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- /*
- * (c) Philippe G. 2019, philippe_44@outlook.com
- *
- * This software is released under the MIT License.
- * https://opensource.org/licenses/MIT
- *
- */
- #include <ctype.h>
- #include <math.h>
- #include "esp_dsp.h"
- #include "squeezelite.h"
- #include "slimproto.h"
- #include "display.h"
- #include "gds.h"
- #include "gds_text.h"
- #include "gds_draw.h"
- #include "gds_image.h"
- #include "led_vu.h"
- #pragma pack(push, 1)
- struct grfb_packet {
- char opcode[4];
- s16_t brightness;
- };
- struct grfe_packet {
- char opcode[4];
- u16_t offset;
- u8_t transition;
- u8_t param;
- };
- struct grfs_packet {
- char opcode[4];
- u8_t screen;
- u8_t direction; // 1=left, 2=right
- u32_t pause; // in ms
- u32_t speed; // in ms
- u16_t by; // # of pixel of scroll step
- u16_t mode; // 0=continuous, 1=once and stop, 2=once and end
- u16_t width; // total width of animation
- u16_t offset; // offset if multiple packets are sent
- };
- struct grfg_packet {
- char opcode[4];
- u16_t screen;
- u16_t width; // # of pixels of scrollable
- };
- struct grfa_packet {
- char opcode[4];
- u32_t length;
- u16_t x;
- u16_t y;
- u32_t offset;
- };
- struct visu_packet {
- char opcode[4];
- u8_t which;
- u8_t count;
- union {
- struct {
- u32_t width;
- union {
- struct {
- u32_t bars;
- u32_t spectrum_scale;
- };
- u32_t style;
- };
- } full;
- struct {
- u32_t width;
- u32_t height;
- s32_t col;
- s32_t row;
- u32_t border;
- u32_t bars;
- u32_t spectrum_scale;
- };
- struct {
- u32_t mono;
- u32_t bandwidth;
- u32_t preemph;
- struct {
- u32_t pos;
- u32_t width;
- u32_t orient;
- u32_t bar_width;
- u32_t bar_space;
- u32_t clipping;
- u32_t bar_intens;
- u32_t bar_cap_intens;
- } channels[2];
- };
- struct {
- u32_t mono;
- u32_t style;
- struct {
- u32_t pos;
- u32_t width;
- } channels[2];
- } classical_vu;
- };
- };
- struct ledv_packet {
- char opcode[4];
- u8_t which;
- u8_t style;
- u8_t bright;
- };
- struct ANIC_header {
- char opcode[4];
- u32_t length;
- u8_t mode;
- };
- struct ledd_packet {
- char opcode[4];
- u16_t x;
- u16_t length;
- };
- #pragma pack(pop)
- static struct {
- TaskHandle_t task;
- int wake;
- bool owned;
- struct {
- SemaphoreHandle_t mutex;
- int width, height;
- bool dirty;
- };
- } displayer = { .dirty = true, .owned = true };
- static uint32_t *grayMap;
- #define LONG_WAKE (10*1000)
- #define SB_HEIGHT 32
- // lenght are number of frames, i.e. 2 channels of 16 bits
- #define FFT_LEN_BIT 7
- #define FFT_LEN (1 << FFT_LEN_BIT)
- #define RMS_LEN_BIT 6
- #define RMS_LEN (1 << RMS_LEN_BIT)
- #define VU_WIDTH 160
- #define VU_HEIGHT SB_HEIGHT
- #define VU_COUNT 48
- #define ARROW_WIDTH 11
- #define DISPLAY_BW 20000
- static struct scroller_s {
- // copy of grfs content
- u8_t screen;
- u32_t pause;
- u16_t mode;
- s16_t by;
- // scroller management & sharing between grfg and scrolling task
- bool active, first, overflow;
- int scrolled;
- int speed, wake;
- struct {
- u8_t *frame;
- u32_t width;
- u32_t max, size;
- } scroll;
- struct {
- u8_t *frame;
- u32_t width;
- } back;
- u8_t *frame;
- u32_t width;
- } scroller;
- static struct {
- u8_t *data;
- u32_t size;
- u16_t x, y;
- bool enable, full;
- } artwork;
- #define MAX_BARS 48
- #define VISU_ESP32 0x10
- static EXT_RAM_ATTR struct {
- int bar_gap, bar_width, bar_border;
- bool rotate;
- struct bar_s {
- int current, max;
- int limit;
- } bars[MAX_BARS];
- float spectrum_scale;
- int n, col, row, height, width, border, style, max;
- enum { VISU_BLANK, VISU_VUMETER = 0x01, VISU_SPECTRUM = 0x02, VISU_WAVEFORM } mode;
- struct {
- u8_t *frame;
- int width;
- bool active;
- } back;
- } visu;
- static uint8_t* led_data;
- static EXT_RAM_ATTR struct {
- float fft[FFT_LEN*2], samples[FFT_LEN*2], hanning[FFT_LEN];
- int levels[2];
- } meters;
- static EXT_RAM_ATTR struct {
- int mode;
- int n, style, max;
- u16_t config;
- struct bar_s bars[MAX_BARS] ;
- } led_visu;
- static EXT_RAM_ATTR uint8_t vu_bitmap[VU_WIDTH * VU_HEIGHT];
- extern const uint8_t vu_base[] asm("_binary_vu_s_data_start");
- extern const struct {
- uint8_t offset;
- uint8_t data[VU_HEIGHT * ARROW_WIDTH];
- } vu_arrow[VU_COUNT] asm("_binary_arrow_data_start");
- #define ANIM_NONE 0x00
- #define ANIM_TRANSITION 0x01 // A transition animation has finished
- #define ANIM_SCROLL_ONCE 0x02
- #define ANIM_SCREEN_1 0x04
- #define ANIM_SCREEN_2 0x08
- #define SCROLL_STACK_SIZE (3*1024)
- #define LINELEN 40
- static log_level loglevel = lINFO;
- static bool (*slimp_handler_chain)(u8_t *data, int len);
- static void (*notify_chain)(in_addr_t ip, u16_t hport, u16_t cport);
- static bool (*display_bus_chain)(void *from, enum display_bus_cmd_e cmd);
- #define max(a,b) (((a) > (b)) ? (a) : (b))
- static void server(in_addr_t ip, u16_t hport, u16_t cport);
- static void sendSETD(u16_t width, u16_t height, u16_t led_config);
- static void sendANIC(u8_t code);
- static bool handler(u8_t *data, int len);
- static bool display_bus_handler(void *from, enum display_bus_cmd_e cmd);
- static void vfdc_handler( u8_t *_data, int bytes_read);
- static void grfe_handler( u8_t *data, int len);
- static void grfb_handler(u8_t *data, int len);
- static void grfs_handler(u8_t *data, int len);
- static void grfg_handler(u8_t *data, int len);
- static void grfa_handler(u8_t *data, int len);
- static void visu_handler(u8_t *data, int len);
- static void ledv_handler(u8_t *data, int len);
- static void ledd_handler(u8_t *data, int len);
- static void displayer_task(void* arg);
- /* scrolling undocumented information
- grfs
- B: screen number
- B:1 = left, 2 = right,
