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https://github.com/neovim/neovim.git
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Merge pull request #16411 from dundargoc/refactor/upgrade-uncrustify
refactor: upgrade uncrustify config version to 0.74.0
This commit is contained in:
commit
76af219e3e
@ -1,3 +1,5 @@
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// uncrustify:off
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#ifndef NVIM_ASSERT_H
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#define NVIM_ASSERT_H
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@ -3926,7 +3926,8 @@ static buf_T *ins_compl_next_buf(buf_T *buf, int flag)
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/// Get the user-defined completion function name for completion 'type'
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static char_u *get_complete_funcname(int type) {
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static char_u *get_complete_funcname(int type)
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{
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switch (type) {
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case CTRL_X_FUNCTION:
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return curbuf->b_p_cfu;
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@ -6573,7 +6574,7 @@ static void spell_back_to_badword(void)
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int stop_arrow(void)
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{
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if (arrow_used) {
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Insstart = curwin->w_cursor; //new insertion starts here
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Insstart = curwin->w_cursor; // new insertion starts here
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if (Insstart.col > Insstart_orig.col && !ins_need_undo) {
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// Don't update the original insert position when moved to the
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// right, except when nothing was inserted yet.
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@ -7639,16 +7640,34 @@ int hkmap(int c)
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KAFsofit, hKAF, LAMED, MEMsofit, MEM, NUNsofit, NUN, SAMEH, AIN,
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PEIsofit, PEI, ZADIsofit, ZADI, KOF, RESH, hSHIN, TAV,
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};
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static char_u map[26] =
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{ (char_u)hALEF /*a*/, (char_u)BET /*b*/, (char_u)hKAF /*c*/,
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(char_u)DALET /*d*/, (char_u)-1 /*e*/, (char_u)PEIsofit /*f*/,
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(char_u)GIMEL /*g*/, (char_u)HEI /*h*/, (char_u)IUD /*i*/,
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(char_u)HET /*j*/, (char_u)KOF /*k*/, (char_u)LAMED /*l*/,
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(char_u)MEM /*m*/, (char_u)NUN /*n*/, (char_u)SAMEH /*o*/,
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(char_u)PEI /*p*/, (char_u)-1 /*q*/, (char_u)RESH /*r*/,
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(char_u)ZAIN /*s*/, (char_u)TAV /*t*/, (char_u)TET /*u*/,
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(char_u)VAV /*v*/, (char_u)hSHIN /*w*/, (char_u)-1 /*x*/,
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(char_u)AIN /*y*/, (char_u)ZADI /*z*/ };
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static char_u map[26] = {
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(char_u)hALEF, // a
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(char_u)BET, // b
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(char_u)hKAF, // c
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(char_u)DALET, // d
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(char_u)-1, // e
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(char_u)PEIsofit, // f
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(char_u)GIMEL, // g
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(char_u)HEI, // h
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(char_u)IUD, // i
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(char_u)HET, // j
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(char_u)KOF, // k
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(char_u)LAMED, // l
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(char_u)MEM, // m
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(char_u)NUN, // n
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(char_u)SAMEH, // o
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(char_u)PEI, // p
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(char_u)-1, // q
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(char_u)RESH, // r
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(char_u)ZAIN, // s
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(char_u)TAV, // t
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(char_u)TET, // u
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(char_u)VAV, // v
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(char_u)hSHIN, // w
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(char_u)-1, // x
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(char_u)AIN, // y
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(char_u)ZADI, // z
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};
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if (c == 'N' || c == 'M' || c == 'P' || c == 'C' || c == 'Z') {
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return (int)(map[CharOrd(c)] - 1 + p_aleph);
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@ -7146,30 +7146,30 @@ void dict_list(typval_T *const tv, typval_T *const rettv, const DictListType wha
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typval_T tv_item = { .v_lock = VAR_UNLOCKED };
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switch (what) {
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case kDictListKeys:
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tv_item.v_type = VAR_STRING;
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tv_item.vval.v_string = vim_strsave(di->di_key);
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break;
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case kDictListValues:
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tv_copy(&di->di_tv, &tv_item);
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break;
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case kDictListItems: {
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// items()
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list_T *const sub_l = tv_list_alloc(2);
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tv_item.v_type = VAR_LIST;
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tv_item.vval.v_list = sub_l;
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tv_list_ref(sub_l);
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case kDictListKeys:
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tv_item.v_type = VAR_STRING;
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tv_item.vval.v_string = vim_strsave(di->di_key);
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break;
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case kDictListValues:
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tv_copy(&di->di_tv, &tv_item);
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break;
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case kDictListItems: {
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// items()
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list_T *const sub_l = tv_list_alloc(2);
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tv_item.v_type = VAR_LIST;
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tv_item.vval.v_list = sub_l;
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tv_list_ref(sub_l);
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tv_list_append_owned_tv(sub_l, (typval_T) {
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tv_list_append_owned_tv(sub_l, (typval_T) {
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.v_type = VAR_STRING,
