ctp交易平台转java接口转换
首先感谢倪材@csdn的博客,给了我很大帮助。
http://blog.csdn.net/pjjing/article/details/53186394
http://blog.csdn.net/pjjing/article/details/53187469
这里着重说一下转换中遇到的问题。
首先swig中转换 char *str[] 和char **时会转换成SWIGTYPE_p_p_char类型,这里需要在编写.i文件之前,先编写various.i文件,内容如下
/* ----------------------------------------------------------------------------- * See the LICENSE file for information on copyright, usage and redistribution * of SWIG, and the README file for authors - http://www.swig.org/release.html. * * various.i * * SWIG Typemap library for Java. * Various useful typemaps. * ----------------------------------------------------------------------------- */ /* * char **STRING_ARRAY typemaps. * These typemaps are for C String arrays which are NULL terminated. * char *values[] = { "one", "two", "three", NULL }; // note NULL * char ** is mapped to a Java String[]. * * Example usage wrapping: * %apply char **STRING_ARRAY { char **input }; * char ** foo(char **input); * * Java usage: * String numbers[] = { "one", "two", "three" }; * String[] ret = modulename.foo( numbers }; */ %typemap(jni) char **STRING_ARRAY "jobjectArray" %typemap(jtype) char **STRING_ARRAY "String[]" %typemap(jstype) char **STRING_ARRAY "String[]" %typemap(in) char **STRING_ARRAY (jint size) { int i = 0; size = JCALL1(GetArrayLength, jenv, $input); #ifdef __cplusplus $1 = new char*[size+1]; #else $1 = (char **)calloc(size+1, sizeof(char *)); #endif for (i = 0; i<size; i++) { jstring j_string = (jstring)JCALL2(GetObjectArrayElement, jenv, $input, i); const char *c_string = JCALL2(GetStringUTFChars, jenv, j_string, 0); #ifdef __cplusplus $1[i] = new char [strlen(c_string)+1]; #else $1[i] = (char *)calloc(strlen(c_string)+1, sizeof(const char *)); #endif strcpy($1[i], c_string); JCALL2(ReleaseStringUTFChars, jenv, j_string, c_string); JCALL1(DeleteLocalRef, jenv, j_string); } $1[i] = 0; } %typemap(freearg) char **STRING_ARRAY { int i; for (i=0; i<size$argnum-1; i++) #ifdef __cplusplus delete[] $1[i]; delete[] $1; #else free($1[i]); free($1); #endif } %typemap(out) char **STRING_ARRAY { int i; int len=0; jstring temp_string; const jclass clazz = JCALL1(FindClass, jenv, "java/lang/String"); while ($1[len]) len++; jresult = JCALL3(NewObjectArray, jenv, len, clazz, NULL); /* exception checking omitted */ for (i=0; i<len; i++) { temp_string = JCALL1(NewStringUTF, jenv, *result++); JCALL3(SetObjectArrayElement, jenv, jresult, i, temp_string); JCALL1(DeleteLocalRef, jenv, temp_string); } } %typemap(javain) char **STRING_ARRAY "$javainput" %typemap(javaout) char **STRING_ARRAY { return $jnicall; } /* * char **STRING_OUT typemaps. * These are typemaps for returning strings when using a C char ** parameter type. * The returned string appears in the 1st element of the passed in Java String array. * * Example usage wrapping: * void foo(char **string_out); * * Java usage: * String stringOutArray[] = { "" }; * modulename.foo(stringOutArray); * System.out.println( stringOutArray[0] ); */ %typemap(jni) char **STRING_OUT "jobjectArray" %typemap(jtype) char **STRING_OUT "String[]" %typemap(jstype) char **STRING_OUT "String[]" %typemap(javain) char **STRING_OUT "$javainput" %typemap(in) char **STRING_OUT($*1_ltype temp) { if (!$input) { SWIG_JavaThrowException(jenv, SWIG_JavaNullPointerException, "array null"); return $null; } if (JCALL1(GetArrayLength, jenv, $input) == 0) { SWIG_JavaThrowException(jenv, SWIG_JavaIndexOutOfBoundsException, "Array must contain at least 1 element"); return $null; } $1 = &temp; } %typemap(argout) char **STRING_OUT { jstring jnewstring = NULL; if($1) { jnewstring = JCALL1(NewStringUTF, jenv, *$1); } JCALL3(SetObjectArrayElement, jenv, $input, 0, jnewstring); } /* * char *BYTE typemaps. * These are input typemaps for mapping a Java byte[] array to a C char array. * Note that as a Java array is used and thus passeed by reference, the C routine * can return data to Java via the parameter. * * Example usage wrapping: * void foo(char *array); * * Java usage: * byte b[] = new byte[20]; * modulename.foo(b); */ %typemap(jni) char *BYTE "jbyteArray" %typemap(jtype) char *BYTE "byte[]" %typemap(jstype) char *BYTE "byte[]" %typemap(in) char *BYTE { $1 = (char *) JCALL2(GetByteArrayElements, jenv, $input, 0); } %typemap(argout) char *BYTE { JCALL3(ReleaseByteArrayElements, jenv, $input, (jbyte *) $1, 0); } %typemap(javain) char *BYTE "$javainput" /* Prevent default freearg typemap from being used */ %typemap(freearg) char *BYTE ""
然后将various.i引入自己编写的.i文件:
%module(directors="1") thosttradeapi %include "various.i" %apply char **STRING_ARRAY { char *ppInstrumentID[] } %{ #include "ThostFtdcTraderApi.h" #include "ThostFtdcMdApi.h" %} %feature("director") CThostFtdcTraderSpi; %include "ThostFtdcUserApiDataType.h" %include "ThostFtdcUserApiStruct.h" %include "ThostFtdcTraderApi.h" %feature("director") CThostFtdcMdSpi; %include "ThostFtdcMdApi.h"
中文乱码的问题,按照博客上所述的,需要把thosttraderapi_wrap.cpp中所有的带有中文的方法替换,可以用newStringUTF快速定位,替换完之后make,makefile如下
OBJS=thosttraderapi_wrap.o INCLUDE=-I./ -I/home/user/jdk/include -I/home/user/jdk/include/linux TARGET=libthosttraderapi_wrap.so CPPFLAG=-shared -fPIC CC=g++ LDLIB=-liconv -L.-Lthosttraderapi $(TARGET) : $(OBJS) $(CC) $(CPPFLAG) $(INCLUDE) -o $(TARGET) $(OBJS) $(LDLIB) $(OBJS) : %.o : %.cpp $(CC) -c -fPIC $(INCLUDE) $< -o $@ clean: -rm -f $(OBJS) -rm -f $(TARGET) install: cp $(TARGET) /usr/lib
make之后直接load libthosttradeapi_wrap.so,中文乱码的问题就解决了。