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/* $Header$ */ |
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|
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/* |
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* tkCanvPs.c -- |
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* |
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* This module provides Postscript output support for canvases, |
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* including the "postscript" widget command plus a few utility |
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* procedures used for generating Postscript. |
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* |
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* Copyright (c) 1991-1994 The Regents of the University of California. |
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* Copyright (c) 1994-1997 Sun Microsystems, Inc. |
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* |
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* See the file "license.terms" for information on usage and redistribution |
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* of this file, and for a DISCLAIMER OF ALL WARRANTIES. |
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* |
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* RCS: @(#) $Id: tkcanvps.c,v 1.1.1.1 2001/06/13 04:57:25 dtashley Exp $ |
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*/ |
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|
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#include "tkInt.h" |
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#include "tkCanvas.h" |
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#include "tkPort.h" |
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|
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/* |
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* See tkCanvas.h for key data structures used to implement canvases. |
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*/ |
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|
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/* |
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* One of the following structures is created to keep track of Postscript |
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* output being generated. It consists mostly of information provided on |
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* the widget command line. |
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*/ |
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|
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typedef struct TkPostscriptInfo { |
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int x, y, width, height; /* Area to print, in canvas pixel |
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* coordinates. */ |
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int x2, y2; /* x+width and y+height. */ |
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char *pageXString; /* String value of "-pagex" option or NULL. */ |
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char *pageYString; /* String value of "-pagey" option or NULL. */ |
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double pageX, pageY; /* Postscript coordinates (in points) |
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* corresponding to pageXString and |
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* pageYString. Don't forget that y-values |
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* grow upwards for Postscript! */ |
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char *pageWidthString; /* Printed width of output. */ |
44 |
char *pageHeightString; /* Printed height of output. */ |
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double scale; /* Scale factor for conversion: each pixel |
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* maps into this many points. */ |
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Tk_Anchor pageAnchor; /* How to anchor bbox on Postscript page. */ |
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int rotate; /* Non-zero means output should be rotated |
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* on page (landscape mode). */ |
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char *fontVar; /* If non-NULL, gives name of global variable |
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* containing font mapping information. |
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* Malloc'ed. */ |
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char *colorVar; /* If non-NULL, give name of global variable |
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* containing color mapping information. |
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* Malloc'ed. */ |
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char *colorMode; /* Mode for handling colors: "monochrome", |
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* "gray", or "color". Malloc'ed. */ |
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int colorLevel; /* Numeric value corresponding to colorMode: |
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* 0 for mono, 1 for gray, 2 for color. */ |
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char *fileName; /* Name of file in which to write Postscript; |
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* NULL means return Postscript info as |
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* result. Malloc'ed. */ |
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char *channelName; /* If -channel is specified, the name of |
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* the channel to use. */ |
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Tcl_Channel chan; /* Open channel corresponding to fileName. */ |
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Tcl_HashTable fontTable; /* Hash table containing names of all font |
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* families used in output. The hash table |
68 |
* values are not used. */ |
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int prepass; /* Non-zero means that we're currently in |
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* the pre-pass that collects font information, |
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* so the Postscript generated isn't |
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* relevant. */ |
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int prolog; /* Non-zero means output should contain |
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the file prolog.ps in the header. */ |
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} TkPostscriptInfo; |
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|
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/* |
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* The table below provides a template that's used to process arguments |
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* to the canvas "postscript" command and fill in TkPostscriptInfo |
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* structures. |
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*/ |
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|
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static Tk_ConfigSpec configSpecs[] = { |
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{TK_CONFIG_STRING, "-colormap", (char *) NULL, (char *) NULL, |
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"", Tk_Offset(TkPostscriptInfo, colorVar), 0}, |
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{TK_CONFIG_STRING, "-colormode", (char *) NULL, (char *) NULL, |
87 |
"", Tk_Offset(TkPostscriptInfo, colorMode), 0}, |
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{TK_CONFIG_STRING, "-file", (char *) NULL, (char *) NULL, |
89 |
"", Tk_Offset(TkPostscriptInfo, fileName), 0}, |
90 |
{TK_CONFIG_STRING, "-channel", (char *) NULL, (char *) NULL, |
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"", Tk_Offset(TkPostscriptInfo, channelName), 0}, |
92 |
{TK_CONFIG_STRING, "-fontmap", (char *) NULL, (char *) NULL, |
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"", Tk_Offset(TkPostscriptInfo, fontVar), 0}, |
94 |
{TK_CONFIG_PIXELS, "-height", (char *) NULL, (char *) NULL, |
95 |
"", Tk_Offset(TkPostscriptInfo, height), 0}, |
96 |
{TK_CONFIG_ANCHOR, "-pageanchor", (char *) NULL, (char *) NULL, |
97 |
"", Tk_Offset(TkPostscriptInfo, pageAnchor), 0}, |
98 |
{TK_CONFIG_STRING, "-pageheight", (char *) NULL, (char *) NULL, |
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"", Tk_Offset(TkPostscriptInfo, pageHeightString), 0}, |
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{TK_CONFIG_STRING, "-pagewidth", (char *) NULL, (char *) NULL, |
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"", Tk_Offset(TkPostscriptInfo, pageWidthString), 0}, |
102 |
{TK_CONFIG_STRING, "-pagex", (char *) NULL, (char *) NULL, |
103 |
"", Tk_Offset(TkPostscriptInfo, pageXString), 0}, |
104 |
{TK_CONFIG_STRING, "-pagey", (char *) NULL, (char *) NULL, |
105 |
"", Tk_Offset(TkPostscriptInfo, pageYString), 0}, |
106 |
{TK_CONFIG_BOOLEAN, "-prolog", (char *) NULL, (char *) NULL, |
107 |
"", Tk_Offset(TkPostscriptInfo, prolog), 0}, |
108 |
{TK_CONFIG_BOOLEAN, "-rotate", (char *) NULL, (char *) NULL, |
109 |
"", Tk_Offset(TkPostscriptInfo, rotate), 0}, |
110 |
{TK_CONFIG_PIXELS, "-width", (char *) NULL, (char *) NULL, |
111 |
"", Tk_Offset(TkPostscriptInfo, width), 0}, |
112 |
{TK_CONFIG_PIXELS, "-x", (char *) NULL, (char *) NULL, |
113 |
"", Tk_Offset(TkPostscriptInfo, x), 0}, |
114 |
{TK_CONFIG_PIXELS, "-y", (char *) NULL, (char *) NULL, |
115 |
"", Tk_Offset(TkPostscriptInfo, y), 0}, |
116 |
{TK_CONFIG_END, (char *) NULL, (char *) NULL, (char *) NULL, |
117 |
(char *) NULL, 0, 0} |
118 |
}; |
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|
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/* |
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* The prolog data. Generated by str2c from prolog.ps |
122 |
* This was split in small chunks by str2c because |
123 |
* some C compiler have limitations on the size of static strings. |
