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patch 9.1.0110: filetype: add 'Config.in' filetype detection Commit: https://github.com/vim/vim/commit/5f20f050efed3431beaf85739f0113e9ef0abd8e Author: Brandon Maier <brandon.maier@collins.com> Date: Wed Feb 14 22:30:06 2024 +0100 patch 9.1.0110: filetype: add 'Config.in' filetype detection The 'Config.in' file type is for Buildroot configuration files. Buildroot Config.in files use the same Kconfig backend as the Linux kernel's Kconfig files. Buildroot also has other filename variants that follow "Config.in.*", they are used to distinguish multiple Config.in files in the same directory. See https://buildroot.org/downloads/manual/manual.html#_literal_config_in_literal_file closes: #14038 Signed-off-by: Brandon Maier <brandon.maier@collins.com> Signed-off-by: Christian Brabandt <cb@256bit.org>
author Christian Brabandt <cb@256bit.org>
date Wed, 14 Feb 2024 22:45:02 +0100
parents f41b55f9357c
children
line wrap: on
line source

/* vi:set ts=8 sts=4 sw=4 noet:
 *
 * VIM - Vi IMproved	by Bram Moolenaar
 *
 * Do ":help uganda"  in Vim to read copying and usage conditions.
 * Do ":help credits" in Vim to see a list of people who contributed.
 * See README.txt for an overview of the Vim source code.
 */

/*
 * json_test.c: Unittests for json.c
 */

#undef NDEBUG
#include <assert.h>

// Must include main.c because it contains much more than just main()
#define NO_VIM_MAIN
#include "main.c"

// This file has to be included because the tested functions are static
#include "json.c"

#if defined(FEAT_EVAL)
/*
 * Test json_find_end() with incomplete items.
 */
    static void
test_decode_find_end(void)
{
    js_read_T reader;

    reader.js_fill = NULL;
    reader.js_used = 0;

    // string and incomplete string
    reader.js_buf = (char_u *)"\"hello\"";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"  \"hello\" ";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"\"hello";
    assert(json_find_end(&reader, 0) == MAYBE);

    // number and dash (incomplete number)
    reader.js_buf = (char_u *)"123";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"-";
    assert(json_find_end(&reader, 0) == MAYBE);

    // false, true and null, also incomplete
    reader.js_buf = (char_u *)"false";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"f";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"fa";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"fal";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"fals";
    assert(json_find_end(&reader, 0) == MAYBE);

    reader.js_buf = (char_u *)"true";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"t";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"tr";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"tru";
    assert(json_find_end(&reader, 0) == MAYBE);

    reader.js_buf = (char_u *)"null";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"n";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"nu";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"nul";
    assert(json_find_end(&reader, 0) == MAYBE);

    // object without white space
    reader.js_buf = (char_u *)"{\"a\":123}";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"{\"a\":123";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"{\"a\":";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"{\"a\"";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"{\"a";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"{\"";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"{";
    assert(json_find_end(&reader, 0) == MAYBE);

    // object with white space
    reader.js_buf = (char_u *)"  {  \"a\"  :  123  }  ";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"  {  \"a\"  :  123  ";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"  {  \"a\"  :  ";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"  {  \"a\"  ";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"  {  \"a  ";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"  {   ";
    assert(json_find_end(&reader, 0) == MAYBE);

    // JS object with white space
    reader.js_buf = (char_u *)"  {  a  :  123  }  ";
    assert(json_find_end(&reader, JSON_JS) == OK);
    reader.js_buf = (char_u *)"  {  a  :   ";
    assert(json_find_end(&reader, JSON_JS) == MAYBE);

    // array without white space
    reader.js_buf = (char_u *)"[\"a\",123]";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"[\"a\",123";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"[\"a\",";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"[\"a\"";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"[\"a";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"[\"";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"[";
    assert(json_find_end(&reader, 0) == MAYBE);

    // array with white space
    reader.js_buf = (char_u *)"  [  \"a\"  ,  123  ]  ";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"  [  \"a\"  ,  123  ";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"  [  \"a\"  ,  ";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"  [  \"a\"  ";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"  [  \"a  ";
    assert(json_find_end(&reader, 0) == MAYBE);
    reader.js_buf = (char_u *)"  [  ";
    assert(json_find_end(&reader, 0) == MAYBE);
}

    static int
fill_from_cookie(js_read_T *reader)
{
    reader->js_buf = reader->js_cookie;
    return TRUE;
}

/*
 * Test json_find_end with an incomplete array, calling the fill function.
 */
    static void
test_fill_called_on_find_end(void)
{
    js_read_T reader;

    reader.js_fill = fill_from_cookie;
    reader.js_used = 0;
    reader.js_buf = (char_u *)"  [  \"a\"  ,  123  ";
    reader.js_cookie =	      "  [  \"a\"  ,  123  ]  ";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"  [  \"a\"  ,  ";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"  [  \"a\"  ";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"  [  \"a";
    assert(json_find_end(&reader, 0) == OK);
    reader.js_buf = (char_u *)"  [  ";
    assert(json_find_end(&reader, 0) == OK);
}

/*
 * Test json_find_end with an incomplete string, calling the fill function.
 */
    static void
test_fill_called_on_string(void)
{
    js_read_T reader;

    reader.js_fill = fill_from_cookie;
    reader.js_used = 0;
    reader.js_buf = (char_u *)" \"foo";
    reader.js_end = reader.js_buf + STRLEN(reader.js_buf);
    reader.js_cookie =	      " \"foobar\"  ";
    assert(json_decode_string(&reader, NULL, '"') == OK);
}
#endif

    int
main(void)
{
#if defined(FEAT_EVAL)
    test_decode_find_end();
    test_fill_called_on_find_end();
    test_fill_called_on_string();
#endif
    return 0;
}