- Q: scroll pause once done (ms)
- Q: scroll speed (ms)
- W: # of pixels to scroll each time
- W: 0 = continue scrolling after pause, 1 = scroll to scrollend and then stop, 2 = scroll to scrollend and then end animation (causing new update)
- W: width of total scroll area in pixels
-
- grfd
- W: screen number
- W: width of scrollable area in pixels
- anic ( two versions, don't know what to chose)
- B: flag
- ANIM_TRANSITION (0x01) - transition animation has finished (previous use of ANIC)
- ANIM_SCREEN_1 (0x04) - end of first scroll on screen 1
- ANIM_SCREEN_2 (0x08) - end of first scroll on screen 2
- ANIM_SCROLL_ONCE (0x02) | ANIM_SCREEN_1 (0x04) - end of scroll once on screen 1
- ANIM_SCROLL_ONCE (0x02) | ANIM_SCREEN_2 (0x08) - end of scroll once on screen 2
- - or -
- ANIM_TRANSITION 0x01 # A transition animation has finished
- ANIM_SCROLL_ONCE 0x02 # A scrollonce has finished
- ANIM_SCREEN_1 0x04 # For scrollonce only, screen 1 was scrolling
- ANIM_SCREEN_2 0x08 # For scrollonce only, screen 2 was scrolling
- */
- /* classical visu not our specific version)
- Parameters for the spectrum analyzer:
- 0 - Channels: stereo == 0, mono == 1
- 1 - Bandwidth: 0..22050Hz == 0, 0..11025Hz == 1
- 2 - Preemphasis in dB per KHz
- Left channel parameters:
- 3 - Position in pixels
- 4 - Width in pixels
- 5 - orientation: left to right == 0, right to left == 1
- 6 - Bar width in pixels
- 7 - Bar spacing in pixels
- 8 - Clipping: show all subbands == 0, clip higher subbands == 1
- 9 - Bar intensity (greyscale): 1-3
- 10 - Bar cap intensity (greyscale): 1-3
- Right channel parameters (not required for mono):
- 11-18 - same as left channel parameters
- Parameters for the vumeter:
- 0 - Channels: stereo == 0, mono == 1
- 1 - Style: digital == 0, analog == 1
- Left channel parameters:
- 2 - Position in pixels
- 3 - Width in pixels
- Right channel parameters (not required for mono):
- 4-5 - same as left channel parameters
- */
-
- /****************************************************************************************
- *
- */
- bool sb_displayer_init(void) {
- static DRAM_ATTR StaticTask_t xTaskBuffer __attribute__ ((aligned (4)));
- static EXT_RAM_ATTR StackType_t xStack[SCROLL_STACK_SIZE] __attribute__ ((aligned (4)));
-
- // no display, just make sure we won't have requests
- if ((GDS_GetWidth(display) <= 0 || GDS_GetHeight(display) <= 0) && !led_display) {
- LOG_INFO("no display or led visualizer for LMS");
- return false;
- }
-
- if (display) {
- // need to force height to 32 maximum
- displayer.width = GDS_GetWidth(display);
- displayer.height = min(GDS_GetHeight(display), SB_HEIGHT);
-
- // allocate gray-color mapping if needed;
- if (GDS_GetMode(display) > GDS_GRAYSCALE) {
- grayMap = malloc(256*sizeof(*grayMap));
- for (int i = 0; i < 256; i++) grayMap[i] = GDS_GrayMap(display, i);
- }
-
- // create visu configuration
- visu.bar_gap = 1;
- visu.back.frame = calloc(1, (displayer.width * displayer.height) / 8);
-
- // prepare the VU raw data in PSRAM
- memcpy(vu_bitmap, vu_base, sizeof(vu_bitmap));
-
- // size scroller (width + current screen)
- scroller.scroll.max = (displayer.width * displayer.height / 8) * (15 + 1);
- scroller.scroll.frame = malloc(scroller.scroll.max);
- scroller.back.frame = malloc(displayer.width * displayer.height / 8);
- scroller.frame = malloc(displayer.width * displayer.height / 8);
-
- // chain handlers
- display_bus_chain = display_bus;
- display_bus = display_bus_handler;
- }
-
- if (led_display) {
- led_visu.config = led_vu_string_length();
- led_data = malloc(MAX_BARS);
- }
-
- // inform LMS of our screen/led dimensions
- sendSETD(GDS_GetWidth(display), GDS_GetHeight(display), led_visu.config);
-
- dsps_fft2r_init_fc32(meters.fft, FFT_LEN);
- dsps_wind_hann_f32(meters.hanning, FFT_LEN);
-
- // create displayer management task
- displayer.mutex = xSemaphoreCreateMutex();
- displayer.task = xTaskCreateStatic( (TaskFunction_t) displayer_task, "sb_displayer", SCROLL_STACK_SIZE, NULL, ESP_TASK_PRIO_MIN + 1, xStack, &xTaskBuffer);
-
- // chain handlers
- slimp_handler_chain = slimp_handler;
- slimp_handler = handler;
-
- notify_chain = server_notify;
- server_notify = server;
-
- return display != NULL;
- }
- /****************************************************************************************
- * Receive display bus commands
- */
- static bool display_bus_handler(void *from, enum display_bus_cmd_e cmd) {
- // don't answer to own requests
- if (from == &displayer) return false ;
-
- LOG_INFO("Display bus command %d", cmd);
-
- xSemaphoreTake(displayer.mutex, portMAX_DELAY);
-
- switch (cmd) {
- case DISPLAY_BUS_TAKE:
- displayer.owned = false;
- break;
- case DISPLAY_BUS_GIVE:
- displayer.owned = true;
- break;
- }
-
- xSemaphoreGive(displayer.mutex);
-
- // chain to rest of "bus"
- if (display_bus_chain) return (*display_bus_chain)(from, cmd);
- else return true;
- }
- /****************************************************************************************
- * Send ANImation Complete
- */
- static void sendANIC(u8_t code) {
- struct ANIC_header pkt_header;
- memset(&pkt_header, 0, sizeof(pkt_header));
- memcpy(&pkt_header.opcode, "ANIC", 4);
- pkt_header.length = htonl(sizeof(pkt_header) - 8);
- pkt_header.mode = code;
- LOCK_P;
- send_packet((uint8_t *) &pkt_header, sizeof(pkt_header));
- UNLOCK_P;
- }
-
- /****************************************************************************************
- * Send SETD for width
- */
- static void sendSETD(u16_t width, u16_t height, u16_t led_config) {
- struct SETD_header pkt_header;
-
- memset(&pkt_header, 0, sizeof(pkt_header));
