package androidx.core.graphics; import android.graphics.Path; import android.util.Log; import java.util.ArrayList; /* loaded from: classes.dex */ public class PathParser { private static final String LOGTAG = "PathParser"; static float[] copyOfRange(float[] fArr, int i, int i2) { if (i > i2) { throw new IllegalArgumentException(); } int length = fArr.length; if (i < 0 || i > length) { throw new ArrayIndexOutOfBoundsException(); } int i3 = i2 - i; int min = Math.min(i3, length - i); float[] fArr2 = new float[i3]; System.arraycopy(fArr, i, fArr2, 0, min); return fArr2; } public static Path createPathFromPathData(String str) { Path path = new Path(); PathDataNode[] createNodesFromPathData = createNodesFromPathData(str); if (createNodesFromPathData == null) { return null; } try { PathDataNode.nodesToPath(createNodesFromPathData, path); return path; } catch (RuntimeException e) { throw new RuntimeException("Error in parsing " + str, e); } } public static PathDataNode[] createNodesFromPathData(String str) { if (str == null) { return null; } ArrayList arrayList = new ArrayList(); int i = 1; int i2 = 0; while (i < str.length()) { int nextStart = nextStart(str, i); String trim = str.substring(i2, nextStart).trim(); if (trim.length() > 0) { addNode(arrayList, trim.charAt(0), getFloats(trim)); } i2 = nextStart; i = nextStart + 1; } if (i - i2 == 1 && i2 < str.length()) { addNode(arrayList, str.charAt(i2), new float[0]); } return (PathDataNode[]) arrayList.toArray(new PathDataNode[arrayList.size()]); } public static PathDataNode[] deepCopyNodes(PathDataNode[] pathDataNodeArr) { if (pathDataNodeArr == null) { return null; } PathDataNode[] pathDataNodeArr2 = new PathDataNode[pathDataNodeArr.length]; for (int i = 0; i < pathDataNodeArr.length; i++) { pathDataNodeArr2[i] = new PathDataNode(pathDataNodeArr[i]); } return pathDataNodeArr2; } public static boolean canMorph(PathDataNode[] pathDataNodeArr, PathDataNode[] pathDataNodeArr2) { if (pathDataNodeArr == null || pathDataNodeArr2 == null || pathDataNodeArr.length != pathDataNodeArr2.length) { return false; } for (int i = 0; i < pathDataNodeArr.length; i++) { if (pathDataNodeArr[i].mType != pathDataNodeArr2[i].mType || pathDataNodeArr[i].mParams.length != pathDataNodeArr2[i].mParams.length) { return false; } } return true; } public static void updateNodes(PathDataNode[] pathDataNodeArr, PathDataNode[] pathDataNodeArr2) { for (int i = 0; i < pathDataNodeArr2.length; i++) { pathDataNodeArr[i].mType = pathDataNodeArr2[i].mType; for (int i2 = 0; i2 < pathDataNodeArr2[i].mParams.length; i2++) { pathDataNodeArr[i].mParams[i2] = pathDataNodeArr2[i].mParams[i2]; } } } private static int nextStart(String str, int i) { while (i < str.length()) { char charAt = str.charAt(i); if (((charAt - 'A') * (charAt - 'Z') <= 0 || (charAt - 'a') * (charAt - 'z') <= 0) && charAt != 'e' && charAt != 'E') { return