GNU Octave  6.2.0
A high-level interpreted language, primarily intended for numerical computations, mostly compatible with Matlab
mx-op-defs.h File Reference
#include "octave-config.h"
#include "lo-array-errwarn.h"
#include "mx-op-decl.h"
#include "mx-inlines.cc"
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Macros

#define DMDM_BIN_OP(R, OP, DM1, DM2, F)
 
#define DMDM_BIN_OPS(R, DM1, DM2)
 
#define DMM_BIN_OP(R, OP, DM, M, OPEQ, PREOP)
 
#define DMM_BIN_OPS(R, DM, M)
 
#define DMM_MULTIPLY_OP(R, DM, M)
 
#define DMS_BIN_OP(R, OP, DM, S)
 
#define DMS_BIN_OPS(R, DM, S)
 
#define MDM_BIN_OP(R, OP, M, DM, OPEQ)
 
#define MDM_BIN_OPS(R, M, DM)
 
#define MDM_MULTIPLY_OP(R, M, DM)
 
#define MINMAX_FCNS(T, S)
 
#define MM_BIN_OP(R, OP, M1, M2, F)
 
#define MM_BIN_OPS(R, M1, M2)
 
#define MM_BOOL_OP(F, OP, M1, M2)
 
#define MM_BOOL_OPS(M1, M2)
 
#define MM_CMP_OP(F, OP, M1, M2)
 
#define MM_CMP_OPS(M1, M2)
 
#define MNANCHK(m, MT)
 
#define MPM_BIN_OPS(R, M, PM)    MPM_MULTIPLY_OP(M, PM);
 
#define MPM_MULTIPLY_OP(M, PM)
 
#define MS_BIN_OP(R, OP, M, S, F)
 
#define MS_BIN_OPS(R, M, S)
 
#define MS_BOOL_OP(F, OP, M, S)
 
#define MS_BOOL_OPS(M, S)
 
#define MS_CMP_OP(F, OP, M, S)
 
#define MS_CMP_OPS(M, S)
 
#define NDND_BIN_OP(R, OP, ND1, ND2, F)
 
#define NDND_BIN_OPS(R, ND1, ND2)
 
#define NDND_BOOL_OP(F, OP, ND1, ND2)
 
#define NDND_BOOL_OPS(ND1, ND2)
 
#define NDND_CMP_OP(F, OP, ND1, ND2)
 
#define NDND_CMP_OPS(ND1, ND2)
 
#define NDND_MAPPER_BODY(R, NAME)
 
#define NDND_MINMAX_FCN(FCN, OP, T, S)
 
#define NDS_BIN_OP(R, OP, ND, S, F)
 
#define NDS_BIN_OPS(R, ND, S)
 
#define NDS_BOOL_OP(F, OP, ND, S)
 
#define NDS_BOOL_OPS(ND, S)
 
#define NDS_CMP_OP(F, OP, ND, S)
 
#define NDS_CMP_OPS(ND, S)
 
#define NDS_MINMAX_FCN(FCN, OP, T, S)
 
#define PMM_BIN_OPS(R, PM, M)    PMM_MULTIPLY_OP(PM, M);
 
#define PMM_MULTIPLY_OP(PM, M)
 
#define SDM_BIN_OP(R, OP, S, DM)
 
#define SDM_BIN_OPS(R, S, DM)    SDM_BIN_OP (R, *, S, DM)
 
#define SM_BIN_OP(R, OP, S, M, F)
 
#define SM_BIN_OPS(R, S, M)
 
#define SM_BOOL_OP(F, OP, S, M)
 
#define SM_BOOL_OPS(S, M)
 
#define SM_CMP_OP(F, OP, S, M)
 
#define SM_CMP_OPS(S, M)
 
#define SNANCHK(s)
 
#define SND_BIN_OP(R, OP, S, ND, F)
 
#define SND_BIN_OPS(R, S, ND)
 
#define SND_BOOL_OP(F, OP, S, ND)
 
#define SND_BOOL_OPS(S, ND)
 
#define SND_CMP_OP(F, OP, S, ND)
 
#define SND_CMP_OPS(S, ND)
 
#define SND_MINMAX_FCN(FCN, OP, T, S)
 
#define SV_BIN_OP(R, F, OP, S, V)
 
#define SV_BIN_OPS(R, S, V)
 
#define VS_BIN_OP(R, F, OP, V, S)
 
#define VS_BIN_OPS(R, V, S)
 
#define VV_BIN_OP(R, F, OP, V1, V2)
 
#define VV_BIN_OPS(R, V1, V2)
 

Macro Definition Documentation

◆ DMDM_BIN_OP

#define DMDM_BIN_OP (   R,
  OP,
  DM1,
  DM2,
 
)
Value:
R \
OP (const DM1& dm1, const DM2& dm2) \
{ \
R r; \
\
octave_idx_type dm1_nr = dm1.rows (); \
octave_idx_type dm1_nc = dm1.cols (); \
\
octave_idx_type dm2_nr = dm2.rows (); \
octave_idx_type dm2_nc = dm2.cols (); \
\
if (dm1_nr != dm2_nr || dm1_nc != dm2_nc) \
octave::err_nonconformant (#OP, dm1_nr, dm1_nc, dm2_nr, dm2_nc); \
\
r.resize (dm1_nr, dm1_nc); \
\
if (dm1_nr > 0 && dm1_nc > 0) \
F (dm1.length (), r.fortran_vec (), dm1.data (), dm2.data ()); \
\
return r; \
}
T * r
Definition: mx-inlines.cc:773
void err_nonconformant(const char *op, octave_idx_type op1_len, octave_idx_type op2_len)

Definition at line 538 of file mx-op-defs.h.

