;; Calculator for MenuetOS (c) Ville Turjanmaa ;; ;; Compile with FASM ;; ;; Pavel Rymovski (Heavyiron) - version for KolibriOS ;; ;; What's new: ;; Calc 1.1 ;; 1) changed design ;; 2) new procedure of draw window (10 decimal digits, 23 binary, "+" not displayed now) ;; 3) window with skin ;; Calc 1.2 ;; 1) added some useful functions, such as arcsin, arccos, arctg, 1/x, x^2 ;; Calc 1.31 ;; 1) optimised program ;; 2) new type of window (you need kernel 114 revision or higher) ;; Calc 1.32 ;; 1) fixed arccos ;; Calc 1.33 ;; 1) align button captions in proper way, finally! ;; Calc 1.4 - Leency ;; 1) better GUI, big fonts use32 org 0x0 db 'MENUET01' ; 8 byte id dd 0x01 ; header version dd START ; start of code dd I_END ; size of image dd E_END ; memory for app dd E_END ; esp dd 0x0,0x0 ; I_Param , I_Icon include '../../../macros.inc' include '../../../KOSfuncs.inc' macro DrawBar x, y, width, height, color { mcall 13, (x) shl 16 + (width), (y) shl 16 + (height), color } macro DrawRectangle x, y, w, h, color { DrawBar x,y,w,1,color DrawBar x,y+h,w,1 DrawBar x,y,1,h DrawBar x+w,y,1,h+1 } START: red: call draw_window still: mcall 10 dec eax jz red dec eax jz key button: mcall 17 ; get button id shr eax, 8 jmp testbut key: mcall 2 ; get ASCII key code shr eax, 8 mov edi, asci ; convert ASCII into button id mov ecx, 18 cld repne scasb jne still sub edi, asci dec edi mov esi, butid add esi, edi lodsb testbut: cmp eax, 1 ; button 1 -- exit jne noexit mcall -1 noexit: cmp eax, 2 jne no_reset call clear_all jmp still no_reset: finit mov ebx, muuta1 ; convert to FPU format 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 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 xor eax, eax 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 fld1 fdiv [trans1] 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] fld st0 fmul st, st1 fld1 fsubrp st1, st0 fsqrt fxch st1 fpatan 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, 0xf0000000 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 ; [] 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 ; {} 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 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: fld [tmp2] cmp byte [sign], 0 ; change fraction to positive je no_neg2 fchs no_neg2: fadd [smallValueForRounding] fist [integer] fisub [integer] 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] fst [tmp2] ftst fstsw ax test ax, 1 jnz real_done fld [tmp2] dec edi jz real_done jmp newd real_done: fldcw [controlWord] 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 ; ********************************************* ; ******* WINDOW DEFINITIONS AND DRAW ********* ; ********************************************* BTNSP_X equ 39 draw_window: mcall 12, 1 mcall 48, 3, sc, sizeof.system_colors mcall SF_STYLE_SETTINGS, SSF_GET_SKIN_HEIGHT mov ecx, 200 shl 16 + 210 add ecx, eax ; add skin height to window height mov edx, [sc.work] or edx, 0x34000000 mov edi, title mcall 0, <250, 317> mov eax, SF_DEFINE_BUTTON mov ebx, 19 shl 16 + 36 mov ecx, 55 shl 16 + 22 mov edx, 6 mov esi, [sc.work_button] mov edi, 7 newbutton: dec edi jnz no_new_row mov edi, 7 mov ebx, 19 shl 16 + 36 add ecx, 28 shl 16 no_new_row: mcall add ebx, BTNSP_X shl 16 inc edx cmp edx, BTNSP_X jbe newbutton mcall , <253, 36>, <55, 22>, 2, 0xF0969D ; 'C' mcall , <235,54>, <20,26>, 3, [sc.work] ; 'dec-bin-hex' mov esi, [sc.work_button] mov ecx, [sc.work_button_text] or ecx, 0x10000000 mov edx, text mov edi, 31 next_line: inc edx and edi, 0x0000ffff add edi, 24 SHL 16 + 28 next_button: movzx esi, byte[edx - 1] imul eax, esi, 8 neg eax add eax, 29 shr eax, 1 shl eax, 16 mov ebx, edi add ebx, eax mcall 4 add edx, esi inc edx add edi, BTNSP_X SHL 16 cmp [edx - 1], byte 0 jne next_button cmp [edx], byte 'x' jne next_line call print_display mcall 12, 2 ret print_display: pusha mcall 13, < 21, 206>, <22, 24>, 0xFFFfff DrawRectangle 19,20,208,26, [sc.work_graph] mcall 38, < 20, 226>, <21, 21>, 0xE0E0E0 ; internal shadow mcall 38, < 20, 20>, <23, 43>, 0xE0E0E0 ; internal shadow mov ecx, [sc.work_text] or ecx, 0x40000000 mcall 4, <135,7>,,calc,1,[sc.work] mov ebx, 250 shl 16 + 26 mov edx, [display_type] shl edx, 2 add edx, display_type_text mov esi, 3 mov edi, [sc.work] or ecx, 0x10000000 mcall cmp [dsign], byte '+' je positive mcall , <23, 26>, 0, dsign, 1 positive: cmp [display_type], 0 jne no_display_decimal cmp [decimal], 0 je whole mcall , <144, 26>, [number_color], dot, 1 mcall 47, <10, 0>, [integer], <26, 26>, [number_color] mcall , <6, 0>, [decimal], <151, 26>, [number_color] popa ret whole: mcall , <214, 26>, [number_color], dot, 1 cmp [integer], 0 je null mcall 47, <10, 0>, [integer], <94, 26>, [number_color] popa ret no_display_decimal: cmp [display_type], 1 jne no_display_hexadecimal cmp [integer], 0 je null mcall 47, <8, 256>, [integer], <130, 26>, [number_color] popa ret no_display_hexadecimal: cmp [integer], 0 je null mcall 47, <32, 2*256>, [integer], <32, 30>, 0 popa ret null: mcall 47, <1, 0>, 0, <202, 26>, [number_color] 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 ;data title db 'Calc 1.4', 0 display_type dd 0 ; 0 = decimal, 1 = hexadecimal, 2= binary entry_multiplier dd 10 display_type_text db 'dec hex bin' number_color dd 0x81333333 dot db '.',0 calc db ' ',0 integer dd 0 decimal dd 0 kymppi dd 10 ten dd 10.0, 0 tmp dw 1, 0 sign db 1, 0 tmp2 dq 0, 0 exp dd 0, 0 new_dec dd 100000, 0 id db 0, 0 res dd 0 trans1 dq 0 trans2 dq 0 controlWord dw 1 smallValueForRounding dq 0.0000005 ; 1/2 from last significant digit multipl dd 10,16,2 dsign: muuta1 db '+0000000000.000000' muuta2 db '+0000000000.000000' muuta0 db '+0000000000.000000' text: db 1,'A', 1,'B', 1,'C', 1,'D', 1,'E', 1,'F', 3,'CLR', 0 db 1,'1', 1,'2', 1,'3', 1,'+', 3,'Int', 3,'Sin', 4,'Asin', 0 db 1,'4', 1,'5', 1,'6', 1,'-', 3,'1/x', 3,'Cos', 4,'Acos', 0 db 1,'7', 1,'8', 1,'9', 1,'/', 3,'x^2', 3,'Tan', 4,'Atan', 0 db 3,'+/-', 1,'0', 1,'.', 1,'*', 3,'Sqr', 2,'Pi', 1,'=', 0 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 I_END: sc system_colors rb 0x200 ; stack E_END: