Mercurial > octave
view examples/code/make_int.cc @ 21647:66cae7a6dc47
eliminate some macros for operator definitions
* ops.h (CAST_UNOP_ARG, CAST_BINOP_ARGS, CAST_CONV_ARG, ASSIGNOPDECL,
NULLASSIGNOPDECL, ASSIGNANYOPDECL, DEFASSIGNOP, DEFASSIGNOP_FN,
UNOPDECL, BINOPDECL, CATOPDECL): Delete macros.
* make_int.cc, ov-bool-mat.cc, ov-bool-sparse.cc, ov-bool.cc,
ov-complex.cc, ov-cx-diag.cc, ov-cx-mat.cc, ov-flt-cx-diag.cc,
ov-flt-re-diag.cc, ov-lazy-idx.cc, ov-null-mat.cc, ov-perm.cc,
ov-range.cc, ov-re-diag.cc, ov-re-mat.cc, ov-scalar.cc, ov-str-mat.cc,
op-b-b.cc, op-b-bm.cc, op-b-sbm.cc, op-bm-bm.cc, op-bm-sbm.cc,
op-cdm-cdm.cc, op-cell.cc, op-chm.cc, op-cm-cm.cc, op-cm-cs.cc,
op-cm-m.cc, op-cm-s.cc, op-cm-scm.cc, op-cm-sm.cc, op-cs-cm.cc,
op-cs-cs.cc, op-cs-m.cc, op-cs-s.cc, op-cs-scm.cc, op-cs-sm.cc,
op-dm-dm.cc, op-dm-scm.cc, op-dm-sm.cc, op-dm-template.cc,
op-dms-template.cc, op-fcdm-fcdm.cc, op-fcm-fcm.cc, op-fcm-fcs.cc,
op-fcm-fm.cc, op-fcm-fs.cc, op-fcn.cc, op-fcs-fcm.cc, op-fcs-fcs.cc,
op-fcs-fm.cc, op-fcs-fs.cc, op-fdm-fdm.cc, op-fm-fcm.cc, op-fm-fcs.cc,
op-fm-fm.cc, op-fm-fs.cc, op-fs-fcm.cc, op-fs-fcs.cc, op-fs-fm.cc,
op-fs-fs.cc, op-int-conv.cc, op-int.h, op-m-cm.cc, op-m-cs.cc,
op-m-m.cc, op-m-s.cc, op-m-scm.cc, op-m-sm.cc, op-pm-pm.cc,
op-pm-scm.cc, op-pm-sm.cc, op-pm-template.cc, op-range.cc, op-s-cm.cc,
op-s-cs.cc, op-s-m.cc, op-s-s.cc, op-s-scm.cc, op-s-sm.cc,
op-sbm-b.cc, op-sbm-bm.cc, op-sbm-sbm.cc, op-scm-cm.cc, op-scm-cs.cc,
op-scm-m.cc, op-scm-s.cc, op-scm-scm.cc, op-scm-sm.cc, op-sm-cm.cc,
op-sm-cs.cc, op-sm-m.cc, op-sm-s.cc, op-sm-scm.cc, op-sm-sm.cc,
op-str-m.cc, op-str-s.cc, op-str-str.cc, op-struct.cc, ops.h:
Expand eliminated macros in place.
