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产量
尺寸,ESRISHAPE_STRICT_COMPATIBILITY, “可选的复选框是%否”,ESRISHAPE
严格
兼容性,ESRISHAPE_ADVANCED, “可选的DISCLOSUREGROUP STRICT_COMPATIBILITY%几何”,ESRISHAPE
高级,ESRISHAPE_GEOMETRY, “可选的DISCLOSUREGROUP PRESERVE_RING_VERTEX_ORDER%SURFACE_AND_SOLID_STORAGE%MEASURES_AS_Z”,ESRISHAPE
几何,ESRISHAPE_SURFACE_AND_SOLID_STORAGE, “可选的LOOKUP_CHOICE多面体,shape_multipatch%多边形,shape_polygon”,ESRISHAPE
表面
和
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存储,ESRISHAPE_WRITE_SPATIAL_INDEX, “可选的复选框是%否”,ESRISHAPE
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空间的
指数ESRISHAPE_ENCODING,“可选的编码ANSI%SYSTEM%BIG5%EUC%HKBIG5%ISO%OEM%SJIS%UTF-8%CP437%CP708%CP720%CP737%CP775%CP850%CP852%CP855%CP857%CP860%CP861%CP862%CP863%CP864%CP865%CP866%CP869%CP874%CP932%CP936%CP950%CP1250%CP1251%CP1252%CP1253%CP1254%CP1255%CP1256%CP1257%CP1258%ISO8859-1%ISO8859-2%ISO8859-3%ISO8859-4%ISO8859-5%ISO8859-6%ISO8859-7%ISO8859-8%ISO8859-9%ISO-8859-11%ISO8859-13 ISO8859-15%WINDOWS%-874" ,ESRISHAPE
字符
编码,ESRISHAPE_MEASURES_AS_Z, “可选的CHOICE是没有%”,ESRISHAPE
对待
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如
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# !
# !
FME_PYTHON_VERSION 27 GUI忽略SourceDataset_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_FME_CONNECTION_GROUP_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_FME_GROUP_NAMED1_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_USE_SEARCH_ENVELOPE_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXY_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_COORDINATE_SYSTEM_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_CLIP_TO_ENVELOPE_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_ADVANCED_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_APPLICATION_INTENT_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_READ_CACHE_SIZE_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_ASSUME_ONE_SRID_PER_COL_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_HANDLE_MULTIPLE_SPATIAL_COLUMNS_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_USE_MAKE_VALID_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_BEGIN_SQL{0}_MSSQL_SPATIAL_1,MSSQL_SPATIAL_IN_END_SQL{0}_MSSQL_SPATIAL_1,SourceDataset_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_FME_CONNECTION_GROUP_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_FME_GROUP_NAMED1_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_USE_SEARCH_ENVELOPE_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXY_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_COORDINATE_SYSTEM_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_CLIP_TO_ENVELOPE_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_ADVANCED_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_APPLICATION_INTENT_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_READ_CACHE_SIZE_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_ASSUME_ONE_SRID_PER_COL_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_HANDLE_MULTIPLE_SPATIAL_COLUMNS_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_USE_MAKE_VALID_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_BEGIN_SQL{0}_MSSQL_SPATIAL_2,MSSQL_SPATIAL_IN_END_SQL{0}_MSSQL_SPATIAL_2,SourceDataset_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_FME_CONNECTION_GROUP_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_FME_GROUP_NAMED1_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_USE_SEARCH_ENVELOPE_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXY_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_COORDINATE_SYSTEM_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_CLIP_TO_ENVELOPE_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_ADVANCED_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_APPLICATION_INTENT_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_READ_CACHE_SIZE_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_ASSUME_ONE_SRID_PER_COL_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_HANDLE_MULTIPLE_SPATIAL_COLUMNS_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_USE_MAKE_VALID_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_BEGIN_SQL{0}_MSSQL_SPATIAL_3,MSSQL_SPATIAL_IN_END_SQL{0}_MSSQL_SPATIAL_3 DEFAULT_MACRO SourceDataset_MSSQL_SPATIAL cc-gis1 GUI NAMED_DB_CONNECTION_ENCODED SourceDataset_MSSQL_SPATIAL FMT:MSSQL_SPATIAL%FAMILY:Microsoft
SQL
服务器连接:DEFAULT_MACRO SourceDataset_MSSQL_SPATIAL_5 cc-gis1 GUI NAMED_DB_CONNECTION_ENCODED SourceDataset_MSSQL_SPATIAL_5 FMT:MSSQL_SPATIAL%FAMILY:Microsoft
SQL
服务器连接:DEFAULT_MACRO SourceDataset_MSSQL_SPATIAL_4 CC-gis1 GUI NAMED_DB_CONNECTION_ENCODED SourceDataset_MSSQL_SPATIAL_4 FMT:MSSQL_SPATIAL%FAMILY:微软
SQL
服务器连接:INCLUDE [如果{{$(SourceDataset_MSSQL_SPATIAL)} {==}} {puts_real {参数 'SourceDataset_MSSQL_SPATIAL' 必须被给出的值};。出口1;};] INCLUDE [如果{{$(SourceDataset_MSSQL_SPATIAL_5)} {==}} {puts_real {参数 'SourceDataset_MSSQL_SPATIAL_5' 必须被给出的值}。出口1;};] INCLUDE [如果{{$(SourceDataset_MSSQL_SPATIAL_4)} {==}} {puts_real {参数 'SourceDataset_MSSQL_SPATIAL_4' 必须被给出的值}。出口1;};]#!START_HEADER#!START_WB_HEADER READER_TYPE MULTI_READER MULTI_READER_TYPE {0} MSSQL_SPATIAL MULTI_READER_KEYWORD {0} MSSQL_SPATIAL_1 MULTI_READER_GEN_DIRECTIVES {0} COMMAND_TIMEOUT,30%,SEARCH_ENVELOPE_MAXX,0,MSSQL_SPATIAL_EXPOSE_FORMAT_ATTRS ,, BEGIN_SQL
0
,, SEARCH_ENVELOPE_COORDINATE_SYSTEM ,, READ_CACHE_SIZE,10,END_SQL
0
,, ASSUME_ONE_SRID_PER_COL ,, APPLICATION_INTENT,读写,QUERY_FEATURE_TYPES_FOR_MERGE_FILTERS,YES,NAMED_CONNECTION,CC-gis1,HANDLE_MULTIPLE_SPATIAL_COLUMNS,NO,USE_SEARCH_ENVELOPE,NO,WHERE_CLAUSE_WWJD ,, SEARCH_ENVELOPE_MINY,0,PERSISTENT_CONNECTION,NO,TABLELIST,dbo.Cad_Parcels
dbo.Dev_Adds
dbo.Pub_Downloads
dbo.Trn_Highways,ADVANCED ,, SEARCH_ENVELOPE_MAXY,0,CLIP_TO_ENVELOPE,NO,_MERGE_SCHEMAS,YES,EXPOSE_ATTRS_GROUP ,, USE_MAKE_VALID,NO,SEARCH_ENVELOPE_MINX,0 MULTI_READER_TYPE {1} NULL MULTI_READER_FORMAT {1} MSSQL_SPATIAL MULTI_READER_KEYWORD {1} MSSQL_SPATIAL_2 MULTI_READER_GEN_DIRECTIVES {1} COMMAND_TIMEOUT,30,SEARCH_ENVELOPE_MAXX,0,MSSQL_SPATIAL_EXPOSE_FORMAT_ATTRS ,, BEGIN_SQL
0
,, SEARCH_ENVELOPE_COORDINATE_SYSTEM ,, READ_CACHE_SIZE,10,END_SQL
0
,, ASSUME_ONE_SRID_PER_COL ,, APPLICATION_INTENT,读写,QUERY_FEATURE_TYPES_FOR_MERGE_FILTERS,YES,NAMED_CONNECTION,CC-gis1,HANDLE_MULTIPLE_SPATIAL_COLUMNS,NO,USE_SEARCH_ENVELOPE,NO,WHERE_CLAUSE_WWJD ,, SEARCH_ENVELOPE_MINY,0,PERSISTENT_CONNECTION,NO,TABLELIST,dbo.Com_Towers,ADVANCED ,, SEARCH_ENVELOPE_MAXY,0,CLIP_TO_ENVELOPE,NO,_MERGE_SCHEMAS,YES,EXPOSE_ATTRS_GROUP ,, USE_MAKE_VALID,NO,SEARCH_ENVELOPE_MINX,0 MULTI_READER_TYPE {2} MSSQL_SPATIAL MULTI_READER_KEYWORD {2} MSSQL_SPATIAL_3 MULTI_READER_GEN_DIRECTIVES {2} SEARCH_ENVELOPE_MINY,0,END_SQL
