example: add tetrahedron

2024-05-31 21:41:00 -05:00 · 2024-05-31 21:41:00 -05:00 · 90fe17ac5c
commit 90fe17ac5c
parent dd5969dc1f
3 changed files with 212 additions and 3 deletions
--- a/example/example.mk
+++ b/example/example.mk
@ -542,3 +542,14 @@ SIERPINSKI_OBJ = \
 example/sierpinski.elf: LDSCRIPT = $(LIB)/main.lds
 example/sierpinski.elf: $(START_OBJ) $(SIERPINSKI_OBJ)
 TETRAHEDRON_OBJ = \
 	example/tetrahedron.o \
 	holly/core.o \
 	holly/region_array.o \
 	holly/background.o \
 	holly/ta_fifo_polygon_converter.o \
 	holly/video_output.o
 example/tetrahedron.elf: LDSCRIPT = $(LIB)/main.lds
 example/tetrahedron.elf: $(START_OBJ) $(TETRAHEDRON_OBJ)
--- a/example/icosphere.cpp
+++ b/example/icosphere.cpp
@ -92,7 +92,7 @@ void transform(ta_parameter_writer& parameter,
      auto l = lights[0] - point;
      auto n_dot_l = dot(n, l);
      if (n_dot_l > 0) {
-        color.x += 0.6 * n_dot_l / (length(n) * length(l));
+        color.x += 0.6 * n_dot_l / (magnitude(n) * magnitude(l));
      }
    }
@ -100,7 +100,7 @@ void transform(ta_parameter_writer& parameter,
      auto l = lights[1] - point;
      auto n_dot_l = dot(n, l);
      if (n_dot_l > 0) {
-        color.y += 0.6 * n_dot_l / (length(n) * length(l));
+        color.y += 0.6 * n_dot_l / (magnitude(n) * magnitude(l));
      }
    }
@ -108,7 +108,7 @@ void transform(ta_parameter_writer& parameter,
      auto l = lights[2] - point;
      auto n_dot_l = dot(n, l);
      if (n_dot_l > 0) {
-        color.z += 0.6 * n_dot_l / (length(n) * length(l));
+        color.z += 0.6 * n_dot_l / (magnitude(n) * magnitude(l));
      }
    }
--- a/example/tetrahedron.cpp
+++ b/example/tetrahedron.cpp
@ -0,0 +1,198 @@
 #include <cstdint>
 #include "holly/texture_memory_alloc.hpp"
 #include "holly/holly.hpp"
 #include "holly/core.hpp"
 #include "holly/core_bits.hpp"
 #include "holly/ta_fifo_polygon_converter.hpp"
 #include "holly/ta_parameter.hpp"
 #include "holly/ta_global_parameter.hpp"
 #include "holly/ta_vertex_parameter.hpp"
 #include "holly/ta_bits.hpp"
 #include "holly/isp_tsp.hpp"
 #include "holly/region_array.hpp"
 #include "holly/background.hpp"
 #include "holly/video_output.hpp"
 #include "memorymap.hpp"
 #include "sh7091/store_queue.hpp"
 #include "math/vec3.hpp"
 constexpr float isqrt2 = 0.7071067811865475;
 using vec3 = vec<3, float>;
 void triangle(vec3 a, vec3 b, vec3 c, const uint32_t base_color)
 {
  const uint32_t parameter_control_word = para_control::para_type::polygon_or_modifier_volume
                                        | para_control::list_type::opaque
                                        | obj_control::col_type::packed_color;
  const uint32_t isp_tsp_instruction_word = isp_tsp_instruction_word::depth_compare_mode::greater
                                          | isp_tsp_instruction_word::culling_mode::no_culling;
  const uint32_t tsp_instruction_word = tsp_instruction_word::src_alpha_instr::one
                                      | tsp_instruction_word::dst_alpha_instr::zero
                                      | tsp_instruction_word::fog_control::no_fog;
  *reinterpret_cast<ta_global_parameter::polygon_type_0 *>(store_queue) =
    ta_global_parameter::polygon_type_0(parameter_control_word,
                                        isp_tsp_instruction_word,
 					tsp_instruction_word,
                                        0, // texture_control_word
                                        0, // data_size_for_sort_dma
                                        0  // next_address_for_sort_dma
                                        );
  sq_transfer_32byte(ta_fifo_polygon_converter);
  *reinterpret_cast<ta_vertex_parameter::polygon_type_0 *>(store_queue) =
    ta_vertex_parameter::polygon_type_0(polygon_vertex_parameter_control_word(false),
 					a.x, a.y, a.z,
 					base_color);
  sq_transfer_32byte(ta_fifo_polygon_converter);
