/* Portions Copyright (C) 2001 artofcode LLC. Portions Copyright (C) 1996, 2001, 2005 Artifex Software Inc. Portions Copyright (C) 1988, 2000 Aladdin Enterprises. This software is based in part on the work of the Independent JPEG Group. All Rights Reserved. This software is distributed under license and may not be copied, modified or distributed except as expressly authorized under the terms of that license. Refer to licensing information at http://www.artifex.com/ or contact Artifex Software, Inc., 101 Lucas Valley Road #110, San Rafael, CA 94903, (415)492-9861, for further information. */ /*$Id$*/ /* image related elements */ /* element constructor */ #include "memory_.h" #include "gsmemory.h" #include "gsmatrix.h" #include "gp.h" #include "metcomplex.h" #include "metelement.h" #include "metutil.h" #include "math_.h" #include "metimage.h" #include "metgstate.h" #include "ctype_.h" #include "gsimage.h" #include "gscspace.h" #include "gsptype1.h" #include "gscoord.h" #include "gscolor2.h" #include /* nb for atof */ #include "strimpl.h" #include "scommon.h" #include "jpeglib_.h" /* for jpeg filter */ #include "sdct.h" #include "sjpeg.h" #include "zipparse.h" #include "gxstate.h" /* for gs_state_memory() */ #include "gdebug.h" #include "gsutil.h" private int ImageBrush_cook(void **ppdata, met_state_t *ms, const char *el, const char **attr) { CT_ImageBrush *aImageBrush = (CT_ImageBrush *)gs_alloc_bytes(ms->memory, sizeof(CT_ImageBrush), "ImageBrush_cook"); int i; memset(aImageBrush, 0, sizeof(CT_ImageBrush)); #define MYSET(field, value) \ met_cmp_and_set((field), attr[i], attr[i+1], (value)) /* parse attributes, filling in the zeroed out C struct */ for(i = 0; attr[i]; i += 2) { if (!MYSET(&aImageBrush->Key, "Key")) ; else if (!MYSET(&aImageBrush->Transform, "Transform")) ; else if (!MYSET(&aImageBrush->Viewbox, "Viewbox")) ; else if (!MYSET(&aImageBrush->Viewport, "Viewport")) ; else if (!MYSET(&aImageBrush->Fill, "Fill")) ; else if (!MYSET(&aImageBrush->TileMode, "TileMode")) ; else if (!MYSET(&aImageBrush->ViewboxUnits, "ViewboxUnits")) ; else if (!MYSET(&aImageBrush->ViewportUnits, "ViewportUnits")) ; else if (!MYSET(&aImageBrush->ImageSource, "ImageSource")) ; else { gs_warn2("unsupported attribute %s=%s", attr[i], attr[i+1]); } } /* copy back the data for the parser. */ *ppdata = aImageBrush; return 0; } /* temporary code to read raster format. reads the whole works. NB */ private int readdata(gs_memory_t *mem, zip_state_t *pzip, ST_Name ImageSource, byte **bufp, int *lenp) { byte *buf; ulong len = 0; zip_part_t *part = find_zip_part_by_name(pzip, ImageSource); if (part == NULL) return gs_throw1(-1,"Image part not found %s", ImageSource); len = zip_part_length(part); buf = gs_alloc_bytes(mem, len, "xps_readdata buffer"); if ( buf == 0 ) { return -1; } zip_part_seek(part, 0, 0); if ( len != zip_part_read(buf, len, part) ) { return gs_throw(-1, "zip_part_read len wrong"); } *bufp = buf; *lenp = len; #define NO_PNG_TO_JPEG_HACK 1 #ifndef NO_PNG_TO_JPEG_HACK /* NB: this converts PNG to JPEGS on the fly using /tmp/foo.png and /tmp/foo.jpg * NB: also converts TIFF to jpg * NB: file name extension detection is weak, * file data inspection would be much better. */ { const char *ctif_convert = "/usr/bin/convert /tmp/foo.tif /tmp/foo.jpg"; const char *ctif = "/tmp/foo.tif"; const