How to find out blink cursor position in windows, from c++? In many cases I need send button click on the position of the blinking cursor, but I didn't find any important function which will take care of that.
OS win 7(64), c++
It is called "caret", cursor is the mouse pointer. You use GetCaretPos() to get its position. But the returned position is relative to the client area of the window that owns the caret. Which probably means that you need to find that window first, use GetForegroundWindow() for that. And don't send button click messages, they are posted so use PostMessage().
Avoid all of this by just using SendInput().
Note that UIPI (the user interface component of UAC) prevents you from poking stuff into a window owned by an elevated process.
GetGUIThreadInfo() is probably your best bet; pass it with idThread = 0 to get the info from the currently active thread, and then check the rcCaret member of the returned GUITHREADINFO structure. You'll then need to use ClientToScreen() with the hwndCaret value to convert client-relative coordinates to screen coordinates.
Note that this only works for apps that use the Win32 caret functions - specifically SetCaretPos(). If an app draws its own caret without using these, you may not get anything meaningful back. (Some apps, like Word, draw their own caret, but still call SetCaretPos so that accessibility aids that need to track the caret can use this technique.)
The rectangle you get back can sometimes be wider than the actual caret. When a bitmap is used for the caret, as is the case for Right-To-Left or Left-To-Right carets that have a little 'flag' attached to the top, you'll get back a rectangle that's a bit wider than the actual caret area, and may need to adjust or otherwise figure out where within this area the actual caret bar is - it may or may not be in the exact middle. Looks like for Notepad++ you should be fine, though.
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I am trying to capture windows hidden behind my application. I am using windows 7 and VC++. I have tried printwindow() function which draws the both non-client and client area of hidden window, but captured window in the device context doesn't show desktop composition effects(aero effects). Instead it shows the captured window with windows 7 basic theme.
I have also tried with GetWindowDC() to retrive the DC of hidden window, and then Bitblt() it to memory DC but the captured window doesn't show non-client area (caption, close button, minimize button etc) correctly.
Anybody faced this issue?
Please help.
Click the link below. It leads to a MSDN site that lists all the existing Windows Functions ever of all history since Windows 95 up to Windows 8 (from period where Microsoft started Windows until present). It shows old windows functions of first Windows and new windows functions added for the new windows.
http://msdn.microsoft.com/en-us/library/windows/desktop/ff468919(v=vs.85).aspx
Anyway follow this site.
You will see the name of each function as a link.
Click any of them that you are interested.
Each link there leads to another MSDN site that explains all the basics knowledge that you must know about the function before using it, that you want to learn more. What that function does, its purpose, all its parameters and how to use each one, all their flags, all parameters types, return value and at last remarks section that shed more light and sometimes gives tips about the selected function.
Of course, you don't have to read all of them. Find in the list only the necessary functions to fit your needs. The functions that will solve your problem and answer your question that you posted.
By the way, I read your post, and I think that I found in the list the necessary functions that will do what you want to do, I will list them below, and say in one sentence what each does for what you need:
AnimateWindow - Enables you to produce special effects when showing or hiding windows. There are four types of animation: roll, slide, collapse or expand, and alpha-blended fade.
FlashWindow - Flashes the specified window one time. It does not change the active state of the window.
FlashWindowEx - Flashes the specified window specified number of times. It does not change the active state of the window.
Use these functions to achieve the aero effects that you want.
SetWindowPos - Changes the size, position, and Z order of a child, pop-up, or top-level window. These windows are ordered according to their appearance on the screen. The topmost window receives the highest rank and is the first window in the Z order.
Use this function to show the hidden windows on the top side (above all other windows) and on the screen front of you. The operating system will automatically draw the both non-client and client area of these windows without using any gdi, draw and paint functions yourself.
If you want these windows to return back to their previous state (where they were hidden), then save their state with GetWindowPlacement function and later call SetWindowPlacement to bring them back to their hidden state. You can try GetWindowRect and SetWindowPos instead to achieve the same goal.
I also think that you will be interested in GetWindowTheme and SetWindowTheme functions and all the draw theme functions (BackgroundEx, Edge, Icon, Text, TextEx).
There are more theme functions. Find in msdn and in other sites on the web.
