flgrarith
index
/home/christophe/src/fulguro/swig/arith/flgrarith.py

Fulguro Arithmetic And Logic Module

 
Modules
       
_flgrarith
new

 
Functions
       
flgr1d_arith_abs(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[return] FLGR_Ret
 
Compute abs over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _a0082600_p_f_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_acos(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[return] FLGR_Ret
 
Compute Arccos over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _b0c72500_p_f_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_add(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Addition pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr1d_arith_add(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _60832600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_addsat(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Saturated Addition pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr1d_arith_addsat(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _60ec2500_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_and(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute logical AND pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr1d_arith_and(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _30982500_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_argument(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Argument pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _10172700_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_asin(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[return] FLGR_Ret
 
Compute Arcsin over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _10c32500_p_f_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_atan(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[return] FLGR_Ret
 
Compute Arctan over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _70be2500_p_f_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_atan2(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Arctangent pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _c0de2600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_ceil(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[in] Float Base
[return] FLGR_Ret
 
Round all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _30b52500_p_f_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_complex_argument(...)
[out] FLGR_Data1D destination (scalar image ie spp=1)
[in] FLGR_Data1D source (complex image ie spp=2)
Compute argument of a complex image
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _404c2700_p_f_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_complex_build(...)
[out] FLGR_Data1D destination (complex)
[in] FLGR_Data1D source (module)
[in] FLGR_Data1D source (argument)
[return] FLGR_Ret
 
Construct a complex image from a module image and a argument image
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _e0522700_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_complex_module(...)
[out] FLGR_Data1D destination (scalar image ie spp=1)
[in] FLGR_Data1D source (complex image ie spp=2)
[return] FLGR_Ret
 
Compute module of a complex image
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _50452700_p_f_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_cos(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[return] FLGR_Ret
 
Compute cos over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _90d52500_p_f_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_div(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D 
[return] FLGR_Ret
 
Compute Division pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr1d_arith_div(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _00d22600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_floor(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[in] Float Base
[return] FLGR_Ret
 
Floor all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _d0b92500_p_f_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_inf(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute the infemum pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr1d_arith_inf(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _90a12600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_inf_shift_left(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[in] Integer left shift count
Compute Inf between signal input and left shifted signal input
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _90a12600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_inf_shift_right(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[in] Integer right shift count
Compute Inf between signal input and right shifted signal input
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _90a12600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_invert(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[return] FLGR_Ret
 
Compute invert over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _200d2600_p_f_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_logb(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[in] Float Base
[return] FLGR_Ret
 
Compute log over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _305e2600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Vector__FLGR_Ret
flgr1d_arith_module(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Module pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _a0e82600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_mult(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Multiplication pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr1d_arith_mult(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _108b2600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_multsat(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Saturated Multiplication pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr1d_arith_multsat(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _00012600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_or(...)
swig_ptr: _a00b2700_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Vector__FLGR_Ret
flgr1d_arith_powb(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[in] Float Power
[return] FLGR_Ret
 
Compute power over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _10592600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Vector__FLGR_Ret
flgr1d_arith_sin(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[return] FLGR_Ret
 
Compute Arcsin over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _f0d02500_p_f_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_sub(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Substraction pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr1d_arith_sub(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _60782600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_subsat(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Saturated Substraction pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr1d_arith_subsat(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _e0f12500_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_sup(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute the supremum pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr1d_arith_sup(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _80712600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_sup_shift_left(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[in] Integer left shift count
Compute Sup between signal input and left shifted signal input
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _80712600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_sup_shift_right(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[in] Integer right shift count
Compute Sup between signal input and right shifted signal input
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _80712600_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_tan(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D source
[return] FLGR_Ret
 
Compute Arctan over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _50cc2500_p_f_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr1d_arith_xor(...)
[out] FLGR_Data1D destination
[in] FLGR_Data1D 
[in] FLGR_Data1D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute logical XOR pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr1d_arith_xor(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _90852500_p_f_p_FLGR_Data1D_p_FLGR_Data1D_p_FLGR_Data1D__FLGR_Ret
flgr2d_arith_abs(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D source
[return] FLGR_Ret
 
Compute abs over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _b0062600_p_f_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_acos(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D source
[return] FLGR_Ret
 
