hedgewars/uMatrix.pas
author nemo
Wed, 14 Mar 2018 11:36:43 -0400
changeset 13206 25502e6b3e08
parent 11802 d9d48143dcbe
child 13504 c41b16ac2e05
permissions -rw-r--r--
While the intent was good, saving column width/sort was unfortunately not handling the addition of new columns and old configs were losing columns. If this is restored, it should have some check on column with invalidation of config.

(*
 * Hedgewars, a free turn based strategy game
 * Copyright (c) 2004-2012 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., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
 *)

{$INCLUDE "options.inc"}

unit uMatrix;

interface

uses uTypes {$IFNDEF PAS2C}, gl{$ENDIF};

const
    MATRIX_MODELVIEW:Integer = 0;
    MATRIX_PROJECTION:Integer = 1;

procedure MatrixLoadIdentity(out Result: TMatrix4x4f);
procedure MatrixMultiply(out Result: TMatrix4x4f; const lhs, rhs: TMatrix4x4f);

procedure hglMatrixMode(t: Integer);
procedure hglLoadIdentity();
procedure hglPushMatrix();
procedure hglPopMatrix();
procedure hglMVP(var res : TMatrix4x4f);
procedure hglScalef(x: GLfloat; y: GLfloat; z: GLfloat);
procedure hglTranslatef(x: GLfloat; y: GLfloat; z: GLfloat);
procedure hglRotatef(a:GLfloat; x:GLfloat; y:GLfloat; z:GLfloat);
procedure initModule();
procedure freeModule();

implementation

uses uDebug;

const
    MATRIX_STACK_SIZE = 10;

type
    TMatrixStack = record
        top:Integer;
        stack: array[0..9] of TMatrix4x4f;
        end;
var
    MatrixStacks : array[0..1] of TMatrixStack;
    CurMatrix: integer;

procedure MatrixLoadIdentity(out Result: TMatrix4x4f);
begin
    Result[0,0]:= 1.0; Result[1,0]:=0.0; Result[2,0]:=0.0; Result[3,0]:=0.0;
    Result[0,1]:= 0.0; Result[1,1]:=1.0; Result[2,1]:=0.0; Result[3,1]:=0.0;
    Result[0,2]:= 0.0; Result[1,2]:=0.0; Result[2,2]:=1.0; Result[3,2]:=0.0;
    Result[0,3]:= 0.0; Result[1,3]:=0.0; Result[2,3]:=0.0; Result[3,3]:=1.0;
end;

procedure hglMatrixMode(t: Integer);
begin
    CurMatrix := t;
end;

procedure hglLoadIdentity();
begin
    MatrixLoadIdentity(MatrixStacks[CurMatrix].stack[MatrixStacks[CurMatrix].top]);
end;

procedure hglScalef(x: GLfloat; y: GLfloat; z: GLfloat);
var
    m:TMatrix4x4f;
    t:TMatrix4x4f;
begin
    m[0,0]:=x;m[1,0]:=0;m[2,0]:=0;m[3,0]:=0;
    m[0,1]:=0;m[1,1]:=y;m[2,1]:=0;m[3,1]:=0;
    m[0,2]:=0;m[1,2]:=0;m[2,2]:=z;m[3,2]:=0;
    m[0,3]:=0;m[1,3]:=0;m[2,3]:=0;m[3,3]:=1;

    MatrixMultiply(t, MatrixStacks[CurMatrix].stack[MatrixStacks[CurMatrix].top], m);
    MatrixStacks[CurMatrix].stack[MatrixStacks[CurMatrix].top] := t;
end;

procedure hglTranslatef(x: GLfloat; y: GLfloat; z: GLfloat);
var
    m:TMatrix4x4f;
    t:TMatrix4x4f;
begin
    m[0,0]:=1;m[1,0]:=0;m[2,0]:=0;m[3,0]:=x;
    m[0,1]:=0;m[1,1]:=1;m[2,1]:=0;m[3,1]:=y;
    m[0,2]:=0;m[1,2]:=0;m[2,2]:=1;m[3,2]:=z;
    m[0,3]:=0;m[1,3]:=0;m[2,3]:=0;m[3,3]:=1;

    MatrixMultiply(t, MatrixStacks[CurMatrix].stack[MatrixStacks[CurMatrix].top], m);
    MatrixStacks[CurMatrix].stack[MatrixStacks[CurMatrix].top] := t;
end;

procedure hglRotatef(a:GLfloat; x:GLfloat; y:GLfloat; z:GLfloat);
var
    m:TMatrix4x4f;
    t:TMatrix4x4f;
    c:GLfloat;
    s:GLfloat;
    xn, yn, zn:GLfloat;
    l:GLfloat;
begin
    a:=a * 3.14159265368 / 180;
    c:=cos(a);
    s:=sin(a);

    l := 1.0 / sqrt(x * x + y * y + z * z);
    xn := x * l;
    yn := y * l;
    zn := z * l;

    m[0,0]:=c + xn * xn * (1 - c);
    m[1,0]:=xn * yn * (1 - c) - zn * s;
    m[2,0]:=xn * zn * (1 - c) + yn * s;
    m[3,0]:=0;


    m[0,1]:=yn * xn * (1 - c) + zn * s;
    m[1,1]:=c + yn * yn * (1 - c);
    m[2,1]:=yn * zn * (1 - c) - xn * s;
    m[3,1]:=0;

    m[0,2]:=zn * xn * (1 - c) - yn * s;
    m[1,2]:=zn * yn * (1 - c) + xn * s;
    m[2,2]:=c + zn * zn * (1 - c);
    m[3,2]:=0;

    m[0,3]:=0;m[1,3]:=0;m[2,3]:=0;m[3,3]:=1;

