#include "settings.h"
#include "log.h"
#include "util/string.h"
+#include "filesys.h"
#include "voxelalgorithms.h"
#include "inventory.h"
#include "util/numeric.h"
#include "util/serialize.h"
#include "noise.h" // PseudoRandom used for random data for compression
#include "clientserver.h" // LATEST_PROTOCOL_VERSION
+#include <algorithm>
/*
Asserts that the exception occurs
#define UTEST(x, fmt, ...)\
{\
if(!(x)){\
- LOGLINEF(LMT_ERROR, "Test (%s) failed: " fmt, #x, ##__VA_ARGS__);\
+ dstream << "Test (" #x ") failed: " fmt << std::endl; \
test_failed = true;\
}\
}
A few item and node definitions for those tests that need them
*/
-#define CONTENT_STONE 0
-#define CONTENT_GRASS 0x800
-#define CONTENT_TORCH 100
+static content_t CONTENT_STONE;
+static content_t CONTENT_GRASS;
+static content_t CONTENT_TORCH;
void define_some_nodes(IWritableItemDefManager *idef, IWritableNodeDefManager *ndef)
{
- content_t i;
ItemDefinition itemdef;
ContentFeatures f;
/*
Stone
*/
- i = CONTENT_STONE;
itemdef = ItemDefinition();
itemdef.type = ITEM_NODE;
itemdef.name = "default:stone";
f.tiledef[i].name = "default_stone.png";
f.is_ground_content = true;
idef->registerItem(itemdef);
- ndef->set(i, f);
+ CONTENT_STONE = ndef->set(f.name, f);
/*
Grass
*/
- i = CONTENT_GRASS;
itemdef = ItemDefinition();
itemdef.type = ITEM_NODE;
itemdef.name = "default:dirt_with_grass";
f.tiledef[i].name = "default_dirt.png^default_grass_side.png";
f.is_ground_content = true;
idef->registerItem(itemdef);
- ndef->set(i, f);
+ CONTENT_GRASS = ndef->set(f.name, f);
/*
Torch (minimal definition for lighting tests)
*/
- i = CONTENT_TORCH;
itemdef = ItemDefinition();
itemdef.type = ITEM_NODE;
itemdef.name = "default:torch";
f.sunlight_propagates = true;
f.light_source = LIGHT_MAX-1;
idef->registerItem(itemdef);
- ndef->set(i, f);
+ CONTENT_TORCH = ndef->set(f.name, f);
}
struct TestBase
UASSERT(fabs(wrapDegrees(-0.5) - (-0.5)) < 0.001);
UASSERT(fabs(wrapDegrees(-365.5) - (-5.5)) < 0.001);
UASSERT(lowercase("Foo bAR") == "foo bar");
+ UASSERT(trim("\n \t\r Foo bAR \r\n\t\t ") == "Foo bAR");
+ UASSERT(trim("\n \t\r \r\n\t\t ") == "");
UASSERT(is_yes("YeS") == true);
UASSERT(is_yes("") == false);
UASSERT(is_yes("FAlse") == false);
- const char *ends[] = {"abc", "c", "bc", NULL};
+ UASSERT(is_yes("-1") == true);
+ UASSERT(is_yes("0") == false);
+ UASSERT(is_yes("1") == true);
+ UASSERT(is_yes("2") == true);
+ const char *ends[] = {"abc", "c", "bc", "", NULL};
UASSERT(removeStringEnd("abc", ends) == "");
UASSERT(removeStringEnd("bc", ends) == "b");
UASSERT(removeStringEnd("12c", ends) == "12");
UASSERT(removeStringEnd("foo", ends) == "");
+ UASSERT(urlencode("\"Aardvarks lurk, OK?\"")
+ == "%22Aardvarks%20lurk%2C%20OK%3F%22");
+ UASSERT(urldecode("%22Aardvarks%20lurk%2C%20OK%3F%22")
+ == "\"Aardvarks lurk, OK?\"");
+ UASSERT(padStringRight("hello", 8) == "hello ");
+ UASSERT(str_equal(narrow_to_wide("abc"), narrow_to_wide("abc")));
+ UASSERT(str_equal(narrow_to_wide("ABC"), narrow_to_wide("abc"), true));
+ UASSERT(trim(" a") == "a");
+ UASSERT(trim(" a ") == "a");
+ UASSERT(trim("a ") == "a");
+ UASSERT(trim("") == "");
+ UASSERT(mystoi("123", 0, 1000) == 123);
+ UASSERT(mystoi("123", 0, 10) == 10);
+ std::string test_str;
+ test_str = "Hello there";
+ str_replace(test_str, "there", "world");
+ UASSERT(test_str == "Hello world");
+ test_str = "ThisAisAaAtest";
+ str_replace(test_str, 'A', ' ');
+ UASSERT(test_str == "This is a test");
+ UASSERT(string_allowed("hello", "abcdefghijklmno") == true);
+ UASSERT(string_allowed("123", "abcdefghijklmno") == false);
+ UASSERT(string_allowed_blacklist("hello", "123") == true);
+ UASSERT(string_allowed_blacklist("hello123", "123") == false);
+ UASSERT(wrap_rows("12345678",4) == "1234\n5678");
+ UASSERT(is_number("123") == true);
+ UASSERT(is_number("") == false);
+ UASSERT(is_number("123a") == false);
+ UASSERT(is_power_of_two(0) == false);
