source: xtideuniversalbios/trunk/Configurator/Src/Libraries/print.asm@ 605

; Project name  :   Print library
; Description   :   ASM library for character and string
;                   printing related functions.

;--------------- Equates -----------------------------

; String library function to include
%define USE_PRINT_FORMAT            ; Print_Format
%define USE_PRINT_NEWLINE           ; Print_Newline
%define USE_PRINT_CHARBUFFER        ; Print_CharBuffer
%define USE_PRINT_REPEAT            ; Print_Repeat
;%define USE_PRINT_BOOL             ; Print_Bool
;%define USE_PRINT_INTSW            ; Print_IntSW
%define USE_PRINT_INTUW             ; Print_IntUW
;%define USE_PRINT_INTUDW           ; Print_IntUDW
%define USE_PRINT_INTHEXB           ; Print_IntHexB
%define USE_PRINT_INTHEXW           ; Print_IntHexW
;%define USE_PRINT_INTHEXDW         ; Print_IntHexDW


; Text mode character attribute byte bits for CGA+
FLG_CGA_FG_B        EQU     (1<<0)
FLG_CGA_FG_G        EQU     (1<<1)
FLG_CGA_FG_R        EQU     (1<<2)
FLG_CGA_FG_I        EQU     (1<<3)
FLG_CGA_BG_B        EQU     (1<<4)
FLG_CGA_BG_G        EQU     (1<<5)
FLG_CGA_BG_R        EQU     (1<<6)
FLG_CGA_BG_I        EQU     (1<<7)
FLG_CGA_BG_BLNK     EQU     (1<<7)  ; Blinking is default

; Text mode character attribute bytes for MDA/Hercules (mono)
; *Not displayed on some monitors
ATTR_MDA_HIDDEN     EQU     00h ; Not displayed
ATTR_MDA_ULINE      EQU     01h ; Underlined
ATTR_MDA_NORMAL     EQU     07h ; Normal (white on black)
ATTR_MDA_INT_U      EQU     09h ; High intensity, underlined
ATTR_MDA_INT        EQU     0Fh ; High intensity
ATTR_MDA_REVERSE    EQU     70h ; Reverse video (black on white)
ATTR_MDA_BLNK       EQU     87h ; Blinking white on black*
ATTR_MDA_BLNK_INT   EQU     8Fh ; Blinking high intensity*
ATTR_MDA_BLNK_REV   EQU     0F0h; Blinking reverse video


;-------------- Private global variables -------------
; Section containing initialized data
;SECTION .data

g_rgbHex:       db  "0123456789ABCDEF"  ; Hexadecimal printing
g_rgbFormat:    ; Placeholders for Print_Format
%ifdef USE_PRINT_INTSW
                db  'd' ; Prints signed 16-bit integer (WORD)
%endif
%ifdef USE_PRINT_INTUW
                db  'u' ; Prints unsigned 16-bit integer (WORD)
%endif
%ifdef USE_PRINT_INTUDW
                db  'U' ; Prints unsigned 32-bit integer (DWORD)
%endif
%ifdef USE_PRINT_INTHEXW
                db  'x' ; Prints 8- or 16-bit hexadecimal (BYTE, WORD)
%endif
%ifdef USE_PRINT_INTHEXDW
                db  'X' ; Prints 32-bit hexadecimal (DWORD)
%endif
                db  's' ; Prints string (DS segment)
                db  'S' ; Prints string (far pointer)
%ifdef USE_PRINT_BOOL
                db  'b' ; Prints boolean value 0 or 1
%endif
                db  'c' ; Prints character
                db  'C' ; Prints character number of times
_g_rgbFormatEnd:

; Number of different placeholders for Print_Format
CNT_PLCEHLDRS       EQU     (_g_rgbFormatEnd-g_rgbFormat)



;-------------- Public functions ---------------------
; Section containing code
SECTION .text

; Include one file to use DOS, BIOS or VRAM macros and functions
;%include "prntdos.asm"         ; Include to use DOS printing functions
%include "prntbios.asm"         ; Include to use BIOS printing functions
;%include "prntvram.asm"            ; Include to access VRAM directly


