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|
// This is an open source non-commercial project. Dear PVS-Studio, please check
// it. PVS-Studio Static Code Analyzer for C, C++ and C#: http://www.viva64.com
#include <assert.h>
#include <inttypes.h>
#include <stdbool.h>
#include <stdlib.h>
#include <string.h>
#include "nvim/api/private/defs.h"
#include "nvim/api/private/helpers.h"
#include "nvim/api/vim.h"
#include "nvim/ascii.h"
#include "nvim/assert.h"
#include "nvim/buffer.h"
#include "nvim/charset.h"
#include "nvim/decoration.h"
#include "nvim/eval.h"
#include "nvim/eval/typval.h"
#include "nvim/extmark.h"
#include "nvim/fileio.h"
#include "nvim/getchar.h"
#include "nvim/lib/kvec.h"
#include "nvim/lua/executor.h"
#include "nvim/map.h"
#include "nvim/map_defs.h"
#include "nvim/memline.h"
#include "nvim/memory.h"
#include "nvim/msgpack_rpc/helpers.h"
#include "nvim/option.h"
#include "nvim/option_defs.h"
#include "nvim/syntax.h"
#include "nvim/ui.h"
#include "nvim/version.h"
#include "nvim/vim.h"
#include "nvim/window.h"
/// Helper structure for vim_to_object
typedef struct {
kvec_withinit_t(Object, 2) stack; ///< Object stack.
} EncodedData;
#ifdef INCLUDE_GENERATED_DECLARATIONS
# include "api/private/funcs_metadata.generated.h"
# include "api/private/helpers.c.generated.h"
# include "api/private/ui_events_metadata.generated.h"
#endif
/// Start block that may cause VimL exceptions while evaluating another code
///
/// Used when caller is supposed to be operating when other VimL code is being
/// processed and that “other VimL code” must not be affected.
///
/// @param[out] tstate Location where try state should be saved.
void try_enter(TryState *const tstate)
{
// TODO(ZyX-I): Check whether try_enter()/try_leave() may use
// enter_cleanup()/leave_cleanup(). Or
// save_dbg_stuff()/restore_dbg_stuff().
*tstate = (TryState) {
.current_exception = current_exception,
.msg_list = (const struct msglist *const *)msg_list,
.private_msg_list = NULL,
.trylevel = trylevel,
.got_int = got_int,
.need_rethrow = need_rethrow,
.did_emsg = did_emsg,
};
msg_list = &tstate->private_msg_list;
current_exception = NULL;
trylevel = 1;
got_int = false;
need_rethrow = false;
did_emsg = false;
}
/// End try block, set the error message if any and restore previous state
///
/// @warning Return is consistent with most functions (false on error), not with
/// try_end (true on error).
///
/// @param[in] tstate Previous state to restore.
/// @param[out] err Location where error should be saved.
///
/// @return false if error occurred, true otherwise.
bool try_leave(const TryState *const tstate, Error *const err)
FUNC_ATTR_NONNULL_ALL FUNC_ATTR_WARN_UNUSED_RESULT
{
const bool ret = !try_end(err);
assert(trylevel == 0);
assert(!need_rethrow);
assert(!got_int);
assert(!did_emsg);
assert(msg_list == &tstate->private_msg_list);
assert(*msg_list == NULL);
assert(current_exception == NULL);
msg_list = (struct msglist **)tstate->msg_list;
current_exception = tstate->current_exception;
trylevel = tstate->trylevel;
got_int = tstate->got_int;
need_rethrow = tstate->need_rethrow;
did_emsg = tstate->did_emsg;
return ret;
}
/// Start block that may cause vimscript exceptions
///
/// Each try_start() call should be mirrored by try_end() call.
///
/// To be used as a replacement of `:try … catch … endtry` in C code, in cases
/// when error flag could not already be set. If there may be pending error
/// state at the time try_start() is executed which needs to be preserved,
/// try_enter()/try_leave() pair should be used instead.
void try_start(void)
{
++trylevel;
}
/// End try block, set the error message if any and return true if an error
/// occurred.
///
/// @param err Pointer to the stack-allocated error object
/// @return true if an error occurred
bool try_end(Error *err)
{
// Note: all globals manipulated here should be saved/restored in
// try_enter/try_leave.
trylevel--;
// Set by emsg(), affects aborting(). See also enter_cleanup().
did_emsg = false;
force_abort = false;
if (got_int) {
if (current_exception) {
// If we got an interrupt, discard the current exception
discard_current_exception();
}
api_set_error(err, kErrorTypeException, "Keyboard interrupt");
got_int = false;
} else if (msg_list != NULL && *msg_list != NULL) {
int should_free;
char *msg = (char *)get_exception_string(*msg_list,
ET_ERROR,
NULL,
&should_free);
api_set_error(err, kErrorTypeException, "%s", msg);
free_global_msglist();
if (should_free) {
xfree(msg);
}
} else if (current_exception) {
api_set_error(err, kErrorTypeException, "%s", current_exception->value);
discard_current_exception();
}
return ERROR_SET(err);
}
/// Recursively expands a vimscript value in a dict
///
/// @param dict The vimscript dict
/// @param key The key
/// @param[out] err Details of an error that may have occurred
Object dict_get_value(dict_T *dict, String key, Error *err)
{
dictitem_T *const di = tv_dict_find(dict, key.data, (ptrdiff_t)key.size);
if (di == NULL) {
api_set_error(err, kErrorTypeValidation, "Key not found: %s", key.data);
return (Object)OBJECT_INIT;
}
return vim_to_object(&di->di_tv);
}
dictitem_T *dict_check_writable(dict_T *dict, String key, bool del, Error *err)
{
dictitem_T *di = tv_dict_find(dict, key.data, (ptrdiff_t)key.size);
if (di != NULL) {
if (di->di_flags & DI_FLAGS_RO) {
api_set_error(err, kErrorTypeException, "Key is read-only: %s", key.data);
} else if (di->di_flags & DI_FLAGS_LOCK) {
api_set_error(err, kErrorTypeException, "Key is locked: %s", key.data);
} else if (del && (di->di_flags & DI_FLAGS_FIX)) {
api_set_error(err, kErrorTypeException, "Key is fixed: %s", key.data);
}
} else if (dict->dv_lock) {
api_set_error(err, kErrorTypeException, "Dictionary is locked");
} else if (key.size == 0) {
api_set_error(err, kErrorTypeValidation, "Key name is empty");
} else if (key.size > INT_MAX) {
api_set_error(err, kErrorTypeValidation, "Key name is too long");
}
return di;
}
/// Set a value in a scope dict. Objects are recursively expanded into their
/// vimscript equivalents.
///
/// @param dict The vimscript dict
/// @param key The key
/// @param value The new value
/// @param del Delete key in place of setting it. Argument `value` is ignored in
/// this case.
/// @param retval If true the old value will be converted and returned.
/// @param[out] err Details of an error that may have occurred
/// @return The old value if `retval` is true and the key was present, else NIL
Object dict_set_var(dict_T *dict, String key, Object value, bool del, bool retval, Error *err)
{
Object rv = OBJECT_INIT;
dictitem_T *di = dict_check_writable(dict, key, del, err);
if (ERROR_SET(err)) {
return rv;
}
if (del) {
// Delete the key
if (di == NULL) {
// Doesn't exist, fail
api_set_error(err, kErrorTypeValidation, "Key not found: %s",
key.data);
} else {
// Return the old value
if (retval) {
rv = vim_to_object(&di->di_tv);
}
// Delete the entry
tv_dict_item_remove(dict, di);
}
} else {
// Update the key
typval_T tv;
// Convert the object to a vimscript type in the temporary variable
if (!object_to_vim(value, &tv, err)) {
return rv;
}
if (di == NULL) {
// Need to create an entry
di = tv_dict_item_alloc_len(key.data, key.size);
tv_dict_add(dict, di);
} else {
// Return the old value
if (retval) {
rv = vim_to_object(&di->di_tv);
}
tv_clear(&di->di_tv);
}
// Update the value
tv_copy(&tv, &di->di_tv);
// Clear the temporary variable
tv_clear(&tv);
}
return rv;
}
/// Gets the value of a global or local(buffer, window) option.
///
/// @param from If `type` is `SREQ_WIN` or `SREQ_BUF`, this must be a pointer
/// to the window or buffer.
