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  • Oracle_spatial的函数介绍[转]

    Oracle_spatial的函数

    一sdo_Geom包的函数:

    用于表示两个几何对象的关系(结果为True/False)的函数:RELATE,WITHIN_DISTANCE

    验证的函数:VALIDATE_GEOMETRY_WITH_CONTEXT,

    VALIDATE_LAYER_WITH_CONTEXT

    单个对象操作的函数:SDO_ARC_DENSIFY, SDO_AREA,SDO_BUFFER,SDO_

    CENTROID,SDO_CONVEXHULL, SDO_LENGTH,SDO_MAX_MBR_

    ORDINATE, SDO_MIN_MBR_ORDINATE,SDO_MBR,SDO_POINTONSURFACE

    需两个对象操作操作的函数:SDO_DISTANCE,SDO_DIFFERENCE,SDO_INTERSECTION,SDO_UNION,SDO_XOR

    1、sdo_Geom.Relate

    sdo_Geom.Relate(sdo_Geometry1, ‘MASK’, sod_Geometry2, tolerance ):用于判断一个几何体与另一个几何体的关系,我们用于判断当前点是否在某一个面(省份面、县市面、乡镇面)上。
      参数说明:
        sdo_Geometry1,sdo_Geometry2为空间数据对应的几何对象。
        Tolerance: 容许的精度范围;
          MASK参数:
        Anyinteract: sdo_Geometry2落在sdo_Geometry1面上包括在边上。
        Contains: sdo_Geometry2完全包含在sdo_Geometry1几何对象中,并且两个几何对象的边没有交叉。
        Coveredby: sdo_Geometry1完全包含在sdo_Geometry2中,并且这两个几何对象的边有一个或多个点相互重叠。
        Covers: sdo_Geometry2完全包含在sdo_Geometry1中,并且这两个几何对象的边有一个或多个点相互重叠。
        Disjoint: 两个几何没有重叠交叉点,也没有共同的边。
        Equal: 两个几何是相等的。
        Inside: sdo_Geometry1完全包含在sdo_Geometry2几何对象中,并且两个几何对象的边没有交叉。
        On: sdo_Geometry1的边和内部的线完全在sdo_Geometry2上。
        Overlapbdydisjoint: 两个几何对象交迭,但是边没有交叉。
        Overlapbdyintersect: 两个几何对象交迭,并且边有部分交叉。
        Touch: 两个几何对象有共同的边,但没有交叉。

    SELECT ct.gwm_fid, ct.name

     FROM i_exch_s ct, sales_regions comp

     WHERE SDO_GEOM.RELATE(ct.gwm_geometry, 'INSIDE', comp.geom, 0.5) = 'INSIDE'

       AND comp.gwm_fid = 50076218

     ORDER BY ct.gwm_fid;

    SELECT ct.gwm_fid, ct.name

     FROM i_exch_s ct, sales_regions comp

     WHERE SDO_GEOM.RELATE(ct.gwm_geometry, 'ANYINTERACT', comp.geom, 0.5) =

           'INSIDE'

       AND comp.gwm_fid = 50076218

     ORDER BY ct.gwm_fid;

    --RELATE函数补充SDO_RELATE操作符

     SELECT sra.gwm_fid,

            SDO_GEOM.RELATE(sra.geom, 'DETERMINE', srb.geom, 0.5) relationship

       FROM sales_regions srb, sales_regions sra

     WHERE srb.gwm_fid = 50076218

        AND sra.gwm_fid <> 50076218

        AND SDO_RELATE(sra.geom,

                       srb.geom,

                       'mask=TOUCH+OVERLAPBDYDISJOINT+OVERLAPBDYINTERSECT') =

            'TRUE'

     ORDER BY sra.gwm_fid;

    2、SDO_GEOM. WITHIN_DISTANCE

    SDO_GEOM.WITHIN_DISTANCE(

    geom1 IN SDO_GEOMETRY,

    dim1 IN SDO_DIM_ARRAY,

    dist IN NUMBER,

    geom2 IN SDO_GEOMETRY,

    dim2 IN SDO_DIM_ARRAY

    [, units IN VARCHAR2]

    ) RETURN VARCHAR2;

    or

    SDO_GEOM.WITHIN_DISTANCE(

    geom1 IN SDO_GEOMETRY,

    dist IN NUMBER,

    geom2 IN SDO_GEOMETRY,

    tol IN NUMBER

    [, units IN VARCHAR2]

    ) RETURN VARCHAR2;

      参数说明:
        sdo_Geometry1,sdo_Geometry2为空间数据对应的几何对象。
        Tolerance: 容许的精度范围;
        Dist: 指定的距离;
        Unit: 用于表示距离的单位,可能是Unit=M/ Unit=KM等长度单位,但必须是SDO_DIST_UNITS表中列举出来的单位之一。

    SELECT SDO_GEOM.WITHIN_DISTANCE(c_b.shape,

                                    m.diminfo,

                                    1,

                                    c_d.shape,

                                    m.diminfo)

     FROM cola_markets c_b, cola_markets c_d, user_sdo_geom_metadata m

     WHERE m.table_name = 'COLA_MARKETS'

       AND m.column_name = 'SHAPE'

       AND c_b.name = 'cola_b'

       AND c_d.name = 'cola_d';

    SELECT sdo_geom.within_distance(c.shape,50,d.shape,'0.5')

     FROM cola_markets c,cola_markets d

     WHERE c.name = 'cola_d' and d.name='cola_c';

    3、sdo_Geom.SDO_BUFFER

     SDO_BUFFER   
    (  
    geometry            IN SDO_GEOMETRY,  
     distance            IN NUMBER,  
     tolerance       IN NUMBER  
    [, params       IN VARCHAR2]  
     )  
     RETURNS an SDO_GEOMETRY

