Exemplos de grains_get_total_value em C++ (Cpp)

Linguagem de programação: C++ (Cpp)

Método / Função: grains_get_total_value

Exemplos em hotexamples.com: 2

grains_get_total_value em C++ (Cpp) - 2 exemplos encontrados. Esses são os exemplos do mundo real mais bem avaliados de grains_get_total_value em C++ (Cpp) extraídos de projetos de código aberto. Você pode avaliar os exemplos para nos ajudar a melhorar a qualidade deles.

Exemplo n.º 1

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Arquivo: grain_stat.c Projeto: cbuehler/gwyddion

static void grain_stat(GwyContainer *data, GwyRunType run) { GtkWidget *dialog, *table, *hbox, *button; GwyDataField *dfield, *mfield; GwySIUnit *siunit, *siunit2; GwySIValueFormat *vf, *vf2; gint xres, yres, ngrains; gdouble total_area, area, size, vol_0, vol_min, vol_laplace, bound_len, v; gdouble *values = NULL; gint *grains; GString *str, *str2; GPtrArray *report; const guchar *title; gchar *key, *value; gint row, id; guint i, maxlen; g_return_if_fail(run & STAT_RUN_MODES); gwy_app_data_browser_get_current(GWY_APP_DATA_FIELD, &dfield, GWY_APP_MASK_FIELD, &mfield, GWY_APP_DATA_FIELD_ID, &id, 0); g_return_if_fail(dfield); g_return_if_fail(mfield); report = g_ptr_array_sized_new(20); if (gwy_container_gis_string_by_name(data, "/filename", &title)) { g_ptr_array_add(report, _("File:")); g_ptr_array_add(report, g_strdup(title)); } key = g_strdup_printf("/%d/data/title", id); if (gwy_container_gis_string_by_name(data, key, &title)) { g_ptr_array_add(report, _("Data channel:")); g_ptr_array_add(report, g_strdup(title)); } g_free(key); /* Make empty line in the report */ g_ptr_array_add(report, NULL); g_ptr_array_add(report, NULL); xres = gwy_data_field_get_xres(mfield); yres = gwy_data_field_get_yres(mfield); total_area = gwy_data_field_get_xreal(dfield) *gwy_data_field_get_yreal(dfield); grains = g_new0(gint, xres*yres); ngrains = gwy_data_field_number_grains(mfield, grains); area = grains_get_total_value(dfield, ngrains, grains, &values, GWY_GRAIN_VALUE_PROJECTED_AREA); size = grains_get_total_value(dfield, ngrains, grains, &values, GWY_GRAIN_VALUE_EQUIV_SQUARE_SIDE); vol_0 = grains_get_total_value(dfield, ngrains, grains, &values, GWY_GRAIN_VALUE_VOLUME_0); vol_min = grains_get_total_value(dfield, ngrains, grains, &values, GWY_GRAIN_VALUE_VOLUME_MIN); vol_laplace = grains_get_total_value(dfield, ngrains, grains, &values, GWY_GRAIN_VALUE_VOLUME_LAPLACE); bound_len = grains_get_total_value(dfield, ngrains, grains, &values, GWY_GRAIN_VALUE_FLAT_BOUNDARY_LENGTH); g_free(values); g_free(grains); dialog = gtk_dialog_new_with_buttons(_("Grain Statistics"), NULL, 0, GTK_STOCK_CLOSE, GTK_RESPONSE_CLOSE, NULL); gwy_help_add_to_proc_dialog(GTK_DIALOG(dialog), GWY_HELP_DEFAULT); table = gtk_table_new(10, 2, FALSE); gtk_container_add(GTK_CONTAINER(GTK_DIALOG(dialog)->vbox), table); gtk_container_set_border_width(GTK_CONTAINER(table), 4); row = 0; str = g_string_new(NULL); str2 = g_string_new(NULL); g_string_printf(str, "%d", ngrains); add_report_row(GTK_TABLE(table), &row, _("Number of grains:"), str->str, str->str, report); siunit = gwy_data_field_get_si_unit_xy(dfield); siunit2 = gwy_si_unit_power(siunit, 2, NULL); v = area; vf = gwy_si_unit_get_format_with_digits(siunit2, GWY_SI_UNIT_FORMAT_VFMARKUP, v, 3, NULL); vf2 = gwy_si_unit_get_format_with_digits(siunit2, GWY_SI_UNIT_FORMAT_PLAIN, v, 3, NULL); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); g_string_printf(str2, "%.*f %s", vf2->precision, v/vf2->magnitude, vf2->units); add_report_row(GTK_TABLE(table), &row, _("Total projected area (abs.):"), str->str, str2->str, report); g_string_printf(str, "%.2f %%", 100.0*area/total_area); add_report_row(GTK_TABLE(table), &row, _("Total projected area (rel.):"), str->str, str->str, report); v = area/ngrains; gwy_si_unit_get_format_with_digits(siunit2, GWY_SI_UNIT_FORMAT_VFMARKUP, v, 3, vf); gwy_si_unit_get_format_with_digits(siunit2, GWY_SI_UNIT_FORMAT_PLAIN, v, 3, vf2); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); g_string_printf(str2, "%.