ref: 6076b4f9367729f60efe5a729070caaa5e38d29f
dir: /sys/src/cmd/spin/msc_tcl.c/
/***** spin: msc_tcl.c *****/ /* * This file is part of the public release of Spin. It is subject to the * terms in the LICENSE file that is included in this source directory. * Tool documentation is available at http://spinroot.com */ #include <stdlib.h> #include "spin.h" #include "version.h" #define MW 500 /* page width */ #define RH 100 /* right margin */ #define WW 80 /* distance between process lines */ #define HH 12 /* vertical distance between steps */ #define LW 2 /* line width of message arrows */ #define RVC "darkred" /* rendezvous arrows */ #define MPC "darkblue" /* asynchronous message passing arrow */ #define GRC "lightgrey" /* grid lines */ static int MH = 600; /* anticipated page-length */ static FILE *pfd; static char **I; /* initial procs */ static int *D,*R; /* maps between depth (stepnr) and ldepth (msc-step) */ static short *M; /* x location of each box at index y */ static short *T; /* y index of match for each box at index y */ static char **L; /* text labels */ static int ProcLine[256]; /* active processes */ static int UsedLine[256]; /* process line has at least one entry */ static int ldepth = 1; static int maxx, TotSteps = 2*4096; /* max nr of steps for simulation output */ static float Scaler = (float) 1.0; static int xscale = 2; static int yscale = 1; static int no_box; extern int ntrail, s_trail, pno, depth; extern Symbol *oFname; extern void exit(int); extern void putpostlude(void); static void putpages(void); static void psline(int x0, int y0, int x1, int y1, char *color) { char *side = "last"; if (x0 == x1) /* gridline */ { fprintf(pfd, ".c create line %d %d %d %d -fill %s -tags grid -width 1 \n", xscale*(x0+1)*WW-20, yscale*y0+20, xscale*(x1+1)*WW-20, yscale*y1+20, color); fprintf(pfd, ".c lower grid\n"); } else { int xm = xscale*(x0+1)*WW + (xscale*(x1 - x0)*WW)/2 - 20; /* mid x */ if (y1 - y0 <= HH+20) { y1 = y0+20; /* close enough to horizontal - looks better */ } fprintf(pfd, ".c create line %d %d %d %d -fill %s -tags mesg -width %d\n", xscale*(x0+1)*WW-20, yscale*y0+20+10, xm, yscale*y0+20+10, color, LW); if (y1 != y0+20) { fprintf(pfd, ".c create line %d %d %d %d -fill %s -tags mesg -width %d\n", xm, yscale*y0+20+10, xm, yscale*y1+20-10, color, LW); } fprintf(pfd, ".c create line %d %d %d %d -fill %s -width %d ", xm, yscale*y1+20-10, xscale*(x1+1)*WW-20, yscale*y1+20-10, color, LW); if (strcmp(color, RVC) == 0) { side = "both"; } fprintf(pfd, "-arrow %s -arrowshape {5 5 5} -tags mesg\n", side); fprintf(pfd, ".c raise mesg\n"); } } static void colbox(int ix, int iy, int w, int h_unused, char *color) { int x = ix*WW; int y = iy*HH; if (ix < 0 || ix > 255) { fatal("msc_tcl: unexpected\n", (char *) 0); } if (ProcLine[ix] < iy) { /* if (ProcLine[ix] > 0) */ { psline(ix-1, ProcLine[ix]*HH+HH+4, ix-1, iy*HH-HH, GRC); } fprintf(pfd, "# ProcLine[%d] from %d to %d (Used %d nobox %d)\n", ix, ProcLine[ix], iy, UsedLine[ix], no_box); ProcLine[ix] = iy; } else { fprintf(pfd, "# ProcLine[%d] stays at %d (Used %d nobox %d)\n", ix, ProcLine[ix], UsedLine[ix], no_box); } if (UsedLine[ix]) { no_box = 2; } if (strcmp(color, "black") == 0) { if (no_box == 0) /* shadow */ { fprintf(pfd, ".c create rectangle %d %d %d %d -fill black\n", xscale*x-(xscale*4*w/3)-20+4, (yscale*y-10)+20+2, xscale*x+(xscale*4*w/3)-20, (yscale*y+10)+20+2); } } else { if (no_box == 0) /* box with outline */ { fprintf(pfd, ".c create rectangle %d %d %d %d -fill ivory\n", xscale*x-(xscale*4*w/3)-20, (yscale*y-10)+20, xscale*x+(xscale*4*w/3)-20, (yscale*y+10)+20); UsedLine[ix]++; } else /* no outline */ { fprintf(pfd, ".c create rectangle %d %d %d %d -fill white -width 0\n", xscale*x-(xscale*4*w/3)-20, (yscale*y-10)+20, xscale*x+(xscale*4*w/3)-20, (yscale*y+10)+20); } } if (no_box > 0) { no_box--; } } static void stepnumber(int i) { int y = (yscale*i*HH) + 20; fprintf(pfd, ".c create text %d %d -fill #eef -text \"%d\"\n", -10+(xscale*WW)/2, y, i); /* horizontal dashed grid line */ fprintf(pfd, ".c create line %d %d %d %d -fill #eef -dash {6 4}\n", -20+WW*xscale, y, (maxx+1)*WW*xscale-20, y); } static void spitbox(int ix, int y, char *s) { float bw; /* box width */ char d[256], *t, *z; int a, i, x = ix+1; char *color = "black"; if (y > 0) { stepnumber(y); } bw = (float)1.8*(float)strlen(s); /* guess at default font width */ colbox(x, y, (int) (bw+1.0), 5, "black"); if (s[0] == '~') { switch (s[1]) { default : case 'R': color = "red"; break; case 'B': color = "blue"; break; case 'G': color = "green"; break; } s += 2; } else if (strchr(s, '!')) { color = "ivory"; } else if (strchr(s, '?')) { color = "azure"; } else { color = "pink"; if (sscanf(s, "%d:%250s", &a, d) == 2 && a >= 0 && a < TotSteps) { if (!I[a] || strlen(I[a]) <= strlen(s)) { I[a] = (char *) emalloc((int) strlen(s)+1); } strcpy(I[a], s); } } colbox(x, y, (int) bw, 4, color); z = t = (char *) emalloc(2*strlen(s)+1); for (i = 0; i < (int) strlen(s); i++) { if (s[i] == '\n') { continue; } if (s[i] == '[' || s[i] == ']') { *t++ = '\\'; } *t++ = s[i]; } fprintf(pfd, ".c create text %d %d -text \"%s\"\n", xscale*x*WW-20, yscale*y*HH+20, z); } static void putpages(void) { int i, lasti=0; float nmh; if (maxx*xscale*WW > MW-RH/2) { Scaler = (float) (MW-RH/2) / (float) (maxx*xscale*WW); nmh = (float) MH; nmh /= Scaler; MH = (int) nmh; fprintf(pfd, "# Scaler %f, MH %d\n", Scaler, MH); } if (ldepth >= TotSteps) { ldepth = TotSteps-1; } /* W: (maxx+2)*xscale*WW */ /* H: ldepth*HH*yscale+50 */ fprintf(pfd, "wm title . \"scenario\"\n"); fprintf(pfd, "wm geometry . %dx600+650+100\n", (maxx+2)*xscale*WW); fprintf(pfd, "canvas .c -width 800 -height 800 \\\n"); fprintf(pfd, " -scrollregion {0c -1c 30c 100c} \\\n"); fprintf(pfd, " -xscrollcommand \".hscroll set\" \\\n"); fprintf(pfd, " -yscrollcommand \".vscroll set\" \\\n"); fprintf(pfd, " -bg white -relief raised -bd 2\n"); fprintf(pfd, "scrollbar .vscroll -relief sunken "); fprintf(pfd, " -command \".c yview\"\n"); fprintf(pfd, "scrollbar .hscroll -relief