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include octave-config.h in public header files * mk-opts.pl, mkbuiltins, mk-ops.awk, sparse-mk-ops.awk: Emit "#include octave-config.h" statement for generated header files. * build-env.h, builtins.h, Cell.h, base-text-renderer.h, c-file-ptr-stream.h, cdisplay.h, comment-list.h, data.h, debug.h, defaults.in.h, defun-dld.h, defun-int.h, defun.h, dirfns.h, display.h, dynamic-ld.h, error.h, errwarn.h, event-queue.h, file-io.h, ft-text-renderer.h, gl-render.h, gl2ps-print.h, graphics.in.h, gripes.h, help.h, hook-fcn.h, input.h, jit-ir.h, jit-typeinfo.h, jit-util.h, load-path.h, load-save.h, ls-ascii-helper.h, ls-hdf5.h, ls-mat-ascii.h, ls-mat4.h, ls-mat5.h, ls-oct-binary.h, ls-oct-text.h, ls-utils.h, mex.h, mexproto.h, mxarray.in.h, oct-errno.h, oct-fstrm.h, oct-handle.h, oct-hdf5-types.h, oct-hdf5.h, oct-hist.h, oct-iostrm.h, oct-lvalue.h, oct-map.h, oct-obj.h, oct-opengl.h, oct-prcstrm.h, oct-procbuf.h, oct-stdstrm.h, oct-stream.h, oct-strstrm.h, oct.h, octave-default-image.h, octave-link.h, octave-preserve-stream-state.h, pager.h, pr-output.h, procstream.h, profiler.h, pt-jit.h, sighandlers.h, siglist.h, sparse-xdiv.h, sparse-xpow.h, symtab.h, sysdep.h, text-renderer.h, toplev.h, txt-eng.h, utils.h, variables.h, workspace-element.h, xdiv.h, xnorm.h, xpow.h, zfstream.h, oct-qhull.h, ov-base-diag.h, ov-base-int.h, ov-base-mat.h, ov-base-scalar.h, ov-base-sparse.h, ov-base.h, ov-bool-mat.h, ov-bool-sparse.h, ov-bool.h, ov-builtin.h, ov-cell.h, ov-ch-mat.h, ov-class.h, ov-classdef.h, ov-colon.h, ov-complex.h, ov-cs-list.h, ov-cx-diag.h, ov-cx-mat.h, ov-cx-sparse.h, ov-dld-fcn.h, ov-fcn-handle.h, ov-fcn-inline.h, ov-fcn.h, ov-float.h, ov-flt-complex.h, ov-flt-cx-diag.h, ov-flt-cx-mat.h, ov-flt-re-diag.h, ov-flt-re-mat.h, ov-int-traits.h, ov-int16.h, ov-int32.h, ov-int64.h, ov-int8.h, ov-intx.h, ov-java.h, ov-lazy-idx.h, ov-mex-fcn.h, ov-null-mat.h, ov-oncleanup.h, ov-perm.h, ov-range.h, ov-re-diag.h, ov-re-mat.h, ov-re-sparse.h, ov-scalar.h, ov-str-mat.h, ov-struct.h, ov-type-conv.h, ov-typeinfo.h, ov-uint16.h, ov-uint32.h, ov-uint64.h, ov-uint8.h, ov-usr-fcn.h, ov.h, ovl.h, octave.h, op-int.h, ops.h, options-usage.h, lex.h, parse.h, pt-all.h, pt-arg-list.h, pt-array-list.h, pt-assign.h, pt-binop.h, pt-bp.h, pt-cbinop.h, pt-cell.h, pt-check.h, pt-classdef.h, pt-cmd.h, pt-colon.h, pt-const.h, pt-decl.h, pt-eval.h, pt-except.h, pt-exp.h, pt-fcn-handle.h, pt-funcall.h, pt-id.h, pt-idx.h, pt-jump.h, pt-loop.h, pt-mat.h, pt-misc.h, pt-pr-code.h, pt-select.h, pt-stmt.h, pt-unop.h, pt-walk.h, pt.h, token.h, version.in.h, Array-util.h, Array.h, CColVector.h, CDiagMatrix.h, CMatrix.h, CNDArray.h, CRowVector.h, CSparse.h, DiagArray2.h, MArray.h, MDiagArray2.h, MSparse.h, Matrix.h, MatrixType.h, PermMatrix.h, Range.h, Sparse.h, boolMatrix.h, boolNDArray.h, boolSparse.h, chMatrix.h, chNDArray.h, dColVector.h, dDiagMatrix.h, dMatrix.h, dNDArray.h, dRowVector.h, dSparse.h, dim-vector.h, fCColVector.h, fCDiagMatrix.h, fCMatrix.h, fCNDArray.h, fCRowVector.h, fColVector.h, fDiagMatrix.h, fMatrix.h, fNDArray.h, fRowVector.h, idx-vector.h, int16NDArray.h, int32NDArray.h, int64NDArray.h, int8NDArray.h, intNDArray.h, uint16NDArray.h, uint32NDArray.h, uint64NDArray.h, uint8NDArray.h, f77-fcn.h, lo-error.h, quit.h, CmplxAEPBAL.h, CmplxCHOL.h, CmplxGEPBAL.h, CmplxHESS.h, CmplxLU.h, CmplxQR.h, CmplxQRP.h, CmplxSCHUR.h, CmplxSVD.h, CollocWt.h, DAE.h, DAEFunc.h, DAERT.h, DAERTFunc.h, DASPK.h, DASRT.h, DASSL.h, DET.h, EIG.h, LSODE.h, ODE.h, ODEFunc.h, ODES.h, ODESFunc.h, Quad.h, base-aepbal.h, base-dae.h, base-de.h, base-lu.h, base-min.h, base-qr.h, bsxfun-decl.h, bsxfun.h, dbleAEPBAL.h, dbleCHOL.h, dbleGEPBAL.h, dbleHESS.h, dbleLU.h, dbleQR.h, dbleQRP.h, dbleSCHUR.h, dbleSVD.h, eigs-base.h, fCmplxAEPBAL.h, fCmplxCHOL.h, fCmplxGEPBAL.h, fCmplxHESS.h, fCmplxLU.h, fCmplxQR.h, fCmplxQRP.h, fCmplxSCHUR.h, fCmplxSVD.h, fEIG.h, floatAEPBAL.h, floatCHOL.h, floatGEPBAL.h, floatHESS.h, floatLU.h, floatQR.h, floatQRP.h, floatSCHUR.h, floatSVD.h, lo-mappers.h, lo-specfun.h, oct-convn.h, oct-fftw.h, oct-norm.h, oct-rand.h, oct-spparms.h, randgamma.h, randmtzig.h, randpoisson.h, sparse-chol.h, sparse-dmsolve.h, sparse-lu.h, sparse-qr.h, Sparse-diag-op-defs.h, Sparse-op-decls.h, Sparse-op-defs.h, Sparse-perm-op-defs.h, mx-base.h, mx-defs.h, mx-ext.h, mx-op-decl.h, mx-op-defs.h, dir-ops.h, file-ops.h, file-stat.h, lo-sysdep.h, mach-info.h, oct-env.h, oct-group.h, oct-openmp.h, oct-passwd.h, oct-syscalls.h, oct-time.h, oct-uname.h, pathlen.h, sysdir.h, syswait.h, action-container.h, base-list.h, byte-swap.h, caseless-str.h, cmd-edit.h, cmd-hist.h, data-conv.h, functor.h, glob-match.h, lo-array-errwarn.h, lo-array-gripes.h, lo-cutils.h, lo-ieee.h, lo-macros.h, lo-math.h, lo-regexp.h, lo-traits.h, lo-utils.h, oct-alloc.h, oct-base64.h, oct-binmap.h, oct-cmplx.h, oct-glob.h, oct-inttypes.h, oct-locbuf.h, oct-mutex.h, oct-refcount.h, oct-rl-edit.h, oct-rl-hist.h, oct-shlib.h, oct-sort.h, oct-sparse.h, pathsearch.h, singleton-cleanup.h, sparse-sort.h, sparse-util.h, statdefs.h, str-vec.h, sun-utils.h, unwind-prot.h, url-transfer.h: Include octave-config.h.
author John W. Eaton <jwe@octave.org>
date Wed, 10 Feb 2016 14:25:53 -0500
parents 538b57866b90
children 65e24ba4ca2d
line wrap: on
line source

