code_seg
pragma
Specifies the text section (segment) where functions are stored in the object (.obj) file.
Syntax
#pragma code_seg(
[ "section-name" [,
"section-class" ] ])
#pragma code_seg(
{push
|pop
} [,
identifier ] [,
"section-name" [,
"section-class" ] ])
Parameters
push
(Optional) Puts a record on the internal compiler stack. A push
can have an identifier and section-name.
pop
(Optional) Removes a record from the top of the internal compiler stack. A pop
can have an identifier and section-name. You can pop multiple records using just one pop
command by using the identifier. The section-name becomes the active text section name after the pop.
identifier
(Optional) When used with push
, assigns a name to the record on the internal compiler stack. When used with pop
, the directive pops records off the internal stack until identifier is removed. If identifier isn't found on the internal stack, nothing is popped.
"section-name"
(Optional) The name of a section. When used with pop
, the stack is popped and section-name becomes the active text section name.
"section-class"
(Optional) Ignored, but included for compatibility with versions of Microsoft C++ earlier than version 2.0.
Remarks
A section in an object file is a named block of data that's loaded into memory as a unit. A text section is a section that contains executable code. In this article, the terms segment and section have the same meaning.
The code_seg
pragma directive tells the compiler to put all subsequent object code from the translation unit into a text section named section-name. By default, the text section used for functions in an object file is named .text
. A code_seg
pragma directive without a section-name parameter resets the text section name for the subsequent object code to .text
.
The code_seg
pragma directive doesn't control placement of object code generated for instantiated templates. Nor does it control code generated implicitly by the compiler, such as special member functions. To control that code, we recommend you use the __declspec(code_seg(...))
attribute instead. It gives you control over placement of all object code, including compiler-generated code.
For a list of names that shouldn't be used to create a section, see /SECTION
.
You can also specify sections for initialized data (data_seg
), uninitialized data (bss_seg
), and const variables (const_seg
).
You can use the DUMPBIN.EXE application to view object files. Versions of DUMPBIN for each supported target architecture are included with Visual Studio.
Example
This example shows how to use the code_seg pragma directive to control where object code is put:
// pragma_directive_code_seg.cpp
void func1() { // stored in .text
}
#pragma code_seg(".my_data1")
void func2() { // stored in my_data1
}
#pragma code_seg(push, r1, ".my_data2")
void func3() { // stored in my_data2
}
#pragma code_seg(pop, r1) // stored in my_data1
void func4() {
}
int main() {
}
See also
code_seg (__declspec)
Pragma directives and the __pragma
and _Pragma
keywords