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android / platform / external / gsoap / refs/heads/jumper-stable / . / gsoap-symbian / interop2test.cpp
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//===================================================================================
//
// (C) COPYRIGHT International Business Machines Corp., 2002 All Rights Reserved
// Licensed Materials - Property of IBM
// US Government Users Restricted Rights - Use, duplication or
// disclosure restricted by GSA ADP Schedule Contract with IBM Corp.
//
// IBM DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
// ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
// PURPOSE. IN NO EVENT SHALL IBM BE LIABLE FOR ANY SPECIAL, INDIRECT OR
// CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
// USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
// OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE
// OR PERFORMANCE OF THIS SOFTWARE.
//
// The program may be used, executed, copied, modified, and distributed
// without royalty for the purpose of developing, using, marketing, or distributing.
//
//=======================================================================================
// gSOAP v2 Interop test round 2 base
//#include "interoptA.h"
#include "soapH.h"
extern "C" void displayText(char *text);
extern "C" int interopA(const char *url);
struct Namespace namespacesA[] =
{ {"SOAP-ENV", "http://schemas.xmlsoap.org/soap/envelope/"},
{"SOAP-ENC", "http://schemas.xmlsoap.org/soap/encoding/"},
{"xsi", "http://www.w3.org/2001/XMLSchema-instance", "http://www.w3.org/*/XMLSchema-instance"},
{"xsd", "http://www.w3.org/2001/XMLSchema", "http://www.w3.org/*/XMLSchema"},
{"ns", "http://soapinterop.org/"},
{"s", "http://soapinterop.org/xsd"},
{"a", "http://xml.apache.org/xml-soap"},
{"h", "http://soapinterop.org/echoheader/"},
{NULL, NULL}
};
int interopA(const char *url)
{
struct soap *soap;
int i, g;
xsd__string so, si = "Hello World! <>&";
struct ArrayOfstring Asi, Aso;
xsd__int no, ni = 1234567890;
xsd__int n = 2147483647;
struct ArrayOfint Ani, Ano;
// xsd__float f1 = 3.40282e+38;
xsd__float f1 = 123.5678;
xsd__float f2 = 3.14;
xsd__float fo, fi = 123.456;
// xsd__float fo, fi = 3e2;
//#ifdef SYMBIAN
// const struct soap_double_nan { unsigned int n1, n2; } soap_double_nan;
//#endif
xsd__float nan = FLT_NAN, inf = FLT_PINFTY, ninf = FLT_NINFTY;
struct ArrayOffloat Afi, Afo;
struct s__SOAPStruct sti, *p;
struct ns__echoStructResponse sto;
struct ArrayOfSOAPStruct Asti, Asto;
struct ns__echoVoidResponse Rv;
struct xsd__base64Binary b64i, b64o;
xsd__dateTime dto, dti = "1967-12-29T01:02:03";
struct xsd__hexBinary hbi, hbo;
xsd__decimal Do, Di = "1234567890.123456789";
xsd__boolean bo, bi = true;
//struct a__Map mi, mo;
//struct ArrayOfMap Ami, Amo;
// char buff[100];
displayText("running test A on");
displayText((char*)url);
soap = soap_new();
soap->namespaces = (struct Namespace *)namespacesA;
// soap.send_timeout = 30;
// soap.recv_timeout = 30;
Asi.__size = 8;
Asi.__offset = 0;
Asi.__ptr = (xsd__string*)malloc(Asi.__size*sizeof(xsd__string));
Asi.__ptr[0] = NULL;
Asi.__ptr[1] = " Hello\tWorld";
Asi.__ptr[2] = NULL;
Asi.__ptr[3] = "! ";
Asi.__ptr[4] = NULL;
Asi.__ptr[5] = si;
Asi.__ptr[6] = NULL;
Asi.__ptr[7] = si;
Ani.__size = 0;
Ani.__offset = 0;
Ani.__ptr = NULL; // (xsd__int*)malloc(Ani.__size*sizeof(xsd__int));
