#include #include #include #include #include #include #include "tap.h" #include "text.h" #include "text-util.h" #include "util.h" #ifndef BUFSIZ #define BUFSIZ 1024 #endif static bool insert(Text *txt, size_t pos, const char *data) { return text_insert(txt, pos, data, strlen(data)); } static bool isempty(Text *txt) { return text_size(txt) == 0; } static bool compare_iterator_forward(Iterator *it, const char *data) { char buf[BUFSIZ] = "", b; while (text_iterator_byte_get(it, &b)) { buf[it->pos] = b; text_iterator_byte_next(it, NULL); } return strcmp(data, buf) == 0; } static bool compare_iterator_backward(Iterator *it, const char *data) { char buf[BUFSIZ] = "", b; while (text_iterator_byte_get(it, &b)) { buf[it->pos] = b; text_iterator_byte_prev(it, NULL); } return strcmp(data, buf) == 0; } static bool compare_iterator_both(Text *txt, const char *data) { Iterator it = text_iterator_get(txt, 0); bool forward = compare_iterator_forward(&it, data); text_iterator_byte_prev(&it, NULL); bool forward_backward = compare_iterator_backward(&it, data); it = text_iterator_get(txt, text_size(txt)); bool backward = compare_iterator_backward(&it, data); text_iterator_byte_next(&it, NULL); bool backward_forward = compare_iterator_forward(&it, data); return forward && backward && forward_backward && backward_forward; } static bool compare(Text *txt, const char *data) { char buf[BUFSIZ]; size_t len = text_bytes_get(txt, 0, sizeof(buf)-1, buf); buf[len] = '\0'; return len == strlen(data) && strcmp(buf, data) == 0 && compare_iterator_both(txt, data); } static void iterator_find_everywhere(Text *txt, char *data) { size_t len = strlen(data); Iterator it = text_iterator_get(txt, 0); for (size_t i = 0; i < len; i++) { ok(text_iterator_byte_find_next(&it, data[i]) && it.pos == i && text_iterator_byte_next(&it, NULL) && it.pos == i+1, "Iterator find byte next at current position"); } ok(!text_iterator_byte_find_next(&it, data[len-1]) && it.pos == len, "Iterator find byte next at EOF"); for (size_t i = len; i-- > 0;) { ok(text_iterator_byte_find_prev(&it, data[i]) && it.pos == i, "Iterator find byte prev at current position"); } ok(!text_iterator_byte_find_prev(&it, data[0]) && it.pos == 0, "Iterator find byte prev at BOF"); } static void iterator_find_next(Text *txt, size_t start, char b, size_t match) { Iterator it = text_iterator_get(txt, start); bool found = text_iterator_byte_find_next(&it, b); ok((found && it.pos == match) || (!found && it.pos == text_size(txt)),"Iterator byte find next (start: %zu, match: %zu)", start, match); } static void iterator_find_prev(Text *txt, size_t start, char b, size_t match) { Iterator it = text_iterator_get(txt, start); bool found = text_iterator_byte_find_prev(&it, b); ok((found && it.pos == match) || (!found && it.pos == 0),"Iterator byte find prev (start: %zu, match: %zu)", start, match); } int main(int argc, char *argv[]) { Text *txt; plan_no_plan(); skip_if(TIS_INTERPRETER, 2, "I/O related") { const char *filename = "data"; unlink(filename); enum TextLoadMethod load_method[] = { TEXT_LOAD_AUTO, TEXT_LOAD_READ, TEXT_LOAD_MMAP, }; for (size_t i = 0; i < LENGTH(load_method); i++) { txt = text_load_method("/", load_method[i]); ok(txt == NULL && errno == EISDIR, "Opening directory (method %zu)", i); if (access("/etc/shadow", F_OK) == 0 && access("/etc/shadow", R_OK) != 0) { txt = text_load_method("/etc/shadow", load_method[i]); ok(txt == NULL && errno == EACCES, "Opening file without sufficient permissions (method %zu)", i); } } char buf[BUFSIZ] = "Hello World!