/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * $URL$ * $Id$ * */ #include "sci/include/engine.h" namespace Sci { reg_t kRandom(EngineState *s, int funct_nr, int argc, reg_t *argv) { return make_reg(0, SKPV(0) + (int)((SKPV(1) + 1.0 - SKPV(0)) * (rand() / (RAND_MAX + 1.0)))); } reg_t kAbs(EngineState *s, int funct_nr, int argc, reg_t *argv) { // This is a hack, but so is the code in Hoyle1 that needs it. if (argv[0].segment) return make_reg(0, 0x3e8); // Yes people, this is an object return make_reg(0, abs(SKPV(0))); } reg_t kSqrt(EngineState *s, int funct_nr, int argc, reg_t *argv) { return make_reg(0, (gint16) sqrt((float) abs(SKPV(0)))); } int get_angle(int xrel, int yrel) { if ((xrel == 0) && (yrel == 0)) return 0; else { int val = (int)(180.0 / PI * atan2((double)xrel, (double) - yrel)); if (val < 0) val += 360; // Take care of OB1 differences between SSCI and // FSCI. SCI games sometimes check for equality with // "round" angles if (val % 45 == 44) val++; else if (val % 45 == 1) val--; return val; } } reg_t kGetAngle(EngineState *s, int funct_nr, int argc, reg_t *argv) { // Based on behavior observed with a test program created with // SCI Studio. int x1 = SKPV(0); int y1 = SKPV(1); int x2 = SKPV(2); int y2 = SKPV(3); int xrel = x2 - x1; int yrel = y1 - y2; // y-axis is mirrored. int angle; // Move (xrel, yrel) to first quadrant. if (y1 < y2) yrel = -yrel; if (x2 < x1) xrel = -xrel; // Compute angle in grads. if (yrel == 0 && xrel == 0) angle = 0; else angle = 100 * xrel / (xrel + yrel); // Fix up angle for actual quadrant of (xrel, yrel). if (y1 < y2) angle = 200 - angle; if (x2 < x1) angle = 400 - angle; // Convert from grads to degrees by merging grad 0 with grad 1, // grad 10 with grad 11, grad 20 with grad 21, etc. This leads to // "degrees" that equal either one or two grads. angle -= (angle + 9) / 10; return make_reg(0, angle); } reg_t kGetDistance(EngineState *s, int funct_nr, int argc, reg_t *argv) { int xrel = (int)(((float) SKPV(1) - SKPV_OR_ALT(3, 0)) / cos(SKPV_OR_ALT(5, 0) * PI / 180.0)); // This works because cos(0)==1 int yrel = SKPV(0) - SKPV_OR_ALT(2, 0); return make_reg(0, (gint16)sqrt((float) xrel*xrel + yrel*yrel)); } reg_t kTimesSin(EngineState *s, int funct_nr, int argc, reg_t *argv) { int angle = SKPV(0); int factor = SKPV(1); return make_reg(0, (int)(factor * 1.0 * sin(angle * PI / 180.0))); } reg_t kTimesCos(EngineState *s, int funct_nr, int argc, reg_t *argv) { int angle = SKPV(0); int factor = SKPV(1); return make_reg(0, (int)(factor * 1.0 * cos(angle * PI / 180.0))); } reg_t kCosDiv(EngineState *s, int funct_nr, int argc, reg_t *argv) { int angle = SKPV(0); int value = SKPV(1); double cosval = cos(angle * PI / 180.0); if ((cosval < 0.0001) && (cosval > 0.0001)) { warning("Attepted division by zero"); return make_reg(0, (gint16)0x8000); } else return make_reg(0, (gint16)(value / cosval)); } reg_t kSinDiv(EngineState *s, int funct_nr, int argc, reg_t *argv) { int angle = SKPV(0); int value = SKPV(1); double sinval = sin(angle * PI / 180.0); if ((sinval < 0.0001) && (sinval > 0.0001)) { warning("Attepted division by zero"); return make_reg(0, (gint16)0x8000); } else return make_reg(0, (gint16)(value / sinval)); } reg_t kTimesTan(EngineState *s, int funct_nr, int argc, reg_t *argv) { int param = SKPV(0); int scale = SKPV_OR_ALT(1, 1); param -= 90; if ((param % 90) == 0) { warning("Attempted tan(pi/2)"); return make_reg(0, (gint16)0x8000); } else return make_reg(0, (gint16) - (tan(param * PI / 180.0) * scale)); } reg_t kTimesCot(EngineState *s, int funct_nr, int argc, reg_t *argv) { int param = SKPV(0); int scale = SKPV_OR_ALT(1, 1); if ((param % 90) == 0) { warning("Attempted tan(pi/2)"); return make_reg(0, (gint16)0x8000); } else return make_reg(0, (gint16)(tan(param * PI / 180.0) * scale)); } } // End of namespace Sci