(*
* Hedgewars, a free turn based strategy game
* Copyright (c) 2004-2014 Andrey Korotaev <unC0Rr@gmail.com>
*
* 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; version 2 of the License
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
*)
{$INCLUDE "options.inc"}
unit uRender;
interface
uses SDLh, uTypes, GLunit, uConsts;
procedure DrawSprite (Sprite: TSprite; X, Y, Frame: LongInt);
procedure DrawSprite (Sprite: TSprite; X, Y, FrameX, FrameY: LongInt);
procedure DrawSpriteFromRect (Sprite: TSprite; r: TSDL_Rect; X, Y, Height, Position: LongInt); inline;
procedure DrawSpriteClipped (Sprite: TSprite; X, Y, TopY, RightX, BottomY, LeftX: LongInt);
procedure DrawSpriteRotated (Sprite: TSprite; X, Y, Dir: LongInt; Angle: real);
procedure DrawSpriteRotatedF (Sprite: TSprite; X, Y, Frame, Dir: LongInt; Angle: real);
procedure DrawTexture (X, Y: LongInt; Texture: PTexture); inline;
procedure DrawTexture (X, Y: LongInt; Texture: PTexture; Scale: GLfloat);
procedure DrawTexture2 (X, Y: LongInt; Texture: PTexture; Scale, Overlap: GLfloat);
procedure DrawTextureFromRect (X, Y: LongInt; r: PSDL_Rect; SourceTexture: PTexture); inline;
procedure DrawTextureFromRect (X, Y, W, H: LongInt; r: PSDL_Rect; SourceTexture: PTexture); inline;
procedure DrawTextureFromRectDir(X, Y, W, H: LongInt; r: PSDL_Rect; SourceTexture: PTexture; Dir: LongInt);
procedure DrawTextureCentered (X, Top: LongInt; Source: PTexture);
procedure DrawTextureF (Texture: PTexture; Scale: GLfloat; X, Y, Frame, Dir, w, h: LongInt);
procedure DrawTextureRotated (Texture: PTexture; hw, hh, X, Y, Dir: LongInt; Angle: real);
procedure DrawTextureRotatedF (Texture: PTexture; Scale, OffsetX, OffsetY: GLfloat; X, Y, Frame, Dir, w, h: LongInt; Angle: real);
procedure DrawCircle (X, Y, Radius, Width: LongInt);
procedure DrawCircle (X, Y, Radius, Width: LongInt; r, g, b, a: Byte);
procedure DrawLine (X0, Y0, X1, Y1, Width: Single; color: LongWord); inline;
procedure DrawLine (X0, Y0, X1, Y1, Width: Single; r, g, b, a: Byte);
procedure DrawFillRect (r: TSDL_Rect);
procedure DrawHedgehog (X, Y: LongInt; Dir: LongInt; Pos, Step: LongWord; Angle: real);
procedure DrawScreenWidget (widget: POnScreenWidget);
procedure Tint (r, g, b, a: Byte); inline;
procedure Tint (c: Longword); inline;
procedure untint(); inline;
procedure setTintAdd (f: boolean); inline;
implementation
uses uVariables;
{$IFDEF USE_TOUCH_INTERFACE}
const
FADE_ANIM_TIME = 500;
MOVE_ANIM_TIME = 500;
{$ENDIF}
var LastTint: LongWord = 0;
procedure DrawSpriteFromRect(Sprite: TSprite; r: TSDL_Rect; X, Y, Height, Position: LongInt); inline;
begin
r.y:= r.y + Height * Position;
r.h:= Height;
DrawTextureFromRect(X, Y, @r, SpritesData[Sprite].Texture)
end;
