lang equ ru_RU ; ; Assembler ; SMALL ; CODE ; GaMe ; Libary ; ; Ver 0.05 ; ; game_collision_2d - get collision of two 2d rectangles ; result of collision test placed in CF. ; if CF = 1, objects is collided _1dbounce_count=0; macro game_collision_2d xy1,wh1,xy2,wh2 ;img1_off,x1,y1,img2_off,x2,y2 ;,otv { movt eax,xy1 movt ebx,wh1 movt ecx,xy2 movt edx,wh2 call game_collision_proc if ~ defined game_collision_used game_collision_used equ 1 jmp exit ; eax = x1*65536+y1 ; ebx = w1*65536+h1 ; ecx = x2*65536+y2 ; edx = w2*65536+h2 game_collision_proc: ; y h test call _1dbounce jnc @f ; x w test shr eax,16 ;eax,y1 ; shr ebx,16 ;mov ebx,[img1_off+4] ;h1 shr ecx,16 ;mov ecx,y2 ; shr edx,16 ;mov edx,[img2_off+4] ;h2 call _1dbounce @@: ret ; ax - x1, bx - w1, cx - x2, dx - w2 ; or ; ax - y1, bx - h1, cx - y2, dx - h2 ; if collision ecx is incremented _1dbounce: cmp cx,ax ; if x2 < x1 jmp anot jb anot add ax,bx cmp ax,cx ; if x1+xs <= x2 not coll jbe not_coll coll: stc ; CF = 1 ret anot: add cx,dx cmp cx,ax ; x2 + xs2 > x1 ja coll not_coll: clc ; CF = 0 ret exit: end if } ; approxto macro approxto value,target_value,step { local plus,minus,equal mov eax,target_value cmp value,eax je equal mov eax,step ja minus plus: add value,eax jmp equal minus: sub value,eax equal: } macro clamp min,max,arg { local gr,low,norm mov eax,max cmp arg,eax jg gr mov eax,min cmp arg,eax jnl norm gr: low: mov arg,eax norm: }