    MatrixMultiply(t, MatrixStacks[CurMatrix].stack[MatrixStacks[CurMatrix].top], m);
    MatrixStacks[CurMatrix].stack[MatrixStacks[CurMatrix].top] := t;
end;

procedure hglMVP(var res: TMatrix4x4f);
begin
    MatrixMultiply(res,
                   MatrixStacks[MATRIX_PROJECTION].stack[MatrixStacks[MATRIX_PROJECTION].top],
                   MatrixStacks[MATRIX_MODELVIEW].stack[MatrixStacks[MATRIX_MODELVIEW].top]);
end;

procedure hglPushMatrix();
var
    t: Integer;
begin
    t := MatrixStacks[CurMatrix].top;
    MatrixStacks[CurMatrix].stack[t + 1] := MatrixStacks[CurMatrix].stack[t];
    inc(t);
    MatrixStacks[CurMatrix].top := t;
end;

procedure hglPopMatrix();
var
    t: Integer;
begin
    t := MatrixStacks[CurMatrix].top;
    dec(t);
    MatrixStacks[CurMatrix].top := t;
end;

procedure initModule();
begin
    MatrixStacks[MATRIX_MODELVIEW].top := 0;
    MatrixStacks[MATRIX_Projection].top := 0;
    MatrixLoadIdentity(MatrixStacks[MATRIX_MODELVIEW].stack[0]);
    MatrixLoadIdentity(MatrixStacks[MATRIX_PROJECTION].stack[0]);
end;

procedure freeModule();
begin
end;

procedure MatrixMultiply(out Result: TMatrix4x4f; const lhs, rhs: TMatrix4x4f);
var
    test: TMatrix4x4f;
    i, j: Integer;
    error: boolean;
begin
    Result[0,0]:=lhs[0,0]*rhs[0,0] + lhs[1,0]*rhs[0,1] + lhs[2,0]*rhs[0,2] + lhs[3,0]*rhs[0,3];
    Result[0,1]:=lhs[0,1]*rhs[0,0] + lhs[1,1]*rhs[0,1] + lhs[2,1]*rhs[0,2] + lhs[3,1]*rhs[0,3];
    Result[0,2]:=lhs[0,2]*rhs[0,0] + lhs[1,2]*rhs[0,1] + lhs[2,2]*rhs[0,2] + lhs[3,2]*rhs[0,3];
    Result[0,3]:=lhs[0,3]*rhs[0,0] + lhs[1,3]*rhs[0,1] + lhs[2,3]*rhs[0,2] + lhs[3,3]*rhs[0,3];

    Result[1,0]:=lhs[0,0]*rhs[1,0] + lhs[1,0]*rhs[1,1] + lhs[2,0]*rhs[1,2] + lhs[3,0]*rhs[1,3];
    Result[1,1]:=lhs[0,1]*rhs[1,0] + lhs[1,1]*rhs[1,1] + lhs[2,1]*rhs[1,2] + lhs[3,1]*rhs[1,3];
    Result[1,2]:=lhs[0,2]*rhs[1,0] + lhs[1,2]*rhs[1,1] + lhs[2,2]*rhs[1,2] + lhs[3,2]*rhs[1,3];
    Result[1,3]:=lhs[0,3]*rhs[1,0] + lhs[1,3]*rhs[1,1] + lhs[2,3]*rhs[1,2] + lhs[3,3]*rhs[1,3];

    Result[2,0]:=lhs[0,0]*rhs[2,0] + lhs[1,0]*rhs[2,1] + lhs[2,0]*rhs[2,2] + lhs[3,0]*rhs[2,3];
    Result[2,1]:=lhs[0,1]*rhs[2,0] + lhs[1,1]*rhs[2,1] + lhs[2,1]*rhs[2,2] + lhs[3,1]*rhs[2,3];
    Result[2,2]:=lhs[0,2]*rhs[2,0] + lhs[1,2]*rhs[2,1] + lhs[2,2]*rhs[2,2] + lhs[3,2]*rhs[2,3];
    Result[2,3]:=lhs[0,3]*rhs[2,0] + lhs[1,3]*rhs[2,1] + lhs[2,3]*rhs[2,2] + lhs[3,3]*rhs[2,3];