;--------------------------------------------------------------------
; Debugging macro that prints wanted character and newline.
;
; PRINT_DBG_CH
;   Parameters:
;       %1:     Character to print
;   Returns:
;       Nothing
;   Corrupts registers:
;       Nothing
;--------------------------------------------------------------------
%macro PRINT_DBG_CH 1
    pushf
    push    dx
    push    ax
    mov     dl, %1
    PRINT_CHAR
    ;mov        dl, CR
    ;PRINT_CHAR
    ;mov        dl, LF
    ;PRINT_CHAR
    pop     ax
    pop     dx
    popf
%endmacro


;--------------------------------------------------------------------
; Simplified printf-style string formatting function.
; Strings must end to STOP character.
; Supports following formatting types:
;   %d      Prints signed 16-bit integer (WORD)
;   %u      Prints unsigned 16-bit integer (WORD)
;   %U      Prints unsigned 32-bit integer (DWORD)
;   %x      Prints 8- or 16-bit hexadecimal (BYTE, WORD)
;   %X      Prints 32-bit hexadecimal (DWORD)
;   %s      Prints string (DS segment)
;   %S      Prints string (far pointer)
;   %b      Prints boolean value 0 or 1
;   %c      Prints character
;   %[num]C Prints character number of times (up to 256, 0=256)
;   %%      Prints '%' character (no parameter pushed)
;
;   Any placeholder can be set to minimum length by specifying
;   minimum number of characters. For example %8d would append spaces
;   after integer so that at least 8 characters would be printed.
;
;   NOTE! Caller must clean the stack variables!
;
; Print_Format
;   Parameters:
;       DL:         Min length character (usually space)
;       DS:SI:      Pointer to string to format
;       Stack:      Parameters for formatting placeholders.
;                   Parameter for first placeholder must be pushed last
;                   (to top of stack).
;                   High word must be pushed first for 32-bit parameters.
;   Returns:
;       Nothing
;   Corrupts registers:
;       AX, SI
;--------------------------------------------------------------------
%ifdef USE_PRINT_FORMAT
ALIGN JUMP_ALIGN
Print_Format:
    push    es
    push    bp
    push    di
    push    cx
    push    dx                  ; Push min length character
    push    cs                  ; Copy CS...
    pop     es                  ; ...to ES
    mov     bp, sp              ; Copy SP to BP
    add     bp, 2*6             ; Set BP to point first stack parameter
    cld                         ; Set LODSB to increment SI
ALIGN JUMP_ALIGN
.PrintLoop:         ; Load characters from string
    lodsb                       ; Load char from DS:SI to AL, increment SI
    xor     cx, cx              ; Zero minimum length
    cmp     al, STOP            ; End of string?
    je      .Return             ;  If so, return
    cmp     al, '%'             ; Format placeholder?
    je      .Format             ;  If so, jump to format
ALIGN JUMP_ALIGN
.PrintChar:         ; Prints single character from AL
    mov     dl, al              ; Copy character to DL
    PRINT_CHAR                  ; Print character
    mov     dx, 1               ; One char printed
ALIGN JUMP_ALIGN
.PrintXtraSoMin:    ; Checks how many spaces to append
    sub     cx, dx              ; Number of spaces needed
    jle     .PrintLoop          ; Read next character if no spaces needed
    pop     dx                  ; Pop min length character to DL
ALIGN JUMP_ALIGN
.PrintSpaceLoop:    ; Loop to print the required spaces
    PRINT_CHAR
    loop    .PrintSpaceLoop
    push    dx                  ; Store min length character
    jmp     .PrintLoop          ; Jump to read next character
ALIGN JUMP_ALIGN
.Return:            ; The only return point for this function
    pop     dx
    pop     cx
    pop     di
    pop     bp
    pop     es
    ret
ALIGN JUMP_ALIGN
.UpdateMinLen:      ; Updates placeholder minimum length
    mov     al, ah              ; Copy digit to AL
    mov     ah, cl              ; Copy previous length to AH
    aad                         ; AL=10*AH+AL, AH=0
    mov     cx, ax              ; Copy new length to CX
ALIGN JUMP_ALIGN
.Format:
    lodsb                       ; Load char from DS:SI to AL, increment SI
    cmp     al, STOP
    je      .Return             ; Invalid string
    mov     ah, al              ; Copy char to AH
    sub     ah, '0'             ; Possible digit char to digit
    cmp     ah, 9               ; Was valid digit?
    jbe     .UpdateMinLen       ;  If so, jump to update minimum length
    push    cx                  ; Store number of spaces needed
    mov     cx, CNT_PLCEHLDRS   ; Load number of placeholders to CX
    mov     di, g_rgbFormat     ; Load offset to format placeholder table
    repne scasb                 ; Compare AL to [ES:DI] until match
    pop     cx                  ; Restore spaces needed
    jne     .PrintChar          ; If no match, jump to print character
    sub     di, g_rgbFormat+1   ; To placeholder index
    shl     di, 1               ; Shift for word lookup
    jmp     [cs:di+.g_rgwFormJump]  ; Jump to format