0
,, USE_SEARCH_ENVELOPE,NO,SEARCH_ENVELOPE_MINX,0,APPLICATION_INTENT,读写,USE_MAKE_VALID,NO,NAMED_CONNECTION,CC-gis1,COMMAND_TIMEOUT,30,SEARCH_ENVELOPE_COORDINATE_SYSTEM ,, QUERY_FEATURE_TYPES_FOR_MERGE_FILTERS,是的,ASSUME_ONE_SRID_PER_COL ,, TABLELIST,dbo.Ele_Precincts2011,BEGIN_SQL
0
,,高级,, CLIP_TO_ENVELOPE,NO,PERSISTENT_CONNECTION,NO,SEARCH_ENVELOPE_MAXY,0,WHERE_CLAUSE_WWJD ,, _ MERGE_SCHEMAS,YES,MSSQL_SPATIAL_EXPOSE_FORMAT_ATTRS ,, SEARCH_ENVELOPE_MAXX,0,EXPOSE_ATTRS_GROUP ,, HANDLE_MULTIPLE_SPATIAL_COLUMNS,NO,READ_CACHE_SIZE,10 WRITER_TYPE NULL WRITER_KEYWORD NULL_DEST NULL_DEST_DATASET空#!END_WB_HEADER#!START_WB_HEADER MACRO WB_KEYWORD “MSSQL_SPATIAL_1” #!END_WB_HEADER#!START_SOURCE_HEADER MSSQL_SPATIAL MSSQL_SPATIAL_1#从生成此映射文件的数据集:#!END_SOURCE_HEADER#!START_WB_HEADER DEFAULT_MACRO SourceDataset有[如果{{$(SourceDataset)}!= “”} {\ {放DEFAULT_MACRO SourceDataset_MSSQL_SPATIAL_1 $(SourceDataset)} \}]#!END_WB_HEADER#!START_SOURCE_HEADER MSSQL_SPATIAL MSSQL_SPATIAL_1 DEFAULT_MACRO SourceDataset_MSSQL_SPATIAL_1 $(SourceDataset_MSSQL_SPATIAL)GUI NAMED_DB_CONNECTION_ENCODED SourceDataset_MSSQL_SPATIAL_1 FMT:MSSQL_SPATIAL连接:DEFAULT_MACRO MSSQL_SPATIAL_IN_QUERY_FEATURE_TYPES_FOR_MERGE_FILTERS_MSSQL_SPATIAL_1是MSSQL_SPATIAL_1_QUERY_FEATURE_TYPES_FOR_MERGE_FILTERS “$(MSSQL_SPATIAL_IN_QUERY_FEATURE_TYPES_FOR_MERGE_FILTERS_MSSQL_SPATIAL_1)” DEFAULT_MACRO MSSQL_SPATIAL_IN_FME_CONNECTION_GROUP_MSSQL_SPATIAL_1 GUI可选DISCLOSUREGROUP MSSQL_SPATIAL_IN_FME_CONNECTION_GROUP_MSSQL_SPATIAL_1 MSSQL_SPATIAL_IN_NAMED_CONNECTION%MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_1数据库连接#============================================================================ # The following specifies whether to create a persistent connection.如果设置#为YES,直到FME关闭连接将继续开放。DEFAULT_MACRO MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_1 NO MSSQL_SPATIAL_1_PERSISTENT_CONNECTION “$(MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_1)” GUI OPTIONAL CHECKBOX MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_1 YES%NO持久性连接#超时DEFAULT_MACRO MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_1 30 MSSQL_SPATIAL_1_COMMAND_TIMEOUT “$(MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_1)” GUI可选的整数MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_1命令超时(秒):DEFAULT_MACRO MSSQL_SPATIAL_IN_FME_GROUP_NAMED1_MSSQL_SPATIAL_1 GUI OPTIONAL DISCLOSUREGROUP MSSQL_SPATIAL_IN_FME_GROUP_NAMED1_MSSQL_SPATIAL_1 MSSQL_SPATIAL_IN_TABLELIST%MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_1 Constraints # ============================================================================ # And an optional global WHERE clause DEFAULT_MACRO MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_1 MSSQL_SPATIAL_1_WHERE_CLAUSE_WWJD "$(MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_1)" GUI OPTIONAL TEXT_EDIT_SQL_CFG MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_1 MODE,WHERE WHERE Clause: # ============================================================================ # bounding box with optional clipping DEFAULT_MACRO MSSQL_SPATIAL_IN_EXPOSE_ATTRS_GROUP_MSSQL_SPATIAL_1 MSSQL_SPATIAL_1_EXPOSE_ATTRS_GROUP "$(MSSQL_SPATIAL_IN_EXPOSE_ATTRS_GROUP_MSSQL_SPATIAL_1)" # Include this file in source setting section to add native search envelope processing # Zero as a default means we don't do any search -- this makes workbench happier DEFAULT_MACRO MSSQL_SPATIAL_IN_USE_SEARCH_ENVELOPE_MSSQL_SPATIAL_1 NO MSSQL_SPATIAL_1_USE_SEARCH_ENVELOPE "$(MSSQL_SPATIAL_IN_USE_SEARCH_ENVELOPE_MSSQL_SPATIAL_1)" GUI ACTIVEDISCLOSUREGROUP MSSQL_SPATIAL_IN_USE_SEARCH_ENVELOPE_MSSQL_SPATIAL_1 MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXY_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_COORDINATE_SYSTEM_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_CLIP_TO_ENVELOPE_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_SEARCH_METHOD%MSSQL_SPATIAL_IN_SEARCH_METHOD_FILTER%MSSQL_SPATIAL_IN_SEARCH_ORDER%MSSQL_SPATIAL_IN_SEARCH_FEATURE%MSSQL_SPATIAL_IN_DUMMY_SEARCH_ENVELOPE_PARAMETER Use Search Envelope # =========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_1
,0 DEFAULT_MACRO MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_1 0 MSSQL_SPATIAL_1_SEARCH_ENVELOPE “$(MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_1)” GUI OPTIONAL FLOAT MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_1最小X:#=========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_1
,0 DEFAULT_MACRO MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_1 0 MSSQL_SPATIAL_1_SEARCH_ENVELOPE “$(MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_1)” GUI OPTIONAL FLOAT MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_1最小Y:#=========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_1
,0 DEFAULT_MACRO MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_1 0 MSSQL_SPATIAL_1_SEARCH_ENVELOPE “$(MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_1)” GUI OPTIONAL FLOAT MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_1最大X:#=========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXY_MSSQL_SPATIAL_1
0 MSSQL_SPATIAL_1_SEARCH_ENVELOPE "$(mssql_spatial_in_search_maxy_mssql_spatial_1)" GUI OPTIONAL FLOAT MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXY_MSSQL_SPATIAL_1 Maximum Y: # =========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_COORDINATE_SYSTEM_MSSQL_SPATIAL_1
MSSQL_SPATIAL_1_SEARCH_ENVELOPE "$(MSSQL_SPATIAL_1_SEARCH_ENVELOPE)" GUI OPTIONAL COORDSYS MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_COORDINATE_SYSTEM_MSSQL_SPATIAL_1 Search Envelope Coordinate System: # =========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_CLIP_TO_ENVELOPE_MSSQL_SPATIAL_1
