/* libs/android_runtime/android/graphics/Matrix.cpp ** ** Copyright 2006, 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" #include "Matrix.h" #include "SkMatrix.h" namespace android { static_assert(sizeof(SkMatrix) == 40, "Unexpected sizeof(SkMatrix), " "update size in Matrix.java#NATIVE_ALLOCATION_SIZE and here"); static_assert(SK_SCALAR_IS_FLOAT, "SK_SCALAR_IS_FLOAT is false, " "only float scalar is supported"); class SkMatrixGlue { public: // ---------------- Regular JNI ----------------------------- static void finalizer(jlong objHandle) { SkMatrix* obj = reinterpret_cast(objHandle); delete obj; } static jlong getNativeFinalizer(JNIEnv* env, jobject clazz) { return static_cast(reinterpret_cast(&finalizer)); } static jlong create(JNIEnv* env, jobject clazz, jlong srcHandle) { const SkMatrix* src = reinterpret_cast(srcHandle); SkMatrix* obj = new SkMatrix(); if (src) *obj = *src; else obj->reset(); return reinterpret_cast(obj); } // ---------------- @FastNative ----------------------------- static void mapPoints(JNIEnv* env, jobject clazz, jlong matrixHandle, jfloatArray dst, jint dstIndex, jfloatArray src, jint srcIndex, jint ptCount, jboolean isPts) { SkMatrix* matrix = reinterpret_cast(matrixHandle); SkASSERT(ptCount >= 0); AutoJavaFloatArray autoSrc(env, src, srcIndex + (ptCount << 1), kRO_JNIAccess); AutoJavaFloatArray autoDst(env, dst, dstIndex + (ptCount << 1), kRW_JNIAccess); float* srcArray = autoSrc.ptr() + srcIndex; float* dstArray = autoDst.ptr() + dstIndex; if (isPts) matrix->mapPoints((SkPoint*) dstArray, (const SkPoint*) srcArray, ptCount); else matrix->mapVectors((SkVector*) dstArray, (const SkVector*) srcArray, ptCount); } static jboolean mapRect__RectFRectF(JNIEnv* env, jobject clazz, jlong matrixHandle, jobjectArray dst, jobject src) { SkMatrix* matrix = reinterpret_cast(matrixHandle); SkRect dst_, src_; GraphicsJNI::jrectf_to_rect(env, src, &src_); jboolean rectStaysRect = matrix->mapRect(&dst_, src_); GraphicsJNI::rect_to_jrectf(dst_, env, dst); return rectStaysRect ? JNI_TRUE : JNI_FALSE; } static jboolean setRectToRect(JNIEnv* env, jobject clazz, jlong matrixHandle, jobject src, jobject dst, jint stfHandle) { SkMatrix* matrix = reinterpret_cast(matrixHandle); SkMatrix::ScaleToFit stf = static_cast(stfHandle); SkRect src_; GraphicsJNI::jrectf_to_rect(env, src, &src_); SkRect dst_; GraphicsJNI::jrectf_to_rect(env, dst, &dst_); return matrix->setRectToRect(src_, dst_, stf) ? JNI_TRUE : JNI_FALSE; } static jboolean setPolyToPoly(JNIEnv* env, jobject clazz, jlong matrixHandle, jfloatArray jsrc, jint srcIndex, jfloatArray jdst, jint dstIndex, jint ptCount) { SkMatrix* matrix = reinterpret_cast(matrixHandle); SkASSERT(srcIndex >= 0); SkASSERT(dstIndex >= 0); SkASSERT((unsigned )ptCount <= 4); AutoJavaFloatArray autoSrc(env, jsrc, srcIndex + (ptCount << 1), kRO_JNIAccess); AutoJavaFloatArray autoDst(env, jdst, dstIndex + (ptCount << 1), kRW_JNIAccess); float* src = autoSrc.ptr() + srcIndex; float* dst = autoDst.ptr() + dstIndex; bool result; result = matrix->setPolyToPoly((const SkPoint*) src, (const SkPoint*) dst, ptCount); return result ? JNI_TRUE : JNI_FALSE; } static void getValues(JNIEnv* env, jobject clazz, jlong matrixHandle, jfloatArray values) { SkMatrix* matrix = reinterpret_cast(matrixHandle); AutoJavaFloatArray autoValues(env, values, 9, kRW_JNIAccess); float* dst = autoValues.ptr(); for (int i = 0; i < 9; i++) { dst[i] = matrix->get(i); } } static void setValues(JNIEnv* env, jobject clazz, jlong matrixHandle, jfloatArray values) { SkMatrix* matrix = reinterpret_cast(matrixHandle); AutoJavaFloatArray autoValues(env, values, 9, kRO_JNIAccess); const float* src = autoValues.ptr(); for (int i = 0; i < 9; i++) { matrix->set(i, src[i]); } } // ---------------- @CriticalNative ----------------------------- static jboolean isIdentity(CRITICAL_JNI_PARAMS_COMMA jlong objHandle) { SkMatrix* obj = reinterpret_cast(objHandle); return obj->isIdentity() ? JNI_TRUE : JNI_FALSE; } static jboolean isAffine(CRITICAL_JNI_PARAMS_COMMA jlong objHandle) { SkMatrix* obj = reinterpret_cast(objHandle); return obj->asAffine(NULL) ? JNI_TRUE : JNI_FALSE; } static jboolean rectStaysRect(CRITICAL_JNI_PARAMS_COMMA jlong objHandle) { SkMatrix* obj = reinterpret_cast(objHandle); return obj->rectStaysRect() ? JNI_TRUE : JNI_FALSE; } static void reset(CRITICAL_JNI_PARAMS_COMMA jlong objHandle) { SkMatrix* obj = reinterpret_cast(objHandle); obj->reset(); } static void set(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jlong otherHandle) { SkMatrix* obj = reinterpret_cast(objHandle); SkMatrix* other = reinterpret_cast(otherHandle); *obj = *other; } static void setTranslate(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat dx, jfloat dy) { SkMatrix* obj = reinterpret_cast(objHandle); obj->setTranslate(dx, dy); } static void setScale__FFFF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat sx, jfloat sy, jfloat px, jfloat py) { SkMatrix* obj = reinterpret_cast(objHandle); obj->setScale(sx, sy, px, py); } static void setScale__FF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat sx, jfloat sy) { SkMatrix* obj = reinterpret_cast(objHandle); obj->setScale(sx, sy); } static void setRotate__FFF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat degrees, jfloat px, jfloat py) { SkMatrix* obj = reinterpret_cast(objHandle); obj->setRotate(degrees, px, py); } static void setRotate__F(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat degrees) { SkMatrix* obj = reinterpret_cast(objHandle); obj->setRotate(degrees); } static void setSinCos__FFFF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat sinValue, jfloat cosValue, jfloat px, jfloat py) { SkMatrix* obj = reinterpret_cast(objHandle); obj->setSinCos(sinValue, cosValue, px, py); } static void setSinCos__FF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat sinValue, jfloat cosValue) { SkMatrix* obj = reinterpret_cast(objHandle); obj->setSinCos(sinValue, cosValue); } static void setSkew__FFFF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat kx, jfloat ky, jfloat px, jfloat py) { SkMatrix* obj = reinterpret_cast(objHandle); obj->setSkew(kx, ky, px, py); } static void setSkew__FF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat kx, jfloat ky) { SkMatrix* obj = reinterpret_cast(objHandle); obj->setSkew(kx, ky); } static void setConcat(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jlong aHandle, jlong bHandle) { SkMatrix* obj = reinterpret_cast(objHandle); SkMatrix* a = reinterpret_cast(aHandle); SkMatrix* b = reinterpret_cast(bHandle); obj->setConcat(*a, *b); } static void preTranslate(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat dx, jfloat dy) { SkMatrix* obj = reinterpret_cast(objHandle); obj->preTranslate(dx, dy); } static