GRASS GIS 8 Programmer's Manual
8.5.0dev(2024)-d6dec75dd4
|
#include <grass/N_pde.h>
Go to the source code of this file.
Functions | |
void | N_calc_gradient_field_2d_stats (N_gradient_field_2d *field) |
Calculate basic statistics of a gradient field. More... | |
N_gradient_field_2d * | N_compute_gradient_field_2d (N_array_2d *pot, N_array_2d *weight_x, N_array_2d *weight_y, N_geom_data *geom, N_gradient_field_2d *gradfield) |
This function computes the gradient based on the input N_array_2d pot (potential), a weighting factor N_array_2d named weight and the distance between two cells saved in the N_geom_data struct. More... | |
void | N_compute_gradient_field_components_2d (N_gradient_field_2d *field, N_array_2d *x_comp, N_array_2d *y_comp) |
Calculate the x and y vector components from a gradient field for each cell and stores them in the provided N_array_2d structures. More... | |
void | N_calc_gradient_field_3d_stats (N_gradient_field_3d *field) |
Calculate basic statistics of a gradient field. More... | |
N_gradient_field_3d * | N_compute_gradient_field_3d (N_array_3d *pot, N_array_3d *weight_x, N_array_3d *weight_y, N_array_3d *weight_z, N_geom_data *geom, N_gradient_field_3d *gradfield) |
This function computes the gradient based on the input N_array_3d pot (that means potential), a weighting factor N_array_3d named weight and the distance between two cells saved in the N_geom_data struct. More... | |
void | N_compute_gradient_field_components_3d (N_gradient_field_3d *field, N_array_3d *x_comp, N_array_3d *y_comp, N_array_3d *z_comp) |
Calculate the x, y and z vector components from a gradient field for each cell and store them in the provided N_array_3d structures. More... | |
void N_calc_gradient_field_2d_stats | ( | N_gradient_field_2d * | field | ) |
Calculate basic statistics of a gradient field.
The statistic is stored in the gradient field struct
field | N_gradient_2d_field * |
Definition at line 28 of file n_gradient_calc.c.
References G_debug(), N_gradient_field_2d::max, N_gradient_field_2d::mean, N_gradient_field_2d::min, N_calc_array_2d_stats(), N_gradient_field_2d::nonull, N_gradient_field_2d::sum, N_gradient_field_2d::x_array, and N_gradient_field_2d::y_array.
Referenced by N_compute_gradient_field_2d().
void N_calc_gradient_field_3d_stats | ( | N_gradient_field_3d * | field | ) |
Calculate basic statistics of a gradient field.
The statistic is stored in the gradient field struct
field | N_gradient_3d_field * |
Definition at line 303 of file n_gradient_calc.c.
References G_debug(), N_gradient_field_3d::max, N_gradient_field_3d::mean, N_gradient_field_3d::min, N_calc_array_3d_stats(), N_gradient_field_3d::nonull, N_gradient_field_3d::sum, N_gradient_field_3d::x_array, N_gradient_field_3d::y_array, and N_gradient_field_3d::z_array.
Referenced by N_compute_gradient_field_3d().
N_gradient_field_2d* N_compute_gradient_field_2d | ( | N_array_2d * | pot, |
N_array_2d * | weight_x, | ||
N_array_2d * | weight_y, | ||
N_geom_data * | geom, | ||
N_gradient_field_2d * | gradfield | ||
) |
This function computes the gradient based on the input N_array_2d pot (potential), a weighting factor N_array_2d named weight and the distance between two cells saved in the N_geom_data struct.
The gradient is calculated between cells for each cell and direction. An existing gradient field can be filled with new data or, if a NULL pointer is given, a new gradient field will be allocated with the appropriate size.
______________ | | | | | | | | |----|-NC-|----| | | | | | WC EC | | | | | |----|-SC-|----| | | | | |____|____|____| x - direction: r = 2 * weight[row][col]*weight[row][col + 1] / (weight[row][col]*weight[row][col + 1]) EC = r * (pot[row][col] - pot[row][col + 1])/dx y - direction: r = 2 * weight[row][col]*weight[row + 1][col] / (weight[row][col]*weight[row + 1][col]) SC = r * (pot[row][col] - pot[row + 1][col])/dy the values SC and EC are the values of the next row/col
pot | N_array_2d * - the potential N_array_2d |
weight_x | N_array_2d * - the weighting factor N_array_2d used to modify the gradient in x-direction |
weight_y | N_array_2d * - the weighting factor N_array_2d used to modify the gradient in y-direction |
geom | N_geom_data * - geometry data structure |
gradfield | N_gradient_field_2d * - a gradient field of the correct size, if a NULL pointer is provided this gradient field will be new allocated |
Definition at line 109 of file n_gradient_calc.c.
References N_geom_data::cols, N_array_2d::cols, N_gradient_field_2d::cols, N_geom_data::dx, N_geom_data::dy, G_debug(), G_fatal_error(), mean(), N_alloc_gradient_field_2d(), N_calc_gradient_field_2d_stats(), N_calc_harmonic_mean(), N_get_array_2d_d_value(), N_is_array_2d_value_null(), N_put_array_2d_d_value(), NULL, N_geom_data::rows, N_array_2d::rows, N_gradient_field_2d::rows, N_gradient_field_2d::x_array, and N_gradient_field_2d::y_array.