MSSQL_SPATIAL_1_CLIP_TO_ENVELOPE "$(MSSQL_SPATIAL_1_CLIP_TO_ENVELOPE)" GUI OPTIONAL CHECKBOX MSSQL_SPATIAL_IN_CLIP_TO_ENVELOPE_MSSQL_SPATIAL_1 YES%NO Clip to Search Envelope DEFAULT_MACRO MSSQL_SPATIAL_IN_ADVANCED_MSSQL_SPATIAL_1 GUI OPTIONAL DISCLOSUREGROUP MSSQL_SPATIAL_IN_ADVANCED_MSSQL_SPATIAL_1 MSSQL_SPATIAL_IN_APPLICATION_INTENT_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_READ_CACHE_SIZE_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_ASSUME_ONE_SRID_PER_COL_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_HANDLE_MULTIPLE_SPATIAL_COLUMNS_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_USE_MAKE_VALID_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_BEGIN_SQL{0}_MSSQL_SPATIAL_1%MSSQL_SPATIAL_IN_END_SQL{0}_MSSQL_SPATIAL_1 Advanced DEFAULT_MACRO MSSQL_SPATIAL_IN_APPLICATION_INTENT_MSSQL_SPATIAL_1 ReadWrite MSSQL_SPATIAL_1_APPLICATION_INTENT "$(MSSQL_SPATIAL_IN_APPLICATION_INTENT_MSSQL_SPATIAL_1)" GUI CHOICE MSSQL_SPATIAL_IN_APPLICATION_INTENT_MSSQL_SPATIAL_1 ReadWrite%ReadOnly Application Intent # ============================================================================ # This keyword controls how many records to retrieve at one time into local # memory from the provider DEFAULT_MACRO MSSQL_SPATIAL_IN_READ_CACHE_SIZE_MSSQL_SPATIAL_1 10 MSSQL_SPATIAL_1_READ_CACHE_SIZE "$(MSSQL_SPATIAL_IN_READ_CACHE_SIZE_MSSQL_SPATIAL_1)" GUI OPTIONAL TEXT MSSQL_SPATIAL_IN_READ_CACHE_SIZE_MSSQL_SPATIAL_1 Number Of Records To Fetch At A Time # ============================================================================ # Assume that geometry columns have exactly one SRID?MSSQL_SPATIAL_1_ASSUME_ONE_SRID_PER_COL " GUI OPTIONAL CHOICE MSSQL_SPATIAL_IN_ASSUME_ONE_SRID_PER_COL_MSSQL_SPATIAL_1 YES%NO Geometry Columns Have Exactly One SRID # ============================================================================ # The following specifies whether to maintain multiple geometries or not.#如果设置为YES,多种几何图形将读入一个聚合#如果没有,选择一个几何图形的默认行为会发生DEFAULT_MACRO MSSQL_SPATIAL_IN_HANDLE_MULTIPLE_SPATIAL_COLUMNS_MSSQL_SPATIAL_1没有MSSQL_SPATIAL_1_HANDLE_MULTIPLE_SPATIAL_COLUMNS " $ (MSSQL_SPATIAL_IN_HANDLE_MULTIPLE_SPATIAL_COLUMNS_MSSQL_SPATIAL_1) " GUI CHOICE MSSQL_SPATIAL_IN_HANDLE_MULTIPLE_SPATIAL_COLUMNS_MSSQL_SPATIAL_1 YES%NO Handle Multiple Spatial Columns # ============================================================================ # The following specifies whether to use the MakeValid() command when reading # with a search envelope, may modify invalid source data # If YES, invalid data will be made valid;如果有效将正常读取。如果没有,无效的数据将导致转换失败。MSSQL_SPATIAL_1_USE_MAKE_VALID "$(MSSQL_SPATIAL_IN_USE_MAKE_VALID_MSSQL_SPATIAL_1)" GUI CHOICE MSSQL_SPATIAL_IN_USE_MAKE_VALID_MSSQL_SPATIAL_1 YES%NO Use MakeValid with Search Envelope # ============================================================================ # The following specifies an SQL command to execute before opening the first # table.“$(MSSQL_SPATIAL_IN_BEGIN_SQL{0}_MSSQL_SPATIAL_1)” GUI OPTIONAL TEXT_EDIT_SQL_CFG MSSQL_SPATIAL_IN_BEGIN_SQL{0}_MSSQL_SPATIAL_1 MODE,SQL;FORMAT,MSSQL_SPATIAL SQL To Run Before Read # ============================================================================ # The following specifies an SQL command to execute after closing all the # tables.MSSQL_SPATIAL_1_END_SQL{0}“$(MSSQL_SPATIAL_IN_END_SQL{0}_MSSQL_SPATIAL_1)” GUI OPTIONAL TEXT_EDIT_SQL_CFG MSSQL_SPATIAL_IN_END_SQL{0}_MSSQL_SPATIAL_1 MODE,SQL;FORMAT,MSSQL_SPATIAL SQL To Run After Read # ============================================================================ DEFAULT_MACRO MSSQL_SPATIAL_IN_ATTRIBUTE_READING_MSSQL_SPATIAL_1 DEFLINE_ATTRS MSSQL_SPATIAL_1_ATTRIBUTE_READING "$(MSSQL_SPATIAL_IN_ATTRIBUTE_READING_MSSQL_SPATIAL_1)" # ============================================================================ MSSQL_SPATIAL_1_GENERATE_FME_BUILD_NUM 18567 MSSQL_SPATIAL_1_DATASET "$(SourceDataset_MSSQL_SPATIAL_1)" #!END_SOURCE_HEADER#!宏WB_KEYWORD“MSSQL_SPATIAL_2”#!END_WB_HEADER#!这个映射文件生成的数据集是:#!END_SOURCE_HEADER#!START_WB_HEADER DEFAULT_MACRO SourceDataset包括[if {{$(SourceDataset)} != ""}{\放{DEFAULT_MACRO SourceDataset_MSSQL_SPATIAL_2 $(SourceDataset)}} #!END_WB_HEADER#!START_SOURCE_HEADER MSSQL_SPATIAL MSSQL_SPATIAL_2 DEFAULT_MACRO SourceDataset_MSSQL_SPATIAL_2 $ (SourceDataset_MSSQL_SPATIAL_5) GUI NAMED_DB_CONNECTION_ENCODED SourceDataset_MSSQL_SPATIAL_2 FMT: MSSQL_SPATIAL连接:DEFAULT_MACRO MSSQL_SPATIAL_IN_QUERY_FEATURE_TYPES_FOR_MERGE_FILTERS_MSSQL_SPATIAL_2是的MSSQL_SPATIAL_2_QUERY_FEATURE_TYPES_FOR_MERGE_FILTERS " $ (MSSQL_SPATIAL_IN_QUERY_FEATURE_TYPES_FOR_MERGE_FILTERS_MSSQL_SPATIAL_2) " DEFAULT_MACRO MSSQL_SPATIAL_IN_FME_CONNECTION_GROUP_MSSQL_SPATIAL_2 GUI OPTIONAL DISCLOSUREGROUP MSSQL_SPATIAL_IN_FME_CONNECTION_GROUP_MSSQL_SPATIAL_2 MSSQL_SPATIAL_IN_NAMED_CONNECTION%MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_2 Database Connection # ============================================================================ # The following specifies whether to create a persistent connection.如果设置#为YES,直到FME关闭连接将继续开放。MSSQL_SPATIAL_2_PERSISTENT_CONNECTION "$(MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_2)" GUI OPTIONAL CHECKBOX MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_2 YES%NO Persistent Connection # Timeout DEFAULT_MACRO MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_2 30 MSSQL_SPATIAL_2_COMMAND_TIMEOUT "$(MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_2)" GUI OPTIONAL INTEGER MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_2 Command Timeout (Seconds): DEFAULT_MACRO MSSQL_SPATIAL_IN_FME_GROUP_NAMED1_MSSQL_SPATIAL_2 GUI OPTIONAL DISCLOSUREGROUP MSSQL_SPATIAL_IN_FME_GROUP_NAMED1_MSSQL_SPATIAL_2 MSSQL_SPATIAL_IN_TABLELIST%MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_2 Constraints # ============================================================================ # And an optional global WHERE clause DEFAULT_MACRO MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_2 MSSQL_SPATIAL_2_WHERE_CLAUSE_WWJD "$(MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_2)" GUI OPTIONAL TEXT_EDIT_SQL_CFG MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_2 MODE,WHERE WHERE Clause: # ============================================================================ # bounding box with optional clipping DEFAULT_MACRO MSSQL_SPATIAL_IN_EXPOSE_ATTRS_GROUP_MSSQL_SPATIAL_2 MSSQL_SPATIAL_2_EXPOSE_ATTRS_GROUP "$(MSSQL_SPATIAL_IN_EXPOSE_ATTRS_GROUP_MSSQL_SPATIAL_2)" # Include this file in source setting section to add native search envelope processing # Zero as a default means we don't do any search -- this makes workbench happier DEFAULT_MACRO MSSQL_SPATIAL_IN_USE_SEARCH_ENVELOPE_MSSQL_SPATIAL_2 NO MSSQL_SPATIAL_2_USE_SEARCH_ENVELOPE "$(MSSQL_SPATIAL_IN_USE_SEARCH_ENVELOPE_MSSQL_SPATIAL_2)" GUI ACTIVEDISCLOSUREGROUP MSSQL_SPATIAL_IN_USE_SEARCH_ENVELOPE_MSSQL_SPATIAL_2 MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXY_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_COORDINATE_SYSTEM_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_CLIP_TO_ENVELOPE_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_SEARCH_METHOD%MSSQL_SPATIAL_IN_SEARCH_METHOD_FILTER%MSSQL_SPATIAL_IN_SEARCH_ORDER%MSSQL_SPATIAL_IN_SEARCH_FEATURE%MSSQL_SPATIAL_IN_DUMMY_SEARCH_ENVELOPE_PARAMETER Use Search Envelope # =========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_2
