/** @file This module provide help function for displaying unicode string. Copyright (c) 2006 - 2018, Intel Corporation. All rights reserved.
SPDX-License-Identifier: BSD-2-Clause-Patent **/ #include "UefiLibInternal.h" typedef struct { CHAR16 WChar; UINT32 Width; } UNICODE_WIDTH_ENTRY; #define NARROW_CHAR 0xFFF0 #define WIDE_CHAR 0xFFF1 GLOBAL_REMOVE_IF_UNREFERENCED CONST UNICODE_WIDTH_ENTRY mUnicodeWidthTable[] = { // // General script area // { (CHAR16)0x1FFF, 1 }, /* * Merge the blocks and replace them with the above entry as they fall to * the same category and they are all narrow glyph. This will reduce search * time and table size. The merge will omit the reserved code. * * Remove the above item if below is un-commented. * {(CHAR16)0x007F, 1}, // C0 controls and basic Latin. 0x0000-0x007F {(CHAR16)0x00FF, 1}, // C1 controls and Latin-1 support. 0x0080-0x00FF {(CHAR16)0x017F, 1}, // Latin extended-A. 0x0100-0x017F {(CHAR16)0x024F, 1}, // Latin extended-B. 0x0180-0x024F {(CHAR16)0x02AF, 1}, // IPA extensions. 0x0250-0x02AF {(CHAR16)0x02FF, 1}, // Spacing modifier letters. 0x02B0-0x02FF {(CHAR16)0x036F, 1}, // Combining diacritical marks. 0x0300-0x036F {(CHAR16)0x03FF, 1}, // Greek. 0x0370-0x03FF {(CHAR16)0x04FF, 1}, // Cyrillic. 0x0400-0x04FF {(CHAR16)0x052F, 0}, // Unassigned. As Armenian in ver3.0. 0x0500-0x052F {(CHAR16)0x058F, 1}, // Armenian. 0x0530-0x058F {(CHAR16)0x05FF, 1}, // Hebrew. 0x0590-0x05FF {(CHAR16)0x06FF, 1}, // Arabic. 0x0600-0x06FF {(CHAR16)0x08FF, 0}, // Unassigned. 0x0700-0x08FF {(CHAR16)0x097F, 1}, // Devanagari. 0x0900-0x097F {(CHAR16)0x09FF, 1}, // Bengali. 0x0980-0x09FF {(CHAR16)0x0A7F, 1}, // Gurmukhi. 0x0A00-0x0A7F {(CHAR16)0x0AFF, 1}, // Gujarati. 0x0A80-0x0AFF {(CHAR16)0x0B7F, 1}, // Oriya. 0x0B00-0x0B7F {(CHAR16)0x0BFF, 1}, // Tamil. (See page 7-92). 0x0B80-0x0BFF {(CHAR16)0x0C7F, 1}, // Telugu. 0x0C00-0x0C7F {(CHAR16)0x0CFF, 1}, // Kannada. (See page 7-100). 0x0C80-0x0CFF {(CHAR16)0x0D7F, 1}, // Malayalam (See page 7-104). 0x0D00-0x0D7F {(CHAR16)0x0DFF, 0}, // Unassigned. 0x0D80-0x0DFF {(CHAR16)0x0E7F, 1}, // Thai. 0x0E00-0x0E7F {(CHAR16)0x0EFF, 1}, // Lao. 0x0E80-0x0EFF {(CHAR16)0x0FBF, 1}, // Tibetan. 0x0F00-0x0FBF {(CHAR16)0x109F, 0}, // Unassigned. 0x0FC0-0x109F {(CHAR16)0x10FF, 1}, // Georgian. 0x10A0-0x10FF {(CHAR16)0x11FF, 1}, // Hangul Jamo. 0x1100-0x11FF {(CHAR16)0x1DFF, 0}, // Unassigned. 0x1200-0x1DFF {(CHAR16)0x1EFF, 1}, // Latin extended additional. 0x1E00-0x1EFF {(CHAR16)0x1FFF, 1}, // Greek extended. 0x1F00-0x1FFF * */ // // Symbol area // { (CHAR16)0x2FFF, 1 }, /* * Merge the blocks and replace them with the above entry as they fall to * the same category and they are all narrow glyph. This will reduce search * time and table size. The merge will omit the reserved code. * * Remove the above item if below is un-commented. * {(CHAR16)0x206F, 1}, // General punctuation. (See page7-154). 0x200-0x206F {(CHAR16)0x209F, 1}, // Superscripts and subscripts. 0x2070-0x209F {(CHAR16)0x20CF, 1}, // Currency symbols. 0x20A0-0x20CF {(CHAR16)0x20FF, 1}, // Combining diacritical marks for symbols. 0x20D0-0x20FF {(CHAR16)0x214F, 1}, // Letterlike sympbols. 0x2100-0x214F {(CHAR16)0x218F, 1}, // Number forms. 0x2150-0x218F {(CHAR16)0x21FF, 1}, // Arrows. 0x2190-0x21FF {(CHAR16)0x22FF, 1}, // Mathematical operators. 0x2200-0x22FF {(CHAR16)0x23FF, 1}, // Miscellaneous technical. 0x2300-0x23FF {(CHAR16)0x243F, 1}, // Control pictures. 0x2400-0x243F {(CHAR16)0x245F, 1}, // Optical character recognition. 0x2440-0x245F {(CHAR16)0x24FF, 1}, // Enclosed alphanumerics. 0x2460-0x24FF {(CHAR16)0x257F, 1}, // Box drawing. 0x2500-0x257F {(CHAR16)0x259F, 1}, // Block elements. 0x2580-0x259F {(CHAR16)0x25FF, 1}, // Geometric shapes. 0x25A0-0x25FF {(CHAR16)0x26FF, 1}, // Miscellaneous symbols. 0x2600-0x26FF {(CHAR16)0x27BF, 1}, // Dingbats. 0x2700-0x27BF {(CHAR16)0x2FFF, 0}, // Reserved. 0x27C0-0x2FFF * */ // // CJK phonetics and symbol area // { (CHAR16)0x33FF, 2 }, /* * Merge the blocks and replace them with the above entry as they fall to * the same category and they are all wide glyph. This will reduce search * time and table size. The merge will omit the reserved code. * * Remove the above item if below is un-commented. * {(CHAR16)0x303F, 2}, // CJK symbols and punctuation. 0x3000-0x303F {(CHAR16)0x309F, 2}, // Hiragana. 0x3040-0x309F {(CHAR16)0x30FF, 2}, // Katakana. 0x30A0-0x30FF {(CHAR16)0x312F, 2}, // Bopomofo. 0x3100-0x312F {(CHAR16)0x318F, 2}, // Hangul compatibility jamo. 0x3130-0x318F {(CHAR16)0x319F, 2}, // Kanbun. 0x3190-0x319F {(CHAR16)0x31FF, 0}, // Reserved. As Bopomofo extended in ver3.0. 0x31A0-0x31FF {(CHAR16)0x32FF, 2}, // Enclosed CJK letters and months. 0x3200-0x32FF {(CHAR16)0x33FF, 2}, // CJK compatibility. 0x3300-0x33FF * */ // // CJK ideograph area // { (CHAR16)0x9FFF, 2 }, /* * Merge the blocks and replace them with the above entry as they fall to * the same category and they are all wide glyph. This will reduce search * time and table size. The merge will omit the reserved code. * * Remove the above item if below is un-commented. * {(CHAR16)0x4DFF, 0}, // Reserved. 0x3400-0x4DBF as CJK unified ideographs // extension A in ver3.0. 0x3400-0x4DFF {(CHAR16)0x9FFF, 2}, // CJK unified ideographs. 0x4E00-0x9FFF * */ // // Reserved // { (CHAR16)0xABFF, 0 }, // Reserved. 0xA000-0xA490 as Yi syllables. 0xA490-0xA4D0 // as Yi radicals in ver3.0. 0xA000-0xABFF // // Hangul syllables // { (CHAR16)0xD7FF, 2 }, /* * Merge the blocks and replace them with the above entry as they fall to * the same category and they are all wide glyph. This will reduce search * time and table size. The merge will omit the reserved code. * * Remove the above item if below is un-commented. * {(CHAR16)0xD7A3, 2}, // Hangul syllables. 0xAC00-0xD7A3 {(CHAR16)0xD7FF, 0}, // Reserved. 0xD7A3-0xD7FF * */ // // Surrogates area // { (CHAR16)0xDFFF, 0 }, // Surrogates, not used now. 0xD800-0xDFFF // // Private use area // { (CHAR16)0xF8FF, 0 }, // Private use area. 0xE000-0xF8FF // // Compatibility area and specials // { (CHAR16)0xFAFF, 2 }, // CJK compatibility ideographs. 0xF900-0xFAFF { (CHAR16)0xFB4F, 1 }, // Alphabetic presentation forms. 0xFB00-0xFB4F { (CHAR16)0xFDFF, 1 }, // Arabic presentation forms-A. 0xFB50-0xFDFF { (CHAR16)0xFE1F, 0 }, // Reserved. As variation selectors in ver3.0. 0xFE00-0xFE1F { (CHAR16)0xFE2F, 1 }, // Combining half marks. 0xFE20-0xFE2F { (CHAR16)0xFE4F, 2 }, // CJK compatibility forms. 0xFE30-0xFE4F { (CHAR16)0xFE6F, 1 }, // Small Form Variants. 0xFE50-0xFE6F { (CHAR16)0xFEFF, 1 }, // Arabic presentation forms-B. 0xFE70-0xFEFF { (CHAR16)0xFFEF, 1 }, // Half width and full width forms. 0xFF00-0xFFEF { (CHAR16)0xFFFF, 0 }, // Speicials. 0xFFF0-0xFFFF }; /** Retrieves the width of a Unicode character. This function computes and returns the width of the Unicode character specified by UnicodeChar. @param UnicodeChar A Unicode character. @retval 0 The width if UnicodeChar could not be determined. @retval 1 UnicodeChar is a narrow glyph. @retval 2 UnicodeChar is a wide glyph. **/ UINTN EFIAPI GetGlyphWidth ( IN CHAR16 UnicodeChar ) { UINTN Index; UINTN Low; UINTN High; CONST UNICODE_WIDTH_ENTRY *Item; Item = NULL; Low = 0; High = (sizeof (mUnicodeWidthTable)) / (sizeof (UNICODE_WIDTH_ENTRY)) - 1; while (Low <= High) { Index = (Low + High) >> 1; Item = &(mUnicodeWidthTable[Index]); if (Index == 0) { if (UnicodeChar <= Item->WChar) { break; } return 0; } if (UnicodeChar > Item->WChar) { Low = Index + 1; } else if (UnicodeChar <= mUnicodeWidthTable[Index - 1].WChar) { High = Index - 1; } else { // // Index - 1 < UnicodeChar <= Index. Found // break; } } if (Low <= High) { return Item->Width; } return 0; } /** Computes the display length of a Null-terminated Unicode String. This function computes and returns the display length of the Null-terminated Unicode string specified by String. If String is NULL then 0 is returned. If any of the widths of the Unicode characters in String can not be determined, then 0 is returned. The display width of String can be computed by summing the display widths of each Unicode character in String. Unicode characters that are narrow glyphs have a width of 1, and Unicode characters that are width glyphs have a width of 2. If String is not aligned on a 16-bit boundary, then ASSERT(). @param String A pointer to a Null-terminated Unicode string. @return The display length of the Null-terminated Unicode string specified by String. **/ UINTN EFIAPI UnicodeStringDisplayLength ( IN CONST CHAR16 *String ) { UINTN Length; UINTN Width; if (String == NULL) { return 0; } Length = 0; while (*String != 0) { Width = GetGlyphWidth (*String); if (Width == 0) { return 0; } Length += Width; String++; } return Length; } /** Count the storage space of a Unicode string. This function handles the Unicode string with NARROW_CHAR and WIDE_CHAR control characters. NARROW_HCAR and WIDE_CHAR does not count in the resultant output. If a WIDE_CHAR is hit, then 2 Unicode character will consume an output storage space with size of CHAR16 till a NARROW_CHAR is hit. @param String The input string to be counted. @param LimitLen Whether need to limit the string length. @param MaxWidth The max length this function supported. @param Offset The max index of the string can be show out. @return Storage space for the input string. **/ UINTN UefiLibGetStringWidth ( IN CHAR16 *String, IN BOOLEAN LimitLen, IN UINTN MaxWidth, OUT UINTN *Offset ) { UINTN Index; UINTN Count; UINTN IncrementValue; if (String == NULL) { return 0; } Index = 0; Count = 0; IncrementValue = 1; do { // // Advance to the null-terminator or to the first width directive // for ( ; (String[Index] != NARROW_CHAR) && (String[Index] != WIDE_CHAR) && (String[Index] != 0); Index++) { Count = Count + IncrementValue; if (LimitLen && (Count > MaxWidth)) { break; } } // // We hit the null-terminator, we now have a count // if (String[Index] == 0) { break; } if (LimitLen && (Count > MaxWidth)) { *Offset = Index; break; } // // We encountered a narrow directive - strip it from the size calculation since it doesn't get printed // and also set the flag that determines what we increment by.(if narrow, increment by 1, if wide increment by 2) // if (String[Index] == NARROW_CHAR) { // // Skip to the next character // Index++; IncrementValue = 1; } else { // // Skip to the next character // Index++; IncrementValue = 2; } } while (String[Index] != 0); return Count * sizeof (CHAR16); } /** Draws a dialog box to the console output device specified by ConOut defined in the EFI_SYSTEM_TABLE and waits for a keystroke from the console input device specified by ConIn defined in the EFI_SYSTEM_TABLE. If there are no strings in the variable argument list, then ASSERT(). If all the strings in the variable argument list are empty, then ASSERT(). @param[in] Attribute Specifies the foreground and background color of the popup. @param[out] Key A pointer to the EFI_KEY value of the key that was pressed. This is an optional parameter that may be NULL. If it is NULL then no wait for a keypress will be performed. @param[in] ... The variable argument list that contains pointers to Null- terminated Unicode strings to display in the dialog box. The variable argument list is terminated by a NULL. **/ VOID EFIAPI CreatePopUp ( IN UINTN Attribute, OUT EFI_INPUT_KEY *Key OPTIONAL, ... ) { EFI_STATUS Status; VA_LIST Args; EFI_SIMPLE_TEXT_OUTPUT_PROTOCOL *ConOut; EFI_SIMPLE_TEXT_OUTPUT_MODE SavedConsoleMode; UINTN Columns; UINTN Rows; UINTN Column; UINTN Row; UINTN NumberOfLines; UINTN MaxLength; CHAR16 *String; UINTN Length; CHAR16 *Line; UINTN EventIndex; CHAR16 *TmpString; // // Determine the length of the longest line in the popup and the the total // number of lines in the popup // VA_START (Args, Key); MaxLength = 0; NumberOfLines = 0; while ((String = VA_ARG (Args, CHAR16 *)) != NULL) { MaxLength = MAX (MaxLength, UefiLibGetStringWidth (String, FALSE, 0, NULL) / 2); NumberOfLines++; } VA_END (Args); // // If the total number of lines in the popup is zero, then ASSERT() // ASSERT (NumberOfLines != 0); // // If the maximum length of all the strings is zero, then ASSERT() // ASSERT (MaxLength != 0); // // Cache a pointer to the Simple Text Output Protocol in the EFI System Table // ConOut = gST->ConOut; // // Save the current console cursor position and attributes // CopyMem (&SavedConsoleMode, ConOut->Mode, sizeof (SavedConsoleMode)); // // Retrieve the number of columns and rows in the current console mode // ConOut->QueryMode (ConOut, SavedConsoleMode.Mode, &Columns, &Rows); // // Disable cursor and set the foreground and background colors specified by Attribute // ConOut->EnableCursor (ConOut, FALSE); ConOut->SetAttribute (ConOut, Attribute); // // Limit NumberOfLines to height of the screen minus 3 rows for the box itself // NumberOfLines = MIN (NumberOfLines, Rows - 3); // // Limit MaxLength to width of the screen minus 2 columns for the box itself // MaxLength = MIN (MaxLength, Columns - 2); // // Compute the starting row and starting column for the popup // Row = (Rows - (NumberOfLines + 3)) / 2; Column = (Columns - (MaxLength + 2)) / 2; // // Allocate a buffer for a single line of the popup with borders and a Null-terminator // Line = AllocateZeroPool ((MaxLength + 3) * sizeof (CHAR16)); ASSERT (Line != NULL); // // Draw top of popup box // SetMem16 (Line, (MaxLength + 2) * 2, BOXDRAW_HORIZONTAL); Line[0] = BOXDRAW_DOWN_RIGHT; Line[MaxLength + 1] = BOXDRAW_DOWN_LEFT; Line[MaxLength + 2] = L'\0'; ConOut->SetCursorPosition (ConOut, Column, Row++); ConOut->OutputString (ConOut, Line); // // Draw middle of the popup with strings // VA_START (Args, Key); while ((String = VA_ARG (Args, CHAR16 *)) != NULL && NumberOfLines > 0) { SetMem16 (Line, (MaxLength + 2) * 2, L' '); Line[0] = BOXDRAW_VERTICAL; Line[MaxLength + 1] = BOXDRAW_VERTICAL; Line[MaxLength + 2] = L'\0'; ConOut->SetCursorPosition (ConOut, Column, Row); ConOut->OutputString (ConOut, Line); Length = UefiLibGetStringWidth (String, FALSE, 0, NULL) / 2; if (Length <= MaxLength) { // // Length <= MaxLength // ConOut->SetCursorPosition (ConOut, Column + 1 + (MaxLength - Length) / 2, Row++); ConOut->OutputString (ConOut, String); } else { // // Length > MaxLength // UefiLibGetStringWidth (String, TRUE, MaxLength, &Length); TmpString = AllocateZeroPool ((Length + 1) * sizeof (CHAR16)); ASSERT (TmpString != NULL); StrnCpyS (TmpString, Length + 1, String, Length - 3); StrCatS (TmpString, Length + 1, L"..."); ConOut->SetCursorPosition (ConOut, Column + 1, Row++); ConOut->OutputString (ConOut, TmpString); FreePool (TmpString); } NumberOfLines--; } VA_END (Args); // // Draw bottom of popup box // SetMem16 (Line, (MaxLength + 2) * 2, BOXDRAW_HORIZONTAL); Line[0] = BOXDRAW_UP_RIGHT; Line[MaxLength + 1] = BOXDRAW_UP_LEFT; Line[MaxLength + 2] = L'\0'; ConOut->SetCursorPosition (ConOut, Column, Row++); ConOut->OutputString (ConOut, Line); // // Free the allocated line buffer // FreePool (Line); // // Restore the cursor visibility, position, and attributes // ConOut->EnableCursor (ConOut, SavedConsoleMode.CursorVisible); ConOut->SetCursorPosition (ConOut, SavedConsoleMode.CursorColumn, SavedConsoleMode.CursorRow); ConOut->SetAttribute (ConOut, SavedConsoleMode.Attribute); // // Wait for a keystroke // if (Key != NULL) { while (TRUE) { Status = gST->ConIn->ReadKeyStroke (gST->ConIn, Key); if (!EFI_ERROR (Status)) { break; } // // If we encounter error, continue to read another key in. // if (Status != EFI_NOT_READY) { continue; } gBS->WaitForEvent (1, &gST->ConIn->WaitForKey, &EventIndex); } } }