fltk/test/unittest_core.cxx
2024-01-10 21:32:02 -08:00

424 lines
12 KiB
C++

//
// Unit tests for the Fast Light Tool Kit (FLTK).
//
// Copyright 1998-2023 by Bill Spitzak and others.
//
// This library is free software. Distribution and use rights are outlined in
// the file "COPYING" which should have been included with this file. If this
// file is missing or damaged, see the license at:
//
// https://www.fltk.org/COPYING.php
//
// Please see the following page on how to report bugs and issues:
//
// https://www.fltk.org/bugs.php
//
#include "unittests.h"
#include <FL/Fl_Group.H>
#include <FL/Fl_Button.H>
#include <FL/Fl_Terminal.H>
#include "../src/Fl_String.H"
#include <FL/Fl_Preferences.H>
#include <FL/fl_callback_macros.H>
#include <FL/filename.H>
#include <FL/fl_utf8.h>
/* Test Fl_String constructor and assignment. */
TEST(Fl_String, Assignment) {
Fl_String null;
EXPECT_STREQ(null.c_str(), ""); // default initialisation is an empty string
EXPECT_TRUE(null.empty());
Fl_String null2(NULL);
EXPECT_STREQ(null2.c_str(), ""); // initialise with a NULL pointer gets an empty string
EXPECT_TRUE(null2.empty());
Fl_String empty("");
EXPECT_STREQ(empty.c_str(), ""); // also, empty CString make empty Fl_String
EXPECT_TRUE(empty.empty());
Fl_String text("hello");
EXPECT_STREQ(text.c_str(), "hello"); // Load some text from a CString
EXPECT_EQ(text.size(), 5); // did we get the size right?
EXPECT_EQ(text.strlen(), 5); // do we have a trailing 0
EXPECT_GE(text.capacity(), 5); // do we have the capacity
EXPECT_TRUE(!text.empty()); // test the empty() method
Fl_String text2("abcdef", 3);
EXPECT_STREQ(text2.c_str(), "abc");
EXPECT_EQ(text2.size(), 3);
Fl_String text3("abc\0def", 7);
EXPECT_EQ(text3.strlen(), 3);
EXPECT_EQ(text3.size(), 7);
Fl_String text4(text);
EXPECT_STREQ(text4.c_str(), "hello");
Fl_String text5 = text;
EXPECT_STREQ(text5.c_str(), "hello");
Fl_String text6 = "yoohoo";
EXPECT_STREQ(text6.c_str(), "yoohoo");
return true;
}
/* Test methods that access Fl_String content and parts of it. */
TEST(Fl_String, Access) {
Fl_String hello = "hello";
EXPECT_STREQ(hello.c_str(), "hello");
EXPECT_STREQ(hello.data(), "hello");
EXPECT_EQ(hello[1], 'e');
EXPECT_EQ(hello[hello.size()], 0);
EXPECT_EQ(hello.at(1), 'e');
EXPECT_EQ(hello.at(-1), 0);
EXPECT_EQ(hello.at(11), 0);
hello[1] = 'a';
EXPECT_STREQ(hello.c_str(), "hallo");
hello.data()[1] = 'e';
EXPECT_STREQ(hello.c_str(), "hello");
return true;
}
/* Test the Fl_String capacity management. */
TEST(Fl_String, Capacity) {
Fl_String hello;
EXPECT_EQ(hello.capacity(), 0);
hello = "hi";
EXPECT_STREQ(hello.c_str(), "hi");
EXPECT_GE(hello.capacity(), 2);
hello = "the quick brown fox jumps over the lazy dog";
EXPECT_STREQ(hello.c_str(), "the quick brown fox jumps over the lazy dog");
EXPECT_GE(hello.capacity(), 41);
int c = hello.capacity();
hello.reserve(c+100);
EXPECT_STREQ(hello.c_str(), "the quick brown fox jumps over the lazy dog");
EXPECT_GE(hello.capacity(), 141);
hello = "hi";
hello.shrink_to_fit();