,0默认为U宏MSSQL.U SPATIAL U SPATIAL U IN U SEARCH U SEARCH U MINX U MSSQL.U SPATIAL U 2 U 2 U 2 U 2 U 2 U 2 U 2 U 2 U 2 U 2 U 2 U 2 U 2 U 2 U 2 U SEARCH U SPATIAL U SPATIAL U IN U SEARCH U搜索U SPATIAL U MINX U MSSQL.U SPATIAL U 2 U SPATIAL U 2)“用户界面可选浮动MSSQL.U SPATIAL U SPATIAL U IN U SPATIAL U IN U搜索搜索搜索搜索U Monsum U SPATIAL U Monx U Monx U MINX U MSSQL.MS=====图形用户界面查找MSSQL空间搜索信封MSSQL空间2
,0默认为U宏MSSQL.U SPATIAL U SPATIAL U IN U SEARCH U SEARCH U MINY U MSSQL.U SPATIAL U 2 U 2 U 2 U 2 U 2 U 2 U 2搜索U SPATIAL U SPATIAL U IN U SEARCH U 2 MSSQL.U SPATIAL U 2)“用户界面可选浮动MSSQL.U SPATIAL USpatial U SPATIAL U IN U SEARCH U MINY U MSSQL.U SPATIAL U SPATIAL U 2”用户界面可选浮动MSSQL.MSSQL.U SPATIAL U SPATIAL U IN U SPATIAL U IN U搜索U搜索搜索搜索搜索U MINY U MINY U MINY U MSSQL.MS=====图形用户界面查找MSSQL_space_IN_SEARCH_ENVELOPE_MAXX_MSSQL_space_2
,“2qSexCH包络”$(MSqLySualAlxIn SexChy.CyfEx Max xMsqLySuthalAl2)“GUI可选浮点MSQLL SythalAlxIn SyxChyPosieX Max xMsMSqLyStudialSurviv2。0 Debug Te宏MsqLySuthalAlxIn SyxChyPyfEx Max xMsMSqLySuthalAl2 2 0 MSQLL空间mssql_space_in_search_envelope_maxy_mssql_space_2
,“2qSexCH包络”$(MSQLL SualAlxIn SexChy.MexysMSqLySuthalAl2)“GUI可选浮标MSQLL SuthalAlxIn SyxChyPosieMax。0 Debug tAuthMsqLySuthalAlxIn搜索SkeleMax(MyyysMSqLySuthalAl2)0 MSQLL空间mssql_space_in_search_envelope_coordinate_system_mssql_space_2
, 默认“宏mssql_space_in_search_envelope_coordinate_system_mssql_space_2 mssql_space_search_envelope”$(mssql_space_in_search_envelope_coordinate_system_mssql_space_2)“图形用户界面可选坐标系统mssql_space_in_search_envelope_coordinate_space_coordinate_system_mssql_space_2 search envelope坐标系统:”#一个图形用户界面查找MSSQL空间单元(在从剪辑到信封的信封中)一个图形用户界面查找MSSQL空间单元(在信封中)一个图形用户界面查找MSSQL空间单元(在信封中)二个图形用户界面查找MSSQL空间单元(在信封中)
,无默认“宏mssql_spatial_in_clip_to_envelope_mssql_spatial_2无mssql_spatial_clip_to_envelope”$(mssql_spatial_in_clip_to_envelope_mssql_spatial_2)“图形用户界面可选复选框mssql_spatial_in_clip_to_envelope_mssql_spatial_2有%n clip to search envelope默认“宏mssql_spatial_in_advanced_mssql_spatial_2图形用户界面可选披露组”高级MSSQL空间2中的MSSQL空间MSSQL_SPATIAL_IN_APPLICATION_INTENT_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_READ_CACHE_SIZE_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_ASSUME_ONE_SRID_PER_COL_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_HANDLE_MULTIPLE_SPATIAL_COLUMNS_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_USE_MAKE_VALID_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_BEGIN_SQL{0}_MSSQL_SPATIAL_2%MSSQL_SPATIAL_IN_END_SQL{0}_MSSQ高级默认宏MSSQL空间应用程序中的MSSQL空间应用程序中的MSSQL空间应用程序中的MSSQL空间应用程序中的读写MSSQL空间应用程序中的MSSQL空间应用程序中的MSSQL空间应用程序中的MSSQL空间应用程序中的MSSQL空间应用程序中的MSSQL空间应用程序中的MSSQL空间应用程序中的MSSQL空间应用程序中的读写%#一个值得关注的是,一个值得关注的是,这一个关键字控制一次从提供程序的本地内存中检索多少条记录到本地内存中检索多少条记录到本地内存中检索多少条记录到本地内存中从提供程序的默认宏MSSQL\u读读缓存中的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间存储的空间的空间存储的空间存储的空间的空间存储的空间的空间的空间存储的空间存储空间的空间的空间的空间的空间存储的空间的空间的空间_SIZE“$(MSSQL_space_IN_READ_CACHE_SIZE_MSSQL_space_2)”图形用户界面可选文本mssql_spatial_in_read_cache_size_mssql_spatial_2一次要获取的记录数35;一次要获取的记录数一次要获取的记录数假设几何列正好有一个srid?默认宏mssql_spatial_in_assume_one_srid_per_col_mssql_spatial_2 mssql_spatial_2_assume_one_srid_per_col“$(mssql_spatial_in_assume_one_srid_per_col_mssql_spatial_2)”gui可选选择mssql_spatial_in_assume_one_srid_per_col_mssql_spatial_2是%没有几何列只有一个srid#=================================================================================================================================================#如果设置为“是”,多个几何图形将被读入聚合中;如果设置为“否”,则选择一个几何图形的默认行为将出现默认的“宏MSSQL_space_IN_HANDLE_Multiple_space_COLUMNS_MSSQL_space_2 NO MSSQL_space_2_HANDLE_Multiple_space_COLUMNS”$(MSSQL_space_IN_HANDLE_Multiple_space_COLUMNS_MSSQL_space_2)“图形用户界面选择在U句柄U多位U多位U多位U多位U多位空间列U mssql U多位U多位空间U多位空间乃2是%否否句柄多位空间列3535;度中的mssql U空间U空间U空间U空间U空间U空间U空间U空间U空间U空间U空间U空间U空间U空间U空间U空间2是%否否否否否否否否否否句柄多位空间35;列无效源数据如果是,无效数据将是生效;如果有效将正常读取。如果没有,无效的数据将导致转换失败。DEFAULT_MACRO MSSQL_SPATIAL_IN_USE_MAKE_VALID_MSSQL_SPATIAL_2 NO MSSQL_SPATIAL_2_USE_MAKE_VALID “$(MSSQL_SPATIAL_IN_USE_MAKE_VALID_MSSQL_SPATIAL_2)” GUI CHOICE MSSQL_SPATIAL_IN_USE_MAKE_VALID_MSSQL_SPATIAL_2 YES NO%使用MakeValid与搜索信封#============================================================================#的 following specifies an SQL command to execute before opening the first # table.DEFAULT_MACRO MSSQL_SPATIAL_IN_BEGIN_SQL {0} _MSSQL_SPATIAL_2 MSSQL_SPATIAL_2_BEGIN_SQL {0} “$(MSSQL_SPATIAL_IN_BEGIN_SQL {0} _MSSQL_SPATIAL_2)” GUI可选TEXT_EDIT_SQL_CFG MSSQL_SPATIAL_IN_BEGIN_SQL {0} _MSSQL_SPATIAL_2模式,SQL; FORMAT,MSSQL_SPATIAL SQL要运行读取之前#============================================================================ # The following specifies an SQL command to execute after closing all the # tables.DEFAULT_MACRO MSSQL_SPATIAL_IN_END_SQL {0} _MSSQL_SPATIAL_2 MSSQL_SPATIAL_2_END_SQL {0} “$(MSSQL_SPATIAL_IN_END_SQL {0} _MSSQL_SPATIAL_2)” GUI可选TEXT_EDIT_SQL_CFG MSSQL_SPATIAL_IN_END_SQL {0} _MSSQL_SPATIAL_2模式,SQL; FORMAT,MSSQL_SPATIAL SQL要运行阅读后#============================================================================ DEFAULT_MACRO MSSQL_SPATIAL_IN_ATTRIBUTE_READING_MSSQL_SPATIAL_2 DEFLINE_ATTRS MSSQL_SPATIAL_2_ATTRIBUTE_READING "$(MSSQL_SPATIAL_IN_ATTRIBUTE_READING_MSSQL_SPATIAL_2)" # ============================================================================ MSSQL_SPATIAL_2_GENERATE_FME_BUILD_NUM 18567 MSSQL_SPATIAL_2_DATASET "$(SourceDataset_MSSQL_SPATIAL_2)" #!END_SOURCE_HEADER#!START_WB_HEADER MACRO WB_KEYWORD “MSSQL_SPATIAL_3” #!END_WB_HEADER#!START_SOURCE_HEADER MSSQL_SPATIAL MSSQL_SPATIAL_3#从生成此映射文件的数据集:#!END_SOURCE_HEADER#!START_WB_HEADER DEFAULT_MACRO SourceDataset有[如果{{$(SourceDataset)}!= “”} {\ {放DEFAULT_MACRO SourceDataset_MSSQL_SPATIAL_3 $(SourceDataset)} \}]#!END_WB_HEADER#!START_SOURCE_HEADER MSSQL_SPATIAL MSSQL_SPATIAL_3 DEFAULT_MACRO SourceDataset_MSSQL_SPATIAL_3 $(SourceDataset_MSSQL_SPATIAL_4)GUI NAMED_DB_CONNECTION_ENCODED SourceDataset_MSSQL_SPATIAL_3 FMT:MSSQL_SPATIAL连接:DEFAULT_MACRO MSSQL_SPATIAL_IN_QUERY_FEATURE_TYPES_FOR_MERGE_FILTERS_MSSQL_SPATIAL_3是MSSQL_SPATIAL_3_QUERY_FEATURE_TYPES_FOR_MERGE_FILTERS “$(MSSQL_SPATIAL_IN_QUERY_FEATURE_TYPES_FOR_MERGE_FILTERS_MSSQL_SPATIAL_3)” DEFAULT_MACRO MSSQL_SPATIAL_IN_FME_CONNECTION_GROUP_MSSQL_SPATIAL_3 GUI可选DISCLOSUREGROUP MSSQL_SPATIAL_IN_FME_CONNECTION_GROUP_MSSQL_SPATIAL_3 MSSQL_SPATIAL_IN_NAMED_CONNECTION%MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_3数据库连接#============================================================================ # The following specifies whether to create a persistent connection.