    其中

    geometry是一个参数,表示将被缓冲的SDO_GEOMETRY对象。

    distance是一个参数,表示缓冲输入的几何体的数值距离。

    tolerance是一个参数,表示容差。

    params是一个可选的第四个参数,表示两个参数:unit=<value_string>和arc_ tolerance=<value_number>。

    unit=<value_string>参数表示距离的单位。你可以通过查阅MDSYS.SDO_DIST_UNITS表来获得单位的可能取值。

    如果几何体是大地测量的(也就是说,如果几何体的SDO_SRID被赋值为大地测量SRID,如8307或者8625),那么 arc_tolerance=<value_number>参数就是必须的。在大地测量的空间里,弧度是不允许的。然而,它们可以近似地用线 表示。弧线的容差参数表示弧线与它的近似线的最大距离。

    注:弧线容差通常要大于几何体的容差。

    在大地测量数据中,容差是以米为单位来指定的。而arc_tolerance总是使用parameter_string中指定的单位。

    例子:

    --创建表

    CREATE TABLE sales_regions AS 

    SELECT gwm_fid,

           SDO_GEOM.SDO_BUFFER(b.gwm_geometry,

                                0.25,

                                0.5,

                                'arc_tolerance=0.005') geom

     FROM i_exch_s b where rownum<10;

    由于i_exch_s表中的srid为null,所以arc_tolerance不能指定单位

    --插元数据

    INSERT INTO user_sdo_geom_metadata

     SELECT 'SALES_REGIONS', 'GEOM', diminfo, srid

        FROM user_sdo_geom_metadata

       WHERE table_name = 'I_EXCH_S'

    --建空间索引

     CREATE INDEX sr_sidx ON sales_regions(geom) INDEXTYPE IS mdsys.spatial_index;

    4、sdo_Geom.SDO_DISTANCE

    SDO_DISTANCE函数的语法如下:

    SDO_DISTANCE  

    (  

    geometry1       IN SDO_GEOMETRY,  

    geometry2       IN SDO_GEOMETRY,  

    tolerance       IN NUMBER  

    [, params       IN VARCHAR2]  

    )  

    RETURNS a NUMBER 

    其中

    geometry1和geometry2是起始的两个参数,它们表示SDO_GEOMETRY对象。

    tolerance表示数据集的容差。对于大地测量的数据,它们通常是0.5或者0.1(0.5米或者是0.1米)。对于非大地测量的数据,它将被设置为合适的值,来避免四舍五入引起的错误。

    params是可选的第四个参数,是形如'unit=<value_string>'的字符串。这个参数指定了返回距离的单位。可以通过查看MDSYS.SDO_DIST_UNITS表获得可能的单位值。

    -- Return the distance between two geometries.

    SELECT SDO_GEOM.SDO_DISTANCE(c_b.shape, c_d.shape, 0.005)

     FROM cola_markets c_b, cola_markets c_d

     WHERE c_b.name = 'cola_b'

       AND c_d.name = 'cola_d';

     

    SELECT ct.gwm_fid, ct.name

       FROM i_exch_s comp, l_interest_s ct

     WHERE comp.gwm_fid = 52065726

        AND SDO_GEOM.SDO_DISTANCE(ct.gwm_geometry, comp.gwm_geometry, 0.5 /*',unit=mile'*/) < 50

     ORDER BY ct.gwm_fid;

    在SQL中使用带有SDO_WITHIN_DISTANCE空间操作符的SDO_DISTANCE函数

    SELECT ct.gwm_fid,

           ct.name,

           SDO_GEOM.SDO_DISTANCE(ct.gwm_geometry,

                                 comp.gwm_geometry,

                                 0.5 /*,'unit=yard'*/) distance

     FROM i_exch_s comp, l_interest_s ct

     WHERE comp.gwm_fid = 52065726

       AND SDO_WITHIN_DISTANCE(ct.gwm_geometry,

                               comp.gwm_geometry,

                               'distance=50') = 'TRUE'

     ORDER BY ct.gwm_fid;

    对于三维的大地测量几何体,计算的距离通常是二维的距离

    5、几何组合函数(sdo_Geom.

    A SDO_INTERSECTION B:返回A和B共有的区域。

    A SDO_UNION B:返回A和B覆盖的区域的并。

    A SDO_DIFFERENCE B:返回被A覆盖的但是不被B覆盖的区域。

    A SDO_XOR B:返回A和B不相交的区域。这个函数与(A SDO_UNION B) SDO_DIFFERENCE (A SDO_INTERSECTION B)是等同的。

    每一个函数都有如下语法:

    SDO_<set_theory_fn> 

    (  

    Geometry_A      IN SDO_GEOMETRY,  

    Geometry_B      IN SDO_GEOMETRY,  

    Tolerance           IN NUMBER  

    )  

    RETURNS SDO_GEOMETRY 

    Geometry_A 和Geometry_B是SDO_GEOMETRY对象(拥有相同的SRID)。

    Tolerance是几何对象的容差值

    注:

    在Oracle 11g中,几何函数只适用于二维几何体。你不能对两个三维对象进行并操作

    5.1 SDO_INTERSECTION

    CREATE TABLE sales_intersection_zones AS

    SELECT sra.gwm_fid id1,

           srb.gwm_fid id2,

           SDO_GEOM.SDO_INTERSECTION(sra.geom, srb.geom, 0.5) intsxn_geom

     FROM sales_regions srb, sales_regions sra

     WHERE sra.gwm_fid <> srb.gwm_fid

       AND SDO_RELATE(sra.geom, srb.geom, 'mask=anyinteract') = 'TRUE';

    5.2 SDO_UNION

    SELECT count(*)

     FROM (SELECT SDO_GEOM.SDO_UNION(sra.geom, srb.geom, 0.5) geom

              FROM sales_regions srb, sales_regions sra

             WHERE sra.gwm_fid = 50076211

               and srb.gwm_fid = 50076218) srb,

           i_exch_s sra

     WHERE SDO_RELATE(sra.gwm_geometry, srb.geom, 'mask=anyinteract') = 'TRUE';

