/**************************************************************************** * nuttx/graphics/nxterm/nxterm_font.c * * Copyright (C) 2012 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name NuttX nor the names of its contributors may be * used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include "nxterm.h" /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* Select renderer -- Some additional logic would be required to support * pixel depths that are not directly addressable (1,2,4, and 24). */ #if CONFIG_NXTERM_BPP == 1 # define RENDERER nxf_convert_1bpp #elif CONFIG_NXTERM_BPP == 2 # define RENDERER nxf_convert_2bpp #elif CONFIG_NXTERM_BPP == 4 # define RENDERER nxf_convert_4bpp #elif CONFIG_NXTERM_BPP == 8 # define RENDERER nxf_convert_8bpp #elif CONFIG_NXTERM_BPP == 16 # define RENDERER nxf_convert_16bpp #elif CONFIG_NXTERM_BPP == 24 # define RENDERER nxf_convert_24bpp #elif CONFIG_NXTERM_BPP == 32 # define RENDERER nxf_convert_32bpp #else # error "Unsupported CONFIG_NXTERM_BPP" #endif /**************************************************************************** * Private Types ****************************************************************************/ /**************************************************************************** * Private Function Prototypes ****************************************************************************/ /**************************************************************************** * Private Data ****************************************************************************/ /**************************************************************************** * Public Data ****************************************************************************/ /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: nxterm_freeglyph ****************************************************************************/ static void nxterm_freeglyph(FAR struct nxterm_glyph_s *glyph) { if (glyph->bitmap) { kmm_free(glyph->bitmap); } memset(glyph, 0, sizeof(struct nxterm_glyph_s)); } /**************************************************************************** * Name: nxterm_allocglyph ****************************************************************************/ static inline FAR struct nxterm_glyph_s * nxterm_allocglyph(FAR struct nxterm_state_s *priv) { FAR struct nxterm_glyph_s *glyph = NULL; FAR struct nxterm_glyph_s *luglyph = NULL; uint8_t luusecnt; int i; /* Search through the glyph cache looking for an unused glyph. Also, keep * track of the least used glyph as well. We need that if we have to replace * a glyph in the cache. */ for (i = 0; i < priv->maxglyphs; i++) { /* Is this glyph in use? */ glyph = &priv->glyph[i]; if (!glyph->usecnt) { /* No.. return this glyph with a use count of one */ glyph->usecnt = 1; return glyph; } /* Yes.. check for the least recently used */ if (!luglyph || glyph->usecnt < luglyph->usecnt) { luglyph = glyph; } } /* If we get here, the glyph cache is full. We replace the least used * glyph with the one we need now. (luglyph can't be NULL). */ luusecnt = luglyph->usecnt; nxterm_freeglyph(luglyph); /* But lets decrement all of the usecnts so that the new one one be so * far behind in the counts as the older ones. */ if (luusecnt > 1) { uint8_t decr = luusecnt - 1; for (i = 0; i < priv->maxglyphs; i++) { /* Is this glyph in use? */ glyph = &priv->glyph[i]; if (glyph->usecnt > decr) { glyph->usecnt -= decr; } } } /* Then return the least used glyph */ luglyph->usecnt = 1; return luglyph; } /**************************************************************************** * Name: nxterm_findglyph ****************************************************************************/ static FAR struct nxterm_glyph_s * nxterm_findglyph(FAR struct nxterm_state_s *priv, uint8_t ch) { int i; /* First, try to find the glyph in the cache of pre-rendered glyphs */ for (i = 0; i < priv->maxglyphs; i++) { FAR struct nxterm_glyph_s *glyph = &priv->glyph[i]; if (glyph->usecnt > 0 && glyph->code == ch) { /* Increment the use count (unless it is already at the max) */ if (glyph->usecnt < MAX_USECNT) { glyph->usecnt++; } /* And return the glyph that we found */ return glyph; } } return NULL; } /**************************************************************************** * Name: nxterm_renderglyph ****************************************************************************/ static inline FAR struct nxterm_glyph_s * nxterm_renderglyph(FAR struct nxterm_state_s *priv, FAR const struct nx_fontbitmap_s *fbm, uint8_t ch) { FAR struct nxterm_glyph_s *glyph = NULL; FAR nxgl_mxpixel_t *ptr; #if CONFIG_NXTERM_BPP < 8 nxgl_mxpixel_t pixel; #endif int bmsize; int row; int col; int ret; /* Allocate the glyph (always succeeds) */ glyph = nxterm_allocglyph(priv); glyph->code = ch; /* Get the dimensions of the glyph */ glyph->width = fbm->metric.width + fbm->metric.xoffset; glyph->height = fbm->metric.height + fbm->metric.yoffset; /* Get the physical width of the glyph in bytes */ glyph->stride = (glyph->width * CONFIG_NXTERM_BPP + 7) / 8; /* Allocate memory to hold the glyph with its offsets */ bmsize = glyph->stride * glyph->height; glyph->bitmap = (FAR uint8_t *)kmm_malloc(bmsize); if (glyph->bitmap) { /* Initialize the glyph memory to the background color using the * hard-coded bits-per-pixel (BPP). * * TODO: The rest of NX is configured to support multiple devices * with differing BPP. They logic should be extended to support * differing BPP's as well. */ #if CONFIG_NXTERM_BPP < 8 pixel = priv->wndo.wcolor[0]; # if CONFIG_NXTERM_BPP == 1 /* Pack 1-bit pixels into a 2-bits */ pixel &= 0x01; pixel = (pixel) << 1 | pixel; # endif # if CONFIG_NXTERM_BPP < 4 /* Pack 2-bit pixels into a nibble */ pixel &= 0x03; pixel = (pixel) << 2 | pixel; # endif /* Pack 4-bit nibbles into a byte */ pixel &= 0x0f; pixel = (pixel) << 4 | pixel; ptr = (FAR nxgl_mxpixel_t *)glyph->bitmap; for (row = 0; row < glyph->height; row++) { for (col = 0; col < glyph->stride; col++) { /* Transfer the packed bytes into the buffer */ *ptr++ = pixel; } } #elif CONFIG_NXTERM_BPP == 24 # error "Additional logic is needed here for 24bpp support" #else /* CONFIG_NXTERM_BPP = {8,16,32} */ ptr = (FAR nxgl_mxpixel_t *)glyph->bitmap; for (row = 0; row < glyph->height; row++) { /* Just copy the color value into the glyph memory */ for (col = 0; col < glyph->width; col++) { *ptr++ = priv->wndo.wcolor[0]; } } #endif /* Then render the glyph into the allocated memory */ ret = RENDERER((FAR nxgl_mxpixel_t *)glyph->bitmap, glyph->height, glyph->width, glyph->stride, fbm, priv->wndo.fcolor[0]); if (ret < 0) { /* Actually, the RENDERER never returns a failure */ gdbg("nxterm_renderglyph: RENDERER failed\n"); nxterm_freeglyph(glyph); glyph = NULL; } } return glyph; } /**************************************************************************** * Name: nxterm_fontsize ****************************************************************************/ static int nxterm_fontsize(NXHANDLE hfont, uint8_t ch, FAR struct nxgl_size_s *size) { FAR const struct nx_fontbitmap_s *fbm; /* No, it is not cached... Does the code map to a font? */ fbm = nxf_getbitmap(hfont, ch); if (fbm) { /* Yes.. return the font size */ size->w = fbm->metric.width + fbm->metric.xoffset; size->h = fbm->metric.height + fbm->metric.yoffset; return OK; } return ERROR; } /**************************************************************************** * Name: nxterm_getglyph ****************************************************************************/ static FAR struct nxterm_glyph_s * nxterm_getglyph(NXHANDLE hfont, FAR struct nxterm_state_s *priv, uint8_t ch) { FAR struct nxterm_glyph_s *glyph; FAR const struct nx_fontbitmap_s *fbm; /* First, try to find the glyph in the cache of pre-rendered glyphs */ glyph = nxterm_findglyph(priv, ch); if (glyph) { /* We found it in the cache .. return the cached glyph */ return glyph; } /* No, it is not cached... Does the code map to a font? */ fbm = nxf_getbitmap(hfont, ch); if (fbm) { /* Yes.. render the glyph */ glyph = nxterm_renderglyph(priv, fbm, ch); } return glyph; } /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: nxterm_addchar * * Description: * This is part of the nxterm_putc logic. It creates and positions a * the character and renders (or re-uses) a glyph for font. * ****************************************************************************/ FAR const struct nxterm_bitmap_s * nxterm_addchar(NXHANDLE hfont, FAR struct nxterm_state_s *priv, uint8_t ch) { FAR struct nxterm_bitmap_s *bm = NULL; FAR struct nxterm_glyph_s *glyph; /* Is there space for another character on the display? */ if (priv->nchars < priv->maxchars) { /* Yes, setup the bitmap information */ bm = &priv->bm[priv->nchars]; bm->code = ch; bm->flags = 0; bm->pos.x = priv->fpos.x; bm->pos.y = priv->fpos.y; /* Find (or create) the matching glyph */ glyph = nxterm_getglyph(hfont, priv, ch); if (!glyph) { /* No, there is no font for this code. Just mark this as a space. */ bm->flags |= BMFLAGS_NOGLYPH; /* Set up the next character position */ priv->fpos.x += priv->spwidth; } else { /* Set up the next character position */ priv->fpos.x += glyph->width; } /* Success.. increment nchars to retain this character */ priv->nchars++; } return bm; } /**************************************************************************** * Name: nxterm_hidechar * * Description: * Erase a character from the window. * ****************************************************************************/ int nxterm_hidechar(FAR struct nxterm_state_s *priv, FAR const struct nxterm_bitmap_s *bm) { struct nxgl_rect_s bounds; struct nxgl_size_s fsize; int ret; /* Get the size of the font glyph. If nxterm_fontsize, then the * character will have been rendered as a space, and no display * modification is required (not an error). */ ret = nxterm_fontsize(priv->font, bm->code, &fsize); if (ret < 0) { /* It was rendered as a space. */ return OK; } /* Construct a bounding box for the glyph */ bounds.pt1.x = bm->pos.x; bounds.pt1.y = bm->pos.y; bounds.pt2.x = bm->pos.x + fsize.w - 1; bounds.pt2.y = bm->pos.y + fsize.h - 1; /* Fill the bitmap region with the background color, erasing the * character from the display. NOTE: This region might actually * be obscured... NX will handle that case. */ return priv->ops->fill(priv, &bounds, priv->wndo.wcolor); } /**************************************************************************** * Name: nxterm_backspace * * Description: * Remove the last character from the window. * ****************************************************************************/ int nxterm_backspace(FAR struct nxterm_state_s *priv) { FAR struct nxterm_bitmap_s *bm; int ndx; int ret = -ENOENT; /* Is there a character on the display? */ if (priv->nchars > 0) { /* Yes.. Get the index to the last bitmap on the display */ ndx = priv->nchars - 1; bm = &priv->bm[ndx]; /* Erase the character from the display */ ret = nxterm_hidechar(priv, bm); /* The current position to the location where the last character was */ priv->fpos.x = bm->pos.x; priv->fpos.y = bm->pos.y; /* Decrement nchars to discard this character */ priv->nchars = ndx; } return ret; } /**************************************************************************** * Name: nxterm_home * * Description: * Set the next character position to the top-left corner of the display. * ****************************************************************************/ void nxterm_home(FAR struct nxterm_state_s *priv) { /* The first character is one space from the left */ priv->fpos.x = priv->spwidth; /* And CONFIG_NXTERM_LINESEPARATION lines from the top */ priv->fpos.y = CONFIG_NXTERM_LINESEPARATION; } /**************************************************************************** * Name: nxterm_newline * * Description: * Set the next character position to the beginning of the next line. * ****************************************************************************/ void nxterm_newline(FAR struct nxterm_state_s *priv) { /* Carriage return: The first character is one space from the left */ priv->fpos.x = priv->spwidth; /* Linefeed: Down the max font height + CONFIG_NXTERM_LINESEPARATION */ priv->fpos.y += (priv->fheight + CONFIG_NXTERM_LINESEPARATION); } /**************************************************************************** * Name: nxterm_fillchar * * Description: * This implements the character display. It is part of the nxterm_putc * operation but may also be used when redrawing an existing display. * ****************************************************************************/ void nxterm_fillchar(FAR struct nxterm_state_s *priv, FAR const struct nxgl_rect_s *rect, FAR const struct nxterm_bitmap_s *bm) { FAR struct nxterm_glyph_s *glyph; struct nxgl_rect_s bounds; struct nxgl_rect_s intersection; struct nxgl_size_s fsize; int ret; /* Handle the special case of spaces which have no glyph bitmap */ if (BM_ISSPACE(bm)) { return; } /* Get the size of the font glyph (which may not have been created yet) */ ret = nxterm_fontsize(priv->font, bm->code, &fsize); if (ret < 0) { /* This would mean that there is no bitmap for the character code and * that the font would be rendered as a space. But this case should * never happen here because the BM_ISSPACE() should have already * found all such cases. */ return; } /* Construct a bounding box for the glyph */ bounds.pt1.x = bm->pos.x; bounds.pt1.y = bm->pos.y; bounds.pt2.x = bm->pos.x + fsize.w - 1; bounds.pt2.y = bm->pos.y + fsize.h - 1; /* Should this also be clipped to a region in the window? */ if (rect) { /* Get the intersection of the redraw region and the character bitmap */ nxgl_rectintersect(&intersection, rect, &bounds); } else { /* The intersection is the whole glyph */ nxgl_rectcopy(&intersection, &bounds); } /* Check for empty intersections */ if (!nxgl_nullrect(&intersection)) { FAR const void *src; /* Find (or create) the glyph that goes with this font */ glyph = nxterm_getglyph(priv->font, priv, bm->code); if (!glyph) { /* Shouldn't happen */ return; } /* Blit the font bitmap into the window */ src = (FAR const void *)glyph->bitmap; ret = priv->ops->bitmap(priv, &intersection, &src, &bm->pos, (unsigned int)glyph->stride); DEBUGASSERT(ret >= 0); } }