/* Copyright 2020 Jaakko Keränen Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "inputwidget.h" #include "command.h" #include "paint.h" #include "util.h" #include "keys.h" #include "prefs.h" #include "lang.h" #include "touch.h" #include "app.h" #include #include #include #include #include #if defined (iPlatformAppleDesktop) # include "macos.h" #endif static const int refreshInterval_InputWidget_ = 512; static const size_t maxUndo_InputWidget_ = 64; static const int unlimitedWidth_InputWidget_ = 1000000; /* TODO: WrapText disables some functionality if maxWidth==0 */ static void enableEditorKeysInMenus_(iBool enable) { #if defined (iPlatformAppleDesktop) enableMenuItemsByKey_MacOS(SDLK_LEFT, KMOD_PRIMARY, enable); enableMenuItemsByKey_MacOS(SDLK_RIGHT, KMOD_PRIMARY, enable); enableMenuItemsByKey_MacOS(SDLK_UP, KMOD_PRIMARY, enable); enableMenuItemsByKey_MacOS(SDLK_DOWN, KMOD_PRIMARY, enable); enableMenuItemsByKey_MacOS(SDLK_UP, KMOD_PRIMARY | KMOD_SHIFT, enable); enableMenuItemsByKey_MacOS(SDLK_DOWN, KMOD_PRIMARY | KMOD_SHIFT, enable); #else iUnused(enable); #endif } /*----------------------------------------------------------------------------------------------*/ iDeclareType(InputLine) struct Impl_InputLine { iString text; iRanges range; /* byte offset inside the entire content; for marking */ iRangei wrapLines; /* range of visual wrapped lines */ }; static void init_InputLine(iInputLine *d) { iZap(d->range); init_String(&d->text); d->wrapLines = (iRangei){ 0, 1 }; } iLocalDef int numWrapLines_InputLine_(const iInputLine *d) { return size_Range(&d->wrapLines); } static void deinit_InputLine(iInputLine *d) { deinit_String(&d->text); } static void clearInputLines_(iArray *inputLines) { iForEach(Array, i, inputLines) { deinit_InputLine(i.value); } clear_Array(inputLines); } static void splitToLines_(const iString *text, iArray *inputLines) { clearInputLines_(inputLines); if (isEmpty_String(text)) { iInputLine empty; init_InputLine(&empty); pushBack_Array(inputLines, &empty); return; } size_t index = 0; iRangecc seg = iNullRange; if (startsWith_String(text, "\n")) { /* empty segment ignored at the start */ iInputLine empty; init_InputLine(&empty); setCStr_String(&empty.text, "\n"); empty.range = (iRanges){ 0, 1 }; index = 1; pushBack_Array(inputLines, &empty); } while (nextSplit_Rangecc(range_String(text), "\n", &seg)) { iInputLine line; init_InputLine(&line); setRange_String(&line.text, seg); appendCStr_String(&line.text, "\n"); line.range = (iRanges){ index, index + size_String(&line.text) }; pushBack_Array(inputLines, &line); index = line.range.end; } if (endsWith_String(text, "\n")) { /* empty segment ignored at the end */ iInputLine empty; init_InputLine(&empty); iInputLine *last = back_Array(inputLines); empty.range.start = empty.range.end = last->range.end; pushBack_Array(inputLines, &empty); } else { iInputLine *last = back_Array(inputLines); removeEnd_String(&last->text, 1); last->range.end--; } iAssert(((iInputLine *) back_Array(inputLines))->range.end == size_String(text)); } static void mergeLinesRange_(const iArray *inputLines, iRanges range, iString *merged) { clear_String(merged); iConstForEach(Array, i, inputLines) { const iInputLine *line = i.value; const char *text = constBegin_String(&line->text); if (line->range.end <= range.start || line->range.start >= range.end) { continue; /* outside */ } if (line->range.start >= range.start && line->range.end <= range.end) { append_String(merged, &line->text); /* complete */ } else if (range.start <= line->range.start) { appendRange_String(merged, (iRangecc){ text, text + range.end - line->range.start }); } else { const size_t from = range.start - line->range.start; appendRange_String(merged, (iRangecc){ text + from, text + iMin(from + size_Range(&range), size_Range(&line->range)) }); } } } static void mergeLines_(const iArray *inputLines, iString *merged) { mergeLinesRange_(inputLines, (iRanges){ 0, iInvalidSize }, merged); } iDefineTypeConstruction(InputLine) /*----------------------------------------------------------------------------------------------*/ iDeclareType(InputUndo) struct Impl_InputUndo { iString text; iInt2 cursor; }; static void init_InputUndo_(iInputUndo *d, const iArray *lines, iInt2 cursor) { init_String(&d->text); mergeLines_(lines, &d->text); d->cursor = cursor; } static void deinit_InputUndo_(iInputUndo *d) { deinit_String(&d->text); } enum iInputWidgetFlag { isSensitive_InputWidgetFlag = iBit(1), isUrl_InputWidgetFlag = iBit(2), /* affected by decoding preference */ enterPressed_InputWidgetFlag = iBit(3), selectAllOnFocus_InputWidgetFlag = iBit(4), notifyEdits_InputWidgetFlag = iBit(5), eatEscape_InputWidgetFlag = iBit(6), isMarking_InputWidgetFlag = iBit(7), markWords_InputWidgetFlag = iBit(8), needUpdateBuffer_InputWidgetFlag = iBit(9), enterKeyEnabled_InputWidgetFlag = iBit(10), lineBreaksEnabled_InputWidgetFlag = iBit(11), needBackup_InputWidgetFlag = iBit(12), useReturnKeyBehavior_InputWidgetFlag = iBit(13), //touchBehavior_InputWidgetFlag = iBit(14), /* different behavior depending on interaction method */ dragCursor_InputWidgetFlag = iBit(14), dragMarkerStart_InputWidgetFlag = iBit(15), dragMarkerEnd_InputWidgetFlag = iBit(16), }; /*----------------------------------------------------------------------------------------------*/ struct Impl_InputWidget { iWidget widget; enum iInputMode mode; int inFlags; size_t maxLen; /* characters */ iArray lines; /* iInputLine[] */ iString oldText; /* for restoring if edits cancelled */ int lastUpdateWidth; iString srcHint; iString hint; int leftPadding; int rightPadding; iInt2 cursor; /* cursor position: x = byte offset, y = line index */ iInt2 prevCursor; /* previous cursor position */ iRangei visWrapLines; /* which wrap lines are current visible */ int minWrapLines, maxWrapLines; /* min/max number of visible lines allowed */ iRanges mark; /* TODO: would likely simplify things to use two Int2's for marking; no conversions needed */ iRanges initialMark; iArray undoStack; int font; iClick click; uint32_t tapStartTime; uint32_t lastTapTime; iInt2 lastTapPos; int tapCount; int wheelAccum; int cursorVis; uint32_t timer; iTextBuf * buffered; /* pre-rendered static text */ iInputWidgetValidatorFunc validator; void * validatorContext; iString * backupPath; int backupTimer; }; iDefineObjectConstructionArgs(InputWidget, (size_t maxLen), maxLen) static void updateMetrics_InputWidget_(iInputWidget *); static void restoreBackup_InputWidget_(iInputWidget *d) { if (!d->backupPath) return; iFile *f = new_File(d->backupPath); if (open_File(f, readOnly_FileMode | text_FileMode)) { setText_InputWidget(d, collect_String(readString_File(f))); } iRelease(f); } static void saveBackup_InputWidget_(iInputWidget *d) { if (!d->backupPath) return; iFile *f = new_File(d->backupPath); if (open_File(f, writeOnly_FileMode | text_FileMode)) { iConstForEach(Array, i, &d->lines) { const iInputLine *line = i.value; write_File(f, utf8_String(&line->text)); } d->inFlags &= ~needBackup_InputWidgetFlag; #if !defined (NDEBUG) iConstForEach(Array, j, &d->lines) { iAssert(endsWith_String(&((const iInputLine *) j.value)->text, "\n") || index_ArrayConstIterator(&j) == size_Array(&d->lines) - 1); } #endif } iRelease(f); } static void eraseBackup_InputWidget_(iInputWidget *d) { if (d->backupPath) { remove(cstr_String(d->backupPath)); delete_String(d->backupPath); d->backupPath = NULL; } } static uint32_t backupTimeout_InputWidget_(uint32_t interval, void *context) { iInputWidget *d = context; postCommand_Widget(d, "input.backup"); return 0; } static void restartBackupTimer_InputWidget_(iInputWidget *d) { if (d->backupPath) { d->inFlags |= needBackup_InputWidgetFlag; if (d->backupTimer) { SDL_RemoveTimer(d->backupTimer); } d->backupTimer = SDL_AddTimer(2500, backupTimeout_InputWidget_, d); } } void setBackupFileName_InputWidget(iInputWidget *d, const char *fileName) { if (fileName == NULL) { if (d->backupTimer) { SDL_RemoveTimer(d->backupTimer); d->backupTimer = 0; } eraseBackup_InputWidget_(d); if (d->backupPath) { delete_String(d->backupPath); d->backupPath = NULL; } return; } if (!d->backupPath) { d->backupPath = copy_String(dataDir_App()); } append_Path(d->backupPath, collectNewCStr_String(fileName)); restoreBackup_InputWidget_(d); } static void clearUndo_InputWidget_(iInputWidget *d) { iForEach(Array, i, &d->undoStack) { deinit_InputUndo_(i.value); } clear_Array(&d->undoStack); } iLocalDef iInt2 padding_(void) { return init_I2(gap_UI / 2, gap_UI / 2); } #define extraPaddingHeight_ (1.25f * gap_UI) static iRect contentBounds_InputWidget_(const iInputWidget *d) { const iWidget *w = constAs_Widget(d); iRect bounds = adjusted_Rect(bounds_Widget(w), addX_I2(padding_(), d->leftPadding), neg_I2(addX_I2(padding_(), d->rightPadding))); shrink_Rect(&bounds, init_I2(gap_UI * (flags_Widget(w) & tight_WidgetFlag ? 