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Gwyddion Data Processing Library Reference Manual | ![]() |
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Top | Description |
#include <libprocess/gwyprocess.h> void gwy_data_field_grains_mark_curvature (GwyDataField *data_field
,GwyDataField *grain_field
,gdouble threshval
,gboolean below
); void gwy_data_field_grains_mark_watershed (GwyDataField *data_field
,GwyDataField *grain_field
,gint locate_steps
,gint locate_thresh
,gdouble locate_dropsize
,gint wshed_steps
,gdouble wshed_dropsize
,gboolean prefilter
,gboolean below
); gboolean gwy_data_field_grains_remove_grain (GwyDataField *grain_field
,gint col
,gint row
); gboolean gwy_data_field_grains_extract_grain (GwyDataField *grain_field
,gint col
,gint row
); void gwy_data_field_grains_remove_by_size (GwyDataField *grain_field
,gint size
); void gwy_data_field_grains_remove_by_height (GwyDataField *data_field
,GwyDataField *grain_field
,gdouble threshval
,gboolean below
); void gwy_data_field_grains_remove_touching_border (GwyDataField *grain_field
); GwyComputationState * gwy_data_field_grains_watershed_init (GwyDataField *data_field
,GwyDataField *grain_field
,gint locate_steps
,gint locate_thresh
,gdouble locate_dropsize
,gint wshed_steps
,gdouble wshed_dropsize
,gboolean prefilter
,gboolean below
); void gwy_data_field_grains_watershed_iteration (GwyComputationState *state
); void gwy_data_field_grains_watershed_finalize (GwyComputationState *state
); void gwy_data_field_grains_mark_height (GwyDataField *data_field
,GwyDataField *grain_field
,gdouble threshval
,gboolean below
); void gwy_data_field_grains_mark_slope (GwyDataField *data_field
,GwyDataField *grain_field
,gdouble threshval
,gboolean below
); void gwy_data_field_grains_add (GwyDataField *grain_field
,GwyDataField *add_field
); void gwy_data_field_grains_intersect (GwyDataField *grain_field
,GwyDataField *intersect_field
); gint gwy_data_field_number_grains (GwyDataField *mask_field
,gint *grains
); gint * gwy_data_field_get_grain_bounding_boxes (GwyDataField *mask_field
,gint ngrains
,const gint *grains
,gint *bboxes
); GwyDataLine * gwy_data_field_grains_get_distribution (GwyDataField *data_field
,GwyDataField *grain_field
,GwyDataLine *distribution
,gint ngrains
,const gint *grains
,GwyGrainQuantity quantity
,gint nstats
); gdouble * gwy_data_field_grains_get_values (GwyDataField *data_field
,gdouble *values
,gint ngrains
,const gint *grains
,GwyGrainQuantity quantity
); gdouble ** gwy_data_field_grains_get_quantities (GwyDataField *data_field
,gdouble **values
,const GwyGrainQuantity *quantities
,guint nquantities
,guint ngrains
,const gint *grains
); gboolean gwy_grain_quantity_needs_same_units (GwyGrainQuantity quantity
); GwySIUnit * gwy_grain_quantity_get_units (GwyGrainQuantity quantity
,GwySIUnit *siunitxy
,GwySIUnit *siunitz
,GwySIUnit *result
); void gwy_data_field_area_grains_tgnd (GwyDataField *data_field
,GwyDataLine *target_line
,gint col
,gint row
,gint width
,gint height
,gboolean below
,gint nstats
); void gwy_data_field_area_grains_tgnd_range (GwyDataField *data_field
,GwyDataLine *target_line
,gint col
,gint row
,gint width
,gint height
,gdouble min
,gdouble max
,gboolean below
,gint nstats
); void gwy_data_field_grains_splash_water (GwyDataField *data_field
,GwyDataField *minima
,gint locate_steps
,gdouble locate_dropsize
);
void gwy_data_field_grains_mark_curvature (GwyDataField *data_field
,GwyDataField *grain_field
,gdouble threshval
,gboolean below
);
Marks data that are above/below curvature threshold.
|
Data to be used for marking. |
|
Data field to store the resulting mask to. |
|
Relative curvature threshold, in percents. |
|
If TRUE , data below threshold are marked, otherwise data above
threshold are marked. |
void gwy_data_field_grains_mark_watershed (GwyDataField *data_field
,GwyDataField *grain_field
,gint locate_steps
,gint locate_thresh
,gdouble locate_dropsize
,gint wshed_steps
,gdouble wshed_dropsize
,gboolean prefilter
,gboolean below
);
Performs watershed algorithm.
|
Data to be used for marking. |
|
Result of marking (mask). |
|
Locating algorithm steps. |
|
Locating algorithm threshold. |
|
Locating drop size. |
|
Watershed steps. |
|
Watershed drop size. |
|
Use prefiltering. |
|
If TRUE , valleys are marked, otherwise mountains are marked. |
gboolean gwy_data_field_grains_remove_grain (GwyDataField *grain_field
,gint col
,gint row
);
Removes one grain at given position.
|
Field of marked grains (mask). |
|
Column inside a grain. |
|
Row inside a grain. |
Returns : |
TRUE if a grain was actually removed (i.e., (col ,row ) was
inside a grain). |
gboolean gwy_data_field_grains_extract_grain (GwyDataField *grain_field
,gint col
,gint row
);
Removes all grains except that one at given position.
If there is no grain at (col
, row
), all grains are removed.
|
Field of marked grains (mask). |
|
Column inside a grain. |
|
Row inside a grain. |
Returns : |
TRUE if a grain remained (i.e., (col ,row ) was inside a grain). |
void gwy_data_field_grains_remove_by_size (GwyDataField *grain_field
,gint size
);
Removes all grains below specified area.
|
Field of marked grains (mask). |
|
Grain area threshold, in square pixels. |
void gwy_data_field_grains_remove_by_height (GwyDataField *data_field
,GwyDataField *grain_field
,gdouble threshval
,gboolean below
);
Removes grains that are higher/lower than given threshold value.
|
Data to be used for marking |
|
Field of marked grains (mask) |
|
Relative height threshold, in percents. |
|
If TRUE , grains below threshold are removed, otherwise grains above
threshold are removed. |
void gwy_data_field_grains_remove_touching_border
(GwyDataField *grain_field
);
Removes all grains that touch field borders.
|
Field of marked grains (mask). |
Since 2.30
GwyComputationState * gwy_data_field_grains_watershed_init (GwyDataField *data_field
,GwyDataField *grain_field
,gint locate_steps
,gint locate_thresh
,gdouble locate_dropsize
,gint wshed_steps
,gdouble wshed_dropsize
,gboolean prefilter
,gboolean below
);
Initializes the watershed algorithm.
This iterator reports its state as GwyWatershedStateType.
|
Data to be used for marking. |
|
Result of marking (mask). |
|
Locating algorithm steps. |
|
Locating algorithm threshold. |
|
Locating drop size. |
|
Watershed steps. |
|
Watershed drop size. |
|
Use prefiltering. |
|
If TRUE , valleys are marked, otherwise mountains are marked. |
Returns : |
A new watershed iterator. |
void gwy_data_field_grains_watershed_iteration
(GwyComputationState *state
);
Performs one iteration of the watershed algorithm.
Fields state
and progress fraction
of watershed state are updated
(fraction is calculated for each phase individually). Once state
becomes GWY_WATERSHED_STATE_FINISHED
, the calculation is finised.
A watershed iterator can be created with
gwy_data_field_grains_watershed_init()
. When iteration ends, either
by finishing or being aborted, gwy_data_field_grains_watershed_finalize()
must be called to release allocated resources.
|
Watershed iterator. |
void gwy_data_field_grains_watershed_finalize
(GwyComputationState *state
);
Destroys a watershed iterator, freeing all resources.
|
Watershed iterator. |
void gwy_data_field_grains_mark_height (GwyDataField *data_field
,GwyDataField *grain_field
,gdouble threshval
,gboolean below
);
Marks data that are above/below height threshold.
|
Data to be used for marking. |
|
Data field to store the resulting mask to. |
|
Relative height threshold, in percents. |
|
If TRUE , data below threshold are marked, otherwise data above
threshold are marked. |
void gwy_data_field_grains_mark_slope (GwyDataField *data_field
,GwyDataField *grain_field
,gdouble threshval
,gboolean below
);
Marks data that are above/below slope threshold.
|
Data to be used for marking. |
|
Data field to store the resulting mask to. |
|
Relative slope threshold, in percents. |
|
If TRUE , data below threshold are marked, otherwise data above
threshold are marked. |
void gwy_data_field_grains_add (GwyDataField *grain_field
,GwyDataField *add_field
);
Adds add_field
grains to grain_field
.
