d5/d12/cu__gserialized2_8c_source.html

/**********************************************************************

 *

 * PostGIS - Spatial Types for PostgreSQL

 * http://postgis.net

 * Copyright 2019 Paul Ramsey <pramsey@cleverelephant.ca>

 *

 * This is free software; you can redistribute and/or modify it under

 * the terms of the GNU General Public Licence. See the COPYING file.

 *

 **********************************************************************/


#include <stdio.h>

#include <stdlib.h>

#include <string.h>

#include "CUnit/Basic.h"


#include "liblwgeom_internal.h"

#include "gserialized2.c" /* for gserialized_peek_gbox_p */

#include "cu_tester.h"


static void test_g2flags_macros(void)

{

        uint8_t flags = 0;


        CU_ASSERT_EQUAL(0, G2FLAGS_GET_Z(flags));

        G2FLAGS_SET_Z(flags, 1);

        CU_ASSERT_EQUAL(1, G2FLAGS_GET_Z(flags));

        G2FLAGS_SET_Z(flags, 0);

        CU_ASSERT_EQUAL(0, G2FLAGS_GET_Z(flags));

        CU_ASSERT_EQUAL(0, G2FLAGS_GET_BBOX(flags));


        CU_ASSERT_EQUAL(0, G2FLAGS_GET_M(flags));

        G2FLAGS_SET_M(flags, 1);

        CU_ASSERT_EQUAL(1, G2FLAGS_GET_M(flags));


        CU_ASSERT_EQUAL(0, G2FLAGS_GET_BBOX(flags));

        G2FLAGS_SET_BBOX(flags, 1);

        CU_ASSERT_EQUAL(1, G2FLAGS_GET_BBOX(flags));


        CU_ASSERT_EQUAL(0, G2FLAGS_GET_GEODETIC(flags));

        G2FLAGS_SET_GEODETIC(flags, 1);

        CU_ASSERT_EQUAL(1, G2FLAGS_GET_GEODETIC(flags));


        flags = g2flags(1, 0, 1); /* z=1, m=0, geodetic=1 */


        CU_ASSERT_EQUAL(1, G2FLAGS_GET_GEODETIC(flags));

        CU_ASSERT_EQUAL(1, G2FLAGS_GET_Z(flags));

        CU_ASSERT_EQUAL(0, G2FLAGS_GET_M(flags));

        CU_ASSERT_EQUAL(2, G2FLAGS_GET_ZM(flags));


        flags = g2flags(1, 1, 1); /* z=1, m=1, geodetic=1 */


        CU_ASSERT_EQUAL(1, G2FLAGS_GET_GEODETIC(flags));

        CU_ASSERT_EQUAL(1, G2FLAGS_GET_Z(flags));

        CU_ASSERT_EQUAL(1, G2FLAGS_GET_M(flags));

        CU_ASSERT_EQUAL(3, G2FLAGS_GET_ZM(flags));


        flags = g2flags(0, 1, 0); /* z=0, m=1, geodetic=0 */


        CU_ASSERT_EQUAL(0, G2FLAGS_GET_GEODETIC(flags));

        CU_ASSERT_EQUAL(0, G2FLAGS_GET_Z(flags));

        CU_ASSERT_EQUAL(1, G2FLAGS_GET_M(flags));

        CU_ASSERT_EQUAL(1, G2FLAGS_GET_ZM(flags));


        flags = 0;

        G2FLAGS_SET_VERSION(flags, 0);

        CU_ASSERT_EQUAL(0, G2FLAGS_GET_VERSION(flags));

        G2FLAGS_SET_VERSION(flags, 1);

        CU_ASSERT_EQUAL(1, G2FLAGS_GET_VERSION(flags));

}


static void test_gserialized2_extended_flags(void)

{

        LWGEOM *lwg1, *lwg2;

        GSERIALIZED *g;

        size_t size = 0;


        /* No extended flags, so 32 bytes for a point */

        lwg1 = lwgeom_from_wkt("POINT(100 100)", LW_PARSER_CHECK_NONE);

        size = gserialized2_from_lwgeom_size(lwg1);

        CU_ASSERT_EQUAL(size, 32);


        /* Add extended flag, we now expect 8 extra bytes */

        FLAGS_SET_SOLID(lwg1->flags, 1);

        CU_ASSERT_EQUAL(1, FLAGS_GET_SOLID(lwg1->flags));

        size = gserialized2_from_lwgeom_size(lwg1);

        CU_ASSERT_EQUAL(size, 40);


        /* We expect that the extended bit will be set on the serialization */

        g = gserialized2_from_lwgeom(lwg1, &size);

        CU_ASSERT_EQUAL(1, G2FLAGS_GET_EXTENDED(g->gflags));