sunken -orient horiz "); fprintf(pfd, " -command \".c xview\"\n"); fprintf(pfd, "pack append . \\\n"); fprintf(pfd, " .vscroll {right filly} \\\n"); fprintf(pfd, " .hscroll {bottom fillx} \\\n"); fprintf(pfd, " .c {top expand fill}\n"); fprintf(pfd, ".c yview moveto 0\n"); for (i = TotSteps-1; i >= 0; i--) { if (I[i]) { spitbox(i, -1, I[i]); } } for (i = 0; i <= ldepth; i++) { if (!M[i] && !L[i]) { continue; /* no box */ } if (T[i] > 0) /* arrow */ { if (T[i] == i) /* rv handshake */ { psline( M[lasti], lasti*HH, M[i], i*HH, RVC); } else { psline( M[i], i*HH, M[T[i]], T[i]*HH, MPC); } } if (L[i]) { spitbox(M[i], i, L[i]); lasti = i; } } } static void putbox(int x) { if (ldepth >= TotSteps) { fprintf(stderr, "max length of %d steps exceeded - ps file truncated\n", TotSteps); putpostlude(); } M[ldepth] = x; if (x > maxx) { maxx = x; fprintf(pfd, "# maxx %d\n", x); } } /* functions called externally: */ extern int WhatSeed(void); void putpostlude(void) { char cmd[512]; putpages(); fprintf(pfd, ".c lower grid\n"); fprintf(pfd, ".c raise mesg\n"); fclose(pfd); fprintf(stderr, "seed used: -n%d\n", WhatSeed()); sprintf(cmd, "wish -f %s.tcl &", oFname?oFname->name:"msc"); fprintf(stderr, "%s\n", cmd); (void) unlink("pan.pre"); exit (system(cmd)); } void putprelude(void) { char snap[256]; FILE *fd; sprintf(snap, "%s.tcl", oFname?oFname->name:"msc"); if (!(pfd = fopen(snap, MFLAGS))) { fatal("cannot create file '%s'", snap); } if (s_trail) { if (ntrail) sprintf(snap, "%s%d.trail", oFname?oFname->name:"msc", ntrail); else sprintf(snap, "%s.trail", oFname?oFname->name:"msc"); if (!(fd = fopen(snap, "r"))) { snap[strlen(snap)-2] = '\0'; if (!(fd = fopen(snap, "r"))) fatal("cannot open trail file", (char *) 0); } TotSteps = 1; while (fgets(snap, 256, fd)) TotSteps++; fclose(fd); } TotSteps *= 2; R = (int *) emalloc(TotSteps * sizeof(int)); D = (int *) emalloc(TotSteps * sizeof(int)); M = (short *) emalloc(TotSteps * sizeof(short)); T = (short *) emalloc(TotSteps * sizeof(short)); L = (char **) emalloc(TotSteps * sizeof(char *)); I = (char **) emalloc(TotSteps * sizeof(char *)); } void putarrow(int from, int to) { /* from rv if from == to */ /* which means that D[from] == D[to] */ /* which means that T[x] == x */ if (from < TotSteps && to < TotSteps && D[from] < TotSteps) { T[D[from]] = D[to]; } } void pstext(int x, char *s) { char *tmp = emalloc((int) strlen(s)+1); strcpy(tmp, s); if (depth == 0) { I[x] = tmp; } else { if (depth >= TotSteps || ldepth >= TotSteps) { fprintf(stderr, "spin: error: max nr of %d steps exceeded\n", TotSteps); fatal("use -uN to limit steps", (char *) 0); } putbox(x); D[depth] = ldepth; R[ldepth] = depth; L[ldepth] = tmp; ldepth += 2; } } void dotag(FILE *fd, char *s) { extern int columns, notabs; extern RunList *X; int i = (!strncmp(s, "MSC: ", 5))?5:0; int pid = s_trail ? pno : (X?X->pid:0); if (columns == 2) { pstext(pid, &s[i]); } else { if (!notabs) { printf(" "); for (i = 0; i <= pid; i++) { printf(" "); } } fprintf(fd, "%s", s); fflush(fd); } }