124 |
* (str2c is a small tcl script in tcl's tool directory (source release)) |
125 |
*/ |
126 |
static CONST char * CONST prolog[]= { |
127 |
/* Start of part 1 (2000 characters) */ |
128 |
"%%BeginProlog\n\ |
129 |
50 dict begin\n\ |
130 |
\n\ |
131 |
% This is a standard prolog for Postscript generated by Tk's canvas\n\ |
132 |
% widget.\n\ |
133 |
% RCS: @(#) $Id: tkcanvps.c,v 1.1.1.1 2001/06/13 04:57:25 dtashley Exp $\n\ |
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\n\ |
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% The definitions below just define all of the variables used in\n\ |
136 |
% any of the procedures here. This is needed for obscure reasons\n\ |
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% explained on p. 716 of the Postscript manual (Section H.2.7,\n\ |
138 |
% \"Initializing Variables,\" in the section on Encapsulated Postscript).\n\ |
139 |
\n\ |
140 |
/baseline 0 def\n\ |
141 |
/stipimage 0 def\n\ |
142 |
/height 0 def\n\ |
143 |
/justify 0 def\n\ |
144 |
/lineLength 0 def\n\ |
145 |
/spacing 0 def\n\ |
146 |
/stipple 0 def\n\ |
147 |
/strings 0 def\n\ |
148 |
/xoffset 0 def\n\ |
149 |
/yoffset 0 def\n\ |
150 |
/tmpstip null def\n\ |
151 |
\n\ |
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% Define the array ISOLatin1Encoding (which specifies how characters are\n\ |
153 |
% encoded for ISO-8859-1 fonts), if it isn't already present (Postscript\n\ |
154 |
% level 2 is supposed to define it, but level 1 doesn't).\n\ |
155 |
\n\ |
156 |
systemdict /ISOLatin1Encoding known not {\n\ |
157 |
/ISOLatin1Encoding [\n\ |
158 |
/space /space /space /space /space /space /space /space\n\ |
159 |
/space /space /space /space /space /space /space /space\n\ |
160 |
/space /space /space /space /space /space /space /space\n\ |
161 |
/space /space /space /space /space /space /space /space\n\ |
162 |
/space /exclam /quotedbl /numbersign /dollar /percent /ampersand\n\ |
163 |
/quoteright\n\ |
164 |
/parenleft /parenright /asterisk /plus /comma /minus /period /slash\n\ |
165 |
/zero /one /two /three /four /five /six /seven\n\ |
166 |
/eight /nine /colon /semicolon /less /equal /greater /question\n\ |
167 |
/at /A /B /C /D /E /F /G\n\ |
168 |
/H /I /J /K /L /M /N /O\n\ |
169 |
/P /Q /R /S /T /U /V /W\n\ |
170 |
/X /Y /Z /bracketleft /backslash /bracketright /asciicircum /underscore\n\ |
171 |
/quoteleft /a /b /c /d /e /f /g\n\ |
172 |
/h /i /j /k /l /m /n /o\n\ |
173 |
/p /q /r /s /t /u /v /w\n\ |
174 |
/x /y /z /braceleft /bar /braceright /asciitilde /space\n\ |
175 |
/space /space /space /space /space /space /space /space\n\ |
176 |
/space /space /space /space /space /space /space /space\n\ |
177 |
/dotlessi /grave /acute /circumflex /tilde /macron /breve /dotaccent\n\ |
178 |
/dieresis /space /ring /cedilla /space /hungarumlaut /ogonek /caron\n\ |
179 |
/space /exclamdown /cent /sterling /currency /yen /brokenbar /section\n\ |
180 |
/dieresis /copyright /ordfem", |
181 |
/* End of part 1 */ |
182 |
|
183 |
/* Start of part 2 (2000 characters) */ |
184 |
"inine /guillemotleft /logicalnot /hyphen\n\ |
185 |
/registered /macron\n\ |
186 |
/degree /plusminus /twosuperior /threesuperior /acute /mu /paragraph\n\ |
187 |
/periodcentered\n\ |
188 |
/cedillar /onesuperior /ordmasculine /guillemotright /onequarter\n\ |
189 |
/onehalf /threequarters /questiondown\n\ |
190 |
/Agrave /Aacute /Acircumflex /Atilde /Adieresis /Aring /AE /Ccedilla\n\ |
191 |
/Egrave /Eacute /Ecircumflex /Edieresis /Igrave /Iacute /Icircumflex\n\ |
192 |
/Idieresis\n\ |
193 |
/Eth /Ntilde /Ograve /Oacute /Ocircumflex /Otilde /Odieresis /multiply\n\ |
194 |
/Oslash /Ugrave /Uacute /Ucircumflex /Udieresis /Yacute /Thorn\n\ |
195 |
/germandbls\n\ |
196 |
/agrave /aacute /acircumflex /atilde /adieresis /aring /ae /ccedilla\n\ |
197 |
/egrave /eacute /ecircumflex /edieresis /igrave /iacute /icircumflex\n\ |
198 |
/idieresis\n\ |
199 |
/eth /ntilde /ograve /oacute /ocircumflex /otilde /odieresis /divide\n\ |
200 |
/oslash /ugrave /uacute /ucircumflex /udieresis /yacute /thorn\n\ |
201 |
/ydieresis\n\ |
202 |
] def\n\ |
203 |
} if\n\ |
204 |
\n\ |
205 |
% font ISOEncode font\n\ |
206 |
% This procedure changes the encoding of a font from the default\n\ |
207 |
% Postscript encoding to ISOLatin1. It's typically invoked just\n\ |
208 |
% before invoking \"setfont\". The body of this procedure comes from\n\ |
209 |
% Section 5.6.1 of the Postscript book.\n\ |
210 |
\n\ |
211 |
/ISOEncode {\n\ |
212 |
dup length dict begin\n\ |
213 |
{1 index /FID ne {def} {pop pop} ifelse} forall\n\ |
214 |
/Encoding ISOLatin1Encoding def\n\ |
215 |
currentdict\n\ |
216 |
end\n\ |
217 |
\n\ |
218 |
% I'm not sure why it's necessary to use \"definefont\" on this new\n\ |
219 |
% font, but it seems to be important; just use the name \"Temporary\"\n\ |
220 |
% for the font.\n\ |
221 |
\n\ |
222 |
/Temporary exch definefont\n\ |
223 |
} bind def\n\ |
224 |
\n\ |
225 |
% StrokeClip\n\ |
226 |
%\n\ |
227 |
% This procedure converts the current path into a clip area under\n\ |
228 |
% the assumption of stroking. It's a bit tricky because some Postscript\n\ |
229 |
% interpreters get errors during strokepath for dashed lines. If\n\ |
230 |
% this happens then turn off dashes and try again.\n\ |
231 |
\n\ |
232 |
/StrokeClip {\n\ |
233 |
{strokepath} stopped {\n\ |
234 |
(This Postscript printer gets limitcheck overflows when) =\n\ |
235 |
(stippling dashed lines; lines will be printed solid instead.) =\n\ |
236 |
[] 0 setdash strokepath} if\n\ |
237 |
clip\n\ |
238 |
} bind def\n\ |
239 |
\n\ |
240 |
% d", |
241 |
/* End of part 2 */ |
242 |
|
243 |
/* Start of part 3 (2000 characters) */ |
244 |
"esiredSize EvenPixels closestSize\n\ |
245 |
%\n\ |
246 |
% The procedure below is used for stippling. Given the optimal size\n\ |
247 |
% of a dot in a stipple pattern in the current user coordinate system,\n\ |
248 |
% compute the closest size that is an exact multiple of the device's\n\ |
249 |
% pixel size. This allows stipple patterns to be displayed without\n\ |
250 |
% aliasing effects.\n\ |
251 |
\n\ |
252 |
/EvenPixels {\n\ |
253 |
% Compute exact number of device pixels per stipple dot.\n\ |
254 |
dup 0 matrix currentmatrix dtransform\n\ |
255 |
dup mul exch dup mul add sqrt\n\ |
256 |
\n\ |
257 |
% Round to an integer, make sure the number is at least 1, and compute\n\ |
258 |
% user coord distance corresponding to this.\n\ |
259 |
dup round dup 1 lt {pop 1} if\n\ |
260 |
exch div mul\n\ |
261 |
} bind def\n\ |
262 |
\n\ |
263 |
% width height string StippleFill --\n\ |
264 |
%\n\ |
265 |
% Given a path already set up and a clipping region generated from\n\ |
266 |
% it, this procedure will fill the clipping region with a stipple\n\ |
267 |
% pattern. \"String\" contains a proper image description of the\n\ |
268 |
% stipple pattern and \"width\" and \"height\" give its dimensions. Each\n\ |
269 |
% stipple dot is assumed to be about one unit across in the current\n\ |
270 |
% user coordinate system. This procedure trashes the graphics state.\n\ |
271 |
\n\ |
272 |
/StippleFill {\n\ |
273 |
% The following code is needed to work around a NeWSprint bug.\n\ |
274 |
\n\ |
275 |
/tmpstip 1 index def\n\ |
276 |
\n\ |
277 |
% Change the scaling so that one user unit in user coordinates\n\ |
278 |
% corresponds to the size of one stipple dot.\n\ |
279 |
1 EvenPixels dup scale\n\ |
280 |
\n\ |
281 |
% Compute the bounding box occupied by the path (which is now\n\ |
282 |
% the clipping region), and round the lower coordinates down\n\ |
283 |
% to the nearest starting point for the stipple pattern. Be\n\ |
284 |
% careful about negative numbers, since the rounding works\n\ |
285 |
% differently on them.\n\ |
286 |
\n\ |
287 |
pathbbox\n\ |
288 |
4 2 roll\n\ |
289 |
5 index div dup 0 lt {1 sub} if cvi 5 index mul 4 1 roll\n\ |
290 |
6 index div dup 0 lt {1 sub} if cvi 6 index mul 3 2 roll\n\ |
291 |
\n\ |
292 |
% Stack now: width height string y1 y2 x1 x2\n\ |
293 |
% Below is a doubly-nested for loop to iterate across this area\n\ |
294 |
% in units of the stipple pattern size, going up columns then\n\ |
295 |
% acr", |
296 |
/* End of part 3 */ |
297 |
|
298 |
/* Start of part 4 (2000 characters) */ |
299 |
"oss rows, blasting out a stipple-pattern-sized rectangle at\n\ |
300 |
% each position\n\ |
301 |
\n\ |
302 |
6 index exch {\n\ |
303 |
2 index 5 index 3 index {\n\ |
304 |
% Stack now: width height string y1 y2 x y\n\ |
305 |
\n\ |
306 |
gsave\n\ |
307 |
1 index exch translate\n\ |
308 |
5 index 5 index true matrix tmpstip imagemask\n\ |
309 |
grestore\n\ |
310 |
} for\n\ |
311 |
pop\n\ |
312 |
} for\n\ |
313 |
pop pop pop pop pop\n\ |
314 |
} bind def\n\ |
315 |
\n\ |
316 |
% -- AdjustColor --\n\ |
317 |
% Given a color value already set for output by the caller, adjusts\n\ |
318 |
% that value to a grayscale or mono value if requested by the CL\n\ |
319 |
% variable.\n\ |
320 |
\n\ |
321 |
/AdjustColor {\n\ |
322 |
CL 2 lt {\n\ |
323 |
currentgray\n\ |
324 |
CL 0 eq {\n\ |
325 |
.5 lt {0} {1} ifelse\n\ |
326 |
} if\n\ |
327 |
setgray\n\ |
328 |
} if\n\ |
329 |
} bind def\n\ |
330 |
\n\ |
331 |
% x y strings spacing xoffset yoffset justify stipple DrawText --\n\ |
332 |
% This procedure does all of the real work of drawing text. The\n\ |
333 |
% color and font must already have been set by the caller, and the\n\ |
334 |
% following arguments must be on the stack:\n\ |
335 |
%\n\ |
336 |
% x, y - Coordinates at which to draw text.\n\ |
337 |
% strings - An array of strings, one for each line of the text item,\n\ |
338 |
% in order from top to bottom.\n\ |
339 |
% spacing - Spacing between lines.\n\ |
340 |
% xoffset - Horizontal offset for text bbox relative to x and y: 0 for\n\ |
341 |
% nw/w/sw anchor, -0.5 for n/center/s, and -1.0 for ne/e/se.\n\ |
342 |
% yoffset - Vertical offset for text bbox relative to x and y: 0 for\n\ |
343 |
% nw/n/ne anchor, +0.5 for w/center/e, and +1.0 for sw/s/se.\n\ |
344 |
% justify - 0 for left justification, 0.5 for center, 1 for right justify.\n\ |
345 |
% stipple - Boolean value indicating whether or not text is to be\n\ |
346 |
% drawn in stippled fashion. If text is stippled,\n\ |
347 |
% procedure StippleText must have been defined to call\n\ |
