The example in this section shows how an application can receive characters from the keyboard, display them in the client area of a window, and update the position of the caret with each character typed. It also demonstrates how to move the caret in response to the left arrow, right arrow, home and end keystrokes, and shows how to highlight selected text in response to the shift+right arrow key combination.
During processing of the WM_CREATE message, the window procedure shown in the example allocates a 64K buffer for storing keyboard input. It also retrieves the metrics of the currently loaded font, saving the height and average width of characters in the font. The height and width are used in processing the WM_SIZE message to calculate the line length and maximum number of lines, based on the size of the client area.
The window procedure creates and displays the caret when processing the WM_SETFOCUS message. It hides and deletes the caret when processing the WM_KILLFOCUS message.
When processing the WM_CHAR message, the window procedure displays characters, stores them in the input buffer, and updates the caret position. The window procedure also converts tab characters to four consecutive space characters. Backspace, linefeed, and escape characters generate a beep, but are not otherwise processed.
The window procedure performs the left, right, end, and home caret movements when processing the WM_KEYDOWN message. While processing the action of the right arrow key, the window procedure checks the state of the shift key and, if it is down, selects the character to the right of the caret as the caret is moved.
Note that the following code is written so that it can be compiled either as Unicode or as ANSI. If the source code defines UNICODE, strings are handled as Unicode characters; otherwise, they are handled as ANSI characters.
#define BUFSIZE 65535
#define SHIFTED 0x8000
LONG APIENTRY MainWndProc(HWND hwndMain, UINT uMsg, WPARAM wParam, LPARAM lParam)
{
HDC hdc; // handle to device context
TEXTMETRIC tm; // structure for text metrics
static DWORD dwCharX; // average width of characters
static DWORD dwCharY; // height of characters
static DWORD dwClientX; // width of client area
static DWORD dwClientY; // height of client area
static DWORD dwLineLen; // line length
static DWORD dwLines; // text lines in client area
static int nCaretPosX = 0; // horizontal position of caret
static int nCaretPosY = 0; // vertical position of caret
static int nCharWidth = 0; // width of a character
static int cch = 0; // characters in buffer
static int nCurChar = 0; // index of current character
static PTCHAR pchInputBuf; // address of input buffer
int i, j; // loop counters
int cCR = 0; // count of carriage returns
int nCRIndex = 0; // index of last carriage return
int nVirtKey; // virtual-key code
TCHAR szBuf[128]; // temporary buffer
TCHAR ch; // current character
PAINTSTRUCT ps; // required by BeginPaint
RECT rc; // output rectangle for DrawText
SIZE sz; // string dimensions
COLORREF crPrevText; // previous text color
COLORREF crPrevBk; // previous background color
switch (uMsg)
{
case WM_CREATE:
// Get the metrics of the current font.
hdc = GetDC(hwndMain);
GetTextMetrics(hdc, &tm);
ReleaseDC(hwndMain, hdc);
// Save the average character width and height.
dwCharX = tm.tmAveCharWidth;
dwCharY = tm.tmHeight;
// Allocate a buffer to store keyboard input.
pchInputBuf = (LPTSTR) GlobalAlloc(GPTR,
BUFSIZE * sizeof(TCHAR));
return 0;
case WM_SIZE:
// Save the new width and height of the client area.
dwClientX = LOWORD(lParam);
dwClientY = HIWORD(lParam);
// Calculate the maximum width of a line and the
// maximum number of lines in the client area.
dwLineLen = dwClientX - dwCharX;
dwLines = dwClientY / dwCharY;
break;
case WM_SETFOCUS:
// Create, position, and display the caret when the
// window receives the keyboard focus.
CreateCaret(hwndMain, (HBITMAP) 1, 0, dwCharY);
SetCaretPos(nCaretPosX, nCaretPosY * dwCharY);
ShowCaret(hwndMain);
break;
case WM_KILLFOCUS:
// Hide and destroy the caret when the window loses the
// keyboard focus.
HideCaret(hwndMain);
DestroyCaret();
break;
case WM_CHAR:
switch (wParam)
{
case 0x08: // backspace
case 0x0A: // linefeed
case 0x1B: // escape
MessageBeep(0xFFFFFFFF);
return 0;
case 0x09: // tab
// Convert tabs to four consecutive spaces.
for (i = 0; i < 4; i++)
SendMessage(hwndMain, WM_CHAR, 0x20, 0);
return 0;
case 0x0D: // carriage return
// Record the carriage return and position the
// caret at the beginning of the new line.
pchInputBuf[cch++] = 0x0D;
nCaretPosX = 0;
nCaretPosY += 1;
break;
default: // displayable character
ch = (TCHAR) wParam;
HideCaret(hwndMain);
// Retrieve the character's width and output
// the character.
hdc = GetDC(hwndMain);
GetCharWidth32(hdc, (UINT) wParam, (UINT) wParam,
&nCharWidth);
TextOut(hdc, nCaretPosX, nCaretPosY * dwCharY,
&ch, 1);
ReleaseDC(hwndMain, hdc);
// Store the character in the buffer.
