Mercurial > dive4elements > river
view artifacts/doc/conf/meta-data.xml @ 9415:9744ce3c3853
Rework of fixanalysis computation and dWt and WQ facets. Got rid of strange remapping and bitshifting code by explicitely saving the column information and using it in the facets.
The facets also put the valid station range into their xml-metadata
author | gernotbelger |
---|---|
date | Thu, 16 Aug 2018 16:27:53 +0200 |
parents | 063befcaef74 |
children | d2f5375ede26 |
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<?xml version="1.0" encoding="UTF-8"?> <dc:template xmlns:dc="http://www.intevation.org/2011/Datacage"> <datacage> <dc:call-macro name="load-user" /> <dc:call-macro name="load-system" /> <dc:macro name="load-system"> <dc:context connection="system"> <dc:statement> SELECT id AS river_id, name AS river_name FROM rivers WHERE lower(name) LIKE lower(${river}) </dc:statement> <dc:for-each> <dc:call-macro name="generate-system-content" /> </dc:for-each> </dc:context> </dc:macro> <dc:macro name="load-user"> <old_calculations> <dc:call-macro name="generate-user-content" /> </old_calculations> </dc:macro> <dc:macro name="generate-system-content"> <dc:message>Generate system content with variables: {dc:dump-variables()}</dc:message> <dc:call-macro name="artifact-range"> <dc:call-macro name="km-filtered-wsts"> <dc:choose> <dc:when test="dc:contains($parameters, 'recommended')"> <dc:comment> Recommendations (client shall load immediately). </dc:comment> <dc:iterate var="out" container="artifact-outs"> <dc:message>Rec out iteration for: {$out}</dc:message> <dc:choose> <dc:comment> Longitudinal sections </dc:comment> <dc:when test="$out = 'w_differences'"> <dc:call-macro name="annotations" /> </dc:when> <dc:when test="$out = 'discharge_longitudinal_section'"> <dc:call-macro name="annotations" /> <dc:call-macro name="officiallines_user" /> </dc:when> <dc:when test="$out = 'longitudinal_section'"> <dc:call-macro name="annotations" /> <dc:call-macro name="officiallines_user" /> </dc:when> <dc:when test="$out = 'fix_longitudinal_section_curve'"> <dc:call-macro name="annotations" /> </dc:when> <dc:when test="$out = 'bedheight_middle'"> <dc:call-macro name="annotations" /> </dc:when> <dc:when test="$out = 'bed_difference_year'"> <dc:call-macro name="annotations" /> <dc:call-macro name="basedata_6_delta_w" /> <dc:call-macro name="sounding-width-recommendations" /> </dc:when> <dc:when test="$out = 'bed_difference_height_year'"> <dc:call-macro name="annotations" /> <dc:call-macro name="basedata_6_delta_w" /> </dc:when> <dc:when test="$out = 'sedimentload_ls'"> <dc:call-macro name="annotations" /> <dc:call-macro name="sedimentload_off_epochs" /> </dc:when> <dc:when test="$out = 'bed_longitudinal_section'"> <dc:call-macro name="annotations" /> </dc:when> <dc:when test="$out = 'flow_velocity'"> <dc:call-macro name="annotations" /> </dc:when> <dc:comment> Discharge curves </dc:comment> <dc:when test="$out = 'historical_discharge_wq'"> <dc:call-macro name="hist_discharge_rec" /> <dc:call-macro name="mainvalues" /> </dc:when> <dc:when test="$out = 'discharge_curve'"> <dc:call-macro name="mainvalues" /> <dc:call-macro name="basedata_3_officials_wq" /> </dc:when> <dc:when test="$out = 'computed_discharge_curve'"> <dc:call-macro name="mainvalues" /> <dc:call-macro name="basedata_3_officials_wq" /> <dc:call-macro name="basedata_2_fixations_wq" /> </dc:when> <dc:when test="$out = 'fix_wq_curve'"> <dc:call-macro name="mainvalues" /> <dc:call-macro name="qsectors" /> </dc:when> <dc:when test="$out = 'fix_derivate_curve'"> <dc:call-macro name="qmainvalues" /> </dc:when> <dc:when test="starts-with($out, 'sq_') and not($out = 'sq_relation_export')"> <dc:call-macro name="qmainvalues" /> </dc:when> <dc:comment> Cross sections </dc:comment> <dc:when test="$out = 'cross_section'"> <dc:call-macro name="cross_sections" /> <dc:call-macro name="hyks" /> <dc:call-macro name="officiallines_user" /> </dc:when> <dc:comment> Duration curve </dc:comment> <dc:when test="$out = 'duration_curve'"> <dc:call-macro name="mainvalues" /> </dc:when> <dc:comment> Reference curve </dc:comment> <dc:when test="$out = 'reference_curve'"> <dc:call-macro name="mainvalues" /> </dc:when> <dc:comment> Maps </dc:comment> <dc:when test="$out = 'floodmap'"> <dc:call-macro name="flood-map-recommended" /> </dc:when> <dc:when test="$out = 'sinfo_flow_depth'"> <dc:call-macro name="annotations" /> </dc:when> <dc:when test="$out = 'sinfo_flow_depth_minmax'"> <dc:call-macro name="annotations" /> </dc:when> <dc:when test="$out = 'sinfo_flow_depth_development'"> <dc:call-macro name="annotations" /> </dc:when> <dc:when test="$out = 'sinfo_flow_depth_development_peryear'"> <dc:call-macro name="annotations" /> </dc:when> <dc:when test="$out = 'sinfo_tkk'"> <dc:call-macro name="annotations" /> </dc:when> <dc:when test="$out = 'sinfo_collision'"> <dc:call-macro name="annotations" /> </dc:when> <dc:when test="$out = 'sinfo_flood_duration'"> <dc:call-macro name="annotations" /> </dc:when> <dc:when test="$out = 'sinfo_flood_height'"> <dc:call-macro name="annotations" /> </dc:when> <!--TODO sinfo_floodduration_curve: mainvalues wie in winfo-duration_curve unterstuetzen--> <!--dc:when test="$out = 'sinfo_floodduration_curve'"> <dc:call-macro name="mainvalues" /> </dc:when--> <dc:when test="$out = 'uinfo_salix_line'"> <dc:call-macro name="annotations" /> </dc:when> </dc:choose> </dc:iterate> </dc:when> <dc:otherwise> <dc:comment> Non - Recommendations (offered to user to choose additional data from). </dc:comment> <dc:iterate var="out" container="artifact-outs"> <dc:message>Non Rec out iteration for: {$out}</dc:message> <dc:choose> <dc:comment> Inline datacage panels </dc:comment> <dc:when test="$out = 'minfo_diff_panel'"> <dc:call-macro name="minfo-heights-diff" /> </dc:when> <dc:when test="$out = 'floodmap_dem_panel'"> <dc:call-macro name="flood-map-dem" /> </dc:when> <dc:when test="$out = 'floodmap_hws_panel'"> <hws> <dc:call-macro name="flood-map-hws-lines" /> <dc:call-macro name="flood-map-hws-points" /> </hws> </dc:when> <dc:when test="$out = 'winfo_diff_twin_panel'"> <dc:if test="$current-state-id != 'state.winfo.uesk.wsp'"> <dc:call-macro name="basedata_0" /> <dc:call-macro name="basedata_1_additionals" /> <dc:call-macro name="basedata_2_fixations" /> <dc:call-macro name="basedata_4_heightmarks-points" /> <dc:call-macro name="basedata_5_flood-protections" /> </dc:if> </dc:when> <dc:when test="$out = 'waterlevels_panel'"> <dc:call-macro name="basedata_0" /> <dc:call-macro name="basedata_1_additionals" /> <dc:call-macro name="basedata_2_fixations" /> <dc:call-macro name="basedata_3_officials" /> <dc:call-macro name="basedata_4_heightmarks-points" /> <dc:call-macro name="basedata_5_flood-protections" /> </dc:when> <dc:comment> Longitudinal sections </dc:comment> <dc:when test="$out = 'longitudinal_section'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'w_differences'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'discharge_longitudinal_section'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'fix_longitudinal_section_curve'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'flow_velocity'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'bed_longitudinal_section'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'sedimentload_ls'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'bedheight_middle'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'bed_difference_height_year'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'bed_difference_year'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:comment> Discharge curves </dc:comment> <dc:when test="$out = 'historical_discharge_wq'"> <dc:call-macro name="discharge-curve-prototype" /> </dc:when> <dc:when test="$out = 'discharge_curve'"> <dc:call-macro name="discharge-curve-prototype" /> </dc:when> <dc:when test="$out = 'fix_wq_curve'"> <dc:call-macro name="discharge-curve-prototype" /> </dc:when> <dc:when test="$out = 'fix_derivate_curve'"> <dc:call-macro name="discharge-curve-prototype" /> </dc:when> <dc:when test="$out = 'computed_discharge_curve'"> <dc:call-macro name="discharge-curve-prototype" /> </dc:when> <dc:when test="starts-with($out, 'sq_relation') or $out = 'sq_overview'"> <dc:call-macro name="discharge-curve-prototype" /> </dc:when> <dc:comment> Cross sections </dc:comment> <dc:when test="$out = 'cross_section'"> <dc:call-macro name="basedata_0" /> <dc:call-macro name="basedata_1_additionals" /> <dc:call-macro name="basedata_2_fixations" /> <dc:call-macro name="basedata_3_officials" /> <dc:call-macro name="basedata_4_heightmarks-points" /> <dc:call-macro name="cross_sections" /> <dc:call-macro name="basedata_5_flood-protections" /> <dc:call-macro name="hyks" /> </dc:when> <dc:comment> Duration curve </dc:comment> <dc:when test="$out = 'duration_curve'"> <dc:call-macro name="mainvalues" /> <dc:call-macro name="basedata_2_fixations_relative_point" /> <dc:call-macro name="basedata_4_heightmarks-points-relative_points" /> <dc:call-macro name="basedata_5_flood-protections_relative_points" /> </dc:when> <dc:comment> Reference curve </dc:comment> <dc:when test="$out = 'reference_curve'"> <dc:call-macro name="mainvalues" /> <dc:call-macro name="annotations" /> <dc:call-macro name="basedata_1_additionals-relative_point" /> <dc:call-macro name="basedata_2_fixations_relative_point" /> <dc:call-macro name="basedata_4_heightmarks-points-relative_points" /> <dc:call-macro name="basedata_5_flood-protections_relative_points" /> </dc:when> <dc:comment> Maps </dc:comment> <dc:when test="$out = 'map'"> <dc:call-macro name="flood-map-complete" /> </dc:when> <dc:when test="$out = 'floodmap'"> <dc:call-macro name="flood-map-complete" /> </dc:when> <dc:comment> S-INFO </dc:comment> <dc:when test="$out = 'sinfo_flowdepth_minfo_heights'"> <dc:call-macro name="bed-heights-single-MW" /> </dc:when> <dc:when test="$out = 'sinfo_flowdepthminmax_heights'"> <dc:call-macro name="bed-heights-single-KL_TW" /> </dc:when> <dc:when test="$out = 'sinfo_flowdepth_waterlevels'"> <minfo> <fixanalysis> <dc:call-macro name="basedata_7_waterlevels" /> </fixanalysis> </minfo> <dc:call-macro name="basedata_3_officials" /> <dc:call-macro name="basedata_2_fixations" /> <sinfo> <sinfo_additional_ls> <dc:call-macro name="basedata_1_additionals-sinfo-with-q" /> <dc:call-macro name="basedata_1_additionals-sinfo-without-q" /> </sinfo_additional_ls> </sinfo> </dc:when> <dc:when test="$out = 'sinfo_flow_depth'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_flow_depth_minmax'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_flow_depth_development'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_flow_depth_development_peryear'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_tkk'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_collision'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_flood_duration'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_flood_height'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <!--TODO sinfo_floodduration_curve: mainvalues wie in winfo-duration_curve unterstuetzen--> <!--dc:when test="$out = 'sinfo_floodduration_curve'"> <dc:call-macro name="mainvalues" /> <dc:call-macro name="basedata_2_fixations_relative_point" /> <dc:call-macro name="basedata_4_heightmarks-points-relative_points" /> <dc:call-macro name="basedata_5_flood-protections_relative_points" /> </dc:when--> <dc:when test="$out = 'uinfo_salix_line'"> <dc:call-macro name="longitudinal-section-prototype" /> </dc:when> <dc:when test="$out = 'uinfo.inundation_duration.vegzoneselect'"> <dc:variable name="vegzonedata" expr="dc:defaultvegetationzone()"></dc:variable> <defaultVegetationZone factory="dummy" target_out="{$out}" data="{$vegzonedata}"></defaultVegetationZone> </dc:when> </dc:choose> </dc:iterate> </dc:otherwise> </dc:choose> </dc:call-macro> </dc:call-macro> </dc:macro> <dc:macro name="generate-user-content"> <dc:message>Generate user content with variables: {dc:dump-variables()}</dc:message> <dc:call-macro name="artifact-range"> <dc:call-macro name="all-user-artifacts"> <dc:call-macro name="km-filtered-user-artifacts"> <dc:choose> <dc:when test="dc:contains($parameters, 'recommended')"> <dc:comment> Recommendations (user) </dc:comment> <dc:iterate var="out" container="artifact-outs"> <dc:choose> <dc:when test="$out = 'longitudinal_section'"> <dc:call-macro name="officiallines_user" /> </dc:when> </dc:choose> </dc:iterate> </dc:when> <dc:otherwise> <dc:comment> Non Recommendations (user) - offer to load other projects </dc:comment> <dc:iterate var="out" container="artifact-outs"> <dc:choose> <dc:comment> Inline datacage panels </dc:comment> <dc:when test="$out = 'winfo_diff_twin_panel'"> <dc:call-macro name="differences-fix" /> <dc:call-macro name="differences" /> <dc:comment comment="Candidate for:"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:comment> </dc:when> <dc:when test="$out = 'waterlevels_panel'"> <dc:call-macro name="waterlevels-user" /> <dc:comment comment="Candidate for:"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:comment> </dc:when> <dc:when test="$out = 'floodmap_hws_panel'"> <dc:call-macro name="floodmap-hws-user" /> </dc:when> <dc:comment> Longitudinal sections </dc:comment> <dc:when test="$out = 