v/vlib/os/os_test.v

468 lines
10 KiB
V

import os
const (
// tfolder will contain all the temporary files/subfolders made by
// the different tests. It would be removed in testsuite_end(), so
// individual os tests do not need to clean up after themselves.
tfolder = os.join_path( os.temp_dir(), 'v', 'tests', 'os_test')
)
fn testsuite_begin() {
eprintln('testsuite_begin, tfolder = $tfolder')
os.rmdir_all( tfolder )
assert !os.is_dir( tfolder )
os.mkdir_all( tfolder )
os.chdir( tfolder )
assert os.is_dir( tfolder )
}
fn testsuite_end() {
os.chdir( os.wd_at_startup )
os.rmdir_all( tfolder )
assert !os.is_dir( tfolder )
//eprintln('testsuite_end , tfolder = $tfolder removed.')
}
fn test_open_file() {
filename := './test1.txt'
hello := 'hello world!'
os.open_file(filename, 'r+', 0o666) or {
assert err == 'No such file or directory'
os.File{}
}
mut file := os.open_file(filename, 'w+', 0o666) or {
panic(err)
}
file.write(hello)
file.close()
assert hello.len == os.file_size(filename)
read_hello := os.read_file(filename) or {
panic('error reading file $filename')
}
assert hello == read_hello
os.rm(filename)
}
fn test_create_file() {
filename := './test1.txt'
hello := 'hello world!'
mut f := os.create(filename) or {
panic(err)
}
f.write(hello)
f.close()
assert hello.len == os.file_size(filename)
os.rm(filename)
}
fn test_is_file() {
// Setup
work_dir := os.join_path(os.getwd(),'is_file_test')
os.mkdir_all(work_dir)
tfile := os.join_path(work_dir,'tmp_file')
// Test things that shouldn't be a file
assert os.is_file(work_dir) == false
assert os.is_file('non-existent_file.tmp') == false
// Test file
tfile_content := 'temporary file'
os.write_file(tfile, tfile_content)
assert os.is_file(tfile)
// Test dir symlinks
$if windows {
assert true
} $else {
dsymlink := os.join_path(work_dir,'dir_symlink')
os.system('ln -s $work_dir $dsymlink')
assert os.is_file(dsymlink) == false
}
// Test file symlinks
$if windows {
assert true
} $else {
fsymlink := os.join_path(work_dir,'file_symlink')
os.system('ln -s $tfile $fsymlink')
assert os.is_file(fsymlink)
}
}
fn test_write_and_read_string_to_file() {
filename := './test1.txt'
hello := 'hello world!'
os.write_file(filename, hello)
assert hello.len == os.file_size(filename)
read_hello := os.read_file(filename) or {
panic('error reading file $filename')
}
assert hello == read_hello
os.rm(filename)
}
// test_write_and_read_bytes checks for regressions made in the functions
// read_bytes, read_bytes_at and write_bytes.
fn test_write_and_read_bytes() {
file_name := './byte_reader_writer.tst'
payload := [byte(`I`), `D`, `D`, `Q`, `D`]
mut file_write := os.create(os.real_path(file_name)) or {
eprintln('failed to create file $file_name')
return
}
// We use the standard write_bytes function to write the payload and
// compare the length of the array with the file size (have to match).
file_write.write_bytes(payload.data, 5)
file_write.close()
assert payload.len == os.file_size(file_name)
mut file_read := os.open(os.real_path(file_name)) or {
eprintln('failed to open file $file_name')
return
}
// We only need to test read_bytes because this function calls
// read_bytes_at with second parameter zeroed (size, 0).
rbytes := file_read.read_bytes(5)
file_read.close()
// eprintln('rbytes: $rbytes')
// eprintln('payload: $payload')
assert rbytes == payload
// We finally delete the test file.
