/* Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved. 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. */ #ifdef ANDROID #include "paddle_mobile_jni.h" #include #include #include #include "common/log.h" #include "framework/tensor.h" #include "io/paddle_mobile.h" #ifdef ENABLE_EXCEPTION #include "common/enforce.h" #endif #ifdef __cplusplus extern "C" { #endif namespace paddle_mobile { namespace jni { using framework::DDim; using framework::Program; using framework::Tensor; using paddle_mobile::CPU; using std::string; const char *ANDROID_LOG_TAG = "paddle_mobile LOG built on " __DATE__ " " __TIME__; paddle_mobile::PaddleMobile paddle_mobile; static std::mutex shared_mutex; PaddleMobile *getPaddleMobileInstance() { return &paddle_mobile; } string jstring2cppstring(JNIEnv *env, jstring jstr) { const char *cstr = env->GetStringUTFChars(jstr, 0); string cppstr(cstr); env->ReleaseStringUTFChars(jstr, cstr); return cppstr; } JNIEXPORT jboolean JNICALL Java_com_baidu_paddle_PML_load(JNIEnv *env, jclass thiz, jstring modelPath, jboolean lodMode) { std::lock_guard lock(shared_mutex); ANDROIDLOGI("load invoked"); bool optimize = true; bool isLoadOk = false; #ifdef ENABLE_EXCEPTION try { isLoadOk = getPaddleMobileInstance()->Load( jstring2cppstring(env, modelPath), optimize, false, 1, static_cast(lodMode)); } catch (paddle_mobile::PaddleMobileException &e) { ANDROIDLOGE("jni got an PaddleMobileException! ", e.what()); isLoadOk = false; } #else isLoadOk = getPaddleMobileInstance()->Load(jstring2cppstring(env, modelPath), optimize, false, 1, static_cast(lodMode)); #endif return static_cast(isLoadOk); } JNIEXPORT jboolean JNICALL Java_com_baidu_paddle_PML_loadQualified( JNIEnv *env, jclass thiz, jstring modelPath, jboolean lodMode) { std::lock_guard lock(shared_mutex); ANDROIDLOGI("loadQualified invoked"); bool optimize = true; bool qualified = true; bool isLoadOk = false; #ifdef ENABLE_EXCEPTION try { isLoadOk = getPaddleMobileInstance()->Load( jstring2cppstring(env, modelPath), optimize, qualified, 1, static_cast(lodMode)); } catch (paddle_mobile::PaddleMobileException &e) { ANDROIDLOGE("jni got an PaddleMobileException! ", e.what()); isLoadOk = false; } #else isLoadOk = getPaddleMobileInstance()->Load(jstring2cppstring(env, modelPath), optimize, qualified, 1, static_cast(lodMode)); #endif return static_cast(isLoadOk); } JNIEXPORT jboolean JNICALL Java_com_baidu_paddle_PML_loadCombined( JNIEnv *env, jclass thiz, jstring modelPath, jstring paramPath, jboolean lodMode) { std::lock_guard lock(shared_mutex); ANDROIDLOGI("loadCombined invoked"); bool optimize = true; bool isLoadOk = false; #ifdef ENABLE_EXCEPTION try { isLoadOk = getPaddleMobileInstance()->Load( jstring2cppstring(env, modelPath), jstring2cppstring(env, paramPath), optimize, false, 1, static_cast(lodMode)); } catch (paddle_mobile::PaddleMobileException &e) { ANDROIDLOGE("jni got an PaddleMobileException! ", e.what()); isLoadOk = false; } #else isLoadOk = getPaddleMobileInstance()->Load( jstring2cppstring(env, modelPath), jstring2cppstring(env, paramPath), optimize, false, 1, static_cast(lodMode)); #endif