348 |
% StippleFill in the right way.\n\ |
349 |
%\n\ |
350 |
% Also, when this procedure is invoked, the color and font must already\n\ |
351 |
% have been set for the text.\n\ |
352 |
\n\ |
353 |
/DrawText {\n\ |
354 |
/stipple exch def\n\ |
355 |
/justify exch def\n\ |
356 |
/yoffset exch def\n\ |
357 |
/xoffset exch def\n\ |
358 |
/spacing exch def\n\ |
359 |
/strings exch def\n\ |
360 |
\n\ |
361 |
% First scan through all of the text to find the widest line.\n\ |
362 |
\n\ |
363 |
/lineLength 0 def\n\ |
364 |
strings {\n\ |
365 |
stringwidth pop\n\ |
366 |
dup lineLength gt {/lineLength exch def}", |
367 |
/* End of part 4 */ |
368 |
|
369 |
/* Start of part 5 (1546 characters) */ |
370 |
" {pop} ifelse\n\ |
371 |
newpath\n\ |
372 |
} forall\n\ |
373 |
\n\ |
374 |
% Compute the baseline offset and the actual font height.\n\ |
375 |
\n\ |
376 |
0 0 moveto (TXygqPZ) false charpath\n\ |
377 |
pathbbox dup /baseline exch def\n\ |
378 |
exch pop exch sub /height exch def pop\n\ |
379 |
newpath\n\ |
380 |
\n\ |
381 |
% Translate coordinates first so that the origin is at the upper-left\n\ |
382 |
% corner of the text's bounding box. Remember that x and y for\n\ |
383 |
% positioning are still on the stack.\n\ |
384 |
\n\ |
385 |
translate\n\ |
386 |
lineLength xoffset mul\n\ |
387 |
strings length 1 sub spacing mul height add yoffset mul translate\n\ |
388 |
\n\ |
389 |
% Now use the baseline and justification information to translate so\n\ |
390 |
% that the origin is at the baseline and positioning point for the\n\ |
391 |
% first line of text.\n\ |
392 |
\n\ |
393 |
justify lineLength mul baseline neg translate\n\ |
394 |
\n\ |
395 |
% Iterate over each of the lines to output it. For each line,\n\ |
396 |
% compute its width again so it can be properly justified, then\n\ |
397 |
% display it.\n\ |
398 |
\n\ |
399 |
strings {\n\ |
400 |
dup stringwidth pop\n\ |
401 |
justify neg mul 0 moveto\n\ |
402 |
stipple {\n\ |
403 |
\n\ |
404 |
% The text is stippled, so turn it into a path and print\n\ |
405 |
% by calling StippledText, which in turn calls StippleFill.\n\ |
406 |
% Unfortunately, many Postscript interpreters will get\n\ |
407 |
% overflow errors if we try to do the whole string at\n\ |
408 |
% once, so do it a character at a time.\n\ |
409 |
\n\ |
410 |
gsave\n\ |
411 |
/char (X) def\n\ |
412 |
{\n\ |
413 |
char 0 3 -1 roll put\n\ |
414 |
currentpoint\n\ |
415 |
gsave\n\ |
416 |
char true charpath clip StippleText\n\ |
417 |
grestore\n\ |
418 |
char stringwidth translate\n\ |
419 |
moveto\n\ |
420 |
} forall\n\ |
421 |
grestore\n\ |
422 |
} {show} ifelse\n\ |
423 |
0 spacing neg translate\n\ |
424 |
} forall\n\ |
425 |
} bind def\n\ |
426 |
\n\ |
427 |
%%EndProlog\n\ |
428 |
", |
429 |
/* End of part 5 */ |
430 |
|
431 |
NULL /* End of data marker */ |
432 |
}; |
433 |
|
434 |
/* |
435 |
* Forward declarations for procedures defined later in this file: |
436 |
*/ |
437 |
|
438 |
static int GetPostscriptPoints _ANSI_ARGS_((Tcl_Interp *interp, |
439 |
char *string, double *doublePtr)); |
440 |
|
441 |
/* |
442 |
*-------------------------------------------------------------- |
443 |
* |
444 |
* TkCanvPostscriptCmd -- |
445 |
* |
446 |
* This procedure is invoked to process the "postscript" options |
447 |
* of the widget command for canvas widgets. See the user |
448 |
* documentation for details on what it does. |
449 |
* |
450 |
* Results: |
451 |
* A standard Tcl result. |
452 |
* |
453 |
* Side effects: |
454 |
* See the user documentation. |
455 |
* |
456 |
*-------------------------------------------------------------- |
457 |
*/ |
458 |
|
459 |
/* ARGSUSED */ |
460 |
int |
461 |
TkCanvPostscriptCmd(canvasPtr, interp, argc, argv) |
462 |
TkCanvas *canvasPtr; /* Information about canvas widget. */ |
463 |
Tcl_Interp *interp; /* Current interpreter. */ |
464 |
int argc; /* Number of arguments. */ |
465 |
char **argv; /* Argument strings. Caller has |
466 |
* already parsed this command enough |
467 |
* to know that argv[1] is |
468 |
* "postscript". */ |
469 |
{ |
470 |
TkPostscriptInfo psInfo; |
471 |
Tk_PostscriptInfo oldInfoPtr; |
472 |
int result; |
473 |
Tk_Item *itemPtr; |
474 |
#define STRING_LENGTH 400 |
475 |
char string[STRING_LENGTH+1], *p; |
476 |
time_t now; |
477 |
size_t length; |
478 |
Tk_Window tkwin = canvasPtr->tkwin; |
479 |
int deltaX = 0, deltaY = 0; /* Offset of lower-left corner of |
480 |
* area to be marked up, measured |
481 |
* in canvas units from the positioning |
482 |
* point on the page (reflects |
483 |
* anchor position). Initial values |
484 |
* needed only to stop compiler |
485 |
* warnings. */ |
486 |
Tcl_HashSearch search; |
487 |
Tcl_HashEntry *hPtr; |
488 |
Tcl_DString buffer; |
489 |
CONST char * CONST *chunk; |
490 |
|
491 |
/* |
492 |
*---------------------------------------------------------------- |
493 |
* Initialize the data structure describing Postscript generation, |
494 |
* then process all the arguments to fill the data structure in. |
495 |
*---------------------------------------------------------------- |
496 |
*/ |
497 |
|
498 |
oldInfoPtr = canvasPtr->psInfo; |
499 |
canvasPtr->psInfo = (Tk_PostscriptInfo) &psInfo; |
500 |
psInfo.x = canvasPtr->xOrigin; |
501 |
psInfo.y = canvasPtr->yOrigin; |
502 |
psInfo.width = -1; |
503 |
psInfo.height = -1; |
504 |
psInfo.pageXString = NULL; |
505 |
psInfo.pageYString = NULL; |
506 |
psInfo.pageX = 72*4.25; |
507 |
psInfo.pageY = 72*5.5; |
508 |
psInfo.pageWidthString = NULL; |
509 |
psInfo.pageHeightString = NULL; |
510 |
psInfo.scale = 1.0; |
511 |
psInfo.pageAnchor = TK_ANCHOR_CENTER; |
512 |
psInfo.rotate = 0; |
513 |
psInfo.fontVar = NULL; |
514 |
psInfo.colorVar = NULL; |
515 |
psInfo.colorMode = NULL; |
516 |
psInfo.colorLevel = 0; |
517 |
psInfo.fileName = NULL; |
518 |
psInfo.channelName = NULL; |
519 |
psInfo.chan = NULL; |
520 |
psInfo.prepass = 0; |
521 |
psInfo.prolog = 1; |
522 |
Tcl_InitHashTable(&psInfo.fontTable, TCL_STRING_KEYS); |
523 |
result = Tk_ConfigureWidget(interp, tkwin, |
524 |
configSpecs, argc-2, argv+2, (char *) &psInfo, |
525 |
TK_CONFIG_ARGV_ONLY); |
526 |
if (result != TCL_OK) { |
527 |
goto cleanup; |
528 |
} |
529 |
|
530 |
if (psInfo.width == -1) { |
531 |
psInfo.width = Tk_Width(tkwin); |
532 |
} |
533 |
if (psInfo.height == -1) { |
534 |
psInfo.height = Tk_Height(tkwin); |
535 |
} |
536 |
psInfo.x2 = psInfo.x + psInfo.width; |
537 |
psInfo.y2 = psInfo.y + psInfo.height; |
538 |
|
539 |
if (psInfo.pageXString != NULL) { |
540 |
if (GetPostscriptPoints(interp, psInfo.pageXString, |
541 |
&psInfo.pageX) != TCL_OK) { |
542 |
goto cleanup; |
543 |
} |
544 |
} |
545 |
if (psInfo.pageYString != NULL) { |
546 |
if (GetPostscriptPoints(interp, psInfo.pageYString, |
547 |
&psInfo.pageY) != TCL_OK) { |
548 |
goto cleanup; |
549 |
} |
550 |
} |
551 |
if (psInfo.pageWidthString != NULL) { |
552 |
if (GetPostscriptPoints(interp, psInfo.pageWidthString, |
553 |
&psInfo.scale) != TCL_OK) { |
554 |
goto cleanup; |
555 |
} |
556 |
psInfo.scale /= psInfo.width; |
557 |
} else if (psInfo.pageHeightString != NULL) { |
558 |
if (GetPostscriptPoints(interp, psInfo.pageHeightString, |
559 |
&psInfo.scale) != TCL_OK) { |
560 |
goto cleanup; |
561 |
} |
562 |
psInfo.scale /= psInfo.height; |
563 |
} else { |
564 |
psInfo.scale = (72.0/25.4)*WidthMMOfScreen(Tk_Screen(tkwin)); |
565 |
psInfo.scale /= WidthOfScreen(Tk_Screen(tkwin)); |
566 |
} |
567 |
switch (psInfo.pageAnchor) { |
568 |
case TK_ANCHOR_NW: |
569 |
case TK_ANCHOR_W: |
570 |
case TK_ANCHOR_SW: |
571 |
deltaX = 0; |
572 |
break; |
573 |
case TK_ANCHOR_N: |
574 |
case TK_ANCHOR_CENTER: |
575 |
case TK_ANCHOR_S: |
576 |
deltaX = -psInfo.width/2; |
577 |
break; |
578 |
case TK_ANCHOR_NE: |
579 |
case TK_ANCHOR_E: |
580 |
case TK_ANCHOR_SE: |
581 |
deltaX = -psInfo.width; |
582 |
break; |
583 |
} |
584 |
switch (psInfo.pageAnchor) { |
585 |
case TK_ANCHOR_NW: |
586 |
case TK_ANCHOR_N: |
587 |
case TK_ANCHOR_NE: |
588 |
deltaY = - psInfo.height; |
589 |
break; |
590 |
case TK_ANCHOR_W: |
591 |
case TK_ANCHOR_CENTER: |
592 |
case TK_ANCHOR_E: |
593 |
deltaY = -psInfo.height/2; |
594 |
break; |
595 |
case TK_ANCHOR_SW: |
596 |
case TK_ANCHOR_S: |
597 |
case TK_ANCHOR_SE: |
598 |
deltaY = 0; |
599 |
break; |
600 |
} |
601 |
|
602 |
if (psInfo.colorMode == NULL) { |
603 |
psInfo.colorLevel = 2; |
604 |
} else { |
605 |
length = strlen(psInfo.colorMode); |
606 |
if (strncmp(psInfo.colorMode, "monochrome", length) == 0) { |
607 |
psInfo.colorLevel = 0; |
608 |
} else if (strncmp(psInfo.colorMode, "gray", length) == 0) { |
609 |
psInfo.colorLevel = 1; |
610 |
} else if (strncmp(psInfo.colorMode, "color", length) == 0) { |
611 |
psInfo.colorLevel = 2; |
612 |
} else { |
613 |
Tcl_AppendResult(interp, "bad color mode \"", |
614 |
psInfo.colorMode, "\": must be monochrome, ", |
615 |
"gray, or color", (char *) NULL); |
616 |
goto cleanup; |
617 |
} |
618 |
} |
619 |
|
620 |
if (psInfo.fileName != NULL) { |
621 |
|
622 |
/* |
623 |
* Check that -file and -channel are not both specified. |
624 |
*/ |
625 |
|
626 |
if (psInfo.channelName != NULL) { |
627 |
Tcl_AppendResult(interp, "can't specify both -file", |
628 |
" and -channel", (char *) NULL); |
629 |
result = TCL_ERROR; |
630 |
goto cleanup; |
631 |
} |
632 |
|
633 |
/* |
634 |
* Check that we are not in a safe interpreter. If we are, disallow |
635 |
* the -file specification. |
636 |
*/ |
637 |
|
638 |
if (Tcl_IsSafe(interp)) { |
639 |
Tcl_AppendResult(interp, "can't specify -file in a", |
640 |
" safe interpreter", (char *) NULL); |
641 |
result = TCL_ERROR; |
642 |
goto cleanup; |
643 |
} |
644 |
|
645 |
p = Tcl_TranslateFileName(interp, psInfo.fileName, &buffer); |
646 |
if (p == NULL) { |
647 |
goto cleanup; |
648 |
} |
649 |
psInfo.chan = Tcl_OpenFileChannel(interp, p, "w", 0666); |
650 |
Tcl_DStringFree(&buffer); |
651 |
if (psInfo.chan == NULL) { |
652 |
goto cleanup; |
653 |
} |
654 |
} |
655 |
|
656 |
if (psInfo.channelName != NULL) { |
657 |
int mode; |
658 |
|
659 |
/* |
660 |
* Check that the channel is found in this interpreter and that it |
661 |
* is open for writing. |
662 |
*/ |
663 |
|
664 |
psInfo.chan = Tcl_GetChannel(interp, psInfo.channelName, |
665 |
&mode); |
666 |
if (psInfo.chan == (Tcl_Channel) NULL) { |