/// @param type One of `SREQ_GLOBAL`, `SREQ_WIN` or `SREQ_BUF`
/// @param name The option name
/// @param[out] err Details of an error that may have occurred
/// @return the option value
Object get_option_from(void *from, int type, String name, Error *err)
{
Object rv = OBJECT_INIT;
if (name.size == 0) {
api_set_error(err, kErrorTypeValidation, "Empty option name");
return rv;
}
// Return values
int64_t numval;
char *stringval = NULL;
int flags = get_option_value_strict(name.data, &numval, &stringval,
type, from);
if (!flags) {
api_set_error(err, kErrorTypeValidation, "Invalid option name: '%s'",
name.data);
return rv;
}
if (flags & SOPT_BOOL) {
rv.type = kObjectTypeBoolean;
rv.data.boolean = numval ? true : false;
} else if (flags & SOPT_NUM) {
rv.type = kObjectTypeInteger;
rv.data.integer = numval;
} else if (flags & SOPT_STRING) {
if (stringval) {
rv.type = kObjectTypeString;
rv.data.string.data = stringval;
rv.data.string.size = strlen(stringval);
} else {
api_set_error(err, kErrorTypeException,
"Failed to get value for option '%s'",
name.data);
}
} else {
api_set_error(err,
kErrorTypeException,
"Unknown type for option '%s'",
name.data);
}
return rv;
}
/// Sets the value of a global or local(buffer, window) option.
///
/// @param to If `type` is `SREQ_WIN` or `SREQ_BUF`, this must be a pointer
/// to the window or buffer.
/// @param type One of `SREQ_GLOBAL`, `SREQ_WIN` or `SREQ_BUF`
/// @param name The option name
/// @param[out] err Details of an error that may have occurred
void set_option_to(uint64_t channel_id, void *to, int type, String name, Object value, Error *err)
{
if (name.size == 0) {
api_set_error(err, kErrorTypeValidation, "Empty option name");
return;
}
int flags = get_option_value_strict(name.data, NULL, NULL, type, to);
if (flags == 0) {
api_set_error(err, kErrorTypeValidation, "Invalid option name '%s'",
name.data);
return;
}
if (value.type == kObjectTypeNil) {
if (type == SREQ_GLOBAL) {
api_set_error(err, kErrorTypeException, "Cannot unset option '%s'",
name.data);
return;
} else if (!(flags & SOPT_GLOBAL)) {
api_set_error(err,
kErrorTypeException,
"Cannot unset option '%s' "
"because it doesn't have a global value",
name.data);
return;
} else {
unset_global_local_option(name.data, to);
return;
}
}
int numval = 0;
char *stringval = NULL;
if (flags & SOPT_BOOL) {
if (value.type != kObjectTypeBoolean) {
api_set_error(err,
kErrorTypeValidation,
"Option '%s' requires a Boolean value",
name.data);
return;
}
numval = value.data.boolean;
} else if (flags & SOPT_NUM) {
if (value.type != kObjectTypeInteger) {
api_set_error(err, kErrorTypeValidation,
"Option '%s' requires an integer value",
name.data);
return;
}
if (value.data.integer > INT_MAX || value.data.integer < INT_MIN) {
api_set_error(err, kErrorTypeValidation,
"Value for option '%s' is out of range",
name.data);
return;
}
numval = (int)value.data.integer;
} else {
if (value.type != kObjectTypeString) {
api_set_error(err, kErrorTypeValidation,
"Option '%s' requires a string value",
name.data);
return;
}
stringval = (char *)value.data.string.data;
}
const sctx_T save_current_sctx = current_sctx;
current_sctx.sc_sid =
channel_id == LUA_INTERNAL_CALL ? SID_LUA : SID_API_CLIENT;
current_sctx.sc_lnum = 0;
current_channel_id = channel_id;
const int opt_flags = (type == SREQ_WIN && !(flags & SOPT_GLOBAL))
? 0 : (type == SREQ_GLOBAL)
? OPT_GLOBAL : OPT_LOCAL;
set_option_value_for(name.data, numval, stringval,
opt_flags, type, to, err);
current_sctx = save_current_sctx;
}
#define TYPVAL_ENCODE_ALLOW_SPECIALS false
#define TYPVAL_ENCODE_CONV_NIL(tv) \
kvi_push(edata->stack, NIL)
#define TYPVAL_ENCODE_CONV_BOOL(tv, num) \
kvi_push(edata->stack, BOOLEAN_OBJ((Boolean)(num)))
#define TYPVAL_ENCODE_CONV_NUMBER(tv, num) \
kvi_push(edata->stack, INTEGER_OBJ((Integer)(num)))
#define TYPVAL_ENCODE_CONV_UNSIGNED_NUMBER TYPVAL_ENCODE_CONV_NUMBER
#define TYPVAL_ENCODE_CONV_FLOAT(tv, flt) \
kvi_push(edata->stack, FLOAT_OBJ((Float)(flt)))
#define TYPVAL_ENCODE_CONV_STRING(tv, str, len) \
do { \
const size_t len_ = (size_t)(len); \
const char *const str_ = (const char *)(str); \
assert(len_ == 0 || str_ != NULL); \
kvi_push(edata->stack, STRING_OBJ(cbuf_to_string((len_?str_:""), len_))); \
} while (0)
#define TYPVAL_ENCODE_CONV_STR_STRING TYPVAL_ENCODE_CONV_STRING
#define TYPVAL_ENCODE_CONV_EXT_STRING(tv, str, len, type) \
TYPVAL_ENCODE_CONV_NIL(tv)
#define TYPVAL_ENCODE_CONV_BLOB(tv, blob, len) \
do { \
const size_t len_ = (size_t)(len); \
const blob_T *const blob_ = (blob); \
kvi_push(edata->stack, STRING_OBJ(((String) { \
.data = len_ != 0 ? xmemdup(blob_->bv_ga.ga_data, len_) : NULL, \
.size = len_ \
}))); \
} while (0)
#define TYPVAL_ENCODE_CONV_FUNC_START(tv, fun) \
do { \
TYPVAL_ENCODE_CONV_NIL(tv); \
goto typval_encode_stop_converting_one_item; \
} while (0)
#define TYPVAL_ENCODE_CONV_FUNC_BEFORE_ARGS(tv, len)
#define TYPVAL_ENCODE_CONV_FUNC_BEFORE_SELF(tv, len)
#define TYPVAL_ENCODE_CONV_FUNC_END(tv)
#define TYPVAL_ENCODE_CONV_EMPTY_LIST(tv) \
kvi_push(edata->stack, ARRAY_OBJ(((Array) { .capacity = 0, .size = 0 })))
#define TYPVAL_ENCODE_CONV_EMPTY_DICT(tv, dict) \
kvi_push(edata->stack, \
DICTIONARY_OBJ(((Dictionary) { .capacity = 0, .size = 0 })))
static inline void typval_encode_list_start(EncodedData *const edata, const size_t len)
FUNC_ATTR_ALWAYS_INLINE FUNC_ATTR_NONNULL_ALL
{
kvi_push(edata->stack, ARRAY_OBJ(((Array) {
.capacity = len,
.size = 0,
.items = xmalloc(len * sizeof(*((Object)OBJECT_INIT).data.array.items)),
})));
}
#define TYPVAL_ENCODE_CONV_LIST_START(tv, len) \
typval_encode_list_start(edata, (size_t)(len))
#define TYPVAL_ENCODE_CONV_REAL_LIST_AFTER_START(tv, mpsv)
static inline void typval_encode_between_list_items(EncodedData *const edata)
FUNC_ATTR_ALWAYS_INLINE FUNC_ATTR_NONNULL_ALL
{
Object item = kv_pop(edata->stack);
Object *const list = &kv_last(edata->stack);
assert(list->type == kObjectTypeArray);
assert(list->data.array.size < list->data.array.capacity);
list->data.array.items[list->data.array.size++] = item;
}
#define TYPVAL_ENCODE_CONV_LIST_BETWEEN_ITEMS(tv) \
typval_encode_between_list_items(edata)
static inline void typval_encode_list_end(EncodedData *const edata)
FUNC_ATTR_ALWAYS_INLINE FUNC_ATTR_NONNULL_ALL
{
typval_encode_between_list_items(edata);
#ifndef NDEBUG
const Object *const list = &kv_last(edata->stack);
assert(list->data.array.size == list->data.array.capacity);
#endif
}