\n"; txt = text_load(NULL); ok(txt && insert(txt, 0, buf) && compare(txt, buf), "Inserting into empty text"); ok(txt && text_save(txt, filename), "Text save"); text_free(txt); for (size_t i = 0; i < LENGTH(load_method); i++) { txt = text_load_method(filename, load_method[i]); ok(txt && compare(txt, buf), "Load text (method %zu)", i); text_free(txt); } enum TextSaveMethod save_method[] = { TEXT_SAVE_AUTO, TEXT_SAVE_ATOMIC, TEXT_SAVE_INPLACE, }; for (size_t l = 0; l < LENGTH(load_method); l++) { for (size_t s = 0; s < LENGTH(save_method); s++) { #ifdef __CYGWIN__ if (load_method[l] == TEXT_LOAD_MMAP && save_method[s] == TEXT_SAVE_INPLACE) continue; #endif snprintf(buf, sizeof buf, "Hello World: (%zu, %zu)\n", l, s); txt = text_load_method(filename, load_method[l]); ok(txt, "Load (%zu, %zu)", l, s); ok(txt && text_delete(txt, 0, text_size(txt)) && isempty(txt), "Empty (%zu, %zu)", l, s); ok(txt && insert(txt, 0, buf) && compare(txt, buf), "Preparing to save (%zu, %zu)", l, s); ok(txt && text_save_method(txt, filename, save_method[s]), "Text save (%zu, %zu)", l, s); text_free(txt); txt = text_load(filename); ok(txt && compare(txt, buf), "Verify save (%zu, %zu)", l, s); text_free(txt); } } int (*creation[])(const char*, const char*) = { symlink, link }; const char *names[] = { "symlink", "hardlink" }; for (size_t i = 0; i < LENGTH(names); i++) { const char *linkname = names[i]; unlink(linkname); ok(creation[i](filename, linkname) == 0, "%s creation", names[i]); snprintf(buf, sizeof buf, "%s\n", names[i]); txt = text_load(NULL); ok(txt && insert(txt, 0, buf) && compare(txt, buf), "Preparing %s content", names[i]); ok(txt && text_save(txt, linkname), "Text save %s", names[i]); text_free(txt); txt = text_load(linkname); ok(txt && compare(txt, buf), "Load %s", names[i]); ok(txt && !text_save_method(txt, linkname, TEXT_SAVE_ATOMIC), "Text save %s atomic", names[i]); text_free(txt); } } txt = text_load(NULL); ok(txt != NULL && isempty(txt), "Opening empty file"); Iterator it = text_iterator_get(txt, 0); ok(text_iterator_valid(&it) && it.pos == 0, "Iterator on empty file"); char b = '_'; ok(text_iterator_byte_get(&it, &b) && b == '\0', "Read EOF from iterator of empty file"); b = '_'; ok(!text_iterator_byte_prev(&it, &b) && b == '_' && !text_iterator_valid(&it), "Moving iterator beyond start of file"); ok(!text_iterator_byte_get(&it, &b) && b == '_' && !text_iterator_valid(&it), "Access iterator beyond start of file"); ok(text_iterator_byte_next(&it, &b) && b == '\0' && text_iterator_valid(&it), "Moving iterator back from beyond start of file"); b = '_'; ok(text_iterator_byte_get(&it, &b) && b == '\0' && text_iterator_valid(&it), "Accessing iterator after moving back from beyond start of file"); b = '_'; ok(!text_iterator_byte_next(&it, &b) && b == '_' && !text_iterator_valid(&it), "Moving iterator beyond end of file"); ok(!text_iterator_byte_get(&it, &b) && b == '_' && !text_iterator_valid(&it), "Accessing iterator beyond end of file"); ok(text_iterator_byte_prev(&it, &b) && b == '\0' && text_iterator_valid(&it), "Moving iterator back from beyond end of file"); b = '_'; ok(text_iterator_byte_get(&it, &b) && b == '\0' && text_iterator_valid(&it), "Accessing iterator after moving back from beyond start of file"); ok(text_state(txt) > 0, "State on empty file"); ok(text_undo(txt) == EPOS && isempty(txt), "Undo on empty file"); ok(text_redo(txt) == EPOS && isempty(txt), "Redo on empty file"); char data[] = "a\nb\nc\n"; size_t data_len = strlen(data); ok(insert(txt, 0, data), "Inserting new lines"); iterator_find_everywhere(txt, data); iterator_find_next(txt, 0, 'a', 0); iterator_find_next(txt, 0, 'b', 2); iterator_find_next(txt, 0, 'c', 4); iterator_find_next(txt, 0, 'e', EPOS); iterator_find_prev(txt, data_len, 'a', 0); iterator_find_prev(txt, data_len, 'b', 2); iterator_find_prev(txt, data_len, 'c', 4); iterator_find_prev(txt, data_len, 'e', EPOS); ok(text_undo(txt) == 0 && isempty(txt), "Undo to empty document 1"); ok(insert(txt, 1, "") && isempty(txt), "Inserting empty data"); ok(!insert(txt, 1, " ") && isempty(txt), "Inserting with invalid offset"); /* test cached insertion (i.e. in-place