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You need to check in Settings to make sure it is accessible. You can try a simple copy from File Explorer as a start.
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Two things
First you are a person which has specific access to the file system.
Your application is not you. The access it has depends on how it runs.
You as a person are likely checking the access but that does not mean the application has it.
Second the directories also determine access.
You can programmatically request information about permissions. Write some code that returns that information from EACH level of the directory tree including the drive letter. Then inspect that.
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I have a very simple project that I am converting from VS2015 to VS2019. The project "converts" successfully but will not compile due to:
"fatal error C1189: #error: MFC does not support NTDDI_VERSION less than NTDDI_WINXP. Please change the definition of NTDDI_VERSION in your project properties or precompiled header."
I've turned off precompiled headers and added to my stdafx.h the following line:
#define NTDDI_VERSION 0x0A00
I've also tried
#define NTDDI_VERSION _WIN32_WINNT_WIN10
stdafx.cpp will not compile. So, my question stands - is there a method to determine all of the project macro settings?
Charlie Gilley
“They who can give up essential liberty to obtain a little temporary safety deserve neither liberty nor safety.” BF, 1759
Has never been more appropriate.
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Solved - ignore all of the online garbage.
create a dummy VS2019 application. There you will see that Microsoft has migrated to using targetver.h which includes:
#include <sdkddkver.h>
That's the secret.
Charlie Gilley
“They who can give up essential liberty to obtain a little temporary safety deserve neither liberty nor safety.” BF, 1759
Has never been more appropriate.
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Hi Charlie,
Good to see that you fixed your issue. Just in case the search engines index this question I wanted to add that you can use the /P compiler option[^] to dump the preprocessor to file.
Best Wishes,
-David Delaune
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Thanks for that tip. Exactly what I was looking for.
Charlie Gilley
“They who can give up essential liberty to obtain a little temporary safety deserve neither liberty nor safety.” BF, 1759
Has never been more appropriate.
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Hello, I'm a begginer in Golang and I need a good IDE for my exercises. Anyone can help me with a good IDE and how to install? Thank you very much.
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I`m trying to get a better understanding of how debugging works with programs build in an IDE. I have a guess on how it works but I`m hopping someone will confirm my guesses. So my guess is that the program your building it hooked through its update function (the function through which it gets updated by windows). When your run your program in debug mode the changes taking place inside your program are exchanged through the program update function as parameters with Windows which in its turn sends the data to the IDE.
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A Debug version of a program includes information that an external program (the debugger) can read, in order to identify which actual statement is being executed at any point in time. The debugger captures the execution at the beginning of the program or at any specified breakpoints, and can then execute or skip instructions as directed by the user. The debugger can be run from within the IDE, or stand-alone in a terminal window, depending on the system and framework in use. When run in the IDE it is just using the IDE Windows to display information.
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So basically the program being debugged is a sitting duck residing in the memory that an external program can read at will/without any formalities.
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Not at all, since you, the user, are in control of the system and what application are running and what they are allowed to do. And Debug information is not a simple text file that anyone can immediately interpret.
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The really low level implementation may vary a lot.
A couple variants I have worked with:
To halt execution temporarily, e.g. an explicitly declared breakpoint, or implicit by e.g. a 'continue to next line', the debugger looks up the address of the first instruction generated for that source line in the debug information. It copies and saves the first instruction, and inserts a special breakpoint instruction. Most modern CPUs provide a specific instruction, generating an internal interrupt, causing exeution of an interrupt handler provided by the debugger. Also, most modern CPUs have a mechanism for executing a single instruction and then cause a similar internal interrupt. And, the handlers are run at a low priority so that a higher priority interrupt, e.g. the clock, may preempt the debugger interrupt handler to let other processes have their CPU share.
The debugger user dialog (e.g. to continue exectution, remove the breakpoint, display the current value of some variable etc.) takes place within this interrupt handler. When target execution is resumed, the debugger backs up the program counter to the start of the breakpoint instruction it has inserted, puts the saved "real" instruction into the code, sets the 'single instruction' flag to the CPU, and returns from the debug interrupt.
The single instruction interrupt reinserts the breakpoint instruction, ready for the next time execution passes through this point in code. It resets the single instruction flag and returns from interrupt, and target execution continues until the next breakpoint.
For 'run to next line', the debugger may find the first instruction of every relevant line in the code (usually limited to the current function and the continuation point upon return, but exception handlers may complicate this) and save all the instructions being overwritten. When any of the breakpoints are hit, the same restore-original / single step / reinsert breakpoint procedure is followed. The breakpoints remain until that scope is left, i.e. when the function is exited. The handler for that interrupt will restore all the original code, and then set breakpoints on all line starts in the new scope. Also if another function is called and another scope is entered, the debugger must set breakpoints in that scope.