Note: This function is equivalent to
gwy_data_field_max_of_fields(grain_field, grain_field, add_field);
and it will be probably removed someday.
|
Field of marked grains (mask). |
|
Field of marked grains (mask) to be added. |
void gwy_data_field_grains_intersect (GwyDataField *grain_field
,GwyDataField *intersect_field
);
Performs intersection betweet two grain fields,
result is stored in grain_field
.
Note: This function is equivalent to
gwy_data_field_min_of_fields(grain_field, grain_field, intersect_field);
and it will be probably removed someday.
|
field of marked grains (mask). |
|
Field of marked grains (mask). |
gint gwy_data_field_number_grains (GwyDataField *mask_field
,gint *grains
);
Numbers grains in a mask data field.
|
Data field containing positive values in grains, nonpositive in free space. |
|
Zero-filled array of integers of equal size to mask_field to put
grain numbers to. Empty space will be left 0, pixels inside a
grain will be set to grain number. Grains are numbered
sequentially 1, 2, 3, ... |
Returns : |
The number of last grain (note they are numbered from 1). |
gint * gwy_data_field_get_grain_bounding_boxes (GwyDataField *mask_field
,gint ngrains
,const gint *grains
,gint *bboxes
);
Find bounding boxes of all grains.
|
Data field containing positive values in grains, nonpositive
in free space. However its contents is ignored as all
grain information is taken from grains (its dimensions
determine the dimensions of grains ). |
|
The number of grains as returned by
gwy_data_field_number_grains() . |
|
Grain numbers filled with gwy_data_field_number_grains() . |
|
Array of size at least 4*(ngrains +1) to fill with grain bounding
boxes (as usual zero does not correspond to any grain, grains
start from 1). The bounding boxes are stored as quadruples of
indices: (xmin, ymin, width, height). It can be NULL to allocate
a new array. |
Returns : |
Either bboxes (if it was not NULL ), or a newly allocated array
of size 4(ngrains + 1). |
Since 2.3
GwyDataLine * gwy_data_field_grains_get_distribution (GwyDataField *data_field
,GwyDataField *grain_field
,GwyDataLine *distribution
,gint ngrains
,const gint *grains
,GwyGrainQuantity quantity
,gint nstats
);
Computes distribution of requested grain characteristics.
Puts number of grains vs. grain value data into distribution
, units, scales
and offsets of distribution
are updated accordingly.
|
Data field used for marking. For some quantities its values are not used, but units and physical dimensions are always taken from it. |
|
Data field (mask) of marked grains. Note if you pass
non-NULL grains all grain information is taken from it and
grain_field can be even NULL then. |
|
Data line to store grain distribution to. |
|
The number of grains as returned by
gwy_data_field_number_grains() . Ignored in grains is NULL . |
|
Grain numbers filled with gwy_data_field_number_grains() if you
have it, or NULL (the function then finds grain numbers itself
which is not efficient for repeated use on the same grain field). |
|
The quantity to calculate. |
|
The number of samples to take on the distribution function. If nonpositive, a suitable resolution is determined automatically. |
Returns : |
A data line with the distribution: distribution itself if it was
not NULL , otherwise a newly created GwyDataLine caller must
destroy. If there are no grains, NULL is returned and
distribution is not changed. |
gdouble * gwy_data_field_grains_get_values (GwyDataField *data_field
,gdouble *values
,gint ngrains
,const gint *grains
,GwyGrainQuantity quantity
);
Calculates characteristics of grains.
This is a bit low-level function, see also
gwy_data_field_grains_get_distribution()
.
The array values
will be filled with the requested grain value for each
individual grain (0th item of values
which does not correspond to any grain
will be overwritten with an arbitrary value and should be ignored).