#define TYPVAL_ENCODE_CONV_LIST_END(tv) \
typval_encode_list_end(edata)
static inline void typval_encode_dict_start(EncodedData *const edata, const size_t len)
FUNC_ATTR_ALWAYS_INLINE FUNC_ATTR_NONNULL_ALL
{
kvi_push(edata->stack, DICTIONARY_OBJ(((Dictionary) {
.capacity = len,
.size = 0,
.items = xmalloc(len * sizeof(
*((Object)OBJECT_INIT).data.dictionary.items)),
})));
}
#define TYPVAL_ENCODE_CONV_DICT_START(tv, dict, len) \
typval_encode_dict_start(edata, (size_t)(len))
#define TYPVAL_ENCODE_CONV_REAL_DICT_AFTER_START(tv, dict, mpsv)
#define TYPVAL_ENCODE_SPECIAL_DICT_KEY_CHECK(label, kv_pair)
static inline void typval_encode_after_key(EncodedData *const edata)
FUNC_ATTR_ALWAYS_INLINE FUNC_ATTR_NONNULL_ALL
{
Object key = kv_pop(edata->stack);
Object *const dict = &kv_last(edata->stack);
assert(dict->type == kObjectTypeDictionary);
assert(dict->data.dictionary.size < dict->data.dictionary.capacity);
if (key.type == kObjectTypeString) {
dict->data.dictionary.items[dict->data.dictionary.size].key
= key.data.string;
} else {
api_free_object(key);
dict->data.dictionary.items[dict->data.dictionary.size].key
= STATIC_CSTR_TO_STRING("__INVALID_KEY__");
}
}
#define TYPVAL_ENCODE_CONV_DICT_AFTER_KEY(tv, dict) \
typval_encode_after_key(edata)
static inline void typval_encode_between_dict_items(EncodedData *const edata)
FUNC_ATTR_ALWAYS_INLINE FUNC_ATTR_NONNULL_ALL
{
Object val = kv_pop(edata->stack);
Object *const dict = &kv_last(edata->stack);
assert(dict->type == kObjectTypeDictionary);
assert(dict->data.dictionary.size < dict->data.dictionary.capacity);
dict->data.dictionary.items[dict->data.dictionary.size++].value = val;
}
#define TYPVAL_ENCODE_CONV_DICT_BETWEEN_ITEMS(tv, dict) \
typval_encode_between_dict_items(edata)
static inline void typval_encode_dict_end(EncodedData *const edata)
FUNC_ATTR_ALWAYS_INLINE FUNC_ATTR_NONNULL_ALL
{
typval_encode_between_dict_items(edata);
#ifndef NDEBUG
const Object *const dict = &kv_last(edata->stack);
assert(dict->data.dictionary.size == dict->data.dictionary.capacity);
#endif
}
#define TYPVAL_ENCODE_CONV_DICT_END(tv, dict) \
typval_encode_dict_end(edata)
#define TYPVAL_ENCODE_CONV_RECURSE(val, conv_type) \
TYPVAL_ENCODE_CONV_NIL(val)
#define TYPVAL_ENCODE_SCOPE static
#define TYPVAL_ENCODE_NAME object
#define TYPVAL_ENCODE_FIRST_ARG_TYPE EncodedData *const
#define TYPVAL_ENCODE_FIRST_ARG_NAME edata
#include "nvim/eval/typval_encode.c.h"
#undef TYPVAL_ENCODE_SCOPE
#undef TYPVAL_ENCODE_NAME
#undef TYPVAL_ENCODE_FIRST_ARG_TYPE
#undef TYPVAL_ENCODE_FIRST_ARG_NAME
#undef TYPVAL_ENCODE_CONV_STRING
#undef TYPVAL_ENCODE_CONV_STR_STRING
#undef TYPVAL_ENCODE_CONV_EXT_STRING
#undef TYPVAL_ENCODE_CONV_BLOB
#undef TYPVAL_ENCODE_CONV_NUMBER
#undef TYPVAL_ENCODE_CONV_FLOAT
#undef TYPVAL_ENCODE_CONV_FUNC_START
#undef TYPVAL_ENCODE_CONV_FUNC_BEFORE_ARGS
#undef TYPVAL_ENCODE_CONV_FUNC_BEFORE_SELF
#undef TYPVAL_ENCODE_CONV_FUNC_END
#undef TYPVAL_ENCODE_CONV_EMPTY_LIST
#undef TYPVAL_ENCODE_CONV_LIST_START
#undef TYPVAL_ENCODE_CONV_REAL_LIST_AFTER_START
#undef TYPVAL_ENCODE_CONV_EMPTY_DICT
#undef TYPVAL_ENCODE_CONV_NIL
#undef TYPVAL_ENCODE_CONV_BOOL
#undef TYPVAL_ENCODE_CONV_UNSIGNED_NUMBER
#undef TYPVAL_ENCODE_CONV_DICT_START
#undef TYPVAL_ENCODE_CONV_REAL_DICT_AFTER_START
#undef TYPVAL_ENCODE_CONV_DICT_END
#undef TYPVAL_ENCODE_CONV_DICT_AFTER_KEY
#undef TYPVAL_ENCODE_CONV_DICT_BETWEEN_ITEMS
#undef TYPVAL_ENCODE_SPECIAL_DICT_KEY_CHECK
#undef TYPVAL_ENCODE_CONV_LIST_END
#undef TYPVAL_ENCODE_CONV_LIST_BETWEEN_ITEMS
#undef TYPVAL_ENCODE_CONV_RECURSE
#undef TYPVAL_ENCODE_ALLOW_SPECIALS
/// Convert a vim object to an `Object` instance, recursively expanding
/// Arrays/Dictionaries.
///
/// @param obj The source object
/// @return The converted value
Object vim_to_object(typval_T *obj)
{
EncodedData edata;
kvi_init(edata.stack);
const int evo_ret = encode_vim_to_object(&edata, obj,
"vim_to_object argument");
(void)evo_ret;
assert(evo_ret == OK);
Object ret = kv_A(edata.stack, 0);
assert(kv_size(edata.stack) == 1);
kvi_destroy(edata.stack);
return ret;
}
buf_T *find_buffer_by_handle(Buffer buffer, Error *err)
{
if (buffer == 0) {
return curbuf;
}
buf_T *rv = handle_get_buffer(buffer);
if (!rv) {
api_set_error(err, kErrorTypeValidation, "Invalid buffer id: %d", buffer);
}
return rv;
}
win_T *find_window_by_handle(Window window, Error *err)
{
if (window == 0) {
return curwin;
}
win_T *rv = handle_get_window(window);
if (!rv) {
api_set_error(err, kErrorTypeValidation, "Invalid window id: %d", window);
}
return rv;
}
tabpage_T *find_tab_by_handle(Tabpage tabpage, Error *err)
{
if (tabpage == 0) {
return curtab;
}
tabpage_T *rv = handle_get_tabpage(tabpage);
if (!rv) {
api_set_error(err, kErrorTypeValidation, "Invalid tabpage id: %d", tabpage);
}
return rv;
}
/// Allocates a String consisting of a single char. Does not support multibyte
/// characters. The resulting string is also NUL-terminated, to facilitate
/// interoperating with code using C strings.
///
/// @param char the char to convert
/// @return the resulting String, if the input char was NUL, an
/// empty String is returned
String cchar_to_string(char c)
{
char buf[] = { c, NUL };
return (String){
.data = xmemdupz(buf, 1),
.size = (c != NUL) ? 1 : 0
};
}
/// Copies a C string into a String (binary safe string, characters + length).
/// The resulting string is also NUL-terminated, to facilitate interoperating
/// with code using C strings.
///
/// @param str the C string to copy
/// @return the resulting String, if the input string was NULL, an
/// empty String is returned
String cstr_to_string(const char *str)
{
if (str == NULL) {
return (String)STRING_INIT;
}
size_t len = strlen(str);
return (String){
.data = xmemdupz(str, len),
.size = len,
};
}
/// Copies buffer to an allocated String.
/// The resulting string is also NUL-terminated, to facilitate interoperating
/// with code using C strings.
///
/// @param buf the buffer to copy
/// @param size length of the buffer
/// @return the resulting String, if the input string was NULL, an
/// empty String is returned
String cbuf_to_string(const char *buf, size_t size)
FUNC_ATTR_NONNULL_ALL
{
return (String){
.data = xmemdupz(buf, size),
.size = size
};
}
String cstrn_to_string(const char *str, size_t maxsize)
FUNC_ATTR_NONNULL_ALL
{
return cbuf_to_string(str, strnlen(str, maxsize));
}
/// Creates a String using the given C string. Unlike
/// cstr_to_string this function DOES NOT copy the C string.
