void level_three()
{
vector<DPipe> DirectPipes(13);
vector<DoublePipe> DoublePipes(13);
vector<CrossPipe> CrossPipes(2);
DPipe a0(50,SCREEN_HEIGHT-50,100,40);
DoublePipe b0(150,SCREEN_HEIGHT-50,70,40);
DPipe a1(150,SCREEN_HEIGHT-150,100,40);
DoublePipe b1(150,SCREEN_HEIGHT-250,70,40);
DPipe a2(250,SCREEN_HEIGHT-350,100,40);
DoublePipe b2(350,SCREEN_HEIGHT-250,70,40);
DPipe a3(350,SCREEN_HEIGHT-350,100,40);
DPipe a4(350,SCREEN_HEIGHT-150,100,40);
DoublePipe b3(250,SCREEN_HEIGHT-450,70,40);
DoublePipe b4(350,SCREEN_HEIGHT-450,70,40);
CrossPipe c0(250,SCREEN_HEIGHT-250,100,40);
DPipe a5(550,SCREEN_HEIGHT-50,100,40);
DoublePipe b5(250,SCREEN_HEIGHT-150,70,40);
DoublePipe b6(450,SCREEN_HEIGHT-50,70,40);
DoublePipe b7(650,SCREEN_HEIGHT-150,70,40);
DPipe a6(550,SCREEN_HEIGHT-50,100,40);
DPipe a7(550,SCREEN_HEIGHT-150,100,40);
DoublePipe b8(750,SCREEN_HEIGHT-50,70,40);
DPipe a8(550,SCREEN_HEIGHT-250,100,40);
DoublePipe b9(750,SCREEN_HEIGHT-350,70,40);
CrossPipe c1(450,SCREEN_HEIGHT-150,100,40);
DoublePipe b10(350,SCREEN_HEIGHT-450,70,40);
DPipe a9(750,SCREEN_HEIGHT-150,100,40);
DPipe a10(750,SCREEN_HEIGHT-250,100,40);
DoublePipe b11(450,SCREEN_HEIGHT-250,70,40);
DoublePipe b12(650,SCREEN_HEIGHT-250,70,40);
DPipe a11(650,SCREEN_HEIGHT-50,100,40);
DPipe a12(850,SCREEN_HEIGHT-350,100,40);
DirectPipes[0] = a0; DoublePipes[0] = b0;
DirectPipes[1] = a1; DoublePipes[1] = b1;
DirectPipes[2] = a2; DoublePipes[2] = b2;
DirectPipes[3] = a3; DoublePipes[3] = b3;
DirectPipes[4] = a4; DoublePipes[4] = b4;
DirectPipes[5] = a5; DoublePipes[5] = b5;
DirectPipes[6] = a6; DoublePipes[6] = b6;
DirectPipes[7] = a7; DoublePipes[7] = b7;
DirectPipes[8] = a8; DoublePipes[8] = b8;
DirectPipes[9] = a9; DoublePipes[9] = b9;
DirectPipes[10] = a10; DoublePipes[10] = b10;
DirectPipes[11] = a11; DoublePipes[11] = b11;
DirectPipes[12] = a12; DoublePipes[12] = b12;
CrossPipes[0] = c0; CrossPipes[1] = c1;
Water a(20,SCREEN_HEIGHT-50,40,40);
}
TEST(CollisionTest, CollisionTestAll)
{
int a_x = 10;
int a_y = 10;
int a_width = 10;
int a_height = 10;
int b1_x = 10;
int b1_y = 30;
int b1_width = 10;
int b1_height = 10;
int b2_x = 10;
int b2_y = 20;
int b2_width = 10;
int b2_height = 1;
int b3_x = 20;
int b3_y = 10;
int b3_width = 1;
int b3_height = 10;
int b4_x = 30;
int b4_y = 10;
int b4_width = 10;
int b4_height = 10;
int b5_x = 30;
int b5_y = 30;
int b5_width = 10;
int b5_height = 10;
int b6_x = 9;
int b6_y = 10;
int b6_width = 1;
int b6_height = 10;
int b7_x = 10;
int b7_y = 9;
int b7_width = 10;
int b7_height = 1;
int b8_x = 10;
int b8_y = 10;
int b8_width = 10;
int b8_height = 10;
int b9_x = 10;
int b9_y = 15;
int b9_width = 10;
int b9_height = 5;
int b10_x = 13;