char *cpng_convert = "/usr/bin/convert /tmp/foo.png /tmp/foo.jpg"; const char *cpng = "/tmp/foo.png"; char *imgStr; char *convertStr; bool doit = false; if (0 == strncasecmp(&ImageSource[strlen(ImageSource) -5], "tiff", 4 )) { imgStr = ctif; convertStr = ctif_convert; doit = true; } else if (0 == strncasecmp(&ImageSource[strlen(ImageSource) -4], "png", 3 )); { imgStr = cpng; convertStr = cpng_convert; doit = true; } if (doit) { FILE *in = fopen(imgStr, "w"); fwrite(buf, 1, len, in); fclose(in); system( convertStr ); in = fopen("/tmp/foo.jpg", "r"); if (in == NULL) return gs_throw(-1, "/tmp/foo.jpg file open failed"); len = (fseek(in, 0L, SEEK_END), ftell(in)); rewind(in); gs_free_object(mem, buf, "readdata"); buf = gs_alloc_bytes(mem, len, "readdata"); if (!buf) return -1; fread(buf, 1, len, in); fclose(in); *bufp = buf; *lenp = len; } } #endif /* NB no deletion of images, * NB should process once and use many not read many */ return 0; } int met_PaintPattern(const gs_client_color *pcc, gs_state *pgs) { gs_memory_t *mem = gs_state_memory(pgs); const gs_client_pattern *ppat = gs_getpattern(pcc); const met_pattern_t *pmpat = ppat->client_data; int code; /* if it's a gradient brush */ if (!pmpat->raster_image) { gs_gsave(pgs); if (pmpat->linear) code = LinearGradientBrush_paint(pmpat->linear, pgs); if (pmpat->radial) code = RadialGradientBrush_paint(pmpat->radial, pgs); if (pmpat->visual) code = VisualBrush_paint(pmpat->visual, pgs); gs_grestore(pgs); if (code < 0) return gs_rethrow(code, "could not paint gradient pattern"); return gs_okay; } const xps_image_t *pmim = pmpat->raster_image; const byte *pdata = pmim->samples; gs_image_enum *penum; gs_color_space color_space; gs_image_t image; uint imbytes = pmim->stride * pmim->height; uint used; if (gs_debug_c('b')) dprintf5(mem, "paint_image cs=%d n=%d bpc=%d w=%d h=%d\n", pmim->colorspace, pmim->comps, pmim->bits, pmim->width, pmim->height); /* should be just save the ctm */ gs_gsave(pgs); gs_scale(pgs, 96.0/pmim->xres, 96.0/pmim->yres); switch (pmim->colorspace) { case XPS_GRAY: gs_cspace_init_DeviceGray(mem, &color_space); break; case XPS_RGB: gs_cspace_init_DeviceRGB(mem, &color_space); break; case XPS_CMYK: gs_cspace_init_DeviceCMYK(mem, &color_space); break; default: return gs_throw(-1, "cannot handle images with alpha channels"); } gs_image_t_init(&image, &color_space); image.ColorSpace = &color_space; image.BitsPerComponent = pmim->bits; image.Width = pmim->width; image.Height = pmim->height; penum = gs_image_enum_alloc(mem, "met_PaintPattern"); if (!penum) return gs_throw(-1, "gs_enum_allocate failed"); if ((code = gs_image_init(penum, &image, false, pgs)) < 0) return gs_throw(code, "gs_image_init failed"); if ((code = gs_image_next(penum, pdata, imbytes, &used)) < 0) return gs_throw(code, "gs_image_next failed"); if (imbytes < used) return gs_throw2(-1, "not enough image data (image=%d used=%d)", imbytes, used); if (imbytes > used) return gs_throw2(0, "too much image data (image=%d used=%d)", imbytes, used); gs_image_cleanup(penum); gs_free_object(mem, penum, "px_paint_pattern"); gs_grestore(pgs); return gs_okay; } /* * Strip alpha channel from an image */ private void xps_strip_alpha(xps_image_t *image) { int cs = image->colorspace; int n = image->comps; int y, x, k; byte *sp, *dp; if (image->bits != 8) { gs_warn1("cannot