/* * Copyright 2011 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "Forth.h" #include "ForthParser.h" #include "SkString.h" #define BEGIN_WORD(name) \ class name##_ForthWord : public ForthWord { \ public: \ virtual void exec(ForthEngine* fe) #define END_WORD }; /////////////////////////////////////////////////////////////////////////////// BEGIN_WORD(drop) { (void)fe->pop(); } END_WORD BEGIN_WORD(over) { fe->push(fe->peek(1)); } END_WORD BEGIN_WORD(dup) { fe->push(fe->top()); } END_WORD BEGIN_WORD(swap) { intptr_t a = fe->pop(); intptr_t b = fe->top(); fe->setTop(a); fe->push(b); } END_WORD BEGIN_WORD(rot) { intptr_t c = fe->pop(); intptr_t b = fe->pop(); intptr_t a = fe->pop(); fe->push(b); fe->push(c); fe->push(a); } END_WORD BEGIN_WORD(rrot) { intptr_t c = fe->pop(); intptr_t b = fe->pop(); intptr_t a = fe->pop(); fe->push(c); fe->push(a); fe->push(b); } END_WORD BEGIN_WORD(swap2) { intptr_t d = fe->pop(); intptr_t c = fe->pop(); intptr_t b = fe->pop(); intptr_t a = fe->pop(); fe->push(c); fe->push(d); fe->push(a); fe->push(b); } END_WORD BEGIN_WORD(dup2) { fe->push(fe->peek(1)); fe->push(fe->peek(1)); } END_WORD BEGIN_WORD(over2) { fe->push(fe->peek(3)); fe->push(fe->peek(3)); } END_WORD BEGIN_WORD(drop2) { (void)fe->pop(); (void)fe->pop(); } END_WORD ///////////////// logicals BEGIN_WORD(logical_and) { intptr_t tmp = fe->pop(); fe->setTop(-(tmp && fe->top())); } END_WORD BEGIN_WORD(logical_or) { intptr_t tmp = fe->pop(); fe->setTop(-(tmp || fe->top())); } END_WORD BEGIN_WORD(logical_not) { fe->setTop(-(!fe->top())); } END_WORD BEGIN_WORD(if_dup) { intptr_t tmp = fe->top(); if (tmp) { fe->push(tmp); } } END_WORD ///////////////// ints class add_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { intptr_t tmp = fe->pop(); fe->setTop(fe->top() + tmp); }}; class sub_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { intptr_t tmp = fe->pop(); fe->setTop(fe->top() - tmp); }}; class mul_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { intptr_t tmp = fe->pop(); fe->setTop(fe->top() * tmp); }}; class div_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { intptr_t tmp = fe->pop(); fe->setTop(fe->top() / tmp); }}; class mod_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { intptr_t tmp = fe->pop(); fe->setTop(fe->top() % tmp); }}; class divmod_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { intptr_t denom = fe->pop(); intptr_t numer = fe->pop(); fe->push(numer % denom); fe->push(numer / denom); }}; class dot_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { SkString str; str.printf("%d ", fe->pop()); fe->sendOutput(str.c_str()); }}; class abs_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { int32_t value = fe->top(); if (value < 0) { fe->setTop(-value); } }}; class negate_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { fe->setTop(-fe->top()); }}; class min_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { int32_t value = fe->pop(); if (value < fe->top()) { fe->setTop(value); } }}; class max_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { int32_t value = fe->pop(); if (value > fe->top()) { fe->setTop(value); } } }; ///////////////// floats class fadd_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { float tmp = fe->fpop(); fe->fsetTop(fe->ftop() + tmp); } }; class fsub_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { float tmp = fe->fpop(); fe->fsetTop(fe->ftop() - tmp); } }; class fmul_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { float tmp = fe->fpop(); fe->fsetTop(fe->ftop() * tmp); } }; class fdiv_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { float tmp = fe->fpop(); fe->fsetTop(fe->ftop() / tmp); } }; class fdot_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { SkString str; str.printf("%g ", fe->fpop()); fe->sendOutput(str.c_str()); } }; class fabs_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { float value = fe->ftop(); if (value < 0) { fe->fsetTop(-value); } } }; class fmin_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { float value = fe->fpop(); if (value < fe->ftop()) { fe->fsetTop(value); } } }; class fmax_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { float value = fe->fpop(); if (value > fe->ftop()) { fe->fsetTop(value); } } }; class floor_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { fe->fsetTop(floorf(fe->ftop())); } }; class ceil_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { fe->fsetTop(ceilf(fe->ftop())); } }; class round_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { fe->fsetTop(floorf(fe->ftop() + 0.5f)); } }; class f2i_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { fe->setTop((int)fe->ftop()); } }; class i2f_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { fe->fsetTop((float)fe->top()); } }; ////////////////////////////// int compares class eq_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { fe->push(-(fe->pop() == fe->pop())); } }; class neq_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { fe->push(-(fe->pop() != fe->pop())); } }; class lt_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { intptr_t tmp = fe->pop(); fe->setTop(-(fe->top() < tmp)); } }; class le_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { intptr_t tmp = fe->pop(); fe->setTop(-(fe->top() <= tmp)); } }; class gt_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { intptr_t tmp = fe->pop(); fe->setTop(-(fe->top() > tmp)); } }; class ge_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { intptr_t tmp = fe->pop(); fe->setTop(-(fe->top() >= tmp)); } }; BEGIN_WORD(lt0) { fe->setTop(fe->top() >> 31); } END_WORD BEGIN_WORD(ge0) { fe->setTop(~(fe->top() >> 31)); } END_WORD BEGIN_WORD(gt0) { fe->setTop(-(fe->top() > 0)); } END_WORD BEGIN_WORD(le0) { fe->setTop(-(fe->top() <= 0)); } END_WORD /////////////////////////////// float compares /* negative zero is our nemesis, otherwise we could use = and <> from ints */ class feq_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { fe->push(-(fe->fpop() == fe->fpop())); } }; class fneq_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { fe->push(-(fe->fpop() != fe->fpop())); } }; class flt_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { float tmp = fe->fpop(); fe->setTop(-(fe->ftop() < tmp)); } }; class fle_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { float tmp = fe->fpop(); fe->setTop(-(fe->ftop() <= tmp)); } }; class fgt_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { float tmp = fe->fpop(); fe->setTop(-(fe->ftop() > tmp)); } }; class fge_ForthWord : public ForthWord { public: virtual void exec(ForthEngine* fe) { float tmp = fe->fpop(); fe->setTop(-(fe->ftop() >= tmp)); } }; /////////////////////////////////////////////////////////////////////////////// #define ADD_LITERAL_WORD(sym, name) \ this->add(sym, sizeof(sym)-1, new name##_ForthWord) void ForthParser::addStdWords() { ADD_LITERAL_WORD("DROP", drop); ADD_LITERAL_WORD("DUP", dup); ADD_LITERAL_WORD("SWAP", swap); ADD_LITERAL_WORD("OVER", over); ADD_LITERAL_WORD("ROT", rot); ADD_LITERAL_WORD("-ROT", rrot); ADD_LITERAL_WORD("2SWAP", swap2); ADD_LITERAL_WORD("2DUP", dup2); ADD_LITERAL_WORD("2OVER", over2); ADD_LITERAL_WORD("2DROP", drop2); ADD_LITERAL_WORD("+", add); ADD_LITERAL_WORD("-", sub); ADD_LITERAL_WORD("*", mul); ADD_LITERAL_WORD("/", div); ADD_LITERAL_WORD("MOD", mod); ADD_LITERAL_WORD("/MOD", divmod); ADD_LITERAL_WORD(".", dot); ADD_LITERAL_WORD("ABS", abs); ADD_LITERAL_WORD("NEGATE", negate); ADD_LITERAL_WORD("MIN", min); ADD_LITERAL_WORD("MAX", max); ADD_LITERAL_WORD("AND", logical_and); ADD_LITERAL_WORD("OR", logical_or); ADD_LITERAL_WORD("0=", logical_not); ADD_LITERAL_WORD("?DUP", if_dup); this->add("f+", 2, new fadd_ForthWord); this->add("f-", 2, new fsub_ForthWord); this->add("f*", 2, new fmul_ForthWord); this->add("f/", 2, new fdiv_ForthWord); this->add("f.", 2, new fdot_ForthWord); this->add("fabs", 4, new fabs_ForthWord); this->add("fmin", 4, new fmin_ForthWord); this->add("fmax", 4, new fmax_ForthWord); this->add("floor", 5, new floor_ForthWord); this->add("ceil", 4, new ceil_ForthWord); this->add("round", 5, new round_ForthWord); this->add("f>i", 3, new f2i_ForthWord); this->add("i>f", 3, new i2f_ForthWord); this->add("=", 1, new eq_ForthWord); this->add("<>", 2, new neq_ForthWord); this->add("<", 1, new lt_ForthWord); this->add("<=", 2, new le_ForthWord); this->add(">", 1, new gt_ForthWord); this->add(">=", 2, new ge_ForthWord); ADD_LITERAL_WORD("0<", lt0); ADD_LITERAL_WORD("0>", gt0); ADD_LITERAL_WORD("0<=", le0); ADD_LITERAL_WORD("0>=", ge0); this->add("f=", 2, new feq_ForthWord); this->add("f<>", 3, new fneq_ForthWord); this->add("f<", 2, new flt_ForthWord); this->add("f<=", 3, new fle_ForthWord); this->add("f>", 2, new fgt_ForthWord); this->add("f>=", 3, new fge_ForthWord); }