# © 2016 and later: Unicode, Inc. and others. # License & terms of use: http://www.unicode.org/copyright.html # Generated using tools/cldr/cldr-to-icu/build-icu-data.xml # # File: Latin_ConjoiningJamo.txt # Generated from CLDR # # Follows the Ministry of Culture and Tourism romanization: see http://www.korea.net/korea/kor_loca.asp?code=A020303 # http://www.unicode.org/cldr/transliteration_guidelines.html#Korean #- N.B. DO NOT put any filters, NFD, etc. here -- those are aliased in #- the INDEX file. This transliterator is, by itself, not #- instantiated. It is used as a part of Latin-Jamo, Latin-Hangul, or #- inverses thereof. # Transliteration from Latin characters to Korean script is done in # two steps: Latin to Jamo, then Jamo to Hangul. The Jamo-Hangul # transliteration is done algorithmically following Unicode 3.0 # section 3.11. This file implements the Latin to Jamo # transliteration using rules. # Jamo occupy the block 1100-11FF. Within this block there are three # groups of characters: initial consonants or choseong (I), medial # vowels or jungseong (M), and trailing consonants or jongseong (F). # Standard Korean syllables are of the form I+M+F*. # Section 3.11 describes the use of 'filler' jamo to convert # nonstandard syllables to standard form: the choseong filler 115F and # the junseong filler 1160. In this transliterator, we will not use # 115F or 1160. # We will, however, insert two 'null' jamo to make foreign words # conform to Korean syllable structure. These are the null initial # consonant 110B (IEUNG) and the null vowel 1173 (EU). In Latin text, # we will use the separator in order to disambiguate strings, # e.g. "kan-ggan" (initial GG) vs. "kanggan" (final NG + initial G). # We will not use all of the characters in the jamo block. We will # only use the 19 initials, 21 medials, and 27 finals possessing a # jamo short name as defined in section 4.4 of the Unicode book. # Rules of thumb. These guidelines provide the basic framework # for the rules. They are phrased in terms of Latin-Jamo transliteration. # The Jamo-Latin rules derive from these, since the Jamo-Latin rules are # just context-free transliteration of jamo to corresponding short names, # with the addition of separators to maintain round-trip integrity # in the context of the Latin-Jamo rules. # A sequence of vowels: # - Take the longest sequence you can. If there are too many, or you don't # have a starting consonant, introduce a 110B necessary. # A sequence of consonants. # - First join the double consonants: G + G -→ GG # - In the remaining list, # -- If there is no preceding vowel, take the first consonant, and insert EU # after it. Continue with the rest of the consonants. # -- If there is one consonant, attach to the following vowel # -- If there are two consonants and a following vowel, attach one to the # preceeding vowel, and one to the following vowel. # -- If there are more than two consonants, join the first two together if you # can: L + G =→ LG # -- If you still end up with more than 2 consonants, insert EU after the # first one, and continue with the rest of the consonants. #---------------------------------------------------------------------- # Variables # Some latin consonants or consonant pairs only occur as initials, and # some only as finals, but some occur as both. This makes some jamo # consonants ambiguous when transliterated into latin. # Initial only: IEUNG BB DD JJ R # Final only: BS GS L LB LG LH LM LP LS LT NG NH NJ # Initial and Final: B C D G GG H J K M N P S SS T $Gi = ᄀ; $KKi = ᄁ; $Ni = ᄂ; $Di = ᄃ; $TTi = ᄄ; $Li = ᄅ; $Mi = ᄆ; $Bi = ᄇ; $PPi = ᄈ; $Si = ᄉ; $SSi = ᄊ; $IEUNG = ᄋ; # null initial, inserted during Latin-Jamo $Ji = ᄌ; $JJi = ᄍ; $CHi = ᄎ; $Ki = ᄏ; $Ti = ᄐ; $Pi = ᄑ; $Hi = ᄒ; $A = ᅡ; $AE = ᅢ; $YA = ᅣ; $YAE = ᅤ; $EO = ᅥ; $E = ᅦ; $YEO = ᅧ; $YE = ᅨ; $O = ᅩ; $WA = ᅪ; $WAE = ᅫ; $OE = ᅬ; $YO = ᅭ; $U = ᅮ; $WO = ᅯ; $WE = ᅰ; $WI = ᅱ; $YU = ᅲ; $EU = ᅳ; # null medial, inserted during Latin-Jamo $UI = ᅴ; $I = ᅵ; $Gf = ᆨ; $GGf = ᆩ; $GS = ᆪ; $Nf = ᆫ; $NJ = ᆬ; $NH = ᆭ; $Df = ᆮ; $L = ᆯ; $LG = ᆰ; $LM = ᆱ; $LB = ᆲ; $LS = ᆳ; $LT = ᆴ; $LP = ᆵ; $LH = ᆶ; $Mf = ᆷ; $Bf = ᆸ; $BS = ᆹ; $Sf = ᆺ; $SSf = ᆻ; $NG = ᆼ; $Jf = ᆽ; $Cf = ᆾ; $Kf = ᆿ; $Tf = ᇀ; $Pf = ᇁ; $Hf = ᇂ; $jamoInitial = [ᄀ-ᄒ]; $jamoMedial = [ᅡ-ᅵ]; $latinInitial = [bcdghjklmnprst]; # Any character in the latin transliteration of a medial $latinMedial = [aeiouwy]; # The last character of the latin transliteration of a medial $latinMedialEnd = [aeiou]; # Disambiguation separator $sep = \-; #---------------------------------------------------------------------- # Jamo-Latin # # Jamo to latin is relatively simple, since it is the latin that is # ambiguous. Most rules are straightforward, and we encode them below # as simple add-on back rule, e.g.: # $jamoMedial {bs} → $BS; # becomes # $jamoMedial {bs} ↔ $BS; # # Furthermore, we don't care about the ordering for Jamo-Latin because # we are going from single characters, so we can very easily piggyback # on the Latin-Jamo. # # The main issue with Jamo-Latin is when to insert separators. # Separators are inserted to obtain correct round trip behavior. For # example, the sequence Ki A Gf Gi E, if transliterated to "kagge", # would then round trip to Ki A GGi E. To prevent this, we insert a # separator: "kag-ge". IMPORTANT: The need for separators depends # very specifically on the behavior of the Latin-Jamo rules. A change # in the Latin-Jamo behavior can completely change the way the # separator insertion must be done. # First try to preserve actual separators in the jamo text by doubling # them. This fixes problems like: # (Di)(A)(Ji)(U)(NG)-(IEUNG)(YEO)(Nf)(Gi)(YEO)(L) =→ dajung-yeongyeol # =→ (Di)(A)(Ji)(U)(NG)(IEUNG)(YEO)(Nf)(Gi)(YEO)(L). This is optional # -- if we don't care about losing separators in the jamo, we can delete # this rule. $sep $sep ↔ $sep; # Triple consonants. For three consonants "axxx" we insert a # separator between the first and second "x" if XXf, Xf, and Xi all # exist, and we have A Xf XXi. This prevents the reverse # transliteration to A XXf Xi. $sep ← $latinMedialEnd s {} $SSi; # For vowels the rule is similar. If there is a vowel "ae" such that # "a" by itself and "e" by itself are vowels, then we want to map A E # to "a-e" so as not to round trip to AE. However, in the text Ki EO # IEUNG E we don't need to map to "keo-e". "keoe" suffices. For # vowels of the form "aei", both "ae" + "i" and "a" + "ei" must be # tested. NOTE: These rules used to have a left context of # $latinInitial instead of [^$latinMedial]. The problem with this is # sequences where an initial IEUNG is transliterated away: # (IEUNG)(A)(IEUNG)(EO) =→ aeo =→ (IEUNG)(AE)(IEUNG)(O) # Also problems in cases like gayeo, which needs to be gaye-o # The hard case is a chain, like aeoeu. Normally interpreted as ae oe u. So for a-eoeu, we have to insert $sep # But, we don't insert between the o and the e. # # a ae # e eo eu # i # o oe # u # ui # wa wae we wi # yae ya yeo ye yo yu # These are simple, since they can't chain. Note that we don't handle extreme cases like [ga][eo][e][o] $sep ← a {} [$E $EO $EU]; $sep ← [^aow] e {} [$O $OE]; $sep ← [^aowy] e {} [$U $UI]; $sep ← [^ey] o {} [$E $EO $EU]; $sep ← [^y] u {} [$I]; # Similar to the above, but with an intervening $IEUNG. $sep ← [^$latinMedial] [y] e {} $IEUNG [$O $OE]; $sep ← [^$latinMedial] e {} $IEUNG [$O $OE $U]; $sep ← [^$latinMedial] [o a] {} $IEUNG [$E $EO $EU]; $sep ← [^$latinMedial] [w y] a {} $IEUNG [$E $EO $EU]; # Single finals followed by IEUNG. The jamo sequence A Xf IEUNG E, # where Xi also exists, must be transliterated as "ax-e" to prevent # the round trip conversion to A Xi E. $sep ← $latinMedialEnd b {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd d {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd g {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd h {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd j {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd k {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd m {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd n {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd p {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd s {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd t {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd l {} $IEUNG $jamoMedial; # Double finals followed by IEUNG. Similar to the single finals # followed by IEUNG. Any latin consonant pair X Y, between medials, # that we would split by Latin-Jamo, we must handle when it occurs as # part of A XYf IEUNG E, to prevent round trip conversion to A Xf Yi E $sep ← $latinMedialEnd b s {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd k k {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd g s {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd l b {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd l g {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd l h {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd l m {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd l p {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd l s {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd l t {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd n g {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd n h {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd n j {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd s s {} $IEUNG $jamoMedial; $sep ← $latinMedialEnd ch {} $IEUNG $jamoMedial; # Split doubles. Text of the form A Xi Xf E, where XXi also occurs, # we transliterate as "ax-xe" to prevent round trip transliteration as # A XXi E. $sep ← $latinMedialEnd j {} $Ji $jamoMedial; $sep ← $latinMedialEnd k {} $Ki $jamoMedial; $sep ← $latinMedialEnd s {} $Si $jamoMedial; # XYY. This corresponds to the XYY rule in Latin-Jamo. By default # Latin-Jamo maps "xyy" to Xf YYi, to keep YY together. As a result, # "xyy" forms that correspond to XYf Yi must be transliterated as # "xy-y". $sep ← $latinMedialEnd b s {} [$Si $SSi]; $sep ← $latinMedialEnd g s {} [$Si $SSi]; $sep ← $latinMedialEnd l b {} [$Bi]; $sep ← $latinMedialEnd l g {} [$Gi]; $sep ← $latinMedialEnd l s {} [$Si $SSi]; $sep ← $latinMedialEnd n g {} [$Gi]; $sep ← $latinMedialEnd n j {} [$Ji $JJi]; # $sep ← $latinMedialEnd l {} [$PPi]; # $sep ← $latinMedialEnd l {} [$TTi]; $sep ← $latinMedialEnd l p {} [$Pi]; $sep ← $latinMedialEnd l t {} [$Ti]; $sep ← $latinMedialEnd k {} [$KKi $Ki]; $sep ← $latinMedialEnd p {} $Pi; $sep ← $latinMedialEnd t {} $Ti; $sep ← $latinMedialEnd c {} [$Hi]; # Deletion of IEUNG is handled below. #---------------------------------------------------------------------- # Latin-Jamo # [Basic, context-free Jamo-Latin rules are embedded here too. See # above.] # Split digraphs: Text of the form 'axye', where 'xy' is a final # digraph, 'x' is a final (by itself), 'y' is an initial, and 'a' and # 'e' are medials, we want to transliterate this as A Xf Yi E rather # than A XYf IEUNG E. We do NOT include text of the form "axxe", # since that is handled differently below. These rules are generated # programmatically from the jamo data. $jamoMedial {b s} $latinMedial → $Bf $Si; $jamoMedial {g s} $latinMedial → $Gf $Si; $jamoMedial {l b} $latinMedial → $L $Bi; $jamoMedial {l g} $latinMedial → $L $Gi; $jamoMedial {l h} $latinMedial → $L $Hi; $jamoMedial {l m} $latinMedial → $L $Mi; $jamoMedial {l p} $latinMedial → $L $Pi; $jamoMedial {l s} $latinMedial → $L $Si; $jamoMedial {l t} $latinMedial → $L $Ti; $jamoMedial {n g} $latinMedial → $Nf $Gi; $jamoMedial {n h} $latinMedial → $Nf $Hi; $jamoMedial {n j} $latinMedial → $Nf $Ji; # Single consonants are initials: Text of the form 'axe', where 'x' # can be an initial or a final, and 'a' and 'e' are medials, we want # to transliterate as A Xi E rather than A Xf IEUNG E. $jamoMedial {b} $latinMedial → $Bi; $jamoMedial {ch} $latinMedial → $CHi; $jamoMedial {d} $latinMedial → $Di; $jamoMedial {g} $latinMedial → $Gi; $jamoMedial {h} $latinMedial → $Hi; $jamoMedial {j} $latinMedial → $Ji; $jamoMedial {k} $latinMedial → $Ki; $jamoMedial {m} $latinMedial → $Mi; $jamoMedial {n} $latinMedial → $Ni; $jamoMedial {p} $latinMedial → $Pi; $jamoMedial {s} $latinMedial → $Si; $jamoMedial {t} $latinMedial → $Ti; $jamoMedial {l} $latinMedial → $Li; # Doubled initials. The sequence "axxe", where XX exists as an initial # (XXi), and also Xi and Xf exist (true of all digraphs XX), we want # to transliterate as A XXi E, rather than split to A Xf Xi E. $jamoMedial {p p} $latinMedial → $PPi; $jamoMedial {t t} $latinMedial → $TTi; $jamoMedial {j j} $latinMedial → $JJi; $jamoMedial {k k} $latinMedial → $KKi; $jamoMedial {s s} $latinMedial → $SSi; # XYY. Because doubled consonants bind more strongly than XY # consonants, we must handle the sequence "axyy" specially. Here XYf # and YYi must exist. In these cases, we map to Xf YYi rather than # XYf. # However, there are two special cases. $jamoMedial {lp} p p → $LP; $jamoMedial {lt} t t → $LT; # End special cases $jamoMedial {b} s s → $Bf; $jamoMedial {g} s s → $Gf; $jamoMedial {l} b b → $L; $jamoMedial {l} g g → $L; $jamoMedial {l} s s → $L; $jamoMedial {l} t t → $L; $jamoMedial {l} p p → $L; $jamoMedial {n} g g → $Nf; $jamoMedial {n} j j → $Nf; # Finals: Attach consonant with preceding medial to preceding medial. # Do this BEFORE mapping consonants to initials. Longer keys must # precede shorter keys that they start with, e.g., the rule for 'bs' # must precede 'b'. # [BASIC Jamo-Latin FINALS handled here. Order irrelevant within this # block for Jamo-Latin.] $jamoMedial {bs} ↔ $BS; $jamoMedial {b} ↔ $Bf; $jamoMedial {ch} ↔ $Cf; $jamoMedial {c} → $Cf; $jamoMedial {d} ↔ $Df; $jamoMedial {kk} ↔ $GGf; $jamoMedial {gs} ↔ $GS; $jamoMedial {g} ↔ $Gf; $jamoMedial {h} ↔ $Hf; $jamoMedial {j} ↔ $Jf; $jamoMedial {k} ↔ $Kf; $jamoMedial {lb} ↔ $LB; $jamoMedial {lg} ↔ $LG; $jamoMedial {lh} ↔ $LH; $jamoMedial {lm} ↔ $LM; $jamoMedial {lp} ↔ $LP; $jamoMedial {ls} ↔ $LS; $jamoMedial {lt} ↔ $LT; $jamoMedial {l} ↔ $L; $jamoMedial {m} ↔ $Mf; $jamoMedial {ng} ↔ $NG; $jamoMedial {nh} ↔ $NH; $jamoMedial {nj} ↔ $NJ; $jamoMedial {n} ↔ $Nf; $jamoMedial {p} ↔ $Pf; $jamoMedial {ss} ↔ $SSf; $jamoMedial {s} ↔ $Sf; $jamoMedial {t} ↔ $Tf; # Initials: Attach single consonant to following medial. Do this # AFTER mapping finals. Longer keys must precede shorter keys that # they start with, e.g., the rule for 'gg' must precede 'g'. # [BASIC Jamo-Latin INITIALS handled here. Order irrelevant within # this block for Jamo-Latin.] {kk} $latinMedial ↔ $KKi; {g} $latinMedial ↔ $Gi; {n} $latinMedial ↔ $Ni; {tt} $latinMedial ↔ $TTi; {d} $latinMedial ↔ $Di; {l} $latinMedial ↔ $Li; {m} $latinMedial ↔ $Mi; {pp} $latinMedial ↔ $PPi; {b} $latinMedial ↔ $Bi; {ss} $latinMedial ↔ $SSi; {s} $latinMedial ↔ $Si; {jj} $latinMedial ↔ $JJi; {j} $latinMedial ↔ $Ji; {ch} $latinMedial ↔ $CHi; {c} $latinMedial → $CHi; {k} $latinMedial ↔ $Ki; {t} $latinMedial ↔ $Ti; {p} $latinMedial ↔ $Pi; {h} $latinMedial ↔ $Hi; # 'r' in final position. Because of the equivalency of the 'l' and # 'r' jamo (the glyphs are the same), we try to provide the same # equivalency in Latin-Jamo. The 'l' to 'r' conversion is handled # below. If we see an 'r' in an apparent final position, treat it # like 'l'. For example, "karka" =→ Ki A R EU Ki A without this rule. # Instead, we want Ki A L Ki A. # Initial + Final: If we match the next rule, we have initial then # final consonant with no intervening medial. We insert the null # vowel BEFORE it to create a well-formed syllable. (In the next rule # we insert a null vowel AFTER an anomalous initial.) # Initial + X: This block matches an initial consonant not followed by # a medial. We insert the null vowel after it. We handle double # initials explicitly here; for single initial consonants we insert EU # (as Latin) after them and let standard rules do the rest. # BREAKS ROUND TRIP INTEGRITY kk → $KKi $EU; tt → $TTi $EU; pp → $PPi $EU; ss → $SSi $EU; jj → $JJi $EU; ch → $CHi $EU; ([lbdghjkmnpst]) → | $1 eu; # X + Final: Finally we have to deal with a consonant that can only be # interpreted as a final (not an initial) and which is preceded # neither by an initial nor a medial. It is the start of the # syllable, but cannot be. Most of these will already be handled by # the above rules. 'bs' splits into Bi EU Sf. Similar for 'gs' 'ng' # 'nh' 'nj'. The only problem is 'l' and digraphs starting with 'l'. # For this isolated case, we could add a null initial and medial, # which would give "la" =→ IEUNG EU L IEUNG A, for example. A more # economical solution is to transliterate isolated "l" (that is, # initial "l") to "r". (Other similar conversions of consonants that # occur neither as initials nor as finals are handled below.) l → | r; # Medials. If a medial is preceded by an initial, then we proceed # normally. As usual, longer keys must precede shorter ones. # [BASIC Jamo-Latin MEDIALS handled here. Order irrelevant within # this block for Jamo-Latin.] # # a e i o u # ae # eo eu # oe # ui # wa we wi # wae # yae ya yeo ye yo yu $jamoInitial {ae} ↔ $AE; $jamoInitial {a} ↔ $A; $jamoInitial {eo} ↔ $EO; $jamoInitial {eu} ↔ $EU; $jamoInitial {e} ↔ $E; $jamoInitial {i} ↔ $I; $jamoInitial {oe} ↔ $OE; $jamoInitial {o} ↔ $O; $jamoInitial {ui} ↔ $UI; $jamoInitial {u} ↔ $U; $jamoInitial {wae} ↔ $WAE; $jamoInitial {wa} ↔ $WA; $jamoInitial {wo} ↔ $WO; $jamoInitial {we} ↔ $WE; $jamoInitial {wi} ↔ $WI; $jamoInitial {yae} ↔ $YAE; $jamoInitial {ya} ↔ $YA; $jamoInitial {yeo} ↔ $YEO; $jamoInitial {ye} ↔ $YE; $jamoInitial {yo} ↔ $YO; $jamoInitial {yu} ↔ $YU; # We may see an anomalous isolated 'w' or 'y'. In that case, we # interpret it as 'wi' and 'yu', respectively. # BREAKS ROUND TRIP INTEGRITY $jamoInitial {w} → | wi; $jamoInitial {y} → | yu; # Otherwise, insert a null consonant IEUNG before the medial (which is # still an untransliterated latin vowel). ($latinMedial) → $IEUNG | $1; # Convert non-jamo latin consonants to equivalents. These occur as # neither initials nor finals in jamo. 'l' occurs as a final, but not # an initial; it is handled above. The following letters (left hand # side) will never be output by Jamo-Latin. f → | p; q → | k; v → | b; x → | ks; z → | s; r → | l; c → | k; # Delete separators (Latin-Jamo). $sep → ; # Delete null consonants (Jamo-Latin). Do NOT delete null EU vowels, # since these may also occur in text. ← $IEUNG; #- N.B. DO NOT put any filters, NFD, etc. here -- those are aliased in #- the INDEX file. This transliterator is, by itself, not #- instantiated. It is used as a part of Latin-Jamo, Latin-Hangul, or #- inverses thereof. # eof