i; } i++; } return i; } private static void addNode(ArrayList arrayList, char c, float[] fArr) { arrayList.add(new PathDataNode(c, fArr)); } /* JADX INFO: Access modifiers changed from: private */ /* loaded from: classes.dex */ public static class ExtractFloatResult { int mEndPosition; boolean mEndWithNegOrDot; ExtractFloatResult() { } } private static float[] getFloats(String str) { if (str.charAt(0) == 'z' || str.charAt(0) == 'Z') { return new float[0]; } try { float[] fArr = new float[str.length()]; ExtractFloatResult extractFloatResult = new ExtractFloatResult(); int length = str.length(); int i = 1; int i2 = 0; while (i < length) { extract(str, i, extractFloatResult); int i3 = extractFloatResult.mEndPosition; if (i < i3) { fArr[i2] = Float.parseFloat(str.substring(i, i3)); i2++; } i = extractFloatResult.mEndWithNegOrDot ? i3 : i3 + 1; } return copyOfRange(fArr, 0, i2); } catch (NumberFormatException e) { throw new RuntimeException("error in parsing \"" + str + "\"", e); } } /* JADX WARN: Can't fix incorrect switch cases order, some code will duplicate */ /* JADX WARN: Failed to find 'out' block for switch in B:10:0x001e. Please report as an issue. */ /* JADX WARN: Removed duplicated region for block: B:14:0x003a A[LOOP:0: B:2:0x0007->B:14:0x003a, LOOP_END] */ /* JADX WARN: Removed duplicated region for block: B:15:0x003d A[SYNTHETIC] */ /* Code decompiled incorrectly, please refer to instructions dump. To view partially-correct add '--show-bad-code' argument */ private static void extract(java.lang.String r8, int r9, androidx.core.graphics.PathParser.ExtractFloatResult r10) { /* r0 = 0 r10.mEndWithNegOrDot = r0 r1 = r9 r2 = r0 r3 = r2 r4 = r3 L7: int r5 = r8.length() if (r1 >= r5) goto L3d char r5 = r8.charAt(r1) r6 = 32 r7 = 1 if (r5 == r6) goto L35 r6 = 69 if (r5 == r6) goto L33 r6 = 101(0x65, float:1.42E-43) if (r5 == r6) goto L33 switch(r5) { case 44: goto L35; case 45: goto L2a; case 46: goto L22; default: goto L21; } L21: goto L31 L22: if (r3 != 0) goto L27 r2 = r0 r3 = r7 goto L37 L27: r10.mEndWithNegOrDot = r7 goto L35 L2a: if (r1 == r9) goto L31 if (r2 != 0) goto L31 r10.mEndWithNegOrDot = r7 goto L35 L31: r2 = r0 goto L37 L33: r2 = r7 goto L37 L35: r2 = r0 r4 = r7 L37: if (r4 == 0) goto L3a goto L3d L3a: int r1 = r1 + 1 goto L7 L3d: r10.mEndPosition = r1 return */ throw new UnsupportedOperationException("Method not decompiled: androidx.core.graphics.PathParser.extract(java.lang.String, int, androidx.core.graphics.PathParser$ExtractFloatResult):void"); } /* loaded from: classes.dex */ public static class PathDataNode { public float[] mParams; public char mType; PathDataNode(char c, float[] fArr) { this.mType = c; this.mParams = fArr; } PathDataNode(PathDataNode pathDataNode) { this.mType = pathDataNode.mType; float[] fArr = pathDataNode.mParams; this.mParams = PathParser.copyOfRange(fArr, 