XenOn/kolibrios-fun
1
1
Fork 0
forked from KolibriOS/kolibrios
Code Pull Requests Wiki Activity
630234432f
kolibrios-fun/programs/other/calc/trunk/calc.asm
heavyiron 630234432f Changed structure of svn repository 
git-svn-id: svn://kolibrios.org@109 a494cfbc-eb01-0410-851d-a64ba20cac60
2006-07-28 13:39:16 +00:00

803 lines
14 KiB
NASM
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

;; Calculator for MenuetOS
;; (c)Ville Turjanmaa
;; Compile with FASM for Menuet
;;
;; Š «ìªã«ïâ®à 1.1 alpha
;; (c)Pavel Rymovski aka Heavyiron
;;What's new:1)changed design
;; 2)new procedure of draw window (10 decimal digits, 23 binary, "+" not displayed now)
;; 3)window with skin
;; 4)I had used macroses
;; Calc 1.2 alpha
;; 1)added some useful functions, such as arcsin, arccos, arctg, 1/x, x^2
;; Calc 1.3
;; 1)optimised program
use32
org 0x0
db 'MENUET01' ; 8 byte id
dd 0x01 ; header version
dd START ; start of code
dd I_END ; size of image
dd 0x1000 ; memory for app
dd 0x1000 ; esp
dd 0x0 , 0x0 ; I_Param , I_Icon
include 'macros.inc'
START:
red:
call draw_window
still:
push 10
pop eax
int 40h
dec eax
jz red
dec eax
jz key
button:
mcall 17 ; ¯®«ãç¨âì ¨¤¥­â¨ä¨ª â®à ­ ¦ â®© ª­®¯ª¨
shr eax,8
jmp testbut
key:
mcall 2 ; ¯®«ãç¨âì ASCII-ª®¤ ­ ¦ â®© ª« ¢¨è¨
shr eax,8
mov edi,asci ; ¯¥à¥¢®¤ ASCII ¢ ¨¤¥­â¨ä¨ª â®à ª­®¯ª¨
mov ecx,18
cld
repne scasb
jne still
sub edi,asci
dec edi
mov esi,butid
add esi,edi
lodsb
testbut:
cmp eax,1 ; ª­®¯ª  1 - § ªàë⨥ ¯à®£à ¬¬ë
jne noclose
mcall -1
noclose:
cmp eax,2
jne no_reset
call clear_all
jmp still
no_reset:
finit
mov ebx,muuta1 ; <20>¥à¥¢®¤ ¢ ä®à¬ â FPU
mov esi,18
call atof
fstp [trans1]
mov ebx,muuta2
mov esi,18
call atof
fst [trans2]
cmp eax,33
jne no_sign
cmp [dsign],byte '-'
jne no_m
mov [dsign],byte '+'
call print_display
jmp still
no_m:
mov [dsign],byte '-'
call print_display
jmp still
no_sign:
cmp eax,3
jne no_display_change
inc [display_type]
cmp [display_type],2
jbe display_continue
mov [display_type],0
display_continue:
mov eax,[display_type]
mov eax,[multipl+eax*4]
mov [entry_multiplier],eax
call print_display
jmp still
multipl: dd 10,16,2
no_display_change:
cmp eax,6
jb no_a_f
cmp eax,11
jg no_a_f
add eax,4
call number_entry
jmp still
no_a_f:
cmp eax,12
jb no_13
cmp eax,14
jg no_13
sub eax,11
call number_entry
jmp still
no_13:
cmp eax,19
jb no_46
cmp eax,21
jg no_46
sub eax,15
call number_entry
jmp still
no_46:
cmp eax,26
jb no_79
cmp eax,28
jg no_79
sub eax,19
call number_entry
jmp still
no_79:
cmp eax,34
jne no_0
mov eax,0
call number_entry
jmp still
no_0:
cmp eax,35
jne no_id
inc [id]
and [id],1
mov [new_dec],100000
jmp still
no_id:
cmp eax,17
jne no_sin
fld [trans1]
fsin
jmp show_result
no_sin:
cmp eax,18
jne no_asin
fld [trans1]
fld st0
fmul st,st1
fld1
fsubrp st1,st0
fsqrt
fpatan
jmp show_result
no_asin:
cmp eax,16
jne no_int
fld [trans1]
frndint
jmp show_result
no_int:
cmp eax,23
jne no_1x
fld [trans1]
fld1
fdiv st,st1
jmp show_result
no_1x:
cmp eax,24
jne no_cos
fld [trans1]
fcos
jmp show_result
no_cos:
cmp eax,25
jne no_acos
fld [trans1]
fld1
fsub st,st1
fsqrt
fld1
fadd st,st2
fsqrt
fpatan
fadd st,st0
jmp show_result
no_acos:
cmp eax,30
jne no_x2
fld [trans1]
fmul st,st0
jmp show_result
no_x2:
cmp eax,31
jne no_tan
fld [trans1]
fptan
fstp st2
jmp show_result
no_tan:
cmp eax,32
jne no_atan
fld [trans1]