◆ DMDM_BIN_OPS

#define DMDM_BIN_OPS (   R,
  DM1,
  DM2 
)
Value:
DMDM_BIN_OP (R, operator +, DM1, DM2, mx_inline_add) \
DMDM_BIN_OP (R, operator -, DM1, DM2, mx_inline_sub) \
DMDM_BIN_OP (R, product, DM1, DM2, mx_inline_mul)
ComplexColumnVector product(const ComplexColumnVector &x, const ComplexColumnVector &y)
Definition: CColVector.h:152
void mx_inline_mul(size_t n, R *r, const X *x, const Y *y)
Definition: mx-inlines.cc:109
void mx_inline_add(size_t n, R *r, const X *x, const Y *y)
Definition: mx-inlines.cc:107
void mx_inline_sub(size_t n, R *r, const X *x, const Y *y)
Definition: mx-inlines.cc:108
#define DMDM_BIN_OP(R, OP, DM1, DM2, F)
Definition: mx-op-defs.h:538

Definition at line 561 of file mx-op-defs.h.

◆ DMM_BIN_OP

#define DMM_BIN_OP (   R,
  OP,
  DM,
  M,
  OPEQ,
  PREOP 
)
Value:
R \
OP (const DM& dm, const M& m) \
{ \
R r; \
\
octave_idx_type dm_nr = dm.rows (); \
octave_idx_type dm_nc = dm.cols (); \
\
octave_idx_type m_nr = m.rows (); \
octave_idx_type m_nc = m.cols (); \
\
if (dm_nr != m_nr || dm_nc != m_nc) \
octave::err_nonconformant (#OP, dm_nr, dm_nc, m_nr, m_nc); \
else \
{ \
if (m_nr > 0 && m_nc > 0) \
{ \
r = R (PREOP m); \
\
octave_idx_type len = dm.length (); \
for (octave_idx_type i = 0; i < len; i++) \
r.elem (i, i) OPEQ dm.elem (i, i); \
} \
else \
r.resize (m_nr, m_nc); \
} \
\
return r; \
}
F77_RET_T const F77_INT const F77_INT const F77_INT const F77_DBLE const F77_DBLE F77_INT & M
T octave_idx_type m
Definition: mx-inlines.cc:773
for(octave_idx_type i=0;i< n;i++) ac+
Definition: mx-inlines.cc:756
F77_RET_T len
Definition: xerbla.cc:61

Definition at line 465 of file mx-op-defs.h.

◆ DMM_BIN_OPS

#define DMM_BIN_OPS (   R,
  DM,
  M 
)
Value:
DMM_BIN_OP (R, operator +, DM, M, +=, ) \
DMM_BIN_OP (R, operator -, DM, M, +=, -) \
DMM_MULTIPLY_OP (R, DM, M)
#define DMM_BIN_OP(R, OP, DM, M, OPEQ, PREOP)
Definition: mx-op-defs.h:465

Definition at line 531 of file mx-op-defs.h.

◆ DMM_MULTIPLY_OP

#define DMM_MULTIPLY_OP (   R,
  DM,
  M 
)

Definition at line 497 of file mx-op-defs.h.

◆ DMS_BIN_OP

#define DMS_BIN_OP (   R,
  OP,
  DM,
 
)
Value:
R \
operator OP (const DM& dm, const S& s) \
{ \
R r (dm.rows (), dm.cols ()); \
for (octave_idx_type i = 0; i < dm.length (); i++) \
r.dgxelem (i) = dm.dgelem (i) OP s; \
\
return r; \
}

Definition at line 377 of file mx-op-defs.h.

◆ DMS_BIN_OPS

#define DMS_BIN_OPS (   R,
  DM,
 
)
Value:
DMS_BIN_OP (R, *, DM, S) \
DMS_BIN_OP (R, /, DM, S)
#define DMS_BIN_OP(R, OP, DM, S)
Definition: mx-op-defs.h:377

Definition at line 389 of file mx-op-defs.h.

◆ MDM_BIN_OP

#define MDM_BIN_OP (   R,
  OP,
  M,
  DM,
  OPEQ 
)
Value:
R \
OP (const M& m, const DM& dm) \
{ \
R r; \
\
octave_idx_type m_nr = m.rows (); \
octave_idx_type m_nc = m.cols (); \
\
octave_idx_type dm_nr = dm.rows (); \
octave_idx_type dm_nc = dm.cols (); \
\
if (m_nr != dm_nr || m_nc != dm_nc) \
octave::err_nonconformant (#OP, m_nr, m_nc, dm_nr, dm_nc); \
\
r.resize (m_nr, m_nc); \
\
if (m_nr > 0 && m_nc > 0) \
{ \
r = R (m); \
\
octave_idx_type len = dm.length (); \
for (octave_idx_type i = 0; i < len; i++) \
r.elem (i, i) OPEQ dm.elem (i, i); \
} \
\
return r; \
}

Definition at line 395 of file mx-op-defs.h.

