#include #include #include #include #include #include "TextEditor.h" namespace tracy { // TODO // - multiline comments vs single-line: latter is blocking start of a ML // - handle unicode/utf // - testing template bool equals(InputIt1 first1, InputIt1 last1, InputIt2 first2, InputIt2 last2, BinaryPredicate p) { for (; first1 != last1 && first2 != last2; ++first1, ++first2) { if (!p(*first1, *first2)) return false; } return first1 == last1 && first2 == last2; } TextEditor::TextEditor() : mLineSpacing(1.0f) , mUndoIndex(0) , mTabSize(4) , mOverwrite(false) , mReadOnly(false) , mWithinRender(false) , mScrollToCursor(false) , mTextChanged(false) , mTextStart(20.0f) , mLeftMargin(10) , mColorRangeMin(0) , mColorRangeMax(0) , mSelectionMode(SelectionMode::Normal) , mCheckMultilineComments(true) { SetPalette(GetDarkPalette()); SetLanguageDefinition(LanguageDefinition::HLSL()); mLines.push_back(Line()); } TextEditor::~TextEditor() { } void TextEditor::SetLanguageDefinition(const LanguageDefinition & aLanguageDef) { mLanguageDefinition = aLanguageDef; mRegexList.clear(); for (auto& r : mLanguageDefinition.mTokenRegexStrings) mRegexList.push_back(std::make_pair(std::regex(r.first, std::regex_constants::optimize), r.second)); } void TextEditor::SetPalette(const Palette & aValue) { mPalette = aValue; } int TextEditor::AppendBuffer(std::string& aBuffer, char chr, int aIndex) { if (chr != '\t') { aBuffer.push_back(chr); return aIndex + 1; } else { //auto num = mTabSize - aIndex % mTabSize; //for (int j = num; j > 0; --j) // aBuffer.push_back(' '); //return aIndex + num; return aIndex; } } std::string TextEditor::GetText(const Coordinates & aStart, const Coordinates & aEnd) const { std::string result; int prevLineNo = aStart.mLine; for (auto it = aStart; it <= aEnd; Advance(it)) { if (prevLineNo != it.mLine && it.mLine < (int) mLines.size()) result.push_back('\n'); if (it == aEnd) break; prevLineNo = it.mLine; const auto& line = mLines[it.mLine]; if (!line.empty() && it.mColumn < (int)line.size()) result.push_back(line[it.mColumn].mChar); } return result; } TextEditor::Coordinates TextEditor::GetActualCursorCoordinates() const { return SanitizeCoordinates(mState.mCursorPosition); } TextEditor::Coordinates TextEditor::SanitizeCoordinates(const Coordinates & aValue) const { auto line = aValue.mLine; auto column = aValue.mColumn; if (line >= (int)mLines.size()) { if (mLines.empty()) { line = 0; column = 0; } else { line = (int)mLines.size() - 1; column = (int)mLines[line].size(); } } else { column = mLines.empty() ? 0 : std::min((int)mLines[line].size(), aValue.mColumn); } return Coordinates(line, column); } void TextEditor::Advance(Coordinates & aCoordinates) const { if (aCoordinates.mLine < (int)mLines.size()) { auto& line = mLines[aCoordinates.mLine]; if (aCoordinates.mColumn + 1 < (int)line.size()) ++aCoordinates.mColumn; else { ++aCoordinates.mLine; aCoordinates.mColumn = 0; } } } void TextEditor::DeleteRange(const Coordinates & aStart, const Coordinates & aEnd) { assert(aEnd >= aStart); assert(!mReadOnly); if (aEnd == aStart) return; if (aStart.mLine == aEnd.mLine) { auto& line = mLines[aStart.mLine]; if (aEnd.mColumn >= (int)line.size()) line.erase(line.begin() + aStart.mColumn, line.end()); else line.erase(line.begin() + aStart.mColumn, line.begin() + aEnd.mColumn); } else { auto& firstLine = mLines[aStart.mLine]; auto& lastLine = mLines[aEnd.mLine]; firstLine.erase(firstLine.begin() + aStart.mColumn, firstLine.end()); lastLine.erase(lastLine.begin(), lastLine.begin() + aEnd.mColumn); if (aStart.mLine < aEnd.mLine) firstLine.insert(firstLine.end(), lastLine.begin(), lastLine.end()); if (aStart.mLine < aEnd.mLine) RemoveLine(aStart.mLine + 1, aEnd.mLine + 1); } mTextChanged = true; } int TextEditor::InsertTextAt(Coordinates& /* inout */ aWhere, const char * aValue) { assert(!mReadOnly); int totalLines = 0; auto chr = *aValue; while (chr != '\0') { assert(!mLines.empty()); if (chr == '\r') { // skip } else if (chr == '\n') { if (aWhere.mColumn < (int)mLines[aWhere.mLine].size()) { auto& newLine = InsertLine(aWhere.mLine + 1); auto& line = mLines[aWhere.mLine]; newLine.insert(newLine.begin(), line.begin() + aWhere.mColumn, line.end()); line.erase(line.begin() + aWhere.mColumn, line.end()); } else { InsertLine(aWhere.mLine + 1); } ++aWhere.mLine; aWhere.mColumn = 0; ++totalLines; } else { auto& line = mLines[aWhere.mLine]; line.insert(line.begin() + aWhere.mColumn, Glyph(chr, PaletteIndex::Default)); ++aWhere.mColumn; } chr = *(++aValue); mTextChanged = true; } return totalLines; } void TextEditor::AddUndo(UndoRecord& aValue) { assert(!mReadOnly); mUndoBuffer.resize(mUndoIndex + 1); mUndoBuffer.back() = aValue; ++mUndoIndex; } TextEditor::Coordinates TextEditor::ScreenPosToCoordinates(const ImVec2& aPosition) const { ImVec2 origin = ImGui::GetCursorScreenPos(); ImVec2 local(aPosition.x - origin.x, aPosition.y - origin.y); int lineNo = std::max(0, (int)floor(local.y / mCharAdvance.y)); /* Compute columnCoord according to text size */ int columnCoord = 0; float columnWidth = 0.0f; std::string cumulatedString = ""; float cumulatedStringWidth[2] = {0.0f, 0.0f}; //( [0] is the lastest, [1] is the previous. I use that trick to check where cursor is exactly (important for tabs) if (lineNo >= 0 && lineNo < (int)mLines.size()) { auto& line = mLines.at(lineNo); // First we find the hovered column coord. while ( mTextStart + cumulatedStringWidth[0] < local.x && columnCoord < line.size()) { cumulatedStringWidth[1] = cumulatedStringWidth[0]; cumulatedString += line[columnCoord].mChar; cumulatedStringWidth[0] = ImGui::CalcTextSize(cumulatedString.c_str()).x ; columnWidth = (cumulatedStringWidth[0] - cumulatedStringWidth[1]); columnCoord++; } // Then we reduce by 1 column coord if cursor is on the left side of the hovered column. if( mTextStart + cumulatedStringWidth[0] - columnWidth / 2.0f > local.x) columnCoord = std::max(0, --columnCoord); } return SanitizeCoordinates(Coordinates(lineNo, columnCoord)); } TextEditor::Coordinates TextEditor::FindWordStart(const Coordinates & aFrom) const { Coordinates at = aFrom; if (at.mLine >= (int)mLines.size()) return at; auto& line = mLines[at.mLine]; if (at.mColumn >= (int)line.size()) return at; auto cstart = (PaletteIndex)line[at.mColumn].mColorIndex; while (at.mColumn > 0) { if (cstart != (PaletteIndex)line[at.mColumn - 1].mColorIndex) break; --at.mColumn; } return at; } TextEditor::Coordinates TextEditor::FindWordEnd(const Coordinates & aFrom) const { Coordinates at = aFrom; if (at.mLine >= (int)mLines.size()) return at; auto& line = mLines[at.mLine]; if (at.mColumn >= (int)line.size()) return at; auto cstart = (PaletteIndex)line[at.mColumn].mColorIndex; while (at.mColumn < (int)line.size()) { if (cstart != (PaletteIndex)line[at.mColumn].mColorIndex) break; ++at.mColumn; } return at; } bool TextEditor::IsOnWordBoundary(const Coordinates & aAt) const { if (aAt.mLine >= (int)mLines.size() || aAt.mColumn == 0) return true; auto& line = mLines[aAt.mLine]; if (aAt.mColumn >= (int)line.size()) return true; return line[aAt.mColumn].mColorIndex != line[aAt.mColumn - 1].mColorIndex; } void TextEditor::RemoveLine(int aStart, int aEnd) { assert(!mReadOnly); assert(aEnd >= aStart); assert(mLines.size() > aEnd - aStart); ErrorMarkers etmp; for (auto& i : mErrorMarkers) { ErrorMarkers::value_type e(i.first >= aStart ? i.first - 1 : i.first, i.second); if (e.first >= aStart && e.first <= aEnd) continue; etmp.insert(e); } mErrorMarkers = std::move(etmp); Breakpoints btmp; for (auto i : mBreakpoints) { if (i >= aStart && i <= aEnd) continue; btmp.insert(i >= aStart ? i - 1 : i); } mBreakpoints = std::move(btmp); mLines.erase(mLines.begin() + aStart, mLines.begin() + aEnd); assert(!mLines.empty()); mTextChanged = true; } void TextEditor::RemoveLine(int aIndex) { assert(!mReadOnly); assert(mLines.size() > 1); ErrorMarkers etmp; for (auto& i : mErrorMarkers) { ErrorMarkers::value_type e(i.first > aIndex ? i.first - 1 : i.first, i.second); if (e.first - 1 == aIndex) continue; etmp.insert(e); } mErrorMarkers = std::move(etmp); Breakpoints btmp; for (auto i : mBreakpoints) { if (i == aIndex) continue; btmp.insert(i >= aIndex ? i - 1 : i); } mBreakpoints = std::move(btmp); mLines.erase(mLines.begin() + aIndex); assert(!mLines.empty()); mTextChanged = true; } TextEditor::Line& TextEditor::InsertLine(int aIndex) { assert(!mReadOnly); auto& result = *mLines.insert(mLines.begin() + aIndex, Line()); ErrorMarkers etmp; for (auto& i : mErrorMarkers) etmp.insert(ErrorMarkers::value_type(i.first >= aIndex ? i.first + 1 : i.first, i.second)); mErrorMarkers = std::move(etmp); Breakpoints btmp; for (auto i : mBreakpoints) btmp.insert(i >= aIndex ? i + 1 : i); mBreakpoints = std::move(btmp); return result; } std::string TextEditor::GetWordUnderCursor() const { auto c = GetCursorPosition(); return GetWordAt(c); } std::string TextEditor::GetWordAt(const Coordinates & aCoords) const { auto start = FindWordStart(aCoords); auto end = FindWordEnd(aCoords); std::string r; for (auto it = start; it < end; Advance(it)) r.push_back(mLines[it.mLine][it.mColumn].mChar); return r; } void TextEditor::Render(const char* aTitle, const ImVec2& aSize, bool aBorder) { mWithinRender = true; mTextChanged = false; mCursorPositionChanged = false; ImGui::PushStyleColor(ImGuiCol_ChildWindowBg, ImGui::ColorConvertU32ToFloat4(mPalette[(int)PaletteIndex::Background])); ImGui::PushStyleVar(ImGuiStyleVar_ItemSpacing, ImVec2(0.0f, 