+ UASSERT(is_power_of_two(1) == true);
+ UASSERT(is_power_of_two(2) == true);
+ UASSERT(is_power_of_two(3) == false);
+ for (int exponent = 2; exponent <= 31; ++exponent) {
+ UASSERT(is_power_of_two((1 << exponent) - 1) == false);
+ UASSERT(is_power_of_two((1 << exponent)) == true);
+ UASSERT(is_power_of_two((1 << exponent) + 1) == false);
+ }
+ UASSERT(is_power_of_two((u32)-1) == false);
}
};
+struct TestPath: public TestBase
+{
+ // adjusts a POSIX path to system-specific conventions
+ // -> changes '/' to DIR_DELIM
+ // -> absolute paths start with "C:\\" on windows
+ std::string p(std::string path)
+ {
+ for(size_t i = 0; i < path.size(); ++i){
+ if(path[i] == '/'){
+ path.replace(i, 1, DIR_DELIM);
+ i += std::string(DIR_DELIM).size() - 1; // generally a no-op
+ }
+ }
+
+ #ifdef _WIN32
+ if(path[0] == '\\')
+ path = "C:" + path;
+ #endif
+
+ return path;
+ }
+
+ void Run()
+ {
+ std::string path, result, removed;
+
+ /*
+ Test fs::IsDirDelimiter
+ */
+ UASSERT(fs::IsDirDelimiter('/') == true);
+ UASSERT(fs::IsDirDelimiter('A') == false);
+ UASSERT(fs::IsDirDelimiter(0) == false);
+ #ifdef _WIN32
+ UASSERT(fs::IsDirDelimiter('\\') == true);
+ #else
+ UASSERT(fs::IsDirDelimiter('\\') == false);
+ #endif
+
+ /*
+ Test fs::PathStartsWith
+ */
+ {
+ const int numpaths = 12;
+ std::string paths[numpaths] = {
+ "",
+ p("/"),
+ p("/home/user/minetest"),
+ p("/home/user/minetest/bin"),
+ p("/home/user/.minetest"),
+ p("/tmp/dir/file"),
+ p("/tmp/file/"),
+ p("/tmP/file"),
+ p("/tmp"),
+ p("/tmp/dir"),
+ p("/home/user2/minetest/worlds"),
+ p("/home/user2/minetest/world"),
+ };
+ /*
+ expected fs::PathStartsWith results
+ 0 = returns false
+ 1 = returns true
+ 2 = returns false on windows, true elsewhere
+ 3 = returns true on windows, false elsewhere
+ 4 = returns true if and only if
+ FILESYS_CASE_INSENSITIVE is true
+ */
+ int expected_results[numpaths][numpaths] = {
+ {1,2,0,0,0,0,0,0,0,0,0,0},
+ {1,1,0,0,0,0,0,0,0,0,0,0},
+ {1,1,1,0,0,0,0,0,0,0,0,0},
+ {1,1,1,1,0,0,0,0,0,0,0,0},
+ {1,1,0,0,1,0,0,0,0,0,0,0},
+ {1,1,0,0,0,1,0,0,1,1,0,0},
+ {1,1,0,0,0,0,1,4,1,0,0,0},
+ {1,1,0,0,0,0,4,1,4,0,0,0},
+ {1,1,0,0,0,0,0,0,1,0,0,0},
+ {1,1,0,0,0,0,0,0,1,1,0,0},
+ {1,1,0,0,0,0,0,0,0,0,1,0},
+ {1,1,0,0,0,0,0,0,0,0,0,1},
+ };
+
+ for (int i = 0; i < numpaths; i++)
+ for (int j = 0; j < numpaths; j++){
+ /*verbosestream<<"testing fs::PathStartsWith(\""
+ <<paths[i]<<"\", \""
+ <<paths[j]<<"\")"<<std::endl;*/
+ bool starts = fs::PathStartsWith(paths[i], paths[j]);
+ int expected = expected_results[i][j];
+ if(expected == 0){
+ UASSERT(starts == false);
+ }
+ else if(expected == 1){
+ UASSERT(starts == true);
+ }
+ #ifdef _WIN32
+ else if(expected == 2){
+ UASSERT(starts == false);
+ }
+ else if(expected == 3){
+ UASSERT(starts == true);
+ }
+ #else
+ else if(expected == 2){
+ UASSERT(starts == true);
+ }
+ else if(expected == 3){
+ UASSERT(starts == false);
+ }
+ #endif
+ else if(expected == 4){
+ UASSERT(starts == (bool)FILESYS_CASE_INSENSITIVE);
+ }
+ }
+ }
+
+ /*
+ Test fs::RemoveLastPathComponent
+ */
+ UASSERT(fs::RemoveLastPathComponent("") == "");
+ path = p("/home/user/minetest/bin/..//worlds/world1");
+ result = fs::RemoveLastPathComponent(path, &removed, 0);
+ UASSERT(result == path);
+ UASSERT(removed == "");
+ result = fs::RemoveLastPathComponent(path, &removed, 1);
+ UASSERT(result == p("/home/user/minetest/bin/..//worlds"));
+ UASSERT(removed == p("world1"));
+ result = fs::RemoveLastPathComponent(path, &removed, 2);
+ UASSERT(result == p("/home/user/minetest/bin/.."));
+ UASSERT(removed == p("worlds/world1"));
+ result = fs::RemoveLastPathComponent(path, &removed, 3);
+ UASSERT(result == p("/home/user/minetest/bin"));
+ UASSERT(removed == p("../worlds/world1"));
+ result = fs::RemoveLastPathComponent(path, &removed, 4);
+ UASSERT(result == p("/home/user/minetest"));
+ UASSERT(removed == p("bin/../worlds/world1"));
