xiaoguangbin/AnalysisSystemForRadionuclide_qt_RPF
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修改nothis错误

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wanglong 2024-09-29 15:12:03 +08:00
parent b053e070fe
commit 263ad7c526
3 changed files with 116 additions and 98 deletions
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2
CplusToJava.h
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@ -94,7 +94,7 @@ typedef struct _Read_Result_
jint b_r_record_count;
/* g_Efficiency Block */
jobjectArray g_e_dev_name; // device name
jobjectArray g_e_nuclide; // device name
jobjectArray g_e_energy; // ¦Ã -energy (keV)
jobjectArray g_e_efficiency; // efficiency (counts in peak/photon emitted)
jobjectArray g_e_uncertainty; // uncertainty (counts in peak/photon emitted)

2
ReadPHDFile.pro.user
View File

@ -1,6 +1,6 @@
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE QtCreatorProject>
<!-- Written by QtCreator 4.9.1, 2024-09-29T11:24:08. -->
<!-- Written by QtCreator 4.9.1, 2024-09-29T15:10:42. -->
<qtcreator>
<data>
<variable>EnvironmentId</variable>

210
org_jeecg_modules_native_jni_EnergySpectrumHandler.cpp
View File

@ -308,8 +308,8 @@ JNIEXPORT jobject JNICALL Java_org_jeecg_modules_native_1jni_EnergySpectrumHandl
cresult.g_e_efficiency = CplusToJava::QVectorD2jobjectArray(ngeff.efficiency, env);
allSize["g_e_uncertainty"] = ngeff.uncertainty.size();
cresult.g_e_uncertainty = CplusToJava::QVectorD2jobjectArray(ngeff.uncertainty, env);
allSize["g_e_dev_name"] = ngeff.dev_name.size();
cresult.g_e_dev_name = CplusToJava::QVectorQS2jobjectArray(ngeff.dev_name, env);
allSize["g_e_nuclide"] = ngeff.dev_name.size();
cresult.g_e_nuclide = CplusToJava::QVectorQS2jobjectArray(ngeff.dev_name, env);
cresult.g_e_record_count = ngeff.record_count;
}
else {
@ -438,24 +438,24 @@ JNIEXPORT jobject JNICALL Java_org_jeecg_modules_native_1jni_EnergySpectrumHandl
cresult.b_counts = CplusToJava::QVectorLL2jobjectArray(b_spectrum.counts, env);
}
// //Histogram内容获取
// order = ORDER_HISTOGRAM;
// variant = message.GetBlockData(order);
// if (!variant.isValid())
// {
//// printf((order.toStdString() + " get failed\n").c_str());
// Histogramflag = true;
// }
// else
// {
// RadionuclideData::HistogramBlock historgram = variant.value<RadionuclideData::HistogramBlock>();
// cresult.b_channels = historgram.b_channels;
// cresult.g_channels = historgram.g_channels;
// cresult.b_h_energy_span = historgram.b_energy_span;
// cresult.g_h_energy_span = historgram.g_energy_span;
// allSize["h_counts"] = historgram.counts.size();
// cresult.h_counts = CplusToJava::QVectorLL2jobjectArray(historgram.counts, env);
// }
//Histogram内容获取
order = ORDER_HISTOGRAM;
variant = message.GetBlockData(order);
if (!variant.isValid())
{
// printf((order.toStdString() + " get failed\n").c_str());
Histogramflag = true;
}
else
{
RadionuclideData::HistogramBlock historgram = variant.value<RadionuclideData::HistogramBlock>();
cresult.b_channels = historgram.b_channels;
cresult.g_channels = historgram.g_channels;
cresult.b_h_energy_span = historgram.b_energy_span;
cresult.g_h_energy_span = historgram.g_energy_span;
allSize["h_counts"] = historgram.counts.size();
cresult.h_counts = CplusToJava::QVectorLL2jobjectArray(historgram.counts, env);
}
//Certificate内容获取
RadionuclideData::CertificateBlock certificateBlock;
@ -811,8 +811,8 @@ JNIEXPORT jobject JNICALL Java_org_jeecg_modules_native_1jni_EnergySpectrumHandl
if (g_Efficiencyflag)
{
//设置成员变量g_e_name的值
fieldID = env->GetFieldID(energySpectrumStructClass, "g_e_dev_name", SIG_LIST);
