From: Samual Date: Tue, 13 Dec 2011 08:28:36 +0000 (-0500) Subject: Move radarmap to command/ folder too X-Git-Tag: xonotic-v0.6.0~188^2~28^2~156 X-Git-Url: https://git.rm.cloudns.org/?a=commitdiff_plain;h=0c7eec822decc529a5f9b86814bba59366fc2ceb;p=xonotic%2Fxonotic-data.pk3dir.git Move radarmap to command/ folder too --- diff --git a/qcsrc/server/command/radarmap.qc b/qcsrc/server/command/radarmap.qc new file mode 100644 index 000000000..99543cfa8 --- /dev/null +++ b/qcsrc/server/command/radarmap.qc @@ -0,0 +1,436 @@ +// =============================================== +// Generates radar map images for use in the HUD +// =============================================== + +entity radarmapper; + +float RADAR_WIDTH_MAX = 512; +float RADAR_HEIGHT_MAX = 512; +float sharpen_buffer[RADAR_WIDTH_MAX * 3]; +string doublehex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is contained twice, to map 256 to FF too +// removes the need to bound() + +float FullTraceFraction(vector a, vector mi, vector ma, vector b) +{ + vector c; + float white, black; + + white = 0.001; + black = 0.001; + + c = a; + + float n, m; + n = m = 0; + + while(vlen(c - b) > 1) + { + ++m; + + tracebox(c, mi, ma, b, MOVE_WORLDONLY, world); + ++n; + + if(!trace_startsolid) + { + black += vlen(trace_endpos - c); + c = trace_endpos; + } + + n += tracebox_inverted(c, mi, ma, b, MOVE_WORLDONLY, world); + + white += vlen(trace_endpos - c); + c = trace_endpos; + } + + if(n > 200) + dprint("HOLY SHIT! FullTraceFraction: ", ftos(n), " total traces, ", ftos(m), " iterations\n"); + + return white / (black + white); +} +float RadarMapAtPoint_Trace(float x, float y, float w, float h, float zmin, float zsize, float q) +{ + vector a, b, mi, ma; + + mi = '0 0 0'; + ma = '1 0 0' * w + '0 1 0' * h; + a = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin; + b = '1 0 0' * x + '0 1 0' * y + '0 0 1' * (zsize + zmin); + + return FullTraceFraction(a, mi, ma, b); +} +float RadarMapAtPoint_LineBlock(float x, float y, float w, float h, float zmin, float zsize, float q) +{ + vector o, mi, ma; + float i, r; + vector dz; + + q = 256 * q - 1; + // 256q-1 is the ideal sample count to map equal amount of sample values to one pixel value + + mi = '0 0 0'; + dz = (zsize / q) * '0 0 1'; + ma = '1 0 0' * w + '0 1 0' * h + dz; + o = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin; + + if(x < world.absmin_x - w) + return 0; + if(y < world.absmin_y - h) + return 0; + if(x > world.absmax_x) + return 0; + if(y > world.absmax_y) + return 0; + + r = 0; + for(i = 0; i < q; ++i) + { + vector v1, v2; + v1 = v2 = o + dz * i + mi; + v1_x += random() * (ma_x - mi_x); + v1_y += random() * (ma_y - mi_y); + v1_z += random() * (ma_z - mi_z); + v2_x += random() * (ma_x - mi_x); + v2_y += random() * (ma_y - mi_y); + v2_z += random() * (ma_z - mi_z); + traceline(v1, v2, MOVE_WORLDONLY, world); + if(trace_startsolid || trace_fraction < 1) + ++r; + } + return r / q; +} +float RadarMapAtPoint_Block(float x, float y, float w, float h, float zmin, float zsize, float q) +{ + vector o, mi, ma; + float i, r; + vector dz; + + q = 256 * q - 1; + // 256q-1 is the ideal sample count to map equal amount of sample values to one pixel value + + mi = '0 0 0'; + dz = (zsize / q) * '0 0 1'; + ma = '1 0 0' * w + '0 1 0' * h + dz; + o = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin; + + if(x < world.absmin_x - w) + return 0; + if(y < world.absmin_y - h) + return 0; + if(x > world.absmax_x) + return 0; + if(y > world.absmax_y) + return 0; + + r = 0; + for(i = 0; i < q; ++i) + { + tracebox(o + dz * i, mi, ma, o + dz * i, MOVE_WORLDONLY, world); + if(trace_startsolid) + ++r; + } + return r / q; +} +float RadarMapAtPoint_Sample(float x, float y, float w, float h, float zmin, float zsize, float q) +{ + vector a, b, mi, ma; + + q *= 4; // choose q so it matches the regular algorithm in speed + + q = 256 * q - 1; + // 256q-1 is the ideal sample count to map equal amount of sample values to one pixel value + + mi = '0 0 0'; + ma = '1 0 0' * w + '0 1 0' * h; + a = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin; + b = '1 0 0' * w + '0 1 0' * h + '0 0 1' * zsize; + + float c, i; + c = 0; + + for(i = 0; i < q; ++i) + { + vector v; + v_x = a_x + random() * b_x; + v_y = a_y + random() * b_y; + v_z = a_z + random() * b_z; + traceline(v, v, MOVE_WORLDONLY, world); + if(trace_startsolid) + ++c; + } + + return c / q; +} +void sharpen_set(float x, float v) +{ + sharpen_buffer[x + 2 * RADAR_WIDTH_MAX] = v; +} +float sharpen_getpixel(float x, float y) +{ + if(x < 0) + return 0; + if(x >= RADAR_WIDTH_MAX) + return 0; + if(y < 0) + return 0; + if(y > 2) + return 0; + return sharpen_buffer[x + y * RADAR_WIDTH_MAX]; +} +float sharpen_get(float x, float a) +{ + float sum; + sum = sharpen_getpixel(x, 1); + if(a == 0) + return sum; + sum *= (8 + 1/a); + sum -= sharpen_getpixel(x - 1, 0); + sum -= sharpen_getpixel(x - 1, 1); + sum -= sharpen_getpixel(x - 1, 2); + sum -= sharpen_getpixel(x + 1, 0); + sum -= sharpen_getpixel(x + 1, 1); + sum -= sharpen_getpixel(x + 1, 2); + sum -= sharpen_getpixel(x, 0); + sum -= sharpen_getpixel(x, 2); + return bound(0, sum * a, 1); +} +void sharpen_shift(float w) +{ + float i; + for(i = 0; i < w; ++i) + { + sharpen_buffer[i] = sharpen_buffer[i + RADAR_WIDTH_MAX]; + sharpen_buffer[i + RADAR_WIDTH_MAX] = sharpen_buffer[i + 2 * RADAR_WIDTH_MAX]; + sharpen_buffer[i + 2 * RADAR_WIDTH_MAX] = 0; + } +} +void sharpen_init(float w) +{ + float i; + for(i = 0; i < w; ++i) + { + sharpen_buffer[i] = 0; + sharpen_buffer[i + RADAR_WIDTH_MAX] = 0; + sharpen_buffer[i + 2 * RADAR_WIDTH_MAX] = 0; + } +} +void RadarMap_Next() +{ + if(radarmapper.count & 4) + { + localcmd("quit\n"); + } + else if(radarmapper.count & 2) + { + localcmd(strcat("defer 1 \"sv_cmd radarmap --flags ", ftos(radarmapper.count), strcat(" --res ", ftos(radarmapper.size_x), " ", ftos(radarmapper.size_y), " --sharpen ", ftos(radarmapper.ltime), " --qual ", ftos(radarmapper.size_z)), "\"\n")); + GotoNextMap(); + } + remove(radarmapper); + radarmapper = world; +} +void RadarMap_Think() +{ + // rough map entity + // cnt: current line + // size: pixel width/height + // maxs: cell width/height + // frame: counter + + float i, x, l; + string si; + + if(self.frame == 0) + { + // initialize + get_mi_min_max_texcoords(1); + self.mins = mi_picmin; + self.maxs_x = (mi_picmax_x - mi_picmin_x) / self.size_x; + self.maxs_y = (mi_picmax_y - mi_picmin_y) / self.size_y; + self.maxs_z = mi_max_z - mi_min_z; + print("Picture mins/maxs: ", ftos(self.maxs_x), " and ", ftos(self.maxs_y), " should match\n"); + self.netname = strzone(strcat("gfx/", mi_shortname, "_radar.xpm")); + if(!(self.count & 1)) + { + self.cnt = fopen(self.netname, FILE_READ); + if(self.cnt < 0) + self.cnt = fopen(strcat("gfx/", mi_shortname, "_radar.tga"), FILE_READ); + if(self.cnt < 0) + self.cnt = fopen(strcat("gfx/", mi_shortname, "_radar.png"), FILE_READ); + if(self.cnt < 0) + self.cnt = fopen(strcat("gfx/", mi_shortname, "_radar.jpg"), FILE_READ); + if(self.cnt < 0) + self.cnt = fopen(strcat("gfx/", mi_shortname, "_mini.tga"), FILE_READ); + if(self.cnt < 0) + self.cnt = fopen(strcat("gfx/", mi_shortname, "_mini.png"), FILE_READ); + if(self.cnt < 0) + self.cnt = fopen(strcat("gfx/", mi_shortname, "_mini.jpg"), FILE_READ); + if(self.cnt >= 0) + { + fclose(self.cnt); + + print(self.netname, " already exists, aborting (you may want to specify --force)\n"); + RadarMap_Next(); + return; + } + } + self.cnt = fopen(self.netname, FILE_WRITE); + if(self.cnt < 0) + { + print("Error writing ", self.netname, "\n"); + remove(self); + radarmapper = world; + return; + } + print("Writing to ", self.netname, "...\n"); + fputs(self.cnt, "/* XPM */\n"); + fputs(self.cnt, "static char *RadarMap[] = {\n"); + fputs(self.cnt, "/* columns rows colors chars-per-pixel */\n"); + fputs(self.cnt, strcat("\"", ftos(self.size_x), " ", ftos(self.size_y), " 256 2\",\n")); + for(i = 0; i < 256; ++i) + { + si = substring(doublehex, i*2, 2); + fputs(self.cnt, strcat("\"", si, " c #", si, si, si, "\",\n")); + } + self.frame += 1; + self.nextthink = time; + sharpen_init(self.size_x); + } + else if(self.frame <= self.size_y) + { + // fill the sharpen buffer with this line + sharpen_shift(self.size_x); + i = self.count & 24; + + switch(i) + { + case 0: + default: + for(x = 0; x < self.size_x; ++x) + { + l = RadarMapAtPoint_Block(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z); + sharpen_set(x, l); + } + break; + case 8: + for(x = 0; x < self.size_x; ++x) + { + l = RadarMapAtPoint_Trace(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z); + sharpen_set(x, l); + } + break; + case 16: + for(x = 0; x < self.size_x; ++x) + { + l = RadarMapAtPoint_Sample(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z); + sharpen_set(x, l); + } + break; + case 24: + for(x = 0; x < self.size_x; ++x) + { + l = RadarMapAtPoint_LineBlock(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z); + sharpen_set(x, l); + } + break; + } + + // do we have enough lines? + if(self.frame >= 2) + { + // write a pixel line + fputs(self.cnt, "\""); + for(x = 0; x < self.size_x; ++x) + { + l = sharpen_get(x, self.ltime); + fputs(self.cnt, substring(doublehex, 2 * floor(l * 256.0), 2)); + } + if(self.frame == self.size_y) + fputs(self.cnt, "\"\n"); + else + { + fputs(self.cnt, "\",\n"); + print(ftos(self.size_y - self.frame), " lines left\n"); + } + } + + // is this the last line? then write back the missing line + if(self.frame == self.size_y) + { + sharpen_shift(self.size_x); + // write a pixel line + fputs(self.cnt, "\""); + for(x = 0; x < self.size_x; ++x) + { + l = sharpen_get(x, self.ltime); + fputs(self.cnt, substring(doublehex, 2 * floor(l * 256.0), 2)); + } + if(self.frame == self.size_y) + fputs(self.cnt, "\"\n"); + else + { + fputs(self.cnt, "\",\n"); + print(ftos(self.size_y - self.frame), " lines left\n"); + } + } + + self.frame += 1; + self.nextthink = time; + } + else + { + // close the file + fputs(self.cnt, "};\n"); + fclose(self.cnt); + print("Finished. Please edit data/", self.netname, " with an image editing application and place it in the TGA format in the gfx folder.\n"); + RadarMap_Next(); + } +} + +float RadarMap_Make(float argc) +{ + float i; + + if(!radarmapper) + { + radarmapper = spawn(); + radarmapper.classname = "radarmapper"; + radarmapper.think = RadarMap_Think; + radarmapper.nextthink = time; + radarmapper.count = 8; // default to the --trace method, as it is faster now + radarmapper.ltime = 1; + radarmapper.size = '512 512 1'; + for(i = 1; i < argc; ++i) + { + switch(argv(i)) + { + case "--force": { radarmapper.count |= 1; break; } + case "--loop": { radarmapper.count |= 2; break; } + case "--quit": { radarmapper.count |= 4; break; } + case "--block": { radarmapper.count &~= 24; break; } + case "--trace": { radarmapper.count &~= 24; radarmapper.count |= 8; break; } + case "--sample": { radarmapper.count &~= 24; radarmapper.count |= 16; break; } + case "--lineblock": { radarmapper.count |= 24; break; } + case "--flags": { ++i; radarmapper.count = stof(argv(i)); break; } // for the recursive call + case "--sharpen": { ++i; radarmapper.ltime = stof(argv(i)); break; } // for the recursive call + case "--res": // minor alias + case "--resolution": { ++i; radarmapper.size_x = stof(argv(i)); ++i; radarmapper.size_y = stof(argv(i)); break; } + case "--qual": // minor alias + case "--quality": { ++i; radarmapper.size_z = stof(argv(i)); break; } + + default: + i = argc; + remove(radarmapper); + radarmapper = world; + break; + } + } + + if(radarmapper) // after doing the arguments, see if we successfully went forward. + { + print("Radarmap entity spawned.\n"); + return TRUE; // if so, don't print usage. + } + } + + return FALSE; +} \ No newline at end of file diff --git a/qcsrc/server/radarmap.qc b/qcsrc/server/radarmap.qc deleted file mode 100644 index 99543cfa8..000000000 --- a/qcsrc/server/radarmap.qc +++ /dev/null @@ -1,436 +0,0 @@ -// =============================================== -// Generates radar map images for use in the HUD -// =============================================== - -entity radarmapper; - -float RADAR_WIDTH_MAX = 512; -float RADAR_HEIGHT_MAX = 512; -float sharpen_buffer[RADAR_WIDTH_MAX * 3]; -string doublehex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is contained twice, to map 256 to FF too -// removes the need to bound() - -float FullTraceFraction(vector a, vector mi, vector ma, vector b) -{ - vector c; - float white, black; - - white = 0.001; - black = 0.001; - - c = a; - - float n, m; - n = m = 0; - - while(vlen(c - b) > 1) - { - ++m; - - tracebox(c, mi, ma, b, MOVE_WORLDONLY, world); - ++n; - - if(!trace_startsolid) - { - black += vlen(trace_endpos - c); - c = trace_endpos; - } - - n += tracebox_inverted(c, mi, ma, b, MOVE_WORLDONLY, world); - - white += vlen(trace_endpos - c); - c = trace_endpos; - } - - if(n > 200) - dprint("HOLY SHIT! FullTraceFraction: ", ftos(n), " total traces, ", ftos(m), " iterations\n"); - - return white / (black + white); -} -float RadarMapAtPoint_Trace(float x, float y, float w, float h, float zmin, float zsize, float q) -{ - vector a, b, mi, ma; - - mi = '0 0 0'; - ma = '1 0 0' * w + '0 1 0' * h; - a = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin; - b = '1 0 0' * x + '0 1 0' * y + '0 0 1' * (zsize + zmin); - - return FullTraceFraction(a, mi, ma, b); -} -float RadarMapAtPoint_LineBlock(float x, float y, float w, float h, float zmin, float zsize, float q) -{ - vector o, mi, ma; - float i, r; - vector dz; - - q = 256 * q - 1; - // 256q-1 is the ideal sample count to map equal amount of sample values to one pixel value - - mi = '0 0 0'; - dz = (zsize / q) * '0 0 1'; - ma = '1 0 0' * w + '0 1 0' * h + dz; - o = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin; - - if(x < world.absmin_x - w) - return 0; - if(y < world.absmin_y - h) - return 0; - if(x > world.absmax_x) - return 0; - if(y > world.absmax_y) - return 0; - - r = 0; - for(i = 0; i < q; ++i) - { - vector v1, v2; - v1 = v2 = o + dz * i + mi; - v1_x += random() * (ma_x - mi_x); - v1_y += random() * (ma_y - mi_y); - v1_z += random() * (ma_z - mi_z); - v2_x += random() * (ma_x - mi_x); - v2_y += random() * (ma_y - mi_y); - v2_z += random() * (ma_z - mi_z); - traceline(v1, v2, MOVE_WORLDONLY, world); - if(trace_startsolid || trace_fraction < 1) - ++r; - } - return r / q; -} -float RadarMapAtPoint_Block(float x, float y, float w, float h, float zmin, float zsize, float q) -{ - vector o, mi, ma; - float i, r; - vector dz; - - q = 256 * q - 1; - // 256q-1 is the ideal sample count to map equal amount of sample values to one pixel value - - mi = '0 0 0'; - dz = (zsize / q) * '0 0 1'; - ma = '1 0 0' * w + '0 1 0' * h + dz; - o = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin; - - if(x < world.absmin_x - w) - return 0; - if(y < world.absmin_y - h) - return 0; - if(x > world.absmax_x) - return 0; - if(y > world.absmax_y) - return 0; - - r = 0; - for(i = 0; i < q; ++i) - { - tracebox(o + dz * i, mi, ma, o + dz * i, MOVE_WORLDONLY, world); - if(trace_startsolid) - ++r; - } - return r / q; -} -float RadarMapAtPoint_Sample(float x, float y, float w, float h, float zmin, float zsize, float q) -{ - vector a, b, mi, ma; - - q *= 4; // choose q so it matches the regular algorithm in speed - - q = 256 * q - 1; - // 256q-1 is the ideal sample count to map equal amount of sample values to one pixel value - - mi = '0 0 0'; - ma = '1 0 0' * w + '0 1 0' * h; - a = '1 0 0' * x + '0 1 0' * y + '0 0 1' * zmin; - b = '1 0 0' * w + '0 1 0' * h + '0 0 1' * zsize; - - float c, i; - c = 0; - - for(i = 0; i < q; ++i) - { - vector v; - v_x = a_x + random() * b_x; - v_y = a_y + random() * b_y; - v_z = a_z + random() * b_z; - traceline(v, v, MOVE_WORLDONLY, world); - if(trace_startsolid) - ++c; - } - - return c / q; -} -void sharpen_set(float x, float v) -{ - sharpen_buffer[x + 2 * RADAR_WIDTH_MAX] = v; -} -float sharpen_getpixel(float x, float y) -{ - if(x < 0) - return 0; - if(x >= RADAR_WIDTH_MAX) - return 0; - if(y < 0) - return 0; - if(y > 2) - return 0; - return sharpen_buffer[x + y * RADAR_WIDTH_MAX]; -} -float sharpen_get(float x, float a) -{ - float sum; - sum = sharpen_getpixel(x, 1); - if(a == 0) - return sum; - sum *= (8 + 1/a); - sum -= sharpen_getpixel(x - 1, 0); - sum -= sharpen_getpixel(x - 1, 1); - sum -= sharpen_getpixel(x - 1, 2); - sum -= sharpen_getpixel(x + 1, 0); - sum -= sharpen_getpixel(x + 1, 1); - sum -= sharpen_getpixel(x + 1, 2); - sum -= sharpen_getpixel(x, 0); - sum -= sharpen_getpixel(x, 2); - return bound(0, sum * a, 1); -} -void sharpen_shift(float w) -{ - float i; - for(i = 0; i < w; ++i) - { - sharpen_buffer[i] = sharpen_buffer[i + RADAR_WIDTH_MAX]; - sharpen_buffer[i + RADAR_WIDTH_MAX] = sharpen_buffer[i + 2 * RADAR_WIDTH_MAX]; - sharpen_buffer[i + 2 * RADAR_WIDTH_MAX] = 0; - } -} -void sharpen_init(float w) -{ - float i; - for(i = 0; i < w; ++i) - { - sharpen_buffer[i] = 0; - sharpen_buffer[i + RADAR_WIDTH_MAX] = 0; - sharpen_buffer[i + 2 * RADAR_WIDTH_MAX] = 0; - } -} -void RadarMap_Next() -{ - if(radarmapper.count & 4) - { - localcmd("quit\n"); - } - else if(radarmapper.count & 2) - { - localcmd(strcat("defer 1 \"sv_cmd radarmap --flags ", ftos(radarmapper.count), strcat(" --res ", ftos(radarmapper.size_x), " ", ftos(radarmapper.size_y), " --sharpen ", ftos(radarmapper.ltime), " --qual ", ftos(radarmapper.size_z)), "\"\n")); - GotoNextMap(); - } - remove(radarmapper); - radarmapper = world; -} -void RadarMap_Think() -{ - // rough map entity - // cnt: current line - // size: pixel width/height - // maxs: cell width/height - // frame: counter - - float i, x, l; - string si; - - if(self.frame == 0) - { - // initialize - get_mi_min_max_texcoords(1); - self.mins = mi_picmin; - self.maxs_x = (mi_picmax_x - mi_picmin_x) / self.size_x; - self.maxs_y = (mi_picmax_y - mi_picmin_y) / self.size_y; - self.maxs_z = mi_max_z - mi_min_z; - print("Picture mins/maxs: ", ftos(self.maxs_x), " and ", ftos(self.maxs_y), " should match\n"); - self.netname = strzone(strcat("gfx/", mi_shortname, "_radar.xpm")); - if(!(self.count & 1)) - { - self.cnt = fopen(self.netname, FILE_READ); - if(self.cnt < 0) - self.cnt = fopen(strcat("gfx/", mi_shortname, "_radar.tga"), FILE_READ); - if(self.cnt < 0) - self.cnt = fopen(strcat("gfx/", mi_shortname, "_radar.png"), FILE_READ); - if(self.cnt < 0) - self.cnt = fopen(strcat("gfx/", mi_shortname, "_radar.jpg"), FILE_READ); - if(self.cnt < 0) - self.cnt = fopen(strcat("gfx/", mi_shortname, "_mini.tga"), FILE_READ); - if(self.cnt < 0) - self.cnt = fopen(strcat("gfx/", mi_shortname, "_mini.png"), FILE_READ); - if(self.cnt < 0) - self.cnt = fopen(strcat("gfx/", mi_shortname, "_mini.jpg"), FILE_READ); - if(self.cnt >= 0) - { - fclose(self.cnt); - - print(self.netname, " already exists, aborting (you may want to specify --force)\n"); - RadarMap_Next(); - return; - } - } - self.cnt = fopen(self.netname, FILE_WRITE); - if(self.cnt < 0) - { - print("Error writing ", self.netname, "\n"); - remove(self); - radarmapper = world; - return; - } - print("Writing to ", self.netname, "...\n"); - fputs(self.cnt, "/* XPM */\n"); - fputs(self.cnt, "static char *RadarMap[] = {\n"); - fputs(self.cnt, "/* columns rows colors chars-per-pixel */\n"); - fputs(self.cnt, strcat("\"", ftos(self.size_x), " ", ftos(self.size_y), " 256 2\",\n")); - for(i = 0; i < 256; ++i) - { - si = substring(doublehex, i*2, 2); - fputs(self.cnt, strcat("\"", si, " c #", si, si, si, "\",\n")); - } - self.frame += 1; - self.nextthink = time; - sharpen_init(self.size_x); - } - else if(self.frame <= self.size_y) - { - // fill the sharpen buffer with this line - sharpen_shift(self.size_x); - i = self.count & 24; - - switch(i) - { - case 0: - default: - for(x = 0; x < self.size_x; ++x) - { - l = RadarMapAtPoint_Block(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z); - sharpen_set(x, l); - } - break; - case 8: - for(x = 0; x < self.size_x; ++x) - { - l = RadarMapAtPoint_Trace(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z); - sharpen_set(x, l); - } - break; - case 16: - for(x = 0; x < self.size_x; ++x) - { - l = RadarMapAtPoint_Sample(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z); - sharpen_set(x, l); - } - break; - case 24: - for(x = 0; x < self.size_x; ++x) - { - l = RadarMapAtPoint_LineBlock(self.mins_x + x * self.maxs_x, self.mins_y + (self.size_y - self.frame) * self.maxs_y, self.maxs_x, self.maxs_y, self.mins_z, self.maxs_z, self.size_z); - sharpen_set(x, l); - } - break; - } - - // do we have enough lines? - if(self.frame >= 2) - { - // write a pixel line - fputs(self.cnt, "\""); - for(x = 0; x < self.size_x; ++x) - { - l = sharpen_get(x, self.ltime); - fputs(self.cnt, substring(doublehex, 2 * floor(l * 256.0), 2)); - } - if(self.frame == self.size_y) - fputs(self.cnt, "\"\n"); - else - { - fputs(self.cnt, "\",\n"); - print(ftos(self.size_y - self.frame), " lines left\n"); - } - } - - // is this the last line? then write back the missing line - if(self.frame == self.size_y) - { - sharpen_shift(self.size_x); - // write a pixel line - fputs(self.cnt, "\""); - for(x = 0; x < self.size_x; ++x) - { - l = sharpen_get(x, self.ltime); - fputs(self.cnt, substring(doublehex, 2 * floor(l * 256.0), 2)); - } - if(self.frame == self.size_y) - fputs(self.cnt, "\"\n"); - else - { - fputs(self.cnt, "\",\n"); - print(ftos(self.size_y - self.frame), " lines left\n"); - } - } - - self.frame += 1; - self.nextthink = time; - } - else - { - // close the file - fputs(self.cnt, "};\n"); - fclose(self.cnt); - print("Finished. Please edit data/", self.netname, " with an image editing application and place it in the TGA format in the gfx folder.\n"); - RadarMap_Next(); - } -} - -float RadarMap_Make(float argc) -{ - float i; - - if(!radarmapper) - { - radarmapper = spawn(); - radarmapper.classname = "radarmapper"; - radarmapper.think = RadarMap_Think; - radarmapper.nextthink = time; - radarmapper.count = 8; // default to the --trace method, as it is faster now - radarmapper.ltime = 1; - radarmapper.size = '512 512 1'; - for(i = 1; i < argc; ++i) - { - switch(argv(i)) - { - case "--force": { radarmapper.count |= 1; break; } - case "--loop": { radarmapper.count |= 2; break; } - case "--quit": { radarmapper.count |= 4; break; } - case "--block": { radarmapper.count &~= 24; break; } - case "--trace": { radarmapper.count &~= 24; radarmapper.count |= 8; break; } - case "--sample": { radarmapper.count &~= 24; radarmapper.count |= 16; break; } - case "--lineblock": { radarmapper.count |= 24; break; } - case "--flags": { ++i; radarmapper.count = stof(argv(i)); break; } // for the recursive call - case "--sharpen": { ++i; radarmapper.ltime = stof(argv(i)); break; } // for the recursive call - case "--res": // minor alias - case "--resolution": { ++i; radarmapper.size_x = stof(argv(i)); ++i; radarmapper.size_y = stof(argv(i)); break; } - case "--qual": // minor alias - case "--quality": { ++i; radarmapper.size_z = stof(argv(i)); break; } - - default: - i = argc; - remove(radarmapper); - radarmapper = world; - break; - } - } - - if(radarmapper) // after doing the arguments, see if we successfully went forward. - { - print("Radarmap entity spawned.\n"); - return TRUE; // if so, don't print usage. - } - } - - return FALSE; -} \ No newline at end of file