0, fArr.length); } public static void nodesToPath(PathDataNode[] pathDataNodeArr, Path path) { float[] fArr = new float[6]; char c = 'm'; for (int i = 0; i < pathDataNodeArr.length; i++) { PathDataNode pathDataNode = pathDataNodeArr[i]; addCommand(path, fArr, c, pathDataNode.mType, pathDataNode.mParams); c = pathDataNodeArr[i].mType; } } public void interpolatePathDataNode(PathDataNode pathDataNode, PathDataNode pathDataNode2, float f) { int i = 0; while (true) { float[] fArr = pathDataNode.mParams; if (i >= fArr.length) { return; } this.mParams[i] = (fArr[i] * (1.0f - f)) + (pathDataNode2.mParams[i] * f); i++; } } /* JADX WARN: Can't fix incorrect switch cases order, some code will duplicate */ private static void addCommand(Path path, float[] fArr, char c, char c2, float[] fArr2) { int i; int i2; int i3; float f; float f2; float f3; float f4; float f5; float f6; float f7; float f8; char c3 = c2; boolean z = false; float f9 = fArr[0]; float f10 = fArr[1]; float f11 = fArr[2]; float f12 = fArr[3]; float f13 = fArr[4]; float f14 = fArr[5]; switch (c3) { case 'A': case 'a': i = 7; i2 = i; break; case 'C': case 'c': i = 6; i2 = i; break; case 'H': case 'V': case 'h': case 'v': i2 = 1; break; case 'L': case 'M': case 'T': case 'l': case 'm': case 't': default: i2 = 2; break; case 'Q': case 'S': case 'q': case 's': i2 = 4; break; case 'Z': case 'z': path.close(); path.moveTo(f13, f14); f9 = f13; f11 = f9; f10 = f14; f12 = f10; i2 = 2; break; } float f15 = f9; float f16 = f10; float f17 = f13; float f18 = f14; int i4 = 0; char c4 = c; while (i4 < fArr2.length) { if (c3 != 'A') { if (c3 == 'C') { i3 = i4; int i5 = i3 + 2; int i6 = i3 + 3; int i7 = i3 + 4; int i8 = i3 + 5; path.cubicTo(fArr2[i3], fArr2[i3 + 1], fArr2[i5], fArr2[i6], fArr2[i7], fArr2[i8]); f15 = fArr2[i7]; float f19 = fArr2[i8]; float f20 = fArr2[i5]; float f21 = fArr2[i6]; f16 = f19; f12 = f21; f11 = f20; } else if (c3 == 'H') { i3 = i4; path.lineTo(fArr2[i3], f16); f15 = fArr2[i3]; } else if (c3 == 'Q') { i3 = i4; int i9 = i3 + 1; int i10 = i3 + 2; int i11 = i3 + 3; path.quadTo(fArr2[i3], fArr2[i9], fArr2[i10], fArr2[i11]); float f22 = fArr2[i3]; float f23 = fArr2[i9]; f15 = fArr2[i10]; f16 = fArr2[i11]; f11 = f22; f12 = f23; } else if (c3 == 'V') { i3 = i4; path.lineTo(f15, fArr2[i3]); f16 = fArr2[i3]; } else if (c3 != 'a') { if (c3 != 'c') { if (c3 == 'h') { path.rLineTo(fArr2[i4], 0.0f); f15 += fArr2[i4]; } else if (c3 != 'q') { if (c3 == 'v') { path.rLineTo(0.0f, fArr2[i4]); f4 = fArr2[i4]; } else if (c3 == 'L') { int i12 = i4 + 1; path.lineTo(fArr2[i4], fArr2[i12]); f15 = fArr2[i4]; f16 = fArr2[i12]; } else if (c3 == 'M') { f15 = fArr2[i4]; f16 = fArr2[i4 + 1]; if (i4 > 0) { path.lineTo(f15, f16); } else { path.moveTo(f15, f16); i3 = i4; f18 = f16; f17 = f15; } } else if (c3 == 'S') { if (c4 == 'c' || c4 == 's' || c4 == 'C' || c4 == 'S') { f15 = (f15 * 2.0f) - f11; f16 = (f16 * 2.0f) - f12; } float f24 = f15; int i13 = i4 + 1; int i14 = i4 + 2; int i15 = i4 + 3; path.cubicTo(f24, f16, fArr2[i4], fArr2[i13], fArr2[i14], fArr2[i15]); f = fArr2[i4]; f2 = fArr2[i13]; f15 = fArr2[i14]; f16 = fArr2[i15]; f11 = f; f12 = f2; } else if (c3 == 'T') { if (c4 == 'q' || c4 == 't' || c4 == 'Q' || c4 == 'T') { f15 = (f15 * 2.0f) - f11; f16 = (f16 * 2.0f) - f12; } int i16 = i4 + 1; path.quadTo(f15, f16, fArr2[i4], fArr2[i16]); i3 = i4; f12 = f16; f11 = f15; f15 = fArr2[i4]; f16 = fArr2[i16]; } else if (c3 == 'l') { int i17 = i4 + 1; path.rLineTo(fArr2[i4], fArr2[i17]); f15 += fArr2[i4]; f4 = fArr2[i17]; } else if (c3 == 'm') { float f25 = fArr2[i4]; f15 += f25; float f26 = fArr2[i4 + 1]; f16 += f26; if (i4 > 0) { path.rLineTo(f25, f26); } else { path.rMoveTo(f25, f26); i3 = i4; f18 = f16; f17 = f15; } } else if (c3 == 's') { if (c4 == 'c' || c4 == 's' || c4 == 'C' || c4 == 'S') { float f27 = f15 - f11; f5 = f16 - f12; f6 = f27; } else { f6 = 0.0f; f5 = 0.0f; } int i18 = i4 + 1; int i19 = i4 + 2; int i20 = i4 + 3; path.rCubicTo(f6, f5, fArr2[i4], fArr2[i18], fArr2[i19], fArr2[i20]); f = fArr2[i4] + f15; f2 = fArr2[i18] + f16; f15 += fArr2[i19]; f3 = fArr2[i20]; } else if (c3 == 't') { if (c4 == 'q' || c4 == 't' || c4 == 'Q' || c4 == 'T') { f7 = f15 - f11; f8 = f16 - f12; } else { f8 = 0.0f; f7 = 0.0f; } int i21 = i4 + 1; path.rQuadTo(f7, f8, fArr2[i4], fArr2[i21]); float f28 = f7 + f15; float f29 = f8 + f16; f15 += fArr2[i4]; f16 += fArr2[i21]; f12 = f29; f11 = f28; } f16 += f4; } else { int i22 = i4 + 1; int i23 = i4 + 2; int i24 = i4 + 3; path.rQuadTo(fArr2[i4], fArr2[i22], fArr2[i23], fArr2[i24]); f = fArr2[i4] + f15; f2 = fArr2[i22] + f16; f15 += fArr2[i23]; f3 = fArr2[i24]; } i3 = i4; } else { int i25 = i4 + 2; int i26 = i4 + 3; int i27 = i4 + 4; int i28 = i4 + 5; path.rCubicTo(fArr2[i4], fArr2[i4 + 1], fArr2[i25], fArr2[i26], fArr2[i27], fArr2[i28]); f = fArr2[i25] + f15; f2 = fArr2[i26] + f16; f15 += fArr2[i27]; f3 = fArr2[i28]; } f16 += f3; f11 = f; f12 = f2; i3 = i4; } else { int i29 = i4 + 5; int i30 = i4 + 6; i3 = i4; drawArc(path, f15, f16, fArr2[i29] + f15, fArr2[i30] + f16, fArr2[i4], fArr2[i4 + 1], fArr2[i4 + 2], fArr2[i4 + 3] != 0.0f, fArr2[i4 + 4] != 0.0f); f15 += fArr2[i29]; f16 += fArr2[i30]; } i4 = i3 + i2; c4 = c2; c3 = c4; z = false; } else { i3 = i4; int i31 = i3 + 5; int i32 = i3 + 6; drawArc(path, f15, f16, fArr2[i31], fArr2[i32], fArr2[i3], fArr2[i3 + 1], fArr2[i3 + 2], fArr2[i3 + 3] != 0.0f, fArr2[i3 + 4] != 0.0f); f15 = fArr2[i31]; f16 = fArr2[i32]; } f12 = f16; f11 = f15; i4 = i3 + i2; c4 = c2; c3 = c4; z = false; } fArr[z ? 