os.rm(file_name)
}
fn test_create_and_delete_folder() {
folder := './test1'
os.mkdir(folder) or {
panic(err)
}
assert os.is_dir(folder)
folder_contents := os.ls(folder) or {
panic(err)
}
assert folder_contents.len == 0
os.rmdir(folder)
folder_exists := os.is_dir(folder)
assert folder_exists == false
}
fn walk_callback(file string) {
if file == '.' || file == '..' {
return
}
assert file == 'test_walk' + os.path_separator + 'test1'
}
fn test_walk() {
folder := 'test_walk'
os.mkdir(folder) or {
panic(err)
}
file1 := folder + os.path_separator + 'test1'
os.write_file(file1, 'test-1')
os.walk(folder, walk_callback)
os.rm(file1)
os.rmdir(folder)
}
fn test_cp() {
old_file_name := 'cp_example.txt'
new_file_name := 'cp_new_example.txt'
os.write_file(old_file_name, 'Test data 1 2 3, V is awesome #$%^[]!~')
os.cp(old_file_name, new_file_name) or {
panic('$err: errcode: $errcode')
}
old_file := os.read_file(old_file_name) or {
panic(err)
}
new_file := os.read_file(new_file_name) or {
panic(err)
}
assert old_file == new_file
os.rm(old_file_name)
os.rm(new_file_name)
}
/*
fn test_mv() {
work_dir := os.join_path(os.temp_dir(),'v','mv_test')
if os.exists(work_dir) {
os.rmdir_all(work_dir)
}
mkdir_all(work_dir)
// Setup test files
tfile1 := os.join_path(work_dir,'file')
tfile2 := os.join_path(work_dir,'file.test')
tfile3 := os.join_path(work_dir,'file.3')
tfile_content := 'temporary file'
os.write_file(tfile1, tfile_content)
os.write_file(tfile2, tfile_content)
// Setup test dirs
tdir1 := os.join_path(work_dir,'dir')
tdir2 := os.join_path(work_dir,'dir2')
tdir3 := os.join_path(work_dir,'dir3')
mkdir(tdir1)
mkdir(tdir2)
// Move file with no extension to dir
os.mv(tfile1,tdir1)
mut expected := os.join_path(tdir1,'file')
assert os.exists(expected) && !is_dir(expected) == true
// Move dir with contents to other dir
os.mv(tdir1,tdir2)
expected = os.join_path(tdir2,'dir')
assert os.exists(expected) && is_dir(expected) == true
expected = os.join_path(tdir2,'dir','file')
assert os.exists(expected) && !is_dir(expected) == true
// Move dir with contents to other dir (by renaming)
os.mv(os.join_path(tdir2,'dir'),tdir3)
expected = tdir3
assert os.exists(expected) && is_dir(expected) == true
assert os.is_dir_empty(tdir2) == true
// Move file with extension to dir
os.mv(tfile2,tdir2)
expected = os.join_path(tdir2,'file.test')
assert os.exists(expected) && !is_dir(expected) == true
// Move file to dir (by renaming)
os.mv(os.join_path(tdir2,'file.test'),tfile3)
expected = tfile3
assert os.exists(expected) && !is_dir(expected) == true
}
*/
fn test_cp_r() {
// fileX -> dir/fileX
// NB: clean up of the files happens inside the cleanup_leftovers function
os.write_file('ex1.txt', 'wow!')
os.mkdir('ex') or {
panic(err)
}
os.cp_all('ex1.txt', 'ex', false) or {
panic(err)
}
old := os.read_file('ex1.txt') or {
panic(err)
}
new := os.read_file('ex/ex1.txt') or {
panic(err)
}
assert old == new
os.mkdir('ex/ex2') or {
panic(err)
}
os.write_file('ex2.txt', 'great!')