int b10_y = 13;
int b10_width = 2;
int b10_height = 2;
int b11_x = 18;
int b11_y = 2;
int b11_width = 10;
int b11_height = 10;
int b12_x = 5;
int b12_y = 15;
int b12_width = 10;
int b12_height = 10;
BoxShape a(a_x, a_y, a_width, a_height);
BoxShape b1(b1_x, b1_y, b1_width, b1_height);
BoxShape b2(b2_x, b2_y, b2_width, b2_height);
BoxShape b3(b3_x, b3_y, b3_width, b3_height);
BoxShape b4(b4_x, b4_y, b4_width, b4_height);
BoxShape b5(b5_x, b5_y, b5_width, b5_height);
BoxShape b6(b6_x, b6_y, b6_width, b6_height);
BoxShape b7(b7_x, b7_y, b7_width, b7_height);
BoxShape b8(b8_x, b8_y, b8_width, b8_height);
BoxShape b9(b9_x, b9_y, b9_width, b9_height);
BoxShape b10(b10_x, b10_y, b10_width, b10_height);
BoxShape b11(b11_x, b11_y, b11_width, b11_height);
BoxShape b12(b12_x, b12_y, b12_width, b12_height);
ASSERT_FALSE(collision_detection(a, b1)) << "Should not return collision. They are apart";
ASSERT_FALSE(collision_detection(a, b2)) << "Should not return collision. They are adjacent";
ASSERT_FALSE(collision_detection(a, b3)) << "Should not return collision. They are adjacent";
ASSERT_FALSE(collision_detection(a, b4)) << "Should not return collision. They are apart";
ASSERT_FALSE(collision_detection(a, b5)) << "Should not return collision. They are apart";
ASSERT_FALSE(collision_detection(a, b6)) << "Should not return collision. They are adjacent";
ASSERT_FALSE(collision_detection(a, b7)) << "Should not return collision. They are adjacent";
ASSERT_TRUE(collision_detection(a, b8)) << "Should return collision. They are on top of each other";
ASSERT_TRUE(collision_detection(a, b9)) << "Should return collision. They intersect";
ASSERT_TRUE(collision_detection(a, b10)) << "Should return collision. One is inside the other";
ASSERT_TRUE(collision_detection(a, b11)) << "Should return collision. They intersect";
ASSERT_TRUE(collision_detection(a, b12)) << "Should return collision. They intersect";
}
void level_two()
{
vector<DPipe> DPIPES(44);
vector<DoublePipe> DOUBPIPES(18);
vector<CrossPipe> CROSSPIPES(3);
DPipe background(600,400,1200,800);
DPipe a0(50,750,100,40);
DPipe a1(150,650,100,40);
DPipe a2(150,550,100,40);
DPipe a3(650,450,100,40);
DPipe a4(550,550,100,40);
DPipe a5(450,350,100,40);
DPipe a6(550,250,100,40);
DPipe a7(650,250,100,40);
DPipe a8(750,350,100,40);
DPipe a9(750,450,100,40);
DPipe a10(750,550,100,40);
DPipe a11(650,650,100,40);
DPipe a12(550,650,100,40);
DPipe a13(450,650,100,40);
DPipe a14(350,550,100,40);
DPipe a15(350,350,100,40);
DPipe a16(350,250,100,40);
DPipe a17(450,150,100,40);
DPipe a18(550,150,100,40);
DPipe a19(650,150,100,40);
DPipe a20(750,150,100,40);
DPipe a21(850,250,100,40);
DPipe a22(850,350,100,40);