fld1
fpatan
jmp show_result
no_atan:
cmp eax,38
jne no_pi
fldpi
jmp show_result
no_pi:
cmp eax,37
jne no_sqrt
fld [trans1]
fsqrt
jmp show_result
no_sqrt:
cmp eax,15
jne no_add
call calculate
call new_entry
mov [calc],'+'
jmp still
no_add:
cmp eax,22
jne no_sub
call calculate
call new_entry
mov [calc],'-'
jmp still
no_sub:
cmp eax,29
jne no_div
call calculate
call new_entry
mov [calc],'/'
jmp still
no_div:
cmp eax,36
jne no_mul
call calculate
mov [calc],'*'
call new_entry
jmp still
no_mul:
cmp eax,39
jne no_calc
call calculate
jmp still
no_calc:
jmp still
show_result:
call ftoa
call print_display
jmp still
error:
jmp still
calculate:
pusha
cmp [calc],' '
je no_calculation
cmp [calc],'/'
jne no_cdiv
fdiv [trans1]
no_cdiv:
cmp [calc],'*'
jne no_cmul
fmul [trans1]
no_cmul:
cmp [calc],'+'
jne no_cadd
fadd [trans1]
no_cadd:
cmp [calc],'-'
jne no_cdec
fsub [trans1]
no_cdec:
call ftoa
no_calculation:
call print_display
popa
ret
number_entry:
pusha
cmp eax,[entry_multiplier]
jge no_entry
cmp [id],1
je decimal_entry
mov ebx,[integer]
test ebx,0xc0000000
jnz no_entry
mov ebx,eax
mov eax,[integer]
mov ecx,[entry_multiplier]
mul ecx
add eax,ebx
mov [integer],eax
call print_display
call to_muuta
popa
ret
decimal_entry:
imul eax,[new_dec]
add [decimal],eax
mov eax,[new_dec]
xor edx,edx
mov ebx,[entry_multiplier]
div ebx
mov [new_dec],eax
call print_display
call to_muuta
popa
ret
no_entry:
call print_display
call to_muuta
popa
ret
to_muuta:
pusha
mov al,[dsign]
mov esi,muuta0
mov edi,muuta1
mov ecx,18
cld
rep movsb
mov [muuta1],al
mov edi,muuta1+10 ; 楫®¥
mov eax,[integer]
new_to_muuta1:
mov ebx,10
xor edx,edx
div ebx
mov [edi],dl
add [edi],byte 48
dec edi
cmp edi,muuta1+1
jge new_to_muuta1
mov edi,muuta1+17 ; ¤à®¡­®¥
mov eax,[decimal]
new_to_muuta2:
mov ebx,10
xor edx,edx
div ebx
mov [edi],dl
add [edi],byte 48
dec edi
cmp edi,muuta1+12
jge new_to_muuta2
popa
ret
new_entry:
pusha
mov esi,muuta1
mov edi,muuta2
mov ecx,18
cld
rep movsb
mov esi,muuta0
mov edi,muuta1
mov ecx,18
cld
rep movsb
mov [integer],0
mov [decimal],0
mov [id],0
mov [new_dec],100000
mov [sign],byte '+'
popa
ret
ten dd 10.0,0
tmp dw 1,0
sign db 1,0
tmp2 dq 0x0,0
exp dd 0x0,0
new_dec dd 100000,0
id db 0x0,0
res dd 0
trans1 dq 0
trans2 dq 0
controlWord dw 1
ftoa: ; fpu st0 -> [integer],[decimal]
pusha
fst [tmp2]
fstcw [controlWord] ; set truncate integer mode
mov ax,[controlWord]
mov [tmp], ax
or [tmp], word 0x0c00
fldcw [tmp]
ftst ; test if st0 is negative
fstsw ax
and ax, 0x4500
mov [sign], 0
cmp ax, 0x0100
jne no_neg
mov [sign],1
no_neg:
fistp [integer]
fld [tmp2]
fisub [integer]
fldcw [controlWord]
cmp byte [sign], 0 ; change fraction to positive
je no_neg2
fchs
no_neg2:
mov [res],0 ; convert 6 decimal numbers
mov edi,6
newd:
fimul [kymppi]
fist [decimal]
mov ebx,[res]
imul ebx,10
mov [res],ebx
mov eax,[decimal]
add [res],eax
fisub [decimal]
ftst
fstsw ax
dec edi
jz real_done
jmp newd
real_done:
mov eax,[res]
mov [decimal],eax
cmp [integer],0x80000000
jne no_error
call clear_all
mov [calc],'E'
no_error:
mov [dsign],byte '+'
cmp [sign],byte 0 ; convert negative result
je no_negative
mov eax,[integer]
not eax
inc eax
mov [integer],eax
mov [dsign],byte '-'
no_negative:
call to_muuta
popa
ret
atof:
push ax
push di
fldz
mov di, 0
cmp si, 0
je .error ; Jump if string has 0 length.