'longitudinal_section'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'discharge_longitudinal_section'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'w_differences'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'fix_longitudinal_section_curve'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'bedheight_middle'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'flow_velocity'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'bed_longitudinal_section'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'sedimentload_ls'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'bed_difference_year'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'bed_difference_height_year'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_flow_depth'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_flow_depth_minmax'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_flow_depth_development'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_flow_depth_development_peryear'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_tkk'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_collision'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_flood_duration'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'sinfo_flood_height'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'uinfo_salix_line'"> <dc:call-macro name="longitudinal-section-user-prototype" /> </dc:when> <dc:when test="$out = 'uinfo.inundation_duration.vegzoneselect'"> <dc:call-macro name="vegetationzones" /> </dc:when> <dc:comment> Discharge curves </dc:comment> <dc:when test="$out = 'computed_discharge_curve'"> <dc:call-macro name="discharge-curve-user-prototype" /> </dc:when> <dc:when test="$out = 'fix_derivate_curve'"> <dc:call-macro name="discharge-curve-user-prototype" /> </dc:when> <dc:when test="$out = 'fix_wq_curve'"> <dc:call-macro name="discharge-curve-user-prototype" /> </dc:when> <dc:when test="$out = 'historical_discharge_wq'"> <dc:call-macro name="discharge-curve-user-prototype" /> </dc:when> <dc:when test="starts-with($out, 'sq_relation') or $out = 'sq_overview'"> <dc:call-macro name="discharge-curve-user-prototype" /> </dc:when> <dc:comment> Time series </dc:comment> <dc:when test="$out = 'fix_deltawt_curve'"> <dc:call-macro name="delta-wt" /> </dc:when> <dc:when test="$out = 'historical_discharge'"> <dc:call-macro name="historical-discharge-user" /> </dc:when> <dc:comment> Cross sections </dc:comment> <dc:when test="$out = 'cross_section'"> <dc:call-macro name="waterlevels" /> </dc:when> <dc:comment> Duration curve </dc:comment> <dc:when test="$out = 'duration_curve'"> <dc:call-macro name="duration-curve" /> </dc:when> <dc:comment> Reference curve </dc:comment> <dc:when test="$out = 'reference_curve'"> <dc:call-macro name="reference-curves" /> </dc:when> <dc:comment> Maps </dc:comment> <dc:when test="$out = 'floodmap'"> <dc:call-macro name="flood-map" /> </dc:when> <dc:when test="$out = 'map'"> <dc:call-macro name="flood-map" /> </dc:when> <dc:when test="$out = 'sinfo_flowdepth_waterlevels'"> <dc:call-macro name="longitudinal-section-fix-vollmer_w" /> <!-- TODO: 'Frühere Berechnungen//Bezugswasserstände' --> </dc:when> </dc:choose> </dc:iterate> </dc:otherwise> </dc:choose> </dc:call-macro> </dc:call-macro> </dc:call-macro> </dc:macro> <!-- Macros to load user data --> <dc:macro name="historical-discharge-user"> <dc:filter expr="$out = 'historical_discharge' and starts-with($facet_name, 'historical_discharge.historical')"> <dc:if test="dc:has-result()"> <historical_discharges> <dc:call-macro name="collection-group"> <discharges description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="factory" value="winfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="out" value="historical_discharge" /> </dc:element> </dc:for-each> </discharges> </dc:call-macro> </historical_discharges> </dc:if> </dc:filter> </dc:macro> <dc:macro name="differences"> <dc:filter expr="$facet_name = 'w_differences' or $facet_name = 'w_differences.filtered'"> <dc:if test="dc:has-result()"> <differences> <dc:call-macro name="collection-group"> <differences description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="factory" value="winfo" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="out" value="${out_name}" /> </dc:element> </dc:for-each> </differences> </dc:call-macro> </differences> </dc:if> </dc:filter> </dc:macro> <dc:macro name="reference-curves"> <dc:filter expr="$out = 'reference_curve' and $facet_name = 'reference_curve'"> <dc:if test="dc:has-result()"> <reference_curves> <dc:call-macro name="collection-group"> <ref_curve description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="factory" value="winfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="out" value="reference_curve" /> </dc:element> </dc:for-each> </ref_curve> </dc:call-macro> </reference_curves> </dc:if> </dc:filter> </dc:macro> <dc:macro name="flood-map"> <dc:filter expr="$facet_name = 'floodmap.wsplgen'"> <dc:if test="dc:has-result()"> <floodmap> <dc:for-each> <dc:variable name="combined_desc" expr="concat($facet_description, ' ', dc:date-format('dd.MM.yyyy - H:mm:ss', $a_creation), ' ', $collection_name)" /> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${combined_desc}" /> <dc:attribute name="factory" value="winfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_id}" /> <dc:attribute name="ids" value="${a_id}" /> <dc:attribute name="out" value="floodmap" /> </dc:element> </dc:for-each> </floodmap> </dc:if> </dc:filter> </dc:macro> <dc:macro name="waterlevels"> <dc:filter expr="$out_name = 'cross_section'"> <dc:if test="dc:has-result()"> <waterlevels> <dc:group expr="concat($river, ' ', dc:date-format('dd.MM.yyyy - H:mm:ss', $a_creation))"> <dc:comment>Aheinecke: Why is this grouping different from the rest?</dc:comment> <longitudinal_section_columns description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="factory" value="winfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="cross_section" /> </dc:element> </dc:for-each> </longitudinal_section_columns> </dc:group> </waterlevels> </dc:if> </dc:filter> </dc:macro> <dc:macro name="collection-group"> <dc:group expr="concat($river, ' ', dc:date-format('dd.MM.yyyy - H:mm:ss', $a_creation), ' ', $collection_name)"> <dc:macro-body /> </dc:group> </dc:macro> <dc:macro name="longitudinal"> <dc:filter expr="$out_name = 'longitudinal_section' and $a_state != 'state.fix.vollmer.compute'"> <dc:if test="dc:has-result()"> <waterlevels_ls> <dc:call-macro name="collection-group"> <dc:comment>Aheinecke: Why is this grouping different from the rest?</dc:comment> <longitudinal_section_columns description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="factory" value="winfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="longitudinal_section" /> </dc:element> </dc:for-each> </longitudinal_section_columns> </dc:call-macro> </waterlevels_ls> </dc:if> </dc:filter> </dc:macro> <dc:macro name="longitudinal-section-fix-vollmer"> <dc:filter expr="$a_state = 'state.fix.vollmer.compute' and ($facet_name = 'longitudinal_section.w' or $facet_name = 'longitudinal_section.q') "> <dc:call-macro name="longitudinal-section-fix-vollmer_macro" /> </dc:filter> </dc:macro> <dc:macro name="longitudinal-section-fix-vollmer_w"> <dc:filter expr="$a_state = 'state.fix.vollmer.compute' and $facet_name = 'longitudinal_section.w'"> <dc:call-macro name="longitudinal-section-fix-vollmer_macro" /> </dc:filter> </dc:macro> <dc:macro name="longitudinal-section-fix-vollmer_macro"> <dc:if test="dc:has-result()"> <waterlevels_fix_vollmer> <dc:call-macro name="collection-group"> <waterlevels description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="factory" value="fixanalysis" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="longitudinal_section" /> <dc:variable name="fixAnalysisYear" expr="dc:fix_analysis_year($a_gid)" /> <dc:attribute name="year" value="${fixAnalysisYear}" /> </dc:element> </dc:for-each> </waterlevels> </dc:call-macro> </waterlevels_fix_vollmer> </dc:if> </dc:macro> <dc:macro name="longitudinal-section-fix"> <dc:filter expr="$out_name = 'fix_longitudinal_section_curve' and (starts-with($facet_name, 'fix_deviation_ls') or starts-with($facet_name, 'fix_sector_average_ls') or starts-with($facet_name, 'fix_analysis_events_ls') or starts-with($facet_name, 'fix_reference_events_ls')) "> <dc:if test="dc:has-result()"> <waterlevels_fix> <dc:call-macro name="collection-group"> <waterlevels description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="factory" value="fixanalysis" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="fix_longitudinal_section_curve" /> </dc:element> </dc:for-each> </waterlevels> </dc:call-macro> </waterlevels_fix> </dc:if> </dc:filter> </dc:macro> <dc:macro name="delta-wt"> <dc:filter expr="$out_name = 'fix_deltawt_curve' and ($facet_name = 'fix_analysis_events_dwt' or $facet_name = 'fix_analysis_periods_dwt' or $facet_name = 'fix_reference_events_dwt' or starts-with($facet_name, 'fix_deviation_dwt') or starts-with($facet_name, 'fix_sector_average_dwt'))"> <dc:if test="dc:has-result()"> <waterlevels> <dc:call-macro name="collection-group"> <waterlevels description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="factory" value="fixanalysis" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="fix_deltawt_curve" /> </dc:element> </dc:for-each> </waterlevels> </dc:call-macro> </waterlevels> </dc:if> </dc:filter> </dc:macro> <dc:macro name="fix-wq-curve"> <dc:filter expr="($out_name = 'fix_wq_curve' and (starts-with($facet_name, 'fix_analysis_events_wq') or starts-with($facet_name, 'fix_reference_events_wq') or starts-with($facet_name, 'fix_sector_average_wq') or $facet_name = 'fix_wq_curve')) or ($out_name = 'fix_derivate_curve' and $facet_name = 'fix_derivate_curve')"> <dc:if test="dc:has-result()"> <waterlevels_fix> <dc:call-macro name="collection-group"> <projects description="{dc:group-key()}"> <dc:for-each> <dc:choose> <dc:when test="$out_name = 'fix_wq_curve'"> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="factory" value="fixanalysis" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="fix_wq_curve" /> </dc:element> </dc:when> <dc:when test="$out_name = 'fix_derivate_curve'"> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="factory" value="fixanalysis" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="fix_derivate_curve" /> </dc:element> </dc:when> </dc:choose> </dc:for-each> </projects> </dc:call-macro> </waterlevels_fix> </dc:if> </dc:filter> </dc:macro> <dc:macro name="extreme-wq-curve"> <dc:filter expr="$facet_name = 'extreme_wq_curve' or $facet_name = 'extreme_wq_curve_base'"> <dc:if test="dc:has-result()"> <computed_discharge_curves> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="factory" value="fixanalysis" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="ids" value="${a_gid}" /> <dc:attribute name="out" value="computed_discharge_curve" /> </dc:element> </dc:for-each> </computed_discharge_curves> </dc:if> </dc:filter> </dc:macro> <dc:macro name="computed-discharge-curve"> <dc:filter expr="$facet_name = 'computed_discharge_curve.q'"> <dc:if test="dc:has-result()"> <computed_discharge_curves> <dc:call-macro name="collection-group"> <projects description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="factory" value="winfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="ids" value="${a_gid}" /> <dc:attribute name="out" value="computed_discharge_curve" /> </dc:element> </dc:for-each> </projects> </dc:call-macro> </computed_discharge_curves> </dc:if> </dc:filter> </dc:macro> <dc:macro name="duration-curve"> <dc:filter expr="$facet_name = 'duration_curve.q' or $facet_name = 'duration_curve.w'"> <dc:if test="dc:has-result()"> <computed_discharge_curves> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="factory" value="winfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_id}" /> <dc:attribute name="ids" value="${a_id}" /> <dc:attribute name="out" value="duration_curve" /> </dc:element> </dc:for-each> </computed_discharge_curves> </dc:if> </dc:filter> </dc:macro> <dc:macro name="waterlevels-user"> <dc:filter expr="($out_name = 'longitudinal_section' and $facet_name = 'longitudinal_section.w') and (not ($current-state-id = 'state.winfo.uesk.wsp' and $ld_m = 'location'))"> <dc:if test="dc:has-result()"> <waterlevels> <dc:call-macro name="collection-group"> <waterlevels description="{dc:group-key()}"> <dc:for-each> <dc:choose> <dc:when test="$ld_m = 'location'"> <dc:variable name="combined_desc" expr="concat($facet_description, ' an KM ', $deffrom)" /> </dc:when> <dc:otherwise> <dc:variable name="combined_desc" expr="concat($facet_description, ' von KM ', $deffrom, ' bis KM ', $defto)" /> </dc:otherwise> </dc:choose> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${combined_desc}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="factory" value="winfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="longitudinal_section" /> </dc:element> </dc:for-each> </waterlevels> </dc:call-macro> </waterlevels> </dc:if> </dc:filter> </dc:macro> <dc:comment comment="For building differences." /> <dc:macro name="differences-fix"> <dc:comment comment="Vollmer curves need own factory" /> <dc:filter expr="$a_state = 'state.fix.vollmer.compute' and $facet_name = 'longitudinal_section.w'"> <dc:if test="dc:has-result()"> <vollmer_waterlevels> <dc:call-macro name="collection-group"> <waterlevels description="{dc:group-key()}"> <dc:for-each> <dc:choose> <dc:when test="$ld_m = 'location'"> <dc:variable name="combined_desc" expr="concat($facet_description, ' an KM ', $deffrom)" /> </dc:when> <dc:otherwise> <dc:variable name="combined_desc" expr="concat($facet_description, ' von KM ', $deffrom, ' bis KM ', $defto)" /> </dc:otherwise> </dc:choose> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${combined_desc}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="factory" value="fixanalysis" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="longitudinal_section" /> </dc:element> </dc:for-each> </waterlevels> </dc:call-macro> </vollmer_waterlevels> </dc:if> </dc:filter> <dc:filter expr="not($a_state = 'state.fix.vollmer.compute') and (($out_name = 'longitudinal_section' and $facet_name = 'longitudinal_section.w') and (not ($current-state-id = 'state.winfo.uesk.wsp' and $ld_m = 'location')))"> <dc:if test="dc:has-result()"> <waterlevels> <dc:call-macro name="collection-group"> <waterlevels description="{dc:group-key()}"> <dc:for-each> <dc:choose> <dc:when test="$ld_m = 'location'"> <dc:variable name="combined_desc" expr="concat($facet_description, ' an KM ', $deffrom)" /> </dc:when> <dc:otherwise> <dc:variable name="combined_desc" expr="concat($facet_description, ' von KM ', $deffrom, ' bis KM ', $defto)" /> </dc:otherwise> </dc:choose> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${combined_desc}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="factory" value="winfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="longitudinal_section" /> </dc:element> </dc:for-each> </waterlevels> </dc:call-macro> </waterlevels> </dc:if> </dc:filter> </dc:macro> <dc:macro name="floodmap-hws-user"> <dc:comment>No grouping in this?