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unit.cpp
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unit.cpp
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#define CATCH_CONFIG_MAIN
#include "catch/catch.hpp"
#include "text.hpp"
#include "sort.hpp"
#include "tile-cache.hpp"
#include "mvt.hpp"
#include "projection.hpp"
#include "geometry.hpp"
#include <unistd.h>
#include <limits.h>
TEST_CASE("UTF-8 enforcement", "[utf8]") {
REQUIRE(check_utf8("") == std::string(""));
REQUIRE(check_utf8("hello world") == std::string(""));
REQUIRE(check_utf8("Καλημέρα κόσμε") == std::string(""));
REQUIRE(check_utf8("こんにちは 世界") == std::string(""));
REQUIRE(check_utf8("👋🌏") == std::string(""));
REQUIRE(check_utf8("Hola m\xF3n") == std::string("\"Hola m\xF3n\" is not valid UTF-8 (0xF3 0x6E)"));
}
TEST_CASE("UTF-8 truncation", "[trunc]") {
REQUIRE(truncate16("0123456789abcdefghi", 16) == std::string("0123456789abcdef"));
REQUIRE(truncate16("0123456789éîôüéîôüç", 16) == std::string("0123456789éîôüéî"));
REQUIRE(truncate16("0123456789😀😬😁😂😃😄😅😆", 16) == std::string("0123456789😀😬😁"));
REQUIRE(truncate16("0123456789😀😬😁😂😃😄😅😆", 17) == std::string("0123456789😀😬😁"));
REQUIRE(truncate16("0123456789あいうえおかきくけこさ", 16) == std::string("0123456789あいうえおか"));
REQUIRE(truncate_string("789éîôüéîôüç", 3) == std::string("789"));
REQUIRE(truncate_string("789éîôüéîôüç", 4) == std::string("789"));
REQUIRE(truncate_string("789éîôüéîôüç", 5) == std::string("789é"));
REQUIRE(truncate_string("789éîôüéîôüç", 6) == std::string("789é"));
REQUIRE(truncate_string("789éîôüéîôüç", 7) == std::string("789éî"));
REQUIRE(truncate_string("789éîôüéîôüç", 8) == std::string("789éî"));
REQUIRE(truncate_string("0123456789😀😬😁😂😃😄😅😆", 10) == std::string("0123456789"));
REQUIRE(truncate_string("0123456789😀😬😁😂😃😄😅😆", 11) == std::string("0123456789"));
REQUIRE(truncate_string("0123456789😀😬😁😂😃😄😅😆", 12) == std::string("0123456789"));
REQUIRE(truncate_string("0123456789😀😬😁😂😃😄😅😆", 13) == std::string("0123456789"));
REQUIRE(truncate_string("0123456789😀😬😁😂😃😄😅😆", 14) == std::string("0123456789😀"));
REQUIRE(truncate_string("😀", 4) == std::string("😀"));
REQUIRE(truncate_string("😀", 3) == std::string(""));
REQUIRE(truncate_string("😀", 2) == std::string(""));
REQUIRE(truncate_string("😀", 1) == std::string(""));
REQUIRE(truncate_string("😀", 0) == std::string(""));
}
int intcmp(const void *v1, const void *v2) {
return *((int *) v1) - *((int *) v2);
}
TEST_CASE("External quicksort", "fqsort") {
std::vector<FILE *> inputs;
size_t written = 0;
for (size_t i = 0; i < 5; i++) {
std::string tmpname = "/tmp/in.XXXXXXX";
int fd = mkstemp((char *) tmpname.c_str());
unlink(tmpname.c_str());
FILE *f = fdopen(fd, "w+b");
inputs.emplace_back(f);
size_t iterations = 2000 + rand() % 200;
for (size_t j = 0; j < iterations; j++) {