void preScale__FFFF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat sx, jfloat sy, jfloat px, jfloat py) { SkMatrix* obj = reinterpret_cast(objHandle); obj->preScale(sx, sy, px, py); } static void preScale__FF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat sx, jfloat sy) { SkMatrix* obj = reinterpret_cast(objHandle); obj->preScale(sx, sy); } static void preRotate__FFF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat degrees, jfloat px, jfloat py) { SkMatrix* obj = reinterpret_cast(objHandle); obj->preRotate(degrees, px, py); } static void preRotate__F(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat degrees) { SkMatrix* obj = reinterpret_cast(objHandle); obj->preRotate(degrees); } static void preSkew__FFFF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat kx, jfloat ky, jfloat px, jfloat py) { SkMatrix* obj = reinterpret_cast(objHandle); obj->preSkew(kx, ky, px, py); } static void preSkew__FF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat kx, jfloat ky) { SkMatrix* obj = reinterpret_cast(objHandle); obj->preSkew(kx, ky); } static void preConcat(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jlong otherHandle) { SkMatrix* obj = reinterpret_cast(objHandle); SkMatrix* other = reinterpret_cast(otherHandle); obj->preConcat(*other); } static void postTranslate(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat dx, jfloat dy) { SkMatrix* obj = reinterpret_cast(objHandle); obj->postTranslate(dx, dy); } static void postScale__FFFF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat sx, jfloat sy, jfloat px, jfloat py) { SkMatrix* obj = reinterpret_cast(objHandle); obj->postScale(sx, sy, px, py); } static void postScale__FF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat sx, jfloat sy) { SkMatrix* obj = reinterpret_cast(objHandle); obj->postScale(sx, sy); } static void postRotate__FFF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat degrees, jfloat px, jfloat py) { SkMatrix* obj = reinterpret_cast(objHandle); obj->postRotate(degrees, px, py); } static void postRotate__F(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat degrees) { SkMatrix* obj = reinterpret_cast(objHandle); obj->postRotate(degrees); } static void postSkew__FFFF(CRITICAL_JNI_PARAMS_COMMA jlong objHandle, jfloat kx, jfloat ky, jfloat px, jfloat py) { SkMatrix* obj = reinterpret_cast(objHandle); obj->postSkew(kx, ky, px, py); } static void postSkew__FF(CRITICAL_JNI_PARAMS_COMMA jlong matrixHandle, jfloat kx, jfloat ky) { SkMatrix* matrix = reinterpret_cast(matrixHandle); matrix->postSkew(kx, ky); } static void postConcat(CRITICAL_JNI_PARAMS_COMMA jlong matrixHandle, jlong otherHandle) { SkMatrix* matrix = reinterpret_cast(matrixHandle); SkMatrix* other = reinterpret_cast(otherHandle); matrix->postConcat(*other); } static jboolean invert(CRITICAL_JNI_PARAMS_COMMA jlong matrixHandle, jlong inverseHandle) { SkMatrix* matrix = reinterpret_cast(matrixHandle); SkMatrix* inverse = reinterpret_cast(inverseHandle); return matrix->invert(inverse); } static jfloat mapRadius(CRITICAL_JNI_PARAMS_COMMA jlong matrixHandle, jfloat radius) { SkMatrix* matrix = reinterpret_cast(matrixHandle); float result; result = SkScalarToFloat(matrix->mapRadius(radius)); return static_cast(result); } static jboolean equals(CRITICAL_JNI_PARAMS_COMMA jlong aHandle, jlong bHandle) { const SkMatrix* a = reinterpret_cast(aHandle); const SkMatrix* b = reinterpret_cast(bHandle); return *a == *b; } }; static const JNINativeMethod methods[] = { {"nGetNativeFinalizer", "()J", (void*) SkMatrixGlue::getNativeFinalizer}, {"nCreate","(J)J", (void*) SkMatrixGlue::create}, // ------- @FastNative below here --------------- {"nMapPoints","(J[FI[FIIZ)V", (void*) SkMatrixGlue::mapPoints}, {"nMapRect","(JLandroid/graphics/RectF;Landroid/graphics/RectF;)Z", (void*) SkMatrixGlue::mapRect__RectFRectF}, {"nSetRectToRect","(JLandroid/graphics/RectF;Landroid/graphics/RectF;I)Z", (void*) SkMatrixGlue::setRectToRect}, {"nSetPolyToPoly","(J[FI[FII)Z", (void*) SkMatrixGlue::setPolyToPoly}, {"nGetValues","(J[F)V", (void*) SkMatrixGlue::getValues}, {"nSetValues","(J[F)V", (void*) SkMatrixGlue::setValues}, // ------- @CriticalNative below here --------------- {"nIsIdentity","(J)Z", (void*) SkMatrixGlue::isIdentity}, {"nIsAffine","(J)Z", (void*) SkMatrixGlue::isAffine}, {"nRectStaysRect","(J)Z", (void*) SkMatrixGlue::rectStaysRect}, {"nReset","(J)V", (void*) SkMatrixGlue::reset}, {"nSet","(JJ)V", (void*) SkMatrixGlue::set}, {"nSetTranslate","(JFF)V", (void*) SkMatrixGlue::setTranslate}, {"nSetScale","(JFFFF)V", (void*) SkMatrixGlue::setScale__FFFF}, {"nSetScale","(JFF)V", (void*) SkMatrixGlue::setScale__FF}, {"nSetRotate","(JFFF)V", (void*) SkMatrixGlue::setRotate__FFF}, {"nSetRotate","(JF)V", (void*) SkMatrixGlue::setRotate__F}, {"nSetSinCos","(JFFFF)V", (void*) SkMatrixGlue::setSinCos__FFFF}, {"nSetSinCos","(JFF)V", (void*) SkMatrixGlue::setSinCos__FF}, {"nSetSkew","(JFFFF)V", (void*) SkMatrixGlue::setSkew__FFFF}, {"nSetSkew","(JFF)V", (void*) SkMatrixGlue::setSkew__FF}, {"nSetConcat","(JJJ)V", (void*) SkMatrixGlue::setConcat}, {"nPreTranslate","(JFF)V", (void*) SkMatrixGlue::preTranslate}, {"nPreScale","(JFFFF)V", (void*) SkMatrixGlue::preScale__FFFF}, {"nPreScale","(JFF)V", (void*) SkMatrixGlue::preScale__FF}, {"nPreRotate","(JFFF)V", (void*) SkMatrixGlue::preRotate__FFF}, {"nPreRotate","(JF)V", (void*) SkMatrixGlue::preRotate__F}, {"nPreSkew","(JFFFF)V", (void*) SkMatrixGlue::preSkew__FFFF}, {"nPreSkew","(JFF)V", (void*) SkMatrixGlue::preSkew__FF}, {"nPreConcat","(JJ)V", (void*) SkMatrixGlue::preConcat}, {"nPostTranslate","(JFF)V", (void*) SkMatrixGlue::postTranslate}, {"nPostScale","(JFFFF)V", (void*) SkMatrixGlue::postScale__FFFF}, {"nPostScale","(JFF)V", (void*) SkMatrixGlue::postScale__FF}, {"nPostRotate","(JFFF)V", (void*) SkMatrixGlue::postRotate__FFF}, {"nPostRotate","(JF)V", (void*) SkMatrixGlue::postRotate__F}, {"nPostSkew","(JFFFF)V", (void*) SkMatrixGlue::postSkew__FFFF}, {"nPostSkew","(JFF)V", (void*) SkMatrixGlue::postSkew__FF}, {"nPostConcat","(JJ)V", (void*) SkMatrixGlue::postConcat}, {"nInvert","(JJ)Z", (void*) SkMatrixGlue::invert}, {"nMapRadius","(JF)F", (void*) SkMatrixGlue::mapRadius}, {"nEquals", "(JJ)Z", (void*) SkMatrixGlue::equals} }; static jfieldID sNativeInstanceField; int register_android_graphics_Matrix(JNIEnv* env) { int result = RegisterMethodsOrDie(env, "android/graphics/Matrix", methods, NELEM(methods)); jclass clazz = FindClassOrDie(env, "android/graphics/Matrix"); sNativeInstanceField = GetFieldIDOrDie(env, clazz, "native_instance", "J"); return result; } SkMatrix* android_graphics_Matrix_getSkMatrix(JNIEnv* env, jobject matrixObj) { return reinterpret_cast(env->GetLongField(matrixObj, sNativeInstanceField)); } }