The grain numbers serve as indices in values
. Therefore as long as the
same grains
is used, the same position in values
corresponds to the same
particular grain. This enables one for instance to calculate grain sizes
and grain heights and then correlate them.
|
Data field used for marking. For some quantities its values
are not used, but its dimensions determine the dimensions of
grains . |
|
Array of size ngrains +1 to put grain values to. It can be
NULL to allocate and return a new array. |
|
The number of grains as returned by
gwy_data_field_number_grains() . |
|
Grain numbers filled with gwy_data_field_number_grains() . |
|
The quantity to calculate. |
Returns : |
values itself if it was not NULL , otherwise a newly allocated
array that caller has to free. |
gdouble ** gwy_data_field_grains_get_quantities (GwyDataField *data_field
,gdouble **values
,const GwyGrainQuantity *quantities
,guint nquantities
,guint ngrains
,const gint *grains
);
Calculates multiple characteristics of grains simultaneously.
See gwy_data_field_grains_get_values()
for some discussion. This function
is more efficient if several grain quantities need to be calculated since
gwy_data_field_grains_get_values()
can do lot of repeated work in such case.
|
Data field used for marking. For some quantities its values
are not used, but its dimensions determine the dimensions of
grains . |
|
Array of nquantities pointers to blocks of length ngrains +1 to
put the calculated grain values to. Each block corresponds to one
requested quantity. NULL can be passed to allocate and return a
new array. |
|
Array of nquantities items that specify the requested
GwyGrainQuantity to put to corresponding items in values .
Quantities can repeat. |
|
The number of requested different grain values. |
|
The number of grains as returned by
gwy_data_field_number_grains() . |
|
Grain numbers filled with gwy_data_field_number_grains() . |
Returns : |
values itself if it was not NULL , otherwise a newly allocated
array that caller has to free with g_free() , including the
contained arrays. |
Since 2.22
gboolean gwy_grain_quantity_needs_same_units (GwyGrainQuantity quantity
);
Tests whether a grain quantity is defined only when lateral and value units match.
|
A grain quantity. |
Returns : |
TRUE if quantity is meaningless when lateral and value units
differ, FALSE if it is always defined. |
Since 2.7
GwySIUnit * gwy_grain_quantity_get_units (GwyGrainQuantity quantity
,GwySIUnit *siunitxy
,GwySIUnit *siunitz
,GwySIUnit *result
);
Calculates the units of a grain quantity.
|
A grain quantity. |
|
Lateral SI unit of data. |
|
Value SI unit of data. |
|
An SI unit to set to the units of quantity .
It can be NULL , a new SI unit is created then and returned. |
Returns : |
When result is NULL , a newly creates SI unit that has to be
dereferenced when no longer used later. Otherwise result itself
is simply returned, its reference count is NOT increased. |
Since 2.7
void gwy_data_field_area_grains_tgnd (GwyDataField *data_field
,GwyDataLine *target_line
,gint col
,gint row
,gint width
,gint height
,gboolean below
,gint nstats
);
Calculates threshold grain number distribution.
This function is a simple gwy_data_field_area_grains_tgnd_range()
that
calculates the distribution in the full range.
|
A data field. |
|
A data line to store the distribution to. It will be resampled to the requested width. |
|
Upper-left column coordinate. |
|
Upper-left row coordinate. |
|
Area width (number of columns). |
|
Area height (number of rows). |
|
If TRUE , valleys are marked, otherwise mountains are marked. |
|
The number of samples to take on the distribution function. If nonpositive, a suitable resolution is determined automatically. |
void gwy_data_field_area_grains_tgnd_range (GwyDataField *data_field
,GwyDataLine *target_line
,gint col
,gint row
,gint width
,gint height
,gdouble min
,gdouble max
,gboolean below
,gint nstats
);
Calculates threshold grain number distribution in given height range.
This is the number of grains for each of nstats
equidistant height
threshold levels. For large nstats
this function is much faster than the
equivalent number of gwy_data_field_grains_mark_height()
calls.
|
A data field. |
|
A data line to store the distribution to. It will be resampled to the requested width. |
|
Upper-left column coordinate. |
|
Upper-left row coordinate. |
|
Area width (number of columns). |
|
Area height (number of rows). |
|
Minimum threshold value. |
|
Maximum threshold value. |
|
If TRUE , valleys are marked, otherwise mountains are marked. |
|
The number of samples to take on the distribution function. If nonpositive, a suitable resolution is determined automatically. |
void gwy_data_field_grains_splash_water (GwyDataField *data_field
,GwyDataField *minima
,gint locate_steps
,gdouble locate_dropsize
);