bloboland: 2f4406cc341e src/renderer.cc

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view src/renderer.cc @ 5:2f4406cc341e

meh

author	John Tsiombikas <nuclear@member.fsf.org>
date	Wed, 19 Dec 2012 02:37:20 +0200
parents	9021a906c5d3
children

line source

1 #include "opengl.h"

2 #include "renderer.h"

3 #include "sdr.h"

5 Renderer::Renderer()

6 {

7 blobtex = 0;

8 leveltex = 0;

9 sdrprog = 0;

11 level = 0;

13 fov = M_PI / 4.0;

14 aspect = 1.0;

15 }

17 Renderer::~Renderer()

18 {

19 shutdown();

20 }

22 bool Renderer::init(Level *level)

23 {

24 if(!(sdrprog = create_program_load("sdr/bloboray.v.glsl", "sdr/bloboray.p.glsl"))) {

25 return false;

26 }

28 Volume *vol = level->terrain;

30 leveltex = new Texture3D;

31 leveltex->create(vol->get_size(0), vol->get_size(1), vol->get_size(2));

33 blobtex = new Texture1D;

34 blobtex->set_pixel_format(GL_RGBA16F); // floating point textures

35 blobtex->create(level->blobs.size());

36 blobtex->set_filtering(GL_NEAREST);

38 this->level = level;

40 return true;

41 }

43 void Renderer::shutdown()

44 {

45 delete leveltex;

46 if(sdrprog) {

47 free_program(sdrprog);

48 }

49 }

51 void Renderer::set_fov(float fov)

52 {

53 this->fov = fov;

54 }

56 void Renderer::set_aspect(float aspect)

57 {

58 this->aspect = aspect;

59 }

61 static void draw_cube(const Vector3 &pos, float sz);

63 void Renderer::prepare()

64 {

65 leveltex->update((float*)level->terrain->get_data_ptr());

66 update_blobtex();

67 }

69 void Renderer::render() const

70 {

71 bind_texture(leveltex, 0);

72 bind_texture(blobtex, 1);

74 set_uniform_float3(sdrprog, "worldsize", level->world_size.x, level->world_size.y,

75 level->world_size.z);

76 set_uniform_float3(sdrprog, "volsize", level->terrain->get_size(0),

77 level->terrain->get_size(1), level->terrain->get_size(2));

78 set_uniform_float4(sdrprog, "camprop", fov, aspect, 0, 0);

80 set_uniform_int(sdrprog, "num_blobs", (int)level->blobs.size());

82 set_uniform_int(sdrprog, "voltex", 0);

83 set_uniform_int(sdrprog, "blobtex", 1);

84 bind_program(sdrprog);

86 glBegin(GL_QUADS);

87 glTexCoord2f(0, 0);

88 glVertex2f(-1, -1);

89 glTexCoord2f(1, 0);

90 glVertex2f(1, -1);

91 glTexCoord2f(1, 1);

92 glVertex2f(1, 1);

93 glTexCoord2f(0, 1);

94 glVertex2f(-1, 1);

95 glEnd();

97 bind_program(0);

98 bind_texture(0, 1);

99 bind_texture(0, 0);

100

101 /*glEnable(GL_COLOR_MATERIAL);

102 glColorMaterial(GL_FRONT_AND_BACK, GL_AMBIENT_AND_DIFFUSE);

103

104 glBegin(GL_QUADS);

105 for(int i=0; i<vol->get_size(0); i++) {

106 for(int j=0; j<vol->get_size(1); j++) {

107 for(int k=0; k<vol->get_size(2) - 1; k++) {

108 Vector4 vox = vol->get_voxel(i, j, k);

109 Vector4 next = vol->get_voxel(i, j, k + 1);

110

111 if(vox.w > 0.1 && next.w < 0.1) {

112 glColor3f(vox.x, vox.y, vox.z);

113

114 float x = ((float)i - vol->get_size(0) / 2) * 0.1;

115 float z = ((float)j - vol->get_size(1) / 2) * 0.1;

116 float y = ((float)k - vol->get_size(2) / 2) * 0.1;

117 draw_cube(Vector3(x, y, z), 0.1);

118 }

119 }

120 }

121 }

122 glEnd();

123

124 glDisable(GL_COLOR_MATERIAL);

125 */

126 }

127

128

129 static void draw_cube(const Vector3 &pos, float sz)

130 {

131 sz /= 2.0;

132

133 glNormal3f(0, 0, 1);

134 glVertex3f(pos.x - sz, pos.y - sz, pos.z + sz);

135 glVertex3f(pos.x + sz, pos.y - sz, pos.z + sz);

136 glVertex3f(pos.x + sz, pos.y + sz, pos.z + sz);

137 glVertex3f(pos.x - sz, pos.y + sz, pos.z + sz);

138

139 glNormal3f(1, 0, 0);

140 glVertex3f(pos.x + sz, pos.y - sz, pos.z + sz);

141 glVertex3f(pos.x + sz, pos.y - sz, pos.z - sz);

142 glVertex3f(pos.x + sz, pos.y + sz, pos.z - sz);

143 glVertex3f(pos.x + sz, pos.y + sz, pos.z + sz);

144

145 glNormal3f(0, 0, -1);

146 glVertex3f(pos.x + sz, pos.y - sz, pos.z - sz);

147 glVertex3f(pos.x - sz, pos.y - sz, pos.z - sz);

148 glVertex3f(pos.x - sz, pos.y + sz, pos.z - sz);

149 glVertex3f(pos.x + sz, pos.y + sz, pos.z - sz);

150

151 glNormal3f(-1, 0, 0);

152 glVertex3f(pos.x - sz, pos.y - sz, pos.z - sz);

153 glVertex3f(pos.x - sz, pos.y - sz, pos.z + sz);

154 glVertex3f(pos.x - sz, pos.y + sz, pos.z + sz);

155 glVertex3f(pos.x - sz, pos.y + sz, pos.z - sz);

156

157 glNormal3f(0, 1, 0);

158 glVertex3f(pos.x - sz, pos.y + sz, pos.z + sz);

159 glVertex3f(pos.x + sz, pos.y + sz, pos.z + sz);

160 glVertex3f(pos.x + sz, pos.y + sz, pos.z - sz);

161 glVertex3f(pos.x - sz, pos.y + sz, pos.z - sz);

162

163 glNormal3f(0, -1, 0);

164 glVertex3f(pos.x - sz, pos.y - sz, pos.z - sz);

165 glVertex3f(pos.x + sz, pos.y - sz, pos.z - sz);

166 glVertex3f(pos.x + sz, pos.y - sz, pos.z + sz);

167 glVertex3f(pos.x - sz, pos.y - sz, pos.z + sz);

168

169 }

170

171 void Renderer::update_blobtex()

172 {

173 int nblobs = (int)level->blobs.size();

174

175 float *data = (float*)alloca(nblobs * 4 * sizeof *data);

176 float *dptr = data;

177

178 for(int i=0; i<nblobs; i++) {

179 *dptr++ = level->blobs[i].pos.x;

180 *dptr++ = level->blobs[i].pos.y;

181 *dptr++ = level->blobs[i].pos.z;

182 *dptr++ = 1.0;

183 }

184

185 blobtex->update(data);

186 }