Mercurial > dive4elements > river
view artifacts/src/main/java/org/dive4elements/river/artifacts/model/FacetTypes.java @ 9202:b4402594213b
More work on calculations and output for S-Info flood duration workflow (chart types 1 and 2)
| author | mschaefer |
|---|---|
| date | Mon, 02 Jul 2018 07:33:53 +0200 |
| parents | 0633f963c5be |
| children | c2a0028bfa9f |
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/* Copyright (C) 2011, 2012, 2013 by Bundesanstalt für Gewässerkunde * Software engineering by Intevation GmbH * * This file is Free Software under the GNU AGPL (>=v3) * and comes with ABSOLUTELY NO WARRANTY! Check out the * documentation coming with Dive4Elements River for details. */ package org.dive4elements.river.artifacts.model; /** 'Types' of facets. */ public interface FacetTypes { /** * Static helper class to determine if a Facet name is of a generalized * 'type'. */ public static class IS { public static boolean WQ_KM(final String type) { return type.equals(DISCHARGE_LONGITUDINAL_W) || type.equals(LONGITUDINAL_W); } public static boolean W_KM(final String type) { return type.equals(STATIC_WKMS) || type.equals(HEIGHTMARKS_POINTS) || WQ_KM(type); } public static boolean AREA(final String type) { return type.equals(AREA) || type.equals(CROSS_SECTION_AREA) || type.equals(LONGITUDINAL_SECTION_AREA); } public static boolean W(final String type) { return type.equals(LONGITUDINAL_W) || type.equals(DISCHARGE_LONGITUDINAL_W) || type.equals(DURATION_W) || type.equals(STATIC_WKMS) || type.equals(STATIC_WQKMS_W); } public static boolean Q(final String type) { return type.equals(LONGITUDINAL_Q) || type.equals(DISCHARGE_LONGITUDINAL_Q) || type.equals(DURATION_Q) || type.equals(STATIC_WQKMS_Q); } public static boolean V(final String type) { return type.equals(FLOW_VELOCITY_MAINCHANNEL) || type.equals(FLOW_VELOCITY_TOTALCHANNEL); } public static boolean T(final String type) { return type.equals(FLOW_VELOCITY_TAU); } public static boolean H(final String type) { return type.equals(MIDDLE_BED_HEIGHT_SINGLE); } public static boolean MANUALPOINTS(final String type) { return type.endsWith("manualpoints"); } public static boolean MANUALLINE(final String type) { return type.endsWith("manualline"); } public static boolean FILTERED(final String type) { return type.endsWith("filtered"); } public static boolean SQ_CURVE(final String type) { if (type.equals(SQ_A_CURVE) || type.equals(SQ_B_CURVE) || type.equals(SQ_C_CURVE) || type.equals(SQ_D_CURVE) || type.equals(SQ_E_CURVE) || type.equals(SQ_F_CURVE) || type.equals(SQ_G_CURVE) || type.equals(SQ_A_OUTLIER_CURVE) || type.equals(SQ_B_OUTLIER_CURVE) || type.equals(SQ_C_OUTLIER_CURVE) || type.equals(SQ_D_OUTLIER_CURVE) || type.equals(SQ_E_OUTLIER_CURVE) || type.equals(SQ_F_OUTLIER_CURVE) || type.equals(SQ_G_OUTLIER_CURVE) || type.equals(SQ_A_CURVE_OV) || type.equals(SQ_B_CURVE_OV) || type.equals(SQ_C_CURVE_OV) || type.equals(SQ_D_CURVE_OV) || type.equals(SQ_E_CURVE_OV) || type.equals(SQ_F_CURVE_OV) || type.equals(SQ_G_CURVE_OV) || type.equals(SQ_A_OUTLIER_CURVE_OV) || type.equals(SQ_B_OUTLIER_CURVE_OV) || type.equals(SQ_C_OUTLIER_CURVE_OV) || type.equals(SQ_D_OUTLIER_CURVE_OV) || type.equals(SQ_E_OUTLIER_CURVE_OV) || type.equals(SQ_F_OUTLIER_CURVE_OV) || type.equals(SQ_G_OUTLIER_CURVE_OV)) { return