return static_cast(isLoadOk); } JNIEXPORT jboolean JNICALL Java_com_baidu_paddle_PML_loadCombinedQualified( JNIEnv *env, jclass thiz, jstring modelPath, jstring paramPath, jboolean lodMode) { std::lock_guard lock(shared_mutex); ANDROIDLOGI("loadCombinedQualified invoked"); bool optimize = true; bool qualified = true; bool isLoadOk = false; #ifdef ENABLE_EXCEPTION try { isLoadOk = getPaddleMobileInstance()->Load( jstring2cppstring(env, modelPath), jstring2cppstring(env, paramPath), optimize, qualified, 1, static_cast(lodMode)); } catch (paddle_mobile::PaddleMobileException &e) { ANDROIDLOGE("jni got an PaddleMobileException! ", e.what()); isLoadOk = false; } #else isLoadOk = getPaddleMobileInstance()->Load( jstring2cppstring(env, modelPath), jstring2cppstring(env, paramPath), optimize, qualified, 1, static_cast(lodMode)); #endif return static_cast(isLoadOk); } JNIEXPORT jfloatArray JNICALL Java_com_baidu_paddle_PML_predictImage( JNIEnv *env, jclass thiz, jfloatArray buf, jintArray ddims) { std::lock_guard lock(shared_mutex); ANDROIDLOGI("predictImage invoked"); jfloatArray result = NULL; #ifdef ENABLE_EXCEPTION ANDROIDLOGE("ENABLE_EXCEPTION!"); try { jsize ddim_size = env->GetArrayLength(ddims); if (ddim_size != 4) { ANDROIDLOGE("ddims size not equal to 4"); } jint *ddim_ptr = env->GetIntArrayElements(ddims, NULL); framework::DDim ddim = framework::make_ddim( {ddim_ptr[0], ddim_ptr[1], ddim_ptr[2], ddim_ptr[3]}); int length = framework::product(ddim); int count = 0; float *dataPointer = nullptr; if (nullptr != buf) { dataPointer = env->GetFloatArrayElements(buf, NULL); } framework::Tensor input; input.Resize(ddim); auto input_ptr = input.mutable_data(); for (int i = 0; i < length; i++) { input_ptr[i] = dataPointer[i]; } getPaddleMobileInstance()->Predict(input); auto output = getPaddleMobileInstance()->Fetch(); count = output->numel(); result = env->NewFloatArray(count); env->SetFloatArrayRegion(result, 0, count, output->data()); env->ReleaseIntArrayElements(ddims, ddim_ptr, 0); env->DeleteLocalRef(ddims); env->ReleaseFloatArrayElements(buf, dataPointer, 0); env->DeleteLocalRef(buf); } catch (paddle_mobile::PaddleMobileException &e) { ANDROIDLOGE("jni got an PaddleMobileException! ", e.what()); } #else jsize ddim_size = env->GetArrayLength(ddims); if (ddim_size != 4) { ANDROIDLOGE("ddims size not equal to 4"); } jint *ddim_ptr = env->GetIntArrayElements(ddims, NULL); framework::DDim ddim = framework::make_ddim( {ddim_ptr[0], ddim_ptr[1], ddim_ptr[2], ddim_ptr[3]}); int length = framework::product(ddim); int count = 0; float *dataPointer = nullptr; if (nullptr != buf) { dataPointer = env->GetFloatArrayElements(buf, NULL); } framework::Tensor input; input.Resize(ddim); auto input_ptr = input.mutable_data(); for (int i = 0; i < length; i++) { input_ptr[i] = dataPointer[i]; } getPaddleMobileInstance()->Predict(input); auto output = getPaddleMobileInstance()->Fetch(); count = output->numel(); result = env->NewFloatArray(count); env->SetFloatArrayRegion(result, 0, count, output->data()); env->ReleaseIntArrayElements(ddims, ddim_ptr, 