◆ MDM_BIN_OPS

#define MDM_BIN_OPS (   R,
  M,
  DM 
)
Value:
MDM_BIN_OP (R, operator +, M, DM, +=) \
MDM_BIN_OP (R, operator -, M, DM, -=) \
MDM_MULTIPLY_OP (R, M, DM)
#define MDM_BIN_OP(R, OP, M, DM, OPEQ)
Definition: mx-op-defs.h:395

Definition at line 458 of file mx-op-defs.h.

◆ MDM_MULTIPLY_OP

#define MDM_MULTIPLY_OP (   R,
  M,
  DM 
)

Definition at line 425 of file mx-op-defs.h.

◆ MINMAX_FCNS

#define MINMAX_FCNS (   T,
 
)
Value:
SND_MINMAX_FCN (min, <, T, S) \
NDS_MINMAX_FCN (min, <, T, S) \
NDND_MINMAX_FCN (min, <, T, S) \
SND_MINMAX_FCN (max, >, T, S) \
NDS_MINMAX_FCN (max, >, T, S) \
NDND_MINMAX_FCN (max, >, T, S)
charNDArray max(char d, const charNDArray &m)
Definition: chNDArray.cc:230
charNDArray min(char d, const charNDArray &m)
Definition: chNDArray.cc:207
#define SND_MINMAX_FCN(FCN, OP, T, S)
Definition: mx-op-defs.h:568

Definition at line 589 of file mx-op-defs.h.

◆ MM_BIN_OP

#define MM_BIN_OP (   R,
  OP,
  M1,
  M2,
 
)
Value:
R \
OP (const M1& m1, const M2& m2) \
{ \
return do_mm_binary_op<R::element_type, M1::element_type, M2::element_type> (m1, m2, F, F, F, #OP); \
}

Definition at line 176 of file mx-op-defs.h.

◆ MM_BIN_OPS

#define MM_BIN_OPS (   R,
  M1,
  M2 
)
Value:
MM_BIN_OP (R, operator +, M1, M2, mx_inline_add) \
MM_BIN_OP (R, operator -, M1, M2, mx_inline_sub) \
MM_BIN_OP (R, product, M1, M2, mx_inline_mul) \
MM_BIN_OP (R, quotient, M1, M2, mx_inline_div)
ComplexColumnVector quotient(const ComplexColumnVector &x, const ComplexColumnVector &y)
Definition: CColVector.h:152
void mx_inline_div(size_t n, R *r, const X *x, const Y *y)
Definition: mx-inlines.cc:110
#define MM_BIN_OP(R, OP, M1, M2, F)
Definition: mx-op-defs.h:176

Definition at line 183 of file mx-op-defs.h.

◆ MM_BOOL_OP

#define MM_BOOL_OP (   F,
  OP,
  M1,
  M2 
)
Value:
boolMatrix \
F (const M1& m1, const M2& m2) \
{ \
MNANCHK (m1, M1::element_type); \
MNANCHK (m2, M2::element_type); \
return do_mm_binary_op<bool, M1::element_type, M2::element_type> (m1, m2, OP, OP, OP, #F); \
}

Definition at line 204 of file mx-op-defs.h.

◆ MM_BOOL_OPS

#define MM_BOOL_OPS (   M1,
  M2 
)
Value:
MM_BOOL_OP (mx_el_or, mx_inline_or, M1, M2)
boolMatrix mx_el_or(const boolMatrix &m1, const boolMatrix &m2)
Definition: boolMatrix.cc:88
boolMatrix mx_el_and(const boolMatrix &m1, const boolMatrix &m2)
Definition: boolMatrix.cc:88
void mx_inline_or(size_t n, bool *r, const X *x, const Y *y)
Definition: mx-inlines.cc:217
void mx_inline_and(size_t n, bool *r, const X *x, const Y *y)
Definition: mx-inlines.cc:216
#define MM_BOOL_OP(F, OP, M1, M2)
Definition: mx-op-defs.h:204

Definition at line 213 of file mx-op-defs.h.

◆ MM_CMP_OP

#define MM_CMP_OP (   F,
  OP,
  M1,
  M2 
)
Value:
boolMatrix \
F (const M1& m1, const M2& m2) \
{ \
return do_mm_binary_op<bool, M1::element_type, M2::element_type> (m1, m2, OP, OP, OP, #F); \
}

Definition at line 189 of file mx-op-defs.h.