procedure DrawTextureFromRect(X, Y: LongInt; r: PSDL_Rect; SourceTexture: PTexture); inline;
begin
DrawTextureFromRectDir(X, Y, r^.w, r^.h, r, SourceTexture, 1)
end;
procedure DrawTextureFromRect(X, Y, W, H: LongInt; r: PSDL_Rect; SourceTexture: PTexture); inline;
begin
DrawTextureFromRectDir(X, Y, W, H, r, SourceTexture, 1)
end;
procedure DrawTextureFromRectDir(X, Y, W, H: LongInt; r: PSDL_Rect; SourceTexture: PTexture; Dir: LongInt);
var rr: TSDL_Rect;
_l, _r, _t, _b: real;
VertexBuffer, TextureBuffer: array [0..3] of TVertex2f;
begin
if (SourceTexture^.h = 0) or (SourceTexture^.w = 0) then
exit;
// do not draw anything outside the visible screen space (first check fixes some sprite drawing, e.g. hedgehogs)
if (abs(X) > W) and ((abs(X + W / 2) - W / 2) > cScreenWidth / cScaleFactor) then
exit;
if (abs(Y) > H) and ((abs(Y + H / 2 - (0.5 * cScreenHeight)) - H / 2) > cScreenHeight / cScaleFactor) then
exit;
rr.x:= X;
rr.y:= Y;
rr.w:= W;
rr.h:= H;
_l:= r^.x / SourceTexture^.w * SourceTexture^.rx;
_r:= (r^.x + r^.w) / SourceTexture^.w * SourceTexture^.rx;
_t:= r^.y / SourceTexture^.h * SourceTexture^.ry;
_b:= (r^.y + r^.h) / SourceTexture^.h * SourceTexture^.ry;
glBindTexture(GL_TEXTURE_2D, SourceTexture^.id);
if Dir < 0 then
begin
VertexBuffer[0].X:= X + rr.w/2;
VertexBuffer[0].Y:= Y;
VertexBuffer[1].X:= X - rr.w/2;
VertexBuffer[1].Y:= Y;
VertexBuffer[2].X:= X - rr.w/2;
VertexBuffer[2].Y:= rr.h + Y;
VertexBuffer[3].X:= X + rr.w/2;
VertexBuffer[3].Y:= rr.h + Y;
end
else
begin
VertexBuffer[0].X:= X;
VertexBuffer[0].Y:= Y;
VertexBuffer[1].X:= rr.w + X;
VertexBuffer[1].Y:= Y;
VertexBuffer[2].X:= rr.w + X;
VertexBuffer[2].Y:= rr.h + Y;
VertexBuffer[3].X:= X;
VertexBuffer[3].Y:= rr.h + Y;
end;
TextureBuffer[0].X:= _l;
TextureBuffer[0].Y:= _t;
TextureBuffer[1].X:= _r;
TextureBuffer[1].Y:= _t;
TextureBuffer[2].X:= _r;
TextureBuffer[2].Y:= _b;
TextureBuffer[3].X:= _l;
TextureBuffer[3].Y:= _b;
glVertexPointer(2, GL_FLOAT, 0, @VertexBuffer[0]);
glTexCoordPointer(2, GL_FLOAT, 0, @TextureBuffer[0]);
glDrawArrays(GL_TRIANGLE_FAN, 0, Length(VertexBuffer));
end;
procedure DrawTexture(X, Y: LongInt; Texture: PTexture); inline;
begin
DrawTexture(X, Y, Texture, 1.0);
end;
procedure DrawTexture(X, Y: LongInt; Texture: PTexture; Scale: GLfloat);
begin
glPushMatrix;
glTranslatef(X, Y, 0);
glScalef(Scale, Scale, 1);
glBindTexture(GL_TEXTURE_2D, Texture^.id);
glVertexPointer(2, GL_FLOAT, 0, @Texture^.vb);
glTexCoordPointer(2, GL_FLOAT, 0, @Texture^.tb);
glDrawArrays(GL_TRIANGLE_FAN, 0, Length(Texture^.vb));
glPopMatrix
end;
{ this contains tweaks in order to avoid land tile borders in blurry land mode }
procedure DrawTexture2(X, Y: LongInt; Texture: PTexture; Scale, Overlap: GLfloat);
var
TextureBuffer: array [0..3] of TVertex2f;
begin
glPushMatrix();
glTranslatef(X, Y, 0);
glScalef(Scale, Scale, 1);
glBindTexture(GL_TEXTURE_2D, Texture^.id);
TextureBuffer[0].X:= Texture^.tb[0].X + Overlap;
TextureBuffer[0].Y:= Texture^.tb[0].Y + Overlap;
TextureBuffer[1].X:= Texture^.tb[1].X - Overlap;
TextureBuffer[1].Y:= Texture^.tb[1].Y + Overlap;
TextureBuffer[2].X:= Texture^.tb[2].X - Overlap;
TextureBuffer[2].Y:= Texture^.tb[2].Y - Overlap;
TextureBuffer[3].X:= Texture^.tb[3].X + Overlap;
TextureBuffer[3].Y:= Texture^.tb[3].Y - Overlap;
glVertexPointer(2, GL_FLOAT, 0, @Texture^.vb);
glTexCoordPointer(2, GL_FLOAT, 0, @TextureBuffer);
glDrawArrays(GL_TRIANGLE_FAN, 0, Length(Texture^.vb));
glPopMatrix();
end;
procedure DrawTextureF(Texture: PTexture; Scale: GLfloat; X, Y, Frame, Dir, w, h: LongInt);
begin
DrawTextureRotatedF(Texture, Scale, 0, 0, X, Y, Frame, Dir, w, h, 0)
end;
procedure DrawTextureRotatedF(Texture: PTexture; Scale, OffsetX, OffsetY: GLfloat; X, Y, Frame, Dir, w, h: LongInt; Angle: real);
var ft, fb, fl, fr: GLfloat;
hw, nx, ny: LongInt;
VertexBuffer, TextureBuffer: array [0..3] of TVertex2f;
begin
// do not draw anything outside the visible screen space (first check fixes some sprite drawing, e.g. hedgehogs)
if (abs(X) > W) and ((abs(X + dir * OffsetX) - W / 2) * cScaleFactor > cScreenWidth) then
exit;
if (abs(Y) > H) and ((abs(Y + OffsetY - (0.5 * cScreenHeight)) - W / 2) * cScaleFactor > cScreenHeight) then
exit;
glPushMatrix;
glTranslatef(X, Y, 0);
if Dir = 0 then Dir:= 1;
glRotatef(Angle, 0, 0, Dir);
glTranslatef(Dir*OffsetX, OffsetY, 0);
glScalef(Scale, Scale, 1);
// Any reason for this call? And why only in t direction, not s?
//glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
hw:= w div (2 div Dir);
nx:= round(Texture^.w / w); // number of horizontal frames
ny:= round(Texture^.h / h); // number of vertical frames
ft:= (Frame mod ny) * Texture^.ry / ny;
fb:= ((Frame mod ny) + 1) * Texture^.ry / ny;
fl:= (Frame div ny) * Texture^.rx / nx;
fr:= ((Frame div ny) + 1) * Texture^.rx / nx;
glBindTexture(GL_TEXTURE_2D, Texture^.id);
VertexBuffer[0].X:= -hw;
VertexBuffer[0].Y:= w / -2;
VertexBuffer[1].X:= hw;
VertexBuffer[1].Y:= w / -2;
VertexBuffer[2].X:= hw;
VertexBuffer[2].Y:= w / 2;
VertexBuffer[3].X:= -hw;
VertexBuffer[3].Y:= w / 2;
TextureBuffer[0].X:= fl;
TextureBuffer[0].Y:= ft;
TextureBuffer[1].X:= fr;
TextureBuffer[1].Y:= ft;
TextureBuffer[2].X:= fr;
TextureBuffer[2].Y:= fb;
TextureBuffer[3].X:= fl;
TextureBuffer[3].Y:= fb;
glVertexPointer(2, GL_FLOAT, 0, @VertexBuffer[0]);
glTexCoordPointer(2, GL_FLOAT, 0, @TextureBuffer[0]);
glDrawArrays(GL_TRIANGLE_FAN, 0, Length(VertexBuffer));
glPopMatrix
end;
procedure DrawSpriteRotated(Sprite: TSprite; X, Y, Dir: LongInt; Angle: real);
begin
DrawTextureRotated(SpritesData[Sprite].Texture,
SpritesData[Sprite].Width,
SpritesData[Sprite].Height,
X, Y, Dir, Angle)
end;
procedure DrawSpriteRotatedF(Sprite: TSprite; X, Y, Frame, Dir: LongInt; Angle: real);
begin
glPushMatrix;
glTranslatef(X, Y, 0);
if Dir < 0 then
glRotatef(Angle, 0, 0, -1)
else
glRotatef(Angle, 0, 0, 1);
if Dir < 0 then
glScalef(-1.0, 1.0, 1.0);
DrawSprite(Sprite, -SpritesData[Sprite].Width div 2, -SpritesData[Sprite].Height div 2, Frame);
glPopMatrix
end;
procedure DrawTextureRotated(Texture: PTexture; hw, hh, X, Y, Dir: LongInt; Angle: real);
var VertexBuffer: array [0..3] of TVertex2f;
begin
// do not draw anything outside the visible screen space (first check fixes some sprite drawing, e.g. hedgehogs)
if (abs(X) > 2 * hw) and ((abs(X) - hw) > cScreenWidth / cScaleFactor) then
exit;
if (abs(Y) > 2 * hh) and ((abs(Y - 0.5 * cScreenHeight) - hh) > cScreenHeight / cScaleFactor) then
exit;
glPushMatrix;
glTranslatef(X, Y, 0);
if Dir < 0 then
begin
hw:= - hw;
glRotatef(Angle, 0, 0, -1);
end
else
glRotatef(Angle, 0, 0, 1);
glBindTexture(GL_TEXTURE_2D, Texture^.id);
VertexBuffer[0].X:= -hw;
VertexBuffer[0].Y:= -hh;
VertexBuffer[1].X:= hw;
VertexBuffer[1].Y:= -hh;
VertexBuffer[2].X:= hw;
VertexBuffer[2].Y:= hh;
VertexBuffer[3].X:= -hw;
VertexBuffer[3].Y:= hh;
glVertexPointer(2, GL_FLOAT, 0, @VertexBuffer[0]);
glTexCoordPointer(2, GL_FLOAT, 0, @Texture^.tb);
glDrawArrays(GL_TRIANGLE_FAN, 0, Length(VertexBuffer));
glPopMatrix
end;
procedure DrawSprite(Sprite: TSprite; X, Y, Frame: LongInt);
var row, col, numFramesFirstCol: LongInt;
begin
if SpritesData[Sprite].imageHeight = 0 then
exit;
numFramesFirstCol:= SpritesData[Sprite].imageHeight div SpritesData[Sprite].Height;
row:= Frame mod numFramesFirstCol;
col:= Frame div numFramesFirstCol;
DrawSprite(Sprite, X, Y, col, row);
end;
procedure DrawSprite(Sprite: TSprite; X, Y, FrameX, FrameY: LongInt);
var r: TSDL_Rect;
begin
r.x:= FrameX * SpritesData[Sprite].Width;
r.w:= SpritesData[Sprite].Width;
r.y:= FrameY * SpritesData[Sprite].Height;
r.h:= SpritesData[Sprite].Height;
DrawTextureFromRect(X, Y, @r, SpritesData[Sprite].Texture)
end;
procedure DrawSpriteClipped(Sprite: TSprite; X, Y, TopY, RightX, BottomY, LeftX: LongInt);
var r: TSDL_Rect;
begin
r.x:= 0;
r.y:= 0;
r.w:= SpritesData[Sprite].Width;
r.h:= SpritesData[Sprite].Height;
if (X < LeftX) then
r.x:= LeftX - X;
if (Y < TopY) then
r.y:= TopY - Y;
if (Y + SpritesData[Sprite].Height > BottomY) then
r.h:= BottomY - Y + 1;
if (X + SpritesData[Sprite].Width > RightX) then
r.w:= RightX - X + 1;
if (r.h < r.y) or (r.w < r.x) then
exit;
dec(r.h, r.y);
dec(r.w, r.x);
DrawTextureFromRect(X + r.x, Y + r.y, @r, SpritesData[Sprite].Texture)
end;
procedure DrawTextureCentered(X, Top: LongInt; Source: PTexture);
var scale: GLfloat;
begin
if (Source^.w + 20) > cScreenWidth then