///
/// @param str the C string to use
/// @return The resulting String, or an empty String if
/// str was NULL
String cstr_as_string(char *str) FUNC_ATTR_PURE
{
if (str == NULL) {
return (String)STRING_INIT;
}
return (String){ .data = str, .size = strlen(str) };
}
/// Return the owned memory of a ga as a String
///
/// Reinitializes the ga to a valid empty state.
String ga_take_string(garray_T *ga)
{
String str = { .data = (char *)ga->ga_data, .size = (size_t)ga->ga_len };
ga->ga_data = NULL;
ga->ga_len = 0;
ga->ga_maxlen = 0;
return str;
}
/// Creates "readfile()-style" ArrayOf(String) from a binary string.
///
/// - Lines break at \n (NL/LF/line-feed).
/// - NUL bytes are replaced with NL.
/// - If the last byte is a linebreak an extra empty list item is added.
///
/// @param input Binary string
/// @param crlf Also break lines at CR and CRLF.
/// @return [allocated] String array
Array string_to_array(const String input, bool crlf)
{
Array ret = ARRAY_DICT_INIT;
for (size_t i = 0; i < input.size; i++) {
const char *start = input.data + i;
const char *end = start;
size_t line_len = 0;
for (; line_len < input.size - i; line_len++) {
end = start + line_len;
if (*end == NL || (crlf && *end == CAR)) {
break;
}
}
i += line_len;
if (crlf && *end == CAR && i + 1 < input.size && *(end + 1) == NL) {
i += 1; // Advance past CRLF.
}
String s = {
.size = line_len,
.data = xmemdupz(start, line_len),
};
memchrsub(s.data, NUL, NL, line_len);
ADD(ret, STRING_OBJ(s));
// If line ends at end-of-buffer, add empty final item.
// This is "readfile()-style", see also ":help channel-lines".
if (i + 1 == input.size && (*end == NL || (crlf && *end == CAR))) {
ADD(ret, STRING_OBJ(STRING_INIT));
}
}
return ret;
}
/// Set, tweak, or remove a mapping in a mode. Acts as the implementation for
/// functions like @ref nvim_buf_set_keymap.
///
/// Arguments are handled like @ref nvim_set_keymap unless noted.
/// @param buffer Buffer handle for a specific buffer, or 0 for the current
/// buffer, or -1 to signify global behavior ("all buffers")
/// @param is_unmap When true, removes the mapping that matches {lhs}.
void modify_keymap(Buffer buffer, bool is_unmap, String mode, String lhs, String rhs,
Dictionary opts, Error *err)
{
char *err_msg = NULL; // the error message to report, if any
char *err_arg = NULL; // argument for the error message format string
ErrorType err_type = kErrorTypeNone;
char_u *lhs_buf = NULL;
char_u *rhs_buf = NULL;
bool global = (buffer == -1);
if (global) {
buffer = 0;
}
buf_T *target_buf = find_buffer_by_handle(buffer, err);
if (!target_buf) {
return;
}
MapArguments parsed_args;
memset(&parsed_args, 0, sizeof(parsed_args));
if (parse_keymap_opts(opts, &parsed_args, err)) {
goto fail_and_free;
}
parsed_args.buffer = !global;
set_maparg_lhs_rhs((char_u *)lhs.data, lhs.size,
(char_u *)rhs.data, rhs.size,
CPO_TO_CPO_FLAGS, &parsed_args);
if (parsed_args.lhs_len > MAXMAPLEN) {
err_msg = "LHS exceeds maximum map length: %s";
err_arg = lhs.data;
err_type = kErrorTypeValidation;
goto fail_with_message;
}
if (mode.size > 1) {
err_msg = "Shortname is too long: %s";
err_arg = mode.data;
err_type = kErrorTypeValidation;
goto fail_with_message;
}
int mode_val; // integer value of the mapping mode, to be passed to do_map()
char_u *p = (char_u *)((mode.size) ? mode.data : "m");
if (STRNCMP(p, "!", 2) == 0) {
mode_val = get_map_mode(&p, true); // mapmode-ic
} else {
mode_val = get_map_mode(&p, false);
if ((mode_val == VISUAL + SELECTMODE + NORMAL + OP_PENDING)
&& mode.size > 0) {
// get_map_mode() treats unrecognized mode shortnames as ":map".
// This is an error unless the given shortname was empty string "".
err_msg = "Invalid mode shortname: \"%s\"";
err_arg = (char *)p;
err_type = kErrorTypeValidation;
goto fail_with_message;
}
}
if (parsed_args.lhs_len == 0) {
err_msg = "Invalid (empty) LHS";
err_arg = "";
err_type = kErrorTypeValidation;
goto fail_with_message;
}
bool is_noremap = parsed_args.noremap;
assert(!(is_unmap && is_noremap));
if (!is_unmap && (parsed_args.rhs_len == 0 && !parsed_args.rhs_is_noop)) {
if (rhs.size == 0) { // assume that the user wants RHS to be a <Nop>
parsed_args.rhs_is_noop = true;
} else {
// the given RHS was nonempty and not a <Nop>, but was parsed as if it
// were empty?
assert(false && "Failed to parse nonempty RHS!");
err_msg = "Parsing of nonempty RHS failed: %s";
err_arg = rhs.data;
err_type = kErrorTypeException;
goto fail_with_message;
}
} else if (is_unmap && parsed_args.rhs_len) {
err_msg = "Gave nonempty RHS in unmap command: %s";
err_arg = (char *)parsed_args.rhs;
err_type = kErrorTypeValidation;
goto fail_with_message;
}
// buf_do_map() reads noremap/unmap as its own argument.
int maptype_val = 0;
if (is_unmap) {
maptype_val = 1;
} else if (is_noremap) {
maptype_val = 2;
}
switch (buf_do_map(maptype_val, &parsed_args, mode_val, 0, target_buf)) {
case 0:
break;
case 1:
api_set_error(err, kErrorTypeException, (char *)e_invarg, 0);
goto fail_and_free;
case 2:
api_set_error(err, kErrorTypeException, (char *)e_nomap, 0);
goto fail_and_free;
case 5:
api_set_error(err, kErrorTypeException,
"E227: mapping already exists for %s", parsed_args.lhs);
goto fail_and_free;
default:
assert(false && "Unrecognized return code!");
goto fail_and_free;
} // switch
xfree(lhs_buf);
xfree(rhs_buf);
xfree(parsed_args.rhs);
xfree(parsed_args.orig_rhs);
return;
fail_with_message:
api_set_error(err, err_type, err_msg, err_arg);
fail_and_free:
xfree(lhs_buf);
xfree(rhs_buf);
xfree(parsed_args.rhs);
xfree(parsed_args.orig_rhs);
return;
}
/// Read in the given opts, setting corresponding flags in `out`.
///
/// @param opts A dictionary passed to @ref nvim_set_keymap or
/// @ref nvim_buf_set_keymap.
/// @param[out] out MapArguments object in which to set parsed
/// |:map-arguments| flags.
/// @param[out] err Error details, if any.
///
/// @returns Zero on success, nonzero on failure.
