650 lines
26 KiB
Standard ML
650 lines
26 KiB
Standard ML
structure Cursor =
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struct
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(* Prerequisite: lineGap is moved to requested idx first
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* todo: check if we are in a \r\n pair, but this is not a priority *)
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fun viL (lineGap: LineGap.t, cursorIdx) =
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let
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val {rightStrings, idx = bufferIdx, ...} = lineGap
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in
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case rightStrings of
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hd :: tl =>
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let
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(* convert absolute cursorIdx to idx relative to hd string *)
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val strIdx = cursorIdx - bufferIdx
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in
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if strIdx + 1 < String.size hd then
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(* if there is at least one character after this idx *)
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let
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val nextChr = String.sub (hd, strIdx + 1)
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in
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(case nextChr of
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#"\n" =>
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if strIdx + 2 < String.size hd then
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(* if there are at least two chars after strIdx *)
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cursorIdx + 2
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else
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(* only one char after strIdx which is \n
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* if there is a string at the tl, can increment by 2 *)
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(case tl of
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_ :: _ => cursorIdx + 2
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| [] => cursorIdx + 1)
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| _ => cursorIdx + 1)
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end
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else
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(* no chars after this idx; have to check tl *)
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(case tl of
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tlhd :: tltl =>
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(* if there is another string after current head, we can increment cursorIdx
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* however, first we need to check if next char is \n. *)
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let
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val nextChr = String.sub (tlhd, 0)
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in
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(case nextChr of
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#"\n" =>
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if String.size tlhd > 2 then
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(* if there is at least one character after \n
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* then increment cursorIdx by 2 *)
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cursorIdx + 2
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else
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(* this string only contains \n
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* but there is a small possibility tltl
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* contains another string.
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* If it does, we can increment cursorIdx by 2,
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* moving past newline.
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* If not, increment cursorIdx by 1,
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* landing on newline. *)
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(case tltl of
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_ :: _ => cursorIdx + 2
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| [] => cursorIdx + 1)
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| _ =>
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(* next char is not newline,
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* so we can just increment by 1 *)
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cursorIdx + 1)
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end
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| [] =>
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(* if there is no string after current head, return original cursorIdx *)
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cursorIdx)
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end
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| [] =>
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(* return original cursorIdx if there is nothing to the right *)
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cursorIdx
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end
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(* Prerequisite: lineGap is moved to requested idx first
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* Implementation is mostly the same as the viL function,
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* except we focus on decrementing instead,
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* and we examing leftStrings list instead of tail of rightStrings
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* if head of rightStrings is empty or does not have the idx we want.
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* todo: check if we are in a \r\n pair, but this is not a priority *)
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fun viH (lineGap: LineGap.t, cursorIdx) =
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let
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val {rightStrings, leftStrings, idx = bufferIdx, ...} = lineGap
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in
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case rightStrings of
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hd :: _ =>
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let
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(* convert absolute cursorIdx to idx relative to hd string *)
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val strIdx = cursorIdx - bufferIdx
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in
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if strIdx > 0 then
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(* if there is at least one char before this index *)
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let
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val prevChr = String.sub (hd, strIdx - 1)
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in
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(case prevChr of
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#"\n" =>
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if strIdx > 1 then
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(* if there are at least two chars before strIdx *)
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if String.sub (hd, strIdx - 2) = #"\n" then
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(* if there is double line break like \n\n,
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* we would like to move the cursor
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* to the second linebreak *)
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cursorIdx - 1
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else
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cursorIdx - 2
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else
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(* only one char before strIdx which is \n
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* if there is a string at the leftStrings, can decrement by 2 *)
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(case leftStrings of
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_ :: _ => cursorIdx - 2
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| [] => cursorIdx - 1)
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| _ => cursorIdx - 1)
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end
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else
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(* no chars before this idx; have to check leftStrings *)
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(case leftStrings of
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lHd :: lTl =>
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(* if there is another string after current head, we can increment cursorIdx
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* however, first we need to check if next char is \n. *)
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let
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val lastChr = String.sub (lHd, String.size lHd - 1)
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in
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(case lastChr of
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#"\n" =>
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if String.size lHd > 2 then
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(* if there at least one character before \n
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* then decrement cursorIdx by 2
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* or decrement cursorIdx by 1
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* if we are in a double linebreak
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* if we are not in a double linebreak *)
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if String.sub (lHd, strIdx - 2) = #"\n" then
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cursorIdx - 1
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else
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cursorIdx - 2
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else
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(* this string only contains \n
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* but there is a small possibility tltl
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* contains another string.