    Result[3,0]:=lhs[0,0]*rhs[3,0] + lhs[1,0]*rhs[3,1] + lhs[2,0]*rhs[3,2] + lhs[3,0]*rhs[3,3];
    Result[3,1]:=lhs[0,1]*rhs[3,0] + lhs[1,1]*rhs[3,1] + lhs[2,1]*rhs[3,2] + lhs[3,1]*rhs[3,3];
    Result[3,2]:=lhs[0,2]*rhs[3,0] + lhs[1,2]*rhs[3,1] + lhs[2,2]*rhs[3,2] + lhs[3,2]*rhs[3,3];
    Result[3,3]:=lhs[0,3]*rhs[3,0] + lhs[1,3]*rhs[3,1] + lhs[2,3]*rhs[3,2] + lhs[3,3]*rhs[3,3];

{
    Result[0,0]:=lhs[0,0]*rhs[0,0] + lhs[1,0]*rhs[0,1] + lhs[2,0]*rhs[0,2] + lhs[3,0]*rhs[0,3];
    Result[0,1]:=lhs[0,0]*rhs[1,0] + lhs[1,0]*rhs[1,1] + lhs[2,0]*rhs[1,2] + lhs[3,0]*rhs[1,3];
    Result[0,2]:=lhs[0,0]*rhs[2,0] + lhs[1,0]*rhs[2,1] + lhs[2,0]*rhs[2,2] + lhs[3,0]*rhs[2,3];
    Result[0,3]:=lhs[0,0]*rhs[3,0] + lhs[1,0]*rhs[3,1] + lhs[2,0]*rhs[3,2] + lhs[3,0]*rhs[3,3];

    Result[1,0]:=lhs[0,1]*rhs[0,0] + lhs[1,1]*rhs[0,1] + lhs[2,1]*rhs[0,2] + lhs[3,1]*rhs[0,3];
    Result[1,1]:=lhs[0,1]*rhs[1,0] + lhs[1,1]*rhs[1,1] + lhs[2,1]*rhs[1,2] + lhs[3,1]*rhs[1,3];
    Result[1,2]:=lhs[0,1]*rhs[2,0] + lhs[1,1]*rhs[2,1] + lhs[2,1]*rhs[2,2] + lhs[3,1]*rhs[2,3];
    Result[1,3]:=lhs[0,1]*rhs[3,0] + lhs[1,1]*rhs[3,1] + lhs[2,1]*rhs[3,2] + lhs[3,1]*rhs[3,3];

    Result[2,0]:=lhs[0,2]*rhs[0,0] + lhs[1,2]*rhs[0,1] + lhs[2,2]*rhs[0,2] + lhs[3,2]*rhs[0,3];
    Result[2,1]:=lhs[0,2]*rhs[1,0] + lhs[1,2]*rhs[1,1] + lhs[2,2]*rhs[1,2] + lhs[3,2]*rhs[1,3];
    Result[2,2]:=lhs[0,2]*rhs[2,0] + lhs[1,2]*rhs[2,1] + lhs[2,2]*rhs[2,2] + lhs[3,2]*rhs[2,3];
    Result[2,3]:=lhs[0,2]*rhs[3,0] + lhs[1,2]*rhs[3,1] + lhs[2,2]*rhs[3,2] + lhs[3,2]*rhs[3,3];

    Result[3,0]:=lhs[0,3]*rhs[0,0] + lhs[1,3]*rhs[0,1] + lhs[2,3]*rhs[0,2] + lhs[3,3]*rhs[0,3];
    Result[3,1]:=lhs[0,3]*rhs[1,0] + lhs[1,3]*rhs[1,1] + lhs[2,3]*rhs[1,2] + lhs[3,3]*rhs[1,3];
    Result[3,2]:=lhs[0,3]*rhs[2,0] + lhs[1,3]*rhs[2,1] + lhs[2,3]*rhs[2,2] + lhs[3,3]*rhs[2,3];
    Result[3,3]:=lhs[0,3]*rhs[3,0] + lhs[1,3]*rhs[3,1] + lhs[2,3]*rhs[3,2] + lhs[3,3]*rhs[3,3];
}

    glPushMatrix;
    glLoadMatrixf(@lhs[0, 0]);
    glMultMatrixf(@rhs[0, 0]);
    glGetFloatv(GL_MODELVIEW_MATRIX, @test[0, 0]);
    glPopMatrix;

    error:=false;
    for i:=0 to 3 do
      for j:=0 to 3 do
        if Abs(test[i, j] - Result[i, j]) > 0.000001 then
          error:=true;

    {$IFNDEF PAS2C}
    if error then
    begin
        writeln('shall:');
        for i:=0 to 3 do
        begin
          for j:=0 to 3 do
            write(test[i, j]);
          writeln;
        end;

        writeln('is:');
        for i:=0 to 3 do
        begin
          for j:=0 to 3 do
            write(Result[i, j]);
          writeln;
        end;
        checkFails(false, 'error in matrix multiplication?!', true);
    end;
    {$ENDIF}

end;


end.