/* CRT SwitchRes Core * Copyright (C) 2018 Alphanu / Ben Templeman. * * RetroArch - A frontend for libretro. * Copyright (C) 2010-2014 - Hans-Kristian Arntzen * Copyright (C) 2011-2017 - Daniel De Matteis * * RetroArch is free software: you can redistribute it and/or modify it under the terms * of the GNU General Public License as published by the Free Software Found- * ation, either version 3 of the License, or (at your option) any later version. * * RetroArch is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; * without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR * PURPOSE. See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along with RetroArch. * If not, see . */ #include #include #include #include "../retroarch.h" #include "video_crt_switch.h" #include "video_display_server.h" #ifdef HAVE_CONFIG_H #include "../config.h" #endif #if defined(HAVE_VIDEOCORE) #include "include/userland/interface/vmcs_host/vc_vchi_gencmd.h" static void crt_rpi_switch(int width, int height, float hz, int xoffset); #endif static unsigned ra_core_width = 0; static unsigned ra_core_height = 0; static unsigned ra_tmp_width = 0; static unsigned ra_tmp_height = 0; static unsigned ra_set_core_hz = 0; static int crt_center_adjust = 0; static int crt_tmp_center_adjust = 0; static double p_clock = 0; static bool first_run = true; static float ra_tmp_core_hz = 0.0f; static float fly_aspect = 0.0f; static float ra_core_hz = 0.0f; static unsigned crt_index = 0; static void crt_check_first_run(void) { if (!first_run) return; first_run = false; } static void switch_crt_hz(void) { if (ra_core_hz == ra_tmp_core_hz) return; /* set hz float to an int for windows switching */ if (ra_core_hz < 100) { if (ra_core_hz < 53) ra_set_core_hz = 50; if (ra_core_hz >= 53 && ra_core_hz < 57) ra_set_core_hz = 55; if (ra_core_hz >= 57) ra_set_core_hz = 60; } if (ra_core_hz > 100) { if (ra_core_hz < 106) ra_set_core_hz = 120; if (ra_core_hz >= 106 && ra_core_hz < 114) ra_set_core_hz = 110; if (ra_core_hz >= 114) ra_set_core_hz = 120; } video_monitor_set_refresh_rate(ra_set_core_hz); ra_tmp_core_hz = ra_core_hz; } void crt_aspect_ratio_switch(unsigned width, unsigned height) { /* send aspect float to videeo_driver */ fly_aspect = (float)width / height; video_driver_set_aspect_ratio_value((float)fly_aspect); } static void switch_res_crt(unsigned width, unsigned height) { video_display_server_set_resolution(width, height, ra_set_core_hz, ra_core_hz, crt_center_adjust, crt_index, crt_center_adjust); #if defined(HAVE_VIDEOCORE) crt_rpi_switch(width, height, ra_core_hz, crt_center_adjust); video_monitor_set_refresh_rate(ra_core_hz); crt_switch_driver_reinit(); #endif video_driver_apply_state_changes(); } /* Create correct aspect to fit video if resolution does not exist */ static void crt_screen_setup_aspect(unsigned width, unsigned height) { #if defined(HAVE_VIDEOCORE) if (height > 300) height = height/2; #endif switch_crt_hz(); /* get original resolution of core */ if (height == 4) { /* detect menu only */ if (width < 700) width = 320; height = 240; crt_aspect_ratio_switch(width, height); } if (height < 200 && height != 144) { crt_aspect_ratio_switch(width, height); height = 200; } if (height > 200) crt_aspect_ratio_switch(width, height); if (height == 144 && ra_set_core_hz == 50) { height = 288; crt_aspect_ratio_switch(width, height); } if (height > 200 && height < 224) { crt_aspect_ratio_switch(width, height); height = 224; } if (height > 224 && height < 240) { crt_aspect_ratio_switch(width, height); height = 240; } if (height > 240 && height < 255) { crt_aspect_ratio_switch(width, height); height = 254; } if (height == 528 && ra_set_core_hz == 60) { crt_aspect_ratio_switch(width, height); height = 480; } if (height >= 240 && height < 255 && ra_set_core_hz == 55) { crt_aspect_ratio_switch(width, height); height = 254; } switch_res_crt(width, height); } void crt_switch_res_core(unsigned width, unsigned height, float hz, unsigned crt_mode, int crt_switch_center_adjust, int