true; } return false; } public static boolean SQ_MEASUREMENT(final String type) { if (type.equals(SQ_A_MEASUREMENT) || type.equals(SQ_B_MEASUREMENT) || type.equals(SQ_C_MEASUREMENT) || type.equals(SQ_D_MEASUREMENT) || type.equals(SQ_E_MEASUREMENT) || type.equals(SQ_F_MEASUREMENT) || type.equals(SQ_G_MEASUREMENT) || type.equals(SQ_A_OUTLIER_MEASUREMENT) || type.equals(SQ_B_OUTLIER_MEASUREMENT) || type.equals(SQ_C_OUTLIER_MEASUREMENT) || type.equals(SQ_D_OUTLIER_MEASUREMENT) || type.equals(SQ_E_OUTLIER_MEASUREMENT) || type.equals(SQ_F_OUTLIER_MEASUREMENT) || type.equals(SQ_G_OUTLIER_MEASUREMENT) || type.equals(SQ_A_MEASUREMENT_OV) || type.equals(SQ_B_MEASUREMENT_OV) || type.equals(SQ_C_MEASUREMENT_OV) || type.equals(SQ_D_MEASUREMENT_OV) || type.equals(SQ_E_MEASUREMENT_OV) || type.equals(SQ_F_MEASUREMENT_OV) || type.equals(SQ_G_MEASUREMENT_OV) || type.equals(SQ_A_OUTLIER_MEASUREMENT_OV) || type.equals(SQ_B_OUTLIER_MEASUREMENT_OV) || type.equals(SQ_C_OUTLIER_MEASUREMENT_OV) || type.equals(SQ_D_OUTLIER_MEASUREMENT_OV) || type.equals(SQ_E_OUTLIER_MEASUREMENT_OV) || type.equals(SQ_F_OUTLIER_MEASUREMENT_OV) || type.equals(SQ_G_OUTLIER_MEASUREMENT_OV)) { return true; } return false; } public static boolean SQ_OUTLIER(final String type) { if (type.equals(SQ_A_OUTLIER) || type.equals(SQ_B_OUTLIER) || type.equals(SQ_C_OUTLIER) || type.equals(SQ_D_OUTLIER) || type.equals(SQ_E_OUTLIER) || type.equals(SQ_F_OUTLIER) || type.equals(SQ_G_OUTLIER) || type.equals(SQ_A_OUTLIER_OV) || type.equals(SQ_B_OUTLIER_OV) || type.equals(SQ_C_OUTLIER_OV) || type.equals(SQ_D_OUTLIER_OV) || type.equals(SQ_E_OUTLIER_OV) || type.equals(SQ_F_OUTLIER_OV) || type.equals(SQ_G_OUTLIER_OV)) { return true; } return false; } } /** * Available diagram/chart-types. This enum is evaluated at certain * places to iterate over chart-types to e.g. dynamically generate * Facet-names (ManualPoints for example). */ public enum ChartType { FD("fix_derivate_curve"), // LS("longitudinal_section"), // CS("cross_section"), // DLS("discharge_longitudinal_section"), // CDC("computed_discharge_curve"), // DUC("duration_curve"), // DIC("discharge_curve"), // RC("reference_curve"), // RCN("reference_curve_normalized"), // WD("wdifferences"), // BHDY("bedheight_difference_height_year"), // BDY("bed_difference_year"), // FWQC("fix_wq_curve"), // FDWC("fix_deltawt_curve"), // FLSC("fix_longitudinal_section_curve"), // FDC("fix_derivate_curve"), // EWQ("extreme_wq_curve"), // BHM("bedheight_middle"), // BLS("bed_longitudinal_section"), // SLS("sedimentload_ls"), // FV("flow_velocity"), // SQA("sq_relation_a"), // SQB("sq_relation_b"), // W_D("w_differences"), // SQC("sq_relation_c"), // SQD("sq_relation_d"), // SQE("sq_relation_e"), // SQF("sq_relation_f"), // HD("historical_discharge"), // HDWQ("historical_discharge_wq"), // SFD("sinfo_flow_depth"), // SFDMM("sinfo_flow_depth_minmax"), // SFDD("sinfo_flow_depth_development"), // SFDDPY("sinfo_flow_depth_development_peryear"), // SC("sinfo_collision"), // SFDUR("sinfo_flood_duration"), // STKH("sinfo_tkk"), // SFW("sinfo_flood_height"); private