/* * TINYEXPR - Tiny recursive descent parser and evaluation engine in C * * Copyright (c) 2015, 2016 Lewis Van Winkle * * http://CodePlea.com * * This software is provided 'as-is', without any express or implied * warranty. In no event will the authors be held liable for any damages * arising from the use of this software. * * Permission is granted to anyone to use this software for any purpose, * including commercial applications, and to alter it and redistribute it * freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; you must not * claim that you wrote the original software. If you use this software * in a product, an acknowledgement in the product documentation would be * appreciated but is not required. * 2. Altered source versions must be plainly marked as such, and must not be * misrepresented as being the original software. * 3. This notice may not be removed or altered from any source distribution. */ #include "tinyexpr.h" #include #include "minctest.h" typedef struct { const char *expr; double answer; } test_case; typedef struct { const char *expr1; const char *expr2; } test_equ; void test_results() { test_case cases[] = { {"1", 1}, {"1 ", 1}, {"(1)", 1}, {"pi", 3.14159}, {"atan(1)*4 - pi", 0}, {"e", 2.71828}, {"2+1", 2+1}, {"(((2+(1))))", 2+1}, {"3+2", 3+2}, {"3+2+4", 3+2+4}, {"(3+2)+4", 3+2+4}, {"3+(2+4)", 3+2+4}, {"(3+2+4)", 3+2+4}, {"3*2*4", 3*2*4}, {"(3*2)*4", 3*2*4}, {"3*(2*4)", 3*2*4}, {"(3*2*4)", 3*2*4}, {"3-2-4", 3-2-4}, {"(3-2)-4", (3-2)-4}, {"3-(2-4)", 3-(2-4)}, {"(3-2-4)", 3-2-4}, {"3/2/4", 3.0/2.0/4.0}, {"(3/2)/4", (3.0/2.0)/4.0}, {"3/(2/4)", 3.0/(2.0/4.0)}, {"(3/2/4)", 3.0/2.0/4.0}, {"(3*2/4)", 3.0*2.0/4.0}, {"(3/2*4)", 3.0/2.0*4.0}, {"3*(2/4)", 3.0*(2.0/4.0)}, {"asin sin .5", 0.5}, {"sin asin .5", 0.5}, {"ln exp .5", 0.5}, {"exp ln .5", 0.5}, {"asin sin-.5", -0.5}, {"asin sin-0.5", -0.5}, {"asin sin -0.5", -0.5}, {"asin (sin -0.5)", -0.5}, {"asin (sin (-0.5))", -0.5}, {"asin sin (-0.5)", -0.5}, {"(asin sin (-0.5))", -0.5}, {"log10 1000", 3}, {"log10 1e3", 3}, {"log10 1000", 3}, {"log10 1e3", 3}, {"log10(1000)", 3}, {"log10(1e3)", 3}, {"log10 1.0e3", 3}, {"10^5*5e-5", 5}, #ifdef TE_NAT_LOG {"log 1000", 6.9078}, {"log e", 1}, {"log (e^10)", 10}, #else {"log 1000", 3}, #endif {"ln (e^10)", 10}, {"100^.5+1", 11}, {"100 ^.5+1", 11}, {"100^+.5+1", 11}, {"100^--.5+1", 11}, {"100^---+-++---++-+-+-.5+1", 11}, {"100^-.5+1", 1.1}, {"100^---.5+1", 1.1}, {"100^+---.5+1", 1.1}, {"1e2^+---.5e0+1e0", 1.1}, {"--(1e2^(+(-(-(-.5e0))))+1e0)", 1.1}, {"sqrt 100 + 7", 17}, {"sqrt 100 * 7", 70}, {"sqrt (100 * 100)", 100}, {"1,2", 2}, {"1,2+1", 3}, {"1+1,2+2,2+1", 3}, {"1,2,3", 3}, {"(1,2),3", 3}, {"1,(2,3)", 3}, {"-(1,(2,3))", -3}, {"2^2", 4}, {"pow(2,2)", 4}, {"atan2(1,1)", 0.7854}, {"atan2(1,2)", 0.4636}, {"atan2(2,1)", 1.1071}, {"atan2(3,4)", 0.6435}, {"atan2(3+3,4*2)", 0.6435}, {"atan2(3+3,(4*2))", 0.6435}, {"atan2((3+3),4*2)", 0.6435}, {"atan2((3+3),(4*2))", 0.6435}, }; int i; for (i = 0; i < sizeof(cases) / sizeof(test_case); ++i) { const char *expr = cases[i].expr; const double answer = cases[i].answer; int err; const double ev = te_interp(expr, &err); lok(!err); lfequal(ev, answer); if (err) { printf("FAILED: %s (%d)\n", expr, err); } } } void test_syntax() { test_case errors[] = { {"", 1}, {"1+", 2}, {"1)", 2}, {"(1", 2}, {"1**1", 3}, {"1*2(+4", 4}, {"1*2(1+4", 4}, {"a+5", 1}, {"A+5", 1}, {"Aa+5", 1}, {"1^^5", 3}, {"1**5", 3}, {"sin(cos5", 8}, }; int i; for (i = 0; i < sizeof(errors) / sizeof(test_case); ++i) { const char *expr = errors[i].expr; const int e = errors[i].answer; int err; const double r = te_interp(expr, &err); lequal(err, e); lok(r != r); te_expr *n = te_compile(expr, 0, 0, &err); lequal(err, e); lok(!n); if (err != e) { printf("FAILED: %s\n", expr); } const double k = te_interp(expr, 0); lok(k != k); } } void test_nans() { const char *nans[] = { "0/0", "1%0", "1%(1%0)", "(1%0)%1", "fac(-1)", "ncr(2, 4)", "ncr(-2, 4)", "ncr(2, -4)", "npr(2, 4)", "npr(-2, 4)", "npr(2, -4)", }; int i; for (i = 0; i < sizeof(nans) / sizeof(const char *); ++i) { const char *expr = nans[i]; int err; const double r = te_interp(expr, &err); lequal(err, 0); lok(r != r); te_expr *n = te_compile(expr, 0, 0, &err); lok(n); lequal(err, 0); const double c = te_eval(n); lok(c != c); te_free(n); } } void test_infs() { const char *infs[] = { "1/0", "log(0)", "pow(2,10000000)", "fac(300)", "ncr(300,100)", "ncr(300000,100)", "ncr(300000,100)*8", "npr(3,2)*ncr(300000,100)", "npr(100,90)", "npr(30,25)", }; int i; for (i = 0; i < sizeof(infs) / sizeof(const char *); ++i) { const char *expr = infs[i]; int err; const double r = te_interp(expr, &err); lequal(err, 0); lok(r == r + 1); te_expr *n = te_compile(expr, 0, 0, &err); lok(n); lequal(err, 0); const double c = te_eval(n); lok(c == c + 1); te_free(n); } } void test_variables() { double x, y, test; te_variable lookup[] = {{"x", &x}, {"y", &y}, {"te_st", &test}}; int err; te_expr *expr1 = te_compile("cos x + sin y", lookup, 2, &err); lok(expr1); lok(!err); te_expr *expr2 = te_compile("x+x+x-y", lookup, 2, &err); lok(expr2); lok(!err); te_expr *expr3 = te_compile("x*y^3", lookup, 2, &err); lok(expr3); lok(!err); te_expr *expr4 = te_compile("te_st+5", lookup, 3, &err); lok(expr4); lok(!err); for (y = 2; y < 3; ++y) { for (x = 0; x < 5; ++x) { double ev; ev = te_eval(expr1); lfequal(ev, cos(x) + sin(y)); ev = te_eval(expr2); lfequal(ev, x+x+x-y); ev = te_eval(expr3); lfequal(ev, x*y*y*y); test = x; ev = te_eval(expr4); lfequal(ev, x+5); } } te_free(expr1); te_free(expr2); te_free(expr3); te_free(expr4); te_expr *expr5 = te_compile("xx*y^3", lookup, 2, &err); lok(!expr5); lok(err); te_expr *expr6 = te_compile("tes", lookup, 3, &err); lok(!expr6); lok(err); te_expr *expr7 = te_compile("sinn x", lookup, 2, &err); lok(!expr7); lok(err); te_expr *expr8 = te_compile("si x", lookup, 2, &err); lok(!expr8); lok(err); } #define cross_check(a, b) do {\ if ((b)!