1 : 2), 0)); bounds.pos.y += padding_().y / 2; if (flags_Widget(w) & extraPadding_WidgetFlag) { bounds.pos.y += extraPaddingHeight_ / 2; } return bounds; } iLocalDef iBool isLastLine_InputWidget_(const iInputWidget *d, const iInputLine *line) { return (const void *) line == constBack_Array(&d->lines); } iLocalDef const iInputLine *lastLine_InputWidget_(const iInputWidget *d) { iAssert(!isEmpty_Array(&d->lines)); return constBack_Array(&d->lines); } static int numWrapLines_InputWidget_(const iInputWidget *d) { return lastLine_InputWidget_(d)->wrapLines.end; } static const iInputLine *line_InputWidget_(const iInputWidget *d, size_t index) { iAssert(!isEmpty_Array(&d->lines)); return constAt_Array(&d->lines, index); } static const iString *lineString_InputWidget_(const iInputWidget *d, int y) { return &line_InputWidget_(d, y)->text; } static const char *charPos_InputWidget_(const iInputWidget *d, iInt2 pos) { return cstr_String(lineString_InputWidget_(d, pos.y)) + pos.x; } static int endX_InputWidget_(const iInputWidget *d, int y) { /* The last line is not required to have an newline at the end. */ const iInputLine *line = line_InputWidget_(d, y); return line->range.end - (isLastLine_InputWidget_(d, line) ? 0 : 1) - line->range.start; } static iBool isCursorFocusable_Char_(iChar c) { return !isDefaultIgnorable_Char(c) && !isVariationSelector_Char(c) && !isFitzpatrickType_Char(c); } static iChar at_InputWidget_(const iInputWidget *d, iInt2 pos) { if (pos.y >= 0 && pos.y < size_Array(&d->lines) && pos.x >= 0 && pos.x <= endX_InputWidget_(d, pos.y)) { iChar ch = 0; decodeBytes_MultibyteChar(charPos_InputWidget_(d, pos), constEnd_String(lineString_InputWidget_(d, pos.y)), &ch); return ch; } return ' '; } static iInt2 movedCursor_InputWidget_(const iInputWidget *d, iInt2 pos, int xDir, int yDir) { iChar ch = 0; int n = 0; /* TODO: The cursor should never land on any combining codepoints either. */ for (;;) { if (xDir < 0) { if (pos.x == 0) { if (pos.y > 0) { pos.x = endX_InputWidget_(d, --pos.y); } } else { iAssert(pos.x > 0); n = decodePrecedingBytes_MultibyteChar(charPos_InputWidget_(d, pos), cstr_String(lineString_InputWidget_(d, pos.y)), &ch); pos.x -= n; if (!isCursorFocusable_Char_(at_InputWidget_(d, pos))) { continue; } } } else if (xDir > 0) { if (pos.x == endX_InputWidget_(d, pos.y)) { if (pos.y < size_Array(&d->lines) - 1) { pos.y++; pos.x = 0; } } else { n = decodeBytes_MultibyteChar(charPos_InputWidget_(d, pos), constEnd_String(lineString_InputWidget_(d, pos.y)), &ch); pos.x += n; if (!isCursorFocusable_Char_(at_InputWidget_(d, pos))) { continue; } } } break; } return pos; } static iRangecc rangeSize_String(const iString *d, size_t size) { return (iRangecc){ constBegin_String(d), constBegin_String(d) + iMin(size, size_String(d)) }; } static const iInputLine *findLineByWrapY_InputWidget_(const iInputWidget *d, int wrapY) { iConstForEach(Array, i, &d->lines) { const iInputLine *line = i.value; if (contains_Range(&line->wrapLines, wrapY)) { return line; } } iAssert(iFalse); /* wrap y is out of bounds */ return wrapY < 0 ? constFront_Array(&d->lines) : constBack_Array(&d->lines); } static int visLineOffsetY_InputWidget_(const iInputWidget *d) { const iInputLine *line = findLineByWrapY_InputWidget_(d, d->visWrapLines.start); return (line->wrapLines.start - d->visWrapLines.start) * lineHeight_Text(d->font); } static const iChar sensitiveChar_ = 0x25cf; /* black circle */ static const char *sensitive_ = "\u25cf"; static iWrapText wrap_InputWidget_(const iInputWidget *d, int y) { return (iWrapText){ .text = range_String(&line_InputWidget_(d, y)->text), .maxWidth = d->maxLen == 0 ? width_Rect(contentBounds_InputWidget_(d)) : unlimitedWidth_InputWidget_, .mode = (d->inFlags & isUrl_InputWidgetFlag ? anyCharacter_WrapTextMode : word_WrapTextMode), .overrideChar = (d->inFlags & isSensitive_InputWidgetFlag ? sensitiveChar_ : 0), }; } static iRangei visibleLineRange_InputWidget_(const iInputWidget *d) { iRangei vis = { -1, -1 }; /* Determine which lines are in the potentially visible range. */ for (int i = 0; i < size_Array(&d->lines); i++) { const iInputLine *line = constAt_Array(&d->lines, i); if (vis.start < 0 && line->wrapLines.end > d->visWrapLines.start) { vis.start = vis.end = i; } if (line->wrapLines.start < d->visWrapLines.end) { vis.end = i + 1; } else break; } iAssert(isEmpty_Range(&vis) || (vis.start >= 0 && vis.end >= vis.start)); return vis; } static iInt2 relativeCoordOnLine_InputWidget_(const iInputWidget *d, iInt2 pos) { /* Relative to the start of the line on which the position is. */ iWrapText wt = wrap_InputWidget_(d, pos.y); wt.hitChar = wt.text.start + pos.x; measure_WrapText(&wt, d->font); return wt.hitAdvance_out; } static iInt2 cursorToWindowCoord_InputWidget_(const iInputWidget *d, iInt2 pos, iBool *isInsideBounds) { /* Maps a cursor XY position to a window coordinate. */ const iRect bounds = contentBounds_InputWidget_(d); iInt2 wc = addY_I2(topLeft_Rect(bounds), visLineOffsetY_InputWidget_(d)); iRangei visLines = visibleLineRange_InputWidget_(d); if (!contains_Range(&visLines, pos.y)) { /* This line is not visible. */ *isInsideBounds = iFalse; return zero_I2(); } for (int i = visLines.start; i < pos.y; i++) { wc.y += lineHeight_Text(d->font) * numWrapLines_InputLine_(line_InputWidget_(d, i)); } const iInputLine *line = line_InputWidget_(d, pos.y); addv_I2(&wc, relativeCoordOnLine_InputWidget_(d, pos)); *isInsideBounds = contains_Rect(bounds, wc); return wc; } static iInt2 relativeCursorCoord_InputWidget_(const iInputWidget *d) { return relativeCoordOnLine_InputWidget_(d, d->cursor); } static void updateVisible_InputWidget_(iInputWidget *d) { const int totalWraps = numWrapLines_InputWidget_(d); const int visWraps = iClamp(totalWraps, d->minWrapLines, d->maxWrapLines); /* Resize the height of the editor. */ d->visWrapLines.end = d->visWrapLines.start + visWraps; /* Determine which wraps are currently visible. */ d->cursor.y = iMin(d->cursor.y, size_Array(&d->lines) - 1); const iInputLine *curLine = constAt_Array(&d->lines, d->cursor.y); const int cursorY = curLine->wrapLines.start + relativeCursorCoord_InputWidget_(d).y / lineHeight_Text(d->font); /* Scroll to cursor. */ int delta = 0; if (d->visWrapLines.end < cursorY + 1) { delta = cursorY + 1 - d->visWrapLines.end; } else if (cursorY < d->visWrapLines.start) { delta = cursorY - d->visWrapLines.start; } d->visWrapLines.start += delta; d->visWrapLines.end += delta; iAssert(contains_Range(&d->visWrapLines, cursorY)); if (!isFocused_Widget(d) && d->maxWrapLines == 1) { d->visWrapLines.start = 0; d->visWrapLines.end = 1; } // printf("[InputWidget %p] total:%d viswrp:%d cur:%d vis:%d..%d\n", // d, totalWraps, visWraps, d->cursor.y, d->visWrapLines.start, d->visWrapLines.end); } static void showCursor_InputWidget_(iInputWidget *d) { d->cursorVis = 2; updateVisible_InputWidget_(d); } static void invalidateBuffered_InputWidget_(iInputWidget *d) { if (d->buffered) { delete_TextBuf(d->buffered); d->buffered = NULL; } } static void updateSizeForFixedLength_InputWidget_(iInputWidget *d) { if (d->maxLen) { /* Set a fixed size based on maximum possible width of the text. */ iBlock *content = new_Block(d->maxLen); fill_Block(content, 'M'); int extraHeight = (flags_Widget(as_Widget(d)) & extraPadding_WidgetFlag ? extraPaddingHeight_ : 0); setFixedSize_Widget( as_Widget(d), add_I2(measure_Text(d->font, cstr_Block(content)).bounds.size, init_I2(6 * gap_UI + d->leftPadding + d->rightPadding, 2 * gap_UI + extraHeight))); delete_Block(content); } } static iString *text_InputWidget_(const iInputWidget *d) { iString *text = new_String(); mergeLines_(&d->lines, text); return text; } static size_t length_InputWidget_(const iInputWidget *d) { /* Note: `d->length` is kept up to date, so don't call this normally. */ size_t len = 0; iConstForEach(Array, i, &d->lines) { const iInputLine *line = i.value; len += length_String(&line->text); } return len; } static int contentHeight_InputWidget_(const iInputWidget *d) { return size_Range(&d->visWrapLines) * lineHeight_Text(d->font); } static void updateTextInputRect_InputWidget_(const iInputWidget *d) { #if !defined (iPlatformAppleMobile) const iRect bounds = bounds_Widget(constAs_Widget(d)); SDL_SetTextInputRect(&(SDL_Rect){ bounds.pos.x, bounds.pos.y, bounds.size.x, bounds.size.y }); #endif } static void updateMetrics_InputWidget_(iInputWidget *d) { iWidget *w = as_Widget(d); updateSizeForFixedLength_InputWidget_(d); /* Caller must arrange the width, but the height is set here. */ const int oldHeight = height_Rect(w->rect); w->rect.size.y = contentHeight_InputWidget_(d) + 3.0f * padding_().y; /* TODO: Why 3x? */ if (flags_Widget(w) & extraPadding_WidgetFlag) { w->rect.size.y += extraPaddingHeight_; } invalidateBuffered_InputWidget_(d); if (height_Rect(w->rect) != oldHeight) { postCommand_Widget(d, "input.resized"); updateTextInputRect_InputWidget_(d); } } static void updateLine_InputWidget_(iInputWidget *d, iInputLine *line) { iAssert(endsWith_String(&line->text, "\n") || isLastLine_InputWidget_(d, line)); iWrapText wrapText = wrap_InputWidget_(d, indexOf_Array(&d->lines, line)); if (wrapText.maxWidth <= 0) { line->wrapLines.end = line->wrapLines.start + 1; return; } const iTextMetrics tm = measure_WrapText(&wrapText, d->font); line->wrapLines.end = line->wrapLines.start + height_Rect(tm.bounds) / lineHeight_Text(d->font); iAssert(!isEmpty_Range(&line->wrapLines)); } static void updateLineRangesStartingFrom_InputWidget_(iInputWidget *d, int y) { iInputLine *line = at_Array(&d->lines, y); line->range.end = line->range.start + size_String(&line->text); for (size_t i = y + 1; i < size_Array(&d->lines); i++) { iInputLine *next = at_Array(&d->lines, i); next->range.start = line->range.end; next->range.end = next->range.start + size_String(&next->text); /* Update wrap line range as well. */ next->wrapLines = (iRangei){ line->wrapLines.end, line->wrapLines.end + numWrapLines_InputLine_(next) }; line = next; } } static void updateAllLinesAndResizeHeight_InputWidget_(iInputWidget *d) { const int oldWraps = numWrapLines_InputWidget_(d); iForEach(Array, i, &d->lines) { updateLine_InputWidget_(d, i.value); /* count number of visible lines */ } updateLineRangesStartingFrom_InputWidget_(d, 0); updateVisible_InputWidget_(d); if (oldWraps != numWrapLines_InputWidget_(d)) { updateMetrics_InputWidget_(d); } } static uint32_t cursorTimer_(uint32_t interval, void *w) { iInputWidget *d = w; if (d->cursorVis > 1) { d->cursorVis--; } else { d->cursorVis ^= 1; } refresh_Widget(w); return interval; } static void startOrStopCursorTimer_InputWidget_(iInputWidget *d, iBool doStart) { if (doStart && !d->timer) { d->timer = SDL_AddTimer(refreshInterval_InputWidget_, cursorTimer_, d); } else if (!doStart && d->timer) { SDL_RemoveTimer(d->timer); d->timer = 0; } } void init_InputWidget(iInputWidget *d, size_t maxLen) { iWidget *w = &d->widget; init_Widget(w); d->validator = NULL; d->validatorContext = NULL; setFlags_Widget(w, focusable_WidgetFlag | hover_WidgetFlag, iTrue); #if defined (iPlatformMobile) setFlags_Widget(w, extraPadding_WidgetFlag, iTrue); #endif init_Array(&d->lines, sizeof(iInputLine)); init_String(&d->oldText); init_Array(&d->lines, sizeof(iInputLine)); init_String(&d->srcHint); init_String(&d->hint); init_Array(&d->undoStack, sizeof(iInputUndo)); d->font = uiInput_FontId | alwaysVariableFlag_FontId; d->leftPadding = 0; d->rightPadding = 0; d->cursor = zero_I2(); d->prevCursor = zero_I2(); d->lastUpdateWidth = 0; d->inFlags = eatEscape_InputWidgetFlag | enterKeyEnabled_InputWidgetFlag | lineBreaksEnabled_InputWidgetFlag | useReturnKeyBehavior_InputWidgetFlag; // if (deviceType_App() != desktop_AppDeviceType) { // d->inFlags |= enterKeyInsertsLineFeed_InputWidgetFlag; // } iZap(d->mark); setMaxLen_InputWidget(d, maxLen); d->visWrapLines.start = 0; d->visWrapLines.end = 1; d->maxWrapLines = maxLen > 0 ? 1 : 20; /* TODO: Choose maximum dynamically? */ d->minWrapLines = 1; splitToLines_(&iStringLiteral(""), &d->lines); setFlags_Widget(w, fixedHeight_WidgetFlag, iTrue); /* resizes its own height */ init_Click(&d->click, d, SDL_BUTTON_LEFT); d->lastTapTime = 0; d->tapCount = 0; d->wheelAccum = 0; d->timer = 0; d->cursorVis = 0; d->buffered = NULL; d->backupPath = NULL; d->backupTimer = 0; updateMetrics_InputWidget_(d); } void deinit_InputWidget(iInputWidget *d) { if (d->backupTimer) { SDL_RemoveTimer(d->backupTimer); } if (d->inFlags & needBackup_InputWidgetFlag) { saveBackup_InputWidget_(d); } delete_String(d->backupPath); d->backupPath = NULL; clearInputLines_(&d->lines); if (isSelected_Widget(d)) { SDL_StopTextInput(); enableEditorKeysInMenus_(iTrue); } delete_TextBuf(d->buffered); clearUndo_InputWidget_(d); deinit_Array(&d->undoStack); startOrStopCursorTimer_InputWidget_(d, iFalse); deinit_String(&d->srcHint); deinit_String(&d->hint); deinit_String(&d->oldText); deinit_Array(&d->lines); } void setFont_InputWidget(iInputWidget *d, int fontId) { d->font = fontId; updateMetrics_InputWidget_(d); } static void pushUndo_InputWidget_(iInputWidget *d) { iInputUndo undo; init_InputUndo_(&undo, &d->lines, d->cursor); pushBack_Array(&d->undoStack, &undo); if (size_Array(&d->undoStack) > maxUndo_InputWidget_) { deinit_InputUndo_(front_Array(&d->undoStack)); popFront_Array(&d->undoStack); } } static iBool popUndo_InputWidget_(iInputWidget *d) { if (!isEmpty_Array(&d->undoStack)) { iInputUndo *undo = back_Array(&d->undoStack); //setCopy_Array(&d->text, &undo->text); splitToLines_(&undo->text, &d->lines); d->cursor = undo->cursor; deinit_InputUndo_(undo); popBack_Array(&d->undoStack); iZap(d->mark); updateAllLinesAndResizeHeight_InputWidget_(d); return iTrue; } return iFalse; } void setMode_InputWidget(iInputWidget *d, enum iInputMode mode) { d->mode = mode; } static void restoreDefaultScheme_(iString *url) { iUrl parts; init_Url(&parts, url); if (isEmpty_Range(&parts.scheme) && startsWith_String(url, "//")) { prependCStr_String(url, "gemini:"); } } static const iString *omitDefaultScheme_(iString *url) { if (startsWithCase_String(url, "gemini://")) { remove_Block(&url->chars, 0, 7); } return url; } const iString *text_InputWidget(const iInputWidget *d) { if (d) { iString *text = collect_String(text_InputWidget_(d)); if (d->inFlags & isUrl_InputWidgetFlag) { /* Add the "gemini" scheme back if one is omitted. */ restoreDefaultScheme_(text); } return text; } return collectNew_String(); } int font_InputWidget(const iInputWidget *d) { return d->font; } iInputWidgetContentPadding contentPadding_InputWidget(const iInputWidget *d) { return (iInputWidgetContentPadding){ d->leftPadding, d->rightPadding }; } void setMaxLen_InputWidget(iInputWidget *d, size_t maxLen) { d->maxLen = maxLen; d->mode = (maxLen == 0 ? insert_InputMode : overwrite_InputMode); updateSizeForFixedLength_InputWidget_(d); } void setLineLimits_InputWidget(iInputWidget *d, int minLines, int maxLines) { maxLines = iMax(minLines, maxLines); if (d->minWrapLines != minLines || d->maxWrapLines != maxLines) { d->minWrapLines = minLines; d->maxWrapLines = maxLines; updateVisible_InputWidget_(d); updateMetrics_InputWidget_(d); } } int minLines_InputWidget(const iInputWidget *d) { return d->minWrapLines; } int maxLines_InputWidget(const iInputWidget *d) { return d->maxWrapLines; } void setValidator_InputWidget(iInputWidget *d, iInputWidgetValidatorFunc validator, void *context) { d->validator = validator; d->validatorContext = context; } void setLineBreaksEnabled_InputWidget(iInputWidget *d, iBool lineBreaksEnabled) { iChangeFlags(d->inFlags, lineBreaksEnabled_InputWidgetFlag, lineBreaksEnabled); } void setEnterKeyEnabled_InputWidget(iInputWidget *d, iBool enterKeyEnabled) { iChangeFlags(d->inFlags, enterKeyEnabled_InputWidgetFlag, enterKeyEnabled); } void setUseReturnKeyBehavior_InputWidget(iInputWidget *d, iBool useReturnKeyBehavior) { iChangeFlags(d->inFlags, useReturnKeyBehavior_InputWidgetFlag, useReturnKeyBehavior); } void setHint_InputWidget(iInputWidget *d, const char *hintText) { /* Keep original for retranslations. */ setCStr_String(&d->srcHint, hintText); set_String(&d->hint, &d->srcHint); translate_Lang(&d->hint); } void setContentPadding_InputWidget(iInputWidget *d, int left, int right) { if (left >= 0) { d->leftPadding = left; } if (right >= 0) { d->rightPadding = right; } updateSizeForFixedLength_InputWidget_(d); refresh_Widget(d); } iLocalDef iBool isEmpty_InputWidget_(const iInputWidget *d) { return size_Array(&d->lines) == 1 && isEmpty_String(&line_InputWidget_(d, 0)->text); } static iBool isHintVisible_InputWidget_(const iInputWidget *d) { return !isEmpty_String(&d->hint) && isEmpty_InputWidget_(d); } static void updateBuffered_InputWidget_(iInputWidget *d) { invalidateBuffered_InputWidget_(d); if (isHintVisible_InputWidget_(d)) { d->buffered = newRange_TextBuf(d->font, uiAnnotation_ColorId, range_String(&d->hint)); } else { /* Draw all the potentially visible lines to a buffer. */ iString *visText = new_String(); const iRangei visRange = visibleLineRange_InputWidget_(d); for (int i = visRange.start; i < visRange.end; i++) { append_String(visText, &line_InputWidget_(d, i)->text); } if (d->inFlags & isUrl_InputWidgetFlag) { /* Highlight the host name. */ iUrl parts; init_Url(&parts, visText); if (!isEmpty_Range(&parts.host)) { const char *cstr = cstr_String(visText); insertData_Block(&visText->chars, parts.host.end - cstr, restore_ColorEscape, strlen(restore_ColorEscape)); insertData_Block(&visText->chars, parts.host.start - cstr, uiTextStrong_ColorEscape, strlen(uiTextStrong_ColorEscape)); } } iWrapText wt = wrap_InputWidget_(d, 0); wt.text = range_String(visText); const int fg = uiInputText_ColorId; d->buffered = new_TextBuf(&wt, d->font, fg); delete_String(visText); } d->inFlags &= ~needUpdateBuffer_InputWidgetFlag; } iLocalDef iInputLine *cursorLine_InputWidget_(iInputWidget *d) { return at_Array(&d->lines, d->cursor.y); } iLocalDef const iInputLine *constCursorLine_InputWidget_(const iInputWidget *d) { return constAt_Array(&d->lines, d->cursor.y); } iLocalDef iInt2 cursorMax_InputWidget_(const iInputWidget *d) { const int yLast = size_Array(&d->lines) - 1; return init_I2(endX_InputWidget_(d, yLast), yLast); } void setText_InputWidget(iInputWidget *d, const iString *text) { if (!d) return; if (d->inFlags & isUrl_InputWidgetFlag) { /* If user wants URLs encoded, also Punycode the domain. */ if (!prefs_App()->decodeUserVisibleURLs) { iString *enc = collect_String(copy_String(text)); /* Prevent address bar spoofing (mentioned as IDN homograph attack in https://github.com/skyjake/lagrange/issues/73) */ punyEncodeUrlHost_String(enc); text = enc; } /* Omit the default (Gemini) scheme if there isn't much space. */ if (isNarrow_Root(as_Widget(d)->root)) { text = omitDefaultScheme_(collect_String(copy_String(text))); } } clearUndo_InputWidget_(d); iString *nfcText = collect_String(copy_String(text)); normalize_String(nfcText); splitToLines_(nfcText, &d->lines); iAssert(!isEmpty_Array(&d->lines)); iForEach(Array, i, &d->lines) { updateLine_InputWidget_(d, i.value); /* count number of visible lines */ } updateLineRangesStartingFrom_InputWidget_(d, 0); d->cursor = cursorMax_InputWidget_(d); if (!isFocused_Widget(d)) { iZap(d->mark); } if (!isFocused_Widget(d)) { d->inFlags |= needUpdateBuffer_InputWidgetFlag; } updateVisible_InputWidget_(d); updateMetrics_InputWidget_(d); refresh_Widget(as_Widget(d)); } void setTextCStr_InputWidget(iInputWidget *d, const char *cstr) { iString *str = newCStr_String(cstr); setText_InputWidget(d, str); delete_String(str); } static size_t cursorToIndex_InputWidget_(const iInputWidget *d, iInt2 pos) { if (pos.y < 0) { return 0; } if (pos.y >= size_Array(&d->lines)) { return lastLine_InputWidget_(d)->range.end; } const iInputLine *line = line_InputWidget_(d, pos.y); pos.x = iClamp(pos.x, 0, endX_InputWidget_(d, pos.y)); return line->range.start + pos.x; } static iInt2 indexToCursor_InputWidget_(const iInputWidget *d, size_t index) { /* TODO: The lines are sorted; this could use a binary search. */ iConstForEach(Array, i, &d->lines) { const iInputLine *line = i.value; if (contains_Range(&line->range, index)) { return init_I2(index - line->range.start, index_ArrayConstIterator(&i)); } } return cursorMax_InputWidget_(d); } void selectAll_InputWidget(iInputWidget *d) { d->mark = (iRanges){ 0, lastLine_InputWidget_(d)->range.end }; refresh_Widget(as_Widget(d)); } iLocalDef iBool isEditing_InputWidget_(const iInputWidget *d) { return (flags_Widget(constAs_Widget(d)) & selected_WidgetFlag) != 0; } void begin_InputWidget(iInputWidget *d) { iWidget *w = as_Widget(d); if (isEditing_InputWidget_(d)) { /* Already active. */ return; } invalidateBuffered_InputWidget_(d); setFlags_Widget(w, hidden_WidgetFlag | disabled_WidgetFlag, iFalse); mergeLines_(&d->lines, &d->oldText); if (d->mode == overwrite_InputMode) { d->cursor = zero_I2(); } else { d->cursor.y = iMin(d->cursor.y, size_Array(&d->lines) - 1); d->cursor.x = iMin(d->cursor.x, cursorLine_InputWidget_(d)->range.end); } SDL_StartTextInput(); setFlags_Widget(w, selected_WidgetFlag, iTrue); showCursor_InputWidget_(d); refresh_Widget(w); startOrStopCursorTimer_InputWidget_(d, iTrue); d->inFlags &= ~enterPressed_InputWidgetFlag; if (d->inFlags & selectAllOnFocus_InputWidgetFlag) { d->mark = (iRanges){ 0, lastLine_InputWidget_(d)->range.end }; d->cursor = cursorMax_InputWidget_(d); } else if (~d->inFlags & isMarking_InputWidgetFlag) { iZap(d->mark); } enableEditorKeysInMenus_(iFalse); updateTextInputRect_InputWidget_(d); updateVisible_InputWidget_(d); } void end_InputWidget(iInputWidget *d, iBool accept) { iWidget *w = as_Widget(d); if (!isEditing_InputWidget_(d)) { /* Was not active. */ return; } enableEditorKeysInMenus_(iTrue); if (!accept) { /* Overwrite the edited lines. */ splitToLines_(&d->oldText, &d->lines); } d->inFlags |= needUpdateBuffer_InputWidgetFlag; d->inFlags &= ~isMarking_InputWidgetFlag; startOrStopCursorTimer_InputWidget_(d, iFalse); SDL_StopTextInput(); setFlags_Widget(w, selected_WidgetFlag | keepOnTop_WidgetFlag | touchDrag_WidgetFlag, iFalse); const char *id = cstr_String(id_Widget(as_Widget(d))); if (!*id) id = "_"; refresh_Widget(w); postCommand_Widget(w, "input.ended id:%s enter:%d arg:%d", id, d->inFlags & enterPressed_InputWidgetFlag ? 1 : 0, accept ? 1 : 0); } static void textOfLinesWasChanged_InputWidget_(iInputWidget *d, iRangei lineRange) { for (int i = lineRange.start; i < lineRange.end; i++) { updateLine_InputWidget_(d, at_Array(&d->lines, i)); } updateLineRangesStartingFrom_InputWidget_(d, lineRange.start); updateVisible_InputWidget_(d); updateMetrics_InputWidget_(d); restartBackupTimer_InputWidget_(d); } static void insertRange_InputWidget_(iInputWidget *d, iRangecc range) { iRangecc nextRange = { range.end, range.end }; const int firstModified = d->cursor.y; for (; !isEmpty_Range(&range); range = nextRange) { /* If there's a newline, we'll need to break and begin a new line. */ const char *newline = iStrStrN(range.start, "\n", size_Range(&range)); if (newline) { nextRange = (iRangecc){ iMin(newline + 1, range.end), range.end }; range.end = newline; } iInputLine *line = cursorLine_InputWidget_(d); if (d->mode == insert_InputMode) { insertData_Block(&line->text.chars, d->cursor.x, range.start, size_Range(&range)); } else { iAssert(!newline); setSubData_Block(&line->text.chars, d->cursor.x, range.start, size_Range(&range)); } d->cursor.x += size_Range(&range); if (!newline) { break; } /* Split current line into a new line. */ iInputLine split; init_InputLine(&split); setRange_String(&split.text, (iRangecc){ cstr_String(&line->text) + d->cursor.x, constEnd_String(&line->text) }); truncate_String(&line->text, d->cursor.x); if (!endsWith_String(&line->text, "\n")) { appendCStr_String(&line->text, "\n"); } insert_Array(&d->lines, ++d->cursor.y, &split); d->cursor.x = 0; } if (d->maxLen > 0) { iAssert(size_Array(&d->lines) == 1); iAssert(d->cursor.y == 0); iInputLine *line = front_Array(&d->lines); size_t len = length_String(&line->text); if (len > d->maxLen) { removeEnd_String(&line->text, len - d->maxLen); d->cursor.x = endX_InputWidget_(d, 0); } } textOfLinesWasChanged_InputWidget_(d, (iRangei){ firstModified, d->cursor.y + 1 }); showCursor_InputWidget_(d); refresh_Widget(as_Widget(d)); } static void insertChar_InputWidget_(iInputWidget *d, iChar chr) { iMultibyteChar mb; init_MultibyteChar(&mb, chr); insertRange_InputWidget_(d, range_CStr(mb.bytes)); } iLocalDef iBool isMarking_(void) { return (modState_Keys() & KMOD_SHIFT) != 0; } void setCursor_InputWidget(iInputWidget *d, iInt2 pos) { iAssert(!isEmpty_Array(&d->lines)); pos.x = iClamp(pos.x, 0, endX_InputWidget_(d, pos.y)); d->cursor = pos; iChar ch = at_InputWidget_(d, pos); /* Update selection. */ if (isMarking_()) { if (isEmpty_Range(&d->mark)) { d->mark.start = cursorToIndex_InputWidget_(d, d->prevCursor); d->mark.end = cursorToIndex_InputWidget_(d, d->cursor); } else { d->mark.end = cursorToIndex_InputWidget_(d, d->cursor); } } else { iZap(d->mark); } showCursor_InputWidget_(d); } static iBool moveCursorByLine_InputWidget_(iInputWidget *d, int dir, int horiz) { const iInputLine *line = cursorLine_InputWidget_(d); iInt2 relCoord = relativeCursorCoord_InputWidget_(d); int relLine = relCoord.y / lineHeight_Text(d->font); if ((dir < 0 && relLine > 0) || (dir > 0 && relLine < numWrapLines_InputLine_(line) - 1)) { relCoord.y += dir * lineHeight_Text(d->font); } else if (dir < 0 && d->cursor.y > 0) { d->cursor.y--; line = cursorLine_InputWidget_(d); relCoord.y = lineHeight_Text(d->font) * (numWrapLines_InputLine_(line) - 1); } else if (dir > 0 && d->cursor.y < size_Array(&d->lines) - 1) { d->cursor.y++; relCoord.y = 0; } else if (dir == 0 && horiz != 0) { relCoord.x = (horiz < 0 ? 0 : width_Widget(d)); } else { return iFalse; } iWrapText wt = wrap_InputWidget_(d, d->cursor.y); wt.hitPoint = addY_I2(relCoord, 1); /* never (0, 0) because that disables the hit test */ measure_WrapText(&wt, d->font); if (wt.hitChar_out) { d->cursor.x = wt.hitChar_out - wt.text.start; } else { d->cursor.x = endX_InputWidget_(d, d->cursor.y); } if (wt.hitGlyphNormX_out > 0.5f && d->cursor.x < endX_InputWidget_(d, d->cursor.y)) { iChar ch; int n = decodeBytes_MultibyteChar(wt.text.start + d->cursor.x, wt.text.end, &ch); if (ch != '\n' && n > 0) { d->cursor.x += n; } } setCursor_InputWidget(d, d->cursor); /* mark, show */ return iTrue; } void setSensitiveContent_InputWidget(iInputWidget *d, iBool isSensitive) { iChangeFlags(d->inFlags, isSensitive_InputWidgetFlag, isSensitive); } void setUrlContent_InputWidget(iInputWidget *d, iBool isUrl) { iChangeFlags(d->inFlags, isUrl_InputWidgetFlag, isUrl); d->inFlags |= needUpdateBuffer_InputWidgetFlag; } void setSelectAllOnFocus_InputWidget(iInputWidget *d, iBool selectAllOnFocus) { iChangeFlags(d->inFlags, selectAllOnFocus_InputWidgetFlag, selectAllOnFocus); } void setNotifyEdits_InputWidget(iInputWidget *d, iBool notifyEdits) { iChangeFlags(d->inFlags, notifyEdits_InputWidgetFlag, notifyEdits); } void setEatEscape_InputWidget(iInputWidget *d, iBool eatEscape) { iChangeFlags(d->inFlags, eatEscape_InputWidgetFlag, eatEscape); } static iRanges mark_InputWidget_(const iInputWidget *d) { iRanges m = { iMin(d->mark.start, d->mark.end), iMax(d->mark.start, d->mark.end) }; const iInputLine *last = lastLine_InputWidget_(d); m.start = iMin(m.start, last->range.end); m.end = iMin(m.end, last->range.end); return m; } static void contentsWereChanged_InputWidget_(iInputWidget *d) { if (d->validator) { d->validator(d, d->validatorContext); /* this may change the contents */ } if (d->inFlags & notifyEdits_InputWidgetFlag) { postCommand_Widget(d, "input.edited id:%s", cstr_String(id_Widget(constAs_Widget(d)))); } } static void deleteIndexRange_InputWidget_(iInputWidget *d, iRanges deleted) { size_t firstModified = iInvalidPos; restartBackupTimer_InputWidget_(d); for (int i = size_Array(&d->lines) - 1; i >= 0; i--) { iInputLine *line = at_Array(&d->lines, i); if (line->range.end <= deleted.start) { break; } if (line->range.start >= deleted.end) { continue; } firstModified = i; if (line->range.start >= deleted.start && line->range.end <= deleted.end) { clear_String(&line->text); } else if (deleted.start > line->range.start && deleted.end >= line->range.end) { truncate_Block(&line->text.chars, deleted.start - line->range.start); } else if (deleted.start <= line->range.start && deleted.end <= line->range.end) { remove_Block(&line->text.chars, 0, deleted.end - line->range.start); } else if (deleted.start > line->range.start && deleted.end <= line->range.end) { remove_Block(&line->text.chars, deleted.start - line->range.start, size_Range(&deleted)); } else { iAssert(iFalse); /* all cases exhausted */ } if (i + 1 < size_Array(&d->lines) && !endsWith_String(&line->text, "\n")) { /* Newline deleted, so merge with next line. */ iInputLine *nextLine = at_Array(&d->lines, i + 1); append_String(&line->text, &nextLine->text); deinit_InputLine(nextLine); remove_Array(&d->lines, i + 1); } } if (isEmpty_Array(&d->lines)) { /* Everything was deleted. */ iInputLine empty; init_InputLine(&empty); pushBack_Array(&d->lines, &empty); } iZap(d->mark); /* Update lines. */ if (firstModified != iInvalidPos) { /* Rewrap the lines that may have been cut in half. */ updateLine_InputWidget_(d, at_Array(&d->lines, firstModified)); if (firstModified + 1 < size_Array(&d->lines)) { updateLine_InputWidget_(d, at_Array(&d->lines, firstModified + 1)); } updateLineRangesStartingFrom_InputWidget_(d, firstModified); } updateVisible_InputWidget_(d); updateMetrics_InputWidget_(d); } static iBool deleteMarked_InputWidget_(iInputWidget *d) { const iRanges m = mark_InputWidget_(d); if (!isEmpty_Range(&m)) { deleteIndexRange_InputWidget_(d, m); setCursor_InputWidget(d, indexToCursor_InputWidget_(d, m.start)); iZap(d->mark); /* setCursor thinks we're marking when Shift is down */ return iTrue; } return iFalse; } static iBool isWordChar_InputWidget_(const iInputWidget *d, iInt2 pos) { return isAlphaNumeric_Char(at_InputWidget_(d, pos)); } iLocalDef iBool movePos_InputWidget_(const iInputWidget *d, iInt2 *pos, int dir) { iInt2 npos = movedCursor_InputWidget_(d, *pos, dir, 0); if (isEqual_I2(*pos, npos)) { return iFalse; } *pos = npos; return iTrue; } static iInt2 skipWord_InputWidget_(const iInputWidget *d, iInt2 pos, int dir) { const iBool startedAtNonWord = !isWordChar_InputWidget_(d, pos); if (!movePos_InputWidget_(d, &pos, dir)) { return pos; } /* Skip any non-word characters at start position. */ while (!isWordChar_InputWidget_(d, pos)) { if (!movePos_InputWidget_(d, &pos, dir)) { return pos; } } if (startedAtNonWord && dir > 0) { return pos; /* Found the start of a word. */ } /* Skip the word. */ while (isWordChar_InputWidget_(d, pos)) { if (!movePos_InputWidget_(d, &pos, dir)) { return pos; } } if (dir > 0) { /* Skip to the beginning of the word. */ while (!isWordChar_InputWidget_(d, pos)) { if (!movePos_InputWidget_(d, &pos, dir)) { return pos; } } } else { movePos_InputWidget_(d, &pos, +1); } return pos; } static iInt2 coordCursor_InputWidget_(const iInputWidget *d, iInt2 coord) { const iRect bounds = contentBounds_InputWidget_(d); const iInt2 relCoord = sub_I2(coord, addY_I2(topLeft_Rect(bounds), visLineOffsetY_InputWidget_(d))); if (relCoord.y < 0) { return zero_I2(); } // if (relCoord.y >= height_Rect(bounds)) { // printf("relCoord > bounds.h\n"); fflush(stdout); // return cursorMax_InputWidget_(d); // } iWrapText wrapText = { .maxWidth = d->maxLen == 0 ? width_Rect(bounds) : unlimitedWidth_InputWidget_, .mode = (d->inFlags & isUrl_InputWidgetFlag ? anyCharacter_WrapTextMode : word_WrapTextMode), .hitPoint = relCoord, .overrideChar = (d->inFlags & isSensitive_InputWidgetFlag ? sensitiveChar_ : 0), }; const iRangei visLines = visibleLineRange_InputWidget_(d); for (size_t y = visLines.start; y < visLines.end; y++) { wrapText.text = range_String(lineString_InputWidget_(d, y)); const iTextMetrics tm = measure_WrapText(&wrapText, d->font); if (wrapText.hitChar_out) { const char *pos = wrapText.hitChar_out; /* Cursor is between characters, so jump to next character if halfway there. */ if (wrapText.hitGlyphNormX_out > 0.5f) { iChar ch; int n = decodeBytes_MultibyteChar(pos, wrapText.text.end, &ch); if (ch != '\n' && n > 0) { pos += n; } } return init_I2(iMin(pos - wrapText.text.start, endX_InputWidget_(d, y)), y); } wrapText.hitPoint.y -= tm.advance.y; } return cursorMax_InputWidget_(d); } static iBool copy_InputWidget_(iInputWidget *d, iBool doCut) { if (!isEmpty_Range(&d->mark)) { const iRanges m = mark_InputWidget_(d); iString * str = collectNew_String(); mergeLinesRange_(&d->lines, m, str); SDL_SetClipboardText( cstr_String(d->inFlags & isUrl_InputWidgetFlag ? canonicalUrl_String(str) : str)); if (doCut) { pushUndo_InputWidget_(d); deleteMarked_InputWidget_(d); contentsWereChanged_InputWidget_(d); } return iTrue; } return iFalse; } static void paste_InputWidget_(iInputWidget *d) { if (SDL_HasClipboardText()) { pushUndo_InputWidget_(d); deleteMarked_InputWidget_(d); char * text = SDL_GetClipboardText(); iString *paste = collect_String(newCStr_String(text)); /* Url decoding. */ if (d->inFlags & isUrl_InputWidgetFlag) { if (prefs_App()->decodeUserVisibleURLs) { paste = collect_String(urlDecode_String(paste)); } else { urlEncodePath_String(paste); } } SDL_free(text); insertRange_InputWidget_(d, range_String(paste)); contentsWereChanged_InputWidget_(d); } } static void extendRange_InputWidget_(iInputWidget *d, size_t *index, int dir) { iInt2 pos = indexToCursor_InputWidget_(d, *index); if (dir < 0) { while (movePos_InputWidget_(d, &pos, dir)) { if (isSelectionBreaking_Char(at_InputWidget_(d, pos))) { movePos_InputWidget_(d, &pos, +1); break; } } } if (dir > 0) { while (!isSelectionBreaking_Char(at_InputWidget_(d, pos)) && movePos_InputWidget_(d, &pos, dir)) { /* keep going */ } } *index = cursorToIndex_InputWidget_(d, pos); } static iRect bounds_InputWidget_(const iInputWidget *d) { const iWidget *w = constAs_Widget(d); iRect bounds = bounds_Widget(w); if (!isFocused_Widget(d)) { return bounds; } /* There may be more visible lines than fits in the widget bounds. */ bounds.size.y = contentHeight_InputWidget_(d) + 3 * padding_().y; if (w->flags & extraPadding_WidgetFlag) { bounds.size.y += extraPaddingHeight_; } return bounds; } static iBool contains_InputWidget_(const iInputWidget *d, iInt2 coord) { return contains_Rect(bounds_InputWidget_(d), coord); } static void lineTextWasChanged_InputWidget_(iInputWidget *d, iInputLine *line) { const int y = indexOf_Array(&d->lines, line); textOfLinesWasChanged_InputWidget_(d, (iRangei){ y, y + 1 }); } static iBool isArrowUpDownConsumed_InputWidget_(const iInputWidget *d) { return d->maxWrapLines > 1; } static iBool checkLineBreakMods_InputWidget_(const iInputWidget *d, int mods) { if (d->inFlags & useReturnKeyBehavior_InputWidgetFlag) { return mods == lineBreakKeyMod_ReturnKeyBehavior(prefs_App()->returnKey); } return mods == 0; } static iBool checkAcceptMods_InputWidget_(const iInputWidget *d, int mods) { if (d->inFlags & useReturnKeyBehavior_InputWidgetFlag) { return mods == acceptKeyMod_ReturnKeyBehavior(prefs_App()->returnKey); } return mods == 0; } enum iEventResult { ignored_EventResult = 0, /* event was not processed */ false_EventResult = 1, /* event was processed but other widgets can still process it, too*/ true_EventResult = 2, /* event was processed and should not be passed on */ }; static void markWordAtCursor_InputWidget_(iInputWidget *d) { d->mark.start = d->mark.end = cursorToIndex_InputWidget_(d, d->cursor); extendRange_InputWidget_(d, &d->mark.start, -1); extendRange_InputWidget_(d, &d->mark.end, +1); d->initialMark = d->mark; } static void showClipMenu_(iInt2 coord) { iWidget *clipMenu = findWidget_App("clipmenu"); if (isVisible_Widget(clipMenu)) { closeMenu_Widget(clipMenu); } else { openMenuFlags_Widget(clipMenu, coord, iFalse); } } static enum iEventResult processPointerEvents_InputWidget_(iInputWidget *d, const SDL_Event *ev) { iWidget *w = as_Widget(d); if (ev->type == SDL_MOUSEMOTION && (isHover_Widget(d) || flags_Widget(w) & keepOnTop_WidgetFlag)) { const iInt2 coord = init_I2(ev->motion.x, ev->motion.y); const iInt2 inner = windowToInner_Widget(w, coord); setCursor_Window(get_Window(), inner.x >= 2 * gap_UI + d->leftPadding && inner.x < width_Widget(w) - d->rightPadding ? SDL_SYSTEM_CURSOR_IBEAM : SDL_SYSTEM_CURSOR_ARROW); } if (ev->type == SDL_MOUSEBUTTONDOWN && ev->button.button == SDL_BUTTON_RIGHT && contains_Widget(w, init_I2(ev->button.x, ev->button.y))) { showClipMenu_(mouseCoord_Window(get_Window(), ev->button.which)); return iTrue; } switch (processEvent_Click(&d->click, ev)) { case none_ClickResult: break; case started_ClickResult: { setFocus_Widget(w); const iInt2 oldCursor = d->cursor; setCursor_InputWidget(d, coordCursor_InputWidget_(d, pos_Click(&d->click))); if (keyMods_Sym(modState_Keys()) == KMOD_SHIFT) { d->mark = d->initialMark = (iRanges){ cursorToIndex_InputWidget_(d, oldCursor), cursorToIndex_InputWidget_(d, d->cursor) }; d->inFlags |= isMarking_InputWidgetFlag; } else { iZap(d->mark); iZap(d->initialMark); d->inFlags &= ~(isMarking_InputWidgetFlag | markWords_InputWidgetFlag); if (d->click.count == 2) { d->inFlags |= isMarking_InputWidgetFlag | markWords_InputWidgetFlag; markWordAtCursor_InputWidget_(d); refresh_Widget(w); } if (d->click.count == 3) { selectAll_InputWidget(d); } } refresh_Widget(d); return true_EventResult; } case aborted_ClickResult: d->inFlags &= ~isMarking_InputWidgetFlag; return true_EventResult; case drag_ClickResult: d->cursor = coordCursor_InputWidget_(d, pos_Click(&d->click)); showCursor_InputWidget_(d); if (~d->inFlags & isMarking_InputWidgetFlag) { d->inFlags |= isMarking_InputWidgetFlag; d->mark.start = cursorToIndex_InputWidget_(d, d->cursor); } d->mark.end = cursorToIndex_InputWidget_(d, d->cursor); if (d->inFlags & markWords_InputWidgetFlag) { const iBool isFwd = d->mark.end >= d->mark.start; extendRange_InputWidget_(d, &d->mark.end, isFwd ? +1 : -1); d->mark.start = isFwd ? d->initialMark.start : d->initialMark.end; } refresh_Widget(w); return true_EventResult; case finished_ClickResult: d->inFlags &= ~isMarking_InputWidgetFlag; return true_EventResult; } if (ev->type == SDL_MOUSEMOTION && flags_Widget(w) & keepOnTop_WidgetFlag) { const iInt2 coord = init_I2(ev->motion.x, ev->motion.y); if (contains_Click(&d->click, coord)) { return true_EventResult; } } return ignored_EventResult; } static iInt2 touchCoordCursor_InputWidget_(const iInputWidget *d, iInt2 coord) { /* Clamp to the bounds so the cursor doesn't wrap at the ends. */ iRect bounds = shrunk_Rect(contentBounds_InputWidget_(d), one_I2()); bounds.size.y = iMini(numWrapLines_InputWidget_(d), d->maxWrapLines) * lineHeight_Text(d->font) - 2; return coordCursor_InputWidget_(d, min_I2(bottomRight_Rect(bounds), max_I2(coord, topLeft_Rect(bounds)))); } static iBool isInsideMark_InputWidget_(const iInputWidget *d, size_t pos) { const iRanges mark = mark_InputWidget_(d); return contains_Range(&mark, pos); } static int distanceToPos_InputWidget_(const iInputWidget *d, iInt2 uiCoord, iInt2 textPos) { iBool isInside; const iInt2 winCoord = cursorToWindowCoord_InputWidget_(d, textPos, &isInside); if (!isInside) { return INT_MAX; } return dist_I2(addY_I2(winCoord, lineHeight_Text(d->font) / 2), uiCoord); } static enum iEventResult processTouchEvents_InputWidget_(iInputWidget *d, const SDL_Event *ev) { iWidget *w = as_Widget(d); /* + first tap to focus & select all/place cursor + focused tap to place cursor - drag cursor to move it - double-click to select a word - drag to move selection handles - long-press for context menu: copy, paste, delete, select all, deselect - double-click and hold to select words - triple-click to select all - drag/wheel elsewhere to scroll (contents or overflow), no change in focus */ // if (ev->type != SDL_MOUSEBUTTONUP && ev->type != SDL_MOUSEBUTTONDOWN && // ev->type != SDL_MOUSEWHEEL && ev->type != SDL_MOUSEMOTION && // !(ev->type == SDL_USEREVENT && ev->user.code == widgetTapBegins_UserEventCode) && // !(ev->type == SDL_USEREVENT && ev->user.code == widgetTouchEnds_UserEventCode)) { // return ignored_EventResult; // } if (isFocused_Widget(w)) { if (ev->type == SDL_USEREVENT && ev->user.code == widgetTapBegins_UserEventCode) { d->lastTapTime = d->tapStartTime; d->tapStartTime = SDL_GetTicks(); const int tapDist = dist_I2(latestPosition_Touch(), d->lastTapPos); d->lastTapPos = latestPosition_Touch(); // printf("[%p] tap start time: %u (%u) %d\n", w, d->tapStartTime, d->tapStartTime - d->lastTapTime, tapDist); if (d->tapStartTime - d->lastTapTime < 400 && tapDist < gap_UI * 4) { d->tapCount++; // printf("[%p] >> tap count: %d\n", w, d->tapCount); } else { d->tapCount = 0; } if (!isEmpty_Range(&d->mark)) { const int dist[2] = { distanceToPos_InputWidget_(d, latestPosition_Touch(), indexToCursor_InputWidget_(d, d->mark.start)), distanceToPos_InputWidget_(d, latestPosition_Touch(), indexToCursor_InputWidget_(d, d->mark.end)) }; if (dist[0] < dist[1]) { // printf("[%p] begin marker start drag\n", w); d->inFlags |= dragMarkerStart_InputWidgetFlag; } else { // printf("[%p] begin marker end drag\n", w); d->inFlags |= dragMarkerEnd_InputWidgetFlag; } d->inFlags |= isMarking_InputWidgetFlag; setFlags_Widget(w, touchDrag_WidgetFlag, iTrue); } else { const int dist = distanceToPos_InputWidget_(d, latestPosition_Touch(), d->cursor); // printf("[%p] tap dist: %d\n", w, dist); if (dist < gap_UI * 10) { // printf("[%p] begin cursor drag\n", w); setFlags_Widget(w, touchDrag_WidgetFlag, iTrue); d->inFlags |= dragCursor_InputWidgetFlag; // d->inFlags |= touchBehavior_InputWidgetFlag; // setMouseGrab_Widget(w); // return iTrue; } } // if (~d->inFlags & selectAllOnFocus_InputWidgetFlag) { // d->cursor = coordCursor_InputWidget_(d, pos_Click(&d->click)); // showCursor_InputWidget_(d); // } return true_EventResult; } } #if 0 else if (isFocused_Widget(w)) { if (ev->type == SDL_MOUSEMOTION) { if (~d->inFlags & touchBehavior_InputWidgetFlag) { const iInt2 curPos = relativeCursorCoord_InputWidget_(d); const iInt2 relClick = sub_I2(pos_Click(&d->click), topLeft_Rect(contentBounds_InputWidget_(d))); if (dist_I2(curPos, relClick) < gap_UI * 8) { // printf("tap on cursor!\n"); setFlags_Widget(w, touchDrag_WidgetFlag, iTrue); d->inFlags |= touchBehavior_InputWidgetFlag; // printf("[Input] begin cursor drag\n"); setMouseGrab_Widget(w); return iTrue; } } else if (ev->motion.x > 0 && ev->motion.y > 0) { // printf("[Input] cursor being dragged\n"); iRect bounds = shrunk_Rect(contentBounds_InputWidget_(d), one_I2()); bounds.size.y = iMini(numWrapLines_InputWidget_(d), d->maxWrapLines) * lineHeight_Text(d->font) - 2; iInt2 mpos = init_I2(ev->motion.x, ev->motion.y); mpos = min_I2(bottomRight_Rect(bounds), max_I2(mpos, topLeft_Rect(bounds))); d->cursor = coordCursor_InputWidget_(d, mpos); showCursor_InputWidget_(d); refresh_Widget(w); return iTrue; } } if (d->inFlags & touchBehavior_InputWidgetFlag) { if (ev->type == SDL_MOUSEBUTTONUP || (ev->type == SDL_USEREVENT && ev->user.code == widgetTouchEnds_UserEventCode)) { d->inFlags &= ~touchBehavior_InputWidgetFlag; setFlags_Widget(w, touchDrag_WidgetFlag, iFalse); setMouseGrab_Widget(NULL); // printf("[Input] touch ends\n"); return iFalse; } } } #endif #if 1 if ((ev->type == SDL_MOUSEBUTTONDOWN || ev->type == SDL_MOUSEBUTTONUP) && ev->button.button == SDL_BUTTON_RIGHT && contains_Widget(w, latestPosition_Touch())) { if (ev->type == SDL_MOUSEBUTTONDOWN) { /*if (isFocused_Widget(w)) { d->inFlags |= isMarking_InputWidgetFlag; d->cursor = touchCoordCursor_InputWidget_(d, latestPosition_Touch()); markWordAtCursor_InputWidget_(d); refresh_Widget(d); return true_EventResult; }*/ setFocus_Widget(w); d->inFlags |= isMarking_InputWidgetFlag; d->cursor = touchCoordCursor_InputWidget_(d, latestPosition_Touch()); markWordAtCursor_InputWidget_(d); d->cursor = indexToCursor_InputWidget_(d, d->mark.end); refresh_Widget(d); } return true_EventResult; } switch (processEvent_Click(&d->click, ev)) { case none_ClickResult: break; case started_ClickResult: { // printf("[%p] started\n", w); /* const iInt2 curPos = relativeCursorCoord_InputWidget_(d); const iInt2 relClick = sub_I2(pos_Click(&d->click), topLeft_Rect(contentBounds_InputWidget_(d))); if (dist_I2(curPos, relClick) < gap_UI * 8) { printf("tap on cursor!\n"); setFlags_Widget(w, touchDrag_WidgetFlag, iTrue); } else { printf("tap elsewhere\n"); }*/ return true_EventResult; } case drag_ClickResult: // printf("[%p] drag %d,%d\n", w, pos_Click(&d->click).x, pos_Click(&d->click).y); if (d->inFlags & dragCursor_InputWidgetFlag) { iZap(d->mark); d->cursor = touchCoordCursor_InputWidget_(d, pos_Click(&d->click)); showCursor_InputWidget_(d); refresh_Widget(w); } else if (d->inFlags & dragMarkerStart_InputWidgetFlag) { d->mark.start = cursorToIndex_InputWidget_(d, touchCoordCursor_InputWidget_(d, pos_Click(&d->click))); refresh_Widget(w); } else if (d->inFlags & dragMarkerEnd_InputWidgetFlag) { d->mark.end = cursorToIndex_InputWidget_(d, touchCoordCursor_InputWidget_(d, pos_Click(&d->click))); refresh_Widget(w); } return true_EventResult; // printf("[%p] aborted\n", w); // d->inFlags &= ~touchBehavior_InputWidgetFlag; // setFlags_Widget(w, touchDrag_WidgetFlag, iFalse); // return true_EventResult; case finished_ClickResult: case aborted_ClickResult: { // printf("[%p] ended\n", w); uint32_t tapElapsed = SDL_GetTicks() - d->tapStartTime; // printf("tapElapsed: %u\n", tapElapsed); if (!isFocused_Widget(w)) { setFocus_Widget(w); d->lastTapPos = latestPosition_Touch(); d->tapStartTime = SDL_GetTicks(); d->tapCount = 0; d->cursor = touchCoordCursor_InputWidget_(d, pos_Click(&d->click)); showCursor_InputWidget_(d); } else if (!isEmpty_Range(&d->mark) && !isMoved_Click(&d->click)) { if (isInsideMark_InputWidget_(d, cursorToIndex_InputWidget_(d, touchCoordCursor_InputWidget_(d, latestPosition_Touch())))) { showClipMenu_(latestPosition_Touch()); } else { iZap(d->mark); d->cursor = touchCoordCursor_InputWidget_(d, pos_Click(&d->click)); } } else if (SDL_GetTicks() - d->lastTapTime > 1000 && d->tapCount == 0 && isEmpty_Range(&d->mark) && !isMoved_Click(&d->click) && distanceToPos_InputWidget_(d, latestPosition_Touch(), d->cursor) < gap_UI * 5) { showClipMenu_(latestPosition_Touch()); } else { if (~d->inFlags & isMarking_InputWidgetFlag) { iZap(d->mark); d->cursor = touchCoordCursor_InputWidget_(d, pos_Click(&d->click)); } } if (d->inFlags & (dragCursor_InputWidgetFlag | dragMarkerStart_InputWidgetFlag | dragMarkerEnd_InputWidgetFlag)) { // printf("[%p] finished cursor/marker drag\n", w); d->inFlags &= ~(dragCursor_InputWidgetFlag | dragMarkerStart_InputWidgetFlag | dragMarkerEnd_InputWidgetFlag); setFlags_Widget(w, touchDrag_WidgetFlag, iFalse); } d->inFlags &= ~isMarking_InputWidgetFlag; showCursor_InputWidget_(d); refresh_Widget(w); #if 0 d->inFlags &= ~touchBehavior_InputWidgetFlag; if (flags_Widget(w) & touchDrag_WidgetFlag) { setFlags_Widget(w, touchDrag_WidgetFlag, iFalse); return true_EventResult; } if (!isMoved_Click(&d->click)) { if (!isFocused_Widget(w)) { setFocus_Widget(w); if (~d->inFlags & selectAllOnFocus_InputWidgetFlag) { d->cursor = coordCursor_InputWidget_(d, pos_Click(&d->click)); showCursor_InputWidget_(d); } } else { iZap(d->mark); d->cursor = coordCursor_InputWidget_(d, pos_Click(&d->click)); showCursor_InputWidget_(d); } } #endif return true_EventResult; } } #endif // if ((ev->type == SDL_MOUSEBUTTONDOWN || ev->type == SDL_MOUSEBUTTONUP) && // contains_Widget(w, init_I2(ev->button.x, ev->button.y))) { // /* Eat all mouse clicks on the widget. */ // return true_EventResult; // } return ignored_EventResult; } static iBool processEvent_InputWidget_(iInputWidget *d, const SDL_Event *ev) { iWidget *w = as_Widget(d); /* Resize according to width immediately. */ if (d->lastUpdateWidth != w->rect.size.x) { d->inFlags |= needUpdateBuffer_InputWidgetFlag; if (d->inFlags & isUrl_InputWidgetFlag) { /* Restore/omit the default scheme if necessary. */ setText_InputWidget(d, text_InputWidget(d)); } updateAllLinesAndResizeHeight_InputWidget_(d); d->lastUpdateWidth = w->rect.size.x; } if (isCommand_Widget(w, ev, "focus.gained")) { begin_InputWidget(d); return iFalse; } else if (isEditing_InputWidget_(d) && (isCommand_UserEvent(ev, "window.focus.lost") || isCommand_UserEvent(ev, "window.focus.gained"))) { startOrStopCursorTimer_InputWidget_(d, isCommand_UserEvent(ev, "window.focus.gained")); d->cursorVis = 1; refresh_Widget(d); return iFalse; } else if (isCommand_UserEvent(ev, "keyroot.changed")) { d->inFlags |= needUpdateBuffer_InputWidgetFlag; } else if (isCommand_UserEvent(ev, "lang.changed")) { set_String(&d->hint, &d->srcHint); translate_Lang(&d->hint); return iFalse; } else if (isCommand_Widget(w, ev, "focus.lost")) { end_InputWidget(d, iTrue); return iFalse; } else if ((isCommand_UserEvent(ev, "copy") || isCommand_UserEvent(ev, "input.copy")) && isEditing_InputWidget_(d)) { copy_InputWidget_(d, argLabel_Command(command_UserEvent(ev), "cut")); return iTrue; } else if (isCommand_UserEvent(ev, "input.paste") && isEditing_InputWidget_(d)) { paste_InputWidget_(d); return iTrue; } else if (isCommand_UserEvent(ev, "input.undo") && isEditing_InputWidget_(d)) { if (popUndo_InputWidget_(d)) { refresh_Widget(w); contentsWereChanged_InputWidget_(d); } return iTrue; } else if (isCommand_UserEvent(ev, "input.selectall") && isEditing_InputWidget_(d)) { selectAll_InputWidget(d); return iTrue; } else if (isCommand_UserEvent(ev, "theme.changed")) { if (d->buffered) { d->inFlags |= needUpdateBuffer_InputWidgetFlag; } return iFalse; } /* TODO: Scroll to keep widget visible when keyboard appears. */ // else if (isCommand_UserEvent(ev, "keyboard.changed")) { // if (isFocused_Widget(d) && arg_Command(command_UserEvent(ev))) { // iRect rect = bounds_Widget(w); // rect.pos.y -= value_Anim(&get_Window()->rootOffset); // const iInt2 visRoot = visibleSize_Root(w->root); // if (bottom_Rect(rect) > visRoot.y) { // setValue_Anim(&get_Window()->rootOffset, -(bottom_Rect(rect) - visRoot.y), 250); // } // } // return iFalse; // } else if (isCommand_UserEvent(ev, "text.insert")) { pushUndo_InputWidget_(d); deleteMarked_InputWidget_(d); insertChar_InputWidget_(d, arg_Command(command_UserEvent(ev))); contentsWereChanged_InputWidget_(d); return iTrue; } else if (isCommand_Widget(w, ev, "input.backup")) { if (d->inFlags & needBackup_InputWidgetFlag) { saveBackup_InputWidget_(d); } return iTrue; } else if (isMetricsChange_UserEvent(ev)) { updateMetrics_InputWidget_(d); // updateLinesAndResize_InputWidget_(d); } else if (isFocused_Widget(d) && isCommand_UserEvent(ev, "copy")) { copy_InputWidget_(d, iFalse); return iTrue; } if (ev->type == SDL_MOUSEWHEEL && contains_Widget(w, coord_MouseWheelEvent(&ev->wheel))) { if (numWrapLines_InputWidget_(d) <= size_Range(&d->visWrapLines)) { return ignored_EventResult; } const int lineHeight = lineHeight_Text(d->font); if (isPerPixel_MouseWheelEvent(&ev->wheel)) { d->wheelAccum -= ev->wheel.y; } else { d->wheelAccum -= ev->wheel.y * 3 * lineHeight; } int lineDelta = d->wheelAccum / lineHeight; if (lineDelta < 0) { lineDelta = iMax(lineDelta, -d->visWrapLines.start); if (!lineDelta) d->wheelAccum = 0; } else if (lineDelta > 0) { lineDelta = iMin(lineDelta, lastLine_InputWidget_(d)->wrapLines.end - d->visWrapLines.end); if (!lineDelta) d->wheelAccum = 0; } if (lineDelta) { d->wheelAccum -= lineDelta * lineHeight; d->visWrapLines.start += lineDelta; d->visWrapLines.end += lineDelta; d->inFlags |= needUpdateBuffer_InputWidgetFlag; refresh_Widget(d); return true_EventResult; } return false_EventResult; } /* Click behavior depends on device type. */ { const int mbResult = (deviceType_App() == desktop_AppDeviceType ? processPointerEvents_InputWidget_(d, ev) : processTouchEvents_InputWidget_(d, ev)); if (mbResult) { return mbResult >> 1; } } if (ev->type == SDL_KEYUP && isFocused_Widget(w)) { return iTrue; } const iInt2 curMax = cursorMax_InputWidget_(d); const iInt2 lineFirst = init_I2(0, d->cursor.y); const iInt2 lineLast = init_I2(endX_InputWidget_(d, d->cursor.y), d->cursor.y); if (ev->type == SDL_KEYDOWN && isFocused_Widget(w)) { const int key = ev->key.keysym.sym; const int mods = keyMods_Sym(ev->key.keysym.mod); if (mods == KMOD_PRIMARY) { switch (key) { case 'c': case 'x': copy_InputWidget_(d, key == 'x'); return iTrue; case 'v': paste_InputWidget_(d); return iTrue; case 'z': if (popUndo_InputWidget_(d)) { refresh_Widget(w); contentsWereChanged_InputWidget_(d); } return iTrue; } } #if defined (iPlatformApple) if (mods == KMOD_PRIMARY || mods == (KMOD_PRIMARY | KMOD_SHIFT)) { switch (key) { case SDLK_UP: case SDLK_DOWN: setCursor_InputWidget(d, key == SDLK_UP ? zero_I2() : curMax); refresh_Widget(d); return iTrue; } } #endif d->prevCursor = d->cursor; switch (key) { case SDLK_INSERT: if (mods == KMOD_SHIFT) { paste_InputWidget_(d); } return iTrue; case SDLK_RETURN: case SDLK_KP_ENTER: if (~d->inFlags & isSensitive_InputWidgetFlag && ~d->inFlags & isUrl_InputWidgetFlag && d->inFlags & lineBreaksEnabled_InputWidgetFlag && d->maxLen == 0) { if (checkLineBreakMods_InputWidget_(d, mods)) { pushUndo_InputWidget_(d); deleteMarked_InputWidget_(d); insertChar_InputWidget_(d, '\n'); contentsWereChanged_InputWidget_(d); return iTrue; } } if (d->inFlags & enterKeyEnabled_InputWidgetFlag && (checkAcceptMods_InputWidget_(d, mods) || (~d->inFlags & lineBreaksEnabled_InputWidgetFlag))) { d->inFlags |= enterPressed_InputWidgetFlag; setFocus_Widget(NULL); return iTrue; } return iFalse; case SDLK_ESCAPE: end_InputWidget(d, iTrue); setFocus_Widget(NULL); return (d->inFlags & eatEscape_InputWidgetFlag) != 0; case SDLK_BACKSPACE: if (!isEmpty_Range(&d->mark)) { pushUndo_InputWidget_(d); deleteMarked_InputWidget_(d); contentsWereChanged_InputWidget_(d); } else if (mods & byWord_KeyModifier) { pushUndo_InputWidget_(d); d->mark.start = cursorToIndex_InputWidget_(d, d->cursor); d->mark.end = cursorToIndex_InputWidget_(d, skipWord_InputWidget_(d, d->cursor, -1)); deleteMarked_InputWidget_(d); contentsWereChanged_InputWidget_(d); } else if (!isEqual_I2(d->cursor, zero_I2())) { pushUndo_InputWidget_(d); d->mark.end = cursorToIndex_InputWidget_(d, d->cursor); movePos_InputWidget_(d, &d->cursor, -1); d->mark.start = cursorToIndex_InputWidget_(d, d->cursor); deleteMarked_InputWidget_(d); contentsWereChanged_InputWidget_(d); } else if (isEqual_I2(d->cursor, zero_I2()) && d->maxLen == 1) { pushUndo_InputWidget_(d); iInputLine *line = cursorLine_InputWidget_(d); clear_String(&line->text); lineTextWasChanged_InputWidget_(d, line); contentsWereChanged_InputWidget_(d); } showCursor_InputWidget_(d); refresh_Widget(w); return iTrue; case SDLK_d: if (mods != KMOD_CTRL) break; case SDLK_DELETE: if (!isEmpty_Range(&d->mark)) { pushUndo_InputWidget_(d); deleteMarked_InputWidget_(d); contentsWereChanged_InputWidget_(d); } else if (mods & byWord_KeyModifier) { pushUndo_InputWidget_(d); d->mark.start = cursorToIndex_InputWidget_(d, d->cursor); d->mark.end = cursorToIndex_InputWidget_(d, skipWord_InputWidget_(d, d->cursor, +1)); deleteMarked_InputWidget_(d); contentsWereChanged_InputWidget_(d); } else if (!isEqual_I2(d->cursor, curMax)) { pushUndo_InputWidget_(d); deleteIndexRange_InputWidget_(d, (iRanges){ cursorToIndex_InputWidget_(d, d->cursor), cursorToIndex_InputWidget_(d, movedCursor_InputWidget_(d, d->cursor, +1, 0)) }); contentsWereChanged_InputWidget_(d); } showCursor_InputWidget_(d); refresh_Widget(w); return iTrue; case SDLK_k: if (mods == KMOD_CTRL) { if (!isEmpty_Range(&d->mark)) { pushUndo_InputWidget_(d); deleteMarked_InputWidget_(d); contentsWereChanged_InputWidget_(d); } else { pushUndo_InputWidget_(d); iInputLine *line = cursorLine_InputWidget_(d); truncate_String(&line->text, d->cursor.x); if (!isLastLine_InputWidget_(d, line)) { appendCStr_String(&line->text, "\n"); /* must have a newline */ } lineTextWasChanged_InputWidget_(d, line); contentsWereChanged_InputWidget_(d); } showCursor_InputWidget_(d); refresh_Widget(w); return iTrue; } break; case SDLK_HOME: case SDLK_END: if (mods == KMOD_PRIMARY || mods == (KMOD_PRIMARY | KMOD_SHIFT)) { setCursor_InputWidget(d, key == SDLK_HOME ? zero_I2() : curMax); } else { moveCursorByLine_InputWidget_(d, 0, key == SDLK_HOME ? -1 : +1); } refresh_Widget(w); return iTrue; case SDLK_a: #if defined (iPlatformApple) if (mods == KMOD_PRIMARY) { #else if (mods == (KMOD_PRIMARY | KMOD_SHIFT)) { #endif selectAll_InputWidget(d); d->mark.start = 0; d->mark.end = cursorToIndex_InputWidget_(d, curMax); d->cursor = curMax; showCursor_InputWidget_(d); refresh_Widget(w); return iTrue; } /* fall through for Emacs-style Home/End */ case SDLK_e: if (mods == KMOD_CTRL || mods == (KMOD_CTRL | KMOD_SHIFT)) { setCursor_InputWidget(d, key == 'a' ? lineFirst : lineLast); refresh_Widget(w); return iTrue; } break; case SDLK_LEFT: case SDLK_RIGHT: { const int dir = (key == SDLK_LEFT ? -1 : +1); if (mods & byLine_KeyModifier) { moveCursorByLine_InputWidget_(d, 0, dir); } else if (mods & byWord_KeyModifier) { setCursor_InputWidget(d, skipWord_InputWidget_(d, d->cursor, dir)); } else if (!isMarking_() && !isEmpty_Range(&d->mark)) { const iRanges m = mark_InputWidget_(d); setCursor_InputWidget(d, indexToCursor_InputWidget_(d, dir < 0 ? m.start : m.end)); iZap(d->mark); } else { setCursor_InputWidget(d, movedCursor_InputWidget_(d, d->cursor, dir, 0)); } refresh_Widget(w); return iTrue; } case SDLK_TAB: /* Allow focus switching. */ return processEvent_Widget(as_Widget(d), ev); case SDLK_UP: case SDLK_DOWN: if (moveCursorByLine_InputWidget_(d, key == SDLK_UP ? -1 : +1, 0)) { refresh_Widget(d); return iTrue; } if (isArrowUpDownConsumed_InputWidget_(d)) { return iTrue; } /* For moving to lookup from url entry. */ return processEvent_Widget(as_Widget(d), ev); case SDLK_PAGEUP: case SDLK_PAGEDOWN: for (int count = 0; count < 5; count++) { moveCursorByLine_InputWidget_(d, key == SDLK_PAGEUP ? -1 : +1, 0); } refresh_Widget(d); return iTrue; } if (mods & (KMOD_PRIMARY | KMOD_SECONDARY)) { return iFalse; } return iTrue; } else if (ev->type == SDL_TEXTINPUT && isFocused_Widget(w)) { pushUndo_InputWidget_(d); deleteMarked_InputWidget_(d); insertRange_InputWidget_(d, range_CStr(ev->text.text)); contentsWereChanged_InputWidget_(d); return iTrue; } return processEvent_Widget(w, ev); } iDeclareType(MarkPainter) struct Impl_MarkPainter { iPaint * paint; const iInputWidget *d; iRect contentBounds; const iInputLine * line; iInt2 pos; iRanges mark; iRect firstMarkRect; iRect lastMarkRect; }; static iBool draw_MarkPainter_(iWrapText *wrapText, iRangecc wrappedText, int origin, int advance, iBool isBaseRTL) { iUnused(isBaseRTL); iMarkPainter *mp = wrapText->context; const iRanges mark = mp->mark; if (isEmpty_Range(&mark)) { return iTrue; /* nothing marked */ } const char *cstr = cstr_String(&mp->line->text); const iRanges lineRange = { wrappedText.start - cstr + mp->line->range.start, wrappedText.end - cstr + mp->line->range.start }; if (mark.end <= lineRange.start || mark.start >= lineRange.end) { mp->pos.y += lineHeight_Text(mp->d->font); return iTrue; /* outside of mark */ } iRect rect = { addX_I2(mp->pos, origin), init_I2(advance, lineHeight_Text(mp->d->font)) }; if (mark.end < lineRange.end) { /* Calculate where the mark ends. */ const iRangecc markedPrefix = { wrappedText.start, wrappedText.start + mark.end - lineRange.start }; rect.size.x = measureRange_Text(mp->d->font, markedPrefix).advance.x; } if (mark.start > lineRange.start) { /* Calculate where the mark starts. */ const iRangecc unmarkedPrefix = { wrappedText.start, wrappedText.start + mark.start - lineRange.start }; adjustEdges_Rect(&rect, 0, 0, 0, measureRange_Text(mp->d->font, unmarkedPrefix).advance.x); } rect.size.x = iMax(gap_UI / 3, rect.size.x); mp->pos.y += lineHeight_Text(mp->d->font); fillRect_Paint(mp->paint, rect, uiMarked_ColorId | opaque_ColorId); if (deviceType_App() != desktop_AppDeviceType) { if (isEmpty_Rect(mp->firstMarkRect)) mp->firstMarkRect = rect; mp->lastMarkRect = rect; } return iTrue; } static void draw_InputWidget_(const iInputWidget *d) { const iWidget *w = constAs_Widget(d); iRect bounds = adjusted_Rect(bounds_InputWidget_(d), padding_(), neg_I2(padding_())); iBool isHint = isHintVisible_InputWidget_(d); const iBool isFocused = isFocused_Widget(w); const iBool isHover = deviceType_App() == desktop_AppDeviceType && isHover_Widget(w) && contains_InputWidget_(d, mouseCoord_Window(get_Window(), 0)); if (d->inFlags & needUpdateBuffer_InputWidgetFlag) { updateBuffered_InputWidget_(iConstCast(iInputWidget *, d)); } iPaint p; init_Paint(&p); /* `lines` is already up to date and ready for drawing. */ fillRect_Paint( &p, bounds, isFocused ? uiInputBackgroundFocused_ColorId : uiInputBackground_ColorId); drawRectThickness_Paint(&p, adjusted_Rect(bounds, neg_I2(one_I2()), zero_I2()), isFocused ? gap_UI / 4 : 1, isFocused ? uiInputFrameFocused_ColorId : isHover ? uiInputFrameHover_ColorId : uiInputFrame_ColorId); setClip_Paint(&p, adjusted_Rect(bounds, init_I2(d->leftPadding, 0), init_I2(-d->rightPadding, w->flags & extraPadding_WidgetFlag ? -gap_UI / 2 : 0))); const iRect contentBounds = contentBounds_InputWidget_(d); iInt2 drawPos = topLeft_Rect(contentBounds); const int fg = isHint ? uiAnnotation_ColorId : isFocused /*&& !isEmpty_Array(&d->lines)*/ ? uiInputTextFocused_ColorId : uiInputText_ColorId; iWrapText wrapText = { .maxWidth = d->maxLen == 0 ? width_Rect(contentBounds) : unlimitedWidth_InputWidget_, .mode = (d->inFlags & isUrl_InputWidgetFlag ? anyCharacter_WrapTextMode : word_WrapTextMode), .overrideChar = (d->inFlags & isSensitive_InputWidgetFlag ? sensitiveChar_ : 0), }; const iRangei visLines = visibleLineRange_InputWidget_(d); const int visLineOffsetY = visLineOffsetY_InputWidget_(d); iRect markerRects[2] = { zero_Rect(), zero_Rect() }; /* If buffered, just draw the buffered copy. */ if (d->buffered && !isFocused) { /* Most input widgets will use this, since only one is focused at a time. */ draw_TextBuf(d->buffered, addY_I2(drawPos, visLineOffsetY), white_ColorId); } else if (isHint) { drawRange_Text(d->font, drawPos, uiAnnotation_ColorId, range_String(&d->hint)); } else { iAssert(~d->inFlags & isSensitive_InputWidgetFlag || size_Range(&visLines) == 1); drawPos.y += visLineOffsetY; iMarkPainter marker = { .paint = &p, .d = d, .contentBounds = contentBounds, .mark = mark_InputWidget_(d), }; wrapText.context = ▮ wrapText.wrapFunc = isFocused ? draw_MarkPainter_ : NULL; /* mark is drawn under each line of text */ for (size_t vis = visLines.start; vis < visLines.end; vis++) { const iInputLine *line = constAt_Array(&d->lines, vis); wrapText.text = range_String(&line->text); marker.line = line; marker.pos = drawPos; addv_I2(&drawPos, draw_WrapText(&wrapText, d->font, drawPos, fg).advance); /* lines end with \n */ } markerRects[0] = marker.firstMarkRect; markerRects[1] = marker.lastMarkRect; wrapText.wrapFunc = NULL; wrapText.context = NULL; } /* Draw the insertion point. */ if (isFocused && d->cursorVis && contains_Range(&visLines, d->cursor.y) && (deviceType_App() == desktop_AppDeviceType || isEmpty_Range(&d->mark))) { iInt2 curSize; iRangecc cursorChar = iNullRange; int visWrapsAbove = 0; for (int i = d->cursor.y - 1; i >= visLines.start; i--) { const iInputLine *line = constAt_Array(&d->lines, i); visWrapsAbove += numWrapLines_InputLine_(line); } if (d->mode == overwrite_InputMode) { /* Block cursor that overlaps a character. */ cursorChar.start = charPos_InputWidget_(d, d->cursor); iChar ch = 0; int n = decodeBytes_MultibyteChar(cursorChar.start, constEnd_String(&constCursorLine_InputWidget_(d)->text), &ch); cursorChar.end = cursorChar.start + iMax(n, 0); if (ch) { if (d->inFlags & isSensitive_InputWidgetFlag) { cursorChar = range_CStr(sensitive_); } } else { cursorChar = range_CStr(" "); } curSize = addX_I2(measureRange_Text(d->font, ch ? cursorChar : range_CStr("0")).bounds.size, iMin(2, gap_UI / 4)); } else { /* Bar cursor. */ curSize = init_I2(gap_UI / 2, lineHeight_Text(d->font)); } const iInt2 advance = relativeCursorCoord_InputWidget_(d); const iInt2 curPos = add_I2(addY_I2(topLeft_Rect(contentBounds), visLineOffsetY + visWrapsAbove * lineHeight_Text(d->font)), addX_I2(advance, (d->mode == insert_InputMode ? -curSize.x / 2 : 0))); const iRect curRect = { curPos, curSize }; fillRect_Paint(&p, curRect, uiInputCursor_ColorId); if (d->mode == overwrite_InputMode) { /* The `gap_UI` offset below is a hack. They are used because for some reason the cursor rect and the glyph inside don't quite position like during `run_Text_()`. */ drawRange_Text(d->font, addX_I2(curPos, iMin(1, gap_UI / 8)), uiInputCursorText_ColorId, cursorChar); } } unsetClip_Paint(&p); if (!isEmpty_Rect(markerRects[0])) { for (int i = 0; i < 2; ++i) { drawPin_Paint(&p, markerRects[i], i, uiTextCaution_ColorId); } } drawChildren_Widget(w); } iBeginDefineSubclass(InputWidget, Widget) .processEvent = (iAny *) processEvent_InputWidget_, .draw = (iAny *) draw_InputWidget_, iEndDefineSubclass(InputWidget)