static void load_args(GwyContainer *container, UnrotateArgs *args) { *args = unrotate_defaults; gwy_container_gis_enum_by_name(container, interp_key, &args->interp); gwy_container_gis_enum_by_name(container, symmetry_key, &args->symmetry); sanitize_args(args); }
static void dwt_load_args(GwyContainer *container, DWTArgs *args) { *args = dwt_defaults; gwy_container_gis_enum_by_name(container, interp_key, &args->interp); gwy_container_gis_enum_by_name(container, wavelet_key, &args->wavelet); dwt_sanitize_args(args); }
static void maskcor_load_args(GwyContainer *settings, MaskcorArgs *args) { *args = maskcor_defaults; gwy_container_gis_enum_by_name(settings, result_key, &args->result); gwy_container_gis_enum_by_name(settings, method_key, &args->method); gwy_container_gis_double_by_name(settings, threshold_key, &args->threshold); args->kernel = kernel_id; maskcor_sanitize_args(args); }
static void dwt_denoise_load_args(GwyContainer *container, DWTDenoiseArgs *args) { *args = dwt_denoise_defaults; gwy_container_gis_boolean_by_name(container, preserve_key, &args->preserve); gwy_container_gis_enum_by_name(container, interp_key, &args->interp); gwy_container_gis_enum_by_name(container, wavelet_key, &args->wavelet); gwy_container_gis_enum_by_name(container, method_key, &args->method); dwt_denoise_sanitize_args(args); }
static void dwt_anisotropy_load_args(GwyContainer *container, DWTAnisotropyArgs *args) { *args = dwt_anisotropy_defaults; gwy_container_gis_enum_by_name(container, interp_key, &args->interp); gwy_container_gis_enum_by_name(container, wavelet_key, &args->wavelet); gwy_container_gis_double_by_name(container, ratio_key, &args->ratio); gwy_container_gis_int32_by_name(container, lowlimit_key, &args->lowlimit); dwt_anisotropy_sanitize_args(args); }
static void cwt_load_args(GwyContainer *container, CWTArgs *args) { *args = cwt_defaults; gwy_container_gis_boolean_by_name(container, preserve_key, &args->preserve); gwy_container_gis_enum_by_name(container, interp_key, &args->interp); gwy_container_gis_enum_by_name(container, wavelet_key, &args->wavelet); gwy_container_gis_double_by_name(container, scale_key, &args->scale); cwt_sanitize_args(args); }
static void immerse_load_args(GwyContainer *settings, ImmerseArgs *args) { *args = immerse_defaults; gwy_container_gis_enum_by_name(settings, sampling_key, &args->sampling); gwy_container_gis_enum_by_name(settings, leveling_key, &args->leveling); gwy_container_gis_boolean_by_name(settings, draw_frame_key, &args->draw_frame); gwy_container_gis_double_by_name(settings, xpos_key, &args->xpos); gwy_container_gis_double_by_name(settings, ypos_key, &args->ypos); args->detail = detail_id; immerse_sanitize_args(args); }
static void scale_load_args(GwyContainer *container, ScaleArgs *args) { *args = scale_defaults; gwy_container_gis_double_by_name(container, ratio_key, &args->ratio); gwy_container_gis_enum_by_name(container, interp_key, &args->interp); gwy_container_gis_enum_by_name(container, proportional_key, &args->proportional); gwy_container_gis_double_by_name(container, aspectratio_key, &args->aspectratio); scale_sanitize_args(args); }
static void merge_load_args(GwyContainer *settings, MergeArgs *args) { *args = merge_defaults; gwy_container_gis_enum_by_name(settings, direction_key, &args->direction); gwy_container_gis_enum_by_name(settings, mode_key, &args->mode); gwy_container_gis_enum_by_name(settings, boundary_key, &args->boundary); gwy_container_gis_boolean_by_name(settings, create_mask_key, &args->create_mask); gwy_container_gis_boolean_by_name(settings, crop_to_rectangle_key, &args->crop_to_rectangle); args->op2 = op2_id; merge_sanitize_args(args); }
