pointcloud/lib/cunit/cu_pc_point.c

/***********************************************************************
 * cu_pc_schema.c
 *
 *        Testing for the schema API functions
 *
 * Portions Copyright (c) 2012, OpenGeo
 *
 ***********************************************************************/

#include "CUnit/Basic.h"
#include "cu_tester.h"

/* GLOBALS ************************************************************/

static PCSCHEMA *schema = NULL;
static PCSCHEMA *schema_xy = NULL;
static PCSCHEMA *schema_xyz = NULL;
static PCSCHEMA *schema_xym = NULL;
static PCSCHEMA *schema_xyzm = NULL;
static const char *xmlfile = "data/simple-schema.xml";
static const char *xmlfile_xy = "data/simple-schema-xy.xml";
static const char *xmlfile_xyz = "data/simple-schema-xyz.xml";
static const char *xmlfile_xym = "data/simple-schema-xym.xml";
static const char *xmlfile_xyzm = "data/simple-schema-xyzm.xml";

// SIMPLE SCHEMA
// int32_t x
// int32_t y
// int32_t z
// int16_t intensity

/* Setup/teardown for this suite */
static int init_suite(void)
{
  char *xmlstr;

  xmlstr = file_to_str(xmlfile);
  schema = pc_schema_from_xml(xmlstr);
  pcfree(xmlstr);
  if (!schema)
    return 1;

  xmlstr = file_to_str(xmlfile_xy);
  schema_xy = pc_schema_from_xml(xmlstr);
  pcfree(xmlstr);
  if (!schema_xy)
    return 1;

  xmlstr = file_to_str(xmlfile_xyz);
  schema_xyz = pc_schema_from_xml(xmlstr);
  pcfree(xmlstr);
  if (!schema_xyz)
    return 1;

  xmlstr = file_to_str(xmlfile_xym);
  schema_xym = pc_schema_from_xml(xmlstr);
  pcfree(xmlstr);
  if (!schema_xym)
    return 1;

  xmlstr = file_to_str(xmlfile_xyzm);
  schema_xyzm = pc_schema_from_xml(xmlstr);
  pcfree(xmlstr);
  if (!schema_xyzm)
    return 1;
  return 0;
}

static int clean_suite(void)
{
  pc_schema_free(schema);
  pc_schema_free(schema_xy);
  pc_schema_free(schema_xyz);
  pc_schema_free(schema_xym);
  pc_schema_free(schema_xyzm);
  return 0;
}

/* TESTS **************************************************************/

static void test_point_hex_inout()
{
  // byte:     endianness (1 = NDR, 0 = XDR)
  // uint32:   pcid (key to POINTCLOUD_SCHEMAS)
  // uchar[]:  pointdata (interpret relative to pcid)

  double d;
  char *hexbuf = "00000000010000000100000002000000030004";
  size_t hexsize = strlen(hexbuf);
  uint8_t *wkb = pc_bytes_from_hexbytes(hexbuf, hexsize);
  PCPOINT *pt = pc_point_from_wkb(schema, wkb, hexsize / 2);
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "X", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, 0.01, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Y", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, 0.02, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Z", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, 0.03, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Intensity", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, 4, 0.0001);
  CU_ASSERT_FAILURE(pc_point_get_double_by_name(pt, "M", &d));
  pc_point_free(pt);
  pcfree(wkb);

  hexbuf = "01010000000100000002000000030000000500";
  hexsize = strlen(hexbuf);
  wkb = pc_bytes_from_hexbytes(hexbuf, hexsize);
  pt = pc_point_from_wkb(schema, wkb, hexsize / 2);
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "X", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, 0.01, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Y", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, 0.02, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Z", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, 0.03, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Intensity", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, 5, 0.0001);
  CU_ASSERT_FAILURE(pc_point_get_double_by_name(pt, "M", &d));
  pc_point_free(pt);
  pcfree(wkb);
}

static void test_point_access()
{
  PCPOINT *pt;
  double a1, a2, a3, a4, b1, b2, b3, b4;
  int idx = 0;
  double *allvals;

  pt = pc_point_make(schema);
  CU_ASSERT_PTR_NOT_NULL(pt);

