SQCSimulator2023/SQCSim2021/mesh.cpp

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2023-09-30 14:46:54 -04:00
#include "mesh.h"
Mesh::Mesh(Chunk* chunk): m_chunk(chunk) {}
Mesh::~Mesh() {
FlushVBO();
}
void Mesh::FlushMeshToVBO() {
m_vertexBuffer.SetMeshData(m_vd, m_vcount);
m_vcount = 0;
//delete[] m_vd;
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}
void Mesh::FlushVBO() {
m_vertexBuffer.Flush();
}
void Mesh::Update(BlockInfo* blockinfo[BTYPE_LAST], World* world) {
float u, v, s;
// Update mesh
if (m_chunk->IsDirty()) {
int maxVertexCount = (CHUNK_SIZE_X * CHUNK_SIZE_Y * CHUNK_SIZE_Z) * (6 * 4);
m_vd = new VertexBuffer::VertexData[maxVertexCount];
m_vcount = 0;
for (int x = 0; x < CHUNK_SIZE_X; ++x) {
for (int z = 0; z < CHUNK_SIZE_Z; ++z) {
for (int y = 0; y < CHUNK_SIZE_Y; ++y) {
if (m_vcount > USHRT_MAX)
break;
BlockType bt = m_chunk->GetBlock(x, y, z);
if (bt != BTYPE_AIR) {
blockinfo[bt]->GetTexture(u, v, s);
AddBlockToMesh(m_vd, m_vcount, bt, x, y, z, u, v, s, world);
}
}
}
}
if (m_vcount > USHRT_MAX) {
m_vcount = USHRT_MAX;
std::cout << "[ Chunk :: Update ] Chunk data truncaned , too much vertices to have a 16 bit index " << std::endl;
}
}
m_chunk->MakeClean();
}
void Mesh::AddBlockToMesh(VertexBuffer::VertexData* vd, int& count, BlockType bt,
int x, int y, int z, float u, float v, float s, World* world) {
unsigned int cex, cey, cpx, cpy;
m_chunk->GetPosition(cpx, cpy);
world->GetScope(cex, cey);
int cx = x + (cpx - cex) * CHUNK_SIZE_X, cy = z + (cpy - cey) * CHUNK_SIZE_Z;
if (y == CHUNK_SIZE_Y - 1 || m_chunk->GetBlock(x, y + 1, z) == BTYPE_AIR) { // y
vd[count++] = VertexBuffer::VertexData(x, y + 1.f, z, .8f, .8f, .8f, u, v);
vd[count++] = VertexBuffer::VertexData(x, y + 1.f, z + 1.f, .8f, .8f, .8f, u, v + s);
vd[count++] = VertexBuffer::VertexData(x + 1.f, y + 1.f, z + 1.f, .8f, .8f, .8f, u + s, v + s);
vd[count++] = VertexBuffer::VertexData(x + 1.f, y + 1.f, z, .8f, .8f, .8f, u + s, v);
}
if (y == 0 || m_chunk->GetBlock(x, y - 1, z) == BTYPE_AIR) { // -y
vd[count++] = VertexBuffer::VertexData(x, y, z + 1.f, .2f, .2f, .2f, u, v);
vd[count++] = VertexBuffer::VertexData(x, y, z, .2f, .2f, .2f, u, v + s);
vd[count++] = VertexBuffer::VertexData(x + 1.f, y, z, .2f, .2f, .2f, u + s, v + s);
vd[count++] = VertexBuffer::VertexData(x + 1.f, y, z + 1.f, .2f, .2f, .2f, u + s, v);
}
if (world->BlockAt(cx + 1, y, cy) == BTYPE_AIR) { // x
vd[count++] = VertexBuffer::VertexData(x + 1.f, y, z, .9f, .9f, .9f, u, v);
vd[count++] = VertexBuffer::VertexData(x + 1.f, y + 1.f, z, .9f, .9f, .9f, u, v + s);
vd[count++] = VertexBuffer::VertexData(x + 1.f, y + 1.f, z + 1.f, .9f, .9f, .9f, u + s, v + s);
vd[count++] = VertexBuffer::VertexData(x + 1.f, y, z + 1.f, .9f, .9f, .9f, u + s, v);
}
if (world->BlockAt(cx - 1, y, cy) == BTYPE_AIR) { // -x
vd[count++] = VertexBuffer::VertexData(x, y + 1.f, z + 1.f, .5f, .5f, .5f, u, v + s);
vd[count++] = VertexBuffer::VertexData(x, y + 1.f, z, .5f, .5f, .5f, u + s, v + s);
vd[count++] = VertexBuffer::VertexData(x, y, z, .5f, .5f, .5f, u + s, v);
vd[count++] = VertexBuffer::VertexData(x, y, z + 1.f, .5f, .5f, .5f, u, v);
}
if (world->BlockAt(cx, y, cy + 1) == BTYPE_AIR) { // z
vd[count++] = VertexBuffer::VertexData(x, y, z + 1.f, .4f, .4f, .4f, u, v);
vd[count++] = VertexBuffer::VertexData(x + 1.f, y, z + 1.f, .4f, .4f, .4f, u + s, v);
vd[count++] = VertexBuffer::VertexData(x + 1.f, y + 1.f, z + 1.f, .4f, .4f, .4f, u + s, v + s);
vd[count++] = VertexBuffer::VertexData(x, y + 1.f, z + 1.f, .4f, .4f, .4f, u, v + s);
}
if (world->BlockAt(cx, y, cy - 1) == BTYPE_AIR) { // -z
vd[count++] = VertexBuffer::VertexData(x, y + 1.f, z, 1.f, 1.f, 1.f, u, v + s);
vd[count++] = VertexBuffer::VertexData(x + 1.f, y + 1.f, z, 1.f, 1.f, 1.f, u + s, v + s);
vd[count++] = VertexBuffer::VertexData(x + 1.f, y, z, 1.f, 1.f, 1.f, u + s, v);
vd[count++] = VertexBuffer::VertexData(x, y, z, 1.f, 1.f, 1.f, u, v);
}
}
void Mesh::Render() const { m_vertexBuffer.Render(); }
bool Mesh::IsDirty() const { return m_chunk->IsDirty(); }
bool Mesh::IsNew() {
bool bl = m_new;
if (m_new)
m_new = false;
return bl;
}
void Mesh::GetPosition(unsigned int& x, unsigned int& y, World* world) const {
unsigned int sx, sy;
world->GetScope(sx, sy);
m_chunk->GetPosition(x, y);
x -= sx;
y -= sy;
}