Integer parse_keymap_opts(Dictionary opts, MapArguments *out, Error *err)
{
char *err_msg = NULL; // the error message to report, if any
char *err_arg = NULL; // argument for the error message format string
ErrorType err_type = kErrorTypeNone;
out->buffer = false;
out->nowait = false;
out->silent = false;
out->script = false;
out->expr = false;
out->unique = false;
for (size_t i = 0; i < opts.size; i++) {
KeyValuePair *key_and_val = &opts.items[i];
char *optname = key_and_val->key.data;
if (key_and_val->value.type != kObjectTypeBoolean) {
err_msg = "Gave non-boolean value for an opt: %s";
err_arg = optname;
err_type = kErrorTypeValidation;
goto fail_with_message;
}
bool was_valid_opt = false;
switch (optname[0]) {
// note: strncmp up to and including the null terminator, so that
// "nowaitFoobar" won't match against "nowait"
// don't recognize 'buffer' as a key; user shouldn't provide <buffer>
// when calling nvim_set_keymap or nvim_buf_set_keymap, since it can be
// inferred from which function they called
case 'n':
if (STRNCMP(optname, "noremap", 8) == 0) {
was_valid_opt = true;
out->noremap = key_and_val->value.data.boolean;
} else if (STRNCMP(optname, "nowait", 7) == 0) {
was_valid_opt = true;
out->nowait = key_and_val->value.data.boolean;
}
break;
case 's':
if (STRNCMP(optname, "silent", 7) == 0) {
was_valid_opt = true;
out->silent = key_and_val->value.data.boolean;
} else if (STRNCMP(optname, "script", 7) == 0) {
was_valid_opt = true;
out->script = key_and_val->value.data.boolean;
}
break;
case 'e':
if (STRNCMP(optname, "expr", 5) == 0) {
was_valid_opt = true;
out->expr = key_and_val->value.data.boolean;
}
break;
case 'u':
if (STRNCMP(optname, "unique", 7) == 0) {
was_valid_opt = true;
out->unique = key_and_val->value.data.boolean;
}
break;
default:
break;
} // switch
if (!was_valid_opt) {
err_msg = "Invalid key: %s";
err_arg = optname;
err_type = kErrorTypeValidation;
goto fail_with_message;
}
} // for
return 0;
fail_with_message:
api_set_error(err, err_type, err_msg, err_arg);
return 1;
}
/// Collects `n` buffer lines into array `l`, optionally replacing newlines
/// with NUL.
///
/// @param buf Buffer to get lines from
/// @param n Number of lines to collect
/// @param replace_nl Replace newlines ("\n") with NUL
/// @param start Line number to start from
/// @param[out] l Lines are copied here
/// @param err[out] Error, if any
/// @return true unless `err` was set
bool buf_collect_lines(buf_T *buf, size_t n, int64_t start, bool replace_nl, Array *l, Error *err)
{
for (size_t i = 0; i < n; i++) {
int64_t lnum = start + (int64_t)i;
if (lnum >= MAXLNUM) {
if (err != NULL) {
api_set_error(err, kErrorTypeValidation, "Line index is too high");
}
return false;
}
const char *bufstr = (char *)ml_get_buf(buf, (linenr_T)lnum, false);
Object str = STRING_OBJ(cstr_to_string(bufstr));
if (replace_nl) {
// Vim represents NULs as NLs, but this may confuse clients.
strchrsub(str.data.string.data, '\n', '\0');
}
l->items[i] = str;
}
return true;
}
/// Converts from type Object to a VimL value.
///
/// @param obj Object to convert from.
/// @param tv Conversion result is placed here. On failure member v_type is
/// set to VAR_UNKNOWN (no allocation was made for this variable).
/// returns true if conversion is successful, otherwise false.
bool object_to_vim(Object obj, typval_T *tv, Error *err)
{
tv->v_type = VAR_UNKNOWN;
tv->v_lock = VAR_UNLOCKED;
switch (obj.type) {
case kObjectTypeNil:
tv->v_type = VAR_SPECIAL;
tv->vval.v_special = kSpecialVarNull;
break;
case kObjectTypeBoolean:
tv->v_type = VAR_BOOL;
tv->vval.v_bool = obj.data.boolean? kBoolVarTrue: kBoolVarFalse;
break;
case kObjectTypeBuffer:
case kObjectTypeWindow:
case kObjectTypeTabpage:
case kObjectTypeInteger:
STATIC_ASSERT(sizeof(obj.data.integer) <= sizeof(varnumber_T),
"Integer size must be <= VimL number size");
tv->v_type = VAR_NUMBER;
tv->vval.v_number = (varnumber_T)obj.data.integer;
break;
case kObjectTypeFloat:
tv->v_type = VAR_FLOAT;
tv->vval.v_float = obj.data.floating;
break;
case kObjectTypeString:
tv->v_type = VAR_STRING;
if (obj.data.string.data == NULL) {
tv->vval.v_string = NULL;
} else {
tv->vval.v_string = xmemdupz(obj.data.string.data,
obj.data.string.size);
}
break;
case kObjectTypeArray: {
list_T *const list = tv_list_alloc((ptrdiff_t)obj.data.array.size);
for (uint32_t i = 0; i < obj.data.array.size; i++) {
Object item = obj.data.array.items[i];
typval_T li_tv;
if (!object_to_vim(item, &li_tv, err)) {
tv_list_free(list);
return false;
}
tv_list_append_owned_tv(list, li_tv);
}
tv_list_ref(list);
tv->v_type = VAR_LIST;
tv->vval.v_list = list;
break;
}
case kObjectTypeDictionary: {
dict_T *const dict = tv_dict_alloc();
for (uint32_t i = 0; i < obj.data.dictionary.size; i++) {
KeyValuePair item = obj.data.dictionary.items[i];
String key = item.key;
if (key.size == 0) {
api_set_error(err, kErrorTypeValidation,
"Empty dictionary keys aren't allowed");
// cleanup
tv_dict_free(dict);
return false;
}
dictitem_T *const di = tv_dict_item_alloc(key.data);
if (!object_to_vim(item.value, &di->di_tv, err)) {
// cleanup
tv_dict_item_free(di);
tv_dict_free(dict);
return false;
}
tv_dict_add(dict, di);
}
dict->dv_refcount++;
tv->v_type = VAR_DICT;
tv->vval.v_dict = dict;
break;
}
default:
abort();
}
return true;
}
void api_free_string(String value)
{
if (!value.data) {
return;
}
xfree(value.data);
}
void api_free_object(Object value)
{
switch (value.type) {
case kObjectTypeNil:
case kObjectTypeBoolean:
case kObjectTypeInteger:
case kObjectTypeFloat:
case kObjectTypeBuffer:
case kObjectTypeWindow:
case kObjectTypeTabpage:
break;
case kObjectTypeString:
api_free_string(value.data.string);
break;
case kObjectTypeArray:
api_free_array(value.data.array);
break;
case kObjectTypeDictionary:
api_free_dictionary(value.data.dictionary);
break;
case kObjectTypeLuaRef:
api_free_luaref(value.data.luaref);
break;
default:
abort();
}
}
void api_free_array(Array value)
{
for (size_t i = 0; i < value.size; i++) {
api_free_object(value.items[i]);
}
xfree(value.items);
}
void api_free_dictionary(Dictionary value)
{
for (size_t i = 0; i < value.size; i++) {
api_free_string(value.items[i].key);
api_free_object(value.items[i].value);
}
xfree(value.items);
}
void api_clear_error(Error *value)
FUNC_ATTR_NONNULL_ALL
{
if (!ERROR_SET(value)) {
return;
}
xfree(value->msg);
value->msg = NULL;
value->type = kErrorTypeNone;
}
Dictionary api_metadata(void)
{
static Dictionary metadata = ARRAY_DICT_INIT;
if (!metadata.size) {
PUT(metadata, "version", DICTIONARY_OBJ(version_dict()));
init_function_metadata(&metadata);
init_ui_event_metadata(&metadata);
init_error_type_metadata(&metadata);
init_type_metadata(&metadata);
}
return copy_object(DICTIONARY_OBJ(metadata)).data.dictionary;