N_gradient_field_3d* N_compute_gradient_field_3d | ( | N_array_3d * | pot, |
N_array_3d * | weight_x, | ||
N_array_3d * | weight_y, | ||
N_array_3d * | weight_z, | ||
N_geom_data * | geom, | ||
N_gradient_field_3d * | gradfield | ||
) |
This function computes the gradient based on the input N_array_3d pot (that means potential), a weighting factor N_array_3d named weight and the distance between two cells saved in the N_geom_data struct.
The gradient is calculated between cells for each cell and direction. An existing gradient field can be filled with new data or, if a NULL pointer is given, a new gradient field will be allocated with the appropriate size.
| / TC NC |/ --WC-----EC-- /| SC BC / | x - direction: r = 2 * weight_x[depth][row][col]*weight_x[depth][row][col + 1] / (weight_X[depth][row][col]*weight_x[depth][row][col + 1]) EC = r * (pot[depth][row][col] - pot[depth][row][col + 1])/dx y - direction: r = 2 * weight_y[depth][row][col]*weight_y[depth][row + 1][col] / (weight_y[depth][row][col]*weight_y[depth][row + 1][col]) SC = r * (pot[depth][row][col] - pot[depth][row + 1][col])/dy z - direction: r = 2 * weight_z[depth][row][col]*weight_z[depth + 1][row][col] / (weight_z[depth][row][col]*weight_z[depth + 1][row][col]) TC = r * (pot[depth][row][col] - pot[depth + 1][row][col])/dy the values BC, NC, WC are the values of the next depth/row/col
pot | N_array_3d * - the potential N_array_2d |
weight_x | N_array_3d * - the weighting factor N_array_3d used to modify the gradient in x-direction |
weight_y | N_array_3d * - the weighting factor N_array_3d used to modify the gradient in y-direction |
weight_z | N_array_3d * - the weighting factor N_array_3d used to modify the gradient in z-direction |
geom | N_geom_data * - geometry data structure |
gradfield | N_gradient_field_3d * - a gradient field of the correct size, if a NULL pointer is provided this gradient field will be new allocated |
Definition at line 400 of file n_gradient_calc.c.
References N_geom_data::cols, N_array_3d::cols, N_gradient_field_3d::cols, N_geom_data::depths, N_array_3d::depths, N_gradient_field_3d::depths, N_geom_data::dx, N_geom_data::dy, N_geom_data::dz, G_debug(), G_fatal_error(), mean(), N_alloc_gradient_field_3d(), N_calc_gradient_field_3d_stats(), N_calc_harmonic_mean(), N_get_array_3d_d_value(), N_is_array_3d_value_null(), N_put_array_3d_d_value(), NULL, N_geom_data::rows, N_array_3d::rows, N_gradient_field_3d::rows, N_gradient_field_3d::x_array, N_gradient_field_3d::y_array, and N_gradient_field_3d::z_array.
void N_compute_gradient_field_components_2d | ( | N_gradient_field_2d * | field, |
N_array_2d * | x_comp, | ||
N_array_2d * | y_comp | ||
) |
Calculate the x and y vector components from a gradient field for each cell and stores them in the provided N_array_2d structures.
The arrays must have the same size as the gradient field.
Based on this storages scheme the gradient vector for each cell is calculated and stored in the provided N_array_2d structures ______________ | | | | | | | | |----|-NC-|----| | | | | | WC EC | | | | | |----|-SC-|----| | | | | |____|____|____| x vector component: x = (WC + EC) / 2 y vector component: y = (NC + SC) / 2
field | N_gradient_field_2d * |
x_comp | N_array_2d * - the array in which the x component will be written |
y_comp | N_array_2d * - the array in which the y component will be written |
Definition at line 242 of file n_gradient_calc.c.
References N_array_2d::cols, N_gradient_2d::EC, G_fatal_error(), N_get_gradient_2d(), N_put_array_2d_d_value(), N_gradient_2d::NC, N_array_2d::rows, N_gradient_2d::SC, N_gradient_2d::WC, x, and N_gradient_field_2d::x_array.
void N_compute_gradient_field_components_3d | ( | N_gradient_field_3d * | field, |
N_array_3d * | x_comp, | ||
N_array_3d * | y_comp, | ||
N_array_3d * | z_comp | ||
) |
Calculate the x, y and z vector components from a gradient field for each cell and store them in the provided N_array_3d structures.
The arrays must have the same size as the gradient field.
Based on this storages scheme the gradient vector for each cell is calculated and stored in the provided N_array_3d structures | / TC NC |/ --WC-----EC-- /| SC BC / | x vector component: x = (WC + EC) / 2 y vector component: y = (NC + SC) / 2 z vector component: z = (TC + BC) / 2
field | N_gradient_field_3d * |
x_comp | N_array_3d * - the array in which the x component will be written |
y_comp | N_array_3d * - the array in which the y component will be written |
z_comp | N_array_3d * - the array in which the z component will be written |
Definition at line 595 of file n_gradient_calc.c.
References N_gradient_3d::BC, N_array_3d::cols, N_array_3d::depths, N_gradient_3d::EC, G_fatal_error(), N_get_gradient_3d(), N_put_array_3d_d_value(), N_gradient_3d::NC, N_array_3d::rows, N_gradient_3d::SC, N_gradient_3d::TC, N_gradient_3d::WC, x, and N_gradient_field_3d::x_array.