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.v_lock = VAR_UNLOCKED,
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.vval.v_string = (char_u *)xstrdup((const char *)di->di_key),
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});
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tv_list_append_tv(sub_l, &di->di_tv);
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tv_list_append_tv(sub_l, &di->di_tv);
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break;
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}
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break;
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}
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}
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tv_list_append_owned_tv(rettv->vval.v_list, tv_item);
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@ -352,20 +352,20 @@ int encode_read_from_list(ListReaderState *const state, char *const buf, const s
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const float_T flt_ = (flt); \
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switch (xfpclassify(flt_)) { \
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case FP_NAN: { \
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ga_concat(gap, "str2float('nan')"); \
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break; \
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ga_concat(gap, "str2float('nan')"); \
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break; \
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} \
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case FP_INFINITE: { \
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if (flt_ < 0) { \
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ga_append(gap, '-'); \
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} \
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ga_concat(gap, "str2float('inf')"); \
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break; \
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if (flt_ < 0) { \
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ga_append(gap, '-'); \
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} \
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ga_concat(gap, "str2float('inf')"); \
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break; \
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} \
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default: { \
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char numbuf[NUMBUFLEN]; \
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vim_snprintf(numbuf, ARRAY_SIZE(numbuf), "%g", flt_); \
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ga_concat(gap, numbuf); \
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char numbuf[NUMBUFLEN]; \
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vim_snprintf(numbuf, ARRAY_SIZE(numbuf), "%g", flt_); \
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ga_concat(gap, numbuf); \
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} \
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} \
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} while (0)
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@ -556,18 +556,18 @@ int encode_read_from_list(ListReaderState *const state, char *const buf, const s
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const float_T flt_ = (flt); \
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switch (xfpclassify(flt_)) { \
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case FP_NAN: { \
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emsg(_("E474: Unable to represent NaN value in JSON")); \
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return FAIL; \
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emsg(_("E474: Unable to represent NaN value in JSON")); \
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return FAIL; \
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} \
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case FP_INFINITE: { \
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emsg(_("E474: Unable to represent infinity in JSON")); \
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return FAIL; \
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emsg(_("E474: Unable to represent infinity in JSON")); \
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return FAIL; \
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} \
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default: { \
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char numbuf[NUMBUFLEN]; \
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vim_snprintf(numbuf, ARRAY_SIZE(numbuf), "%g", flt_); \
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ga_concat(gap, numbuf); \
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break; \
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char numbuf[NUMBUFLEN]; \
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vim_snprintf(numbuf, ARRAY_SIZE(numbuf), "%g", flt_); \
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ga_concat(gap, numbuf); \
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break; \
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} \
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} \
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} while (0)
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@ -782,10 +782,10 @@ void nlua_push_Object(lua_State *lstate, const Object obj, bool special)
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break;
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}
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#define ADD_TYPE(type, data_key) \
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case kObjectType##type: { \
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nlua_push_##type(lstate, obj.data.data_key, special); \
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break; \
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}
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case kObjectType##type: { \
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nlua_push_##type(lstate, obj.data.data_key, special); \
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break; \
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}
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ADD_TYPE(Boolean, boolean)
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ADD_TYPE(Integer, integer)
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ADD_TYPE(Float, floating)
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@ -794,10 +794,10 @@ case kObjectType##type: { \
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ADD_TYPE(Dictionary, dictionary)
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#undef ADD_TYPE
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#define ADD_REMOTE_TYPE(type) \
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case kObjectType##type: { \
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nlua_push_##type(lstate, (type)obj.data.integer, special); \
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break; \
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}
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case kObjectType##type: { \
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nlua_push_##type(lstate, (type)obj.data.integer, special); \
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break; \
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}
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ADD_REMOTE_TYPE(Buffer)
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ADD_REMOTE_TYPE(Window)
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ADD_REMOTE_TYPE(Tabpage)
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@ -92,15 +92,15 @@ bool msgpack_rpc_to_object(const msgpack_object *const obj, Object *const arg)
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break;
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}
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#define STR_CASE(type, attr, obj, dest, conv) \
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case type: { \
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dest = conv(((String) { \
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case type: { \