0); env->DeleteLocalRef(ddims); env->ReleaseFloatArrayElements(buf, dataPointer, 0); env->DeleteLocalRef(buf); // env->DeleteLocalRef(dataPointer); #endif ANDROIDLOGI("predictImage finished"); return result; } inline int yuv_to_rgb(int y, int u, int v, float *r, float *g, float *b) { int r1 = (int)(y + 1.370705 * (v - 128)); int g1 = (int)(y - 0.698001 * (u - 128) - 0.703125 * (v - 128)); int b1 = (int)(y + 1.732446 * (u - 128)); r1 = (int)fminf(255, fmaxf(0, r1)); g1 = (int)fminf(255, fmaxf(0, g1)); b1 = (int)fminf(255, fmaxf(0, b1)); *r = r1; *g = g1; *b = b1; return 0; } void convert_nv21_to_matrix(uint8_t *nv21, float *matrix, int width, int height, int targetWidth, int targetHeight, float *means) { const uint8_t *yData = nv21; const uint8_t *vuData = nv21 + width * height; const int yRowStride = width; const int vuRowStride = width; float scale_x = width * 1.0 / targetWidth; float scale_y = height * 1.0 / targetHeight; for (int j = 0; j < targetHeight; ++j) { int y = j * scale_y; const uint8_t *pY = yData + y * yRowStride; const uint8_t *pVU = vuData + (y >> 1) * vuRowStride; for (int i = 0; i < targetWidth; ++i) { int x = i * scale_x; const int offset = ((x >> 1) << 1); float r = 0; float g = 0; float b = 0; yuv_to_rgb(pY[x], pVU[offset + 1], pVU[offset], &r, &g, &b); int r_index = j * targetWidth + i; int g_index = r_index + targetWidth * targetHeight; int b_index = g_index + targetWidth * targetHeight; matrix[r_index] = r - means[0]; matrix[g_index] = g - means[1]; matrix[b_index] = b - means[2]; } } } JNIEXPORT jfloatArray JNICALL Java_com_baidu_paddle_PML_predictYuv( JNIEnv *env, jclass thiz, jbyteArray yuv_, jint imgwidth, jint imgHeight, jintArray ddims, jfloatArray meanValues) { std::lock_guard lock(shared_mutex); ANDROIDLOGI("predictYuv invoked"); jfloatArray result = NULL; #ifdef ENABLE_EXCEPTION try { jsize ddim_size = env->GetArrayLength(ddims); if (ddim_size != 4) { ANDROIDLOGE("ddims size not equal to 4"); } jint *ddim_ptr = env->GetIntArrayElements(ddims, NULL); framework::DDim ddim = framework::make_ddim( {ddim_ptr[0], ddim_ptr[1], ddim_ptr[2], ddim_ptr[3]}); int length = framework::product(ddim); float matrix[length]; jbyte *yuv = env->GetByteArrayElements(yuv_, NULL); float *meansPointer = nullptr; if (nullptr != meanValues) { meansPointer = env->GetFloatArrayElements(meanValues, NULL); } convert_nv21_to_matrix((uint8_t *)yuv, matrix, imgwidth, imgHeight, ddim[3], ddim[2], meansPointer); int count = 0; framework::Tensor input; input.Resize(ddim); auto input_ptr = input.mutable_data(); for (int i = 0; i < length; i++) { input_ptr[i] = matrix[i]; } getPaddleMobileInstance()->Predict(input); auto output = getPaddleMobileInstance()->Fetch(); count = output->numel(); result = env->NewFloatArray(count); env->SetFloatArrayRegion(result, 0, count, output->data()); env->ReleaseByteArrayElements(yuv_, yuv, 0); env->ReleaseIntArrayElements(ddims, ddim_ptr, 0); env->ReleaseFloatArrayElements(meanValues, meansPointer, 0); ANDROIDLOGI("predictYuv finished"); } catch (paddle_mobile::PaddleMobileException &e) { ANDROIDLOGE("jni got an PaddleMobileException! ", e.what()); } #else