mov byte [sign], 0
cmp byte [bx], '+' ; Take care of leading '+' or '-'.
jne .noPlus
inc di
jmp .noMinus
.noPlus:
cmp byte [bx], '-'
jne .noMinus
mov byte [sign], 1 ; Number is negative.
inc di
.noMinus:
cmp si, di
je .error
call atof_convertWholePart
jc .error
call atof_convertFractionalPart
jc .error
cmp byte [sign], 0
je .dontNegate
fchs ; Negate value
.dontNegate:
mov bh, 0 ; Set bh to indicate the string is a valid number.
jmp .exit
.error:
mov bh, 1 ; Set error code.
fstp st0 ; Pop top of fpu stack.
.exit:
pop di
pop ax
ret
atof_convertWholePart:
; Convert the whole number part (the part preceding the decimal
; point) by reading a digit at a time, multiplying the current
; value by 10, and adding the digit.
.mainLoop:
mov al, [bx + di]
cmp al, '.'
je .exit
cmp al, '0' ; Make sure character is a digit.
jb .error
cmp al, '9'
ja .error
; Convert single character to digit and save to memory for
; transfer to the FPU.
sub al, '0'
mov ah, 0
mov [tmp], ax
; Multiply current value by 10 and add in digit.
fmul dword [ten]
fiadd word [tmp]
inc di
cmp si, di ; Jump if end of string has been reached.
je .exit
jmp .mainLoop
.error:
stc ; Set error (carry) flag.
ret
.exit:
clc ; Clear error (carry) flag.
ret
atof_convertFractionalPart:
fld1 ; Load 1 to TOS. This will be the value of the decimal place.
.mainLoop:
cmp si, di ; Jump if end of string has been reached.
je .exit
inc di ; Move past the decimal point.
cmp si, di ; Jump if end of string has been reached.
je .exit
mov al, [bx + di]
cmp al, '0' ; Make sure character is a digit.
jb .error
cmp al, '9'
ja .error
fdiv dword [ten] ; Next decimal place
sub al, '0'
mov ah, 0
mov [tmp], ax
; Load digit, multiply by value for appropriate decimal place,
; and add to current total.
fild word [tmp]
fmul st0, st1
faddp st2, st0
jmp .mainLoop
.error:
stc ; Set error (carry) flag.
fstp st0 ; Pop top of fpu stack.
ret
.exit:
clc ; Clear error (carry) flag.
fstp st0 ; Pop top of fpu stack.