        /* And that the serialization in fact hits 40 bytes */

        CU_ASSERT_EQUAL(size, 40);

        lwgeom_free(lwg1);

        lwg2 = lwgeom_from_gserialized2(g);

        lwfree(g);

        /* And that when deserialized again, the solid flag is still there */

        CU_ASSERT_EQUAL(1, FLAGS_GET_SOLID(lwg2->flags));

        lwgeom_free(lwg2);


}


static void test_gserialized2_srid(void)

{

        GSERIALIZED s;

        int32_t srid, rv;


        srid = 4326;

        gserialized2_set_srid(&s, srid);

        rv = gserialized2_get_srid(&s);

        CU_ASSERT_EQUAL(rv, srid);


        srid = -3005;

        gserialized2_set_srid(&s, srid);

        rv = gserialized2_get_srid(&s);

        //printf("srid=%d rv=%d\n",srid,rv);

        CU_ASSERT_EQUAL(rv, SRID_UNKNOWN);


        srid = SRID_UNKNOWN;

        gserialized2_set_srid(&s, srid);

        rv = gserialized2_get_srid(&s);

        CU_ASSERT_EQUAL(rv, srid);


        srid = SRID_UNKNOWN;

        gserialized2_set_srid(&s, srid);

        rv = gserialized2_get_srid(&s);

        CU_ASSERT_EQUAL(rv, srid);


        srid = 100000;

        gserialized2_set_srid(&s, srid);

        rv = gserialized2_get_srid(&s);

        CU_ASSERT_EQUAL(rv, srid);

}


static void test_gserialized2_from_lwgeom_size(void)

{

        LWGEOM *g;

        size_t size = 0;


        g = lwgeom_from_wkt("POINT(0 0)", LW_PARSER_CHECK_NONE);

        size = gserialized2_from_lwgeom_size(g);

        CU_ASSERT_EQUAL( size, 32 );

        lwgeom_free(g);


        g = lwgeom_from_wkt("POINT(0 0 0)", LW_PARSER_CHECK_NONE);

        size = gserialized2_from_lwgeom_size(g);

        CU_ASSERT_EQUAL( size, 40 );

        lwgeom_free(g);


        g = lwgeom_from_wkt("MULTIPOINT(0 0 0, 1 1 1)", LW_PARSER_CHECK_NONE);

        size = gserialized2_from_lwgeom_size(g);

        CU_ASSERT_EQUAL( size, 80 );

        lwgeom_free(g);


        g = lwgeom_from_wkt("LINESTRING(0 0, 1 1)", LW_PARSER_CHECK_NONE);

        size = gserialized2_from_lwgeom_size(g);

        CU_ASSERT_EQUAL( size, 48 );

        lwgeom_free(g);


        g = lwgeom_from_wkt("MULTILINESTRING((0 0, 1 1),(0 0, 1 1))", LW_PARSER_CHECK_NONE);

        size = gserialized2_from_lwgeom_size(g);

        CU_ASSERT_EQUAL( size, 96 );

        lwgeom_free(g);


        g = lwgeom_from_wkt("POLYGON((0 0, 0 1, 1 1, 1 0, 0 0))", LW_PARSER_CHECK_NONE);

        size = gserialized2_from_lwgeom_size(g);

        CU_ASSERT_EQUAL( size, 104 );

        lwgeom_free(g);


        g = lwgeom_from_wkt("POLYGON((-1 -1, -1 2, 2 2, 2 -1, -1 -1), (0 0, 0 1, 1 1, 1 0, 0 0))", LW_PARSER_CHECK_NONE);

        size = gserialized2_from_lwgeom_size(g);

        CU_ASSERT_EQUAL( size, 184 );

        lwgeom_free(g);


}


static void test_lwgeom_from_gserialized2(void)

{

        LWGEOM *geom1, *geom2;

        GSERIALIZED *g1, *g2;

        char *in_ewkt, *out_ewkt;

        size_t i = 0;


        char *ewkt[] =

        {

                "POINT EMPTY",

                "POINT(0 0.2)",

                "LINESTRING EMPTY",

                "LINESTRING(-1 -1,-1 2.5,2 2,2 -1)",

                "MULTIPOINT EMPTY",

                "MULTIPOINT(0.9 0.9,0.9 0.9,0.9 0.9,0.9 0.9,0.9 0.9,0.9 0.9)",

                "MULTIPOINT(0.9 0.9,0.9 0.9,EMPTY,0.9 0.9,0.9 0.9,0.9 0.9)",

                "SRID=1;MULTILINESTRING EMPTY",

                "SRID=1;MULTILINESTRING((-1 -1,-1 2.5,2 2,2 -1),(-1 -1,-1 2.5,2 2,2 -1),(-1 -1,-1 2.5,2 2,2 -1),(-1 -1,-1 2.5,2 2,2 -1))",

                "POLYGON((-1 -1,-1 2.5,2 2,2 -1,-1 -1),(0 0,0 1,1 1,1 0,0 0))",

                "POLYGON EMPTY",

                "SRID=4326;POLYGON((-1 -1,-1 2.5,2 2,2 -1,-1 -1),(0 0,0 1,1 1,1 0,0 0))",

                "SRID=4326;POLYGON EMPTY",

                "SRID=4326;POLYGON((-1 -1,-1 2.5,2 2,2 -1,-1 -1),(0 0,0 1,1 1,1 0,0 0),(-0.5 -0.5,-0.5 -0.4,-0.4 -0.4,-0.4 -0.5,-0.5 -0.5))",

                "SRID=100000;POLYGON((-1 -1 3,-1 2.5 3,2 2 3,2 -1 3,-1 -1 3),(0 0 3,0 1 3,1 1 3,1 0 3,0 0 3),(-0.5 -0.5 3,-0.5 -0.4 3,-0.4 -0.4 3,-0.4 -0.5 3,-0.5 -0.5 3))",

                "SRID=4326;MULTIPOLYGON(((-1 -1,-1 2.5,2 2,2 -1,-1 -1),(0 0,0 1,1 1,1 0,0 0),(-0.5 -0.5,-0.5 -0.4,-0.4 -0.4,-0.4 -0.5,-0.5 -0.5)),((-1 -1,-1 2.5,2 2,2 -1,-1 -1),(0 0,0 1,1 1,1 0,0 0),(-0.5 -0.5,-0.5 -0.4,-0.4 -0.4,-0.4 -0.5,-0.5 -0.5)))",

                "SRID=4326;MULTIPOLYGON EMPTY",

                "SRID=4326;GEOMETRYCOLLECTION(POINT(0 1),POLYGON((-1 -1,-1 2.5,2 2,2 -1,-1 -1),(0 0,0 1,1 1,1 0,0 0)),MULTIPOLYGON(((-1 -1,-1 2.5,2 2,2 -1,-1 -1),(0 0,0 1,1 1,1 0,0 0),(-0.5 -0.5,-0.5 -0.4,-0.4 -0.4,-0.4 -0.5,-0.5 -0.5))))",

                "SRID=4326;GEOMETRYCOLLECTION EMPTY",

                "SRID=4326;GEOMETRYCOLLECTION(POINT EMPTY,MULTIPOLYGON EMPTY)",

                "SRID=4326;GEOMETRYCOLLECTION(POINT(0 0.2),POINT EMPTY,POINT(0 0.2))",

                "MULTICURVE((5 5 1 3,3 5 2 2,3 3 3 1,0 3 1 1),CIRCULARSTRING(0 0 0 0,0.26794 1 3 -2,0.5857864 1.414213 1 2))",

                "MULTISURFACE(CURVEPOLYGON(CIRCULARSTRING(-2 0,-1 -1,0 0,1 -1,2 0,0 2,-2 0),(-1 0,0 0.5,1 0,0 1,-1 0)),((7 8,10 10,6 14,4 11,7 8)))",

                "MULTISURFACE(CURVEPOLYGON(CIRCULARSTRING EMPTY))",

                "POLYHEDRALSURFACE(((0 0 0,0 1 0,1 1 0,1 0 0,0 0 0)),((0 0 1,1 0 1,1 1 1,0 1 1,0 0 1)),((0 0 0,0 0 1,0 1 1,0 1 0,0 0 0)),((1 0 0,1 1 0,1 1 1,1 0 1,1 0 0)),((0 0 0,1 0 0,1 0 1,0 0 1,0 0 0)),((0 1 0,0 1 1,1 1 1,1 1 0,0 1 0)))",

        };


        for ( i = 0; i < (sizeof ewkt/sizeof(char*)); i++ )

        {

                size_t size1, size2;


                in_ewkt = ewkt[i];

                geom1 = lwgeom_from_wkt(in_ewkt, LW_PARSER_CHECK_NONE);

                lwgeom_add_bbox(geom1);

                if (geom1->bbox) gbox_float_round(geom1->bbox);

                size1 = gserialized2_from_lwgeom_size(geom1);

                g1 = gserialized2_from_lwgeom(geom1, &size2);

                CU_ASSERT_EQUAL(size1, size2);


                geom2 = lwgeom_from_gserialized2(g1);

                out_ewkt = lwgeom_to_ewkt(geom2);