jsize ddim_size = env->GetArrayLength(ddims); if (ddim_size != 4) { ANDROIDLOGE("ddims size not equal to 4"); } jint *ddim_ptr = env->GetIntArrayElements(ddims, NULL); framework::DDim ddim = framework::make_ddim( {ddim_ptr[0], ddim_ptr[1], ddim_ptr[2], ddim_ptr[3]}); int length = framework::product(ddim); float matrix[length]; jbyte *yuv = env->GetByteArrayElements(yuv_, NULL); float *meansPointer = nullptr; if (nullptr != meanValues) { meansPointer = env->GetFloatArrayElements(meanValues, NULL); } convert_nv21_to_matrix((uint8_t *)yuv, matrix, imgwidth, imgHeight, ddim[3], ddim[2], meansPointer); int count = 0; framework::Tensor input; input.Resize(ddim); auto input_ptr = input.mutable_data(); for (int i = 0; i < length; i++) { input_ptr[i] = matrix[i]; } getPaddleMobileInstance()->Predict(input); auto output = getPaddleMobileInstance()->Fetch(); count = output->numel(); result = env->NewFloatArray(count); env->SetFloatArrayRegion(result, 0, count, output->data()); env->ReleaseByteArrayElements(yuv_, yuv, 0); env->ReleaseIntArrayElements(ddims, ddim_ptr, 0); env->ReleaseFloatArrayElements(meanValues, meansPointer, 0); ANDROIDLOGI("predictYuv finished"); #endif return result; } JNIEXPORT jlongArray JNICALL Java_com_baidu_paddle_PML_predictLod(JNIEnv *env, jclass thiz, jlongArray buf) { std::lock_guard lock(shared_mutex); jlong *ddim_ptr = env->GetLongArrayElements(buf, NULL); jsize ddim_size = env->GetArrayLength(buf); std::vector ids; for (int i = 0; i < ddim_size; ++i) { jlong x = ddim_ptr[i]; ids.push_back((int64_t)x); } paddle_mobile::framework::LoDTensor words; auto size = static_cast(ids.size()); paddle_mobile::framework::LoD lod{{0, ids.size()}}; DDim dims{size, 1}; words.Resize(dims); words.set_lod(lod); auto *pdata = words.mutable_data(); size_t n = words.numel() * sizeof(int64_t); memcpy(pdata, ids.data(), n); paddle_mobile.Predict(words); auto vec_result = paddle_mobile.Fetch(); int count = vec_result->numel(); jlongArray result = NULL; ANDROIDLOGE("predict nlp size %d", count); result = env->NewLongArray(count); env->SetLongArrayRegion(result, 0, count, vec_result->data()); env->ReleaseLongArrayElements(buf, ddim_ptr, 0); return result; } JNIEXPORT void JNICALL Java_com_baidu_paddle_PML_setThread(JNIEnv *env, jclass thiz, jint threadCount) { std::lock_guard lock(shared_mutex); ANDROIDLOGI("setThreadCount %d", threadCount); #ifdef ENABLE_EXCEPTION try { getPaddleMobileInstance()->SetThreadNum((int)threadCount); } catch (paddle_mobile::PaddleMobileException &e) { ANDROIDLOGE("jni got an PaddleMobileException! ", e.what()); } #else getPaddleMobileInstance()->SetThreadNum((int)threadCount); #endif } JNIEXPORT void JNICALL Java_com_baidu_paddle_PML_clear(JNIEnv *env, jclass thiz) { std::lock_guard lock(shared_mutex); #ifdef ENABLE_EXCEPTION try { getPaddleMobileInstance()->Clear(); } catch (paddle_mobile::PaddleMobileException &e) { ANDROIDLOGE("jni got an PaddleMobileException! ", e.what()); } #else getPaddleMobileInstance()->Clear(); #endif } } // namespace jni } // namespace paddle_mobile #ifdef __cplusplus } #endif #endif