Compute Arccos over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _c0c52500_p_f_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_add(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Addition pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr2d_arith_add(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _20812600_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_addsat(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Saturated Addition pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr2d_arith_addsat(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _20ea2500_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_and(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute logical AND pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr2d_arith_and(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _f0952500_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_argument(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Argument pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _d0142700_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_asin(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D source
[return] FLGR_Ret
 
Compute Arcsin over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _20c12500_p_f_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_atan(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D source
[return] FLGR_Ret
 
Compute Arctan over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _80bc2500_p_f_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_atan2(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Arctangent pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _80dc2600_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_ceil(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D source
[in] Float Base
[return] FLGR_Ret
 
Round all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _40b32500_p_f_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_complex_argument(...)
[out] FLGR_Data2D destination (scalar image ie spp=1)
[in] FLGR_Data2D source (complex image ie spp=2)
Compute argument of a complex image
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _c0492700_p_f_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_complex_build(...)
[out] FLGR_Data2D destination (complex)
[in] FLGR_Data2D source (module)
[in] FLGR_Data2D source (argument)
[return] FLGR_Ret
 
Construct a complex image from a module image and a argument image
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _d04f2700_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_complex_module(...)
[out] FLGR_Data2D destination (scalar image ie spp=1)
[in] FLGR_Data2D source (complex image ie spp=2)
[return] FLGR_Ret
 
Compute module of a complex image
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _d0422700_p_f_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_cos(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D source
[return] FLGR_Ret
 
Compute cos over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _a0d32500_p_f_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_div(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D 
[return] FLGR_Ret
 
Compute Division pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr2d_arith_div(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _c0cf2600_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_floor(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D source
[in] Float Base
[return] FLGR_Ret
 
Floor all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _e0b72500_p_f_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_inf(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute the infemum pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr2d_arith_inf(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _509f2600_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_invert(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D source
[return] FLGR_Ret
 
Compute invert over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _300b2600_p_f_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_logb(...)
[out] FLGR_Data2D destination[in] FLGR_Data2D source[in] Float Base[return] FLGR_Ret
Compute log over all source pixelsThe return value correspond to constant FLGR_RET_OK,...
 
swig_ptr: _205c2600_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Vector__FLGR_Ret
flgr2d_arith_module(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Module pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _60e62600_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_mult(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Multiplication pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr2d_arith_mult(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _d0882600_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_multsat(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Saturated Multiplication pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr2d_arith_multsat(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _c0fe2500_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_or(...)
swig_ptr: _70082700_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Vector__FLGR_Ret
flgr2d_arith_powb(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D source
[in] Float Power
[return] FLGR_Ret
 
Compute power over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _00572600_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Vector__FLGR_Ret
flgr2d_arith_sin(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D source
[return] FLGR_Ret
 
Compute Arcsin over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _00cf2500_p_f_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_sub(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Substraction pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr2d_arith_sub(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _20762600_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_subsat(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute Saturated Substraction pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr2d_arith_subsat(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _a0ef2500_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_sup(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute the supremum pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr2d_arith_sup(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _406f2600_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_tan(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D source
[return] FLGR_Ret
 
Compute Arctan over all source pixels
The return value correspond to constant FLGR_RET_OK,...
 
 
swig_ptr: _60ca2500_p_f_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret
flgr2d_arith_xor(...)
[out] FLGR_Data2D destination
[in] FLGR_Data2D 
[in] FLGR_Data2D or FLGR_Vector or Scalar or List/Array
[return] FLGR_Ret
 
Compute logical XOR pixel by pixel of two images
The return value correspond to constant FLGR_RET_OK,...
 