  /* One at a time */
  idx = 0;
  a1 = 1.5;
  CU_ASSERT_SUCCESS(pc_point_set_double_by_index(pt, idx, a1));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_index(pt, idx, &b1));
  // printf("d1=%g, d2=%g\n", a1, b1);
  CU_ASSERT_DOUBLE_EQUAL(a1, b1, 0.0000001);

  idx = 2;
  a2 = 1501500.12;
  CU_ASSERT_SUCCESS(pc_point_set_double_by_index(pt, idx, a2));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_index(pt, idx, &b2));
  CU_ASSERT_DOUBLE_EQUAL(a2, b2, 0.0000001);

  a3 = 91;
  CU_ASSERT_SUCCESS(pc_point_set_double_by_name(pt, "Intensity", a3));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Intensity", &b3));
  CU_ASSERT_DOUBLE_EQUAL(a3, b3, 0.0000001);

  pc_point_free(pt);

  /* All at once */
  pt = pc_point_make(schema);
  a1 = 1.5;
  a2 = 1501500.12;
  a3 = 91;
  a4 = 200;
  CU_ASSERT_SUCCESS(pc_point_set_double_by_index(pt, 0, a1));
  CU_ASSERT_SUCCESS(pc_point_set_double_by_index(pt, 1, a2));
  CU_ASSERT_SUCCESS(pc_point_set_double_by_name(pt, "Intensity", a3));
  CU_ASSERT_SUCCESS(pc_point_set_double_by_name(pt, "Z", a4));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_index(pt, 0, &b1));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_index(pt, 1, &b2));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Intensity", &b3));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Z", &b4));
  CU_ASSERT_DOUBLE_EQUAL(a1, b1, 0.0000001);
  CU_ASSERT_DOUBLE_EQUAL(a2, b2, 0.0000001);
  CU_ASSERT_DOUBLE_EQUAL(a3, b3, 0.0000001);
  CU_ASSERT_DOUBLE_EQUAL(a4, b4, 0.0000001);

  /* as a double array */
  pc_point_set_double_by_index(pt, 0, a1);
  pc_point_set_double_by_index(pt, 1, a2);
  pc_point_set_double_by_index(pt, 2, a3);
  pc_point_set_double_by_index(pt, 3, a4);
  allvals = pc_point_to_double_array(pt);
  CU_ASSERT_DOUBLE_EQUAL(allvals[0], a1, 0.0000001);
  CU_ASSERT_DOUBLE_EQUAL(allvals[1], a2, 0.0000001);
  // printf("allvals[2]:%g\n", allvals[2]);
  CU_ASSERT_DOUBLE_EQUAL(allvals[2], a3, 0.0000001);
  // printf("allvals[3]:%g\n", allvals[3]);
  CU_ASSERT_DOUBLE_EQUAL(allvals[3], a4, 0.0000001);
  pcfree(allvals);

  pc_point_free(pt);
}

static void test_point_xyzm()
{
  PCPOINT *pt;
  double x = 1;
  double y = 40;
  double z = 160;
  double m = 640;
  double d;

  pt = pc_point_make(schema_xyz);
  CU_ASSERT_PTR_NOT_NULL(pt);

  CU_ASSERT_SUCCESS(pc_point_set_x(pt, x));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "X", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, x, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_x(pt, &d));
  CU_ASSERT_DOUBLE_EQUAL(d, x, 0.000001);

  CU_ASSERT_SUCCESS(pc_point_set_y(pt, y));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Y", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, y, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_y(pt, &d));
  CU_ASSERT_DOUBLE_EQUAL(d, y, 0.000001);

  CU_ASSERT_SUCCESS(pc_point_set_z(pt, z));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Z", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, z, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_z(pt, &d));
  CU_ASSERT_DOUBLE_EQUAL(d, z, 0.000001);

  CU_ASSERT_FAILURE(pc_point_set_m(pt, m));
  CU_ASSERT_FAILURE(pc_point_get_double_by_name(pt, "M", &d));
  CU_ASSERT_FAILURE(pc_point_get_m(pt, &d));

  pc_point_free(pt);

  pt = pc_point_make(schema_xyzm);
  CU_ASSERT_PTR_NOT_NULL(pt);

  CU_ASSERT_SUCCESS(pc_point_set_x(pt, x));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "X", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, x, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_x(pt, &d));
  CU_ASSERT_DOUBLE_EQUAL(d, x, 0.000001);