667 |
result = TCL_ERROR; |
668 |
goto cleanup; |
669 |
} |
670 |
if ((mode & TCL_WRITABLE) == 0) { |
671 |
Tcl_AppendResult(interp, "channel \"", |
672 |
psInfo.channelName, "\" wasn't opened for writing", |
673 |
(char *) NULL); |
674 |
result = TCL_ERROR; |
675 |
goto cleanup; |
676 |
} |
677 |
} |
678 |
|
679 |
/* |
680 |
*-------------------------------------------------------- |
681 |
* Make a pre-pass over all of the items, generating Postscript |
682 |
* and then throwing it away. The purpose of this pass is just |
683 |
* to collect information about all the fonts in use, so that |
684 |
* we can output font information in the proper form required |
685 |
* by the Document Structuring Conventions. |
686 |
*-------------------------------------------------------- |
687 |
*/ |
688 |
|
689 |
psInfo.prepass = 1; |
690 |
for (itemPtr = canvasPtr->firstItemPtr; itemPtr != NULL; |
691 |
itemPtr = itemPtr->nextPtr) { |
692 |
if ((itemPtr->x1 >= psInfo.x2) || (itemPtr->x2 < psInfo.x) |
693 |
|| (itemPtr->y1 >= psInfo.y2) || (itemPtr->y2 < psInfo.y)) { |
694 |
continue; |
695 |
} |
696 |
if (itemPtr->typePtr->postscriptProc == NULL) { |
697 |
continue; |
698 |
} |
699 |
result = (*itemPtr->typePtr->postscriptProc)(interp, |
700 |
(Tk_Canvas) canvasPtr, itemPtr, 1); |
701 |
Tcl_ResetResult(interp); |
702 |
if (result != TCL_OK) { |
703 |
/* |
704 |
* An error just occurred. Just skip out of this loop. |
705 |
* There's no need to report the error now; it can be |
706 |
* reported later (errors can happen later that don't |
707 |
* happen now, so we still have to check for errors later |
708 |
* anyway). |
709 |
*/ |
710 |
break; |
711 |
} |
712 |
} |
713 |
psInfo.prepass = 0; |
714 |
|
715 |
/* |
716 |
*-------------------------------------------------------- |
717 |
* Generate the header and prolog for the Postscript. |
718 |
*-------------------------------------------------------- |
719 |
*/ |
720 |
|
721 |
if (psInfo.prolog) { |
722 |
Tcl_AppendResult(interp, "%!PS-Adobe-3.0 EPSF-3.0\n", |
723 |
"%%Creator: Tk Canvas Widget\n", (char *) NULL); |
724 |
#ifdef HAVE_PW_GECOS |
725 |
if (!Tcl_IsSafe(interp)) { |
726 |
struct passwd *pwPtr = getpwuid(getuid()); /* INTL: Native. */ |
727 |
Tcl_AppendResult(interp, "%%For: ", |
728 |
(pwPtr != NULL) ? pwPtr->pw_gecos : "Unknown", "\n", |
729 |
(char *) NULL); |
730 |
endpwent(); |
731 |
} |
732 |
#endif /* HAVE_PW_GECOS */ |
733 |
Tcl_AppendResult(interp, "%%Title: Window ", |
734 |
Tk_PathName(tkwin), "\n", (char *) NULL); |
735 |
time(&now); |
736 |
Tcl_AppendResult(interp, "%%CreationDate: ", |
737 |
ctime(&now), (char *) NULL); /* INTL: Native. */ |
738 |
if (!psInfo.rotate) { |
739 |
sprintf(string, "%d %d %d %d", |
740 |
(int) (psInfo.pageX + psInfo.scale*deltaX), |
741 |
(int) (psInfo.pageY + psInfo.scale*deltaY), |
742 |
(int) (psInfo.pageX + psInfo.scale*(deltaX + psInfo.width) |
743 |
+ 1.0), |
744 |
(int) (psInfo.pageY + psInfo.scale*(deltaY + psInfo.height) |
745 |
+ 1.0)); |
746 |
} else { |
747 |
sprintf(string, "%d %d %d %d", |
748 |
(int) (psInfo.pageX - psInfo.scale*(deltaY + psInfo.height)), |
749 |
(int) (psInfo.pageY + psInfo.scale*deltaX), |
750 |
(int) (psInfo.pageX - psInfo.scale*deltaY + 1.0), |
751 |
(int) (psInfo.pageY + psInfo.scale*(deltaX + psInfo.width) |
752 |
+ 1.0)); |
753 |
} |
754 |
Tcl_AppendResult(interp, "%%BoundingBox: ", string, |
755 |
"\n", (char *) NULL); |
756 |
Tcl_AppendResult(interp, "%%Pages: 1\n", |
757 |
"%%DocumentData: Clean7Bit\n", (char *) NULL); |
758 |
Tcl_AppendResult(interp, "%%Orientation: ", |
759 |
psInfo.rotate ? "Landscape\n" : "Portrait\n", (char *) NULL); |
760 |
p = "%%DocumentNeededResources: font "; |
761 |
for (hPtr = Tcl_FirstHashEntry(&psInfo.fontTable, &search); |
762 |
hPtr != NULL; hPtr = Tcl_NextHashEntry(&search)) { |
763 |
Tcl_AppendResult(interp, p, |
764 |
Tcl_GetHashKey(&psInfo.fontTable, hPtr), |
765 |
"\n", (char *) NULL); |
766 |
p = "%%+ font "; |
767 |
} |
768 |
Tcl_AppendResult(interp, "%%EndComments\n\n", (char *) NULL); |
769 |
|
770 |
/* |
771 |
* Insert the prolog |
772 |
*/ |
773 |
for (chunk=prolog; *chunk; chunk++) { |
774 |
Tcl_AppendResult(interp, *chunk, (char *) NULL); |
775 |
} |
776 |
|
777 |
if (psInfo.chan != NULL) { |
778 |
Tcl_Write(psInfo.chan, Tcl_GetStringResult(interp), -1); |
779 |
Tcl_ResetResult(canvasPtr->interp); |
780 |
} |
781 |
|
782 |
/* |
783 |
*----------------------------------------------------------- |
784 |
* Document setup: set the color level and include fonts. |
785 |
*----------------------------------------------------------- |
786 |
*/ |
787 |
|
788 |
sprintf(string, "/CL %d def\n", psInfo.colorLevel); |
789 |
Tcl_AppendResult(interp, "%%BeginSetup\n", string, |
790 |
(char *) NULL); |
791 |
for (hPtr = Tcl_FirstHashEntry(&psInfo.fontTable, &search); |
792 |
hPtr != NULL; hPtr = Tcl_NextHashEntry(&search)) { |
793 |
Tcl_AppendResult(interp, "%%IncludeResource: font ", |
794 |
Tcl_GetHashKey(&psInfo.fontTable, hPtr), "\n", (char *) NULL); |
795 |
} |
796 |
Tcl_AppendResult(interp, "%%EndSetup\n\n", (char *) NULL); |
797 |
|
798 |
/* |
799 |
*----------------------------------------------------------- |
800 |
* Page setup: move to page positioning point, rotate if |
801 |
* needed, set scale factor, offset for proper anchor position, |
802 |
* and set clip region. |
803 |
*----------------------------------------------------------- |
804 |
*/ |
805 |
|
806 |
Tcl_AppendResult(interp, "%%Page: 1 1\n", "save\n", |
807 |
(char *) NULL); |
808 |
sprintf(string, "%.1f %.1f translate\n", psInfo.pageX, psInfo.pageY); |
809 |
Tcl_AppendResult(interp, string, (char *) NULL); |
810 |
if (psInfo.rotate) { |
811 |
Tcl_AppendResult(interp, "90 rotate\n", (char *) NULL); |
812 |
} |
813 |
sprintf(string, "%.4g %.4g scale\n", psInfo.scale, psInfo.scale); |
814 |
Tcl_AppendResult(interp, string, (char *) NULL); |
815 |
sprintf(string, "%d %d translate\n", deltaX - psInfo.x, deltaY); |
816 |
Tcl_AppendResult(interp, string, (char *) NULL); |
817 |
sprintf(string, "%d %.15g moveto %d %.15g lineto %d %.15g lineto %d %.15g", |
818 |
psInfo.x, |
819 |
Tk_PostscriptY((double) psInfo.y, (Tk_PostscriptInfo) &psInfo), |
820 |
psInfo.x2, |
821 |
Tk_PostscriptY((double) psInfo.y, (Tk_PostscriptInfo) &psInfo), |
822 |
psInfo.x2, |
823 |
Tk_PostscriptY((double) psInfo.y2, (Tk_PostscriptInfo) &psInfo), |
824 |
psInfo.x, |
825 |
Tk_PostscriptY((double) psInfo.y2, (Tk_PostscriptInfo) &psInfo)); |
826 |
Tcl_AppendResult(interp, string, |
827 |
" lineto closepath clip newpath\n", (char *) NULL); |
828 |
} |
829 |
if (psInfo.chan != NULL) { |
830 |
Tcl_Write(psInfo.chan, Tcl_GetStringResult(interp), -1); |
831 |
Tcl_ResetResult(canvasPtr->interp); |
832 |
} |
833 |
|
834 |
/* |
835 |
*--------------------------------------------------------------------- |
836 |
* Iterate through all the items, having each relevant one draw itself. |
837 |
* Quit if any of the items returns an error. |
838 |
*--------------------------------------------------------------------- |
839 |
*/ |
840 |
|
841 |
result = TCL_OK; |
842 |
for (itemPtr = canvasPtr->firstItemPtr; itemPtr != NULL; |
843 |
itemPtr = itemPtr->nextPtr) { |
844 |
if ((itemPtr->x1 >= psInfo.x2) || (itemPtr->x2 < psInfo.x) |
845 |
|| (itemPtr->y1 >= psInfo.y2) || (itemPtr->y2 < psInfo.y)) { |
846 |
continue; |
847 |
} |
848 |
if (itemPtr->typePtr->postscriptProc == NULL) { |
849 |
continue; |
850 |
} |
851 |
if (itemPtr->state == TK_STATE_HIDDEN) { |
852 |
continue; |
853 |
} |
854 |
Tcl_AppendResult(interp, "gsave\n", (char *) NULL); |
855 |
result = (*itemPtr->typePtr->postscriptProc)(interp, |
856 |
(Tk_Canvas) canvasPtr, itemPtr, 0); |
857 |
if (result != TCL_OK) { |
858 |
char msg[64 + TCL_INTEGER_SPACE]; |
859 |
|
860 |
sprintf(msg, "\n (generating Postscript for item %d)", |
861 |
itemPtr->id); |
862 |
Tcl_AddErrorInfo(interp, msg); |
863 |
goto cleanup; |
864 |
} |
865 |
Tcl_AppendResult(interp, "grestore\n", (char *) NULL); |
866 |
if (psInfo.chan != NULL) { |
867 |
Tcl_Write(psInfo.chan, Tcl_GetStringResult(interp), -1); |
868 |
Tcl_ResetResult(interp); |
869 |
} |
870 |
} |
871 |
|
872 |
/* |
873 |
*--------------------------------------------------------------------- |
874 |
* Output page-end information, such as commands to print the page |
875 |
* and document trailer stuff. |
876 |
*--------------------------------------------------------------------- |
877 |
*/ |
878 |
|
879 |
if (psInfo.prolog) { |
880 |
Tcl_AppendResult(interp, "restore showpage\n\n", |
881 |
"%%Trailer\nend\n%%EOF\n", (char *) NULL); |
882 |
} |
883 |
if (psInfo.chan != NULL) { |
884 |
Tcl_Write(psInfo.chan, Tcl_GetStringResult(interp), -1); |
885 |
Tcl_ResetResult(canvasPtr->interp); |
886 |
} |
887 |
|
888 |
/* |
889 |
* Clean up psInfo to release malloc'ed stuff. |
890 |
*/ |
891 |
|
892 |
cleanup: |
893 |
if (psInfo.pageXString != NULL) { |
894 |
ckfree(psInfo.pageXString); |
895 |
} |
896 |
if (psInfo.pageYString != NULL) { |
897 |
ckfree(psInfo.pageYString); |
898 |
} |
899 |
if (psInfo.pageWidthString != NULL) { |
900 |
ckfree(psInfo.pageWidthString); |
901 |
} |
902 |
if (psInfo.pageHeightString != NULL) { |
903 |
ckfree(psInfo.pageHeightString); |
904 |
} |
905 |
if (psInfo.fontVar != NULL) { |
906 |
ckfree(psInfo.fontVar); |
907 |
} |
908 |
if (psInfo.colorVar != NULL) { |
909 |
ckfree(psInfo.colorVar); |
910 |
} |
911 |
if (psInfo.colorMode != NULL) { |
912 |
ckfree(psInfo.colorMode); |
913 |
} |
914 |
if (psInfo.fileName != NULL) { |
915 |
ckfree(psInfo.fileName); |
916 |
} |
917 |
if ((psInfo.chan != NULL) && (psInfo.channelName == NULL)) { |
918 |
Tcl_Close(interp, psInfo.chan); |
919 |
} |
920 |
if (psInfo.channelName != NULL) { |
921 |
ckfree(psInfo.channelName); |
922 |
} |
923 |
Tcl_DeleteHashTable(&psInfo.fontTable); |
924 |
canvasPtr->psInfo = (Tk_PostscriptInfo) oldInfoPtr; |
925 |
return result; |
926 |
} |
927 |
|
928 |
/* |
929 |
*-------------------------------------------------------------- |
930 |
* |
931 |
* Tk_PostscriptColor -- |
932 |
* |
933 |
* This procedure is called by individual canvas items when |
934 |
* they want to set a color value for output. Given information |
935 |
* about an X color, this procedure will generate Postscript |
936 |
