Mercurial > hg > octave-lyh
view libinterp/parse-tree/pt-cbinop.cc @ 15195:2fc554ffbc28
split libinterp from src
* libinterp: New directory. Move all files from src directory here
except Makefile.am, main.cc, main-cli.cc, mkoctfile.in.cc,
mkoctfilr.in.sh, octave-config.in.cc, octave-config.in.sh.
* libinterp/Makefile.am: New file, extracted from src/Makefile.am.
* src/Makefile.am: Delete everything except targets and definitions
needed to build and link main and utility programs.
* Makefile.am (SUBDIRS): Include libinterp in the list.
* autogen.sh: Run config-module.sh in libinterp/dldfcn directory, not
src/dldfcn directory.
* configure.ac (AC_CONFIG_SRCDIR): Use libinterp/octave.cc, not
src/octave.cc.
(DL_LDFLAGS, LIBOCTINTERP): Use libinterp, not src.
(AC_CONFIG_FILES): Include libinterp/Makefile in the list.
* find-docstring-files.sh: Look in libinterp, not src.
* gui/src/Makefile.am (liboctgui_la_CPPFLAGS): Find header files in
libinterp, not src.
| author | John W. Eaton <jwe@octave.org> |
|---|---|
| date | Sat, 18 Aug 2012 16:23:39 -0400 |
| parents | src/parse-tree/pt-cbinop.cc@46b19589b593 |
| children | 3a2daa39c682 |
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/* Copyright (C) 2008-2012 Jaroslav Hajek 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/>. */ #ifdef HAVE_CONFIG_H #include <config.h> #endif #include "error.h" #include "oct-obj.h" #include "ov.h" #include "pt-cbinop.h" #include "pt-bp.h" #include "pt-unop.h" #include "pt-walk.h" // If a tree expression is a transpose or hermitian transpose, return // the argument and corresponding operator. static octave_value::unary_op strip_trans_herm (tree_expression *&exp) { if (exp->is_unary_expression ()) { tree_unary_expression *uexp = dynamic_cast<tree_unary_expression *> (exp); octave_value::unary_op op = uexp->op_type (); if (op == octave_value::op_transpose || op == octave_value::op_hermitian) exp = uexp->operand (); else op = octave_value::unknown_unary_op; return op; } else return octave_value::unknown_unary_op; } static octave_value::unary_op strip_not (tree_expression *&exp) { if (exp->is_unary_expression ()) { tree_unary_expression *uexp = dynamic_cast<tree_unary_expression *> (exp); octave_value::unary_op op = uexp->op_type (); if (op == octave_value::op_not) exp = uexp->operand (); else op = octave_value::unknown_unary_op; return op; } else return octave_value::unknown_unary_op; } // Possibly convert multiplication to trans_mul, mul_trans, herm_mul, // or mul_herm. static octave_value::compound_binary_op simplify_mul_op (tree_expression *&a, tree_expression *&b) { octave_value::compound_binary_op retop = octave_value::unknown_compound_binary_op; octave_value::unary_op opa = strip_trans_herm (a); if (opa == octave_value::op_hermitian) retop = octave_value::op_herm_mul; else if (opa == octave_value::op_transpose) retop = octave_value::op_trans_mul; else { octave_value::unary_op opb = strip_trans_herm (b); if (opb == octave_value::op_hermitian) retop = octave_value::op_mul_herm; else if (opb == octave_value::op_transpose) retop = octave_value::op_mul_trans; } return retop; } // Possibly convert left division to trans_ldiv or herm_ldiv. static octave_value::compound_binary_op simplify_ldiv_op (tree_expression *&a, tree_expression *&) { octave_value::compound_binary_op retop = octave_value::unknown_compound_binary_op; octave_value::unary_op opa = strip_trans_herm (a); if (opa == octave_value::op_hermitian) retop = octave_value::op_herm_ldiv; else if (opa == octave_value::op_transpose) retop = octave_value::op_trans_ldiv; return retop; } // Possibly contract and/or with negation. static octave_value::compound_binary_op simplify_and_or_op (tree_expression *&a, tree_expression *&b, octave_value::binary_op op) { octave_value::compound_binary_op retop = octave_value::unknown_compound_binary_op; octave_value::unary_op opa = strip_not (a); if (opa == octave_value::op_not) { if (op == octave_value::op_el_and) retop = octave_value::op_el_not_and; else if (op == octave_value::op_el_or) retop = octave_value::op_el_not_or; } else { octave_value::unary_op opb = strip_not (b); if (opb == octave_value::op_not) { if (op == octave_value::op_el_and) retop = octave_value::op_el_and_not; else if (op == octave_value::op_el_or) retop = octave_value::op_el_or_not; } } return retop; } tree_binary_expression * maybe_compound_binary_expression (tree_expression *a, tree_expression *b, int l, int c, octave_value::binary_op t) { tree_expression *ca = a, *cb = b; octave_value::compound_binary_op ct; switch (t) { case octave_value::op_mul: ct = simplify_mul_op (ca, cb); break; case octave_value::op_ldiv: ct = simplify_ldiv_op (ca, cb); break; case octave_value::op_el_and: case octave_value::op_el_or: ct = simplify_and_or_op (ca, cb, t); break; default: ct = octave_value::unknown_compound_binary_op; break; } tree_binary_expression *ret = (ct == octave_value::unknown_compound_binary_op) ? new tree_binary_expression (a, b, l, c, t) : new tree_compound_binary_expression (a, b, l, c, t, ca, cb, ct); return ret; } octave_value tree_compound_binary_expression::rvalue1 (int) { octave_value retval; if (error_state) return retval; if (op_lhs) { octave_value a = op_lhs->rvalue1 (); if (! error_state && a.is_defined () && op_rhs) { octave_value b = op_rhs->rvalue1 (); if (! error_state && b.is_defined ()) { retval = ::do_binary_op (etype, a, b); if (error_state) retval = octave_value (); } } } return retval; }