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* If it does, we can increment cursorIdx by 2,
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* moving past newline.
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* If not, increment cursorIdx by 1,
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* landing on newline. *)
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(case lTl of
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ltlHd :: _ =>
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if
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String.sub (ltlHd, String.size ltlHd - 1)
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= #"\n"
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then cursorIdx - 1
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else cursorIdx - 2
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| [] => cursorIdx - 1)
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| _ =>
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(* next char is not newline,
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* so we can just decrement by 1 *)
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cursorIdx - 1)
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end
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| [] =>
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(* if there is no string after current head, return original cursorIdx *)
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cursorIdx)
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end
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| [] => cursorIdx
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end
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(* below functions, until and including getCursorColumn,
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* are all for helping to calculate the cursor's column
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* compared to the line the cursor is currently positioned in *)
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fun reverseLinearSearch (findNum, idx, lines) =
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if idx < 0 then
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idx
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else
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let
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val curVal = Vector.sub (lines, idx)
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in
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if curVal < findNum then idx
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else reverseLinearSearch (findNum, idx, lines)
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end
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fun helpBinSearch (findNum, lines, low, high) =
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let
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val mid = low + ((high - low) div 2)
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in
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if high >= low then
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let
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val midVal = Vector.sub (lines, mid)
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in
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if midVal = findNum then
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mid
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else if midVal < findNum then
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helpBinSearch (findNum, lines, mid + 1, high)
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else
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helpBinSearch (findNum, lines, low, mid - 1)
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end
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else
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reverseLinearSearch (findNum, mid, lines)
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end
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fun binSearch (findNum, lines) =
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helpBinSearch (findNum, lines, 0, Vector.length lines - 1)
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fun helpGetCursorColumn (distanceFromLine, strList, lineList) =
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case (strList, lineList) of
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(strHd :: strTl, lnHd :: lnTl) =>
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if Vector.length lnHd = 0 then
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(* lnHd is empty, so line is not here *)
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helpGetCursorColumn
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(distanceFromLine + String.size strHd, strTl, lnTl)
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else
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(* lnHd is not empty, meaning last lineIdx is closest linebreak *)
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let
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val lineIdx = Vector.sub (lnHd, Vector.length lnHd - 1)
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(* number of chars after the lineIdx *)
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val idxAfterLn = String.size strHd - lineIdx
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in
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distanceFromLine + idxAfterLn - 1
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end
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| (_, _) => distanceFromLine
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fun helpGetCursorColumnBranch (strIdx, strHd, lnHd, leftStrings, leftLines) =
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if String.sub (strHd, strIdx) = #"\n" then
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(* If we are at newline, column is 0 *)
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0
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else if Vector.length lnHd = 1 then
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(* check if the one line idx in the vector
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* is before the strIdx *)
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let
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val lineIdx = Vector.sub (lnHd, 0)
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in
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if lineIdx < strIdx then strIdx - lineIdx
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else helpGetCursorColumn (strIdx, leftStrings, leftLines)
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end
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else if Vector.length lnHd > 1 then
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let
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(* check if strIdx is inside line vector,
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* and perform binary search if so *)
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val low = Vector.sub (lnHd, 0)
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in
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if low < strIdx then
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(* strIdx is less than low, so use bin search
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* to find lineIdx that is lower than strIdx *)
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let
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val lineIdx = binSearch (strIdx - 1, lnHd)
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(* linebreakPos = index of linebreak before strIdx *)
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val linebreakPos = Vector.sub (lnHd, lineIdx)
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in
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strIdx - linebreakPos - 1
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end
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else
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(* line before strIdx must be in leftStrings/lines *)
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helpGetCursorColumn (strIdx, leftStrings, leftLines)
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end
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else
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(* lnHd has length of 0, so most recent
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* line break must be in leftStrings/lines *)
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helpGetCursorColumn (strIdx, leftStrings, leftLines)
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(* Prerequisite: lineGap is moved to cursorIdx *)
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fun getCursorColumn (lineGap: LineGap.t, cursorIdx) =
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let
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val
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{rightStrings, idx = bufferIdx, rightLines, leftStrings, leftLines, ...} =
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lineGap
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in
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case (rightStrings, rightLines) of
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(strHd :: strTl, lnHd :: lnTl) =>
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let
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(* convert absolute cursorIdx to idx relative to hd string *)
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val strIdx = cursorIdx - bufferIdx
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in
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if strIdx < String.size strHd then
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(* strIdx is in this string *)
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helpGetCursorColumnBranch
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(strIdx, strHd, lnHd, leftStrings, leftLines)
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else
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(* strIdx must be in the strTl *)
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(case (strTl, lnTl) of
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(nestStrHd :: nestStrTl, nestLnHd :: nestLnTl) =>
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let
