Introduction
The purpose of this article is to show how to use IWebBrowser2
, IHTMLDocument2
and IHTMLElement
objects.
Creating a new web browser object
Let's start with a very simple example: How to create a new Internet Explorer window. The code below shows how to do this:
HRESULT hr;
IWebBrowser2* pWebBrowser = NULL;
hr = CoCreateInstance (CLSID_InternetExplorer, NULL,
CLSCTX_SERVER, IID_IWebBrowser2, (LPVOID*)&pWebBrowser);
if (SUCCEEDED (hr) && (pWebBrowser != NULL))
{
m_pWebBrowser->put_Visible (VARIANT_TRUE);
}
else
{
if (pWebBrowser)
pWebBrowser->Release ();
}
Connecting to a running instance of IE
Creating a new IE window is a fairly easy task. But what if you want to use an existing Internet Explorer window, instead of creating a new IE window? Well, in this case, the task is more complicated. The function below finds an Internet Explorer window. sTitleToSearch
is the title of the web page to be searched for. Usage of wildcard characters is allowed. If you want to find any IE window, then just enter "*" as the title.
bool CMyInternetExplorer::FindUsingTitle
(const CString & sTitleToSearch)
{
if (m_pWebBrowser != NULL)
{
m_pWebBrowser->Release ();
m_pWebBrowser = NULL;
}
HRESULT hr;
SHDocVw::IShellWindowsPtr spSHWinds;
hr = spSHWinds.CreateInstance (__uuidof(SHDocVw::ShellWindows));
if (FAILED (hr))
return false;
ASSERT (spSHWinds != NULL);
long nCount = spSHWinds->GetCount ();
IDispatchPtr spDisp;
for (long i = 0; i < nCount; i++)
{
_variant_t va (i, VT_I4);
spDisp = spSHWinds->Item (va);
IWebBrowser2 * pWebBrowser = NULL;
hr = spDisp.QueryInterface (IID_IWebBrowser2, & pWebBrowser);
if (pWebBrowser != NULL)
{
HRESULT hr;
IDispatch* pHtmlDocDispatch = NULL;
IHTMLDocument2 * pHtmlDoc = NULL;
hr = pWebBrowser->get_Document (&pHtmlDocDispatch);
if (SUCCEEDED (hr) && (pHtmlDocDispatch != NULL))
{
hr = pHtmlDocDispatch->QueryInterface
(IID_IHTMLDocument2, (void**)&pHtmlDoc);
if (SUCCEEDED (hr) && (pHtmlDoc != NULL))
{
CString sTitle;
HWND hWnd = NULL;
pWebBrowser->get_HWND ((long*)(&hWnd));
if (::IsWindow (hWnd))
{
int nLen = ::GetWindowTextLength (hWnd);
::GetWindowText (hWnd,
sTitle.GetBufferSetLength (nLen),
nLen + 1);
sTitle.ReleaseBuffer ();
}
if (sTitle.IsEmpty ())
{
BSTR bstrTitle;
hr = pHtmlDoc->get_title (&bstrTitle);
if (!FAILED (hr))
{
sTitle = bstrTitle;
SysFreeString (bstrTitle);
}
}
if (StringHelper::WildcardCompareNoCase
(sTitleToSearch, sTitle))
{
m_pWebBrowser = pWebBrowser;
pHtmlDoc->Release ();
pHtmlDocDispatch->Release ();
return true;
}
pHtmlDoc->Release();
}
pHtmlDocDispatch->Release ();
}
pWebBrowser->Release ();
}
}
return false;
}
This approach is described in MSDN in more detail. Click here to get more information.
This approach uses SHDocVw.ShellWindows
collection to enumerate all the instances of shell windows. The ShellWindows
object represents a collection of the open windows that belong to the shell. In fact, this collection contains references to Internet Explorer as well as other windows belonging to the shell, such as the Windows Explorer. To differentiate between Internet Explorer and other shell windows, we just try to get the HTML document of the shell window. If we get the document successfully, then this instance of ShellWindow
is in fact an Internet Explorer window.