0.0f)); ImGui::BeginChild(aTitle, aSize, aBorder, ImGuiWindowFlags_HorizontalScrollbar | ImGuiWindowFlags_AlwaysHorizontalScrollbar | ImGuiWindowFlags_NoMove); /* Compute mCharAdvance regarding to scaled font size (Ctrl + mouse wheel)*/ const float fontSize = ImGui::CalcTextSize("#").x; mCharAdvance = ImVec2(fontSize , ImGui::GetTextLineHeightWithSpacing() * mLineSpacing); /* Keyboard inputs */ ImGui::PushAllowKeyboardFocus(true); ImGuiIO& io = ImGui::GetIO(); auto shift = io.KeyShift; auto ctrl = io.ConfigMacOSXBehaviors ? io.KeySuper : io.KeyCtrl; auto alt = io.ConfigMacOSXBehaviors ? io.KeyCtrl : io.KeyAlt; if (ImGui::IsWindowFocused()) { if (ImGui::IsWindowHovered()) ImGui::SetMouseCursor(ImGuiMouseCursor_TextInput); //ImGui::CaptureKeyboardFromApp(true); io.WantCaptureKeyboard = true; io.WantTextInput = true; if (!IsReadOnly() && ctrl && !shift && !alt && ImGui::IsKeyPressed('Z')) Undo(); else if (!IsReadOnly() && !ctrl && !shift && alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_Backspace))) Undo(); else if (!IsReadOnly() && ctrl && !shift && !alt && ImGui::IsKeyPressed('Y')) Redo(); else if (!ctrl && !alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_UpArrow))) MoveUp(1, shift); else if (!ctrl && !alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_DownArrow))) MoveDown(1, shift); else if (!alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_LeftArrow))) MoveLeft(1, shift, ctrl); else if (!alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_RightArrow))) MoveRight(1, shift, ctrl); else if (!alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_PageUp))) MoveUp(GetPageSize() - 4, shift); else if (!alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_PageDown))) MoveDown(GetPageSize() - 4, shift); else if (!alt && ctrl && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_Home))) MoveTop(shift); else if (ctrl && !alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_End))) MoveBottom(shift); else if (!ctrl && !alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_Home))) MoveHome(shift); else if (!ctrl && !alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_End))) MoveEnd(shift); else if (!IsReadOnly() && !ctrl && !shift && !alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_Delete))) Delete(); else if (!IsReadOnly() && !ctrl && !shift && !alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_Backspace))) BackSpace(); else if (!ctrl && !shift && !alt && ImGui::IsKeyPressed(45)) mOverwrite ^= true; else if (ctrl && !shift && !alt && ImGui::IsKeyPressed(45)) Copy(); else if (ctrl && !shift && !alt && ImGui::IsKeyPressed('C')) Copy(); else if (!IsReadOnly() && !ctrl && shift && !alt && ImGui::IsKeyPressed(45)) Paste(); else if (!IsReadOnly() && ctrl && !shift && !alt && ImGui::IsKeyPressed('V')) Paste(); else if (ctrl && !shift && !alt && ImGui::IsKeyPressed('X')) Cut(); else if (!ctrl && shift && !alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_Delete))) Cut(); else if (ctrl && !shift && !alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_A))) SelectAll(); else if (!IsReadOnly() && !ctrl && !shift && !alt && ImGui::IsKeyPressed(ImGui::GetKeyIndex(ImGuiKey_Enter))) EnterCharacter('\n', false); else if (!IsReadOnly() && !ctrl && !alt) { for (size_t i = 0; i < sizeof(io.InputCharacters) / sizeof(io.InputCharacters[0]); i++) { auto c = (unsigned char)io.InputCharacters[i]; if (c != 0) { if (isprint(c) || isspace(c)) { EnterCharacter((char)c, shift); } } } } } /* Mouse inputs */ if (ImGui::IsWindowHovered()) { static float lastClick = -1.0f; if (!shift && !alt) { auto click = ImGui::IsMouseClicked(0); auto doubleClick = ImGui::IsMouseDoubleClicked(0); auto t = ImGui::GetTime(); auto tripleClick = click && !doubleClick && t - lastClick < io.MouseDoubleClickTime; /* Left mouse button triple click */ if (tripleClick) { if (!ctrl) { mState.mCursorPosition = mInteractiveStart = mInteractiveEnd = SanitizeCoordinates(ScreenPosToCoordinates(ImGui::GetMousePos())); mSelectionMode = SelectionMode::Line; SetSelection(mInteractiveStart, mInteractiveEnd, mSelectionMode); } lastClick = -1.0f; } /* Left mouse button double click */ else if (doubleClick) { if (!ctrl) { mState.mCursorPosition = mInteractiveStart = mInteractiveEnd = SanitizeCoordinates(ScreenPosToCoordinates(ImGui::GetMousePos())); if (mSelectionMode == SelectionMode::Line) mSelectionMode = SelectionMode::Normal; else mSelectionMode = SelectionMode::Word; SetSelection(mInteractiveStart, mInteractiveEnd, mSelectionMode); } lastClick = (float)ImGui::GetTime(); } /* Left mouse button click */ else if (click) { mState.mCursorPosition = mInteractiveStart = mInteractiveEnd = SanitizeCoordinates(ScreenPosToCoordinates(ImGui::GetMousePos())); if (ctrl) mSelectionMode = SelectionMode::Word; else mSelectionMode = SelectionMode::Normal; SetSelection(mInteractiveStart, mInteractiveEnd, mSelectionMode); lastClick = (float)ImGui::GetTime(); } // Mouse left button dragging (=> update selection) else if (ImGui::IsMouseDragging(0) && ImGui::IsMouseDown(0)) { io.WantCaptureMouse = true; mState.mCursorPosition = mInteractiveEnd = SanitizeCoordinates(ScreenPosToCoordinates(ImGui::GetMousePos())); SetSelection(mInteractiveStart, mInteractiveEnd, mSelectionMode); } } } ColorizeInternal(); static std::string buffer; auto contentSize = ImGui::GetWindowContentRegionMax(); auto drawList = ImGui::GetWindowDrawList(); float longest(mTextStart); ImVec2 cursorScreenPos = ImGui::GetCursorScreenPos(); auto scrollX = ImGui::GetScrollX(); auto scrollY = ImGui::GetScrollY(); auto lineNo = (int)floor(scrollY / mCharAdvance.y); auto globalLineMax = (int)mLines.size(); auto lineMax = std::max(0, std::min((int)mLines.size() - 1, lineNo + (int)floor((scrollY + contentSize.y) / mCharAdvance.y))); // Deduce mTextStart by evaluating mLines size (global lineMax) plus two spaces as text width char buf[16]; snprintf(buf, 16, " %d ", globalLineMax); mTextStart = ImGui::CalcTextSize(buf).x + mLeftMargin; if (!mLines.empty()) { auto fontScale = ImGui::GetFontSize() / ImGui::GetFont()->FontSize; float spaceSize = ImGui::CalcTextSize(" ").x + 1.0f * fontScale; while (lineNo <= lineMax) { ImVec2 lineStartScreenPos = ImVec2(cursorScreenPos.x, cursorScreenPos.y + lineNo * mCharAdvance.y); ImVec2 textScreenPos = ImVec2(lineStartScreenPos.x + mTextStart, lineStartScreenPos.y); auto& line = mLines[lineNo]; longest = std::max(mTextStart + TextDistanceToLineStart(Coordinates(lineNo, (int) line.size())), longest); auto columnNo = 0; Coordinates lineStartCoord(lineNo, 0); Coordinates lineEndCoord(lineNo, (int)line.size()); /* Draw Selected area */ float sstart = -1.0f; float ssend = -1.0f; assert(mState.mSelectionStart <= mState.mSelectionEnd); if (mState.mSelectionStart <= lineEndCoord) sstart = mState.mSelectionStart > lineStartCoord ? TextDistanceToLineStart(mState.mSelectionStart) : 0.0f; if (mState.mSelectionEnd > lineStartCoord) ssend = TextDistanceToLineStart(mState.mSelectionEnd < lineEndCoord ? mState.mSelectionEnd : lineEndCoord); if (mState.mSelectionEnd.mLine > lineNo) ssend += mCharAdvance.x; if (sstart != -1 && ssend != -1 && sstart < ssend) { ImVec2 vstart(lineStartScreenPos.x + mTextStart + sstart, lineStartScreenPos.y); ImVec2 vend(lineStartScreenPos.x + mTextStart + ssend, lineStartScreenPos.y + mCharAdvance.y); drawList->AddRectFilled(vstart, vend, mPalette[(int)PaletteIndex::Selection]); } /* Draw break point */ auto start = ImVec2(lineStartScreenPos.x + scrollX, lineStartScreenPos.y); if (mBreakpoints.count(lineNo + 1) != 0) { auto end = ImVec2(lineStartScreenPos.x + contentSize.x + 2.0f * scrollX, lineStartScreenPos.y + mCharAdvance.y); drawList->AddRectFilled(start, end, mPalette[(int)PaletteIndex::Breakpoint]); } /* Draw error marker */ auto errorIt = mErrorMarkers.find(lineNo + 1); if (errorIt != mErrorMarkers.end()) { auto end = ImVec2(lineStartScreenPos.x + contentSize.x + 2.0f * scrollX, lineStartScreenPos.y + mCharAdvance.y); drawList->AddRectFilled(start, end, mPalette[(int)PaletteIndex::ErrorMarker]); if (ImGui::IsMouseHoveringRect(lineStartScreenPos, end)) { ImGui::BeginTooltip(); ImGui::PushStyleColor(ImGuiCol_Text, ImVec4(1.0f, 0.2f, 0.2f, 1.0f)); ImGui::Text("Error at line %d:", errorIt->first); ImGui::PopStyleColor(); ImGui::Separator(); ImGui::PushStyleColor(ImGuiCol_Text, ImVec4(1.0f, 1.0f, 0.2f, 1.0f)); ImGui::Text("%s", errorIt->second.c_str()); ImGui::PopStyleColor(); ImGui::EndTooltip(); } } /* Draw line number (right aligned) */ snprintf(buf, 16, "%d ", lineNo + 1); auto lineNoWidth = ImGui::CalcTextSize(buf).x; drawList->AddText(ImVec2(lineStartScreenPos.x + mTextStart - lineNoWidth, lineStartScreenPos.y), mPalette[(int)PaletteIndex::LineNumber], buf); /* Highlight the current line (where the cursor is). */ if (mState.mCursorPosition.mLine == lineNo) { auto focused = ImGui::IsWindowFocused(); if (!HasSelection()) { auto end = ImVec2(start.x + contentSize.x + scrollX, start.y + mCharAdvance.y); drawList->AddRectFilled(start, end, mPalette[(int)(focused ? PaletteIndex::CurrentLineFill : PaletteIndex::CurrentLineFillInactive)]); drawList->AddRect(start, end, mPalette[(int)PaletteIndex::CurrentLineEdge], 1.0f); } float cx = TextDistanceToLineStart(mState.mCursorPosition); if (focused) { static auto timeStart = std::chrono::system_clock::now(); auto timeEnd = std::chrono::system_clock::now(); auto diff = timeEnd - timeStart; auto elapsed = std::chrono::duration_cast(diff).count(); if (elapsed > 400) { ImVec2 cstart(textScreenPos.x + cx, lineStartScreenPos.y); ImVec2 cend(textScreenPos.x + cx + (mOverwrite ? mCharAdvance.x : 1.0f), lineStartScreenPos.y + mCharAdvance.y); drawList->AddRectFilled(cstart, cend, mPalette[(int)PaletteIndex::Cursor]); if (elapsed > 800) timeStart = timeEnd; } } } /* Draw Text */ auto prevColor = line.empty() ? PaletteIndex::Default : (line[0].mMultiLineComment ? PaletteIndex::MultiLineComment : line[0].mColorIndex); ImVec2 bufferOffset; for (auto& glyph : line) { auto color = glyph.mMultiLineComment ? PaletteIndex::MultiLineComment : glyph.mColorIndex; if ((color != prevColor || glyph.mChar == '\t') && !buffer.empty()) { const ImVec2 newOffset(textScreenPos.x + bufferOffset.x, textScreenPos.y + bufferOffset.y); drawList->AddText(newOffset, mPalette[(uint8_t)prevColor], buffer.c_str()); auto textSize = ImGui::CalcTextSize(buffer.c_str()); bufferOffset.x += textSize.x + 1.0f * fontScale; buffer.clear(); } prevColor = color; if (glyph.mChar == '\t') bufferOffset.x = (1.0f * fontScale + std::floor((1.0f + bufferOffset.x)) / (float(mTabSize) * spaceSize)) * (float(mTabSize) * spaceSize); else AppendBuffer(buffer, glyph.mChar, 0); ++columnNo; } if (!buffer.empty()) { const ImVec2 newOffset(textScreenPos.x + bufferOffset.x, textScreenPos.y + bufferOffset.y); drawList->AddText(newOffset, mPalette[(uint8_t)prevColor], buffer.c_str()); buffer.clear(); } ++lineNo; } if (ImGui::IsMousePosValid()) { auto id = GetWordAt(ScreenPosToCoordinates(ImGui::GetMousePos())); if (!id.empty()) { auto it = mLanguageDefinition.mIdentifiers.find(id); if (it != mLanguageDefinition.mIdentifiers.end()) { ImGui::BeginTooltip(); ImGui::TextUnformatted(it->second.mDeclaration.c_str()); ImGui::EndTooltip(); } else { auto pi = mLanguageDefinition.mPreprocIdentifiers.find(id); if (pi != mLanguageDefinition.mPreprocIdentifiers.end()) { ImGui::BeginTooltip(); ImGui::TextUnformatted(pi->second.mDeclaration.c_str()); ImGui::EndTooltip(); } } } } } ImGui::Dummy(ImVec2((longest + 2), mLines.size() * mCharAdvance.y)); if (mScrollToCursor) { EnsureCursorVisible(); ImGui::SetWindowFocus(); mScrollToCursor = false; } ImGui::PopAllowKeyboardFocus(); ImGui::EndChild(); ImGui::PopStyleVar(); ImGui::PopStyleColor(); mWithinRender = false; } void TextEditor::SetText(const std::string & aText) { mLines.clear(); mLines.push_back(Line()); for (auto chr : aText) { if (chr == '\r') { // ignore the carriage return character } else if (chr == '\n') mLines.push_back(Line()); else { mLines.back().push_back(Glyph(chr, PaletteIndex::Default)); } mTextChanged = true; } mUndoBuffer.clear(); Colorize(); } void TextEditor::EnterCharacter(Char aChar, bool aShift) { assert(!mReadOnly); UndoRecord u; u.mBefore = mState; if (HasSelection()) { if (aChar == '\t') { auto start = mState.mSelectionStart; auto end = mState.mSelectionEnd; if (start > end) std::swap(start, end); start.mColumn = 0; // end.mColumn = end.mLine < mLines.size() ? mLines[end.mLine].size() : 0; if (end.mColumn == 0 && end.mLine > 0) { --end.mLine; end.mColumn = mLines[end.mLine].size(); } u.mRemovedStart = start; u.mRemovedEnd = end; u.mRemoved = GetText(start, end); bool modified = false; for (int i = start.mLine; i <= end.mLine; i++) { auto& line = mLines[i]; if (aShift) { if (line[0].mChar == '\t') { line.erase(line.begin()); if (i == end.mLine && end.mColumn > 0) end.mColumn--; modified = true; } else for (int j = 0; j < mTabSize && line[0].mChar == ' '; j++) { line.erase(line.begin()); if (i == end.mLine && end.mColumn > 0) end.mColumn--; modified = true; } } else { line.insert(line.begin(), Glyph('\t', TextEditor::PaletteIndex::Background)); if (i == end.mLine) ++end.mColumn; modified = true; } } if (modified) { u.mAddedStart = start; u.mAddedEnd = end; u.mAdded = GetText(start, end); mTextChanged = true; AddUndo(u); EnsureCursorVisible(); } return; } else { u.mRemoved = GetSelectedText(); u.mRemovedStart = mState.mSelectionStart; u.mRemovedEnd = mState.mSelectionEnd; DeleteSelection(); } } auto coord = GetActualCursorCoordinates(); u.mAddedStart = coord; assert(!mLines.empty()); if (aChar == '\n') { InsertLine(coord.mLine + 1); auto& line = mLines[coord.mLine]; auto& newLine = mLines[coord.mLine + 1]; if (mLanguageDefinition.mAutoIndentation) { for (size_t it = 0; it < line.size() && isblank(line[it].mChar); ++it) newLine.push_back(line[it]); } const size_t whitespaceSize = newLine.size(); newLine.insert(newLine.end(), line.begin() + coord.mColumn, line.end()); line.erase(line.begin() + coord.mColumn, line.begin() + line.size()); SetCursorPosition(Coordinates(coord.mLine + 1, (int)whitespaceSize)); } else { auto& line = mLines[coord.mLine]; if (mOverwrite && (int)line.size() > coord.mColumn) line[coord.mColumn] = Glyph(aChar, PaletteIndex::Default); else line.insert(line.begin() + coord.mColumn, Glyph(aChar, PaletteIndex::Default)); SetCursorPosition(Coordinates(coord.mLine, coord.mColumn + 1)); } mTextChanged = true; u.mAdded = aChar; u.mAddedEnd = GetActualCursorCoordinates(); u.mAfter = mState; AddUndo(u); Colorize(coord.mLine - 1, 3); EnsureCursorVisible(); } void TextEditor::SetReadOnly(bool aValue) { mReadOnly = aValue; } void TextEditor::SetCursorPosition(const Coordinates & aPosition) { if (mState.mCursorPosition != aPosition) { mState.mCursorPosition = aPosition; mCursorPositionChanged = true; EnsureCursorVisible(); } } void TextEditor::SetSelectionStart(const Coordinates & aPosition) { mState.mSelectionStart = SanitizeCoordinates(aPosition); if (mState.mSelectionStart > mState.mSelectionEnd) std::swap(mState.mSelectionStart, mState.mSelectionEnd); } void TextEditor::SetSelectionEnd(const Coordinates & aPosition) { mState.mSelectionEnd = SanitizeCoordinates(aPosition); if (mState.mSelectionStart > mState.mSelectionEnd) std::swap(mState.mSelectionStart, mState.mSelectionEnd); } void TextEditor::SetSelection(const Coordinates & aStart, const Coordinates & aEnd, SelectionMode aMode) { auto oldSelStart = mState.mSelectionStart; auto oldSelEnd = mState.mSelectionEnd; mState.mSelectionStart = SanitizeCoordinates(aStart); mState.mSelectionEnd = SanitizeCoordinates(aEnd); if (aStart > aEnd) std::swap(mState.mSelectionStart, mState.mSelectionEnd); switch (aMode) { case TextEditor::SelectionMode::Normal: break; case TextEditor::SelectionMode::Word: { mState.mSelectionStart = FindWordStart(mState.mSelectionStart); if (!IsOnWordBoundary(mState.mSelectionEnd)) mState.mSelectionEnd = FindWordEnd(FindWordStart(mState.mSelectionEnd)); break; } case TextEditor::SelectionMode::Line: { const auto lineNo = mState.mSelectionEnd.mLine; const auto lineSize = lineNo < mLines.size() ? mLines[lineNo].size() : 0; mState.mSelectionStart = Coordinates(mState.mSelectionStart.mLine, 0); mState.mSelectionEnd = Coordinates(lineNo, (int) lineSize); break; } default: break; } if (mState.mSelectionStart != oldSelStart || mState.mSelectionEnd != oldSelEnd) mCursorPositionChanged = true; } void TextEditor::InsertText(const std::string & aValue) { InsertText(aValue.c_str()); } void TextEditor::InsertText(const char * aValue) { if (aValue == nullptr) return; auto pos = GetActualCursorCoordinates(); auto start = std::min(pos, mState.mSelectionStart); int totalLines = pos.mLine - start.mLine; totalLines += InsertTextAt(pos, aValue); SetSelection(pos, pos); SetCursorPosition(pos); Colorize(start.mLine - 1, totalLines + 2); } void TextEditor::DeleteSelection() { assert(mState.mSelectionEnd >= mState.mSelectionStart); if (mState.mSelectionEnd == mState.mSelectionStart) return; DeleteRange(mState.mSelectionStart, mState.mSelectionEnd); SetSelection(mState.mSelectionStart, mState.mSelectionStart); SetCursorPosition(mState.mSelectionStart); Colorize(mState.mSelectionStart.mLine, 1); } void TextEditor::MoveUp(int aAmount, bool aSelect) { auto oldPos = mState.mCursorPosition; mState.mCursorPosition.mLine = std::max(0, mState.mCursorPosition.mLine - aAmount); if (oldPos != mState.mCursorPosition) { if (aSelect) { if (oldPos == mInteractiveStart) mInteractiveStart = mState.mCursorPosition; else if (oldPos == mInteractiveEnd) mInteractiveEnd = mState.mCursorPosition; else { mInteractiveStart = mState.mCursorPosition; mInteractiveEnd = oldPos; } } else mInteractiveStart = mInteractiveEnd = mState.mCursorPosition; SetSelection(mInteractiveStart, mInteractiveEnd); EnsureCursorVisible(); } } void TextEditor::MoveDown(int aAmount, bool aSelect) { assert(mState.mCursorPosition.mColumn >= 0); auto oldPos = mState.mCursorPosition; mState.mCursorPosition.mLine = std::max(0, std::min((int)mLines.size() - 1, mState.mCursorPosition.mLine + aAmount)); if (mState.mCursorPosition != oldPos) { if (aSelect) { if (oldPos == mInteractiveEnd) mInteractiveEnd = mState.mCursorPosition; else if (oldPos == mInteractiveStart) mInteractiveStart = mState.mCursorPosition; else { mInteractiveStart = oldPos; mInteractiveEnd = mState.mCursorPosition; } } else mInteractiveStart = mInteractiveEnd = mState.mCursorPosition; SetSelection(mInteractiveStart, mInteractiveEnd); EnsureCursorVisible(); } } void TextEditor::MoveLeft(int aAmount, bool aSelect, bool aWordMode) { if (mLines.empty()) return; auto oldPos = mState.mCursorPosition; mState.mCursorPosition = GetActualCursorCoordinates(); while (aAmount-- > 0) { if (mState.mCursorPosition.mColumn == 0) { if (mState.mCursorPosition.mLine > 0) { --mState.mCursorPosition.mLine; mState.mCursorPosition.mColumn = (int)mLines[mState.mCursorPosition.mLine].size(); } } else { mState.mCursorPosition.mColumn = std::max(0, mState.mCursorPosition.mColumn - 1); if (aWordMode) mState.mCursorPosition = FindWordStart(mState.mCursorPosition); } } assert(mState.mCursorPosition.mColumn >= 0); if (aSelect) { if (oldPos == mInteractiveStart) mInteractiveStart = mState.mCursorPosition; else if (oldPos == mInteractiveEnd) mInteractiveEnd = mState.mCursorPosition; else { mInteractiveStart = mState.mCursorPosition; mInteractiveEnd = oldPos; } } else mInteractiveStart = mInteractiveEnd = mState.mCursorPosition; SetSelection(mInteractiveStart, mInteractiveEnd, aSelect && aWordMode ? SelectionMode::Word : SelectionMode::Normal); EnsureCursorVisible(); } void TextEditor::MoveRight(int aAmount, bool aSelect, bool aWordMode) { auto oldPos = mState.mCursorPosition; if (mLines.empty()) return; while (aAmount-- > 0) { auto& line = mLines[mState.mCursorPosition.mLine]; if (mState.mCursorPosition.mColumn >= (int)line.size()) { if (mState.mCursorPosition.mLine < (int)mLines.size() - 1) { mState.mCursorPosition.mLine = std::max(0, std::min((int)mLines.size() - 1, mState.mCursorPosition.mLine + 1)); mState.mCursorPosition.mColumn = 0; } } else { mState.mCursorPosition.mColumn = std::max(0, std::min((int)line.size(), mState.mCursorPosition.mColumn + 1)); if (aWordMode) mState.mCursorPosition = FindWordEnd(mState.mCursorPosition); } } if (aSelect) { if (oldPos == mInteractiveEnd) mInteractiveEnd = SanitizeCoordinates(mState.mCursorPosition); else if (oldPos == mInteractiveStart) mInteractiveStart = mState.mCursorPosition; else { mInteractiveStart = oldPos; mInteractiveEnd = mState.mCursorPosition; } } else mInteractiveStart = mInteractiveEnd = mState.mCursorPosition; SetSelection(mInteractiveStart, mInteractiveEnd, aSelect && aWordMode ? SelectionMode::Word : SelectionMode::Normal); EnsureCursorVisible(); } void TextEditor::MoveTop(bool aSelect) { auto oldPos = mState.mCursorPosition; SetCursorPosition(Coordinates(0, 0)); if (mState.mCursorPosition != oldPos) { if (aSelect) { mInteractiveEnd = oldPos; mInteractiveStart = mState.mCursorPosition; } else mInteractiveStart = mInteractiveEnd = mState.mCursorPosition; SetSelection(mInteractiveStart, mInteractiveEnd); } } void TextEditor::TextEditor::MoveBottom(bool aSelect) { auto oldPos = GetCursorPosition(); auto newPos = Coordinates((int)mLines.size() - 1, 0); SetCursorPosition(newPos); if (aSelect) { mInteractiveStart = oldPos; mInteractiveEnd = newPos; } else mInteractiveStart = mInteractiveEnd = newPos; SetSelection(mInteractiveStart, mInteractiveEnd); } void TextEditor::MoveHome(bool aSelect) { auto oldPos = mState.mCursorPosition; SetCursorPosition(Coordinates(mState.mCursorPosition.mLine, 0)); if (mState.mCursorPosition != oldPos) { if (aSelect) { if (oldPos == mInteractiveStart) mInteractiveStart = mState.mCursorPosition; else if (oldPos == mInteractiveEnd) mInteractiveEnd = mState.mCursorPosition; else { mInteractiveStart = mState.mCursorPosition; mInteractiveEnd = oldPos; } } else mInteractiveStart = mInteractiveEnd = mState.mCursorPosition; SetSelection(mInteractiveStart, mInteractiveEnd); } } void TextEditor::MoveEnd(bool aSelect) { auto oldPos = mState.mCursorPosition; SetCursorPosition(Coordinates(mState.mCursorPosition.mLine, (int)mLines[oldPos.mLine].size())); if (mState.mCursorPosition != oldPos) { if (aSelect) { if (oldPos == mInteractiveEnd) mInteractiveEnd = mState.mCursorPosition; else if (oldPos == mInteractiveStart) mInteractiveStart = mState.mCursorPosition; else { mInteractiveStart = oldPos; mInteractiveEnd = mState.mCursorPosition; } } else mInteractiveStart = mInteractiveEnd = mState.mCursorPosition; SetSelection(mInteractiveStart, mInteractiveEnd); } } void TextEditor::Delete() { assert(!mReadOnly); if (mLines.empty()) return; UndoRecord u; u.mBefore = mState; if (HasSelection()) { u.mRemoved = GetSelectedText(); u.mRemovedStart = mState.mSelectionStart; u.mRemovedEnd = mState.mSelectionEnd; DeleteSelection(); } else { auto pos = GetActualCursorCoordinates(); SetCursorPosition(pos); auto& line = mLines[pos.mLine]; if (pos.mColumn == (int)line.size()) { if (pos.mLine == (int)mLines.size() - 1) return; u.mRemoved = '\n'; u.mRemovedStart = u.mRemovedEnd = GetActualCursorCoordinates(); Advance(u.mRemovedEnd); auto& nextLine = mLines[pos.mLine + 1]; line.insert(line.end(), nextLine.begin(), nextLine.end()); RemoveLine(pos.mLine + 1); } else { u.mRemoved = line[pos.mColumn].mChar; u.mRemovedStart = u.mRemovedEnd = GetActualCursorCoordinates(); u.mRemovedEnd.mColumn++; line.erase(line.begin() + pos.mColumn); } mTextChanged = true; Colorize(pos.mLine, 1); } u.mAfter = mState; AddUndo(u); } void TextEditor::BackSpace() { assert(!mReadOnly); if (mLines.empty()) return; UndoRecord u; u.mBefore = mState; if (HasSelection()) { u.mRemoved = GetSelectedText(); u.mRemovedStart = mState.mSelectionStart; u.mRemovedEnd = mState.mSelectionEnd; DeleteSelection(); } else { auto pos = GetActualCursorCoordinates(); SetCursorPosition(pos); if (mState.mCursorPosition.mColumn == 0) { if (mState.mCursorPosition.mLine == 0) return; u.mRemoved = '\n'; u.mRemovedStart = u.mRemovedEnd = Coordinates(pos.mLine - 1, (int)mLines[pos.mLine - 1].size()); Advance(u.mRemovedEnd); auto& line = mLines[mState.mCursorPosition.mLine]; auto& prevLine = mLines[mState.mCursorPosition.mLine - 1]; auto prevSize = (int)prevLine.size(); prevLine.insert(prevLine.end(), line.begin(), line.end()); ErrorMarkers etmp; for (auto& i : mErrorMarkers) etmp.insert(ErrorMarkers::value_type(i.first - 1 == mState.mCursorPosition.mLine ? i.first - 1 : i.first, i.second)); mErrorMarkers = std::move(etmp); RemoveLine(mState.mCursorPosition.mLine); --mState.mCursorPosition.mLine; mState.mCursorPosition.mColumn = prevSize; } else { auto& line = mLines[mState.mCursorPosition.mLine]; u.mRemoved = line[pos.mColumn - 1].mChar; u.mRemovedStart = u.mRemovedEnd = GetActualCursorCoordinates(); --u.mRemovedStart.mColumn; --mState.mCursorPosition.mColumn; if (mState.mCursorPosition.mColumn < (int)line.size()) line.erase(line.begin() + mState.mCursorPosition.mColumn); } mTextChanged = true; EnsureCursorVisible(); Colorize(mState.mCursorPosition.mLine, 1); } u.mAfter = mState; AddUndo(u); } void TextEditor::SelectWordUnderCursor() { auto c = GetCursorPosition(); SetSelection(FindWordStart(c), FindWordEnd(c)); } void TextEditor::SelectAll() { SetSelection(Coordinates(0, 0), Coordinates((int)mLines.size(), 0)); } bool TextEditor::HasSelection() const { return mState.mSelectionEnd > mState.mSelectionStart; } void TextEditor::Copy() { if (HasSelection()) { ImGui::SetClipboardText(GetSelectedText().c_str()); } else { if (!mLines.empty()) { std::string str; auto& line = mLines[GetActualCursorCoordinates().mLine]; for (auto& g : line) str.push_back(g.mChar); ImGui::SetClipboardText(str.c_str()); } } } void TextEditor::Cut() { if (IsReadOnly()) { Copy(); } else { if (HasSelection()) { UndoRecord u; u.mBefore = mState; u.mRemoved = GetSelectedText(); u.mRemovedStart = mState.mSelectionStart; u.mRemovedEnd = mState.mSelectionEnd; Copy(); DeleteSelection(); u.mAfter = mState; AddUndo(u); } } } void TextEditor::Paste() { auto clipText = ImGui::GetClipboardText(); if (clipText != nullptr && strlen(clipText) > 0) { UndoRecord u; u.mBefore = mState; if (HasSelection()) { u.mRemoved = GetSelectedText(); u.mRemovedStart = mState.mSelectionStart; u.mRemovedEnd = mState.mSelectionEnd; DeleteSelection(); } u.mAdded = clipText; u.mAddedStart = GetActualCursorCoordinates(); InsertText(clipText); u.mAddedEnd = GetActualCursorCoordinates(); u.mAfter = mState; AddUndo(u); } } bool TextEditor::CanUndo() const { return mUndoIndex > 0; } bool TextEditor::CanRedo() const { return mUndoIndex < (int)mUndoBuffer.size(); } void TextEditor::Undo(int aSteps) { while (CanUndo() && aSteps-- > 0) mUndoBuffer[--mUndoIndex].Undo(this); } void TextEditor::Redo(int aSteps) { while (CanRedo() && aSteps-- > 0) mUndoBuffer[mUndoIndex++].Redo(this); } const TextEditor::Palette & TextEditor::GetDarkPalette() { static Palette p = { { 0xffffffff, // None 0xffd69c56, // Keyword 0xff00ff00, // Number 0xff7070e0, // String 0xff70a0e0, // Char literal 0xffffffff, // Punctuation 0xff409090, // Preprocessor 0xffaaaaaa, // Identifier 0xff9bc64d, // Known identifier 0xffc040a0, // Preproc identifier 0xff206020, // Comment (single line) 0xff406020, // Comment (multi line) 0xff101010, // Background 0xffe0e0e0, // Cursor 0x80a06020, // Selection 0x800020ff, // ErrorMarker 0x40f08000, // Breakpoint 0xff707000, // Line number 0x40000000, // Current line fill 0x40808080, // Current line fill (inactive) 0x40a0a0a0, // Current line edge } }; return p; } const TextEditor::Palette & TextEditor::GetLightPalette() { static Palette p = { { 0xff000000, // None 0xffff0c06, // Keyword 0xff008000, // Number 0xff2020a0, // String 0xff304070, // Char literal 0xff000000, // Punctuation 0xff409090, // Preprocessor 0xff404040, // Identifier 0xff606010, // Known identifier 0xffc040a0, // Preproc identifier 0xff205020, // Comment (single line) 0xff405020, // Comment (multi line) 0xffffffff, // Background 0xff000000, // Cursor 0x80600000, // Selection 0xa00010ff, // ErrorMarker 0x80f08000, // Breakpoint 0xff505000, // Line number 0x40000000, // Current line fill 0x40808080, // Current line fill (inactive) 0x40000000, // Current line edge } }; return p; } const TextEditor::Palette & TextEditor::GetRetroBluePalette() { static Palette p = { { 0xff00ffff, // None 0xffffff00, // Keyword 0xff00ff00, // Number 0xff808000, // String 0xff808000, // Char literal 