=(b)) break;\ expr = te_compile((a), lookup, 2, &err);\ lfequal(te_eval(expr), (b));\ lok(!err);\ te_free(expr);\ }while(0) void test_functions() { double x, y; te_variable lookup[] = {{"x", &x}, {"y", &y}}; int err; te_expr *expr; for (x = -5; x < 5; x += .2) { cross_check("abs x", fabs(x)); cross_check("acos x", acos(x)); cross_check("asin x", asin(x)); cross_check("atan x", atan(x)); cross_check("ceil x", ceil(x)); cross_check("cos x", cos(x)); cross_check("cosh x", cosh(x)); cross_check("exp x", exp(x)); cross_check("floor x", floor(x)); cross_check("ln x", log(x)); cross_check("log10 x", log10(x)); cross_check("sin x", sin(x)); cross_check("sinh x", sinh(x)); cross_check("sqrt x", sqrt(x)); cross_check("tan x", tan(x)); cross_check("tanh x", tanh(x)); for (y = -2; y < 2; y += .2) { if (fabs(x) < 0.01) break; cross_check("atan2(x,y)", atan2(x, y)); cross_check("pow(x,y)", pow(x, y)); } } } double sum0() { return 6; } double sum1(double a) { return a * 2; } double sum2(double a, double b) { return a + b; } double sum3(double a, double b, double c) { return a + b + c; } double sum4(double a, double b, double c, double d) { return a + b + c + d; } double sum5(double a, double b, double c, double d, double e) { return a + b + c + d + e; } double sum6(double a, double b, double c, double d, double e, double f) { return a + b + c + d + e + f; } double sum7(double a, double b, double c, double d, double e, double f, double g) { return a + b + c + d + e + f + g; } void test_dynamic() { double x, f; te_variable lookup[] = { {"x", &x}, {"f", &f}, {"sum0", sum0, TE_FUNCTION0}, {"sum1", sum1, TE_FUNCTION1}, {"sum2", sum2, TE_FUNCTION2}, {"sum3", sum3, TE_FUNCTION3}, {"sum4", sum4, TE_FUNCTION4}, {"sum5", sum5, TE_FUNCTION5}, {"sum6", sum6, TE_FUNCTION6}, {"sum7", sum7, TE_FUNCTION7}, }; test_case cases[] = { {"x", 2}, {"f+x", 7}, {"x+x", 4}, {"x+f", 7}, {"f+f", 10}, {"f+sum0", 11}, {"sum0+sum0", 12}, {"sum0()+sum0", 12}, {"sum0+sum0()", 12}, {"sum0()+(0)+sum0()", 12}, {"sum1 sum0", 12}, {"sum1(sum0)", 12}, {"sum1 f", 10}, {"sum1 x", 4}, {"sum2 (sum0, x)", 8}, {"sum3 (sum0, x, 2)", 10}, {"sum2(2,3)", 5}, {"sum3(2,3,4)", 9}, {"sum4(2,3,4,5)", 14}, {"sum5(2,3,4,5,6)", 20}, {"sum6(2,3,4,5,6,7)", 27}, {"sum7(2,3,4,5,6,7,8)", 35}, }; x = 2; f = 5; int i; for (i = 0; i < sizeof(cases) / sizeof(test_case); ++i) { const char *expr = cases[i].expr; const double answer = cases[i].answer; int err; te_expr *ex = te_compile(expr, lookup, sizeof(lookup)/sizeof(te_variable), &err); lok(ex); lfequal(te_eval(ex), answer); te_free(ex); } } double clo0(void *context) { if (context) return *((double*)context) + 6; return 6; } double clo1(void *context, double a) { if (context) return *((double*)context) + a * 2; return a * 2; } double clo2(void *context, double a, double b) { if (context) return *((double*)context) + a + b; return a + b; } double cell(void *context, double a) { double *c = context; return c[(int)a]; } void test_closure() { double extra; double c[] = {5,6,7,8,9}; te_variable lookup[] = { {"c0", clo0, TE_CLOSURE0, &extra}, {"c1", clo1, TE_CLOSURE1, &extra}, {"c2", clo2, TE_CLOSURE2, &extra}, {"cell", cell, TE_CLOSURE1, c}, }; test_case cases[] = { {"c0", 6}, {"c1 4", 8}, {"c2 (10, 20)", 30}, }; int i; for (i = 0; i < sizeof(cases) / sizeof(test_case); ++i) { const char *expr = cases[i].expr; const double answer = cases[i].answer; int err; te_expr *ex = te_compile(expr, lookup, sizeof(lookup)/sizeof(te_variable), &err); lok(ex); extra = 0; lfequal(te_eval(ex), answer + extra); extra = 10; lfequal(te_eval(ex), answer + extra); te_free(ex); } test_case cases2[] = { {"cell 0", 5}, {"cell 1", 6}, {"cell 0 + cell 1", 11}, {"cell 1 * cell 3 + cell 4", 57}, }; for (i = 0; i < sizeof(cases2) / sizeof(test_case); ++i) { const char *expr = cases2[i].expr; const double answer = cases2[i].answer; int err; te_expr *ex = te_compile(expr, lookup, sizeof(lookup)/sizeof(te_variable), &err); lok(ex); lfequal(te_eval(ex), answer); te_free(ex); } } void test_optimize() { test_case cases[] = { {"5+5", 10}, {"pow(2,2)", 4}, {"sqrt 100", 10}, {"pi * 2", 6.2832}, }; int i; for (i = 0; i < sizeof(cases) / sizeof(test_case); ++i) { const char *expr = cases[i].expr; const double answer = cases[i].answer; int err; te_expr *ex = te_compile(expr, 0, 0, &err); lok(ex); /* The answer should be know without * even running eval. */ lfequal(ex->value, answer); lfequal(te_eval(ex), answer); te_free(ex); } } void test_pow() { #ifdef TE_POW_FROM_RIGHT test_equ cases[] = { {"2^3^4", "2^(3^4)"}, {"-2^2", "-(2^2)"}, {"--2^2", "(2^2)"}, {"---2^2", "-(2^2)"}, {"-(2)^2", "-(2^2)"}, {"-(2*1)^2", "-(2^2)"}, {"-2^2", "-4"}, {"2^1.1^1.2^1.3", "2^(1.1^(1.2^1.3))"}, {"-a^b", "-(a^b)"}, {"-a^-b", "-(a^-b)"} }; #else test_equ cases[] = { {"2^3^4", "(2^3)^4"}, {"-2^2", "(-2)^2"}, {"--2^2", "2^2"}, {"---2^2", "(-2)^2"}, {"-2^2", "4"}, {"2^1.1^1.2^1.3", "((2^1.1)^1.2)^1.3"}, {"-a^b", "(-a)^b"}, {"-a^-b", "(-a)^(-b)"} }; #endif double a = 2, b = 3; te_variable lookup[] = { {"a", &a}, {"b", &b} }; int i; for (i = 0; i < sizeof(cases) / sizeof(test_equ); ++i) { const char *expr1 = cases[i].expr1; const char *expr2 = cases[i].expr2; te_expr *ex1 = te_compile(expr1, lookup, sizeof(lookup)/sizeof(te_variable), 0); te_expr *ex2 = te_compile(expr2, lookup, sizeof(lookup)/sizeof(te_variable), 0); lok(ex1); lok(ex2); double r1 = te_eval(ex1); double r2 = te_eval(ex2); fflush(stdout); lfequal(r1, r2); te_free(ex1); te_free(ex2); } } void test_combinatorics() { test_case cases[] = { {"fac(0)", 1}, {"fac(0.2)", 1}, {"fac(1)", 1}, {"fac(2)", 2}, {"fac(3)", 6}, {"fac(4.8)", 24}, {"fac(10)", 3628800}, {"ncr(0,0)", 1}, {"ncr(10,1)", 10}, {"ncr(10,0)", 1}, {"ncr(10,10)", 1}, {"ncr(16,7)", 11440}, {"ncr(16,9)", 11440}, {"ncr(100,95)", 75287520}, {"npr(0,0)", 1}, {"npr(10,1)", 10}, {"npr(10,0)", 1}, {"npr(10,10)", 3628800}, {"npr(20,5)", 1860480}, {"npr(100,4)", 94109400}, }; int i; for (i = 0; i < sizeof(cases) / sizeof(test_case); ++i) { const char *expr = cases[i].expr; const double answer = cases[i].answer; int err; const double ev = te_interp(expr, &err); lok(!err); lfequal(ev, answer); if (err) { printf("FAILED: %s (%d)\n", expr, err); } } } int main(int argc, char *argv[]) { lrun("Results", test_results); lrun("Syntax", test_syntax); lrun("NaNs", test_nans); lrun("INFs", test_infs); lrun("Variables", test_variables); lrun("Functions", test_functions); lrun("Dynamic", test_dynamic); lrun("Closure", test_closure); lrun("Optimize", test_optimize); lrun("Pow", test_pow); lrun("Combinatorics", test_combinatorics); lresults(); return lfails != 0; }