Navigate to a web page
Now, after we get the web browser object and store it in the variable m_pWebBrowser
, it is very easy to navigate to a web page.
void CMyInternetExplorer::Navigate(LPCTSTR lpszURL, DWORD dwFlags ,
LPCTSTR lpszTargetFrameName ,
LPCTSTR lpszHeaders , LPVOID lpvPostData ,
DWORD dwPostDataLen )
{
CString strURL (lpszURL);
BSTR bstrURL = strURL.AllocSysString ();
COleSafeArray vPostData;
if (lpvPostData != NULL)
{
if (dwPostDataLen == 0)
dwPostDataLen = lstrlen ((LPCTSTR) lpvPostData);
vPostData.CreateOneDim (VT_UI1, dwPostDataLen, lpvPostData);
}
m_pWebBrowser->Navigate (bstrURL,
COleVariant ((long) dwFlags, VT_I4),
COleVariant (lpszTargetFrameName, VT_BSTR),
vPostData, COleVariant (lpszHeaders, VT_BSTR));
SysFreeString (bstrURL);
}
Wait until the web page is loaded
After starting to load a web page using the function above, to wait until the web page to be completely loaded, we can use the READYSTATE
property of IWebBrowser2
object.
bool CMyInternetExplorer::WaitTillLoaded (int nTimeout)
{
READYSTATE result;
DWORD nFirstTick = GetTickCount ();
do
{
m_pWebBrowser->get_ReadyState (&result);
if (result != READYSTATE_COMPLETE)
Sleep (250);
if (nTimeout > 0)
{
if ((GetTickCount () - nFirstTick) > nTimeout)
break;
}
} while (result != READYSTATE_COMPLETE);
if (result == READYSTATE_COMPLETE)
return true;
else
return false;
}
This function waits until the web page is completely loaded or a timeout occurs. To wait indefinitely, set the nTimeout
parameter to 0.
Find an anchor on a web page
The following function searches for the specified anchor in a web page. The anchor can be specified either by the name, outer text, tool tip or the URL. The anchor element has the following syntax:
<a href = "anhor_URL" name ="anchor_name"
title = "anchor_tooltip">Outer Text</a>
If bClick
parameter is set to true
, then if the anchor is found, it will also be clicked on.
bool CMyInternetExplorer::FindAnchor (bool bClick, bool bFocus,
bool bName, bool bOuterText, bool bTooltip, bool bURL,
LPCTSTR sName, LPCTSTR sOuterText, LPCTSTR sTooltip, LPCTSTR sURL)
{
ASSERT (m_pWebBrowser != NULL);
if (m_pWebBrowser == NULL)
return false;
HRESULT hr;
IDispatch* pHtmlDocDispatch = NULL;
IHTMLDocument2 * pHtmlDoc = NULL;
bool bSearch = true;
hr = m_pWebBrowser->get_Document (&pHtmlDocDispatch);
if (SUCCEEDED (hr) && (pHtmlDocDispatch != NULL))
{
hr = pHtmlDocDispatch->QueryInterface
(IID_IHTMLDocument2, (void**)&pHtmlDoc);
if (SUCCEEDED (hr) && (pHtmlDoc != NULL))
{
IHTMLElementCollection* pColl = NULL;
hr = pHtmlDoc->get_all (&pColl);
if (SUCCEEDED (hr) && (pColl != NULL))
{
long nLength = 0;
