Context Navigation

source: src/Common/Eval.cc @ 4c0b674

Last change on this file since 4c0b674 was c6b4432, checked in by Andrew Beach <ajbeach@…>, 8 months ago
Remove BaseSyntaxNode? and clean-up.
Property mode set to `100644`
File size: 7.2 KB

Rev	Line
[5cbacf1]	1	//
	2	// Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo
	3	//
	4	// The contents of this file are covered under the licence agreement in the
	5	// file "LICENCE" distributed with Cforall.
	6	//
[8f06277]	7	// Eval.cc -- Evaluate parts of the ast at compile time.
[5cbacf1]	8	//
	9	// Author : Richard C. Bilson
	10	// Created On : Mon May 18 07:44:20 2015
	11	// Last Modified By : Peter A. Buhr
[ba48a9b]	12	// Last Modified On : Sat Aug 6 12:11:59 2022
	13	// Update Count : 119
[5cbacf1]	14	//
	15
[8f06277]	16	#include "Eval.h"
	17
[5cbacf1]	18	#include <utility> // for pair
	19
[e01eb4a]	20	#include "AST/Inspect.hpp"
[120867e]	21	#include "CodeGen/OperatorTable.h" // access: OperatorInfo
[d7aa12c]	22	#include "AST/Pass.hpp"
[5cbacf1]	23	#include "InitTweak/InitTweak.h"
	24
[d7aa12c]	25	struct EvalNew : public ast::WithShortCircuiting {
[8f557161]	26	Evaluation result = { 0, true, true };
[d7aa12c]	27
	28	void previsit( const ast::Node * ) { visit_children = false; }
[8f557161]	29	void postvisit( const ast::Node * ) { result.isEvaluableInGCC = result.hasKnownValue = false; }
[d7aa12c]	30
[120867e]	31	void postvisit( const ast::UntypedExpr * ) {
	32	assertf( false, "UntypedExpr in constant expression evaluation" ); // FIX ME, resolve variable
	33	}
	34
	35	void postvisit( const ast::ConstantExpr * expr ) { // only handle int constants
[8f557161]	36	result.knownValue = expr->intValue();
	37	result.hasKnownValue = true;
	38	result.isEvaluableInGCC = true;
[d7aa12c]	39	}
	40
[120867e]	41	void postvisit( const ast::SizeofExpr * ) {
[8f557161]	42	result.hasKnownValue = false;
	43	result.isEvaluableInGCC = true;
[120867e]	44	}
	45
	46	void postvisit( const ast::AlignofExpr * ) {
[8f557161]	47	result.hasKnownValue = false;
	48	result.isEvaluableInGCC = true;
[120867e]	49	}
	50
	51	void postvisit( const ast::OffsetofExpr * ) {
[8f557161]	52	result.hasKnownValue = false;
	53	result.isEvaluableInGCC = true;
[77d2432]	54	}
	55
[120867e]	56	void postvisit( const ast::LogicalExpr * expr ) {
[8f557161]	57	Evaluation arg1, arg2;
[120867e]	58	arg1 = eval( expr->arg1 );
[8f557161]	59	result.isEvaluableInGCC &= arg1.isEvaluableInGCC;
	60	if ( ! result.isEvaluableInGCC ) return;
[120867e]	61	arg2 = eval( expr->arg2 );
[8f557161]	62	result.isEvaluableInGCC &= arg2.isEvaluableInGCC;
	63	if ( ! result.isEvaluableInGCC ) return;
	64
	65	result.hasKnownValue &= arg1.hasKnownValue;
	66	result.hasKnownValue &= arg2.hasKnownValue;
	67	if ( ! result.hasKnownValue ) return;
[120867e]	68
	69	if ( expr->isAnd ) {
[8f557161]	70	result.knownValue = arg1.knownValue && arg2.knownValue;
[120867e]	71	} else {
[8f557161]	72	result.knownValue = arg1.knownValue \|\| arg2.knownValue;
[120867e]	73	} // if
	74	}
	75
	76	void postvisit( const ast::ConditionalExpr * expr ) {
[8f557161]	77	Evaluation arg1, arg2, arg3;
[120867e]	78	arg1 = eval( expr->arg1 );