    CREATE TABLE sales_region_coverage (coverage SDO_GEOMETRY); 

    DECLARE

     coverage SDO_GEOMETRY := NULL; 

    BEGIN

     FOR g IN (SELECT geom FROM sales_regions) LOOP 

     coverage := SDO_GEOM.SDO_UNION(coverage, g.geom, 0.5); 

     END LOOP; 

     INSERT INTO sales_region_coverage values (coverage); 

     COMMIT; 

    END; 

    5.3 SDO_DIFFERENCE

    SDO_DIFFERENCE函数是从第一个几何体中减去第二个几何体。结果,它返回的是只属于第一个几何体的区域。注意,它只有在以下情况下才有意义:

    第一个和第二个几何体都必须有区域(也就是说,区域为多边形,多重多边形等)。

    第二个几何体是一个多边形或者一条线并且第一个几何体是一条线。

    第一个几何体是一个点。

    如果这些条件不满足,SDO_DIFFERENCE操作的结果是返回第一个几何体。

    --竞争对手区域2和销售区域6的SDO_DIFFERENCE操作

    CREATE TABLE exclusive_region_for_comp_2 AS

    SELECT SDO_GEOM.SDO_DIFFERENCE(b.geom, a.geom, 0.5) geom

     FROM sales_regions sr, competitors_sales_regions csr

     WHERE csr.id = 2

       and sr.id = 6;

    --在竞争对手的独属区域内确定客户

    SELECT ct.id, ct.name

     FROM exclusive_region_for_comp_2 excl, customers ct

     WHERE SDO_RELATE(ct.location, excl.geom, 'mask=anyinteract') = 'TRUE'

     ORDER BY ct.id;

    --将以上两个合并为一个

    SELECT ct.id, ct.name

     FROM sales_regions sr, competitors_sales_regions csr, customers ct

     WHERE csr.id = 2

       AND sr.id = 6

       AND SDO_RELATE(ct.location,

                      SDO_GEOM.SDO_DIFFERENCE(csr.geom, sr.geom, 0.5),

                      'mask=anyinteract') = 'TRUE'

     ORDER BY ct.id;

    5.4 SDO_XOR

    --不被共享的客户

    SELECT count(*)

     FROM (SELECT SDO_GEOM.SDO_XOR(a.geom, b.geom, 0.5) geom

              FROM sales_regions srb, sales_regions sra

             WHERE sra.id = 51

               and srb.id = 43) srb,

           customers sra

     WHERE SDO_RELATE(sra.location, srb.geom, 'mask=anyinteract') = 'TRUE';

    6、几何分析函数(sdo_Geom.

    二维的或者三维的几何体上使用这些函数。这些函数有如下的PL/SQL通用语法

    Function_name  

    (  

    Geometry                                IN SDO_GEOMETRY,  

    tolerance                           IN NUMBER  

    [, units_params IN VARCHAR2]  

    )  

    RETURN  NUMBER 

    其中

    Geometry表示将被分析的几何体。

    Tolerance表示在这个分析中的容差。

    units_params是可选的第三个参数,表示返回的面积、长度和体积的单位。这个参数的 形式是'unit=<value_string>'。可以查看MDSYS.SDO_DIST_UNITS表的length函数和 MDSYS.SDO_AREA_UNITS表的面积函数获得这些单位的可能取值

    6.1 SDO_AREA

    select name,sdo_geom.sdo_area(a.gwm_geometry,0.05) from p_region_area a;

    6.2 SDO_LENGTH

    此函数返回一条线的长度和多边形、平面和立方体的周长。对于点,这个函数返回0。

    select name,sdo_geom.sdo_length(a.gwm_geometry,0.05) from p_region_area a;

    6.3 SDO_VOLUME

    如果输入的几何体是三维的立方体或者是多重立方体,那么这个函数将一个几何体和一个容差值作为参数并且返回体积。对所有其他的几何体类型,这个函数返回0。

    7、MBR最小边界矩形函数sdo_Geom.

    7.1 SDO_MBR

    SDO_GEOM.SDO_MBR(

    geom IN SDO_GEOMETRY

    [, dim IN SDO_DIM_ARRAY]

    ) RETURN SDO_GEOMETRY;

    l         SDO_MBR函数把SDO_GEOMETRY作为一个参数并且计算这个几何体的MBR。它返回的是一个SDO_GEOMETRY对象。

    l         如果输入的是一个点,那么SDO_MBR函数返回的是一个点几何体。

    l         如果输入的是一条平行于X或Y轴的线串,那么函数返回一个线性几何体。

    否则,函数返回输入几何体的MBR,将它作为一个SDO_GEOMETRY对象。

    l         对于一个输入的三维对象,SDO_MBR函数返回一个范围,也就是说,返回这个三

    维几何体在三个维度上的最小值和最大值。

    -- Return the minimum bounding rectangle of cola_d (a circle).

    SELECT SDO_GEOM.SDO_MBR(c.shape, m.diminfo)

     FROM cola_markets c, user_sdo_geom_metadata m

     WHERE m.table_name = 'COLA_MARKETS'

       AND m.column_name = 'SHAPE'

       AND c.name = 'cola_d';

    注:

    SDO_AGGR_UNION, SDO_AGGR_CENTROID和SDO_CONVEXHULL这些函数只能在二维几何体上使用。

    7.2SDO_MIN_MBR_ORDINATE SDO_MAX_MBR_ORDINATE

    除了获得两个维数上的范围,有时你可能对获得指定的维数上的范围感兴趣。你可以通过SDO_MIN_MBR_ORDINATE和SDO_MAX_MBR_ORDINATE函数来获得指定的维数上的范围,这两个函数返回指定维数上几何体的最小和最大坐标值。

    也可以在三维对象上使用这些函数。

    SELECT SDO_GEOM.SDO_MIN_MBR_ORDINATE(sr.geom, 1) min_extent,

           SDO_GEOM.SDO_MAX_MBR_ORDINATE(sr.geom, 1) max_extent

     FROM sales_regions sr;

    SELECT SDO_GEOM.SDO_MIN_MBR_ORDINATE(sr.geom, 3) min_extent,

           SDO_GEOM.SDO_MAX_MBR_ORDINATE(sr.geom, 3) max_extent

     FROM sales_regions sr;

    8、各种几何分析函数sdo_Geom.