如果设置#为YES,直到FME关闭连接将继续开放。DEFAULT_MACRO MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_3 NO MSSQL_SPATIAL_3_PERSISTENT_CONNECTION “$(MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_3)” GUI OPTIONAL CHECKBOX MSSQL_SPATIAL_IN_PERSISTENT_CONNECTION_MSSQL_SPATIAL_3 YES%NO持久性连接#超时DEFAULT_MACRO MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_3 30 MSSQL_SPATIAL_3_COMMAND_TIMEOUT “$(MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_3)” GUI可选的整数MSSQL_SPATIAL_IN_COMMAND_TIMEOUT_MSSQL_SPATIAL_3命令超时(秒):DEFAULT_MACRO MSSQL_SPATIAL_IN_FME_GROUP_NAMED1_MSSQL_SPATIAL_3 GUI OPTIONAL DISCLOSUREGROUP MSSQL_SPATIAL_IN_FME_GROUP_NAMED1_MSSQL_SPATIAL_3 MSSQL_SPATIAL_IN_TABLELIST%MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_3 Constraints # ============================================================================ # And an optional global WHERE clause DEFAULT_MACRO MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_3 MSSQL_SPATIAL_3_WHERE_CLAUSE_WWJD "$(MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_3)" GUI OPTIONAL TEXT_EDIT_SQL_CFG MSSQL_SPATIAL_IN_WHERE_CLAUSE_WWJD_MSSQL_SPATIAL_3 MODE,WHERE WHERE Clause: # ============================================================================ # bounding box with optional clipping DEFAULT_MACRO MSSQL_SPATIAL_IN_EXPOSE_ATTRS_GROUP_MSSQL_SPATIAL_3 MSSQL_SPATIAL_3_EXPOSE_ATTRS_GROUP "$(MSSQL_SPATIAL_IN_EXPOSE_ATTRS_GROUP_MSSQL_SPATIAL_3)" # Include this file in source setting section to add native search envelope processing # Zero as a default means we don't do any search -- this makes workbench happier DEFAULT_MACRO MSSQL_SPATIAL_IN_USE_SEARCH_ENVELOPE_MSSQL_SPATIAL_3 NO MSSQL_SPATIAL_3_USE_SEARCH_ENVELOPE "$(MSSQL_SPATIAL_IN_USE_SEARCH_ENVELOPE_MSSQL_SPATIAL_3)" GUI ACTIVEDISCLOSUREGROUP MSSQL_SPATIAL_IN_USE_SEARCH_ENVELOPE_MSSQL_SPATIAL_3 MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXY_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_COORDINATE_SYSTEM_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_CLIP_TO_ENVELOPE_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_SEARCH_METHOD%MSSQL_SPATIAL_IN_SEARCH_METHOD_FILTER%MSSQL_SPATIAL_IN_SEARCH_ORDER%MSSQL_SPATIAL_IN_SEARCH_FEATURE%MSSQL_SPATIAL_IN_DUMMY_SEARCH_ENVELOPE_PARAMETER Use Search Envelope # =========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_3
,0 DEFAULT_MACRO MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_3 0 MSSQL_SPATIAL_3_SEARCH_ENVELOPE “$(MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_3)” GUI OPTIONAL FLOAT MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINX_MSSQL_SPATIAL_3最小X:#=========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_3
,0 DEFAULT_MACRO MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_3 0 MSSQL_SPATIAL_3_SEARCH_ENVELOPE “$(MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_3)” GUI OPTIONAL FLOAT MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MINY_MSSQL_SPATIAL_3最小Y:#=========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_3
,0 DEFAULT_MACRO MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_3 0 MSSQL_SPATIAL_3_SEARCH_ENVELOPE “$(MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_3)” GUI OPTIONAL FLOAT MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXX_MSSQL_SPATIAL_3最大X:#=========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXY_MSSQL_SPATIAL_3
,0 DEFAULT_MACRO MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXY_MSSQL_SPATIAL_3 0 MSSQL_SPATIAL_3_SEARCH_ENVELOPE “$(MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXY_MSSQL_SPATIAL_3)” GUI应用浮动MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_MAXY_MSSQL_SPATIAL_3最大Y:#=========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_COORDINATE_SYSTEM_MSSQL_SPATIAL_3
,DEFAULT_MACRO MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_COORDINATE_SYSTEM_MSSQL_SPATIAL_3 MSSQL_SPATIAL_3_SEARCH_ENVELOPE “$(MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_COORDINATE_SYSTEM_MSSQL_SPATIAL_3)” GUI可选COORDSYS MSSQL_SPATIAL_IN_SEARCH_ENVELOPE_COORDINATE_SYSTEM_MSSQL_SPATIAL_3搜索信封坐标系:#=========================================================================== GUI LOOKUP MSSQL_SPATIAL_IN_CLIP_TO_ENVELOPE_MSSQL_SPATIAL_3
MSSQL_SPATIAL_3_CLIP_TO_ENVELOPE "$(MSSQL_SPATIAL_3_CLIP_TO_ENVELOPE)" GUI OPTIONAL CHECKBOX MSSQL_SPATIAL_IN_CLIP_TO_ENVELOPE_MSSQL_SPATIAL_3 YES%NO Clip to Search Envelope DEFAULT_MACRO MSSQL_SPATIAL_IN_ADVANCED_MSSQL_SPATIAL_3 GUI OPTIONAL DISCLOSUREGROUP MSSQL_SPATIAL_IN_ADVANCED_MSSQL_SPATIAL_3 MSSQL_SPATIAL_IN_APPLICATION_INTENT_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_READ_CACHE_SIZE_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_ASSUME_ONE_SRID_PER_COL_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_HANDLE_MULTIPLE_SPATIAL_COLUMNS_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_USE_MAKE_VALID_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_BEGIN_SQL{0}_MSSQL_SPATIAL_3%MSSQL_SPATIAL_IN_END_SQL{0}_MSSQL_SPATIAL_3 Advanced DEFAULT_MACRO MSSQL_SPATIAL_IN_APPLICATION_INTENT_MSSQL_SPATIAL_3 ReadWrite MSSQL_SPATIAL_3_APPLICATION_INTENT "$(MSSQL_SPATIAL_IN_APPLICATION_INTENT_MSSQL_SPATIAL_3)" GUI CHOICE MSSQL_SPATIAL_IN_APPLICATION_INTENT_MSSQL_SPATIAL_3 ReadWrite%ReadOnly Application Intent # ============================================================================ # This keyword controls how many records to retrieve at one time into local # memory from the provider DEFAULT_MACRO MSSQL_SPATIAL_IN_READ_CACHE_SIZE_MSSQL_SPATIAL_3 10 MSSQL_SPATIAL_3_READ_CACHE_SIZE "$(MSSQL_SPATIAL_IN_READ_CACHE_SIZE_MSSQL_SPATIAL_3)" GUI OPTIONAL TEXT MSSQL_SPATIAL_IN_READ_CACHE_SIZE_MSSQL_SPATIAL_3 Number Of Records To Fetch At A Time # ============================================================================ # Assume that geometry columns have exactly one SRID?MSSQL_SPATIAL_3_ASSUME_ONE_SRID_PER_COL "$(mssql_spatial_in_assume_in_assume_one_srid_per_col_mssql_spatial_3)" GUI OPTIONAL CHOICE MSSQL_SPATIAL_IN_ASSUME_ONE_SRID_PER_COL_MSSQL_SPATIAL_3 YES%NO Geometry Columns Have Exactly One SRID # ============================================================================ # The following specifies whether to maintain multiple geometries or not.