flgr2d_arith_xor(datdest, data1, constant) -> FLGR_Ret
 
swig_ptr: _50832500_p_f_p_FLGR_Data2D_p_FLGR_Data2D_p_FLGR_Data2D__FLGR_Ret

 
Data
        CB_FLGR1D_ARITH_ABS = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *)' at 0x2608a0>
CB_FLGR1D_ARITH_ACOS = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *)' at 0x25c7b0>
CB_FLGR1D_ARITH_ADD = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x268360>
CB_FLGR1D_ARITH_ADDSAT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x25ec60>
CB_FLGR1D_ARITH_AND = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x259830>
CB_FLGR1D_ARITH_ARGUMENT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x271710>
CB_FLGR1D_ARITH_ASIN = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *)' at 0x25c310>
CB_FLGR1D_ARITH_ATAN = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *)' at 0x25be70>
CB_FLGR1D_ARITH_ATAN2 = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x26dec0>
CB_FLGR1D_ARITH_CEIL = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *)' at 0x25b530>
CB_FLGR1D_ARITH_COMPLEX_ARGUMENT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *)' at 0x274c40>
CB_FLGR1D_ARITH_COMPLEX_BUILD = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x2752e0>
CB_FLGR1D_ARITH_COMPLEX_MODULE = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *)' at 0x274550>
CB_FLGR1D_ARITH_COS = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *)' at 0x25d590>
CB_FLGR1D_ARITH_DIV = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x26d200>
CB_FLGR1D_ARITH_FLOOR = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *)' at 0x25b9d0>
CB_FLGR1D_ARITH_INF = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x26a190>
CB_FLGR1D_ARITH_INF_SHIFT_LEFT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,int)' at 0x250cc0>
CB_FLGR1D_ARITH_INF_SHIFT_RIGHT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,int)' at 0x251520>
CB_FLGR1D_ARITH_INVERT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *)' at 0x260d20>
CB_FLGR1D_ARITH_LOGB = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Vector *)' at 0x265e30>
CB_FLGR1D_ARITH_MODULE = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x26e8a0>
CB_FLGR1D_ARITH_MULT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x268b10>
CB_FLGR1D_ARITH_MULTSAT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x260100>
CB_FLGR1D_ARITH_OR = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Vector *)' at 0x270ba0>
CB_FLGR1D_ARITH_POWB = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Vector *)' at 0x265910>
CB_FLGR1D_ARITH_SIN = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *)' at 0x25d0f0>
CB_FLGR1D_ARITH_SUB = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x267860>
CB_FLGR1D_ARITH_SUBSAT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x25f1e0>
CB_FLGR1D_ARITH_SUP = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x267180>
CB_FLGR1D_ARITH_SUP_SHIFT_LEFT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,int)' at 0x251960>
CB_FLGR1D_ARITH_SUP_SHIFT_RIGHT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,int)' at 0x251100>
CB_FLGR1D_ARITH_TAN = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *)' at 0x25cc50>
CB_FLGR1D_ARITH_XOR = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data1D *,FLGR_Data1D *,FLGR_Data1D *)' at 0x258590>
CB_FLGR2D_ARITH_ABS = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *)' at 0x2606b0>
CB_FLGR2D_ARITH_ACOS = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *)' at 0x25c5c0>
CB_FLGR2D_ARITH_ADD = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x268120>
CB_FLGR2D_ARITH_ADDSAT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x25ea20>
CB_FLGR2D_ARITH_AND = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x2595f0>
CB_FLGR2D_ARITH_ARGUMENT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x2714d0>