</dc:comment> <dc:filter expr="$out_name = 'floodmap' and $facet_name = 'floodmap.usershape'"> <own-hws> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="factory" value="winfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="floodmap" /> </dc:element> </dc:for-each> </own-hws> </dc:filter> </dc:macro> <dc:macro name="bedquality"> <dc:filter expr="$out_name = 'bed_longitudinal_section' and starts-with($facet_name, 'bed_longitudinal_section')"> <dc:if test="dc:has-result()"> <bed_quality> <dc:call-macro name="collection-group"> <quality-bed description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="minfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="bed_longitudinal_section" /> </dc:element> </dc:for-each> </quality-bed> </dc:call-macro> </bed_quality> </dc:if> </dc:filter> </dc:macro> <dc:macro name="flow-velocity"> <dc:filter expr="$out_name = 'flow_velocity' and starts-with($facet_name, 'flow_velocity')"> <dc:if test="dc:has-result()"> <flow_velocity> <dc:call-macro name="collection-group"> <flow description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="minfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="flow_velocity" /> </dc:element> </dc:for-each> </flow> </dc:call-macro> </flow_velocity> </dc:if> </dc:filter> </dc:macro> <dc:macro name="sediment-load"> <dc:filter expr="$out_name = 'sedimentload_ls' and starts-with($facet_name, 'sedimentload')"> <dc:if test="dc:has-result()"> <sediment_load> <dc:call-macro name="collection-group"> <load description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="minfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="${out_name}" /> </dc:element> </dc:for-each> </load> </dc:call-macro> </sediment_load> </dc:if> </dc:filter> </dc:macro> <dc:macro name="middle_bedheights"> <dc:filter expr="($out_name = 'bedheight_middle') and (starts-with($facet_name, 'bedheight_middle.single'))"> <dc:if test="dc:has-result()"> <middle_bedheights> <dc:call-macro name="collection-group"> <middle_bedheight description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="minfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="${out_name}" /> </dc:element> </dc:for-each> </middle_bedheight> </dc:call-macro> </middle_bedheights> </dc:if> </dc:filter> </dc:macro> <dc:macro name="bedheight_differences"> <dc:filter expr="($out_name = 'bed_difference_year' or $out_name = 'bed_difference_height_year') and (starts-with($facet_name, 'bedheight_difference.year') or starts-with($facet_name, 'bedheight_difference.height'))"> <dc:if test="dc:has-result()"> <bedheight_differences> <dc:call-macro name="collection-group"> <difference description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="minfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="${out_name}" /> </dc:element> </dc:for-each> </difference> </dc:call-macro> </bedheight_differences> </dc:if> </dc:filter> </dc:macro> <dc:macro name="sqrelations_user"> <dc:filter expr="not(dc:contains($facet_name, 'overview')) and ( ($out = 'sq_relation_a' and starts-with($facet_name, 'sq_a_')) or ($out = 'sq_relation_b' and starts-with($facet_name, 'sq_b_')) or ($out = 'sq_relation_c' and starts-with($facet_name, 'sq_c_')) or ($out = 'sq_relation_d' and starts-with($facet_name, 'sq_d_')) or ($out = 'sq_relation_e' and starts-with($facet_name, 'sq_e_')) or ($out = 'sq_relation_f' and starts-with($facet_name, 'sq_f_')) or ($out = 'sq_relation_g' and starts-with($facet_name, 'sq_g_'))) or dc:contains($facet_name, 'overview')"> <dc:if test="dc:has-result()"> <sq_relations> <dc:call-macro name="collection-group"> <sqrel description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="minfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="${out_name}" /> </dc:element> </dc:for-each> </sqrel> </dc:call-macro> </sq_relations> </dc:if> </dc:filter> </dc:macro> <dc:macro name="waterlevels-discharge"> <dc:filter expr="$out_name = 'discharge_longitudinal_section'"> <dc:if test="dc:has-result()"> <waterlevels_discharge> <dc:call-macro name="collection-group"> <discharge description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="winfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}-${facet_name}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="discharge_longitudinal_section" /> </dc:element> </dc:for-each> </discharge> </dc:call-macro> </waterlevels_discharge> </dc:if> </dc:filter> </dc:macro> <!-- Macros to load system data --> <dc:macro name="qmainvalues"> <qmainvalue factory="mainvalue" ids="{$river_id}:q" target_out="{$out}" /> </dc:macro> <dc:macro name="mainvalues"> <wmainvalue factory="mainvalue" ids="{$river_id}:w" target_out="{$out}" /> <dc:call-macro name="qmainvalues" /> </dc:macro> <!-- discharge curves --> <dc:macro name="hist_discharge_factory"> <dc:for-each> <dc:variable name="validity" expr="concat( dc:date-format('dd.MM.yyyy', $start_time), ' - ', dc:date-format('dd.MM.yyyy', $stop_time))" /> <histdis name="{concat($bfg_id, ' ', $validity)}" description="{concat($bfg_id, ' ', $validity)}" factory="gaugedischarge" target_out="{$out}" ids="{$gauge_name};{$dt_id};{concat($bfg_id, ' ', $gauge_name, ' ', $validity)}" /> </dc:for-each> </dc:macro> <dc:macro name="hist_discharge_rec"> <dc:variable name="start" type="number" expr="dc:date-format('yyyyMMdd', number(substring-before($year_range, ';')))" /> <dc:variable name="stop" type="number" expr="dc:date-format('yyyyMMdd', number(substring-after($year_range, ';')))" /> <dc:call-macro name="discharge_curve_choose_context"> <dc:filter expr="$kind = 1 and number(dc:date-format('yyyyMMdd', $start_time)) < $stop and number(dc:coalesce( dc:date-format('yyyyMMdd', $stop_time), '99999999')) > $start"> <dc:call-macro name="hist_discharge_factory" /> </dc:filter> </dc:call-macro> </dc:macro> <dc:macro name="discharge_table_gauge"> <dc:call-macro name="discharge_curve_choose_context"> <dc:filter expr="$kind = 0"> <dc:group expr="$gauge_name"> <gauge name="{dc:group-key()}"> <dc:for-each> <current_gauge factory="gaugedischarge" target_out="{$out}" ids="{$gauge_name}" /> </dc:for-each> </gauge> </dc:group> </dc:filter> </dc:call-macro> </dc:macro> <dc:macro name="historical_discharge_curve"> <dc:call-macro name="discharge_curve_choose_context"> <dc:filter expr="$kind = 1"> <historical_discharge_curves> <dc:group expr="$gauge_name"> <gauge name="{dc:group-key()}"> <dc:call-macro name="hist_discharge_factory" /> </gauge> </dc:group> </historical_discharge_curves> </dc:filter> </dc:call-macro> </dc:macro> <dc:macro name="discharge_curve_choose_context"> <dc:choose> <dc:when test="$fromkm > -99999 and $tokm < 99999"> <dc:context> <dc:call-macro name="discharge_curves_km" /> <dc:macro-body /> </dc:context> </dc:when> <dc:otherwise> <dc:variable name="refgauge" type="number" expr="dc:get('reference_gauge')" /> <dc:context> <dc:call-macro name="discharge_curves_refgauge" /> <dc:macro-body /> </dc:context> </dc:otherwise> </dc:choose> </dc:macro> <dc:macro name="discharge_curves_km"> <dc:statement> SELECT g.name AS gauge_name, dt.id AS dt_id, t.start_time AS start_time, t.stop_time AS stop_time, dt.bfg_id AS bfg_id, dt.kind AS kind FROM gauges g JOIN discharge_tables dt ON g.id = dt.gauge_id LEFT JOIN time_intervals t ON dt.time_interval_id = t.id WHERE g.river_id = ${river_id} AND g.station BETWEEN ${fromkm} AND ${tokm} ORDER BY start_time </dc:statement> </dc:macro> <dc:macro name="discharge_curves_refgauge"> <dc:statement> SELECT g.name AS gauge_name, dt.id AS dt_id, t.start_time AS start_time, t.stop_time AS stop_time, dt.bfg_id AS bfg_id, dt.kind AS kind FROM gauges g JOIN discharge_tables dt ON g.id = dt.gauge_id LEFT JOIN time_intervals t ON dt.time_interval_id = t.id WHERE g.river_id = ${river_id} AND g.official_number = ${refgauge} ORDER BY start_time </dc:statement> </dc:macro> <!-- Cross sections --> <dc:macro name="cross_sections"> <cross_sections id="flood-protections-{$river_id}"> <dc:context connection="system"> <dc:statement> SELECT DISTINCT cs.id AS prot_id, cs.description AS prot_description FROM cross_sections cs JOIN cross_section_lines csl ON csl.cross_section_id = cs.id WHERE cs.river_id = ${river_id} AND csl.km BETWEEN ${fromkm} AND ${tokm} </dc:statement> <dc:for-each> <cross_section name="{$prot_description}" ids="{$prot_id}" factory="crosssections" target_out="{$out}" /> </dc:for-each> </dc:context> </cross_sections> </dc:macro> <dc:macro name="hyks"> <hyks id="hyk-{$river_id}"> <dc:context connection="system"> <dc:statement> SELECT DISTINCT h.id AS hyk_id, h.description AS hyk_description FROM hyks h JOIN hyk_entries he ON he.hyk_id = h.id WHERE river_id = ${river_id} AND he.km BETWEEN ${fromkm} AND ${tokm} </dc:statement> <dc:for-each> <hyk name="{$hyk_description}" ids="{$hyk_id}" factory="hyk" target_out="{$out}" /> </dc:for-each> </dc:context> </hyks> </dc:macro> <!-- wst-data --> <!-- model-waterlevels --> <dc:macro name="basedata_0_macro"> <dc:filter expr="$kind = 0"> <dc:if test="dc:has-result()"> <basedata> <dc:group expr="$wst_description"> <basedata name="{dc:group-key()}"> <dc:for-each> <dc:macro-body /> </dc:for-each> </basedata> </dc:group> </basedata> </dc:if> </dc:filter> </dc:macro> <dc:macro name="basedata_0"> <dc:call-macro name="basedata_0_macro"> <column name="{$wst_column_name}" ids="base_data-wstv-{$wst_column_position}-{$wst_id}" factory="staticwqkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_0_wq"> <dc:call-macro name="basedata_0_macro"> <column name="{$wst_column_name}" ids="base_data-wstv-{$wst_column_position}-{$wst_id}" factory="wqinterpol" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <!-- additional longitudinal sections --> <dc:macro name="basedata_1_additionals_macro"> <dc:filter expr="$kind=1"> <dc:if test="dc:has-result()"> <additionals> <dc:group expr="dc:replace($wst_description, 'Zus.Längsschnitte/', '')"> <additional name="{dc:group-key()}" description="{dc:group-key()}"> <dc:for-each> <dc:macro-body /> </dc:for-each> </additional> </dc:group> </additionals> </dc:if> </dc:filter> </dc:macro> <dc:macro name="basedata_1_additionals"> <dc:call-macro name="basedata_1_additionals_macro"> <column name="{$wst_column_name}" ids="additionals-wstv-{$wst_column_position}-{$wst_id}" factory="staticwqkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_1_additionals-sinfo-with-q_macro"> <dc:filter expr="$kind=1 and $sinfo_selection='Q'"> <dc:if test="dc:has-result()"> <sinfo_additional_ls_withQ> <dc:group expr="dc:replace($wst_description, 'Zus.Längsschnitte/', '')"> <additional name="{dc:group-key()}" description="{dc:group-key()}"> <dc:for-each> <dc:macro-body /> </dc:for-each> </additional> </dc:group> </sinfo_additional_ls_withQ> </dc:if> </dc:filter> </dc:macro> <dc:macro name="basedata_1_additionals-sinfo-with-q"> <dc:call-macro name="basedata_1_additionals-sinfo-with-q_macro"> <column name="{$wst_column_name}" ids="additionals-wstv-{$wst_column_position}-{$wst_id}" factory="staticwqkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" year="{dc:date-format('yyyy', $start_time)}" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_1_additionals-sinfo-without-q_macro"> <dc:filter expr="$kind=1 and $sinfo_selection='W'"> <dc:if test="dc:has-result()"> <sinfo_additional_ls_withoutQ> <dc:group expr="dc:replace($wst_description, 'Zus.Längsschnitte/', '')"> <additional name="{dc:group-key()}" description="{dc:group-key()}"> <dc:for-each> <dc:macro-body /> </dc:for-each> </additional> </dc:group> </sinfo_additional_ls_withoutQ> </dc:if> </dc:filter> </dc:macro> <dc:macro name="basedata_1_additionals-sinfo-without-q"> <dc:call-macro name="basedata_1_additionals-sinfo-without-q_macro"> <dc:variable name="start_year" expr="dc:date-format('yyyy', $start_time)" /> <column name="{$wst_column_name}" ids="additionals-wstv-{$wst_column_position}-{$wst_id}" factory="staticwkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" year="{dc:date-format('yyyy', $start_time)}" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_1_additionals_wq"> <dc:call-macro name="basedata_1_additionals_macro"> <column name="{$wst_column_name}" ids="base_data-wstv-{$wst_column_position}-{$wst_id}" factory="wqinterpol" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_1_additionals-relative_point"> <dc:call-macro name="basedata_1_additionals_macro"> <column name="{$wst_column_name}" ids="additionals-wstv-{$wst_column_position}-{$wst_id}" factory="staticwkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <!-- fixations --> <dc:macro name="fixings-macro"> <dc:filter expr="$kind=2"> <dc:if test="dc:has-result()"> <fixations> <dc:group expr="dc:replace($wst_description, 'Fixierungen/', '')"> <fixation name="{dc:group-key()}"> <dc:for-each> <dc:macro-body /> </dc:for-each> </fixation> </dc:group> </fixations> </dc:if> </dc:filter> </dc:macro> <dc:macro name="basedata_2_fixations"> <dc:call-macro name="fixings-macro"> <dc:variable name="start_year" expr="dc:date-format('yyyy', $start_time)" /> <column name="{$wst_column_name}" ids="fixations-wstv-{$wst_column_position}-{$wst_id}" factory="staticwqkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" year="{dc:date-format('yyyy', $start_time)}" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_2_fixations_wq"> <dc:call-macro name="fixings-macro"> <column name="{$wst_column_name}" ids="fixations-wstv-{$wst_column_position}-{$wst_id}" factory="wqinterpol" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_2_fixations_relative_point"> <dc:call-macro name="fixings-macro"> <column name="{$wst_column_name}" ids="fixations-wstv-{$wst_column_position}-{$wst_id}" factory="staticwkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <!-- official lines --> <dc:macro name="basedata_3_macro"> <dc:filter expr="$kind=3"> <dc:if test="dc:has-result()"> <officiallines> <dc:group expr="$wst_description"> <official name="{dc:group-key()}"> <dc:for-each> <dc:macro-body /> </dc:for-each> </official> </dc:group> </officiallines> </dc:if> </dc:filter> </dc:macro> <dc:macro name="basedata_3_officials"> <dc:call-macro name="basedata_3_macro"> <dc:variable name="start_year" expr="dc:date-format('yyyy', $start_time)" /> <column name="{$wst_column_name}" ids="additionals-wstv-{$wst_column_position}-{$wst_id}" factory="staticwqkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" year="{dc:date-format('yyyy', $start_time)}" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_3_officials_wq"> <dc:call-macro name="basedata_3_macro"> <column name="{$wst_column_name}" ids="officials_wq-wstv-{$wst_column_position}-{$wst_id}" factory="wqinterpol" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <!-- flood marks --> <dc:macro name="basedata_4_macro"> <dc:filter expr="$kind=4"> <dc:if test="dc:has-result()"> <heightmarks> <dc:group expr="dc:replace($wst_description, 'HW-Marken/', '')"> <heightmark name="{dc:group-key()}" description="{dc:group-key()}"> <dc:for-each> <dc:macro-body /> </dc:for-each> </heightmark> </dc:group> </heightmarks> </dc:if> </dc:filter> </dc:macro> <dc:macro name="basedata_4_heightmarks-points"> <dc:call-macro name="basedata_4_macro"> <column name="{$wst_column_name}" ids="heightmarks_points-wstv-{$wst_column_position}-{$wst_id}" factory="staticwkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_4_heightmarks-points_wq"> <dc:call-macro name="basedata_4_macro"> <column name="{$wst_column_name}" ids="heightmarks_points-wstv-{$wst_column_position}-{$wst_id}" factory="wqinterpol" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_4_heightmarks-points-relative_points"> <dc:call-macro name="basedata_4_macro"> <column name="{$wst_column_name}" ids="heightmarks_points-wstv-{$wst_column_position}-{$wst_id}" factory="staticwkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <!-- flood protection structures --> <dc:macro name="basedata_5_macro"> <dc:filter expr="$kind=5"> <dc:if test="dc:has-result()"> <flood_protections> <dc:group expr="dc:replace($wst_description, 'HW-Schutzanlagen/', '')"> <flood_protection name="{dc:group-key()}" description="{dc:group-key()}"> <dc:for-each> <dc:macro-body /> </dc:for-each> </flood_protection> </dc:group> </flood_protections> </dc:if> </dc:filter> </dc:macro> <dc:macro name="basedata_5_flood-protections"> <dc:call-macro name="basedata_5_macro"> <column name="{$wst_column_name}" ids="flood_protection-wstv-{$wst_column_position}-{$wst_id}" factory="staticwkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_5_flood-protections_wq"> <dc:call-macro name="basedata_5_macro"> <column name="{$wst_column_name}" ids="flood_protection-wstv-{$wst_column_position}-{$wst_id}" factory="wqinterpol" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_5_flood-protections_relative_points"> <dc:call-macro name="basedata_5_macro"> <column name="{$wst_column_name}" ids="flood_protection-wstv-{$wst_column_position}-{$wst_id}" factory="staticwkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <!-- waterlevel differences imported from CSV-files for M-INFO --> <dc:macro name="basedata_6_delta_w"> <dc:filter expr="$kind=6"> <dc:if test="dc:has-result()"> <delta_w> <delta_w_cm> <dc:filter expr="contains($wst_description, 'cm.csv')"> <dc:group expr="dc:replace($wst_description, 'CSV/', '')"> <relativepoint name="{dc:group-key()}" description="{dc:group-key()}"> <dc:for-each> <column name="{$wst_column_name}" ids="delta_w-wstv-{$wst_column_position}-{$wst_id}" factory="staticwkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:for-each> </relativepoint> </dc:group> </dc:filter> </delta_w_cm> <delta_w_cma> <dc:filter expr="contains($wst_description, 'cm-a.csv')"> <dc:group expr="dc:replace($wst_description, 'CSV/', '')"> <relativepoint name="{dc:group-key()}" description="{dc:group-key()}"> <dc:for-each> <column name="{$wst_column_name}" ids="delta_w_cma-wstv-{$wst_column_position}-{$wst_id}" factory="staticwkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:for-each> </relativepoint> </dc:group> </dc:filter> </delta_w_cma> </delta_w> </dc:if> </dc:filter> </dc:macro> <!-- waterlevels imported from CSV-files for M-INFO --> <dc:macro name="basedata_7_macro"> <dc:filter expr="$kind=7"> <dc:if test="dc:has-result()"> <wlevel> <dc:group expr="dc:replace($wst_description, 'CSV/', '')"> <relativepoint name="{dc:group-key()}" description="{dc:group-key()}"> <dc:for-each> <dc:macro-body /> </dc:for-each> </relativepoint> </dc:group> </wlevel> </dc:if> </dc:filter> </dc:macro> <dc:macro name="basedata_7_waterlevels"> <dc:call-macro name="basedata_7_macro"> <dc:variable name="start_year" expr="dc:date-format('yyyy', $start_time)" /> <column name="{$wst_column_name}" ids="additionals-wstv-{$wst_column_position}-{$wst_id}" factory="staticwqkms" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" year="{dc:date-format('yyyy', $start_time)}" /> </dc:call-macro> </dc:macro> <dc:macro name="basedata_7_waterlevels_wq"> <dc:call-macro name="basedata_7_macro"> <column name="{$wst_column_name}" ids="additionals-wstv-{$wst_column_position}-{$wst_id}" factory="wqinterpol" target_out="{$out}" info="{$info} [km {$deffrom} - {$defto}]" /> </dc:call-macro> </dc:macro> <!-- prototypes --> <dc:macro name="discharge-curve-prototype"> <computed_discharge_curve> <dc:call-macro name="discharge_table_gauge" /> <dc:call-macro name="mainvalues" /> </computed_discharge_curve> <dc:call-macro name="historical_discharge_curve" /> <dc:call-macro name="basedata_0_wq" /> <dc:call-macro name="basedata_1_additionals_wq" /> <dc:call-macro name="basedata_2_fixations_wq" /> <dc:call-macro name="basedata_3_officials_wq" /> <dc:call-macro name="basedata_4_heightmarks-points_wq" /> <dc:call-macro name="basedata_5_flood-protections_wq" /> <minfo> <dc:call-macro name="sqrelations" /> <dc:call-macro name="basedata_7_waterlevels_wq" /> </minfo> </dc:macro> <dc:macro name="discharge-curve-user-prototype"> <dc:call-macro name="waterlevels-user" /> <dc:call-macro name="computed-discharge-curve" /> <!-- TODO: macro for discharge longitudinal section --> <dc:call-macro name="fix-wq-curve" /> <!-- TODO: own macro for Vollmer-curve (extract from fix-wq-curve and waterlevels-user) --> <dc:call-macro name="extreme-wq-curve" /> <minfo> <dc:call-macro name="sqrelations_user" /> </minfo> </dc:macro> <dc:macro name="longitudinal-section-prototype"> <dc:call-macro name="basedata_0" /> <dc:call-macro name="basedata_1_additionals" /> <dc:call-macro name="basedata_2_fixations" /> <dc:call-macro name="basedata_3_officials" /> <dc:call-macro name="basedata_4_heightmarks-points" /> <dc:call-macro name="basedata_5_flood-protections" /> <dc:call-macro name="annotations_per_type" /> <minfo> <fixanalysis> <dc:call-macro name="basedata_6_delta_w" /> <dc:call-macro name="basedata_7_waterlevels" /> </fixanalysis> <dc:call-macro name="sedimentloads" /> <dc:call-macro name="densities" /> <dc:call-macro name="minfo-heights" /> <dc:call-macro name="sounding-width" /> <dc:call-macro name="morph_width" /> <dc:call-macro name="porosities" /> <flow_velocities> <dc:call-macro name="flow_velocity_measurements" /> <dc:call-macro name="flow_velocity_models" /> </flow_velocities> </minfo> <sinfo> <sinfo_predefined_flowdepths> <dc:call-macro name="sinfo_predefined_flowdepth-m" /> </sinfo_predefined_flowdepths> <sinfo_predefined_collision> <dc:call-macro name="sinfo_predefined_collision" /> </sinfo_predefined_collision> <sinfo_predefined_channel> <dc:call-macro name="sinfo_predefined_channel" /> </sinfo_predefined_channel> <sinfo_predefined_infrastructure> <dc:call-macro name="sinfo_predefined_infrastructure" /> </sinfo_predefined_infrastructure> <sinfo_predefined_tkh> <dc:call-macro name="sinfo_predefined_tkh-berechnung" /> <dc:call-macro name="sinfo_predefined_tkh-messung" /> </sinfo_predefined_tkh> <sinfo_predefined_depthevol> <dc:call-macro name="sinfo_predefined_depthevol-aktuell" /> <dc:call-macro name="sinfo_predefined_depthevol-etappe" /> </sinfo_predefined_depthevol> </sinfo> </dc:macro> <dc:macro name="longitudinal-section-user-prototype"> <dc:comment> SINFO </dc:comment> <dc:call-macro name="sinfo_flowdepths" /> <dc:call-macro name="sinfo_flowdepths_minmax" /> <dc:call-macro name="sinfo_flow_depth_development" /> <dc:call-macro name="sinfo_tkh" /> <dc:call-macro name="sinfo_collision" /> <dc:call-macro name="sinfo_flood_duration" /> <dc:comment> WINFO/DIFF/FIX </dc:comment> <dc:call-macro name="longitudinal" /> <dc:call-macro name="differences" /> <dc:call-macro name="waterlevels-discharge" /> <dc:call-macro name="longitudinal-section-fix" /> <dc:call-macro name="longitudinal-section-fix-vollmer" /> <dc:comment> MINFO </dc:comment> <dc:call-macro name="middle_bedheights" /> <dc:call-macro name="bedheight_differences" /> <dc:call-macro name="bedquality" /> <dc:call-macro name="flow-velocity" /> <dc:call-macro name="sediment-load" /> <dc:comment> UINFO </dc:comment> <dc:call-macro name="uinfo_salix_line" /> </dc:macro> <!-- porosities --> <dc:macro name="porosities"> <porosities> <dc:context> <dc:statement> SELECT DISTINCT p.id AS pid, p.description AS description, d.lower AS depth_lower, d.upper AS depth_upper, p.description || '<BR>' || 'Tiefe: ' || d.lower || ' - ' || d.upper || ' cm <BR>' || 'Zeitraum: ' AS info, t.start_time AS syear, t.stop_time AS eyear FROM porosity p JOIN depths d ON p.depth_id = d.id JOIN time_intervals t ON p.time_interval_id=t.id WHERE p.river_id = ${river_id} ORDER BY depth_lower, depth_upper </dc:statement> <dc:if test="dc:has-result()"> <dc:for-each> <porosity description="{$depth_lower}-{$depth_upper} cm" factory="porosity" target_out="{$out}" info="{concat($info, dc:date-format('yyyy', $syear), ' - ', dc:date-format('yyyy', $eyear))}" ids="{$pid};{$description}" /> </dc:for-each> </dc:if> </dc:context> </porosities> </dc:macro> <dc:macro name="densities"> <densities> <dc:context> <dc:statement> SELECT DISTINCT sd.id AS sdid, d.lower AS depth_lower, d.upper AS depth_upper, min(sdv.year) AS year, sd.description || '<BR>Jahr: ' || min(sdv.year) AS info FROM sediment_density sd JOIN depths d ON sd.depth_id = d.id JOIN sediment_density_values sdv on sdv.sediment_density_id = sd.id WHERE sd.river_id = ${river_id} GROUP BY sd.id, sd.description, d.upper, d.lower ORDER BY year, depth_lower, depth_upper </dc:statement> <dc:if test="dc:has-result()"> <dc:for-each> <density description="{$depth_lower}-{$depth_upper} cm" factory="sedimentdensity" target_out="{$out}" info="{$info}" ids="{$sdid}" /> </dc:for-each> </dc:if> </dc:context> </densities> </dc:macro> <!