// 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 // highlight.c: low level code for UI and syntax highlighting #include "nvim/vim.h" #include "nvim/highlight.h" #include "nvim/highlight_defs.h" #include "nvim/map.h" #include "nvim/message.h" #include "nvim/popupmnu.h" #include "nvim/screen.h" #include "nvim/syntax.h" #include "nvim/ui.h" #include "nvim/api/private/defs.h" #include "nvim/api/private/helpers.h" #ifdef INCLUDE_GENERATED_DECLARATIONS # include "highlight.c.generated.h" #endif static bool hlstate_active = false; static kvec_t(HlEntry) attr_entries = KV_INITIAL_VALUE; static Map(HlEntry, int) *attr_entry_ids; static Map(int, int) *combine_attr_entries; static Map(int, int) *blend_attr_entries; static Map(int, int) *blendthrough_attr_entries; void highlight_init(void) { attr_entry_ids = map_new(HlEntry, int)(); combine_attr_entries = map_new(int, int)(); blend_attr_entries = map_new(int, int)(); blendthrough_attr_entries = map_new(int, int)(); // index 0 is no attribute, add dummy entry: kv_push(attr_entries, ((HlEntry){ .attr = HLATTRS_INIT, .kind = kHlUnknown, .id1 = 0, .id2 = 0 })); } /// @return TRUE if hl table was reset bool highlight_use_hlstate(void) { if (hlstate_active) { return false; } hlstate_active = true; // hl tables must now be rebuilt. clear_hl_tables(true); return true; } /// Return the attr number for a set of colors and font, and optionally /// a semantic description (see ext_hlstate documentation). /// Add a new entry to the attr_entries array if the combination is new. /// @return 0 for error. static int get_attr_entry(HlEntry entry) { if (!hlstate_active) { // This information will not be used, erase it and reduce the table size. entry.kind = kHlUnknown; entry.id1 = 0; entry.id2 = 0; } int id = map_get(HlEntry, int)(attr_entry_ids, entry); if (id > 0) { return id; } static bool recursive = false; if (kv_size(attr_entries) > MAX_TYPENR) { // Running out of attribute entries! remove all attributes, and // compute new ones for all groups. // When called recursively, we are really out of numbers. if (recursive) { EMSG(_("E424: Too many different highlighting attributes in use")); return 0; } recursive = true; clear_hl_tables(true); recursive = false; if (entry.kind == kHlCombine) { // This entry is now invalid, don't put it return 0; } } id = (int)kv_size(attr_entries); kv_push(attr_entries, entry); map_put(HlEntry, int)(attr_entry_ids, entry, id); Array inspect = hl_inspect(id); // Note: internally we don't distinguish between cterm and rgb attributes, // remote_ui_hl_attr_define will however. ui_call_hl_attr_define(id, entry.attr, entry.attr, inspect); api_free_array(inspect); return id; } /// When a UI connects, we need to send it the table of highlights used so far. void ui_send_all_hls(UI *ui) { if (ui->hl_attr_define) { for (size_t i = 1; i < kv_size(attr_entries); i++) { Array inspect = hl_inspect((int)i); ui->hl_attr_define(ui, (Integer)i, kv_A(attr_entries, i).attr, kv_A(attr_entries, i).attr, inspect); api_free_array(inspect); } } if (ui->hl_group_set) { for (size_t hlf = 0; hlf < HLF_COUNT; hlf++) { ui->hl_group_set(ui, cstr_as_string((char *)hlf_names[hlf]), highlight_attr[hlf]); } } } /// Get attribute code for a syntax group. int hl_get_syn_attr(int idx, HlAttrs at_en) { // TODO(bfredl): should we do this unconditionally if (at_en.cterm_fg_color != 0 || at_en.cterm_bg_color != 0 || at_en.rgb_fg_color != -1 || at_en.rgb_bg_color != -1 || at_en.rgb_sp_color != -1 || at_en.cterm_ae_attr != 0 || at_en.rgb_ae_attr != 0) { return get_attr_entry((HlEntry){ .attr = at_en, .kind = kHlSyntax, .id1 = idx, .id2 = 0 }); } else { // If all the fields are cleared, clear the attr field back to default value return 0; } } /// Get attribute code for a builtin highlight group. /// /// The final syntax group could be modified by hi-link or 'winhighlight'. int hl_get_ui_attr(int idx, int final_id, bool optional) { HlAttrs attrs = HLATTRS_INIT; bool available = false; if (final_id > 0) { int syn_attr = syn_id2attr(final_id); if (syn_attr != 0) { attrs = syn_attr2entry(syn_attr); available = true; } } if (HLF_PNI <= idx && idx <= HLF_PST) { if (attrs.hl_blend == -1 && p_pb > 0) { attrs.hl_blend = (int)p_pb; } if (pum_drawn()) { must_redraw_pum = true; } } else if (idx == HLF_MSG) { msg_grid.blending = attrs.hl_blend > -1; } if (optional && !available) { return 0; } return get_attr_entry((HlEntry){ .attr = attrs, .kind = kHlUI, .id1 = idx, .id2 = final_id }); } void update_window_hl(win_T *wp, bool invalid) { if (!wp->w_hl_needs_update && !invalid) { return; } wp->w_hl_needs_update = false; // If a floating window is blending it always have a named // wp->w_hl_attr_normal group. HL_ATTR(HLF_NFLOAT) is always named. bool has_blend = wp->w_floating && wp->w_p_winbl != 0; // determine window specific background set in 'winhighlight' bool float_win = wp->w_floating && !wp->w_float_config.external; if (wp != curwin && wp->w_hl_ids[HLF_INACTIVE] != 0) { wp->w_hl_attr_normal = hl_get_ui_attr(HLF_INACTIVE, wp->w_hl_ids[HLF_INACTIVE], !has_blend); } else if (float_win && wp->w_hl_ids[HLF_NFLOAT] != 0) { wp->w_hl_attr_normal = hl_get_ui_attr(HLF_NFLOAT, wp->w_hl_ids[HLF_NFLOAT], !has_blend); } else if (wp->w_hl_id_normal != 0) { wp->w_hl_attr_normal = hl_get_ui_attr(-1, wp->w_hl_id_normal, !has_blend); } else { wp->w_hl_attr_normal = float_win ? HL_ATTR(HLF_NFLOAT) : 0; } // if blend= attribute is not set, 'winblend' value overrides it. if (wp->w_floating && wp->w_p_winbl > 0) { HlEntry entry = kv_A(attr_entries, wp->w_hl_attr_normal); if (entry.attr.hl_blend == -1) { entry.attr.hl_blend = (int)wp->w_p_winbl; wp->w_hl_attr_normal = get_attr_entry(entry); } } if (wp != curwin && wp->w_hl_ids[HLF_INACTIVE] == 0) { wp->w_hl_attr_normal = hl_combine_attr(HL_ATTR(HLF_INACTIVE), wp->w_hl_attr_normal); } for (int hlf = 0; hlf < (int)HLF_COUNT; hlf++) { int attr; if (wp->w_hl_ids[hlf] != 0) { attr = hl_get_ui_attr(hlf, wp->w_hl_ids[hlf], false); } else { attr = HL_ATTR(hlf); } wp->w_hl_attrs[hlf] = attr; } } /// Gets HL_UNDERLINE highlight. int hl_get_underline(void) { return get_attr_entry((HlEntry){ .attr = (HlAttrs){ .cterm_ae_attr = (int16_t)HL_UNDERLINE, .cterm_fg_color = 0, .cterm_bg_color = 0, .rgb_ae_attr = (int16_t)HL_UNDERLINE, .rgb_fg_color = -1, .rgb_bg_color = -1, .rgb_sp_color = -1, .hl_blend = -1, }, .kind = kHlUI, .id1 = 0, .id2 = 0, }); } /// Get attribute code for forwarded :terminal highlights. int hl_get_term_attr(HlAttrs *aep) { return get_attr_entry((HlEntry){ .attr= *aep, .kind = kHlTerminal, .id1 = 0, .id2 = 0 }); } /// Clear all highlight tables. void clear_hl_tables(bool reinit) { if (reinit) { kv_size(attr_entries) = 1; map_clear(HlEntry, int)(attr_entry_ids); map_clear(int, int)(combine_attr_entries); map_clear(int, int)(blend_attr_entries); map_clear(int, int)(blendthrough_attr_entries); memset(highlight_attr_last, -1, sizeof(highlight_attr_last)); highlight_attr_set_all(); highlight_changed(); screen_invalidate_highlights(); } else { kv_destroy(attr_entries); map_free(HlEntry, int)(attr_entry_ids); map_free(int, int)(combine_attr_entries); map_free(int, int)(blend_attr_entries); map_free(int, int)(blendthrough_attr_entries); } } void hl_invalidate_blends(void) { map_clear(int, int)(blend_attr_entries); map_clear(int, int)(blendthrough_attr_entries); highlight_changed(); update_window_hl(curwin, true); } // Combine special attributes (e.g., for spelling) with other attributes // (e.g., for syntax highlighting). // "prim_attr" overrules "char_attr". // This creates a new group when required. // Since we expect there to be a lot of spelling mistakes we cache the result. // Return the resulting attributes. int hl_combine_attr(int char_attr, int prim_attr) { if (char_attr == 0) { return prim_attr; } else if (prim_attr == 0) { return char_attr; } // TODO(bfredl): could use a struct for clearer intent. int combine_tag = (char_attr << 16) + prim_attr; int id = map_get(int, int)(combine_attr_entries, combine_tag); if (id > 0) { return id; } HlAttrs char_aep = syn_attr2entry(char_attr); HlAttrs spell_aep = syn_attr2entry(prim_attr); // start with low-priority attribute, and override colors if present below. HlAttrs new_en = char_aep; new_en.cterm_ae_attr |= spell_aep.cterm_ae_attr; new_en.rgb_ae_attr |= spell_aep.rgb_ae_attr; if (spell_aep.cterm_fg_color > 0) { new_en.cterm_fg_color = spell_aep.cterm_fg_color; } if (spell_aep.cterm_bg_color > 0) { new_en.cterm_bg_color = spell_aep.cterm_bg_color; } if (spell_aep.rgb_fg_color >= 0) { new_en.rgb_fg_color = spell_aep.rgb_fg_color; } if (spell_aep.rgb_bg_color >= 0) { new_en.rgb_bg_color = spell_aep.rgb_bg_color; } if (spell_aep.rgb_sp_color >= 0) { new_en.rgb_sp_color = spell_aep.rgb_sp_color; } if (spell_aep.hl_blend >= 0) { new_en.hl_blend = spell_aep.hl_blend; } id = get_attr_entry((HlEntry){ .attr = new_en, .kind = kHlCombine, .id1 = char_attr, .id2 = prim_attr }); if (id > 0) { map_put(int, int)(combine_attr_entries, combine_tag, id); } return id; } /// Get the used rgb colors for an attr group. /// /// If colors are unset, use builtin default colors. Never returns -1 /// Cterm colors are unchanged. static HlAttrs get_colors_force(int attr) { HlAttrs attrs = syn_attr2entry(attr); if (attrs.rgb_bg_color == -1) { attrs.rgb_bg_color = normal_bg; } if (attrs.rgb_fg_color == -1) { attrs.rgb_fg_color = normal_fg; } if (attrs.rgb_sp_color == -1) { attrs.rgb_sp_color = normal_sp; } HL_SET_DEFAULT_COLORS(attrs.rgb_fg_color, attrs.rgb_bg_color, attrs.rgb_sp_color); if (attrs.rgb_ae_attr & HL_INVERSE) { int temp = attrs.rgb_bg_color; attrs.rgb_bg_color = attrs.rgb_fg_color; attrs.rgb_fg_color = temp; attrs.rgb_ae_attr &= ~HL_INVERSE; } return attrs; } /// Blend overlay attributes (for popupmenu) with other attributes /// /// This creates a new group when required. /// This is called per-cell, so cache the result. /// /// @return the resulting attributes. int hl_blend_attrs(int back_attr, int front_attr, bool *through) { HlAttrs fattrs = get_colors_force(front_attr); int ratio = fattrs.hl_blend; if (ratio <= 0) { *through = false; return front_attr; } int combine_tag = (back_attr << 16) + front_attr; Map(int, int) *map = (*through ? blendthrough_attr_entries : blend_attr_entries); int id = map_get(int, int)(map, combine_tag); if (id > 0) { return id; } HlAttrs battrs = get_colors_force(back_attr); HlAttrs cattrs; if (*through) { cattrs = battrs; cattrs.rgb_fg_color = rgb_blend(ratio, battrs.rgb_fg_color, fattrs.rgb_bg_color); if (cattrs.rgb_ae_attr & (HL_UNDERLINE|HL_UNDERCURL)) { cattrs.rgb_sp_color = rgb_blend(ratio, battrs.rgb_sp_color, fattrs.rgb_bg_color); } else { cattrs.rgb_sp_color = -1; } cattrs.cterm_bg_color = fattrs.cterm_bg_color; cattrs.cterm_fg_color = cterm_blend(ratio, battrs.cterm_fg_color, fattrs.cterm_bg_color); } else { cattrs = fattrs; if (ratio >= 50) { cattrs.rgb_ae_attr |= battrs.rgb_ae_attr; } cattrs.rgb_fg_color = rgb_blend(ratio/2, battrs.rgb_fg_color, fattrs.rgb_fg_color); if (cattrs.rgb_ae_attr & (HL_UNDERLINE|HL_UNDERCURL)) { cattrs.rgb_sp_color = rgb_blend(ratio/2, battrs.rgb_bg_color, fattrs.rgb_sp_color); } else { cattrs.rgb_sp_color = -1; } } cattrs.rgb_bg_color = rgb_blend(ratio, battrs.rgb_bg_color, fattrs.rgb_bg_color); cattrs.hl_blend = -1; // blend property was consumed HlKind kind = *through ? kHlBlendThrough : kHlBlend; id = get_attr_entry((HlEntry){ .attr = cattrs, .kind = kind, .id1 = back_attr, .id2 = front_attr }); if (id > 0) { map_put(int, int)(map, combine_tag, id); } return id; } static int rgb_blend(int ratio, int rgb1, int rgb2) { int a = ratio, b = 100-ratio; int r1 = (rgb1 & 0xFF0000) >> 16; int g1 = (rgb1 & 0x00FF00) >> 8; int b1 = (rgb1 & 0x0000FF) >> 0; int r2 = (rgb2 & 0xFF0000) >> 16; int g2 = (rgb2 & 0x00FF00) >> 8; int b2 = (rgb2 & 0x0000FF) >> 0; int mr = (a * r1 + b * r2)/100; int mg = (a * g1 + b * g2)/100; int mb = (a * b1 + b * b2)/100; return (mr << 16) + (mg << 8) + mb; } static int cterm_blend(int ratio, int c1, int c2) { // 1. Convert cterm color numbers to RGB. // 2. Blend the RGB colors. // 3. Convert the RGB result to a cterm color. int rgb1 = hl_cterm2rgb_color(c1); int rgb2 = hl_cterm2rgb_color(c2); int rgb_blended = rgb_blend(ratio, rgb1, rgb2); return hl_rgb2cterm_color(rgb_blended); } /// Converts RGB color to 8-bit color (0-255). static int hl_rgb2cterm_color(int rgb) { int r = (rgb & 0xFF0000) >> 16; int g = (rgb & 0x00FF00) >> 8; int b = (rgb & 0x0000FF) >> 0; return (r * 6 / 256) * 36 + (g * 6 / 256) * 6 + (b * 6 / 256); } /// Converts 8-bit color (0-255) to RGB color. /// This is compatible with xterm. static int hl_cterm2rgb_color(int nr) { static int cube_value[] = { 0x00, 0x5F, 0x87, 0xAF, 0xD7, 0xFF }; static int grey_ramp[] = { 0x08, 0x12, 0x1C, 0x26, 0x30, 0x3A, 0x44, 0x4E, 0x58, 0x62, 0x6C, 0x76, 0x80, 0x8A, 0x94, 0x9E, 0xA8, 0xB2, 0xBC, 0xC6, 0xD0, 0xDA, 0xE4, 0xEE }; static char_u ansi_table[16][4] = { // R G B idx { 0, 0, 0, 1 } , // black { 224, 0, 0, 2 } , // dark red { 0, 224, 0, 3 } , // dark green { 224, 224, 0, 4 } , // dark yellow / brown { 0, 0, 224, 5 } , // dark blue { 224, 0, 224, 6 } , // dark magenta { 0, 224, 224, 7 } , // dark cyan { 224, 224, 224, 8 } , // light grey { 128, 128, 128, 9 } , // dark grey { 255, 64, 64, 10 } , // light red { 64, 255, 64, 11 } , // light green { 255, 255, 64, 12 } , // yellow { 64, 64, 255, 13 } , // light blue { 255, 64, 255, 14 } , // light magenta { 64, 255, 255, 15 } , // light cyan { 255, 255, 255, 16 } , // white }; int r = 0; int g = 0; int b = 0; int idx; // *ansi_idx = 0; if (nr < 16) { r = ansi_table[nr][0]; g = ansi_table[nr][1]; b = ansi_table[nr][2]; // *ansi_idx = ansi_table[nr][3]; } else if (nr < 232) { // 216 color-cube idx = nr - 