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dest = conv(((String) { \
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.size = obj->via.attr.size, \
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.data = (obj->via.attr.ptr == NULL || obj->via.attr.size == 0 \
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? xmemdupz("", 0) \
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: xmemdupz(obj->via.attr.ptr, obj->via.attr.size)), \
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})); \
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break; \
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}
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break; \
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}
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STR_CASE(MSGPACK_OBJECT_STR, str, cur.mobj, *cur.aobj, STRING_OBJ)
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STR_CASE(MSGPACK_OBJECT_BIN, bin, cur.mobj, *cur.aobj, STRING_OBJ)
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case MSGPACK_OBJECT_ARRAY: {
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@ -143,10 +143,10 @@ case type: { \
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const msgpack_object *const key = &cur.mobj->via.map.ptr[idx].key;
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switch (key->type) {
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#define ID(x) x
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STR_CASE(MSGPACK_OBJECT_STR, str, key,
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cur.aobj->data.dictionary.items[idx].key, ID)
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STR_CASE(MSGPACK_OBJECT_BIN, bin, key,
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cur.aobj->data.dictionary.items[idx].key, ID)
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STR_CASE(MSGPACK_OBJECT_STR, str, key,
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cur.aobj->data.dictionary.items[idx].key, ID)
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STR_CASE(MSGPACK_OBJECT_BIN, bin, key,
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cur.aobj->data.dictionary.items[idx].key, ID)
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#undef ID
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case MSGPACK_OBJECT_NIL:
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case MSGPACK_OBJECT_BOOLEAN:
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|
@ -7573,7 +7573,7 @@ static bool syn_list_header(const bool did_header, const int outlen, const int i
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// Show "xxx" with the attributes.
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if (!did_header) {
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if (endcol == Columns - 1 && endcol <= name_col) {
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msg_putchar(' ');
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msg_putchar(' ');
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}
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msg_puts_attr("xxx", syn_id2attr(id));
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msg_putchar(' ');
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@ -204,40 +204,40 @@ LexExprToken viml_pexpr_next_token(ParserState *const pstate, const int flags)
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} \
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} while (0)
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switch (schar) {
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// Paired brackets.
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// Paired brackets.
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#define BRACKET(typ, opning, clsing) \
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case opning: \
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case clsing: { \
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ret.type = typ; \
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ret.data.brc.closing = (schar == clsing); \
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break; \
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}
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BRACKET(kExprLexParenthesis, '(', ')')
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BRACKET(kExprLexBracket, '[', ']')
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BRACKET(kExprLexFigureBrace, '{', '}')
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case opning: \
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case clsing: { \
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ret.type = typ; \
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ret.data.brc.closing = (schar == clsing); \
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break; \
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}
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BRACKET(kExprLexParenthesis, '(', ')')
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BRACKET(kExprLexBracket, '[', ']')
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BRACKET(kExprLexFigureBrace, '{', '}')
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#undef BRACKET
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// Single character tokens without data.
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// Single character tokens without data.
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#define CHAR(typ, ch) \
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case ch: { \
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ret.type = typ; \
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break; \
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}
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CHAR(kExprLexQuestion, '?')
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CHAR(kExprLexColon, ':')
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CHAR(kExprLexComma, ',')
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case ch: { \
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ret.type = typ; \
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break; \
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}
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CHAR(kExprLexQuestion, '?')
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CHAR(kExprLexColon, ':')
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CHAR(kExprLexComma, ',')
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#undef CHAR
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|
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// Multiplication/division/modulo.
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// Multiplication/division/modulo.
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#define MUL(mul_type, ch) \
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case ch: { \
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ret.type = kExprLexMultiplication; \
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ret.data.mul.type = mul_type; \
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break; \
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}
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MUL(kExprLexMulMul, '*')
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MUL(kExprLexMulDiv, '/')
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MUL(kExprLexMulMod, '%')
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case ch: { \
|
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ret.type = kExprLexMultiplication; \
|
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ret.data.mul.type = mul_type; \
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break; \
|
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}
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MUL(kExprLexMulMul, '*')
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MUL(kExprLexMulDiv, '/')
|
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MUL(kExprLexMulMod, '%')
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#undef MUL
|
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|
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#define CHARREG(typ, cond) \
|
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@ -653,16 +653,16 @@ case ch: { \
|
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|
||||
// Sign or augmented assignment.