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val strIdx = strIdx - String.size strHd
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val leftStrings = strHd :: leftStrings
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val leftLines = lnHd :: leftLines
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in
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helpGetCursorColumnBranch
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(strIdx, nestStrHd, nestLnHd, leftStrings, leftLines)
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end
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| (_, _) =>
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helpGetCursorColumnBranch
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( String.size strHd - 1
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, strHd
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, lnHd
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, leftStrings
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, leftLines
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))
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end
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| (_, _) => helpGetCursorColumn (0, leftStrings, leftLines)
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end
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fun helpViJString
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( strPos, str, absIdx
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, lineColumn, preferredColumn, hasPassedLine
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, strTl, lineTl
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) =
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if strPos = String.size str then
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helpViJList
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(absIdx, lineColumn, preferredColumn, hasPassedLine, strTl, lineTl)
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else
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case String.sub (str, strPos) of
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#"\n" =>
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if
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hasPassedLine
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then
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(* reached end of line twice,
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* but line has fewer chars than preferredColumn
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* note: if in double \n\n linebreak,
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* then return absIdx of second linebreak. *)
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if strPos = String.size str - 1 then
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if String.sub (str, strPos + 1) = #"\n" then
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(* we are in double linebreak *)
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absIdx + 1
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else
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(* not in double linebreak *)
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absIdx - 1
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else
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(* this is last chr of string; must check string's tl next *)
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(case strTl of
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hd :: tl =>
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if String.sub (hd, 0) = #"\n" then
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(* in double linebreak *)
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absIdx + 1
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else
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(* not in double linebreak *)
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absIdx - 1
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| [] =>
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(* no more strings so return last idx *)
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absIdx - 1)
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else
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(* reached end of line once;
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* have to check if this is a double linebreak,
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* and return idx of second linebreak if so *)
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if strPos < String.size str - 1 then
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if String.sub (str, strPos + 1) = #"\n" then
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absIdx + 1
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else
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helpViJString
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( strPos + 1, str, absIdx + 1
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, 0, preferredColumn, true
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, strTl, lineTl
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)
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else
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(* this is last chr of string; must check string's tl next *)
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(case strTl of
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hd :: tl =>
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if String.sub (hd, 0) = #"\n" then
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(* in double linebreak *)
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absIdx + 1
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else
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(* not in double linebreak *)
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helpViJString
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( strPos + 1, str, absIdx + 1
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, 0, preferredColumn, true
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, strTl, lineTl
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)
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| [] =>
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(* no more strings so return last idx *)
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absIdx)
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| _ =>
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if lineColumn = preferredColumn andalso hasPassedLine then
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(* we're at the preferredColumn so return absIdx *)
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absIdx
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else
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(* we're not in the preferred column, so keep iterating *)
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helpViJString
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( strPos + 1, str, absIdx + 1
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, lineColumn + 1, preferredColumn, hasPassedLine
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, strTl, lineTl
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)
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and helpViJList
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(absIdx, lineColumn, preferredColumn, hasPassedLine, strings, lines) =
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case (strings, lines) of
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(strHd :: strTl, lineHd :: lineTl) =>
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(* todo: possibly check if we have passed line,
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* and if so, if there are any line breaks in the lineHd
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* which we could use to skip searching part of the string.
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* However, this will likely have worse cache locality
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* as we switch to searching in string to searcing in line vector
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* so perhaps not. *)
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helpViJString
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( 0, strHd, absIdx
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, lineColumn, preferredColumn, hasPassedLine
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, strTl, lineTl
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)
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| (_, _) =>
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(* empty, so return end of previous string *)
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absIdx - 1
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fun viJ (lineGap: LineGap.t, cursorIdx) =
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let
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val
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{rightStrings, idx = bufferIdx, rightLines, leftStrings, leftLines, ...} =
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lineGap
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in
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case (rightStrings, rightLines) of
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(strHd :: strTl, lnHd :: lnTl) =>
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let
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(* convert absolute cursorIdx to idx relative to hd string *)
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val strIdx = cursorIdx - bufferIdx
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in
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if strIdx < String.size strHd then
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(* strIdx is in this string *)
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if String.sub (strHd, strIdx) = #"\n" then
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(* if we are at a newline
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* note:
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* don't need to check if we are a double linebreak,
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* because cursor navigation functions already check
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* for that condition at the end.