- memcpy(&pkt_header.opcode, "SETD", 4);
- pkt_header.id = 0xfe; // id 0xfe is width S:P:Squeezebox2
- pkt_header.length = htonl(sizeof(pkt_header) + 6 - 8);
-
- LOG_INFO("sending dimension display:%ux%u led_config:%u", width, height, led_config);
- width = htons(width);
- height = htons(height);
- led_config = htons(led_config);
-
- LOCK_P;
- send_packet((uint8_t *) &pkt_header, sizeof(pkt_header));
- send_packet((uint8_t *) &width, 2);
- send_packet((uint8_t *) &height, 2);
- send_packet((uint8_t *) &led_config, 2);
- UNLOCK_P;
- }
- /****************************************************************************************
- *
- */
- static void server(in_addr_t ip, u16_t hport, u16_t cport) {
- char msg[32];
-
- xSemaphoreTake(displayer.mutex, portMAX_DELAY);
-
- sprintf(msg, "%s:%hu", inet_ntoa(ip), hport);
- if (display && displayer.owned) GDS_TextPos(display, GDS_FONT_LINE_1, GDS_TEXT_CENTERED, GDS_TEXT_CLEAR | GDS_TEXT_UPDATE, msg);
- displayer.dirty = true;
-
- xSemaphoreGive(displayer.mutex);
-
- // inform new LMS server of our capabilities
- sendSETD(GDS_GetWidth(display), GDS_GetHeight(display), led_visu.config);
-
- if (notify_chain) (*notify_chain)(ip, hport, cport);
- }
- /****************************************************************************************
- * Process graphic display data
- */
- static bool handler(u8_t *data, int len){
- bool res = true;
- if (!strncmp((char*) data, "vfdc", 4)) {
- vfdc_handler(data, len);
- } else if (!strncmp((char*) data, "grfe", 4)) {
- grfe_handler(data, len);
- } else if (!strncmp((char*) data, "grfb", 4)) {
- grfb_handler(data, len);
- } else if (!strncmp((char*) data, "grfs", 4)) {
- grfs_handler(data, len);
- } else if (!strncmp((char*) data, "grfg", 4)) {
- grfg_handler(data, len);
- } else if (!strncmp((char*) data, "grfa", 4)) {
- grfa_handler(data, len);
- } else if (!strncmp((char*) data, "visu", 4)) {
- visu_handler(data, len);
- } else if (!strncmp((char*) data, "ledv", 4)) {
- ledv_handler(data, len);
- } else if (!strncmp((char*) data, "ledd", 4)) {
- ledd_handler(data, len);
- } else {
- res = false;
- }
- // chain protocol handlers (bitwise or is fine)
- if (*slimp_handler_chain) res |= (*slimp_handler_chain)(data, len);
-
- return res;
- }
- /****************************************************************************************
- * Change special LCD chars to something more printable on screen
- */
- static void makeprintable(unsigned char * line) {
- for (int n = 0; n < LINELEN; n++) {
- switch (line[n]) {
- case 11: /* block */
- line[n] = '#';
- break;;
- case 16: /* rightarrow */
- line[n] = '>';
- break;;
- case 22: /* circle */
- line[n] = '@';
- break;;
- case 145: /* note */
- line[n] = ' ';
- break;;
- case 152: /* bell */
- line[n] = 'o';
- break;
- default:
- break;
- }
- }
- }
- /****************************************************************************************
- * Check if char is printable, or a valid symbol
- */
- static bool charisok(unsigned char c) {
- switch (c) {
- case 11: /* block */
- case 16: /* rightarrow */
- case 22: /* circle */
- case 145: /* note */
- case 152: /* bell */
- return true;
- break;;
- default:
- return isprint(c);
- }
- }
- /****************************************************************************************
- * Show the display (text mode)
- */
- static void show_display_buffer(char *ddram) {
- char line1[LINELEN+1];
- char *line2;
- memset(line1, 0, LINELEN+1);
- strncpy(line1, ddram, LINELEN+1);
- line1[LINELEN] = '\0';
- line2 = &(ddram[LINELEN]);
- line2[LINELEN] = '\0';
- /* Convert special LCD chars */
- makeprintable((unsigned char *)line1);
- makeprintable((unsigned char *)line2);
- LOG_DEBUG("\n\t%.40s\n\t%.40s", line1, line2);
- GDS_TextLine(display, 1, GDS_TEXT_LEFT, GDS_TEXT_CLEAR, line1);
- GDS_TextLine(display, 2, GDS_TEXT_LEFT, GDS_TEXT_CLEAR | GDS_TEXT_UPDATE, line2);
- }
- /****************************************************************************************
- * Process display data
- */
- static void vfdc_handler( u8_t *_data, int bytes_read) {
- unsigned short *data = (unsigned short*) _data, *display_data;
- char ddram[(LINELEN + 1) * 2];
- int n, addr = 0; /* counter */
- bytes_read -= 4;
- if (bytes_read % 2) bytes_read--; /* even number of bytes */
- // if we use Noritake VFD codes, display data starts at 12
- display_data = &(data[5]); /* display data starts at byte 10 */
- memset(ddram, ' ', LINELEN * 2);
- for (n = 0; n < (bytes_read/2); n++) {
- unsigned short d; /* data element */
- unsigned char t, c;
- d = ntohs(display_data[n]);
- t = (d & 0x00ff00) >> 8; /* type of display data */
- c = (d & 0x0000ff); /* character/command */
- switch (t) {
- case 0x03: /* character */
- if (!charisok(c)) c = ' ';
- if (addr <= LINELEN * 2) {
- ddram[addr++] = c;
- }
- break;
- case 0x02: /* command */
- switch (c) {
- case 0x06: /* display clear */
- memset(ddram, ' ', LINELEN * 2);
- break;
- case 0x02: /* cursor home */
- addr = 0;
- break;
- case 0xc0: /* cursor home2 */
- addr = LINELEN;
- break;
- }
- }
- }
- show_display_buffer(ddram);
- }
- /****************************************************************************************
- * Display VU-Meter (lots of hard-coding)
- */
- void draw_VU(struct GDS_Device * display, int level, int x, int y, int width, bool rotate) {
- // VU data is by columns and vertical flip to allow block offset
- uint8_t *data = vu_bitmap;
- int offset = level > 0 ? vu_arrow[level].offset * VU_HEIGHT : 0;
- // place the arrow in base VU
- memcpy(data + offset, vu_arrow[level].data, sizeof(vu_arrow[level].data));
-
- // adjust to current display window