|
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#define CHAR_OR_ASSIGN(ch, ch_type, ass_type) \
|
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case ch: { \
|
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if (pline.size > 1 && pline.data[1] == '=') { \
|
||||
ret.len++; \
|
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ret.type = kExprLexAssignment; \
|
||||
ret.data.ass.type = ass_type; \
|
||||
} else { \
|
||||
ret.type = ch_type; \
|
||||
} \
|
||||
break; \
|
||||
}
|
||||
case ch: { \
|
||||
if (pline.size > 1 && pline.data[1] == '=') { \
|
||||
ret.len++; \
|
||||
ret.type = kExprLexAssignment; \
|
||||
ret.data.ass.type = ass_type; \
|
||||
} else { \
|
||||
ret.type = ch_type; \
|
||||
} \
|
||||
break; \
|
||||
}
|
||||
CHAR_OR_ASSIGN('+', kExprLexPlus, kExprAsgnAdd)
|
||||
CHAR_OR_ASSIGN('.', kExprLexDot, kExprAsgnConcat)
|
||||
#undef CHAR_OR_ASSIGN
|
||||
@ -811,19 +811,19 @@ const char *viml_pexpr_repr_token(const ParserState *const pstate, const LexExpr
|
||||
eltkn_type_tab[token.type]);
|
||||
switch (token.type) {
|
||||
#define TKNARGS(tkn_type, ...) \
|
||||
case tkn_type: { \
|
||||
ADDSTR(__VA_ARGS__); \
|
||||
break; \
|
||||
}
|
||||
TKNARGS(kExprLexComparison, "(type=%s,ccs=%s,inv=%i)",
|
||||
eltkn_cmp_type_tab[token.data.cmp.type],
|
||||
ccs_tab[token.data.cmp.ccs],
|
||||
(int)token.data.cmp.inv)
|
||||
TKNARGS(kExprLexMultiplication, "(type=%s)",
|
||||
eltkn_mul_type_tab[token.data.mul.type])
|
||||
TKNARGS(kExprLexAssignment, "(type=%s)",
|
||||
expr_asgn_type_tab[token.data.ass.type])
|
||||
TKNARGS(kExprLexRegister, "(name=%s)", intchar2str(token.data.reg.name))
|
||||
case tkn_type: { \
|
||||
ADDSTR(__VA_ARGS__); \
|
||||
break; \
|
||||
}
|
||||
TKNARGS(kExprLexComparison, "(type=%s,ccs=%s,inv=%i)",
|
||||
eltkn_cmp_type_tab[token.data.cmp.type],
|
||||
ccs_tab[token.data.cmp.ccs],
|
||||
(int)token.data.cmp.inv)
|
||||
TKNARGS(kExprLexMultiplication, "(type=%s)",
|
||||
eltkn_mul_type_tab[token.data.mul.type])
|
||||
TKNARGS(kExprLexAssignment, "(type=%s)",
|
||||
expr_asgn_type_tab[token.data.ass.type])
|
||||
TKNARGS(kExprLexRegister, "(name=%s)", intchar2str(token.data.reg.name))
|
||||
case kExprLexDoubleQuotedString:
|
||||
TKNARGS(kExprLexSingleQuotedString, "(closed=%i)",
|
||||
(int)token.data.str.closed)
|
||||
@ -1540,21 +1540,21 @@ static inline void east_set_error(const ParserState *const pstate, ExprASTError
|
||||
case kExprNodeComplexIdentifier: \
|
||||
case kExprNodePlainIdentifier: \
|
||||
case kExprNodeCurlyBracesIdentifier: { \
|
||||
NEW_NODE_WITH_CUR_POS(cur_node, kExprNodeComplexIdentifier); \
|
||||
cur_node->len = 0; \
|
||||
cur_node->children = *top_node_p; \
|
||||
*top_node_p = cur_node; \
|
||||