0xffffffff, // Punctuation 0xff008000, // Preprocessor 0xff00ffff, // Identifier 0xffffffff, // Known identifier 0xffff00ff, // Preproc identifier 0xff808080, // Comment (single line) 0xff404040, // Comment (multi line) 0xff800000, // Background 0xff0080ff, // Cursor 0x80ffff00, // Selection 0xa00000ff, // ErrorMarker 0x80ff8000, // Breakpoint 0xff808000, // Line number 0x40000000, // Current line fill 0x40808080, // Current line fill (inactive) 0x40000000, // Current line edge } }; return p; } std::string TextEditor::GetText() const { return GetText(Coordinates(), Coordinates((int)mLines.size(), 0)); } std::string TextEditor::GetSelectedText() const { return GetText(mState.mSelectionStart, mState.mSelectionEnd); } std::string TextEditor::GetCurrentLineText()const { auto lineLength = (int) mLines[mState.mCursorPosition.mLine].size(); return GetText(Coordinates(mState.mCursorPosition.mLine, 0), Coordinates(mState.mCursorPosition.mLine, lineLength)); } void TextEditor::ProcessInputs() { } void TextEditor::Colorize(int aFromLine, int aLines) { int toLine = aLines == -1 ? (int)mLines.size() : std::min((int)mLines.size(), aFromLine + aLines); mColorRangeMin = std::min(mColorRangeMin, aFromLine); mColorRangeMax = std::max(mColorRangeMax, toLine); mColorRangeMin = std::max(0, mColorRangeMin); mColorRangeMax = std::max(mColorRangeMin, mColorRangeMax); mCheckMultilineComments = true; } void TextEditor::ColorizeRange(int aFromLine, int aToLine) { if (mLines.empty() || aFromLine >= aToLine) return; std::string buffer; std::cmatch results; std::string id; int endLine = std::max(0, std::min((int)mLines.size(), aToLine)); for (int i = aFromLine; i < endLine; ++i) { bool preproc = false; auto& line = mLines[i]; if (line.empty()) continue; buffer.resize(line.size()); for (size_t j = 0; j < line.size(); ++j) { auto& col = line[j]; buffer[j] = col.mChar; col.mColorIndex = PaletteIndex::Default; } const char * bufferBegin = &buffer.front(); const char * bufferEnd = bufferBegin + buffer.size(); auto last = bufferEnd; for (auto first = bufferBegin; first != last; ) { const char * token_begin = nullptr; const char * token_end = nullptr; PaletteIndex token_color = PaletteIndex::Default; bool hasTokenizeResult = false; if (mLanguageDefinition.mTokenize != nullptr) { if (mLanguageDefinition.mTokenize(first, last, token_begin, token_end, token_color)) hasTokenizeResult = true; } if (hasTokenizeResult == false) { // todo : remove //printf("using regex for %.*s\n", first + 10 < last ? 10 : int(last - first), first); for (auto& p : mRegexList) { if (std::regex_search(first, last, results, p.first, std::regex_constants::match_continuous)) { hasTokenizeResult = true; auto& v = *results.begin(); token_begin = v.first; token_end = v.second; token_color = p.second; break; } } } if (hasTokenizeResult == false) { first++; } else { const size_t token_length = token_end - token_begin; if (token_color == PaletteIndex::Identifier) { id.assign(token_begin, token_end); // todo : allmost all language definitions use lower case to specify keywords, so shouldn't this use ::tolower ? if (!mLanguageDefinition.mCaseSensitive) std::transform(id.begin(), id.end(), id.begin(), ::toupper); if (!preproc) { if (mLanguageDefinition.mKeywords.count(id) != 0) token_color = PaletteIndex::Keyword; else if (mLanguageDefinition.mIdentifiers.count(id) != 0) token_color = PaletteIndex::KnownIdentifier; else if (mLanguageDefinition.mPreprocIdentifiers.count(id) != 0) token_color = PaletteIndex::PreprocIdentifier; } else { if (mLanguageDefinition.mPreprocIdentifiers.count(id) != 0) token_color = PaletteIndex::PreprocIdentifier; else token_color = PaletteIndex::Identifier; } } else if (token_color == PaletteIndex::Preprocessor) { preproc = true; } for (int j = 0; j < token_length; ++j) line[(token_begin - bufferBegin) + j].mColorIndex = token_color; first = token_end; } } } } void TextEditor::ColorizeInternal() { if (mLines.empty()) return; if (mCheckMultilineComments) { auto end = Coordinates((int)mLines.size(), 0); auto commentStart = end; auto withinString = false; for (auto i = Coordinates(0, 0); i < end; Advance(i)) { auto& line = mLines[i.mLine]; if (!line.empty()) { auto& g = line[i.mColumn]; auto c = g.mChar; bool inComment = commentStart <= i; if (withinString) { line[i.mColumn].mMultiLineComment = inComment; if (c == '\"') { if (i.mColumn + 1 < (int)line.size() && line[i.mColumn + 1].mChar == '\"') { Advance(i); if (i.mColumn < (int)line.size()) line[i.mColumn].mMultiLineComment = inComment; } else withinString = false; } else if (c == '\\') { Advance(i); if (i.mColumn < (int)line.size()) line[i.mColumn].mMultiLineComment = inComment; } } else { if (c == '\"') { withinString = true; line[i.mColumn].mMultiLineComment = inComment; } else { auto pred = [](const char& a, const Glyph& b) { return a == b.mChar; }; auto from = line.begin() + i.mColumn; auto& startStr = mLanguageDefinition.mCommentStart; if (i.mColumn + startStr.size() <= line.size() && equals(startStr.begin(), startStr.end(), from, from + startStr.size(), pred)) commentStart = i; inComment = commentStart <= i; line[i.mColumn].mMultiLineComment = inComment; auto& endStr = mLanguageDefinition.mCommentEnd; if (i.mColumn + 1 >= (int)endStr.size() && equals(endStr.begin(), endStr.end(), from + 1 - endStr.size(), from + 1, pred)) commentStart = end; } } } } mCheckMultilineComments = false; return; } if (mColorRangeMin < mColorRangeMax) { const int increment = (mLanguageDefinition.mTokenize == nullptr) ? 10 : 10000; const int to = std::min(mColorRangeMin + increment, mColorRangeMax); ColorizeRange(mColorRangeMin, to); mColorRangeMin = to; if (mColorRangeMax == mColorRangeMin) { mColorRangeMin = std::numeric_limits::max(); mColorRangeMax = 0; } return; } } float TextEditor::TextDistanceToLineStart(const Coordinates& aFrom) const { auto& line = mLines[aFrom.mLine]; float distance = 0.0f; auto fontScale = ImGui::GetFontSize() / ImGui::GetFont()->FontSize; float spaceSize = ImGui::CalcTextSize(" ").x + 1.0f * fontScale; for (size_t it = 0u; it < line.size() && it < (unsigned)aFrom.mColumn; ++it) { if (line[it].mChar == '\t') { distance = (1.0f * fontScale + std::floor((1.0f + distance)) / (float(mTabSize) * spaceSize)) * (float(mTabSize) * spaceSize); } else { char tempCString[2]; tempCString[0] = line[it].mChar; tempCString[1] = '\0'; distance += ImGui::CalcTextSize(tempCString).x + 1.0f * fontScale; } } return distance; } void TextEditor::EnsureCursorVisible() { if (!mWithinRender) { mScrollToCursor = true; return; } float scrollX = ImGui::GetScrollX(); float scrollY = ImGui::GetScrollY(); auto height = ImGui::GetWindowHeight(); auto width = ImGui::GetWindowWidth(); auto top = 1 + (int)ceil(scrollY / mCharAdvance.y); auto bottom = (int)ceil((scrollY + height) / mCharAdvance.y); auto left = (int)ceil(scrollX / mCharAdvance.x); auto right = (int)ceil((scrollX + width) / mCharAdvance.x); auto pos = GetActualCursorCoordinates(); auto len = TextDistanceToLineStart(pos); if (pos.mLine < top) ImGui::SetScrollY(std::max(0.0f, (pos.mLine - 1) * mCharAdvance.y)); if (pos.mLine > bottom - 4) ImGui::SetScrollY(std::max(0.0f, (pos.mLine + 4) * mCharAdvance.y - height)); if (len + mTextStart < left + 4) ImGui::SetScrollX(std::max(0.0f, len + mTextStart - 4)); if (len + mTextStart > right - 4) ImGui::SetScrollX(std::max(0.0f, len + mTextStart + 4 - width)); } int TextEditor::GetPageSize() const { auto height = ImGui::GetWindowHeight() - 20.0f; return (int)floor(height / mCharAdvance.y); } TextEditor::UndoRecord::UndoRecord( const std::string& aAdded, const TextEditor::Coordinates aAddedStart, const TextEditor::Coordinates aAddedEnd, const std::string& aRemoved, const TextEditor::Coordinates aRemovedStart, const TextEditor::Coordinates aRemovedEnd, TextEditor::EditorState& aBefore, TextEditor::EditorState& aAfter) : mAdded(aAdded) , mAddedStart(aAddedStart) , mAddedEnd(aAddedEnd) , mRemoved(aRemoved) , mRemovedStart(aRemovedStart) , mRemovedEnd(aRemovedEnd) , mBefore(aBefore) , mAfter(aAfter) { assert(mAddedStart <= mAddedEnd); assert(mRemovedStart <= mRemovedEnd); } void TextEditor::UndoRecord::Undo(TextEditor * aEditor) { if (!mAdded.empty()) { aEditor->DeleteRange(mAddedStart, mAddedEnd); aEditor->Colorize(mAddedStart.mLine - 1, mAddedEnd.mLine - mAddedStart.mLine + 2); } if (!mRemoved.empty()) { auto start = mRemovedStart; aEditor->InsertTextAt(start, mRemoved.c_str()); aEditor->Colorize(mRemovedStart.mLine - 1, mRemovedEnd.mLine - mRemovedStart.mLine + 2); } aEditor->mState = mBefore; aEditor->EnsureCursorVisible(); } void TextEditor::UndoRecord::Redo(TextEditor * aEditor) { if (!mRemoved.empty()) { aEditor->DeleteRange(mRemovedStart, mRemovedEnd); aEditor->Colorize(mRemovedStart.mLine - 1, mRemovedEnd.mLine - mRemovedStart.mLine + 1); } if (!mAdded.empty()) { auto start = mAddedStart; aEditor->InsertTextAt(start, mAdded.c_str()); aEditor->Colorize(mAddedStart.mLine - 1, mAddedEnd.mLine - mAddedStart.mLine + 1); } aEditor->mState = mAfter; aEditor->EnsureCursorVisible(); } static bool TokenizeCStyleComment(const char * in_begin, const char * in_end, const char *& out_begin, const char *& out_end) { if (*in_begin != '/') return false; if (in_begin + 1 < in_end && in_begin[1] == '/') { out_begin = in_begin; out_end = in_end; return true; } return false; } static bool TokenizeCStylePreprocessorDirective(const char * in_begin, const char * in_end, const char *& out_begin, const char *& out_end) { if (*in_begin != '#') return