diff --git a/src/game/g_gfx.pas b/src/game/g_gfx.pas
index 476f658d15175b28e911ee8b60e2dca69b6bcd0a..2a77c0310d554266aeebb5a50b1c852df7a48254 100644 (file)
--- a/src/game/g_gfx.pas
+++ b/src/game/g_gfx.pas
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
+ * the Free Software Foundation, version 3 of the License ONLY.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
procedure g_Mark (x, y, Width, Height: Integer; t: Byte; st: Boolean=true);
procedure g_GFX_Update ();
-procedure g_GFX_Draw ();
-
var
gpart_dbg_enabled: Boolean = true;
//WARNING: only for Holmes!
function awmIsSetHolmes (x, y: Integer): Boolean; inline;
+ type (* private state *)
+ TPartType = (Blood, Spark, Bubbles, Water);
+ TPartState = (Free, Normal, Stuck, Sleeping);
+ TFloorType = (Wall, LiquidIn, LiquidOut);
+ // Wall: floorY is just before floor
+ // LiquidIn: floorY is liquid *start* (i.e. just in a liquid)
+ // LiquidOut: floorY is liquid *end* (i.e. just out of a liquid)
+ TEnvType = (EAir, ELiquid, EWall); // where particle is now
+
+ // note: this MUST be record, so we can keep it in
+ // dynamic array and has sequential memory access pattern
+ PParticle = ^TParticle;
+ TParticle = record
+ x, y: Integer;
+ oldX, oldY: Integer;
+ velX, velY: Single;
+ accelX, accelY: Single;
+ state: TPartState;
+ particleType: TPartType;
+ red, green, blue: Byte;
+ alpha: Byte;
+ time, liveTime, waitTime: Word;
+ stickDX: Integer; // STATE_STICK: -1,1: stuck to a wall; 0: stuck to ceiling
+ justSticked: Boolean; // not used
+ floorY: Integer; // actually, floor-1; `Unknown`: unknown
+ floorType: TFloorType;
+ env: TEnvType; // where particle is now
+ ceilingY: Integer; // actually, ceiling+1; `Unknown`: unknown
+ wallEndY: Integer; // if we stuck to a wall, this is where wall ends
+
+ //k8: sorry, i have to emulate virtual methods this way, 'cause i haet `Object`
+ procedure thinkerBloodAndWater ();
+ procedure thinkerSpark ();
+ procedure thinkerBubble ();
+
+ procedure findFloor (force: Boolean=false); // this updates `floorY` if forced or Unknown
+ procedure findCeiling (force: Boolean=false); // this updates `ceilingY` if forced or Unknown
+
+ procedure freeze (); inline; // remove velocities and acceleration
+ procedure sleep (); inline; // switch to sleep mode
+
+ function checkAirStreams (): Boolean; // `true`: affected by air stream
+
+ function alive (): Boolean; inline;
+ procedure die (); inline;
+ procedure think (); inline;
+ end;
+
+ TOnceAnim = record
+ AnimType: Byte;
+ x, y: Integer;
+ oldX, oldY: Integer;
+ Animation: TAnimation;
+ end;
+
+ var (* private state *)
+ Particles: array of TParticle = nil;
+ OnceAnims: array of TOnceAnim = nil;
implementation
uses
- {$INCLUDE ../nogl/noGLuses.inc}
- g_map, g_panel, g_basic, Math, e_graphics,
+ g_map, g_panel, g_basic, Math,
g_options, g_console, SysUtils, g_triggers, MAPDEF,
g_game, g_language, g_net, utils, xprofiler;
const
Unknown = Integer($7fffffff);
-
-type
- TPartType = (Blood, Spark, Bubbles, Water);
- TPartState = (Free, Normal, Stuck, Sleeping);
- TFloorType = (Wall, LiquidIn, LiquidOut);
- // Wall: floorY is just before floor
- // LiquidIn: floorY is liquid *start* (i.e. just in a liquid)
- // LiquidOut: floorY is liquid *end* (i.e. just out of a liquid)
- TEnvType = (EAir, ELiquid, EWall); // where particle is now
-
- // note: this MUST be record, so we can keep it in
- // dynamic array and has sequential memory access pattern
- PParticle = ^TParticle;
- TParticle = record
- x, y: Integer;
- velX, velY: Single;
- accelX, accelY: Single;
- state: TPartState;
- particleType: TPartType;
- red, green, blue: Byte;
- alpha: Byte;
- time, liveTime, waitTime: Word;
- stickDX: Integer; // STATE_STICK: -1,1: stuck to a wall; 0: stuck to ceiling
- justSticked: Boolean; // not used
- floorY: Integer; // actually, floor-1; `Unknown`: unknown
- floorType: TFloorType;
- env: TEnvType; // where particle is now
- ceilingY: Integer; // actually, ceiling+1; `Unknown`: unknown
- wallEndY: Integer; // if we stuck to a wall, this is where wall ends
-
- //k8: sorry, i have to emulate virtual methods this way, 'cause i haet `Object`