%ifdef USE_PRINT_INTSW
ALIGN JUMP_ALIGN
.Print_d:   ; Print signed 16-bit integer
    mov     ax, [bp]            ; Load word to print
    times 2 inc bp
    call    Print_IntSW
    jmp     .PrintXtraSoMin
%endif
%ifdef USE_PRINT_INTUW
ALIGN JUMP_ALIGN
.Print_u:   ; Print unsigned 16-bit integer
    mov     ax, [bp]            ; Load word to print
    times 2 inc bp
    call    Print_IntUW
    jmp     .PrintXtraSoMin
%endif
%ifdef USE_PRINT_INTUDW
ALIGN JUMP_ALIGN
.Print_U:   ; Print unsigned 32-bit integer
    mov     ax, [bp]            ; Load loword
    mov     dx, [bp+2]          ; Load hiword
    add     bp, 4
    call    Print_IntUDW
    jmp     .PrintXtraSoMin
%endif
%ifdef USE_PRINT_INTHEXW
ALIGN JUMP_ALIGN
.Print_x:   ; Prints 8- or 16-bit hexadecimal
    mov     ax, [bp]            ; Load word to print
    times 2 inc bp
%ifdef USE_PRINT_INTHEXB
    test    ah, ah              ; 16-bit hexadecimal?
    jnz     .Print_x16          ;  If so, jump to print it
    call    Print_IntHexB
    jmp     .PrintXtraSoMin
.Print_x16:
%endif
    call    Print_IntHexW
    jmp     .PrintXtraSoMin
%endif
%ifdef USE_PRINT_INTHEXDW
ALIGN JUMP_ALIGN
.Print_X:   ; Prints 32-bit hexadecimal
    mov     ax, [bp]            ; Load loword
    mov     dx, [bp+2]          ; Load hiword
    add     bp, 4
    call    Print_IntHexDW
    jmp     .PrintXtraSoMin
%endif
ALIGN JUMP_ALIGN
.Print_s:   ; Prints string from DS segment
    mov     dx, [bp]            ; Load offset to string
    times 2 inc bp
    PRINT_STR_LEN               ; Print string
    jmp     .PrintXtraSoMin
ALIGN JUMP_ALIGN
.Print_S:   ; Prints string using far pointer
    push    ds                  ; Store DS
    mov     dx, [bp]            ; Load offset to string
    mov     ds, [bp+2]          ; Load segment to string
    add     bp, 4
    PRINT_STR_LEN               ; Print string
    pop     ds                  ; Restore DS
    jmp     .PrintXtraSoMin
%ifdef USE_PRINT_BOOL
ALIGN JUMP_ALIGN
.Print_b:   ; Prints boolean value
    mov     ax, [bp]            ; Load boolean value to print
    times 2 inc bp
    call    Print_Bool
    jmp     .PrintXtraSoMin
%endif
ALIGN JUMP_ALIGN
.Print_c:   ; Prints character
    mov     ax, [bp]            ; Load character to print
    times 2 inc bp
    jmp     .PrintChar          ; Jump to print character
ALIGN JUMP_ALIGN
.Print_C:
    mov     dx, [bp]            ; Load character to print
    times 2 inc bp
ALIGN JUMP_ALIGN
.CharLoop:
    PRINT_CHAR
    loop    .CharLoop
    jmp     .PrintLoop

