/** * Provides a mapping from the view coordinate space to the logical coordinate space of the model. * * @param fx the X coordinate >= 0 * @param fy the Y coordinate >= 0 * @param a the allocated region to render into * @return the location within the model that best represents the given point in the view >= 0 */ @Override public int viewToModel(float fx, float fy, Shape a, Position.Bias[] bias) { bias[0] = Position.Bias.Forward; Rectangle alloc = a.getBounds(); RSyntaxDocument doc = (RSyntaxDocument) getDocument(); int x = (int) fx; int y = (int) fy; // If they're asking about a view position above the area covered by // this view, then the position is assumed to be the starting position // of this view. if (y < alloc.y) { return getStartOffset(); } // If they're asking about a position below this view, the position // is assumed to be the ending position of this view. else if (y > alloc.y + alloc.height) { return host.getLastVisibleOffset(); } // They're asking about a position within the coverage of this view // vertically. So, we figure out which line the point corresponds to. // If the line is greater than the number of lines contained, then // simply use the last line as it represents the last possible place // we can position to. else { Element map = doc.getDefaultRootElement(); int lineIndex = Math.abs((y - alloc.y) / lineHeight); // metrics.getHeight() ); FoldManager fm = host.getFoldManager(); // System.out.print("--- " + lineIndex); lineIndex += fm.getHiddenLineCountAbove(lineIndex, true); // System.out.println(" => " + lineIndex); if (lineIndex >= map.getElementCount()) { return host.getLastVisibleOffset(); } Element line = map.getElement(lineIndex); // If the point is to the left of the line... if (x < alloc.x) { return line.getStartOffset(); } else if (x > alloc.x + alloc.width) { return line.getEndOffset() - 1; } else { // Determine the offset into the text int p0 = line.getStartOffset(); Token tokenList = doc.getTokenListForLine(lineIndex); tabBase = alloc.x; int offs = tokenList.getListOffset((RSyntaxTextArea) getContainer(), this, tabBase, x); return offs != -1 ? offs : p0; } } // End of else. }
/** * Determines the position in the model that is closest to the given view location in the row * below. The component given must have a size to compute the result. If the component doesn't * have a size a value of -1 will be returned. * * @param c the editor * @param offs the offset in the document >= 0 * @param x the X coordinate >= 0 * @return the position >= 0 if the request can be computed, otherwise a value of -1 will be * returned. * @exception BadLocationException if the offset is out of range */ public static final int getPositionBelow(RSyntaxTextArea c, int offs, float x, TabExpander e) throws BadLocationException { TokenOrientedView tov = (TokenOrientedView) e; Token token = tov.getTokenListForPhysicalLineBelow(offs); if (token == null) return -1; // A line containing only Token.NULL is an empty line. else if (token.type == Token.NULL) { int line = c.getLineOfOffset(offs); // Sure to be > c.getLineCount()-1 ?? return c.getLineStartOffset(line + 1); } else { return token.getListOffset(c, e, 0, x); } }
/** * Provides a mapping from the view coordinate space to the logical coordinate space of the * model. * * @param fx the X coordinate * @param fy the Y coordinate * @param a the allocated region to render into * @return the location within the model that best represents the given point in the view * @see View#viewToModel */ @Override public int viewToModel(float fx, float fy, Shape a, Position.Bias[] bias) { // PENDING(prinz) implement bias properly bias[0] = Position.Bias.Forward; Rectangle alloc = (Rectangle) a; RSyntaxDocument doc = (RSyntaxDocument) getDocument(); int x = (int) fx; int y = (int) fy; if (y < alloc.y) { // above the area covered by this icon, so the the position // is assumed to be the start of the coverage for this view. return getStartOffset(); } else if (y > alloc.y + alloc.height) { // below the area covered by this icon, so the the position // is assumed to be the end of the coverage for this view. return getEndOffset() - 1; } else { // positioned within the coverage of this view vertically, // so we figure out which line the point corresponds to. // if the line is greater than the number of lines // contained, then simply use the last line as it represents // the last possible place we can position to. RSyntaxTextArea textArea = (RSyntaxTextArea) getContainer(); alloc.height = textArea.getLineHeight(); int p1 = getEndOffset(); // Get the token list for this line so we don't have to keep // recomputing it if this logical line spans multiple // physical lines. Element map = doc.getDefaultRootElement(); int p0 = getStartOffset(); int line = map.getElementIndex(p0); Token tlist = doc.getTokenListForLine(line); // Look at each physical line-chunk of this logical line. while (p0 < p1) { // We can always use alloc.x since we always break // lines so they start at the beginning of a physical // line. TokenSubList subList = TokenUtils.getSubTokenList( tlist, p0, WrappedSyntaxView.this, textArea, alloc.x, lineCountTempToken); tlist = subList != null ? subList.tokenList : null; int p = calculateBreakPosition(p0, tlist, alloc.x); // If desired view position is in this physical chunk. if ((y >= alloc.y) && (y < (alloc.y + alloc.height))) { // Point is to the left of the line if (x < alloc.x) { return p0; } // Point is to the right of the line else if (x > alloc.x + alloc.width) { return p - 1; } // Point is in this physical line! else { // Start at alloc.x since this chunk starts // at the beginning of a physical line. int n = tlist.getListOffset(textArea, WrappedSyntaxView.this, alloc.x, x); // NOTE: We needed to add the max() with // p0 as getTokenListForLine returns -1 // for empty lines (just a null token). // How did this work before? // FIXME: Have null tokens have their // offset but a -1 length. return Math.max(Math.min(n, p1 - 1), p0); } // End of else. } // End of if ((y>=alloc.y) && ... p0 = (p == p0) ? p1 : p; alloc.y += alloc.height; } // End of while (p0<p1). return getEndOffset() - 1; } // End of else. }