/* $Id: drv_generic_text.c 840 2007-09-09 12:17:42Z michael $ * $URL: https://ssl.bulix.org/svn/lcd4linux/trunk/drv_generic_text.c $ * * generic driver helper for text-based displays * * Copyright (C) 1999, 2000 Michael Reinelt * Copyright (C) 2004 The LCD4Linux Team * * This file is part of LCD4Linux. * * LCD4Linux 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 Foundation; either version 2, or (at your option) * any later version. * * LCD4Linux 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 this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * */ /* * * exported variables: * * extern int CHARS, CHAR0; number of user-defineable characters, ASCII of first char * extern int ICONS; number of user-defineable characters reserved for icons * extern int GOTO_COST; number of bytes a goto command requires * extern int INVALIDATE; re-send a modified userdefined char? * * * these functions must be implemented by the real driver: * * void (*drv_generic_text_real_write)(int row, int col, unsigned char *data, int len); * writes a text of specified length at position (row, col) * * void (*drv_generic_text_real_defchar)(int ascii, unsigned char *buffer); * defines the bitmap of a user-defined character * * * exported fuctions: * * int drv_generic_text_init (char *section, char *driver); * initializes the generic text driver * * int drv_generic_text_draw (WIDGET *W); * renders Text widget into framebuffer * calls drv_generic_text_real_write() * * int drv_generic_text_icon_init (void); * initializes the generic icon driver * * int drv_generic_text_icon_draw (WIDGET *W); * renders Icon widget into framebuffer * calls drv_generic_text_real_write() and drv_generic_text_real_defchar() * * int drv_generic_text_bar_init (int single_segments); * initializes the generic icon driver * * void drv_generic_text_bar_add_segment (int val1, int val2, DIRECTION dir, int ascii); * adds a 'fixed' character to the bar-renderer * * int drv_generic_text_bar_draw (WIDGET *W); * renders Bar widget into framebuffer * calls drv_generic_text_real_write() and drv_generic_text_real_defchar() * * int drv_generic_text_quit (void); * closes the generic text driver * */ #include "config.h" #include #include #include #include #include #include #include #include "debug.h" #include "cfg.h" #include "plugin.h" #include "widget.h" #include "widget_text.h" #include "widget_icon.h" #include "widget_bar.h" #include "drv.h" #include "drv_generic.h" #include "drv_generic_text.h" #ifdef WITH_DMALLOC #include #endif typedef struct { int val1; int val2; DIRECTION dir; STYLE style; int segment; int invalid; } BAR; typedef struct { int val1; int val2; DIRECTION dir; STYLE style; int used; int ascii; } SEGMENT; static char *Section = NULL; static char *Driver = NULL; int CHARS = 0; /* number of user-defineable characters */ int CHAR0 = 0; /* ASCII of first user-defineable char */ int ICONS = 0; /* number of user-defineable characters reserved for icons */ int GOTO_COST = 0; /* number of bytes a goto command requires */ int INVALIDATE = 0; /* re-send a modified userdefined char? */ void (*drv_generic_text_real_write) () = NULL; void (*drv_generic_text_real_defchar) () = NULL; static char *LayoutFB = NULL; static char *DisplayFB = NULL; static int *L2D = NULL; static int Single_Segments = 0; static int nSegment = 0; static int fSegment = 0; static SEGMENT Segment[128]; static BAR *BarFB = NULL; /****************************************/ /*** generic Framebuffer stuff ***/ /****************************************/ static void drv_generic_text_resizeFB(int rows, int cols) { char *newFB; int *newL2D; BAR *newBar; int i, row, col; /* Layout FB is large enough */ if (rows <= LROWS && cols <= LCOLS) return; /* get maximum values */ if (rows < LROWS) rows = LROWS; if (cols < LCOLS) cols = LCOLS; /* allocate new Layout FB */ newFB = malloc(cols * rows * sizeof(*newFB)); memset(newFB, ' ', rows * cols * sizeof(*newFB)); /* transfer contents */ if (LayoutFB != NULL) { for (row = 0; row < LROWS; row++) { for (col = 0; col < LCOLS; col++) { newFB[row * cols + col] = LayoutFB[row * LCOLS + col]; } } free(LayoutFB); } LayoutFB = newFB; /* allocate new transformer */ newL2D = malloc(cols * rows * sizeof(*newL2D)); /* intitialize translator */ for (row = 0; row < rows; row++) { for (col = 0; col < cols; col++) { newL2D[row * cols + col] = row * DCOLS + col; } } /* transfer transformer */ if (L2D != NULL) { for (row = 0; row < LROWS; row++) { for (col = 0; col < LCOLS; col++) { newL2D[row * cols + col] = L2D[row * LCOLS + col]; } } free(L2D); } L2D = newL2D; /* resize Bar buffer */ if (BarFB) { newBar = malloc(rows * cols * sizeof(BAR)); for (i = 0; i < rows * cols; i++) { newBar[i].val1 = -1; newBar[i].val2 = -1; newBar[i].dir = 0; newBar[i].segment = -1; newBar[i].invalid = 0; } /* transfer contents */ for (row = 0; row < LROWS; row++) { for (col = 0; col < LCOLS; col++) { newBar[row * cols + col] = BarFB[row * LCOLS + col]; } } free(BarFB); BarFB = newBar; } LCOLS = cols; LROWS = rows; } static void drv_generic_text_blit(const int row, const int col, const int height, const int width) { int lr, lc; /* layout row/col */ int dr, dc; /* display row/col */ int p1, p2; /* start/end positon of changed area */ int eq; /* counter for equal contents */ /* loop over layout rows */ for (lr = row; lr < LROWS && lr < row + height; lr++) { /* transform layout to display row */ dr = lr; /* sanity check */ if (dr < 0 || dr >= DROWS) continue; /* loop over layout cols */ for (lc = col; lc < LCOLS && lc < col + width; lc++) { /* transform layout to display column */ dc = lc; /* sanity check */ if (dc < 0 || dc >= DCOLS) continue; /* find start of difference */ if (DisplayFB[dr * DCOLS + dc] == LayoutFB[lr * LCOLS + lc]) continue; /* find end of difference */ for (p1 = dc, p2 = p1, eq = 0, lc++; lc < LCOLS && lc < col + width; lc++) { /* transform layout to display column */ dc = lc; /* sanity check */ if (dc < 0 || dc >= DCOLS) continue; if (DisplayFB[dr * DCOLS + dc] == LayoutFB[lr * LCOLS + lc]) { if (++eq > GOTO_COST) break; } else { p2 = dc; eq = 0; } } /* send to display */ memcpy(DisplayFB + dr * DCOLS + p1, LayoutFB + lr * LCOLS + p1, p2 - p1 + 1); if (drv_generic_text_real_write) drv_generic_text_real_write(dr, p1, DisplayFB + dr * DCOLS + p1, p2 - p1 + 1); } } } /****************************************/ /*** generic text handling ***/ /****************************************/ int drv_generic_text_init(const char *section, const char *driver) { Section = (char *) section; Driver = (char *) driver; /* init display framebuffer */ DisplayFB = (char *) malloc(DCOLS * DROWS * sizeof(*DisplayFB)); memset(DisplayFB, ' ', DROWS * DCOLS * sizeof(*DisplayFB)); /* init layout framebuffer */ LROWS = 0; LCOLS = 0; LayoutFB = NULL; L2D = NULL; drv_generic_text_resizeFB(DROWS, DCOLS); /* sanity check */ if (DisplayFB == NULL || LayoutFB == NULL || L2D == NULL) { error("%s: framebuffer could not be allocated: malloc() failed", Driver); return -1; } /* init generic driver & register plugins */ drv_generic_blit = drv_generic_text_blit; drv_generic_init(); return 0; } /* say hello to the user */ int drv_generic_text_greet(const char *msg1, const char *msg2) { int i; int flag = 0; char *line1[] = { "* LCD4Linux " VERSION " *", "LCD4Linux " VERSION, "* LCD4Linux *", "LCD4Linux", "L4Linux", NULL }; char *line2[] = { "http://lcd4linux.bulix.org", "lcd4linux.bulix.org", NULL }; for (i = 0; line1[i]; i++) { if (strlen(line1[i]) <= (unsigned) DCOLS) { if (drv_generic_text_real_write) drv_generic_text_real_write(0, (DCOLS - strlen(line1[i])) / 2, line1[i], strlen(line1[i])); flag = 1; break; } } if (DROWS >= 2) { for (i = 0; line2[i]; i++) { if (strlen(line2[i]) <= (unsigned) DCOLS) { if (drv_generic_text_real_write) drv_generic_text_real_write(1, (DCOLS - strlen(line2[i])) / 2, line2[i], strlen(line2[i])); flag = 1; break; } } } if (msg1 && DROWS >= 3) { int len = strlen(msg1); if (len <= DCOLS) { if (drv_generic_text_real_write) drv_generic_text_real_write(2, (DCOLS - len) / 2, msg1, len); flag = 1; } } if (msg2 && DROWS >= 4) { int len = strlen(msg2); if (len <= DCOLS) { if (drv_generic_text_real_write) drv_generic_text_real_write(3, (DCOLS - len) / 2, msg2, len); flag = 1; } } return flag; } int drv_generic_text_draw(WIDGET * W) { WIDGET_TEXT *Text = W->data; char *txt; int row, col, len; row = W->row; col = W->col; txt = Text->buffer; len = strlen(txt); /* maybe grow layout framebuffer */ drv_generic_text_resizeFB(row + 1, col + len); /* transfer new text into layout buffer */ memcpy(LayoutFB + row * LCOLS + col, txt, len); /* blit it */ drv_generic_text_blit(row, col, 1, len); return 0; } int drv_generic_text_quit(void) { if (DisplayFB) { free(DisplayFB); DisplayFB = NULL; } if (LayoutFB) { free(LayoutFB); LayoutFB = NULL; } if (L2D) { free(L2D); L2D = NULL; } if (BarFB) { free(BarFB); BarFB = NULL; } widget_unregister(); return (0); } /****************************************/ /*** generic icon handling ***/ /****************************************/ int drv_generic_text_icon_init(void) { if (cfg_number(Section, "Icons", 0, 0, CHARS, &ICONS) < 0) return -1; if (ICONS > 0) { info("%s: reserving %d of %d user-defined characters for icons", Driver, ICONS, CHARS); } return 0; } int drv_generic_text_icon_draw(WIDGET * W) { static int icon_counter = 0; WIDGET_ICON *Icon = W->data; int row, col; int visible; int invalidate = 0; unsigned char ascii; row = W->row; col = W->col; /* maybe grow layout framebuffer */ drv_generic_text_resizeFB(row + 1, col + 1); /* icon deactivated? */ if (Icon->ascii == -2) return 0; /* ASCII already assigned? */ if (Icon->ascii == -1) { if (icon_counter >= ICONS) { error("cannot process icon '%s': out of icons", W->name); Icon->ascii = -2; return -1; } icon_counter++; Icon->ascii = CHAR0 + CHARS - icon_counter; } /* Icon visible? */ visible = P2N(&Icon->visible) > 0; /* maybe redefine icon */ if (Icon->curmap != Icon->prvmap && visible) { Icon->prvmap = Icon->curmap; if (drv_generic_text_real_defchar) drv_generic_text_real_defchar(Icon->ascii, Icon->bitmap + YRES * Icon->curmap); invalidate = INVALIDATE; } /* use blank if invisible */ ascii = visible ? Icon->ascii : ' '; /* transfer icon into layout buffer */ LayoutFB[row * LCOLS + col] = ascii; /* ugly invalidation: change display FB to a wrong value so blit() will really send it */ if (invalidate) { DisplayFB[row * DCOLS + col] = ~ascii; } /* blit it */ drv_generic_text_blit(row, col, 1, 1); return 0; } /****************************************/ /*** generic bar handling ***/ /****************************************/ static void drv_generic_text_bar_clear(void) { int i; for (i = 0; i < LROWS * LCOLS; i++) { BarFB[i].val1 = -1; BarFB[i].val2 = -1; BarFB[i].dir = 0; BarFB[i].style = 0; BarFB[i].segment = -1; BarFB[i].invalid = 0; } for (i = 0; i < nSegment; i++) { Segment[i].used = 0; } } int drv_generic_text_bar_init(const int single_segments) { if (BarFB) free(BarFB); if ((BarFB = malloc(LROWS * LCOLS * sizeof(BAR))) == NULL) { error("bar buffer allocation failed: out of memory"); return -1; } Single_Segments = single_segments; nSegment = 0; fSegment = 0; drv_generic_text_bar_clear(); return 0; } void drv_generic_text_bar_add_segment(const int val1, const int val2, const DIRECTION dir, const int ascii) { Segment[fSegment].val1 = val1; Segment[fSegment].val2 = val2; Segment[fSegment].dir = dir; if (val1 == 0 && val2 == 0) Segment[fSegment].style = 0; else Segment[fSegment].style = 255; Segment[fSegment].used = 0; Segment[fSegment].ascii = ascii; fSegment++; nSegment = fSegment; } static void drv_generic_text_bar_create_bar(int row, int col, const DIRECTION dir, STYLE style, int len, int val1, int val2) { int rev = 0, max; if (style) BarFB[row * LCOLS + col].style = STYLE_FIRST; switch (dir) { case DIR_WEST: max = len * XRES; val1 = max - val1; val2 = max - val2; rev = 1; case DIR_EAST: while (len > 0 && col < LCOLS) { BarFB[row * LCOLS + col].dir = dir; BarFB[row * LCOLS + col].segment = -1; if (style && BarFB[row * LCOLS + col].style == 0) BarFB[row * LCOLS + col].style = style; if (val1 >= XRES) { BarFB[row * LCOLS + col].val1 = rev ? 0 : XRES; val1 -= XRES; } else { BarFB[row * LCOLS + col].val1 = rev ? XRES - val1 : val1; val1 = 0; } if (val2 >= XRES) { BarFB[row * LCOLS + col].val2 = rev ? 0 : XRES; val2 -= XRES; } else { BarFB[row * LCOLS + col].val2 = rev ? XRES - val2 : val2; val2 = 0; } len--; col++; } if (style) BarFB[row * LCOLS + col - 1].style = STYLE_LAST; break; case DIR_NORTH: max = len * YRES; val1 = max - val1; val2 = max - val2; rev = 1; case DIR_SOUTH: while (len > 0 && row < LROWS) { BarFB[row * LCOLS + col].dir = dir; BarFB[row * LCOLS + col].segment = -1; if (val1 >= YRES) { BarFB[row * LCOLS + col].val1 = rev ? 0 : YRES; val1 -= YRES; } else { BarFB[row * LCOLS + col].val1 = rev ? YRES - val1 : val1; val1 = 0; } if (val2 >= YRES) { BarFB[row * LCOLS + col].val2 = rev ? 0 : YRES; val2 -= YRES; } else { BarFB[row * LCOLS + col].val2 = rev ? YRES - val2 : val2; val2 = 0; } len--; row++; } break; } } static void drv_generic_text_bar_create_segments(void) { int i, j, n; int res, l1, l2; /* find first unused segment */ for (i = fSegment; i < nSegment && Segment[i].used; i++); /* pack unused segments */ for (j = i + 1; j < nSegment; j++) { if (Segment[j].used) Segment[i++] = Segment[j]; } nSegment = i; /* create needed segments */ for (n = 0; n < LROWS * LCOLS; n++) { if (BarFB[n].dir == 0) continue; res = BarFB[n].dir & (DIR_EAST | DIR_WEST) ? XRES : YRES; for (i = 0; i < nSegment; i++) { l1 = Segment[i].val1; if (l1 > res) l1 = res; l2 = Segment[i].val2; if (l2 > res) l2 = res; /* same value */ if (l1 == BarFB[n].val1 && l2 == BarFB[n].val2) { /* empty block, only style is interesting */ if (l1 == 0 && l2 == 0 && Segment[i].style == BarFB[n].style) break; /* full