EXPECT_EQ(hello.capacity(), 2);
return true;
}
/* Test all methods that operate on Fl_String. */
TEST(Fl_String, Operations) {
Fl_String empty;
Fl_String hello = "Hello", world = "World";
hello.resize(4);
EXPECT_STREQ(hello.c_str(), "Hell");
hello.clear();
EXPECT_TRUE(hello.empty());
hello = "Hello";
hello.insert(3, "-");
EXPECT_STREQ(hello.c_str(), "Hel-lo");
hello = "Hello";
hello.erase(2, 2);
EXPECT_STREQ(hello.c_str(), "Heo");
hello = "Hello";
hello.push_back('!');
EXPECT_STREQ(hello.c_str(), "Hello!");
hello.pop_back();
EXPECT_STREQ(hello.c_str(), "Hello");
hello.append(world);
EXPECT_STREQ(hello.c_str(), "HelloWorld");
hello.append("!");
EXPECT_STREQ(hello.c_str(), "HelloWorld!");
hello = "Hello";
hello += world;
EXPECT_STREQ(hello.c_str(), "HelloWorld");
hello += "!";
EXPECT_STREQ(hello.c_str(), "HelloWorld!");
hello += '?';
EXPECT_STREQ(hello.c_str(), "HelloWorld!?");
hello = "Hello";
hello.replace(0, 0, "Say ", 4);
EXPECT_STREQ(hello.c_str(), "Say Hello");
hello.replace(0, 4, "");
EXPECT_STREQ(hello.c_str(), "Hello");
hello.replace(2, 2, "bb");
EXPECT_STREQ(hello.c_str(), "Hebbo");
hello.replace(2, 2, "xxx");
EXPECT_STREQ(hello.c_str(), "Hexxxo");
hello.replace(2, 3, "ll");
EXPECT_STREQ(hello.c_str(), "Hello");
hello.replace(2, 0, NULL, 0);
EXPECT_STREQ(hello.c_str(), "Hello");
hello.replace(Fl_String::npos, Fl_String::npos, world);
EXPECT_STREQ(hello.c_str(), "HelloWorld");
hello = "Hello";
Fl_String sub = hello.substr();
EXPECT_STREQ(sub.c_str(), "Hello"); // check correct usage
sub = hello.substr(2);
EXPECT_STREQ(sub.c_str(), "llo");
sub = hello.substr(2, 2);
EXPECT_STREQ(sub.c_str(), "ll");
sub = hello.substr(-1, 2);
EXPECT_TRUE(sub.empty()); // check faulty values
sub = hello.substr(20, 2);
EXPECT_TRUE(sub.empty());
sub = empty.substr(0, 2);
EXPECT_TRUE(sub.empty());
return true;
}
#if (0) // FIXME - Fl_String
/* Test all Fl_String functions that are no part of the class. */
TEST(Fl_String, Non-Member Functions) {
Fl_String a = "a", b = "b", empty = "", result;
result = a + b;
EXPECT_STREQ(result.c_str(), "ab");
result = a + empty;
EXPECT_STREQ(result.c_str(), "a");
result = a + "c";
EXPECT_STREQ(result.c_str(), "ac");
result = empty + "x";
EXPECT_STREQ(result.c_str(), "x");
EXPECT_TRUE(!(a == b));
EXPECT_TRUE(a == a);
EXPECT_FALSE((a != a)); // neq -erco
EXPECT_TRUE((a != b)); // neq -erco
EXPECT_TRUE(empty == empty);
EXPECT_TRUE(a+b == "ab");
EXPECT_TRUE(a+"b" == "a" + b);
return true;
}
/* Test additions to Fl_Preferences. */
TEST(Fl_String, fl_filename_...) {
const Fl_String ref = "/test/me.txt";
Fl_String name = fl_filename_name(ref);
EXPECT_STREQ(name.c_str(), "me.txt");
name = fl_filename_name(Fl_String("/test/"));
EXPECT_STREQ(name.c_str(), "");
Fl_String path = fl_filename_path(ref);
EXPECT_STREQ(path.c_str(), "/test/");
Fl_String ext = fl_filename_ext(ref);
EXPECT_STREQ(ext.c_str(), ".txt");
ext = fl_filename_setext(ref, ".rtf");
EXPECT_STREQ(ext.c_str(), "/test/me.rtf");
fl_putenv("FL_UNITTEST=unit/test");
