ref: 9f76a7f6819ac04552b4fb6588156f3e4089d1d7
dir: /lib/acid/gpa/
// // generate ``General Purpose Ascii'' file for HP logic analyser // // usage: gpa() // note: output has to be postprocessed with "sed 's/0x//g' "... // defn functions(start, end) { print("[FUNCTIONS]\n"); pc = start; while pc < end do { bnd = fnbound(pc); print(pc\a, "\t", bnd[0], "..", bnd[1]-1, "\n"); pc = bnd[1]; } print("\n"); } defn variables(start, end) { print("[VARIABLES]\n"); // TODO: how do we get this one? print("\n"); } defn sourcelines(start, end) { local pc, curfile, curline, newfile, newline; print("[SOURCE LINES]\n"); pc = txtstart; curfile = "<no-file>"; curline = -1; while pc < txtend do { newfile = pcfile(pc); newline = pcline(pc); if newfile != curfile then { if curline != -1 then print("\n"); print("File: ", newfile, "\n"); curfile = newfile; } if newline != curline then { print(newline, "\t", pc, "\n"); curline = newline; } pc++; } print("\n"); } defn gpa() { local l, ent, txtstart, txtend, datastart, dataend, pc, bnd; print("[SECTIONS]\n"); l = map(); while l do { ent = head l; if ent[0] == "text" || ent[0] == "data" then { if ent[0] == "text" then { txtstart = ent[1]; txtend = ent[2]; } else { datastart = ent[1]; dataend = ent[2]; } print(ent[0], "\t", ent[1], "..", ent[2]-1, "\n"); } l = tail l; } print("\n"); functions(txtstart, txtend); // variables(datastart, dataend); sourcelines(datastart, dataend); print("[START ADDRESS]\n"); print(txtstart, "\n"); print("\n"); } defn acidinit() { gpa(); }