                /* printf("\n in = %s\nout = %s\n", in_ewkt, out_ewkt); */

                ASSERT_STRING_EQUAL(in_ewkt, out_ewkt);

                g2 = gserialized2_from_lwgeom(geom2, &size2);

                CU_ASSERT_EQUAL(g1->gflags, g2->gflags);


                /* either both or none of the bboxes are null */

                CU_ASSERT(geom1->bbox != NULL || geom2->bbox == NULL);


                /* either both are null or they are the same */

                CU_ASSERT(geom1->bbox == NULL || gbox_same(geom1->bbox, geom2->bbox));


                lwfree(out_ewkt);

                lwfree(g1);

                lwfree(g2);

                lwgeom_free(geom1);

                lwgeom_free(geom2);


                /* SOLID / BOX INTERACTION */

                geom1 = lwgeom_from_wkt(in_ewkt, LW_PARSER_CHECK_NONE);

                lwgeom_add_bbox(geom1);

                FLAGS_SET_SOLID(geom1->flags, 1);

                size1 = gserialized2_from_lwgeom_size(geom1);

                g1 = gserialized2_from_lwgeom(geom1, &size2);

                CU_ASSERT_EQUAL(size1, size2);

                CU_ASSERT_EQUAL(LWSIZE_GET(g1->size), size2);

                geom2 = lwgeom_from_gserialized2(g1);

                CU_ASSERT_EQUAL(geom1->flags, geom2->flags);

                g2 = gserialized2_from_lwgeom(geom2, &size2);

                CU_ASSERT_EQUAL(LWSIZE_GET(g2->size), size2);

                CU_ASSERT_EQUAL(g1->gflags, g2->gflags);

                CU_ASSERT_EQUAL(FLAGS_GET_SOLID(geom2->flags), 1);

                lwfree(g1);

                lwfree(g2);

                lwgeom_free(geom1);

                lwgeom_free(geom2);

        }


}


static void test_gserialized2_is_empty(void)

{

        int i = 0;

        struct gserialized_empty_cases {

                const char* wkt;

                int isempty;

        };


        struct gserialized_empty_cases cases[] = {

                { "POINT EMPTY", 1 },

                { "POINT(1 1)", 0 },

                { "LINESTRING EMPTY", 1 },

                { "MULTILINESTRING EMPTY", 1 },

                { "MULTILINESTRING(EMPTY)", 1 },

                { "MULTILINESTRING(EMPTY,EMPTY)", 1 },

                { "MULTILINESTRING(EMPTY,(0 0,1 1))", 0 },

                { "MULTILINESTRING((0 0,1 1),EMPTY)", 0 },

                { "MULTILINESTRING(EMPTY,(0 0,1 1),EMPTY)", 0 },

                { "MULTILINESTRING(EMPTY,EMPTY,EMPTY)", 1 },

                { "GEOMETRYCOLLECTION(POINT EMPTY,MULTILINESTRING(EMPTY,EMPTY,EMPTY))", 1 },

                { "GEOMETRYCOLLECTION(POINT EMPTY,MULTILINESTRING(EMPTY),POINT(1 1))", 0 },

                { "GEOMETRYCOLLECTION(POINT EMPTY,MULTILINESTRING(EMPTY, (0 0)),POINT EMPTY)", 0 },

                { "GEOMETRYCOLLECTION(POLYGON EMPTY,POINT EMPTY,MULTILINESTRING(EMPTY,EMPTY),POINT EMPTY)", 1 },

                { "GEOMETRYCOLLECTION(POLYGON EMPTY,GEOMETRYCOLLECTION(POINT EMPTY),MULTILINESTRING(EMPTY,EMPTY),POINT EMPTY)", 1 },

                { NULL, 0 }

        };


        while( cases[i].wkt )

        {

                // i = 11;

                LWGEOM *lw = lwgeom_from_wkt(cases[i].wkt, LW_PARSER_CHECK_NONE);

                GSERIALIZED *g = gserialized2_from_lwgeom(lw, 0);

                int ie = gserialized2_is_empty(g);

                // printf("%s: we say %d, they say %d\n", cases[i].wkt, cases[i].isempty, ie);

                CU_ASSERT_EQUAL(ie, cases[i].isempty);

                lwgeom_free(lw);

                lwfree(g);

                i++;

        }

}


static void test_on_gser2_lwgeom_count_vertices(void)

{

        LWGEOM *lwgeom;

        GSERIALIZED *g_ser1;

        size_t ret_size;


        lwgeom = lwgeom_from_wkt("MULTIPOINT(-1 -1,-1 2.5,2 2,2 -1,1 1,2 2,4 5)", LW_PARSER_CHECK_NONE);

