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/* Copyright (C) 2025 Aryadev Chavali
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the Unlicense
* for details.
* You may distribute and modify this code under the terms of the
* Unlicense, which you should have received a copy of along with this
* program. If not, please go to <https://unlicense.org/>.
* Created: 2025-08-21
* Description: Tests
*/
#include <stdio.h>
#include <string.h>
#include "./alisp.h"
#define TEST_PASSED() printf("[%s]: Pass\n", __func__)
#define TEST(NAME, COND) \
do \
{ \
if (!(COND)) \
{ \
printf("[%s]: `%s` failed!\n", __func__, (NAME)); \
assert(0); \
} \
} while (0)
// Sample data
const char *unique_words[] = {
"bibendum", "etiam", "gravida", "dui", "cursus",
"purus", "diam", "phasellus", "nam", "fermentum",
"leo", "enim", "ac", "semper", "non",
"mauris", "proin", "tellus", "vivamus", "lobortis",
"lacus", "neque", "in", "nullam", "felis",
"orci", "pede", "tempus", "nec", "at",
"tortor", "massa", "sed", "magna", "eget",
"tempor", "velit", "imperdiet", "praesent", "volutpat",
"tristique", "id", "commodo", "aliquet", "quis",
"pellentesque", "eleifend", "porta", "nunc", "euismod",
"aliquam", "a", "erat", "dignissim", "ut",
"vitae", "vel", "donec",
};
char *words[] = {
"aliquam", "erat", "volutpat", "nunc", "eleifend",
"leo", "vitae", "magna", "in", "id",
"erat", "non", "orci", "commodo", "lobortis",
"proin", "neque", "massa", "cursus", "ut",
"gravida", "ut", "lobortis", "eget", "lacus",
"sed", "diam", "praesent", "fermentum", "tempor",
"tellus", "nullam", "tempus", "mauris", "ac",
"felis", "vel", "velit", "tristique", "imperdiet",
"donec", "at", "pede", "etiam", "vel",
"neque", "nec", "dui", "dignissim", "bibendum",
"vivamus", "id", "enim", "phasellus", "neque",
"orci", "porta", "a", "aliquet", "quis",
"semper", "a", "massa", "phasellus", "purus",
"pellentesque", "tristique", "imperdiet", "tortor", "nam",
"euismod", "tellus", "id", "erat",
};
char words_text[] =
"aliquam erat volutpat nunc eleifend leo vitae magna in id erat non orci "
"commodo lobortis proin neque massa cursus ut gravida ut lobortis eget "
"lacus sed diam praesent fermentum tempor tellus nullam tempus mauris ac "
"felis vel velit tristique imperdiet donec at pede etiam vel neque nec dui "
"dignissim bibendum vivamus id enim phasellus neque orci porta a aliquet "
"quis semper a massa phasellus purus pellentesque tristique imperdiet "
"tortor nam euismod tellus id erat";
char text[] =
"Pellentesque dapibus suscipit ligula. Donec posuere augue in quam. "
"Etiam vel tortor sodales tellus ultricies commodo. Suspendisse potenti. "
"Aenean in sem ac leo mollis blandit. Donec neque quam, dignissim in, "
"mollis nec, sagittis eu, wisi. Phasellus lacus. Etiam laoreet quam sed "
"arcu. Phasellus at dui in ligula mollis ultricies. Integer placerat "
"tristique nisl. Praesent augue. Fusce commodo. Vestibulum convallis, "
"lorem a tempus semper, dui dui euismod elit, vitae placerat urna tortor "
"vitae lacus. Nullam libero mauris, consequat quis, varius et, dictum id, "
"arcu. Mauris mollis tincidunt felis. Aliquam feugiat tellus ut neque. "
"Nulla facilisis, risus a rhoncus fermentum, tellus tellus lacinia purus, "