Afi.__size = 5;
Afi.__offset = 0;
Afi.__ptr = (xsd__float**)malloc(Afi.__size*sizeof(xsd__float*));
Afi.__ptr[0] = &f1;
Afi.__ptr[1] = &nan; // FLT_NAN;
Afi.__ptr[2] = &inf; // FLT_PINFTY;
Afi.__ptr[3] = &ninf; // FLT_NINFTY;
Afi.__ptr[4] = &f2;
sti.varString = "Hello";
sti.varInt = &n;
sti.varFloat = &f1;
Asti.__size = 3;
Asti.__offset = 2;
Asti.__ptr = (struct s__SOAPStruct**)malloc((Asti.__size+1)*sizeof(struct s__SOAPStruct*));
p = (struct s__SOAPStruct*)malloc(Asti.__size*sizeof(struct s__SOAPStruct));
Asti.__ptr[0] = p;
Asti.__ptr[1] = p+1;
Asti.__ptr[2] = p+2;
Asti.__ptr[3] = p;
Asti.__ptr[0]->varString = "Hello";
Asti.__ptr[0]->varInt = &n;
Asti.__ptr[0]->varFloat = &f1;
Asti.__ptr[1]->varString = "World";
Asti.__ptr[1]->varInt = &n;
Asti.__ptr[1]->varFloat = &f2;
Asti.__ptr[2]->varString = "!";
Asti.__ptr[2]->varInt = &n;
Asti.__ptr[2]->varFloat = &f2;
// b64i.__ptr = (unsigned char*)"This is an example Base64 encoded string";
// b64i.__size = strlen((char*)b64i.__ptr)+1;
unsigned char b64data[4]={0x80, 0x81, 0x82, 0x83};
b64i.__ptr = b64data;
b64i.__size = 4;
hbi.__ptr = (unsigned char*)"This is an example HexBinary encoded string";
hbi.__size = strlen((char*)hbi.__ptr)+1;
/*
mi.__size = 2;
mi.__ptr = (struct _item*)malloc(mi.__size*sizeof(struct _item));
mi.__ptr[0].key = new xsd__string_("hello");
mi.__ptr[0].value = new xsd__string_("world");
mi.__ptr[1].key = new xsd__int_(2);
mi.__ptr[1].value = new xsd__boolean_(true);
Ami.__size = 2;
Ami.__ptr = (struct a__Map**)malloc(Ami.__size*sizeof(struct a__Map*));
Ami.__ptr[0] = &mi;
Ami.__ptr[1] = &mi; */
char *site=(char*)url;
// char* site ="http://websrv.cs.fsu.edu/~engelen/interop2.cgi";
// char* site = "http://nagoya.apache.org:5049/axis/services/echo ";
char* action = "http://soapinterop.org/";
bool ok=true;
if (soap_call_ns__echoString(soap, site, action, si, so))
{
displayText("echoString fail");
ok=false;
}
else if (!so || strcmp(si, so))
{
ok=false;
displayText("echoString mismatched");
}
else
displayText("echoString pass");
if (soap_call_ns__echoInteger(soap, site, "http://soapinterop.org/", ni, no))
{
ok=false;
displayText("echoInteger fail");
}
else if (ni != no)
{
ok=false;
displayText("echoInteger mismatched");
}
else
displayText("echoInteger pass");
if (soap_call_ns__echoFloat(soap, site, "http://soapinterop.org/", fi, fo))
{
ok=false;
displayText("echoFloat fail");
}
else if (fi != fo)
{
ok=false;
displayText("echoFloat mismatched");
}
else
displayText("echoFloat pass");
if (soap_call_ns__echoStruct(soap, site, "http://soapinterop.org/", sti, sto))
{
ok=false;
displayText("echoStruct fail");
}
else if (!sto._return.varString || strcmp(sti.varString, sto._return.varString)
|| !sto._return.varInt || *sti.varInt != *sto._return.varInt
|| !sto._return.varFloat || *sti.varFloat != *sto._return.varFloat)
{
ok=false;
displayText("echoStruct mismatch");
}
else
displayText("echoStruct pass");
if (soap_call_ns__echoStringArray(soap, site, "http://soapinterop.org/", Asi, Aso))
{
soap_set_fault(soap);
soap_faultdetail(soap);
ok=false;
displayText("echoStringArray fail");
}
else
{ g = 0;
if (Asi.__size != Aso.__size)
g = 1;
else
for (i = 0; i < Asi.__size; i++)
if (Asi.__ptr[i] && Aso.__ptr[i] && strcmp(Asi.__ptr[i], Aso.__ptr[i]))
g = 1;
else if (!Asi.__ptr[i])
;
else if (Asi.__ptr[i] && !Aso.__ptr[i])
g = 1;
if (g)
{
ok=false;
