/* * Copyright (C) 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "GraphicsJNI.h" #ifdef __ANDROID_ #include #else #define __ANDROID_API_P__ 28 #endif #include #include #include #include #include #include #include #include #include "Bitmap.h" #include "FontUtils.h" #include "SkBitmap.h" #include "SkBlendMode.h" #include "SkClipOp.h" #include "SkColor.h" #include "SkColorSpace.h" #include "SkGraphics.h" #include "SkImageInfo.h" #include "SkMatrix.h" #include "SkPath.h" #include "SkPoint.h" #include "SkRRect.h" #include "SkRect.h" #include "SkRefCnt.h" #include "SkRegion.h" #include "SkScalar.h" #include "SkVertices.h" namespace minikin { class MeasuredText; } // namespace minikin namespace android { namespace CanvasJNI { static Canvas* get_canvas(jlong canvasHandle) { return reinterpret_cast(canvasHandle); } static void delete_canvas(Canvas* canvas) { delete canvas; } static jlong getNativeFinalizer(JNIEnv* env, jobject clazz) { return static_cast(reinterpret_cast(&delete_canvas)); } // Native wrapper constructor used by Canvas(Bitmap) static jlong initRaster(JNIEnv* env, jobject, jlong bitmapHandle) { SkBitmap bitmap; if (bitmapHandle != 0) { bitmap::toBitmap(bitmapHandle).getSkBitmap(&bitmap); } return reinterpret_cast(Canvas::create_canvas(bitmap)); } // Set the given bitmap as the new draw target (wrapped in a new SkCanvas), // optionally copying canvas matrix & clip state. static void setBitmap(JNIEnv* env, jobject, jlong canvasHandle, jlong bitmapHandle) { SkBitmap bitmap; if (bitmapHandle != 0) { bitmap::toBitmap(bitmapHandle).getSkBitmap(&bitmap); } get_canvas(canvasHandle)->setBitmap(bitmap); } static jboolean isHighContrastText(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle) { return get_canvas(canvasHandle)->isHighContrastText() ? JNI_TRUE : JNI_FALSE; } static jboolean isOpaque(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle) { return get_canvas(canvasHandle)->isOpaque() ? JNI_TRUE : JNI_FALSE; } static jint getWidth(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle) { return static_cast(get_canvas(canvasHandle)->width()); } static jint getHeight(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle) { return static_cast(get_canvas(canvasHandle)->height()); } static jint save(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jint flagsHandle) { SaveFlags::Flags flags = static_cast(flagsHandle); return static_cast(get_canvas(canvasHandle)->save(flags)); } static jint saveLayer(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jfloat l, jfloat t, jfloat r, jfloat b, jlong paintHandle) { Paint* paint = reinterpret_cast(paintHandle); return static_cast(get_canvas(canvasHandle)->saveLayer(l, t, r, b, paint)); } static jint saveLayerAlpha(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jfloat l, jfloat t, jfloat r, jfloat b, jint alpha) { return static_cast(get_canvas(canvasHandle)->saveLayerAlpha(l, t, r, b, alpha)); } static jint saveUnclippedLayer(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jint l, jint t, jint r, jint b) { return reinterpret_cast(get_canvas(canvasHandle)->saveUnclippedLayer(l, t, r, b)); } static void restoreUnclippedLayer(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jint saveCount, jlong paintHandle) { Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->restoreUnclippedLayer(saveCount, *paint); } static jboolean restore(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle) { Canvas* canvas = get_canvas(canvasHandle); if (canvas->getSaveCount() <= 1) { return false; // cannot restore anymore } canvas->restore(); return true; // success } static void restoreToCount(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jint saveCount) { Canvas* canvas = get_canvas(canvasHandle); canvas->restoreToCount(saveCount); } static jint getSaveCount(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle) { return static_cast(get_canvas(canvasHandle)->getSaveCount()); } static void getMatrix(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jlong