#include #include "holly/background.hpp" #include "holly/core.hpp" #include "holly/core_bits.hpp" #include "holly/holly.hpp" #include "holly/isp_tsp.hpp" #include "holly/region_array.hpp" #include "holly/ta_bits.hpp" #include "holly/ta_fifo_polygon_converter.hpp" #include "holly/ta_global_parameter.hpp" #include "holly/ta_parameter.hpp" #include "holly/ta_vertex_parameter.hpp" #include "holly/texture_memory_alloc3.hpp" #include "holly/video_output.hpp" #include "sh7091/sh7091.hpp" #include "sh7091/sh7091_bits.hpp" #include "sh7091/serial.hpp" #include "sh7091/vbr.hpp" #include "systembus.hpp" #include "systembus_bits.hpp" #include "memorymap.hpp" #include "math/vec2.hpp" #include "math/vec3.hpp" #include "math/vec4.hpp" #include "math/mat4x4.hpp" using vec2 = vec<2, float>; using vec3 = vec<3, float>; using vec4 = vec<4, float>; using mat4x4 = mat<4, 4, float>; #include "texture/gradient/gradient.data.h" void vbr100() { serial::string("vbr100\n"); serial::string("expevt "); serial::integer(sh7091.CCN.EXPEVT); serial::string("intevt "); serial::integer(sh7091.CCN.INTEVT); serial::string("tra "); serial::integer(sh7091.CCN.TRA); uint32_t spc; uint32_t ssr; asm volatile ("stc spc,%0" : "=r" (spc)); asm volatile ("stc ssr,%0" : "=r" (ssr)); serial::string("spc "); serial::integer(spc); serial::string("ssr "); serial::integer(ssr); while (1); } void vbr400() { serial::string("vbr400\n"); serial::string("expevt "); serial::integer(sh7091.CCN.EXPEVT); serial::string("intevt "); serial::integer(sh7091.CCN.INTEVT); serial::string("tra "); serial::integer(sh7091.CCN.TRA); uint32_t spc; uint32_t ssr; asm volatile ("stc spc,%0" : "=r" (spc)); asm volatile ("stc ssr,%0" : "=r" (ssr)); serial::string("spc "); serial::integer(spc); serial::string("ssr "); serial::integer(ssr); while (1); } static int render_done = 0; void vbr600() { if (sh7091.CCN.EXPEVT == 0 && sh7091.CCN.INTEVT == 0x320) { uint32_t istnrm = system.ISTNRM; uint32_t isterr = system.ISTERR; if (isterr) { serial::string("isterr: "); serial::integer(system.ISTERR); } if (istnrm & istnrm::end_of_render_tsp) { system.ISTNRM = istnrm::end_of_render_tsp | istnrm::end_of_render_isp | istnrm::end_of_render_video; render_done = 1; return; } } serial::string("vbr600\n"); serial::string("expevt "); serial::integer(sh7091.CCN.EXPEVT); serial::string("intevt "); serial::integer(sh7091.CCN.INTEVT); serial::string("tra "); serial::integer(sh7091.CCN.TRA); serial::string("istnrm: "); serial::integer(system.ISTNRM); serial::string("isterr: "); serial::integer(system.ISTERR); uint32_t spc; uint32_t ssr; asm volatile ("stc spc,%0" : "=r" (spc)); asm volatile ("stc ssr,%0" : "=r" (ssr)); serial::string("spc "); serial::integer(spc); serial::string("ssr "); serial::integer(ssr); while (1); } void interrupt_init() { system.IML2NRM = 0; system.IML2ERR = 0; system.IML2EXT = 0; system.IML4NRM = 0; system.IML4ERR = 0; system.IML4EXT = 0; system.IML6NRM = 0; system.IML6ERR = 0; system.IML6EXT = 0; system.ISTERR = 0xffffffff; system.ISTNRM = 0xffffffff; sh7091.CCN.INTEVT = 0; sh7091.CCN.EXPEVT = 0; uint32_t vbr = reinterpret_cast(&__vbr_link_start) - 0x100; asm volatile ("ldc %0,vbr" : : "r" (vbr)); uint32_t sr; asm volatile ("stc sr,%0" : "=r" (sr)); serial::string("sr "); serial::integer(sr); sr &= ~sh::sr::bl; // BL sr &= ~sh::sr::imask(15); // imask serial::string("sr "); serial::integer(sr); asm volatile ("ldc %0,sr" : : "r" (sr)); } void global_polygon_type_0(ta_parameter_writer& writer, uint32_t texture_address, int width, int height) { 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 | obj_control::texture ; 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::fog_control::no_fog | tsp_instruction_word::src_alpha_instr::one | tsp_instruction_word::dst_alpha_instr::zero | tsp_instruction_word::texture_u_size::from_int(width) | tsp_instruction_word::texture_v_size::from_int(height) | tsp_instruction_word::clamp_uv::uv | tsp_instruction_word::filter_mode::bilinear_filter ; const uint32_t texture_control_word = texture_control_word::pixel_format::_565 | texture_control_word::scan_order::twiddled | texture_control_word::texture_address(texture_address / 8); writer.append() = ta_global_parameter::polygon_type_0(parameter_control_word, isp_tsp_instruction_word, tsp_instruction_word, texture_control_word, 0, // data_size_for_sort_dma 0 // next_address_for_sort_dma ); } static inline void render_quad(ta_parameter_writer& writer, uint32_t base_color, vec3 ap, vec3 bp, vec3 