*/
public final class MaskUtil {
- // The mask penalty calculation is complicated. See Table 21 of JISX0510:2004 (p.45) for details.
- // Basically it applies four rules and summate all penalties.
- public static int CalculateMaskPenalty(final ByteMatrix matrix) {
- int penalty = 0;
- penalty += ApplyMaskPenaltyRule1(matrix);
- penalty += ApplyMaskPenaltyRule2(matrix);
- penalty += ApplyMaskPenaltyRule3(matrix);
- penalty += ApplyMaskPenaltyRule4(matrix);
- return penalty;
+ private MaskUtil() {
+ // do nothing
}
// Apply mask penalty rule 1 and return the penalty. Find repetitive cells with the same color and
// give penalty to them. Example: 00000 or 11111.
- public static int ApplyMaskPenaltyRule1(final ByteMatrix matrix) {
- final int penalty = (ApplyMaskPenaltyRule1Internal(matrix, true) +
- ApplyMaskPenaltyRule1Internal(matrix, false));
- System.out.println("\tApplyMaskPenaltyRule1: " + penalty);
- return penalty;
+ public static int applyMaskPenaltyRule1(ByteMatrix matrix) {
+ return applyMaskPenaltyRule1Internal(matrix, true) + applyMaskPenaltyRule1Internal(matrix, false);
}
// Apply mask penalty rule 2 and return the penalty. Find 2x2 blocks with the same color and give
// penalty to them.
- public static int ApplyMaskPenaltyRule2(final ByteMatrix matrix) {
+ public static int applyMaskPenaltyRule2(ByteMatrix matrix) {
int penalty = 0;
byte[][] array = matrix.getArray();
- int width = matrix.width();
- int height = matrix.height();
+ int width = matrix.getWidth();
+ int height = matrix.getHeight();
for (int y = 0; y < height - 1; ++y) {
for (int x = 0; x < width - 1; ++x) {
int value = array[y][x];
}
}
}
- System.out.println("\tApplyMaskPenaltyRule2: " + penalty);
return penalty;
}
// Apply mask penalty rule 3 and return the penalty. Find consecutive cells of 00001011101 or
// 10111010000, and give penalty to them. If we find patterns like 000010111010000, we give
// penalties twice (i.e. 40 * 2).
- public static int ApplyMaskPenaltyRule3(final ByteMatrix matrix) {
+ public static int applyMaskPenaltyRule3(ByteMatrix matrix) {
int penalty = 0;
byte[][] array = matrix.getArray();
- int width = matrix.width();
- int height = matrix.height();
+ int width = matrix.getWidth();
+ int height = matrix.getHeight();
for (int y = 0; y < height; ++y) {
for (int x = 0; x < width; ++x) {
// Tried to simplify following conditions but failed.
}
}
}
- System.out.println("\tApplyMaskPenaltyRule3: " + penalty);
return penalty;
}
// - 55% => 10
// - 55% => 20
// - 100% => 100
- public static int ApplyMaskPenaltyRule4(final ByteMatrix matrix) {
- int num_dark_cells = 0;
+ public static int applyMaskPenaltyRule4(ByteMatrix matrix) {
+ int numDarkCells = 0;
byte[][] array = matrix.getArray();
- int width = matrix.width();
- int height = matrix.height();
+ int width = matrix.getWidth();
+ int height = matrix.getHeight();
for (int y = 0; y < height; ++y) {
for (int x = 0; x < width; ++x) {
if (array[y][x] == 1) {
- num_dark_cells += 1;
+ numDarkCells += 1;
}
}
}
- final int num_total_cells = matrix.height() * matrix.width();
- double dark_ratio = (double) num_dark_cells / num_total_cells;
- final int penalty = Math.abs((int) (dark_ratio * 100 - 50)) / 5 * 10;
- System.out.println("\tApplyMaskPenaltyRule4: " + penalty);
- return penalty;
+ int numTotalCells = matrix.getHeight() * matrix.getWidth();
+ double darkRatio = (double) numDarkCells / numTotalCells;
+ return Math.abs((int) (darkRatio * 100 - 50)) / 5 * 10;
}
- // Return the mask bit for "mask_pattern" at "x" and "y". See 8.8 of JISX0510:2004 for mask
+ // Return the mask bit for "getMaskPattern" at "x" and "y". See 8.8 of JISX0510:2004 for mask
// pattern conditions.