fieldJobject = CplusToJava::Createjobject(env, allSize["g_e_dev_name"], cresult.g_e_dev_name);
fieldID = env->GetFieldID(energySpectrumStructClass, "g_e_nuclide", SIG_LIST);
fieldJobject = CplusToJava::Createjobject(env, allSize["g_e_nuclide"], cresult.g_e_nuclide);
env->SetObjectField(result, fieldID, fieldJobject);
//设置成员变量g_e_energy的值
@ -966,35 +966,35 @@ JNIEXPORT jobject JNICALL Java_org_jeecg_modules_native_1jni_EnergySpectrumHandl
env->SetObjectField(result, fieldID, fieldJobject);
}
// if (Histogramflag)
// {
// //设置成员变量b_channels的值
// fieldID = env->GetFieldID(energySpectrumStructClass, "b_channels", SIG_LONG);
// env->SetLongField(result, fieldID, cresult.b_channels);
if (Histogramflag)
{
//设置成员变量b_channels的值
fieldID = env->GetFieldID(energySpectrumStructClass, "b_channels", SIG_LONG);
env->SetLongField(result, fieldID, cresult.b_channels);
// //设置成员变量g_channels的值
// fieldID = env->GetFieldID(energySpectrumStructClass, "g_channels", SIG_LONG);
// env->SetLongField(result, fieldID, cresult.g_channels);
//设置成员变量g_channels的值
fieldID = env->GetFieldID(energySpectrumStructClass, "g_channels", SIG_LONG);
env->SetLongField(result, fieldID, cresult.g_channels);
// //设置成员变量b_h_energy_span的值
// fieldID = env->GetFieldID(energySpectrumStructClass, "b_h_energy_span", SIG_LONG);
// env->SetLongField(result, fieldID, cresult.b_h_energy_span);
//设置成员变量b_h_energy_span的值
fieldID = env->GetFieldID(energySpectrumStructClass, "b_h_energy_span", SIG_LONG);
env->SetLongField(result, fieldID, cresult.b_h_energy_span);
// //设置成员变量g_h_energy_span的值
// fieldID = env->GetFieldID(energySpectrumStructClass, "g_h_energy_span", SIG_LONG);
// env->SetLongField(result, fieldID, cresult.g_h_energy_span);
//设置成员变量g_h_energy_span的值
fieldID = env->GetFieldID(energySpectrumStructClass, "g_h_energy_span", SIG_LONG);
env->SetLongField(result, fieldID, cresult.g_h_energy_span);
// //设置成员变量h_counts的值
//// fieldID = env->GetFieldID(energySpectrumStructClass, "h_counts", SIG_LIST);
//// fieldJobject = CplusToJava::Createjobject(env, allSize["h_counts"], cresult.h_counts);
//// env->SetObjectField(result, fieldID, fieldJobject);
// //设置成员变量h_counts_arr的值
// fieldID = env->GetFieldID(energySpectrumStructClass, "h_count_arr", SIG_LONG_ARRAY);
// fieldJobject = CplusToJava::Create2Djobject(env, allSize["g_counts"], cresult.h_counts,cresult.g_channels, cresult.b_channels);
//设置成员变量h_counts的值
// fieldID = env->GetFieldID(energySpectrumStructClass, "h_counts", SIG_LIST);
// fieldJobject = CplusToJava::Createjobject(env, allSize["h_counts"], cresult.h_counts);
// env->SetObjectField(result, fieldID, fieldJobject);
// }
//
//设置成员变量h_counts_arr的值
fieldID = env->GetFieldID(energySpectrumStructClass, "h_count_arr", SIG_LONG_ARRAY);
fieldJobject = CplusToJava::Create2Djobject(env, allSize["g_counts"], cresult.h_counts,cresult.g_channels, cresult.b_channels);
env->SetObjectField(result, fieldID, fieldJobject);
}
if (certificateflag)
{
//设置成员变量total_source_activity的值
@ -1099,7 +1099,7 @@ JNIEXPORT jobject JNICALL Java_org_jeecg_modules_native_1jni_EnergySpectrumHandl
fieldID = env->GetFieldID(energySpectrumStructClass, "lat", SIG_DOUBLE);
env->SetDoubleField(result, fieldID, cresult.lat);
}
printf("func end\n");
return result;
}
@ -1115,11 +1115,10 @@ JNIEXPORT jobject JNICALL Java_org_jeecg_modules_native_1jni_EnergySpectrumHandl
//文件名转换
QString qfilename = CplusToJava::jstring2QString(env, PHDfile);
//文件解析
RadionuclideMessage message;
printf("anals Start\n");
bool readflag = message.AnalysePHD_File(qfilename);
printf("anals end\n");
if (!readflag)
{
// **************** printf("THE PHDfile get failed:");