}
static void init_function_metadata(Dictionary *metadata)
{
msgpack_unpacked unpacked;
msgpack_unpacked_init(&unpacked);
if (msgpack_unpack_next(&unpacked,
(const char *)funcs_metadata,
sizeof(funcs_metadata),
NULL) != MSGPACK_UNPACK_SUCCESS) {
abort();
}
Object functions;
msgpack_rpc_to_object(&unpacked.data, &functions);
msgpack_unpacked_destroy(&unpacked);
PUT(*metadata, "functions", functions);
}
static void init_ui_event_metadata(Dictionary *metadata)
{
msgpack_unpacked unpacked;
msgpack_unpacked_init(&unpacked);
if (msgpack_unpack_next(&unpacked,
(const char *)ui_events_metadata,
sizeof(ui_events_metadata),
NULL) != MSGPACK_UNPACK_SUCCESS) {
abort();
}
Object ui_events;
msgpack_rpc_to_object(&unpacked.data, &ui_events);
msgpack_unpacked_destroy(&unpacked);
PUT(*metadata, "ui_events", ui_events);
Array ui_options = ARRAY_DICT_INIT;
ADD(ui_options, STRING_OBJ(cstr_to_string("rgb")));
for (UIExtension i = 0; i < kUIExtCount; i++) {
if (ui_ext_names[i][0] != '_') {
ADD(ui_options, STRING_OBJ(cstr_to_string(ui_ext_names[i])));
}
}
PUT(*metadata, "ui_options", ARRAY_OBJ(ui_options));
}
static void init_error_type_metadata(Dictionary *metadata)
{
Dictionary types = ARRAY_DICT_INIT;
Dictionary exception_metadata = ARRAY_DICT_INIT;
PUT(exception_metadata, "id", INTEGER_OBJ(kErrorTypeException));
Dictionary validation_metadata = ARRAY_DICT_INIT;
PUT(validation_metadata, "id", INTEGER_OBJ(kErrorTypeValidation));
PUT(types, "Exception", DICTIONARY_OBJ(exception_metadata));
PUT(types, "Validation", DICTIONARY_OBJ(validation_metadata));
PUT(*metadata, "error_types", DICTIONARY_OBJ(types));
}
static void init_type_metadata(Dictionary *metadata)
{
Dictionary types = ARRAY_DICT_INIT;
Dictionary buffer_metadata = ARRAY_DICT_INIT;
PUT(buffer_metadata, "id",
INTEGER_OBJ(kObjectTypeBuffer - EXT_OBJECT_TYPE_SHIFT));
PUT(buffer_metadata, "prefix", STRING_OBJ(cstr_to_string("nvim_buf_")));
Dictionary window_metadata = ARRAY_DICT_INIT;
PUT(window_metadata, "id",
INTEGER_OBJ(kObjectTypeWindow - EXT_OBJECT_TYPE_SHIFT));
PUT(window_metadata, "prefix", STRING_OBJ(cstr_to_string("nvim_win_")));
Dictionary tabpage_metadata = ARRAY_DICT_INIT;
PUT(tabpage_metadata, "id",
INTEGER_OBJ(kObjectTypeTabpage - EXT_OBJECT_TYPE_SHIFT));
PUT(tabpage_metadata, "prefix", STRING_OBJ(cstr_to_string("nvim_tabpage_")));
PUT(types, "Buffer", DICTIONARY_OBJ(buffer_metadata));
PUT(types, "Window", DICTIONARY_OBJ(window_metadata));
PUT(types, "Tabpage", DICTIONARY_OBJ(tabpage_metadata));
PUT(*metadata, "types", DICTIONARY_OBJ(types));
}
String copy_string(String str)
{
if (str.data != NULL) {
return (String){ .data = xmemdupz(str.data, str.size), .size = str.size };
} else {
return (String)STRING_INIT;
}
}
Array copy_array(Array array)
{
Array rv = ARRAY_DICT_INIT;
for (size_t i = 0; i < array.size; i++) {
ADD(rv, copy_object(array.items[i]));
}
return rv;
}
Dictionary copy_dictionary(Dictionary dict)
{
Dictionary rv = ARRAY_DICT_INIT;
for (size_t i = 0; i < dict.size; i++) {
KeyValuePair item = dict.items[i];
PUT(rv, item.key.data, copy_object(item.value));
}
return rv;
}
/// Creates a deep clone of an object
Object copy_object(Object obj)
{
switch (obj.type) {
case kObjectTypeBuffer:
case kObjectTypeTabpage:
case kObjectTypeWindow:
case kObjectTypeNil:
case kObjectTypeBoolean:
case kObjectTypeInteger:
case kObjectTypeFloat:
return obj;
case kObjectTypeString:
return STRING_OBJ(copy_string(obj.data.string));
case kObjectTypeArray:
return ARRAY_OBJ(copy_array(obj.data.array));
case kObjectTypeDictionary:
return DICTIONARY_OBJ(copy_dictionary(obj.data.dictionary));
default:
abort();
}
}
static void set_option_value_for(char *key, int numval, char *stringval, int opt_flags,
int opt_type, void *from, Error *err)
{
win_T *save_curwin = NULL;
tabpage_T *save_curtab = NULL;
aco_save_T aco;
try_start();
switch (opt_type)
{
case SREQ_WIN:
if (switch_win_noblock(&save_curwin, &save_curtab, (win_T *)from,
win_find_tabpage((win_T *)from), true)
== FAIL) {
restore_win_noblock(save_curwin, save_curtab, true);
if (try_end(err)) {
return;
}
api_set_error(err,
kErrorTypeException,
"Problem while switching windows");
return;
}
set_option_value_err(key, numval, stringval, opt_flags, err);
restore_win_noblock(save_curwin, save_curtab, true);
break;
case SREQ_BUF:
aucmd_prepbuf(&aco, (buf_T *)from);
set_option_value_err(key, numval, stringval, opt_flags, err);
aucmd_restbuf(&aco);
break;
case SREQ_GLOBAL:
set_option_value_err(key, numval, stringval, opt_flags, err);
break;
}
if (ERROR_SET(err)) {
return;
}
try_end(err);
}
static void set_option_value_err(char *key, int numval, char *stringval, int opt_flags, Error *err)
{
char *errmsg;
if ((errmsg = set_option_value(key, numval, stringval, opt_flags))) {
if (try_end(err)) {
return;
}
api_set_error(err, kErrorTypeException, "%s", errmsg);
}
}
void api_set_error(Error *err, ErrorType errType, const char *format, ...)
FUNC_ATTR_NONNULL_ALL FUNC_ATTR_PRINTF(3, 4)
{
assert(kErrorTypeNone != errType);
va_list args1;
va_list args2;
va_start(args1, format);
va_copy(args2, args1);
int len = vsnprintf(NULL, 0, format, args1);
va_end(args1);
assert(len >= 0);
// Limit error message to 1 MB.
size_t bufsize = MIN((size_t)len + 1, 1024 * 1024);
err->msg = xmalloc(bufsize);
vsnprintf(err->msg, bufsize, format, args2);
va_end(args2);
err->type = errType;
}
/// Get an array containing dictionaries describing mappings
/// based on mode and buffer id
///
/// @param mode The abbreviation for the mode
/// @param buf The buffer to get the mapping array. NULL for global
/// @returns Array of maparg()-like dictionaries describing mappings
ArrayOf(Dictionary) keymap_array(String mode, buf_T *buf)
{
Array mappings = ARRAY_DICT_INIT;
dict_T *const dict = tv_dict_alloc();
// Convert the string mode to the integer mode
// that is stored within each mapblock
char_u *p = (char_u *)mode.data;
int int_mode = get_map_mode(&p, 0);
// Determine the desired buffer value
long buffer_value = (buf == NULL) ? 0 : buf->handle;
for (int i = 0; i < MAX_MAPHASH; i++) {
for (const mapblock_T *current_maphash = get_maphash(i, buf);
current_maphash;
current_maphash = current_maphash->m_next) {
// Check for correct mode
if (int_mode & current_maphash->m_mode) {
mapblock_fill_dict(dict, current_maphash, buffer_value, false);
ADD(mappings, vim_to_object((typval_T[]) { { .v_type = VAR_DICT, .vval.v_dict = dict } }));
tv_dict_clear(dict);
}
}
}
tv_dict_free(dict);
return mappings;
}
// Is the Namespace in use?
bool ns_initialized(uint64_t ns)
{
if (ns < 1) {
return false;
}
return ns < (uint64_t)next_namespace_id;
}
/// Gets the line and column of an extmark.
///
/// Extmarks may be queried by position, name or even special names
/// in the future such as "cursor".