cp, vec3 dp, vec2 at, vec2 bt, vec2 ct, vec2 dt) { if (ap.z < 0 || bp.z < 0 || cp.z < 0) return; writer.append() = ta_vertex_parameter::polygon_type_3(polygon_vertex_parameter_control_word(false), ap.x, ap.y, ap.z, at.x, at.y, base_color, 0); // offset_color writer.append() = ta_vertex_parameter::polygon_type_3(polygon_vertex_parameter_control_word(false), bp.x, bp.y, bp.z, bt.x, bt.y, base_color, 0); // offset_color writer.append() = ta_vertex_parameter::polygon_type_3(polygon_vertex_parameter_control_word(false), dp.x, dp.y, dp.z, dt.x, dt.y, base_color, 0); // offset_color writer.append() = ta_vertex_parameter::polygon_type_3(polygon_vertex_parameter_control_word(true), cp.x, cp.y, cp.z, ct.x, ct.y, base_color, 0); // offset_color } struct vertex { vec3 pos; vec2 tex; }; struct vertex quad[] = { {{ 0, 0, 0.1}, {0, 0}}, {{640, 0, 0.1}, {1, 0}}, {{640, 480, 0.1}, {1, 1}}, {{ 0, 480, 0.1}, {0, 1}}, }; void transfer_scene(ta_parameter_writer& writer) { uint32_t texture_address = texture_memory_alloc.texture.start; global_polygon_type_0(writer, texture_address, 8, 8); render_quad(writer, 0, quad[0].pos, quad[1].pos, quad[2].pos, quad[3].pos, quad[0].tex, quad[1].tex, quad[2].tex, quad[3].tex); writer.append() = ta_global_parameter::end_of_list(para_control::para_type::end_of_list); } void transfer_ta_fifo_texture_memory_32byte(void * dst, const void * src, int length) { uint32_t out_addr = (uint32_t)dst; sh7091.CCN.QACR0 = ((reinterpret_cast(out_addr) >> 24) & 0b11100); sh7091.CCN.QACR1 = ((reinterpret_cast(out_addr) >> 24) & 0b11100); volatile uint32_t * base = &store_queue[(out_addr & 0x03ffffc0) / 4]; const uint32_t * src32 = reinterpret_cast(src); length = (length + 31) & ~31; // round up to nearest multiple of 32 while (length > 0) { base[0] = src32[0]; base[1] = src32[1]; base[2] = src32[2]; base[3] = src32[3]; base[4] = src32[4]; base[5] = src32[5]; base[6] = src32[6]; base[7] = src32[7]; asm volatile ("pref @%0" : // output : "r" (&base[0]) // input : "memory"); length -= 32; base += 8; src32 += 8; } } void transfer_texture() { void * start = (void *)&_binary_texture_gradient_gradient_data_start; int size = (int)&_binary_texture_gradient_gradient_data_size; uint32_t offset = texture_memory_alloc.texture.start; void * dst = (void *)(&texture_memory64[offset / 4]); transfer_ta_fifo_texture_memory_32byte(dst, start, size); } void transfer_textures() { system.LMMODE0 = 0; // 64-bit address space system.LMMODE1 = 0; // 64-bit address space transfer_texture(); } static uint8_t __attribute__((aligned(32))) ta_parameter_buf[1024 * 1024] = {0}; void main() { serial::init(0); interrupt_init(); constexpr uint32_t ta_alloc = 0 | 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::_16x4byte; constexpr int render_passes = 1; constexpr struct opb_size opb_size[render_passes] = { { .opaque = 16 * 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(); system.IML6NRM = istnrm::end_of_render_tsp; const int framebuffer_width = 640; const int framebuffer_height = 480; const int tile_width = framebuffer_width / 32; const int tile_height = framebuffer_height / 32; for (int i = 0; i < 2; i++) { region_array_multipass(tile_width, tile_height, opb_size, render_passes, texture_memory_alloc.region_array[i].start, texture_memory_alloc.object_list[i].start); background_parameter2(texture_memory_alloc.background[i].start, 0xff202040); } int ta = 0; int core = 0; ta_parameter_writer writer = ta_parameter_writer(ta_parameter_buf); transfer_textures(); video_output::set_mode_vga(); while (1) { ta_polygon_converter_init2(texture_memory_alloc.isp_tsp_parameters[ta].start, texture_memory_alloc.isp_tsp_parameters[ta].end, texture_memory_alloc.object_list[ta].start, texture_memory_alloc.object_list[ta].end, opb_size[0].total(), ta_alloc, tile_width, tile_height); writer.offset = 0; transfer_scene(writer); ta_polygon_converter_writeback(writer.buf, writer.offset); ta_polygon_converter_transfer(writer.buf, writer.offset); ta_wait_opaque_list(); render_done = 0; core_start_render2(texture_memory_alloc.region_array[core].start, texture_memory_alloc.isp_tsp_parameters[core].start, texture_memory_alloc.background[core].start, texture_memory_alloc.framebuffer[core].start, framebuffer_width); //serial::string("wait render_done"); while (render_done == 0) { asm volatile ("nop"); }; while (!spg_status::vsync(holly.SPG_STATUS)); holly.FB_R_SOF1 = texture_memory_alloc.framebuffer[ta].start; while (spg_status::vsync(holly.SPG_STATUS)); } }