- if (width > VU_WIDTH) {
- if (rotate) y += (width - VU_WIDTH) / 2;
- else x += (width - VU_WIDTH) / 2;
- width = VU_WIDTH;
- } else {
- data += (VU_WIDTH - width) / 2 * VU_HEIGHT;
- }
- if (GDS_GetMode(display) <= GDS_GRAYSCALE) {
- // this is 8 bits grayscale
- int scale = 8 - GDS_GetDepth(display);
-
- // use "fast" version as we are not beyond screen boundaries
- if (rotate) {
- for (int r = 0; r < width; r++) {
- for (int c = VU_HEIGHT; --c >= 0;) {
- GDS_DrawPixelFast(display, c + x, r + y, *data++ >> scale);
- }
- }
- } else {
- for (int r = 0; r < width; r++) {
- for (int c = 0; c < VU_HEIGHT; c++) {
- GDS_DrawPixelFast(display, r + x, c + y, *data++ >> scale);
- }
- }
- }
- } else {
- // use "fast" version as we are not beyond screen boundaries
- if (rotate) {
- for (int r = 0; r < width; r++) {
- for (int c = VU_HEIGHT; --c >= 0;) {
- GDS_DrawPixelFast(display, c + x, r + y, grayMap[*data++]);
- }
- }
- } else {
- for (int r = 0; r < width; r++) {
- for (int c = 0; c < VU_HEIGHT; c++) {
- GDS_DrawPixelFast(display, r + x, c + y, grayMap[*data++]);
- }
- }
- }
- }
-
- // restore base VU
- memcpy(vu_bitmap + offset, vu_base + offset, sizeof(vu_arrow[level].data));
-
- // need to manually set dirty flag as DrawPixel does not do it
- GDS_SetDirty(display);
- }
- /****************************************************************************************
- * Process graphic display data
- */
- static void grfe_handler( u8_t *data, int len) {
- struct grfe_packet *pkt = (struct grfe_packet*) data;
-
- // we don't support transition, simply claim we're done
- if (pkt->transition != 'c') {
- LOG_INFO("Transition %c requested with offset %hu, param %d", pkt->transition, pkt->offset, pkt->param);
- sendANIC(ANIM_TRANSITION);
- }
-
- xSemaphoreTake(displayer.mutex, portMAX_DELAY);
-
- scroller.active = false;
-
- // full screen artwork or for small screen, full screen visu has priority
- if (((visu.mode & VISU_ESP32) && !visu.col && visu.row < displayer.height) || artwork.full) {
- xSemaphoreGive(displayer.mutex);
- return;
- }
-
- // are we in control
- if (displayer.owned) {
- // draw new frame, it might be less than full screen (small visu)
- int width = ((len - sizeof(struct grfe_packet)) * 8) / displayer.height;
- // did we have something that might have written on the bottom of a displayer's height + display
- if (displayer.dirty || (artwork.enable && width == displayer.width && artwork.y < displayer.height)) {
- GDS_Clear(display, GDS_COLOR_BLACK);
- displayer.dirty = false;
- }
-
- // when doing screensaver, that frame becomes a visu background
- if (!(visu.mode & VISU_ESP32)) {
- visu.back.width = width;
- memset(visu.back.frame, 0, (displayer.width * displayer.height) / 8);
- memcpy(visu.back.frame, data + sizeof(struct grfe_packet), (width * displayer.height) / 8);
- // this is a bit tricky but basically that checks if frame if full of 0
- visu.back.active = *visu.back.frame || memcmp(visu.back.frame, visu.back.frame + 1, width - 1);
- }
-
- GDS_DrawBitmapCBR(display, data + sizeof(struct grfe_packet), width, displayer.height, GDS_COLOR_WHITE);
- GDS_Update(display);
- }
-
- xSemaphoreGive(displayer.mutex);
-
- LOG_DEBUG("grfe frame %u", len);
- }
- /****************************************************************************************
- * Brightness
- */
- static void grfb_handler(u8_t *data, int len) {
- struct grfb_packet *pkt = (struct grfb_packet*) data;
-
- pkt->brightness = htons(pkt->brightness);
-
- xSemaphoreTake(displayer.mutex, portMAX_DELAY);
- // LMS driver sends 0..5 value, we assume driver is highly log
- if (pkt->brightness <= 0) {
- GDS_DisplayOff(display);
- } else {
- GDS_DisplayOn(display);
- GDS_SetContrast(display, 255 * powf(pkt->brightness / 5.0f, 3));
- }
-
- xSemaphoreGive(displayer.mutex);
-
- LOG_INFO("brightness %hu", pkt->brightness);
- }
- /****************************************************************************************
- * Scroll set
- */
- static void grfs_handler(u8_t *data, int len) {
- struct grfs_packet *pkt = (struct grfs_packet*) data;
- int size = len - sizeof(struct grfs_packet);
- int offset = htons(pkt->offset);
-
- LOG_DEBUG("grfs s:%u d:%u p:%u sp:%u by:%hu m:%hu w:%hu o:%hu",
- (int) pkt->screen,
- (int) pkt->direction, // 1=left, 2=right
- htonl(pkt->pause), // in ms
- htonl(pkt->speed), // in ms
- htons(pkt->by), // # of pixel of scroll step
- htons(pkt->mode), // 0=continuous, 1=once and stop, 2=once and end
- htons(pkt->width), // last column of animation that contains a "full" screen
- htons(pkt->offset) // offset if multiple packets are sent
- );
-
- // new grfs frame, build scroller info
- if (!offset) {
- // use the display as a general lock
- xSemaphoreTake(displayer.mutex, portMAX_DELAY);
- // copy & set scroll parameters
- scroller.screen = pkt->screen;
- scroller.pause = htonl(pkt->pause);
- scroller.speed = htonl(pkt->speed);
- scroller.mode = htons(pkt->mode);
- scroller.scroll.width = htons(pkt->width);
- scroller.first = true;
- scroller.overflow = false;
-
- // set scroller steps & beginning
- if (pkt->direction == 1) {
- scroller.scrolled = 0;
- scroller.by = htons(pkt->by);
- } else {
- scroller.scrolled = scroller.scroll.width;
- scroller.by = -htons(pkt->by);
- }
- xSemaphoreGive(displayer.mutex);
- }
- // copy scroll frame data (no semaphore needed)
- if (scroller.scroll.size + size < scroller.scroll.max && !scroller.overflow) {
- memcpy(scroller.scroll.frame + offset, data + sizeof(struct grfs_packet), size);
- scroller.scroll.size = offset + size;
- LOG_INFO("scroller current size %u (w:%u)", scroller.scroll.size, scroller.scroll.width);