◆ MM_CMP_OPS

#define MM_CMP_OPS (   M1,
  M2 
)
Value:
MM_CMP_OP (mx_el_le, mx_inline_le, M1, M2) \
MM_CMP_OP (mx_el_ge, mx_inline_ge, M1, M2) \
MM_CMP_OP (mx_el_gt, mx_inline_gt, M1, M2) \
MM_CMP_OP (mx_el_eq, mx_inline_eq, M1, M2) \
MM_CMP_OP (mx_el_ne, mx_inline_ne, M1, M2)
boolMatrix mx_el_le(const boolMatrix &m1, const boolMatrix &m2)
Definition: boolMatrix.cc:91
boolMatrix mx_el_ne(const boolMatrix &m1, const boolMatrix &m2)
Definition: boolMatrix.cc:91
boolMatrix mx_el_gt(const boolMatrix &m1, const boolMatrix &m2)
Definition: boolMatrix.cc:91
boolMatrix mx_el_eq(const boolMatrix &m1, const boolMatrix &m2)
Definition: boolMatrix.cc:91
boolMatrix mx_el_lt(const boolMatrix &m1, const boolMatrix &m2)
Definition: boolMatrix.cc:91
boolMatrix mx_el_ge(const boolMatrix &m1, const boolMatrix &m2)
Definition: boolMatrix.cc:91
void mx_inline_gt(size_t n, bool *r, const X *x, const Y *y)
Definition: mx-inlines.cc:153
void mx_inline_ne(size_t n, bool *r, const X *x, const Y *y)
Definition: mx-inlines.cc:156
void mx_inline_le(size_t n, bool *r, const X *x, const Y *y)
Definition: mx-inlines.cc:152
void mx_inline_eq(size_t n, bool *r, const X *x, const Y *y)
Definition: mx-inlines.cc:155
void mx_inline_lt(size_t n, bool *r, const X *x, const Y *y)
Definition: mx-inlines.cc:151
void mx_inline_ge(size_t n, bool *r, const X *x, const Y *y)
Definition: mx-inlines.cc:154
#define MM_CMP_OP(F, OP, M1, M2)
Definition: mx-op-defs.h:189

Definition at line 196 of file mx-op-defs.h.

◆ MNANCHK

#define MNANCHK (   m,
  MT 
)
Value:
if (do_mx_check (m, mx_inline_any_nan<MT>)) \
bool do_mx_check(const Array< T > &a, bool(*op)(size_t, const T *))
Definition: mx-inlines.cc:580
void err_nan_to_logical_conversion(void)

Definition at line 39 of file mx-op-defs.h.

◆ MPM_BIN_OPS

#define MPM_BIN_OPS (   R,
  M,
  PM 
)     MPM_MULTIPLY_OP(M, PM);

Definition at line 633 of file mx-op-defs.h.

◆ MPM_MULTIPLY_OP

#define MPM_MULTIPLY_OP (   M,
  PM 
)
Value:
M operator * (const M& x, const PM& p) \
{ \
octave_idx_type nr = x.rows (); \
octave_idx_type nc = x.columns (); \
M result; \
if (p.rows () != nc) \
octave::err_nonconformant ("operator *", nr, nc, p.rows (), p.columns ()); \
\
result = x.index (idx_vector::colon, p.col_perm_vec ()); \
\
return result; \
}
ComplexColumnVector operator*(const ComplexMatrix &m, const ColumnVector &a)
Definition: CColVector.cc:293
static const idx_vector colon
Definition: idx-vector.h:499
F77_RET_T const F77_DBLE * x

Definition at line 616 of file mx-op-defs.h.

◆ MS_BIN_OP

#define MS_BIN_OP (   R,
  OP,
  M,
  S,
 
)
Value:
R \
OP (const M& m, const S& s) \
{ \
return do_ms_binary_op<R::element_type, M::element_type, S> (m, s, F); \
}

Definition at line 90 of file mx-op-defs.h.

◆ MS_BIN_OPS

#define MS_BIN_OPS (   R,
  M,
 
)
Value:
MS_BIN_OP (R, operator +, M, S, mx_inline_add) \
MS_BIN_OP (R, operator -, M, S, mx_inline_sub) \
MS_BIN_OP (R, operator *, M, S, mx_inline_mul) \
MS_BIN_OP (R, operator /, M, S, mx_inline_div)
#define MS_BIN_OP(R, OP, M, S, F)
Definition: mx-op-defs.h:90

Definition at line 97 of file mx-op-defs.h.

◆ MS_BOOL_OP

#define MS_BOOL_OP (   F,
  OP,
  M,
 
)
Value:
boolMatrix \
F (const M& m, const S& s) \
{ \
MNANCHK (m, M::element_type); \
SNANCHK (s); \
return do_ms_binary_op<bool, M::element_type, S> (m, s, OP); \
}

Definition at line 118 of file mx-op-defs.h.

◆ MS_BOOL_OPS

#define MS_BOOL_OPS (   M,
 
)
Value:
MS_BOOL_OP (mx_el_or, mx_inline_or, M, S)
#define MS_BOOL_OP(F, OP, M, S)
Definition: mx-op-defs.h:118

Definition at line 127 of file mx-op-defs.h.

◆ MS_CMP_OP

#define MS_CMP_OP (   F,
  OP,
  M,
 
)
Value:
boolMatrix \
F (const M& m, const S& s) \
{ \
return do_ms_binary_op<bool, M::element_type, S> (m, s, OP); \
}

Definition at line 103 of file mx-op-defs.h.