-- sediment load --> <dc:macro name="load"> <year description="{$timespan}" factory="sedimentload" target_out="{$out}" info="{$info}" ids="{$slid};{$fraction};{$timespan};{$kind}" /> </dc:macro> <dc:macro name="load_ls"> <year description="{$timespan}" factory="sedimentload_ls" target_out="{$out}" info="{$info}" ids="{$slid};{$timespan};{$kind}" /> </dc:macro> <dc:macro name="loads"> <dc:if test="dc:has-result()"> <dc:group expr="concat('SQ ', dc:date-format('yyyy', $sqstart), '-', dc:date-format('yyyy', $sqstop))"> <sq_time description="{dc:group-key()}"> <dc:group expr="$fraction"> <dc:variable name="fraction_name" expr="concat('${', dc:group-key(), '}')" /> <fraction description="{$fraction_name}"> <dc:for-each> <dc:choose> <dc:when test="string-length(dc:get('endyear')) = 0"> <dc:variable name="timespan" type="string" expr="dc:date-format('yyyy', $startyear)" /> </dc:when> <dc:otherwise> <dc:variable name="timespan" type="string" expr="concat(dc:date-format('yyyy', $startyear), '-', dc:date-format('yyyy', $endyear))" /> </dc:otherwise> </dc:choose> <dc:if test="$kind = 'official'"> <dc:variable name="info" type="string" expr="concat('Amtliche Epoche<BR>', dc:get('info'))" /> </dc:if> <dc:macro-body /> </dc:for-each> </fraction> </dc:group> </sq_time> </dc:group> </dc:if> </dc:macro> <dc:macro name="sedimentloads-filter"> <years> <dc:filter expr="string-length(dc:get('endyear')) = 0 and $kind != 'official'"> <dc:macro-body /> </dc:filter> </years> <epochs> <dc:filter expr="string-length(dc:get('endyear')) > 0 and $kind != 'official'"> <dc:macro-body /> </dc:filter> </epochs> <off_epochs> <dc:filter expr="$kind = 'official'"> <dc:macro-body /> </dc:filter> </off_epochs> </dc:macro> <dc:macro name="sedimentloads"> <sedimentloads> <dc:call-macro name="annotations_sediment_load_ls" /> <measurement_stations> <dc:context> <dc:call-macro name="sedimentload_stations_statement" /> <dc:call-macro name="sedimentloads-filter"> <dc:call-macro name="loads"> <dc:call-macro name="load" /> </dc:call-macro> </dc:call-macro> </dc:context> </measurement_stations> <sediment_load_ls> <dc:context> <dc:call-macro name="sedimentload_ls_statement" /> <dc:call-macro name="sedimentloads-filter"> <dc:call-macro name="loads"> <dc:call-macro name="load_ls" /> </dc:call-macro> </dc:call-macro> </dc:context> </sediment_load_ls> </sedimentloads> </dc:macro> <dc:macro name="sedimentload_stations_statement"> <dc:statement> SELECT DISTINCT sl.id AS slid, slk.kind AS kind, ti.start_time AS startyear, ti.stop_time AS endyear, sq.start_time AS sqstart, sq.stop_time AS sqstop, sq.id AS sqid, gf.name AS fraction, sl.description || '<BR>' || 'Fraktion: ' || gf.lower || ' bis ' || gf.upper || ' mm<BR>Einheit: t/a' AS info FROM sediment_load sl JOIN sediment_load_kinds slk ON slk.id = sl.kind JOIN sediment_load_values slv ON sl.id = slv.sediment_load_id JOIN measurement_station ms ON ms.id = slv.measurement_station_id JOIN ranges ra ON ms.range_id = ra.id JOIN rivers r ON ra.river_id = r.id JOIN time_intervals ti ON sl.time_interval_id = ti.id LEFT JOIN time_intervals sq ON sl.sq_time_interval_id = sq.id JOIN grain_fraction gf ON gf.id = sl.grain_fraction_id WHERE r.id = ${river_id} AND CASE WHEN r.km_up = 1 AND ra.b IS NOT NULL THEN ra.b ELSE ra.a END BETWEEN ${fromkm} AND ${tokm} ORDER BY sqstart DESC, sqstop DESC, fraction, startyear DESC, endyear DESC </dc:statement> </dc:macro> <dc:macro name="sedimentload_ls_statement"> <dc:statement> SELECT DISTINCT sl.id AS slid, slk.kind AS kind, ti.start_time AS startyear, ti.stop_time AS endyear, sq.start_time AS sqstart, sq.stop_time AS sqstop, sq.id AS sqid, gf.name AS fraction, sl.description || '<BR>' || 'Fraktion: ' || gf.lower || ' bis ' || gf.upper || ' mm<BR>Einheit: ' || u.name AS info FROM sediment_load_ls sl JOIN sediment_load_kinds slk ON slk.id = sl.kind JOIN rivers r ON sl.river_id = r.id JOIN sediment_load_ls_values slv ON sl.id = slv.sediment_load_ls_id JOIN time_intervals ti ON sl.time_interval_id = ti.id LEFT JOIN time_intervals sq ON sl.sq_time_interval_id = sq.id JOIN grain_fraction gf ON gf.id = sl.grain_fraction_id JOIN units u ON sl.unit_id = u.id WHERE r.id = ${river_id} AND slv.station BETWEEN ${fromkm} AND ${tokm} ORDER BY sqstart DESC, sqstop DESC, fraction, startyear DESC, endyear DESC </dc:statement> </dc:macro> <!-- annotations --> <dc:macro name="annotations"> <annotation factory="annotations" ids="{$river_id}" target_out="{$out}" /> </dc:macro> <dc:macro name="annotations_per_type"> <annotations> <dc:context> <all_annotations factory="annotations" ids="{$river_id}" target_out="{$out}" /> <dc:statement> SELECT id AS anno_id, name AS anno_description FROM annotation_types </dc:statement> <dc:for-each> <annotation name="{$anno_description}" factory="annotations" target_out="{$out}" ids="{$river_id}:{$anno_description}" /> </dc:for-each> </dc:context> </annotations> </dc:macro> <dc:macro name="annotations_sediment_load_ls"> <sources_sinks> <dc:context> <dc:statement> SELECT id AS anno_id, name AS anno_description FROM annotation_types WHERE name LIKE 'Quelle %' OR name LIKE 'Senke %' </dc:statement> <dc:for-each> <annotation name="{$anno_description}" factory="annotations" target_out="{$out}" ids="{$river_id}:{$anno_description}" /> </dc:for-each> </dc:context> </sources_sinks> </dc:macro> <dc:macro name="qsectors"> <qsector factory="qsectors" ids="{$river_id}" target_out="{$out}" /> </dc:macro> <dc:macro name="flood-map-recommended"> <kilometrage> <riveraxis factory="riveraxis" ids="{$river_id}" target_out="{$out}" /> </kilometrage> <rastermap> <background factory="wmsbackground" ids="{$river_id}" target_out="{$out}" /> </rastermap> </dc:macro> <!-- bed heights --> <dc:macro name="minfo-heights-diff"> <dc:context> <dc:statement> WITH sta AS (SELECT bhs.id, bhs.description, bhsv.station, bhs.year FROM bed_height bhs JOIN bed_height_values bhsv ON bhsv.bed_height_id = bhs.id WHERE bhs.river_id = ${river_id} AND bhsv.station BETWEEN ${fromkm} AND ${tokm}), csta AS (SELECT b1.id AS b1id, b1.description AS b1desc, b1.year AS b1year, b2.id AS b2id, b2.description AS b2desc, b2.year AS b2year FROM sta b1 JOIN sta b2 ON b1.station = b2.station AND b1.id <> b2.id AND (b1.year > b2.year OR b1.year IS NULL)) SELECT DISTINCT b1id, b1desc, b1year, b2id, b2desc, b2year FROM csta ORDER BY b1desc, b2desc </dc:statement> <dc:if test="dc:has-result()"> <bedheights> <dc:call-macro name="bed-heights-single-diff" /> <dc:call-macro name="bed-heights-epoch-diff" /> </bedheights> </dc:if> </dc:context> </dc:macro> <dc:macro name="bed-heights-single-diff"> <dc:filter expr="not(contains(dc:lowercase($b1desc), 'epoche'))"> <years> <dc:call-macro name="minfo-heights-diff-tree" /> </years> </dc:filter> </dc:macro> <dc:macro name="bed-heights-epoch-diff"> <dc:filter expr="contains(dc:lowercase($b1desc), 'epoche')"> <epochs> <dc:call-macro name="minfo-heights-diff-tree" /> </epochs> </dc:filter> </dc:macro> <dc:macro name="minfo-heights-diff-tree"> <dc:group expr="dc:coalesce($b1year, 'sonstige')"> <minfo-diff name="{dc:group-key()}"> <dc:for-each> <dc:choose> <dc:when test="dc:group-key() = $b1year"> <height factory="bedheight" target_out="{$out}" ids="bedheight-single-{$b1id}-{$b1desc}#bedheight-single-{$b2id}-{$b2desc}" info="{$b1desc}#{$b2desc}" description="{$b1desc} - {$b2desc}" /> </dc:when> <dc:when test="dc:group-key() = 'sonstige'"> <height factory="bedheight" target_out="{$out}" ids="bedheight-single-{$b1id}-{$b1desc}#bedheight-single-{$b2id}-{$b2desc}" info="{$b1desc}#{$b2desc}" description="{$b1desc} - {$b2desc}" /> <height factory="bedheight" target_out="{$out}" ids="bedheight-single-{$b2id}-{$b1desc}#bedheight-single-{$b1id}-{$b2desc}" info="{$b2desc}#{$b1desc}" description="{$b2desc} - {$b1desc}" /> </dc:when> </dc:choose> </dc:for-each> </minfo-diff> </dc:group> </dc:macro> <dc:macro name="minfo-heights"> <bedheights> <dc:call-macro name="bed-heights-single" /> <dc:call-macro name="bed-heights-epoch" /> </bedheights> </dc:macro> <!-- Show all three MW, TL, and KL bedheights --> <dc:macro name="bed-heights-factory_MW_TW_KL"> <dc:for-each> <dc:if test="$bedh_height_count > 0"> <height factory="bedheight" target_out="{$out}" ids="bedheight-single-{$bedh_id}-{$bedh_year}-MW-{$bedh_descr}" info="{$info}" description="MW-{$bedh_descr}" /> </dc:if> <dc:if test="$bedh_min_count > 0"> <height factory="bedheight" target_out="{$out}" ids="bedheight-singleMin-{$bedh_id}-{$bedh_year}-TW-{$bedh_descr}" info="{$info}" description="TW-{$bedh_descr}" /> </dc:if> <dc:if test="$bedh_max_count > 0"> <height factory="bedheight" target_out="{$out}" ids="bedheight-singleMax-{$bedh_id}-{$bedh_year}-KL-{$bedh_descr}" info="{$info}" description="KL-{$bedh_descr}" /> </dc:if> </dc:for-each> </dc:macro> <!-- Show only MW bed height and name it in a neutral way --> <dc:macro name="bed-heights-factory_MW"> <dc:for-each> <dc:if test="$bedh_height_count > 0"> <!-- REMARK: addition 'yaer' attribute is used by intelligent datacage filter of SINFO --> <height factory="bedheight" target_out="{$out}" ids="bedheight-single-{$bedh_id}-{$bedh_year}-{$bedh_descr}" info="{$info}" description="{$bedh_descr}" year="{$bedh_year}" /> </dc:if> </dc:for-each> </dc:macro> <dc:macro name="bed-heights-single"> <single> <dc:context> <dc:call-macro name="bed-heights-statement" /> <dc:if test="dc:has-result()"> <dc:group expr="dc:coalesce($bedh_year, 'sonstige')"> <heights name="{dc:group-key()}" description="{dc:group-key()}"> <dc:call-macro name="bed-heights-factory_MW_TW_KL" /> </heights> </dc:group> </dc:if> </dc:context> </single> </dc:macro> <!-- Show bed heights that have MW values with a neutral name --> <dc:macro name="bed-heights-single-MW"> <single> <dc:context> <dc:call-macro name="bed-heights-statement" /> <dc:filter expr="$bedh_height_count"> <dc:if test="dc:has-result()"> <dc:group expr="dc:coalesce($bedh_year, 'sonstige')"> <heights name="{dc:group-key()}" description="{dc:group-key()}"> <dc:call-macro name="bed-heights-factory_MW" /> </heights> </dc:group> </dc:if> </dc:filter> </dc:context> </single> </dc:macro> <!-- Show bed heights that have KL and TW values with a neutral name --> <dc:macro name="bed-heights-single-KL_TW"> <single> <dc:context> <dc:call-macro name="bed-heights-statement" /> <dc:filter expr="$bedh_max_count > 0 and $bedh_min_count > 0"> <dc:if test="dc:has-result()"> <dc:group expr="dc:coalesce($bedh_year, 'sonstige')"> <heights name="{dc:group-key()}" description="{dc:group-key()}"> <dc:call-macro name="bed-heights-factory_MW" /> </heights> </dc:group> </dc:if> </dc:filter> </dc:context> </single> </dc:macro> <dc:macro name="bed-heights-epoch"> <epoch> <dc:context> <dc:call-macro name="bed-heights-statement" /> <dc:filter expr="contains($bedh_descr, 'Epoche')"> <dc:call-macro name="bed-heights-factory_MW_TW_KL" /> </dc:filter> </dc:context> </epoch> </dc:macro> <dc:macro name="sounding-width-factory"> <dc:for-each> <height factory="bedheight" target_out="{$out}" ids="bedheight-soundings-{$bedh_id}-{$bedh_year}-{$bedh_descr}" info="{$info}" description="{$bedh_descr}" /> </dc:for-each> </dc:macro> <dc:macro name="sounding-width"> <dc:context> <dc:call-macro name="bed-heights-statement" /> <dc:if test="dc:has-result()"> <soundings_width> <dc:call-macro name="sounding-width-factory" /> </soundings_width> </dc:if> </dc:context> </dc:macro> <dc:macro name="sounding-width-recommendations"> <dc:context> <dc:call-macro name="bed-heights-statement" /> <dc:filter expr="dc:contains($diffids, concat(';', $bedh_descr, ']'))"> <dc:call-macro name="sounding-width-factory" /> </dc:filter> </dc:context> </dc:macro> <dc:macro name="bed-heights-statement"> <dc:statement> SELECT bhs.id AS bedh_id, bhs.year AS bedh_year, bhs.description AS bedh_descr, bhs.description || '<BR>Jahr: ' || bhs.year || '<BR>Aufnahmeart: ' || bht.name || '<BR>Lagesystem: ' || ls.name || '<BR>Höhensystem: ' || cur_em.name || '<BR>ursprüngliches Höhensystem: ' || old_em.name || '<BR>Strecke: ' || round(r.a, 1) || '-' || round(r.b, 1) || '<BR>Auswerter: ' || bhs.evaluation_by AS info, COALESCE(bhv.height_count,0) AS bedh_height_count, COALESCE(bhv.min_count,0) AS bedh_min_count, COALESCE(bhv.max_count,0) AS bedh_max_count FROM bed_height bhs JOIN bed_height_type bht ON bht.id = bhs.type_id JOIN location_system ls ON ls.id = location_system_id JOIN elevation_model cur_em ON cur_em.id = cur_elevation_model_id LEFT JOIN elevation_model old_em ON old_em.id = old_elevation_model_id LEFT JOIN ranges r ON r.id = range_id LEFT JOIN (SELECT bed_height_id, COUNT(height) AS height_count, COUNT(min_height) AS min_count, COUNT(max_height) AS max_count FROM bed_height_values WHERE (station BETWEEN (${fromkm}-0.0001) AND (${tokm}+0.0001)) GROUP BY bed_height_id ) bhv ON bhs.id = bhv.bed_height_id WHERE bhs.river_id = ${river_id} </dc:statement> </dc:macro> <!