CB_FLGR2D_ARITH_ASIN = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *)' at 0x25c120>
CB_FLGR2D_ARITH_ATAN = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *)' at 0x25bc80>
CB_FLGR2D_ARITH_ATAN2 = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x26dc80>
CB_FLGR2D_ARITH_CEIL = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *)' at 0x25b340>
CB_FLGR2D_ARITH_COMPLEX_ARGUMENT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *)' at 0x2749c0>
CB_FLGR2D_ARITH_COMPLEX_BUILD = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x274fd0>
CB_FLGR2D_ARITH_COMPLEX_MODULE = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *)' at 0x2742d0>
CB_FLGR2D_ARITH_COS = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *)' at 0x25d3a0>
CB_FLGR2D_ARITH_DIV = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x26cfc0>
CB_FLGR2D_ARITH_FLOOR = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *)' at 0x25b7e0>
CB_FLGR2D_ARITH_INF = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x269f50>
CB_FLGR2D_ARITH_INVERT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *)' at 0x260b30>
CB_FLGR2D_ARITH_LOGB = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Vector *)' at 0x265c20>
CB_FLGR2D_ARITH_MODULE = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x26e660>
CB_FLGR2D_ARITH_MULT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x2688d0>
CB_FLGR2D_ARITH_MULTSAT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x25fec0>
CB_FLGR2D_ARITH_OR = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Vector *)' at 0x270870>
CB_FLGR2D_ARITH_POWB = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Vector *)' at 0x265700>
CB_FLGR2D_ARITH_SIN = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *)' at 0x25cf00>
CB_FLGR2D_ARITH_SUB = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x267620>
CB_FLGR2D_ARITH_SUBSAT = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x25efa0>
CB_FLGR2D_ARITH_SUP = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x266f40>
CB_FLGR2D_ARITH_TAN = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *)' at 0x25ca60>
CB_FLGR2D_ARITH_XOR = <Swig Object of type 'FLGR_Ret (*)(FLGR_Data2D *,FLGR_Data2D *,FLGR_Data2D *)' at 0x258350>
FLGR_4_CONNEX = 4
FLGR_6_CONNEX = 6
FLGR_8_CONNEX = 8
FLGR_BIT = 0
FLGR_BSLASH = 8
FLGR_CROSS = 5
FLGR_CROSSX = 6
FLGR_DIAMOND = 9
FLGR_DISC = 3
FLGR_ELLIPSE = 4
FLGR_FALSE = 0
FLGR_FLOAT32 = 9
FLGR_FLOAT64 = 10
FLGR_HEX = 2
FLGR_INT16 = 6
FLGR_INT32 = 7
FLGR_INT64 = 8
FLGR_INT8 = 5
FLGR_LINE = 0
FLGR_MORPHO_OPTIM_CROSS = 1
FLGR_MORPHO_OPTIM_DIAMOND = 5
FLGR_MORPHO_OPTIM_HEXAGON = 2
FLGR_MORPHO_OPTIM_NONE = 6
FLGR_MORPHO_OPTIM_OCTAGON = 4
FLGR_MORPHO_OPTIM_RECTANGLE = 3
FLGR_MORPHO_OPTIM_SQUARE = 0
FLGR_NHB_NO_SYM = 1
FLGR_NHB_SYM = 0
FLGR_NO_CONNEX = 0
FLGR_NO_SHAPE = 12
FLGR_OCTAGON = 10
FLGR_PI = 3.1415926535897931
FLGR_RECT = 1
FLGR_RET_ALLOCATION_ERROR = -4
FLGR_RET_CONNEXITY_UNKNOWN = -5
FLGR_RET_NOT_IMPLEMENTED = -7
FLGR_RET_NULL_OBJECT = -9
FLGR_RET_OK = 0
FLGR_RET_PARAM_ERROR = -12
FLGR_RET_PARAM_UNKNOWN = -6
FLGR_RET_SIZE_ERROR = -3
FLGR_RET_TYPE_DIFFERENT = -2
FLGR_RET_TYPE_UNKNOWN = -1
FLGR_RET_UNDEFINED_ERROR = -8
FLGR_RET_VECTOR_SIZE_DIFFERENT = -10
FLGR_RET_VECTOR_SIZE_ERROR = -11
FLGR_SLASH = 7
FLGR_TRUE = 1
FLGR_UINT16 = 2
FLGR_UINT32 = 3
FLGR_UINT64 = 4
FLGR_UINT8 = 1
FLGR_USER_SHAPE = 11
MAX_fgBIT = 1
MAX_fgFLOAT32 = 3.4000000000000001e+37
MAX_fgFLOAT64 = 1.6999999999999999e+307
MAX_fgINT16 = 32767
MAX_fgINT32 = 2147483647
MAX_fgINT64 = 9223372036854775807L
MAX_fgINT8 = 127
MAX_fgUINT16 = 65535
MAX_fgUINT32 = 4294967295L
MAX_fgUINT64 = 18446744073709551615L
MAX_fgUINT8 = 255
MIN_fgBIT = 0
MIN_fgFLOAT32 = -3.4000000000000002e-37
MIN_fgFLOAT64 = -1.6999999999999999e-307
MIN_fgINT16 = -32768
MIN_fgINT32 = -2147483648
MIN_fgINT64 = 0
MIN_fgINT8 = -128
MIN_fgUINT16 = 0
MIN_fgUINT32 = 0
MIN_fgUINT64 = 0
MIN_fgUINT8 = 0