pColl->get_length (&nLength);
for (int i = 0; i < nLength && bSearch; i++)
{
COleVariant vIdx ((long)i, VT_I4);
IDispatch* pElemDispatch = NULL;
IHTMLElement * pElem = NULL;
hr = pColl->item (vIdx, vIdx, &pElemDispatch);
if (SUCCEEDED (hr) &&
(pElemDispatch != NULL))
{
hr = pElemDispatch->QueryInterface
(IID_IHTMLElement, (void**)&pElem);
if (SUCCEEDED (hr) && (pElem != NULL))
{
BSTR bstrTagName;
CString sTempTagName;
if (!FAILED (pElem->get_tagName
(&bstrTagName)))
{
sTempTagName = bstrTagName;
SysFreeString (bstrTagName);
}
if (sTempTagName == _T ("a") ||
sTempTagName == _T ("A"))
{
IHTMLAnchorElement * pAnchor = NULL;
hr = pElemDispatch->QueryInterface
(IID_IHTMLAnchorElement,
(void**)&pAnchor);
if (SUCCEEDED (hr) &&
(pAnchor != NULL))
{
BSTR bstrName, bstrOuterText,
bstrURL, bstrTooltip;
CString sTempName, sTempOuter,
sTempURL, sTempTooltip;
if (!FAILED (pElem->get_outerText
(&bstrOuterText)))
{
sTempOuter = bstrOuterText;
SysFreeString (bstrOuterText);
}
if (!FAILED
(pElem->get_title
(&bstrTooltip)))
{
sTempTooltip = bstrTooltip;
SysFreeString (bstrTooltip);
}
if
(!FAILED (pAnchor->get_name
(&bstrName)))
{
sTempName = bstrName;
SysFreeString (bstrName);
}
if (!FAILED (pAnchor->get_href
(&bstrURL)))
{
sTempURL = bstrURL;
SysFreeString (bstrURL);
}
bool bMatches = true;
if (bMatches && bName)
{
if
(!StringHelper::WildcardCompareNoCase
(sName, sTempName))
bMatches = false;
}
if (bMatches && bOuterText)
{
if
(!StringHelper::WildcardCompareNoCase
(sOuterText, sTempOuter))
bMatches = false;
}
if (bMatches && bURL)
{
if
(!StringHelper::WildcardCompareNoCase
(sURL, sTempURL))
bMatches = false;
}
if (bMatches && bTooltip)
{
if
(!StringHelper::WildcardCompareNoCase
(sTooltip, sTempTooltip))
bMatches = false;
}
if (bMatches)
{
bSearch = false;
if (bFocus)
pAnchor->focus ();
if (bClick)
pElem->click ();
}
pAnchor->Release ();
}
}
pElem->Release ();
}
pElemDispatch->Release ();
}
}
pColl->Release ();
}
pHtmlDoc->Release();
}
pHtmlDocDispatch->Release ();
}
if (bSearch == false)
return true;
return false;
}
The idea here is very simple. We first enumerate all IHTMLElement
objects using get_all
function of IHTMLDocument2
. Then we check all of the elements to see whether it is an anchor object (IHTMLAnchorElement
) or not, by checking its tag name. If it is an "a" or an "A", then it is an anchor object. Then I try to get the IHTMLAnchor
object by using the QueryInterface
function. The reason that I check the name instead of just using QueryInterface
function is performance related. I guess it is much faster to check a tag's name than trying to get IHTMLAnchorElement
by using QueryInterface
function.