block, style doesn't matter */ if (l1 == res && l2 == res) break; /* half upper block */ if (l1 == res && l2 == 0 && Segment[i].style == BarFB[n].style) break; /* half lower block */ if (l1 == 0 && l2 == res && Segment[i].style == BarFB[n].style) break; /* same style, same direction */ if (Segment[i].style == BarFB[n].style && Segment[i].dir & BarFB[n].dir) break; #if 0 /* hollow style, val(1,2) == 1, like '[' */ if (l1 == 1 && l2 == 1 && Segment[i].style == STYLE_FIRST && BarFB[n].style == STYLE_HOLLOW) break; /* hollow style, val(1,2) == 1, like ']' */ if (l1 == 1 && l2 == 1 && Segment[i].style == STYLE_LAST && BarFB[n].style == STYLE_HOLLOW) break; #endif } } if (i == nSegment) { nSegment++; Segment[i].val1 = BarFB[n].val1; Segment[i].val2 = BarFB[n].val2; Segment[i].dir = BarFB[n].dir; Segment[i].style = BarFB[n].style; Segment[i].used = 0; Segment[i].ascii = -1; } BarFB[n].segment = i; } } static int drv_generic_text_bar_segment_error(const int i, const int j) { int res; int i1, i2, j1, j2; if (i == j) return 65535; if (!(Segment[i].dir & Segment[j].dir)) return 65535; if (Segment[i].style != Segment[j].style) return 65535; res = Segment[i].dir & (DIR_EAST | DIR_WEST) ? XRES : YRES; i1 = Segment[i].val1; if (i1 > res) i1 = res; i2 = Segment[i].val2; if (i2 > res) i2 = res; j1 = Segment[j].val1; if (j1 > res) j1 = res; j2 = Segment[j].val2; if (j2 > res) j2 = res; /* do not replace empty with non-empty */ if (i1 == 0 && j1 != 0) return 65535; if (i2 == 0 && j2 != 0) return 65535; /* do not replace full with non-full */ if (i1 == res && j1 < res) return 65535; if (i2 == res && j2 < res) return 65535; /* do not replace start line */ /* but only if there are at least some chars available */ if (CHARS - ICONS > 0) { if (i1 == 1 && j1 != 1 && i2 > 0) return 65535; if (i2 == 1 && j2 != 1 && j1 > 0) return 65535; } /* do not replace equal length with non-equal length */ if (i1 == i2 && j1 != j2) return 65535; return (i1 - j1) * (i1 - j1) + (i2 - j2) * (i2 - j2); } static void drv_generic_text_bar_pack_segments(void) { int i, j, n, min; int pack_i, pack_j; int pass1 = 1; int error[nSegment][nSegment]; if (nSegment <= fSegment + CHARS - ICONS) { return; } for (i = 0; i < nSegment; i++) { for (j = 0; j < nSegment; j++) { error[i][j] = drv_generic_text_bar_segment_error(i, j); /* debug ("[%d][%d] = %d", i, j, error[i][j]); */ } } while (nSegment > fSegment + CHARS - ICONS) { min = 65535; pack_i = -1; pack_j = -1; for (i = fSegment; i < nSegment; i++) { if (pass1 && Segment[i].used) continue; for (j = 0; j < nSegment; j++) { if (error[i][j] < min) { min = error[i][j]; pack_i = i; pack_j = j; } } } if (pack_i == -1) { if (pass1) { pass1 = 0; continue; } else { error("unable to compact bar characters"); error("nSegment=%d fSegment=%d CHARS=%d ICONS=%d", nSegment, fSegment, CHARS, ICONS); error("Segment[0].val1=%d val2=%d", Segment[0].val1, Segment[0].val2); error("Segment[1].val1=%d val2=%d", Segment[1].val1, Segment[1].val2); error("Segment[2].val1=%d val2=%d", Segment[2].val1, Segment[2].val2); nSegment = CHARS - ICONS; break; } } #if 0 debug("pack_segment: n=%d i=%d j=%d min=%d", nSegment, pack_i, pack_j, min); debug("Pack_segment: i1=%d i2=%d j1=%d j2=%d\n", Segment[pack_i].val1, Segment[pack_i].val2, Segment[pack_j].val1, Segment[pack_j].val2); #endif nSegment--; Segment[pack_i] = Segment[nSegment]; for (i = 0; i < nSegment; i++) { error[pack_i][i] = error[nSegment][i]; error[i][pack_i] = error[i][nSegment]; } for (n = 0; n < LROWS * LCOLS; n++) { if (BarFB[n].segment == pack_i) BarFB[n].segment = pack_j; if (BarFB[n].segment == nSegment) BarFB[n].segment = pack_i; } } } static void drv_generic_text_bar_define_chars(void) { int c, i, j; unsigned char buffer[8]; for (i = fSegment; i < nSegment; i++) { if (Segment[i].used) continue; if (Segment[i].ascii != -1) continue; for (c = 0; c < CHARS - ICONS; c++) { for (j = fSegment; j < nSegment; j++) { if (Segment[j].ascii == c) break; } if (j == nSegment) break; } Segment[i].ascii = c; switch (Segment[i].dir) { case DIR_WEST: if (Segment[i].style) { buffer[0] = 255; buffer[7] = 255; if (Segment[i].style & (STYLE_FIRST | STYLE_LAST)) for (j = 1; j < 7; j++) { buffer[j] |= Segment[i].style & STYLE_FIRST ? 16 : 1; } } break; case DIR_EAST: for (j = 0; j < 4; j++) { buffer[j] = 255 << (XRES - Segment[i].val1); buffer[j + 4] = 255 << (XRES - Segment[i].val2); } if (Segment[i].style) { buffer[0] = 255; buffer[7] = 255; if (Segment[i].style & (STYLE_FIRST | STYLE_LAST)) for (j = 1; j < 7; j++) { buffer[j] |= Segment[i].style & STYLE_FIRST ? 16 : 1; } } break; case DIR_NORTH: for (j = 0; j < Segment[i].val1; j++) { buffer[7 - j] = (1 << XRES) - 1; } for (; j < YRES; j++) { buffer[7 - j] = 0; } break; case DIR_SOUTH: for (j = 0; j < Segment[i].val1; j++) { buffer[j] = (1 << XRES) - 1; } for (; j < YRES; j++) { buffer[j] = 0; } break; } if (drv_generic_text_real_defchar) drv_generic_text_real_defchar(CHAR0 + c, buffer); /* maybe invalidate framebuffer */ if (INVALIDATE) { for (j = 0; j < LROWS * LCOLS; j++) { if (BarFB[j].segment == i) { BarFB[j].invalid = 1; } } } } } int drv_generic_text_bar_draw(WIDGET * W) { WIDGET_BAR *Bar = W->data; int row, col, len, res, max, val1, val2; int c, n, s; DIRECTION dir; STYLE style; row = W->row; col = W->col; dir = Bar->direction; style = Bar->style; len = Bar->length; /* maybe grow layout framebuffer */ /* bars *always* grow heading North or East! */ if (dir & (DIR_EAST | DIR_WEST)) { drv_generic_text_resizeFB(row + 1, col + len); } else { drv_generic_text_resizeFB(row + 1, col + 1); } res = dir & (DIR_EAST | DIR_WEST) ? XRES : YRES; max = len * res; val1 = Bar->val1 * (double) (max); val2 = Bar->val2 * (double) (max); if (val1 < 1) val1 = 1; else if (val1 > max) val1 = max; if (val2 < 1) val2 = 1; else if (val2 > max) val2 = max; if (Single_Segments) val2 = val1; /* create this bar */ drv_generic_text_bar_create_bar(row, col, dir, style, len, val1, val2); /* process all bars */ drv_generic_text_bar_create_segments(); drv_generic_text_bar_pack_segments(); drv_generic_text_bar_define_chars(); /* reset usage flags */ for (s = 0; s < nSegment; s++) { Segment[s].used = 0; } /* set usage flags */ for (n = 0; n < LROWS * LCOLS; n++) { if ((s = BarFB[n].segment) != -1) Segment[s].used = 1; } /* transfer bars into layout buffer */ for (row = 0; row < LROWS; row++) { for (col = 0; col < LCOLS; col++) { n = row * LCOLS + col; s = BarFB[n].segment; if (s == -1) continue; c = Segment[s].ascii; if (c == -1) continue; if (s >= fSegment) c += CHAR0; /* ascii offset for user-defineable chars */ LayoutFB[n] = c; /* maybe invalidate display framebuffer */ if (BarFB[n].invalid) { BarFB[n].invalid = 0; /* ugly invalidation: change display FB to a wrong value so blit() will really send it */ DisplayFB[row * DCOLS + col] = ~LayoutFB[n]; } } } /* blit whole layout FB */ drv_generic_text_blit(0, 0, LROWS, LCOLS); return 0; }