* commands to set up an appropriate color in Postscript. |
937 |
* |
938 |
* Results: |
939 |
* Returns a standard Tcl return value. If an error occurs |
940 |
* then an error message will be left in the interp's result. |
941 |
* If no error occurs, then additional Postscript will be |
942 |
* appended to the interp's result. |
943 |
* |
944 |
* Side effects: |
945 |
* None. |
946 |
* |
947 |
*-------------------------------------------------------------- |
948 |
*/ |
949 |
|
950 |
int |
951 |
Tk_PostscriptColor(interp, psInfo, colorPtr) |
952 |
Tcl_Interp *interp; |
953 |
Tk_PostscriptInfo psInfo; /* Postscript info. */ |
954 |
XColor *colorPtr; /* Information about color. */ |
955 |
{ |
956 |
TkPostscriptInfo *psInfoPtr = (TkPostscriptInfo *) psInfo; |
957 |
int tmp; |
958 |
double red, green, blue; |
959 |
char string[200]; |
960 |
|
961 |
if (psInfoPtr->prepass) { |
962 |
return TCL_OK; |
963 |
} |
964 |
|
965 |
/* |
966 |
* If there is a color map defined, then look up the color's name |
967 |
* in the map and use the Postscript commands found there, if there |
968 |
* are any. |
969 |
*/ |
970 |
|
971 |
if (psInfoPtr->colorVar != NULL) { |
972 |
char *cmdString; |
973 |
|
974 |
cmdString = Tcl_GetVar2(interp, psInfoPtr->colorVar, |
975 |
Tk_NameOfColor(colorPtr), 0); |
976 |
if (cmdString != NULL) { |
977 |
Tcl_AppendResult(interp, cmdString, "\n", (char *) NULL); |
978 |
return TCL_OK; |
979 |
} |
980 |
} |
981 |
|
982 |
/* |
983 |
* No color map entry for this color. Grab the color's intensities |
984 |
* and output Postscript commands for them. Special note: X uses |
985 |
* a range of 0-65535 for intensities, but most displays only use |
986 |
* a range of 0-255, which maps to (0, 256, 512, ... 65280) in the |
987 |
* X scale. This means that there's no way to get perfect white, |
988 |
* since the highest intensity is only 65280 out of 65535. To |
989 |
* work around this problem, rescale the X intensity to a 0-255 |
990 |
* scale and use that as the basis for the Postscript colors. This |
991 |
* scheme still won't work if the display only uses 4 bits per color, |
992 |
* but most diplays use at least 8 bits. |
993 |
*/ |
994 |
|
995 |
tmp = colorPtr->red; |
996 |
red = ((double) (tmp >> 8))/255.0; |
997 |
tmp = colorPtr->green; |
998 |
green = ((double) (tmp >> 8))/255.0; |
999 |
tmp = colorPtr->blue; |
1000 |
blue = ((double) (tmp >> 8))/255.0; |
1001 |
sprintf(string, "%.3f %.3f %.3f setrgbcolor AdjustColor\n", |
1002 |
red, green, blue); |
1003 |
Tcl_AppendResult(interp, string, (char *) NULL); |
1004 |
return TCL_OK; |
1005 |
} |
1006 |
|
1007 |
/* |
1008 |
*-------------------------------------------------------------- |
1009 |
* |
1010 |
* Tk_PostscriptFont -- |
1011 |
* |
1012 |
* This procedure is called by individual canvas items when |
1013 |
* they want to output text. Given information about an X |
1014 |
* font, this procedure will generate Postscript commands |
1015 |
* to set up an appropriate font in Postscript. |
1016 |
* |
1017 |
* Results: |
1018 |
* Returns a standard Tcl return value. If an error occurs |
1019 |
* then an error message will be left in the interp's result. |
1020 |
* If no error occurs, then additional Postscript will be |
1021 |
* appended to the interp's result. |
1022 |
* |
1023 |
* Side effects: |
1024 |
* The Postscript font name is entered into psInfoPtr->fontTable |
1025 |
* if it wasn't already there. |
1026 |
* |
1027 |
*-------------------------------------------------------------- |
1028 |
*/ |
1029 |
|
1030 |
int |
1031 |
Tk_PostscriptFont(interp, psInfo, tkfont) |
1032 |
Tcl_Interp *interp; |
1033 |
Tk_PostscriptInfo psInfo; /* Postscript Info. */ |
1034 |
Tk_Font tkfont; /* Information about font in which text |
1035 |
* is to be printed. */ |
1036 |
{ |
1037 |
TkPostscriptInfo *psInfoPtr = (TkPostscriptInfo *) psInfo; |
1038 |
char *end; |
1039 |
char pointString[TCL_INTEGER_SPACE]; |
1040 |
Tcl_DString ds; |
1041 |
int i, points; |
1042 |
|
1043 |
/* |
1044 |
* First, look up the font's name in the font map, if there is one. |
1045 |
* If there is an entry for this font, it consists of a list |
1046 |
* containing font name and size. Use this information. |
1047 |
*/ |
1048 |
|
1049 |
Tcl_DStringInit(&ds); |
1050 |
|
1051 |
if (psInfoPtr->fontVar != NULL) { |
1052 |
char *list, **argv; |
1053 |
int argc; |
1054 |
double size; |
1055 |
char *name; |
1056 |
|
1057 |
name = Tk_NameOfFont(tkfont); |
1058 |
list = Tcl_GetVar2(interp, psInfoPtr->fontVar, name, 0); |
1059 |
if (list != NULL) { |
1060 |
if (Tcl_SplitList(interp, list, &argc, &argv) != TCL_OK) { |
1061 |
badMapEntry: |
1062 |
Tcl_ResetResult(interp); |
1063 |
Tcl_AppendResult(interp, "bad font map entry for \"", name, |
1064 |
"\": \"", list, "\"", (char *) NULL); |
1065 |
return TCL_ERROR; |
1066 |
} |
1067 |
if (argc != 2) { |
1068 |
goto badMapEntry; |
1069 |
} |
1070 |
size = strtod(argv[1], &end); |
1071 |
if ((size <= 0) || (*end != 0)) { |
1072 |
goto badMapEntry; |
1073 |
} |
1074 |
|
1075 |
Tcl_DStringAppend(&ds, argv[0], -1); |
1076 |
points = (int) size; |
1077 |
|
1078 |
ckfree((char *) argv); |
1079 |
goto findfont; |
1080 |
} |
1081 |
} |
1082 |
|
1083 |
points = Tk_PostscriptFontName(tkfont, &ds); |
1084 |
|
1085 |
findfont: |
1086 |
sprintf(pointString, "%d", points); |
1087 |
Tcl_AppendResult(interp, "/", Tcl_DStringValue(&ds), " findfont ", |
1088 |
pointString, " scalefont ", (char *) NULL); |
1089 |
if (strncasecmp(Tcl_DStringValue(&ds), "Symbol", 7) != 0) { |
1090 |
Tcl_AppendResult(interp, "ISOEncode ", (char *) NULL); |
1091 |
} |
1092 |
Tcl_AppendResult(interp, "setfont\n", (char *) NULL); |
1093 |
Tcl_CreateHashEntry(&psInfoPtr->fontTable, Tcl_DStringValue(&ds), &i); |
1094 |
Tcl_DStringFree(&ds); |
1095 |
|
1096 |
return TCL_OK; |
1097 |
} |
1098 |
|
1099 |
/* |
1100 |
*-------------------------------------------------------------- |
1101 |
* |
1102 |
* Tk_PostscriptBitmap -- |
1103 |
* |
1104 |
* This procedure is called to output the contents of a |
1105 |
* sub-region of a bitmap in proper image data format for |
1106 |
* Postscript (i.e. data between angle brackets, one bit |
1107 |
* per pixel). |
1108 |
* |
1109 |
* Results: |
1110 |
* Returns a standard Tcl return value. If an error occurs |
1111 |
* then an error message will be left in the interp's result. |
1112 |
* If no error occurs, then additional Postscript will be |
1113 |
* appended to the interp's result. |
1114 |
* |
1115 |
* Side effects: |
1116 |
* None. |
1117 |
* |
1118 |
*-------------------------------------------------------------- |
1119 |
*/ |
1120 |
|
1121 |
int |
1122 |
Tk_PostscriptBitmap(interp, tkwin, psInfo, bitmap, startX, startY, width, |
1123 |
height) |
1124 |
Tcl_Interp *interp; |
1125 |
Tk_Window tkwin; |
1126 |
Tk_PostscriptInfo psInfo; /* Postscript info. */ |
1127 |
Pixmap bitmap; /* Bitmap for which to generate |
1128 |
* Postscript. */ |
1129 |
int startX, startY; /* Coordinates of upper-left corner |
1130 |
* of rectangular region to output. */ |
1131 |
int width, height; /* Height of rectangular region. */ |
1132 |
{ |
1133 |
TkPostscriptInfo *psInfoPtr = (TkPostscriptInfo *) psInfo; |
1134 |
XImage *imagePtr; |
1135 |
int charsInLine, x, y, lastX, lastY, value, mask; |
1136 |
unsigned int totalWidth, totalHeight; |
1137 |
char string[100]; |
1138 |
Window dummyRoot; |
1139 |
int dummyX, dummyY; |
1140 |
unsigned dummyBorderwidth, dummyDepth; |
1141 |
|
1142 |
if (psInfoPtr->prepass) { |
1143 |
return TCL_OK; |
1144 |
} |
1145 |
|
1146 |
/* |
1147 |
* The following call should probably be a call to Tk_SizeOfBitmap |
1148 |
* instead, but it seems that we are occasionally invoked by custom |
1149 |
* item types that create their own bitmaps without registering them |
1150 |
* with Tk. XGetGeometry is a bit slower than Tk_SizeOfBitmap, but |
1151 |
* it shouldn't matter here. |
1152 |
*/ |
1153 |
|
1154 |
XGetGeometry(Tk_Display(tkwin), bitmap, &dummyRoot, |
1155 |
(int *) &dummyX, (int *) &dummyY, (unsigned int *) &totalWidth, |
1156 |
(unsigned int *) &totalHeight, &dummyBorderwidth, &dummyDepth); |
1157 |
imagePtr = XGetImage(Tk_Display(tkwin), bitmap, 0, 0, |
1158 |
totalWidth, totalHeight, 1, XYPixmap); |
1159 |
Tcl_AppendResult(interp, "<", (char *) NULL); |
1160 |
mask = 0x80; |
1161 |
value = 0; |
1162 |
charsInLine = 0; |
1163 |
lastX = startX + width - 1; |
1164 |
lastY = startY + height - 1; |
1165 |
for (y = lastY; y >= startY; y--) { |
1166 |
for (x = startX; x <= lastX; x++) { |
1167 |
if (XGetPixel(imagePtr, x, y)) { |
1168 |
value |= mask; |
1169 |
} |
1170 |
mask >>= 1; |
1171 |
if (mask == 0) { |
1172 |
sprintf(string, "%02x", value); |
1173 |
Tcl_AppendResult(interp, string, (char *) NULL); |
1174 |
mask = 0x80; |
1175 |
value = 0; |
1176 |
charsInLine += 2; |
1177 |
if (charsInLine >= 60) { |
1178 |
Tcl_AppendResult(interp, "\n", (char *) NULL); |
1179 |
charsInLine = 0; |
1180 |
} |
1181 |
} |
1182 |
} |
1183 |
if (mask != 0x80) { |
1184 |
sprintf(string, "%02x", value); |
1185 |
Tcl_AppendResult(interp, string, (char *) NULL); |
1186 |
mask = 0x80; |
1187 |
value = 0; |
1188 |
charsInLine += 2; |
1189 |
} |
1190 |
} |
1191 |
Tcl_AppendResult(interp, ">", (char *) NULL); |
1192 |
XDestroyImage(imagePtr); |
1193 |
return TCL_OK; |
1194 |
} |
1195 |
|
1196 |
/* |
1197 |
*-------------------------------------------------------------- |
1198 |
* |
1199 |
* Tk_PostscriptStipple -- |
1200 |
* |
1201 |
* This procedure is called by individual canvas items when |
1202 |
* they have created a path that they'd like to be filled with |
1203 |
* a stipple pattern. Given information about an X bitmap, |
1204 |
* this procedure will generate Postscript commands to fill |
1205 |
* the current clip region using a stipple pattern defined by the |
1206 |
* bitmap. |
1207 |
* |
1208 |
* Results: |
1209 |
* Returns a standard Tcl return value. If an error occurs |
1210 |
* then an error message will be left in the interp's result. |
1211 |
* If no error occurs, then additional Postscript will be |
1212 |
* appended to the interp's result. |
1213 |
* |
1214 |
* Side effects: |
1215 |
* None. |
1216 |
* |
1217 |
*-------------------------------------------------------------- |
1218 |
*/ |
1219 |
|
1220 |
int |
1221 |