◆ MS_CMP_OPS

#define MS_CMP_OPS (   M,
 
)
Value:
MS_CMP_OP (mx_el_le, mx_inline_le, M, S) \
MS_CMP_OP (mx_el_ge, mx_inline_ge, M, S) \
MS_CMP_OP (mx_el_gt, mx_inline_gt, M, S) \
MS_CMP_OP (mx_el_eq, mx_inline_eq, M, S) \
MS_CMP_OP (mx_el_ne, mx_inline_ne, M, S)
#define MS_CMP_OP(F, OP, M, S)
Definition: mx-op-defs.h:103

Definition at line 110 of file mx-op-defs.h.

◆ NDND_BIN_OP

#define NDND_BIN_OP (   R,
  OP,
  ND1,
  ND2,
 
)
Value:
R \
OP (const ND1& m1, const ND2& m2) \
{ \
return do_mm_binary_op<R::element_type, ND1::element_type, ND2::element_type> (m1, m2, F, F, F, #OP); \
}

Definition at line 313 of file mx-op-defs.h.

◆ NDND_BIN_OPS

#define NDND_BIN_OPS (   R,
  ND1,
  ND2 
)
Value:
NDND_BIN_OP (R, operator +, ND1, ND2, mx_inline_add) \
NDND_BIN_OP (R, operator -, ND1, ND2, mx_inline_sub) \
NDND_BIN_OP (R, product, ND1, ND2, mx_inline_mul) \
NDND_BIN_OP (R, quotient, ND1, ND2, mx_inline_div)
#define NDND_BIN_OP(R, OP, ND1, ND2, F)
Definition: mx-op-defs.h:313

Definition at line 320 of file mx-op-defs.h.

◆ NDND_BOOL_OP

#define NDND_BOOL_OP (   F,
  OP,
  ND1,
  ND2 
)
Value:
boolNDArray \
F (const ND1& m1, const ND2& m2) \
{ \
MNANCHK (m1, ND1::element_type); \
MNANCHK (m2, ND2::element_type); \
return do_mm_binary_op<bool, ND1::element_type, ND2::element_type> (m1, m2, OP, OP, OP, #F); \
}

Definition at line 341 of file mx-op-defs.h.

◆ NDND_BOOL_OPS

#define NDND_BOOL_OPS (   ND1,
  ND2 
)
Value:
NDND_BOOL_OP (mx_el_or, mx_inline_or, ND1, ND2) \
NDND_BOOL_OP (mx_el_not_and, mx_inline_not_and, ND1, ND2) \
NDND_BOOL_OP (mx_el_not_or, mx_inline_not_or, ND1, ND2) \
NDND_BOOL_OP (mx_el_and_not, mx_inline_and_not, ND1, ND2) \
NDND_BOOL_OP (mx_el_or_not, mx_inline_or_not, ND1, ND2)
boolNDArray mx_el_or_not(const boolNDArray &m1, const boolNDArray &m2)
Definition: boolNDArray.cc:122
boolNDArray mx_el_and_not(const boolNDArray &m1, const boolNDArray &m2)
Definition: boolNDArray.cc:122
boolNDArray mx_el_not_and(const boolNDArray &m1, const boolNDArray &m2)
Definition: boolNDArray.cc:122
boolNDArray mx_el_not_or(const boolNDArray &m1, const boolNDArray &m2)
Definition: boolNDArray.cc:122
void mx_inline_or_not(size_t n, bool *r, const X *x, const Y *y)
Definition: mx-inlines.cc:221
void mx_inline_and_not(size_t n, bool *r, const X *x, const Y *y)
Definition: mx-inlines.cc:220
void mx_inline_not_and(size_t n, bool *r, const X *x, const Y *y)
Definition: mx-inlines.cc:218
void mx_inline_not_or(size_t n, bool *r, const X *x, const Y *y)
Definition: mx-inlines.cc:219
#define NDND_BOOL_OP(F, OP, ND1, ND2)
Definition: mx-op-defs.h:341

Definition at line 350 of file mx-op-defs.h.

◆ NDND_CMP_OP

#define NDND_CMP_OP (   F,
  OP,
  ND1,
  ND2 
)
Value:
boolNDArray \
F (const ND1& m1, const ND2& m2) \
{ \
return do_mm_binary_op<bool, ND1::element_type, ND2::element_type> (m1, m2, OP, OP, OP, #F); \
}

Definition at line 326 of file mx-op-defs.h.

◆ NDND_CMP_OPS

#define NDND_CMP_OPS (   ND1,
  ND2 
)
Value:
NDND_CMP_OP (mx_el_le, mx_inline_le, ND1, ND2) \
NDND_CMP_OP (mx_el_ge, mx_inline_ge, ND1, ND2) \
NDND_CMP_OP (mx_el_gt, mx_inline_gt, ND1, ND2) \
NDND_CMP_OP (mx_el_eq, mx_inline_eq, ND1, ND2) \
NDND_CMP_OP (mx_el_ne, mx_inline_ne, ND1, ND2)
#define NDND_CMP_OP(F, OP, ND1, ND2)
Definition: mx-op-defs.h:326

Definition at line 333 of file mx-op-defs.h.

