/* ScummVM - Scumm Interpreter * Copyright (C) 2004-2005 The ScummVM project * * The ReInherit Engine is (C)2000-2003 by Daniel Balsom. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * $Header$ * */ // Scripting module simple thread debugging support #include "saga/saga.h" #include "saga/gfx.h" #include "saga/text.h" #include "saga/scene.h" #include "saga/font.h" #include "saga/script.h" #include "saga/stream.h" namespace Saga { #define SD_DISPLAY_LEN 128 #define SD_ADDTXT(x) strncat(disp_buf, x, SD_DISPLAY_LEN); int Script::SDebugPrintInstr(ScriptThread *thread) { TEXTLIST_ENTRY tl_e; char tmp_buf[80] = { 0 }; static char disp_buf[SD_DISPLAY_LEN] = { 0 }; int in_char; // int op_offset; int n_switch; int i; disp_buf[0] = 0; if (_dbg_txtentry != NULL) { _vm->textDeleteEntry(_vm->_scene->_textList, _dbg_txtentry); _dbg_txtentry = NULL; } tl_e.color = 1; tl_e.effect_color = 0; tl_e.text_x = 2; tl_e.text_y = 20; tl_e.font_id = SMALL_FONT_ID; tl_e.flags = FONT_OUTLINE; tl_e.string = disp_buf; tl_e.display = 1; MemoryReadStream readS(thread->_moduleBase + thread->_instructionOffset, thread->_moduleBaseSize - thread->_instructionOffset); in_char = readS.readByte(); sprintf(tmp_buf, "%04X | %02X | ", thread->_instructionOffset, in_char); strncat(disp_buf, tmp_buf, SD_DISPLAY_LEN); switch (in_char) { // Align case 0x01: SD_ADDTXT("ALGN |"); break; // Push nothing case 0x02: SD_ADDTXT("PSHN |"); break; // Pop nothing case 0x03: SD_ADDTXT("POPN |"); break; // Push false (0) case 0x04: SD_ADDTXT("PSHF |"); break; // Push true (1) case 0x05: SD_ADDTXT("PSHT |"); break; // Push word (dialogue string index) case 0x08: { int param; SD_ADDTXT("PSHD | "); param = readS.readUint16LE(); sprintf(tmp_buf, "%02X", param); SD_ADDTXT(tmp_buf); /* if((param >= 0) && (param < diag_list->n_dialogue)) { debug(2, " ; \"%.*s\"", SCRIPT_STRINGLIMIT, diag_list->str[param]); } else { debug(2, " ; Invalid dialogue string.\n"); } */ } break; // Push word case 0x06: { int param; SD_ADDTXT("PUSH | "); param = readS.readUint16LE(); sprintf(tmp_buf, "%04X", param); SD_ADDTXT(tmp_buf); } break; // Test flag case 0x0B: { int param1; int param2; SD_ADDTXT("TSTF | "); param1 = readS.readByte(); param2 = readS.readUint16LE(); sprintf(tmp_buf, "%02X %04X", param1, param2); SD_ADDTXT(tmp_buf); } break; // Get word case 0x0C: { int param1; int param2; SD_ADDTXT("GETW | "); param1 = readS.readByte(); param2 = readS.readUint16LE(); sprintf(tmp_buf, "%02X %04X", param1, param2); SD_ADDTXT(tmp_buf); } break; // Modify flag case 0x0F: { int param1; int param2; SD_ADDTXT("MODF | "); param1 = readS.readByte(); param2 = readS.readUint16LE(); sprintf(tmp_buf, "%02X %04X", param1, param2); SD_ADDTXT(tmp_buf); } break; // Put word case 0x10: { int param1; int param2; SD_ADDTXT("PUTW | "); param1 = readS.readByte(); param2 = readS.readUint16LE(); sprintf(tmp_buf, "%02X %04X", param1, param2); SD_ADDTXT(tmp_buf); } break; // Modify flag and pop case 0x13: { int param1; int param2; SD_ADDTXT("MDFP | "); param1 = readS.readByte(); param2 = readS.readUint16LE(); sprintf(tmp_buf, "%02X %04X", param1, param2); SD_ADDTXT(tmp_buf); } break; // Put word and pop case 0x14: { int param1; int param2; SD_ADDTXT("PTWP | "); param1 = readS.readByte(); param2 = readS.readUint16LE(); sprintf(tmp_buf, "%02X %04X", param1, param2); SD_ADDTXT(tmp_buf); } break; // Call subscript ? case 0x17: { int param1; int param2; int param3; SD_ADDTXT("GOSB | "); param1 = readS.readByte(); param2 = readS.readByte(); param3 = readS.readUint16LE(); sprintf(tmp_buf, "%02X %02X %04X", param1, param2, param3); SD_ADDTXT(tmp_buf); } break; // Call function case opCcall: SD_ADDTXT("opCall"); break; case opCcallV: SD_ADDTXT("opCallV"); break; case opEnter: SD_ADDTXT("opEnter"); break; case opReturn: SD_ADDTXT("opReturn"); break; case opReturnV: SD_ADDTXT("opReturnV"); break; // Unconditional jump case 0x1D: { int param1; SD_ADDTXT("JMP | "); param1 = readS.readUint16LE(); sprintf(tmp_buf, "%04X", param1); SD_ADDTXT(tmp_buf); } break; // Jump if nonzero + POP case 0x1E: { int param1; SD_ADDTXT("JNZP | "); param1 = readS.readUint16LE(); sprintf(tmp_buf, "%04X", param1); SD_ADDTXT(tmp_buf); } break; // Jump if zero + POP case 0x1F: { int param1; SD_ADDTXT("JZP | "); param1 = readS.readUint16LE(); sprintf(tmp_buf, "%04X", param1); SD_ADDTXT(tmp_buf); } break; // Jump if nonzero case 0x20: { int param1; SD_ADDTXT("JNZ | "); param1 = readS.readUint16LE(); sprintf(tmp_buf, "%04X", param1); SD_ADDTXT(tmp_buf); } break; // Jump if zero case 0x21: { int param1; SD_ADDTXT("JZ | "); param1 = readS.readUint16LE(); sprintf(tmp_buf, "%04X", param1); SD_ADDTXT(tmp_buf); } break; // Switch case 0x22: { int switch_num; int switch_jmp; int default_jmp; SD_ADDTXT("SWCH | "); n_switch = readS.readUint16LE(); sprintf(tmp_buf, "%02X\n", n_switch); SD_ADDTXT(tmp_buf); for (i = 0; i < n_switch; i++) { switch_num = readS.readUint16LE(); switch_jmp = readS.readUint16LE(); // printf(TAB "CASE %04X, %04X\n", switch_num, switch_jmp); } default_jmp = readS.readUint16LE(); //printf(TAB "DEF %04X", default_jmp); } break; // Random branch case 0x24: { int n_switch2; int switch_num; int switch_jmp; SD_ADDTXT("RJMP | "); // Ignored? readS.readUint16LE(); n_switch2 = readS.readUint16LE(); sprintf(tmp_buf, "%04X", n_switch2); SD_ADDTXT(tmp_buf); for (i = 0; i < n_switch2; i++) { switch_num = readS.readUint16LE(); switch_jmp = readS.readUint16LE(); //debug(2, "WEIGHT %04X, %04X", switch_num, switch_jmp); } } break; case 0x25: SD_ADDTXT("NEG |"); break; case 0x26: SD_ADDTXT("TSTZ |"); break; case 0x27: SD_ADDTXT("NOT |"); break; case 0x28: SD_ADDTXT("??? "); readS.readByte(); readS.readUint16LE(); break; case 0x29: SD_ADDTXT("??? "); readS.readByte(); readS.readUint16LE(); break; case 0x2A: SD_ADDTXT("??? "); readS.readByte(); readS.readUint16LE(); break; case 0x2B: SD_ADDTXT("??? "); readS.readByte(); readS.readUint16LE(); break; // Addition case 0x2C: SD_ADDTXT("ADD |"); break; // Subtraction case 0x2D: SD_ADDTXT("SUB |"); break; // Integer multiplication case 0x2E: SD_ADDTXT("MULT |"); break; // Integer division case 0x2F: SD_ADDTXT("DIV |"); break; // Modulus case 0x30: SD_ADDTXT("MOD |"); break; // Test equality case 0x33: SD_ADDTXT("EQU |"); break; // Test inequality case 0x34: SD_ADDTXT("NEQU |"); break; // Test Greater-than case 0x35: SD_ADDTXT("GRT |"); break; // Test Less-than case 0x36: SD_ADDTXT("LST |"); break; // Test Greater-than or Equal to case 0x37: SD_ADDTXT("GRTE |"); break; // Test Less-than or Equal to case 0x38: SD_ADDTXT("LSTE |"); break; case 0x3F: SD_ADDTXT("SHR |"); break; case 0x40: SD_ADDTXT("SHL |"); break; case 0x41: SD_ADDTXT("AND |"); break; case 0x42: SD_ADDTXT("OR |"); break; case 0x43: SD_ADDTXT("XOR |"); break; case 0x44: SD_ADDTXT("LAND |"); break; case 0x45: SD_ADDTXT("LOR |"); break; case 0x46: SD_ADDTXT("LXOR |"); break; case opSpeak: SD_ADDTXT("opSpeak"); break; case 0x54: SD_ADDTXT("DLGS |"); break; case 0x55: SD_ADDTXT("DLGX |"); break; case 0x56: { int param1; int param2; int param3; SD_ADDTXT("DLGO | "); param1 = readS.readByte(); param2 = readS.readByte(); sprintf(tmp_buf, "%02X %02X ", param1, param2); SD_ADDTXT(tmp_buf); if (param2 > 0) { param3 = readS.readUint16LE(); sprintf(tmp_buf, "%04X", param3); SD_ADDTXT(tmp_buf); } } break; case 0x57: { int param1; int param2; int param3; SD_ADDTXT("JMPS | "); param1 = readS.readUint16LE(); param2 = readS.readUint16LE(); param3 = readS.readByte(); sprintf(tmp_buf, "%04X %04X %02X", param1, param2, param3); SD_ADDTXT(tmp_buf); } break; } _dbg_txtentry = _vm->textAddEntry(_vm->_scene->_textList, &tl_e); _vm->textSetDisplay(_dbg_txtentry, 1); return SUCCESS; } } // End of namespace Saga