Tk_PostscriptStipple(interp, tkwin, psInfo, bitmap) |
1222 |
Tcl_Interp *interp; |
1223 |
Tk_Window tkwin; |
1224 |
Tk_PostscriptInfo psInfo; /* Interpreter for returning Postscript |
1225 |
* or error message. */ |
1226 |
Pixmap bitmap; /* Bitmap to use for stippling. */ |
1227 |
{ |
1228 |
TkPostscriptInfo *psInfoPtr = (TkPostscriptInfo *) psInfo; |
1229 |
int width, height; |
1230 |
char string[TCL_INTEGER_SPACE * 2]; |
1231 |
Window dummyRoot; |
1232 |
int dummyX, dummyY; |
1233 |
unsigned dummyBorderwidth, dummyDepth; |
1234 |
|
1235 |
if (psInfoPtr->prepass) { |
1236 |
return TCL_OK; |
1237 |
} |
1238 |
|
1239 |
/* |
1240 |
* The following call should probably be a call to Tk_SizeOfBitmap |
1241 |
* instead, but it seems that we are occasionally invoked by custom |
1242 |
* item types that create their own bitmaps without registering them |
1243 |
* with Tk. XGetGeometry is a bit slower than Tk_SizeOfBitmap, but |
1244 |
* it shouldn't matter here. |
1245 |
*/ |
1246 |
|
1247 |
XGetGeometry(Tk_Display(tkwin), bitmap, &dummyRoot, |
1248 |
(int *) &dummyX, (int *) &dummyY, (unsigned *) &width, |
1249 |
(unsigned *) &height, &dummyBorderwidth, &dummyDepth); |
1250 |
sprintf(string, "%d %d ", width, height); |
1251 |
Tcl_AppendResult(interp, string, (char *) NULL); |
1252 |
if (Tk_PostscriptBitmap(interp, tkwin, psInfo, bitmap, 0, 0, |
1253 |
width, height) != TCL_OK) { |
1254 |
return TCL_ERROR; |
1255 |
} |
1256 |
Tcl_AppendResult(interp, " StippleFill\n", (char *) NULL); |
1257 |
return TCL_OK; |
1258 |
} |
1259 |
|
1260 |
/* |
1261 |
*-------------------------------------------------------------- |
1262 |
* |
1263 |
* Tk_PostscriptY -- |
1264 |
* |
1265 |
* Given a y-coordinate in local coordinates, this procedure |
1266 |
* returns a y-coordinate to use for Postscript output. |
1267 |
* |
1268 |
* Results: |
1269 |
* Returns the Postscript coordinate that corresponds to |
1270 |
* "y". |
1271 |
* |
1272 |
* Side effects: |
1273 |
* None. |
1274 |
* |
1275 |
*-------------------------------------------------------------- |
1276 |
*/ |
1277 |
|
1278 |
double |
1279 |
Tk_PostscriptY(y, psInfo) |
1280 |
double y; /* Y-coordinate in canvas coords. */ |
1281 |
Tk_PostscriptInfo psInfo; /* Postscript info */ |
1282 |
{ |
1283 |
TkPostscriptInfo *psInfoPtr = (TkPostscriptInfo *) psInfo; |
1284 |
|
1285 |
return psInfoPtr->y2 - y; |
1286 |
} |
1287 |
|
1288 |
/* |
1289 |
*-------------------------------------------------------------- |
1290 |
* |
1291 |
* Tk_PostscriptPath -- |
1292 |
* |
1293 |
* Given an array of points for a path, generate Postscript |
1294 |
* commands to create the path. |
1295 |
* |
1296 |
* Results: |
1297 |
* Postscript commands get appended to what's in the interp's result. |
1298 |
* |
1299 |
* Side effects: |
1300 |
* None. |
1301 |
* |
1302 |
*-------------------------------------------------------------- |
1303 |
*/ |
1304 |
|
1305 |
void |
1306 |
Tk_PostscriptPath(interp, psInfo, coordPtr, numPoints) |
1307 |
Tcl_Interp *interp; |
1308 |
Tk_PostscriptInfo psInfo; /* Canvas on whose behalf Postscript |
1309 |
* is being generated. */ |
1310 |
double *coordPtr; /* Pointer to first in array of |
1311 |
* 2*numPoints coordinates giving |
1312 |
* points for path. */ |
1313 |
int numPoints; /* Number of points at *coordPtr. */ |
1314 |
{ |
1315 |
TkPostscriptInfo *psInfoPtr = (TkPostscriptInfo *) psInfo; |
1316 |
char buffer[200]; |
1317 |
|
1318 |
if (psInfoPtr->prepass) { |
1319 |
return; |
1320 |
} |
1321 |
sprintf(buffer, "%.15g %.15g moveto\n", coordPtr[0], |
1322 |
Tk_PostscriptY(coordPtr[1], psInfo)); |
1323 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1324 |
for (numPoints--, coordPtr += 2; numPoints > 0; |
1325 |
numPoints--, coordPtr += 2) { |
1326 |
sprintf(buffer, "%.15g %.15g lineto\n", coordPtr[0], |
1327 |
Tk_PostscriptY(coordPtr[1], psInfo)); |
1328 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1329 |
} |
1330 |
} |
1331 |
|
1332 |
/* |
1333 |
*-------------------------------------------------------------- |
1334 |
* |
1335 |
* GetPostscriptPoints -- |
1336 |
* |
1337 |
* Given a string, returns the number of Postscript points |
1338 |
* corresponding to that string. |
1339 |
* |
1340 |
* Results: |
1341 |
* The return value is a standard Tcl return result. If |
1342 |
* TCL_OK is returned, then everything went well and the |
1343 |
* screen distance is stored at *doublePtr; otherwise |
1344 |
* TCL_ERROR is returned and an error message is left in |
1345 |
* the interp's result. |
1346 |
* |
1347 |
* Side effects: |
1348 |
* None. |
1349 |
* |
1350 |
*-------------------------------------------------------------- |
1351 |
*/ |
1352 |
|
1353 |
static int |
1354 |
GetPostscriptPoints(interp, string, doublePtr) |
1355 |
Tcl_Interp *interp; /* Use this for error reporting. */ |
1356 |
char *string; /* String describing a screen distance. */ |
1357 |
double *doublePtr; /* Place to store converted result. */ |
1358 |
{ |
1359 |
char *end; |
1360 |
double d; |
1361 |
|
1362 |
d = strtod(string, &end); |
1363 |
if (end == string) { |
1364 |
error: |
1365 |
Tcl_AppendResult(interp, "bad distance \"", string, |
1366 |
"\"", (char *) NULL); |
1367 |
return TCL_ERROR; |
1368 |
} |
1369 |
while ((*end != '\0') && isspace(UCHAR(*end))) { |
1370 |
end++; |
1371 |
} |
1372 |
switch (*end) { |
1373 |
case 'c': |
1374 |
d *= 72.0/2.54; |
1375 |
end++; |
1376 |
break; |
1377 |
case 'i': |
1378 |
d *= 72.0; |
1379 |
end++; |
1380 |
break; |
1381 |
case 'm': |
1382 |
d *= 72.0/25.4; |
1383 |
end++; |
1384 |
break; |
1385 |
case 0: |
1386 |
break; |
1387 |
case 'p': |
1388 |
end++; |
1389 |
break; |
1390 |
default: |
1391 |
goto error; |
1392 |
} |
1393 |
while ((*end != '\0') && isspace(UCHAR(*end))) { |
1394 |
end++; |
1395 |
} |
1396 |
if (*end != 0) { |
1397 |
goto error; |
1398 |
} |
1399 |
*doublePtr = d; |
1400 |
return TCL_OK; |
1401 |
} |
1402 |
|
1403 |
/* |
1404 |
*-------------------------------------------------------------- |
1405 |
* |
1406 |
* TkImageGetColor -- |
1407 |
* |
1408 |
* This procedure converts a pixel value to three floating |
1409 |
* point numbers, representing the amount of red, green, and |
1410 |
* blue in that pixel on the screen. It makes use of colormap |
1411 |
* data passed as an argument, and should work for all Visual |
1412 |
* types. |
1413 |
* |
1414 |
* Results: |
1415 |
* Returns red, green, and blue color values in the range |
1416 |
* 0 to 1. There are no error returns. |
1417 |
* |
1418 |
* Side effects: |
1419 |
* None. |
1420 |
* |
1421 |
*-------------------------------------------------------------- |
1422 |
*/ |
1423 |
|
1424 |
static void |
1425 |
TkImageGetColor(cdata, pixel, red, green, blue) |
1426 |
TkColormapData *cdata; /* Colormap data */ |
1427 |
unsigned long pixel; /* Pixel value to look up */ |
1428 |
double *red, *green, *blue; /* Color data to return */ |
1429 |
{ |
1430 |
if (cdata->separated) { |
1431 |
int r = (pixel & cdata->red_mask) >> cdata->red_shift; |
1432 |
int g = (pixel & cdata->green_mask) >> cdata->green_shift; |
1433 |
int b = (pixel & cdata->blue_mask) >> cdata->blue_shift; |
1434 |
*red = cdata->colors[r].red / 65535.0; |
1435 |
*green = cdata->colors[g].green / 65535.0; |
1436 |
*blue = cdata->colors[b].blue / 65535.0; |
1437 |
} else { |
1438 |
*red = cdata->colors[pixel].red / 65535.0; |
1439 |
*green = cdata->colors[pixel].green / 65535.0; |
1440 |
*blue = cdata->colors[pixel].blue / 65535.0; |
1441 |
} |
1442 |
} |
1443 |
|
1444 |
/* |
1445 |
*-------------------------------------------------------------- |
1446 |
* |
1447 |
* TkPostscriptImage -- |
1448 |
* |
1449 |
* This procedure is called to output the contents of an |
1450 |
* image in Postscript, using a format appropriate for the |
1451 |
* current color mode (i.e. one bit per pixel in monochrome, |
1452 |
* one byte per pixel in gray, and three bytes per pixel in |
1453 |
* color). |
1454 |
* |
1455 |
* Results: |
1456 |
* Returns a standard Tcl return value. If an error occurs |
1457 |
* then an error message will be left in interp->result. |
1458 |
* If no error occurs, then additional Postscript will be |
1459 |
* appended to interp->result. |
1460 |
* |
1461 |
* Side effects: |
1462 |
* None. |
1463 |
* |
1464 |
*-------------------------------------------------------------- |
1465 |
*/ |
1466 |
|
1467 |
int |
1468 |
TkPostscriptImage(interp, tkwin, psInfo, ximage, x, y, width, height) |
1469 |
Tcl_Interp *interp; |
1470 |
Tk_Window tkwin; |
1471 |
Tk_PostscriptInfo psInfo; /* postscript info */ |
1472 |
XImage *ximage; /* Image to draw */ |
1473 |
int x, y; /* First pixel to output */ |
1474 |
int width, height; /* Width and height of area */ |
1475 |
{ |
1476 |
TkPostscriptInfo *psInfoPtr = (TkPostscriptInfo *) psInfo; |
1477 |
char buffer[256]; |
1478 |
int xx, yy, band, maxRows; |
1479 |
double red, green, blue; |
1480 |
int bytesPerLine=0, maxWidth=0; |
1481 |
int level = psInfoPtr->colorLevel; |
1482 |
Colormap cmap; |
1483 |
int i, depth, ncolors; |
1484 |
Visual *visual; |
1485 |
TkColormapData cdata; |
1486 |
|
1487 |
if (psInfoPtr->prepass) { |
1488 |
return TCL_OK; |
1489 |
} |
1490 |
|
1491 |
cmap = Tk_Colormap(tkwin); |
1492 |
depth = Tk_Depth(tkwin); |
1493 |
visual = Tk_Visual(tkwin); |
1494 |
|
1495 |
/* |
1496 |
* Obtain information about the colormap, ie the mapping between |
1497 |
* pixel values and RGB values. The code below should work |
1498 |
* for all Visual types. |
1499 |
*/ |
1500 |
|
1501 |
ncolors = visual->map_entries; |
1502 |
cdata.colors = (XColor *) ckalloc(sizeof(XColor) * ncolors); |
1503 |
cdata.ncolors = ncolors; |
1504 |
|
1505 |
if (visual->class == DirectColor || visual->class == TrueColor) { |
1506 |
cdata.separated = 1; |
1507 |
cdata.red_mask = visual->red_mask; |
1508 |
cdata.green_mask = visual->green_mask; |
1509 |
cdata.blue_mask = visual->blue_mask; |
1510 |
cdata.red_shift = 0; |
1511 |
cdata.green_shift = 0; |
1512 |
cdata.blue_shift = 0; |
1513 |
while ((0x0001 & (cdata.red_mask >> cdata.red_shift)) == 0) |
1514 |
cdata.red_shift ++; |
1515 |
while ((0x0001 & (cdata.green_mask >> cdata.green_shift)) == 0) |
1516 |
cdata.green_shift ++; |
1517 |
while ((0x0001 & (cdata.blue_mask >> cdata.blue_shift)) == 0) |
1518 |
cdata.blue_shift ++; |
1519 |