◆ NDND_MAPPER_BODY

#define NDND_MAPPER_BODY (   R,
  NAME 
)
Value:
R retval (dims ()); \
octave_idx_type n = numel (); \
for (octave_idx_type i = 0; i < n; i++) \
retval.xelem (i) = NAME (elem (i)); \
return retval;
static int elem
Definition: __contourc__.cc:52
T & xelem(octave_idx_type n)
Size of the specified dimension.
Definition: Array.h:469
octave_idx_type n
Definition: mx-inlines.cc:753
@ NAME
Definition: oct-parse.h:103
T::size_type numel(const T &str)
Definition: oct-string.cc:71
octave_value::octave_value(const Array< char > &chm, char type) return retval
Definition: ov.cc:811

Definition at line 636 of file mx-op-defs.h.

◆ NDND_MINMAX_FCN

#define NDND_MINMAX_FCN (   FCN,
  OP,
  T,
 
)
Value:
FCN (const T& a, const T& b) \
{ \
return do_mm_binary_op<T::element_type, T::element_type, T::element_type> (a, b, mx_inline_x##FCN, mx_inline_x##FCN, mx_inline_x##FCN, #FCN); \
}
@ FCN
Definition: oct-parse.h:138

Definition at line 582 of file mx-op-defs.h.

◆ NDS_BIN_OP

#define NDS_BIN_OP (   R,
  OP,
  ND,
  S,
 
)
Value:
R \
OP (const ND& m, const S& s) \
{ \
return do_ms_binary_op<R::element_type, ND::element_type, S> (m, s, F); \
}

Definition at line 219 of file mx-op-defs.h.

◆ NDS_BIN_OPS

#define NDS_BIN_OPS (   R,
  ND,
 
)
Value:
NDS_BIN_OP (R, operator +, ND, S, mx_inline_add) \
NDS_BIN_OP (R, operator -, ND, S, mx_inline_sub) \
NDS_BIN_OP (R, operator *, ND, S, mx_inline_mul) \
NDS_BIN_OP (R, operator /, ND, S, mx_inline_div)
#define NDS_BIN_OP(R, OP, ND, S, F)
Definition: mx-op-defs.h:219

Definition at line 226 of file mx-op-defs.h.

◆ NDS_BOOL_OP

#define NDS_BOOL_OP (   F,
  OP,
  ND,
 
)
Value:
boolNDArray \
F (const ND& m, const S& s) \
{ \
MNANCHK (m, ND::element_type); \
SNANCHK (s); \
return do_ms_binary_op<bool, ND::element_type, S> (m, s, OP); \
}

Definition at line 247 of file mx-op-defs.h.

◆ NDS_BOOL_OPS

#define NDS_BOOL_OPS (   ND,
 
)
Value:
NDS_BOOL_OP (mx_el_or, mx_inline_or, ND, S) \
NDS_BOOL_OP (mx_el_not_and, mx_inline_not_and, ND, S) \
NDS_BOOL_OP (mx_el_not_or, mx_inline_not_or, ND, S) \
NDS_BOOL_OP (mx_el_and_not, mx_inline_and_not, ND, S) \
NDS_BOOL_OP (mx_el_or_not, mx_inline_or_not, ND, S)
#define NDS_BOOL_OP(F, OP, ND, S)
Definition: mx-op-defs.h:247

Definition at line 256 of file mx-op-defs.h.

◆ NDS_CMP_OP

#define NDS_CMP_OP (   F,
  OP,
  ND,
 
)
Value:
boolNDArray \
F (const ND& m, const S& s) \
{ \
return do_ms_binary_op<bool, ND::element_type, S> (m, s, OP); \
}

Definition at line 232 of file mx-op-defs.h.

◆ NDS_CMP_OPS

#define NDS_CMP_OPS (   ND,
 
)
Value:
NDS_CMP_OP (mx_el_le, mx_inline_le, ND, S) \
NDS_CMP_OP (mx_el_ge, mx_inline_ge, ND, S) \
NDS_CMP_OP (mx_el_gt, mx_inline_gt, ND, S) \
NDS_CMP_OP (mx_el_eq, mx_inline_eq, ND, S) \
NDS_CMP_OP (mx_el_ne, mx_inline_ne, ND, S)
#define NDS_CMP_OP(F, OP, ND, S)
Definition: mx-op-defs.h:232

Definition at line 239 of file mx-op-defs.h.

◆ NDS_MINMAX_FCN

#define NDS_MINMAX_FCN (   FCN,
  OP,
  T,
 
)
Value:
FCN (const T& m, S d) \
{ \
return do_ms_binary_op<T::element_type, T::element_type, S> (m, d, mx_inline_x##FCN); \
}
F77_RET_T const F77_DBLE const F77_DBLE F77_DBLE * d

Definition at line 575 of file mx-op-defs.h.

◆ PMM_BIN_OPS

#define PMM_BIN_OPS (   R,
  PM,
  M 
)     PMM_MULTIPLY_OP(PM, M);

Definition at line 630 of file mx-op-defs.h.

