public float getCharacterAdvance(char curChar, char nextChar, float size) { BitmapCharacter c = charSet.getCharacter(curChar); if (c == null) return 0f; float advance = size * c.getXAdvance(); advance += c.getKerning(nextChar) * size; return advance; }
void setBitmapChar(BitmapCharacter bitmapChar) { x0 = Integer.MIN_VALUE; y0 = Integer.MIN_VALUE; width = Integer.MIN_VALUE; height = Integer.MIN_VALUE; alignX = 0; alignY = 0; BitmapCharacterSet charSet = font.getCharSet(); this.bitmapChar = bitmapChar; if (bitmapChar != null) { u0 = (float) bitmapChar.getX() / charSet.getWidth(); v0 = (float) bitmapChar.getY() / charSet.getHeight(); u1 = u0 + (float) bitmapChar.getWidth() / charSet.getWidth(); v1 = v0 + (float) bitmapChar.getHeight() / charSet.getHeight(); } else { u0 = 0; v0 = 0; u1 = 0; v1 = 0; } }
/** * Merge two fonts. If two font have the same style, merge will fail. * * @param styleSet Style must be assigned to this. * @author Yonghoon */ public void merge(BitmapFont newFont) { charSet.merge(newFont.charSet); final int size1 = this.pages.length; final int size2 = newFont.pages.length; Material[] tmp = new Material[size1 + size2]; System.arraycopy(this.pages, 0, tmp, 0, size1); System.arraycopy(newFont.pages, 0, tmp, size1, size2); this.pages = tmp; // this.pages = Arrays.copyOf(this.pages, size1+size2); // System.arraycopy(newFont.pages, 0, this.pages, size1, size2); }
void setBitmapChar(char c) { BitmapCharacterSet charSet = font.getCharSet(); BitmapCharacter bm = charSet.getCharacter(c, style); setBitmapChar(bm); }
public void setPages(Material[] pages) { this.pages = pages; charSet.setPageSize(pages.length); }
public void setStyle(int style) { charSet.setStyle(style); }
public float getLineWidth(CharSequence text) { // This method will probably always be a bit of a maintenance // nightmare since it basis its calculation on a different // routine than the Letters class. The ideal situation would // be to abstract out letter position and size into its own // class that both BitmapFont and Letters could use for // positioning. // If getLineWidth() here ever again returns a different value // than Letters does with the same text then it might be better // just to create a Letters object for the sole purpose of // getting a text size. It's less efficient but at least it // would be accurate. // And here I am mucking around in here again... // // A font character has a few values that are pertinent to the // line width: // xOffset // xAdvance // kerningAmount(nextChar) // // The way BitmapText ultimately works is that the first character // starts with xOffset included (ie: it is rendered at -xOffset). // Its xAdvance is wider to accomodate that initial offset. // The cursor position is advanced by xAdvance each time. // // So, a width should be calculated in a similar way. Start with // -xOffset + xAdvance for the first character and then each subsequent // character is just xAdvance more 'width'. // // The kerning amount from one character to the next affects the // cursor position of that next character and thus the ultimate width // and so must be factored in also. float lineWidth = 0f; float maxLineWidth = 0f; char lastChar = 0; boolean firstCharOfLine = true; // float sizeScale = (float) block.getSize() / charSet.getRenderedSize(); float sizeScale = 1f; for (int i = 0; i < text.length(); i++) { char theChar = text.charAt(i); if (theChar == '\n') { maxLineWidth = Math.max(maxLineWidth, lineWidth); lineWidth = 0f; firstCharOfLine = true; continue; } BitmapCharacter c = charSet.getCharacter((int) theChar); if (c != null) { if (theChar == '\\' && i < text.length() - 1 && text.charAt(i + 1) == '#') { if (i + 5 < text.length() && text.charAt(i + 5) == '#') { i += 5; continue; } else if (i + 8 < text.length() && text.charAt(i + 8) == '#') { i += 8; continue; } } if (!firstCharOfLine) { lineWidth += findKerningAmount(lastChar, theChar) * sizeScale; } else { // The first character needs to add in its xOffset but it // is the only one... and negative offsets = postive width // because we're trying to account for the part that hangs // over the left. So we subtract. lineWidth -= c.getXOffset() * sizeScale; firstCharOfLine = false; } float xAdvance = c.getXAdvance() * sizeScale; // If this is the last character, then we really should have // only add its width. The advance may include extra spacing // that we don't care about. if (i == text.length() - 1) { lineWidth += c.getWidth() * sizeScale; // Since theh width includes the xOffset then we need // to take it out again by adding it, ie: offset the width // we just added by the appropriate amount. lineWidth += c.getXOffset() * sizeScale; } else { lineWidth += xAdvance; } } } return Math.max(maxLineWidth, lineWidth); }
private int findKerningAmount(int newLineLastChar, int nextChar) { BitmapCharacter c = charSet.getCharacter(newLineLastChar); if (c == null) return 0; return c.getKerning(nextChar); }
/** * Gets the line height of a StringBlock. * * @param sb * @return */ public float getLineHeight(StringBlock sb) { return charSet.getLineHeight() * (sb.getSize() / charSet.getRenderedSize()); }