In the old days when memory was scarce, setting a huge number of line start breakpoints and saving information for each of them would break all memory limits. So when halted at one line, as the single current breakpoint, the debugger would look up the start of every possible next line - one for linear execution, one for a line containing a function call, two for a conditional statement, ... Whichever of them were hit next, the debugger would restore the original code for them all, and repeat the search for possible next lines. This reduced debugger memory requirements a lot, but for every single line, the debugger had to do a possibly complex search for possible next lines.
Older machines might not provide a breakpoint instruction. I have seen it emulated by the OS - all machines have some internal interrupt mechanism for calling OS functions. So rather than a breakpoint instruction, the debugger inserts a breakpoint OS call. The OS will transfer control to the process that has registred itself as the debugger for the target process. On old machines with a small virtual adddress space, there might not be room for both the target and the debugger in one space, so to inspect current values in the target, the debugger might have to request the OS to provide it. So it must also ask the OS to please insert a breakpoint call in the target process at a specific address.
A small variation of that: One debugger injected a tiny routine - a few hundred bytes - in the target process. This routine could be contated over a TCP/IP connection from virtually anywhere, and could on request set and remove breakpoint instructions, return or set the current value of variable etc., at a purely binary level: The remote debugger provided absolute addresses for all operations by the routine. Since all symbol handling etc. was done at the remote debugger machine, the impact on the target system was almost zero both in CPU and memory consumption.
Inserting breakpoints (whether as instructions or as OS calls) is not possible in code in ROM, and in many cases not a viable solution if code is in flash memory. So some processors (typially targeted at embedded systems, where ROMmed/flashed code is common) provide a set of registers: Whenever the program counter is set to the value of one of these registers (with no modifications to program code), a debug interrupt is generated. The debugger need not restore any original instruction (or debug instruction after executing the original), but is limited to, say, four breakpoint locations active at the same time. For 'run to next line' operation, there is no alternative to search the debug information for possible next lines. If the number of possibilities is larger than debug registers available, it must resort to instruction-at-a-time exeution through the current line, an when the program counter goes out of the scope of the current line, use the debug information to see where it ended up, and give control to the debugger operator.
You may conclude that writing the core of a debugger is not a task you would give to a college freshnman. It really requires fingertip control over interrupts and addressing and instruction formats!
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Does AddVectoredExceptionHandler only run in debug, I just rebuilt my code in Release and it entered the SEH routine when I comment it out I dont have a problem
Thanks
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I guess the best thing to do is determine what the exception record pints to
Thanks
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As with all problems, debugging is the key.
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This is the exception 0x4001000A
This is a new exception Microsoft implemented in Windows 10 something to do with OutPutDebug String though I have that in program I check isdebuggerpresent so dont know why it was raised
This is what I saw when googling
Quote: Windows creates a new exception with RaiseException: DBG_PRINTEXCEPTION_WIDE_C (0x4001000A). This new exception code needs 4 parameters. For backwards compatibility it also requests the Ansi version of the string
This is what I added to my SEH handler
if (pExceptionPtrs->ExceptionRecord->ExceptionCode == 0x4001000A)
return EXCEPTION_CONTINUE_EXECUTION;
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Hi
I am still on the red bullet bitmap. What I have been trying to do is change the color of the surrounding rectangle from white to gray. to match the background of where I bitblt to
I have used CImage to load it Create it.
When I try to access the header info such width and height I get the right values back even including the bitbitcount there are 8 bits to represent a pixel (256 colors)
However I when use methods such as GetColorTable or Getbits and look at pointers returned it is all hex zeros.
I have opened the file with hex editor and can see it anything but returned. I am trying to get to the pixels represented by white RGB(255,255,255) I know there can be shades of white and turn it into
Gray(0XD3,0XD3,0XD3) to match the background of where I have bitblt (place it) it to
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It is hard to guess how you has implemented it without seeing your code.
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Richard
When I did the Create instead of DDX and I used the dimensions of CDialog I mean Did a GetClientRect from the Dialog and deflated the left side used that rect to Create the richedit
The bitmap then came out on the frame of the dialog MY X location is 0 I thought its 0 of windows Client Area not Window itself which includes the frame
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Reply to one of his posts so he gets a notification you posted something.
DO NOT create a new thread. NOw you're just hoping (the correct) Richard comes along and realizes it's for him. There's no notifications to anyone that you posted this.
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Hi
I have a CrichEditctrl which I am using to display code (as in debugger). When the User whishes to place a breakpoint I TransparentBlt a red bitmap to the left In order to give GDI it own space DeflateRect the Richedit Rect (for the text ) to the left and RcihEdit::SetRect the new smaller size for richedit, Placing the bitmap everything looks fine
However when my code reaches to where the breakpoint was set I highlite the line of code with SetSel and SetSelectionCharFormat this has the effect of wiping out the top of the red bullet bitmap which I dont understand Since the SetRect should ensure that it doesnt go out of the rect bounds. I know rich edit has an OLE interface (which can display bitmaps) however with that too I had problem as the bullet shifted the text
Thanks
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