- } else {
- LOG_INFO("scroller too large %u/%u (w:%u)", scroller.scroll.size + size, scroller.scroll.max, scroller.scroll.width);
- scroller.scroll.width = scroller.scroll.size / (displayer.height / 8) - scroller.back.width;
- scroller.overflow = true;
- }
- }
- /****************************************************************************************
- * Scroll background frame update & go
- */
- static void grfg_handler(u8_t *data, int len) {
- struct grfg_packet *pkt = (struct grfg_packet*) data;
-
- LOG_DEBUG("gfrg s:%hu w:%hu (len:%u)", htons(pkt->screen), htons(pkt->width), len);
- // full screen artwork or for small screen, visu has priority when full screen
- if (((visu.mode & VISU_ESP32) && !visu.col && visu.row < displayer.height) || artwork.full) {
- return;
- }
-
- xSemaphoreTake(displayer.mutex, portMAX_DELAY);
-
- // size of scrollable area (less than background)
- scroller.width = htons(pkt->width);
- scroller.back.width = ((len - sizeof(struct grfg_packet)) * 8) / displayer.height;
- memcpy(scroller.back.frame, data + sizeof(struct grfg_packet), len - sizeof(struct grfg_packet));
-
- // update display asynchronously (frames are organized by columns)
- memcpy(scroller.frame, scroller.back.frame, scroller.back.width * displayer.height / 8);
- for (int i = 0; i < scroller.width * displayer.height / 8; i++) scroller.frame[i] |= scroller.scroll.frame[scroller.scrolled * displayer.height / 8 + i];
-
- // can only write if we really own display
- if (displayer.owned) {
- GDS_DrawBitmapCBR(display, scroller.frame, scroller.back.width, displayer.height, GDS_COLOR_WHITE);
- GDS_Update(display);
- }
-
- // now we can active scrolling, but only if we are not on a small screen
- if (!visu.mode || visu.col || visu.row >= displayer.height) scroller.active = true;
-
- // if we just got a content update, let the scroller manage the screen
- LOG_DEBUG("resuming scrolling task");
-
- xSemaphoreGive(displayer.mutex);
-
- // resume task once we have background, not in grfs
- vTaskResume(displayer.task);
- }
- /****************************************************************************************
- * Artwork
- */
- static void grfa_handler(u8_t *data, int len) {
- struct grfa_packet *pkt = (struct grfa_packet*) data;
- int size = len - sizeof(struct grfa_packet);
- int offset = htonl(pkt->offset);
- int length = htonl(pkt->length);
- // when using full screen visualizer on small screen there is a brief overlay
- artwork.enable = (length != 0);
-
- // just a config or an actual artwork
- if (length < 32) {
- if (artwork.enable) {
- // this is just to specify artwork coordinates
- artwork.x = htons(pkt->x);
- artwork.y = htons(pkt->y);
- } else if (artwork.size) GDS_ClearWindow(display, artwork.x, artwork.y, -1, -1, GDS_COLOR_BLACK);
-
- artwork.full = artwork.enable && artwork.x == 0 && artwork.y == 0;
- LOG_DEBUG("gfra en:%u x:%hu, y:%hu", artwork.enable, artwork.x, artwork.y);
-
- // done in any case
- return;
- }
-
- // new grfa artwork, allocate memory
- if (!offset) {
- // same trick to clean current/previous window
- if (artwork.size) {
- GDS_ClearWindow(display, artwork.x, artwork.y, -1, -1, GDS_COLOR_BLACK);
- artwork.size = 0;
- }
-
- // now use new parameters
- artwork.x = htons(pkt->x);
- artwork.y = htons(pkt->y);
- artwork.full = artwork.enable && artwork.x == 0 && artwork.y == 0;
- if (artwork.data) free(artwork.data);
- artwork.data = malloc(length);
- }
-
- // copy artwork data
- memcpy(artwork.data + offset, data + sizeof(struct grfa_packet), size);
- artwork.size += size;
- if (artwork.size == length) {
- GDS_ClearWindow(display, artwork.x, artwork.y, -1, -1, GDS_COLOR_BLACK);
- xSemaphoreTake(displayer.mutex, portMAX_DELAY);
- GDS_DrawJPEG(display, artwork.data, artwork.x, artwork.y, artwork.y < displayer.height ? (GDS_IMAGE_RIGHT | GDS_IMAGE_TOP) : GDS_IMAGE_CENTER);
- xSemaphoreGive(displayer.mutex);
- free(artwork.data);
- artwork.data = NULL;
- }
-
- LOG_DEBUG("gfra l:%u x:%hu, y:%hu, o:%u s:%u", length, artwork.x, artwork.y, offset, size);
- }
- /****************************************************************************************
- * Fit spectrum into N bands and convert to dB
- */
- void spectrum_scale(int n, struct bar_s *bars, int max, float *samples) {
- float rate = visu_export.rate;
- // now arrange the result with the number of bar and sampling rate (don't want DC)
- for (int i = 0, j = 1; i < n && j < (FFT_LEN / 2); i++) {
- float power, count;
- // find the next point in FFT (this is real signal, so only half matters)
- for (count = 0, power = 0; j * visu_export.rate < bars[i].limit * FFT_LEN && j < FFT_LEN / 2; j++, count += 1) {
- power += samples[2*j] * samples[2*j] + samples[2*j+1] * samples[2*j+1];
- }
- // due to sample rate, we have reached the end of the available spectrum
- if (j >= (FFT_LEN / 2)) {
- // normalize accumulated data
- if (count) power /= count * 2.;
- } else if (count) {
- // how much of what remains do we need to add
- float ratio = j - (bars[i].limit * FFT_LEN) / rate;
- power += (samples[2*j] * samples[2*j] + samples[2*j+1] * samples[2*j+1]) * ratio;
-
- // normalize accumulated data
- power /= (count + ratio) * 2;
- } else {
- // no data for that band (sampling rate too high), just assume same as previous one
- power = (samples[2*j] * samples[2*j] + samples[2*j+1] * samples[2*j+1]) / 2.;
- }
-
- // convert to dB and bars, same back-off
- bars[i].current = max * (0.01667f*10*(log10f(0.0000001f + power) - log10f(FFT_LEN*(visu_export.gain == FIXED_ONE ? 256 : 2))) - 0.2543f);
- if (bars[i].current > max) bars[i].current = max;