kvi_push(ast_stack, &cur_node->children->next); \
|
||||
ExprASTNode **const new_top_node_p = kv_last(ast_stack); \
|
||||
assert(*new_top_node_p == NULL); \
|
||||
new_ident_node_code; \
|
||||
*new_top_node_p = cur_node; \
|
||||
HL_CUR_TOKEN(hl); \
|
||||
break; \
|
||||
NEW_NODE_WITH_CUR_POS(cur_node, kExprNodeComplexIdentifier); \
|
||||
cur_node->len = 0; \
|
||||
cur_node->children = *top_node_p; \
|
||||
*top_node_p = cur_node; \
|
||||
kvi_push(ast_stack, &cur_node->children->next); \
|
||||
ExprASTNode **const new_top_node_p = kv_last(ast_stack); \
|
||||
assert(*new_top_node_p == NULL); \
|
||||
new_ident_node_code; \
|
||||
*new_top_node_p = cur_node; \
|
||||
HL_CUR_TOKEN(hl); \
|
||||
break; \
|
||||
} \
|
||||
default: { \
|
||||
OP_MISSING; \
|
||||
break; \
|
||||
OP_MISSING; \
|
||||
break; \
|
||||
} \
|
||||
} \
|
||||
} while (0)
|
||||
@ -1747,19 +1747,19 @@ static void parse_quoted_string(ParserState *const pstate, ExprASTNode *const no
|
||||
const char *const v_p_start = v_p;
|
||||
switch (*p) {
|
||||
#define SINGLE_CHAR_ESC(ch, real_ch) \
|
||||
case ch: { \
|
||||
*v_p++ = real_ch; \
|
||||
p++; \
|
||||
break; \
|
||||
}
|
||||
SINGLE_CHAR_ESC('b', BS)
|
||||
SINGLE_CHAR_ESC('e', ESC)
|
||||
SINGLE_CHAR_ESC('f', FF)
|
||||
SINGLE_CHAR_ESC('n', NL)
|
||||
SINGLE_CHAR_ESC('r', CAR)
|
||||
SINGLE_CHAR_ESC('t', TAB)
|
||||
SINGLE_CHAR_ESC('"', '"')
|
||||
SINGLE_CHAR_ESC('\\', '\\')
|
||||
case ch: { \
|
||||
*v_p++ = real_ch; \
|
||||
p++; \
|
||||
break; \
|
||||
}
|
||||
SINGLE_CHAR_ESC('b', BS)
|
||||
SINGLE_CHAR_ESC('e', ESC)
|
||||
SINGLE_CHAR_ESC('f', FF)
|
||||
SINGLE_CHAR_ESC('n', NL)
|
||||
SINGLE_CHAR_ESC('r', CAR)
|
||||
SINGLE_CHAR_ESC('t', TAB)
|
||||
SINGLE_CHAR_ESC('"', '"')
|
||||
SINGLE_CHAR_ESC('\\', '\\')
|
||||
#undef SINGLE_CHAR_ESC
|
||||
|
||||
// Hexadecimal or unicode.
|
||||
@ -2141,32 +2141,32 @@ viml_pexpr_parse_process_token:
|
||||
break;
|
||||
}
|
||||
#define SIMPLE_UB_OP(op) \
|
||||
case kExprLex##op: { \
|
||||
if (want_node == kENodeValue) { \
|
||||
/* Value level: assume unary operator. */ \
|
||||
NEW_NODE_WITH_CUR_POS(cur_node, kExprNodeUnary##op); \
|
||||
*top_node_p = cur_node; \
|
||||
kvi_push(ast_stack, &cur_node->children); \
|
||||
HL_CUR_TOKEN(Unary##op); \
|
||||
} else { \
|
||||
NEW_NODE_WITH_CUR_POS(cur_node, kExprNodeBinary##op); \
|
||||
ADD_OP_NODE(cur_node); \
|
||||
HL_CUR_TOKEN(Binary##op); \
|
||||
} \
|
||||
want_node = kENodeValue; \
|
||||
break; \
|
||||
}
|
||||
case kExprLex##op: { \
|
||||
if (want_node == kENodeValue) { \
|
||||
/* Value level: assume unary operator. */ \
|
||||
NEW_NODE_WITH_CUR_POS(cur_node, kExprNodeUnary##op); \
|
||||
*top_node_p = cur_node; \
|
||||
kvi_push(ast_stack, &cur_node->children); \
