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2ae2a551a6
GLES drivers adapted, but only did make compile-tests. git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/branches/ogl-es@6038 dfc29bdd-3216-0410-991c-e03cc46cb475
302 lines
9.1 KiB
C++
302 lines
9.1 KiB
C++
// Copyright (C) 2008-2012 Colin MacDonald
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// No rights reserved: this software is in the public domain.
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#include "testUtils.h"
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using namespace irr;
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using namespace core;
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static bool testLines(line2df const & line1,
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line2df const & line2,
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bool expectedHit,
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const vector2df & expectedIntersection)
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{
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bool gotExpectedResult = true;
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logTestString("\nLine 1 = %.1f %.1f to %.1f %.1f \n",
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line1.start.X, line1.start.Y,
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line1.end.X, line1.end.Y);
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logTestString("Line 2 = %.1f %.1f to %.1f %.1f\n",
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line2.start.X, line2.start.Y,
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line2.end.X, line2.end.Y);
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vector2df intersection;
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logTestString("line1 with line2 = ");
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if(line1.intersectWith(line2, intersection))
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{
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logTestString("hit at %.1f %.1f - ",
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intersection.X, intersection.Y);
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if(!line1.isPointOnLine(intersection) || !line2.isPointOnLine(intersection))
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{
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logTestString("ERROR! point is not on both lines - ");
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gotExpectedResult = false;
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}
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if(expectedHit)
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{
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if(intersection == expectedIntersection)
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{
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logTestString("expected\n");
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}
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else
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{
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logTestString("unexpected intersection (expected %.1f %.1f)\n",
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expectedIntersection.X, expectedIntersection.Y);
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gotExpectedResult = false;
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}
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}
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else
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{
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logTestString("UNEXPECTED\n");
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gotExpectedResult = false;
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}
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}
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else
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{
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logTestString("miss - ");
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if(!expectedHit)
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{
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logTestString("expected\n");
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}
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else
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{
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logTestString("UNEXPECTED\n");
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gotExpectedResult = false;
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}
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}
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logTestString("line2 with line1 = ");
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if(line2.intersectWith(line1, intersection))
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{
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logTestString("hit at %.1f %.1f - ",
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intersection.X, intersection.Y);
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if(!line1.isPointOnLine(intersection) || !line2.isPointOnLine(intersection))
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{
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logTestString("ERROR! point is not on both lines - ");
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gotExpectedResult = false;
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}
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if(expectedHit)
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{
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if(intersection == expectedIntersection)
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{
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logTestString("expected\n");
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}
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else
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{
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logTestString("unexpected intersection (expected %.1f %.1f)\n",
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expectedIntersection.X, expectedIntersection.Y);
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gotExpectedResult = false;
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}
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}
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else
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{
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logTestString("UNEXPECTED\n");
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gotExpectedResult = false;
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}
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}
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else
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{
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logTestString("miss - ");
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if(!expectedHit)
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{
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logTestString("expected\n");
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}
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else
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{
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logTestString("UNEXPECTED\n");
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gotExpectedResult = false;
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}
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}
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return gotExpectedResult;
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}
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// Test the functionality of line2d>T>::intersectWith().
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/** Validation is done with assert_log() against expected results. */
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bool line2dIntersectWith(void)
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{
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bool allExpected = true;
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// Crossing lines, horizontal and vertical
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allExpected &= testLines(line2df(vector2df(1,1),vector2df(1,3)),
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line2df(vector2df(0,2),vector2df(2,2)),
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true, vector2df(1,2));
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assert_log(allExpected);
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// Crossing lines, both diagonal
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(2,2)),
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line2df(vector2df(0,2),vector2df(2,0)),
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true, vector2df(1,1));
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assert_log(allExpected);
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// Non-crossing lines, horizontal and vertical
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allExpected &= testLines(line2df(vector2df(1,1),vector2df(1,3)),
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line2df(vector2df(0,4),vector2df(2,4)),
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false, vector2df());
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assert_log(allExpected);
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// Non-crossing lines, both diagonal
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(2,2)),
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line2df(vector2df(3,4),vector2df(4,3)),
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false, vector2df());
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assert_log(allExpected);
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// Meeting at a common point
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(1,0)),
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line2df(vector2df(1,0),vector2df(2,0)),
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true, vector2df(1,0));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(1,0)),
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line2df(vector2df(1,0),vector2df(0,1)),
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true, vector2df(1,0));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(1,0)),
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line2df(vector2df(1,0),vector2df(0,-1)),
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true, vector2df(1,0));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(0,1)),
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line2df(vector2df(0,1),vector2df(1,1)),
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true, vector2df(0,1));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(0,1)),
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line2df(vector2df(0,1),vector2df(1,-1)),
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true, vector2df(0,1));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(0,1)),
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line2df(vector2df(0,1),vector2df(0,2)),
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true, vector2df(0,1));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(1,0)),
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line2df(vector2df(1,0),vector2df(2,0)),
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true, vector2df(1,0));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(1,1)),
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line2df(vector2df(1,1),vector2df(0,2)),
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true, vector2df(1,1));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(1,1)),
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line2df(vector2df(1,1),vector2df(2,0)),
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true, vector2df(1,1));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(1,1)),
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line2df(vector2df(1,1),vector2df(2,2)),
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true, vector2df(1,1));
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assert_log(allExpected);
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// Parallel lines, no intersection
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(1,0)),
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line2df(vector2df(0,1),vector2df(1,1)),
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false, vector2df());
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(0,1)),
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line2df(vector2df(1,0),vector2df(1,1)),
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false, vector2df());
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assert_log(allExpected);
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// Non parallel lines, no intersection
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(1,0)),
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line2df(vector2df(0,1),vector2df(0,2)),
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false, vector2df());
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(0,1)),
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line2df(vector2df(1,0),vector2df(2,0)),
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false, vector2df());
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assert_log(allExpected);
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// Coincident (and thus parallel) lines
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(1,0)),
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line2df(vector2df(0,0),vector2df(1,0)),
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true, vector2df(0,0));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(2,0),vector2df(0,2)),
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line2df(vector2df(2,0),vector2df(0,2)),
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true, vector2df(2,0));
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assert_log(allExpected);
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// Two segments of the same unlimited line, but no intersection
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(1,1)),
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line2df(vector2df(2,2),vector2df(3,3)),
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false, vector2df());
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(1,0)),
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line2df(vector2df(2,0),vector2df(3,0)),
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false, vector2df());
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(0,1)),
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line2df(vector2df(0,2),vector2df(0,3)),
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false, vector2df());
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assert_log(allExpected);
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// Overlapping parallel lines
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allExpected &= testLines(line2df(vector2df(1,0),vector2df(2,0)),
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line2df(vector2df(0,0),vector2df(3,0)),
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true, vector2df(1.5f, 0));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,1),vector2df(0,2)),
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line2df(vector2df(0,0),vector2df(0,3)),
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true, vector2df(0, 1.5f));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(1,0),vector2df(2,0)),
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line2df(vector2df(0,0),vector2df(3,0)),
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true, vector2df(1.5f, 0));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,1),vector2df(0,2)),
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line2df(vector2df(0,0),vector2df(0,3)),
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true, vector2df(0, 1.5f));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(1,1),vector2df(2,2)),
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line2df(vector2df(0,0),vector2df(3,3)),
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true, vector2df(1.5f, 1.5f));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(1,2),vector2df(2,1)),
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line2df(vector2df(0,3),vector2df(3,0)),
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true, vector2df(1.5f, 1.5f));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(10,8)),
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line2df(vector2df(2.5f,2.0f),vector2df(5.0f,4.0f)),
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true, vector2df(3.75f, 3.0f));
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assert_log(allExpected);
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allExpected &= testLines(line2df(vector2df(0,0),vector2df(2000,1000)),
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line2df(vector2df(2,1),vector2df(2.2f,1.4f)),
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true, vector2df(2.0f, 1.0f));
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assert_log(allExpected);
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if(!allExpected)
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logTestString("\nline2dIntersectWith failed\n");
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return allExpected;
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}
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bool getClosestPoint(void)
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{
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// testcase that fails when integers are handled like floats
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irr::core::line2di line(-283, -372, 374, 289);
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irr::core::vector2di p1 = line.getClosestPoint( irr::core::vector2di(290,372) );
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irr::core::vector2di p2 = line.getClosestPoint( irr::core::vector2di(135,372) );
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if( p1 == p2 )
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{
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logTestString("getClosestPoint failed\n");
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return false;
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}
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return true;
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}
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bool testLine2d(void)
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{
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bool allExpected = true;
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allExpected &= line2dIntersectWith();
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allExpected &= getClosestPoint();
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if(allExpected)
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logTestString("\nAll tests passed\n");
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else
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logTestString("\nFAIL!\n");
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return allExpected;
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}
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