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dreamcast/example/maple_analog.cpp
Zack Buhman 511d99563d maple_bus_commands: zero-sized structs should be zero sized 
From the GCC manual.

> GCC permits a C structure to have no members:

struct empty {
};

> The structure has size zero. In C++, empty structures are part of the
> language. G++ treats empty structures as if they had a single member of type
> char.

I was not aware of the different behavior in C++.

This fixes every maple example--most were broken for multiple reasons, including
this one.

This also enables SH4 caching. This includes linking code/data into the P1
area (previously this was not the case).

The maple examples (which indeed involve much use of DMA) require much work to
successfully work with the operand and copyback caches. The vibration example
currently is the most complete, though I should consider more on how I want to
structure maple response operand cache invalidation more generally.
2024-02-02 22:05:10 +08:00

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#include <cstdint>
#include <bit>
#include "align.hpp"
#include "vga.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_vertex_parameter.hpp"
#include "holly/ta_global_parameter.hpp"
#include "holly/ta_bits.hpp"
#include "holly/isp_tsp.hpp"
#include "holly/region_array.hpp"
#include "holly/background.hpp"
#include "holly/texture_memory_alloc.hpp"
#include "memorymap.hpp"
#include "sh7091/serial.hpp"
#include "geometry/border.hpp"
#include "geometry/circle.hpp"
#include "math/vec4.hpp"
#include "maple/maple.hpp"
#include "maple/maple_impl.hpp"
#include "maple/maple_bus_bits.hpp"
#include "maple/maple_bus_commands.hpp"
#include "maple/maple_bus_ft0.hpp"
uint32_t _command_buf[1024 / 4 + 32];
uint32_t _receive_buf[1024 / 4 + 32];
static ft0::data_transfer::data_format data[4];
void do_get_condition(uint32_t * command_buf,
uint32_t * receive_buf)
{
using command_type = get_condition;
using response_type = data_transfer<ft0::data_transfer::data_format>;
get_condition::data_fields data_fields = {
.function_type = std::byteswap(function_type::controller)
};
const uint32_t size = maple::init_host_command_all_ports<command_type, response_type>(command_buf, receive_buf,
data_fields);
maple::dma_start(command_buf, size);
using command_response_type = struct maple::command_response<response_type::data_fields>;
for (uint8_t port = 0; port < 4; port++) {
auto response = reinterpret_cast<command_response_type *>(receive_buf);
auto& bus_data = response[port].bus_data;
if (bus_data.command_code != response_type::command_code) {
return;
}
auto& data_fields = bus_data.data_fields;
if ((data_fields.function_type & std::byteswap(function_type::controller)) == 0) {
return;
}
data[port].analog_axis_3 = data_fields.data.analog_axis_3;
data[port].analog_axis_4 = data_fields.data.analog_axis_4;
}
}
void transform(ta_parameter_writer& parameter,
const vec3 * vertices,
const face_vtn& face,
const vec4& color,
const vec3& position,
const float scale
)
{
const uint32_t parameter_control_word = para_control::para_type::polygon_or_modifier_volume
| para_control::list_type::opaque
| obj_control::col_type::floating_color
| obj_control::gouraud;
const uint32_t isp_tsp_instruction_word = isp_tsp_instruction_word::depth_compare_mode::greater
| isp_tsp_instruction_word::culling_mode::cull_if_positive;
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;
parameter.append<ta_global_parameter::polygon_type_0>() =
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
);
constexpr uint32_t strip_length = 3;
for (uint32_t i = 0; i < strip_length; i++) {
// world transform
uint32_t vertex_ix = face[i].vertex;
auto& vertex = vertices[vertex_ix];
auto point = vertex;
// rotate 90° around the X axis
float x = point.x;
float y = point.z;
float z = point.y;
// world transform
x *= scale; // world space
y *= scale; // world space
z *= 10;
// object transform
x += position.x; // object space
y += position.y; // object space
z += position.z; // object space
// camera transform
z += 1;
//y -= 10;
// screen space transform
x *= 240.f;
y *= 240.f;
x += 320.f;
y += 240.f;
z = 1 / z;
bool end_of_strip = i == strip_length - 1;
parameter.append<ta_vertex_parameter::polygon_type_1>() =
ta_vertex_parameter::polygon_type_1(polygon_vertex_parameter_control_word(end_of_strip),
x, y, z,
color.w, // alpha
color.x, // r
color.y, // g
color.z // b
);
}
}
void init_texture_memory(const struct opb_size& opb_size)
{
auto mem = reinterpret_cast<volatile texture_memory_alloc *>(texture_memory32);
background_parameter(mem->background, 0xff220000);
region_array2(mem->region_array,
(offsetof (struct texture_memory_alloc, object_list)),
640 / 32, // width
480 / 32, // height
opb_size
);
}
uint32_t _ta_parameter_buf[((32 * 8192) + 32) / 4];
void main()
{
uint32_t * command_buf = align_32byte(_command_buf);
uint32_t * receive_buf = align_32byte(_receive_buf);
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::_16x4byte;
constexpr struct opb_size opb_size = { .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();
init_texture_memory(opb_size);
uint32_t frame_ix = 0;
constexpr uint32_t num_frames = 1;
while (1) {
do_get_condition(command_buf, receive_buf);
ta_polygon_converter_init(opb_size.total(),
ta_alloc,
640 / 32,
480 / 32);
float x_pos = static_cast<float>(data[0].analog_axis_3 - 0x80) * (0.5 / 127);
float y_pos = static_cast<float>(data[0].analog_axis_4 - 0x80) * (0.5 / 127);
auto parameter = ta_parameter_writer(ta_parameter_buf);
for (uint32_t i = 0; i < border::num_faces; i++) {
transform(parameter,
border::vertices,
border::faces[i],
{1.0, 0.0, 0.0, 1.0}, // color
{0.0, 0.0, 0.0}, // position
0.5f * (1.f / 0.95f) // scale
);
}
for (uint32_t i = 0; i < circle::num_faces; i++) {
transform(parameter,
circle::vertices,
circle::faces[i],
{0.0, 1.0, 1.0, 1.0}, // color
{x_pos, y_pos, 0.0}, // position
0.05f // scale
);
}
parameter.append<ta_global_parameter::end_of_list>() = ta_global_parameter::end_of_list(para_control::para_type::end_of_list);
ta_polygon_converter_transfer(ta_parameter_buf, parameter.offset);
ta_wait_opaque_list();
core_start_render(frame_ix, num_frames);
core_wait_end_of_render_video();
while (!spg_status::vsync(holly.SPG_STATUS));
core_flip(frame_ix, num_frames);
while (spg_status::vsync(holly.SPG_STATUS));
frame_ix += 1;
}
}
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