#include #include "sh7091/sh7091.hpp" #include "sh7091/sh7091_bits.hpp" #include "holly/holly.hpp" #include "holly/core_bits.hpp" #include "aica.hpp" #include "memorymap.hpp" #include "vga.hpp" #include "rgb.hpp" /* uint32_t get_cable_type() { // set all pins to input sh7091.BSC.PCTRA = 0; // get cable type from pins 9 + 8 return sh7091.BSC.PDTRA & PDTRA__MASK; } */ void vga1() { holly.FB_R_CTRL = holly.FB_R_CTRL & ~fb_r_ctrl::fb_enable; holly.VO_CONTROL |= vo_control::blank_video; holly.FB_R_SIZE = 0; holly.SPG_VBLANK_INT = spg_vblank_int::vblank_out_interrupt_line_number(0x0015) | spg_vblank_int::vblank_in_interrupt_line_number(0x0208); holly.SPG_CONTROL = spg_control::sync_direction::output; constexpr uint32_t hbstart = 0x0345; holly.SPG_HBLANK = spg_hblank::hbend(0x007e) // default | spg_hblank::hbstart(hbstart); // default holly.SPG_LOAD = spg_load::vcount(0x020c) // default | spg_load::hcount(0x0359); // non-default holly.SPG_VBLANK = spg_vblank::vbend(0x0028) // non-default | spg_vblank::vbstart(0x0208); // non-default holly.SPG_WIDTH = spg_width::eqwidth(0x000f) | spg_width::bpwidth(0x0319) | spg_width::vswidth(0x0003) | spg_width::hswidth(0x003f); constexpr uint32_t starty = 0x028; holly.VO_STARTX = vo_startx::horizontal_start_position(0x0a8); holly.VO_STARTY = vo_starty::vertical_start_position_on_field_2(starty) | vo_starty::vertical_start_position_on_field_1(starty); holly.SPG_HBLANK_INT = spg_hblank_int::line_comp_val(hbstart); } void vga2() { holly.FB_BURSTCTRL = fb_burstctrl::wr_burst(0x09) | fb_burstctrl::vid_lat(0x3f) | fb_burstctrl::vid_burst(0x39); constexpr uint32_t x_size = 640; constexpr uint32_t y_size = 480; holly.FB_X_CLIP = fb_x_clip::fb_x_clip_max(x_size - 1) | fb_x_clip::fb_x_clip_min(0); holly.FB_Y_CLIP = fb_y_clip::fb_y_clip_max(y_size - 1) | fb_y_clip::fb_y_clip_min(0); holly.FB_R_SIZE = fb_r_size::fb_modulus(1) | fb_r_size::fb_y_size(y_size - 3) | fb_r_size::fb_x_size((x_size * 16) / 32 - 1); holly.Y_COEFF = y_coeff::coefficient_1(0x80) | y_coeff::coefficient_0_2(0x40); // in 6.10 fixed point; 0x0400 is 1x vertical scale holly.SCALER_CTL = scaler_ctl::vertical_scale_factor(0x0400); holly.FB_W_SOF1 = fb_w_sof1::frame_buffer_write_address_frame_1(0); holly.FB_W_SOF2 = fb_w_sof2::frame_buffer_write_address_frame_2(0); holly.FB_R_SOF1 = fb_r_sof1::frame_buffer_read_address_frame_1(0); holly.FB_R_SOF2 = fb_r_sof2::frame_buffer_read_address_frame_2(0); holly.FB_R_CTRL = fb_r_ctrl::vclk_div::pclk_vclk_1 | fb_r_ctrl::fb_depth::_0565_rgb_16bit | fb_r_ctrl::fb_enable; #define DVE_OUTPUT_MODE (&aica[0x2c00]) #define DVE_OUTPUT_MODE__VGA (0b00 << 0) *DVE_OUTPUT_MODE = DVE_OUTPUT_MODE__VGA; #undef DVE_OUTPUT_MODE #undef DVE_OUTPUT_MODE__VGA } void v_sync_in() { while (!spg_status::vsync(holly.SPG_STATUS)) { } while (spg_status::vsync(holly.SPG_STATUS)) { } } void v_sync_out() { while (spg_status::vsync(holly.SPG_STATUS)) { } while (!spg_status::vsync(holly.SPG_STATUS)) { } } void vga() { holly.SOFTRESET = softreset::sdram_if_soft_reset | softreset::pipeline_soft_reset | softreset::ta_soft_reset; holly.TEXT_CONTROL = text_control::stride(3); vga1(); vga2(); holly.VO_BORDER_COL = vo_border_col::red(0x00) | vo_border_col::green(0xff) | vo_border_col::blue(0x00); holly.VO_CONTROL = vo_control::pclk_delay(0x16); holly.SDRAM_CFG = 0x15D1C951; holly.SDRAM_REFRESH = 0x00000020; v_sync_in(); holly.SOFTRESET = 0; } void vga_fill_framebuffer() { volatile uint16_t * vram = reinterpret_cast(texture_memory32); for (int y = 0; y < 480; y++) { for (int x = 0; x < 640; x++) { struct hsv hsv = {(y * 255) / 480, 255, 255}; struct rgb rgb = hsv_to_rgb(hsv); vram[y * 640 + x] = ((rgb.r >> 3) << 11) | ((rgb.g >> 2) << 5) | ((rgb.b >> 3) << 0); } } }