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-rw-r--r--lib/percept/src/egd_render.erl113
1 files changed, 27 insertions, 86 deletions
diff --git a/lib/percept/src/egd_render.erl b/lib/percept/src/egd_render.erl
index a97bb05cac..c0075b8c42 100644
--- a/lib/percept/src/egd_render.erl
+++ b/lib/percept/src/egd_render.erl
@@ -28,7 +28,6 @@
-compile(inline).
-export([line_to_linespans/3]).
--export([line_ls/2]).
-include("egd.hrl").
-define('DummyC',0).
@@ -287,9 +286,9 @@ object_line_data(#image_object{type=filled_triangle,
end;
object_line_data(#image_object{type=line,
- intervals=M, color=C}, Y, Z) ->
+ intervals=M, color={R,G,B,_}}, Y, Z) ->
case M of
- #{Y := Ls} -> [{Z, Xl, Xr, C}||{Xl,Xr} <- Ls];
+ #{Y := Ls} -> [{Z, Xl, Xr, {R,G,B,1.0-C/255}}||{Xl,Xr,C} <- Ls];
_ -> []
end;
@@ -331,8 +330,8 @@ precompile_objects([#image_object{type=filled_ellipse, span={X0,Y0,X1,Y1}}=O|Os]
[O#image_object{internals={Xr,Yr,Yr2}}|precompile_objects(Os)];
precompile_objects([#image_object{type=arc, points=[P0,P1], internals=D}=O|Os]) ->
Es = egd_primitives:arc_to_edges(P0, P1, D),
- Ls = lists:foldl(fun ({Ep0, Ep1}, D0) ->
- linespans_to_map(line_ls(Ep0, Ep1), D0)
+ Ls = lists:foldl(fun ({Ep0,Ep1},M) ->
+ linespans_to_map(line_to_linespans(Ep0,Ep1,1),M)
end, #{}, Es),
[O#image_object{type=line, intervals=Ls}|precompile_objects(Os)];
precompile_objects([#image_object{type=text_horizontal,
@@ -353,7 +352,8 @@ triangle_ls(P1,P2,P3) ->
% At an end point, a new line to the point already being drawn
% repeat same procedure as above
[Sp1, Sp2, Sp3] = tri_pt_ysort([P1,P2,P3]),
- triangle_ls_lp(tri_ls_ysort(line_ls(Sp1,Sp2)), Sp2, tri_ls_ysort(line_ls(Sp1,Sp3)), Sp3, []).
+ triangle_ls_lp(tri_ls_ysort(line_to_linespans(Sp1,Sp2,1)), Sp2,
+ tri_ls_ysort(line_to_linespans(Sp1,Sp3,1)), Sp3, []).
% There will be Y mismatches between the two lists since bresenham is not perfect.
% I can be remedied with checking intervals this could however be costly and
@@ -362,7 +362,7 @@ triangle_ls(P1,P2,P3) ->
triangle_ls_lp([],_,[],_,Out) -> Out;
triangle_ls_lp(LSs1, P1, [], P2, Out) ->
- SLSs = tri_ls_ysort(line_ls(P2,P1)),
+ SLSs = tri_ls_ysort(line_to_linespans(P2,P1,1)),
N2 = length(SLSs),
N1 = length(LSs1),
if
@@ -376,7 +376,7 @@ triangle_ls_lp(LSs1, P1, [], P2, Out) ->
triangle_ls_lp(LSs1, SLSs, Out)
end;
triangle_ls_lp([], P1, LSs2, P2, Out) ->
- SLSs = tri_ls_ysort(line_ls(P1,P2)),
+ SLSs = tri_ls_ysort(line_to_linespans(P1,P2,1)),
N1 = length(SLSs),
N2 = length(LSs2),
if
@@ -390,21 +390,21 @@ triangle_ls_lp([], P1, LSs2, P2, Out) ->
triangle_ls_lp(SLSs, LSs2, Out)
end;
triangle_ls_lp([LS1|LSs1],P1,[LS2|LSs2],P2, Out) ->
- {Y, Xl1, Xr1} = LS1,
- {_, Xl2, Xr2} = LS2,
+ {Y, Xl1, Xr1,_Ca1} = LS1,
+ {_, Xl2, Xr2,_Ca2} = LS2,
Xr = lists:max([Xl1,Xr1,Xl2,Xr2]),
Xl = lists:min([Xl1,Xr1,Xl2,Xr2]),
- triangle_ls_lp(LSs1,P1, LSs2, P2, [{Y,Xl,Xr}|Out]).