#如果设置为YES,多种几何图形将读入一个聚合#如果没有,选择一个几何图形的默认行为会发生DEFAULT_MACRO MSSQL_SPATIAL_IN_HANDLE_MULTIPLE_SPATIAL_COLUMNS_MSSQL_SPATIAL_3没有MSSQL_SPATIAL_3_HANDLE_MULTIPLE_SPATIAL_COLUMNS " $ (MSSQL_SPATIAL_IN_HANDLE_MULTIPLE_SPATIAL_COLUMNS_MSSQL_SPATIAL_3) " GUI CHOICE MSSQL_SPATIAL_IN_HANDLE_MULTIPLE_SPATIAL_COLUMNS_MSSQL_SPATIAL_3 YES%NO Handle Multiple Spatial Columns # ============================================================================ # The following specifies whether to use the MakeValid() command when reading # with a search envelope, may modify invalid source data # If YES, invalid data will be made valid;如果有效将正常读取。如果没有,无效的数据将导致转换失败。MSSQL_SPATIAL_3_USE_MAKE_VALID "$(mssql_spatial_in_use_make_valid)" GUI CHOICE MSSQL_SPATIAL_IN_USE_MAKE_VALID_MSSQL_SPATIAL_3 YES%NO Use MakeValid with Search Envelope # ============================================================================ # The following specifies an SQL command to execute before opening the first # table.mssql_spatial_begin_sql {0}_MSSQL_SPATIAL_3 mssql_3_begin_sql{0}“$(MSSQL_SPATIAL_IN_BEGIN_SQL{0}_MSSQL_SPATIAL_3)” GUI OPTIONAL TEXT_EDIT_SQL_CFG MSSQL_SPATIAL_IN_BEGIN_SQL{0}_MSSQL_SPATIAL_3 MODE,SQL;FORMAT,MSSQL_SPATIAL SQL To Run Before Read # ============================================================================ # The following specifies an SQL command to execute after closing all the # tables.“$(MSSQL_SPATIAL_IN_END_SQL{0}_MSSQL_SPATIAL_3)” GUI OPTIONAL TEXT_EDIT_SQL_CFG MSSQL_SPATIAL_IN_END_SQL{0}_MSSQL_SPATIAL_3 MODE,SQL;FORMAT,MSSQL_SPATIAL SQL To Run After Read # ============================================================================ DEFAULT_MACRO MSSQL_SPATIAL_IN_ATTRIBUTE_READING_MSSQL_SPATIAL_3 DEFLINE_ATTRS MSSQL_SPATIAL_3_ATTRIBUTE_READING "$(MSSQL_SPATIAL_IN_ATTRIBUTE_READING_MSSQL_SPATIAL_3)" # ============================================================================ MSSQL_SPATIAL_3_GENERATE_FME_BUILD_NUM 18567 MSSQL_SPATIAL_3_DATASET "$(SourceDataset_MSSQL_SPATIAL_3)" #!END_SOURCE_HEADER#!START_WB_HEADER # !END_WB_HEADER#!END_HEADER LOG_FILENAME “$(FME_MF_DIR)Data_Download_Creator_2.log” LOG_APPEND NO LOG_FILTER_MASK -1 LOG_MAX_FEATURES 200 LOG_MAX_RECORDED_FEATURES 200 FME_REPROJECTION_ENGINE FME FME_IMPLICIT_CSMAP_REPROJECTION_MODE自动FME_GEOMETRY_HANDLING增强FME_STROKE_MAX_DEVIATION 0 DEFAULT_MACRO DATASET_KEYWORD_MSSQL_SPATIAL_1 MSSQL_SPATIAL_1 DEFAULT_MACRO DATASET_KEYWORD_MSSQL_SPATIAL_2 MSSQL_SPATIAL_2 DEFAULT_MACRO DATASET_KEYWORD_MSSQL_SPATIAL_3 MSSQL_SPATIAL_3#------------------------------------------------------------------------- MSSQL_SPATIAL_1_READER_META_ATTRIBUTES fme_feature_type fme_basename # ------------------------------------------------------------------------- MSSQL_SPATIAL_2_READER_META_ATTRIBUTES fme_feature_type # ------------------------------------------------------------------------- MSSQL_SPATIAL_3_READER_META_ATTRIBUTES fme_feature_type # ------------------------------------------------------------------------- MULTI_READER_CONTINUE_ON_READER_FAILURE No # ------------------------------------------------------------------------- MACRO WORKSPACE_NAME Data_Download_Creator_2 MACRO FME_VIEWER_APP fmedatainspector # ------------------------------------------------------------------------- FACTORY_DEF * RoutingFactory FACTORY_NAME "Router and Unexpected Input Remover" COMMAND_PARM_EVALUATION SINGLE_PASS INPUT FEATURE_TYPE * ROUTE MSSQL_SPATIAL MSSQL_SPATIAL_1::dbo.Pub_Downloads multi_reader_keyword,$(DATASET_KEYWORD_MSSQL_SPATIAL_1) TO FME_GENERIC ::dbo.Pub_Downloads ALIAS_GEOMETRY ROUTE MSSQL_SPATIAL MSSQL_SPATIAL_3::dbo.Ele_Precincts2011 multi_reader_keyword,$(DATASET_KEYWORD_MSSQL_SPATIAL_3) TO FME_GENERIC ::dbo.Ele_Precincts2011 ALIAS_GEOMETRY MERGE_INPUT Yes OUTPUT ROUTED FEATURE_TYPE * MSSQL_SPATIAL_1_MERGE_DEF MSSQL_SPATIAL_1::dbo.Trn_Highways EXACT dbo.Trn_Highways MSSQL_SPATIAL_1_MERGE_DEF MSSQL_SPATIAL_1::dbo.Cad_Parcels EXACT dbo.Cad_Parcels MSSQL_SPATIAL_1_MERGE_DEF MSSQL_SPATIAL_1::dbo.Dev_Adds EXACT dbo.Dev_Adds MSSQL_SPATIAL_1_MERGE_DEF MSSQL_SPATIAL_1::dbo.Pub_Downloads EXACT dbo.Pub_Downloads DEFLINE mssql_where_clause_wwjd,,Pub_DownloadID,identity,TableName,nvarchar
50
,描述为nvarchar
100
,启用,位MSSQL_SPATIAL_2_MERGE_DEF MSSQL_SPATIAL_2 :: dbo.Com_Towers EXACT dbo.Com_Towers MSSQL_SPATIAL_3_MERGE_DEF MSSQL_SPATIAL_3 :: dbo.Ele_Precincts2011 EXACT dbo.Ele_Precincts2011 DEFLINE mssql_where_clause_wwjd ,, GID,整数,PRCT_NUM,整数,PRCT_NAME,VARCHAR
50
,BOS,整数,学院,整数,JP,整数,USER_MOD,VARCHAR
24
,TS,VARCHAR
24
,XMIN,整数,YMAX,整数,XMAX,整数,YMIN,整数,ENC_GEOMETRY,图像#------------------------------------------------------------------------- FACTORY_DEF * TeeFactory FACTORY_NAME“DBO.Cad_Parcels (MSSQL_SPATIAL_1) Splitter" INPUT FEATURE_TYPE dbo.Cad_Parcels OUTPUT FEATURE_TYPE dbo.Cad_Parcels_MSSQL_SPATIAL_1 # ------------------------------------------------------------------------- FACTORY_DEF * TeeFactory FACTORY_NAME "dbo.Dev_Adds (MSSQL_SPATIAL_1) Splitter" INPUT FEATURE_TYPE dbo.Dev_Adds OUTPUT FEATURE_TYPE dbo.Dev_Adds_MSSQL_SPATIAL_1 # ------------------------------------------------------------------------- FACTORY_DEF * TeeFactory FACTORY_NAME "dbo.Trn_Highways (MSSQL_SPATIAL_1) Splitter" INPUT FEATURE_TYPE dbo.Trn_Highways OUTPUT FEATURE_TYPE dbo.Trn_Highways_MSSQL_SPATIAL_1 # ------------------------------------------------------------------------- FACTORY_DEF * TeeFactory FACTORY_NAME "dbo.Pub_Downloads (MSSQL_SPATIAL_1) Splitter" INPUT FEATURE_TYPE dbo.Pub_Downloads OUTPUT FEATURE_TYPE dbo.Pub_Downloads_MSSQL_SPATIAL_1 # ------------------------------------------------------------------------- FACTORY_DEF * TeeFactory FACTORY_NAME "dbo.Com_Towers (MSSQL_SPATIAL_2) Splitter" INPUT FEATURE_TYPE dbo.Com_Towers OUTPUT FEATURE_TYPE dbo.Com_Towers_MSSQL_SPATIAL_2 # ------------------------------------------------------------------------- FACTORY_DEF * TeeFactory FACTORY_NAME "dbo.Ele_Precincts2011 (MSSQL_SPATIAL_3) Splitter" INPUT FEATURE_TYPE dbo.Ele_Precincts2011 OUTPUT FEATURE_TYPE dbo.Ele_Precincts2011_MSSQL_SPATIAL_3 DEFAULT_MACRO WB_CURRENT_CONTEXT # ------------------------------------------------------------------------- MACRO OUTPUT_AREA_FTYPE not_selected MACRO OUTPUT_AREA_FTYPE GeometryFilter_AREA MACRO OUTPUT_INSTANCE_FTYPE not_selected Lookup GeometryFilter_RouterTable "" "not_selected" fme_area $(OUTPUT_AREA_FTYPE) MACRO COLLECTION_HANDLING NOT_THIS_TIME MACRO INSTANCE_FILTERING * INCLUDE [ if 0 { puts "MACRO COLLECTION_HANDLING *";如果
