prosperon/source/engine/3d/model.c

#include "model.h"

#include "log.h"
#include "mesh.h"
#include "resources.h"
#include "shader.h"
#include "stb_ds.h"
#include "font.h"

#include "openglrender.h"

// #define HANDMADE_MATH_USE_TURNS
#include "HandmadeMath.h"

#include "math.h"
#include "time.h"

#define CGLTF_IMPLEMENTATION
#include <cgltf.h>
#include <stdlib.h>
#include <string.h>

#include "texture.h"

#include "sokol/sokol_gfx.h"

static struct {
  char *key;
  struct Texture *value;
} *modelhash = NULL;

static void processnode();
static void processmesh();
static void processtexture();

static sg_shader model_shader;
static sg_pipeline model_pipe;

void model_init() {
  model_shader = sg_compile_shader("shaders/diffuse_v.glsl", "shaders/diffuse_f.glsl", &(sg_shader_desc){
      .vs.uniform_blocks[0] = {
          .size = sizeof(float) * 16 * 4,
          .uniforms = {
              [0] = {.name = "vp", .type = SG_UNIFORMTYPE_MAT4},
              [1] = {.name = "model", .type = SG_UNIFORMTYPE_MAT4},
              [2] = {.name = "proj", .type = SG_UNIFORMTYPE_MAT4},
	      [3] = {.name = "lsm", .type = SG_UNIFORMTYPE_MAT4},
          }},

      .fs.uniform_blocks[0] = {
          .size = sizeof(float) * 3 * 5,
          .uniforms = {
              [0] = {.name = "point_pos", .type = SG_UNIFORMTYPE_FLOAT3},
              [1] = {.name = "dir_dir", .type = SG_UNIFORMTYPE_FLOAT3},
              [2] = {.name = "view_pos", .type = SG_UNIFORMTYPE_FLOAT3},
              [3] = {.name = "spot_pos", .type = SG_UNIFORMTYPE_FLOAT3},
              [4] = {.name = "spot_dir", .type = SG_UNIFORMTYPE_FLOAT3},
          },
      },

      .fs.images[0] = {.name = "diffuse", .image_type = SG_IMAGETYPE_2D, .sampler_type = SG_SAMPLERTYPE_FLOAT},
      .fs.images[1] = { .name = "normmap", .image_type = SG_IMAGETYPE_2D, .sampler_type = SG_SAMPLERTYPE_FLOAT},
      .fs.images[2] = {.name = "shadow_map", .image_type = SG_IMAGETYPE_2D, .sampler_type = SG_SAMPLERTYPE_FLOAT},

  });

  model_pipe = sg_make_pipeline(&(sg_pipeline_desc){
      .shader = model_shader,
      .layout = {
          .attrs = {
              [0].format = SG_VERTEXFORMAT_FLOAT3,
              [0].buffer_index = 0, /* position */
              [1].format = SG_VERTEXFORMAT_USHORT2N,
              [1].buffer_index = 1, /* tex coords */
              [2].format = SG_VERTEXFORMAT_UINT10_N2,
              [2].buffer_index = 2, /* normal */
          },
      },
      .index_type = SG_INDEXTYPE_UINT16,
      .cull_mode = SG_CULLMODE_FRONT,
      .depth.write_enabled = true,
      .depth.compare = SG_COMPAREFUNC_LESS_EQUAL
  });
}

struct model *GetExistingModel(const char *path) {
  if (!path || path[0] == '\0') return NULL;

  int index = shgeti(modelhash, path);
  if (index != -1) return modelhash[index].value;

  return MakeModel(path);
}

cgltf_attribute *get_attr_type(cgltf_primitive p, cgltf_attribute_type t)
{
  for (int i = 0; i < p.attributes_count; i++) {
    if (p.attributes[i].type == t)
      return &p.attributes[i];
  }

  return NULL;
}

unsigned short pack_short_texcoord(float c)
{
  return c * USHRT_MAX;
}

uint32_t pack_int10_n2(float *norm)
{
  uint32_t ni[3];

  for (int i = 0; i < 3; i++) {
    ni[i] = fabs(norm[i]) * 511.0 + 0.5;
    ni[i] = (ni[i] > 511) ? 511 : ni[i];
    ni[i] = ( norm[i] < 0.0 ) ? -ni[i] : ni[i];
  }