name = fl_filename_expand(Fl_String("abc/$FL_UNITTEST/xyz"));
EXPECT_STREQ(name.c_str(), "abc/unit/test/xyz");
Fl_String abs = fl_filename_absolute(Fl_String("./abc/def.txt"));
Fl_String rel = fl_filename_relative(abs);
EXPECT_STREQ(rel.c_str(), "abc/def.txt");
EXPECT_STREQ(ref.c_str(), "/test/me.txt");
return true;
}
/* Test additions to Fl_Preferences. */
//TEST(Fl_Preferences, Strings) {
// {
// Fl_Preferences prefs(Fl_Preferences::USER_L, "fltk.org", "unittests");
// prefs.set("a", Fl_String());
// prefs.set("b", Fl_String("Hello"));
// prefs.set("c", Fl_String("Hel\\l\nö"));
// }
// {
// Fl_Preferences prefs(Fl_Preferences::USER_L, "fltk.org", "unittests");
// Fl_String r;
// prefs.get("a", r, "x");
// EXPECT_STREQ(r.c_str(), "");
// prefs.get("b", r, "x");
// EXPECT_STREQ(r.c_str(), "Hello");
// prefs.get("c", r, "x");
// EXPECT_STREQ(r.c_str(), "Hel\\l\nö");
// prefs.get("d", r, "x");
// EXPECT_STREQ(r.c_str(), "x");
// }
// return true;
//}
TEST(fl_filename, ext) {
Fl_String r = fl_filename_ext("test.txt");
EXPECT_STREQ(r.c_str(), ".txt");
r = fl_filename_ext("test");
EXPECT_STREQ(r.c_str(), "");
r = fl_filename_ext("");
EXPECT_STREQ(r.c_str(), "");
return true;
}
TEST(fl_filename, setext) {
Fl_String r = fl_filename_setext(Fl_String("test.txt"), ".rtf");
EXPECT_STREQ(r.c_str(), "test.rtf");
r = fl_filename_setext(Fl_String("test"), ".rtf");
EXPECT_STREQ(r.c_str(), "test.rtf");
r = fl_filename_setext(Fl_String("test.txt"), "");
EXPECT_STREQ(r.c_str(), "test");
r = fl_filename_setext(Fl_String(""), ".rtf");
EXPECT_STREQ(r.c_str(), ".rtf");
r = fl_filename_setext(Fl_String("path/test"), ".rtf");
EXPECT_STREQ(r.c_str(), "path/test.rtf");
return true;
}
TEST(fl_filename, relative) {
Fl_String base = "/var/tmp/somedir";
Fl_String r = fl_filename_relative("/var/tmp/somedir/foo.txt", base);
EXPECT_STREQ(r.c_str(), "foo.txt");
r = fl_filename_relative("/var/tmp/foo.txt", base);
EXPECT_STREQ(r.c_str(), "../foo.txt");
r = fl_filename_relative("./foo.txt", base);
EXPECT_STREQ(r.c_str(), "./foo.txt");
r = fl_filename_relative("../foo.txt", base);
EXPECT_STREQ(r.c_str(), "../foo.txt");
return true;
}
TEST(fl_filename, absolute) {
Fl_String base = "/var/tmp/somedir";
Fl_String r = fl_filename_absolute("foo.txt", base);
EXPECT_STREQ(r.c_str(), "/var/tmp/somedir/foo.txt");
r = fl_filename_absolute("/var/tmp/foo.txt", base);
EXPECT_STREQ(r.c_str(), "/var/tmp/foo.txt");
r = fl_filename_absolute("./foo.txt", base);
EXPECT_STREQ(r.c_str(), "/var/tmp/somedir/foo.txt");
r = fl_filename_absolute("../foo.txt", base);
EXPECT_STREQ(r.c_str(), "/var/tmp/foo.txt");
return true;
}
bool cb1a_ok = false, cb1b_ok = false, cb1c_ok = false;
int cb1_alloc = 0;
class MyString : public Fl_String {
public:
MyString() : Fl_String() { cb1_alloc++; }
MyString(const MyString &str) : Fl_String(str) { cb1_alloc++; }
MyString(const char *t) : Fl_String(t) { cb1_alloc++; }
~MyString() { cb1_alloc--; }
};
void cb1(MyString a, int b) {
cb1a_ok = true;
