Article ID: 102434
Article Last Modified on 10/14/2003
APPLIES TO
- Microsoft Macro Assembler 6.0 Standard Edition
- Microsoft Macro Assembler 6.0a
- Microsoft Macro Assembler 6.0b
- Microsoft Macro Assembler 6.1 Standard Edition
- Microsoft Macro Assembler 6.1a
- Microsoft Macro Assembler 6.11 Standard Edition
This article was previously published under Q102434
SUMMARY
The code example below demonstrates accessing the following variable types from an assembly language program when the data is defined in a C module:
a global variable
a global variable through a far pointer
a global structure
a global pointer to a global array of structures.
MORE INFORMATION
None of the global variables are specified as arguments in the call to the assembly language procedure.
The .FARDATA directive instructs the assembler to place initialized variables into the FAR_DATA segment. The .FARDATA? directive instructs the assembler to place unitialized variables into the FAR_BSS data segment. For more information on creating data segments, please refer to pages 44 and 45 of the Microsoft Macro Assembler "Programmer's Guide" for versions 6.0x and pages 39 and 40 of the Microsoft Macro Assembler "Programmer's Guide" for versions 6.1x.
Sample Code
/* * Compiler options needed: /AL */ #include <stdio.h> int func1(void); /* assembly language procedure */ int var1 = 1; int var2 = 3; int *ptr2; struct var_tag { int var3; int var4; } * struct_ptr, struct_var = {5, 7}, v_ray[2] = {{9, 11}, {13, 15}}; void main(void) { ptr2 = &var2; /* pointer to variable */ struct_ptr = v_ray; /* pointer to array of structures */ printf("After the call to func1(), all values should be doubled.\n"); printf("\nBefore...\n\n"); printf("VAR1 is %d\n", var1); printf("VAR2 is %d\n", var2); printf("struct_var.var3 = %2d,\tstruct_var.var4 = %2d\n", struct_var.var3, struct_var.var4); printf("v_ray[0].var3 = %2d,\tv_ray[0].var4 = %2d\n", struct_ptr[0].var3, struct_ptr[0].var4); printf("v_ray[1].var3 = %2d,\tv_ray[1].var4 = %2d\n", struct_ptr[1].var3, struct_ptr[1].var4); printf("\nCalling func1()...\n"); func1(); /* call to assembly procedure */ printf("\nAfter...\n\n"); printf("VAR1 is %d\n", var1); printf("VAR2 is %d\n", var2); printf("struct_var.var3 = %2d,\tstruct_var.var4 = %2d\n", struct_var.var3, struct_var.var4); printf("v_ray[0].var3 = %2d,\tv_ray[0].var4 = %2d\n", struct_ptr[0].var3, struct_ptr[0].var4); printf("v_ray[1].var3 = %2d,\tv_ray[1].var4 = %2d\n", struct_ptr[1].var3, struct_ptr[1].var4); } ;===================================================================== ; Assembly module with procedure "func1" called from C module above. ; Assembler options needed: none info struct ; template for structure variable_3 DW ? ; member offsets variable_4 DW ? info ends .MODEL large, C ; Specify a language for the externals .8086 .FARDATA EXTERN var1:word EXTERN ptr2:dword ; pointer to var2 EXTERN struct_var:dword EXTERN struct_ptr:dword ; pointer to array of structures .CODE func1 PROC uses ax dx di es ;;;;;;;;;;;;;;;;;;;;;;; Use Variable ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; mov dx, SEG var1 ; get the segment of var1 mov es, dx mov di, OFFSET var1 ; get the offset of var1 mov dx, es:[di] ; dereference address to modify value shl dx, 1 mov es:[di], dx ;;;;;;;;;;;;;;;;;;;;;; Use pointer to variable ;;;;;;;;;;;;;;;;;;;; mov dx, SEG ptr2 ; get the segment of pointer mov es, dx mov di, OFFSET ptr2 ; get the offset of pointer mov dx, es:[di+2] ; dereference ptr to get ; the segment of var2 mov ax, es:[di] ; dereference ptr to get the offset of var2 mov es, dx mov di, ax mov ax, es:[di] ; dereference address to modify value shl ax, 1 mov es:[di], ax ;;;;;;;;;;;;;;;;;;;;; Use structure ;;;;;;;;;;;;;;;;;;;;;;;;;;; mov dx, SEG struct_var ; get structure segment mov es, dx mov di, OFFSET struct_var ; get structure offset mov ax, es:[di] ; dereference address to modify var3 shl ax, 1 mov es:[di], ax mov ax, (info ptr es:[di]).variable_4 ; offset determined by info template ; Alternative instruction to line of code above ; mov ax, es:[di+2] ; dereference address to modify var4 shl ax, 1 mov (info ptr es:[di]).variable_4, ax ; Alternate instruction to line above ; mov es:[di+2], ax ;;;;;;;;;;;;;;;;;; Use pointer to array of structures ;;;;;;;;; ; ===modifies structure[0]=== mov dx, SEG struct_ptr ; get pointer segment mov es, dx mov di, OFFSET struct_ptr ; get pointer offset mov dx, es:[di+2] ; dereference pointer to get ; segment of v_ray mov ax, es:[di] ; dereference pointer to get ; offset of v_ray mov es, dx mov di, ax mov ax, es:[di] ; dereference address to modify var3 shl ax, 1 mov es:[di], ax mov ax, (info ptr es:[di]).variable_4 ; offset determined by info template shl ax, 1 mov (info ptr es:[di]).variable_4, ax ;=== modifies structure[1] === mov ax, es:[di+4] ; advance to next element of array shl ax, 1 ; and modify var3 mov es:[di+4], ax mov ax, (info ptr es:[di+4]).variable_4 ; offset determined by info template shl ax, 1 mov (info ptr es:[di+4]).variable_4, ax ret func1 ENDP END
Additional query words: 6.00 6.00a 6.00b 6.10 6.10a s_c
Keywords: KB102434