Microsoft KB Archive/104616: Difference between revisions

From BetaArchive Wiki
m (Text replacement - "<" to "<")
m (Text replacement - ">" to ">")
 
Line 58: Line 58:


The sample code below demonstrates how to share variables of type char, short, and long between a Microsoft C program and a Microsoft Macro Assembler (MASM) program. This is accomplished by declaring the C variables outside the a function definition, which makes them public. The MASM subprogram can gain access to these public variables by declaring them with the EXTRN directive. The EXTRN directive has the following format
The sample code below demonstrates how to share variables of type char, short, and long between a Microsoft C program and a Microsoft Macro Assembler (MASM) program. This is accomplished by declaring the C variables outside the a function definition, which makes them public. The MASM subprogram can gain access to these public variables by declaring them with the EXTRN directive. The EXTRN directive has the following format
<pre class="fixed_text">  EXTRN <name&gt;:<type&gt;
<pre class="fixed_text">  EXTRN <name>:<type>
                 </pre>
                 </pre>
where <name&gt; represents the public name of the variable as it is declared in the main module, and <type&gt; can be either BYTE, WORD, DWORD, FWORD, QWORD, or TBYTE. Note that in MASM 6.0 and later, EXTRN is a synonym for EXTERN. If you are using MASM 6.x, then you should use EXTERNDEF, because it is more flexible when used in different contexts.
where <name> represents the public name of the variable as it is declared in the main module, and <type> can be either BYTE, WORD, DWORD, FWORD, QWORD, or TBYTE. Note that in MASM 6.0 and later, EXTRN is a synonym for EXTERN. If you are using MASM 6.x, then you should use EXTERNDEF, because it is more flexible when used in different contexts.


</div>
</div>
Line 75: Line 75:
// Compile options needed: /c
// Compile options needed: /c


#include <stdio.h&gt;
#include <stdio.h>


#ifdef __cplusplus
#ifdef __cplusplus

Latest revision as of 16:43, 20 July 2020

Article ID: 104616

Article Last Modified on 7/5/2005



APPLIES TO

  • Microsoft C Professional Development System 6.0a
  • Microsoft C Professional Development System 6.0a
  • Microsoft Visual C++ 1.0 Professional Edition
  • Microsoft Visual C++ 1.5 Professional Edition
  • Microsoft Visual C++ 1.0 Professional Edition
  • Microsoft Visual C++ 2.0 Professional Edition
  • Microsoft Visual C++ 4.0 Standard Edition
  • Microsoft Visual C++ 5.0 Standard Edition
  • Microsoft Visual C++ 6.0 Service Pack 5



This article was previously published under Q104616


SUMMARY

The sample code below demonstrates how to share variables of type char, short, and long between a Microsoft C program and a Microsoft Macro Assembler (MASM) program. This is accomplished by declaring the C variables outside the a function definition, which makes them public. The MASM subprogram can gain access to these public variables by declaring them with the EXTRN directive. The EXTRN directive has the following format

   EXTRN <name>:<type>
                

where <name> represents the public name of the variable as it is declared in the main module, and <type> can be either BYTE, WORD, DWORD, FWORD, QWORD, or TBYTE. Note that in MASM 6.0 and later, EXTRN is a synonym for EXTERN. If you are using MASM 6.x, then you should use EXTERNDEF, because it is more flexible when used in different contexts.

MORE INFORMATION

The samples below include one C file and two different assembly files. The two assembly files demonstrate how to share variables in small model for MS-DOS and in flat model for Windows NT. Link only the appropriate assembly module to the C module.

Note that MASM 6.1 or later and the C/C++ 32-bit compiler that ships with Visual C++, 32-bit Edition, are required to build the flat model Windows NT version.

Sample Code

// Filename: CMAIN.C
// Compile options needed: /c

#include <stdio.h>

#ifdef __cplusplus
extern "C" {
#endif

void MasmFunc(void);
char charvar = 'a';       // Declaring variables outside
short shortvar  = 1;      // of a function definition
long longvar = 32768L;    // makes them public.

#ifdef __cplusplus
}
#endif

main ()
{
   while (shortvar < 11)  // Display and increment variables 11 times
   {
      printf ("%c %d %ld\n", charvar, shortvar, longvar) ;
       MasmFunc () ;
   }
}
                

Sample Code for MS-DOS Small Model Version

; Filename: MASMSUB.ASM
; Assemble options needed for MASM: /MX
; Assemble options needed for ML: /c /Cx

.MODEL small, C
.286

.DATA                            ; NOTE: You can put these as EXTERNDEF
                                 ; in .INC file and include it here.
  EXTRN charvar:BYTE        ; The EXTRN directive enables a MASM
  EXTRN shortvar:WORD        ; procedure to access public variables.
  EXTRN longvar:DWORD

.CODE
MasmFunc PROC
   inc charvar
   inc shortvar
   add WORD PTR longvar, 1
   adc WORD PTR longvar+2, 0
   ret
MasmFunc ENDP
END
                

Sample Code for Windows NT Flat Model Version

; Filename: MASMSUB.ASM
; Assemble options needed for ML: /c /Cx /coff

.386
.MODEL flat, C

.DATA                             ; NOTE: You can put these as EXTERNDEF
                                  ; in .INC file and include it here.
   EXTERNDEF charvar:BYTE      ; The EXTRN directive enables a MASM
   EXTERNDEF shortvar:WORD     ; procedure to access public variables.
   EXTERNDEF longvar:DWORD

.CODE
MasmFunc PROC
   inc charvar
   inc shortvar
   inc longvar
   ret
MasmFunc ENDP
END
                

The following is the output of the program:

   a 1 32768
   b 2 32769
   c 3 32770
   d 4 32771
   e 5 32772
   f 6 32773
   g 7 32774
   h 8 32775
   i 9 32776
   j 10 32777
                


Additional query words: 8.00 8.00c 9.00 mixed language

Keywords: kbinfo kbcode kbcompiler KB104616