ALIGN JUMP_ALIGN
.g_rgwFormJump:                 ; Jump table for Print_Format
%ifdef USE_PRINT_INTSW
    dw      .Print_d
%endif
%ifdef USE_PRINT_INTUW
    dw      .Print_u
%endif
%ifdef USE_PRINT_INTUDW
    dw      .Print_U
%endif
%ifdef USE_PRINT_INTHEXW
    dw      .Print_x
%endif
%ifdef USE_PRINT_INTHEXDW
    dw      .Print_X
%endif
    dw      .Print_s
    dw      .Print_S
%ifdef USE_PRINT_BOOL
    dw      .Print_b
%endif
    dw      .Print_c
    dw      .Print_C
%endif


;--------------------------------------------------------------------
; Prints newline character to change line.
;
; Print_Newline
;   Parameters:
;       Nothing
;   Returns:
;       Nothing
;   Corrupts registers:
;       Nothing
;--------------------------------------------------------------------
%ifdef USE_PRINT_NEWLINE
ALIGN JUMP_ALIGN
Print_Newline:
    push    ax
    push    dx
    mov     dl, LF
    PRINT_CHAR
    mov     dl, CR
    PRINT_CHAR
    pop     dx
    pop     ax
    ret
%endif


;--------------------------------------------------------------------
; Prints wanted number of characters.
;
; Print_CharBuffer
;   Parameters:
;       CX:     Number of characters to print
;       ES:DI:  Ptr to character buffer
;   Returns:
;       Nothing
;   Corrupts registers:
;       AX, CX
;--------------------------------------------------------------------
%ifdef USE_PRINT_CHARBUFFER
ALIGN JUMP_ALIGN
Print_CharBuffer:
    jcxz    .Return
    push    ds
    push    si
    push    dx
    push    es
    pop     ds
    mov     si, di
    cld                         ; LODSB to increment SI
ALIGN JUMP_ALIGN
.Rep:
    lodsb                       ; Load from [DS:SI] to AL
    mov     dl, al              ; Copy to DL for printing
    PRINT_CHAR
    loop    .Rep
    pop     dx
    pop     si
    pop     ds
.Return:
    ret
%endif


;--------------------------------------------------------------------
; Repeats wanted character.
;
; Print_Repeat
;   Parameters:
;       CX:     Number of times to repeat character
;       DL:     Character to repeat
;   Returns:
;       Nothing
;   Corrupts registers:
;       AX, CX
;--------------------------------------------------------------------
%ifdef USE_PRINT_REPEAT
ALIGN JUMP_ALIGN
Print_Repeat:
    jcxz    .Return
ALIGN JUMP_ALIGN
.Rep:
    PRINT_CHAR
    loop    .Rep
.Return:
    ret
%endif


;--------------------------------------------------------------------
; Prints boolean value.
;
; Print_Bool
;   Parameters:
;       AX:     Boolean value (0=FALSE, non-zero=TRUE)
;   Returns:
;       DX:     Number of characters printed
;   Corrupts registers:
;       AX
;--------------------------------------------------------------------
%ifdef USE_PRINT_BOOL
ALIGN JUMP_ALIGN
Print_Bool:
    mov     dl, '0'             ; Assume FALSE
    test    ax, ax              ; Is FALSE?
    jz      .Print              ;  If so, jump to print
    inc     dx                  ; Increment to '1'
ALIGN JUMP_ALIGN
.Print:
    PRINT_CHAR
    mov     dx, 1               ; One character printed
    ret
%endif


;--------------------------------------------------------------------
; Prints signed or unsigned 16-bit integer.
;
; Print_IntSW   Prints signed 16-bit word
; Print_IntUW   Prints unsigned 16-bit word
;   Parameters:
;       AX:     Word to print
;   Returns:
;       DX:     Number of characters printed
;   Corrupts registers:
;       AX
;--------------------------------------------------------------------
%ifdef USE_PRINT_INTSW
ALIGN JUMP_ALIGN
Print_IntSW:
    test    ax, ax              ; Positive integer?
    jns     Print_IntUW         ;  If so, jump to print it
    push    di                  ; Store DI
    push    ax                  ; Store word
    mov     dl, '-'             ; Print '-'
    PRINT_CHAR
    mov     di, 1               ; One character printed
    pop     ax                  ; Restore word
    neg     ax                  ; Negative to positive
    jmp     Print_ContinueFromIntSW
%endif