It is possible to use the SetWindowPos API on Windows to keep a windows always on top of other windows, and there are many questions on StackOverflow dealing with this.
It is possible to keep only part of a Window always visible? I.e. specify a clipping region inside an existing window, and keep only that part visible?
A use case would be the following (on Windows):
User clicks on icon to run app.
User highlights a portion of the screen to focus on (similar to the Snipping Tool on Windows 7)
The highlighted part of the screen remains always visible, even when other windows/programs are moved over the selected region.
I know the issues that would spring up with having other applications that are also set to being topmost. Just curious if this is even possible?
Even if you change part of your window to be transparent to what's below (with a clipping region) it's still going to take all the mouse clicks, etc. that occur over the transparent part.
Your best bet is to create a new smaller window and make it top-most while hiding the main one.
I'm looking to simulate a kiosk mode for Safari on Windows. OSX will not work with my input hardware and Chrome's GPU acceleration is too slow for the machine I'm using.
The only plausible solution [so far] is to run Safari and send an F11 (fullscreen) keystroke, but prevent the URL bar from expanding when the mouse reaches the top pixels of the screen.
I've looked and can't seem to find any good solution and would like to know if I can restrict the cursor movement from reaching the top pixel of the screen?
If anyone has any other solutions, that would be great!
You can use the ClipCursor function to do this.
Confines the cursor to a rectangular area on the screen. If a subsequent cursor position (set by the SetCursorPos function or the mouse) lies outside the rectangle, the system automatically adjusts the position to keep the cursor inside the rectangular area.
You can poll the cursor position and correct it using a timer, but this is not ideal. You could also cover the top bar by a transparent topmost window. This way, input will never reach the top bar.
EDIT: If Internet explorer is an option you have the possibility to use the COM object to embed what you need in a custom application. Other browsers might have similar APIs, but I'm not familiar with them.
I have been all over the web looking for an answer to this, and my question is this:
How does a GUI framework work? for instance how does Qt work, is there any books or wibsites on the topic of writing a GUI framework from scratch? and also does the framework have to call methods from the operating systems GUI framework?
-- Thank you to any one who takes the time to try to answer this question, and forgive me if i misspelled anything.
In the old days we did a lot of GUI programming from scratch. It is not as hard as it seems, but it requires a few weeks to come with results.
First you need a good drawing library. Minimal functionality for this library is drawing clipped rectangles (using patterns), lines, bitmaps, and fonts. You can cheat by creating fonts as bitmaps, and clipped rectangle is just a bunch of horizontal lines.
Now you need at least drivers for mouse, keyboard, and timer (if not already provided by the operating system). In general, you will need to detect keys, symbol keys (such as shift, etc.), mouse moves and mouse clicks. Basic timer functions will allow you to detect double clicks.
Then you need to create a window data structure. This data structure needs to have coordinates i.e. a rectangle, link to parent window (if not top window), and window function i.e. the function that will be called when this window should handle some events.
Once you can draw on screen you need some rectangle algebra functions. You need at least good function to calculate intersection of rectangles, and a quick resolution of relative to absolute coordinates. For example - if your child window has parent then its' x and y should recursively be added to parent x and y until you reach top window.
At this point you have your:
- primitive graphical functions,
- window structure,
- mouse driver, keyboard driver, and timer,
- rectangle arithmetic.
Now you can write your main event harvesting function. This function will run all the time. It's purpose will be to detect events and send messages to correct windows. What is an event? Well, when you start your program, store mouse x and y coordinates. Then in a loop check if they have changed. If they have changed, find the window at that position ... and send WM_MOUSEMOVE event to it. Your harvesting function should handle:
- mouse moves
- mouse clicks
- mouse double clicks (remember last click and position, measure time and decide if it is a double click or not)
- timer events
- keyboard buffer changes
...
Now you should be able to send events to windows. But you really need a mechanism for it. It is a combination of message queue, and window procedure. It usually works like this: each window has a window procedure which commonly accepts four arguments: message id (i.e. is it mouse move, is it paint message), window handle, parameter 1 and parameter 2. You can call this window procedure directly using something like a send_message functions. Or you can send this window a message via post_message function. This will put message to the queue and window will process messages one by one, eventually receiving this one. So why should you call one messages directly and put others to the queue? Because of priority. You see, a keyboard click can wait some time before being processed. But a window redraw must complete immediately to prevent flicker and wrong data on screen.