|
||||
HL_CUR_TOKEN(Unary##op); \
|
||||
} else { \
|
||||
NEW_NODE_WITH_CUR_POS(cur_node, kExprNodeBinary##op); \
|
||||
ADD_OP_NODE(cur_node); \
|
||||
HL_CUR_TOKEN(Binary##op); \
|
||||
} \
|
||||
want_node = kENodeValue; \
|
||||
break; \
|
||||
}
|
||||
SIMPLE_UB_OP(Plus)
|
||||
SIMPLE_UB_OP(Minus)
|
||||
#undef SIMPLE_UB_OP
|
||||
#define SIMPLE_B_OP(op, msg) \
|
||||
case kExprLex##op: { \
|
||||
ADD_VALUE_IF_MISSING(_("E15: Unexpected " msg ": %.*s")); \
|
||||
NEW_NODE_WITH_CUR_POS(cur_node, kExprNode##op); \
|
||||
HL_CUR_TOKEN(op); \
|
||||
ADD_OP_NODE(cur_node); \
|
||||
break; \
|
||||
}
|
||||
case kExprLex##op: { \
|
||||
ADD_VALUE_IF_MISSING(_("E15: Unexpected " msg ": %.*s")); \
|
||||
NEW_NODE_WITH_CUR_POS(cur_node, kExprNode##op); \
|
||||
HL_CUR_TOKEN(op); \
|
||||
ADD_OP_NODE(cur_node); \
|
||||
break; \
|
||||
}
|
||||
SIMPLE_B_OP(Or, "or operator")
|
||||
SIMPLE_B_OP(And, "and operator")
|
||||
#undef SIMPLE_B_OP
|
||||
@ -2174,14 +2174,14 @@ case kExprLex##op: { \
|
||||
ADD_VALUE_IF_MISSING(_("E15: Unexpected multiplication-like operator: %.*s"));
|
||||
switch (cur_token.data.mul.type) {
|
||||
#define MUL_OP(lex_op_tail, node_op_tail) \
|
||||
case kExprLexMul##lex_op_tail: { \
|
||||
NEW_NODE_WITH_CUR_POS(cur_node, kExprNode##node_op_tail); \
|
||||
HL_CUR_TOKEN(node_op_tail); \
|
||||
break; \
|
||||
}
|
||||
MUL_OP(Mul, Multiplication)
|
||||
MUL_OP(Div, Division)
|
||||
MUL_OP(Mod, Mod)
|
||||
case kExprLexMul##lex_op_tail: { \
|
||||
NEW_NODE_WITH_CUR_POS(cur_node, kExprNode##node_op_tail); \
|
||||
HL_CUR_TOKEN(node_op_tail); \
|
||||
break; \
|
||||
}
|
||||
MUL_OP(Mul, Multiplication)
|
||||
MUL_OP(Div, Division)
|
||||
MUL_OP(Mod, Mod)
|
||||
#undef MUL_OP
|
||||
}
|
||||
ADD_OP_NODE(cur_node);
|
||||
@ -2929,11 +2929,11 @@ viml_pexpr_parse_no_paren_closing_error: {}
|
||||
cur_node->data.ass.type = cur_token.data.ass.type;
|
||||
switch (cur_token.data.ass.type) {
|
||||
#define HL_ASGN(asgn, hl) \
|
||||
case kExprAsgn##asgn: { HL_CUR_TOKEN(hl); break; }
|
||||
HL_ASGN(Plain, PlainAssignment)
|
||||
HL_ASGN(Add, AssignmentWithAddition)
|
||||
HL_ASGN(Subtract, AssignmentWithSubtraction)
|
||||
HL_ASGN(Concat, AssignmentWithConcatenation)
|
||||
case kExprAsgn##asgn: { HL_CUR_TOKEN(hl); break; }
|
||||
HL_ASGN(Plain, PlainAssignment)
|
||||
HL_ASGN(Add, AssignmentWithAddition)
|
||||
HL_ASGN(Subtract, AssignmentWithSubtraction)
|
||||
HL_ASGN(Concat, AssignmentWithConcatenation)
|
||||
#undef HL_ASGN
|
||||
}
|
||||
ADD_OP_NODE(cur_node);
|
||||
|
@ -1,4 +1,4 @@
|
||||
# Uncrustify-0.73.0-199-0dfafb27
|
||||
# Uncrustify-0.74.0
|
||||
|
||||
#
|
||||
# General options
|
||||
@ -214,6 +214,10 @@ sp_after_ptr_star_func = remove # ignore/add/remove/force/not_defined
