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18-2 Vol. 3

MIXING 16-BIT AND 32-BIT CODE

18.1 DEFINING 16-BIT AND 32-BIT PROGRAM MODULES

The following IA-32 architecture mechanisms are used to distinguish between and

support 16-bit and 32-bit segments and operations:

• The D (default operand and address size) flag in code-segment descriptors.

• The B (default stack size) flag in stack-segment descriptors.

• 16-bit and 32-bit call gates, interrupt gates, and trap gates.

• Operand-size and address-size instruction prefixes.

• 16-bit and 32-bit general-purpose registers.

The D flag in a code-segment descriptor determines the default operand-size and

address-size for the instructions of a code segment. (In real-address mode and

virtual-8086 mode, which do not use segment descriptors, the default is 16 bits.) A

code segment with its D flag set is a 32-bit segment; a code segment with its D flag

clear is a 16-bit segment.

The B flag in the stack-segment descriptor specifies the size of stack pointer (the

32-bit ESP register or the 16-bit SP register) used by the processor for implicit stack

references. The B flag for all data descriptors also controls upper address range for

expand down segments.

When transferring program control to another code segment through a call gate,

interrupt gate, or trap gate, the operand size used during the transfer is determined

by the type of gate used (16-bit or 32-bit), (not by the D-flag or prefix of the transfer

instruction). The gate type determines how return information is saved on the stack

(or stacks).

For most efficient and trouble-free operation of the processor, 32-bit programs or

tasks should have the D flag in the code-segment descriptor and the B flag in the

stack-segment descriptor set, and 16-bit programs or tasks should have these flags

clear. Program control transfers from 16-bit segments to 32-bit segments (and vice

versa) are handled most efficiently through call, interrupt, or trap gates.

Instruction prefixes can be used to override the default operand size and address size

of a code segment. These prefixes can be used in real-address mode as well as in

protected mode and virtual-8086 mode. An operand-size or address-size prefix only

changes the size for the duration of the instruction.

18.2 MIXING 16-BIT AND 32-BIT OPERATIONS WITHIN A

CODE SEGMENT

The following two instruction prefixes allow mixing of 32-bit and 16-bit operations

within one segment:

• The operand-size prefix (66H)

• The address-size prefix (67H)