@ -1159,7 +1158,6 @@ JNIEXPORT jobject JNICALL Java_org_jeecg_modules_native_1jni_EnergySpectrumHandl
QString order;
QVariant variant;
//header内容获取
RadionuclideData::HeaderBlock headerBlock;
order = ORDER_HEADER;
@ -1390,14 +1388,30 @@ JNIEXPORT jobject JNICALL Java_org_jeecg_modules_native_1jni_EnergySpectrumHandl
}
else
{
RadionuclideData::_g_Efficiency_Block_ g_efficiency = variant.value<RadionuclideData::_g_Efficiency_Block_>();
allSize["g_e_energy"] = g_efficiency.g_energy.size();
cresult.g_e_energy = CplusToJava::QVectorD2jobjectArray(g_efficiency.g_energy, env);
allSize["g_e_efficiency"] = g_efficiency.efficiency.size();
cresult.g_e_efficiency = CplusToJava::QVectorD2jobjectArray(g_efficiency.efficiency, env);
allSize["g_e_uncertainty"] = g_efficiency.uncertainty.size();
cresult.g_e_uncertainty = CplusToJava::QVectorD2jobjectArray(g_efficiency.uncertainty, env);
cresult.g_e_record_count = g_efficiency.record_count;
QString type = CplusToJava::jstring2QString(env, cresult.system_type);
if(type == 'C')
{
RadionuclideData::n_G_EfficiencyBlock ngeff = variant.value<RadionuclideData::n_G_EfficiencyBlock>();
allSize["g_e_energy"] = ngeff.g_energy.size();
cresult.g_e_energy = CplusToJava::QVectorD2jobjectArray(ngeff.g_energy, env);
allSize["g_e_efficiency"] = ngeff.efficiency.size();
cresult.g_e_efficiency = CplusToJava::QVectorD2jobjectArray(ngeff.efficiency, env);
allSize["g_e_uncertainty"] = ngeff.uncertainty.size();
cresult.g_e_uncertainty = CplusToJava::QVectorD2jobjectArray(ngeff.uncertainty, env);
allSize["g_e_nuclide"] = ngeff.dev_name.size();
cresult.g_e_nuclide = CplusToJava::QVectorQS2jobjectArray(ngeff.dev_name, env);
cresult.g_e_record_count = ngeff.record_count;
}
else {
RadionuclideData::_g_Efficiency_Block_ g_efficiency = variant.value<RadionuclideData::_g_Efficiency_Block_>();
allSize["g_e_energy"] = g_efficiency.g_energy.size();
cresult.g_e_energy = CplusToJava::QVectorD2jobjectArray(g_efficiency.g_energy, env);
allSize["g_e_efficiency"] = g_efficiency.efficiency.size();
cresult.g_e_efficiency = CplusToJava::QVectorD2jobjectArray(g_efficiency.efficiency, env);
allSize["g_e_uncertainty"] = g_efficiency.uncertainty.size();
cresult.g_e_uncertainty = CplusToJava::QVectorD2jobjectArray(g_efficiency.uncertainty, env);
cresult.g_e_record_count = g_efficiency.record_count;
}
}
//roi_limits内容获取
@ -1514,24 +1528,24 @@ JNIEXPORT jobject JNICALL Java_org_jeecg_modules_native_1jni_EnergySpectrumHandl
cresult.b_counts = CplusToJava::QVectorLL2jobjectArray(b_spectrum.counts, env);
}
//Histogram内容获取
order = ORDER_HISTOGRAM;
variant = message.GetBlockData(order);
if (!variant.isValid())
{
// printf((order.toStdString() + " get failed\n").c_str());
Histogramflag = true;
}
else
{
RadionuclideData::HistogramBlock historgram = variant.value<RadionuclideData::HistogramBlock>();
cresult.b_channels = historgram.b_channels;
cresult.g_channels = historgram.g_channels;
cresult.b_h_energy_span = historgram.b_energy_span;
cresult.g_h_energy_span = historgram.g_energy_span;
allSize["h_counts"] = historgram.counts.size();
cresult.h_counts = CplusToJava::QVectorLL2jobjectArray(historgram.counts, env);
}
// //Histogram内容获取
// order = ORDER_HISTOGRAM;
// variant = message.GetBlockData(order);
// if (!variant.isValid())
// {
//// printf((order.toStdString() + " get failed\n").c_str());
// Histogramflag = true;
// }
// else
// {
// RadionuclideData::HistogramBlock historgram = variant.value<RadionuclideData::HistogramBlock>();
// cresult.b_channels = historgram.b_channels;
// cresult.g_channels = historgram.g_channels;