-- flow velocity --> <dc:macro name="flow_velocity_models"> <dc:context> <dc:statement> SELECT fvm.id AS fvmid, fvm.description AS fvmd, dz.gauge_name AS gauge, dz.value AS q, dz.upper_discharge AS upperQ, dz.lower_discharge AS lowerQ FROM flow_velocity_model fvm JOIN discharge_zone dz ON dz.id = fvm.discharge_zone_id WHERE dz.river_id = ${river_id} ORDER BY dz.value </dc:statement> <dc:if test="dc:has-result()"> <flowvelocitymodel> <dc:for-each> <measurement_value name="{$fvmd}" description="{$fvmd}" ids="{$fvmid}" factory="flowvelocitymodel" info="{$lowerQ} - {$upperQ}<BR> Pegel {$gauge}<BR> Q = {$q} m3/s" target_out="{$out}" /> </dc:for-each> </flowvelocitymodel> </dc:if> </dc:context> </dc:macro> <dc:macro name="flow_velocity_measurements"> <dc:context> <dc:statement> SELECT id AS fvmid, description AS fvmd FROM flow_velocity_measurements WHERE river_id = ${river_id} </dc:statement> <dc:if test="dc:has-result()"> <flowvelocitymeasurement> <dc:for-each> <flow_velocity_measurement name="{$fvmd}" description="{$fvmd}"> <dc:context> <dc:statement> SELECT id, description, station, datetime, v, w, q FROM flow_velocity_measure_values WHERE measurements_id = ${fvmid} AND station BETWEEN ${fromkm} AND ${tokm} </dc:statement> <dc:for-each> <measurement_value name="{$description} - {$station} - {$datetime}" description="{$description} - {$station} - {$datetime}" ids="{$id}" factory="flowvelocity" target_out="{$out}" /> </dc:for-each> </dc:context> </flow_velocity_measurement> </dc:for-each> </flowvelocitymeasurement> </dc:if> </dc:context> </dc:macro> <dc:macro name="morph_width"> <dc:context> <dc:statement> SELECT id AS width_id FROM morphologic_width WHERE river_id = ${river_id} </dc:statement> <dc:if test="dc:has-result()"> <morph_width> <dc:for-each> <dc:context> <dc:statement> SELECT min(station) AS from_station, max(station) AS to_station FROM morphologic_width_values WHERE morphologic_width_id = ${width_id} </dc:statement> <dc:for-each> <morphologic-width name="{$from_station} - {$to_station}" description="{$from_station} - {$to_station}" ids="{$width_id}" factory="morph-width" target_out="{$out}" /> </dc:for-each> </dc:context> </dc:for-each> </morph_width> </dc:if> </dc:context> </dc:macro> <dc:macro name="sqrelations"> <dc:context> <dc:statement> SELECT ti.start_time AS start_time, ti.stop_time AS stop_time, ms.name AS station_name, lower(sqv.parameter) AS parameter, sqv.id AS sqvid, ra.a AS station_km FROM sq_relation sq JOIN time_intervals ti ON ti.id = sq.time_interval_id JOIN sq_relation_value sqv ON sqv.sq_relation_id = sq.id JOIN measurement_station ms ON sqv.measurement_station_id = ms.id JOIN ranges ra ON ms.range_id = ra.id JOIN rivers r ON r.id = ra.river_id WHERE r.id = ${river_id} ORDER BY start_time, stop_time </dc:statement> <dc:if test="dc:has-result()"> <sq_relations> <dc:group expr="concat('Parameter ', dc:uppercase($parameter))"> <parameter description="{dc:group-key()}"> <dc:group expr="$station_km" type="number"> <dc:group expr="concat('km ', $station_km, ': ', $station_name)"> <station description="{dc:group-key()}"> <dc:for-each> <dc:variable name="combined_desc" expr="concat(dc:date-format('yyyy', $start_time), ' bis ', dc:date-format('yyyy', $stop_time))" /> <sqvalue factory="sqrelationdatacage" target_out="{$out}" ids="{$sqvid};{dc:uppercase($parameter)} - {$station_name}: {$combined_desc}" description="{$combined_desc}" /> </dc:for-each> </station> </dc:group> </dc:group> </parameter> </dc:group> </sq_relations> </dc:if> </dc:context> </dc:macro> <!-- Floodmap part --> <dc:macro name="flood-map-complete"> <dc:call-macro name="flood-map-buildings" /> <dc:call-macro name="flood-map-gaugelocations" /> <dc:call-macro name="floodmarks" /> <hws> <dc:call-macro name="hwslines" /> <dc:call-macro name="hwspoints" /> </hws> <dc:call-macro name="flood-map-routing" /> <hydrboundaries> <dc:call-macro name="flood-map-floodplain" /> <dc:call-macro name="flood-map-hydr-boundaries" /> </hydrboundaries> <dc:call-macro name="flood-map-uesk" /> </dc:macro> <dc:macro name="flood-map-routing"> <route_data> <dc:call-macro name="flood-map-qps" /> <dc:call-macro name="flood-map-fixpoints" /> <dc:call-macro name="flood-map-km" /> <dc:call-macro name="flood-map-riveraxis" /> </route_data> </dc:macro> <dc:macro name="flood-map-hydr-boundaries"> <bfg_model> <dc:call-macro name="flood-map-hydr-boundaries-poly" /> <dc:call-macro name="flood-map-hydr-boundaries-lines" /> </bfg_model> <dc:call-macro name="flood-map-hydr-boundaries-state" /> </dc:macro> <dc:macro name="flood-map-dem"> <dems> <dc:context> <dc:statement> SELECT d.id AS dem_id, r.a AS dem_lower, r.b AS dem_upper, d.name AS name, t.start_time AS start_time, t.stop_time AS stop_time, 'Projektion: ' || d.projection || '<BR>' || 'Rasterweite: ' || d.resolution || 'm<BR>' || 'Format: ' || d.format || '<BR>' || 'Zeitraum: ' AS info FROM dem d JOIN ranges r ON d.range_id = r.id LEFT JOIN time_intervals t ON d.time_interval_id = t.id WHERE d.river_id = ${river_id} AND NOT((${tokm} < r.a) or (${fromkm} > r.b)) </dc:statement> <dc:for-each> <dem factory="demfactory" target_out="{$out}" ids="{$dem_id}" name="{$name}" info="{$info}{dc:date-format('yyyy', $start_time)} - {dc:date-format('yyyy', $stop_time)}" /> </dc:for-each> </dc:context> </dems> </dc:macro> <dc:macro name="filter_hws_ddg"> <dc:macro name="durchlass_damm_graben"> <dc:macro name="ddg_factory"> <dc:for-each> <hws factory="hwsfactory" name="{$hws_name}" target_out="{$out}" /> </dc:for-each> </dc:macro> <dc:filter expr="$hws_kind=1"> <dc:if test="dc:has-result()"> <Durchlass> <dc:call-macro name="ddg_factory" /> </Durchlass> </dc:if> </dc:filter> <dc:filter expr="$hws_kind=2"> <dc:if test="dc:has-result()"> <Damm> <dc:call-macro name="ddg_factory" /> </Damm> </dc:if> </dc:filter> <dc:filter expr="$hws_kind=3"> <dc:if test="dc:has-result()"> <Graben> <dc:call-macro name="ddg_factory" /> </Graben> </dc:if> </dc:filter> </dc:macro> <dc:filter expr="$hws_official=1"> <dc:if test="dc:has-result()"> <official> <dc:call-macro name="durchlass_damm_graben" /> </official> </dc:if> </dc:filter> <dc:filter expr="$hws_official=0"> <dc:if test="dc:has-result()"> <inofficial> <dc:call-macro name="durchlass_damm_graben" /> </inofficial> </dc:if> </dc:filter> </dc:macro> <dc:macro name="flood-map-hws-lines"> <dc:context> <dc:statement> SELECT DISTINCT name AS hws_name, official AS hws_official, kind_id AS hws_kind FROM hws_lines WHERE river_id = ${river_id} </dc:statement> <dc:if test="dc:has-result()"> <lines> <dc:call-macro name="filter_hws_ddg" /> </lines> </dc:if> </dc:context> </dc:macro> <dc:macro name="flood-map-hws-points"> <dc:context> <dc:statement> SELECT DISTINCT name AS hws_name, official AS hws_official, kind_id AS hws_kind FROM hws_points WHERE river_id = ${river_id} </dc:statement> <dc:if test="dc:has-result()"> <points> <dc:call-macro name="filter_hws_ddg" /> </points> </dc:if> </dc:context> </dc:macro> <dc:macro name="flood-map-hydr-boundaries-state"> <federal> <dc:context> <dc:statement> SELECT DISTINCT name FROM hydr_boundaries WHERE river_id = ${river_id} AND kind = 2 </dc:statement> <dc:for-each> <line factory="wmshydrboundariesfactory" target_out="{$out}" ids="{$river_id};{$name};2" name="{$name}" /> </dc:for-each> </dc:context> <dc:context> <dc:statement> SELECT DISTINCT name FROM hydr_boundaries_poly WHERE river_id = ${river_id} AND kind = 2 </dc:statement> <dc:for-each> <line factory="wmshydrboundariespolyfactory" target_out="{$out}" ids="{$river_id};{$name};2" name="{$name}" /> </dc:for-each> </dc:context> </federal> </dc:macro> <dc:macro name="flood-map-hydr-boundaries-lines"> <dc:context> <dc:statement> SELECT DISTINCT name FROM hydr_boundaries WHERE river_id = ${river_id} AND kind = 1 </dc:statement> <dc:comment> What about all other line kinds?</dc:comment> <dc:if test="dc:has-result()"> <lines> <dc:for-each> <line factory="wmshydrboundariesfactory" target_out="{$out}" ids="{$river_id};{$name};1" name="{$name}" /> </dc:for-each> </lines> </dc:if> </dc:context> </dc:macro> <dc:macro name="flood-map-hydr-boundaries-poly"> <areas> <dc:context> <dc:statement> SELECT DISTINCT b.sectie AS sectie_id, sk.name AS sectie FROM hydr_boundaries_poly b JOIN sectie_kinds sk ON b.sectie = sk.id WHERE b.river_id = ${river_id} AND b.kind = 1 </dc:statement> <dc:if test="dc:has-result()"> <sobek_areas> <dc:for-each> <boundary name="{$sectie}" factory="wmshydrboundariespolyfactory" target_out="{$out}" ids="{$river_id};{$sectie};1;{$sectie_id};-1" /> </dc:for-each> </sobek_areas> </dc:if> </dc:context> <dc:context> <dc:statement> SELECT DISTINCT b.sobek AS sobek_id, sk.name AS sobek FROM hydr_boundaries_poly b JOIN sobek_kinds sk ON b.sobek = sk.id WHERE b.river_id = ${river_id} AND b.kind = 1 </dc:statement> <dc:if test="dc:has-result()"> <sobek_flooded> <dc:for-each> <boundary name="{$sobek}" factory="wmshydrboundariespolyfactory" target_out="{$out}" ids="{$river_id};{$sobek};1;-1;{$sobek_id}" /> </dc:for-each> </sobek_flooded> </dc:if> </dc:context> <dc:context> <dc:statement> SELECT DISTINCT b.name AS name FROM hydr_boundaries_poly b WHERE b.river_id = ${river_id} AND b.kind = 1 AND b.sobek IS NULL AND b.sectie is NULL </dc:statement> <dc:for-each> <boundary name="{$name}" factory="wmshydrboundariespolyfactory" target_out="{$out}" ids="{$river_id};{$name}" /> </dc:for-each> </dc:context> </areas> </dc:macro> <dc:macro name="flood-map-uesk"> <dc:context> <dc:statement> SELECT DISTINCT 1 FROM floodmaps WHERE river_id = ${river_id} </dc:statement> <dc:if test="dc:has-result()"> <uesk> <calculations> <dc:context> <dc:statement> SELECT DISTINCT 1 FROM floodmaps WHERE river_id = ${river_id} AND (kind = 112 OR kind = 111) </dc:statement> <dc:if test="dc:has-result()"> <current> <dc:context> <dc:statement> SELECT DISTINCT name AS name FROM floodmaps WHERE river_id = ${river_id} AND kind = 111 </dc:statement> <dc:if test="dc:has-result()"> <bfg> <dc:for-each> <floodmaps factory="wmsfloodmapsfactory" target_out="{$out}" ids="{$river_id};{$name}" name="{$name}" /> </dc:for-each> </bfg> </dc:if> </dc:context> <dc:context> <dc:statement> SELECT DISTINCT name AS name FROM floodmaps WHERE river_id = ${river_id} AND kind = 112 </dc:statement> <dc:if test="dc:has-result()"> <federal> <dc:for-each> <floodmaps factory="wmsfloodmapsfactory" target_out="{$out}" ids="{$river_id};{$name}" name="{$name}" /> </dc:for-each> </federal> </dc:if> </dc:context> </current> </dc:if> </dc:context> <dc:context> <dc:statement> SELECT DISTINCT 1 from floodmaps where river_id = ${river_id} AND (kind = 122 OR kind = 121) </dc:statement> <dc:if test="dc:has-result()"> <potential> <dc:context> <dc:statement> SELECT DISTINCT name AS name FROM floodmaps WHERE river_id = ${river_id} AND kind = 121 </dc:statement> <dc:if test="dc:has-result()"> <bfg> <dc:for-each> <floodmaps factory="wmsfloodmapsfactory" target_out="{$out}" ids="{$river_id};{$name}" name="{$name}" /> </dc:for-each> </bfg> </dc:if> </dc:context> <dc:context> <dc:statement> SELECT DISTINCT name AS name FROM floodmaps WHERE river_id = ${river_id} AND kind = 122 </dc:statement> <dc:if test="dc:has-result()"> <federal> <dc:for-each> <floodmaps factory="wmsfloodmapsfactory" target_out="{$out}" ids="{$river_id};{$name}" name="{$name}" /> </dc:for-each> </federal> </dc:if> </dc:context> </potential> </dc:if> </dc:context> </calculations> <dc:context> <dc:statement> SELECT DISTINCT source AS source FROM floodmaps WHERE river_id = ${river_id} AND kind = 200 </dc:statement> <dc:if test="dc:has-result()"> <measurements> <dc:for-each> <year name="{$source}"> <dc:context> <dc:statement> SELECT DISTINCT name AS name FROM floodmaps WHERE river_id = ${river_id} AND kind = 200 AND source = ${source} </dc:statement> <dc:for-each> <floodmaps factory="wmsfloodmapsfactory" target_out="{$out}" ids="{$river_id};{$name}" name="{$name}" /> </dc:for-each> </dc:context> </year> </dc:for-each> </measurements> </dc:if> </dc:context> </uesk> </dc:if> </dc:context> </dc:macro> <dc:macro name="flood-map-floodplain"> <dc:context> <dc:statement> SELECT DISTINCT fp.kind_id AS kind_id, flk.name AS kind_name FROM floodplain fp JOIN floodplain_kinds flk on fp.kind_id = flk.id WHERE river_id = ${river_id} </dc:statement> <dc:if test="dc:has-result()"> <floodplain> <dc:filter expr="$kind_id=1"> <dc:for-each> <floody factory="wmsfloodplainfactory" target_out="{$out}" description="{$kind_name}" ids="{$river_id};{$kind_name};{$kind_id}" /> </dc:for-each> </dc:filter> <dc:filter expr="$kind_id != 1"> <dc:if test="dc:has-result()"> <other> <dc:for-each> <floody factory="wmsfloodplainfactory" target_out="{$out}" description="{$layer_name}" ids="{$river_id};{$layer_name};{$kind_id}" /> </dc:for-each> </other> </dc:if> </dc:filter> </floodplain> </dc:if> </dc:context> </dc:macro> <dc:macro name="hwspoints_by_kind"> <dc:comment> Call from a context where fed_name hws_kind hws_name and river_id is availble </dc:comment> <dc:macro name="hwspoints_by_kind_factory"> <dc:for-each> <hws factory="wmshwspointsfactory" target_out="{$out}" ids="{$river_id};{$hws_name}" name="{$hws_name}" /> </dc:for-each> </dc:macro> <dc:filter expr="$hws_kind=1"> <dc:if test="dc:has-result()"> <Durchlass> <dc:call-macro name="hwspoints_by_kind_factory" /> </Durchlass> </dc:if> </dc:filter> <dc:filter expr="$hws_kind=2"> <dc:if test="dc:has-result()"> <Damm> <dc:call-macro name="hwspoints_by_kind_factory" /> </Damm> </dc:if> </dc:filter> <dc:filter expr="$hws_kind=3"> <dc:if test="dc:has-result()"> <Graben> <dc:call-macro name="hwspoints_by_kind_factory" /> </Graben> </dc:if> </dc:filter> </dc:macro> <dc:macro name="hwspoints"> <hws_points> <official> <dc:context> <dc:statement> SELECT DISTINCT fs.name AS fed_name, fs.id AS fed_id FROM hws_points hws JOIN fed_states fs ON hws.fed_state_id = fs.id WHERE river_id = ${river_id} AND hws.official=1 </dc:statement> <dc:for-each> <dc:context> <dc:statement> SELECT DISTINCT name AS hws_name, kind_id AS hws_kind FROM hws_points WHERE river_id = ${river_id} AND official=1 AND fed_state_id = ${fed_id} ORDER BY name </dc:statement> <fedstate description="{$fed_name}"> <dc:call-macro name="hwspoints_by_kind" /> </fedstate> </dc:context> </dc:for-each> </dc:context> <dc:context> <dc:statement> SELECT distinct name AS hws_name, kind_id AS hws_kind FROM hws_points WHERE river_id = ${river_id} AND official=1 AND fed_state_id IS NULL ORDER BY name </dc:statement> <hws_fed_unknown> <dc:call-macro name="hwspoints_by_kind" /> </hws_fed_unknown> </dc:context> </official> <inofficial> <dc:context> <dc:statement> SELECT DISTINCT fs.name AS fed_name, fs.id AS fed_id FROM hws_points hws JOIN fed_states fs ON hws.fed_state_id = fs.id WHERE river_id = ${river_id} AND hws.official=0 </dc:statement> <dc:for-each> <dc:context> <dc:statement> SELECT DISTINCT name AS hws_name, kind_id AS hws_kind FROM hws_points WHERE river_id = ${river_id} AND official=0 AND fed_state_id = ${fed_id} ORDER BY name </dc:statement> <fedstate