monitor_index, bool dynamic) { /* ra_core_hz float passed from within * video_driver_monitor_adjust_system_rates() */ if (width == 4) { width = 320; height = 240; } ra_core_height = height; ra_core_hz = hz; if (dynamic) ra_core_width = crt_compute_dynamic_width(width); else ra_core_width = width; crt_center_adjust = crt_switch_center_adjust; crt_index = monitor_index; if (crt_mode == 2) { if (hz > 53) ra_core_hz = hz * 2; if (hz <= 53) ra_core_hz = 120.0f; } crt_check_first_run(); /* Detect resolution change and switch */ if ( (ra_tmp_height != ra_core_height) || (ra_core_width != ra_tmp_width) || (crt_center_adjust != crt_tmp_center_adjust) ) crt_screen_setup_aspect(ra_core_width, ra_core_height); ra_tmp_height = ra_core_height; ra_tmp_width = ra_core_width; crt_tmp_center_adjust = crt_center_adjust; /* Check if aspect is correct, if not change */ if (video_driver_get_aspect_ratio() != fly_aspect) { video_driver_set_aspect_ratio_value((float)fly_aspect); video_driver_apply_state_changes(); } } void crt_video_restore(void) { if (first_run) return; first_run = true; } int crt_compute_dynamic_width(int width) { unsigned i; int dynamic_width = 0; unsigned min_height = 261; #if defined(HAVE_VIDEOCORE) p_clock = 32000000; #else p_clock = 21000000; #endif for (i = 0; i < 10; i++) { dynamic_width = width*i; if ((dynamic_width * min_height * ra_core_hz) > p_clock) break; } return dynamic_width; } #if defined(HAVE_VIDEOCORE) static void crt_rpi_switch(int width, int height, float hz, int xoffset) { char buffer[1024]; VCHI_INSTANCE_T vchi_instance; VCHI_CONNECTION_T *vchi_connection = NULL; static char output[250] = {0}; static char output1[250] = {0}; static char output2[250] = {0}; static char set_hdmi[250] = {0}; static char set_hdmi_timing[250] = {0}; int i = 0; int hfp = 0; int hsp = 0; int hbp = 0; int vfp = 0; int vsp = 0; int vbp = 0; int hmax = 0; int vmax = 0; int pdefault = 8; int pwidth = 0; float roundw = 0.0f; float roundh = 0.0f; float pixel_clock = 0; int ip_flag = 0; /* set core refresh from hz */ video_monitor_set_refresh_rate(hz); /* following code is the mode line generator */ hsp = (width * 0.117) - (xoffset*4); if (width < 700) { hfp = (width * 0.065); hbp = width * 0.35-hsp-hfp; }else { hfp = (width * 0.033) + (width / 112); hbp = (width * 0.225) + (width /58); xoffset = xoffset*2; } hmax = hbp; if (height < 241) vmax = 261; if (height < 241 && hz > 56 && hz < 58) vmax = 280; if (height < 241 && hz < 55) vmax = 313; if (height > 250 && height < 260 && hz > 54) vmax = 296; if (height > 250 && height < 260 && hz > 52 && hz < 54) vmax = 285; if (height > 250 && height < 260 && hz < 52) vmax = 313; if (height > 260 && height < 300) vmax = 318; if (height > 400 && hz > 56) vmax = 533; if (height > 520 && hz < 57) vmax = 580; if (height > 300 && hz < 56) vmax = 615; if (height > 500 && hz < 56) vmax = 624; if (height > 300) pdefault = pdefault * 2; vfp = (height + ((vmax - height) / 2) - pdefault) - height; if (height < 300) vsp = vfp + 3; /* needs to be 3 for progressive */ if (height > 300) vsp = vfp + 6; /* needs to be 6 for interlaced */ vsp = 3; vbp = (vmax-height)-vsp-vfp; hmax = width+hfp+hsp+hbp; if (height < 300) { pixel_clock = (hmax * vmax * hz) ; ip_flag = 0; } if (height > 300) { pixel_clock = (hmax * vmax * (hz/2)) /2 ; ip_flag = 1; } /* above code is the modeline generator */ snprintf(set_hdmi_timing, sizeof(set_hdmi_timing), "hdmi_timings %d 1 %d %d %d %d 1 %d %d %d 0 0 0 %f %d %f 1 ", width, hfp, hsp, hbp, height, vfp,vsp, vbp, hz, ip_flag, pixel_clock); vcos_init(); vchi_initialise(&vchi_instance); vchi_connect(NULL, 0, vchi_instance); vc_vchi_gencmd_init(vchi_instance, &vchi_connection, 1); vc_gencmd(buffer, sizeof(buffer), set_hdmi_timing); vc_gencmd_stop(); vchi_disconnect(vchi_instance); snprintf(output1, sizeof(output1), "tvservice -e \"DMT 87\" > /dev/null"); system(output1); snprintf(output2, sizeof(output1), "fbset -g %d %d %d %d 24 > /dev/null", width, height, width, height); system(output2); } #endif