final String chartTypeString; ChartType(final String description) { this.chartTypeString = description; } @Override public String toString() { return chartTypeString; } } String AREA = "area"; String CROSS_SECTION_AREA = "cross_section.area"; String LONGITUDINAL_SECTION_AREA = "longitudinal_section.area"; String FLOODMAP_WSPLGEN = "floodmap.wsplgen"; String FLOODMAP_BARRIERS = "floodmap.barriers"; String FLOODMAP_USERSHAPE = "floodmap.usershape"; String FLOODMAP_RIVERAXIS = "floodmap.riveraxis"; @Deprecated String FLOODMAP_WMSBACKGROUND = "floodmap.wmsbackground"; String FLOODMAP_KMS = "floodmap.kms"; String FLOODMAP_QPS = "floodmap.qps"; String FLOODMAP_HWS_LINES = "floodmap.hws_lines"; String FLOODMAP_HWS_POINTS = "floodmap.hws_points"; String FLOODMAP_HYDR_BOUNDARY = "floodmap.hydr_boundaries"; String FLOODMAP_HYDR_BOUNDARY_POLY = "floodmap.hydr_boundaries_poly"; String FLOODMAP_CATCHMENT = "floodmap.catchment"; String FLOODMAP_FLOODPLAIN = "floodmap.floodplain"; String FLOODMAP_LINES = "floodmap.lines"; String FLOODMAP_BUILDINGS = "floodmap.buildings"; String FLOODMAP_FIXPOINTS = "floodmap.fixpoints"; String FLOODMAP_FLOODMARKS = "floodmap.floodmarks"; String FLOODMAP_FLOODMAPS = "floodmap.floodmaps"; String FLOODMAP_GAUGE_LOCATION = "floodmap.gauge_location"; String FLOODMAP_EXTERNAL_WMS = "floodmap.externalwms"; String FLOODMAP_EXTERNAL_WMS_INUNDATIONDUR = "floodmap.externalwms_"; String FLOODMAP_JETTIES = "floodmap.jetties"; String DISCHARGE_LONGITUDINAL_W = "discharge_longitudinal_section.w"; String DISCHARGE_LONGITUDINAL_Q = "discharge_longitudinal_section.q"; String DISCHARGE_LONGITUDINAL_Q_INFOLD = "discharge_longitudinal_section.q.infolding"; String DISCHARGE_LONGITUDINAL_Q_INFOLD_CUT = "discharge_longitudinal_section.q.cutting"; String DISCHARGE_LONGITUDINAL_C = "discharge_longitudinal_section.c"; String LONGITUDINAL_W = "longitudinal_section.w"; String LONGITUDINAL_Q = "longitudinal_section.q"; String LONGITUDINAL_ANNOTATION = "longitudinal_section.annotations"; String LONGITUDINAL_MANUALPOINTS = "longitudinal_section.manualpoints"; String W_DIFFERENCES = "w_differences"; String W_DIFFERENCES_FILTERED = "w_differences.filtered"; String COMPUTED_DISCHARGE_Q = "computed_discharge_curve.q"; String MAINVALUES_Q = "mainvalues.q"; String MAINVALUES_W = "mainvalues.w"; String CROSS_SECTION = "cross_section"; String CROSS_SECTION_WATER_LINE = "cross_section_water_line"; String HYK = "hyk"; String DISCHARGE_CURVE = "discharge_curve.curve"; String GAUGE_DISCHARGE_CURVE = "gauge_discharge_curve"; String GAUGE_DISCHARGE_CURVE_AT_EXPORT = "gauge_discharge_curve_at_export"; String DURATION_W = "duration_curve.w"; String DURATION_Q = "duration_curve.q"; String