Fill a form on a web page
The idea here is similar to the one above. Instead of finding the anchor element, I try to find all the input elements and then do the same operations. The syntax for an input
element is a follows:
<input type="input_type" value="input_value" name="input_name">
bool CMyInternetExplorer::FindInput (bool bClick, bool bSelect,
bool bChangeValue, bool bSetCheck,
bool bType, bool bName, bool bValue,
LPCTSTR sTypeToLook, LPCTSTR sNameToLook,
LPCTSTR sValueToLook,
bool bNewCheckValue, LPCTSTR sNewValue)
{
ASSERT (m_pWebBrowser != NULL);
if (m_pWebBrowser == NULL)
return false;
HRESULT hr;
IDispatch* pHtmlDocDispatch = NULL;
IHTMLDocument2 * pHtmlDoc = NULL;
bool bSearch = true;
hr = m_pWebBrowser->get_Document (&pHtmlDocDispatch);
if (SUCCEEDED (hr) && (pHtmlDocDispatch != NULL))
{
hr = pHtmlDocDispatch->QueryInterface
(IID_IHTMLDocument2, (void**)&pHtmlDoc);
if (SUCCEEDED (hr) && (pHtmlDoc != NULL))
{
IHTMLElementCollection* pColl = NULL;
hr = pHtmlDoc->get_all (&pColl);
if (SUCCEEDED (hr) && (pColl != NULL))
{
long nLength = 0;
pColl->get_length (&nLength);
for (int i = 0; i < nLength && bSearch; i++)
{
COleVariant vIdx ((long)i, VT_I4);
IDispatch* pElemDispatch = NULL;
IHTMLElement * pElem = NULL;
hr = pColl->item (vIdx, vIdx, &pElemDispatch);
if (SUCCEEDED (hr) && (pElemDispatch != NULL))
{
hr = pElemDispatch->QueryInterface
(IID_IHTMLElement, (void**)&pElem);
if (SUCCEEDED (hr) && (pElem != NULL))
{
BSTR bstrTagName;
CString sTempTagName;
if (!FAILED (pElem->get_tagName
(&bstrTagName)))
{
sTempTagName = bstrTagName;
sTempTagName.MakeLower ();
SysFreeString (bstrTagName);
}
if (sTempTagName == _T ("input"))
{
IHTMLInputElement * pInputElem = NULL;
hr = pElemDispatch->QueryInterface
(IID_IHTMLInputElement,
(void**)&pInputElem);
if (SUCCEEDED (hr) &&
(pInputElem != NULL))
{
BSTR bstrType, bstrName, bstrValue;
CString sTempType,
sTempName, sTempValue;
if (!FAILED
(pInputElem->get_type
(&bstrType)))
{
sTempType = bstrType;
SysFreeString (bstrType);
}
if (!FAILED (pInputElem->get_name
(&bstrName)))
{
sTempName = bstrName;
SysFreeString (bstrName);
}
if (!FAILED
(pInputElem->get_value
(&bstrValue)))
{
sTempValue = bstrValue;
SysFreeString (bstrValue);
}
bool bMatches = true;
if (bMatches && bType)
{
if
(!StringHelper::WildcardCompareNoCase
(sTypeToLook, sTempType))
bMatches = false;
}
if (bMatches && bName)
{
if
(!StringHelper::WildcardCompareNoCase
(sNameToLook, sTempName))
bMatches = false;
}
if (bMatches && bValue)
{
if
(!StringHelper::WildcardCompareNoCase
(sValueToLook, sTempValue))
bMatches = false;
}
if (bMatches)
{
bSearch = false;
if (bSetCheck)
{
if (bNewCheckValue)
pInputElem->put_checked
(VARIANT_TRUE);
else
pInputElem->put_checked
(VARIANT_FALSE);
}
if (bChangeValue)
{
CString sTemp (sNewValue);
BSTR bstrNewValue =
sTemp.AllocSysString ();
pInputElem->put_value
(bstrNewValue);
SysFreeString
(bstrNewValue);
}
if (bSelect)
pInputElem->select ();
if (bClick)
pElem->click ();
}
pInputElem->Release ();
}
}
pElem->Release ();
}
pElemDispatch->Release ();
}
}
pColl->Release ();
}
pHtmlDoc->Release();
}
pHtmlDocDispatch->Release ();
}
if (bSearch == false)
return true;
return false;
}
Some points that you should keep in mind
- The attached source code includes a few more functions to fill the forms on web pages.
- The source code above does not search inside
Frame
objects. However, this should not be a hard task. The frame objects should be enumerated and then the IHTMLDocument2
of each frame should be checked recursively. May be I will implement this in the next update.
- In order to use
IHTMLInputElement
object, you need at least Internet Explorer 5.0
- I am not an expert Internet Explorer programmer. Lately, I needed to automate Internet Explorer and then wrote these functions. I wrote most of them on my own, and they may have some bug fixes in it.
- Please do not ask me why I used MFC, not ATL. The reason is that I don't know ATL :( However, if you guys help me to convert this code into ATL, I would be very glad. I may even start learning ATL :-)
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