ret
; *********************************************
; ******* Ž<><C5BD>…„…<E280B9>ˆˆ Ž<C5BD>ˆŽŠ€ ŽŠ<C5BD>€ ********
; *********************************************
draw_window:
mcall 12,1
mcall 0,200*65536+255,200*65536+180,0x03ddeeff ; äã­ªæ¨ï 0: ®¯à¥¤¥«¨âì ¨ ®âà¨á®¢ âì ®ª­®
mcall 4,8*65536+8,0x10000000,labelt,label_len ; ‡€ƒŽ‹Ž‚ŽŠ ŽŠ<C5BD>
mov ebx,24*65536+28
mov ecx,70*65536+18
mov edx,6
mov esi,0x0066ee
mov edi,7
newbutton:
dec edi
jnz no_new_row
mov edi,7
mov ebx,24*65536+25+3
add ecx,20*65536
no_new_row:
mcall 8
add ebx,30*65536
inc edx
cmp edx,39
jbe newbutton
mcall 8,225*65536+8,28*65536+8,3 ; 'dec-bin-hex'
mcall 8,204*65536+28,70*65536+18,2,0xcc0000 ; 'C'
mov ebx,25*65536+75 ; <20>à®à¨á®¢ª  ¯®¤¯¨á¥© ª­®¯®ª
mov ecx,0xffffff
mov edx,text
mov esi,34
newline:
mcall 4
add ebx,20
add edx,34
cmp [edx],byte 'x'
jne newline
call print_display
mcall 12,2
ret
print_display:
pusha
mcall 13,100*65536+120,25*65536+13,0x00ddeeff
mcall 13,23*65536+210,40*65536+13,0xffffff
mcall 4,140*65536+28,0,calc,1
mov eax,4
mov ebx,203*65536+29
mov ecx,0
mov edx,[display_type]
shl edx,2
add edx,display_type_text
mov esi,3
int 0x40
cmp [dsign],byte '+'
je positive
mcall 4,28*65536+43,0x0,dsign,1
positive:
cmp [display_type],0 ; ¤¥áïâ¨ç­ ï á¨á⥬  áç¨á«¥­¨ï
jne no_display_decimal
cmp [decimal],0
je whole
mcall 47,10*65536,[integer],125*65536+43,0x0 ; ®â®¡à ¦ âì 10 æ¨äà
mcall 4,185*65536+43,0x0,dot,1
mcall 47,6*65536,[decimal],192*65536+43,0x0 ; ®â®¡à ¦ âì 6 æ¨äà ¯®á«¥ § ¯ï⮩
popa
ret
whole:
cmp [integer],0
je null
mcall 47,10*65536,[integer],165*65536+43,0x0
mcall 4,225*65536+43,0x0,dot,1
popa
ret
no_display_decimal:
cmp [integer],0
je null
cmp [display_type],1
jne no_display_hexadecimal
mcall 47,1*256+8*65536,[integer],178*65536+43,0x0 ; ®â®¡à ¦ âì 8 è¥áâ­ ¤æ â¨à¨ç­ëå æ¨äà
popa
ret
no_display_hexadecimal:
cmp [integer],0
je null
cmp [display_type],2
jne null
mcall 47,2*256+32*65536,[integer],37*65536+43,0x0 ; ®â®¡à ¦ âì 32 ¤¢®¨ç­ë¥ æ¨äàë
popa
ret
null:
mcall 47,1*65536,0,219*65536+43,0x0
cmp [display_type],0
jne end_pr
mcall 4,225*65536+43,0x0,dot,1
end_pr:
popa
ret
clear_all:
pusha
mov [calc],' '
mov [integer],0
mov [decimal],0
mov [id],0
mov [dsign],byte '+'
mov esi,muuta0
mov edi,muuta1
mov ecx,18
cld
rep movsb
mov esi,muuta0
mov edi,muuta2
mov ecx,18
cld
rep movsb
call print_display
popa
ret
;Ž¡« áâì ¤ ­­ëå
display_type dd 0 ; 0 = decimal, 1 = hexadecimal, 2= binary
entry_multiplier dd 10
display_start_y dd 0x0
display_type_text db 'dec hex bin'
dot db '.'
calc db ' '
integer dd 0
decimal dd 0
kymppi dd 10
dsign:
muuta1 db '+0000000000.000000'
muuta2 db '+0000000000.000000'
muuta0 db '+0000000000.000000'
text:
db ' A B C D E F C '
db ' 1 2 3 + Int Sin Asin'
db ' 4 5 6 - 1/x Cos Acos'
db ' 7 8 9 / x^2 Tan Atan'
db ' +/- 0 . * Sqr Pi = '
db 'x'
asci: db 49,50,51,52,53,54,55,56,57,48,43,61,45,42,47,44,46,27
butid: db 12,13,14,19,20,21,26,27,28,34,15,39,22,36,29,35,35,1
labelt:
db 'Calc 1.3'
label_len = $ - labelt
I_END:
View Git Blame Copy Permalink