*f %s", vf2->precision, v/vf2->magnitude, vf2->units); add_report_row(GTK_TABLE(table), &row, _("Mean grain area:"), str->str, str2->str, report); v = size/ngrains; gwy_si_unit_get_format_with_digits(siunit, GWY_SI_UNIT_FORMAT_VFMARKUP, v, 3, vf); gwy_si_unit_get_format_with_digits(siunit, GWY_SI_UNIT_FORMAT_PLAIN, v, 3, vf2); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); g_string_printf(str2, "%.*f %s", vf2->precision, v/vf2->magnitude, vf2->units); add_report_row(GTK_TABLE(table), &row, _("Mean grain size:"), str->str, str2->str, report); siunit = gwy_data_field_get_si_unit_z(dfield); gwy_si_unit_multiply(siunit2, siunit, siunit2); v = vol_0; gwy_si_unit_get_format_with_digits(siunit2, GWY_SI_UNIT_FORMAT_VFMARKUP, v, 3, vf); gwy_si_unit_get_format_with_digits(siunit2, GWY_SI_UNIT_FORMAT_PLAIN, v, 3, vf2); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); g_string_printf(str2, "%.*f %s", vf2->precision, v/vf2->magnitude, vf2->units); add_report_row(GTK_TABLE(table), &row, _("Total grain volume (zero):"), str->str, str2->str, report); v = vol_min; gwy_si_unit_get_format_with_digits(siunit2, GWY_SI_UNIT_FORMAT_VFMARKUP, v, 3, vf); gwy_si_unit_get_format_with_digits(siunit2, GWY_SI_UNIT_FORMAT_PLAIN, v, 3, vf2); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); g_string_printf(str2, "%.*f %s", vf2->precision, v/vf2->magnitude, vf2->units); add_report_row(GTK_TABLE(table), &row, _("Total grain volume (minimum):"), str->str, str2->str, report); v = vol_laplace; gwy_si_unit_get_format_with_digits(siunit2, GWY_SI_UNIT_FORMAT_VFMARKUP, v, 3, vf); gwy_si_unit_get_format_with_digits(siunit2, GWY_SI_UNIT_FORMAT_PLAIN, v, 3, vf2); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); g_string_printf(str2, "%.*f %s", vf2->precision, v/vf2->magnitude, vf2->units); add_report_row(GTK_TABLE(table), &row, _("Total grain volume (laplacian):"), str->str, str2->str, report); v = bound_len; gwy_si_unit_get_format_with_digits(siunit, GWY_SI_UNIT_FORMAT_VFMARKUP, v, 3, vf); gwy_si_unit_get_format_with_digits(siunit, GWY_SI_UNIT_FORMAT_PLAIN, v, 3, vf2); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); g_string_printf(str2, "%.*f %s", vf2->precision, v/vf2->magnitude, vf2->units); add_report_row(GTK_TABLE(table), &row, _("Total projected boundary length:"), str->str, str2->str, report); gwy_si_unit_value_format_free(vf2); gwy_si_unit_value_format_free(vf); g_object_unref(siunit2); maxlen = 0; for (i = 0; i < report->len/2; i++) { key = (gchar*)g_ptr_array_index(report, 2*i); if (key) maxlen = MAX(strlen(key), maxlen); } g_string_truncate(str, 0); g_string_append(str, _("Grain Statistics")); g_string_append(str, "\n\n"); for (i = 0; i < report->len/2; i++) { key = (gchar*)g_ptr_array_index(report, 2*i); if (key) { value = (gchar*)g_ptr_array_index(report, 2*i + 1); g_string_append_printf(str, "%-*s %s\n", maxlen+1, key, value); g_free(value); } else g_string_append_c(str, '\n'); } g_ptr_array_free(report, TRUE); g_object_set_data(G_OBJECT(dialog), "report", str->str); hbox = gtk_hbox_new(FALSE, 0); gtk_box_pack_start(GTK_BOX(GTK_DIALOG(dialog)->vbox), hbox, FALSE, FALSE, 0); button = grain_stats_add_aux_button(hbox, GTK_STOCK_SAVE, _("Save table to a file")); g_signal_connect_swapped(button, "clicked", G_CALLBACK(grain_stat_save), dialog); button = grain_stats_add_aux_button(hbox, GTK_STOCK_COPY, _("Copy table to clipboard")); g_signal_connect_swapped(button, "clicked", G_CALLBACK(grain_stat_copy), dialog); gtk_widget_show_all(dialog); gtk_dialog_run(GTK_DIALOG(dialog)); gtk_widget_destroy(dialog); g_string_free(str2, TRUE); g_string_free(str, TRUE); }