matrixHandle) { SkMatrix* matrix = reinterpret_cast(matrixHandle); get_canvas(canvasHandle)->getMatrix(matrix); } static void setMatrix(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jlong matrixHandle) { const SkMatrix* matrix = reinterpret_cast(matrixHandle); get_canvas(canvasHandle)->setMatrix(matrix ? *matrix : SkMatrix::I()); } static void concat(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jlong matrixHandle) { const SkMatrix* matrix = reinterpret_cast(matrixHandle); get_canvas(canvasHandle)->concat(*matrix); } static void concat44(JNIEnv* env, jobject obj, jlong canvasHandle, jfloatArray arr) { jfloat* matVals = env->GetFloatArrayElements(arr, 0); const SkM44 matrix = SkM44::RowMajor(matVals); get_canvas(canvasHandle)->concat(matrix); env->ReleaseFloatArrayElements(arr, matVals, 0); } static void rotate(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jfloat degrees) { get_canvas(canvasHandle)->rotate(degrees); } static void scale(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jfloat sx, jfloat sy) { get_canvas(canvasHandle)->scale(sx, sy); } static void skew(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jfloat sx, jfloat sy) { get_canvas(canvasHandle)->skew(sx, sy); } static void translate(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jfloat dx, jfloat dy) { get_canvas(canvasHandle)->translate(dx, dy); } static jboolean getClipBounds(JNIEnv* env, jobject, jlong canvasHandle, jobject bounds) { SkRect r; SkIRect ir; bool result = get_canvas(canvasHandle)->getClipBounds(&r); if (!result) { r.setEmpty(); } r.round(&ir); (void)GraphicsJNI::irect_to_jrect(ir, env, bounds); return result ? JNI_TRUE : JNI_FALSE; } static jboolean quickRejectRect(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jfloat left, jfloat top, jfloat right, jfloat bottom) { bool result = get_canvas(canvasHandle)->quickRejectRect(left, top, right, bottom); return result ? JNI_TRUE : JNI_FALSE; } static jboolean quickRejectPath(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jlong pathHandle) { SkPath* path = reinterpret_cast(pathHandle); bool result = get_canvas(canvasHandle)->quickRejectPath(*path); return result ? JNI_TRUE : JNI_FALSE; } // SkClipOp is a strict subset of SkRegion::Op and is castable back and forth for their // shared operations (intersect and difference). static_assert(SkRegion::kDifference_Op == static_cast(SkClipOp::kDifference), ""); static_assert(SkRegion::kIntersect_Op == static_cast(SkClipOp::kIntersect), ""); static jboolean clipRect(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jfloat l, jfloat t, jfloat r, jfloat b, jint opHandle) { // The opHandle is defined in Canvas.java to be Region::Op SkRegion::Op rgnOp = static_cast(opHandle); bool nonEmptyClip; switch (rgnOp) { case SkRegion::Op::kIntersect_Op: case SkRegion::Op::kDifference_Op: // Intersect and difference are supported clip operations nonEmptyClip = get_canvas(canvasHandle)->clipRect(l, t, r, b, static_cast(rgnOp)); break; case SkRegion::Op::kReplace_Op: // Replace is emulated to support legacy apps older than P nonEmptyClip = get_canvas(canvasHandle)->replaceClipRect_deprecated(l, t, r, b); break; default: // All other operations would expand the clip and are no longer supported, // so log and skip (to avoid breaking legacy apps). ALOGW("Ignoring unsupported clip operation %d", opHandle); SkRect clipBounds; // ignored nonEmptyClip = get_canvas(canvasHandle)->getClipBounds(&clipBounds); break; } return nonEmptyClip ? JNI_TRUE : JNI_FALSE; } static jboolean clipPath(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jlong pathHandle, jint opHandle) { SkRegion::Op rgnOp = static_cast(opHandle); SkPath* path = reinterpret_cast(pathHandle); bool nonEmptyClip; switch (rgnOp) { case SkRegion::Op::kIntersect_Op: case SkRegion::Op::kDifference_Op: nonEmptyClip = get_canvas(canvasHandle)->clipPath(path, static_cast(rgnOp)); break; case SkRegion::Op::kReplace_Op: nonEmptyClip = get_canvas(canvasHandle)->replaceClipPath_deprecated(path); break; default: ALOGW("Ignoring unsupported clip operation %d", opHandle); SkRect clipBounds; // ignored nonEmptyClip = get_canvas(canvasHandle)->getClipBounds(&clipBounds); break; } return nonEmptyClip ? JNI_TRUE : JNI_FALSE; } static void clipShader(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jlong shaderHandle, jint opHandle) { SkRegion::Op rgnOp = static_cast(opHandle); sk_sp shader = sk_ref_sp(reinterpret_cast(shaderHandle)); switch (rgnOp) { case SkRegion::Op::kIntersect_Op: case SkRegion::Op::kDifference_Op: get_canvas(canvasHandle)->clipShader(shader, static_cast(rgnOp)); break; default: ALOGW("Ignoring unsupported clip operation %d", opHandle); SkRect clipBounds; // ignored get_canvas(canvasHandle)->getClipBounds(&clipBounds); break; } } static void drawColor(JNIEnv* env, jobject, jlong canvasHandle, jint color, jint modeHandle) { SkBlendMode mode = static_cast(modeHandle); get_canvas(canvasHandle)->drawColor(color, mode); } static void drawColorLong(JNIEnv* env, jobject, jlong canvasHandle, jlong colorSpaceHandle, jlong colorLong, jint modeHandle) { SkColor4f color = GraphicsJNI::convertColorLong(colorLong); sk_sp cs = GraphicsJNI::getNativeColorSpace(colorSpaceHandle); Paint p; p.setColor4f(color, cs.get()); SkBlendMode mode = static_cast(modeHandle); p.setBlendMode(mode); get_canvas(canvasHandle)->drawPaint(p); } static void drawPaint(JNIEnv* env, jobject, jlong canvasHandle, jlong paintHandle) { Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawPaint(*paint); } static void drawPoint(JNIEnv*, jobject, jlong canvasHandle, jfloat x, jfloat y, jlong paintHandle) { const Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawPoint(x, y, *paint); } static void drawPoints(JNIEnv* env, jobject, jlong canvasHandle, jfloatArray jptsArray, jint offset, jint count, jlong paintHandle) { NPE_CHECK_RETURN_VOID(env, jptsArray); AutoJavaFloatArray autoPts(env, jptsArray); float* floats = autoPts.ptr(); const int length = autoPts.length(); if ((offset | count) < 0 || offset + count > length) { doThrowAIOOBE(env); return; } const Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawPoints(floats + offset, count, *paint); } static void drawLine(JNIEnv* env, jobject, jlong canvasHandle, jfloat startX, jfloat startY, jfloat stopX, jfloat stopY, jlong paintHandle) { Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawLine(startX, startY, stopX, stopY, *paint); } static void drawLines(JNIEnv* env, jobject, jlong canvasHandle, jfloatArray jptsArray, jint offset, jint count, jlong paintHandle) { NPE_CHECK_RETURN_VOID(env, jptsArray); AutoJavaFloatArray autoPts(env, jptsArray); float* floats = autoPts.ptr(); const int length = autoPts.length(); if ((offset | count) < 0 || offset + count > length) { doThrowAIOOBE(env); return; } const Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawLines(floats + offset, count, *paint); } static void drawRect(JNIEnv* env, jobject, jlong canvasHandle, jfloat left, jfloat top, jfloat right, jfloat bottom, jlong paintHandle) { const Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawRect(left, top, right, bottom, *paint); } static void drawDoubleRoundRectXY(JNIEnv* env, jobject, jlong canvasHandle, jfloat outerLeft, jfloat outerTop, jfloat outerRight, jfloat outerBottom, jfloat outerRx, jfloat outerRy, jfloat innerLeft, jfloat innerTop, jfloat innerRight, jfloat innerBottom, jfloat innerRx, jfloat innerRy, jlong paintHandle) { const Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawDoubleRoundRectXY( outerLeft, outerTop, outerRight, outerBottom, outerRx, outerRy, innerLeft, innerTop, innerRight, innerBottom, innerRx, innerRy, *paint); } static void drawDoubleRoundRectRadii(JNIEnv* env, jobject, jlong canvasHandle, jfloat outerLeft, jfloat outerTop, jfloat outerRight, jfloat outerBottom, jfloatArray jouterRadii, jfloat innerLeft, jfloat innerTop, jfloat innerRight, jfloat innerBottom, jfloatArray jinnerRadii, jlong paintHandle) { const