description="{$fed_name}"> <dc:call-macro name="hwspoints_by_kind" /> </fedstate> </dc:context> </dc:for-each> </dc:context> <dc:context> <dc:statement> SELECT distinct name AS hws_name, kind_id AS hws_kind FROM hws_points WHERE river_id = ${river_id} AND official=0 AND fed_state_id IS NULL ORDER BY name </dc:statement> <hws_fed_unknown> <dc:call-macro name="hwspoints_by_kind" /> </hws_fed_unknown> </dc:context> </inofficial> </hws_points> </dc:macro> <dc:macro name="hwslines_by_kind"> <dc:comment> Call from a context where fed_name hws_kind hws_name and river_id is availble </dc:comment> <dc:macro name="hwslines_by_kind_factory"> <dc:for-each> <hws factory="wmshwslinesfactory" target_out="{$out}" ids="{$river_id};{$hws_name}" name="{$hws_name}" /> </dc:for-each> </dc:macro> <dc:filter expr="$hws_kind=1"> <dc:if test="dc:has-result()"> <Durchlass> <dc:call-macro name="hwslines_by_kind_factory" /> </Durchlass> </dc:if> </dc:filter> <dc:filter expr="$hws_kind=2"> <dc:if test="dc:has-result()"> <Damm> <dc:call-macro name="hwslines_by_kind_factory" /> </Damm> </dc:if> </dc:filter> <dc:filter expr="$hws_kind=3"> <dc:if test="dc:has-result()"> <Graben> <dc:call-macro name="hwslines_by_kind_factory" /> </Graben> </dc:if> </dc:filter> </dc:macro> <dc:macro name="hwslines"> <hws_lines> <official> <dc:context> <dc:statement> SELECT DISTINCT fs.name AS fed_name, fs.id AS fed_id FROM hws_lines hws JOIN fed_states fs ON hws.fed_state_id = fs.id WHERE river_id = ${river_id} AND hws.official=1 </dc:statement> <dc:for-each> <dc:context> <dc:statement> SELECT DISTINCT name AS hws_name, kind_id AS hws_kind FROM hws_lines WHERE river_id = ${river_id} AND official=1 AND fed_state_id = ${fed_id} ORDER BY name </dc:statement> <fedstate description="{$fed_name}"> <dc:call-macro name="hwslines_by_kind" /> </fedstate> </dc:context> </dc:for-each> </dc:context> <dc:context> <dc:statement> SELECT distinct name AS hws_name, kind_id AS hws_kind FROM hws_lines WHERE river_id = ${river_id} AND official=1 AND fed_state_id IS NULL ORDER BY name </dc:statement> <hws_fed_unknown> <dc:call-macro name="hwslines_by_kind" /> </hws_fed_unknown> </dc:context> </official> <inofficial> <dc:context> <dc:statement> SELECT DISTINCT fs.name AS fed_name, fs.id AS fed_id FROM hws_lines hws JOIN fed_states fs ON hws.fed_state_id = fs.id WHERE river_id = ${river_id} AND hws.official=0 </dc:statement> <dc:for-each> <dc:context> <dc:statement> SELECT DISTINCT name AS hws_name, kind_id AS hws_kind FROM hws_lines WHERE river_id = ${river_id} AND official=0 AND fed_state_id = ${fed_id} ORDER BY name </dc:statement> <fedstate description="{$fed_name}"> <dc:call-macro name="hwslines_by_kind" /> </fedstate> </dc:context> </dc:for-each> </dc:context> <dc:context> <dc:statement> SELECT distinct name AS hws_name, kind_id AS hws_kind FROM hws_lines WHERE river_id = ${river_id} AND official=0 AND fed_state_id IS NULL ORDER BY name </dc:statement> <hws_fed_unknown> <dc:call-macro name="hwslines_by_kind" /> </hws_fed_unknown> </dc:context> </inofficial> </hws_lines> </dc:macro> <dc:macro name="floodmarks"> <dc:context> <dc:statement> SELECT DISTINCT COALESCE(CAST (year AS VARCHAR(64)), 'Unbekanntes Jahr') AS year FROM flood_marks WHERE river_id = ${river_id} </dc:statement> <dc:if test="dc:has-result()"> <floodmarks> <dc:for-each> <floodmark name="{$year}" factory="wmsfloodmarkfactory" target_out="{$out}" ids="{$river_id};{$year};{$year}" /> </dc:for-each> </floodmarks> </dc:if> </dc:context> </dc:macro> <dc:macro name="flood-map-gaugelocations"> <gaugelocations> <gauge_points factory="externalwmsfactory" ids="http://www.pegelonline.wsv.de/webservices/gis/wms;Pegelpunkte;Pegelpunkte (WSV)" target_out="{$out}" /> <gauge_names factory="externalwmsfactory" ids="http://www.pegelonline.wsv.de/webservices/gis/wms;Pegelnamen;Pegelnamen (WSV)" target_out="{$out}" /> <gauge_level factory="externalwmsfactory" ids="http://www.pegelonline.wsv.de/webservices/gis/wms;Pegelwasserstand;Aktueller Wasserstand (WSV)" target_out="{$out}" /> <gauge_tendency factory="externalwmsfactory" ids="http://www.pegelonline.wsv.de/webservices/gis/wms;TendenzWasserstand;Tendenz des Wasserstands (WSV)" target_out="{$out}" /> </gaugelocations> </dc:macro> <dc:macro name="flood-map-riveraxis"> <dc:context> <dc:statement> SELECT DISTINCT ak.name AS kind_name, ax.kind_id AS kind_id, ax.name AS layer_name FROM river_axes ax JOIN axis_kinds ak on ax.kind_id = ak.id WHERE river_id = ${river_id} </dc:statement> <dc:if test="dc:has-result()"> <axis> <dc:filter expr="$kind_id=1"> <dc:for-each> <actual description="{$kind_name}" ids="{$river_id};{$kind_name};{$kind_id}" factory="riveraxis" target_out="{$out}" /> </dc:for-each> </dc:filter> <dc:filter expr="$kind_id!=1"> <other> <dc:for-each> <misc-axis description="{$layer_name}" ids="{$river_id};{$layer_name};{$kind_id}" factory="riveraxis" target_out="{$out}" /> </dc:for-each> </other> </dc:filter> </axis> </dc:if> </dc:context> </dc:macro> <dc:macro name="flood-map-km"> <dc:context> <dc:statement> SELECT DISTINCT 1 FROM river_axes_km WHERE river_id = ${river_id} </dc:statement> <dc:for-each> <kilometrage factory="wmskmfactory" ids="{$river_id}" target_out="{$out}" /> </dc:for-each> </dc:context> </dc:macro> <dc:macro name="flood-map-fixpoints"> <dc:context> <dc:statement> SELECT name AS name FROM fixpoints WHERE river_id = ${river_id} GROUP BY name </dc:statement> <dc:for-each> <fixpoints factory="wmsfixpointsfactory" target_out="{$out}" ids="{$river_id};{$name}" /> </dc:for-each> </dc:context> </dc:macro> <dc:macro name="flood-map-qps"> <dc:context> <dc:statement> SELECT DISTINCT cs.kind_id AS kind_id, cs.name AS layer_name, ck.name AS kind_name FROM cross_section_tracks cs JOIN cross_section_track_kinds ck ON cs.kind_id = ck.id WHERE river_id = ${river_id} </dc:statement> <dc:if test="dc:has-result()"> <qps> <dc:filter expr="$kind_id=1"> <dc:for-each> <actual description="{$kind_name}" factory="wmsqpsfactory" target_out="{$out}" ids="{$river_id};{$kind_name};{$kind_id}" /> </dc:for-each> </dc:filter> <dc:filter expr="$kind_id = 0"> <dc:if test="dc:has-result()"> <other> <dc:for-each> <misc-qps description="{$layer_name}" factory="wmsqpsfactory" target_out="{$out}" ids="{$river_id};{$layer_name};{$kind_id}" /> </dc:for-each> </other> </dc:if> </dc:filter> </qps> </dc:if> </dc:context> </dc:macro> <dc:macro name="flood-map-buildings"> <buildings> <dc:context> <dc:statement> SELECT DISTINCT b.name AS building_name, bk.name AS building_kind, b.kind_id AS building_kind_id FROM buildings b JOIN building_kinds bk ON b.kind_id = bk.id WHERE river_id = ${river_id} </dc:statement> <dc:if test="dc:has-result()"> <dc:filter expr="$building_kind_id!=0"> <dc:for-each> <buildings description="{$building_kind}" factory="wmsbuildingsfactory" target_out="{$out}" ids="{$river_id};{$building_kind};{$building_kind_id}" /> </dc:for-each> </dc:filter> <dc:filter expr="$building_kind_id=0"> <other> <dc:for-each> <buildings description="{$building_name}" factory="wmsbuildingsfactory" target_out="{$out}" ids="{$river_id};{$building_name}" /> </dc:for-each> </other> </dc:filter> </dc:if> </dc:context> <dc:context> <dc:statement> SELECT DISTINCT j.kind_id AS jetty_kind_id, jk.name AS jetty_kind FROM jetties j JOIN jetty_kinds jk ON j.kind_id = jk.id WHERE river_id = ${river_id} </dc:statement> <dc:if test="dc:has-result()"> <jetties> <dc:for-each> <jetty description="{$jetty_kind}" factory="wmsjettiesfactory" target_out="{$out}" ids="{$river_id};{$jetty_kind};{$jetty_kind_id}" /> </dc:for-each> </jetties> </dc:if> </dc:context> </buildings> </dc:macro> <dc:macro name="officiallines_user"> <dc:if test="dc:contains($parameters, 'official-lines')"> <dc:container-context container="official-lines"> <dc:properties> <dc:property name="name" alias="olname" /> <dc:property name="wstId" alias="wstid" /> <dc:property name="columnPos" alias="wstcolpos" /> </dc:properties> <dc:if test="dc:has-result()"> <officiallines> <dc:for-each> <column name="{$olname}" ids="official-wstv-{$wstcolpos}-{$wstid}" factory="staticwqkms" target_out="{$out}" /> </dc:for-each> </officiallines> </dc:if> </dc:container-context> </dc:if> </dc:macro> <!-- sediment loads --> <dc:macro name="sedimentload_off_epoch_filter"> <dc:if test="dc:has-result()"> <dc:variable name="sq_time_id" type="number" expr="number($sq_ti_id)" /> <dc:if test="string-length(dc:get('epochs')) > 0"> <dc:variable name="start" type="number" expr="dc:min-number(dc:find-all('\d{4}', $epochs))" /> <dc:variable name="end" type="number" expr="dc:max-number(dc:find-all('\d{4}', $epochs))" /> </dc:if> <dc:if test="string-length(dc:get('years')) > 0"> <dc:variable name="start" type="number" expr="dc:min-number(dc:find-all('\d{4}', $years))" /> <dc:variable name="end" type="number" expr="dc:max-number(dc:find-all('\d{4}', $years))" /> </dc:if> <dc:filter expr="$kind = 'official' and $sqid = $sq_time_id and not(number($end) < number(dc:date-format('yyyy', $startyear)) or number($start) > number(dc:date-format('yyyy', $endyear)))"> <dc:macro-body /> </dc:filter> </dc:if> </dc:macro> <dc:macro name="sedimentload_off_epochs"> <dc:context> <dc:call-macro name="sedimentload_stations_statement" /> <dc:call-macro name="sedimentload_off_epoch_filter"> <dc:call-macro name="loads"> <dc:call-macro name="load" /> </dc:call-macro> </dc:call-macro> </dc:context> <dc:context> <dc:call-macro name="sedimentload_ls_statement" /> <dc:call-macro name="sedimentload_off_epoch_filter"> <dc:call-macro name="loads"> <dc:call-macro name="load_ls" /> </dc:call-macro> </dc:call-macro> </dc:context> </dc:macro> <!-- Common stuff --> <dc:macro name="km-filtered-wsts"> <dc:context connection="system"> <dc:statement> SELECT w.kind AS kind, w.id AS wst_id, wc.id AS wst_column_id, wc.position AS wst_column_position, wc.description AS info, w.description AS wst_description, ti.start_time AS start_time, ti.stop_time AS stop_time, COALESCE(wc.name, '') AS wst_column_name, wr.a AS deffrom, wr.b AS defto, w.sinfo_selection FROM wst_columns wc JOIN wsts w ON wc.wst_id = w.id JOIN wst_ranges wr ON wc.id = wr.wst_column_id LEFT JOIN time_intervals ti ON wc.time_interval_id = ti.id WHERE w.river_id = ${river_id} AND NOT((${tokm} < wr.a) or (${fromkm} > wr.b)) ORDER BY wst_column_position </dc:statement> <dc:macro-body /> </dc:context> </dc:macro> <dc:macro name="all-user-artifacts"> <dc:context connection="user"> <dc:comment>Select collections and masterartifacts. XXX: The cast is a quick hack because the ld_* values are now TEXT fields. To properly fix / asses the problems here an SLT evaluation is needed. </dc:comment> <dc:statement> SELECT c.name AS collection_name, ma.id AS a_id, ma.state AS a_state, ma.gid AS a_gid, ma.creation AS a_creation, CAST(COALESCE(ma.ld_mode, '') AS VARCHAR(255)) AS ld_m, CAST(COALESCE(ma.ld_locations, '') AS VARCHAR(255)) AS ld_l, CAST(COALESCE(ma.ld_from, '') AS VARCHAR(255)) AS ld_f, CAST(COALESCE(ma.ld_to, '') AS VARCHAR(255)) AS ld_t, o.name AS out_name, o.id AS out_id, f.name AS facet_name, f.num AS facet_num, f.description AS facet_description, f.id AS fid FROM users u JOIN collections c ON c.user_id = u.id JOIN master_artifacts_range ma ON ma.collection_id = c.id JOIN outs o ON o.artifact_id = ma.id JOIN facets f ON f.out_id = o.id WHERE u.gid = CAST(${user-id} AS UUID) AND ma.gid <> CAST(${artifact-id} AS uuid) AND f.name NOT LIKE '%empty.facet%' AND EXISTS ( SELECT id FROM artifact_data ad WHERE ad.artifact_id = ma.id AND k = 'river' AND v = ${river}) </dc:statement> <dc:virtual-column name="deffrom" type="number" expr="dc:fromValue($ld_m, $ld_l, $ld_f)"> <dc:virtual-column name="defto" type="number" expr="dc:toValue($ld_m, $ld_l, $ld_t)"> <dc:macro-body /> </dc:virtual-column> </dc:virtual-column> </dc:context> </dc:macro> <dc:macro name="km-filtered-user-artifacts"> <dc:comment> Apply KM Filtering but pass sq_ facets with no regard about their location. </dc:comment> <dc:filter expr="not($deffrom > $tokm or $defto < $fromkm) or starts-with($facet_name, 'sq_')"> <dc:macro-body /> </dc:filter> </dc:macro> <dc:macro name="artifact-range"> <dc:choose> <dc:when test="dc:coalesce(dc:get('ld_locations'), ' ') != ' '"> <dc:variable name="fromkm" type="number" expr="dc:min-number(dc:find-all('\d*\.?\d*', dc:get('ld_locations')))" /> <dc:variable name="tokm" type="number" expr="dc:max-number(dc:find-all('\d*\.?\d*', dc:get('ld_locations')))" /> </dc:when> <dc:otherwise> <dc:variable name="fromkm" type="number" expr="dc:fromValue(dc:get('ld_mode'), dc:get('ld_locations'), dc:get('ld_from'))" /> <dc:variable name="tokm" type="number" expr="dc:toValue(dc:get('ld_mode'), dc:get('ld_locations'), dc:get('ld_to'))" /> <dc:if test="$fromkm > $tokm"> <dc:message>Inverting KM filter.</dc:message> <dc:variable name="fromkm" type="number" expr="dc:toValue(dc:get('ld_mode'), dc:get('ld_locations'), dc:get('ld_to'))" /> <dc:variable name="tokm" type="number" expr="dc:fromValue(dc:get('ld_mode'), dc:get('ld_locations'), dc:get('ld_from'))" /> </dc:if> </dc:otherwise> </dc:choose> <dc:macro-body /> </dc:macro> <!