- public static int GetDataMaskBit(final int mask_pattern, final int x, final int y) {
- if (!QRCode.IsValidMaskPattern(mask_pattern)) {
+ public static boolean getDataMaskBit(int maskPattern, int x, int y) {
+ if (!QRCode.isValidMaskPattern(maskPattern)) {
throw new IllegalArgumentException("Invalid mask pattern");
}
- switch (mask_pattern) {
+ int intermediate, temp;
+ switch (maskPattern) {
case 0:
- return ((y + x) % 2 == 0) ? 1 : 0;
+ intermediate = (y + x) & 0x1;
+ break;
case 1:
- return (y % 2 == 0) ? 1 : 0;
+ intermediate = y & 0x1;
+ break;
case 2:
- return (x % 3 == 0) ? 1 : 0;
+ intermediate = x % 3;
+ break;
case 3:
- return ((y + x) % 3 == 0) ? 1 : 0;
+ intermediate = (y + x) % 3;
+ break;
case 4:
- return (((y / 2) + (x / 3)) % 2 == 0) ? 1 : 0;
+ intermediate = ((y >>> 1) + (x / 3)) & 0x1;
+ break;
case 5:
- return (((y * x) % 2) + ((y * x) % 3) == 0) ? 1 : 0;
+ temp = y * x;
+ intermediate = (temp & 0x1) + (temp % 3);
+ break;
case 6:
- return ((((y * x) % 2) + ((y * x) % 3)) % 2 == 0) ? 1 : 0;
+ temp = y * x;
+ intermediate = (((temp & 0x1) + (temp % 3)) & 0x1);
+ break;
case 7:
- return ((((y * x) % 3) + ((y + x) % 2)) % 2 == 0) ? 1 : 0;
+ temp = y * x;
+ intermediate = (((temp % 3) + ((y + x) & 0x1)) & 0x1);
+ break;
+ default:
+ throw new IllegalArgumentException("Invalid mask pattern: " + maskPattern);
}
- throw new IllegalArgumentException("invalid mask pattern: " + mask_pattern);
+ return intermediate == 0;
}
- // Helper function for ApplyMaskPenaltyRule1. We need this for doing this calculation in both
+ // Helper function for applyMaskPenaltyRule1. We need this for doing this calculation in both
// vertical and horizontal orders respectively.
- private static int ApplyMaskPenaltyRule1Internal(final ByteMatrix matrix, boolean is_horizontal) {
+ private static int applyMaskPenaltyRule1Internal(ByteMatrix matrix, boolean isHorizontal) {
int penalty = 0;
- int num_same_bit_cells = 0;
- int prev_bit = -1;
+ int numSameBitCells = 0;
+ int prevBit = -1;
// Horizontal mode:
// for (int i = 0; i < matrix.height(); ++i) {
// for (int j = 0; j < matrix.width(); ++j) {
// for (int i = 0; i < matrix.width(); ++i) {
// for (int j = 0; j < matrix.height(); ++j) {
// int bit = matrix.get(j, i);
- final int i_limit = is_horizontal ? matrix.height() : matrix.width();
- final int j_limit = is_horizontal ? matrix.width() : matrix.height();
+ int iLimit = isHorizontal ? matrix.getHeight() : matrix.getWidth();
+ int jLimit = isHorizontal ? matrix.getWidth() : matrix.getHeight();
byte[][] array = matrix.getArray();
- for (int i = 0; i < i_limit; ++i) {
- for (int j = 0; j < j_limit; ++j) {
- final int bit = is_horizontal ? array[i][j] : array[j][i];
- if (bit == prev_bit) {
- num_same_bit_cells += 1;
+ for (int i = 0; i < iLimit; ++i) {
+ for (int j = 0; j < jLimit; ++j) {
+ int bit = isHorizontal ? array[i][j] : array[j][i];
+ if (bit == prevBit) {
+ numSameBitCells += 1;
// Found five repetitive cells with the same color (bit).
// We'll give penalty of 3.
- if (num_same_bit_cells == 5) {
+ if (numSameBitCells == 5) {
penalty += 3;
- } else if (num_same_bit_cells > 5) {
+ } else if (numSameBitCells > 5) {
// After five repetitive cells, we'll add the penalty one
// by one.
penalty += 1;
}
} else {
- num_same_bit_cells = 1; // Include the cell itself.
- prev_bit = bit;
+ numSameBitCells = 1; // Include the cell itself.
+ prevBit = bit;
}
}
- num_same_bit_cells = 0; // Clear at each row/column.
+ numSameBitCells = 0; // Clear at each row/column.
}
return penalty;
}