if (strcmp(a.c_str(),"FLTK")==0) cb1b_ok = true;
if (b==4) cb1c_ok = true;
}
/* Test callback macros. */
TEST(Fl_Callback_Macros, FL_FUNCTION_CALLBACK) {
Fl_Group::current(NULL);
Fl_Button *btn = new Fl_Button(10, 10, 100, 100);
FL_FUNCTION_CALLBACK_2(btn, cb1, MyString, "FLTK", int, 4);
do { class Fl_Callback_User_Data_240 : public Fl_Callback_User_Data {
public: MyString a_; int b_;
static void cb(Fl_Widget *w, void *user_data) {
Fl_Callback_User_Data_240 *cbdata = (Fl_Callback_User_Data_240*)user_data; (void)cbdata; cb1(cbdata->a_, cbdata->b_); }; Fl_Callback_User_Data_240(MyString a, int b) : a_(a), b_(b) { } }; btn->callback(Fl_Callback_User_Data_240::cb, new Fl_Callback_User_Data_240("FLTK", 4), true); } while(0);
btn->do_callback();
delete btn;
EXPECT_TRUE(cb1a_ok); // callback called
EXPECT_TRUE(cb1b_ok); // string stored correctly
EXPECT_TRUE(cb1c_ok); // integer stored correctly
EXPECT_TRUE(cb1_alloc==0); // string destroyed correctly (allocated as often as deallocated)
return true;
}
TEST(Fl_Callback_Macros, FL_METHOD_CALLBACK) {
Fl_Group::current(NULL);
Fl_String *str = new Fl_String("FLTK");
Fl_Button *btn = new Fl_Button(10, 10, 100, 100);
FL_METHOD_CALLBACK_2(btn, Fl_String, str, insert, int, 2, const char*, "XX");
btn->do_callback();
EXPECT_STREQ(str->c_str(), "FLXXTK");
delete btn;
delete str;
return true;
}
int cb3a = 0, cb3b = 0;
TEST(Fl_Callback_Macros, FL_INLINE_CALLBACK) {
Fl_Group::current(NULL);
Fl_Button *btn = new Fl_Button(10, 10, 100, 100);
FL_INLINE_CALLBACK_2(btn,
int, a, 42, int, b, 16,
{ cb3a = a; cb3b = b; }
);
btn->do_callback();
EXPECT_EQ(cb3a, 42);
EXPECT_EQ(cb3b, 16);
delete btn;
return true;
}
#endif // FIXME - Fl_String
//
//------- test aspects of the FLTK core library ----------
//
/*
Create a tab with only a terminal window in it. When shown for the first time,
unittest will visualize progress by runing all regsitered tests one-by-one
every few miliseconds.
When run in command line mode (option `--core`), all tests are executed
at full speed.
*/
class Ut_Core_Test : public Fl_Group {
Fl_Terminal *tty;
bool suite_ran_;
public:
// Create the tab
static Fl_Widget *create() {
return new Ut_Core_Test(UT_TESTAREA_X, UT_TESTAREA_Y, UT_TESTAREA_W, UT_TESTAREA_H);
}
// Constructor for this tab
Ut_Core_Test(int x, int y, int w, int h)
: Fl_Group(x, y, w, h),
tty(NULL),
suite_ran_(false)
{
tty = new Fl_Terminal(x+4, y+4, w-8, h-8, "Unittest Log");
tty->ansi(true);
end();
Ut_Suite::tty = tty;
}
// Run one single test and repeat calling this until all tests are done
static void timer_cb(void*) {
// Run a test every few milliseconds to visualize the progress
if (Ut_Suite::run_next_test())
Fl::repeat_timeout(0.15, timer_cb);
}
// Showing this tab for the first time will trigger the tests
void show() FL_OVERRIDE {
Fl_Group::show();
if (!suite_ran_) {
Fl::add_timeout(0.5, timer_cb);
suite_ran_ = true;
}
}
};
// Register this tab with the unittest app.
UnitTest core(UT_TEST_CORE, "Core Functionality", Ut_Core_Test::create);