-- S-INFO --> <dc:macro name="sinfo_flowdepths"> <dc:filter expr="$a_state = 'state.sinfo.flow_depth' and ( $facet_name = 'sinfo_facet_flow_depth' or $facet_name = 'sinfo_facet_flow_depth.filtered' or $facet_name = 'sinfo_facet_flow_depth_with_tkh' or $facet_name = 'sinfo_facet_flow_depth_with_tkh.filtered' or $facet_name = 'sinfo_facet_tkh' )"> <dc:if test="dc:has-result()"> <sinfo_flow_depths> <dc:call-macro name="collection-group"> <sinfo_flow_depth description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="sinfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="${out_name}" /> </dc:element> </dc:for-each> </sinfo_flow_depth> </dc:call-macro> </sinfo_flow_depths> </dc:if> </dc:filter> </dc:macro> <dc:macro name="sinfo_flowdepths_minmax"> <dc:filter expr="$a_state = 'state.sinfo.flow_depth_minmax' and ( $facet_name = 'sinfo_facet_flow_depth_min' or $facet_name = 'sinfo_facet_flow_depth_min.filtered' or $facet_name = 'sinfo_facet_flow_depth_max' or $facet_name = 'sinfo_facet_flow_depth_max.filtered' )"> <dc:if test="dc:has-result()"> <sinfo_flow_depths_minmax> <dc:call-macro name="collection-group"> <sinfo_flow_depth_minmax description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="sinfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="${out_name}" /> </dc:element> </dc:for-each> </sinfo_flow_depth_minmax> </dc:call-macro> </sinfo_flow_depths_minmax> </dc:if> </dc:filter> </dc:macro> <dc:macro name="sinfo_flow_depth_development"> <dc:filter expr="$a_state = 'state.sinfo.flow_depth_development' and ( $facet_name = 'sinfo_facet_flow_depth_development' or $facet_name = 'sinfo_facet_flow_depth_development.filtered' or $facet_name = 'sinfo_facet_flow_depth_development_per_year' or $facet_name = 'sinfo_facet_flow_depth_development_per_year.filtered' or $facet_name = 'sinfo_facet_flow_depth_current' or $facet_name = 'sinfo_facet_flow_depth_current.filtered' or $facet_name = 'sinfo_facet_flow_depth_historical' or $facet_name = 'sinfo_facet_flow_depth_historical.filtered' or $facet_name = 'sinfo_facet_waterlevel_difference' or $facet_name = 'sinfo_facet_waterlevel_difference.filtered' or $facet_name = 'sinfo_facet_bedheight_difference' or $facet_name = 'sinfo_facet_bedheight_difference.filtered' )"> <dc:if test="dc:has-result()"> <sinfo_flow_depth_developments> <dc:call-macro name="collection-group"> <sinfo_flow_depth_development description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="sinfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="${out_name}" /> </dc:element> </dc:for-each> </sinfo_flow_depth_development> </dc:call-macro> </sinfo_flow_depth_developments> </dc:if> </dc:filter> </dc:macro> <dc:macro name="sinfo_tkh"> <dc:filter expr="$a_state = 'state.sinfo.transport_bodies_heights' and ( $facet_name = 'sinfo_facet_tkh' or $facet_name = 'sinfo_facet_flow_depth' or $facet_name = 'sinfo_facet_flow_depth.filtered' or $facet_name = 'sinfo_facet_velocity' or $facet_name = 'sinfo_facet_velocity.filtered' or $facet_name = 'sinfo_facet_tau' or $facet_name = 'sinfo_facet_tau.filtered' or $facet_name = 'sinfo_facet_d50' or $facet_name = 'sinfo_facet_d50.filtered' )"> <dc:if test="dc:has-result()"> <sinfo_tkhs> <dc:call-macro name="collection-group"> <sinfo_tkh description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="sinfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="${out_name}" /> </dc:element> </dc:for-each> </sinfo_tkh> </dc:call-macro> </sinfo_tkhs> </dc:if> </dc:filter> </dc:macro> <dc:macro name="sinfo_collision"> <dc:filter expr="$a_state = 'state.sinfo.collision' and ($facet_name = 'sinfo_facet_collision_calc_count' or $facet_name = 'sinfo_facet_collision_calc_count.2' or $facet_name = 'sinfo_facet_collision_calc_count.3')"> <dc:if test="dc:has-result()"> <sinfo_collisions> <dc:call-macro name="collection-group"> <sinfo_collision description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="sinfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="${out_name}" /> </dc:element> </dc:for-each> </sinfo_collision> </dc:call-macro> </sinfo_collisions> </dc:if> </dc:filter> </dc:macro> <dc:macro name="sinfo_flood_duration"> <dc:filter expr="$a_state = 'state.sinfo.flood_duration' and ($facet_name = 'sinfo_facet_flood_duration.left' or $facet_name = 'sinfo_facet_flood_duration.right' or $facet_name = 'mainvalue.duration' or $facet_name = 'sinfo_facet_flood_height.left' or $facet_name = 'sinfo_facet_flood_height.right' or $facet_name = 'mainvalue.w')"> <dc:if test="dc:has-result()"> <sinfo_flood_durations> <dc:call-macro name="collection-group"> <sinfo_flood_duration description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="sinfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="${out_name}" /> </dc:element> </dc:for-each> </sinfo_flood_duration> </dc:call-macro> </sinfo_flood_durations> </dc:if> </dc:filter> </dc:macro> <!-- channel size imported from CSV-files for S-INFO --> <dc:macro name="sinfo_predefined_channel"> <dc:context> <dc:statement> SELECT s.id AS id, MIN(s.filename) AS seriesname, MIN(v.station) AS km_min, MAX(v.station) AS km_max, MIN(s.filename) || '<br />' || MIN(s.kmrange_info) || ']<br />' || MIN(s.year_from) || ' - ' || MIN(s.year_to) || '<br />' AS info FROM channel s INNER JOIN channel_values v ON s.id=v.channel_id WHERE (s.river_id=${river_id}) AND (v.station BETWEEN ${fromkm}-0.0001 AND ${tokm}+0.0001) GROUP BY s.id ORDER BY MIN(s.year_to) DESC </dc:statement> <dc:if test="dc:has-result()"> <dc:for-each> <channelseries name="{$seriesname}" description="{$seriesname}" ids="channelx-{$id}-{$seriesname}" factory="channelf" target_out="{$out}" info="{$info}" /> </dc:for-each> </dc:if> </dc:context> </dc:macro> <!-- tkh imported from CSV-files for S-INFO --> <dc:macro name="sinfo_predefined_tkh-berechnung"> <predefined_tkh_berechnung> <dc:variable name="tkh_groupname" expr="'berechnung'" /> <dc:call-macro name="sinfo_predefined_tkh" /> </predefined_tkh_berechnung> </dc:macro> <dc:macro name="sinfo_predefined_tkh-messung"> <predefined_tkh_messung> <dc:variable name="tkh_groupname" expr="'messung'" /> <dc:call-macro name="sinfo_predefined_tkh" /> </predefined_tkh_messung> </dc:macro> <dc:macro name="sinfo_predefined_tkh"> <dc:context> <dc:statement> SELECT sc.tkh_id AS tkh_id, sc.id AS tkh_col_id, MIN(sc.name) AS tkh_col_name, MIN(s.filename) AS tkh_name, MIN(v.station) AS km_min, MAX(v.station) AS km_max, MIN(s.filename) || '<br />' || MIN(s.kmrange_info) || ']<br />' || MIN(s.sounding_info) || '<br />' || MIN(s.evaluation_by) AS info FROM tkh_column sc INNER JOIN tkh s ON sc.tkh_id=s.id INNER JOIN tkh_values v ON sc.id=v.tkh_column_id WHERE (s.river_id=${river_id}) AND (lower(s.groupname)=${tkh_groupname}) AND (v.station BETWEEN ${fromkm}-0.0001 AND ${tokm}+0.0001) GROUP BY sc.tkh_id, sc.id ORDER BY sc.id </dc:statement> <dc:if test="dc:has-result()"> <dc:group expr="$tkh_name"> <tkhx name="{dc:group-key()}" description="{dc:group-key()}"> <dc:for-each> <tkhcolumn name="{$tkh_col_name}" description="{$tkh_col_name}" ids="tkhx-{$tkh_col_id}-{$tkh_id}" factory="tkhxf" target_out="{$out}" info="{$info}" /> </dc:for-each> </tkhx> </dc:group> </dc:if> </dc:context> </dc:macro> <!-- depth_evolution imported from CSV-files for S-INFO --> <dc:macro name="sinfo_predefined_depthevol-aktuell"> <predefined_depthevol_aktuell> <dc:variable name="depthevol_groupname" expr="'aktuell'" /> <dc:call-macro name="sinfo_predefined_depthevol" /> </predefined_depthevol_aktuell> </dc:macro> <dc:macro name="sinfo_predefined_depthevol-etappe"> <predefined_depthevol_etappe> <dc:variable name="depthevol_groupname" expr="'etappe'" /> <dc:call-macro name="sinfo_predefined_depthevol" /> </predefined_depthevol_etappe> </dc:macro> <dc:macro name="sinfo_predefined_depthevol"> <dc:context> <dc:statement> SELECT s.id AS depthevol_id, MIN(s.filename) AS depthevol_name, MIN(v.station) AS km_min, MAX(v.station) AS km_max, MIN(s.filename) || '<br />' || MIN(s.kmrange_info) || ']<br />' || MIN(s.start_year) || ' - ' || MIN(s.reference_year) || '<br />' || MIN(s.old_sounding) || ' - ' || MIN(s.curr_sounding) || '<br />' || MIN(s.old_glw) || ' - ' || MIN(s.curr_glw) AS info FROM depth_evolution s INNER JOIN depth_evolution_values v ON s.id=v.depth_evolution_id WHERE (s.river_id=${river_id}) AND (lower(s.groupname)=${depthevol_groupname}) AND (v.station BETWEEN ${fromkm}-0.0001 AND ${tokm}+0.0001) GROUP BY s.id ORDER BY s.id </dc:statement> <dc:for-each> <depth_evol name="{$depthevol_name}" description="{$depthevol_name}" ids="depthevolx-{$depthevol_id}-{$depthevol_name}" factory="depthevolxf" target_out="{$out}" info="{$info}" /> </dc:for-each> </dc:context> </dc:macro> <!-- flow depth imported from CSV-files for S-INFO --> <dc:macro name="sinfo_predefined_flowdepth-m"> <dc:call-macro name="sinfo_predefined_flowdepth-m1" /> </dc:macro> <dc:macro name="sinfo_predefined_flowdepth-m1"> <dc:context> <dc:statement> SELECT sc.flow_depth_id AS flowdepth_id, sc.id AS flowdepth_col_id, MIN(sc.name) AS flowdepth_col_name, MIN(s.filename) AS flowdepth_name, MIN(v.station) AS km_min, MAX(v.station) AS km_max, MIN(s.filename) || '<br />' || MIN(s.kmrange_info) || ']<br />' || MIN(s.sounding_info) || '<br />' || MIN(s.evaluation_by) AS info FROM flow_depth_column sc INNER JOIN flow_depth s ON sc.flow_depth_id=s.id INNER JOIN flow_depth_values v ON sc.id=v.flow_depth_column_id WHERE (s.river_id=${river_id}) AND (v.station BETWEEN ${fromkm}-0.0001 AND ${tokm}+0.0001) GROUP BY sc.flow_depth_id, sc.id ORDER BY sc.id </dc:statement> <dc:if test="dc:has-result()"> <dc:group expr="$flowdepth_name"> <sinfo_predefined_flowdepth> <dc:for-each> <flowdepthcolumn name="{$flowdepth_col_name}" description="{$flowdepth_col_name}" ids="flowdepthx-{$flowdepth_col_id}-{$flowdepth_id}" factory="flowdepthxf" target_out="{$out}" info="{$info}" /> </dc:for-each> </sinfo_predefined_flowdepth> </dc:group> </dc:if> </dc:context> </dc:macro> <!-- infrastructure height imported from CSV-files for S-INFO --> <dc:macro name="sinfo_predefined_infrastructure"> <dc:context> <dc:statement> SELECT s.id AS id, MIN(s.filename) AS seriesname, MIN(v.station) AS km_min, MAX(v.station) AS km_max, MIN(x.name) AS typename, MIN(s.filename) || '<br />' || MIN(s.kmrange_info) || '<br />' || MIN(s.year) || '<br />' AS info FROM infrastructure s INNER JOIN infrastructure_values v ON s.id=v.infrastructure_id INNER JOIN annotation_types x ON s.annotation_type_id=x.id WHERE (s.river_id=${river_id}) AND (v.station BETWEEN ${fromkm}-0.0001 AND ${tokm}+0.0001) GROUP BY s.id ORDER BY MIN(s.filename) DESC </dc:statement> <dc:if test="dc:has-result()"> <dc:for-each> <infrastructureseries name="{$seriesname}" description="{$seriesname}" ids="infrastructurex-{$id}-{$seriesname}" factory="infrastructuref" target_out="{$out}" info="{$info}" /> </dc:for-each> </dc:if> </dc:context> </dc:macro> <!-- collisions imported from CSV-files for S-INFO --> <dc:macro name="sinfo_predefined_collision"> <dc:context> <dc:statement> SELECT s.id AS id, MIN(s.filename) AS seriesname, MIN(v.station) AS km_min, MAX(v.station) AS km_max, MIN(s.year) AS year, MIN(s.filename) || '<br />' || MIN(s.kmrange_info) || '<br />' || MIN(s.year) || '<br />' AS info FROM collision s INNER JOIN collision_values v ON s.id=v.collision_id WHERE (s.river_id=${river_id}) AND (v.station BETWEEN ${fromkm}-0.0001 AND ${tokm}+0.0001) GROUP BY s.id ORDER BY MIN(s.year) </dc:statement> <dc:if test="dc:has-result()"> <dc:for-each> <collisionseries name="{$seriesname}" description="{$seriesname}" ids="collisionx-{$id}-{$year}-{$seriesname}" factory="collisionf" target_out="{$out}" info="{$info}" /> </dc:for-each> </dc:if> </dc:context> </dc:macro> <!-- U-INFO --> <dc:macro name="uinfo_salix_line"> <dc:filter expr="$a_state = 'state.uinfo.salix_line' and ($facet_name = 'uinfo_facet_salix_line' or $facet_name = 'uinfo_facet_salix_line.filtered' or $facet_name = 'uinfo_facet_salix_mnwmw' or $facet_name = 'uinfo_facet_salix_mnwmw.filtered' or $facet_name = 'uinfo_facet_salix_scenario' or $facet_name = 'uinfo_facet_salix_scenario.filtered')"> <dc:if test="dc:has-result()"> <uinfo_salix_lines> <dc:call-macro name="collection-group"> <uinfo_salix_line description="{dc:group-key()}"> <dc:for-each> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="uinfo" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${facet_description}" /> <dc:attribute name="ids" value="${facet_num}" /> <dc:attribute name="artifact-id" value="${a_gid}" /> <dc:attribute name="out" value="${out_name}" /> </dc:element> </dc:for-each> </uinfo_salix_line> </dc:call-macro> </uinfo_salix_lines> </dc:if> </dc:filter> </dc:macro> <!-- Vegetation zones, edited by the user --> <dc:macro name="vegetationzones"> <dc:filter expr="$a_state = 'state.uinfo.vegetation_zones' and $facet_name = 'csv'"> <!-- we misuse the csv-facet --> <dc:if test="dc:has-result()"> <dc:for-each> <dc:variable name="vegzonedata" expr="dc:data_from_artifact($a_gid,'vegzones')" /> <dc:variable name="vegzonedatalabel" expr="dc:get('ld_from'))" /> <dc:variable name="label_temp" type="string" expr="dc:coalesce($collection_name, dc:toString($a_gid))" /> <dc:variable name="fromkm" type="number" expr="dc:fromValue(dc:get('ld_mode'), dc:get('ld_locations'), dc:get('ld_from'))" /> <dc:variable name="tokm" type="number" expr="dc:fromValue(dc:get('ld_mode'), dc:get('ld_locations'), dc:get('ld_to'))" /> <dc:element name="${facet_name}"> <dc:attribute name="factory" value="dummy" /> <dc:attribute name="target_out" value="${out}" /> <dc:attribute name="description" value="${label_temp}" /> <!-- veg zones string as attribute --> <dc:attribute name="data" value="${vegzonedata}" /> <dc:attribute name="from_km" value="${fromkm}" /> <dc:attribute name="to_km" value="${tokm}" /> </dc:element> </dc:for-each> </dc:if> </dc:filter> </dc:macro> </datacage> </dc:template>