int n = rand();
fwrite((void *) &n, sizeof(int), 1, f);
written++;
}
rewind(f);
}
std::string tmpname = "/tmp/out.XXXXXX";
int fd = mkstemp((char *) tmpname.c_str());
unlink(tmpname.c_str());
FILE *f = fdopen(fd, "w+b");
fqsort(inputs, sizeof(int), intcmp, f, 256);
rewind(f);
int prev = INT_MIN;
int here;
size_t nread = 0;
while (fread((void *) &here, sizeof(int), 1, f)) {
REQUIRE(here >= prev);
prev = here;
nread++;
}
fclose(f);
REQUIRE(nread == written);
}
mvt_tile mock_get_tile(zxy tile) {
mvt_layer l;
l.name = std::to_string(tile.z) + "/" + std::to_string(tile.x) + "/" + std::to_string(tile.y);
mvt_tile t;
t.layers.push_back(l);
return t;
}
TEST_CASE("Tile-join cache", "tile cache") {
tile_cache tc;
tc.capacity = 5;
REQUIRE(tc.get(zxy(11, 327, 791), mock_get_tile).layers[0].name == "11/327/791");
REQUIRE(tc.get(zxy(11, 5, 7), mock_get_tile).layers[0].name == "11/5/7");
REQUIRE(tc.get(zxy(11, 5, 8), mock_get_tile).layers[0].name == "11/5/8");
REQUIRE(tc.get(zxy(11, 5, 9), mock_get_tile).layers[0].name == "11/5/9");
REQUIRE(tc.get(zxy(11, 5, 10), mock_get_tile).layers[0].name == "11/5/10");
REQUIRE(tc.get(zxy(11, 327, 791), mock_get_tile).layers[0].name == "11/327/791");
REQUIRE(tc.overzoom_cache.size() == 5);
REQUIRE(tc.overzoom_cache.find(zxy(11, 327, 791)) != tc.overzoom_cache.end());
REQUIRE(tc.overzoom_cache.find(zxy(11, 5, 7)) != tc.overzoom_cache.end());
// verify that additional gets evict the least-recently-used elements
REQUIRE(tc.get(zxy(11, 5, 11), mock_get_tile).layers[0].name == "11/5/11");
REQUIRE(tc.overzoom_cache.size() == 5);
REQUIRE(tc.overzoom_cache.find(zxy(11, 5, 7)) == tc.overzoom_cache.end());
REQUIRE(tc.get(zxy(11, 5, 12), mock_get_tile).layers[0].name == "11/5/12");
REQUIRE(tc.overzoom_cache.size() == 5);
REQUIRE(tc.overzoom_cache.find(zxy(11, 5, 8)) == tc.overzoom_cache.end());
}
TEST_CASE("Bit reversal", "bit reversal") {
REQUIRE(bit_reverse(1) == 0x8000000000000000);
REQUIRE(bit_reverse(0x1234567812489BCF) == 0xF3D912481E6A2C48);
REQUIRE(bit_reverse(0xF3D912481E6A2C48) == 0x1234567812489BCF);
}
TEST_CASE("mvt_geometry bbox") {
std::vector<mvt_geometry> geom;
geom.emplace_back(mvt_moveto, 128, 128);
geom.emplace_back(mvt_lineto, 256, 256);
long long xmin, ymin, xmax, ymax;
get_bbox(geom, &xmin, &ymin, &xmax, &ymax, 11, 327, 791, 9);
double lon, lat;
tile2lonlat(xmin, ymin, 32, &lon, &lat);
REQUIRE(std::to_string(lon) == "-122.475586");
REQUIRE(std::to_string(lat) == "37.822802");
tile2lonlat(xmax, ymax, 32, &lon, &lat);
REQUIRE(std::to_string(lon) == "-122.431641");
REQUIRE(std::to_string(lat) == "37.788081");
unsigned long long start, end;
get_quadkey_bounds(xmin, ymin, xmax, ymax, &start, &end);
// 22 bits in common, for z11
REQUIRE(start == 0x1c84fc0000000000);
REQUIRE(end == 0x1c84ffffffffffff);
}