false; const char * p = in_begin + 1; while (p < in_end && isblank(*p)) p++; bool hasText = false; while (p < in_end && ((*p >= 'a' && *p <= 'z') || (*p >= 'A' && *p <= 'Z') || *p == '_')) { hasText = true; p++; } if (hasText) { out_begin = in_begin; out_end = p; return true; } return false; } static bool TokenizeCStyleString(const char * in_begin, const char * in_end, const char *& out_begin, const char *& out_end) { const char * p = in_begin; if (*p == '"') { p++; while (p < in_end) { // handle end of string if (*p == '"') { out_begin = in_begin; out_end = p + 1; return true; } // handle escape character for " if (*p == '\\' && p + 1 < in_end && p[1] == '"') p++; p++; } } return false; } static bool TokenizeCStyleCharacterLiteral(const char * in_begin, const char * in_end, const char *& out_begin, const char *& out_end) { const char * p = in_begin; if (*p == '\'') { p++; // handle escape characters if (p < in_end && *p == '\\') p++; if (p < in_end) p++; // handle end of character literal if (p < in_end && *p == '\'') { out_begin = in_begin; out_end = p + 1; return true; } } return false; } static bool TokenizeCStyleIdentifier(const char * in_begin, const char * in_end, const char *& out_begin, const char *& out_end) { const char * p = in_begin; if ((*p >= 'a' && *p <= 'z') || (*p >= 'A' && *p <= 'Z') || *p == '_') { p++; while ((p < in_end) && ((*p >= 'a' && *p <= 'z') || (*p >= 'A' && *p <= 'Z') || (*p >= '0' && *p <= '9') || *p == '_')) p++; out_begin = in_begin; out_end = p; return true; } return false; } static bool TokenizeCStyleNumber(const char * in_begin, const char * in_end, const char *& out_begin, const char *& out_end) { const char * p = in_begin; const bool startsWithNumber = *p >= '0' && *p <= '9'; if (*p != '+' && *p != '-' && !startsWithNumber) return false; p++; bool hasNumber = startsWithNumber; while (p < in_end && (*p >= '0' && *p <= '9')) { hasNumber = true; p++; } if (hasNumber == false) return false; bool isFloat = false; bool isHex = false; bool isBinary = false; if (p < in_end) { if (*p == '.') { isFloat = true; p++; while (p < in_end && (*p >= '0' && *p <= '9')) p++; } else if (*p == 'x' || *p == 'X') { // hex formatted integer of the type 0xef80 isHex = true; p++; while (p < in_end && ((*p >= '0' && *p <= '9') || (*p >= 'a' && *p <= 'f') || (*p >= 'A' && *p <= 'F'))) p++; } else if (*p == 'b' || *p == 'B') { // binary formatted integer of the type 0b01011101 isBinary = true; p++; while (p < in_end && (*p >= '0' && *p <= '1')) p++; } } if (isHex == false && isBinary == false) { // floating point exponent if (p < in_end && (*p == 'e' || *p == 'E')) { isFloat = true; p++; if (p < in_end && (*p == '+' || *p == '-')) p++; bool hasDigits = false; while (p < in_end && (*p >= '0' && *p <= '9')) { hasDigits = true; p++; } if (hasDigits == false) return false; } // single precision floating point type if (p < in_end && *p == 'f') p++; } if (isFloat == false) { // integer size type while (p < in_end && (*p == 'u' || *p == 'U' || *p == 'l' || *p == 'L')) p++; } out_begin = in_begin; out_end = p; return true; } static bool TokenizeCStylePunctuation(const char * in_begin, const char * in_end, const char *& out_begin, const char *& out_end) { switch (*in_begin) { case '[': case ']': case '{': case '}': case '!': case '%': case '^': case '&': case '*': case '(': case ')': case '-': case '+': case '=': case '~': case '|': case '<': case '>': case '?': case ':': case '/': case ';': case ',': case '.': out_begin = in_begin; out_end = in_begin + 1; return true; } return false; } const TextEditor::LanguageDefinition& TextEditor::LanguageDefinition::CPlusPlus() { static bool inited = false; static LanguageDefinition langDef; if (!inited) { static const char* const cppKeywords[] = { "alignas", "alignof", "and", "and_eq", "asm", "atomic_cancel", "atomic_commit", "atomic_noexcept", "auto", "bitand", "bitor", "bool", "break", "case", "catch", "char", "char16_t", "char32_t", "class", "compl", "concept", "const", "constexpr", "const_cast", "continue", "decltype", "default", "delete", "do", "double", "dynamic_cast", "else", "enum", "explicit", "export", "extern", "false", "float", "for", "friend", "goto", "if", "import", "inline", "int", "long", "module", "mutable", "namespace", "new", "noexcept", "not", "not_eq", "nullptr", "operator", "or", "or_eq", "private", "protected", "public", "register", "reinterpret_cast", "requires", "return", "short", "signed", "sizeof", "static", "static_assert", "static_cast", "struct", "switch", "synchronized", "template", "this", "thread_local", "throw", "true", "try", "typedef", "typeid", "typename", "union", "unsigned", "using", "virtual", "void", "volatile", "wchar_t", "while", "xor", "xor_eq" }; for (auto& k : cppKeywords) langDef.mKeywords.insert(k); static const char* const identifiers[] = { "abort", "abs", "acos", "asin", "atan", "atexit", "atof", "atoi", "atol", "ceil", "clock", "cosh", "ctime", "div", "exit", "fabs", "floor", "fmod", "getchar", "getenv", "isalnum", "isalpha", "isdigit", "isgraph", "ispunct", "isspace", "isupper", "kbhit", "log10", "log2", "log", "memcmp", "modf", "pow", "printf", "sprintf", "snprintf", "putchar", "putenv", "puts", "rand", "remove", "rename", "sinh", "sqrt", "srand", "strcat", "strcmp", "strerror", "time", "tolower", "toupper", "std", "string", "vector", "map", "unordered_map", "set", "unordered_set", "min", "max" }; for (auto& k : identifiers) { Identifier id; id.mDeclaration = "Built-in function"; langDef.mIdentifiers.insert(std::make_pair(std::string(k), id)); } langDef.mTokenize = [](const char * in_begin, const char * in_end, const char *& out_begin, const char *& out_end, PaletteIndex & paletteIndex) -> bool { paletteIndex = PaletteIndex::Max; while (in_begin < in_end && isblank(*in_begin)) in_begin++; if (in_begin == in_end) { out_begin = in_end; out_end = in_end; paletteIndex = PaletteIndex::Default; } else if (TokenizeCStyleComment(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::Comment; else if (TokenizeCStylePreprocessorDirective(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::Preprocessor; else if (TokenizeCStyleString(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::String; else if (TokenizeCStyleCharacterLiteral(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::CharLiteral; else if (TokenizeCStyleIdentifier(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::Identifier; else if (TokenizeCStyleNumber(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::Number; else if (TokenizeCStylePunctuation(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::Punctuation; return paletteIndex != PaletteIndex::Max; }; langDef.mCommentStart = "/*"; langDef.mCommentEnd = "*/"; langDef.mCaseSensitive = true; langDef.mAutoIndentation = true; langDef.mName = "C++"; inited = true; } return langDef; } const TextEditor::LanguageDefinition& TextEditor::LanguageDefinition::HLSL() { static bool inited = false; static LanguageDefinition langDef; if (!inited) { static const char* const keywords[] = { "AppendStructuredBuffer", "asm", "asm_fragment", "BlendState", "bool", "break", "Buffer", "ByteAddressBuffer", "case", "cbuffer", "centroid", "class", "column_major", "compile", "compile_fragment", "CompileShader", "const", "continue", "ComputeShader", "ConsumeStructuredBuffer", "default", "DepthStencilState", "DepthStencilView", "discard", "do", "double", "DomainShader", "dword", "else", "export", "extern", "false", "float", "for", "fxgroup", "GeometryShader", "groupshared", "half", "Hullshader", "if", "in", "inline", "inout", "InputPatch", "int", "interface", "line", "lineadj", "linear", "LineStream", "matrix", "min16float", "min10float", "min16int", "min12int", "min16uint", "namespace", "nointerpolation", "noperspective", "NULL", "out", "OutputPatch", "packoffset", "pass", "pixelfragment", "PixelShader", "point", "PointStream", "precise", "RasterizerState", "RenderTargetView", "return", "register", "row_major", "RWBuffer", "RWByteAddressBuffer", "RWStructuredBuffer", "RWTexture1D", "RWTexture1DArray", "RWTexture2D", "RWTexture2DArray", "RWTexture3D", "sample", "sampler", "SamplerState", "SamplerComparisonState", "shared", "snorm", "stateblock", "stateblock_state", "static", "string", "struct", "switch", "StructuredBuffer", "tbuffer", "technique", "technique10", "technique11", "texture", "Texture1D", "Texture1DArray", "Texture2D", "Texture2DArray", "Texture2DMS", "Texture2DMSArray", "Texture3D", "TextureCube", "TextureCubeArray", "true", "typedef", "triangle", "triangleadj", "TriangleStream", "uint", "uniform", "unorm", "unsigned", "vector", "vertexfragment", "VertexShader", "void", "volatile", "while", "bool1","bool2","bool3","bool4","double1","double2","double3","double4", "float1", "float2", "float3", "float4", "int1", "int2", "int3", "int4", "in", "out", "inout", "uint1", "uint2", "uint3", "uint4", "dword1", "dword2", "dword3", "dword4", "half1", "half2", "half3", "half4", "float1x1","float2x1","float3x1","float4x1","float1x2","float2x2","float3x2","float4x2", "float1x3","float2x3","float3x3","float4x3","float1x4","float2x4","float3x4","float4x4", "half1x1","half2x1","half3x1","half4x1","half1x2","half2x2","half3x2","half4x2", "half1x3","half2x3","half3x3","half4x3","half1x4","half2x4","half3x4","half4x4", }; for (auto& k : keywords) langDef.mKeywords.insert(k); static const char* const