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* So there is no way at the start of a navigation function
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* that cursor is in a double linebreak incorrectly. *)
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helpViJString
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(strIdx + 1, strHd, cursorIdx + 1, 0, 0, true, strTl, lnTl)
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else
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(* not at newline
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* so get column number and start iterating *)
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let
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val lineColumn = getCursorColumn (lineGap, cursorIdx)
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in
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helpViJString
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( strIdx + 1, strHd, cursorIdx + 1
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, lineColumn, lineColumn, false
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, strTl, lnTl
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)
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end
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else
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(* strIdx must be in the strTl *)
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(case (strTl, lnTl) of
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(nestStrHd :: nestStrTl, nestLnHd :: nestLnTl) =>
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let
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val strIdx = strIdx - String.size strHd
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in
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if String.sub (nestStrHd, strIdx) = #"\n" then
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helpViJString
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( strIdx + 1, nestStrHd, cursorIdx + 1
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, 0, 0, true
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, nestStrTl, nestLnTl
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)
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else
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(* not in linebreak *)
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let
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val lineColumn = getCursorColumn (lineGap, cursorIdx)
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in
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helpViJString
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( strIdx + 1, nestStrHd, cursorIdx + 1
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, lineColumn, lineColumn, false
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, nestStrTl, nestStrTl
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)
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end
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end
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| (_, _) => cursorIdx)
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end
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| (_, _) =>
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(* nowhere to go rightward, so return cursorIdx *)
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cursorIdx
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end
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fun helpViKString
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( strPos, str, absIdx
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, lineColumn, preferredColumn, hasPassedLine
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, strTl, lineHd, lineTl
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) =
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if strPos < 0 then
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helpViKList
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(absIdx, lineColumn, preferredColumn, hasPassedLine, strTl, lineTl)
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else
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case String.sub (str, strPos) of
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#"\n" =>
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if
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hasPassedLine
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then
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(* reached end of line twice,
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* but line has fewer chars than preferredColumn
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* note: if in double \n\n linebreak,
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* then return absIdx of second linebreak. *)
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if strPos > 0 then
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(* check for double linebreak in string *)
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if String.sub (str, strPos - 1) = #"\n" then
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(* in double linebreak *)
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absIdx
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else
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(* not in double linebreak *)
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absIdx - 1
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else
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(* check for double linebreak in tl *)
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(case strTl of
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hd :: _ =>
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if String.sub (hd, String.size hd - 1) = #"\n" then
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(* in double linebreak *)
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absIdx
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else
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(* not in double linebreak *)
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absIdx - 1
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| [] =>
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(* tl is empty, so return start *)
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0)
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else
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(* reached start of line once;
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* have to check if this is a double linebreak,
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* and return idx of second linebreak if so *)
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if strPos > 0 then
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if String.sub (str, strPos - 1) = #"\n" then
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absIdx
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else
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let
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(* have to calculate column of current line
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* so we know which line to stop searching at *)
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val lineColumn =
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helpGetCursorColumnBranch
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(strPos - 1, str, lineHd, strTl, lineTl)
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in
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helpViKString
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( strPos - 1, str, absIdx - 1
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, lineColumn, preferredColumn, true
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, strTl, lineHd, lineTl
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)
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end
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else
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(* this is first chr of string; must check string's tl next *)
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(case strTl of
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hd :: tl =>
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if String.sub (hd, String.size hd - 1) = #"\n" then
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(* in double linebreak *)
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absIdx
|
|
else
|
|
(* not in double linebreak *)
|
|
let
|
|
val lineColumn =
|
|
helpGetCursorColumnBranch
|
|
(strPos - 1, str, lineHd, strTl, lineTl)
|
|
in
|
|
helpViKString
|
|
( strPos - 1, str, absIdx - 1
|
|
, lineColumn, preferredColumn, true
|
|
, strTl, lineHd, lineTl
|
|
)
|
|
end
|
|
| [] =>
|
|
(* no more strings so return last idx *)
|
|
absIdx)
|
|
| _ =>
|
|
if lineColumn <= preferredColumn andalso hasPassedLine then
|
|
(* We're at or before the preferredColumn so return absIdx
|
|
* context: current line may have fewer columns
|
|
* than our preferred column value.