///
/// @param[out] lnum extmark line
/// @param[out] colnr extmark column
///
/// @return true if the extmark was found, else false
bool extmark_get_index_from_obj(buf_T *buf, Integer ns_id, Object obj, int
*row, colnr_T *col, Error *err)
{
// Check if it is mark id
if (obj.type == kObjectTypeInteger) {
Integer id = obj.data.integer;
if (id == 0) {
*row = 0;
*col = 0;
return true;
} else if (id == -1) {
*row = MAXLNUM;
*col = MAXCOL;
return true;
} else if (id < 0) {
api_set_error(err, kErrorTypeValidation, "Mark id must be positive");
return false;
}
ExtmarkInfo extmark = extmark_from_id(buf, (uint64_t)ns_id, (uint64_t)id);
if (extmark.row >= 0) {
*row = extmark.row;
*col = extmark.col;
return true;
} else {
api_set_error(err, kErrorTypeValidation, "No mark with requested id");
return false;
}
// Check if it is a position
} else if (obj.type == kObjectTypeArray) {
Array pos = obj.data.array;
if (pos.size != 2
|| pos.items[0].type != kObjectTypeInteger
|| pos.items[1].type != kObjectTypeInteger) {
api_set_error(err, kErrorTypeValidation,
"Position must have 2 integer elements");
return false;
}
Integer pos_row = pos.items[0].data.integer;
Integer pos_col = pos.items[1].data.integer;
*row = (int)(pos_row >= 0 ? pos_row : MAXLNUM);
*col = (colnr_T)(pos_col >= 0 ? pos_col : MAXCOL);
return true;
} else {
api_set_error(err, kErrorTypeValidation,
"Position must be a mark id Integer or position Array");
return false;
}
}
VirtText parse_virt_text(Array chunks, Error *err, int *width)
{
VirtText virt_text = KV_INITIAL_VALUE;
int w = 0;
for (size_t i = 0; i < chunks.size; i++) {
if (chunks.items[i].type != kObjectTypeArray) {
api_set_error(err, kErrorTypeValidation, "Chunk is not an array");
goto free_exit;
}
Array chunk = chunks.items[i].data.array;
if (chunk.size == 0 || chunk.size > 2
|| chunk.items[0].type != kObjectTypeString) {
api_set_error(err, kErrorTypeValidation,
"Chunk is not an array with one or two strings");
goto free_exit;
}
String str = chunk.items[0].data.string;
int hl_id = 0;
if (chunk.size == 2) {
Object hl = chunk.items[1];
if (hl.type == kObjectTypeArray) {
Array arr = hl.data.array;
for (size_t j = 0; j < arr.size; j++) {
hl_id = object_to_hl_id(arr.items[j], "virt_text highlight", err);
if (ERROR_SET(err)) {
goto free_exit;
}
if (j < arr.size-1) {
kv_push(virt_text, ((VirtTextChunk){ .text = NULL,
.hl_id = hl_id }));
}
}
} else {
hl_id = object_to_hl_id(hl, "virt_text highlight", err);
if (ERROR_SET(err)) {
goto free_exit;
}
}
}
char *text = transstr(str.size > 0 ? str.data : "", false); // allocates
w += (int)mb_string2cells((char_u *)text);
kv_push(virt_text, ((VirtTextChunk){ .text = text, .hl_id = hl_id }));
}
*width = w;
return virt_text;
free_exit:
clear_virttext(&virt_text);
return virt_text;
}
/// Force obj to bool.
/// If it fails, returns false and sets err
/// @param obj The object to coerce to a boolean
/// @param what The name of the object, used for error message
/// @param nil_value What to return if the type is nil.
/// @param err Set if there was an error in converting to a bool
bool api_object_to_bool(Object obj, const char *what, bool nil_value, Error *err)
{
if (obj.type == kObjectTypeBoolean) {
return obj.data.boolean;
} else if (obj.type == kObjectTypeInteger) {
return obj.data.integer; // C semantics: non-zero int is true
} else if (obj.type == kObjectTypeNil) {
return nil_value; // caller decides what NIL (missing retval in lua) means
} else {
api_set_error(err, kErrorTypeValidation, "%s is not a boolean", what);
return false;
}
}
int object_to_hl_id(Object obj, const char *what, Error *err)
{
if (obj.type == kObjectTypeString) {
String str = obj.data.string;
return str.size ? syn_check_group((char_u *)str.data, (int)str.size) : 0;
} else if (obj.type == kObjectTypeInteger) {
return MAX((int)obj.data.integer, 0);
} else {
api_set_error(err, kErrorTypeValidation,
"%s is not a valid highlight", what);
return 0;
}
}
HlMessage parse_hl_msg(Array chunks, Error *err)
{
HlMessage hl_msg = KV_INITIAL_VALUE;
for (size_t i = 0; i < chunks.size; i++) {
if (chunks.items[i].type != kObjectTypeArray) {
api_set_error(err, kErrorTypeValidation, "Chunk is not an array");
goto free_exit;
}
Array chunk = chunks.items[i].data.array;
if (chunk.size == 0 || chunk.size > 2
|| chunk.items[0].type != kObjectTypeString
|| (chunk.size == 2 && chunk.items[1].type != kObjectTypeString)) {
api_set_error(err, kErrorTypeValidation,
"Chunk is not an array with one or two strings");
goto free_exit;
}
String str = copy_string(chunk.items[0].data.string);
int attr = 0;
if (chunk.size == 2) {
String hl = chunk.items[1].data.string;
if (hl.size > 0) {
// TODO(bfredl): use object_to_hl_id and allow integer
int hl_id = syn_check_group((char_u *)hl.data, (int)hl.size);
attr = hl_id > 0 ? syn_id2attr(hl_id) : 0;
}
}
kv_push(hl_msg, ((HlMessageChunk){ .text = str, .attr = attr }));
}
return hl_msg;
free_exit:
clear_hl_msg(&hl_msg);
return hl_msg;
}
const char *describe_ns(NS ns_id)
{
String name;
handle_T id;
map_foreach(&namespace_ids, name, id, {
if ((NS)id == ns_id && name.size) {
return name.data;
}
})
return "(UNKNOWN PLUGIN)";
}
static bool parse_float_anchor(String anchor, FloatAnchor *out)
{
if (anchor.size == 0) {
*out = (FloatAnchor)0;
}
char *str = anchor.data;
if (striequal(str, "NW")) {
*out = 0; // NW is the default
} else if (striequal(str, "NE")) {
*out = kFloatAnchorEast;
} else if (striequal(str, "SW")) {
*out = kFloatAnchorSouth;
} else if (striequal(str, "SE")) {
*out = kFloatAnchorSouth | kFloatAnchorEast;
} else {
return false;
}
return true;
}
static bool parse_float_relative(String relative, FloatRelative *out)
{
char *str = relative.data;
if (striequal(str, "editor")) {
*out = kFloatRelativeEditor;
} else if (striequal(str, "win")) {
*out = kFloatRelativeWindow;
} else if (striequal(str, "cursor")) {
*out = kFloatRelativeCursor;
} else {
return false;
}
return true;
}
static bool parse_float_bufpos(Array bufpos, lpos_T *out)
{
if (bufpos.size != 2
|| bufpos.items[0].type != kObjectTypeInteger
|| bufpos.items[1].type != kObjectTypeInteger) {
return false;
}
out->lnum = bufpos.items[0].data.integer;
out->col = (colnr_T)bufpos.items[1].data.integer;
return true;
}
static void parse_border_style(Object style, FloatConfig *fconfig, Error *err)
{
struct {
const char *name;
schar_T chars[8];
bool shadow_color;
} defaults[] = {
{ "double", { "╔", "═", "╗", "║", "╝", "═", "╚", "║" }, false },
{ "single", { "┌", "─", "┐", "│", "┘", "─", "└", "│" }, false },
{ "shadow", { "", "", " ", " ", " ", " ", " ", "" }, true },
{ "rounded", { "╭", "─", "╮", "│", "╯", "─", "╰", "│" }, false },
{ "solid", { " ", " ", " ", " ", " ", " ", " ", " " }, false },
{ NULL, { { NUL } }, false },
};
schar_T *chars = fconfig->border_chars;
int *hl_ids = fconfig->border_hl_ids;
fconfig->border = true;
if (style.type == kObjectTypeArray) {
Array arr = style.data.array;
size_t size = arr.size;
if (!size || size > 8 || (size & (size-1))) {
api_set_error(err, kErrorTypeValidation,
"invalid number of border chars");
return;
}
for (size_t i = 0; i < size; i++) {
Object iytem = arr.items[i];
String string;
int hl_id = 0;
if (iytem.type == kObjectTypeArray) {
Array iarr = iytem.data.array;
if (!iarr.size || iarr.size > 2) {
api_set_error(err, kErrorTypeValidation, "invalid border char");
return;
}
if (iarr.items[0].type != kObjectTypeString) {
api_set_error(err, kErrorTypeValidation, "invalid border char");
return;
}
string = iarr.items[0].data.string;