identifiers[] = { "abort", "abs", "acos", "all", "AllMemoryBarrier", "AllMemoryBarrierWithGroupSync", "any", "asdouble", "asfloat", "asin", "asint", "asint", "asuint", "asuint", "atan", "atan2", "ceil", "CheckAccessFullyMapped", "clamp", "clip", "cos", "cosh", "countbits", "cross", "D3DCOLORtoUBYTE4", "ddx", "ddx_coarse", "ddx_fine", "ddy", "ddy_coarse", "ddy_fine", "degrees", "determinant", "DeviceMemoryBarrier", "DeviceMemoryBarrierWithGroupSync", "distance", "dot", "dst", "errorf", "EvaluateAttributeAtCentroid", "EvaluateAttributeAtSample", "EvaluateAttributeSnapped", "exp", "exp2", "f16tof32", "f32tof16", "faceforward", "firstbithigh", "firstbitlow", "floor", "fma", "fmod", "frac", "frexp", "fwidth", "GetRenderTargetSampleCount", "GetRenderTargetSamplePosition", "GroupMemoryBarrier", "GroupMemoryBarrierWithGroupSync", "InterlockedAdd", "InterlockedAnd", "InterlockedCompareExchange", "InterlockedCompareStore", "InterlockedExchange", "InterlockedMax", "InterlockedMin", "InterlockedOr", "InterlockedXor", "isfinite", "isinf", "isnan", "ldexp", "length", "lerp", "lit", "log", "log10", "log2", "mad", "max", "min", "modf", "msad4", "mul", "noise", "normalize", "pow", "printf", "Process2DQuadTessFactorsAvg", "Process2DQuadTessFactorsMax", "Process2DQuadTessFactorsMin", "ProcessIsolineTessFactors", "ProcessQuadTessFactorsAvg", "ProcessQuadTessFactorsMax", "ProcessQuadTessFactorsMin", "ProcessTriTessFactorsAvg", "ProcessTriTessFactorsMax", "ProcessTriTessFactorsMin", "radians", "rcp", "reflect", "refract", "reversebits", "round", "rsqrt", "saturate", "sign", "sin", "sincos", "sinh", "smoothstep", "sqrt", "step", "tan", "tanh", "tex1D", "tex1D", "tex1Dbias", "tex1Dgrad", "tex1Dlod", "tex1Dproj", "tex2D", "tex2D", "tex2Dbias", "tex2Dgrad", "tex2Dlod", "tex2Dproj", "tex3D", "tex3D", "tex3Dbias", "tex3Dgrad", "tex3Dlod", "tex3Dproj", "texCUBE", "texCUBE", "texCUBEbias", "texCUBEgrad", "texCUBElod", "texCUBEproj", "transpose", "trunc" }; for (auto& k : identifiers) { Identifier id; id.mDeclaration = "Built-in function"; langDef.mIdentifiers.insert(std::make_pair(std::string(k), id)); } langDef.mTokenRegexStrings.push_back(std::make_pair("//.*", PaletteIndex::Comment)); langDef.mTokenRegexStrings.push_back(std::make_pair("[ \\t]*#[ \\t]*[a-zA-Z_]+", PaletteIndex::Preprocessor)); langDef.mTokenRegexStrings.push_back(std::make_pair("L?\\\"(\\\\.|[^\\\"])*\\\"", PaletteIndex::String)); langDef.mTokenRegexStrings.push_back(std::make_pair("\\'\\\\?[^\\']\\'", PaletteIndex::CharLiteral)); langDef.mTokenRegexStrings.push_back(std::make_pair("[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+)([eE][+-]?[0-9]+)?[fF]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("[+-]?[0-9]+[Uu]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("0[0-7]+[Uu]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("0[xX][0-9a-fA-F]+[uU]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("[a-zA-Z_][a-zA-Z0-9_]*", PaletteIndex::Identifier)); langDef.mTokenRegexStrings.push_back(std::make_pair("[\\[\\]\\{\\}\\!\\%\\^\\&\\*\\(\\)\\-\\+\\=\\~\\|\\<\\>\\?\\/\\;\\,\\.]", PaletteIndex::Punctuation)); langDef.mCommentStart = "/*"; langDef.mCommentEnd = "*/"; langDef.mCaseSensitive = true; langDef.mAutoIndentation = true; langDef.mName = "HLSL"; inited = true; } return langDef; } const TextEditor::LanguageDefinition& TextEditor::LanguageDefinition::GLSL() { static bool inited = false; static LanguageDefinition langDef; if (!inited) { static const char* const keywords[] = { "auto", "break", "case", "char", "const", "continue", "default", "do", "double", "else", "enum", "extern", "float", "for", "goto", "if", "inline", "int", "long", "register", "restrict", "return", "short", "signed", "sizeof", "static", "struct", "switch", "typedef", "union", "unsigned", "void", "volatile", "while", "_Alignas", "_Alignof", "_Atomic", "_Bool", "_Complex", "_Generic", "_Imaginary", "_Noreturn", "_Static_assert", "_Thread_local" }; for (auto& k : keywords) langDef.mKeywords.insert(k); static const char* const identifiers[] = { "abort", "abs", "acos", "asin", "atan", "atexit", "atof", "atoi", "atol", "ceil", "clock", "cosh", "ctime", "div", "exit", "fabs", "floor", "fmod", "getchar", "getenv", "isalnum", "isalpha", "isdigit", "isgraph", "ispunct", "isspace", "isupper", "kbhit", "log10", "log2", "log", "memcmp", "modf", "pow", "putchar", "putenv", "puts", "rand", "remove", "rename", "sinh", "sqrt", "srand", "strcat", "strcmp", "strerror", "time", "tolower", "toupper" }; for (auto& k : identifiers) { Identifier id; id.mDeclaration = "Built-in function"; langDef.mIdentifiers.insert(std::make_pair(std::string(k), id)); } langDef.mTokenRegexStrings.push_back(std::make_pair("//.*", PaletteIndex::Comment)); langDef.mTokenRegexStrings.push_back(std::make_pair("[ \\t]*#[ \\t]*[a-zA-Z_]+", PaletteIndex::Preprocessor)); langDef.mTokenRegexStrings.push_back(std::make_pair("L?\\\"(\\\\.|[^\\\"])*\\\"", PaletteIndex::String)); langDef.mTokenRegexStrings.push_back(std::make_pair("\\'\\\\?[^\\']\\'", PaletteIndex::CharLiteral)); langDef.mTokenRegexStrings.push_back(std::make_pair("[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+)([eE][+-]?[0-9]+)?[fF]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("[+-]?[0-9]+[Uu]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("0[0-7]+[Uu]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("0[xX][0-9a-fA-F]+[uU]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("[a-zA-Z_][a-zA-Z0-9_]*", PaletteIndex::Identifier)); langDef.mTokenRegexStrings.push_back(std::make_pair("[\\[\\]\\{\\}\\!\\%\\^\\&\\*\\(\\)\\-\\+\\=\\~\\|\\<\\>\\?\\/\\;\\,\\.]", PaletteIndex::Punctuation)); langDef.mCommentStart = "/*"; langDef.mCommentEnd = "*/"; langDef.mCaseSensitive = true; langDef.mAutoIndentation = true; langDef.mName = "GLSL"; inited = true; } return langDef; } const TextEditor::LanguageDefinition& TextEditor::LanguageDefinition::C() { static bool inited = false; static LanguageDefinition langDef; if (!inited) { static const char* const keywords[] = { "auto", "break", "case", "char", "const", "continue", "default", "do", "double", "else", "enum", "extern", "float", "for", "goto", "if", "inline", "int", "long", "register", "restrict", "return", "short", "signed", "sizeof", "static", "struct", "switch", "typedef", "union", "unsigned", "void", "volatile", "while", "_Alignas", "_Alignof", "_Atomic", "_Bool", "_Complex", "_Generic", "_Imaginary", "_Noreturn", "_Static_assert", "_Thread_local" }; for (auto& k : keywords) langDef.mKeywords.insert(k); static const char* const identifiers[] = { "abort", "abs", "acos", "asin", "atan", "atexit", "atof", "atoi", "atol", "ceil", "clock", "cosh", "ctime", "div", "exit", "fabs", "floor", "fmod", "getchar", "getenv", "isalnum", "isalpha", "isdigit", "isgraph", "ispunct", "isspace", "isupper", "kbhit", "log10", "log2", "log", "memcmp", "modf", "pow", "putchar", "putenv", "puts", "rand", "remove", "rename", "sinh", "sqrt", "srand", "strcat", "strcmp", "strerror", "time", "tolower", "toupper" }; for (auto& k : identifiers) { Identifier id; id.mDeclaration = "Built-in function"; langDef.mIdentifiers.insert(std::make_pair(std::string(k), id)); } langDef.mTokenize = [](const char * in_begin, const char * in_end, const char *& out_begin, const char *& out_end, PaletteIndex & paletteIndex) -> bool { paletteIndex = PaletteIndex::Max; while (in_begin < in_end && isblank(*in_begin)) in_begin++; if (in_begin == in_end) { out_begin = in_end; out_end = in_end; paletteIndex = PaletteIndex::Default; } else if (TokenizeCStyleComment(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::Comment; else if (TokenizeCStylePreprocessorDirective(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::Preprocessor; else if (TokenizeCStyleString(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::String; else if (TokenizeCStyleCharacterLiteral(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::CharLiteral; else if (TokenizeCStyleIdentifier(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::Identifier; else if (TokenizeCStyleNumber(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::Number; else if (TokenizeCStylePunctuation(in_begin, in_end, out_begin, out_end)) paletteIndex = PaletteIndex::Punctuation; return paletteIndex != PaletteIndex::Max; }; langDef.mCommentStart = "/*"; langDef.mCommentEnd = "*/"; langDef.mCaseSensitive = true; langDef.mAutoIndentation = true; langDef.mName = "C"; inited = true; } return langDef; } const TextEditor::LanguageDefinition& TextEditor::LanguageDefinition::SQL() { static bool inited = false; static LanguageDefinition langDef; if (!inited) { static const char* const keywords[] = { "ADD", "EXCEPT", "PERCENT", "ALL", "EXEC", "PLAN", "ALTER", "EXECUTE", "PRECISION", "AND", "EXISTS", "PRIMARY", "ANY", "EXIT", "PRINT", "AS", "FETCH", "PROC", "ASC", "FILE", "PROCEDURE", "AUTHORIZATION", "FILLFACTOR", "PUBLIC", "BACKUP", "FOR", "RAISERROR", "BEGIN", "FOREIGN", "READ", "BETWEEN", "FREETEXT", "READTEXT", "BREAK", "FREETEXTTABLE", "RECONFIGURE", "BROWSE", "FROM", "REFERENCES", "BULK", "FULL", "REPLICATION", "BY", "FUNCTION", "RESTORE", "CASCADE", "GOTO", "RESTRICT", "CASE", "GRANT", "RETURN", "CHECK", "GROUP", "REVOKE", "CHECKPOINT", "HAVING", "RIGHT", "CLOSE", "HOLDLOCK", "ROLLBACK", "CLUSTERED", "IDENTITY", "ROWCOUNT", "COALESCE", "IDENTITY_INSERT", "ROWGUIDCOL", "COLLATE", "IDENTITYCOL", "RULE", "COLUMN", "IF", "SAVE", "COMMIT", "IN", "SCHEMA", "COMPUTE", "INDEX", "SELECT", "CONSTRAINT", "INNER", "SESSION_USER", "CONTAINS", "INSERT", "SET", "CONTAINSTABLE", "INTERSECT", "SETUSER", "CONTINUE", "INTO", "SHUTDOWN", "CONVERT", "IS", "SOME", "CREATE", "JOIN", "STATISTICS", "CROSS", "KEY", "SYSTEM_USER", "CURRENT", "KILL", "TABLE", "CURRENT_DATE", "LEFT", "TEXTSIZE", "CURRENT_TIME", "LIKE", "THEN", "CURRENT_TIMESTAMP", "LINENO", "TO", "CURRENT_USER", "LOAD", "TOP", "CURSOR", "NATIONAL", "TRAN", "DATABASE", "NOCHECK", "TRANSACTION", "DBCC", "NONCLUSTERED", "TRIGGER", "DEALLOCATE", "NOT", "TRUNCATE", "DECLARE", "NULL", "TSEQUAL", "DEFAULT", "NULLIF", "UNION", "DELETE", "OF", "UNIQUE", "DENY", "OFF", "UPDATE", "DESC", "OFFSETS", "UPDATETEXT", "DISK", "ON", "USE", "DISTINCT", "OPEN", "USER", "DISTRIBUTED", "OPENDATASOURCE", "VALUES", "DOUBLE", "OPENQUERY", "VARYING","DROP", "OPENROWSET", "VIEW", "DUMMY", "OPENXML", "WAITFOR", "DUMP", "OPTION", "WHEN", "ELSE", "OR", "WHERE", "END", "ORDER", "WHILE", "ERRLVL", "OUTER", "WITH", "ESCAPE", "OVER", "WRITETEXT" }; for (auto& k : keywords) langDef.mKeywords.insert(k); static const char* const identifiers[] = { "ABS", "ACOS", "ADD_MONTHS", "ASCII", "ASCIISTR", "ASIN", "ATAN", "ATAN2", "AVG", "BFILENAME", "BIN_TO_NUM", "BITAND", "CARDINALITY", "CASE", "CAST", "CEIL", "CHARTOROWID", "CHR", "COALESCE", "COMPOSE", "CONCAT", "CONVERT", "CORR", "COS", "COSH", "COUNT", "COVAR_POP", "COVAR_SAMP", "CUME_DIST", "CURRENT_DATE", "CURRENT_TIMESTAMP", "DBTIMEZONE", "DECODE", "DECOMPOSE", "DENSE_RANK", "DUMP", "EMPTY_BLOB", "EMPTY_CLOB", "EXP", "EXTRACT", "FIRST_VALUE", "FLOOR", "FROM_TZ", "GREATEST", "GROUP_ID", "HEXTORAW", "INITCAP", "INSTR", "INSTR2", "INSTR4", "INSTRB", "INSTRC", "LAG", "LAST_DAY", "LAST_VALUE", "LEAD", "LEAST", "LENGTH", "LENGTH2", "LENGTH4", "LENGTHB", "LENGTHC", "LISTAGG", "LN", "LNNVL", "LOCALTIMESTAMP", "LOG", "LOWER", "LPAD", "LTRIM", "MAX", "MEDIAN", "MIN", "MOD", "MONTHS_BETWEEN", "NANVL", "NCHR", "NEW_TIME", "NEXT_DAY", "NTH_VALUE", "NULLIF", "NUMTODSINTERVAL", "NUMTOYMINTERVAL", "NVL", "NVL2", "POWER", "RANK", "RAWTOHEX", "REGEXP_COUNT", "REGEXP_INSTR", "REGEXP_REPLACE", "REGEXP_SUBSTR", "REMAINDER", "REPLACE", "ROUND", "ROWNUM", "RPAD", "RTRIM", "SESSIONTIMEZONE", "SIGN", "SIN", "SINH", "SOUNDEX", "SQRT", "STDDEV", "SUBSTR", "SUM", "SYS_CONTEXT", "SYSDATE", "SYSTIMESTAMP", "TAN", "TANH", "TO_CHAR", "TO_CLOB", "TO_DATE", "TO_DSINTERVAL", "TO_LOB", "TO_MULTI_BYTE", "TO_NCLOB", "TO_NUMBER", "TO_SINGLE_BYTE", "TO_TIMESTAMP", "TO_TIMESTAMP_TZ", "TO_YMINTERVAL", "TRANSLATE", "TRIM", "TRUNC", "TZ_OFFSET", "UID", "UPPER", "USER", "USERENV", "VAR_POP", "VAR_SAMP", "VARIANCE", "VSIZE " }; for (auto& k : identifiers) { Identifier id; id.mDeclaration = "Built-in function"; langDef.mIdentifiers.insert(std::make_pair(std::string(k), id)); } langDef.mTokenRegexStrings.push_back(std::make_pair("\\-\\-.*", PaletteIndex::Comment)); langDef.mTokenRegexStrings.push_back(std::make_pair("L?\\\"(\\\\.|[^\\\"])*\\\"", PaletteIndex::String)); langDef.mTokenRegexStrings.push_back(std::make_pair("\\\'[^\\\']*\\\'", PaletteIndex::String)); langDef.mTokenRegexStrings.push_back(std::make_pair("[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+)([eE][+-]?[0-9]+)?[fF]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("[+-]?[0-9]+[Uu]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("0[0-7]+[Uu]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("0[xX][0-9a-fA-F]+[uU]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("[a-zA-Z_][a-zA-Z0-9_]*", PaletteIndex::Identifier)); langDef.mTokenRegexStrings.push_back(std::make_pair("[\\[\\]\\{\\}\\!\\%\\^\\&\\*\\(\\)\\-\\+\\=\\~\\|\\<\\>\\?\\/\\;\\,\\.]", PaletteIndex::Punctuation)); langDef.mCommentStart = "/*"; langDef.mCommentEnd = "*/"; langDef.mCaseSensitive = false; langDef.mAutoIndentation = false; langDef.mName = "SQL"; inited = true; } return langDef; } const TextEditor::LanguageDefinition& TextEditor::LanguageDefinition::AngelScript() { static bool inited = false; static LanguageDefinition langDef; if (!inited) { static const char* const keywords[] = { "and", "abstract", "auto", "bool", "break", "case", "cast", "class", "const", "continue", "default", "do", "double", "else", "enum", "false", "final", "float", "for", "from", "funcdef", "function", "get", "if", "import", "in", "inout", "int", "interface", "int8", "int16", "int32", "int64", "is", "mixin", "namespace", "not", "null", "or", "out", "override", "private", "protected", "return", "set", "shared", "super", "switch", "this ", "true", "typedef", "uint", "uint8", "uint16", "uint32", "uint64", "void", "while", "xor" }; for (auto& k : keywords) langDef.mKeywords.insert(k); static const char* const identifiers[] = { "cos", "sin", "tab", "acos", "asin", "atan", "atan2", "cosh", "sinh", "tanh", "log", "log10", "pow", "sqrt", "abs", "ceil", "floor", "fraction", "closeTo", "fpFromIEEE", "fpToIEEE", "complex", "opEquals", "opAddAssign", "opSubAssign", "opMulAssign", "opDivAssign", "opAdd", "opSub", "opMul", "opDiv" }; for (auto& k : identifiers) { Identifier id; id.mDeclaration = "Built-in function"; langDef.mIdentifiers.insert(std::make_pair(std::string(k), id)); } langDef.mTokenRegexStrings.push_back(std::make_pair("//.*", PaletteIndex::Comment)); langDef.mTokenRegexStrings.push_back(std::make_pair("L?\\\"(\\\\.|[^\\\"])*\\\"", PaletteIndex::String)); langDef.mTokenRegexStrings.push_back(std::make_pair("\\'\\\\?[^\\']\\'", PaletteIndex::String)); langDef.mTokenRegexStrings.push_back(std::make_pair("[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+)([eE][+-]?[0-9]+)?[fF]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("[+-]?[0-9]+[Uu]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("0[0-7]+[Uu]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("0[xX][0-9a-fA-F]+[uU]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("[a-zA-Z_][a-zA-Z0-9_]*", PaletteIndex::Identifier)); langDef.mTokenRegexStrings.push_back(std::make_pair("[\\[\\]\\{\\}\\!\\%\\^\\&\\*\\(\\)\\-\\+\\=\\~\\|\\<\\>\\?\\/\\;\\,\\.]", PaletteIndex::Punctuation)); langDef.mCommentStart = "/*"; langDef.mCommentEnd = "*/"; langDef.mCaseSensitive = true; langDef.mAutoIndentation = true; langDef.mName = "AngelScript"; inited = true; } return langDef; } const TextEditor::LanguageDefinition& TextEditor::LanguageDefinition::Lua() { static bool inited = false; static LanguageDefinition langDef; if (!inited) { static const char* const keywords[] = { "and", "break", "do", "", "else", "elseif", "end", "false", "for", "function", "if", "in", "", "local", "nil", "not", "or", "repeat", "return", "then", "true", "until", "while" }; for (auto& k : keywords) langDef.mKeywords.insert(k); static const char* const identifiers[] = { "assert", "collectgarbage", "dofile", "error", "getmetatable", "ipairs", "loadfile", "load", "loadstring", "next", "pairs", "pcall", "print", "rawequal", "rawlen", "rawget", "rawset", "select", "setmetatable", "tonumber", "tostring", "type", "xpcall", "_G", "_VERSION","arshift", "band", "bnot", "bor", "bxor", "btest", "extract", "lrotate", "lshift", "replace", "rrotate", "rshift", "create", "resume", "running", "status", "wrap", "yield", "isyieldable", "debug","getuservalue", "gethook", "getinfo", "getlocal", "getregistry", "getmetatable", "getupvalue", "upvaluejoin", "upvalueid", "setuservalue", "sethook", "setlocal", "setmetatable", "setupvalue", "traceback", "close", "flush", "input", "lines", "open", "output", "popen", "read", "tmpfile", "type", "write", "close", "flush", "lines", "read", "seek", "setvbuf", "write", "__gc", "__tostring", "abs", "acos", "asin", "atan", "ceil", "cos", "deg", "exp", "tointeger", "floor", "fmod", "ult", "log", "max", "min", "modf", "rad", "random", "randomseed", "sin", "sqrt", "string", "tan", "type", "atan2", "cosh", "sinh", "tanh", "pow", "frexp", "ldexp", "log10", "pi", "huge", "maxinteger", "mininteger", "loadlib", "searchpath", "seeall", "preload", "cpath", "path", "searchers", "loaded", "module", "require", "clock", "date", "difftime", "execute", "exit", "getenv", "remove", "rename", "setlocale", "time", "tmpname", "byte", "char", "dump", "find", "format", "gmatch", "gsub", "len", "lower", "match", "rep", "reverse", "sub", "upper", "pack", "packsize", "unpack", "concat", "maxn", "insert", "pack", "unpack", "remove", "move", "sort", "offset", "codepoint", "char", "len", "codes", "charpattern", "coroutine", "table", "io", "os", "string", "utf8", "bit32", "math", "debug", "package" }; for (auto& k : identifiers) { Identifier id; id.mDeclaration = "Built-in function"; langDef.mIdentifiers.insert(std::make_pair(std::string(k), id)); } langDef.mTokenRegexStrings.push_back(std::make_pair("\\-\\-.*", PaletteIndex::Comment)); langDef.mTokenRegexStrings.push_back(std::make_pair("L?\\\"(\\\\.|[^\\\"])*\\\"", PaletteIndex::String)); langDef.mTokenRegexStrings.push_back(std::make_pair("\\\'[^\\\']*\\\'", PaletteIndex::String)); langDef.mTokenRegexStrings.push_back(std::make_pair("0[xX][0-9a-fA-F]+[uU]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("[+-]?([0-9]+([.][0-9]*)?|[.][0-9]+)([eE][+-]?[0-9]+)?[fF]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("[+-]?[0-9]+[Uu]?[lL]?[lL]?", PaletteIndex::Number)); langDef.mTokenRegexStrings.push_back(std::make_pair("[a-zA-Z_][a-zA-Z0-9_]*", PaletteIndex::Identifier)); langDef.mTokenRegexStrings.push_back(std::make_pair("[\\[\\]\\{\\}\\!\\%\\^\\&\\*\\(\\)\\-\\+\\=\\~\\|\\<\\>\\?\\/\\;\\,\\.]", PaletteIndex::Punctuation)); langDef.mCommentStart = "\\-\\-\\[\\["; langDef.mCommentEnd = "\\]\\]"; langDef.mCaseSensitive = true; langDef.mAutoIndentation = false; langDef.mName = "Lua"; inited = true; } return langDef; } }