// cresult.b_h_energy_span = historgram.b_energy_span;
// cresult.g_h_energy_span = historgram.g_energy_span;
// allSize["h_counts"] = historgram.counts.size();
// cresult.h_counts = CplusToJava::QVectorLL2jobjectArray(historgram.counts, env);
// }
//Certificate内容获取
RadionuclideData::CertificateBlock certificateBlock;
@ -1888,6 +1902,11 @@ JNIEXPORT jobject JNICALL Java_org_jeecg_modules_native_1jni_EnergySpectrumHandl
if (g_Efficiencyflag)
{
//设置成员变量g_e_name的值
fieldID = env->GetFieldID(energySpectrumStructClass, "g_e_nuclide", SIG_LIST);
fieldJobject = CplusToJava::Createjobject(env, allSize["g_e_nuclide"], cresult.g_e_nuclide);
env->SetObjectField(result, fieldID, fieldJobject);
//设置成员变量g_e_energy的值
fieldID = env->GetFieldID(energySpectrumStructClass, "g_e_energy", SIG_LIST);
fieldJobject = CplusToJava::Createjobject(env, allSize["g_e_energy"], cresult.g_e_energy);
@ -2038,33 +2057,33 @@ JNIEXPORT jobject JNICALL Java_org_jeecg_modules_native_1jni_EnergySpectrumHandl
fieldJobject = CplusToJava::Createjobject(env, allSize["b_counts"], cresult.b_counts);
env->SetObjectField(result, fieldID, fieldJobject);
}
printf("aaaaaaaaaaaa %d\n", Histogramflag ? 1 : 2);
if (Histogramflag)
{
//设置成员变量b_channels的值
fieldID = env->GetFieldID(energySpectrumStructClass, "b_channels", SIG_LONG);
env->SetLongField(result, fieldID, cresult.b_channels);
//设置成员变量g_channels的值
fieldID = env->GetFieldID(energySpectrumStructClass, "g_channels", SIG_LONG);
env->SetLongField(result, fieldID, cresult.g_channels);
// if (Histogramflag)
// {
// //设置成员变量b_channels的值
// fieldID = env->GetFieldID(energySpectrumStructClass, "b_channels", SIG_LONG);
// env->SetLongField(result, fieldID, cresult.b_channels);
//设置成员变量b_h_energy_span的值
fieldID = env->GetFieldID(energySpectrumStructClass, "b_h_energy_span", SIG_LONG);
env->SetLongField(result, fieldID, cresult.b_h_energy_span);
// //设置成员变量g_channels的值
// fieldID = env->GetFieldID(energySpectrumStructClass, "g_channels", SIG_LONG);
// env->SetLongField(result, fieldID, cresult.g_channels);
//设置成员变量g_h_energy_span的值
fieldID = env->GetFieldID(energySpectrumStructClass, "g_h_energy_span", SIG_LONG);
env->SetLongField(result, fieldID, cresult.g_h_energy_span);
// //设置成员变量b_h_energy_span的值
// fieldID = env->GetFieldID(energySpectrumStructClass, "b_h_energy_span", SIG_LONG);
// env->SetLongField(result, fieldID, cresult.b_h_energy_span);
// //设置成员变量g_h_energy_span的值
// fieldID = env->GetFieldID(energySpectrumStructClass, "g_h_energy_span", SIG_LONG);
// env->SetLongField(result, fieldID, cresult.g_h_energy_span);
//设置成员变量h_counts的值
// fieldID = env->GetFieldID(energySpectrumStructClass, "h_counts", SIG_LIST);
// fieldJobject = CplusToJava::Createjobject(env, allSize["h_counts"], cresult.h_counts);
// env->SetObjectField(result, fieldID, fieldJobject);
fieldID = env->GetFieldID(energySpectrumStructClass, "h_count_arr", SIG_LONG_ARRAY);
fieldJobject = CplusToJava::Create2Djobject(env, allSize["g_counts"], cresult.h_counts,cresult.g_channels, cresult.b_channels);
env->SetObjectField(result, fieldID, fieldJobject);
}
// fieldID = env->GetFieldID(energySpectrumStructClass, "h_count_arr", SIG_LONG_ARRAY);
// fieldJobject = CplusToJava::Create2Djobject(env, allSize["g_counts"], cresult.h_counts,cresult.g_channels, cresult.b_channels);
// env->SetObjectField(result, fieldID, fieldJobject);
// }
if (certificateflag)
{
@ -2170,7 +2189,6 @@ JNIEXPORT jobject JNICALL Java_org_jeecg_modules_native_1jni_EnergySpectrumHandl
fieldID = env->GetFieldID(energySpectrumStructClass, "lat", SIG_DOUBLE);
env->SetDoubleField(result, fieldID, cresult.lat);
}
return result;
}