+ result = fs::RemoveLastPathComponent(path, &removed, 5);
+ UASSERT(result == p("/home/user"));
+ UASSERT(removed == p("minetest/bin/../worlds/world1"));
+ result = fs::RemoveLastPathComponent(path, &removed, 6);
+ UASSERT(result == p("/home"));
+ UASSERT(removed == p("user/minetest/bin/../worlds/world1"));
+ result = fs::RemoveLastPathComponent(path, &removed, 7);
+ #ifdef _WIN32
+ UASSERT(result == "C:");
+ #else
+ UASSERT(result == "");
+ #endif
+ UASSERT(removed == p("home/user/minetest/bin/../worlds/world1"));
+
+ /*
+ Now repeat the test with a trailing delimiter
+ */
+ path = p("/home/user/minetest/bin/..//worlds/world1/");
+ result = fs::RemoveLastPathComponent(path, &removed, 0);
+ UASSERT(result == path);
+ UASSERT(removed == "");
+ result = fs::RemoveLastPathComponent(path, &removed, 1);
+ UASSERT(result == p("/home/user/minetest/bin/..//worlds"));
+ UASSERT(removed == p("world1"));
+ result = fs::RemoveLastPathComponent(path, &removed, 2);
+ UASSERT(result == p("/home/user/minetest/bin/.."));
+ UASSERT(removed == p("worlds/world1"));
+ result = fs::RemoveLastPathComponent(path, &removed, 3);
+ UASSERT(result == p("/home/user/minetest/bin"));
+ UASSERT(removed == p("../worlds/world1"));
+ result = fs::RemoveLastPathComponent(path, &removed, 4);
+ UASSERT(result == p("/home/user/minetest"));
+ UASSERT(removed == p("bin/../worlds/world1"));
+ result = fs::RemoveLastPathComponent(path, &removed, 5);
+ UASSERT(result == p("/home/user"));
+ UASSERT(removed == p("minetest/bin/../worlds/world1"));
+ result = fs::RemoveLastPathComponent(path, &removed, 6);
+ UASSERT(result == p("/home"));
+ UASSERT(removed == p("user/minetest/bin/../worlds/world1"));
+ result = fs::RemoveLastPathComponent(path, &removed, 7);
+ #ifdef _WIN32
+ UASSERT(result == "C:");
+ #else
+ UASSERT(result == "");
+ #endif
+ UASSERT(removed == p("home/user/minetest/bin/../worlds/world1"));
+
+ /*
+ Test fs::RemoveRelativePathComponent
+ */
+ path = p("/home/user/minetest/bin");
+ result = fs::RemoveRelativePathComponents(path);
+ UASSERT(result == path);
+ path = p("/home/user/minetest/bin/../worlds/world1");
+ result = fs::RemoveRelativePathComponents(path);
+ UASSERT(result == p("/home/user/minetest/worlds/world1"));
+ path = p("/home/user/minetest/bin/../worlds/world1/");
+ result = fs::RemoveRelativePathComponents(path);
+ UASSERT(result == p("/home/user/minetest/worlds/world1"));
+ path = p(".");
+ result = fs::RemoveRelativePathComponents(path);
+ UASSERT(result == "");
+ path = p("./subdir/../..");
+ result = fs::RemoveRelativePathComponents(path);
+ UASSERT(result == "");
+ path = p("/a/b/c/.././../d/../e/f/g/../h/i/j/../../../..");
+ result = fs::RemoveRelativePathComponents(path);
+ UASSERT(result == p("/a/e"));
+ }
+};
+
+#define TEST_CONFIG_TEXT_BEFORE \
+ "leet = 1337\n" \
+ "leetleet = 13371337\n" \
+ "leetleet_neg = -13371337\n" \
+ "floaty_thing = 1.1\n" \
+ "stringy_thing = asd /( ¤%&(/\" BLÖÄRP\n" \
+ "coord = (1, 2, 4.5)\n" \
+ " # this is just a comment\n" \
+ "this is an invalid line\n" \
+ "asdf = {\n" \
+ " a = 5\n" \
+ " bb = 2.5\n" \
+ " ccc = \"\"\"\n" \
+ "testy\n" \
+ " testa \n" \
+ "\"\"\"\n" \
+ "\n" \
+ "}\n" \
+ "blarg = \"\"\" \n" \
+ "some multiline text\n" \
+ " with leading whitespace!\n" \
+ "\"\"\"\n" \
+ "np_terrain = 5, 40, (250, 250, 250), 12341, 5, 0.7, 2.4\n" \
+ "zoop = true"
+
+#define TEST_CONFIG_TEXT_AFTER \
+ "leet = 1337\n" \
+ "leetleet = 13371337\n" \
+ "leetleet_neg = -13371337\n" \
+ "floaty_thing = 1.1\n" \
+ "stringy_thing = asd /( ¤%&(/\" BLÖÄRP\n" \
+ "coord = (1, 2, 4.5)\n" \
+ " # this is just a comment\n" \
+ "this is an invalid line\n" \
+ "asdf = {\n" \
+ " a = 5\n" \
+ " bb = 2.5\n" \
+ " ccc = \"\"\"\n" \
+ "testy\n" \
+ " testa \n" \
+ "\"\"\"\n" \
+ "\n" \
+ "}\n" \
+ "blarg = \"\"\" \n" \
+ "some multiline text\n" \
+ " with leading whitespace!\n" \
+ "\"\"\"\n" \
+ "np_terrain = {\n" \