So your harvest_events function sends messages to windows using post_message, and send_message. And your window message pump gets them using typical message pump like this:
while (pmsg = get_message() != NULL) send_message(pmsg->id, pmsg->hwnd, pmsg->p1, pmsg->p2);
get_message simply obtains message from the queue, and calls send message. Simple, huh? Well, not quite so. This way you would only receive driver messages to windows, but you also need some functions to redraw windows, move them, etc.. When you create move_window function, resize_window, show_window, and hide_window function, your window coordinates will change. Parts of other windows will be uncovered (if top window is moved or closed).You need to calculate which windows are affected by coordinate changes and send paint message to those windows (to repaint only the parts that were uncovered - remember, you have clipping drawing functions so this will work).
These functions introduces messages msg_paint, msg_move, msg_resize, msg_hide...
Last, you need to maintain hierarchy of windows. Your top window should be the desktop. It should have child windows (application top windows). These windows may have further child windows (buttons, edit boxes, etc.) The obvious structure for holding these is the window tree. When you detect mouse click you have to traverse window tree and do it in a smart way (finding out who has focus, who is modal, etc.) to send message to the right window. And when you draw you also must traverse all children to see who is uncovered and who is not. Last but not least, you need to handle mouse rectangle as top window to prevent flickering the mouse as windows are re-drawn or (using timers and msg_paint events) animated.
That's roughly it.
A GUI framework like Qt generally works by taking the existing OS's primitive objects (windows, fonts, bitmaps, etc), wrapping them in more platform-neutral and less clunky classes/structures/handles, and giving you the functionality you'll need to manipulate them. Yes, that almost always involves using the OS's own functions, but it doesn't HAVE to -- if you're designing an API to draw an OpenGL UI, for example, most of the underlying OS's GUI stuff won't even work, and you'll be doing just about everything on your own.
Either way, it's not for the faint of heart. If you have to ask how a GUI framework works, you're not even close to ready to design one. You're better off sticking with an existing framework and extending it to do the spiffy stuff it doesn't do already.
I'm working on a Win32 control. There could be hundreds of "items" on this control. Those are not windows, but internal objects (eg: rectangles). Depending on the mouse position I want to change the mouse cursor. That is fine, I can use WM_SETCURSOR.
At the same time based on mouse move I want to display a status bar which shows details about the object currently under the mouse. For that I can use WM_MOUSEMOVE.
Because there could be hundreds of items, traveling all of them to find one under the mouse, well it's not efficient, especially two times (one for set cursor, one for mouse move).
To make it short, do you know if WM_SETCURSOR and WM_MOUSEMOVE are ALWAYS in pair? In that case I can calculate what I want during WM_SETCURSOR. The other option would be to set the mouse cursor during WM_MOUSEMOVE, but as far as I know that it's not a good solution (will flicker).
Thanks
While they might currently always come as a matched pair, you probably can't rely on this behaviour.
You can set the cursor during WM_MOUSEMOVE (using SetCursor), and it won't flicker, as long as (IIRC), you return TRUE from WM_SETCURSOR without doing anything (i.e. you eat the message), and your window doesn't have a class cursor assigned to it.
You might also try GetMessagePos() (gives cursor screen coordinates), then MapWindowPoints() and see if it's in hot rectangle, or something similar.
Most important of all is that your window message handlers shouldn't worry about holding or calculating anything. You should simply signal your application's logic that the mouse is potentially over new area and make it find the object(s). Once you find the hot area (or more than one), cache its (their) boundaries and check the following mouse moves against those. Once the mouse moves out from one of them, you can rebuild your hot-object-list.
You don't have to be hunting for the hot area all over the control on every mouse move.
In case when there can be many objects sharing the same area, there's the question of z-order. Think about it when you're creating those objects and handle their movement.
Also you should think about an efficient data structure holding the object coordinates so you don't have to check every single object every time you're looking for the hot one.
Just my two euros. ;)
Is there any way to cache the last item that was found, and shortcut the lookup if the cursor is in the same place? That would be the most robust solution.