author | John W. Eaton <jwe@octave.org> |
---|---|
date | Wed, 27 Apr 2016 16:13:40 -0400 |
parents | 6c2fd62db1f7 |
children | aba2e6293dd8 |
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#include <octave/config.h> #include <cstdlib> #include <string> #include <ostream> #include <octave/lo-mappers.h> #include <octave/lo-utils.h> #include <octave/mx-base.h> #include <octave/str-vec.h> #include <octave/defun-dld.h> #include <octave/error.h> #include <octave/gripes.h> #include <octave/oct-obj.h> #include <octave/ops.h> #include <octave/ov-base.h> #include <octave/ov-typeinfo.h> #include <octave/ov.h> #include <octave/ov-scalar.h> #include <octave/pager.h> #include <octave/pr-output.h> #include <octave/symtab.h> #include <octave/variables.h> class octave_value_list; class tree_walker; // Integer values. class octave_integer : public octave_base_value { public: octave_integer (void) : octave_base_value (), scalar (0) { } octave_integer (int i) : octave_base_value (), scalar (i) { } octave_integer (const octave_integer& s) : octave_base_value (), scalar (s.scalar) { } ~octave_integer (void) { } octave_base_value *clone (void) { return new octave_integer (*this); } #if 0 void *operator new (size_t size); void operator delete (void *p, size_t size); #endif idx_vector index_vector (void) const { return idx_vector ((double) scalar); } int rows (void) const { return 1; } int columns (void) const { return 1; } bool is_constant (void) const { return true; } bool is_defined (void) const { return true; } bool is_real_scalar (void) const { return true; } octave_value all (void) const { return (double) (scalar != 0); } octave_value any (void) const { return (double) (scalar != 0); } bool is_real_type (void) const { return true; } bool is_scalar_type (void) const { return true; } bool is_numeric_type (void) const { return true; } bool valid_as_scalar_index (void) const { return scalar == 1; } bool valid_as_zero_index (void) const { return scalar == 0; } bool is_true (void) const { return (scalar != 0); } double double_value (bool = false) const { return (double) scalar; } int integer_value (bool = false) const { return scalar; } Matrix matrix_value (bool = false) const { return Matrix (1, 1, scalar); } Complex complex_value (bool = false) const { return scalar; } ComplexMatrix complex_matrix_value (bool = false) const { return ComplexMatrix (1, 1, Complex (scalar)); } octave_value gnot (void) const { return octave_value ((double) ! scalar); } octave_value uminus (void) const { return new octave_integer (- scalar); } octave_value transpose (void) const { return new octave_integer (scalar); } octave_value hermitian (void) const { return new octave_integer (scalar); } void increment (void) { ++scalar; } void decrement (void) { --scalar; } void print (std::ostream& os, bool pr_as_read_syntax = false); private: int scalar; DECLARE_OV_TYPEID_FUNCTIONS_AND_DATA }; void octave_integer::print (std::ostream& os, bool pr_as_read_syntax) { os << scalar; newline (os); } #ifdef DEFUNOP_OP #undef DEFUNOP_OP #endif #define DEFUNOP_OP(name, t, op) \ static octave_value \ CONCAT2(oct_unop_, name) (const octave_base_value& a) \ { \ const octave_ ## t& v = dynamic_cast<const octave_ ## t&> (a); \ return octave_value (new octave_integer (op v.t ## _value ())); \ } DEFUNOP_OP (gnot, integer, !) DEFUNOP_OP (uminus, integer, -) DEFUNOP_OP (transpose, integer, /* no-op */) DEFUNOP_OP (hermitian, integer, /* no-op */) DEFNCUNOP_METHOD (incr, integer, increment) DEFNCUNOP_METHOD (decr, integer, decrement) #ifdef DEFBINOP_OP #undef DEFBINOP_OP #endif #define DEFBINOP_OP(name, t1, t2, 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); \ return octave_value \ (new octave_integer (v1.t1 ## _value () op v2.t2 ## _value ())); \ } // integer by integer ops. DEFBINOP_OP (add, integer, integer, +) DEFBINOP_OP (sub, integer, integer, -) DEFBINOP_OP (mul, integer, integer, *) DEFBINOP (div, integer, integer) { const octave_integer& v1 = dynamic_cast<const octave_integer&> (a1); const octave_integer& v2 = dynamic_cast<const octave_integer&> (a2); int d = v2.integer_value (); if (d == 0) gripe_divide_by_zero (); return new octave_integer (v1.integer_value () / d); } DEFBINOP (i_s_div, integer, scalar) { const octave_integer& v1 = dynamic_cast<const octave_integer&> (a1); const octave_scalar& v2 = dynamic_cast<const octave_scalar&> (a2); double d = v2.double_value (); if (d == 0.0) gripe_divide_by_zero (); return new octave_scalar (v1.double_value () / d); } DEFBINOP (ldiv, integer, integer) { const octave_integer& v1 = dynamic_cast<const octave_integer&> (a1); const octave_integer& v2 = dynamic_cast<const octave_integer&> (a2); int d = v1.integer_value (); if (d == 0) gripe_divide_by_zero (); return new octave_integer (v2.integer_value () / d); } DEFBINOP_OP (lt, integer, integer, <) DEFBINOP_OP (le, integer, integer, <=) DEFBINOP_OP (eq, integer, integer, ==) DEFBINOP_OP (ge, integer, integer, >=) DEFBINOP_OP (gt, integer, integer, >) DEFBINOP_OP (ne, integer, integer, !=) DEFBINOP_OP (el_mul, integer, integer, !=) DEFBINOP (el_div, integer, integer) { const octave_integer& v1 = dynamic_cast<const octave_integer&> (a1); const octave_integer& v2 = dynamic_cast<const octave_integer&> (a2); int d = v2.integer_value (); if (d == 0) gripe_divide_by_zero (); return new octave_integer (v1.integer_value () / d); } DEFBINOP (el_ldiv, integer, integer) { const octave_integer& v1 = dynamic_cast<const octave_integer&> (a1); const octave_integer& v2 = dynamic_cast<const octave_integer&> (a2); int d = v1.integer_value (); if (d == 0) gripe_divide_by_zero (); return new octave_integer (v2.integer_value () / d); } DEFBINOP_OP (el_and, integer, integer, &&) DEFBINOP_OP (el_or, integer, integer, ||) DEFUN_DLD (make_int, args, , "int_val = make_int (val)\n\ \n\ Creates an integer variable from VAL.") { static bool type_loaded = false; if (! type_loaded) { octave_integer::register_type (); mlock (); octave_stdout << "installing integer type at type-id = " << octave_integer::static_type_id () << "\n"; INSTALL_UNOP (op_not, octave_integer, gnot); INSTALL_UNOP (op_uminus, octave_integer, uminus); INSTALL_UNOP (op_transpose, octave_integer, transpose); INSTALL_UNOP (op_hermitian, octave_integer, hermitian); INSTALL_NCUNOP (op_incr, octave_integer, incr); INSTALL_NCUNOP (op_decr, octave_integer, decr); INSTALL_BINOP (op_add, octave_integer, octave_integer, add); INSTALL_BINOP (op_sub, octave_integer, octave_integer, sub); INSTALL_BINOP (op_mul, octave_integer, octave_integer, mul); INSTALL_BINOP (op_div, octave_integer, octave_integer, div); INSTALL_BINOP (op_ldiv, octave_integer, octave_integer, ldiv); INSTALL_BINOP (op_lt, octave_integer, octave_integer, lt); INSTALL_BINOP (op_le, octave_integer, octave_integer, le); INSTALL_BINOP (op_eq, octave_integer, octave_integer, eq); INSTALL_BINOP (op_ge, octave_integer, octave_integer, ge); INSTALL_BINOP (op_gt, octave_integer, octave_integer, gt); INSTALL_BINOP (op_ne, octave_integer, octave_integer, ne); INSTALL_BINOP (op_el_mul, octave_integer, octave_integer, el_mul); INSTALL_BINOP (op_el_div, octave_integer, octave_integer, el_div); INSTALL_BINOP (op_el_ldiv, octave_integer, octave_integer, el_ldiv); INSTALL_BINOP (op_el_and, octave_integer, octave_integer, el_and); INSTALL_BINOP (op_el_or, octave_integer, octave_integer, el_or); INSTALL_BINOP (op_div, octave_integer, octave_scalar, i_s_div); } octave_value retval; if (args.length () == 1) { double d = args(0).double_value (); retval = octave_value (new octave_integer (NINT (d))); } else print_usage (); return retval; } DEFUN_DLD (doit, args, , "doit (I)") { octave_value_list retval; if (args(0).type_id () == octave_integer::static_type_id ()) { // At this point, we know we have a handle for an octave_integer // object, so we can peek at the representation and extract the // data. const octave_base_value& rep = args(0).get_rep (); int my_value = ((const octave_integer&) rep) . integer_value (); message ("doit", "your lucky number is: %d", my_value); } else gripe_wrong_type_arg ("doit", args(0)); return retval; } DEFINE_OV_TYPEID_FUNCTIONS_AND_DATA (octave_integer, "integer", "integer");