scale:= cScreenWidth / (Source^.w + 20)
else
scale:= 1.0;
DrawTexture(X - round(Source^.w * scale) div 2, Top, Source, scale)
end;
procedure DrawLine(X0, Y0, X1, Y1, Width: Single; color: LongWord); inline;
begin
DrawLine(X0, Y0, X1, Y1, Width, (color shr 24) and $FF, (color shr 16) and $FF, (color shr 8) and $FF, color and $FF)
end;
procedure DrawLine(X0, Y0, X1, Y1, Width: Single; r, g, b, a: Byte);
var VertexBuffer: array [0..1] of TVertex2f;
begin
glDisable(GL_TEXTURE_2D);
glEnable(GL_LINE_SMOOTH);
glPushMatrix;
glTranslatef(WorldDx, WorldDy, 0);
glLineWidth(Width);
Tint(r, g, b, a);
VertexBuffer[0].X:= X0;
VertexBuffer[0].Y:= Y0;
VertexBuffer[1].X:= X1;
VertexBuffer[1].Y:= Y1;
glVertexPointer(2, GL_FLOAT, 0, @VertexBuffer[0]);
glDrawArrays(GL_LINES, 0, Length(VertexBuffer));
untint;
glPopMatrix;
glEnable(GL_TEXTURE_2D);
glDisable(GL_LINE_SMOOTH);
end;
procedure DrawFillRect(r: TSDL_Rect);
var VertexBuffer: array [0..3] of TVertex2f;
begin
// do not draw anything outside the visible screen space (first check fixes some sprite drawing, e.g. hedgehogs)
if (abs(r.x) > r.w) and ((abs(r.x + r.w / 2) - r.w / 2) * cScaleFactor > cScreenWidth) then
exit;
if (abs(r.y) > r.h) and ((abs(r.y + r.h / 2 - (0.5 * cScreenHeight)) - r.h / 2) * cScaleFactor > cScreenHeight) then
exit;
glDisable(GL_TEXTURE_2D);
Tint($00, $00, $00, $80);
VertexBuffer[0].X:= r.x;
VertexBuffer[0].Y:= r.y;
VertexBuffer[1].X:= r.x + r.w;
VertexBuffer[1].Y:= r.y;
VertexBuffer[2].X:= r.x + r.w;
VertexBuffer[2].Y:= r.y + r.h;
VertexBuffer[3].X:= r.x;
VertexBuffer[3].Y:= r.y + r.h;
glVertexPointer(2, GL_FLOAT, 0, @VertexBuffer[0]);
glDrawArrays(GL_TRIANGLE_FAN, 0, Length(VertexBuffer));
untint;
glEnable(GL_TEXTURE_2D)
end;
procedure DrawCircle(X, Y, Radius, Width: LongInt; r, g, b, a: Byte);
begin
Tint(r, g, b, a);
DrawCircle(X, Y, Radius, Width);
untint;
end;
procedure DrawCircle(X, Y, Radius, Width: LongInt);
var
i: LongInt;
CircleVertex: array [0..59] of TVertex2f;
begin
for i := 0 to 59 do begin
CircleVertex[i].X := X + Radius*cos(i*pi/30);
CircleVertex[i].Y := Y + Radius*sin(i*pi/30);
end;
glDisable(GL_TEXTURE_2D);
glEnable(GL_LINE_SMOOTH);
glPushMatrix;
glLineWidth(Width);
glVertexPointer(2, GL_FLOAT, 0, @CircleVertex[0]);
glDrawArrays(GL_LINE_LOOP, 0, 60);
glPopMatrix;
glEnable(GL_TEXTURE_2D);
glDisable(GL_LINE_SMOOTH);
end;
procedure DrawHedgehog(X, Y: LongInt; Dir: LongInt; Pos, Step: LongWord; Angle: real);
const VertexBuffer: array [0..3] of TVertex2f = (
(X: -16; Y: -16),
(X: 16; Y: -16),
(X: 16; Y: 16),
(X: -16; Y: 16));
var l, r, t, b: real;
TextureBuffer: array [0..3] of TVertex2f;
begin
// do not draw anything outside the visible screen space (first check fixes some sprite drawing, e.g. hedgehogs)
if (abs(X) > 32) and ((abs(X) - 16) * cScaleFactor > cScreenWidth) then
exit;
if (abs(Y) > 32) and ((abs(Y - 0.5 * cScreenHeight) - 16) * cScaleFactor > cScreenHeight) then
exit;
t:= Pos * 32 / HHTexture^.h;
b:= (Pos + 1) * 32 / HHTexture^.h;
if Dir = -1 then
begin
l:= (Step + 1) * 32 / HHTexture^.w;
r:= Step * 32 / HHTexture^.w
end
else
begin
l:= Step * 32 / HHTexture^.w;
r:= (Step + 1) * 32 / HHTexture^.w
end;
glPushMatrix();
glTranslatef(X, Y, 0);
glRotatef(Angle, 0, 0, 1);
glBindTexture(GL_TEXTURE_2D, HHTexture^.id);
TextureBuffer[0].X:= l;
TextureBuffer[0].Y:= t;
TextureBuffer[1].X:= r;
TextureBuffer[1].Y:= t;
TextureBuffer[2].X:= r;
TextureBuffer[2].Y:= b;
TextureBuffer[3].X:= l;
TextureBuffer[3].Y:= b;
glVertexPointer(2, GL_FLOAT, 0, @VertexBuffer[0]);
glTexCoordPointer(2, GL_FLOAT, 0, @TextureBuffer[0]);
glDrawArrays(GL_TRIANGLE_FAN, 0, Length(VertexBuffer));
glPopMatrix
end;
procedure DrawScreenWidget(widget: POnScreenWidget);
{$IFDEF USE_TOUCH_INTERFACE}
var alpha: byte = $FF;
begin
with widget^ do
begin
if (fadeAnimStart <> 0) then
begin
if RealTicks > (fadeAnimStart + FADE_ANIM_TIME) then
fadeAnimStart:= 0
else
if show then
alpha:= Byte(trunc((RealTicks - fadeAnimStart)/FADE_ANIM_TIME * $FF))
else
alpha:= Byte($FF - trunc((RealTicks - fadeAnimStart)/FADE_ANIM_TIME * $FF));
end;
with moveAnim do
if animate then
if RealTicks > (startTime + MOVE_ANIM_TIME) then
begin
startTime:= 0;
animate:= false;
frame.x:= target.x;
frame.y:= target.y;
active.x:= active.x + (target.x - source.x);
active.y:= active.y + (target.y - source.y);
end
else
begin
frame.x:= source.x + Round((target.x - source.x) * ((RealTicks - startTime) / MOVE_ANIM_TIME));
frame.y:= source.y + Round((target.y - source.y) * ((RealTicks - startTime) / MOVE_ANIM_TIME));
end;
if show or (fadeAnimStart <> 0) then
begin
Tint($FF, $FF, $FF, alpha);
DrawTexture(frame.x, frame.y, spritesData[sprite].Texture, buttonScale);
untint;
end;
end;
{$ELSE}
begin
widget:= widget; // avoid hint
{$ENDIF}
end;
procedure Tint(r, g, b, a: Byte); inline;
var nc, tw: Longword;
begin
nc:= (r shl 24) or (g shl 16) or (b shl 8) or a;
if nc = lastTint then
exit;
if GrayScale then
begin
tw:= round(r * RGB_LUMINANCE_RED + g * RGB_LUMINANCE_GREEN + b * RGB_LUMINANCE_BLUE);
if tw > 255 then
tw:= 255;
r:= tw;
g:= tw;
b:= tw
end;
glColor4ub(r, g, b, a);
lastTint:= nc;
end;
procedure Tint(c: Longword); inline;
begin
if c = lastTint then exit;
Tint(((c shr 24) and $FF), ((c shr 16) and $FF), (c shr 8) and $FF, (c and $FF))
end;
procedure untint(); inline;
begin
Tint($FF, $FF, $FF, $FF)
end;
procedure setTintAdd(f: boolean); inline;
begin
if f then
glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_ADD)
else
glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE);
end;
end.