+ " flags = defaults\n" \
+ " lacunarity = 2.4\n" \
+ " octaves = 6\n" \
+ " offset = 3.5\n" \
+ " persistence = 0.7\n" \
+ " scale = 40\n" \
+ " seed = 12341\n" \
+ " spread = (250,250,250)\n" \
+ "}\n" \
+ "zoop = true\n" \
+ "coord2 = (1,2,3.3)\n" \
+ "floaty_thing_2 = 1.2\n" \
+ "groupy_thing = {\n" \
+ " animals = cute\n" \
+ " num_apples = 4\n" \
+ " num_oranges = 53\n" \
+ "}\n"
+
struct TestSettings: public TestBase
{
void Run()
{
+ try {
Settings s;
+
// Test reading of settings
- s.parseConfigLine("leet = 1337");
- s.parseConfigLine("leetleet = 13371337");
- s.parseConfigLine("leetleet_neg = -13371337");
- s.parseConfigLine("floaty_thing = 1.1");
- s.parseConfigLine("stringy_thing = asd /( ¤%&(/\" BLÖÄRP");
- s.parseConfigLine("coord = (1, 2, 4.5)");
+ std::istringstream is(TEST_CONFIG_TEXT_BEFORE);
+ s.parseConfigLines(is);
+
UASSERT(s.getS32("leet") == 1337);
UASSERT(s.getS16("leetleet") == 32767);
UASSERT(s.getS16("leetleet_neg") == -32768);
+
// Not sure if 1.1 is an exact value as a float, but doesn't matter
UASSERT(fabs(s.getFloat("floaty_thing") - 1.1) < 0.001);
UASSERT(s.get("stringy_thing") == "asd /( ¤%&(/\" BLÖÄRP");
UASSERT(fabs(s.getV3F("coord").X - 1.0) < 0.001);
UASSERT(fabs(s.getV3F("coord").Y - 2.0) < 0.001);
UASSERT(fabs(s.getV3F("coord").Z - 4.5) < 0.001);
+
// Test the setting of settings too
s.setFloat("floaty_thing_2", 1.2);
s.setV3F("coord2", v3f(1, 2, 3.3));
UASSERT(fabs(s.getV3F("coord2").X - 1.0) < 0.001);
UASSERT(fabs(s.getV3F("coord2").Y - 2.0) < 0.001);
UASSERT(fabs(s.getV3F("coord2").Z - 3.3) < 0.001);
+
+ // Test settings groups
+ Settings *group = s.getGroup("asdf");
+ UASSERT(group != NULL);
+ UASSERT(s.getGroupNoEx("zoop", group) == false);
+ UASSERT(group->getS16("a") == 5);
+ UASSERT(fabs(group->getFloat("bb") - 2.5) < 0.001);
+
+ Settings *group3 = new Settings;
+ group3->set("cat", "meow");
+ group3->set("dog", "woof");
+
+ Settings *group2 = new Settings;
+ group2->setS16("num_apples", 4);
+ group2->setS16("num_oranges", 53);
+ group2->setGroup("animals", group3);
+ group2->set("animals", "cute"); //destroys group 3
+ s.setGroup("groupy_thing", group2);
+
+ // Test set failure conditions
+ UASSERT(s.set("Zoop = Poop\nsome_other_setting", "false") == false);
+ UASSERT(s.set("sneaky", "\"\"\"\njabberwocky = false") == false);
+ UASSERT(s.set("hehe", "asdfasdf\n\"\"\"\nsomething = false") == false);
+
+ // Test multiline settings
+ UASSERT(group->get("ccc") == "testy\n testa ");
+
+ UASSERT(s.get("blarg") ==
+ "some multiline text\n"
+ " with leading whitespace!");
+
+ // Test NoiseParams
+ UASSERT(s.getEntry("np_terrain").is_group == false);
+
+ NoiseParams np;
+ UASSERT(s.getNoiseParams("np_terrain", np) == true);
+ UASSERT(fabs(np.offset - 5) < 0.001);
+ UASSERT(fabs(np.scale - 40) < 0.001);
+ UASSERT(fabs(np.spread.X - 250) < 0.001);
+ UASSERT(fabs(np.spread.Y - 250) < 0.001);
+ UASSERT(fabs(np.spread.Z - 250) < 0.001);
+ UASSERT(np.seed == 12341);
+ UASSERT(np.octaves == 5);
+ UASSERT(fabs(np.persist - 0.7) < 0.001);
+
+ np.offset = 3.5;
+ np.octaves = 6;
+ s.setNoiseParams("np_terrain", np);
+
+ UASSERT(s.getEntry("np_terrain").is_group == true);
+
+ // Test writing
+ std::ostringstream os(std::ios_base::binary);
+ is.clear();
+ is.seekg(0);
+
+ UASSERT(s.updateConfigObject(is, os, "", 0) == true);
+ //printf(">>>> expected config:\n%s\n", TEST_CONFIG_TEXT_AFTER);
+ //printf(">>>> actual config:\n%s\n", os.str().c_str());
+ UASSERT(os.str() == TEST_CONFIG_TEXT_AFTER);
+ } catch (SettingNotFoundException &e) {
+ UASSERT(!"Setting not found!");
+ }
}
};
UASSERT(serializeWideString(L"") == mkstr("\0\0"));
UASSERT(serializeLongString("") == mkstr("\0\0\0\0"));
UASSERT(serializeJsonString("") == "\"\"");
-
+
std::string teststring = "Hello world!";
UASSERT(serializeString(teststring) ==
mkstr("\0\14Hello world!"));
fromdata[1]=5;
fromdata[2]=5;
fromdata[3]=1;
-
+