    <Function_name>  

    (  

    Geometry            IN SDO_GEOMETRY,  

    Tolerance       IN NUMBER  

    )  

    RETURENS SDO_GEOMETRY 

    8.1 SDO_CONVEXHULL

    --该函数可用于简化面的顶点(与原来的面仍保持近似)

    select name,sdo_geom.sdo_convexhull(a.gwm_geometry,0.5) from p_region_area a;

    在Oracle 11g中,SDO_CONVEXHULL函数只适用于二维的几何体

    8.2 SDO_CENTROID

    在Oracle 11g中,SDO_CENTROID函数只适用于二维的几何体

    点返回的仍是一个点,线返回的是空值,面返回的是该面的质心。

    8.3 SDO_POINTONSURFACE

    既然一个多边形的质心有可能在也有可能不在这个多边形内,那么在几何体表面的其他点放置一个标签也可能是有用的。在创建多边形地图的一些类型时,这个也是必要的。你可以通过使用SDO_POINTONSURFACE函数来得到这样的点。

    也可以在三维的几何体上使用这个函数。

    SDO_POINTONSURFACE函数的唯一保证是返回的点在穿过的多边形的边界上或者内部(在目前的实现中,它实际返回的是多边形几何体的SDO_ORDINATE_ARRAY中的第一个点)

    SDO_GEOM.SDO_POINTONSURFACE(

    geom1 IN SDO_GEOMETRY,

    dim1 IN SDO_DIM_ARRAY

    ) RETURN SDO_GEOMETRY;

    or

    SDO_GEOM.SDO_POINTONSURFACE(

    geom1 IN SDO_GEOMETRY,

    tol IN NUMBER

    ) RETURN SDO_GEOMETRY;

    9、聚合函数   非免费sdo_Geom.

    SDO_AGGR_MBR 可用于三维几何体;SDO_AGGR_UNION、SDO_AGGR_CENTROID和SDO_CONVEXHULL函数只适用于二维的几何体

    9.1 聚合MBR函数(SDO_AGGR_MBR

    假设你想找到SDO_GEOMETRY对象集覆盖的范围(通常,在创建索引之前,需要使用这个信息来填充USER_SDO_GEOM_METADATA视图)

    9.2 SDO_AGGR_UNION

    聚合函数SDO_AGGR_UNION计算几何体集合的并。并以SDO_GEOMETRY对象返回。

    9.3 SDO_AGGR_CONVEXHULL

    如果所有输入的几何体的所有顶点是共线的或者如果只有一个顶点(一个点),那么SDO_AGGR_CONVEXHULL返回空值

    9.4 SDO_AGGR_CENTROID

    SDO_AGGR_CENTROID函数允许你计算客户任意组合的质心

    10、SDO_GEOM.SDO_ARC_DENSIFY

    SDO_GEOM.SDO_ARC_DENSIFY(

    geom IN SDO_GEOMETRY,

    dim IN SDO_DIM_ARRAY

    params IN VARCHAR2

    ) RETURN SDO_GEOMETRY;

    or

    SDO_GEOM.SDO_ARC_DENSIFY(

    geom IN SDO_GEOMETRY,

    tol IN NUMBER

    params IN VARCHAR2

    ) RETURN SDO_GEOMETRY;

    -- Arc densification of the circle cola_d

    SELECT c.name,

           SDO_GEOM.SDO_ARC_DENSIFY(c.shape, m.diminfo, 'arc_tolerance=0.05')

     FROM cola_markets c, user_sdo_geom_metadata m

     WHERE m.table_name = 'COLA_MARKETS'

       AND m.column_name = 'SHAPE'

       AND c.name = 'cola_d';

    10、验证函数(sdo_Geom.)

    10.1 VALIDATE_GEOMETRY_WITH_CONTEXT

    SDO_GEOM.VALIDATE_GEOMETRY_WITH_CONTEXT(

    Geometry IN SDO_GEOMETRY,

    DimInfo IN SDO_DIM_ARRAY --该参数指定了维度(范围)和容差值的信息

    ) RETURN VARCHAR2;

    or

    SDO_GEOM.VALIDATE_GEOMETRY_WITH_CONTEXT(

    Geometry IN SDO_GEOMETRY,

    tolerance IN NUMBER

    ) RETURN VARCHAR2;

    10.2 VALIDATE_LAYER_WITH_CONTEXT

    SDO_GEOM.VALIDATE_LAYER_WITH_CONTEXT(

    geom_table IN VARCHAR2, --验证的表

    geom_column IN VARCHAR2, --验证的列

    result_table IN VARCHAR2   --验证结果存放的表

    [, commit_interval IN NUMBER]); --验证结果每隔多少个提交一次

    二sdo_util包的函数

    1、sdo_util.remove_duplicate_vertices

    删除重复的顶点

    SDO_UTIL.REMOVE_DUPLICATE_VERTICES

    geometry IN SDO_GEOMETRY,

    tolerance IN NUMBER

    ) RETURN SDO_GEOMETRY;

    2、sdo_util.extract(只能提取二维)

    SDO_UTIL.EXTRACT(

    geometry IN SDO_GEOMETRY, --提取的对象

    element IN NUMBER        --提取哪个元素

    [, ring IN NUMBER]         --环号,可选

    ) RETURN SDO_GEOMETRY;

    3、sdo_util.append

        在给定的容差值内,这个函数将两个输入的几何体合成为单个几何体。

    SDO_UTIL.APPEND(

    geom1 IN SDO_GEOMETRY,

    geom2 IN SDO_GEOMETRY

    ) RETURN SDO_GEOMETRY

    4、sdo_util.GetNumElem

    获取元素的数目(即由几个元素组成)