pchInputBuf[cch++] = ch;
// Calculate the new horizontal position of the
// caret. If the position exceeds the maximum,
// insert a carriage return and move the caret
// to the beginning of the next line.
nCaretPosX += nCharWidth;
if ((DWORD) nCaretPosX > dwLineLen)
{
nCaretPosX = 0;
pchInputBuf[cch++] = 0x0D;
++nCaretPosY;
}
nCurChar = cch;
ShowCaret(hwndMain);
break;
}
SetCaretPos(nCaretPosX, nCaretPosY * dwCharY);
break;
case WM_KEYDOWN:
switch (wParam)
{
case VK_LEFT: // LEFT ARROW
// The caret can move only to the beginning of
// the current line.
if (nCaretPosX > 0)
{
HideCaret(hwndMain);
// Retrieve the character to the left of
// the caret, calculate the character's
// width, then subtract the width from the
// current horizontal position of the caret
// to obtain the new position.
ch = pchInputBuf[--nCurChar];
hdc = GetDC(hwndMain);
GetCharWidth32(hdc, ch, ch, &nCharWidth);
ReleaseDC(hwndMain, hdc);
nCaretPosX = max(nCaretPosX - nCharWidth,
0);
ShowCaret(hwndMain);
}
break;
case VK_RIGHT: // RIGHT ARROW
// Caret moves to the right or, when a carriage
// return is encountered, to the beginning of
// the next line.
if (nCurChar < cch)
{
HideCaret(hwndMain);
// Retrieve the character to the right of
// the caret. If it's a carriage return,
// position the caret at the beginning of
// the next line.
ch = pchInputBuf[nCurChar];
if (ch == 0x0D)
{
nCaretPosX = 0;
nCaretPosY++;
}
// If the character isn't a carriage
// return, check to see whether the SHIFT
// key is down. If it is, invert the text
// colors and output the character.
else
{
hdc = GetDC(hwndMain);
nVirtKey = GetKeyState(VK_SHIFT);
if (nVirtKey & SHIFTED)
{
crPrevText = SetTextColor(hdc,
RGB(255, 255, 255));
crPrevBk = SetBkColor(hdc,
RGB(0,0,0));
TextOut(hdc, nCaretPosX,
nCaretPosY * dwCharY,
&ch, 1);
SetTextColor(hdc, crPrevText);
SetBkColor(hdc, crPrevBk);
}
// Get the width of the character and
// calculate the new horizontal
// position of the caret.
GetCharWidth32(hdc, ch, ch, &nCharWidth);
ReleaseDC(hwndMain, hdc);
nCaretPosX = nCaretPosX + nCharWidth;
}
nCurChar++;
ShowCaret(hwndMain);
break;
}
break;
case VK_UP: // UP ARROW
case VK_DOWN: // DOWN ARROW
MessageBeep(0xFFFFFFFF);
return 0;
case VK_HOME: // HOME
// Set the caret's position to the upper left
// corner of the client area.
nCaretPosX = nCaretPosY = 0;
nCurChar = 0;
break;
case VK_END: // END
// Move the caret to the end of the text.
for (i=0; i < cch; i++)
{
// Count the carriage returns and save the
// index of the last one.
if (pchInputBuf[i] == 0x0D)
{
cCR++;
nCRIndex = i + 1;
}
}
nCaretPosY = cCR;
// Copy all text between the last carriage
// return and the end of the keyboard input
// buffer to a temporary buffer.
for (i = nCRIndex, j = 0; i < cch; i++, j++)
szBuf[j] = pchInputBuf[i];
szBuf[j] = TEXT('\0');
// Retrieve the text extent and use it
// to set the horizontal position of the
// caret.
hdc = GetDC(hwndMain);
GetTextExtentPoint32(hdc, szBuf, lstrlen(szBuf),
&sz);
nCaretPosX = sz.cx;
ReleaseDC(hwndMain, hdc);
nCurChar = cch;
break;
default:
break;
}
SetCaretPos(nCaretPosX, nCaretPosY * dwCharY);
break;
case WM_PAINT:
if (cch == 0) // nothing in input buffer
break;
hdc = BeginPaint(hwndMain, &ps);
HideCaret(hwndMain);
// Set the clipping rectangle, and then draw the text
// into it.
SetRect(&rc, 0, 0, dwLineLen, dwClientY);
DrawText(hdc, pchInputBuf, -1, &rc, DT_LEFT);
ShowCaret(hwndMain);
EndPaint(hwndMain, &ps);
break;
// Process other messages.
case WM_DESTROY:
PostQuitMessage(0);
// Free the input buffer.
GlobalFree((HGLOBAL) pchInputBuf);
UnregisterHotKey(hwndMain, 0xAAAA);
break;
default:
return DefWindowProc(hwndMain, uMsg, wParam, lParam);
}
return NULL;
}