- else if (bars[i].current < 0) bars[i].current = 0;
- }
- }
- /****************************************************************************************
- * Fit levels to max and convert to dB
- */
- void vu_scale(struct bar_s *bars, int max, int *levels) {
- // convert to dB (1 bit remaining for getting X²/N, 60dB dynamic starting from 0dBFS = 3 bits back-off)
- for (int i = 2; --i >= 0;) {
- bars[i].current = max * (0.01667f*10*log10f(0.0000001f + (levels[i] >> (visu_export.gain == FIXED_ONE ? 8 : 1))) - 0.2543f);
- if (bars[i].current > max) bars[i].current = max;
- else if (bars[i].current < 0) bars[i].current = 0;
- }
- }
- /****************************************************************************************
- * visu draw
- */
- void visu_draw(void) {
- // don't refresh screen if all max are 0 (we were are somewhat idle)
- int clear = 0;
- for (int i = visu.n; --i >= 0;) clear = max(clear, visu.bars[i].max);
- if (clear) GDS_ClearExt(display, false, false, visu.col, visu.row, visu.col + visu.width - 1, visu.row + visu.height - 1);
-
- // draw background if we are in screensaver mode
- if (!(visu.mode & VISU_ESP32) && visu.back.active) {
- GDS_DrawBitmapCBR(display, visu.back.frame, visu.back.width, displayer.height, GDS_COLOR_WHITE);
- }
- if ((visu.mode & ~VISU_ESP32) != VISU_VUMETER || !visu.style) {
- // there is much more optimization to be done here, like not redrawing bars unless needed
- for (int i = visu.n; --i >= 0;) {
- // update maximum
- if (visu.bars[i].current > visu.bars[i].max) visu.bars[i].max = visu.bars[i].current;
- else if (visu.bars[i].max) visu.bars[i].max--;
- else if (!clear) continue;
- if (visu.rotate) {
- int x1 = visu.col;
- int y1 = visu.row + visu.border + visu.bar_border + i*(visu.bar_width + visu.bar_gap);
- for (int j = 0; j <= visu.bars[i].current; j += 2)
- GDS_DrawLine(display, x1 + j, y1, x1 + j, y1 + visu.bar_width - 1, GDS_COLOR_WHITE);
-
- if (visu.bars[i].max > 2) {
- GDS_DrawLine(display, x1 + visu.bars[i].max, y1, x1 + visu.bars[i].max, y1 + visu.bar_width - 1, GDS_COLOR_WHITE);
- if (visu.bars[i].max < visu.max - 1) GDS_DrawLine(display, x1 + visu.bars[i].max + 1, y1, x1 + visu.bars[i].max + 1, y1 + visu.bar_width - 1, GDS_COLOR_WHITE);
- }
- } else {
- int x1 = visu.col + visu.border + visu.bar_border + i*(visu.bar_width + visu.bar_gap);
- int y1 = visu.row + visu.height - 1;
- for (int j = 0; j <= visu.bars[i].current; j += 2)
- GDS_DrawLine(display, x1, y1 - j, x1 + visu.bar_width - 1, y1 - j, GDS_COLOR_WHITE);
-
- if (visu.bars[i].max > 2) {
- GDS_DrawLine(display, x1, y1 - visu.bars[i].max, x1 + visu.bar_width - 1, y1 - visu.bars[i].max, GDS_COLOR_WHITE);
- if (visu.bars[i].max < visu.max - 1) GDS_DrawLine(display, x1, y1 - visu.bars[i].max + 1, x1 + visu.bar_width - 1, y1 - visu.bars[i].max + 1, GDS_COLOR_WHITE);
- }
- }
- }
- } else if (displayer.width / 2 >= 3 * VU_WIDTH / 4) {
- if (visu.rotate) {
- draw_VU(display, visu.bars[0].current, 0, visu.row, visu.height / 2, visu.rotate);
- draw_VU(display, visu.bars[1].current, 0, visu.row + visu.height / 2, visu.height / 2, visu.rotate);
- } else {
- draw_VU(display, visu.bars[0].current, 0, visu.row, visu.width / 2, visu.rotate);
- draw_VU(display, visu.bars[1].current, visu.width / 2, visu.row, visu.width / 2, visu.rotate);
- }
- } else {
- int level = (visu.bars[0].current + visu.bars[1].current) / 2;
- draw_VU(display, level, 0, visu.row, visu.rotate ? visu.height : visu.width, visu.rotate);
- }
- }
- /****************************************************************************************
- * Update displayer
- */
- static void displayer_update(void) {
- // no update when artwork is full screen and no led_strip (but no need to protect against not owning the display as we are playing
- if ((artwork.full && !led_visu.mode) || pthread_mutex_trylock(&visu_export.mutex)) {
- return;
- }
-
- int mode = (visu.mode & ~VISU_ESP32) | led_visu.mode;
-
- // not enough frames
- if (visu_export.level < (mode & VISU_SPECTRUM ? FFT_LEN : RMS_LEN) && visu_export.running) {
- pthread_mutex_unlock(&visu_export.mutex);
- return;
- }
-
- // reset all levels no matter what
- meters.levels[0] = meters.levels[1] = 0;
- memset(meters.samples, 0, sizeof(meters.samples));
-
- if (visu_export.running) {
-
- // calculate data for VU-meter
- if (mode & VISU_VUMETER) {
- s16_t *iptr = (s16_t*) visu_export.buffer + (BYTES_PER_FRAME / 4) - 1;
- int *left = &meters.levels[0], *right = &meters.levels[1];
- // calculate sum(L²+R²), try to not overflow at the expense of some precision
- for (int i = RMS_LEN; --i >= 0;) {
- *left += (*iptr * *iptr + (1 << (RMS_LEN_BIT - 2))) >> (RMS_LEN_BIT - 1);
- iptr += BYTES_PER_FRAME / 4;
- *right += (*iptr * *iptr + (1 << (RMS_LEN_BIT - 2))) >> (RMS_LEN_BIT - 1);
- iptr += BYTES_PER_FRAME / 4;
- }
- }
-
- // calculate data for spectrum
- if (mode & VISU_SPECTRUM) {
- s16_t *iptr = (s16_t*) visu_export.buffer + (BYTES_PER_FRAME / 4) - 1;
- // on xtensa/esp32 the floating point FFT takes 1/2 cycles of the fixed point
- for (int i = 0 ; i < FFT_LEN ; i++) {
- // don't normalize here, but we are due INT16_MAX and FFT_LEN / 2 / 2
- meters.samples[i * 2 + 0] = (float) (*iptr + *(iptr+BYTES_PER_FRAME/4)) * meters.hanning[i];
- meters.samples[i * 2 + 1] = 0;
- iptr += 2 * BYTES_PER_FRAME / 4;
- }
- // actual FFT that might be less cycle than all the crap below
- dsps_fft2r_fc32_ae32(meters.samples, FFT_LEN);
- dsps_bit_rev_fc32_ansi(meters.samples, FFT_LEN);
- }
-
- }
-
- // we took what we want, we can release the buffer
- visu_export.level = 0;
- pthread_mutex_unlock(&visu_export.mutex);
- // actualize the display