Paint* paint = reinterpret_cast(paintHandle); float outerRadii[8]; float innerRadii[8]; env->GetFloatArrayRegion(jouterRadii, 0, 8, outerRadii); env->GetFloatArrayRegion(jinnerRadii, 0, 8, innerRadii); get_canvas(canvasHandle)->drawDoubleRoundRectRadii( outerLeft, outerTop, outerRight, outerBottom, outerRadii, innerLeft, innerTop, innerRight, innerBottom, innerRadii, *paint); } static void drawRegion(JNIEnv* env, jobject, jlong canvasHandle, jlong regionHandle, jlong paintHandle) { const SkRegion* region = reinterpret_cast(regionHandle); const Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawRegion(*region, *paint); } static void drawRoundRect(JNIEnv* env, jobject, jlong canvasHandle, jfloat left, jfloat top, jfloat right, jfloat bottom, jfloat rx, jfloat ry, jlong paintHandle) { const Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawRoundRect(left, top, right, bottom, rx, ry, *paint); } static void drawCircle(JNIEnv* env, jobject, jlong canvasHandle, jfloat cx, jfloat cy, jfloat radius, jlong paintHandle) { const Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawCircle(cx, cy, radius, *paint); } static void drawOval(JNIEnv* env, jobject, jlong canvasHandle, jfloat left, jfloat top, jfloat right, jfloat bottom, jlong paintHandle) { const Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawOval(left, top, right, bottom, *paint); } static void drawArc(JNIEnv* env, jobject, jlong canvasHandle, jfloat left, jfloat top, jfloat right, jfloat bottom, jfloat startAngle, jfloat sweepAngle, jboolean useCenter, jlong paintHandle) { const Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawArc(left, top, right, bottom, startAngle, sweepAngle, useCenter, *paint); } static void drawPath(JNIEnv* env, jobject, jlong canvasHandle, jlong pathHandle, jlong paintHandle) { const SkPath* path = reinterpret_cast(pathHandle); const Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawPath(*path, *paint); } static void drawVertices(JNIEnv* env, jobject, jlong canvasHandle, jint modeHandle, jint floatCount, jfloatArray jverts, jint vertIndex, jfloatArray jtexs, jint texIndex, jintArray jcolors, jint colorIndex, jshortArray jindices, jint indexIndex, jint indexCount, jlong paintHandle) { const int vertexCount = floatCount >> 1; // 2 floats per SkPoint AutoJavaFloatArray vertA(env, jverts, vertIndex + floatCount); AutoJavaFloatArray texA(env, jtexs, texIndex + floatCount); AutoJavaIntArray colorA(env, jcolors, colorIndex + vertexCount); AutoJavaShortArray indexA(env, jindices, indexIndex + indexCount); const float* verts = vertA.ptr() + vertIndex; const float* texs = texA.ptr() + vertIndex; const int* colors = NULL; const uint16_t* indices = NULL; if (jcolors != NULL) { colors = colorA.ptr() + colorIndex; } if (jindices != NULL) { indices = (const uint16_t*)(indexA.ptr() + indexIndex); } SkVertices::VertexMode vertexMode = static_cast(modeHandle); const Paint* paint = reinterpret_cast(paintHandle); // Preserve legacy Skia behavior: ignore the shader if there are no texs set. Paint noShaderPaint; if (jtexs == NULL) { noShaderPaint = Paint(*paint); noShaderPaint.setShader(nullptr); paint = &noShaderPaint; } // Since https://skia-review.googlesource.com/c/skia/+/473676, Skia will blend paint and vertex // colors when no shader is provided. This ternary uses kDst to mimic the old behavior of // ignoring the paint and using the vertex colors directly when no shader is provided. SkBlendMode blendMode = paint->getShader() ? SkBlendMode::kModulate : SkBlendMode::kDst; get_canvas(canvasHandle) ->drawVertices(SkVertices::MakeCopy( vertexMode, vertexCount, reinterpret_cast(verts), reinterpret_cast(texs), reinterpret_cast(colors), indexCount, indices) .get(), blendMode, *paint); } static void drawMesh(JNIEnv* env, jobject, jlong canvasHandle, jlong meshHandle, jint modeHandle, jlong paintHandle) { const Mesh* mesh = reinterpret_cast(meshHandle); SkBlendMode blendMode = static_cast(modeHandle); Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawMesh(*mesh, SkBlender::Mode(blendMode), *paint); } static void drawNinePatch(JNIEnv* env, jobject, jlong canvasHandle, jlong bitmapHandle, jlong chunkHandle, jfloat left, jfloat top, jfloat right, jfloat bottom, jlong paintHandle, jint dstDensity, jint srcDensity) { Canvas* canvas = get_canvas(canvasHandle); Bitmap& bitmap = android::bitmap::toBitmap(bitmapHandle); const android::Res_png_9patch* chunk = reinterpret_cast(chunkHandle); const Paint* paint = reinterpret_cast(paintHandle); if (CC_LIKELY(dstDensity == srcDensity || dstDensity == 0 || srcDensity == 0)) { canvas->drawNinePatch(bitmap, *chunk, left, top, right, bottom, paint); } else { canvas->save(SaveFlags::MatrixClip); SkScalar scale = dstDensity / (float)srcDensity; canvas->translate(left, top); canvas->scale(scale, scale); Paint filteredPaint; if (paint) { filteredPaint = *paint; } filteredPaint.setFilterBitmap(true); canvas->drawNinePatch(bitmap, *chunk, 0, 0, (right-left)/scale, (bottom-top)/scale, &filteredPaint); canvas->restore(); } } static void drawBitmap(JNIEnv* env, jobject, jlong canvasHandle, jlong bitmapHandle, jfloat left, jfloat top, jlong paintHandle, jint canvasDensity, jint screenDensity, jint bitmapDensity) { Canvas* canvas = get_canvas(canvasHandle); Bitmap& bitmap = android::bitmap::toBitmap(bitmapHandle); const Paint* paint = reinterpret_cast(paintHandle); if (canvasDensity == bitmapDensity || canvasDensity == 0 || bitmapDensity == 0) { if (screenDensity != 0 && screenDensity != bitmapDensity) { Paint filteredPaint; if (paint) { filteredPaint = *paint; } filteredPaint.setFilterBitmap(true); canvas->drawBitmap(bitmap, left, top, &filteredPaint); } else { canvas->drawBitmap(bitmap, left, top, paint); } } else { canvas->save(SaveFlags::MatrixClip); SkScalar scale = canvasDensity / (float)bitmapDensity; canvas->translate(left, top); canvas->scale(scale, scale); Paint filteredPaint; if (paint) { filteredPaint = *paint; } filteredPaint.setFilterBitmap(true); canvas->drawBitmap(bitmap, 0, 0, &filteredPaint); canvas->restore(); } } static void drawBitmapMatrix(JNIEnv* env, jobject, jlong canvasHandle, jlong bitmapHandle, jlong matrixHandle, jlong paintHandle) { const SkMatrix* matrix = reinterpret_cast(matrixHandle); const Paint* paint = reinterpret_cast(paintHandle); Bitmap& bitmap = android::bitmap::toBitmap(bitmapHandle); get_canvas(canvasHandle)->drawBitmap(bitmap, *matrix, paint); } static void drawBitmapRect(JNIEnv* env, jobject, jlong canvasHandle, jlong bitmapHandle, float srcLeft, float srcTop, float srcRight, float srcBottom, float dstLeft, float dstTop, float dstRight, float dstBottom, jlong paintHandle, jint screenDensity, jint bitmapDensity) { Canvas* canvas = get_canvas(canvasHandle); const Paint* paint = reinterpret_cast(paintHandle); Bitmap& bitmap = android::bitmap::toBitmap(bitmapHandle); if (screenDensity != 0 && screenDensity != bitmapDensity) { Paint filteredPaint; if (paint) { filteredPaint = *paint; } filteredPaint.setFilterBitmap(true); canvas->drawBitmap(bitmap, srcLeft, srcTop, srcRight, srcBottom, dstLeft, dstTop, dstRight, dstBottom, &filteredPaint); } else { canvas->drawBitmap(bitmap, srcLeft, srcTop, srcRight, srcBottom, dstLeft, dstTop, dstRight, dstBottom, paint); } } static void drawBitmapArray(JNIEnv* env, jobject, jlong canvasHandle, jintArray jcolors, jint offset, jint stride, jfloat x, jfloat y, jint width, jint height, jboolean hasAlpha, jlong paintHandle) { // Note: If hasAlpha is false, kRGB_565_SkColorType will be used, which will // correct the alphaType to kOpaque_SkAlphaType. SkImageInfo info = SkImageInfo::Make(width, height, hasAlpha ? kN32_SkColorType : kRGB_565_SkColorType, kPremul_SkAlphaType); SkBitmap bitmap; bitmap.setInfo(info); sk_sp androidBitmap = Bitmap::allocateHeapBitmap(&bitmap); if (!androidBitmap) { return; } if (!GraphicsJNI::SetPixels(env, jcolors, offset, stride, 0, 0, width, height, &bitmap)) { return; } const Paint* paint = reinterpret_cast(paintHandle); get_canvas(canvasHandle)->drawBitmap(*androidBitmap, x, y, paint); } static void drawBitmapMesh(JNIEnv* env, jobject, jlong canvasHandle, jlong bitmapHandle, jint meshWidth, jint meshHeight, jfloatArray jverts, jint vertIndex, jintArray jcolors, jint colorIndex, jlong paintHandle) { if (Canvas::GetApiLevel() < __ANDROID_API_P__) { // Before P we forgot to respect these. Now that we do respect them, explicitly // zero them for backward compatibility. vertIndex = 0; colorIndex = 0; } const int ptCount = (meshWidth + 1) * (meshHeight + 1); AutoJavaFloatArray vertA(env, jverts, vertIndex + (ptCount << 1)); AutoJavaIntArray colorA(env, jcolors, colorIndex + ptCount); const Paint* paint = reinterpret_cast(paintHandle); Bitmap& bitmap = android::bitmap::toBitmap(bitmapHandle); get_canvas(canvasHandle)->drawBitmapMesh(bitmap, meshWidth, meshHeight, vertA.ptr() + vertIndex*2, colorA.ptr() + colorIndex, paint); } static void drawGlyphs(JNIEnv* env, jobject, jlong canvasHandle, jintArray glyphIds, jfloatArray positions, jint glyphOffset, jint positionOffset, jint glyphCount, jlong fontHandle, jlong paintHandle) { Paint* paint = reinterpret_cast(paintHandle); FontWrapper* font = reinterpret_cast(fontHandle); AutoJavaIntArray glyphIdArray(env, glyphIds); AutoJavaFloatArray positionArray(env, positions); get_canvas(canvasHandle)->drawGlyphs( *font->font.get(), glyphIdArray.ptr() + glyphOffset, positionArray.ptr() + positionOffset, glyphCount, *paint); } static void drawTextChars(JNIEnv* env, jobject, jlong canvasHandle, jcharArray charArray, jint index, jint count, jfloat x, jfloat y, jint bidiFlags, jlong paintHandle) { Paint* paint = reinterpret_cast(paintHandle); const Typeface* typeface = paint->getAndroidTypeface(); ScopedCharArrayRO text(env, charArray); // The drawText API is designed to draw entire line, so ignore the text run flag and draw the // text as entire line mode. const minikin::RunFlag originalRunFlag = paint->getRunFlag(); paint->setRunFlag(minikin::RunFlag::WHOLE_LINE); // drawTextString and drawTextChars doesn't use context info get_canvas(canvasHandle)->drawText( text.get() + index, count, // text buffer 0, count, // draw range 0, count, // context range x, y, // draw position static_cast(bidiFlags), *paint, typeface, nullptr /* measured text */); paint->setRunFlag(originalRunFlag); } static void drawTextString(JNIEnv* env, jobject, jlong canvasHandle, jstring strObj, jint start, jint end, jfloat x, jfloat y, jint bidiFlags, jlong paintHandle) { ScopedStringChars text(env, strObj); Paint* paint = reinterpret_cast(paintHandle); const Typeface* typeface = paint->getAndroidTypeface(); const int count = end - start; // The drawText API is designed to draw entire line, so ignore the text run flag and draw the // text as entire line mode. const minikin::RunFlag originalRunFlag = paint->getRunFlag(); paint->setRunFlag(minikin::RunFlag::WHOLE_LINE); // drawTextString and drawTextChars doesn't use context info get_canvas(canvasHandle)->drawText( text.get() + start, count, // text buffer 0, count, // draw range 0, count, // context range x, y, // draw position static_cast(bidiFlags), *paint, typeface, nullptr /* measured text */); paint->setRunFlag(originalRunFlag); } static void drawTextRunChars(JNIEnv* env, jobject, jlong canvasHandle, jcharArray charArray, jint index, jint count, jint contextIndex, jint contextCount, jfloat x, jfloat y, jboolean isRtl, jlong paintHandle, jlong mtHandle) { minikin::MeasuredText* mt = reinterpret_cast(mtHandle); const minikin::Bidi bidiFlags = isRtl ? minikin::Bidi::FORCE_RTL : minikin::Bidi::FORCE_LTR; ScopedCharArrayRO text(env, charArray); Paint* paint = reinterpret_cast(paintHandle); const Typeface* typeface = paint->getAndroidTypeface(); get_canvas(canvasHandle)->drawText( text.get(), text.size(), // text buffer index, count, // draw range contextIndex, contextCount, // context range, x, y, // draw position bidiFlags, *paint, typeface, mt); } static void drawTextRunString(JNIEnv* env, jobject obj, jlong canvasHandle, jstring strObj, jint start, jint end, jint contextStart, jint contextEnd, jfloat x, jfloat y, jboolean isRtl, jlong paintHandle) { const minikin::Bidi bidiFlags = isRtl ? minikin::Bidi::FORCE_RTL : minikin::Bidi::FORCE_LTR; ScopedStringChars text(env, strObj); Paint* paint = reinterpret_cast(paintHandle); const Typeface* typeface = paint->getAndroidTypeface(); get_canvas(canvasHandle)->drawText( text.get(), text.size(), // text buffer start, end - start, // draw range contextStart, contextEnd - contextStart, // context range x, y, // draw position bidiFlags, *paint, typeface, nullptr /* measured text */); } static void drawTextOnPathChars(JNIEnv* env, jobject, jlong canvasHandle, jcharArray text, jint index, jint count, jlong pathHandle, jfloat hOffset, jfloat vOffset, jint bidiFlags, jlong paintHandle) { SkPath* path = reinterpret_cast(pathHandle); Paint* paint = reinterpret_cast(paintHandle); const Typeface* typeface = paint->getAndroidTypeface(); jchar* jchars = env->GetCharArrayElements(text, NULL); // The drawText API is designed to draw entire line, so ignore the text run flag and draw the // text as entire line mode. const minikin::RunFlag originalRunFlag = paint->getRunFlag(); paint->setRunFlag(minikin::RunFlag::WHOLE_LINE); get_canvas(canvasHandle)->drawTextOnPath(jchars + index, count, static_cast(bidiFlags), *path, hOffset, vOffset, *paint, typeface); paint->setRunFlag(originalRunFlag); env->ReleaseCharArrayElements(text, jchars, 0); } static void drawTextOnPathString(JNIEnv* env, jobject, jlong canvasHandle, jstring text, jlong pathHandle, jfloat hOffset, jfloat vOffset, jint bidiFlags, jlong paintHandle) { SkPath* path = reinterpret_cast(pathHandle); Paint* paint = reinterpret_cast(paintHandle); const Typeface* typeface = paint->getAndroidTypeface(); const jchar* jchars = env->GetStringChars(text, NULL); int count = env->GetStringLength(text); // The drawText API is designed to draw entire line, so ignore the text run flag and draw the // text as entire line mode. const minikin::RunFlag originalRunFlag = paint->getRunFlag(); paint->setRunFlag(minikin::RunFlag::WHOLE_LINE); get_canvas(canvasHandle)->drawTextOnPath(jchars, count, static_cast(bidiFlags), *path, hOffset, vOffset, *paint, typeface); paint->setRunFlag(originalRunFlag); env->ReleaseStringChars(text, jchars); } static void setPaintFilter(CRITICAL_JNI_PARAMS_COMMA jlong canvasHandle, jlong filterHandle) { PaintFilter* paintFilter = reinterpret_cast(filterHandle); get_canvas(canvasHandle)->setPaintFilter(sk_ref_sp(paintFilter)); } static void freeCaches(JNIEnv* env, jobject) { SkGraphics::PurgeFontCache(); } static void freeTextLayoutCaches(JNIEnv* env, jobject) { minikin::Layout::purgeCaches(); } static void setCompatibilityVersion(JNIEnv* env, jobject, jint apiLevel) { Canvas::setCompatibilityVersion(apiLevel); } static void punchHole(JNIEnv* env, jobject, jlong canvasPtr, jfloat left, jfloat top, jfloat right, jfloat bottom, jfloat rx, jfloat ry, jfloat alpha) { auto canvas = reinterpret_cast(canvasPtr); canvas->punchHole(SkRRect::MakeRectXY(SkRect::MakeLTRB(left, top, right, bottom), rx, ry), alpha); } }; // namespace CanvasJNI static const JNINativeMethod gMethods[] = { {"nGetNativeFinalizer", "()J", (void*)CanvasJNI::getNativeFinalizer}, {"nFreeCaches", "()V", (void*)CanvasJNI::freeCaches}, {"nFreeTextLayoutCaches", "()V", (void*)CanvasJNI::freeTextLayoutCaches}, {"nSetCompatibilityVersion", "(I)V", (void*)CanvasJNI::setCompatibilityVersion}, // ------------ @FastNative ---------------- {"nInitRaster", "(J)J", (void*)CanvasJNI::initRaster}, {"nSetBitmap", "(JJ)V", (void*)CanvasJNI::setBitmap}, {"nGetClipBounds", "(JLandroid/graphics/Rect;)Z", (void*)CanvasJNI::getClipBounds}, // ------------ @CriticalNative ---------------- {"nIsOpaque", "(J)Z", (void*)CanvasJNI::isOpaque}, {"nIsHighContrastText", "(J)Z", (void*)CanvasJNI::isHighContrastText}, {"nGetWidth", "(J)I", (void*)CanvasJNI::getWidth}, {"nGetHeight", "(J)I", (void*)CanvasJNI::getHeight}, {"nSave", "(JI)I", (void*)CanvasJNI::save}, {"nSaveLayer", "(JFFFFJ)I", (void*)CanvasJNI::saveLayer}, {"nSaveLayerAlpha", "(JFFFFI)I", (void*)CanvasJNI::saveLayerAlpha}, {"nSaveUnclippedLayer", "(JIIII)I", (void*)CanvasJNI::saveUnclippedLayer}, {"nRestoreUnclippedLayer", "(JIJ)V", (void*)CanvasJNI::restoreUnclippedLayer}, {"nGetSaveCount", "(J)I", (void*)CanvasJNI::getSaveCount}, {"nRestore", "(J)Z", (void*)CanvasJNI::restore}, {"nRestoreToCount", "(JI)V", (void*)CanvasJNI::restoreToCount}, {"nGetMatrix", "(JJ)V", (void*)CanvasJNI::getMatrix}, {"nSetMatrix", "(JJ)V", (void*)CanvasJNI::setMatrix}, {"nConcat", "(JJ)V", (void*)CanvasJNI::concat}, {"nConcat", "(J[F)V", (void*)CanvasJNI::concat44}, {"nRotate", "(JF)V", (void*)CanvasJNI::rotate}, {"nScale", "(JFF)V", (void*)CanvasJNI::scale}, {"nSkew", "(JFF)V", (void*)CanvasJNI::skew}, {"nTranslate", "(JFF)V", (void*)CanvasJNI::translate}, {"nQuickReject", "(JJ)Z", (void*)CanvasJNI::quickRejectPath}, {"nQuickReject", "(JFFFF)Z", (void*)CanvasJNI::quickRejectRect}, {"nClipRect", "(JFFFFI)Z", (void*)CanvasJNI::clipRect}, {"nClipPath", "(JJI)Z", (void*)CanvasJNI::clipPath}, {"nClipShader", "(JJI)V", (void*)CanvasJNI::clipShader}, {"nSetDrawFilter", "(JJ)V", (void*)CanvasJNI::setPaintFilter}, }; // If called from Canvas these are regular JNI // If called from DisplayListCanvas they are @FastNative static const JNINativeMethod gDrawMethods[] = { {"nDrawColor", "(JII)V", (void*)CanvasJNI::drawColor}, {"nDrawColor", "(JJJI)V", (void*)CanvasJNI::drawColorLong}, {"nDrawPaint", "(JJ)V", (void*)CanvasJNI::drawPaint}, {"nDrawPoint", "(JFFJ)V", (void*)CanvasJNI::drawPoint}, {"nDrawPoints", "(J[FIIJ)V", (void*)CanvasJNI::drawPoints}, {"nDrawLine", "(JFFFFJ)V", (void*)CanvasJNI::drawLine}, {"nDrawLines", "(J[FIIJ)V", (void*)CanvasJNI::drawLines}, {"nDrawRect", "(JFFFFJ)V", (void*)CanvasJNI::drawRect}, {"nDrawRegion", "(JJJ)V", (void*)CanvasJNI::drawRegion}, {"nDrawRoundRect", "(JFFFFFFJ)V", (void*)CanvasJNI::drawRoundRect}, {"nDrawDoubleRoundRect", "(JFFFFFFFFFFFFJ)V", (void*)CanvasJNI::drawDoubleRoundRectXY}, {"nDrawDoubleRoundRect", "(JFFFF[FFFFF[FJ)V", (void*)CanvasJNI::drawDoubleRoundRectRadii}, {"nDrawCircle", "(JFFFJ)V", (void*)CanvasJNI::drawCircle}, {"nDrawOval", "(JFFFFJ)V", (void*)CanvasJNI::drawOval}, {"nDrawArc", "(JFFFFFFZJ)V", (void*)CanvasJNI::drawArc}, {"nDrawPath", "(JJJ)V", (void*)CanvasJNI::drawPath}, {"nDrawVertices", "(JII[FI[FI[II[SIIJ)V", (void*)CanvasJNI::drawVertices}, {"nDrawMesh", "(JJIJ)V", (void*)CanvasJNI::drawMesh}, {"nDrawNinePatch", "(JJJFFFFJII)V", (void*)CanvasJNI::drawNinePatch}, {"nDrawBitmapMatrix", "(JJJJ)V", (void*)CanvasJNI::drawBitmapMatrix}, {"nDrawBitmapMesh", "(JJII[FI[IIJ)V", (void*)CanvasJNI::drawBitmapMesh}, {"nDrawBitmap", "(JJFFJIII)V", (void*)CanvasJNI::drawBitmap}, {"nDrawBitmap", "(JJFFFFFFFFJII)V", (void*)CanvasJNI::drawBitmapRect}, {"nDrawBitmap", "(J[IIIFFIIZJ)V", (void*)CanvasJNI::drawBitmapArray}, {"nDrawGlyphs", "(J[I[FIIIJJ)V", (void*)CanvasJNI::drawGlyphs}, {"nDrawText", "(J[CIIFFIJ)V", (void*)CanvasJNI::drawTextChars}, {"nDrawText", "(JLjava/lang/String;IIFFIJ)V", (void*)CanvasJNI::drawTextString}, {"nDrawTextRun", "(J[CIIIIFFZJJ)V", (void*)CanvasJNI::drawTextRunChars}, {"nDrawTextRun", "(JLjava/lang/String;IIIIFFZJ)V", (void*)CanvasJNI::drawTextRunString}, {"nDrawTextOnPath", "(J[CIIJFFIJ)V", (void*)CanvasJNI::drawTextOnPathChars}, {"nDrawTextOnPath", "(JLjava/lang/String;JFFIJ)V", (void*)CanvasJNI::drawTextOnPathString}, {"nPunchHole", "(JFFFFFFF)V", (void*)CanvasJNI::punchHole}}; int register_android_graphics_Canvas(JNIEnv* env) { int ret = 0; ret |= RegisterMethodsOrDie(env, "android/graphics/Canvas", gMethods, NELEM(gMethods)); ret |= RegisterMethodsOrDie(env, "android/graphics/BaseCanvas", gDrawMethods, NELEM(gDrawMethods)); ret |= RegisterMethodsOrDie(env, "android/graphics/BaseRecordingCanvas", gDrawMethods, NELEM(gDrawMethods)); return ret; } }; // namespace android