[8f557161]	79	result.isEvaluableInGCC &= arg1.isEvaluableInGCC;
	80	if ( ! result.isEvaluableInGCC ) return;
[120867e]	81	arg2 = eval( expr->arg2 );
[8f557161]	82	result.isEvaluableInGCC &= arg2.isEvaluableInGCC;
	83	if ( ! result.isEvaluableInGCC ) return;
[120867e]	84	arg3 = eval( expr->arg3 );
[8f557161]	85	result.isEvaluableInGCC &= arg3.isEvaluableInGCC;
	86	if ( ! result.isEvaluableInGCC ) return;
	87
	88	result.hasKnownValue &= arg1.hasKnownValue;
	89	result.hasKnownValue &= arg2.hasKnownValue;
	90	result.hasKnownValue &= arg3.hasKnownValue;
	91	if ( ! result.hasKnownValue ) return;
[120867e]	92
[8f557161]	93	result.knownValue = arg1.knownValue ? arg2.knownValue : arg3.knownValue;
[120867e]	94	}
	95
	96	void postvisit( const ast::CastExpr * expr ) {
[8f557161]	97	// cfa-cc generates a cast before every constant and many other places, e.g., (int)3,
	98	// so we must use the value from the cast argument, even though we lack any basis for evaluating wraparound effects, etc
	99	result = eval(expr->arg);
[d7aa12c]	100	}
	101
[120867e]	102	void postvisit( const ast::VariableExpr * expr ) {
[8f557161]	103	result.hasKnownValue = false;
	104	result.isEvaluableInGCC = false;
[d7aa12c]	105	if ( const ast::EnumInstType * inst = dynamic_cast<const ast::EnumInstType *>(expr->result.get()) ) {
	106	if ( const ast::EnumDecl * decl = inst->base ) {
[8f557161]	107	result.isEvaluableInGCC = true;
	108	result.hasKnownValue = decl->valueOf( expr->var, result.knownValue ); // result.knownValue filled by valueOf
[d7aa12c]	109	}
	110	}
	111	}
	112
	113	void postvisit( const ast::ApplicationExpr * expr ) {
[e01eb4a]	114	const ast::DeclWithType * function = ast::getFunction(expr);
[8f557161]	115	if ( ! function \|\| function->linkage != ast::Linkage::Intrinsic ) {
	116	result.isEvaluableInGCC = false;
	117	result.hasKnownValue = false;
	118	return;
	119	}
[d7aa12c]	120	const std::string & fname = function->name;
	121	assertf( expr->args.size() == 1 \|\| expr->args.size() == 2, "Intrinsic function with %zd arguments: %s", expr->args.size(), fname.c_str() );
[120867e]	122
	123	if ( expr->args.size() == 1 ) {
	124	// pre/postfix operators ++ and -- => assignment, which is not constant
[8f557161]	125	Evaluation arg1;
[120867e]	126	arg1 = eval(expr->args.front());
[8f557161]	127	result.isEvaluableInGCC &= arg1.isEvaluableInGCC;
	128	if ( ! result.isEvaluableInGCC ) return;
	129
	130	result.hasKnownValue &= arg1.hasKnownValue;
	131	if ( ! result.hasKnownValue ) return;
[120867e]	132
	133	if (fname == "+?") {
[8f557161]	134	result.knownValue = arg1.knownValue;
[120867e]	135	} else if (fname == "-?") {
[8f557161]	136	result.knownValue = -arg1.knownValue;
[120867e]	137	} else if (fname == "~?") {
[8f557161]	138	result.knownValue = ~arg1.knownValue;
[120867e]	139	} else if (fname == "!?") {
[8f557161]	140	result.knownValue = ! arg1.knownValue;
[120867e]	141	} else {
[8f557161]	142	result.isEvaluableInGCC = false;
	143	result.hasKnownValue = false;
[120867e]	144	} // if
	145	} else { // => expr->args.size() == 2
	146	// infix assignment operators => assignment, which is not constant
[8f557161]	147	Evaluation arg1, arg2;