    SDO_UTIL.GETNUMELEM(

    geometry IN SDO_GEOMETRY

    ) RETURN NUMBER;

    5、sdo_util.GetNumVertices

    获取对象的顶点数目

    SDO_UTIL.GETNUMVERTICES(

    geometry IN SDO_GEOMETRY

    ) RETURN NUMBER;

    6、sdo_util.getvertices

    SDO_UTIL.GETVERTICES(

    geometry IN SDO_GEOMETRY

    ) RETURN VERTEX_SET_TYPE;

    7、SDO_UTIL.CIRCLE_POLYGON

    返回一个圆

    SDO_UTIL.CIRCLE_POLYGON(

    center_longitude IN NUMBER,

    center_latitude IN NUMBER,

    radius IN NUMBER,

    arc_tolerance IN NUMBER

    ) RETURN SDO_GEOMETRY;

    SELECT SDO_UTIL.CIRCLE_POLYGON(-71.34937, 42.46101, 100, 5) FROM DUAL;

    8、SDO_UTIL.ELLIPSE_POLYGON

    返回一个椭圆

    SDO_UTIL.ELLIPSE_POLYGON(

    center_longitude IN NUMBER,

    center_latitude IN NUMBER,

    semi_major_axis IN NUMBER,

    semi_minor_axis IN NUMBER,

    azimuth IN NUMBER,

    arc_tolerance IN NUMBER

    ) RETURN SDO_GEOMETRY;

    SELECT SDO_UTIL.ELLIPSE_POLYGON(-71.34937, 42.46101, 100, 50, 90, 5)FROM DUAL;

    9SDO_UTIL.CONVERT_UNIT

    单位转换

    SDO_UTIL.CONVERT_UNIT(

    input_value IN NUMBER,

    from_unit IN VARCHAR2,

    to_unit IN VARCHAR2

    ) RETURN NUMBER;

    SELECT SDO_UTIL.CONVERT_UNIT(1, 'Radian', 'Degree') FROM DUAL;

    10、wkt、wkb与geometry互转与验证

    Ø         SDO_UTIL.FROM_WKBGEOMETRY

    Ø         SDO_UTIL.FROM_WKTGEOMETRY

    Ø         SDO_UTIL.TO_WKBGEOMETRY

    Ø         SDO_UTIL.TO_WKTGEOMETRY

    Ø         SDO_UTIL.VALIDATE_WKBGEOMETRY

    Ø         SDO_UTIL.VALIDATE_WKTGEOMETRY

     

    DECLARE

    wkbgeom BLOB;

    wktgeom CLOB;

    val_result VARCHAR2(5);

    geom_result SDO_GEOMETRY;

    geom SDO_GEOMETRY;

    BEGIN

    SELECT c.shape INTO geom FROM cola_markets c WHERE c.name = 'cola_b';

    -- To WBT/WKT geometry

    wkbgeom := SDO_UTIL.TO_WKBGEOMETRY(geom);

    wktgeom := SDO_UTIL.TO_WKTGEOMETRY(geom);

    DBMS_OUTPUT.PUT_LINE('To WKT geometry result = ' || TO_CHAR(wktgeom));

    -- From WBT/WKT geometry

    geom_result := SDO_UTIL.FROM_WKBGEOMETRY(wkbgeom);

    geom_result := SDO_UTIL.FROM_WKTGEOMETRY(wktgeom);

    -- Validate WBT/WKT geometry

    val_result := SDO_UTIL.VALIDATE_WKBGEOMETRY(wkbgeom);

    DBMS_OUTPUT.PUT_LINE('WKB validation result = ' || val_result);

    val_result := SDO_UTIL.VALIDATE_WKTGEOMETRY(wktgeom);

    DBMS_OUTPUT.PUT_LINE('WKT validation result = ' || val_result);

    END;

    11、GML与GEOMETRY转换

    SDO_UTIL.TO_GMLGEOMETRY(

    thegeom IN SDO_GEOMETRY

    ) RETURN CLOB;

    SELECT TO_CHAR(SDO_UTIL.TO_GMLGEOMETRY(shape)) AS GmlGeometry

     FROM COLA_MARKETS c

     WHERE c.name = 'cola_b';

    12、SDO_UTIL.SIMPLIFY

    根据输入的阈值来简化输入的对象

    SDO_UTIL.SIMPLIFY(

    geometry IN SDO_GEOMETRY,

    threshold IN NUMBER

    tolerance IN NUMBER DEFAULT 0.0000005

    ) RETURN SDO_GEOMETRY;

    SELECT SDO_UTIL.SIMPLIFY(

    SDO_GEOMETRY(

    3302, -- line string, 3 dimensions (X,Y,M), 3rd is linear ref. dimension

    NULL,

    NULL,

    SDO_ELEM_INFO_ARRAY(1,2,1), -- one line string, straight segments

    SDO_ORDINATE_ARRAY(

    2,2,0, -- Starting point - Exit1; 0 is measure from start.

    2,4,2, -- Exit2; 2 is measure from start.

    8,4,8, -- Exit3; 8 is measure from start.

    12,4,12, -- Exit4; 12 is measure from start.

    12,10,NULL, -- Not an exit; measure automatically calculated and filled.

    8,10,22, -- Exit5; 22 is measure from start.

    5,14,27) -- Ending point (Exit6); 27 is measure from start.