|
||||
# function prototype or function definition.
|
||||
sp_after_ptr_star_trailing = ignore # ignore/add/remove/force/not_defined
|
||||
|
||||
# Add or remove space between the pointer star '*' and the name of the variable
|
||||
# in a function pointer definition.
|
||||
sp_ptr_star_func_var = ignore # ignore/add/remove/force/not_defined
|
||||
|
||||
# Add or remove space after a pointer star '*', if followed by an open
|
||||
# parenthesis, as in 'void* (*)()'.
|
||||
sp_ptr_star_paren = ignore # ignore/add/remove/force/not_defined
|
||||
@ -311,19 +315,33 @@ sp_permit_cpp11_shift = false # true/false
|
||||
# 'while', etc.).
|
||||
sp_before_sparen = force # ignore/add/remove/force/not_defined
|
||||
|
||||
# Add or remove space inside '(' and ')' of control statements.
|
||||
# Add or remove space inside '(' and ')' of control statements other than
|
||||
# 'for'.
|
||||
sp_inside_sparen = remove # ignore/add/remove/force/not_defined
|
||||
|
||||
# Add or remove space after '(' of control statements.
|
||||
# Add or remove space after '(' of control statements other than 'for'.
|
||||
#
|
||||
# Overrides sp_inside_sparen.
|
||||
sp_inside_sparen_open = remove # ignore/add/remove/force/not_defined
|
||||
|
||||
# Add or remove space before ')' of control statements.
|
||||
# Add or remove space before ')' of control statements other than 'for'.
|
||||
#
|
||||
# Overrides sp_inside_sparen.
|
||||
sp_inside_sparen_close = ignore # ignore/add/remove/force/not_defined
|
||||
|
||||
# Add or remove space inside '(' and ')' of 'for' statements.
|
||||
sp_inside_for = ignore # ignore/add/remove/force/not_defined
|
||||
|
||||
# Add or remove space after '(' of 'for' statements.
|
||||
#
|
||||
# Overrides sp_inside_for.
|
||||
sp_inside_for_open = ignore # ignore/add/remove/force/not_defined
|
||||
|
||||
# Add or remove space before ')' of 'for' statements.
|
||||
#
|
||||
# Overrides sp_inside_for.
|
||||
sp_inside_for_close = ignore # ignore/add/remove/force/not_defined
|
||||
|
||||
# Add or remove space between '((' or '))' of control statements.
|
||||
sp_sparen_paren = ignore # ignore/add/remove/force/not_defined
|
||||
|
||||
@ -648,6 +666,11 @@ sp_func_class_paren = ignore # ignore/add/remove/force/not_defined
|
||||
# and '()'.
|
||||
sp_func_class_paren_empty = ignore # ignore/add/remove/force/not_defined
|
||||
|
||||
# Add or remove space after 'return'.
|
||||
#
|
||||
# Default: force
|
||||
sp_return = force # ignore/add/remove/force/not_defined
|
||||
|
||||
# Add or remove space between 'return' and '('.
|
||||
sp_return_paren = force # ignore/add/remove/force/not_defined
|
||||
|
||||
@ -971,11 +994,31 @@ sp_inside_newop_paren_open = ignore # ignore/add/remove/force/not_defined