  return (ni[0] & 0x3FF) | ( (ni[1] & 0x3FF) << 10) | ( (ni[2] & 0x3FF) << 20) | ( (0 & 0x3) << 30);
}

struct model *MakeModel(const char *path) {
  YughWarn("Making the model from %s.", path);
  cgltf_options options = {0};
  cgltf_data *data = NULL;
  cgltf_result result = cgltf_parse_file(&options, path, &data);

  if (!result == cgltf_result_success) {
    YughError("Could not read file %s.", path);
    return NULL;
  }

  result = cgltf_load_buffers(&options, data, path);

  if (!result == cgltf_result_success) {
    YughError("Could not load buffers for file %s.", path);
    return NULL;
  }

  struct model *model = calloc(1, sizeof(*model));
  /* TODO: Optimize by grouping by material. One material per draw. */
  YughWarn("Model has %d materials.", data->materials_count);

  float vs[65535*3];
  uint16_t idxs[65535];

  for (int i = 0; i < data->meshes_count; i++) {
    cgltf_mesh *mesh = &data->meshes[i];
    struct mesh newmesh = {0};
    arrput(model->meshes,newmesh);

    YughWarn("Making mesh %d. It has %d primitives.", i, mesh->primitives_count);

    for (int j = 0; j < mesh->primitives_count; j++) {
      cgltf_primitive primitive = mesh->primitives[j];

      if (primitive.indices) {
        int c = primitive.indices->count;
        memcpy(idxs, cgltf_buffer_view_data(primitive.indices->buffer_view), sizeof(uint16_t) * c);

        model->meshes[j].bind.index_buffer = sg_make_buffer(&(sg_buffer_desc){
            .data.ptr = idxs,
            .data.size = sizeof(uint16_t) * c,
            .type = SG_BUFFERTYPE_INDEXBUFFER});

        model->meshes[j].face_count = c;
      } else {
        YughWarn("Model does not have indices. Generating them.");
        int c = primitive.attributes[0].data->count;
        model->meshes[j].face_count = c;
        for (int z = 0; z < c; z++)
          idxs[z] = z;

        model->meshes[j].bind.index_buffer = sg_make_buffer(&(sg_buffer_desc){
            .data.ptr = idxs,
            .data.size = sizeof(uint16_t) * c,
            .type = SG_BUFFERTYPE_INDEXBUFFER});
      }

      if (primitive.material->has_pbr_metallic_roughness && primitive.material->pbr_metallic_roughness.base_color_texture.texture) {
//        YughWarn("Texture is %s.", primitive.material->pbr_metallic_roughness.base_color_texture.texture->image->uri);
 
        model->meshes[j].bind.fs_images[0] = texture_pullfromfile(primitive.material->pbr_metallic_roughness.base_color_texture.texture->image->uri)->id;
      } else
        model->meshes[j].bind.fs_images[0] = texture_pullfromfile("k")->id;

      cgltf_texture *tex;
      if (tex = primitive.material->normal_texture.texture) {
        model->meshes[j].bind.fs_images[1] = texture_pullfromfile(tex->image->uri)->id;
      } else
        model->meshes[j].bind.fs_images[1] = texture_pullfromfile("k")->id;

      model->meshes[j].bind.fs_images[2] = ddimg;

      int has_norm = 0;

      for (int k = 0; k < primitive.attributes_count; k++) {
        cgltf_attribute attribute = primitive.attributes[k];

        int n = cgltf_accessor_unpack_floats(attribute.data, NULL, 0); /* floats per element x num elements */

        cgltf_accessor_unpack_floats(attribute.data, vs, n);

	uint32_t *packed_norms;
	unsigned short *packed_coords;

        switch (attribute.type) {
        case cgltf_attribute_type_position:
          model->meshes[j].bind.vertex_buffers[0] = sg_make_buffer(&(sg_buffer_desc){
              .data.ptr = vs,
              .data.size = sizeof(float) * n});
          break;