"et dictum nunc justo sit amet elit.";
void symtable_test(void)
{
sym_table_t table = {0};
sym_table_init(&table);
for (u64 i = 0; i < ARRSIZE(words); ++i)
sym_table_find(&table, SV(words[i], strlen(words[i])));
TEST("|table|=|set(words)|", table.count == ARRSIZE(unique_words));
TEST("|table| < |words|", table.count < ARRSIZE(words));
TEST_PASSED();
sym_table_cleanup(&table);
}
void int_test(void)
{
i64 ints[] = {
1, -1, (1 << 10) - 1, (-1) * ((1 << 10) - 1), INT_MIN, INT_MAX,
};
for (u64 i = 0; i < ARRSIZE(ints); ++i)
{
i64 in = ints[i];
lisp_t *lisp = make_int(in);
i64 out = as_int(lisp);
TEST("in == out", in == out);
}
TEST_PASSED();
}
void sym_test(void)
{
sys_t system = {0};
sys_init(&system);
for (u64 i = 0; i < ARRSIZE(words); ++i)
{
char *in = words[i];
lisp_t *lisp = intern(&system, SV(in, strlen(in)));
char *out = as_sym(lisp);
TEST("unique pointers when interning a symbol", in != out);
TEST("same size", strlen(in) == strlen(out));
TEST("same string", strncmp(in, out, strlen(in)) == 0);
}
TEST_PASSED();
sys_cleanup(&system);
}
void vec_test1(void)
{
sys_t system = {0};
sys_init(&system);
// Generating a vector word by word
lisp_t *lvec = make_vec(&system, 0);
for (u64 i = 0; i < ARRSIZE(words); ++i)
{
char *word = words[i];
vec_append(as_vec(lvec), word, strlen(word));
if (i != ARRSIZE(words) - 1)
vec_append(as_vec(lvec), " ", 1);
}
vec_append(as_vec(lvec), "\0", 1);
vec_t *vec = as_vec(lvec);
TEST("same size vector", vec->size == ARRSIZE(words_text));
TEST("same as actually concatenated string",
strncmp(vec_data(vec), words_text, vec->size) == 0);
TEST_PASSED();
sys_cleanup(&system);
}
void vec_test2(void)
{
sys_t system = {0};
sys_init(&system);
// Generating substrings
struct Test
{
u64 start, size;
} tests[] = {
{0, 16},
{0, 32},
{32, 64},
{0, ARRSIZE(text)},
};
for (u64 i = 0; i < ARRSIZE(tests); ++i)
{
struct Test test = tests[i];
const sv_t substr = SV(text + test.start, test.size);
const u64 size = test.size / 2;
lisp_t *lvec = make_vec(&system, size);
vec_append(as_vec(lvec), text + test.start, test.size);
TEST("Vector grew", as_vec(lvec)->size > size);
TEST("Vector's substring is equivalent to the actual substring",
strncmp(vec_data(as_vec(lvec)), substr.data, substr.size) == 0);
}
printf("[vec_test2]: Pass\n");
sys_cleanup(&system);
}
void cons_test(void)
{
sys_t system = {0};
sys_init(&system);
// Let's make a list of words using `cons`
lisp_t *lisp = NIL;
for (u64 i = 0; i < ARRSIZE(words); ++i)
{
char *word = words[i];
lisp_t *lword = intern(&system, SV(word, strlen(word)));
lisp = cons(&system, lword, lisp);
}
// Make sure we've essentially reversed the `words` array
u64 i = ARRSIZE(words);
for (lisp_t *iter = lisp; iter; iter = cdr(iter))
{
lisp_t *item = car(iter);
TEST("we've reversed the array",
strncmp(words[i - 1], as_sym(item), strlen(words[i - 1])) == 0);
i -= 1;
}
TEST_PASSED();
sys_cleanup(&system);
}
typedef void (*test_fn)(void);
const test_fn TESTS[] = {
int_test, sym_test, vec_test1, vec_test2, cons_test,
};
int main(void)
{
for (u64 i = 0; i < ARRSIZE(TESTS); ++i)
{
TESTS[i]();
}
return 0;
}
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