+ triangle_ls_lp(LSs1,P1,LSs2,P2,[{Y,Xl,Xr}|Out]).
triangle_ls_lp([],[],Out) -> Out;
triangle_ls_lp([],_,Out) -> Out;
triangle_ls_lp(_,[],Out) -> Out;
triangle_ls_lp([LS1|LSs1], [LS2|LSs2], Out) ->
- {Y, Xl1, Xr1} = LS1,
- {_, Xl2, Xr2} = LS2,
+ {Y, Xl1, Xr1, _Ca1} = LS1,
+ {_, Xl2, Xr2, _Ca2} = LS2,
Xr = lists:max([Xl1,Xr1,Xl2,Xr2]),
Xl = lists:min([Xl1,Xr1,Xl2,Xr2]),
- triangle_ls_lp(LSs1, LSs2, [{Y,Xl,Xr}|Out]).
+ triangle_ls_lp(LSs1,LSs2,[{Y,Xl,Xr}|Out]).
tri_pt_ysort(Pts) ->
% {X,Y}
@@ -414,9 +414,9 @@ tri_pt_ysort(Pts) ->
end, Pts).
tri_ls_ysort(LSs) ->
- % {Y, Xl, Xr}
+ % {Y, Xl, Xr, Ca}
lists:sort(
- fun ({Y1,_,_},{Y2,_,_}) ->
+ fun ({Y1,_,_,_},{Y2,_,_,_}) ->
if Y1 > Y2 -> false; true -> true end
end, LSs).
@@ -508,70 +508,14 @@ point_inside_triangle(P, P1, P2, P3) ->
linespans_to_map(Ls) ->
linespans_to_map(Ls,#{}).
-linespans_to_map([{Y,Xl,Xr}|Ls], M) ->
+linespans_to_map([{Y,Xl,Xr,C}|Ls], M) ->
case M of
- #{Y := Spans} -> linespans_to_map(Ls, M#{Y := [{Xl,Xr}|Spans]});
- _ -> linespans_to_map(Ls, M#{Y => [{Xl,Xr}]})
+ #{Y := Spans} -> linespans_to_map(Ls, M#{Y := [{Xl,Xr,C}|Spans]});
+ _ -> linespans_to_map(Ls, M#{Y => [{Xl,Xr,C}]})
end;
linespans_to_map([], M) ->
M.
-%% line_ls
-%% In:
-%% P1 :: point()
-%% P2 :: point()
-%% Out:
-%% {{Ymin,Ymax}, LSD :: line_step_data()}
-%% Purpose:
-%% Instead of points -> intervals
-
-
-line_ls({Xi0, Yi0},{Xi1,Yi1}) ->
- % swap X with Y if line is steep
- Steep = abs(Yi1 - Yi0) > abs(Xi1 - Xi0),
-
- {Xs0, Ys0, Xs1, Ys1} = case Steep of
- true -> {Yi0,Xi0,Yi1,Xi1};
- false -> {Xi0,Yi0,Xi1,Yi1}
- end,
-
- {X0,Y0,X1,Y1} = case Xs0 > Xs1 of
- true -> {Xs1,Ys1,Xs0,Ys0};
- false -> {Xs0,Ys0,Xs1,Ys1}
- end,
-
- DX = X1 - X0,
- DY = abs(Y1 - Y0),
-
- Error = -DX/2,
-
- Ystep = case Y0 < Y1 of
- true -> 1;
- false -> -1
- end,
- line_ls_step(X0, X1,Y0, DX, DY, Ystep, Error, X0, Steep, []).
-
-%% line_ls_step_(not)_steep
-%% In:
-%% Out:
-%% [{Yi, Xl,Xr}]
-%% Purpose:
-%% Produce an line_interval for each Yi (Y index)
-
-line_ls_step(X, X1, Y, Dx, Dy, Ys, E, X0, false = Steep, LSs) when X < X1, E >= 0 ->
- line_ls_step(X+1,X1,Y+Ys,Dx,Dy,Ys, E - Dx + Dy, X+1, Steep, [{Y,X0,X}|LSs]);
-line_ls_step(X, X1, Y, Dx, Dy, Ys, E, X0, false = Steep, LSs) when X < X1 ->
- line_ls_step(X+1,X1,Y,Dx,Dy,Ys, E + Dy, X0, Steep, LSs);
-line_ls_step(X, _X1, Y, _Dx, _Dy, _Ys, _E, X0, false, LSs) ->
- [{Y,X0,X}|LSs];
-line_ls_step(X, X1, Y, Dx, Dy, Ys, E, _X0, true = Steep, LSs) when X =< X1, E >= 0 ->
- line_ls_step(X+1,X1,Y+Ys,Dx,Dy,Ys, E - Dx + Dy, X, Steep, [{X,Y,Y}|LSs]);
-line_ls_step(X, X1, Y, Dx, Dy, Ys, E, X0, true = Steep, LSs) when X =< X1 ->
- line_ls_step(X+1,X1,Y,Dx,Dy,Ys,E + Dy, X0, Steep, [{X,Y,Y}|LSs]);
-line_ls_step(_X,_,_Y,_Dx,_Dy,_Ys,_E,_X0,_,LSs) ->
- LSs.