        CU_ASSERT_EQUAL(lwgeom_count_vertices(lwgeom),7);

        g_ser1 = gserialized2_from_lwgeom(lwgeom, &ret_size);

        lwgeom_free(lwgeom);


        lwgeom = lwgeom_from_gserialized2(g_ser1);

        CU_ASSERT_EQUAL(lwgeom_count_vertices(lwgeom),7);

        lwgeom_free(lwgeom);


        lwgeom = lwgeom_from_gserialized2(g_ser1);


        CU_ASSERT_EQUAL(lwgeom_count_vertices(lwgeom),7);

        lwgeom_free(lwgeom);


        lwfree(g_ser1);


}


static void test_gserialized2_peek_gbox_p_no_box_when_empty(void)

{

        uint32_t i;


        char *ewkt[] =

        {

                "POINT EMPTY",

                "LINESTRING EMPTY",

                "MULTIPOINT EMPTY",

                "MULTIPOINT (EMPTY)",

                "MULTILINESTRING EMPTY",

                "MULTILINESTRING (EMPTY)"

        };


        for ( i = 0; i < (sizeof ewkt/sizeof(char*)); i++ )

        {

                LWGEOM* geom = lwgeom_from_wkt(ewkt[i], LW_PARSER_CHECK_NONE);

                GBOX box;

                gbox_init(&box);


                GSERIALIZED* gser = gserialized2_from_lwgeom(geom, NULL);


                CU_ASSERT_FALSE(gserialized2_has_bbox(gser));


                CU_ASSERT_EQUAL(LW_FAILURE, gserialized2_peek_gbox_p(gser, &box));


                lwgeom_free(geom);

                lwfree(gser);

        }

}


static void test_gserialized2_peek_gbox_p_gets_correct_box(void)

{

        uint32_t i;


        char *ewkt[] =

        {

                "POINT (2.2945672355 48.85822923236)",

                "POINTZ (2.2945672355 48.85822923236 15)",

                "POINTM (2.2945672355 48.85822923236 12)",

                "POINT ZM (2.2945672355 48.85822923236 12 2)",

                "MULTIPOINT ((-76.45402132523 44.225406213532))",

                "MULTIPOINT Z ((-76.45402132523 44.225406213532 112))",

                "MULTIPOINT ZM ((-76.45402132523 44.225406213532 112 44))",

                "LINESTRING (2.2945672355 48.85822923236, -76.45402132523 44.225406213532)",

                "LINESTRING Z (2.2945672355 48.85822923236 6, -76.45402132523 44.225406213532 8)",

                "LINESTRING ZM (2.2945672355 48.85822923236 3 2, -76.45402132523 44.225406213532 9 4)",

                "MULTILINESTRING ((2.2945672355 48.85822923236, -76.45402132523 44.225406213532))",

                "MULTILINESTRING Z ((2.2945672355 48.85822923236 4, -76.45402132523 44.225406213532 3))"

        };


        for ( i = 0; i < (sizeof ewkt/sizeof(char*)); i++ )

        {

                LWGEOM* geom = lwgeom_from_wkt(ewkt[i], LW_PARSER_CHECK_NONE);

                GBOX box_from_peek;

                GBOX box_from_lwgeom;

                gbox_init(&box_from_peek);

                gbox_init(&box_from_lwgeom);


                GSERIALIZED* gser = gserialized2_from_lwgeom(geom, NULL);


                CU_ASSERT_FALSE(gserialized2_has_bbox(gser));


                lwgeom_calculate_gbox(geom, &box_from_lwgeom);

                gserialized2_peek_gbox_p(gser, &box_from_peek);


                gbox_float_round(&box_from_lwgeom);


                CU_ASSERT_TRUE(gbox_same(&box_from_peek, &box_from_lwgeom));


                lwgeom_free(geom);

                lwfree(gser);

        }

}


static void test_gserialized2_peek_gbox_p_fails_for_unsupported_cases(void)

{

        uint32_t i;


        char *ewkt[] =

        {

                "MULTIPOINT ((-76.45402132523 44.225406213532), (-72 33))",

                "LINESTRING (2.2945672355 48.85822923236, -76.45402132523 44.225406213532, -72 33)",

                "MULTILINESTRING ((2.2945672355 48.85822923236, -76.45402132523 44.225406213532, -72 33))",

                "MULTILINESTRING ((2.2945672355 48.85822923236, -76.45402132523 44.225406213532), (-72 33, -71 32))"

        };


        for ( i = 0; i < (sizeof ewkt/sizeof(char*)); i++ )

        {

                LWGEOM* geom = lwgeom_from_wkt(ewkt[i], LW_PARSER_CHECK_NONE);