for (i = 0; i < ncolors; i ++) |
1520 |
cdata.colors[i].pixel = |
1521 |
((i << cdata.red_shift) & cdata.red_mask) | |
1522 |
((i << cdata.green_shift) & cdata.green_mask) | |
1523 |
((i << cdata.blue_shift) & cdata.blue_mask); |
1524 |
} else { |
1525 |
cdata.separated=0; |
1526 |
for (i = 0; i < ncolors; i ++) |
1527 |
cdata.colors[i].pixel = i; |
1528 |
} |
1529 |
if (visual->class == StaticGray || visual->class == GrayScale) |
1530 |
cdata.color = 0; |
1531 |
else |
1532 |
cdata.color = 1; |
1533 |
|
1534 |
|
1535 |
XQueryColors(Tk_Display(tkwin), cmap, cdata.colors, ncolors); |
1536 |
|
1537 |
/* |
1538 |
* Figure out which color level to use (possibly lower than the |
1539 |
* one specified by the user). For example, if the user specifies |
1540 |
* color with monochrome screen, use gray or monochrome mode instead. |
1541 |
*/ |
1542 |
|
1543 |
if (!cdata.color && level == 2) { |
1544 |
level = 1; |
1545 |
} |
1546 |
|
1547 |
if (!cdata.color && cdata.ncolors == 2) { |
1548 |
level = 0; |
1549 |
} |
1550 |
|
1551 |
/* |
1552 |
* Check that at least one row of the image can be represented |
1553 |
* with a string less than 64 KB long (this is a limit in the |
1554 |
* Postscript interpreter). |
1555 |
*/ |
1556 |
|
1557 |
switch (level) |
1558 |
{ |
1559 |
case 0: bytesPerLine = (width + 7) / 8; maxWidth = 240000; break; |
1560 |
case 1: bytesPerLine = width; maxWidth = 60000; break; |
1561 |
case 2: bytesPerLine = 3 * width; maxWidth = 20000; break; |
1562 |
} |
1563 |
|
1564 |
if (bytesPerLine > 60000) { |
1565 |
Tcl_ResetResult(interp); |
1566 |
sprintf(buffer, |
1567 |
"Can't generate Postscript for images more than %d pixels wide", |
1568 |
maxWidth); |
1569 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1570 |
ckfree((char *) cdata.colors); |
1571 |
return TCL_ERROR; |
1572 |
} |
1573 |
|
1574 |
maxRows = 60000 / bytesPerLine; |
1575 |
|
1576 |
for (band = height-1; band >= 0; band -= maxRows) { |
1577 |
int rows = (band >= maxRows) ? maxRows : band + 1; |
1578 |
int lineLen = 0; |
1579 |
switch (level) { |
1580 |
case 0: |
1581 |
sprintf(buffer, "%d %d 1 matrix {\n<", width, rows); |
1582 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1583 |
break; |
1584 |
case 1: |
1585 |
sprintf(buffer, "%d %d 8 matrix {\n<", width, rows); |
1586 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1587 |
break; |
1588 |
case 2: |
1589 |
sprintf(buffer, "%d %d 8 matrix {\n<", |
1590 |
width, rows); |
1591 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1592 |
break; |
1593 |
} |
1594 |
for (yy = band; yy > band - rows; yy--) { |
1595 |
switch (level) { |
1596 |
case 0: { |
1597 |
/* |
1598 |
* Generate data for image in monochrome mode. |
1599 |
* No attempt at dithering is made--instead, just |
1600 |
* set a threshold. |
1601 |
*/ |
1602 |
unsigned char mask=0x80; |
1603 |
unsigned char data=0x00; |
1604 |
for (xx = x; xx< x+width; xx++) { |
1605 |
TkImageGetColor(&cdata, XGetPixel(ximage, xx, yy), |
1606 |
&red, &green, &blue); |
1607 |
if (0.30 * red + 0.59 * green + 0.11 * blue > 0.5) |
1608 |
data |= mask; |
1609 |
mask >>= 1; |
1610 |
if (mask == 0) { |
1611 |
sprintf(buffer, "%02X", data); |
1612 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1613 |
lineLen += 2; |
1614 |
if (lineLen > 60) { |
1615 |
lineLen = 0; |
1616 |
Tcl_AppendResult(interp, "\n", (char *) NULL); |
1617 |
} |
1618 |
mask=0x80; |
1619 |
data=0x00; |
1620 |
} |
1621 |
} |
1622 |
if ((width % 8) != 0) { |
1623 |
sprintf(buffer, "%02X", data); |
1624 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1625 |
mask=0x80; |
1626 |
data=0x00; |
1627 |
} |
1628 |
break; |
1629 |
} |
1630 |
case 1: { |
1631 |
/* |
1632 |
* Generate data in gray mode--in this case, take a |
1633 |
* weighted sum of the red, green, and blue values. |
1634 |
*/ |
1635 |
for (xx = x; xx < x+width; xx ++) { |
1636 |
TkImageGetColor(&cdata, XGetPixel(ximage, xx, yy), |
1637 |
&red, &green, &blue); |
1638 |
sprintf(buffer, "%02X", (int) floor(0.5 + 255.0 * |
1639 |
(0.30 * red + |
1640 |
0.59 * green + |
1641 |
0.11 * blue))); |
1642 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1643 |
lineLen += 2; |
1644 |
if (lineLen > 60) { |
1645 |
lineLen = 0; |
1646 |
Tcl_AppendResult(interp, "\n", (char *) NULL); |
1647 |
} |
1648 |
} |
1649 |
break; |
1650 |
} |
1651 |
case 2: { |
1652 |
/* |
1653 |
* Finally, color mode. Here, just output the red, green, |
1654 |
* and blue values directly. |
1655 |
*/ |
1656 |
for (xx = x; xx < x+width; xx++) { |
1657 |
TkImageGetColor(&cdata, XGetPixel(ximage, xx, yy), |
1658 |
&red, &green, &blue); |
1659 |
sprintf(buffer, "%02X%02X%02X", |
1660 |
(int) floor(0.5 + 255.0 * red), |
1661 |
(int) floor(0.5 + 255.0 * green), |
1662 |
(int) floor(0.5 + 255.0 * blue)); |
1663 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1664 |
lineLen += 6; |
1665 |
if (lineLen > 60) { |
1666 |
lineLen = 0; |
1667 |
Tcl_AppendResult(interp, "\n", (char *) NULL); |
1668 |
} |
1669 |
} |
1670 |
break; |
1671 |
} |
1672 |
} |
1673 |
} |
1674 |
switch (level) { |
1675 |
case 0: sprintf(buffer, ">\n} image\n"); break; |
1676 |
case 1: sprintf(buffer, ">\n} image\n"); break; |
1677 |
case 2: sprintf(buffer, ">\n} false 3 colorimage\n"); break; |
1678 |
} |
1679 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1680 |
sprintf(buffer, "0 %d translate\n", rows); |
1681 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1682 |
} |
1683 |
ckfree((char *) cdata.colors); |
1684 |
return TCL_OK; |
1685 |
} |
1686 |
|
1687 |
/* |
1688 |
*-------------------------------------------------------------- |
1689 |
* |
1690 |
* Tk_PostscriptPhoto -- |
1691 |
* |
1692 |
* This procedure is called to output the contents of a |
1693 |
* photo image in Postscript, using a format appropriate for |
1694 |
* the requested postscript color mode (i.e. one byte per pixel |
1695 |
* in gray, and three bytes per pixel in color). |
1696 |
* |
1697 |
* Results: |
1698 |
* Returns a standard Tcl return value. If an error occurs |
1699 |
* then an error message will be left in interp->result. |
1700 |
* If no error occurs, then additional Postscript will be |
1701 |
* appended to the interpreter's result. |
1702 |
* |
1703 |
* Side effects: |
1704 |
* None. |
1705 |
* |
1706 |
*-------------------------------------------------------------- |
1707 |
*/ |
1708 |
int |
1709 |
Tk_PostscriptPhoto(interp, blockPtr, psInfo, width, height) |
1710 |
Tcl_Interp *interp; |
1711 |
Tk_PhotoImageBlock *blockPtr; |
1712 |
Tk_PostscriptInfo psInfo; |
1713 |
int width, height; |
1714 |
{ |
1715 |
TkPostscriptInfo *psInfoPtr = (TkPostscriptInfo *) psInfo; |
1716 |
int colorLevel = psInfoPtr->colorLevel; |
1717 |
static int codeIncluded = 0; |
1718 |
|
1719 |
unsigned char *pixelPtr; |
1720 |
char buffer[256], cspace[40], decode[40]; |
1721 |
int bpc; |
1722 |
int xx, yy, lineLen; |
1723 |
float red, green, blue; |
1724 |
int alpha; |
1725 |
int bytesPerLine=0, maxWidth=0; |
1726 |
|
1727 |
unsigned char opaque = 255; |
1728 |
unsigned char *alphaPtr; |
1729 |
int alphaOffset, alphaPitch, alphaIncr; |
1730 |
|
1731 |
if (psInfoPtr->prepass) { |
1732 |
codeIncluded = 0; |
1733 |
return TCL_OK; |
1734 |
} |
1735 |
|
1736 |
/* |
1737 |
* Define the "TkPhoto" function, which is a modified version |
1738 |
* of the original "transparentimage" function posted |
1739 |
* by ian@five-d.com (Ian Kemmish) to comp.lang.postscript. |
1740 |
* For a monochrome colorLevel this is a slightly different |
1741 |
* version that uses the imagemask command instead of image. |
1742 |
*/ |
1743 |
|
1744 |
if( !codeIncluded && (colorLevel != 0) ) { |
1745 |
/* |
1746 |
* Color and gray-scale code. |
1747 |
*/ |
1748 |
|
1749 |
codeIncluded = !0; |
1750 |
Tcl_AppendResult( interp, |
1751 |
"/TkPhoto { \n", |
1752 |
" gsave \n", |
1753 |
" 32 dict begin \n", |
1754 |
" /tinteger exch def \n", |
1755 |
" /transparent 1 string def \n", |
1756 |
" transparent 0 tinteger put \n", |
1757 |
" /olddict exch def \n", |
1758 |
" olddict /DataSource get dup type /filetype ne { \n", |
1759 |
" olddict /DataSource 3 -1 roll \n", |
1760 |
" 0 () /SubFileDecode filter put \n", |
1761 |
" } { \n", |
1762 |
" pop \n", |
1763 |
" } ifelse \n", |
1764 |
" /newdict olddict maxlength dict def \n", |
1765 |
" olddict newdict copy pop \n", |
1766 |
" /w newdict /Width get def \n", |
1767 |
" /crpp newdict /Decode get length 2 idiv def \n", |
1768 |
" /str w string def \n", |
1769 |
" /pix w crpp mul string def \n", |
1770 |
" /substrlen 2 w log 2 log div floor exp cvi def \n", |
1771 |
" /substrs [ \n", |
1772 |
" { \n", |
1773 |
" substrlen string \n", |
1774 |
" 0 1 substrlen 1 sub { \n", |
1775 |
" 1 index exch tinteger put \n", |
1776 |
" } for \n", |
1777 |
" /substrlen substrlen 2 idiv def \n", |
1778 |
" substrlen 0 eq {exit} if \n", |
1779 |
" } loop \n", |
1780 |
" ] def \n", |
1781 |
" /h newdict /Height get def \n", |
1782 |
" 1 w div 1 h div matrix scale \n", |
1783 |
" olddict /ImageMatrix get exch matrix concatmatrix \n", |
1784 |
" matrix invertmatrix concat \n", |
1785 |
" newdict /Height 1 put \n", |
1786 |
" newdict /DataSource pix put \n", |
1787 |
" /mat [w 0 0 h 0 0] def \n", |
1788 |
" newdict /ImageMatrix mat put \n", |
1789 |
" 0 1 h 1 sub { \n", |
1790 |
" mat 5 3 -1 roll neg put \n", |
1791 |
" olddict /DataSource get str readstring pop pop \n", |
1792 |
" /tail str def \n", |
1793 |
" /x 0 def \n", |
1794 |
" olddict /DataSource get pix readstring pop pop \n", |
1795 |
" { \n", |
1796 |
" tail transparent search dup /done exch not def \n", |
1797 |
" {exch pop exch pop} if \n", |
1798 |
" /w1 exch length def \n", |
1799 |
" w1 0 ne { \n", |
1800 |
" newdict /DataSource ", |
1801 |
" pix x crpp mul w1 crpp mul getinterval put \n", |
1802 |
" newdict /Width w1 put \n", |
1803 |
" mat 4 x neg put \n", |
1804 |
" /x x w1 add def \n", |
1805 |
" newdict image \n", |
1806 |
" /tail tail w1 tail length w1 sub getinterval def \n", |
1807 |
" } if \n", |
1808 |
" done {exit} if \n", |
1809 |
" tail substrs { \n", |
1810 |
" anchorsearch {pop} if \n", |
1811 |
" } forall \n", |
1812 |
" /tail exch def \n", |
1813 |
" tail length 0 eq {exit} if \n", |
1814 |
" /x w tail length sub def \n", |
1815 |
" } loop \n", |
1816 |
" } for \n", |
1817 |
" end \n", |