{把 “宏INSTANCE_FILTERING NOT_THIS_TIME”;};};如果{{$(OUTPUT_INSTANCE_FTYPE)} == “not_selected”} {放 “MACRO INSTANCE_FILTERING NOT_THIS_TIME”;};]factory_def*teefactory factory_name geometryfilter_inputpassthrough input feature_type dbo.ele_precincts2011_mssql_space_3 output feature_type geometryfilter输入geometry(fix_fmetype_fmegometry)factory_def$(instance_filtering)testfactory_name geometryfilter_instancet input feature_type geometryfilter输入测试@几何体(is_geometry_u instance)==1个输出通过的特征_type$(output_instance_u ftype)输出失败的特征_type geometryfilter_uuu input_uuuu def$(collection_u handling)测试工厂_name geometryfilter_collection test输入特征_type geometryfilter_uu input_uuu input_u test&fme_type=“fme_collection”输出失败的特征u typeGeometryFilter_uuunot_ucollection_uuu_uuu输出传递特征类型GeometryFilter_uuucollection_uuufactory_udef$(Collection_uhandling)DeaggregateFactory FACTORY_uname GeometryFilter_udeagg输入特征类型GeometryFilter_ucollection_uu均质收集是递归是设置是实例化几何实例
输出点特征_type geometryfilter uuu均质聚合uuu输出线特征u type geometryfilter uuu均质聚合uuu输出多边形特征u type geometryfilter uuu均质聚合uuu输出圆环特征u type geometryfilter uuu均质聚合u type geometryfilter uu均质聚合__工厂名称为GeometryFilter\u-DEF*teeffactory工厂名称为GeometryFilter\u-GeometryFilter\u-GeometryFilter\u-GeometryFilter\u-GeometryFilter\u-GeometryFilter\u-GeometryFilter\u-GeometryFilter\u-GeometryFilter\u-GeometryFilter\u-GeometryFilter\u-GeometryFilter\u-DEF*tefactofactory\u-GeometryFilter\u-GeometryFilter\u-GeometryFilter\u-GeometryFilter\u-geometryfiU 8a22c4f2f9584 U目标特性类型@查找(geometryfilter_routertable,&fme_type)factory_def*testfactory_name geometryfilter_router input feature_type geometryfilter_uuuu prepped_uuuuuuuuu test@value(geometryfilter_4e0fadb5_bc68_4df1_a786_8a22c4f2f9584_targetfeaturetype)!=“未选定”输出通过功能类型*@FEATURE TYPE(@Value(GeometryFilter_4e0fadb5_bc68_4df1_a786_8a22c4f2f9584_targetFeatureType))@RemoveAttributes(GeometryFilter_4e0fadb5_bc68_4df1_a786_8a22c4f2f9584_targetFeatureType)输出失败功能_
@移除属性(GeometryFilter_4e0fadb5_bc68_4df1_a786_8a22c4f2f9584_targetFeatureType)FACTORY_DEF*TeeFactory FACTORY_NAME“GeometryFilter
变压器输出nuker“输入特性_
19-----------------------------------FasyY-DEF{{*} TraceStutabaseFixEngEngReCurrase5命令SubjdPARMY评价单程输入特征-Type FieldFieldFieldFieldFieldSuffySoad。输出输出特性-Atter EngReCurrase5l输出,即-----------------------------------------FasyY-DEF{{*} FractStutoCuttoCuffeldPrMyPayl评估单程因子FixNyAtEngEnEnEnAsMal5,输入特征:ATTR_ACTION{“fme_basename”“Tbl_Name”“RENAME_SET_DEFAULT”“”}输出功能_TYPE attributenamer_5_OUTPUT#----------FACTORY_DEF*TestFactory_Name Enabled_Yes_No INPUT FEATURE_TYPE dbo.Pub_Downloads_MSSQL_space_1 TEST@EvaluateExpression(FDIV,STRING_ENCODED,
价值
启用
我是说,enabled_yes_no)=yes编码布尔运算符或输出传递特性_type enabled_yes_no_passed factory_def*teefactory factory_name“enabled_yes_no passed splitter”输入特性_type enabled_yes_no_passed输出特性_type enabled_yes_no_passed_0_vi0zod9sulw=输出特性_type enabled_yes_no_passed_1 pjfrhiqwu8=输出特性_typeenabled_yes_no_passed_2_fcnsvbx1pcc=output feature_type enabled_yes_no_passed_3_5ltyzqvuvt0=output feature_type enabled_yes_no_passed_4_waip+co/deu=----------include[如果{geom_and_attrs}={attributes}}}{放置“宏特性合并参考信息属性”;}elseif{{GEOM_AND_ATTRS}={GEOM_BUILD}&&{
}={polygons}{输入“宏特性合并参考几何构建多边形”;}elseif{{GEOM_AND_ATTRS}={GEOM_BUILD}&&{
}={AGGREGATES}{输入“宏特性合并参考GEOM构建AGGREGATES”;}elseif{{GEOM_AND_ATTRS}={GEOM_BUILD}&&{
}={lines from points}{将“宏特性合并参考信息几何构建线”放在“点”上;}elseif{{geom_and_attrs}={geom_and_attrs}&{
}={polygons}{放置“宏特性合并参考几何和构造多边形”;}elseif{{geom_and_attrs}={geom_and_attrs}&{
}={AGGREGATES}{将“宏特性合并参考GEOM和构建AGGREGATES”;}elseif{{geom_and_attrs}={geom_and_attrs}&{
} {== LINESFROMPOINTS}} {把 “MACRO FeatureMerger_3_REFERENCE_INFO GEOM_AND_ATTR_BUILD_LINES_FROM_POINTS”;} elseif的{{GEOM_AND_ATTRS} == {GEOM_BUILD}} {把 “MACRO FeatureMerger_3_REFERENCE_INFO GEOM_BUILD_AGGREGATES”;} elseif的{{GEOM_AND_ATTRS} == {GEOM_AND_ATTRS}} {把 “MACRO FeatureMerger_3_REFERENCE_INFO GEOM_AND_ATTR_BUILD_AGGREGATES”;}其他{};] FACTORY_DEF {*} ReferenceFactory FACTORY_NAME FeatureMerger_3 INPUT参考进行FEATURE_TYPE AttributeRenamer_5_OUTPUT INPUT REFERENCEE FEATURE_TYPE Enabled_Yes_No_PASSED_4_WaIP + CO /申= REFERENCE_INFO $(FeatureMerger_3_REFERENCE_INFO)REFERENCE_TABLE @EvaluateExpression(FDIV,STRING_ENCODED,
价值
Tbl_Name
,FeatureMerger_3)@EvaluateExpression(FDIV,STRING_ENCODED,
价值
表名
,FeatureMerger_3)AUTO ATTR_ACCUM_MODE “HANDLE_CONFLICT” ATTR_CONFLICT_RES “REQUESTOR_IF_CONFLICT” IGNORE_NULLS “否” HANDLE_NULL_MISSING_KEYS_LIKE_FME2013没有LIST_ATTRS_TO_INCLUDE {
} LIST_ATTRS_TO_INCLUDE_MODE
MERGE_ATTRIBUTES是MANAGE_FME_TYPE是模式完成PROCESS_DUPLICATE_REFERENCEES NO REFERENCEES_FIRST没有REJECT_INVALID_GEOM YES CLEANING_TOLERANCE
输出完成FEATURE_TYPE FeatureMerger_3_MERGED#------------------------------------------------------------------------- FACTORY_DEF {*} AttrSetFactory FACTORY_NAME AttributeCreator_4 COMMAND_PARM_EVALUATION SINGLE_PASS INPUT FEATURE_TYPE dbo.Com_Towers_MSSQL_SPATIAL_2 MULTI_FEATURE_MODE NO NULL_ATTR_MODE NO_OP ATTRSET_CREATE_DIRECTIVES _PROPAGATE_MISSING_FDIV ATTR_ACTION { "" "fme_basename" "SET_TO" "Com_Towers" } OUTPUT OUTPUT FEATURE_TYPE AttributeCreator_4_OUTPUT # ------------------------------------------------------------------------- FACTORY_DEF {*} AttrSetFactory COMMAND_PARM_EVALUATION SINGLE_PASS FACTORY_NAME AttributeRenamer INPUT FEATURE_TYPE AttributeCreator_4_OUTPUT ATTRSET_CREATE_DIRECTIVES _PROPAGATE_MISSING_FDIV ATTR_ACTION { "fme_basename" "Tbl_Name" "RENAME_SET_DEFAULT" "" } OUTPUT OUTPUT FEATURE_TYPE AttributeRenamer_OUTPUT # ------------------------------------------------------------------------- INCLUDE [if { {GEOM_AND_ATTRS} == {ATTRIBUTES} } { puts "MACRO FeatureMerger_2_REFERENCE_INFO ATTRIBUTES";}elseif{{GEOM_AND_ATTRS}={GEOM_BUILD}&&{
} {==多边形}} {看跌期权 “MACRO FeatureMerger_2_REFERENCE_INFO GEOM_BUILD_POLYS”;}elseif{{GEOM_AND_ATTRS}={GEOM_BUILD}&&{
} {==骨料}} {把 “MACRO FeatureMerger_2_REFERENCE_INFO GEOM_BUILD_AGGREGATES”;}elseif{{GEOM_AND_ATTRS}={GEOM_BUILD}&&{
} {== LINESFROMPOINTS}} {把 “MACRO FeatureMerger_2_REFERENCE_INFO GEOM_BUILD_LINES_FROM_POINTS”;}elseif{{geom_and_attrs}={geom_and_attrs}&{
} {==多边形}} {看跌期权 “MACRO FeatureMerger_2_REFERENCE_INFO GEOM_AND_ATTR_BUILD_POLYS”;}elseif{{geom_and_attrs}={geom_and_attrs}&{
} {==骨料}} {把 “MACRO FeatureMerger_2_REFERENCE_INFO GEOM_AND_ATTR_BUILD_AGGREGATES”;}elseif{{geom_and_attrs}={geom_and_attrs}&{
} {== LINESFROMPOINTS}} {把 “MACRO FeatureMerger_2_REFERENCE_INFO GEOM_AND_ATTR_BUILD_LINES_FROM_POINTS”;} elseif的{{GEOM_AND_ATTRS} == {GEOM_BUILD}} {把 “MACRO FeatureMerger_2_REFERENCE_INFO GEOM_BUILD_AGGREGATES”;} elseif的{{GEOM_AND_ATTRS} == {GEOM_AND_ATTRS}} {把 “MACRO FeatureMerger_2_REFERENCE_INFO GEOM_AND_ATTR_BUILD_AGGREGATES”;}其他{};] FACTORY_DEF {*} ReferenceFactory FACTORY_NAME FeatureMerger_2 INPUT参考进行FEATURE_TYPE AttributeRenamer_OUTPUT INPUT REFERENCEE FEATURE_TYPE Enabled_Yes_No_PASSED_0_vI0zOd9SUlw = REFERENCE_INFO $(FeatureMerger_2_REFERENCE_INFO)REFERENCE_TABLE @EvaluateExpression(FDIV,STRING_ENCODED,