MANUALPOINTS = "manualpoints"; String MANUALLINE = "manualline"; String QSECTOR = "qsectors"; String STATIC_DELTA_W = "other.delta_w"; String STATIC_DELTA_W_CMA = "other.delta_w_cma"; String STATIC_WQ = "other.wq"; String STATIC_WQ_ANNOTATIONS = "other.wq.annotations"; String STATIC_WKMS = "other.wkms"; String STATIC_WKMS_MARKS = "other.wkms.marks"; String STATIC_WQKMS = "other.wqkms"; String STATIC_WQKMS_W = "other.wqkms.w"; String STATIC_WQKMS_Q = "other.wqkms.q"; String STATIC_WKMS_INTERPOL = "other.wkms.interpol"; String STATIC_W_INTERPOL = "other.w.interpol"; String HEIGHTMARKS_POINTS = "heightmarks_points"; String CSV = "csv"; String WST = "wst"; String AT = "at"; String PDF = "pdf"; String REPORT = "report"; String HISTORICAL_DISCHARGE_Q = "historical_discharge.historicalq"; String HISTORICAL_DISCHARGE_Q_DIFF = "historical_discharge.historicalq.diff"; String HISTORICAL_DISCHARGE_W = "historical_discharge.historicalw"; String HISTORICAL_DISCHARGE_W_DIFF = "historical_discharge.historicalw.diff"; String HISTORICAL_DISCHARGE_WQ_Q = "historical_discharge.wq.q"; String HISTORICAL_DISCHARGE_WQ_W = "historical_discharge.wq.w"; String REFERENCE_CURVE = "reference_curve"; String REFERENCE_CURVE_NORMALIZED = "reference_curve_normalized"; String FLOW_VELOCITY_MAINCHANNEL = "flow_velocity.mainchannel"; String FLOW_VELOCITY_TOTALCHANNEL = "flow_velocity.totalchannel"; /** Also called SHEAR_STRESS. */ String FLOW_VELOCITY_TAU = "flow_velocity.tau"; String FLOW_VELOCITY_MAINCHANNEL_FILTERED = "flow_velocity.mainchannel.filtered"; String FLOW_VELOCITY_TOTALCHANNEL_FILTERED = "flow_velocity.totalchannel.filtered"; String FLOW_VELOCITY_TAU_FILTERED = "flow_velocity.tau.filtered"; String FLOW_VELOCITY_ANNOTATION = "flow_velocity.annotation"; String FLOW_VELOCITY_MEASUREMENT = "flow_velocity.measurement"; String FLOW_VELOCITY_DISCHARGE = "flow_velocity.discharge"; String FLOW_VELOCITY_WATERLEVEL = "flow_velocity.waterlevel"; String MIDDLE_BED_HEIGHT_SINGLE = "bedheight_middle.single"; String MIDDLE_BED_HEIGHT_ANNOTATION = "bedheight_middle.annotation"; String BED_QUALITY_DATA_FACET = "bed_longitudinal_section"; String BED_QUALITY_POROSITY_TOPLAYER = BED_QUALITY_DATA_FACET + ".porosity.toplayer"; String BED_QUALITY_POROSITY_SUBLAYER = BED_QUALITY_DATA_FACET + ".porosity.sublayer"; String BED_QUALITY_BED_DIAMETER_TOPLAYER = BED_QUALITY_DATA_FACET + ".diameter.toplayer"; String BED_QUALITY_BED_DIAMETER_SUBLAYER = BED_QUALITY_DATA_FACET + ".diameter.sublayer"; String BED_QUALITY_SEDIMENT_DENSITY_TOPLAYER = BED_QUALITY_DATA_FACET + ".density.toplayer"; String BED_QUALITY_SEDIMENT_DENSITY_SUBLAYER = BED_QUALITY_DATA_FACET + ".density.sublayer"; String BED_QUALITY_BEDLOAD_DIAMETER = BED_QUALITY_DATA_FACET + ".diameter.bedload"; String BED_DIAMETER_DATA_TOP = BED_QUALITY_DATA_FACET + ".diameter.toplayer.data"; String BED_DIAMETER_DATA_SUB = BED_QUALITY_DATA_FACET + ".diameter.sublayer.data"; String BEDLOAD_DIAMETER_DATA = BED_QUALITY_DATA_FACET + ".diameter.bedload.data"; String