# Count with Bresenham's line algorithm in real-mode,assembly

Hey!
I'd like to draw lines in assembly. I wrote the algorithm in C, now I need to put it into assembly.
I'm in 16bits real-mode; graphics-mode: 12h (640*480 16colors)
The C source:

``````//x1/y1/x2/y2 = start x, start y, end x, end y
void draw_line(int x1, int y1, int x2, int y2)
{
double delta_l = (x2-x1)/(y2-y1);
//delta_l = like graph slope; maybe it's negative and/or not integer
// it can be also type 'float'
double y;

for(int x = x1; x <= x2; x++)
{
y = y1 + ( x * delta_l );
Round_To_Integer(y);
Put_Pixel(x, y, color);
}
}
``````

My problem is that I can't count with floating-point numbers (or double) in assembly.
Please help me to "translate" this C code into ASM.
Thank you.

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just ask your compiler to output assembly if you've got the C code working already. –  Mat Apr 16 '11 at 14:29
en.wikipedia.org/wiki/Bresenham%27s_line_algorithm#Optimization write in c, then cut it from generate asm code (no float's to care about) –  fazo Apr 16 '11 at 14:34
ok, i try to do it –  SeBee Apr 16 '11 at 14:42
Er...the whole point of Bresenham is that it works with integer arithmetic. –  dmckee Apr 16 '11 at 15:50
Yeah, maybe I misunderstood something... –  SeBee Apr 16 '11 at 18:09

My understanding of the Bresenham algorithm is that its core idea is to avoid floating-point arithmetic by using a variable where the error is summed up in an integer variable and a correction is made whenever the error exceeds a certain value.

This page has a step by step explanation.

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Use fixed-point arithmetic. In real mode a pair of registers is used for the interpolated value. Usually one contains the whole portion of the number and the other holds the fraction. Use add with carry for each step.

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`````` MOV AX,0A000
MOV DS,AX
MOV AX,013    ; GRAPHICS MODE 13H 320X200
INT 010
MOV SI,0
MOV CX,0
L4:
MOV B[SI],31  ; DRAW PIXEL OF LINE 0,0 TO 320,200 USING BRESENHAM
MOV AX,CX
SHL AX,1
CMP AX,320
JB L5
SUB CX,320
L5:
CMP SI,64000
JB L4
L2:
MOV AX,0     ; HOLD SCREEN
INT 016
CMP AH,1
JE L3
JMP L2
L3:
MOV AX,2     ; RESET MODE 2
INT 010
MOV AX,04C00 ; NORMAL EXIT
INT 021
``````
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