◆ PMM_MULTIPLY_OP

#define PMM_MULTIPLY_OP (   PM,
  M 
)
Value:
M operator * (const PM& p, const M& x) \
{ \
octave_idx_type nr = x.rows (); \
octave_idx_type nc = x.columns (); \
M result; \
if (p.columns () != nr) \
octave::err_nonconformant ("operator *", p.rows (), p.columns (), nr, nc); \
else \
{ \
result = M (nr, nc); \
result.assign (p.col_perm_vec (), idx_vector::colon, x); \
} \
\
return result; \
}

Definition at line 599 of file mx-op-defs.h.

◆ SDM_BIN_OP

#define SDM_BIN_OP (   R,
  OP,
  S,
  DM 
)
Value:
R \
operator OP (const S& s, const DM& dm) \
{ \
R r (dm.rows (), dm.cols ()); \
for (octave_idx_type i = 0; i < dm.length (); i++) \
r.dgxelem (i) = s OP dm.dgelem (i); \
\
return r; \
}

Definition at line 360 of file mx-op-defs.h.

◆ SDM_BIN_OPS

#define SDM_BIN_OPS (   R,
  S,
  DM 
)     SDM_BIN_OP (R, *, S, DM)

Definition at line 372 of file mx-op-defs.h.

◆ SM_BIN_OP

#define SM_BIN_OP (   R,
  OP,
  S,
  M,
 
)
Value:
R \
OP (const S& s, const M& m) \
{ \
return do_sm_binary_op<R::element_type, S, M::element_type> (s, m, F); \
}

Definition at line 133 of file mx-op-defs.h.

◆ SM_BIN_OPS

#define SM_BIN_OPS (   R,
  S,
  M 
)
Value:
SM_BIN_OP (R, operator +, S, M, mx_inline_add) \
SM_BIN_OP (R, operator -, S, M, mx_inline_sub) \
SM_BIN_OP (R, operator *, S, M, mx_inline_mul) \
SM_BIN_OP (R, operator /, S, M, mx_inline_div)
#define SM_BIN_OP(R, OP, S, M, F)
Definition: mx-op-defs.h:133

Definition at line 140 of file mx-op-defs.h.

◆ SM_BOOL_OP

#define SM_BOOL_OP (   F,
  OP,
  S,
  M 
)
Value:
boolMatrix \
F (const S& s, const M& m) \
{ \
SNANCHK (s); \
MNANCHK (m, M::element_type); \
return do_sm_binary_op<bool, S, M::element_type> (s, m, OP); \
}

Definition at line 161 of file mx-op-defs.h.

◆ SM_BOOL_OPS

#define SM_BOOL_OPS (   S,
  M 
)
Value:
SM_BOOL_OP (mx_el_or, mx_inline_or, S, M)
#define SM_BOOL_OP(F, OP, S, M)
Definition: mx-op-defs.h:161

Definition at line 170 of file mx-op-defs.h.

◆ SM_CMP_OP

#define SM_CMP_OP (   F,
  OP,
  S,
  M 
)
Value:
boolMatrix \
F (const S& s, const M& m) \
{ \
return do_sm_binary_op<bool, S, M::element_type> (s, m, OP); \
}

Definition at line 146 of file mx-op-defs.h.

◆ SM_CMP_OPS

#define SM_CMP_OPS (   S,
  M 
)
Value:
SM_CMP_OP (mx_el_le, mx_inline_le, S, M) \
SM_CMP_OP (mx_el_ge, mx_inline_ge, S, M) \
SM_CMP_OP (mx_el_gt, mx_inline_gt, S, M) \
SM_CMP_OP (mx_el_eq, mx_inline_eq, S, M) \
SM_CMP_OP (mx_el_ne, mx_inline_ne, S, M)
#define SM_CMP_OP(F, OP, S, M)
Definition: mx-op-defs.h:146

Definition at line 153 of file mx-op-defs.h.

◆ SNANCHK

#define SNANCHK (   s)
Value:

Definition at line 35 of file mx-op-defs.h.

◆ SND_BIN_OP

#define SND_BIN_OP (   R,
  OP,
  S,
  ND,
 
)
Value:
R \
OP (const S& s, const ND& m) \
{ \
return do_sm_binary_op<R::element_type, S, ND::element_type> (s, m, F); \
}

Definition at line 266 of file mx-op-defs.h.

◆ SND_BIN_OPS

#define SND_BIN_OPS (   R,
  S,
  ND 
)
Value:
SND_BIN_OP (R, operator +, S, ND, mx_inline_add) \
SND_BIN_OP (R, operator -, S, ND, mx_inline_sub) \
SND_BIN_OP (R, operator *, S, ND, mx_inline_mul) \
SND_BIN_OP (R, operator /, S, ND, mx_inline_div)
#define SND_BIN_OP(R, OP, S, ND, F)
Definition: mx-op-defs.h:266

Definition at line 273 of file mx-op-defs.h.

◆ SND_BOOL_OP

#define SND_BOOL_OP (   F,
  OP,
  S,
  ND 
)
Value:
boolNDArray \
F (const S& s, const ND& m) \
{ \
SNANCHK (s); \
MNANCHK (m, ND::element_type); \
return do_sm_binary_op<bool, S, ND::element_type> (s, m, OP); \
}

Definition at line 294 of file mx-op-defs.h.