|
|
* If this is the case, we want to check
|
|
* "is lineColumn equal to or before preferredColumn?". *)
|
|
absIdx
|
|
else
|
|
(* we're not in the preferred column, so keep iterating *)
|
|
helpViKString
|
|
( strPos - 1, str, absIdx - 1
|
|
, lineColumn - 1, preferredColumn, hasPassedLine
|
|
, strTl, lineHd, lineTl
|
|
)
|
|
|
|
and helpViKList
|
|
(absIdx, lineColumn, preferredColumn, hasPassedLine, strings, lines) =
|
|
case (strings, lines) of
|
|
(strHd :: strTl, lineHd :: lineTl) =>
|
|
(* todo: possibly check if we have passed line,
|
|
* and if so, if there are any line breaks in the lineHd
|
|
* which we could use to skip searching part of the string.
|
|
* However, this will likely have worse cache locality
|
|
* as we switch to searching in string to searcing in line vector
|
|
* so perhaps not. *)
|
|
helpViKString
|
|
( String.size strHd - 1, strHd, absIdx
|
|
, lineColumn, preferredColumn, hasPassedLine
|
|
, strTl, lineHd, lineTl
|
|
)
|
|
| (_, _) =>
|
|
(* empty, so return start of previous string *)
|
|
absIdx + 1
|
|
|
|
fun viK (lineGap: LineGap.t, cursorIdx) =
|
|
let
|
|
val
|
|
{rightStrings, idx = bufferIdx, rightLines, leftStrings, leftLines, ...} =
|
|
lineGap
|
|
in
|
|
case (rightStrings, rightLines) of
|
|
(strHd :: strTl, lnHd :: lnTl) =>
|
|
let
|
|
(* convert absolute cursorIdx to idx relative to hd string *)
|
|
val strIdx = cursorIdx - bufferIdx
|
|
in
|
|
if strIdx < String.size strHd then
|
|
(* strIdx is in this string *)
|
|
if String.sub (strHd, strIdx) = #"\n" then
|
|
(* if we are at a newline
|
|
* note:
|
|
* don't need to check if we are a double linebreak,
|
|
* because cursor navigation functions already check
|
|
* for that condition at the end.
|
|
* So there is no way at the start of a navigation function
|
|
* that cursor is in a double linebreak incorrectly. *)
|
|
helpViKString
|
|
(strIdx - 1, strHd, cursorIdx - 1, 0, 0, true, strTl, lnHd, lnTl)
|
|
else
|
|
(* not at newline
|
|
* so get column number and start iterating *)
|
|
let
|
|
val lineColumn = getCursorColumn (lineGap, cursorIdx)
|
|
in
|
|
helpViKString
|
|
( strIdx - 1, strHd, cursorIdx - 1
|
|
, lineColumn, lineColumn, false
|
|
, strTl, lnHd, lnTl
|
|
)
|
|
end
|
|
else
|
|
(* strIdx must be in the strTl *)
|
|
(case (strTl, lnTl) of
|
|
(nestStrHd :: _, nestLnHd :: _) =>
|
|
let
|
|
val strIdx = strIdx - String.size strHd
|
|
val leftStrings = strHd :: leftStrings
|
|
val leftLines = lnHd :: leftLines
|
|
in
|
|
if String.sub (nestStrHd, strIdx) = #"\n" then
|
|
helpViKString
|
|
( strIdx - 1, nestStrHd, cursorIdx - 1
|
|
, 0, 0, true
|
|
, leftStrings, nestLnHd, leftLines
|
|
)
|
|
else
|
|
(* not in linebreak *)
|
|
let
|
|
val lineColumn = getCursorColumn (lineGap, cursorIdx)
|
|
in
|
|
helpViKString
|
|
( strIdx - 1, nestStrHd, cursorIdx - 1
|
|
, lineColumn, lineColumn, false
|
|
, leftStrings, nestLnHd, leftLines
|
|
)
|
|
end
|
|
end
|
|
| (_, _) => cursorIdx)
|
|
end
|
|
| (_, _) =>
|
|
(* nowhere to go rightward, so return cursorIdx *)
|
|
cursorIdx
|
|
end
|
|
end
|