Esempio n. 1
0
  /**
   * draws the x-labels on the specified y-position
   *
   * @param pos
   */
  protected void drawLabels(Canvas c, float pos) {

    // pre allocate to save performance (dont allocate in loop)
    float[] position = new float[] {0f, 0f};

    for (int i = mMinX; i <= mMaxX; i += mXAxis.mAxisLabelModulus) {

      position[0] = i;

      mTrans.pointValuesToPixel(position);

      if (mViewPortHandler.isInBoundsX(position[0])) {

        String label = mXAxis.getValues().get(i);
        if (mXAxis.isAvoidFirstLastClippingEnabled()) {

          // avoid clipping of the last
          if (i == mXAxis.getValues().size() - 1 && mXAxis.getValues().size() > 1) {
            float width = Utils.calcTextWidth(mAxisLabelPaint, label);

            if (width > mViewPortHandler.offsetRight() * 2
                && position[0] + width > mViewPortHandler.getChartWidth()) position[0] -= width / 2;

            // avoid clipping of the first
          } else if (i == 0) {

            float width = Utils.calcTextWidth(mAxisLabelPaint, label);
            position[0] += width / 2;
          }
        }

        c.drawText(label, position[0], pos, mAxisLabelPaint);
      }
    }
  }
Esempio n. 2
0
  /** setup the x-axis labels */
  private void prepareXLabels() {

    StringBuffer a = new StringBuffer();

    int max = (int) Math.round(mCurrentData.getXValAverageLength());

    for (int i = 0; i < max; i++) {
      a.append("h");
    }

    mXLabels.mLabelWidth = Utils.calcTextWidth(mXLabelPaint, a.toString());
    mXLabels.mLabelHeight = Utils.calcTextWidth(mXLabelPaint, "Q");
  }
  /**
   * draws the x-labels on the specified y-position
   *
   * @param pos
   */
  @Override
  protected void drawLabels(Canvas c, float pos) {

    // pre allocate to save performance (dont allocate in loop)
    float[] position = new float[] {0f, 0f};

    BarData bd = mChart.getData();
    int step = bd.getDataSetCount();

    for (int i = mMinX; i <= mMaxX; i += mXAxis.mAxisLabelModulus) {

      position[0] = i * step + i * bd.getGroupSpace() + bd.getGroupSpace() / 2f;

      // consider groups (center label for each group)
      if (step > 1) {
        position[0] += ((float) step - 1f) / 2f;
      }

      mTrans.pointValuesToPixel(position);

      if (mViewPortHandler.isInBoundsX(position[0]) && i >= 0 && i < mXAxis.getValues().size()) {

        String label = mXAxis.getValues().get(i);
        int color = mXAxis.getTextColor(i);
        mAxisLabelPaint.setColor(color);

        if (mXAxis.isAvoidFirstLastClippingEnabled()) {

          // avoid clipping of the last
          if (i == mXAxis.getValues().size() - 1) {
            float width = Utils.calcTextWidth(mAxisLabelPaint, label);

            if (width > mViewPortHandler.offsetRight() * 2
                && position[0] + width > mViewPortHandler.getChartWidth()) position[0] -= width / 2;

            // avoid clipping of the first
          } else if (i == 0) {

            float width = Utils.calcTextWidth(mAxisLabelPaint, label);
            position[0] += width / 2;
          }
        }

        c.drawText(label, position[0], pos, mAxisLabelPaint);
      }
    }
  }
Esempio n. 4
0
  /**
   * returns the maximum length in pixels across all legend labels + formsize + formtotextspace
   *
   * @param p the paint object used for rendering the text
   * @return
   */
  public float getMaximumEntryWidth(Paint p) {

    float max = 0f;

    for (int i = 0; i < mLabels.length; i++) {

      if (mLabels[i] != null) {

        float length = (float) Utils.calcTextWidth(p, mLabels[i]);

        if (length > max) max = length;
      }
    }

    return max + mFormSize + mFormToTextSpace;
  }
Esempio n. 5
0
  public void computeAxis(float xValAverageLength, List<String> xValues) {

    mAxisLabelPaint.setTypeface(mXAxis.getTypeface());
    mAxisLabelPaint.setTextSize(mXAxis.getTextSize());

    StringBuffer a = new StringBuffer();

    int max = (int) Math.round(xValAverageLength + mXAxis.getSpaceBetweenLabels());

    for (int i = 0; i < max; i++) {
      a.append("h");
    }

    mXAxis.mLabelWidth = Utils.calcTextWidth(mAxisLabelPaint, a.toString());
    mXAxis.mLabelHeight = Utils.calcTextHeight(mAxisLabelPaint, "Q");
    mXAxis.setValues(xValues);
  }
Esempio n. 6
0
  /**
   * Calculates the dimensions of the Legend. This includes the maximum width and height of a single
   * entry, as well as the total width and height of the Legend.
   *
   * @param labelpaint
   */
  public void calculateDimensions(Paint labelpaint, ViewPortHandler viewPortHandler) {

    mTextWidthMax = getMaximumEntryWidth(labelpaint);
    mTextHeightMax = getMaximumEntryHeight(labelpaint);

    switch (mOrientation) {
      case VERTICAL:
        {
          float maxWidth = 0f, maxHeight = 0f, width = 0f;
          float labelLineHeight = Utils.getLineHeight(labelpaint);
          final int count = mLabels.length;
          boolean wasStacked = false;

          for (int i = 0; i < count; i++) {

            boolean drawingForm = mColors[i] != ColorTemplate.COLOR_SKIP;

            if (!wasStacked) width = 0.f;

            if (drawingForm) {
              if (wasStacked) width += mStackSpace;
              width += mFormSize;
            }