std::ostringstream os(std::ios_base::binary);
compress(fromdata, os, 0);
std::string str_out = os.str();
-
+
infostream<<"str_out.size()="<<str_out.size()<<std::endl;
infostream<<"TestCompress: 1,5,5,1 -> ";
for(u32 i=0; i<str_out.size(); i++)
fromdata[1]=5;
fromdata[2]=5;
fromdata[3]=1;
-
+
std::ostringstream os(std::ios_base::binary);
- compress(fromdata, os, SER_FMT_VER_HIGHEST);
+ compress(fromdata, os, SER_FMT_VER_HIGHEST_READ);
std::string str_out = os.str();
-
+
infostream<<"str_out.size()="<<str_out.size()<<std::endl;
infostream<<"TestCompress: 1,5,5,1 -> ";
for(u32 i=0; i<str_out.size(); i++)
std::istringstream is(str_out, std::ios_base::binary);
std::ostringstream os2(std::ios_base::binary);
- decompress(is, os2, SER_FMT_VER_HIGHEST);
+ decompress(is, os2, SER_FMT_VER_HIGHEST_READ);
std::string str_out2 = os2.str();
infostream<<"decompress: ";
std::string str_decompressed = os_decompressed.str();
UTEST(str_decompressed.size() == data_in.size(), "Output size not"
" equal (output: %u, input: %u)",
- str_decompressed.size(), data_in.size());
+ (unsigned int)str_decompressed.size(), (unsigned int)data_in.size());
for(u32 i=0; i<size && i<str_decompressed.size(); i++){
UTEST(str_decompressed[i] == data_in[i],
"index out[%i]=%i differs from in[%i]=%i",
{
void Run(INodeDefManager *nodedef)
{
- MapNode n;
+ MapNode n(CONTENT_AIR);
- // Default values
UASSERT(n.getContent() == CONTENT_AIR);
UASSERT(n.getLight(LIGHTBANK_DAY, nodedef) == 0);
UASSERT(n.getLight(LIGHTBANK_NIGHT, nodedef) == 0);
-
+
// Transparency
n.setContent(CONTENT_AIR);
UASSERT(nodedef->get(n).light_propagates == true);
VoxelArea a(v3s16(-1,-1,-1), v3s16(1,1,1));
UASSERT(a.index(0,0,0) == 1*3*3 + 1*3 + 1);
UASSERT(a.index(-1,-1,-1) == 0);
-
+
VoxelArea c(v3s16(-2,-2,-2), v3s16(2,2,2));
// An area that is 1 bigger in x+ and z-
VoxelArea d(v3s16(-2,-2,-3), v3s16(3,2,2));
-
- core::list<VoxelArea> aa;
+
+ std::list<VoxelArea> aa;
d.diff(c, aa);
-
+
// Correct results
- core::array<VoxelArea> results;
+ std::vector<VoxelArea> results;
results.push_back(VoxelArea(v3s16(-2,-2,-3),v3s16(3,2,-3)));
results.push_back(VoxelArea(v3s16(3,-2,-2),v3s16(3,2,2)));
UASSERT(aa.size() == results.size());
-
+
infostream<<"Result of diff:"<<std::endl;
- for(core::list<VoxelArea>::Iterator
- i = aa.begin(); i != aa.end(); i++)
+ for(std::list<VoxelArea>::const_iterator
+ i = aa.begin(); i != aa.end(); ++i)
{
i->print(infostream);
infostream<<std::endl;
-
- s32 j = results.linear_search(*i);
- UASSERT(j != -1);
- results.erase(j, 1);
+
+ std::vector<VoxelArea>::iterator j = std::find(results.begin(), results.end(), *i);
+ UASSERT(j != results.end());
+ results.erase(j);
}
/*
VoxelManipulator
*/
-
+
VoxelManipulator v;
v.print(infostream, nodedef);
infostream<<"*** Setting (-1,0,-1)=2 ***"<<std::endl;
-
+
v.setNodeNoRef(v3s16(-1,0,-1), MapNode(CONTENT_GRASS));
v.print(infostream, nodedef);
infostream<<"*** Adding area ***"<<std::endl;
v.addArea(a);
-
+
v.print(infostream, nodedef);
UASSERT(v.getNode(v3s16(-1,0,-1)).getContent() == CONTENT_GRASS);
}
VoxelArea a(v3s16(0,0,0), v3s16(2,2,2));
{
- core::map<v3s16, bool> light_sources;
+ std::set<v3s16> light_sources;
voxalgo::setLight(v, a, 0, ndef);
voxalgo::SunlightPropagateResult res = voxalgo::propagateSunlight(
v, a, true, light_sources, ndef);
}
v.setNodeNoRef(v3s16(0,0,0), MapNode(CONTENT_STONE));
{
- core::map<v3s16, bool> light_sources;
+ std::set<v3s16> light_sources;
voxalgo::setLight(v, a, 0, ndef);
voxalgo::SunlightPropagateResult res = voxalgo::propagateSunlight(
v, a, true, light_sources, ndef);
== LIGHT_SUN);
}
{
- core::map<v3s16, bool> light_sources;
+ std::set<v3s16> light_sources;
voxalgo::setLight(v, a, 0, ndef);
voxalgo::SunlightPropagateResult res = voxalgo::propagateSunlight(
v, a, false, light_sources, ndef);
}
v.setNodeNoRef(v3s16(1,3,2), MapNode(CONTENT_STONE));
{
- core::map<v3s16, bool> light_sources;