[120867e]	148	arg1 = eval(expr->args.front());
[8f557161]	149	result.isEvaluableInGCC &= arg1.isEvaluableInGCC;
	150	if ( ! result.isEvaluableInGCC ) return;
[d7aa12c]	151	arg2 = eval(expr->args.back());
[8f557161]	152	result.isEvaluableInGCC &= arg2.isEvaluableInGCC;
	153	if ( ! result.isEvaluableInGCC ) return;
	154
	155	result.hasKnownValue &= arg1.hasKnownValue;
	156	result.hasKnownValue &= arg2.hasKnownValue;
	157	if ( ! result.hasKnownValue ) return;
[120867e]	158
	159	if (fname == "?+?") {
[8f557161]	160	result.knownValue = arg1.knownValue + arg2.knownValue;
[120867e]	161	} else if (fname == "?-?") {
[8f557161]	162	result.knownValue = arg1.knownValue - arg2.knownValue;
[120867e]	163	} else if (fname == "?*?") {
[8f557161]	164	result.knownValue = arg1.knownValue * arg2.knownValue;
[120867e]	165	} else if (fname == "?/?") {
[8f557161]	166	if ( arg2.knownValue ) result.knownValue = arg1.knownValue / arg2.knownValue;
[120867e]	167	} else if (fname == "?%?") {
[8f557161]	168	if ( arg2.knownValue ) result.knownValue = arg1.knownValue % arg2.knownValue;
[120867e]	169	} else if (fname == "?<<?") {
[8f557161]	170	result.knownValue = arg1.knownValue << arg2.knownValue;
[120867e]	171	} else if (fname == "?>>?") {
[8f557161]	172	result.knownValue = arg1.knownValue >> arg2.knownValue;
[120867e]	173	} else if (fname == "?<?") {
[8f557161]	174	result.knownValue = arg1.knownValue < arg2.knownValue;
[120867e]	175	} else if (fname == "?>?") {
[8f557161]	176	result.knownValue = arg1.knownValue > arg2.knownValue;
[120867e]	177	} else if (fname == "?<=?") {
[8f557161]	178	result.knownValue = arg1.knownValue <= arg2.knownValue;
[120867e]	179	} else if (fname == "?>=?") {
[8f557161]	180	result.knownValue = arg1.knownValue >= arg2.knownValue;
[120867e]	181	} else if (fname == "?==?") {
[8f557161]	182	result.knownValue = arg1.knownValue == arg2.knownValue;
[120867e]	183	} else if (fname == "?!=?") {
[8f557161]	184	result.knownValue = arg1.knownValue != arg2.knownValue;
[120867e]	185	} else if (fname == "?&?") {
[8f557161]	186	result.knownValue = arg1.knownValue & arg2.knownValue;
[120867e]	187	} else if (fname == "?^?") {
[8f557161]	188	result.knownValue = arg1.knownValue ^ arg2.knownValue;
[120867e]	189	} else if (fname == "?\|?") {
[8f557161]	190	result.knownValue = arg1.knownValue \| arg2.knownValue;
[120867e]	191	} else {
[8f557161]	192	result.isEvaluableInGCC = false;
	193	result.hasKnownValue = false;
[120867e]	194	}
	195	} // if
[d7aa12c]	196	// TODO: implement other intrinsic functions
	197	}
	198	};
	199
[8f557161]	200	Evaluation eval( const ast::Expr * expr ) {
[120867e]	201	if ( expr ) {
[8f557161]	202
	203	return ast::Pass<EvalNew>::read(expr);
	204	// Evaluation ret = ast::Pass<EvalNew>::read(expr);
	205	// ret.knownValue = 777;
	206	// return ret;
	207
[d7aa12c]	208	} else {
[8f557161]	209	return { 0, false, false };
[d7aa12c]	210	}
[0588d8c]	211	}
	212
[5cbacf1]	213	// Local Variables: //
	214	// tab-width: 4 //
	215	// mode: c++ //
	216	// compile-command: "make install" //
	217	// End: //

Note: See TracBrowser for help on using the repository browser.

Download in other formats: