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1.1 ! root 1: .TH BITMAP 1 "29 January 1986" "X Version 10" ! 2: .SH NAME ! 3: bitmap \- bitmap editor for X window system ! 4: ! 5: .SH SYNOPSIS ! 6: .B bitmap ! 7: filename [\fIdimensions\fP] [\fIhost\fP:\fIdisplay\fP] [=\fIgeometry\fP] ! 8: ! 9: .SH DESCRIPTION ! 10: ! 11: .I bitmap ! 12: lets you interactively create small bitmaps, or edit previously created ! 13: bitmaps. A bitmap is a small picture, represented as a rectangular ! 14: array of 0 and 1 bits. The X window system uses bitmaps to represent ! 15: cursors and icons, among other things. ! 16: ! 17: When you run ! 18: .I bitmap, ! 19: you are given a magnified version of the bitmap, with each ! 20: pixel blown up into a large square, like a piece of graph paper. You ! 21: can then use the mouse to set, clear, or invert individual pixels, and ! 22: can invoke commands to set, clear or invert larger rectangular areas of ! 23: the bitmap. Other commands allow you to move or copy rectangular areas ! 24: from one part of the bitmap to another, and to define a `hot spot'--a ! 25: special single point on the bitmap, which is useful when the bitmap is ! 26: used as an X cursor. ! 27: ! 28: The output of the ! 29: .I bitmap ! 30: program is a small program fragment. By #include'ing such a program ! 31: fragment in your C program, you can easily declare the size and contents ! 32: of cursors, icons, and other bitmaps that your program creates to deal ! 33: with the X window system. ! 34: ! 35: When ! 36: .I bitmap ! 37: starts, it first tries to read the specified file ! 38: (see FILE FORMAT). If the file already exists, it ! 39: creates a window containing a grid of the ! 40: appropriate dimensions. ! 41: ! 42: If the file does not exist, ! 43: .I bitmap ! 44: will create a window for a ! 45: bitmap of the size specified by ! 46: .I dimensions ! 47: , which should be two ! 48: numbers separated by the letter `x' (e.g. 7x9, 13x21). The first number ! 49: is the bitmap's width; the second is its height. The bitmap will start ! 50: out empty. If no dimensions are specified on the command line, a ! 51: 16x16 bitmap will be created. The absolute limit is 99x99; the practical ! 52: limit is somewhat lower, and depends on the size and resolution of your ! 53: display. ! 54: ! 55: .I bitmap ! 56: accepts two other optional command line arguments. You may specify a ! 57: display name in the form \fIhost\fP:\fIdisplay\fP (see \fIX(1)\fP). ! 58: And you may provide ! 59: a geometry specification. If you don't give a geometry specification, ! 60: .I bitmap ! 61: will ask you where you want to put the window when it starts up. See ! 62: .I X(1) ! 63: for a full explanation. ! 64: ! 65: The window that ! 66: .I bitmap ! 67: creates has four parts. The largest ! 68: section is the checkerboard grid, which is a magnified version of the ! 69: bitmap you are editing. At the upper left is a set of commands that you ! 70: can invoke with any mouse button. Below the commands is an "actual size" ! 71: picture of the bitmap you are editing; below that is an inverted ! 72: version of the same bitmap. Each time you change the grid, the same ! 73: change will occur in the actual-size bitmap and its inverse. ! 74: ! 75: If you use a window manager to make the ! 76: .I bitmap ! 77: window larger or smaller, the grid squares will automatically ! 78: get larger or smaller as well. ! 79: ! 80: .SH COMMANDS ! 81: ! 82: (Note for users of color displays: In all of the following, ! 83: ``white'' means the background color, and ``black'' means the ! 84: foreground color. You may specify a foreground and background ! 85: color in your \fI.Xdefaults\fP file; see the X DEFAULTS section below.) ! 86: ! 87: When the cursor is in the checkerboard region, each mouse button has ! 88: a different effect upon the single square that the cursor is over. ! 89: ! 90: The ! 91: .I left mouse button ! 92: turns a grid square black and sets the corresponding ! 93: bitmap bit to 1. ! 94: ! 95: The ! 96: .I right mouse button ! 97: turns a grid square white and sets the corresponding ! 98: bitmap bit to 0. ! 99: ! 100: The ! 101: .I middle mouse button ! 102: inverts a grid square, turning it white if it was ! 103: black, or black if it was white. It also inverts the corresponding bitmap ! 104: bit, setting it to 0 if it was 1, and to 1 if it was 0. ! 105: ! 106: You can also invoke more sophisticated commands by moving the mouse over ! 107: one of the command boxes at the upper right corner, and pressing any ! 108: mouse button. ! 109: ! 110: .PP ! 111: .TP 8 ! 112: .I Clear All ! 113: turns all the grid squares white and ! 114: sets all bitmap bits to 0. This is irreversible, so invoke it with care. ! 115: ! 116: .PP ! 117: .TP 8 ! 118: .I Set All ! 119: turns all the grid squares black and sets all bitmap bits to 1. ! 120: This is also irreversible. ! 121: ! 122: .PP ! 123: .TP 8 ! 124: .I Invert All ! 125: inverts all the grid squares and bitmap bits, as if you had pressed ! 126: the middle mouse button over each square. ! 127: ! 128: .PP ! 129: .TP 8 ! 130: .I Clear Area ! 131: clears a rectangular area of the grid, turning it white and setting the ! 132: corresponding bitmap bits to 0. After you click over this command, the ! 133: cursor turns into an `upper-left corner'. Press any mouse button over the ! 134: upper-left corner of the area you want to invert, and ! 135: .I hold the button down ! 136: while moving the mouse to the lower-right corner of the area you ! 137: want to invert, then let the button up. ! 138: ! 139: While you are holding down the button, the selected area will be ! 140: covered with X's, and the cursor will change to a `lower-right corner'. ! 141: If you now wish to abort the command without clearing an area, either press ! 142: another mouse button, move the cursor outside the grid, or move the ! 143: cursor to the left of or above the upper-left corner. ! 144: ! 145: .PP ! 146: .TP 8 ! 147: .I Set Area ! 148: turns a rectangular area of the grid black and sets the corresponding ! 149: bitmap bits to 1. It works the same way as the ! 150: .I Clear Area ! 151: command. ! 152: ! 153: .PP ! 154: .TP 8 ! 155: .I Invert Area ! 156: inverts a rectangular area of ! 157: the grid. It works the same way as the ! 158: .I Clear Area ! 159: command. ! 160: ! 161: .PP ! 162: .TP 8 ! 163: .I Copy Area ! 164: copies a rectangular area from ! 165: one part of the grid to another. First, you select the rectangle to be ! 166: copied, in the manner described under ! 167: .I Clear Area ! 168: above. Then, the ! 169: cursor will change to an "upper-left corner". When you press a mouse ! 170: button, a destination rectangle will overlay the grid; moving the mouse ! 171: while holding down the button will move this destination rectangle. The ! 172: copy will occur when you let up the button. To cancel the copy, move ! 173: the mouse outside the grid and then let up the button. ! 174: ! 175: .PP ! 176: .TP 8 ! 177: .I Move Area ! 178: works identically to ! 179: .I Copy Area, except ! 180: that it clears the source rectangle after copying to the destination. ! 181: ! 182: .PP ! 183: .TP 8 ! 184: .I Set Hotspot ! 185: designates a point on the bitmap as the "hot spot". If a program ! 186: is using your bitmap as a cursor, the hot spot indicates which point on ! 187: the bitmap is the "actual" location of the cursor. For instance, if ! 188: your cursor is an arrow, the hot spot should be the tip of the arrow; if ! 189: your cursor is a cross, the hot spot should be where the perpendicular ! 190: lines intersect. ! 191: ! 192: .PP ! 193: .TP 8 ! 194: .I Clear Hotspot ! 195: removes any hot spot that was defined on this bitmap. ! 196: ! 197: .PP ! 198: .TP 8 ! 199: .I Write Output ! 200: writes the current bitmap value to the ! 201: file specified in the original command line. If the file already ! 202: exists, the original file is first renamed to ! 203: .B filename~ ! 204: (in the manner of \fIemacs(1)\fP and other text editors). ! 205: ! 206: If either the renaming or the writing cause an error (e.g. ! 207: ``Permission denied'), a Macintosh-style dialog window will appear, asking ! 208: if you want to write the file \fI/tmp/filename\fP instead. If you say yes, ! 209: all future ``Write Output'' commands will write to \fI/tmp/filename\fP as well. ! 210: See below for the format of the output file. ! 211: ! 212: .PP ! 213: .TP 8 ! 214: .I Quit ! 215: exits the ! 216: .I bitmap ! 217: program. If you have edited ! 218: the bitmap and have not invoked ! 219: .I Write Output, ! 220: or you have edited it ! 221: since the last time you invoked ! 222: .I Write Output, ! 223: a Macintosh-style dialog ! 224: window will appear, asking if you want to save changes before quitting. ! 225: ``Yes'' does a ``Write Output'' before exiting; ``No'' just exits, losing ! 226: the edits; ``Cancel'' means you decided not to quit after all. ! 227: ! 228: ! 229: .SH FILE FORMAT ! 230: ! 231: \fIBitmap\fP reads and writes files in the following format, ! 232: which is suitable for #include'ing in a C program: ! 233: .nf ! 234: #define foo_width 9 ! 235: #define foo_height 13 ! 236: #define foo_x_hot 4 ! 237: #define foo_y_hot 6 ! 238: static short foo_bits[] = { ! 239: 0x0010, 0x0038, 0x007c, 0x0010, ! 240: 0x0010, 0x0010, 0x01ff, 0x0010, ! 241: 0x0010, 0x0010, 0x007c, 0x0038, ! 242: 0x0010}; ! 243: .fi ! 244: ! 245: The variables ending with ! 246: .I _x_hot ! 247: and ! 248: .I _y_hot ! 249: are optional; they will be present only if a hot spot has been ! 250: defined for this bitmap. The other variables must be present. ! 251: ! 252: In place of ``foo'', the five variables will be prefixed ! 253: with a string derived from the name of the file that you specified ! 254: on the original command line by ! 255: (1) deleting the directory path (all characters up to and including ! 256: the last `/', if one is present) ! 257: (2) deleting the extension (the first `.', if one is present, ! 258: and all characters beyond it) ! 259: ! 260: For example, invoking ! 261: .I bitmap ! 262: with filename ! 263: .I /usr/include/bitmaps/cross.bitmap ! 264: will produce a file with variable ! 265: names ! 266: .I cross_width, cross_height, ! 267: and ! 268: .I cross_bits ! 269: (and ! 270: .I cross_x_hot ! 271: and ! 272: .I cross_y_hot ! 273: if a hot spot is defined). ! 274: ! 275: It's easy to define a bitmap or cursor in an X program by simply #include'ing ! 276: a bitmap file and referring to its variables. For instance, to use a cursor ! 277: defined in the files ! 278: .I this.cursor ! 279: and ! 280: .I this_mask.cursor, ! 281: one simply writes ! 282: .sp ! 283: .nf ! 284: #include "this.cursor" ! 285: #include "this_mask.cursor" ! 286: XCreateCursor (this_width, this_height, this_bits, this_mask_bits, ! 287: this_x_hot, this_y_hot, foreground, background, func); ! 288: .sp ! 289: .fi ! 290: where ! 291: .I foreground ! 292: and ! 293: .I background ! 294: are color values, and ! 295: .I func ! 296: is a display function (normally GXcopy). ! 297: ! 298: An X program can also read a bitmap file at runtime by using the function ! 299: .I XReadBitmapFile. ! 300: ! 301: .SH X DEFAULTS ! 302: .PP ! 303: .PP ! 304: .TP 8 ! 305: .B Background ! 306: The window's background color. Bits which are 0 in the bitmap are ! 307: displayed in this color. This option is useful only on color ! 308: displays. Default: white. ! 309: .PP ! 310: .TP 8 ! 311: .B Border ! 312: The border color. This option is useful only on color displays. ! 313: Default: black. ! 314: .PP ! 315: .TP 8 ! 316: .B BorderWidth ! 317: The border width. Default: 3. ! 318: .PP ! 319: .TP 8 ! 320: .B BodyFont ! 321: The text font. Default: vtsingle. ! 322: .PP ! 323: .TP 8 ! 324: .B Foreground ! 325: The foreground color. Bits which are 1 in the bitmap are ! 326: displayed in this color. This option is useful only on color ! 327: displays. Default: black. ! 328: .PP ! 329: .TP 8 ! 330: .B Highlight ! 331: The highlight color. ! 332: .I bitmap ! 333: uses this color to show the hot spot and to indicate rectangular areas ! 334: that will be affected by the ! 335: .I Move Area, Copy Area, Set Area, Clear Area, ! 336: and ! 337: .I Invert Area ! 338: commands. If a highlight color is not given, then ! 339: .I bitmap ! 340: will highlight by inverting. This option is useful only on color displays. ! 341: ! 342: .PP ! 343: .TP 8 ! 344: .B Mouse ! 345: The mouse cursor's color. This option is useful only on color displays. ! 346: Default: black. ! 347: ! 348: .SH ENVIRONMENT ! 349: DISPLAY - the default host and display number. ! 350: ! 351: .SH SEE ALSO ! 352: X(1), Xlib Documentation. ! 353: ! 354: ! 355: .SH DIAGNOSTICS ! 356: ! 357: The following messages may be displayed in the C-shell that you invoked ! 358: .I bitmap ! 359: with. Any of these conditions aborts ! 360: .I bitmap ! 361: before it can create its window. ! 362: ! 363: ! 364: ``bitmap: could not connect to X server on \fIhost\fP:\fIdisplay\fP'' ! 365: ! 366: Either the display given on the command line or the DISPLAY ! 367: environment variable has an invalid host name or display number, or ! 368: the host is down, or the host is unreachable, or the host is not ! 369: running an X server, or the host is refusing connections. ! 370: ! 371: ``bitmap: no file name specified'' ! 372: ! 373: You invoked ! 374: .I bitmap ! 375: with no command line arguments. You must give a ! 376: file name as the first argument. ! 377: ! 378: ! 379: ``bitmap: could not open file \fIfilename\fP for reading -- \fImessage\fP'' ! 380: ! 381: The specified file exists but cannot be read, for the reason given in ! 382: <message> (e.g., permission denied). ! 383: ! 384: ! 385: ``bitmap: invalid dimensions \fIstring\fP'' ! 386: ``bitmap: dimensions must be positive'' ! 387: ! 388: The second command line argument was not a valid dimension ! 389: specification. ! 390: ! 391: ! 392: ``bitmap: file \fIfilename\fP does not have a valid width dimension'' ! 393: ``bitmap: file \fIfilename\fP does not have a valid height dimension'' ! 394: ``bitmap: file \fIfilename\fP has an invalid \fIn\fPth array element'' ! 395: ! 396: The input file is not in the correct format; the program gave up when ! 397: trying to read the specified data. ! 398: ! 399: ! 400: The following messages may be displayed in the C-shell after \fIbitmap\fP ! 401: creates its window: ! 402: ! 403: ``bitmap: Unrecognized variable \fIname\fP in file \fIfilename\fP'' ! 404: ! 405: .I bitmap ! 406: encountered a variable ending in something other than ! 407: .I _x_hot, _y_hot, _width, ! 408: or ! 409: .I _height ! 410: while parsing the input file. It will ignore this variable and ! 411: continue parsing the file. ! 412: ! 413: ! 414: ``bitmap: XError: \fImessage\fP'' ! 415: ``bitmap: XIOError'' ! 416: ! 417: A protocol error occurred. Something is wrong with either the X server ! 418: or the X library which the program was compiled with. Possibly they are ! 419: incompatible. If the server is not on the local host, maybe the ! 420: connection broke. ! 421: ! 422: ! 423: .SH BUGS ! 424: Doesn't take enough command line options yet. Most options can be ! 425: specified only through .\fIXdefaults\fP. ! 426: ! 427: If you move the mouse too fast while holding a mouse button down, ! 428: some squares may be `missed'. This is caused by limitations in how ! 429: frequently the X server can sample the mouse location. ! 430: ! 431: There is no way to write to a file other than that specified on the ! 432: command line. ! 433: ! 434: There is no way to change the size of the bitmap once the program ! 435: is started. ! 436: ! 437: Edits are unrecoverably lost if you terminate the program with a ^C ! 438: or ^\ in the shell which invoked it, or if you kill it with the shell's ! 439: ``kill'' command. ! 440: ! 441: Dimensions greater than 99 are not read properly from the command ! 442: line or input file. Generally such dimensions would not be useful anyway, ! 443: since they would produce a window larger than most displays. ! 444: ! 445: .SH AUTHOR ! 446: Copyright (c) 1986 by Massachusetts Institute of Technology. ! 447: .br ! 448: Ron Newman, MIT Project Athena
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