  *reinterpret_cast<ta_vertex_parameter::polygon_type_0 *>(store_queue) =
    ta_vertex_parameter::polygon_type_0(polygon_vertex_parameter_control_word(false),
 					b.x, b.y, b.z,
 					base_color);
  sq_transfer_32byte(ta_fifo_polygon_converter);
  *reinterpret_cast<ta_vertex_parameter::polygon_type_0 *>(store_queue) =
    ta_vertex_parameter::polygon_type_0(polygon_vertex_parameter_control_word(true),
 					c.x, c.y, c.z,
 					base_color);
  sq_transfer_32byte(ta_fifo_polygon_converter);
 }
 void tetrahedron(vec3 a, vec3 b, vec3 c, vec3 d)
 {
  /*
    vec3 a = { 1, 0,-isqrt2};
    vec3 b = {-1, 0,-isqrt2};
    vec3 c = { 0, 1, isqrt2};
    vec3 d = { 0,-1, isqrt2};
      c - d
     / \ /
    b - a
  */
  triangle(a, b, c, 0xff'00ffff); // c
  triangle(a, c, d, 0xff'ffff00); // y
  triangle(d, a, b, 0xff'ff00ff); // m
  triangle(d, b, c, 0xff'00ff00); // g
 }
 vec3 midpoint(vec3 a, vec3 b)
 {
  return {(a.x + b.x) / 2.f,
 	  (a.y + b.y) / 2.f,
 	  (a.z + b.z) / 2.f};
 }
 void subdivide(vec3 a, vec3 b, vec3 c, vec3 d, int depth)
 {
  vec3 ab = midpoint(a, b);
  vec3 ac = midpoint(a, c);
  vec3 ad = midpoint(a, d);
  vec3 bc = midpoint(b, c);
  vec3 bd = midpoint(b, d);
  vec3 cd = midpoint(c, d);
  if (depth == 0) {
    tetrahedron(ad,  a, ab, ac);
    tetrahedron(bd, ab,  b, bc);
    tetrahedron(cd, ac, bc,  c);
    tetrahedron( d, ad, bd, cd);
  } else {
    subdivide(ad,  a, ab, ac, depth - 1);
    subdivide(bd, ab,  b, bc, depth - 1);
    subdivide(cd, ac, bc,  c, depth - 1);
    subdivide( d, ad, bd, cd, depth - 1);
  }
 }
 float theta;
 vec3 transform(vec3 v)
 {
  float x1 = v.x * __builtin_cosf(theta) - v.z * __builtin_sinf(theta);
  float y1 = v.y;
  float z1 = v.x * __builtin_sinf(theta) + v.z * __builtin_cosf(theta);
  float x = x1;
  float y = y1 * __builtin_cosf(-theta * 0.3) - z1 * __builtin_sinf(-theta * 0.3);
  float z = y1 * __builtin_sinf(-theta * 0.3) + z1 * __builtin_cosf(-theta * 0.3);
  return {
    x * 200.f + 320.f,
    y * 200.f + 240.f,
    1.f / (z + 10.f),
  };
 }
 void main()
 {
  video_output::set_mode_vga();
  theta = 0.f;
  constexpr uint32_t ta_alloc = ta_alloc_ctrl::pt_opb::no_list
                              | ta_alloc_ctrl::tm_opb::no_list
                              | ta_alloc_ctrl::t_opb::no_list
                              | ta_alloc_ctrl::om_opb::_16x4byte
                              | ta_alloc_ctrl::o_opb::_16x4byte;
  constexpr struct opb_size opb_size = { .opaque = 16 * 4
                                       , .opaque_modifier = 16 * 4
                                       , .translucent = 0
                                       , .translucent_modifier = 0
                                       , .punch_through = 0
                                       };
  holly.SOFTRESET = softreset::pipeline_soft_reset
                  | softreset::ta_soft_reset;
  holly.SOFTRESET = 0;
  core_init();
  region_array2(640 / 32, 480 / 32, opb_size);
  background_parameter(0xff0000ff);
  uint32_t frame_ix = 0;
  while (true) {
    ta_polygon_converter_init(opb_size.total(),
                              ta_alloc,
                              640 / 32,
                              480 / 32);
    vec3 a = { 1, 0,-isqrt2};
    vec3 b = {-1, 0,-isqrt2};
    vec3 c = { 0, 1, isqrt2};
    vec3 d = { 0,-1, isqrt2};
    subdivide(transform(a),
 	      transform(b),
 	      transform(c),
 	      transform(d),
 	      4);
    theta += 0.01f;
    // end of opaque list
    *reinterpret_cast<ta_global_parameter::end_of_list *>(store_queue) =
      ta_global_parameter::end_of_list(para_control::para_type::end_of_list);
    sq_transfer_32byte(ta_fifo_polygon_converter);
    ta_wait_opaque_list();
    core_start_render(frame_ix);
    core_wait_end_of_render_video();
    while (!spg_status::vsync(holly.SPG_STATUS));
    core_flip(frame_ix);
    while (spg_status::vsync(holly.SPG_STATUS));
    frame_ix = (frame_ix + 1) & 1;
  }
 }