- procedure thinkerBloodAndWater ();
- procedure thinkerSpark ();
- procedure thinkerBubble ();
-
- procedure findFloor (force: Boolean=false); // this updates `floorY` if forced or Unknown
- procedure findCeiling (force: Boolean=false); // this updates `ceilingY` if forced or Unknown
-
- procedure freeze (); inline; // remove velocities and acceleration
- procedure sleep (); inline; // switch to sleep mode
-
- function checkAirStreams (): Boolean; // `true`: affected by air stream
-
- function alive (): Boolean; inline;
- procedure die (); inline;
- procedure think (); inline;
- end;
-
- TOnceAnim = record
- AnimType: Byte;
- x, y: Integer;
- Animation: TAnimation;
- end;
-
-
var
- Particles: array of TParticle = nil;
- OnceAnims: array of TOnceAnim = nil;
MaxParticles: Integer = 0;
CurrentParticle: Integer = 0;
// awakeMap has one bit for each map grid cell; on g_Mark,
end;
begin
+ oldx := x;
+ oldy := y;
// awake sleeping particle, if necessary
if awakeDirty then
begin
begin
x := fX-devX1+Random(devX2);
y := fY-devY1+Random(devY2);
+ oldx := x;
+ oldy := y;
// check for level bounds
if (x < g_Map_MinX) or (y < g_Map_MinY) or (x > g_Map_MaxX) or (y > g_Map_MaxY) then continue;
accelY := 0.8;
end;
+ oldx := x;
+ oldy := y;
+
// check for level bounds
if (x < g_Map_MinX) or (y < g_Map_MinY) or (x > g_Map_MaxX) or (y > g_Map_MaxY) then continue;
begin
x := fX-devX1+Random(devX2);
y := fY-devY1+Random(devY2);
+ oldx := x;
+ oldy := y;
// check for level bounds
if (x < g_Map_MinX) or (y < g_Map_MinY) or (x > g_Map_MaxX) or (y > g_Map_MaxY) then continue;
begin
x := fX-devX1+Random(devX2);
y := fY-devY1+Random(devY2);
+ oldx := x;
+ oldy := y;
// check for level bounds
if (x < g_Map_MinX) or (y < g_Map_MinY) or (x > g_Map_MaxX) or (y > g_Map_MaxY) then continue;
begin
x := fX-devX1+Random(devX2);
y := fY-devY1+Random(devY2);
+ oldx := x;
+ oldy := y;
// check for level bounds
if (x < g_Map_MinX) or (y < g_Map_MinY) or (x > g_Map_MaxX) or (y > g_Map_MaxY) then continue;
for a := 0 to High(OnceAnims) do
if OnceAnims[a].Animation <> nil then
begin
+ OnceAnims[a].oldx := OnceAnims[a].x;
+ OnceAnims[a].oldy := OnceAnims[a].y;
+
case OnceAnims[a].AnimType of
ONCEANIM_SMOKE:
begin
end;
end;
-
-procedure g_GFX_Draw ();
- var
- a, len: Integer;
-{$IFDEF USE_NANOGL}
- type
- Vertex = record
- x, y: GLfloat;
- r, g, b, a: GLfloat;
- end;
- var
- count: Integer;
- v: array of Vertex;
-{$ENDIF}
-begin
- if not gpart_dbg_enabled then exit;
-
- if (Particles <> nil) then
- begin
- glDisable(GL_TEXTURE_2D);
- if (g_dbg_scale < 0.6) then glPointSize(1)
- else if (g_dbg_scale > 1.3) then glPointSize(g_dbg_scale+1)
- else glPointSize(2);
- glDisable(GL_POINT_SMOOTH);
-
- glEnable(GL_BLEND);
- glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
-
-{$IFDEF USE_NANOGL}
- count := 0;
- SetLength(v, Length(Particles));
- for a := 0 to High(Particles) do
- begin
- with Particles[a] do
- begin
- if alive and (x >= sX) and (y >= sY) and (x <= sX + sWidth) and (sY <= sY + sHeight) then
- begin
- v[count].x := x + 0.37;
- v[count].y := y + 0.37;
- v[count].r := red / 255;
- v[count].g := green / 255;
- v[count].b := blue / 255;
- v[count].a := alpha / 255;
- Inc(count);
- end;
- end;
- end;
-
- glVertexPointer(2, GL_FLOAT, SizeOf(Vertex), @v[0].x);
- glColorPointer(4, GL_FLOAT, SizeOf(Vertex), @v[0].r);
- glEnableClientState(GL_VERTEX_ARRAY);
- glEnableClientState(GL_COLOR_ARRAY);
- glDisableClientState(GL_NORMAL_ARRAY);
- glDisableClientState(GL_TEXTURE_COORD_ARRAY);
- glDrawArrays(GL_POINTS, 0, count);
-{$ELSE}
- glBegin(GL_POINTS);
-
- len := High(Particles);
- for a := 0 to len do
- begin
- with Particles[a] do
- begin
- if not alive then continue;
- if (x >= sX) and (y >= sY) and (x <= sX+sWidth) and (sY <= sY+sHeight) then
- begin
- glColor4ub(red, green, blue, alpha);
- glVertex2f(x+0.37, y+0.37);
- end;
- end;
- end;
-
- glEnd();
-{$ENDIF}
-
- glDisable(GL_BLEND);
- end;
-
- if (OnceAnims <> nil) then
- begin
- len := High(OnceAnims);
- for a := 0 to len do
- begin
- if (OnceAnims[a].Animation <> nil) then
- begin
- with OnceAnims[a] do Animation.Draw(x, y, TMirrorType.None);
- end;
- end;
- end;
-end;
-
-
end.