价值
Tbl_Name
,FeatureMerger_2)@EvaluateExpression(FDIV,STRING_ENCODED,
价值
表名
,FeatureMerger_2)AUTO ATTR_ACCUM_MODE “HANDLE_CONFLICT” ATTR_CONFLICT_RES “REQUESTOR_IF_CONFLICT” IGNORE_NULLS “否” HANDLE_NULL_MISSING_KEYS_LIKE_FME2013没有LIST_ATTRS_TO_INCLUDE {
} LIST_ATTRS_TO_INCLUDE_MODE
MERGE_ATTRIBUTES是MANAGE_FME_TYPE是模式完成PROCESS_DUPLICATE_REFERENCEES NO REFERENCEES_FIRST没有REJECT_INVALID_GEOM YES CLEANING_TOLERANCE
输出完整FEATURE_TYPE FeatureMerger_2_MERGED # - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - FACTORY_DEF {*} AttrSetFactory FACTORY_NAME AttributeCreator COMMAND_PARM_EVALUATION SINGLE_PASS输入FEATURE_TYPE dbo。Trn_Highways_MSSQL_SPATIAL_1 MULTI_FEATURE_MODE NO NULL_ATTR_MODE NO_OP ATTRSET_CREATE_DIRECTIVES _PROPAGATE_MISSING_FDIV ATTR_ACTION { "" "fme_basename" "SET_TO" "Trn_Highways" } OUTPUT OUTPUT FEATURE_TYPE AttributeCreator_OUTPUT # ------------------------------------------------------------------------- FACTORY_DEF {*} AttrSetFactory COMMAND_PARM_EVALUATION SINGLE_PASS FACTORY_NAME AttributeRenamer_4 INPUT FEATURE_TYPE AttributeCreator_OUTPUT ATTRSET_CREATE_DIRECTIVES _PROPAGATE_MISSING_FDIV ATTR_ACTION { "fme_basename" "Tbl_Name" "RENAME_SET_DEFAULT" "" } OUTPUT OUTPUT FEATURE_TYPE AttributeRenamer_4_OUTPUT # ------------------------------------------------------------------------- FACTORY_DEF {*} FeatureJoinerFactory FACTORY_NAME Trn_Highways INPUT LEFT FEATURE_TYPE Enabled_Yes_No_PASSED_3_5lTyzqVuVt0= INPUT RIGHT FEATURE_TYPE AttributeRenamer_4_OUTPUT JOIN_MODE Inner JOIN_KEYS TableName Tbl_Name AUTO ATTR_CONFLICT_RES USE_LEFT GEOMETRY_HANDLING USE_LEFT OUTPUT JOINED FEATURE_TYPE Trn_Highways_JOINED # ------------------------------------------------------------------------- FACTORY_DEF {*} AttrSetFactory FACTORY_NAME AttributeCreator_2 COMMAND_PARM_EVALUATION SINGLE_PASS INPUT FEATURE_TYPE dbo.Dev_Adds_MSSQL_SPATIAL_1 MULTI_FEATURE_MODE NO NULL_ATTR_MODE NO_OP ATTRSET_CREATE_DIRECTIVES _PROPAGATE_MISSING_FDIV ATTR_ACTION { "" "fme_basename" "SET_TO" "Dev_Adds" } OUTPUT OUTPUT FEATURE_TYPE AttributeCreator_2_OUTPUT # ------------------------------------------------------------------------- FACTORY_DEF {*} AttrSetFactory COMMAND_PARM_EVALUATION SINGLE_PASS FACTORY_NAME AttributeRenamer_2 INPUT FEATURE_TYPE AttributeCreator_2_OUTPUT ATTRSET_CREATE_DIRECTIVES _PROPAGATE_MISSING_FDIV ATTR_ACTION { "fme_basename" "Tbl_Name" "RENAME_SET_DEFAULT" "" } OUTPUT OUTPUT FEATURE_TYPE AttributeRenamer_2_OUTPUT # ------------------------------------------------------------------------- INCLUDE [if { {GEOM_AND_ATTRS} == {ATTRIBUTES} } { puts "MACRO FeatureMerger_REFERENCE_INFO ATTRIBUTES";}elseif{{GEOM_AND_ATTRS}={GEOM_BUILD}&&{
{== {POLYGONS}}{放入宏FeatureMerger_REFERENCE_INFO GEOM_BUILD_POLYS”;}elseif{{GEOM_AND_ATTRS}={GEOM_BUILD}&&{
{放置“宏功能表”{reference_info geom_build_”;}elseif{{GEOM_AND_ATTRS}={GEOM_BUILD}&&{
{放入宏FeatureMerger_REFERENCE_INFO GEOM_BUILD_LINES_FROM_POINTS”;}elseif{{geom_and_attrs}={geom_and_attrs}&{
} == {POLYGONS}}{放入宏FeatureMerger_REFERENCE_INFO GEOM_AND_ATTR_BUILD_POLYS”;}elseif{{geom_and_attrs}={geom_and_attrs}&{
{放置“宏特性remerger_reference_info geom_and_attr_build_”;}elseif{{geom_and_attrs}={geom_and_attrs}&{
{放入宏FeatureMerger_REFERENCE_INFO GEOM_AND_ATTR_BUILD_LINES_FROM_POINTS”;{{GEOM_AND_ATTRS} == {GEOM_BUILD}}{放入宏FeatureMerger_REFERENCE_INFO geom_build_”;{{GEOM_AND_ATTRS} == {GEOM_AND_ATTRS}}{放入宏FeatureMerger_REFERENCE_INFO geom_and_attr_build_”;}其他{};AttributeRenamer_2_OUTPUT INPUT REFERENCEE FEATURE_TYPE Enabled_Yes_No_PASSED_1_3PjfRhiqWu8= REFERENCE_INFO $(FeatureMerger_REFERENCE_INFO)
价值
Tbl_Name
FeatureMerger) @EvaluateExpression (FDIV STRING_ENCODED,
价值
表名
REQUESTOR_IF_CONFLICT" IGNORE_NULLS "No" HANDLE_NULL_MISSING_KEYS_LIKE_FME2013
} LIST_ATTRS_TO_INCLUDE_MODE
MERGE_ATTRIBUTES是MANAGE_FME_TYPE是模式完成PROCESS_DUPLICATE_REFERENCEES NO REFERENCEES_FIRST没有REJECT_INVALID_GEOM YES CLEANING_TOLERANCE
输出完整FEATURE_TYPE FeatureMerger_MERGED # - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - FACTORY_DEF {*} AttrSetFactory FACTORY_NAME AttributeCreator_3 COMMAND_PARM_EVALUATION SINGLE_PASS输入FEATURE_TYPE dbo。Cad_Parcels_MSSQL_SPATIAL_1 MULTI_FEATURE_MODE NO NULL_ATTR_MODE NO_OP ATTRSET_CREATE_DIRECTIVES _PROPAGATE_MISSING_FDIV ATTR_ACTION { "" "fme_basename" "SET_TO" "Cad_Parcels" } OUTPUT OUTPUT FEATURE_TYPE AttributeCreator_3_OUTPUT # ------------------------------------------------------------------------- FACTORY_DEF {*} AttrSetFactory COMMAND_PARM_EVALUATION SINGLE_PASS FACTORY_NAME AttributeRenamer_3 INPUT FEATURE_TYPE AttributeCreator_3_OUTPUT ATTRSET_CREATE_DIRECTIVES _PROPAGATE_MISSING_FDIV ATTR_ACTION { "fme_basename" "Tbl_Name" "RENAME_SET_DEFAULT" "" } OUTPUT OUTPUT FEATURE_TYPE AttributeRenamer_3_OUTPUT # ------------------------------------------------------------------------- FACTORY_DEF {*} FeatureJoinerFactory FACTORY_NAME Cad_Parcels INPUT LEFT FEATURE_TYPE Enabled_Yes_No_PASSED_2_FCnsvBx1Pcc= INPUT RIGHT FEATURE_TYPE AttributeRenamer_3_OUTPUT JOIN_MODE Inner JOIN_KEYS TableName Tbl_Name AUTO ATTR_CONFLICT_RES USE_LEFT GEOMETRY_HANDLING USE_LEFT OUTPUT JOINED FEATURE_TYPE Cad_Parcels_JOINED # ------------------------------------------------------------------------- INCLUDE [ puts {DEFAULT_MACRO FeatureWriterDataset_FeatureWriter @EvaluateExpression(FDIV,STRING_ENCODED,
cc-gis1
ITGIS
Data_Download
下载
价值
Tbl_Name
. zip, FeatureWriter)};ESRISHAPE WRITER_DATASET "$(FeatureWriterDataset_FeatureWriter)"WRITER_SETTINGS RUNTIME_MACROS, UPPER_CASE_ATTR_NAMES
没有
编码
系统
WRITE_SPATIAL_INDEX
没有
COMPRESSED_SHAPE_FILE
没有
维
二维
先进的
FME_DISCLOSURE_OPEN
STRICT_COMPATIBILITY
是的
几何
FME_DISCLOSURE_OPEN
PRESERVE_RING_VERTEX_ORDER
没有
DESTINATION_DATASETTYPE_VALIDATION
是的
SURFACE_AND_SOLID_STORAGE
shape_multipatch
MEASURES_AS_Z
图元文件,ESRISHAPE WRITER_METAFILE ATTRIBUTE_CASE, ATTRIBUTE_INVALID_CHARS,。
-%
! ? *
ATTRIBUTE_LENGTH 10 ATTR_TYPE_MAP, char
宽度
fme_varchar
宽度
字符
宽度
fme_varbinary
宽度
字符
宽度
fme_char
宽度
字符
宽度
fme_binary
宽度
字符
254
fme_buffer
字符
254
fme_binarybuffer
字符
254
fme_xml
字符
254
fme_json
字符
20.
fme_datetime
字符
12
fme_time
日期
fme_date
双
fme_real64
数量
31
15
fme_real64
双
fme_uint32
数量
11
0
fme_uint32
浮动
fme_real32
数量
15
7
fme_real32
数量
20.
0
fme_int64
数量
20.
0
fme_uint64
逻辑
fme_boolean
短
fme_int16
数量
6
0
fme_int16
短
fme_int8
数量
4
0
fme_int8
短