displayText("echoStringArray mismatch");
}
else
displayText("echoStringArray pass");
}
if (soap_call_ns__echoIntegerArray(soap, site, "http://soapinterop.org/", Ani, Ano))
{ displayText("echoIntegerArray fail");
ok=false;
}
else
{ g = 0;
if (Ani.__size != Ano.__size)
g = 1;
else
for (i = 0; i < Ani.__size; i++)
if (Ani.__ptr[i] && (!Ano.__ptr[i] || *Ani.__ptr[i] != *Ano.__ptr[i]))
g = 1;
if (g)
{ displayText("echoIntegerArray mismatch");
ok=false;
}
else
displayText("echoIntegerArray pass");
}
if (soap_call_ns__echoFloatArray(soap, site, "http://soapinterop.org/", Afi, Afo))
{ displayText("echoFloatArray fail");
ok=false;
}
else
{ g = 0;
if (Afi.__size != Afo.__size)
g = 1;
else
for (i = 0; i < Afi.__size; i++)
if (Afi.__ptr[i] && Afo.__ptr[i] && soap_isnan(*Afi.__ptr[i]) && soap_isnan(*Afo.__ptr[i]))
;
else if (Afi.__ptr[i] && (!Afo.__ptr[i] || *Afi.__ptr[i] != *Afo.__ptr[i]))
g = 1;
if (g)
{ displayText("echoFloatArray mismatch");
ok=false;
}
else
displayText("echoFloatArray pass");
}
if (soap_call_ns__echoStructArray(soap, site, "http://soapinterop.org/", Asti, Asto))
{ displayText("echoStructArray fail");
ok=false;
}
else
{ g = 0;
if (Asti.__size+Asti.__offset != Asto.__size+Asto.__offset)
g = 1;
else
for (i = Asti.__offset; i < Asti.__size+Asti.__offset; i++)
if (!Asto.__ptr[i-Asto.__offset] ||
!Asto.__ptr[i-Asto.__offset]->varString ||
strcmp(Asti.__ptr[i-Asti.__offset]->varString, Asto.__ptr[i-Asto.__offset]->varString) ||
!Asto.__ptr[i-Asto.__offset]->varInt ||
*Asti.__ptr[i-Asti.__offset]->varInt != *Asto.__ptr[i-Asto.__offset]->varInt ||
!Asto.__ptr[i-Asto.__offset]->varFloat ||
*Asti.__ptr[i-Asti.__offset]->varFloat != *Asto.__ptr[i-Asto.__offset]->varFloat)
g = 1;
if (g)
{ displayText("echoStructArray mismatch");
ok=false;
}
else
displayText("echoStructArray pass");
}
if (soap_call_ns__echoVoid(soap, site, "http://soapinterop.org/", Rv))
{ displayText("echoVoid fail");
ok=false;
}
else
displayText("echoVoid pass");
if (soap_call_ns__echoBase64(soap, site, "http://soapinterop.org/", b64i, b64o))
{ displayText("echoBase64 fail");
ok=false;
}
else if ((b64i.__size+2)/3 != (b64o.__size+2)/3 || strncmp((char*)b64i.__ptr, (char*)b64o.__ptr,b64i.__size))
{
displayText("echoBase64 mismatch");
ok=false;
}
else
displayText("echoBase64 pass");
if (soap_call_ns__echoDate(soap, site, "http://soapinterop.org/", dti, dto))
{
displayText("echoDate fail");
ok=false;
}
else if (!dto || strncmp(dti, dto, 19))
{
displayText("echoDate mismatch");
ok=false;
}
else
displayText("echoDate pass");
if (soap_call_ns__echoHexBinary(soap, site, "http://soapinterop.org/", hbi, hbo))
{
ok=false;
displayText("echoHexBinary fail");
}
else if (hbi.__size != hbo.__size || strcmp((char*)hbi.__ptr, (char*)hbo.__ptr))
{
ok=false;
displayText("echoHexBinary mismatch");
}
else
displayText("echoHexBinary pass");
if (soap_call_ns__echoDecimal(soap, site, "http://soapinterop.org/", Di, Do))
{
ok=false;
displayText("echoDecimal pass");
}
else if (strcmp(Di, Do))
{
ok=false;
displayText("echoDecimal mismatch");
}
else
displayText("echoDecimal pass");
if (soap_call_ns__echoBoolean(soap, site, "http://soapinterop.org/", bi, bo))
{
ok=false;
displayText("echoBoolean fail");
}
else if (bi != bo)
{
ok=false;
displayText("echoBoolean mismatch");
}
else
displayText("echoBoolean pass");
if (ok)
displayText("ALL PASS");
else
displayText("FAILURES");
return 0;
end:
return 1;
}