with only one piece) */ ok(insert(txt, 0, "3") && compare(txt, "3"), "Inserting into empty document (cached)"); ok(insert(txt, 0, "1") && compare(txt, "13"), "Inserting at begin (cached)"); ok(insert(txt, 1, "2") && compare(txt, "123"), "Inserting in middle (cached)"); ok(insert(txt, text_size(txt), "4") && compare(txt, "1234"), "Inserting at end (cached)"); ok(text_delete(txt, text_size(txt), 0) && compare(txt, "1234"), "Deleting empty range"); ok(!text_delete(txt, text_size(txt), 1) && compare(txt, "1234"), "Deleting invalid offset"); ok(!text_delete(txt, 0, text_size(txt)+5) && compare(txt, "1234"), "Deleting invalid range"); ok(text_undo(txt) == 0 && compare(txt, ""), "Reverting to empty document"); ok(text_redo(txt) != EPOS /* == text_size(txt) */ && compare(txt, "1234"), "Restoring previsous content"); /* test cached deletion (i.e. in-place with only one piece) */ ok(text_delete(txt, text_size(txt)-1, 1) && compare(txt, "123"), "Deleting at end (cached)"); ok(text_delete(txt, 1, 1) && compare(txt, "13"), "Deleting in middle (cached)"); ok(text_delete(txt, 0, 1) && compare(txt, "3"), "Deleting at begin (cached)"); ok(text_delete(txt, 0, 1) && compare(txt, ""), "Deleting to empty document (cached)"); /* test regular insertion (i.e. with multiple pieces) */ text_snapshot(txt); ok(insert(txt, 0, "3") && compare(txt, "3"), "Inserting into empty document"); text_snapshot(txt); ok(insert(txt, 0, "1") && compare(txt, "13"), "Inserting at begin"); text_snapshot(txt); ok(insert(txt, 1, "2") && compare(txt, "123"), "Inserting in between"); text_snapshot(txt); ok(insert(txt, text_size(txt), "46") && compare(txt, "12346"), "Inserting at end"); text_snapshot(txt); ok(insert(txt, 4, "5") && compare(txt, "123456"), "Inserting in middle"); text_snapshot(txt); ok(insert(txt, text_size(txt), "789") && compare(txt, "123456789"), "Inserting at end"); text_snapshot(txt); ok(insert(txt, text_size(txt), "0") && compare(txt, "1234567890"), "Inserting at end"); /* test simple undo / redo oparations */ ok(text_undo(txt) != EPOS && compare(txt, "123456789"), "Undo 1"); ok(text_undo(txt) != EPOS && compare(txt, "123456"), "Undo 2"); ok(text_undo(txt) != EPOS && compare(txt, "12346"), "Undo 3"); ok(text_undo(txt) != EPOS && compare(txt, "123"), "Undo 4"); ok(text_undo(txt) != EPOS && compare(txt, "13"), "Undo 5"); ok(text_undo(txt) != EPOS && compare(txt, "3"), "Undo 6"); ok(text_undo(txt) != EPOS && compare(txt, ""), "Undo 7"); ok(text_redo(txt) != EPOS && compare(txt, "3"), "Redo 1"); ok(text_redo(txt) != EPOS && compare(txt, "13"), "Redo 2"); ok(text_redo(txt) != EPOS && compare(txt, "123"), "Redo 3"); ok(text_redo(txt) != EPOS && compare(txt, "12346"), "Redo 4"); ok(text_redo(txt) != EPOS && compare(txt, "123456"), "Redo 5"); ok(text_redo(txt) != EPOS && compare(txt, "123456789"), "Redo 6"); ok(text_redo(txt) != EPOS && compare(txt, "1234567890"), "Redo 7"); ok(text_earlier(txt) != EPOS && compare(txt, "123456789"), "Earlier 1"); ok(text_earlier(txt) != EPOS && compare(txt, "123456"), "Earlier 2"); ok(text_earlier(txt) != EPOS && compare(txt, "12346"), "Earlier 3"); ok(text_earlier(txt) != EPOS && compare(txt, "123"), "Earlier 4"); ok(text_earlier(txt) != EPOS && compare(txt, "13"), "Earlier 5"); ok(text_earlier(txt) != EPOS && compare(txt, "3"), "Earlier 6"); ok(text_earlier(txt) != EPOS && compare(txt, ""), "Earlier 7"); ok(text_later(txt) != EPOS && compare(txt, "3"), "Later 1"); ok(text_later(txt) != EPOS && compare(txt, "13"), "Later 2"); ok(text_later(txt) != EPOS && compare(txt, "123"), "Later 3"); ok(text_later(txt) != EPOS && compare(txt, "12346"), "Later 4"); ok(text_later(txt) != EPOS && compare(txt, "123456"), "Later 5"); ok(text_later(txt) != EPOS && compare(txt, "123456789"), "Later 6"); ok(text_later(txt) != EPOS && compare(txt, "1234567890"), "Later 7"); /* test regular deletion (i.e. with multiple pieces) */ ok(text_delete(txt, 8, 2) && compare(txt, "12345678"), "Deleting midway start"); text_undo(txt); ok(text_delete(txt, 2, 6) && compare(txt, "1290"), "Deleting midway end"); text_undo(txt); ok(text_delete(txt, 7, 1) && compare(txt, "123456790"), "Deleting midway both same piece"); text_undo(txt); ok(text_delete(txt, 0, 5) && compare(txt, "67890"), "Deleting at begin"); text_undo(txt); ok(text_delete(txt, 5, 5) && compare(txt, "12345"), "Deleting at end"); ok(text_mark_get(txt, text_mark_set(txt, -1)) == EPOS, "Mark invalid 1"); ok(text_mark_get(txt, text_mark_set(txt, text_size(txt)+1)) == EPOS, "Mark invalid 2"); const char *chunk = "new content"; const size_t delta = strlen(chunk); size_t positions[] = { 0, 1, text_size(txt)/2, text_size(txt)-1 }; text_snapshot(txt); for (size_t i = 0; i < LENGTH(positions); i++) { size_t pos = positions[i]; Mark bof = text_mark_set(txt, 0); ok(text_mark_get(txt, bof) == 0, "Mark at beginning of file"); Mark mof = text_mark_set(txt, pos); ok(text_mark_get(txt, mof) == pos, "Mark in the middle"); Mark eof = text_mark_set(txt, text_size(txt)); ok(text_mark_get(txt, eof) == text_size(txt), "Mark at end of file"); ok(insert(txt, pos, chunk), "Insert before mark"); ok(text_mark_get(txt, bof) == ((pos == 0) ? delta : 0), "Mark at beginning adjusted 1"); ok(text_mark_get(txt, mof) == pos+delta, "Mark in the middle adjusted 1"); ok(text_mark_get(txt, eof) == text_size(txt), "Mark at end adjusted 1"); ok(insert(txt, pos+delta+1, chunk), "Insert after mark"); ok(text_mark_get(txt, bof) == ((pos == 0) ? delta : 0), "Mark at beginning adjusted 2"); ok(text_mark_get(txt, mof) == pos+delta, "Mark in the middle adjusted 2"); ok(text_mark_get(txt, eof) == text_size(txt), "Mark at end adjusted 2"); text_snapshot(txt); ok(text_delete(txt, pos+delta, 1), "Deleting mark"); ok(text_mark_get(txt, mof) == EPOS, "Mark in the middle deleted"); text_undo(txt); ok(text_mark_get(txt, mof) == pos+delta, "Mark restored"); text_undo(txt); } text_snapshot(txt); /* Test branching of the revision tree: * * 0 -- 1 -- 2 -- 3 * \ * `-- 4 -- 5 -- 6 -- 7 */ typedef struct { time_t state; char data[8]; } Rev; Rev revs[8]; size_t rev = 0; for (size_t i = 0; i < LENGTH(revs)/2; i++) { snprintf(revs[i].data, sizeof revs[i].data, "%zu", i); ok(text_delete(txt, 0, text_size(txt)) && text_size(txt) == 0, "Delete everything %zu", i); ok(insert(txt, 0, revs[i].data) && compare(txt, revs[i].data), "Creating state %zu", i); revs[i].state = text_state(txt); text_snapshot(txt); rev = i; } for (size_t i = 0; i < LENGTH(revs)/4; i++) { rev--; ok(text_undo(txt) != EPOS && compare(txt, revs[rev].data), "Undo to state %zu", rev); } for (size_t i = LENGTH(revs)/2; i < LENGTH(revs); i++) { snprintf(revs[i].data, sizeof revs[i].data, "%zu", i); ok(text_delete(txt, 0, text_size(txt)) && text_size(txt) == 0, "Delete everything %zu", i); ok(insert(txt, 0, revs[i].data) && compare(txt, revs[i].data), "Creating state %zu", i); revs[i].state = text_state(txt); text_snapshot(txt); rev++; } while (rev > 0) { text_undo(txt); rev--; } ok(compare(txt, revs[0].data), "Undo along main branch to state 0"); for (size_t i = 1; i < LENGTH(revs); i++) { ok(text_later(txt) != EPOS && compare(txt, revs[i].data), "Advance to state %zu", i); } for (size_t i = 0; i < LENGTH(revs); i++) { time_t state = revs[i].state; ok(text_restore(txt, state) != EPOS && text_state(txt) == state, "Restore state %zu", i); } for (size_t i = LENGTH(revs)-1; i > 0; i--) { ok(text_earlier(txt) != EPOS && compare(txt, revs[i-1].data), "Revert to state %zu", i-1); } for (size_t i = 1; i < LENGTH(revs)/2; i++) { text_redo(txt); } rev = LENGTH(revs)/2-1; ok(compare(txt, revs[rev].data), "Redo along main branch to state %zu", rev); ok(text_redo(txt) == EPOS, "End of main branch"); text_free(txt); return exit_status(); }