|
||||
# Overrides sp_inside_newop_paren.
|
||||
sp_inside_newop_paren_close = ignore # ignore/add/remove/force/not_defined
|
||||
|
||||
# Add or remove space before a trailing or embedded comment.
|
||||
sp_before_tr_emb_cmt = add # ignore/add/remove/force/not_defined
|
||||
# Add or remove space before a trailing comment.
|
||||
sp_before_tr_cmt = add # ignore/add/remove/force/not_defined
|
||||
|
||||
# Number of spaces before a trailing or embedded comment.
|
||||
sp_num_before_tr_emb_cmt = 2 # unsigned number
|
||||
# Number of spaces before a trailing comment.
|
||||
sp_num_before_tr_cmt = 2 # unsigned number
|
||||
|
||||
# Add or remove space before an embedded comment.
|
||||
#
|
||||
# Default: force
|
||||
sp_before_emb_cmt = force # ignore/add/remove/force/not_defined
|
||||
|
||||
# Number of spaces before an embedded comment.
|
||||
#
|
||||
# Default: 1
|
||||
sp_num_before_emb_cmt = 1 # unsigned number
|
||||
|
||||
# Add or remove space after an embedded comment.
|
||||
#
|
||||
# Default: force
|
||||
sp_after_emb_cmt = force # ignore/add/remove/force/not_defined
|
||||
|
||||
# Number of spaces after an embedded comment.
|
||||
#
|
||||
# Default: 1
|
||||
sp_num_after_emb_cmt = 1 # unsigned number
|
||||
|
||||
# (Java) Add or remove space between an annotation and the open parenthesis.
|
||||
sp_annotation_paren = ignore # ignore/add/remove/force/not_defined
|
||||
@ -1216,12 +1259,16 @@ indent_sparen_extra = 0 # number
|
||||
indent_relative_single_line_comments = true # true/false
|
||||
|
||||
# Spaces to indent 'case' from 'switch'. Usually 0 or indent_columns.
|
||||
# It might wise to choose the same value for the option indent_case_brace.
|
||||
# It might be wise to choose the same value for the option indent_case_brace.
|
||||
indent_switch_case = 0 # unsigned number
|
||||
|
||||
# Spaces to indent the body of a 'switch' before any 'case'.
|
||||
# Usually the same as indent_columns or indent_switch_case.
|
||||
indent_switch_body = 0 # unsigned number
|
||||
|
||||
# Spaces to indent '{' from 'case'. By default, the brace will appear under
|
||||
# the 'c' in case. Usually set to 0 or indent_columns. Negative values are OK.
|
||||
# It might wise to choose the same value for the option indent_switch_case.
|
||||
# It might be wise to choose the same value for the option indent_switch_case.
|
||||
indent_case_brace = 0 # number
|
||||
|
||||
# indent 'break' with 'case' from 'switch'.
|
||||
@ -1236,13 +1283,31 @@ indent_switch_pp = true # true/false
|
||||
# Usually 0.
|
||||
indent_case_shift = 0 # unsigned number
|
||||
|
||||
# Whether to align comments before 'case' with the 'case'.
|
||||
#
|
||||
# Default: true
|
||||
indent_case_comment = true # true/false
|
||||
|
||||
# Whether to indent comments not found in first column.
|
||||
#
|
||||
# Default: true
|
||||
indent_comment = true # true/false
|
||||
|
||||
# Whether to indent comments found in first column.
|
||||
indent_col1_comment = false # true/false
|
||||
|
||||
# Whether to indent multi string literal in first column.
|
||||
indent_col1_multi_string_literal = false # true/false
|
||||
|
||||
# How to indent goto labels.
|
||||
# Align comments on adjacent lines that are this many columns apart or less.
|
||||
#
|
||||
# Default: 3
|
||||
indent_comment_align_thresh = 3 # unsigned number
|
||||
|
||||
# Whether to ignore indent for goto labels.
|
||||
indent_ignore_label = false # true/false
|
||||
|
||||
# How to indent goto labels. Requires indent_ignore_label=false.
|
||||
#
|
||||
# >0: Absolute column where 1 is the leftmost column
|
||||
# <=0: Subtract from brace indent
|
||||
@ -1414,7 +1479,7 @@ indent_using_block = true # true/false
|
||||
# 0: Off (default)
|
||||
# 1: When the `if_false` is a continuation, indent it under `if_false`
|
||||
# 2: When the `:` is a continuation, indent it under `?`
|
||||
indent_ternary_operator = 2 # unsigned number
|
||||
indent_ternary_operator = 0 # unsigned number
|
||||
|
||||
# Whether to indent the statements inside ternary operator.
|
||||
indent_inside_ternary_operator = false # true/false
|
||||
@ -2622,6 +2687,22 @@ align_right_cmt_at_col = 0 # unsigned number
|
||||
# 0: Don't align (default).
|
||||
align_func_proto_span = 0 # unsigned number
|
||||
|
||||
# How to consider (or treat) the '*' in the alignment of function prototypes.
|
||||
#
|
||||
# 0: Part of the type 'void * foo();' (default)
|
||||
# 1: Part of the function 'void *foo();'
|
||||
# 2: Dangling 'void *foo();'
|
||||
# Dangling: the '*' will not be taken into account when aligning.
|
||||
align_func_proto_star_style = 0 # unsigned number
|
||||
|
||||
# How to consider (or treat) the '&' in the alignment of function prototypes.
|
||||
#
|
||||
# 0: Part of the type 'long & foo();' (default)
|
||||
# 1: Part of the function 'long &foo();'
|
||||
# 2: Dangling 'long &foo();'
|
||||
# Dangling: the '&' will not be taken into account when aligning.
|
||||
align_func_proto_amp_style = 0 # unsigned number
|
||||
|
||||
# The threshold for aligning function prototypes.
|
||||
# Use a negative number for absolute thresholds.
|
||||
#
|
||||
@ -3101,6 +3182,9 @@ pp_indent_in_guard = false # true/false
|
||||
# indented from column 1.
|
||||
pp_define_at_level = false # true/false
|
||||
|
||||
# Whether to indent '#include' at the brace level.
|
||||
pp_include_at_level = false # true/false
|
||||
|
||||
# Whether to ignore the '#define' body while formatting.
|
||||
pp_ignore_define_body = false # true/false
|
||||
|
||||
@ -3307,5 +3391,5 @@ set QUESTION REAL_FATTR_CONST
|
||||
set QUESTION REAL_FATTR_NONNULL_ALL
|
||||
set QUESTION REAL_FATTR_PURE
|
||||
set QUESTION REAL_FATTR_WARN_UNUSED_RESULT
|
||||
# option(s) with 'not default' value: 87
|
||||
# option(s) with 'not default' value: 86
|
||||
#
|
||||
|
Loading…
Reference in New Issue
Block a user