        case cgltf_attribute_type_normal:
	  has_norm = 1;
	  packed_norms = malloc(model->meshes[j].face_count * sizeof(uint32_t));;
	  for (int i = 0; i < model->meshes[j].face_count; i++)
	    packed_norms[i] = pack_int10_n2(vs + i*3);
	    
          model->meshes[j].bind.vertex_buffers[2] = sg_make_buffer(&(sg_buffer_desc){
              .data.ptr = packed_norms,
              .data.size = sizeof(uint32_t) * model->meshes[j].face_count});

	  free (packed_norms);
          break;

        case cgltf_attribute_type_tangent:
          break;

        case cgltf_attribute_type_texcoord:
	  packed_coords = malloc(model->meshes[j].face_count * 2 * sizeof(unsigned short));
	  for (int i = 0; i < model->meshes[j].face_count*2; i++)
	    packed_coords[i] = pack_short_texcoord(vs[i]);
	    
          model->meshes[j].bind.vertex_buffers[1] = sg_make_buffer(&(sg_buffer_desc){
              .data.ptr = vs,
              .data.size = sizeof(unsigned short) * 2 * model->meshes[j].face_count});

	  free(packed_coords);
          break;
        }
      }

      if (!has_norm) {
      YughWarn("Model does not have normals. Generating them.");
      uint32_t norms[model->meshes[j].face_count];


      cgltf_attribute *pa = get_attr_type(primitive, cgltf_attribute_type_position);
      int n = cgltf_accessor_unpack_floats(pa->data, NULL,0);
      float ps[n];
      cgltf_accessor_unpack_floats(pa->data,ps,n);

      for (int i = 0, face=0; i < model->meshes[j].face_count/3; i++, face+=9) {
        int o = face;
        HMM_Vec3 a = {ps[o], ps[o+1],ps[o+2]};
	o += 3;
	HMM_Vec3 b = {ps[o], ps[o+1],ps[o+2]};
	o += 3;
	HMM_Vec3 c = {ps[o], ps[o+1],ps[o+2]};
	HMM_Vec3 norm = HMM_NormV3(HMM_Cross(HMM_SubV3(b,a), HMM_SubV3(c,a)));

	uint32_t packed_norm = pack_int10_n2(norm.Elements);
	for (int j = 0; j < 3; j++)
          norms[i*3+j] = packed_norm;
      }

      model->meshes[j].bind.vertex_buffers[2] = sg_make_buffer(&(sg_buffer_desc){
        .data.ptr = norms,
        .data.size = sizeof(uint32_t) * model->meshes[j].face_count
      });
      }
    }    
  }

  return model;
}

HMM_Vec3 eye = {50,10,5};

void draw_model(struct model *model, HMM_Mat4 amodel, HMM_Mat4 lsm) {
  HMM_Mat4 proj = HMM_Perspective_RH_ZO(45, 1200.f / 720, 0.1, 10000);
  HMM_Vec3 center = {0.f, 0.f, 0.f};
  HMM_Vec3 up = {0.f, 1.f, 0.f};
  HMM_Mat4 view = HMM_LookAt_RH(eye, center, up);

  HMM_Mat4 vp = HMM_MulM4(proj, view);
  HMM_Mat4 mvp = HMM_MulM4(vp, amodel);

  HMM_Vec3 lp = {1, 1, 1};
  HMM_Vec3 dir_dir = HMM_NormV3(HMM_SubV3(center, dirl_pos));

  HMM_Mat4 m2[4];
  m2[0] = view;
  m2[1] = amodel;
  m2[2] = proj;
  m2[3] = lsm;

  HMM_Vec3 f_ubo[5];
  f_ubo[0] = lp;
  f_ubo[1] = dir_dir;
  f_ubo[2] = eye;
  f_ubo[3] = eye;
  f_ubo[4] = eye;

  sg_apply_pipeline(model_pipe);
  sg_apply_uniforms(SG_SHADERSTAGE_VS, 0, SG_RANGE_REF(m2));
  sg_apply_uniforms(SG_SHADERSTAGE_FS, 0, SG_RANGE_REF(f_ubo));


  for (int i = 0; i < arrlen(model->meshes); i++) {
    sg_apply_bindings(&model->meshes[i].bind);
    sg_draw(0, model->meshes[i].face_count, 1);    
  }
}