POROSITY = "porosity"; String BED_DIFFERENCE_YEAR = "bedheight_difference.year"; String BED_DIFFERENCE_YEAR_FILTERED = "bedheight_difference.year.filtered"; String BED_DIFFERENCE_HEIGHT_YEAR = "bedheight_difference.height_year"; String BED_DIFFERENCE_HEIGHT_YEAR_FILTERED = "bedheight_difference.height_year.filtered"; String BED_DIFFERENCE_YEAR_HEIGHT1 = "bedheight_difference.year.height1"; String BED_DIFFERENCE_YEAR_HEIGHT2 = "bedheight_difference.year.height2"; String BED_DIFFERENCE_YEAR_HEIGHT1_FILTERED = "bedheight_difference.year.height1.filtered"; String BED_DIFFERENCE_YEAR_HEIGHT2_FILTERED = "bedheight_difference.year.height2.filtered"; String MORPHOLOGIC_WIDTH = "morph-width"; String SEDIMENT_DENSITY = "sediment.density"; String SQ_OVERVIEW = "sq_overview"; String SQ_A_CURVE = "sq_a_curve"; String SQ_A_MEASUREMENT = "sq_a_measurement"; String SQ_A_OUTLIER = "sq_a_outlier"; String SQ_A_OUTLIER_CURVE = "sq_a_outlier_curve"; String SQ_A_OUTLIER_MEASUREMENT = "sq_a_outlier_measurement"; String SQ_B_CURVE = "sq_b_curve"; String SQ_B_MEASUREMENT = "sq_b_measurement"; String SQ_B_OUTLIER = "sq_b_outlier"; String SQ_B_OUTLIER_CURVE = "sq_b_outlier_curve"; String SQ_B_OUTLIER_MEASUREMENT = "sq_b_outlier_measurement"; String SQ_C_CURVE = "sq_c_curve"; String SQ_C_MEASUREMENT = "sq_c_measurement"; String SQ_C_OUTLIER = "sq_c_outlier"; String SQ_C_OUTLIER_CURVE = "sq_c_outlier_curve"; String SQ_C_OUTLIER_MEASUREMENT = "sq_c_outlier_measurement"; String SQ_D_CURVE = "sq_d_curve"; String SQ_D_MEASUREMENT = "sq_d_measurement"; String SQ_D_OUTLIER = "sq_d_outlier"; String SQ_D_OUTLIER_CURVE = "sq_d_outlier_curve"; String SQ_D_OUTLIER_MEASUREMENT = "sq_d_outlier_measurement"; String SQ_E_CURVE = "sq_e_curve"; String SQ_E_MEASUREMENT = "sq_e_measurement"; String SQ_E_OUTLIER = "sq_e_outlier"; String SQ_E_OUTLIER_CURVE = "sq_e_outlier_curve"; String SQ_E_OUTLIER_MEASUREMENT = "sq_e_outlier_curve_measurement"; String SQ_F_CURVE = "sq_f_curve"; String SQ_F_MEASUREMENT = "sq_f_measurement"; String SQ_F_OUTLIER = "sq_f_outlier"; String SQ_F_OUTLIER_CURVE = "sq_f_outlier_curve"; String SQ_F_OUTLIER_MEASUREMENT = "sq_f_outlier_measurement"; String SQ_G_CURVE = "sq_g_curve"; String SQ_G_MEASUREMENT = "sq_g_measurement"; String SQ_G_OUTLIER = "sq_g_outlier"; String SQ_G_OUTLIER_CURVE = "sq_g_outlier_curve"; String SQ_G_OUTLIER_MEASUREMENT = "sq_g_outlier_measurement"; String SQ_A_CURVE_OV = "sq_a_curve_overview"; String SQ_A_MEASUREMENT_OV = "sq_a_measurement_overview"; String SQ_A_OUTLIER_OV = "sq_a_outlier_overview"; String SQ_A_OUTLIER_CURVE_OV = "sq_a_outlier_curve_overview"; String SQ_A_OUTLIER_MEASUREMENT_OV = "sq_a_outlier_measurement_overview"; String SQ_B_CURVE_OV = "sq_b_curve_overview"; String SQ_B_MEASUREMENT_OV = "sq_b_measurement_overview"; String SQ_B_OUTLIER_OV = "sq_b_outlier_overview"; String SQ_B_OUTLIER_CURVE_OV = "sq_b_outlier_curve_overview"; String SQ_B_OUTLIER_MEASUREMENT_OV = "sq_b_outlier_measurement_overview"; String SQ_C_CURVE_OV = "sq_c_curve_overview"; String