16; r = cube_value[idx / 36 % 6]; g = cube_value[idx / 6 % 6]; b = cube_value[idx % 6]; // *ansi_idx = -1; } else if (nr < 256) { // 24 greyscale ramp idx = nr - 232; r = grey_ramp[idx]; g = grey_ramp[idx]; b = grey_ramp[idx]; // *ansi_idx = -1; } return (r << 16) + (g << 8) + b; } /// Get highlight attributes for a attribute code HlAttrs syn_attr2entry(int attr) { if (attr <= 0 || attr >= (int)kv_size(attr_entries)) { // invalid attribute code, or the tables were cleared return HLATTRS_INIT; } return kv_A(attr_entries, attr).attr; } /// Gets highlight description for id `attr_id` as a map. Dictionary hl_get_attr_by_id(Integer attr_id, Boolean rgb, Error *err) { Dictionary dic = ARRAY_DICT_INIT; if (attr_id == 0) { return dic; } if (attr_id <= 0 || attr_id >= (int)kv_size(attr_entries)) { api_set_error(err, kErrorTypeException, "Invalid attribute id: %" PRId64, attr_id); return dic; } return hlattrs2dict(syn_attr2entry((int)attr_id), rgb); } /// Converts an HlAttrs into Dictionary /// /// @param[in] aep data to convert /// @param use_rgb use 'gui*' settings if true, else resorts to 'cterm*' Dictionary hlattrs2dict(HlAttrs ae, bool use_rgb) { Dictionary hl = ARRAY_DICT_INIT; int mask = use_rgb ? ae.rgb_ae_attr : ae.cterm_ae_attr; if (mask & HL_BOLD) { PUT(hl, "bold", BOOLEAN_OBJ(true)); } if (mask & HL_STANDOUT) { PUT(hl, "standout", BOOLEAN_OBJ(true)); } if (mask & HL_UNDERLINE) { PUT(hl, "underline", BOOLEAN_OBJ(true)); } if (mask & HL_UNDERCURL) { PUT(hl, "undercurl", BOOLEAN_OBJ(true)); } if (mask & HL_ITALIC) { PUT(hl, "italic", BOOLEAN_OBJ(true)); } if (mask & HL_INVERSE) { PUT(hl, "reverse", BOOLEAN_OBJ(true)); } if (mask & HL_STRIKETHROUGH) { PUT(hl, "strikethrough", BOOLEAN_OBJ(true)); } if (use_rgb) { if (ae.rgb_fg_color != -1) { PUT(hl, "foreground", INTEGER_OBJ(ae.rgb_fg_color)); } if (ae.rgb_bg_color != -1) { PUT(hl, "background", INTEGER_OBJ(ae.rgb_bg_color)); } if (ae.rgb_sp_color != -1) { PUT(hl, "special", INTEGER_OBJ(ae.rgb_sp_color)); } } else { if (cterm_normal_fg_color != ae.cterm_fg_color) { PUT(hl, "foreground", INTEGER_OBJ(ae.cterm_fg_color - 1)); } if (cterm_normal_bg_color != ae.cterm_bg_color) { PUT(hl, "background", INTEGER_OBJ(ae.cterm_bg_color - 1)); } } if (ae.hl_blend > -1) { PUT(hl, "blend", INTEGER_OBJ(ae.hl_blend)); } return hl; } Array hl_inspect(int attr) { Array ret = ARRAY_DICT_INIT; if (hlstate_active) { hl_inspect_impl(&ret, attr); } return ret; } static void hl_inspect_impl(Array *arr, int attr) { Dictionary item = ARRAY_DICT_INIT; if (attr <= 0 || attr >= (int)kv_size(attr_entries)) { return; } HlEntry e = kv_A(attr_entries, attr); switch (e.kind) { case kHlSyntax: PUT(item, "kind", STRING_OBJ(cstr_to_string("syntax"))); PUT(item, "hi_name", STRING_OBJ(cstr_to_string((char *)syn_id2name(e.id1)))); break; case kHlUI: PUT(item, "kind", STRING_OBJ(cstr_to_string("ui"))); const char *ui_name = (e.id1 == -1) ? "Normal" : hlf_names[e.id1]; PUT(item, "ui_name", STRING_OBJ(cstr_to_string(ui_name))); PUT(item, "hi_name", STRING_OBJ(cstr_to_string((char *)syn_id2name(e.id2)))); break; case kHlTerminal: PUT(item, "kind", STRING_OBJ(cstr_to_string("term"))); break; case kHlCombine: case kHlBlend: case kHlBlendThrough: // attribute combination is associative, so flatten to an array hl_inspect_impl(arr, e.id1); hl_inspect_impl(arr, e.id2); return; case kHlUnknown: return; } PUT(item, "id", INTEGER_OBJ(attr)); ADD(*arr, DICTIONARY_OBJ(item)); }