/*

Copyright (C) 2008-2015 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/>.

*/

#if ! defined (octave_oct_locbuf_h)
#define octave_oct_locbuf_h 1

#include "octave-config.h"

#include <cstddef>
#include "oct-cmplx.h"

// The default local buffer simply encapsulates an *array* pointer
// that gets deleted automatically.  For common POD types, we provide
// specializations.

template <typename T>
class octave_local_buffer
{
public:
  octave_local_buffer (size_t size)
    : data (0)
  {
    if (size)
      data = new T [size];
  }
  ~octave_local_buffer (void) { delete [] data; }
  operator T *() const { return data; }

private:
  T *data;

  // No copying!
  octave_local_buffer (const octave_local_buffer&);
  octave_local_buffer& operator = (const octave_local_buffer&);
};

// For buffers of POD types, we'll be smarter.  There is one thing
// that differentiates a local buffer from a dynamic array - the local
// buffers, if not manipulated improperly, have a FIFO semantics,
// meaning that if buffer B is allocated after buffer A, B *must* be
// deallocated before A.  This is *guaranteed* if you use local buffer
// exclusively through the OCTAVE_LOCAL_BUFFER macro, because the C++
// standard requires that explicit local objects be destroyed in
// reverse order of declaration.  Therefore, we can avoid memory
// fragmentation by allocating fairly large chunks of memory and
// serving local buffers from them in a stack-like manner.  The first
// returning buffer in previous chunk will be responsible for
// deallocating the chunk.