- if (visu.mode && !artwork.full) {
- if (visu.mode & VISU_SPECTRUM) spectrum_scale(visu.n, visu.bars, visu.max, meters.samples);
- else for (int i = 2; --i >= 0;) vu_scale(visu.bars, visu.max, meters.levels);
- visu_draw();
- }
-
- // actualize led_vu
- if (led_display && led_visu.mode) {
- // run built in visualizer effects
- if (led_visu.mode == VISU_VUMETER) {
- vu_scale(led_visu.bars, led_visu.max, meters.levels);
- led_vu_display(led_visu.bars[0].current, led_visu.bars[1].current, led_visu.max, led_visu.style);
- } else if (led_visu.mode == VISU_SPECTRUM) {
- spectrum_scale(led_visu.n, led_visu.bars, led_visu.max, meters.samples);
- uint8_t* p = (uint8_t*) led_data;
- for (int i = 0; i < led_visu.n; i++) {
- *p = led_visu.bars[i].current;
- p++;
- }
- led_vu_spectrum(led_data, led_visu.max, led_visu.n, led_visu.style);
- } else if (led_visu.mode == VISU_WAVEFORM) {
- spectrum_scale(led_visu.n, led_visu.bars, led_visu.max, meters.samples);
- led_vu_spin_dial(
- led_visu.bars[led_visu.n-2].current,
- led_visu.bars[(led_visu.n/2)+1].current * 50 / led_visu.max,
- led_visu.bars[1].current * 4 / led_visu.max,
- led_visu.style);
- }
- }
- }
- /****************************************************************************************
- * Calculate spectrum spread
- */
- static void spectrum_limits(struct bar_s *bars, int min, int n, int pos, float spectrum_scale) {
- if (n / 2) {
- int step = ((DISPLAY_BW - min) * spectrum_scale) / (n/2);
- bars[pos].limit = min + step;
- for (int i = 1; i < n/2; i++) bars[pos+i].limit = bars[pos+i-1].limit + step;
- spectrum_limits(bars, bars[pos + n/2 - 1].limit, n - n/2, pos + n/2, spectrum_scale);
- } else {
- bars[pos].limit = DISPLAY_BW;
- }
- }
- /****************************************************************************************
- * Fit visu
- */
- static void visu_fit(int bars, int width, int height) {
- // try to adapt to what we have
- if ((visu.mode & ~VISU_ESP32) == VISU_SPECTRUM) {
- visu.n = bars ? bars : MAX_BARS;
- visu.max = height - 1;
- if (visu.spectrum_scale <= 0 || visu.spectrum_scale > 0.5) visu.spectrum_scale = 0.5;
- spectrum_limits(visu.bars, 0, visu.n, 0, visu.spectrum_scale);
- } else {
- visu.n = 2;
- visu.max = (visu.style ? VU_COUNT : height) - 1;
- }
-
- do {
- visu.bar_width = (width - visu.border - visu.bar_gap * (visu.n - 1)) / visu.n;
- if (visu.bar_width > 0) break;
- } while (--visu.n);
-
- visu.bar_border = (width - visu.border - (visu.bar_width + visu.bar_gap) * visu.n + visu.bar_gap) / 2;
- }
- /****************************************************************************************
- * Visu packet handler
- */
- static void visu_handler( u8_t *data, int len) {
- struct visu_packet *pkt = (struct visu_packet*) data;
- int bars = 0;
- LOG_DEBUG("visu %u with %u parameters", pkt->which, pkt->count);
-
- /*
- If width is specified, then respect all coordinates, otherwise we try to
- use the bottom part of the display and if it is a small display, we overwrite
- text
- */
-
- xSemaphoreTake(displayer.mutex, portMAX_DELAY);
- visu.mode = pkt->which;
-
- // little trick to clean the taller screens when switching visu
- if (visu.row >= displayer.height) GDS_ClearExt(display, false, true, visu.col, visu.row, visu.col + visu.width - 1, visu.row + visu.height - 1);
- if (visu.mode) {
- // these will be overidden if necessary
- visu.col = visu.border = 0;
- visu.rotate = false;
-
- // what type of visu
- if (visu.mode & VISU_ESP32) {
- if (pkt->count >= 4) {
- // more than 4 parameters, this is small visu, then go were we are told to
- pkt->height = htonl(pkt->height);
- pkt->row = htonl(pkt->row);
- pkt->col = htonl(pkt->col);
- visu.style = 0;
- visu.width = htonl(pkt->width);
- visu.height = pkt->height ? pkt->height : displayer.height;
- visu.col = pkt->col < 0 ? displayer.width + pkt->col : pkt->col;
- visu.row = pkt->row < 0 ? GDS_GetHeight(display) + pkt->row : pkt->row;
- visu.border = htonl(pkt->border);
- bars = htonl(pkt->bars);
- visu.spectrum_scale = htonl(pkt->spectrum_scale) / 100.;
- } else {
- // full screen visu, try to optimize orientation/shape
- visu.width = htonl(pkt->full.width);
- visu.height = GDS_GetHeight(display);
-
- // do we have enough height to play with layout
- if (GDS_GetHeight(display) > displayer.height) {
- // by default, use up to the bottom of the display
- visu.height -= displayer.height;
- visu.row = displayer.height;
- if (artwork.enable && artwork.y) {
- // server sets width to artwork X offset to tell us to rotate
- if (visu.width != artwork.x) {
- visu.height = artwork.y - displayer.height;
- if (visu.height <= 0) {
- visu.height = displayer.height;
- LOG_WARN("No room left for visualizer, disable it or increase artwork offset %d", artwork.y);
- }
- } else visu.rotate = true;
- }
- } else visu.row = 0;
-
- // is this spectrum or analogue/digital
- if ((visu.mode & ~VISU_ESP32) == VISU_SPECTRUM) {
- bars = htonl(pkt->full.bars);
- visu.spectrum_scale = htonl(pkt->full.spectrum_scale) / 100.;
- } else {
- // select analogue/digital style
- visu.style = htonl(pkt->full.style);
- }
- }
- } else {
- // classical (screensaver) mode, don't try to optimize screen usage & force some params
- visu.row = 0;
- visu.height = GDS_GetHeight(display);
- visu.width = displayer.width;
- visu.spectrum_scale = 0.25;
- if (visu.mode == VISU_SPECTRUM) {
- bars = visu.width / (htonl(pkt->channels[0].bar_width) + htonl(pkt->channels[0].bar_space));
- } else {
- visu.style = htonl(pkt->classical_vu.style);
- if (visu.style) visu.row = visu.height - VU_HEIGHT;
- }
- }
-
- if (bars > MAX_BARS) bars = MAX_BARS;
-