◆ SND_BOOL_OPS

#define SND_BOOL_OPS (   S,
  ND 
)
Value:
SND_BOOL_OP (mx_el_or, mx_inline_or, S, ND) \
SND_BOOL_OP (mx_el_not_and, mx_inline_not_and, S, ND) \
SND_BOOL_OP (mx_el_not_or, mx_inline_not_or, S, ND) \
SND_BOOL_OP (mx_el_and_not, mx_inline_and_not, S, ND) \
SND_BOOL_OP (mx_el_or_not, mx_inline_or_not, S, ND)
#define SND_BOOL_OP(F, OP, S, ND)
Definition: mx-op-defs.h:294

Definition at line 303 of file mx-op-defs.h.

◆ SND_CMP_OP

#define SND_CMP_OP (   F,
  OP,
  S,
  ND 
)
Value:
boolNDArray \
F (const S& s, const ND& m) \
{ \
return do_sm_binary_op<bool, S, ND::element_type> (s, m, OP); \
}

Definition at line 279 of file mx-op-defs.h.

◆ SND_CMP_OPS

#define SND_CMP_OPS (   S,
  ND 
)
Value:
SND_CMP_OP (mx_el_le, mx_inline_le, S, ND) \
SND_CMP_OP (mx_el_ge, mx_inline_ge, S, ND) \
SND_CMP_OP (mx_el_gt, mx_inline_gt, S, ND) \
SND_CMP_OP (mx_el_eq, mx_inline_eq, S, ND) \
SND_CMP_OP (mx_el_ne, mx_inline_ne, S, ND)
#define SND_CMP_OP(F, OP, S, ND)
Definition: mx-op-defs.h:279

Definition at line 286 of file mx-op-defs.h.

◆ SND_MINMAX_FCN

#define SND_MINMAX_FCN (   FCN,
  OP,
  T,
 
)
Value:
FCN (S d, const T& m) \
{ \
return do_sm_binary_op<T::element_type, S, T::element_type> (d, m, mx_inline_x##FCN); \
}

Definition at line 568 of file mx-op-defs.h.

◆ SV_BIN_OP

#define SV_BIN_OP (   R,
  F,
  OP,
  S,
  V 
)
Value:
R \
F (const S& s, const V& v) \
{ \
return do_sm_binary_op<R::element_type, S, V::element_type> (s, v, OP); \
}
F77_RET_T const F77_INT const F77_INT const F77_INT const F77_DBLE const F77_DBLE F77_INT F77_DBLE * V

Definition at line 60 of file mx-op-defs.h.

◆ SV_BIN_OPS

#define SV_BIN_OPS (   R,
  S,
  V 
)
Value:
SV_BIN_OP (R, operator +, mx_inline_add, S, V) \
SV_BIN_OP (R, operator -, mx_inline_sub, S, V) \
SV_BIN_OP (R, operator *, mx_inline_mul, S, V) \
SV_BIN_OP (R, operator /, mx_inline_div, S, V)
#define SV_BIN_OP(R, F, OP, S, V)
Definition: mx-op-defs.h:60

Definition at line 67 of file mx-op-defs.h.

◆ VS_BIN_OP

#define VS_BIN_OP (   R,
  F,
  OP,
  V,
 
)
Value:
R \
F (const V& v, const S& s) \
{ \
return do_ms_binary_op<R::element_type, V::element_type, S> (v, s, OP); \
}

Definition at line 45 of file mx-op-defs.h.

◆ VS_BIN_OPS

#define VS_BIN_OPS (   R,
  V,
 
)
Value:
VS_BIN_OP (R, operator +, mx_inline_add, V, S) \
VS_BIN_OP (R, operator -, mx_inline_sub, V, S) \
VS_BIN_OP (R, operator *, mx_inline_mul, V, S) \
VS_BIN_OP (R, operator /, mx_inline_div, V, S)
#define VS_BIN_OP(R, F, OP, V, S)
Definition: mx-op-defs.h:45

Definition at line 52 of file mx-op-defs.h.

◆ VV_BIN_OP

#define VV_BIN_OP (   R,
  F,
  OP,
  V1,
  V2 
)
Value:
R \
F (const V1& v1, const V2& v2) \
{ \
return do_mm_binary_op<R::element_type, V1::element_type, V2::element_type> (v1, v2, OP, OP, OP, #F); \
}
const octave_char_matrix & v2

Definition at line 75 of file mx-op-defs.h.

◆ VV_BIN_OPS

#define VV_BIN_OPS (   R,
  V1,
  V2 
)
Value:
VV_BIN_OP (R, operator +, mx_inline_add, V1, V2) \
VV_BIN_OP (R, operator -, mx_inline_sub, V1, V2) \
VV_BIN_OP (R, product, mx_inline_mul, V1, V2) \
VV_BIN_OP (R, quotient, mx_inline_div, V1, V2)
#define VV_BIN_OP(R, F, OP, V1, V2)
Definition: mx-op-defs.h:75

Definition at line 82 of file mx-op-defs.h.