1 : 0] = f15; fArr[1] = f16; fArr[2] = f11; fArr[3] = f12; fArr[4] = f17; fArr[5] = f18; } private static void drawArc(Path path, float f, float f2, float f3, float f4, float f5, float f6, float f7, boolean z, boolean z2) { double d; double d2; double radians = Math.toRadians(f7); double cos = Math.cos(radians); double sin = Math.sin(radians); double d3 = f; double d4 = d3 * cos; double d5 = f2; double d6 = f5; double d7 = (d4 + (d5 * sin)) / d6; double d8 = ((-f) * sin) + (d5 * cos); double d9 = f6; double d10 = d8 / d9; double d11 = f4; double d12 = ((f3 * cos) + (d11 * sin)) / d6; double d13 = (((-f3) * sin) + (d11 * cos)) / d9; double d14 = d7 - d12; double d15 = d10 - d13; double d16 = (d7 + d12) / 2.0d; double d17 = (d10 + d13) / 2.0d; double d18 = (d14 * d14) + (d15 * d15); if (d18 == 0.0d) { Log.w(PathParser.LOGTAG, " Points are coincident"); return; } double d19 = (1.0d / d18) - 0.25d; if (d19 < 0.0d) { Log.w(PathParser.LOGTAG, "Points are too far apart " + d18); float sqrt = (float) (Math.sqrt(d18) / 1.99999d); drawArc(path, f, f2, f3, f4, f5 * sqrt, f6 * sqrt, f7, z, z2); return; } double sqrt2 = Math.sqrt(d19); double d20 = d14 * sqrt2; double d21 = sqrt2 * d15; if (z == z2) { d = d16 - d21; d2 = d17 + d20; } else { d = d16 + d21; d2 = d17 - d20; } double atan2 = Math.atan2(d10 - d2, d7 - d); double atan22 = Math.atan2(d13 - d2, d12 - d) - atan2; if (z2 != (atan22 >= 0.0d)) { atan22 = atan22 > 0.0d ? atan22 - 6.283185307179586d : atan22 + 6.283185307179586d; } double d22 = d * d6; double d23 = d2 * d9; arcToBezier(path, (d22 * cos) - (d23 * sin), (d22 * sin) + (d23 * cos), d6, d9, d3, d5, radians, atan2, atan22); } private static void arcToBezier(Path path, double d, double d2, double d3, double d4, double d5, double d6, double d7, double d8, double d9) { double d10 = d3; int ceil = (int) Math.ceil(Math.abs((d9 * 4.0d) / 3.141592653589793d)); double cos = Math.cos(d7); double sin = Math.sin(d7); double cos2 = Math.cos(d8); double sin2 = Math.sin(d8); double d11 = -d10; double d12 = d11 * cos; double d13 = d4 * sin; double d14 = (d12 * sin2) - (d13 * cos2); double d15 = d11 * sin; double d16 = d4 * cos; double d17 = (sin2 * d15) + (cos2 * d16); double d18 = d9 / ceil; double d19 = d17; double d20 = d14; int i = 0; double d21 = d5; double d22 = d6; double d23 = d8; while (i < ceil) { double d24 = d23 + d18; double sin3 = Math.sin(d24); double cos3 = Math.cos(d24); double d25 = (d + ((d10 * cos) * cos3)) - (d13 * sin3); double d26 = d2 + (d10 * sin * cos3) + (d16 * sin3); double d27 = (d12 * sin3) - (d13 * cos3); double d28 = (sin3 * d15) + (cos3 * d16); double d29 = d24 - d23; double tan = Math.tan(d29 / 2.0d); double sin4 = (Math.sin(d29) * (Math.sqrt(((tan * 3.0d) * tan) + 4.0d) - 1.0d)) / 3.0d; double d30 = d21 + (d20 * sin4); path.rLineTo(0.0f, 0.0f); path.cubicTo((float) d30, (float) (d22 + (d19 * sin4)), (float) (d25 - (sin4 * d27)), (float) (d26 - (sin4 * d28)), (float) d25, (float) d26); i++; d18 = d18; sin = sin; d21 = d25; d15 = d15; cos = cos; d23 = d24; d19 = d28; d20 = d27; ceil = ceil; d22 = d26; d10 = d3; } } } private PathParser() { } }