strip alpha from %dbpc images", image->bits); return; } if ((cs != XPS_GRAY_A) && (cs != XPS_RGB_A) && (cs != XPS_CMYK_A)) return; for (y = 0; y < image->height; y++) { sp = image->samples + image->width * n * y; dp = image->samples + image->width * (n - 1) * y; for (x = 0; x < image->width; x++) { for (k = 0; k < n - 1; k++) *dp++ = *sp++; sp++; } } image->colorspace --; image->comps --; image->stride = (n - 1) * image->width; } /* * Switch on file magic to decode an image. */ private int xps_decode_image(gs_memory_t *mem, byte *rbuf, int rlen, xps_image_t *image) { int error; if (rbuf[0] == 0xff && rbuf[1] == 0xd8) error = xps_decode_jpeg(mem, rbuf, rlen, image); else if (memcmp(rbuf, "\211PNG\r\n\032\n", 8) == 0) error = xps_decode_png(mem, rbuf, rlen, image); else if (memcmp(rbuf, "MM", 2) == 0) error = xps_decode_tiff(mem, rbuf, rlen, image); else if (memcmp(rbuf, "II", 2) == 0) error = xps_decode_tiff(mem, rbuf, rlen, image); else error = gs_throw(-1, "unknown image file format"); if (error) return gs_rethrow(error, "could not decode image"); /* NB: strip out alpha until we can handle it */ xps_strip_alpha(image); return gs_okay; } /* NB for the demo we render and set the pattern in the graphics state */ private int make_pattern(ST_Name ImageSource, met_pattern_t *metpat, met_state_t *ms) { byte *rbuf; /* raster buffer */ int rlen; int code; gs_client_pattern gspat; gs_client_color gscolor; gs_memory_t *mem = ms->memory; code = readdata(mem, ms->pzip, ImageSource, &rbuf, &rlen); if (code < 0) return gs_rethrow(code, "read image data failed"); code = xps_decode_image(mem, rbuf, rlen, metpat->raster_image); if (code < 0) { gs_free_object(mem, rbuf, "readdata"); return gs_rethrow(code, "decode image data failed"); } gs_free_object(mem, rbuf, "readdata"); gs_pattern1_init(&gspat); uid_set_UniqueID(&gspat.uid, gs_next_ids(mem, 1)); gspat.PaintType = 1; gspat.TilingType = 1; /* NB: Viewbox(0,0,0,0) appears to be legal, adjust to sane value */ metpat->Viewbox.q.x = max( metpat->Viewbox.q.x, 1 ); metpat->Viewbox.q.y = max( metpat->Viewbox.q.y, 1 ); gspat.BBox.p.x = 0; gspat.BBox.p.y = 0; gspat.BBox.q.x = metpat->Viewbox.q.x - metpat->Viewbox.p.x; gspat.BBox.q.y = metpat->Viewbox.q.y - metpat->Viewbox.p.y; gspat.XStep = metpat->Viewbox.q.x - metpat->Viewbox.p.x; gspat.YStep = metpat->Viewbox.q.y - metpat->Viewbox.p.y; gspat.PaintProc = met_PaintPattern; gspat.client_data = (void *)metpat; { gs_matrix mat; gs_color_space cs; gs_state *pgs = ms->pgs; gs_rect vbox = metpat->Viewbox; gs_rect vport = metpat->Viewport; gs_gsave(pgs); /* resolution scaling is done when the pattern is painted */ /* translate the viewbox to the origin, scale the viewbox to the viewport and translate the viewbox back. */ gs_make_translation(vport.p.x, vport.p.y, &mat); { /* NB: don't scale smaller than a pixel */ double scalex = max((1.00/( metpat->raster_image->xres)), ((vport.q.x - vport.p.x) / (vbox.q.x - vbox.p.x))); double scaley = max((1.00/( metpat->raster_image->yres)), ((vport.q.y - vport.p.y) / (vbox.q.y - vbox.p.y))); gs_matrix_scale(&mat, scalex, scaley, &mat); } gs_matrix_translate(mem, &mat, -vbox.p.x, vbox.p.y, &mat); /* nb defaults to RGB */ gs_cspace_init_DeviceRGB(mem, &cs); gs_setcolorspace(pgs, &cs); gs_makepattern(&gscolor, &gspat, &mat, pgs, NULL); gs_grestore(pgs); gs_setpattern(pgs, &gscolor); { met_path_child_t