/* * MIT License * * Copyright (c) 2023 Christian Chapman * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include #include #include "calc_fns.h" #define STACK_CHECK_0_IN_1_OUT if(cs->s >= N_STACK) return -2 #define STACK_CHECK_1_IN_0_OUT if(cs->s < 1) return -2 #define STACK_CHECK_1_IN_1_OUT if(cs->s < 1) return -2 #define STACK_CHECK_2_IN_1_OUT if(cs->s < 2) return -2 #define STACK_CHECK_2_IN_2_OUT if(cs->s < 2) return -2 static const double to_rad = M_PI/180; static const double to_deg = 180/M_PI; // Stack and memory control int calc_delete(calc_state_t *cs) { if(cs->s < 1) return -2; // Check stack cs->s--; return 0; } int calc_clear_stack(calc_state_t *cs) { memset(cs->stack, (0.0/0.0), N_STACK*sizeof(cs->stack[0])); cs->s = 0; return 0; } int calc_flip(calc_state_t *cs) { STACK_CHECK_2_IN_2_OUT; double buff = cs->stack[cs->s-2]; cs->stack[cs->s-2] = cs->stack[cs->s-1]; cs->stack[cs->s-1] = buff; return 0; } int calc_mem_clear(calc_state_t *cs) { cs->mem = 0.0; return 0; } int calc_mem_recall(calc_state_t *cs) { STACK_CHECK_0_IN_1_OUT; cs->stack[cs->s++] = cs->mem; return 0; } int calc_mem_add(calc_state_t *cs) { STACK_CHECK_1_IN_0_OUT; cs->mem += cs->stack[cs->s-1]; cs->s--; return 0; } int calc_mem_subtract(calc_state_t *cs) { STACK_CHECK_1_IN_0_OUT; cs->mem -= cs->stack[cs->s-1]; cs->s--; return 0; } // Basic operations int calc_add(calc_state_t *cs) { STACK_CHECK_2_IN_1_OUT; cs->stack[cs->s-2] += cs->stack[cs->s-1]; cs->s--; return 0; } int calc_subtract(calc_state_t *cs) { STACK_CHECK_2_IN_1_OUT; cs->stack[cs->s-2] -= cs->stack[cs->s-1]; cs->s--; return 0; } int calc_negate(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = -cs->stack[cs->s-1]; return 0; } int calc_multiply(calc_state_t *cs) { STACK_CHECK_2_IN_1_OUT; cs->stack[cs->s-2] *= cs->stack[cs->s-1]; cs->s--; return 0; } int calc_divide(calc_state_t *cs) { STACK_CHECK_2_IN_1_OUT; cs->stack[cs->s-2] /= cs->stack[cs->s-1]; cs->s--; return 0; } int calc_invert(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = 1.0/cs->stack[cs->s-1]; return 0; } // Constants int calc_e(calc_state_t *cs) { STACK_CHECK_0_IN_1_OUT; cs->stack[cs->s++] = M_E; return 0; } int calc_pi(calc_state_t *cs) { STACK_CHECK_0_IN_1_OUT; cs->stack[cs->s++] = M_PI; return 0; } // Exponential/logarithmic int calc_exp(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = exp(cs->stack[cs->s-1]); return 0; } int calc_pow(calc_state_t *cs) { STACK_CHECK_2_IN_1_OUT; cs->stack[cs->s-2] = pow(cs->stack[cs->s-2], cs->stack[cs->s-1]); cs->s--; return 0; } int calc_ln(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = log(cs->stack[cs->s-1]); return 0; } int calc_log(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = log10(cs->stack[cs->s-1]); return 0; } int calc_sqrt(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = sqrt(cs->stack[cs->s-1]); return 0; } // Trigonometric int calc_sin(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = sin(cs->stack[cs->s-1]); return 0; } int calc_cos(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = cos(cs->stack[cs->s-1]); return 0; } int calc_tan(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = tan(cs->stack[cs->s-1]); return 0; } int calc_asin(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = asin(cs->stack[cs->s-1]); return 0; } int calc_acos(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = acos(cs->stack[cs->s-1]); return 0; } int calc_atan(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = atan(cs->stack[cs->s-1]); return 0; } int calc_atan2(calc_state_t *cs) { STACK_CHECK_2_IN_1_OUT; cs->stack[cs->s-2] = atan2(cs->stack[cs->s-2], cs->stack[cs->s-1]); cs->s--; return 0; } int calc_sind(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = sin(cs->stack[cs->s-1]*to_rad); return 0; } int calc_cosd(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = cos(cs->stack[cs->s-1]*to_rad); return 0; } int calc_tand(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = tan(cs->stack[cs->s-1]*to_rad); return 0; } int calc_asind(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = asin(cs->stack[cs->s-1])*to_deg; return 0; } int calc_acosd(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = acos(cs->stack[cs->s-1])*to_deg; return 0; } int calc_atand(calc_state_t *cs) { STACK_CHECK_1_IN_1_OUT; cs->stack[cs->s-1] = atan(cs->stack[cs->s-1])*to_deg; return 0; } int calc_atan2d(calc_state_t *cs) { STACK_CHECK_2_IN_1_OUT; cs->stack[cs->s-2] = atan2(cs->stack[cs->s-2], cs->stack[cs->s-1])*to_deg; cs->s--; return 0; }