+ std::set<v3s16> light_sources;
voxalgo::setLight(v, a, 0, ndef);
voxalgo::SunlightPropagateResult res = voxalgo::propagateSunlight(
v, a, true, light_sources, ndef);
== 0);
}
{
- core::map<v3s16, bool> light_sources;
+ std::set<v3s16> light_sources;
voxalgo::setLight(v, a, 0, ndef);
voxalgo::SunlightPropagateResult res = voxalgo::propagateSunlight(
v, a, false, light_sources, ndef);
v.setNodeNoRef(v3s16(1,-1,2), n);
}
{
- core::map<v3s16, bool> light_sources;
+ std::set<v3s16> light_sources;
voxalgo::setLight(v, a, 0, ndef);
voxalgo::SunlightPropagateResult res = voxalgo::propagateSunlight(
v, a, true, light_sources, ndef);
UASSERT(res.bottom_sunlight_valid == true);
}
{
- core::map<v3s16, bool> light_sources;
+ std::set<v3s16> light_sources;
voxalgo::setLight(v, a, 0, ndef);
voxalgo::SunlightPropagateResult res = voxalgo::propagateSunlight(
v, a, false, light_sources, ndef);
v.setNodeNoRef(v3s16(1,-1,2), n);
}
{
- core::map<v3s16, bool> light_sources;
+ std::set<v3s16> light_sources;
voxalgo::setLight(v, a, 0, ndef);
voxalgo::SunlightPropagateResult res = voxalgo::propagateSunlight(
v, a, true, light_sources, ndef);
UASSERT(res.bottom_sunlight_valid == false);
}
{
- core::map<v3s16, bool> light_sources;
+ std::set<v3s16> light_sources;
voxalgo::setLight(v, a, 0, ndef);
voxalgo::SunlightPropagateResult res = voxalgo::propagateSunlight(
v, a, false, light_sources, ndef);
}
v.setNodeNoRef(v3s16(1,3,2), MapNode(CONTENT_IGNORE));
{
- core::map<v3s16, bool> light_sources;
+ std::set<v3s16> light_sources;
voxalgo::setLight(v, a, 0, ndef);
voxalgo::SunlightPropagateResult res = voxalgo::propagateSunlight(
v, a, true, light_sources, ndef);
v.setNode(v3s16(1,1,2), n);
}
{
- core::map<v3s16, bool> light_sources;
- core::map<v3s16, u8> unlight_from;
+ std::set<v3s16> light_sources;
+ std::map<v3s16, u8> unlight_from;
voxalgo::clearLightAndCollectSources(v, a, LIGHTBANK_DAY,
ndef, light_sources, unlight_from);
//v.print(dstream, ndef, VOXELPRINT_LIGHT_DAY);
UASSERT(v.getNode(v3s16(0,1,1)).getLight(LIGHTBANK_DAY, ndef)
== 0);
- UASSERT(light_sources.find(v3s16(1,1,1)) != NULL);
+ UASSERT(light_sources.find(v3s16(1,1,1)) != light_sources.end());
UASSERT(light_sources.size() == 1);
- UASSERT(unlight_from.find(v3s16(1,1,2)) != NULL);
+ UASSERT(unlight_from.find(v3s16(1,1,2)) != unlight_from.end());
UASSERT(unlight_from.size() == 1);
}
}
"Empty\n"
"EndInventoryList\n"
"EndInventory\n";
-
+
std::string serialized_inventory_2 =
"List main 32\n"
"Width 5\n"
"Empty\n"
"EndInventoryList\n"
"EndInventory\n";
-
+
Inventory inv(idef);
std::istringstream is(serialized_inventory, std::ios::binary);
inv.deSerialize(is);
void Run()
{
TC parent;
-
+
MapBlock b(&parent, v3s16(1,1,1));
v3s16 relpos(MAP_BLOCKSIZE, MAP_BLOCKSIZE, MAP_BLOCKSIZE);
UASSERT(b.getBox().MaxEdge.Y == MAP_BLOCKSIZE*2-1);
UASSERT(b.getBox().MinEdge.Z == MAP_BLOCKSIZE);
UASSERT(b.getBox().MaxEdge.Z == MAP_BLOCKSIZE*2-1);
-
+
UASSERT(b.isValidPosition(v3s16(0,0,0)) == true);
UASSERT(b.isValidPosition(v3s16(-1,0,0)) == false);
UASSERT(b.isValidPosition(v3s16(-1,-142,-2341)) == false);
*/
/*UASSERT(b.getSizeNodes() == v3s16(MAP_BLOCKSIZE,
MAP_BLOCKSIZE, MAP_BLOCKSIZE));*/
-
+
// Changed flag should be initially set
UASSERT(b.getModified() == MOD_STATE_WRITE_NEEDED);
b.resetModified();
UASSERT(b.getNode(v3s16(x,y,z)).getLight(LIGHTBANK_DAY) == 0);
UASSERT(b.getNode(v3s16(x,y,z)).getLight(LIGHTBANK_NIGHT) == 0);
}
-
+
{
MapNode n(CONTENT_AIR);
for(u16 z=0; z<MAP_BLOCKSIZE; z++)
b.setNode(v3s16(x,y,z), n);
}
}
-
+
/*
Parent fetch functions
*/
parent.node.setContent(5);
MapNode n;
-
+
// Positions in the block should still be valid
UASSERT(b.isValidPositionParent(v3s16(0,0,0)) == true);
UASSERT(b.isValidPositionParent(v3s16(MAP_BLOCKSIZE-1,MAP_BLOCKSIZE-1,MAP_BLOCKSIZE-1)) == true);
UASSERT(b.isValidPositionParent(v3s16(-121,2341,0)) == false);
UASSERT(b.isValidPositionParent(v3s16(-1,0,0)) == false);
