Transcript Lecture #7
Quiz #2 Topics Character codes Intel IA-32 architecture Registers, memory addressing Bytes, words, etc. Little-endian representation Floating-point unit Mostly MASM General form of a MASM program Directives (TITLE, INCLUDE, etc.) Segments (.code, .data, etc.) Declare variables, constants Comments Instruction format Instructions (mov, add, call, etc.) Trace MASM code Convert simple statements to MASM Assembling, linking, loading, etc. Today’s topics More MASM programming Addressing modes Conditional control structures Decision Repetition IA-32 Operand Modes Immediate Examples: Direct Examples: PI equ size DWORD myName BYTE mov mov Register constant or literal, OFFSET (memory address) Examples: 3.14159 10 ”Barney” eax, 10 edx, OFFSET myName register contents mov add mov eax, 10 eax, ebx size, eax memory contents mov mov eax, size size, eax Others (later) Register indirect, Indexed, Base-indexed, Stack Instruction Operand Notation Syntax Examples MOV mem,accum mov MOV accum,mem mov total,eax al,string Notes: accum means “eax or some valid part of eax” imm means “a literal or Syntax Examples MOV mem,imm mov Syntax Examples MOV reg,imm mov mov constant” color,7 ecx,256 edx,OFFSET string Syntax Examples MOV reg,reg mov mov mov dh,bh edx,ecx ebp,esp mov count,ecx MOV mem,reg Notes: mem8 means “BYTE” mem16 means “WORD” mem32 means “DWORD” sreg means CS, DS, ES, FS, MOV reg,mem mov ebx,pointer Syntax Examples MOV sreg,reg16 mov ds, ax MOV sreg,mem16 mov es,pos1 MOV reg16,sreg mov ax,ds MOV mem16,sreg mov stack_save,ss GS, or SS Invalid MOV statements .data bVal BYTE 100 bVal2 BYTE ? wVal WORD 2 dVal DWORD 5 .code mov ds,45 mov esi,wVal mov eip,dVal mov 25,bVal mov bVal2,bVal immediate move to DS not permitted size mismatch EIP cannot be the destination immediate value cannot be destination memory-to-memory move not permitted Branching execution Sometimes it is necessary to interrupt sequential instruction execution EIP is changed Examples: Skip ahead (e.g., skip the else block) Jump backwards (e.g., repeat a section of code) Call a procedure Conditional / Unconditional branching Label required MASM Labels Same rules as other identifiers May not be any previously defined identifier Label definition ends with Don’t use : when referencing the label Specifies the memory address of the associated instruction : … just like a variable name Good practice to put label: on a separate line. Unconditional branching Instruction format is jmp label label: should be inside the same procedure MASM allows jumps to labels in other procedures, but execution will certainly get lost in space. Conditional branching Used for: if structures (decisions, alternation) loop structures (repetition, iteration) In general, MASM requires you to build your own control structures Note: in the following discussion, status bits (flags) are Set (means status bit is set to 1) Cleared (means status bit is set to 0) loop instruction Instruction format is label: should be inside the same procedure, before the loop instruction Used for counted loops. Implements a “for” loop. Conditional branch loop label Decrements ecx, if ecx is not zero, branch to label Problem if ecx is changed inside the loop body Problem if ecx starts at 0, or ecx becomes negative Exercise great care when constructing nested “loop” loops loop Example Find sum of integers from 1 to 10 ; initialize accumulator, first number, ; and loop control mov eax, 0 mov ebx, 1 mov ecx, 10 sumLoop: ; add numbers from 1 to 10 add eax, ebx inc ebx loop sumLoop ; Print result call WriteDec ; ... Conditional branching We need a way to control branching by checking some other types of conditions Examples: Some repetitive tasks can not be counted in advance IF-THEN-ELSE structures MASM provides a way to compare two operands CMP Instruction Compares the destination operand to the source operand Non-destructive subtraction of source from destination (destination operand is not changed) Syntax: CMP destination, source CMP Instruction (unsigned) Example: destination is equal to source mov al,5 cmp al,5 ; Zero flag set CMP Instruction (unsigned) Example: destination < source mov al,4 cmp al,5 ; Carry flag set CMP Instruction (unsigned) Example: destination > source mov al,6 cmp al,5 ; ZF = 0, CF = 0 (both the Zero and Carry flags are cleared) CMP Instruction (signed) The comparisons shown here are performed with signed integers. Example: destination > source mov al,5 