    ),

    6, -- threshold value for geometry simplification

    0.5 -- tolerance

    ) FROM DUAL;

    13、SDO_UTIL.RECTIFY_GEOMETRY

    纠正有错误的对象并正确输出

    SDO_UTIL.RECTIFY_GEOMETRY(

    geometry IN SDO_GEOMETRY,

    tolerance IN NUMBER

    ) RETURN SDO_GEOMETRY;

    SELECT SDO_UTIL.RECTIFY_GEOMETRY(shape, 0.005)

    FROM COLA_MARKETS c WHERE c.name = 'cola_b';

    14、SDO_UTIL.PREPARE_FOR_TTS与SDO_UTIL.INITIALIZE_INDEXES_FOR_TTS

    在不同的Oracle数据库之间传输数据可通过表空间。而为了保证表空间上的表的空间索引也被传输,需要执行这些函数SDO_UTIL.PREPARE_FOR_TTS(在传输表空间前执行)与SDO_UTIL.INITIALIZE_INDEXES_FOR_TTS(在表空间导出后执行)

    例子:创建一个dmp文件,从一个源数据库中传输表空间tbs。

    首先:从一个源数据库中传输表空间tbs

    Sqlplus spatial/ spatial

    Execute SDO_UTIL.PREPARE_FOR_TTS(‘TBS’)

    Connect system/manager as sysdba

    Execute dbms_tts.transport_set_check(‘TBS’,true);

    Alter tablespace TBS read only;

    Exit;

    Exp spatial/ spatial transport_ tablespace=y tablespaces=TBS file=trans_ts.dmp

    然后导入

    ixp spatial/ spatial transport_ tablespace=y file=trans_ts.dmp datafiles=’sdo_tts.dbf’ tablespaces=tbs

    Sqlplus sys/password

    Alter tablespace TBS read write;

    Connect spatial/ spatial;

    Exec SDO_UTIL.INITIALIZE_INDEXES_FOR_TTS

    15、sdo_util.extract3d

    提取三维对象的元素

    16、sdo_util.sdo_concat_lines

    连接两个线串

    SDO_UTIL.CONCAT_LINES(

    geom1 IN SDO_GEOMETRY,

    geom2 IN SDO_GEOMETRY

    ) RETURN SDO_GEOMETRY;

    17、sdo_util.sdo_reverse_linestring

    倒转一条线串中的顶点的顺序

    SDO_UTIL.REVERSE_LINESTRING(

    geometry IN SDO_GEOMETRY

    ) RETURN SDO_GEOMETRY;

    18、sdo_util.sdo_polygontoline

    将多边形转换为线串几何体

    SDO_UTIL.POLYGONTOLINE(

    geometry IN SDO_GEOMETRY

    ) RETURN SDO_GEOMETRY;

    15到18非免费

    三 sdo_lrs包

    Subprograms for Creating and Editing Geometric Segments

    1、SDO_LRS.DEFINE_GEOM_SEGMENT(过程)

    语法:

    SDO_LRS.DEFINE_GEOM_SEGMENT(

    geom_segment IN OUT SDO_GEOMETRY

    [, start_measure IN NUMBER,

    end_measure IN NUMBER]);

    or

    SDO_LRS.DEFINE_GEOM_SEGMENT(

    geom_segment IN OUT SDO_GEOMETRY,

    dim_array IN SDO_DIM_ARRAY

    [, start_measure IN NUMBER,

    end_measure IN NUMBER]);

        功能:根据起始点和终止点测量值计算出没有测量的点

    例子:

    -- Test the LRS procedures.

    DECLARE

    geom_segment SDO_GEOMETRY;

    line_string SDO_GEOMETRY;

    dim_array SDO_DIM_ARRAY;

    result_geom_1 SDO_GEOMETRY;

    result_geom_2 SDO_GEOMETRY;

    result_geom_3 SDO_GEOMETRY;

    BEGIN

    SELECT a.route_geometry into geom_segment FROM lrs_routes a

    WHERE a.route_name = 'Route1';

    SELECT m.diminfo into dim_array from

    user_sdo_geom_metadata m

    WHERE m.table_name = 'LRS_ROUTES' AND m.column_name = 'ROUTE_GEOMETRY';

    -- Define the LRS segment for Route1. This will populate any null measures.

    -- No need to specify start and end measures, because they are already defined in the geometry.

    SDO_LRS.DEFINE_GEOM_SEGMENT (geom_segment, dim_array);

    SELECT a.route_geometry INTO line_string FROM lrs_routes a

    WHERE a.route_name = 'Route1';

    -- Split Route1 into two segments.

    SDO_LRS.SPLIT_GEOM_SEGMENT(line_string,dim_array,5,result_geom_1,result_geom_2);

    -- Concatenate the segments that were just split.

    result_geom_3 := SDO_LRS.CONCATENATE_GEOM_SEGMENTS(result_geom_1, dim_array,

    result_geom_2, dim_array);

    -- Update and insert geometries into table, to display later.

    UPDATE lrs_routes a SET a.route_geometry = geom_segment

    WHERE a.route_id = 1;

    INSERT INTO lrs_routes VALUES(

    11,

    'result_geom_1',

    result_geom_1

    );

    INSERT INTO lrs_routes VALUES(

    12,

    'result_geom_2',

    result_geom_2

    );

    INSERT INTO lrs_routes VALUES(

    13,

    'result_geom_3',

    result_geom_3

    );

    END;

    2、SDO_LRS.REDEFINE_GEOM_SEGMENT(过程)

    语法:

    SDO_LRS.REDEFINE_GEOM_SEGMENT(

    geom_segment IN OUT SDO_GEOMETRY

    [, start_measure IN NUMBER,

    end_measure IN NUMBER]);

    or

    SDO_LRS.REDEFINE_GEOM_SEGMENT(

    geom_segment IN OUT SDO_GEOMETRY,

    dim_array IN SDO_DIM_ARRAY

    [, start_measure IN NUMBER,

    end_measure IN NUMBER]);

    功能:重新定义几何体(可进行单位转换)

    例子:

    -- Redefine geometric segment to "convert" miles to kilometers

    DECLARE

    geom_segment SDO_GEOMETRY;

    dim_array SDO_DIM_ARRAY;

    BEGIN

    SELECT a.route_geometry into geom_segment FROM lrs_routes a WHERE a.route_name = 'Route1';

    SELECT m.diminfo into dim_array from user_sdo_geom_metadata m WHERE m.table_name = 'LRS_ROUTES' AND m.column_name = 'ROUTE_GEOMETRY';

    -- "Convert" mile measures to kilometers (27 * 1.609 = 43.443).