SQ_C_MEASUREMENT_OV = "sq_c_measurement_overview"; String SQ_C_OUTLIER_OV = "sq_c_outlier_overview"; String SQ_C_OUTLIER_CURVE_OV = "sq_c_outlier_curve_overview"; String SQ_C_OUTLIER_MEASUREMENT_OV = "sq_c_outlier_measurement_overview"; String SQ_D_CURVE_OV = "sq_d_curve_overview"; String SQ_D_MEASUREMENT_OV = "sq_d_measurement_overview"; String SQ_D_OUTLIER_OV = "sq_d_outlier_overview"; String SQ_D_OUTLIER_CURVE_OV = "sq_d_outlier_curve_overview"; String SQ_D_OUTLIER_MEASUREMENT_OV = "sq_d_outlier_measurement_overview"; String SQ_E_CURVE_OV = "sq_e_curve_overview"; String SQ_E_MEASUREMENT_OV = "sq_e_measurement_overview"; String SQ_E_OUTLIER_OV = "sq_e_outlier_overview"; String SQ_E_OUTLIER_CURVE_OV = "sq_e_outlier_curve_overview"; String SQ_E_OUTLIER_MEASUREMENT_OV = "sq_e_outlier_curve_measurement_overview"; String SQ_F_CURVE_OV = "sq_f_curve_overview"; String SQ_F_MEASUREMENT_OV = "sq_f_measurement_overview"; String SQ_F_OUTLIER_OV = "sq_f_outlier_overview"; String SQ_F_OUTLIER_CURVE_OV = "sq_f_outlier_curve_overview"; String SQ_F_OUTLIER_MEASUREMENT_OV = "sq_f_outlier_measurement_overview"; String SQ_G_CURVE_OV = "sq_g_curve_overview"; String SQ_G_MEASUREMENT_OV = "sq_g_measurement_overview"; String SQ_G_OUTLIER_OV = "sq_g_outlier_overview"; String SQ_G_OUTLIER_CURVE_OV = "sq_g_outlier_curve_overview"; String SQ_G_OUTLIER_MEASUREMENT_OV = "sq_g_outlier_measurement_overview"; String RELATIVE_POINT = "relativepoint"; String FIX_ANALYSIS_EVENTS_DWT = "fix_analysis_events_dwt"; String FIX_ANALYSIS_EVENTS_LS = "fix_analysis_events_ls"; String FIX_ANALYSIS_EVENTS_WQ = "fix_analysis_events_wq"; String FIX_EVENTS = "fix_events_wqkms"; String FIX_REFERENCE_EVENTS_DWT = "fix_reference_events_dwt"; String FIX_REFERENCE_EVENTS_LS = "fix_reference_events_ls"; String FIX_REFERENCE_EVENTS_WQ = "fix_reference_events_wq"; String FIX_REFERENCE_PERIOD_DWT = "fix_reference_period_dwt"; // Note that AVERAGE_DWT will get a postfix (e.g. ..._dwt_1) String FIX_SECTOR_AVERAGE_DWT = "fix_sector_average_dwt"; String FIX_SECTOR_AVERAGE_LS = "fix_sector_average_ls"; String FIX_SECTOR_AVERAGE_WQ = "fix_sector_average_wq"; String FIX_SECTOR_AVERAGE_LS_DEVIATION = "fix_sector_average_ls_deviation"; String FIX_WQ_CURVE = "fix_wq_curve"; String FIX_WQ_LS = "fix_wq_ls"; String FIX_OUTLIER = "fix_outlier"; String FIX_ANALYSIS_PERIODS_DWT = "fix_analysis_periods_dwt"; String FIX_ANALYSIS_PERIODS_LS = "fix_analysis_periods_ls"; String FIX_ANALYSIS_PERIODS_WQ = "fix_analysis_periods_wq"; String FIX_DERIVATE_CURVE = "fix_derivate_curve"; String FIX_DEVIATION_DWT = "fix_deviation_dwt"; String FIX_DEVIATION_LS = "fix_deviation_ls"; String FIX_PARAMETERS = "fix_parameters"; String STATIC_BEDHEIGHT = "static_bedheight"; String BEDHEIGHT = "bedheight"; String BEDHEIGHT_SOUNDING_WIDTH = "bedheight_sounding_width"; String BEDHEIGHT_WIDTH = "bedheight_width"; String EXTREME_WQ_CURVE = "extreme_wq_curve"; String EXTREME_WQ_CURVE_BASE = "extreme_wq_curve_base"; } // vim:set ts=4 sw=4 si et sta sts=4 fenc=utf-8 :