DPipe a23(850,450,100,40);
DPipe a24(850,550,100,40);
DPipe a25(850,650,100,40);
DPipe a26(750,750,100,40);
DPipe a27(650,750,100,40);
DPipe a28(550,750,100,40);
DPipe a29(450,750,100,40);
DPipe a30(350,750,100,40);
DPipe a31(250,650,100,40);
DPipe a32(250,550,100,40);
DPipe a33(250,350,100,40);
DPipe a34(250,250,100,40);
DPipe a35(250,150,100,40);
DPipe a36(350,50,100,40);
DPipe a37(450,50,100,40);
DPipe a38(550,50,100,40);
DPipe a39(650,50,100,40);
DPipe a40(750,50,100,40);
DPipe a41(850,50,100,40);
DPipe a42(950,150,100,40);
DPipe a43(950,250,100,40);
DoublePipe b0(150,750,70,40);
DoublePipe b1(150,450,70,40);
DoublePipe b2(550,450,70,40);
DoublePipe b3(550,350,70,40);
DoublePipe b4(650,350,70,40);
DoublePipe b5(650,550,70,40);
DoublePipe b6(450,550,70,40);
DoublePipe b7(450,250,70,40);
DoublePipe b8(750,250,70,40);
DoublePipe b9(750,650,70,40);
DoublePipe b10(350,650,70,40);
DoublePipe b11(350,150,70,40);
DoublePipe b12(850,150,70,40);
DoublePipe b13(850,750,70,40);
DoublePipe b14(250,750,70,40);
DoublePipe b15(250,50,70,40);
DoublePipe b16(950,50,70,40);
DoublePipe b17(950,350,70,40);
CrossPipe c0(250,450,100,40);
CrossPipe c1(350,450,100,40);
CrossPipe c2(450,450,100,40);
DPIPES[0]=a0;
DPIPES[1]=a1;
DPIPES[2]=a2;
DPIPES[3]=a3;
DPIPES[4]=a4;
DPIPES[5]=a5;
DPIPES[6]=a6;
DPIPES[7]=a7;
DPIPES[8]=a8;
DPIPES[9]=a9;
DPIPES[10]=a10;
DPIPES[11]=a11;
DPIPES[12]=a12;
DPIPES[13]=a13;
DPIPES[14]=a14;
DPIPES[15]=a15;
DPIPES[16]=a16;
DPIPES[17]=a17;
DPIPES[18]=a18;
DPIPES[19]=a19;
DPIPES[20]=a20;
DPIPES[21]=a21;
DPIPES[22]=a22;
DPIPES[23]=a23;
DPIPES[24]=a24;
DPIPES[25]=a25;
DPIPES[26]=a26;
DPIPES[27]=a27;
DPIPES[28]=a28;
DPIPES[29]=a29;
DPIPES[30]=a30;
DPIPES[31]=a31;
DPIPES[32]=a32;
DPIPES[33]=a33;
DPIPES[34]=a34;
DPIPES[35]=a35;
DPIPES[36]=a36;
DPIPES[37]=a37;
DPIPES[38]=a38;
DPIPES[39]=a39;
DPIPES[40]=a40;
DPIPES[41]=a41;
DPIPES[42]=a42;
DPIPES[43]=a43;
DOUBPIPES[0]=b0;
DOUBPIPES[1]=b1;
DOUBPIPES[2]=b2;
DOUBPIPES[3]=b3;
DOUBPIPES[4]=b4;
DOUBPIPES[5]=b5;
DOUBPIPES[6]=b6;
DOUBPIPES[7]=b7;
DOUBPIPES[8]=b8;
DOUBPIPES[9]=b9;
DOUBPIPES[10]=b10;
DOUBPIPES[11]=b11;
DOUBPIPES[12]=b12;
DOUBPIPES[13]=b13;
DOUBPIPES[14]=b14;
DOUBPIPES[15]=b15;
DOUBPIPES[16]=b16;
DOUBPIPES[17]=b17;
CROSSPIPES[0]=c0;
CROSSPIPES[1]=c1;
CROSSPIPES[2]=c2;
}
int main()
{
tQ4 a4( 1.1 );
tQ4 b4( 1 );
tQ12 a12( 3.3 );
tQ12 b12( 3 );
tQ18 a18;
double ad;
double bd;
tQ8 a8( -2.3 );
tQ8 b8( 2 );
tQ8 c8( Q8CONST( -2,3 ) );
tQ8 d8( a8 );
tQ8 e8( a4 );
// tQ8 f8( a12 ); // Warning: left shift count is negative
tQ8 g8( a12.roundedTo< tQ8 >() );
tQ8 h8( a12.roundedTo< 8 >() );
// a8 = a4.roundedTo( h8 ); //Warning: left/right shift is negative
a8 = 1;
a8 = -2;
a8 = 3;
a8 = Q8CONST( 3,001 );
a8 = tQ8( 3.001 );
a8 = tQ8::truncated( 3.001 );
a8 = tQ8::rounded( 3.001 );
a8.setTruncated( 3.2 );
a8.setRounded( 3.3 );
a8 = tQ8( 123, 8 );
a8 = tQ8::create( 123 << 8 );
a8 = a4;
a8 = a8;
// a8 = a12; // Warning: left shift count is negative
a8 = a12.roundedTo< tQ8 >();
a8 = a12.roundedTo( a8 );
a8.setRounded( a12 );
a8 = -a4;
a8 = -a8;
a8 += 3;
a8 += 4u;
a8 += 5l;
a8 += 6lu;
a8 += tQ8( 3.2 );
a8 += truncatedTo( a8, 3.3 );
a8 += roundedTo( a8, 3.4 );
a8 += a4;
// a8 += a12; // Warning: left shift count is negative
a8 += a12.roundedTo< tQ8 >();
a8 += a12.roundedTo( a8 );
a8 = a8 + 2;
a8 = 3 + a8;
a8 = a8 + a4;
// a8 = a4 + a8; // Warning: left shift count is negative
a8 -= 3;
a8 -= 4u;
a8 -= 5l;
a8 -= 6lu;
a8 -= roundedTo< tQ8::cQBits >( 3.2 );
a8 -= roundedTo( a8, 3.3 );
a8 -= a4;
// a8 -= a12; // Warning: left shift count is negative
a8 -= a12.roundedTo< tQ8 >();
a8 -= a12.roundedTo( a8 );
a8 = a8 - 2;
a8 = 3 - a8;
a8 = a8 - a4;
// a8 = a4 - a8; // Warning: left shift count is negative
a8 *= 3;
a8 *= 4u;
a8 *= 5l;
a8 *= 6lu;
// a8 *= 3.2; // Warning: converting to int from double
a8 *= a4;
a8 *= a12;
a8 = a8 * 2;
a8 = 3 * a8;
a12 = a8 * a4;
a12 = a4 * a8;
a8 /= 3;
a8 /= 4u;
a8 /= 5l;
a8 /= 6lu;
// a8 /= 3.2; // Warning: converting to int from double
a8 /= a4; // Note: possible overflow due to pre-shifting "(a8 << 4) / a4"
// a8 /= a12; // Warning: left shift count is negative
a8 = a8.increasedBy( a12 ) / a12;
a8 = a8 / 2;
// a8 = 3 / a8; // Error: no match for 'operator/'
a8 = tQ16( 3 ) / a8;
a12 = a8 / a4;
a12 = a4 / a8;
a8 == 3;
a8 == 4u;
a8 == 5l;
a8 == 6lu;
a8 == tQ8( 3.2 );
a8 == truncatedTo( a8, 3.3 );
a8 == roundedTo( a8, 3.4 );
a8 == a4;
// a8 == a12; // Warning: left shift count is negative
a8 == a12.roundedTo< tQ8 >();
a8 == a12.roundedTo( a8 );
3 == a8;
int(4u) == a8;
int(5l) == a8;
int(6lu) == a8;
a8 < 3;
a8 < 4u;
a8 < 5l;
a8 < 6lu;
a8 < tQ8( 3.2 );
a8 < a4;
// a8 < a12; // Warning: left shift count is negative
3 < a8;
int(4u) < a8;
int(5l) < a8;
int(6lu) < a8;
a8 > 3;
a8 > 4u;
a8 > 5l;
a8 > 6lu;
a8 > tQ8( 3.2 );
a8 > a4;
// a8 > a12; // Warning: left shift count is negative
3 > a8;
int(4u) > a8;
int(5l) > a8;
int(6lu) > a8;
!a8;
int intPart = a8.intPart();
int fracPart = a8.fracPart();
int fracPlaces = a8.fracPlaces( 3 );
unsigned abs = a8.absolute();
ad = a8.toDouble();
a8 = ad;
// a8.set( ad ); // Warning: conversion from int to double, possible loss of data
a8.setRounded( ad );
a8 = truncatedTo( a8, ad );
a8 = truncatedTo<8>( ad );
a8 = truncatedTo<tQ8>( ad );
// tBigQ36 aB36( 123567890 ); // Error: ambiguous
tBigQ36 aB36( 123567890ll );
tBigQ36 bB36( a8 );
aB36 = tBigQ18( a18 ) * a18;
}