cmp al,-2 ; Sign flag == Overflow flag Example: destination < source mov al,-1 cmp al,5 ; Sign flag != Overflow flag Conditional Jumps Jumps Based On . . . Specific flags Equality Unsigned comparisons Signed Comparisons Jcond Instruction A conditional jump instruction branches to a label when specific register or flag conditions are met Usually the next instruction after cmp Examples: JB, JC jump to a label if the Carry flag is set JE, JZ jump to a label if the Zero flag is set JS jumps to a label if the Sign flag is set JNE, JNZ jump to a label if the Zero flag is cleared JECXZ jumps to a label if ECX equals 0 Jumps Based on Specific Flags Jumps Based on Equality Jumps Based on Unsigned Comparisons Jumps Based on Signed Comparisons Compare and Jump • Task: Jump to a label if unsigned EAX is greater than EBX • Solution: Use CMP, followed by JA cmp eax,ebx ja Larger • Task: Jump to a label if signed EAX is greater than EBX • Solution: Use CMP, followed by JG cmp eax,ebx jg Greater Compare and Jump • Jump to label L1 if unsigned EAX is less than or equal to Val1 cmp eax,Val1 jbe L1 ; below or equal • Jump to label L1 if signed EAX is less than or equal to Val1 cmp eax,Val1 jle L1 Conditional Loop Instructions (Use after CMP) LOOPZ and LOOPE Syntax: LOOPE destination LOOPZ destination Logic: ECX ECX – 1 if ECX > 0 and ZF=1, jump to destination Conditional Loop Instructions (Use after CMP) LOOPNZ and LOOPNE Syntax: LOOPNZ destination LOOPNE destination Logic: ECX ECX – 1; if ECX > 0 and ZF=0, jump to destination Conditional Directives .IF, .ELSE, .ELSEIF, and .ENDIF .WHILE, .ENDW .REPEAT, .UNTIL Not required for this course It’s OK to use these in programming assignments, but you must know the “hard way” for exams and quizzes Block-Structured IF Statements You can create assembly language control structures that are equivalent to statements written in C++/Java/etc.. Example: if( op1 == op2 ) X = 1; else X = 2; mov cmp jne mov jmp L1: L2: eax,op1 eax,op2 L1 X,1 L2 mov X,2 Assembly Language Control Structures Extend the idea to create your own if-then if-then-else if-then-elseif-else compound conditions while loop do-while loop for loop nested structures, switch structures, etc. if-then check condition using CMP if condition is false, jump to endThen (Note: test for complement of condition) code for TRUE block endThen: if-then-else (Method 1) check condition using CMP if condition is false, jump to falseBlock (Note: test for complement of condition) code for TRUE block jump to endFalse falseBlock: code for FALSE block endFalse: if-then-else (Method 2) check condition using CMP if condition is true, jump to trueBlock code for FALSE block jump to endTrue trueBlock: code for TRUE block endTrue: if-then-elseif-else check condition1 using CMP if condition1 is true, jump to trueBlock1 check condition2 using CMP if condition2 is true, jump to trueBlock2 code for FALSE block jump to endBlock trueBlock1: code for TRUE block1 jump to endBlock trueBlock2: code for TRUE block2 endBlock: Compound conditions (AND) check condition1 using CMP if condition1 is false, jump to falseBlock check condition2 using CMP if condition2 is false, jump to falseBlock code for TRUE block jump to endBlock falseBlock code for FALSE block endBlock: Compound conditions (OR) check condition1 using CMP if condition1 is true, jump to trueBlock check condition2 using CMP if condition2 is true, jump to trueBlock code for FALSE block jump to endBlock trueBlock code for TRUE block endBlock: Pretest loop (while) initialize loop control variable(s) top: check condition using CMP if condition is false, jump to endWhile code for LOOP BODY (including loop control update) jump to top endWhile: Example pre-test loop Double x until x>1000 ; initialize accumulator mov eax, x dblLoop: ; Double x while x <= 1000 cmp eax, 1000 ja endLoop add eax, eax jmp dblLoop endLoop: mov x, eax ; ... Posttest loop (do-while) top: code for LOOP BODY (including loop control update) check condition using CMP if condition is true, jump to top Example post-test loop Double x until x>1000 ; initialize accumulator mov eax, x dblLoop: ; Double x while x <= 1000 add eax, eax cmp eax, 1000 jbe dblLoop mov x, eax ; ... Note: may want initial test for x>1000 Various solutions Any control structure may be implemented in a variety of ways. Experiment! Questions? Quiz #2 Thursday Program #2 is assigned Learn the MASM instructions! Experiment! Experiment!! Experiment!!!