os.cp_all('ex2.txt', 'ex/ex2', false) or {
panic(err)
}
old2 := os.read_file('ex2.txt') or {
panic(err)
}
new2 := os.read_file('ex/ex2/ex2.txt') or {
panic(err)
}
assert old2 == new2
// recurring on dir -> local dir
os.cp_all('ex', './', true) or {
panic(err)
}
}
fn test_tmpdir() {
t := os.temp_dir()
assert t.len > 0
assert os.is_dir(t)
tfile := t + os.path_separator + 'tmpfile.txt'
os.rm(tfile) // just in case
tfile_content := 'this is a temporary file'
os.write_file(tfile, tfile_content)
tfile_content_read := os.read_file(tfile) or {
panic(err)
}
assert tfile_content_read == tfile_content
os.rm(tfile)
}
fn test_is_writable_folder() {
tmp := os.temp_dir()
f := os.is_writable_folder(tmp) or {
eprintln('err: $err')
false
}
assert f
}
fn test_make_symlink_check_is_link_and_remove_symlink() {
$if windows {
// TODO
assert true
return
}
folder := 'tfolder'
symlink := 'tsymlink'
os.rm(symlink)
os.rm(folder)
os.mkdir(folder) or {
panic(err)
}
folder_contents := os.ls(folder) or {
panic(err)
}
assert folder_contents.len == 0
os.system('ln -s $folder $symlink')
assert os.is_link(symlink) == true
os.rm(symlink)
os.rm(folder)
folder_exists := os.is_dir(folder)
assert folder_exists == false
symlink_exists := os.is_link(symlink)
assert symlink_exists == false
}
// fn test_fork() {
// pid := os.fork()
// if pid == 0 {
// println('Child')
// }
// else {
// println('Parent')
// }
// }
// fn test_wait() {
// pid := os.fork()
// if pid == 0 {
// println('Child')
// exit(0)
// }
// else {
// cpid := os.wait()
// println('Parent')
// println(cpid)
// }
// }
fn test_symlink() {
$if windows {
return
}
os.mkdir('symlink') or {
panic(err)
}
os.symlink('symlink', 'symlink2') or {
panic(err)
}
assert os.exists('symlink2')
// cleanup
os.rm('symlink')
os.rm('symlink2')
}
fn test_is_executable_writable_readable() {
file_name := 'rwxfile.exe'
mut f := os.create(file_name) or {
eprintln('failed to create file $file_name')
return
}
f.close()
$if !windows {
os.chmod(file_name, 0o600) // mark as readable && writable, but NOT executable
assert os.is_writable(file_name)
assert os.is_readable(file_name)
assert !os.is_executable(file_name)
os.chmod(file_name, 0o700) // mark as executable too
assert os.is_executable(file_name)
} $else {
assert os.is_writable(file_name)
assert os.is_readable(file_name)
assert os.is_executable(file_name)
}
// We finally delete the test file.
os.rm(file_name)
}
fn test_ext() {
assert os.file_ext('file.v') == '.v'
assert os.file_ext('file') == ''
}
fn test_is_abs() {
assert os.is_abs_path('/home/user') == true
assert os.is_abs_path('v/vlib') == false
$if windows {
assert os.is_abs_path('C:\\Windows\\') == true
}
}
fn test_join() {
$if windows {
assert os.join_path('v','vlib','os') == 'v\\vlib\\os'
} $else {
assert os.join_path('v','vlib','os') == 'v/vlib/os'
}
}
fn test_dir() {
$if windows {
assert os.dir('C:\\a\\b\\c') == 'C:\\a\\b'
} $else {
assert os.dir('/var/tmp/foo') == '/var/tmp'
}
assert os.dir('os') == '.'
}
fn test_basedir() {
$if windows {
assert os.base_dir('v\\vlib\\os') == 'v\\vlib'
} $else {
assert os.base_dir('v/vlib/os') == 'v/vlib'
}
assert os.base_dir('filename') == 'filename'
}
fn test_uname() {
u := os.uname()
assert u.sysname.len > 0
assert u.nodename.len > 0
assert u.release.len > 0
assert u.version.len > 0
assert u.machine.len > 0
}
// tests for write_file_array and read_file_array<T>:
const (
maxn = 3
)
struct IntPoint {
x int
y int
}
fn test_write_file_array_bytes() {
fpath := './abytes.bin'
mut arr := []byte{len: maxn}
for i in 0 .. maxn {
arr[i] = 65 + byte(i)
}
os.write_file_array(fpath, arr)
rarr := os.read_bytes(fpath) or {
panic(err)
}
assert arr == rarr
//eprintln(arr.str())
//eprintln(rarr.str())
}
fn test_write_file_array_structs() {
fpath := './astructs.bin'
mut arr := []IntPoint{len: maxn}
for i in 0 .. maxn {
arr[i] = IntPoint{65 + i, 65 + i + 10}
}
os.write_file_array(fpath, arr)
rarr := os.read_file_array<IntPoint>(fpath)
assert rarr == arr
assert rarr.len == maxn
//eprintln( rarr.str().replace('\n', ' ').replace('},', '},\n'))
}