parent = met_currentpathchild(pgs); if (parent == met_fill) met_setpatternfill(pgs); else if (parent == met_stroke) met_setpatternstroke(pgs); else { gs_throw(-1, "pattern has no context"); return -1; } } } return 0; } private bool is_Data_delimeter(char b) { return (b == ',') || (isspace(b)); } /* action associated with this element */ private int ImageBrush_action(void *data, met_state_t *ms) { /* create the pattern dictionary entry */ CT_ImageBrush *aImageBrush = data; met_pattern_t *pat = (met_pattern_t *)gs_alloc_bytes(ms->memory, sizeof(met_pattern_t), "ImageBrush_action"); xps_image_t *pim = (xps_image_t *)gs_alloc_bytes(ms->memory, sizeof(xps_image_t), "ImageBrush_action"); if (!pat || !pim) return -1; pat->raster_image = pim; /* nb gcc'isms ahead */ if (aImageBrush->Transform) { char transstring[strlen(aImageBrush->Transform)]; strcpy(transstring, aImageBrush->Transform); /* nb wasteful */ char *args[strlen(aImageBrush->Transform)]; char **pargs = args; met_split(transstring, args, is_Data_delimeter); /* nb checking */ pat->Transform.xx = atof(pargs[0]); pat->Transform.xy = atof(pargs[1]); pat->Transform.yx = atof(pargs[2]); pat->Transform.yy = atof(pargs[3]); pat->Transform.tx = atof(pargs[4]); pat->Transform.ty = atof(pargs[5]); } if (aImageBrush->Viewbox) { char viewbox[strlen(aImageBrush->Viewbox)]; strcpy(viewbox, aImageBrush->Viewbox); /* nb wasteful */ char *args[strlen(aImageBrush->Viewbox)]; char **pargs = args; met_split(viewbox, args, is_Data_delimeter); pat->Viewbox.p.x = atof(pargs[0]); pat->Viewbox.p.y = atof(pargs[1]); pat->Viewbox.q.x = pat->Viewbox.p.x + atof(pargs[2]); pat->Viewbox.q.y = pat->Viewbox.p.y + atof(pargs[3]); /* the spec says if the viewbox extant is zero in both directions take a point sample. We are not exactly sure what this means. Here is one interpretation. */ if ((pat->Viewbox.p.x == pat->Viewbox.q.x) && (pat->Viewbox.p.y == pat->Viewbox.q.y)) { pat->Viewbox.q.x = pat->Viewbox.p.x + 1.0; pat->Viewbox.q.y = pat->Viewbox.q.y + 1.0; } } if (aImageBrush->Viewport) { /* do ever feel like your doing the same thing over and over again... */ char viewport[strlen(aImageBrush->Viewport)]; strcpy(viewport, aImageBrush->Viewport); /* nb wasteful */ char *args[strlen(aImageBrush->Viewbox)]; char **pargs = args; met_split(viewport, args, is_Data_delimeter); pat->Viewport.p.x = atof(pargs[0]); pat->Viewport.p.y = atof(pargs[1]); pat->Viewport.q.x = pat->Viewport.p.x + atof(pargs[2]); pat->Viewport.q.y = pat->Viewport.p.y + atof(pargs[3]); } if (aImageBrush->Transform) { char transform[strlen(aImageBrush->Transform)]; char *args[strlen(aImageBrush->Transform)]; strcpy(transform, aImageBrush->Transform); char **pargs = args; met_split(transform, args, is_Data_delimeter); pat->Transform.xx = atof(pargs[0]); pat->Transform.xy = atof(pargs[1]); pat->Transform.yx = atof(pargs[2]); pat->Transform.yy = atof(pargs[3]); pat->Transform.tx = atof(pargs[4]); pat->Transform.ty = atof(pargs[5]); } make_pattern(aImageBrush->ImageSource, pat, ms); return 0; } private int ImageBrush_done(void *data, met_state_t *ms) { gs_free_object(ms->memory, data, "ImageBrush_done"); return 0; /* incomplete */ } const met_element_t met_element_procs_ImageBrush = { "ImageBrush", { ImageBrush_cook, ImageBrush_action, ImageBrush_done } };