static void load_args(GwyContainer *container, EntropyArgs *args) { *args = slope_defaults; gwy_container_gis_enum_by_name(container, mode_key, &args->mode); gwy_container_gis_enum_by_name(container, masking_key, &args->masking); gwy_container_gis_boolean_by_name(container, zoom_in_key, &args->zoom_in); gwy_container_gis_boolean_by_name(container, fit_plane_key, &args->fit_plane); gwy_container_gis_int32_by_name(container, kernel_size_key, &args->kernel_size); sanitize_args(args); }
static void level_load_args(GwyContainer *container, LevelArgs *args) { *args = level_defaults; gwy_container_gis_enum_by_name(container, level_mode_key, &args->level_mode); }
static void load_args(GwyContainer *container, LevelArgs *args) { *args = level_defaults; gwy_container_gis_enum_by_name(container, masking_key, &args->masking); args->masking = MIN(args->masking, GWY_MASK_INCLUDE); sanitize_args(args); }
static void psdflp_load_args(GwyContainer *container, PSDFLPArgs *args) { *args = psdflp_defaults; gwy_container_gis_enum_by_name(container, window_key, &args->window); gwy_container_gis_double_by_name(container, sigma_key, &args->sigma); psdflp_sanitize_args(args); }
static void load_args(GwyContainer *container, ToolControls *controls) { controls->mode = MASK_EDIT_SET; gwy_container_gis_enum_by_name(container, mode_key, &controls->mode); /* sanitize */ controls->mode = MIN(controls->mode, MASK_EDIT_INTERSECT); }
static void rotate_load_args(GwyContainer *container, RotateArgs *args) { *args = rotate_defaults; gwy_container_gis_double_by_name(container, angle_key, &args->angle); gwy_container_gis_enum_by_name(container, interp_key, &args->interp); gwy_container_gis_boolean_by_name(container, expand_key, &args->expand); rotate_sanitize_args(args); }
static void load_args(GwyContainer *container, LevelGrainsArgs *args) { *args = level_grains_defaults; gwy_container_gis_enum_by_name(container, base_key, &args->base); gwy_container_gis_boolean_by_name(container, do_extract_key, &args->do_extract); sanitize_args(args); }
static void sphrev_load_args(GwyContainer *container, Sphrev1DArgs *args) { *args = sphrev_defaults; gwy_container_gis_double_by_name(container, radius_key, &args->size); gwy_container_gis_enum_by_name(container, direction_key, &args->direction); gwy_container_gis_boolean_by_name(container, do_extract_key, &args->do_extract); sphrev_sanitize_args(args); }
static void grain_dist_load_args(GwyContainer *container, GrainDistArgs *args) { *args = grain_dist_defaults; gwy_container_gis_boolean_by_name(container, fixres_key, &args->fixres); gwy_container_gis_int32_by_name(container, selected_key, &args->selected); gwy_container_gis_int32_by_name(container, resolution_key, &args->resolution); gwy_container_gis_enum_by_name(container, mode_key, &args->mode); grain_dist_sanitize_args(args); }
static void facets_load_args(GwyContainer *container, FacetsArgs *args) { *args = facets_defaults; gwy_container_gis_boolean_by_name(container, combine_key, &args->combine); gwy_container_gis_double_by_name(container, tolerance_key, &args->tolerance); gwy_container_gis_int32_by_name(container, kernel_size_key, &args->kernel_size); gwy_container_gis_enum_by_name(container, combine_type_key, &args->combine_type); facets_sanitize_args(args); }
static void load_args(GwyContainer *container, CurvatureArgs *args) { *args = curvature_defaults; gwy_container_gis_enum_by_name(container, masking_key, &args->masking); gwy_container_gis_boolean_by_name(container, set_selection_key, &args->set_selection); gwy_container_gis_boolean_by_name(container, plot_graph_key, &args->plot_graph); args->target_graph = target_id; sanitize_args(args); }