1818 |
" grestore \n", |
1819 |
"} bind def \n\n\n", (char *) NULL); |
1820 |
} else if( !codeIncluded && (colorLevel == 0) ) { |
1821 |
/* |
1822 |
* Monochrome-only code |
1823 |
*/ |
1824 |
|
1825 |
codeIncluded = !0; |
1826 |
Tcl_AppendResult( interp, |
1827 |
"/TkPhoto { \n", |
1828 |
" gsave \n", |
1829 |
" 32 dict begin \n", |
1830 |
" /dummyInteger exch def \n", |
1831 |
" /olddict exch def \n", |
1832 |
" olddict /DataSource get dup type /filetype ne { \n", |
1833 |
" olddict /DataSource 3 -1 roll \n", |
1834 |
" 0 () /SubFileDecode filter put \n", |
1835 |
" } { \n", |
1836 |
" pop \n", |
1837 |
" } ifelse \n", |
1838 |
" /newdict olddict maxlength dict def \n", |
1839 |
" olddict newdict copy pop \n", |
1840 |
" /w newdict /Width get def \n", |
1841 |
" /pix w 7 add 8 idiv string def \n", |
1842 |
" /h newdict /Height get def \n", |
1843 |
" 1 w div 1 h div matrix scale \n", |
1844 |
" olddict /ImageMatrix get exch matrix concatmatrix \n", |
1845 |
" matrix invertmatrix concat \n", |
1846 |
" newdict /Height 1 put \n", |
1847 |
" newdict /DataSource pix put \n", |
1848 |
" /mat [w 0 0 h 0 0] def \n", |
1849 |
" newdict /ImageMatrix mat put \n", |
1850 |
" 0 1 h 1 sub { \n", |
1851 |
" mat 5 3 -1 roll neg put \n", |
1852 |
" 0.000 0.000 0.000 setrgbcolor \n", |
1853 |
" olddict /DataSource get pix readstring pop pop \n", |
1854 |
" newdict /DataSource pix put \n", |
1855 |
" newdict imagemask \n", |
1856 |
" 1.000 1.000 1.000 setrgbcolor \n", |
1857 |
" olddict /DataSource get pix readstring pop pop \n", |
1858 |
" newdict /DataSource pix put \n", |
1859 |
" newdict imagemask \n", |
1860 |
" } for \n", |
1861 |
" end \n", |
1862 |
" grestore \n", |
1863 |
"} bind def \n\n\n", (char *) NULL); |
1864 |
} |
1865 |
|
1866 |
/* |
1867 |
* Check that at least one row of the image can be represented |
1868 |
* with a string less than 64 KB long (this is a limit in the |
1869 |
* Postscript interpreter). |
1870 |
*/ |
1871 |
|
1872 |
switch (colorLevel) |
1873 |
{ |
1874 |
case 0: bytesPerLine = (width + 7) / 8; maxWidth = 240000; break; |
1875 |
case 1: bytesPerLine = width; maxWidth = 60000; break; |
1876 |
case 2: bytesPerLine = 3 * width; maxWidth = 20000; break; |
1877 |
} |
1878 |
if (bytesPerLine > 60000) { |
1879 |
Tcl_ResetResult(interp); |
1880 |
sprintf(buffer, |
1881 |
"Can't generate Postscript for images more than %d pixels wide", |
1882 |
maxWidth); |
1883 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1884 |
return TCL_ERROR; |
1885 |
} |
1886 |
|
1887 |
/* |
1888 |
* Set up the postscript code except for the image-data stream. |
1889 |
*/ |
1890 |
|
1891 |
switch (colorLevel) { |
1892 |
case 0: |
1893 |
strcpy( cspace, "/DeviceGray"); |
1894 |
strcpy( decode, "[1 0]"); |
1895 |
bpc = 1; |
1896 |
break; |
1897 |
case 1: |
1898 |
strcpy( cspace, "/DeviceGray"); |
1899 |
strcpy( decode, "[0 1]"); |
1900 |
bpc = 8; |
1901 |
break; |
1902 |
default: |
1903 |
strcpy( cspace, "/DeviceRGB"); |
1904 |
strcpy( decode, "[0 1 0 1 0 1]"); |
1905 |
bpc = 8; |
1906 |
break; |
1907 |
} |
1908 |
|
1909 |
|
1910 |
Tcl_AppendResult(interp, |
1911 |
cspace, " setcolorspace\n\n", (char *) NULL); |
1912 |
|
1913 |
sprintf(buffer, |
1914 |
" /Width %d\n /Height %d\n /BitsPerComponent %d\n", |
1915 |
width, height, bpc); |
1916 |
Tcl_AppendResult(interp, |
1917 |
"<<\n /ImageType 1\n", buffer, |
1918 |
" /DataSource currentfile", |
1919 |
" /ASCIIHexDecode filter\n", (char *) NULL); |
1920 |
|
1921 |
|
1922 |
sprintf(buffer, |
1923 |
" /ImageMatrix [1 0 0 -1 0 %d]\n", height); |
1924 |
Tcl_AppendResult(interp, buffer, |
1925 |
" /Decode ", decode, "\n>>\n1 TkPhoto\n", (char *) NULL); |
1926 |
|
1927 |
|
1928 |
/* |
1929 |
* Check the PhotoImageBlock information. |
1930 |
* We assume that: |
1931 |
* if pixelSize is 1,2 or 4, the image is R,G,B,A; |
1932 |
* if pixelSize is 3, the image is R,G,B and offset[3] is bogus. |
1933 |
*/ |
1934 |
|
1935 |
if (blockPtr->pixelSize == 3) { |
1936 |
/* |
1937 |
* No alpha information: the whole image is opaque. |
1938 |
*/ |
1939 |
|
1940 |
alphaPtr = &opaque; |
1941 |
alphaPitch = alphaIncr = alphaOffset = 0; |
1942 |
} else { |
1943 |
/* |
1944 |
* Set up alpha handling. |
1945 |
*/ |
1946 |
|
1947 |
alphaPtr = blockPtr->pixelPtr; |
1948 |
alphaPitch = blockPtr->pitch; |
1949 |
alphaIncr = blockPtr->pixelSize; |
1950 |
alphaOffset = blockPtr->offset[3]; |
1951 |
} |
1952 |
|
1953 |
|
1954 |
for (yy = 0, lineLen=0; yy < height; yy++) { |
1955 |
switch (colorLevel) { |
1956 |
case 0: { |
1957 |
/* |
1958 |
* Generate data for image in monochrome mode. |
1959 |
* No attempt at dithering is made--instead, just |
1960 |
* set a threshold. |
1961 |
* To handle transparecies we need to output two lines: |
1962 |
* one for the black pixels, one for the white ones. |
1963 |
*/ |
1964 |
|
1965 |
unsigned char mask=0x80; |
1966 |
unsigned char data=0x00; |
1967 |
for (xx = 0; xx< width; xx ++) { |
1968 |
pixelPtr = blockPtr->pixelPtr |
1969 |
+ (yy * blockPtr->pitch) |
1970 |
+ (xx *blockPtr->pixelSize); |
1971 |
|
1972 |
red = pixelPtr[blockPtr->offset[0]]; |
1973 |
green = pixelPtr[blockPtr->offset[1]]; |
1974 |
blue = pixelPtr[blockPtr->offset[2]]; |
1975 |
|
1976 |
alpha = *(alphaPtr + (yy * alphaPitch) |
1977 |
+ (xx * alphaIncr) + alphaOffset); |
1978 |
|
1979 |
/* |
1980 |
* If pixel is less than threshold, then it is black. |
1981 |
*/ |
1982 |
|
1983 |
if ((alpha != 0) && |
1984 |
( 0.3086 * red |
1985 |
+ 0.6094 * green |
1986 |
+ 0.082 * blue < 128)) { |
1987 |
data |= mask; |
1988 |
} |
1989 |
mask >>= 1; |
1990 |
if (mask == 0) { |
1991 |
sprintf(buffer, "%02X", data); |
1992 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
1993 |
lineLen += 2; |
1994 |
if (lineLen >= 60) { |
1995 |
lineLen = 0; |
1996 |
Tcl_AppendResult(interp, "\n", (char *) NULL); |
1997 |
} |
1998 |
mask=0x80; |
1999 |
data=0x00; |
2000 |
} |
2001 |
} |
2002 |
if ((width % 8) != 0) { |
2003 |
sprintf(buffer, "%02X", data); |
2004 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
2005 |
mask=0x80; |
2006 |
data=0x00; |
2007 |
} |
2008 |
|
2009 |
mask=0x80; |
2010 |
data=0x00; |
2011 |
for (xx = 0; xx< width; xx ++) { |
2012 |
pixelPtr = blockPtr->pixelPtr |
2013 |
+ (yy * blockPtr->pitch) |
2014 |
+ (xx *blockPtr->pixelSize); |
2015 |
|
2016 |
red = pixelPtr[blockPtr->offset[0]]; |
2017 |
green = pixelPtr[blockPtr->offset[1]]; |
2018 |
blue = pixelPtr[blockPtr->offset[2]]; |
2019 |
|
2020 |
alpha = *(alphaPtr + (yy * alphaPitch) |
2021 |
+ (xx * alphaIncr) + alphaOffset); |
2022 |
|
2023 |
/* |
2024 |
* If pixel is greater than threshold, then it is white. |
2025 |
*/ |
2026 |
|
2027 |
if ((alpha != 0) && |
2028 |
( 0.3086 * red |
2029 |
+ 0.6094 * green |
2030 |
+ 0.082 * blue >= 128)) { |
2031 |
data |= mask; |
2032 |
} |
2033 |
mask >>= 1; |
2034 |
if (mask == 0) { |
2035 |
sprintf(buffer, "%02X", data); |
2036 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
2037 |
lineLen += 2; |
2038 |
if (lineLen >= 60) { |
2039 |
lineLen = 0; |
2040 |
Tcl_AppendResult(interp, "\n", (char *) NULL); |
2041 |
} |
2042 |
mask=0x80; |
2043 |
data=0x00; |
2044 |
} |
2045 |
} |
2046 |
if ((width % 8) != 0) { |
2047 |
sprintf(buffer, "%02X", data); |
2048 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
2049 |
mask=0x80; |
2050 |
data=0x00; |
2051 |
} |
2052 |
break; |
2053 |
} |
2054 |
case 1: { |
2055 |
/* |
2056 |
* Generate transparency data. |
2057 |
* We must prevent a transparent value of 0 |
2058 |
* because of a bug in some HP printers. |
2059 |
*/ |
2060 |
|
2061 |
for (xx = 0; xx < width; xx ++) { |
2062 |
alpha = *(alphaPtr + (yy * alphaPitch) |
2063 |
+ (xx * alphaIncr) + alphaOffset); |
2064 |
sprintf(buffer, "%02X", alpha | 0x01); |
2065 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
2066 |
lineLen += 2; |
2067 |
if (lineLen >= 60) { |
2068 |
lineLen = 0; |
2069 |
Tcl_AppendResult(interp, "\n", (char *) NULL); |
2070 |
} |
2071 |
} |
2072 |
|
2073 |
|
2074 |
/* |
2075 |
* Generate data in gray mode--in this case, take a |
2076 |
* weighted sum of the red, green, and blue values. |
2077 |
*/ |
2078 |
|
2079 |
for (xx = 0; xx < width; xx ++) { |
2080 |
pixelPtr = blockPtr->pixelPtr |
2081 |
+ (yy * blockPtr->pitch) |
2082 |
+ (xx *blockPtr->pixelSize); |
2083 |
|
2084 |
red = pixelPtr[blockPtr->offset[0]]; |
2085 |
green = pixelPtr[blockPtr->offset[1]]; |
2086 |
blue = pixelPtr[blockPtr->offset[2]]; |
2087 |
|
2088 |
sprintf(buffer, "%02X", (int) floor(0.5 + |
2089 |
( 0.3086 * red + 0.6094 * green + 0.0820 * blue))); |
2090 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
2091 |
lineLen += 2; |
2092 |
if (lineLen >= 60) { |
2093 |
lineLen = 0; |
2094 |
Tcl_AppendResult(interp, "\n", (char *) NULL); |
2095 |
} |
2096 |
} |
2097 |
break; |
2098 |
} |
2099 |
default: { |
2100 |
/* |
2101 |
* Generate transparency data. |
2102 |
* We must prevent a transparent value of 0 |
2103 |
* because of a bug in some HP printers. |
2104 |
*/ |
2105 |
|
2106 |
for (xx = 0; xx < width; xx ++) { |
2107 |
alpha = *(alphaPtr + (yy * alphaPitch) |
2108 |
+ (xx * alphaIncr) + alphaOffset); |
2109 |
sprintf(buffer, "%02X", alpha | 0x01); |
2110 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
2111 |
lineLen += 2; |
2112 |
if (lineLen >= 60) { |
2113 |
lineLen = 0; |
2114 |
Tcl_AppendResult(interp, "\n", (char *) NULL); |
2115 |
} |
2116 |
} |
2117 |
|
2118 |
|
2119 |
/* |
2120 |
* Finally, color mode. Here, just output the red, green, |
2121 |
* and blue values directly. |
2122 |
*/ |
2123 |
|
2124 |
for (xx = 0; xx < width; xx ++) { |
2125 |
pixelPtr = blockPtr->pixelPtr |
2126 |
+ (yy * blockPtr->pitch) |
2127 |
+ (xx *blockPtr->pixelSize); |
2128 |
|
2129 |
sprintf(buffer, "%02X%02X%02X", |
2130 |
pixelPtr[blockPtr->offset[0]], |
2131 |
pixelPtr[blockPtr->offset[1]], |
2132 |
pixelPtr[blockPtr->offset[2]]); |
2133 |
Tcl_AppendResult(interp, buffer, (char *) NULL); |
2134 |
lineLen += 6; |
2135 |
if (lineLen >= 60) { |
2136 |
lineLen = 0; |
2137 |
Tcl_AppendResult(interp, "\n", (char *) NULL); |
2138 |
} |
2139 |
} |
2140 |
break; |
2141 |
} |
2142 |
} |
2143 |
} |
2144 |
|
2145 |
Tcl_AppendResult(interp, ">\n", (char *) NULL); |
2146 |
return TCL_OK; |
2147 |
} |
2148 |
|
2149 |
/* $Header$ */ |
2150 |
|
2151 |
/* End of tkcanvps.c */ |