if (iarr.size == 2) {
hl_id = object_to_hl_id(iarr.items[1], "border char highlight", err);
if (ERROR_SET(err)) {
return;
}
}
} else if (iytem.type == kObjectTypeString) {
string = iytem.data.string;
} else {
api_set_error(err, kErrorTypeValidation, "invalid border char");
return;
}
if (string.size
&& mb_string2cells_len((char_u *)string.data, string.size) > 1) {
api_set_error(err, kErrorTypeValidation,
"border chars must be one cell");
return;
}
size_t len = MIN(string.size, sizeof(*chars)-1);
if (len) {
memcpy(chars[i], string.data, len);
}
chars[i][len] = NUL;
hl_ids[i] = hl_id;
}
while (size < 8) {
memcpy(chars+size, chars, sizeof(*chars) * size);
memcpy(hl_ids+size, hl_ids, sizeof(*hl_ids) * size);
size <<= 1;
}
if ((chars[7][0] && chars[1][0] && !chars[0][0])
|| (chars[1][0] && chars[3][0] && !chars[2][0])
|| (chars[3][0] && chars[5][0] && !chars[4][0])
|| (chars[5][0] && chars[7][0] && !chars[6][0])) {
api_set_error(err, kErrorTypeValidation,
"corner between used edges must be specified");
}
} else if (style.type == kObjectTypeString) {
String str = style.data.string;
if (str.size == 0 || strequal(str.data, "none")) {
fconfig->border = false;
return;
}
for (size_t i = 0; defaults[i].name; i++) {
if (strequal(str.data, defaults[i].name)) {
memcpy(chars, defaults[i].chars, sizeof(defaults[i].chars));
memset(hl_ids, 0, 8 * sizeof(*hl_ids));
if (defaults[i].shadow_color) {
int hl_blend = SYN_GROUP_STATIC("FloatShadow");
int hl_through = SYN_GROUP_STATIC("FloatShadowThrough");
hl_ids[2] = hl_through;
hl_ids[3] = hl_blend;
hl_ids[4] = hl_blend;
hl_ids[5] = hl_blend;
hl_ids[6] = hl_through;
}
return;
}
}
api_set_error(err, kErrorTypeValidation,
"invalid border style \"%s\"", str.data);
}
}
bool parse_float_config(Dictionary config, FloatConfig *fconfig, bool reconf, bool new_win,
Error *err)
{
// TODO(bfredl): use a get/has_key interface instead and get rid of extra
// flags
bool has_row = false, has_col = false, has_relative = false;
bool has_external = false, has_window = false;
bool has_width = false, has_height = false;
bool has_bufpos = false;
for (size_t i = 0; i < config.size; i++) {
char *key = config.items[i].key.data;
Object val = config.items[i].value;
if (!strcmp(key, "row")) {
has_row = true;
if (val.type == kObjectTypeInteger) {
fconfig->row = (double)val.data.integer;
} else if (val.type == kObjectTypeFloat) {
fconfig->row = val.data.floating;
} else {
api_set_error(err, kErrorTypeValidation,
"'row' key must be Integer or Float");
return false;
}
} else if (!strcmp(key, "col")) {
has_col = true;
if (val.type == kObjectTypeInteger) {
fconfig->col = (double)val.data.integer;
} else if (val.type == kObjectTypeFloat) {
fconfig->col = val.data.floating;
} else {
api_set_error(err, kErrorTypeValidation,
"'col' key must be Integer or Float");
return false;
}
} else if (strequal(key, "width")) {
has_width = true;
if (val.type == kObjectTypeInteger && val.data.integer > 0) {
fconfig->width = (int)val.data.integer;
} else {
api_set_error(err, kErrorTypeValidation,
"'width' key must be a positive Integer");
return false;
}
} else if (strequal(key, "height")) {
has_height = true;
if (val.type == kObjectTypeInteger && val.data.integer > 0) {
fconfig->height = (int)val.data.integer;
} else {
api_set_error(err, kErrorTypeValidation,
"'height' key must be a positive Integer");
return false;
}
} else if (!strcmp(key, "anchor")) {
if (val.type != kObjectTypeString) {
api_set_error(err, kErrorTypeValidation,
"'anchor' key must be String");
return false;
}
if (!parse_float_anchor(val.data.string, &fconfig->anchor)) {
api_set_error(err, kErrorTypeValidation,
"Invalid value of 'anchor' key");
return false;
}
} else if (!strcmp(key, "relative")) {
if (val.type != kObjectTypeString) {
api_set_error(err, kErrorTypeValidation,
"'relative' key must be String");
return false;
}
// ignore empty string, to match nvim_win_get_config
if (val.data.string.size > 0) {
has_relative = true;
if (!parse_float_relative(val.data.string, &fconfig->relative)) {
api_set_error(err, kErrorTypeValidation,
"Invalid value of 'relative' key");
return false;
}
}
} else if (!strcmp(key, "win")) {
has_window = true;
if (val.type != kObjectTypeInteger
&& val.type != kObjectTypeWindow) {
api_set_error(err, kErrorTypeValidation,
"'win' key must be Integer or Window");
return false;
}
fconfig->window = (Window)val.data.integer;
} else if (!strcmp(key, "bufpos")) {
if (val.type != kObjectTypeArray) {
api_set_error(err, kErrorTypeValidation,
"'bufpos' key must be Array");
return false;
}
if (!parse_float_bufpos(val.data.array, &fconfig->bufpos)) {
api_set_error(err, kErrorTypeValidation,
"Invalid value of 'bufpos' key");
return false;
}
has_bufpos = true;
} else if (!strcmp(key, "external")) {
has_external = fconfig->external
= api_object_to_bool(val, "'external' key", false, err);
if (ERROR_SET(err)) {
return false;
}
} else if (!strcmp(key, "focusable")) {
fconfig->focusable
= api_object_to_bool(val, "'focusable' key", true, err);
if (ERROR_SET(err)) {
return false;
}
} else if (strequal(key, "zindex")) {
if (val.type == kObjectTypeInteger && val.data.integer > 0) {
fconfig->zindex = (int)val.data.integer;
} else {
api_set_error(err, kErrorTypeValidation,
"'zindex' key must be a positive Integer");
return false;
}
} else if (!strcmp(key, "border")) {
parse_border_style(val, fconfig, err);
if (ERROR_SET(err)) {
return false;
}
} else if (!strcmp(key, "style")) {
if (val.type != kObjectTypeString) {
api_set_error(err, kErrorTypeValidation,
"'style' key must be String");
return false;
}
if (val.data.string.data[0] == NUL) {
fconfig->style = kWinStyleUnused;
} else if (striequal(val.data.string.data, "minimal")) {
fconfig->style = kWinStyleMinimal;
} else {
api_set_error(err, kErrorTypeValidation,
"Invalid value of 'style' key");
}
} else if (strequal(key, "noautocmd") && new_win) {
fconfig->noautocmd
= api_object_to_bool(val, "'noautocmd' key", false, err);
if (ERROR_SET(err)) {
return false;
}
} else {
api_set_error(err, kErrorTypeValidation,
"Invalid key '%s'", key);
return false;
}
}
if (has_window && !(has_relative
&& fconfig->relative == kFloatRelativeWindow)) {
api_set_error(err, kErrorTypeValidation,
"'win' key is only valid with relative='win'");
return false;
}
if ((has_relative && fconfig->relative == kFloatRelativeWindow)
&& (!has_window || fconfig->window == 0)) {
fconfig->window = curwin->handle;
}
if (has_window && !has_bufpos) {
fconfig->bufpos.lnum = -1;
}
if (has_bufpos) {
if (!has_row) {
fconfig->row = (fconfig->anchor & kFloatAnchorSouth) ? 0 : 1;
has_row = true;
}
if (!has_col) {
fconfig->col = 0;
has_col = true;
}
}
if (has_relative && has_external) {
api_set_error(err, kErrorTypeValidation,
"Only one of 'relative' and 'external' must be used");
return false;
} else if (!reconf && !has_relative && !has_external) {
api_set_error(err, kErrorTypeValidation,
"One of 'relative' and 'external' must be used");
return false;
} else if (has_relative) {
fconfig->external = false;
}
if (!reconf && !(has_height && has_width)) {
api_set_error(err, kErrorTypeValidation,
"Must specify 'width' and 'height'");
return false;
}
if (fconfig->external && !ui_has(kUIMultigrid)) {
api_set_error(err, kErrorTypeValidation,
"UI doesn't support external windows");
return false;
}
if (has_relative != has_row || has_row != has_col) {
api_set_error(err, kErrorTypeValidation,
"'relative' requires 'row'/'col' or 'bufpos'");
return false;
}
return true;
}
|