Exemplo n.º 2

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Arquivo: grain_dist.c Projeto: svn2github/gwyddion

static void grain_stat(G_GNUC_UNUSED GwyContainer *data, GwyRunType run) { GtkWidget *dialog, *table; GwyDataField *dfield, *mfield; GwySIUnit *siunit, *siunit2; GwySIValueFormat *vf; gint xres, yres, ngrains; gdouble total_area, area, size, vol_0, vol_min, vol_laplace, v; gdouble *values = NULL; gint *grains; GString *str; gint row; g_return_if_fail(run & STAT_RUN_MODES); gwy_app_data_browser_get_current(GWY_APP_DATA_FIELD, &dfield, GWY_APP_MASK_FIELD, &mfield, 0); g_return_if_fail(dfield); g_return_if_fail(mfield); xres = gwy_data_field_get_xres(mfield); yres = gwy_data_field_get_yres(mfield); total_area = gwy_data_field_get_xreal(dfield) *gwy_data_field_get_yreal(dfield); grains = g_new0(gint, xres*yres); ngrains = gwy_data_field_number_grains(mfield, grains); area = grains_get_total_value(dfield, ngrains, grains, &values, GWY_GRAIN_VALUE_PROJECTED_AREA); size = grains_get_total_value(dfield, ngrains, grains, &values, GWY_GRAIN_VALUE_EQUIV_SQUARE_SIDE); vol_0 = grains_get_total_value(dfield, ngrains, grains, &values, GWY_GRAIN_VALUE_VOLUME_0); vol_min = grains_get_total_value(dfield, ngrains, grains, &values, GWY_GRAIN_VALUE_VOLUME_MIN); vol_laplace = grains_get_total_value(dfield, ngrains, grains, &values, GWY_GRAIN_VALUE_VOLUME_LAPLACE); g_free(values); g_free(grains); dialog = gtk_dialog_new_with_buttons(_("Grain Statistics"), NULL, 0, GTK_STOCK_CLOSE, GTK_RESPONSE_CLOSE, NULL); gtk_dialog_set_has_separator(GTK_DIALOG(dialog), FALSE); table = gtk_table_new(7, 2, FALSE); gtk_container_add(GTK_CONTAINER(GTK_DIALOG(dialog)->vbox), table); gtk_container_set_border_width(GTK_CONTAINER(table), 4); row = 0; str = g_string_new(NULL); g_string_printf(str, "%d", ngrains); add_report_row(GTK_TABLE(table), &row, _("Number of grains:"), str->str); siunit = gwy_data_field_get_si_unit_xy(dfield); siunit2 = gwy_si_unit_power(siunit, 2, NULL); v = area; vf = gwy_si_unit_get_format(siunit2, GWY_SI_UNIT_FORMAT_VFMARKUP, v, NULL); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); add_report_row(GTK_TABLE(table), &row, _("Total projected area (abs.):"), str->str); g_string_printf(str, "%.2f %%", 100.0*area/total_area); add_report_row(GTK_TABLE(table), &row, _("Total projected area (rel.):"), str->str); v = area/ngrains; gwy_si_unit_get_format(siunit2, GWY_SI_UNIT_FORMAT_VFMARKUP, v, vf); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); add_report_row(GTK_TABLE(table), &row, _("Mean grain area:"), str->str); v = size/ngrains; gwy_si_unit_get_format(siunit, GWY_SI_UNIT_FORMAT_VFMARKUP, v, vf); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); add_report_row(GTK_TABLE(table), &row, _("Mean grain size:"), str->str); siunit = gwy_data_field_get_si_unit_z(dfield); gwy_si_unit_multiply(siunit2, siunit, siunit2); v = vol_0; gwy_si_unit_get_format(siunit2, GWY_SI_UNIT_FORMAT_VFMARKUP, v, vf); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); add_report_row(GTK_TABLE(table), &row, _("Total grain volume (zero):"), str->str); v = vol_min; gwy_si_unit_get_format(siunit2, GWY_SI_UNIT_FORMAT_VFMARKUP, v, vf); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); add_report_row(GTK_TABLE(table), &row, _("Total grain volume (minimum):"), str->str); v = vol_laplace; gwy_si_unit_get_format(siunit2, GWY_SI_UNIT_FORMAT_VFMARKUP, v, vf); g_string_printf(str, "%.*f %s", vf->precision, v/vf->magnitude, vf->units); add_report_row(GTK_TABLE(table), &row, _("Total grain volume (laplacian):"), str->str); gwy_si_unit_value_format_free(vf); g_string_free(str, TRUE); g_object_unref(siunit2); gtk_widget_show_all(dialog); gtk_dialog_run(GTK_DIALOG(dialog)); gtk_widget_destroy(dialog); }