-
-
%% line_to_linespans
%% Anti-aliased thick line
@@ -592,9 +536,8 @@ line_to_linespans({X0,Y0},{X1,Y1},Wd) ->
line_to_ls(X0,Y0,X1,Y1,Dx,Dy,Sx,Sy,E0,Ed,(Wd+1)/2,[]).
line_to_ls(X0,Y0,X1,Y1,Dx,Dy,Sx,Sy,E,Ed,Wd,Ls0) ->
- %C = max(0, 255*(abs(E - Dx+Dy)/Ed - Wd + 1)),
- %Ls1 = [{ls,Y0,X0,C}|Ls0],
- Ls1 = [{Y0,X0,X0}|Ls0],
+ C = max(0, 255*(abs(E - Dx+Dy)/Ed - Wd + 1)),
+ Ls1 = [{Y0,X0,X0,C}|Ls0],
line_to_ls_sx(X0,Y0,X1,Y1,Dx,Dy,Sx,Sy,E,Ed,Wd,Ls1,E).
line_to_ls_sx(X0,Y0,X1,Y1,Dx,Dy,Sx,Sy,E,Ed,Wd,Ls,E2) when 2*E2 > -Dx ->
@@ -605,9 +548,8 @@ line_to_ls_sx(X0,Y0,X1,Y1,Dx,Dy,Sx,Sy,E,Ed,Wd,Ls,E2) ->
line_to_ls_sx_do(X0,Y0,X1,Y1,Dx,Dy,Sx,Sy,E,Ed,Wd,Ls0,E2,Y) when E2 < Ed*Wd andalso
(Y1 =/= Y orelse Dx > Dy) ->
Y2 = Y + Sy,
- %C = max(0,255*(abs(E2)/Ed-Wd+1)),
- %Ls = [{sx,Y2,X0,C}|Ls0],
- Ls = [{Y2,X0,X0}|Ls0],
+ C = max(0,255*(abs(E2)/Ed-Wd+1)),
+ Ls = [{Y2,X0,X0,C}|Ls0],
line_to_ls_sx_do(X0,Y0,X1,Y1,Dx,Dy,Sx,Sy,E,Ed,Wd,Ls,E2+Dx,Y2);
line_to_ls_sx_do(X0,_Y0,X1,_Y1,_Dx,_Dy,_Sx,_Sy,_E,_Ed,_Wd,Ls,_E2,_Y) when X0 =:= X1 ->
Ls;
@@ -622,14 +564,13 @@ line_to_ls_sy(X0,Y0,X1,Y1,Dx,Dy,Sx,Sy,E,Ed,Wd,Ls0,_E2,_X) ->
line_to_ls_sy_do(X0,Y0,X1,Y1,Dx,Dy,Sx,Sy,E,Ed,Wd,Ls0,E2,X) when E2 < Ed*Wd andalso
(X1 =/= X orelse Dx < Dy) ->
X2 = X + Sx,
- %C = max(0,255*(abs(E2)/Ed-Wd+1)),
- %Ls = [{sy,Y0,X2,C}|Ls0],
- Ls = [{Y0,X2,X2}|Ls0],
+ C = max(0,255*(abs(E2)/Ed-Wd+1)),
+ Ls = [{Y0,X2,X2,C}|Ls0],
line_to_ls_sy_do(X0,Y0,X1,Y1,Dx,Dy,Sx,Sy,E,Ed,Wd,Ls,E2+Dy,X2);
line_to_ls_sy_do(_X0,Y0,_X1,Y1,_Dx,_Dy,_Sx,_Sy,_E,_Ed,_Wd,Ls,_E2,_X) when Y0 =:= Y1 ->
Ls;
-line_to_ls_sy_do(X0,Y0,X1,Y1,Dx,Dy,Sx,Sy,E,Ed,Wd,Ls,_E2,_X) ->
- line_to_ls(X0,Y0+Sy,X1,Y1,Dx,Dy,Sx,Sy,E+Dx,Ed,Wd,Ls).
+line_to_ls_sy_do(X0,Y0,X1,Y1,Dx,Dy,Sx,Sy,E,Ed,Wd,Ls0,_E2,_X) ->
+ line_to_ls(X0,Y0+Sy,X1,Y1,Dx,Dy,Sx,Sy,E+Dx,Ed,Wd,Ls0).
% Text