); \ if (a_dims != b_dims) \ { \ if (! is_valid_bsxfun ("operator .^", a_dims, b_dims)) \ err_nonconformant ("operator .^", a_dims, b_dims); \ \ return bsxfun_pow (a, b); \ } \ T1 ## NDArray result (a_dims); \ for (int i = 0; i < a.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = powf (a(i), b(i)); \ } \ return octave_value (result); \ } \ \ octave_value \ elem_xpow (const FloatNDArray& a, const T2 ## NDArray& b) \ { \ dim_vector a_dims = a.dims (); \ dim_vector b_dims = b.dims (); \ if (a_dims != b_dims) \ { \ if (! is_valid_bsxfun ("operator .^", a_dims, b_dims)) \ err_nonconformant ("operator .^", a_dims, b_dims); \ \ return bsxfun_pow (a, b); \ } \ T2 ## NDArray result (a_dims); \ for (int i = 0; i < a.numel (); i++) \ { \ OCTAVE_QUIT; \ result (i) = powf (a(i), b(i)); \ } \ return octave_value (result); \ } #define OCTAVE_MM_CONV(T1, T2) \ DEFCONV (T1 ## m_ ## T2 ## m_conv, T1 ## matrix, T2 ## matrix) \ { \ const octave_ ## T1 ## matrix& v = dynamic_cast<const octave_ ## T1 ## matrix&> (a); \ \ return new octave_ ## T2 ## matrix (v.T2 ## array_value ()); \ } #define OCTAVE_MM_INT_OPS(TYPE) \ OCTAVE_M_INT_UNOPS (TYPE) \ OCTAVE_MM_POW_OPS (TYPE, TYPE) \ OCTAVE_MM_INT_ARITH_OPS (mm, TYPE ## _, TYPE ## _, TYPE) \ OCTAVE_MM_INT_ARITH_OPS (mmx, TYPE ## _, , TYPE) \ OCTAVE_MM_INT_ARITH_OPS (mxm, , TYPE ## _, TYPE) \ OCTAVE_MM_INT_ARITH_OPS (mmfx, TYPE ## _, float_, TYPE) \ OCTAVE_MM_INT_ARITH_OPS (mfxm, float_, TYPE ## _, TYPE) \ OCTAVE_MM_INT_CMP_OPS (mm, TYPE ## _, TYPE ## _) \ OCTAVE_MM_INT_CMP_OPS (mmx, TYPE ## _, ) \ OCTAVE_MM_INT_CMP_OPS (mfxm, float_, TYPE ## _) \ OCTAVE_MM_INT_CMP_OPS (mmfx, TYPE ## _, float_) \ OCTAVE_MM_INT_CMP_OPS (mxm, , TYPE ## _) \ OCTAVE_MM_INT_BOOL_OPS (mm, TYPE ## _, TYPE ## _) \ OCTAVE_MM_INT_BOOL_OPS (mmx, TYPE ## _, ) \ OCTAVE_MM_INT_BOOL_OPS (mxm, , TYPE ## _) \ OCTAVE_MM_INT_BOOL_OPS (mmfx, TYPE ## _, float_) \ OCTAVE_MM_INT_BOOL_OPS (mfxm, float_, TYPE ## _) \ OCTAVE_MM_INT_ASSIGN_OPS (mm, TYPE ## _, TYPE ## _, TYPE ## _) \ OCTAVE_MM_INT_ASSIGNEQ_OPS (mme, TYPE ## _) \ OCTAVE_MM_INT_ASSIGN_OPS (mmx, TYPE ## _, , ) \ OCTAVE_MM_INT_ASSIGN_OPS (mmfx, TYPE ## _, float_, float_) \ OCTAVE_MM_CONV(TYPE ## _, complex_) \ OCTAVE_MM_CONV(TYPE ## _, float_complex_) #define OCTAVE_RE_INT_ASSIGN_OPS(TYPE) \ DEFNDASSIGNOP_FN (TYPE ## ms_assign, matrix, TYPE ## _scalar, array, assign) \ DEFNDASSIGNOP_FN (TYPE ## mm_assign, matrix, TYPE ## _matrix, array, assign) #define OCTAVE_FLT_RE_INT_ASSIGN_OPS(TYPE) \ DEFNDASSIGNOP_FN (TYPE ## fms_assign, float_matrix, TYPE ## _scalar, float_array, assign) \ DEFNDASSIGNOP_FN (TYPE ## fmm_assign, float_matrix, TYPE ## _matrix, float_array, assign) #define OCTAVE_CX_INT_ASSIGN_OPS(TYPE) \ DEFNDASSIGNOP_FN (TYPE ## cms_assign, complex_matrix, TYPE ## _scalar, complex_array, assign) \ DEFNDASSIGNOP_FN (TYPE ## cmm_assign, complex_matrix, TYPE ## _matrix, complex_array, assign) #define OCTAVE_FLT_CX_INT_ASSIGN_OPS(TYPE) \ DEFNDASSIGNOP_FN (TYPE ## fcms_assign, float_complex_matrix, TYPE ## _scalar, float_complex_array, assign) \ DEFNDASSIGNOP_FN (TYPE ## fcmm_assign, float_complex_matrix, TYPE ## _matrix, float_complex_array, assign) #define OCTAVE_INT_NULL_ASSIGN_OPS(TYPE) \ DEFNULLASSIGNOP_FN (TYPE ## null_assign, TYPE ## _matrix, delete_elements) #define OCTAVE_INT_OPS(TYPE) \ OCTAVE_SS_INT_OPS (TYPE) \ OCTAVE_SM_INT_OPS (TYPE) \ OCTAVE_MS_INT_OPS (TYPE) \ OCTAVE_MM_INT_OPS (TYPE) \ OCTAVE_CONCAT_FN (TYPE) \ OCTAVE_RE_INT_ASSIGN_OPS (TYPE) \ OCTAVE_FLT_RE_INT_ASSIGN_OPS (TYPE) \ OCTAVE_CX_INT_ASSIGN_OPS (TYPE) \ OCTAVE_FLT_CX_INT_ASSIGN_OPS (TYPE) \ OCTAVE_INT_NULL_ASSIGN_OPS(TYPE) #define OCTAVE_INSTALL_S_INT_UNOPS(TYPE) \ INSTALL_UNOP (op_not, octave_ ## TYPE ## _scalar, s_not); \ INSTALL_UNOP (op_uplus, octave_ ## TYPE ## _scalar, s_uplus); \ INSTALL_UNOP (op_uminus, octave_ ## TYPE ## _scalar, s_uminus); \ INSTALL_UNOP (op_transpose, octave_ ## TYPE ## _scalar, s_transpose); \ INSTALL_UNOP (op_hermitian, octave_ ## TYPE ## _scalar, s_hermitian); \ \ INSTALL_NCUNOP (op_incr, octave_ ## TYPE ## _scalar, s_incr); \ INSTALL_NCUNOP (op_decr, octave_ ## TYPE ## _scalar, s_decr); #define OCTAVE_INSTALL_SS_INT_ARITH_OPS(PFX, T1, T2) \ INSTALL_BINOP (op_add, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _add); \ INSTALL_BINOP (op_sub, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _sub); \ INSTALL_BINOP (op_mul, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _mul); \ INSTALL_BINOP (op_div, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _div); \ INSTALL_BINOP (op_pow, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _pow); \ INSTALL_BINOP (op_ldiv, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _ldiv); \ INSTALL_BINOP (op_el_mul, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _el_mul); \ INSTALL_BINOP (op_el_div, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _el_div); \ INSTALL_BINOP (op_el_pow, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _el_pow); \ INSTALL_BINOP (op_el_ldiv, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _el_ldiv); #define OCTAVE_INSTALL_SS_INT_CMP_OPS(PFX, T1, T2) \ INSTALL_BINOP (op_lt, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _lt); \ INSTALL_BINOP (op_le, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _le); \ INSTALL_BINOP (op_eq, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _eq); \ INSTALL_BINOP (op_ge, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _ge); \ INSTALL_BINOP (op_gt, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _gt); \ INSTALL_BINOP (op_ne, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _ne); #define OCTAVE_INSTALL_SS_INT_BOOL_OPS(PFX, T1, T2) \ INSTALL_BINOP (op_el_and, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _el_and); \ INSTALL_BINOP (op_el_or, octave_ ## T1 ## scalar, octave_ ## T2 ## scalar, PFX ## _el_or); #define OCTAVE_INSTALL_SS_INT_OPS(TYPE) \ OCTAVE_INSTALL_S_INT_UNOPS (TYPE) \ OCTAVE_INSTALL_SS_INT_ARITH_OPS (ss, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_SS_INT_ARITH_OPS (ssx, TYPE ## _, ) \ OCTAVE_INSTALL_SS_INT_ARITH_OPS (sxs, , TYPE ## _) \ OCTAVE_INSTALL_SS_INT_ARITH_OPS (ssfx, TYPE ## _, float_) \ OCTAVE_INSTALL_SS_INT_ARITH_OPS (sfxs, float_, TYPE ## _) \ OCTAVE_INSTALL_SS_INT_CMP_OPS (ss, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_SS_INT_CMP_OPS (sx, TYPE ## _, ) \ OCTAVE_INSTALL_SS_INT_CMP_OPS (xs, , TYPE ## _) \ OCTAVE_INSTALL_SS_INT_CMP_OPS (sfx, TYPE ## _, float_) \ OCTAVE_INSTALL_SS_INT_CMP_OPS (fxs, float_, TYPE ## _) \ OCTAVE_INSTALL_SS_INT_BOOL_OPS (ss, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_SS_INT_BOOL_OPS (sx, TYPE ## _, ) \ OCTAVE_INSTALL_SS_INT_BOOL_OPS (xs, , TYPE ## _) \ OCTAVE_INSTALL_SS_INT_BOOL_OPS (sfx, TYPE ## _, float_) \ OCTAVE_INSTALL_SS_INT_BOOL_OPS (fxs, float_, TYPE ## _) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_ ## TYPE ## _scalar, octave_ ## TYPE ## _matrix) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_scalar, octave_ ## TYPE ## _matrix) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_float_scalar, octave_ ## TYPE ## _matrix) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_complex_scalar, octave_complex_matrix) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_float_complex_scalar, octave_float_complex_matrix) #define OCTAVE_INSTALL_SM_INT_ARITH_OPS(PFX, T1, T2) \ INSTALL_BINOP (op_add, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _add); \ INSTALL_BINOP (op_sub, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _sub); \ INSTALL_BINOP (op_mul, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _mul); \ /* INSTALL_BINOP (op_div, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _div); */ \ /* INSTALL_BINOP (op_pow, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _pow); */ \ INSTALL_BINOP (op_ldiv, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _ldiv); \ INSTALL_BINOP (op_el_mul, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_mul); \ INSTALL_BINOP (op_el_div, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_div); \ INSTALL_BINOP (op_el_pow, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_pow); \ INSTALL_BINOP (op_el_ldiv, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_ldiv); #define OCTAVE_INSTALL_SM_INT_CMP_OPS(PFX, T1, T2) \ INSTALL_BINOP (op_lt, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _lt); \ INSTALL_BINOP (op_le, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _le); \ INSTALL_BINOP (op_eq, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _eq); \ INSTALL_BINOP (op_ge, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _ge); \ INSTALL_BINOP (op_gt, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _gt); \ INSTALL_BINOP (op_ne, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _ne); #define OCTAVE_INSTALL_SM_INT_BOOL_OPS(PFX, T1, T2) \ INSTALL_BINOP (op_el_and, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_and); \ INSTALL_BINOP (op_el_or, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_or); \ INSTALL_BINOP (op_el_and_not, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_and_not); \ INSTALL_BINOP (op_el_or_not, octave_ ## T1 ## scalar, octave_ ## T2 ## matrix, PFX ## _el_or_not); #define OCTAVE_INSTALL_SM_INT_OPS(TYPE) \ OCTAVE_INSTALL_SM_INT_ARITH_OPS (sm, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_SM_INT_ARITH_OPS (smx, TYPE ## _, ) \ OCTAVE_INSTALL_SM_INT_ARITH_OPS (sxm, , TYPE ## _) \ OCTAVE_INSTALL_SM_INT_ARITH_OPS (smfx, TYPE ## _, float_) \ OCTAVE_INSTALL_SM_INT_ARITH_OPS (sfxm, float_, TYPE ## _) \ OCTAVE_INSTALL_SM_INT_CMP_OPS (sm, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_SM_INT_CMP_OPS (xm, , TYPE ## _) \ OCTAVE_INSTALL_SM_INT_CMP_OPS (smx, TYPE ## _, ) \ OCTAVE_INSTALL_SM_INT_CMP_OPS (fxm, float_, TYPE ## _) \ OCTAVE_INSTALL_SM_INT_CMP_OPS (smfx, TYPE ## _, float_) \ OCTAVE_INSTALL_SM_INT_BOOL_OPS (sm, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_SM_INT_BOOL_OPS (xm, , TYPE ## _) \ OCTAVE_INSTALL_SM_INT_BOOL_OPS (smx, TYPE ## _, ) \ OCTAVE_INSTALL_SM_INT_BOOL_OPS (fxm, float_, TYPE ## _) \ OCTAVE_INSTALL_SM_INT_BOOL_OPS (smfx, TYPE ## _, float_) \ INSTALL_WIDENOP (octave_ ## TYPE ## _scalar, octave_ ## TYPE ## _matrix, TYPE ## _s_ ## TYPE ## _m_conv) \ INSTALL_WIDENOP (octave_ ## TYPE ## _scalar, octave_complex_matrix, TYPE ## _s_complex_m_conv) \ INSTALL_WIDENOP (octave_ ## TYPE ## _scalar, octave_float_complex_matrix, TYPE ## _s_float_complex_m_conv) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_ ## TYPE ## _matrix, octave_ ## TYPE ## _matrix) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_matrix, octave_ ## TYPE ## _matrix) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_float_matrix, octave_ ## TYPE ## _matrix) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_complex_matrix, octave_complex_matrix) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_float_complex_matrix, octave_float_complex_matrix) #define OCTAVE_INSTALL_MS_INT_ARITH_OPS(PFX, T1, T2) \ INSTALL_BINOP (op_add, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _add); \ INSTALL_BINOP (op_sub, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _sub); \ INSTALL_BINOP (op_mul, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _mul); \ INSTALL_BINOP (op_div, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _div); \ /* INSTALL_BINOP (op_pow, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _pow); */ \ /* INSTALL_BINOP (op_ldiv, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _ldiv); */ \ \ INSTALL_BINOP (op_el_mul, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_mul); \ INSTALL_BINOP (op_el_div, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_div); \ INSTALL_BINOP (op_el_pow, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_pow); \ INSTALL_BINOP (op_el_ldiv, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_ldiv); #define OCTAVE_INSTALL_MS_INT_CMP_OPS(PFX, T1, T2) \ INSTALL_BINOP (op_lt, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _lt); \ INSTALL_BINOP (op_le, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _le); \ INSTALL_BINOP (op_eq, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _eq); \ INSTALL_BINOP (op_ge, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _ge); \ INSTALL_BINOP (op_gt, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _gt); \ INSTALL_BINOP (op_ne, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _ne); #define OCTAVE_INSTALL_MS_INT_BOOL_OPS(PFX, T1, T2) \ INSTALL_BINOP (op_el_and, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_and); \ INSTALL_BINOP (op_el_or, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_or); \ INSTALL_BINOP (op_el_not_and, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_not_and); \ INSTALL_BINOP (op_el_not_or, octave_ ## T1 ## matrix, octave_ ## T2 ## scalar, PFX ## _el_not_or); #define OCTAVE_INSTALL_MS_INT_ASSIGN_OPS(PFX, TLHS, TRHS) \ INSTALL_ASSIGNOP (op_asn_eq, octave_ ## TLHS ## matrix, octave_ ## TRHS ## scalar, PFX ## _assign) #define OCTAVE_INSTALL_MS_INT_ASSIGNEQ_OPS(PFX, TLHS, TRHS) \ INSTALL_ASSIGNOP (op_add_eq, octave_ ## TLHS ## matrix, octave_ ## TRHS ## scalar, PFX ## _assign_add) \ INSTALL_ASSIGNOP (op_sub_eq, octave_ ## TLHS ## matrix, octave_ ## TRHS ## scalar, PFX ## _assign_sub) \ INSTALL_ASSIGNOP (op_mul_eq, octave_ ## TLHS ## matrix, octave_ ## TRHS ## scalar, PFX ## _assign_mul) \ INSTALL_ASSIGNOP (op_div_eq, octave_ ## TLHS ## matrix, octave_ ## TRHS ## scalar, PFX ## _assign_div) #define OCTAVE_INSTALL_MS_INT_OPS(TYPE) \ OCTAVE_INSTALL_MS_INT_ARITH_OPS (ms, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_MS_INT_ARITH_OPS (msx, TYPE ## _, ) \ OCTAVE_INSTALL_MS_INT_ARITH_OPS (mxs, , TYPE ## _) \ OCTAVE_INSTALL_MS_INT_ARITH_OPS (msfx, TYPE ## _, float_) \ OCTAVE_INSTALL_MS_INT_ARITH_OPS (mfxs, float_, TYPE ## _) \ OCTAVE_INSTALL_MS_INT_CMP_OPS (ms, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_MS_INT_CMP_OPS (mx, TYPE ## _, ) \ OCTAVE_INSTALL_MS_INT_CMP_OPS (mxs, , TYPE ## _) \ OCTAVE_INSTALL_MS_INT_CMP_OPS (mfx, TYPE ## _, float_) \ OCTAVE_INSTALL_MS_INT_CMP_OPS (mfxs, float_, TYPE ## _) \ OCTAVE_INSTALL_MS_INT_BOOL_OPS (ms, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_MS_INT_BOOL_OPS (mx, TYPE ## _, ) \ OCTAVE_INSTALL_MS_INT_BOOL_OPS (mxs, , TYPE ## _) \ OCTAVE_INSTALL_MS_INT_BOOL_OPS (mfx, TYPE ## _, float_) \ OCTAVE_INSTALL_MS_INT_BOOL_OPS (mfxs, float_, TYPE ## _) \ OCTAVE_INSTALL_MS_INT_ASSIGN_OPS (ms, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_MS_INT_ASSIGNEQ_OPS (mse, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_MS_INT_ASSIGN_OPS (mx, TYPE ## _, ) \ OCTAVE_INSTALL_MS_INT_ASSIGN_OPS (mfx, TYPE ## _, float_) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _matrix, octave_complex_scalar, octave_complex_matrix) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _matrix, octave_float_complex_scalar, octave_float_complex_matrix) #define OCTAVE_INSTALL_M_INT_UNOPS(TYPE) \ INSTALL_UNOP (op_not, octave_ ## TYPE ## _matrix, m_not); \ INSTALL_UNOP (op_uplus, octave_ ## TYPE ## _matrix, m_uplus); \ INSTALL_UNOP (op_uminus, octave_ ## TYPE ## _matrix, m_uminus); \ INSTALL_UNOP (op_transpose, octave_ ## TYPE ## _matrix, m_transpose); \ INSTALL_UNOP (op_hermitian, octave_ ## TYPE ## _matrix, m_transpose); \ \ INSTALL_NCUNOP (op_incr, octave_ ## TYPE ## _matrix, m_incr); \ INSTALL_NCUNOP (op_decr, octave_ ## TYPE ## _matrix, m_decr); \ INSTALL_NCUNOP (op_uminus, octave_ ## TYPE ## _matrix, m_changesign); #define OCTAVE_INSTALL_MM_INT_ARITH_OPS(PFX, T1, T2) \ INSTALL_BINOP (op_add, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _add); \ INSTALL_BINOP (op_sub, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _sub); \ /* INSTALL_BINOP (op_mul, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _mul); */ \ /* INSTALL_BINOP (op_div, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _div); */ \ INSTALL_BINOP (op_pow, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _pow); \ /* INSTALL_BINOP (op_ldiv, octave_ ## T1 ## _matrix, octave_ ## T2 ## _matrix, mm_ldiv); */ \ INSTALL_BINOP (op_el_mul, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _el_mul); \ INSTALL_BINOP (op_el_div, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _el_div); \ INSTALL_BINOP (op_el_pow, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _el_pow); \ INSTALL_BINOP (op_el_ldiv, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _el_ldiv); #define OCTAVE_INSTALL_MM_INT_CMP_OPS(PFX, T1, T2) \ INSTALL_BINOP (op_lt, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _lt); \ INSTALL_BINOP (op_le, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _le); \ INSTALL_BINOP (op_eq, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _eq); \ INSTALL_BINOP (op_ge, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _ge); \ INSTALL_BINOP (op_gt, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _gt); \ INSTALL_BINOP (op_ne, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _ne); #define OCTAVE_INSTALL_MM_INT_BOOL_OPS(PFX, T1, T2) \ INSTALL_BINOP (op_el_and, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _el_and); \ INSTALL_BINOP (op_el_or, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _el_or); \ INSTALL_BINOP (op_el_not_and, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _el_not_and); \ INSTALL_BINOP (op_el_not_or, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _el_not_or); \ INSTALL_BINOP (op_el_and_not, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _el_and_not); \ INSTALL_BINOP (op_el_or_not, octave_ ## T1 ## matrix, octave_ ## T2 ## matrix, PFX ## _el_or_not); #define OCTAVE_INSTALL_MM_INT_ASSIGN_OPS(PFX, TLHS, TRHS) \ INSTALL_ASSIGNOP (op_asn_eq, octave_ ## TLHS ## matrix, octave_ ## TRHS ## matrix, PFX ## _assign) #define OCTAVE_INSTALL_MM_INT_ASSIGNEQ_OPS(PFX, TLHS, TRHS) \ INSTALL_ASSIGNOP (op_add_eq, octave_ ## TLHS ## matrix, octave_ ## TRHS ## matrix, PFX ## _assign_add) \ INSTALL_ASSIGNOP (op_sub_eq, octave_ ## TLHS ## matrix, octave_ ## TRHS ## matrix, PFX ## _assign_sub) \ INSTALL_ASSIGNOP (op_el_mul_eq, octave_ ## TLHS ## matrix, octave_ ## TRHS ## matrix, PFX ## _assign_el_mul) \ INSTALL_ASSIGNOP (op_el_div_eq, octave_ ## TLHS ## matrix, octave_ ## TRHS ## matrix, PFX ## _assign_el_div) #define OCTAVE_INSTALL_MM_INT_OPS(TYPE) \ OCTAVE_INSTALL_M_INT_UNOPS (TYPE) \ OCTAVE_INSTALL_MM_INT_ARITH_OPS (mm, TYPE ##_, TYPE ## _) \ OCTAVE_INSTALL_MM_INT_ARITH_OPS (mmx, TYPE ##_, ) \ OCTAVE_INSTALL_MM_INT_ARITH_OPS (mxm, , TYPE ##_) \ OCTAVE_INSTALL_MM_INT_ARITH_OPS (mmfx, TYPE ##_, float_) \ OCTAVE_INSTALL_MM_INT_ARITH_OPS (mfxm, float_, TYPE ##_) \ OCTAVE_INSTALL_MM_INT_CMP_OPS (mm, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_MM_INT_CMP_OPS (mmx, TYPE ## _, ) \ OCTAVE_INSTALL_MM_INT_CMP_OPS (mxm, , TYPE ## _) \ OCTAVE_INSTALL_MM_INT_CMP_OPS (mmfx, TYPE ## _, float_) \ OCTAVE_INSTALL_MM_INT_CMP_OPS (mfxm, float_, TYPE ## _) \ OCTAVE_INSTALL_MM_INT_BOOL_OPS (mm, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_MM_INT_BOOL_OPS (mmx, TYPE ## _, ) \ OCTAVE_INSTALL_MM_INT_BOOL_OPS (mxm, , TYPE ## _) \ OCTAVE_INSTALL_MM_INT_BOOL_OPS (mmfx, TYPE ## _, float_) \ OCTAVE_INSTALL_MM_INT_BOOL_OPS (mfxm, float_, TYPE ## _) \ OCTAVE_INSTALL_MM_INT_ASSIGN_OPS (mm, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_MM_INT_ASSIGNEQ_OPS (mme, TYPE ## _, TYPE ## _) \ OCTAVE_INSTALL_MM_INT_ASSIGN_OPS (mmx, TYPE ## _, ) \ OCTAVE_INSTALL_MM_INT_ASSIGN_OPS (mmfx, TYPE ## _, float_) \ INSTALL_WIDENOP (octave_ ## TYPE ## _matrix, octave_complex_matrix, TYPE ## _m_complex_m_conv) \ INSTALL_WIDENOP (octave_ ## TYPE ## _matrix, octave_float_complex_matrix, TYPE ## _m_float_complex_m_conv) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _matrix, octave_complex_matrix, octave_complex_matrix) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _matrix, octave_float_complex_matrix, octave_float_complex_matrix) #define OCTAVE_INSTALL_RE_INT_ASSIGN_OPS(TYPE) \ INSTALL_ASSIGNOP (op_asn_eq, octave_matrix, octave_ ## TYPE ## _scalar, TYPE ## ms_assign) \ INSTALL_ASSIGNOP (op_asn_eq, octave_matrix, octave_ ## TYPE ## _matrix, TYPE ## mm_assign) \ INSTALL_ASSIGNCONV (octave_scalar, octave_ ## TYPE ## _scalar, octave_matrix) \ INSTALL_ASSIGNCONV (octave_matrix, octave_ ## TYPE ## _matrix, octave_matrix) #define OCTAVE_INSTALL_FLT_RE_INT_ASSIGN_OPS(TYPE) \ INSTALL_ASSIGNOP (op_asn_eq, octave_float_matrix, octave_ ## TYPE ## _scalar, TYPE ## fms_assign) \ INSTALL_ASSIGNOP (op_asn_eq, octave_float_matrix, octave_ ## TYPE ## _matrix, TYPE ## fmm_assign) \ INSTALL_ASSIGNCONV (octave_float_scalar, octave_ ## TYPE ## _scalar, octave_float_matrix) \ INSTALL_ASSIGNCONV (octave_float_matrix, octave_ ## TYPE ## _matrix, octave_float_matrix) #define OCTAVE_INSTALL_CX_INT_ASSIGN_OPS(TYPE) \ INSTALL_ASSIGNOP (op_asn_eq, octave_complex_matrix, octave_ ## TYPE ## _scalar, TYPE ## cms_assign) \ INSTALL_ASSIGNOP (op_asn_eq, octave_complex_matrix, octave_ ## TYPE ## _matrix, TYPE ## cmm_assign) \ INSTALL_ASSIGNCONV (octave_complex_scalar, octave_ ## TYPE ## _scalar, octave_complex_matrix) \ INSTALL_ASSIGNCONV (octave_complex_matrix, octave_ ## TYPE ## _matrix, octave_complex_matrix) #define OCTAVE_INSTALL_FLT_CX_INT_ASSIGN_OPS(TYPE) \ INSTALL_ASSIGNOP (op_asn_eq, octave_float_complex_matrix, octave_ ## TYPE ## _scalar, TYPE ## fcms_assign) \ INSTALL_ASSIGNOP (op_asn_eq, octave_float_complex_matrix, octave_ ## TYPE ## _matrix, TYPE ## fcmm_assign) \ INSTALL_ASSIGNCONV (octave_float_complex_scalar, octave_ ## TYPE ## _scalar, octave_complex_matrix) \ INSTALL_ASSIGNCONV (octave_float_complex_matrix, octave_ ## TYPE ## _matrix, octave_complex_matrix) #define OCTAVE_INSTALL_INT_NULL_ASSIGN_OPS(TYPE) \ INSTALL_ASSIGNOP (op_asn_eq, octave_ ## TYPE ## _matrix, octave_null_matrix, TYPE ## null_assign) \ INSTALL_ASSIGNOP (op_asn_eq, octave_ ## TYPE ## _matrix, octave_null_str, TYPE ## null_assign) \ INSTALL_ASSIGNOP (op_asn_eq, octave_ ## TYPE ## _matrix, octave_null_sq_str, TYPE ## null_assign) \ INSTALL_ASSIGNCONV (octave_ ## TYPE ## _scalar, octave_null_matrix, octave_ ## TYPE ## _matrix) \ INSTALL_ASSIGNCONV (octave_## TYPE ## _scalar, octave_null_str, octave_ ## TYPE ## _matrix) \ INSTALL_ASSIGNCONV (octave_## TYPE ## _scalar, octave_null_sq_str, octave_ ## TYPE ## _matrix) #define OCTAVE_INSTALL_INT_OPS(TYPE) \ OCTAVE_INSTALL_SS_INT_OPS (TYPE) \ OCTAVE_INSTALL_SM_INT_OPS (TYPE) \ OCTAVE_INSTALL_MS_INT_OPS (TYPE) \ OCTAVE_INSTALL_MM_INT_OPS (TYPE) \ OCTAVE_INSTALL_CONCAT_FN (TYPE) \ OCTAVE_INSTALL_RE_INT_ASSIGN_OPS (TYPE) \ OCTAVE_INSTALL_FLT_RE_INT_ASSIGN_OPS (TYPE) \ OCTAVE_INSTALL_CX_INT_ASSIGN_OPS (TYPE) \ OCTAVE_INSTALL_FLT_CX_INT_ASSIGN_OPS (TYPE) \ OCTAVE_INSTALL_INT_NULL_ASSIGN_OPS(TYPE) #define OCTAVE_INSTALL_SM_INT_ASSIGNCONV(TLHS, TRHS) \ INSTALL_ASSIGNCONV (octave_ ## TLHS ## _scalar, octave_ ## TRHS ## _scalar, octave_ ## TLHS ## _matrix) \ INSTALL_ASSIGNCONV (octave_ ## TLHS ## _scalar, octave_ ## TRHS ## _matrix, octave_ ## TLHS ## _matrix) #define OCTAVE_MIXED_INT_CMP_OPS(T1, T2) \ OCTAVE_SS_INT_CMP_OPS (T1 ## _ ## T2 ## _ss, T1 ## _, T2 ## _) \ OCTAVE_SM_INT_CMP_OPS (T1 ## _ ## T2 ## _sm, T1 ## _, T2 ## _) \ OCTAVE_MS_INT_CMP_OPS (T1 ## _ ## T2 ## _ms, T1 ## _, T2 ## _) \ OCTAVE_MM_INT_CMP_OPS (T1 ## _ ## T2 ## _mm, T1 ## _, T2 ## _) #define OCTAVE_INSTALL_MIXED_INT_CMP_OPS(T1, T2) \ OCTAVE_INSTALL_SS_INT_CMP_OPS (T1 ## _ ## T2 ## _ss, T1 ## _, T2 ## _) \ OCTAVE_INSTALL_SM_INT_CMP_OPS (T1 ## _ ## T2 ## _sm, T1 ## _, T2 ## _) \ OCTAVE_INSTALL_MS_INT_CMP_OPS (T1 ## _ ## T2 ## _ms, T1 ## _, T2 ## _) \ OCTAVE_INSTALL_MM_INT_CMP_OPS (T1 ## _ ## T2 ## _mm, T1 ## _, T2 ## _) #endif