%ifdef USE_PRINT_INTUW or USE_PRINT_INTSW
ALIGN JUMP_ALIGN
Print_IntUW:
    push    di                  ; Store DI
    xor     di, di              ; Zero character counter
Print_ContinueFromIntSW:
    push    bx                  ; Store BX
    push    cx                  ; Store CX
    mov     bx, 10              ; Load divisor to BX
    mov     cx, 5               ; Load number of divisions to CX
ALIGN JUMP_ALIGN
.DivLoop:
    xor     dx, dx              ; Zero DX for division
    div     bx                  ; DX:AX / 10 => AX=quot, DX=rem
    push    dx                  ; Push digit
    loop    .DivLoop            ; Loop to separate all characters
    xor     bx, bx              ; First char printed flag
    mov     cl, 5               ; Load number of characters to CL
ALIGN JUMP_ALIGN
.PrintLoop:
    pop     dx                  ; Pop character to DX
    or      bx, dx              ; Still skipping zeroes?
    loopz   .PrintLoop          ;  If so, loop
    add     dx, '0'             ; Digit to character
    PRINT_CHAR                  ; Print character
    inc     di                  ; Increment chars printed
    inc     cx                  ; Characters left
    loop    .PrintLoop          ;  If so, loop
    mov     dx, di              ; Copy chars printed to DX
    pop     cx
    pop     bx
    pop     di
    ret
%endif


;--------------------------------------------------------------------
; Prints unsigned 32-bit integer.
;
; Print_IntUDW
;   Parameters:
;       DX:AX:  32-bit unsigned integer to print
;   Returns:
;       DX:     Number of characters printed
;   Corrupts registers:
;       AX
;--------------------------------------------------------------------
%ifdef USE_PRINT_INTUDW
ALIGN JUMP_ALIGN
Print_IntUDW:
    push    di                  ; Store DI
    push    si                  ; Store SI
    push    bx                  ; Store BX
    push    cx                  ; Store CX
    mov     cx, 10              ; Load divider to CX
    mov     si, cx              ; Load number of divisions (10) to SI
    xor     di, di              ; Zero DI (char counter)
ALIGN JUMP_ALIGN
.DivLoop:
    call    Math_DivDWbyW       ; DX:AX / 10 => DX:AX=quot, BX=rem
    push    bx                  ; Push digit
    dec     si                  ; Decrement number of divisions
    jnz     .DivLoop            ;  Loop while divisions left
    xor     bx, bx              ; First char printed flag
ALIGN JUMP_ALIGN
.PrintLoop:
    pop     dx                  ; Pop character to DX
    or      bx, dx              ; Still skipping zeroes?
    loopz   .PrintLoop          ;  If so, loop
    add     dx, '0'             ; Digit to character
    PRINT_CHAR                  ; Print character
    inc     di                  ; Increment chars printed
    inc     cx                  ; Characters left
    loop    .PrintLoop          ;  If so, loop
    mov     dx, di              ; Copy characters printed to DX
    pop     cx
    pop     bx
    pop     si
    pop     di
    ret
%endif


;--------------------------------------------------------------------
; Prints 8-bit byte as hexadecimal string.
;
; Print_IntHexB
;   Parameters:
;       AL:     8-bit BYTE to print
;   Returns:
;       DX:     Number of characters printed
;   Corrupts registers:
;       AX
;--------------------------------------------------------------------
%ifdef USE_PRINT_INTHEXB
ALIGN JUMP_ALIGN
Print_IntHexB:
    push    bx
    xor     ah, ah              ; Zero AH, AX=word to print
    mov     bx, 0FFh            ; Set to print two digits
    call    Print_HexString     ; Print hex string
    push    dx                  ; Store number of chars printed
    mov     dl, 'h'             ; Print 'h' at the end
    PRINT_CHAR
    pop     dx                  ; Restore number of chars printed
    inc     dx                  ; Increment for 'h'
    pop     bx
    ret
%endif