  CU_ASSERT_SUCCESS(pc_point_set_y(pt, y));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Y", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, y, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_y(pt, &d));
  CU_ASSERT_DOUBLE_EQUAL(d, y, 0.000001);

  CU_ASSERT_SUCCESS(pc_point_set_z(pt, z));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "Z", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, z, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_z(pt, &d));
  CU_ASSERT_DOUBLE_EQUAL(d, z, 0.000001);

  CU_ASSERT_SUCCESS(pc_point_set_m(pt, m));
  CU_ASSERT_SUCCESS(pc_point_get_double_by_name(pt, "M", &d));
  CU_ASSERT_DOUBLE_EQUAL(d, m, 0.000001);
  CU_ASSERT_SUCCESS(pc_point_get_m(pt, &d));
  CU_ASSERT_DOUBLE_EQUAL(d, m, 0.000001);

  pc_point_free(pt);
}

void test_point_geometry_bytes(const PCSCHEMA *s, size_t expectedgeomwkbsize,
                               const char *pthexbytes,
                               const char *expectedgeomhexbytes)
{
  /* point
  byte:     endianness (1 = NDR, 0 = XDR)
  uint32:   pcid (key to POINTCLOUD_SCHEMAS)
  uchar[]:  data (interpret relative to pcid)
  */

  /* geometry
  byte:     endianness (1 = NDR, 0 = XDR)
  uint32:   point type (XYZ=01000080, XYM=01000040, XY=01000000,
  XYZM=010000C0) double[]: XY(Z?)(M?) coordinates
  */

  PCPOINT *pt;
  uint8_t *ptwkb, *geomwkb;
  char *geomhexbytes;
  size_t pthexsize, geomwkbsize;

  pthexsize = strlen(pthexbytes);
  ptwkb = pc_bytes_from_hexbytes(pthexbytes, pthexsize);
  pt = pc_point_from_wkb(s, ptwkb, pthexsize / 2);
  CU_ASSERT_PTR_NOT_NULL(pt);
  geomwkb = pc_point_to_geometry_wkb(pt, &geomwkbsize);
  CU_ASSERT_EQUAL(geomwkbsize, expectedgeomwkbsize);
  geomhexbytes = pc_hexbytes_from_bytes(geomwkb, geomwkbsize);
  CU_ASSERT_STRING_EQUAL(geomhexbytes, expectedgeomhexbytes);

  pcfree(geomhexbytes);
  pcfree(geomwkb);
  pc_point_free(pt);
  pcfree(ptwkb);
}

static void test_point_geometry()
{
  // pt XYI = 1 2 3, scale = 1 2 1, geom XY = 1 4
  test_point_geometry_bytes(schema_xy, 5 + 2 * 8,
                            "000000000100000001000000020003",
                            "0101000000000000000000F03F0000000000001040");

  // pt XYZI = 1 2 3 4, scale = 1 2 4 1, geom XYZ = 1 2 3
  test_point_geometry_bytes(
      schema_xyz, 5 + 3 * 8, "00000000010000000100000002000000030004",
      "0101000080000000000000F03F00000000000010400000000000002840");

  // pt XYMI = 1 2 3 4, scale = 1 2 4 1, geom XYM = 1 4 12
  test_point_geometry_bytes(
      schema_xym, 5 + 3 * 8, "00000000010000000100000002000000030004",
      "0101000040000000000000F03F00000000000010400000000000002840");

  // pt XYZMI = 1 2 3 4 5, scale = 1 2 4 8 1, geom XYZM = 1 4 12 32
  test_point_geometry_bytes(schema_xyzm, 5 + 4 * 8,
                            "0000000001000000010000000200000003000000040005",
                            "01010000C0000000000000F03F000000000000104000000000"
                            "000028400000000000004040");
}

/* REGISTER ***********************************************************/

CU_TestInfo point_tests[] = {
    PC_TEST(test_point_hex_inout), PC_TEST(test_point_access),
    PC_TEST(test_point_xyzm), PC_TEST(test_point_geometry), CU_TEST_INFO_NULL};

CU_SuiteInfo point_suite = {.pName = "point",
                            .pInitFunc = init_suite,
                            .pCleanupFunc = clean_suite,
                            .pTests = point_tests};