                GBOX box;

                gbox_init(&box);

                lwgeom_drop_bbox(geom);


                /* Construct a GSERIALIZED* that doesn't have a box, so that we can test the

                 * actual logic of the peek function */

                size_t expected_size = gserialized2_from_lwgeom_size(geom);

                GSERIALIZED* gser = lwalloc(expected_size);

                uint8_t* ptr = (uint8_t*) gser;


                ptr += 8; // Skip header

                gserialized2_from_lwgeom_any(geom, ptr);

                gser->gflags = lwflags_get_g2flags(geom->flags);


                CU_ASSERT_FALSE(gserialized2_has_bbox(gser));

                CU_ASSERT_EQUAL(LW_FAILURE, gserialized2_peek_gbox_p(gser, &box));


                lwgeom_free(geom);

                lwfree(gser);

        }

}


static int


peek2_point_helper(char *geometry, POINT4D *p)

{

        cu_error_msg_reset();

        p->x = p->y = p->z = p->m = 0;

        LWGEOM *geom = lwgeom_from_wkt(geometry, LW_PARSER_CHECK_NONE);

        CU_ASSERT(geom != NULL);

        GSERIALIZED *g = gserialized2_from_lwgeom(geom, NULL);

        CU_ASSERT(g != NULL);


        int ret = gserialized2_peek_first_point(g, p);

        lwfree(g);

        lwgeom_free(geom);


        return ret;

}


static void


test_gserialized2_peek_first_point(void)

{

        POINT4D p = {0};


        CU_ASSERT(peek2_point_helper("POINT(1 2)", &p) == LW_SUCCESS);

        CU_ASSERT_EQUAL(p.x, 1);

        CU_ASSERT_EQUAL(p.y, 2);


        CU_ASSERT(peek2_point_helper("POINTZ(10 20 30)", &p) == LW_SUCCESS);

        CU_ASSERT_EQUAL(p.x, 10);

        CU_ASSERT_EQUAL(p.y, 20);

        CU_ASSERT_EQUAL(p.z, 30);


        CU_ASSERT(peek2_point_helper("POINTM(100 200 300)", &p) == LW_SUCCESS);

        CU_ASSERT_EQUAL(p.x, 100);

        CU_ASSERT_EQUAL(p.y, 200);

        CU_ASSERT_EQUAL(p.m, 300);


        CU_ASSERT(peek2_point_helper("POINTZM(1000 2000 3000 4000)", &p) == LW_SUCCESS);

        CU_ASSERT_EQUAL(p.x, 1000);

        CU_ASSERT_EQUAL(p.y, 2000);

        CU_ASSERT_EQUAL(p.z, 3000);

        CU_ASSERT_EQUAL(p.m, 4000);


        CU_ASSERT(peek2_point_helper("MULTIPOINT((0 0), (1 1))", &p) == LW_FAILURE);

        CU_ASSERT(peek2_point_helper("LINESTRING(0 0, 1 1)", &p) == LW_FAILURE);

        CU_ASSERT(peek2_point_helper("MULTILINESTRING((0 0, 1 1), (0 0, 1 1))", &p) == LW_FAILURE);

        CU_ASSERT(peek2_point_helper("POLYGON((0 0, 1 1, 1 0, 0 0))", &p) == LW_FAILURE);

}


/*

** Used by test harness to register the tests in this file.

*/

void gserialized2_suite_setup(void);


void gserialized2_suite_setup(void)

{

        CU_pSuite suite = CU_add_suite("serialization/deserialization v2", NULL, NULL);

        PG_ADD_TEST(suite, test_g2flags_macros);

        PG_ADD_TEST(suite, test_gserialized2_srid);

        PG_ADD_TEST(suite, test_gserialized2_from_lwgeom_size);

        PG_ADD_TEST(suite, test_lwgeom_from_gserialized2);

        PG_ADD_TEST(suite, test_on_gser2_lwgeom_count_vertices);

        PG_ADD_TEST(suite, test_gserialized2_is_empty);

        PG_ADD_TEST(suite, test_gserialized2_peek_gbox_p_no_box_when_empty);

        PG_ADD_TEST(suite, test_gserialized2_peek_gbox_p_gets_correct_box);

        PG_ADD_TEST(suite, test_gserialized2_peek_gbox_p_fails_for_unsupported_cases);

        PG_ADD_TEST(suite, test_gserialized2_extended_flags);

        PG_ADD_TEST(suite, test_gserialized2_peek_first_point);

}


test_gserialized2_peek_gbox_p_fails_for_unsupported_cases
static void test_gserialized2_peek_gbox_p_fails_for_unsupported_cases(void)
Definition cu_gserialized2.c:413

test_gserialized2_from_lwgeom_size
static void test_gserialized2_from_lwgeom_size(void)
Definition cu_gserialized2.c:136

test_gserialized2_peek_first_point
static void test_gserialized2_peek_first_point(void)
Definition cu_gserialized2.c:468

gserialized2_suite_setup
void gserialized2_suite_setup(void)
Definition cu_gserialized2.c:502

test_gserialized2_peek_gbox_p_gets_correct_box
static void test_gserialized2_peek_gbox_p_gets_correct_box(void)
Definition cu_gserialized2.c:369

test_gserialized2_is_empty
static void test_gserialized2_is_empty(void)
Definition cu_gserialized2.c:270

peek2_point_helper
static int peek2_point_helper(char *geometry, POINT4D *p)
Definition cu_gserialized2.c:451

test_g2flags_macros
static void test_g2flags_macros(void)
Definition cu_gserialized2.c:22

test_lwgeom_from_gserialized2
static void test_lwgeom_from_gserialized2(void)
Definition cu_gserialized2.c:179

test_gserialized2_peek_gbox_p_no_box_when_empty
static void test_gserialized2_peek_gbox_p_no_box_when_empty(void)
Definition cu_gserialized2.c:338

test_gserialized2_extended_flags
static void test_gserialized2_extended_flags(void)
Definition cu_gserialized2.c:73

test_gserialized2_srid
static void test_gserialized2_srid(void)
Definition cu_gserialized2.c:104

test_on_gser2_lwgeom_count_vertices
static void test_on_gser2_lwgeom_count_vertices(void)
Definition cu_gserialized2.c:313

s
char * s
Definition cu_in_wkt.c:23

gbox_same
int gbox_same(const GBOX *g1, const GBOX *g2)
Check if 2 given Gbox are the same.
Definition gbox.c:164

gbox_float_round
void gbox_float_round(GBOX *gbox)
Round given GBOX to float boundaries.
Definition gbox.c:786

gbox_init
void gbox_init(GBOX *gbox)
Zero out all the entries in the GBOX.
Definition gbox.c:40

lwgeom_from_gserialized2
LWGEOM * lwgeom_from_gserialized2(const GSERIALIZED *g)
Allocate a new LWGEOM from a GSERIALIZED.
Definition gserialized2.c:1498

gserialized2_get_srid
int32_t gserialized2_get_srid(const GSERIALIZED *g)
Extract the SRID from the serialized form (it is packed into three bytes so this is a handy function)...
Definition gserialized2.c:191

gserialized2_set_srid
void gserialized2_set_srid(GSERIALIZED *g, int32_t srid)
Write the SRID into the serialized form (it is packed into three bytes so this is a handy function).
Definition gserialized2.c:208

gserialized2_is_empty
int gserialized2_is_empty(const GSERIALIZED *g)
Check if a GSERIALIZED is empty without deserializing first.
Definition gserialized2.c:252

gserialized2_peek_first_point
int gserialized2_peek_first_point(const GSERIALIZED *g, POINT4D *out_point)
Definition gserialized2.c:550

gserialized2_from_lwgeom
GSERIALIZED * gserialized2_from_lwgeom(LWGEOM *geom, size_t *size)
Allocate a new GSERIALIZED from an LWGEOM.
Definition gserialized2.c:1147

gserialized2_peek_gbox_p
int gserialized2_peek_gbox_p(const GSERIALIZED *g, GBOX *gbox)
Definition gserialized2.c:362

lwflags_get_g2flags
uint8_t lwflags_get_g2flags(lwflags_t lwflags)
Definition gserialized2.c:118

gserialized2_from_lwgeom_any
static size_t gserialized2_from_lwgeom_any(const LWGEOM *geom, uint8_t *buf)
Definition gserialized2.c:1042

gserialized2_from_lwgeom_size
size_t gserialized2_from_lwgeom_size(const LWGEOM *geom)
Return the memory size a GSERIALIZED will occupy for a given LWGEOM.
Definition gserialized2.c:777

g2flags
uint8_t g2flags(int has_z, int has_m, int is_geodetic)
Definition gserialized2.c:136

gserialized2_has_bbox
int gserialized2_has_bbox(const GSERIALIZED *g)
Check if a GSERIALIZED has a bounding box without deserializing first.
Definition gserialized2.c:148

gserialized2.c

G2FLAGS_SET_Z
#define G2FLAGS_SET_Z(gflags, value)
Definition gserialized2.h:29

G2FLAGS_SET_VERSION
#define G2FLAGS_SET_VERSION(gflags, value)
Definition gserialized2.h:34