;--------------------------------------------------------------------
; Prints 16-bit word as hexadecimal string.
;
; Print_IntHexW
;   Parameters:
;       AX:     16-bit WORD to print
;   Returns:
;       DX:     Number of characters printed
;   Corrupts registers:
;       AX
;--------------------------------------------------------------------
%ifdef USE_PRINT_INTHEXW
ALIGN JUMP_ALIGN
Print_IntHexW:
    push    bx
    xor     bx, bx              ; Set to print all zeroes...
    dec     bx                  ; ...BX = FFFFh
    call    Print_HexString     ; Print hex string
    push    dx                  ; Store number of chars printed
    mov     dl, 'h'             ; Print 'h' at the end
    PRINT_CHAR
    pop     dx                  ; Restore number of chars printed
    inc     dx                  ; Increment for 'h'
    pop     bx
    ret
%endif


;--------------------------------------------------------------------
; Prints 32-bit dword as hexadecimal string.
;
; Print_IntHexDW
;   Parameters:
;       DX:AX:  32-bit DWORD to print
;   Returns:
;       DX:     Number of characters printed
;   Corrupts registers:
;       AX
;--------------------------------------------------------------------
%ifdef USE_PRINT_INTHEXDW
ALIGN JUMP_ALIGN
Print_IntHexDW:
    push    cx
    push    bx
    push    ax                  ; Store loword
    mov     ax, dx              ; Copy hiword to AX
    xor     bx, bx              ; Set to print all zeroes...
    dec     bx                  ; ...BX = FFFFh
    call    Print_HexString     ; Print hex string
    mov     cx, dx              ; Copy number of chars printed
    pop     ax                  ; Pop loword
    call    Print_HexString     ; Print hex string
    add     cx, dx              ; Add number of chars printed
    mov     dl, 'h'             ; Print 'h' at the end
    PRINT_CHAR
    inc     cx                  ; Increment number of chars printed
    mov     dx, cx              ; Copy number of chars printed to DX
    pop     bx
    pop     cx
    ret
%endif


;-------------- Private functions --------------------

;--------------------------------------------------------------------
; Prints hexadecimal character for every nybble for WORD.
;
; Print_HexString
;   Parameters:
;       AX:     16-bit WORD to print
;       BX:     Mask for zero nybbles to print:
;               FFFFh   = prints all digits
;               0FFFh   = does not print digit 3 if it is zero
;               00FFh   = does not print digits 3 and 2 if both are zeroes
;               000Fh   = prints only digit 0 if other are zeroes
;               0000h   = prints nothing if value is zero
;   Returns:
;       DX:     Number of characters printed
;   Corrupts registers:
;       AX
;--------------------------------------------------------------------
%ifdef USE_PRINT_INTHEXB or USE_PRINT_INTHEXW or USE_PRINT_INTHEXDW
ALIGN JUMP_ALIGN
Print_HexString:
    push    bp
    push    di
    push    si
    push    cx

    mov     di, ax              ; Backup WORD to DI
    mov     cl, 12              ; Prepare to shift nybbles
    xor     dx, dx              ; Zero DX
ALIGN JUMP_ALIGN
.NybbleLoop:
    mov     bp, bx              ; Copy mask to BP
    mov     si, di              ; Copy WORD to SI
    shr     bp, cl              ; Shift wanted mask nybble to BP
    shr     si, cl              ; Shift wanted nybble to SI
    and     bp, 0Fh             ; Clear unwanted mask bits
    and     si, 0Fh             ; Clear unwanted bits
    or      bp, si              ; Skip zeroes in front?
    jz      .SkipPrint          ;  If so, skip printing
    mov     dl, [cs:si+g_rgbHex]; Load char to DL
    PRINT_CHAR                  ; Print character
    inc     dh                  ; Increment characters printed
.SkipPrint:
    sub     cl, 4               ; Prepare to shift next nybble
    jnc     .NybbleLoop         ; Loop while nybbles left
    mov     dl, dh              ; Copy chars printed to DL
    xor     dh, dh              ; Zero DH

    pop     cx
    pop     si
    pop     di
    pop     bp
    ret
%endif