UASSERT(b.isValidPositionParent(v3s16(MAP_BLOCKSIZE-1,MAP_BLOCKSIZE-1,MAP_BLOCKSIZE)) == false);
-
+
{
bool exception_thrown = false;
try{
//TODO: Update to new system
/*UASSERT(b.getNodeTile(p) == 4);
UASSERT(b.getNodeTile(v3s16(-1,-1,0)) == 5);*/
-
+
/*
propagateSunlight()
*/
if(position_valid == false)
throw InvalidPositionException();
};
-
+
virtual u16 nodeContainerId() const
{
return 666;
}
};
-
+
void Run()
{
TC parent;
parent.position_valid = false;
-
+
// Create one with no heightmaps
ServerMapSector sector(&parent, v2s16(1,1));
-
+
UASSERT(sector.getBlockNoCreateNoEx(0) == 0);
UASSERT(sector.getBlockNoCreateNoEx(1) == 0);
MapBlock * bref = sector.createBlankBlock(-2);
-
+
UASSERT(sector.getBlockNoCreateNoEx(0) == 0);
UASSERT(sector.getBlockNoCreateNoEx(-2) == bref);
-
+
//TODO: Check for AlreadyExistsException
/*bool exception_thrown = false;
void Run()
{
const int port = 30003;
- UDPSocket socket;
- socket.Bind(port);
-
- const char sendbuffer[] = "hello world!";
- socket.Send(Address(127,0,0,1,port), sendbuffer, sizeof(sendbuffer));
+ Address address(0,0,0,0, port);
+ Address address6((IPv6AddressBytes*) NULL, port);
- sleep_ms(50);
+ // IPv6 socket test
+ {
+ UDPSocket socket6;
+
+ if (!socket6.init(true, true)) {
+ /* Note: Failing to create an IPv6 socket is not technically an
+ error because the OS may not support IPv6 or it may
+ have been disabled. IPv6 is not /required/ by
+ minetest and therefore this should not cause the unit
+ test to fail
+ */
+ dstream << "WARNING: IPv6 socket creation failed (unit test)"
+ << std::endl;
+ } else {
+ const char sendbuffer[] = "hello world!";
+ IPv6AddressBytes bytes;
+ bytes.bytes[15] = 1;
+
+ socket6.Bind(address6);
+
+ try {
+ socket6.Send(Address(&bytes, port), sendbuffer, sizeof(sendbuffer));
+
+ sleep_ms(50);
+
+ char rcvbuffer[256] = { 0 };
+ Address sender;
+
+ for(;;) {
+ if (socket6.Receive(sender, rcvbuffer, sizeof(rcvbuffer )) < 0)
+ break;
+ }
+ //FIXME: This fails on some systems
+ UASSERT(strncmp(sendbuffer, rcvbuffer, sizeof(sendbuffer)) == 0);
+ UASSERT(memcmp(sender.getAddress6().sin6_addr.s6_addr,
+ Address(&bytes, 0).getAddress6().sin6_addr.s6_addr, 16) == 0);
+ }
+ catch (SendFailedException e) {
+ errorstream << "IPv6 support enabled but not available!"
+ << std::endl;
+ }
+ }
+ }
- char rcvbuffer[256];
- memset(rcvbuffer, 0, sizeof(rcvbuffer));
- Address sender;
- for(;;)
+ // IPv4 socket test
{
- int bytes_read = socket.Receive(sender, rcvbuffer, sizeof(rcvbuffer));
- if(bytes_read < 0)
- break;
+ UDPSocket socket(false);
+ socket.Bind(address);
+
+ const char sendbuffer[] = "hello world!";
+ socket.Send(Address(127, 0, 0 ,1, port), sendbuffer, sizeof(sendbuffer));
+
+ sleep_ms(50);
+
+ char rcvbuffer[256] = { 0 };
+ Address sender;
+ for(;;) {
+ if (socket.Receive(sender, rcvbuffer, sizeof(rcvbuffer)) < 0)
+ break;
+ }
+ //FIXME: This fails on some systems
+ UASSERT(strncmp(sendbuffer, rcvbuffer, sizeof(sendbuffer)) == 0);
+ UASSERT(sender.getAddress().sin_addr.s_addr ==
+ Address(127, 0, 0, 1, 0).getAddress().sin_addr.s_addr);
}
- //FIXME: This fails on some systems
- UASSERT(strncmp(sendbuffer, rcvbuffer, sizeof(sendbuffer))==0);
- UASSERT(sender.getAddress() == Address(127,0,0,1, 0).getAddress());
}
};
SharedBuffer<u8> data1(1);
data1[0] = 100;
Address a(127,0,0,1, 10);
- u16 seqnum = 34352;
+ const u16 seqnum = 34352;
con::BufferedPacket p1 = con::makePacket(a, data1,
proto_id, peer_id, channel);
UASSERT(readU16(&p1.data[4]) == peer_id);
UASSERT(readU8(&p1.data[6]) == channel);
UASSERT(readU8(&p1.data[7]) == data1[0]);
-
+
//infostream<<"initial data1[0]="<<((u32)data1[0]&0xff)<<std::endl;
SharedBuffer<u8> p2 = con::makeReliablePacket(data1, seqnum);
Handler hand_server("server");
Handler hand_client("client");
-
+
infostream<<"** Creating server Connection"<<std::endl;
- con::Connection server(proto_id, 512, 5.0, &hand_server);
- server.Serve(30001);
-
+ con::Connection server(proto_id, 512, 5.0, false, &hand_server);
+ Address address(0,0,0,0, 30001);
+ server.Serve(address);
+
infostream<<"** Creating client Connection"<<std::endl;
- con::Connection client(proto_id, 512, 5.0, &hand_client);
+ con::Connection client(proto_id, 512, 5.0, false, &hand_client);
UASSERT(hand_server.count == 0);
UASSERT(hand_client.count == 0);
-
+
sleep_ms(50);
-
+
Address server_address(127,0,0,1, 30001);
infostream<<"** running client.Connect()"<<std::endl;
client.Connect(server_address);
sleep_ms(50);
-
+
// Client should not have added client yet
UASSERT(hand_client.count == 0);
-
+
try
{
u16 peer_id;
UASSERT(hand_client.last_id == 1);
// Server should not have added client yet
UASSERT(hand_server.count == 0);
-
- sleep_ms(50);
+
+ sleep_ms(100);
try
{
// No actual data received, but the client has
// probably been connected
}
-
+
// Client should be the same
UASSERT(hand_client.count == 1);
UASSERT(hand_client.last_id == 1);
// Server should have the client
UASSERT(hand_server.count == 1);
UASSERT(hand_server.last_id == 2);
-
+
//sleep_ms(50);
while(client.Connected() == false)
}
sleep_ms(50);
-
+
try
{
u16 peer_id;
Address client_address =
server.GetPeerAddress(peer_id_client);
-
+
infostream<<"*** Sending packets in wrong order (2,1,2)"
<<std::endl;
-
+
u8 chn = 0;
con::Channel *ch = &server.getPeer(peer_id_client)->channels[chn];
u16 sn = ch->next_outgoing_seqnum;
UASSERT(size == data1.getSize());
UASSERT(memcmp(*data1, *recvdata, data1.getSize()) == 0);
UASSERT(peer_id == PEER_ID_SERVER);
-
+
infostream<<"** running client.Receive()"<<std::endl;
peer_id = 132;
size = client.Receive(peer_id, recvdata);
UASSERT(size == data2.getSize());
UASSERT(memcmp(*data2, *recvdata, data2.getSize()) == 0);
UASSERT(peer_id == PEER_ID_SERVER);
-
+
bool got_exception = false;
try
{
SharedBuffer<u8> data1(datasize);
for(u16 i=0; i<datasize; i++)
data1[i] = i/4;
-
+
int sendtimes = myrand_range(1,10);
for(int i=0; i<sendtimes; i++){
server.Send(peer_id_client, 0, data1, true);
sendcount++;
}
infostream<<"sendcount="<<sendcount<<std::endl;
-
+
//int receivetimes = myrand_range(1,20);
int receivetimes = 20;
for(int i=0; i<receivetimes; i++){
if(datasize>20)
infostream<<"...";
infostream<<std::endl;
-
+
server.Send(peer_id_client, 0, data1, true);
//sleep_ms(3000);
-
+
SharedBuffer<u8> recvdata;
infostream<<"** running client.Receive()"<<std::endl;
u16 peer_id = 132;
UASSERT(memcmp(*data1, *recvdata, data1.getSize()) == 0);
UASSERT(peer_id == PEER_ID_SERVER);
}
-
+
// Check peer handlers
UASSERT(hand_client.count == 1);
UASSERT(hand_client.last_id == 1);
UASSERT(hand_server.count == 1);
UASSERT(hand_server.last_id == 2);
-
+
//assert(0);
}
};
-#define TEST(X)\
-{\
+#define TEST(X) do {\
X x;\
infostream<<"Running " #X <<std::endl;\
x.Run();\
tests_run++;\
tests_failed += x.test_failed ? 1 : 0;\
-}
+} while (0)
-#define TESTPARAMS(X, ...)\
-{\
+#define TESTPARAMS(X, ...) do {\
X x;\
infostream<<"Running " #X <<std::endl;\
x.Run(__VA_ARGS__);\
tests_run++;\
tests_failed += x.test_failed ? 1 : 0;\
-}
+} while (0)
void run_tests()
{
int tests_run = 0;
int tests_failed = 0;
-
+
// Create item and node definitions
IWritableItemDefManager *idef = createItemDefManager();
IWritableNodeDefManager *ndef = createNodeDefManager();
define_some_nodes(idef, ndef);
+ log_set_lev_silence(LMT_ERROR, true);
+
infostream<<"run_tests() started"<<std::endl;
TEST(TestUtilities);
+ TEST(TestPath);
TEST(TestSettings);
TEST(TestCompress);
TEST(TestSerialization);
TEST(TestConnection);
dout_con<<"=== END RUNNING UNIT TESTS FOR CONNECTION ==="<<std::endl;
}
+
+ log_set_lev_silence(LMT_ERROR, false);
+
+ delete idef;
+ delete ndef;
+
if(tests_failed == 0){
infostream<<"run_tests(): "<<tests_failed<<" / "<<tests_run<<" tests failed."<<std::endl;
infostream<<"run_tests() passed."<<std::endl;