class octave_chunk_buffer
{
public:

  OCTAVE_API octave_chunk_buffer (size_t size);

  OCTAVE_API virtual ~octave_chunk_buffer (void);

  char *data (void) const { return dat; }

  static OCTAVE_API void clear (void);

private:

  // The number of bytes we allocate for each large chunk of memory we
  // manage.
  static const size_t chunk_size;

  // Pointer to the end end of the last allocation.
  static char *top;

  // Pointer to the current active chunk.
  static char *chunk;

  // The number of bytes remaining in the active chunk.
  static size_t left;

  // The number of active allocations.
  static size_t active;

  // Pointer to the current chunk.
  char *cnk;

  // Pointer to the beginning of the most recent allocation.
  char *dat;

  // No copying!
  octave_chunk_buffer (const octave_chunk_buffer&);
  octave_chunk_buffer& operator = (const octave_chunk_buffer&);
};

// This specializes octave_local_buffer to use the chunked buffer
// mechanism for POD types.
#define SPECIALIZE_POD_BUFFER(TYPE) \
template <> \
class octave_local_buffer<TYPE> : private octave_chunk_buffer \
{ \
public: \
  octave_local_buffer (size_t size) \
    : octave_chunk_buffer (size * sizeof (TYPE)) { } \
 \
  operator TYPE *() const \
  { \
    return reinterpret_cast<TYPE *> (this->data ()); \
  } \
}

SPECIALIZE_POD_BUFFER (bool);
SPECIALIZE_POD_BUFFER (char);
SPECIALIZE_POD_BUFFER (unsigned short);
SPECIALIZE_POD_BUFFER (short);
SPECIALIZE_POD_BUFFER (int);
SPECIALIZE_POD_BUFFER (unsigned int);
SPECIALIZE_POD_BUFFER (long);
SPECIALIZE_POD_BUFFER (unsigned long);
SPECIALIZE_POD_BUFFER (float);
SPECIALIZE_POD_BUFFER (double);
// FIXME: Are these guaranteed to be POD and satisfy alignment?
SPECIALIZE_POD_BUFFER (Complex);
SPECIALIZE_POD_BUFFER (FloatComplex);
// MORE ?

// All pointers and const pointers are also POD types.
template <typename T>
class octave_local_buffer<T *> : private octave_chunk_buffer
{
public:
  octave_local_buffer (size_t size)
    : octave_chunk_buffer (size * sizeof (T *))
  { }

  operator T **() const { return reinterpret_cast<T **> (this->data ()); }
};

template <typename T>
class octave_local_buffer<const T *> : private octave_chunk_buffer
{
public:
  octave_local_buffer (size_t size)
    : octave_chunk_buffer (size * sizeof (const T *))
  { }

  operator const T **() const
  {
    return reinterpret_cast<const T **> (this->data ());
  }
};

// If the compiler supports dynamic stack arrays, we can use the
// attached hack to place small buffer arrays on the stack. It may be
// even faster than our obstack-like optimization, but is dangerous
// because stack is a very limited resource, so we disable it.

#if 0 // defined (HAVE_DYNAMIC_AUTO_ARRAYS)

// Maximum buffer size (in bytes) to be placed on the stack.

#define OCTAVE_LOCAL_BUFFER_MAX_STACK_SIZE 8192

// If we have automatic arrays, we use an automatic array if the size
// is small enough.  To avoid possibly evaluating 'size' multiple
// times, we first cache it.  Note that we always construct both the
// stack array and the octave_local_buffer object, but only one of
// them will be nonempty.

#define OCTAVE_LOCAL_BUFFER(T, buf, size) \
  const size_t _bufsize_ ## buf = size; \
  const bool _lbufaut_ ## buf = _bufsize_ ## buf * sizeof (T) \
     <= OCTAVE_LOCAL_BUFFER_MAX_STACK_SIZE; \
  T _bufaut_ ## buf [_lbufaut_ ## buf ? _bufsize_ ## buf : 0]; \
  octave_local_buffer<T> _bufheap_ ## buf \
    (! _lbufaut_ ## buf ? _bufsize_ ## buf : 0); \
  T *buf = _lbufaut_ ## buf \
    ? _bufaut_ ## buf : static_cast<T *> (_bufheap_ ## buf)

#else

// If we don't have automatic arrays, we simply always use
// octave_local_buffer.

#define OCTAVE_LOCAL_BUFFER(T, buf, size) \
  octave_local_buffer<T> _buffer_ ## buf (size); \
  T *buf = _buffer_ ## buf

#endif

// Note: we use weird variables in the for loop to avoid warnings
// about shadowed parameters.

#define OCTAVE_LOCAL_BUFFER_INIT(T, buf, size, value) \
  OCTAVE_LOCAL_BUFFER (T, buf, size); \
  for (size_t _buf_iter = 0, _buf_size = size; \
        _buf_iter < _buf_size; _buf_iter++) \
    buf[_buf_iter] = value

#endif