G2FLAGS_GET_ZM
#define G2FLAGS_GET_ZM(gflags)
Definition gserialized2.h:37

G2FLAGS_GET_BBOX
#define G2FLAGS_GET_BBOX(gflags)
Definition gserialized2.h:24

G2FLAGS_GET_VERSION
#define G2FLAGS_GET_VERSION(gflags)
Definition gserialized2.h:21

G2FLAGS_SET_M
#define G2FLAGS_SET_M(gflags, value)
Definition gserialized2.h:30

G2FLAGS_GET_GEODETIC
#define G2FLAGS_GET_GEODETIC(gflags)
Definition gserialized2.h:25

G2FLAGS_GET_Z
#define G2FLAGS_GET_Z(gflags)
Definition gserialized2.h:22

G2FLAGS_GET_EXTENDED
#define G2FLAGS_GET_EXTENDED(gflags)
Definition gserialized2.h:26

G2FLAGS_SET_GEODETIC
#define G2FLAGS_SET_GEODETIC(gflags, value)
Definition gserialized2.h:32

G2FLAGS_GET_M
#define G2FLAGS_GET_M(gflags)
Definition gserialized2.h:23

G2FLAGS_SET_BBOX
#define G2FLAGS_SET_BBOX(gflags, value)
Definition gserialized2.h:31

cu_error_msg_reset
void cu_error_msg_reset()
Definition liblwgeom/cunit/cu_tester.c:307

PG_ADD_TEST
#define PG_ADD_TEST(suite, testfunc)
Definition liblwgeom/cunit/cu_tester.h:21

ASSERT_STRING_EQUAL
#define ASSERT_STRING_EQUAL(o, e)
Definition liblwgeom/cunit/cu_tester.h:94

LW_FAILURE
#define LW_FAILURE
Definition liblwgeom.h:96

lwgeom_free
void lwgeom_free(LWGEOM *geom)
Definition lwgeom.c:1246

LW_PARSER_CHECK_NONE
#define LW_PARSER_CHECK_NONE
Definition liblwgeom.h:2149

LWSIZE_GET
#define LWSIZE_GET(varsize)
Macro for reading the size from the GSERIALIZED size attribute.
Definition liblwgeom.h:324

LW_SUCCESS
#define LW_SUCCESS
Definition liblwgeom.h:97

lwgeom_to_ewkt
char * lwgeom_to_ewkt(const LWGEOM *lwgeom)
Return an allocated string.
Definition lwgeom.c:593

lwgeom_drop_bbox
void lwgeom_drop_bbox(LWGEOM *lwgeom)
Call this function to drop BBOX and SRID from LWGEOM.
Definition lwgeom.c:710

lwalloc
void * lwalloc(size_t size)
Definition lwutil.c:227

lwgeom_count_vertices
uint32_t lwgeom_count_vertices(const LWGEOM *geom)
Count the total number of vertices in any LWGEOM.
Definition lwgeom.c:1337

lwfree
void lwfree(void *mem)
Definition lwutil.c:248

FLAGS_GET_SOLID
#define FLAGS_GET_SOLID(flags)
Definition liblwgeom.h:170

lwgeom_calculate_gbox
int lwgeom_calculate_gbox(const LWGEOM *lwgeom, GBOX *gbox)
Calculate bounding box of a geometry, automatically taking into account whether it is cartesian or ge...
Definition lwgeom.c:783

SRID_UNKNOWN
#define SRID_UNKNOWN
Unknown SRID value.
Definition liblwgeom.h:215

lwgeom_from_wkt
LWGEOM * lwgeom_from_wkt(const char *wkt, const char check)
Definition lwin_wkt.c:940

FLAGS_SET_SOLID
#define FLAGS_SET_SOLID(flags, value)
Definition liblwgeom.h:177

lwgeom_add_bbox
void lwgeom_add_bbox(LWGEOM *lwgeom)
Compute a bbox if not already computed.
Definition lwgeom.c:723

liblwgeom_internal.h

cu_tester.h

GBOX
Definition liblwgeom.h:352

GSERIALIZED::size
uint32_t size
Definition liblwgeom.h:444

GSERIALIZED::gflags
uint8_t gflags
Definition liblwgeom.h:446

GSERIALIZED
Definition liblwgeom.h:443

LWGEOM::bbox
GBOX * bbox
Definition liblwgeom.h:458

LWGEOM::flags
lwflags_t flags
Definition liblwgeom.h:461

LWGEOM
Definition liblwgeom.h:457

POINT4D::m
double m
Definition liblwgeom.h:414

POINT4D::x
double x
Definition liblwgeom.h:414

POINT4D::z
double z
Definition liblwgeom.h:414

POINT4D::y
double y
Definition liblwgeom.h:414

POINT4D
Definition liblwgeom.h:413