static void noise_synth_load_args(GwyContainer *container, NoiseSynthArgs *args, GwyDimensionArgs *dimsargs) { *args = noise_synth_defaults; gwy_container_gis_int32_by_name(container, active_page_key, &args->active_page); gwy_container_gis_boolean_by_name(container, update_key, &args->update); gwy_container_gis_int32_by_name(container, seed_key, &args->seed); gwy_container_gis_boolean_by_name(container, randomize_key, &args->randomize); gwy_container_gis_enum_by_name(container, distribution_key, &args->distribution); gwy_container_gis_enum_by_name(container, direction_key, &args->direction); gwy_container_gis_double_by_name(container, sigma_key, &args->sigma); noise_synth_sanitize_args(args); gwy_clear(dimsargs, 1); gwy_dimensions_copy_args(&dims_defaults, dimsargs); gwy_dimensions_load_args(dimsargs, container, prefix); }
static void prof_load_args(GwyContainer *container, ProfArgs *args) { *args = prof_defaults; gwy_container_gis_boolean_by_name(container, separate_key, &args->separate); gwy_container_gis_boolean_by_name(container, fixres_key, &args->fixres); gwy_container_gis_int32_by_name(container, resolution_key, &args->resolution); gwy_container_gis_enum_by_name(container, interpolation_key, &args->interpolation); args->target_graph = target_id; prof_sanitize_args(args); }
static void tip_model_load_args(GwyContainer *container, TipModelArgs *args) { *args = tip_model_defaults; args->type = 0; gwy_container_gis_int32_by_name(container, nsides_key, &args->nsides); gwy_container_gis_double_by_name(container, angle_key, &args->angle); gwy_container_gis_double_by_name(container, theta_key, &args->theta); gwy_container_gis_double_by_name(container, radius_key, &args->radius); gwy_container_gis_enum_by_name(container, type_key, &args->type); tip_model_sanitize_args(args); }
static void load_args(GwyContainer *container, PolyLevelArgs *args) { *args = poly_level_defaults; gwy_container_gis_int32_by_name(container, col_degree_key, &args->col_degree); gwy_container_gis_int32_by_name(container, row_degree_key, &args->row_degree); gwy_container_gis_int32_by_name(container, max_degree_key, &args->max_degree); gwy_container_gis_enum_by_name(container, masking_key, &args->masking); gwy_container_gis_boolean_by_name(container, do_extract_key, &args->do_extract); gwy_container_gis_boolean_by_name(container, same_degree_key, &args->same_degree); gwy_container_gis_boolean_by_name(container, independent_key, &args->independent); sanitize_args(args); }
static void gfilter_load_args(GwyContainer *container, GFilterArgs *args) { GwyInventory *inventory; gchar *filename, *buffer; gsize size; guint i; inventory = gwy_grain_values(); *args = gfilter_defaults; gwy_container_gis_boolean_by_name(container, update_key, &args->update); gwy_container_gis_int32_by_name(container, expanded_key, &args->expanded); gwy_container_gis_enum_by_name(container, logical_key, &args->logical); for (i = 0; i < NQUANTITIES; i++) { RangeRecord *rr = args->ranges + i; gchar buf[sizeof(quantity_key) + 10]; g_snprintf(buf, sizeof(buf), "%s%u", quantity_key, i+1); gwy_container_gis_string_by_name(container, buf, (const guchar**)&rr->quantity); } args->ranges_history = g_hash_table_new_full(g_str_hash, g_str_equal, NULL, range_record_free); filename = g_build_filename(gwy_get_user_dir(), "grain_filter", "ranges", NULL); if (g_file_get_contents(filename, &buffer, &size, NULL)) { gchar *p = buffer, *line; for (line = gwy_str_next_line(&p); line; line = gwy_str_next_line(&p)) { g_strstrip(line); if (*line) { GwyGrainValue *gvalue; RangeRecord *rr; gchar *s = line, *end; gdouble lower, upper; lower = g_ascii_strtod(s, &end); s = end; upper = g_ascii_strtod(s, &end); if (end == s) { g_warning("Invalid grain_filter range record: %s.", line); continue; } s = end; g_strstrip(s); if (!(gvalue = gwy_inventory_get_item(inventory, s))) { g_warning("Invalid grain_filter range record: %s.", line); continue; } rr = g_slice_new(RangeRecord); rr->lower = lower; rr->upper = upper; rr->quantity = gwy_resource_get_name(GWY_RESOURCE(gvalue)); g_hash_table_insert(args->ranges_history, (gpointer)rr->quantity, rr); } } g_free(buffer); } g_free(filename); gfilter_sanitize_args(args); }