            // grouped forms have null labels
            if (mLabels[i] != null) {

              // make a step to the left
              if (drawingForm && !wasStacked) width += mFormToTextSpace;
              else if (wasStacked) {
                maxWidth = Math.max(maxWidth, width);
                maxHeight += labelLineHeight + mYEntrySpace;
                width = 0.f;
                wasStacked = false;
              }

              width += Utils.calcTextWidth(labelpaint, mLabels[i]);

              if (i < count - 1) maxHeight += labelLineHeight + mYEntrySpace;
            } else {
              wasStacked = true;
              width += mFormSize;
              if (i < count - 1) width += mStackSpace;
            }

            maxWidth = Math.max(maxWidth, width);
          }

          mNeededWidth = maxWidth;
          mNeededHeight = maxHeight;

          break;
        }
      case HORIZONTAL:
        {
          int labelCount = mLabels.length;
          float labelLineHeight = Utils.getLineHeight(labelpaint);
          float labelLineSpacing = Utils.getLineSpacing(labelpaint) + mYEntrySpace;
          float contentWidth = viewPortHandler.contentWidth() * mMaxSizePercent;

          // Start calculating layout
          float maxLineWidth = 0.f;
          float currentLineWidth = 0.f;
          float requiredWidth = 0.f;
          int stackedStartIndex = -1;

          mCalculatedLabelBreakPoints.clear();
          mCalculatedLabelSizes.clear();
          mCalculatedLineSizes.clear();

          for (int i = 0; i < labelCount; i++) {

            boolean drawingForm = mColors[i] != ColorTemplate.COLOR_SKIP;

            mCalculatedLabelBreakPoints.add(false);

            if (stackedStartIndex == -1) {
              // we are not stacking, so required width is for this label
              // only
              requiredWidth = 0.f;
            } else {
              // add the spacing appropriate for stacked labels/forms
              requiredWidth += mStackSpace;
            }

            // grouped forms have null labels
            if (mLabels[i] != null) {

              mCalculatedLabelSizes.add(Utils.calcTextSize(labelpaint, mLabels[i]));
              requiredWidth += drawingForm ? mFormToTextSpace + mFormSize : 0.f;
              requiredWidth += mCalculatedLabelSizes.get(i).width;
            } else {

              mCalculatedLabelSizes.add(FSize.getInstance(0.f, 0.f));
              requiredWidth += drawingForm ? mFormSize : 0.f;

              if (stackedStartIndex == -1) {
                // mark this index as we might want to break here later
                stackedStartIndex = i;
              }
            }

            if (mLabels[i] != null || i == labelCount - 1) {

              float requiredSpacing = currentLineWidth == 0.f ? 0.f : mXEntrySpace;

              if (!mWordWrapEnabled // No word wrapping, it must fit.
                  // The line is empty, it must fit
                  || currentLineWidth == 0.f
                  // It simply fits
                  || (contentWidth - currentLineWidth >= requiredSpacing + requiredWidth)) {
                // Expand current line
                currentLineWidth += requiredSpacing + requiredWidth;
              } else { // It doesn't fit, we need to wrap a line

                // Add current line size to array
                mCalculatedLineSizes.add(FSize.getInstance(currentLineWidth, labelLineHeight));
                maxLineWidth = Math.max(maxLineWidth, currentLineWidth);

                // Start a new line
                mCalculatedLabelBreakPoints.set(
                    stackedStartIndex > -1 ? stackedStartIndex : i, true);
                currentLineWidth = requiredWidth;
              }

              if (i == labelCount - 1) {
                // Add last line size to array
                mCalculatedLineSizes.add(FSize.getInstance(currentLineWidth, labelLineHeight));
                maxLineWidth = Math.max(maxLineWidth, currentLineWidth);
              }
            }

            stackedStartIndex = mLabels[i] != null ? -1 : stackedStartIndex;
          }

          mNeededWidth = maxLineWidth;
          mNeededHeight =
              labelLineHeight * (float) (mCalculatedLineSizes.size())
                  + labelLineSpacing
                      * (float)
                          (mCalculatedLineSizes.size() == 0
                              ? 0
                              : (mCalculatedLineSizes.size() - 1));

          break;
        }
    }

    mNeededHeight += mYOffset;
    mNeededWidth += mXOffset;
  }