- // for rotate, swap width & height
- if (visu.rotate) visu_fit(bars, visu.height, visu.width);
- else visu_fit(bars, visu.width, visu.height);
- // give up if not enough space
- if (visu.bar_width < 0) {
- visu.mode = VISU_BLANK;
- LOG_WARN("Not enough room for displaying visu");
- } else {
- // de-activate scroller if we are taking main screen
- if (visu.row < displayer.height) scroller.active = false;
- vTaskResume(displayer.task);
- }
- displayer.wake = 0;
-
- // reset bars maximum
- for (int i = visu.n; --i >= 0;) visu.bars[i].max = 0;
-
- GDS_ClearExt(display, false, true, visu.col, visu.row, visu.col + visu.width - 1, visu.row + visu.height - 1);
-
- LOG_INFO("Visualizer with %u bars of width %d:%d:%d:%d (%w:%u,h:%u,c:%u,r:%u,s:%.02f)", visu.n, visu.bar_border, visu.bar_width, visu.bar_gap, visu.border, visu.width, visu.height, visu.col, visu.row, visu.spectrum_scale);
- } else {
- LOG_INFO("Stopping visualizer");
- }
-
- xSemaphoreGive(displayer.mutex);
- }
- /****************************************************************************************
- * Led_visu packet handler
- */
- static void ledv_handler( u8_t *data, int len) {
- struct ledv_packet *pkt = (struct ledv_packet*) data;
- LOG_DEBUG("led_visu %u with parameters", pkt->which);
-
- xSemaphoreTake(displayer.mutex, portMAX_DELAY);
- led_visu.mode = pkt->which;
- led_visu.style = pkt->style;
- led_visu.max = pkt->bright;
- led_vu_clear();
- if (led_visu.mode) {
- if (led_visu.mode == VISU_SPECTRUM) {
- led_visu.n = (led_visu.config < MAX_BARS) ? led_visu.config : MAX_BARS;
- spectrum_limits(led_visu.bars, 0, led_visu.n, 0, 0.25);
- } else if (led_visu.mode == VISU_WAVEFORM) {
- led_visu.n = 6;
- spectrum_limits(led_visu.bars, 0, led_visu.n, 0, 0.25);
- }
-
- displayer.wake = 1; // wake up
-
- // reset bars maximum
- for (int i = led_visu.n; --i >= 0;) led_visu.bars[i].max = 0;
-
- LOG_INFO("LED Visualizer mode %u with bars:%u max:%u style:%d", led_visu.mode, led_visu.n, led_visu.max, led_visu.style);
- } else {
- LOG_INFO("Stopping led visualizer");
- }
-
- xSemaphoreGive(displayer.mutex);
-
- // resume displayer task
- vTaskResume(displayer.task);
- }
- /****************************************************************************************
- * Led_data dmx style packet handler
- * ToDo: make packet match dmx protocol format
- */
- static void ledd_handler( u8_t *data, int len) {
- struct ledd_packet *pkt = (struct ledd_packet*) data;
- uint16_t offset = htons(pkt->x);
- uint16_t length = htons(pkt->length);
- LOG_INFO("dmx packet len:%u offset:%u", length, offset);
- xSemaphoreTake(displayer.mutex, portMAX_DELAY);
- led_vu_data(data + sizeof(struct ledd_packet), offset, length);
-
- displayer.wake = 1000; // wait a little while
- xSemaphoreGive(displayer.mutex);
- }
- /****************************************************************************************
- * Scroll task
- * - with the addition of the visualizer, it's a bit a 2-headed beast not easy to
- * maintain, so som better separation between the visu and scroll is probably needed
- */
- static void displayer_task(void *args) {
- int sleep;
- while (1) {
- xSemaphoreTake(displayer.mutex, portMAX_DELAY);
-
- // suspend ourselves if nothing to do, grfg or visu will wake us up
- if (!scroller.active && !visu.mode && !led_visu.mode) {
- xSemaphoreGive(displayer.mutex);
- vTaskSuspend(NULL);
- xSemaphoreTake(displayer.mutex, portMAX_DELAY);
- scroller.wake = displayer.wake = 0;
- }
- // go for long sleep when either item is disabled
- if (!visu.mode && !led_visu.mode) displayer.wake = LONG_WAKE;
- if (!scroller.active) scroller.wake = LONG_WAKE;
-
- // scroll required amount of columns (within the window)
- if (scroller.active && scroller.wake <= 0) {
- // by default go for the long sleep, will change below if required
- scroller.wake = LONG_WAKE;
-
- // do we have more to scroll (scroll.width is the last column from which we have a full zone)
- if (scroller.by > 0 ? (scroller.scrolled <= scroller.scroll.width) : (scroller.scrolled >= 0)) {
- memcpy(scroller.frame, scroller.back.frame, scroller.back.width * displayer.height / 8);
- for (int i = 0; i < scroller.width * displayer.height / 8; i++) scroller.frame[i] |= scroller.scroll.frame[scroller.scrolled * displayer.height / 8 + i];
- scroller.scrolled += scroller.by;
- if (displayer.owned) GDS_DrawBitmapCBR(display, scroller.frame, scroller.width, displayer.height, GDS_COLOR_WHITE);
-
- // short sleep & don't need background update
- scroller.wake = scroller.speed;
- } else if (scroller.first || !scroller.mode) {
- // at least one round done
- scroller.first = false;
-
- // see if we need to pause or if we are done
- if (scroller.mode) {
- sendANIC(ANIM_SCROLL_ONCE | ANIM_SCREEN_1);
- LOG_INFO("scroll-once terminated");
- } else {
- scroller.wake = scroller.pause;
- LOG_DEBUG("scroll cycle done, pausing for %u (ms)", scroller.pause);
- }
-
- // need to reset pointers for next scroll
- scroller.scrolled = scroller.by < 0 ? scroller.scroll.width : 0;
- }
- }
- // update visu if active
- if ((visu.mode || led_visu.mode) && displayer.wake <= 0 && displayer.owned) {
- displayer_update();
- displayer.wake = 100;
- }
-
- // need to make sure we own display
- if (display && displayer.owned) GDS_Update(display);
- else if (!led_display) displayer.wake = LONG_WAKE;
-
- // release semaphore and sleep what's needed
- xSemaphoreGive(displayer.mutex);
-
- sleep = min(displayer.wake, scroller.wake);
- vTaskDelay(sleep / portTICK_PERIOD_MS);
- scroller.wake -= sleep;
- displayer.wake -= sleep;
- }
- }
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