#include #include "align.hpp" #include "holly/video_output.hpp" #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 "memorymap.hpp" #include "sh7091/serial.hpp" #include "texture/macaw/macaw.data.h" #include "software_ta.hpp" uint32_t transform(uint32_t * ta_parameter_buf, const software_ta::quad& quad) { auto parameter = ta_parameter_writer(ta_parameter_buf); const uint32_t parameter_control_word = para_control::para_type::sprite //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; const uint32_t texture_control_word = 0; constexpr uint32_t base_color = 0xffff0000; parameter.append() = ta_global_parameter::sprite(parameter_control_word, isp_tsp_instruction_word, tsp_instruction_word, texture_control_word, base_color, 0, // offset_color 0, // data_size_for_sort_dma 0); // next_address_for_sort_dma parameter.append() = ta_vertex_parameter::sprite_type_0(para_control::para_type::vertex_parameter, quad.a.x, quad.a.y, 0.1f, quad.b.x, quad.b.y, 0.1f, quad.c.x, quad.c.y, 0.1f, quad.d.x, quad.d.y); parameter.append() = ta_global_parameter::end_of_list(para_control::para_type::end_of_list); return parameter.offset; } void init_texture_memory(const struct opb_size& opb_size) { auto object_list = &texture_memory32[texture_memory_alloc::object_list.start / 4]; auto isp_tsp_parameters = &texture_memory32[texture_memory_alloc::isp_tsp_parameters.start / 4]; // zeroize for (uint32_t i = 0; i < 0x00100000 / 4; i++) { object_list[i] = 0xeeeeeeee; isp_tsp_parameters[i] = 0xeeeeeeee; } region_array2(640 / 32, // width 480 / 32, // height opb_size ); background_parameter(0xff222200); } uint32_t _ta_parameter_buf[((32 * (32 + 2)) + 32) / 4]; union u32_u8 { uint32_t u32; uint8_t u8[4]; }; static_assert((sizeof (union u32_u8)) == 4); void dump() { auto object_list = &texture_memory32[texture_memory_alloc::object_list.start / 4]; auto isp_tsp_parameters = &texture_memory32[texture_memory_alloc::isp_tsp_parameters.start / 4]; constexpr uint32_t screen_ol_size = 8 * 4 * (640 / 32) * (480 / 32); for (uint32_t i = 0; i < (screen_ol_size + 0x100) / 4; i++) { union u32_u8 n; n.u32 = object_list[i]; if (((i * 4) & 0x1f) == 0) serial::character('\n'); //if (((i * 4) & 0x3f) == 0) // serial::character('\n'); serial::integer(n.u32, ' '); } serial::character('\n'); serial::character('\n'); serial::character('\n'); for (uint32_t i = 0; i < (0x100) / 4; i++) { union u32_u8 n; n.u32 = isp_tsp_parameters[i]; if (((i * 4) & 0x1f) == 0) serial::character('\n'); serial::integer(n.u32, ' '); } } constexpr float half_degree = 0.01745329f / 2.f; constexpr software_ta::point rotate(const software_ta::point& p, const float theta) { float x = p.x; float y = p.y; float x1; x1 = x * __builtin_cosf(theta) - y * __builtin_sinf(theta); y = x * __builtin_sinf(theta) + y * __builtin_cosf(theta); x = x1; x *= 240.f; y *= 240.f; x += 320.f; y += 240.f; return {x, y}; } void main() { video_output::set_mode_vga(); // The address of `ta_parameter_buf` must be a multiple of 32 bytes. // This is mandatory for ch2-dma to the ta fifo polygon converter. uint32_t * ta_parameter_buf = align_32byte(_ta_parameter_buf); 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::no_list | ta_alloc_ctrl::o_opb::_8x4byte; constexpr struct opb_size opb_size = { .opaque = 8 * 4 , .opaque_modifier = 0 , .translucent = 0 , .translucent_modifier = 0 , .punch_through = 0 }; holly.SOFTRESET = softreset::pipeline_soft_reset | softreset::ta_soft_reset; holly.SOFTRESET = 0; core_init(); init_texture_memory(opb_size); float theta = 0; uint32_t frame_ix = 0; uint32_t anim_ix = 0; bool hardware_ta = false; constexpr software_ta::quad q = { {-0.5f, 0.5f}, {-0.5f, -0.5f}, { 0.5f, -0.5f}, { 0.5f, 0.5f}, }; auto object_list = &texture_memory32[texture_memory_alloc::object_list.start / 4]; auto isp_tsp_parameters = &texture_memory32[texture_memory_alloc::isp_tsp_parameters.start / 4]; while (true) { if ((anim_ix & 255) == 0) { holly.SOFTRESET = softreset::pipeline_soft_reset; holly.SOFTRESET = 0; hardware_ta = !hardware_ta; if (hardware_ta) serial::string("now using hardware TA\n"); else serial::string("now using software TA\n"); } software_ta::quad qq; qq.a = rotate(q.a, theta); qq.b = rotate(q.b, theta); qq.c = rotate(q.c, theta); qq.d = rotate(q.d, theta); if (hardware_ta) { ta_polygon_converter_init(opb_size.total(), ta_alloc, 640 / 32, 480 / 32); uint32_t ta_parameter_size = transform(ta_parameter_buf, qq); ta_polygon_converter_transfer(ta_parameter_buf, ta_parameter_size); ta_wait_opaque_list(); } else { software_ta::object_pointer_blocks<8>(object_list, qq); software_ta::isp_tsp_parameters(isp_tsp_parameters, qq); } software_ta::opb_checkerboard_pattern<8>(object_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; theta += half_degree; anim_ix += 1; } }