    SDO_LRS.REDEFINE_GEOM_SEGMENT (geom_segment,

    dim_array,

    0, -- Zero starting measure: LRS segment starts at start of route.

    43.443); -- End of LRS segment. 27 miles = 43.443 kilometers.

    -- Update and insert geometries into table, to display later.

    UPDATE lrs_routes a SET a.route_geometry = geom_segment WHERE a.route_id = 1;

    END;

    3、SDO_LRS.CLIP_GEOM_SEGMENT

    语法:

    SDO_LRS.CLIP_GEOM_SEGMENT(

    geom_segment IN SDO_GEOMETRY,

    start_measure IN NUMBER,

    end_measure IN NUMBER,

    tolerance IN NUMBER DEFAULT 1.0e-8

    ) RETURN SDO_GEOMETRY;

    or

    SDO_LRS.CLIP_GEOM_SEGMENT(

    geom_segment IN SDO_GEOMETRY,

    dim_array IN SDO_DIM_ARRAY,

    start_measure IN NUMBER,

    end_measure IN NUMBER

    ) RETURN SDO_GEOMETRY;

    功能:截取指定的一段

    例子:

    -- Clip a piece of Route1.

    SELECT SDO_LRS.CLIP_GEOM_SEGMENT(route_geometry, 5, 10) FROM lrs_routes WHERE route_id = 1;

    4、SDO_LRS.DYNAMIC_SEGMENT

    语法:

    SDO_LRS.DYNAMIC_SEGMENT(

    geom_segment IN SDO_GEOMETRY,

    start_measure IN NUMBER,

    end_measure IN NUMBER,

    tolerance IN NUMBER DEFAULT 1.0e-8

    ) RETURN SDO_GEOMETRY;

    or

    SDO_LRS.DYNAMIC_SEGMENT(

    geom_segment IN SDO_GEOMETRY,

    dim_array IN SDO_DIM_ARRAY,

    start_measure IN NUMBER,

    end_measure IN NUMBER

    ) RETURN SDO_GEOMETRY;

    用法与SDO_LRS.CLIP_GEOM_SEGMENT一样

    5、 SDO_LRS.CONCATENATE_GEOM_SEGMENTS

    语法:

    SDO_LRS.CONCATENATE_GEOM_SEGMENTS(

    geom_segment_1 IN SDO_GEOMETRY,

    geom_segment_2 IN SDO_GEOMETRY,

    tolerance IN NUMBER DEFAULT 1.0e-8

    ) RETURN SDO_GEOMETRY;

    or

    SDO_LRS.CONCATENATE_GEOM_SEGMENTS(

    geom_segment_1 IN SDO_GEOMETRY,

    dim_array_1 IN SDO_DIM_ARRAY,

    geom_segment_2 IN SDO_GEOMETRY,

    dim_array_2 IN SDO_DIM_ARRAY

    ) RETURN SDO_GEOMETRY;

    功能:连接线串,例子见1

    6、SDO_LRS.OFFSET_GEOM_SEGMENT

    语法:

    SDO_LRS.OFFSET_GEOM_SEGMENT(

    geom_segment IN SDO_GEOMETRY,

    start_measure IN NUMBER,

    end_measure IN NUMBER,

    offset IN NUMBER,

    tolerance IN NUMBER DEFAULT 1.0e-8

    [, unit IN VARCHAR2]

    ) RETURN SDO_GEOMETRY;

    or

    SDO_LRS.OFFSET_GEOM_SEGMENT(

    geom_segment IN SDO_GEOMETRY,

    dim_array IN SDO_DIM_ARRAY,

    start_measure IN NUMBER,

    end_measure IN NUMBER,

    offset IN NUMBER

    [, unit IN VARCHAR2]

    ) RETURN SDO_GEOMETRY;

    功能:指定的线段内进行偏移

    例子:

    SELECT SDO_LRS.OFFSET_GEOM_SEGMENT(a.route_geometry, m.diminfo, 5, 10, 2)

     FROM lrs_routes a, user_sdo_geom_metadata m

     WHERE m.table_name = 'LRS_ROUTES'

       AND m.column_name = 'ROUTE_GEOMETRY'

       AND a.route_id = 1;

    7、SDO_LRS.SPLIT_GEOM_SEGMENT(过程)

    语法:

    SDO_LRS.SPLIT_GEOM_SEGMENT(

    geom_segment IN SDO_GEOMETRY,

    split_measure IN NUMBER,

    segment_1 OUT SDO_GEOMETRY,

    segment_2 OUT SDO_GEOMETRY);

    or

    SDO_LRS.SPLIT_GEOM_SEGMENT(

    geom_segment IN SDO_GEOMETRY,

    dim_array IN SDO_DIM_ARRAY,

    split_measure IN NUMBER,

    segment_1 OUT SDO_GEOMETRY,

    segment_2 OUT SDO_GEOMETRY);

    功能:将一个几何体分为两个

    例子见1

    8、SDO_LRS.RESET_MEASURE(过程)

    语法:

    SDO_LRS.RESET_MEASURE(

    geom_segment IN OUT SDO_GEOMETRY

    [, dim_array IN SDO_DIM_ARRAY]);

    功能:将起始点到终止点的测量值都清空

    例子:

    -- Reset geometric segment measures.

    DECLARE

    geom_segment SDO_GEOMETRY;

    BEGIN

    SELECT a.route_geometry into geom_segment FROM lrs_routes a

    WHERE a.route_name = 'Route1';

    SDO_LRS.RESET_MEASURE (geom_segment);

    -- Update and insert geometries into table, to display later.

