package com.google.zxing.datamatrix; import com.google.zxing.BarcodeFormat; import com.google.zxing.Dimension; import com.google.zxing.EncodeHintType; import com.google.zxing.Writer; import com.google.zxing.common.BitMatrix; import com.google.zxing.datamatrix.encoder.DefaultPlacement; import com.google.zxing.datamatrix.encoder.ErrorCorrection; import com.google.zxing.datamatrix.encoder.HighLevelEncoder; import com.google.zxing.datamatrix.encoder.SymbolInfo; import com.google.zxing.datamatrix.encoder.SymbolShapeHint; import com.google.zxing.qrcode.encoder.ByteMatrix; import java.util.Map; /* loaded from: classes.dex */ public final class DataMatrixWriter implements Writer { @Override // com.google.zxing.Writer public BitMatrix a(String str, BarcodeFormat barcodeFormat, int i, int i2, Map map) { Dimension dimension; if (str.isEmpty()) { throw new IllegalArgumentException("Found empty contents"); } if (barcodeFormat != BarcodeFormat.DATA_MATRIX) { throw new IllegalArgumentException("Can only encode DATA_MATRIX, but got ".concat(String.valueOf(barcodeFormat))); } if (i < 0 || i2 < 0) { throw new IllegalArgumentException("Requested dimensions can't be negative: " + i + 'x' + i2); } SymbolShapeHint symbolShapeHint = SymbolShapeHint.FORCE_NONE; Dimension dimension2 = null; if (map != null) { SymbolShapeHint symbolShapeHint2 = (SymbolShapeHint) map.get(EncodeHintType.DATA_MATRIX_SHAPE); if (symbolShapeHint2 != null) { symbolShapeHint = symbolShapeHint2; } dimension = (Dimension) map.get(EncodeHintType.MIN_SIZE); if (dimension == null) { dimension = null; } Dimension dimension3 = (Dimension) map.get(EncodeHintType.MAX_SIZE); if (dimension3 != null) { dimension2 = dimension3; } } else { dimension = null; } String a = HighLevelEncoder.a(str, symbolShapeHint, dimension, dimension2); SymbolInfo a2 = SymbolInfo.a(a.length(), symbolShapeHint, dimension, dimension2, true); DefaultPlacement defaultPlacement = new DefaultPlacement(ErrorCorrection.a(a, a2), a2.e(), a2.d()); defaultPlacement.a(); return a(defaultPlacement, a2, i, i2); } private static BitMatrix a(DefaultPlacement defaultPlacement, SymbolInfo symbolInfo, int i, int i2) { int e = symbolInfo.e(); int d = symbolInfo.d(); ByteMatrix byteMatrix = new ByteMatrix(symbolInfo.g(), symbolInfo.f()); int i3 = 0; for (int i4 = 0; i4 < d; i4++) { if (i4 % symbolInfo.e == 0) { int i5 = 0; for (int i6 = 0; i6 < symbolInfo.g(); i6++) { byteMatrix.a(i5, i3, i6 % 2 == 0); i5++; } i3++; } int i7 = 0; for (int i8 = 0; i8 < e; i8++) { if (i8 % symbolInfo.d == 0) { byteMatrix.a(i7, i3, true); i7++; } byteMatrix.a(i7, i3, defaultPlacement.a(i8, i4)); i7++; int i9 = symbolInfo.d; if (i8 % i9 == i9 - 1) { byteMatrix.a(i7, i3, i4 % 2 == 0); i7++; } } i3++; int i10 = symbolInfo.e; if (i4 % i10 == i10 - 1) { int i11 = 0; for (int i12 = 0; i12 < symbolInfo.g(); i12++) { byteMatrix.a(i11, i3, true); i11++; } i3++; } } return a(byteMatrix, i, i2); } private static BitMatrix a(ByteMatrix byteMatrix, int i, int i2) { BitMatrix bitMatrix; int c = byteMatrix.c(); int b = byteMatrix.b(); int max = Math.max(i, c); int max2 = Math.max(i2, b); int min = Math.min(max / c, max2 / b); int i3 = (max - (c * min)) / 2; int i4 = (max2 - (b * min)) / 2; if (i2 >= b && i >= c) { bitMatrix = new BitMatrix(i, i2); } else { bitMatrix = new BitMatrix(c, b); i3 = 0; i4 = 0; } bitMatrix.a(); int i5 = 0; while (i5 < b) { int i6 = i3; int i7 = 0; while (i7 < c) { if (byteMatrix.a(i7, i5) == 1) { bitMatrix.a(i6, i4, min, min); } i7++; i6 += min; } i5++; i4 += min; } return bitMatrix; } }