    UPDATE lrs_routes a SET a.route_geometry = geom_segment

    WHERE a.route_id = 1;

    END;

    9、SDO_LRS.SET_PT_MEASURE

    语法:

    SDO_LRS.SET_PT_MEASURE(

    geom_segment IN OUT SDO_GEOMETRY,

    point IN SDO_GEOMETRY,

    measure IN NUMBER) RETURN VARCHAR2;

    or

    SDO_LRS.SET_PT_MEASURE(

    geom_segment IN OUT SDO_GEOMETRY,

    dim_array IN SDO_DIM_ARRAY,

    point IN SDO_GEOMETRY,

    pt_dim_array IN SDO_DIM_ARRAY,

    measure IN NUMBER) RETURN VARCHAR2;

    or

    SDO_LRS.SET_PT_MEASURE(

    point IN OUT SDO_GEOMETRY,

    measure IN NUMBER) RETURN VARCHAR2;

    or

    SDO_LRS.SET_PT_MEASURE(

    point IN OUT SDO_GEOMETRY,

    dim_array IN SDO_DIM_ARRAY,

    measure IN NUMBER) RETURN VARCHAR2;

    功能:将测量值设为一个特定的点

    -- Set the measure value of point 8,10 to 20 (originally 22).

    DECLARE

    geom_segment SDO_GEOMETRY;

    dim_array SDO_DIM_ARRAY;

    result VARCHAR2(32);

    BEGIN

    SELECT a.route_geometry into geom_segment FROM lrs_routes a

    WHERE a.route_name = 'Route1';

    SELECT m.diminfo into dim_array from

    user_sdo_geom_metadata m

    WHERE m.table_name = 'LRS_ROUTES' AND m.column_name = 'ROUTE_GEOMETRY';

    -- Set the measure value of point 8,10 to 20 (originally 22).

    result := SDO_LRS.SET_PT_MEASURE (geom_segment,

    SDO_GEOMETRY(3301, NULL, NULL,

                 SDO_ELEM_INFO_ARRAY(1, 1, 1),

                 SDO_ORDINATE_ARRAY(8, 10, 22)),

    20);

    -- Display the result.

    DBMS_OUTPUT.PUT_LINE('Returned value = ' || result);

    END;

    10、SDO_LRS.REVERSE_MEASURE

    11、SDO_LRS.TRANSLATE_MEASURE

    12、SDO_LRS.REVERSE_GEOMETRY

    Subprograms for Querying and Validating Geometric Segments

    13、SDO_LRS.VALID_GEOM_SEGMENT

    14、SDO_LRS.VALID_LRS_PT

    15、SDO_LRS.VALID_MEASURE  

    16、SDO_LRS.CONNECTED_GEOM_SEGMENTS

    17、SDO_LRS.GEOM_SEGMENT_LENGTH  

    18、SDO_LRS.GEOM_SEGMENT_START_PT

    19、SDO_LRS.GEOM_SEGMENT_END_PT

    20、SDO_LRS.GEOM_SEGMENT_START_MEASURE

    21、SDO_LRS.GEOM_SEGMENT_END_MEASURE

    22、SDO_LRS.GET_MEASURE  

    23、SDO_LRS.GET_NEXT_SHAPE_PT

    24、SDO_LRS.GET_NEXT_SHAPE_PT_MEASURE

    25、SDO_LRS.GET_PREV_SHAPE_PT  

    26、SDO_LRS.GET_PREV_SHAPE_PT_MEASURE

    27、SDO_LRS.IS_GEOM_SEGMENT_DEFINED

    28、SDO_LRS.IS_MEASURE_DECREASING

    29、SDO_LRS.IS_MEASURE_INCREASING

    30、SDO_LRS.IS_SHAPE_PT_MEASURE

    31、SDO_LRS.MEASURE_RANGE

    32、SDO_LRS.MEASURE_TO_PERCENTAGE

    33、SDO_LRS.PERCENTAGE_TO_MEASURE

    34、SDO_LRS.LOCATE_PT

    35、SDO_LRS.PROJECT_PT

    36、SDO_LRS.FIND_LRS_DIM_POS

    37、SDO_LRS.FIND_MEASURE

    38、SDO_LRS.FIND_OFFSET

    39、SDO_LRS.VALIDATE_LRS_GEOMETRY

    Subprograms for Converting Geometric Segments

    40、SDO_LRS.CONVERT_TO_LRS_DIM_ARRAY

    41、SDO_LRS.CONVERT_TO_LRS_GEOM

    42、SDO_LRS.CONVERT_TO_LRS_LAYER

    43、SDO_LRS.CONVERT_TO_STD_DIM_ARRAY

    44、SDO_LRS.CONVERT_TO_STD_GEOM

    45、SDO_LRS.CONVERT_TO_STD_LAYER

    四、SDO_MIGRATE包

    SDO_MIGRATE.TO_CURRENT

    Format (Any Object-Relational Model Implementation to Current)

    SDO_MIGRATE.TO_CURRENT(

    tabname IN VARCHAR2

    [, column_name IN VARCHAR2]);

    or

    SDO_MIGRATE.TO_CURRENT(

    tabname IN VARCHAR2,

    column_name IN VARCHAR2

    [, commit_int IN NUMBER]);

    Format (Single Object-Relational Model Geometry to Current)

    SDO_MIGRATE.TO_CURRENT(

    geom IN SDO_GEOMETRY,

    dim IN SDO_DIM_ARRAY

    ) RETURN SDO_GEOMETRY;

    Format (Any Relational Model Implementation to Current)

    SDO_MIGRATE.TO_CURRENT(

    layer IN VARCHAR2,

    newtabname IN VARCHAR2,

    gidcolumn IN VARCHAR2,

    geocolname IN VARCHAR2,

    layer_gtype IN VARCHAR2,

    updateflag IN VARCHAR2);

     

    EXECUTE SDO_MIGRATE.TO_CURRENT('ROADS');

    得即高歌失即休,多愁多恨亦悠悠。今朝有酒今朝醉,明日愁来明日愁
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  • 原文地址:https://www.cnblogs.com/gotoschool/p/3828980.html
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