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code.c @ 4843

Last change on this file since 4843 was 4843, checked in by raasch, 3 years ago
local namelist parameter added to switch off the module although the respective module namelist appears in the namelist file, further copyright updates
File size: 17.6 KB

Rev	Line
[2696]	1	/******************************************************************************
	2
	3	KPP - The Kinetic PreProcessor
	4	Builds simulation code for chemical kinetic systems
	5
[4843]	6	Copyright (C) -2021 996 Valeriu Damian and Adrian Sandu
	7	Copyright (C) -2021 005 Adrian Sandu
[2696]	8
	9	KPP is free software; you can redistribute it and/or modify it under the
	10	terms of the GNU General Public License as published by the Free Software
	11	Foundation (http://www.gnu.org/copyleft/gpl.html); either version 2 of the
	12	License, or (at your option) any later version.
	13
	14	KPP is distributed in the hope that it will be useful, but WITHOUT ANY
	15	WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
	16	FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
	17	details.
	18
	19	You should have received a copy of the GNU General Public License along
	20	with this program; if not, consult http://www.gnu.org/copyleft/gpl.html or
	21	write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
	22	Boston, MA 02111-1307, USA.
	23
	24	Adrian Sandu
	25	Computer Science Department
	26	Virginia Polytechnic Institute and State University
	27	Blacksburg, VA 24060
	28	E-mail: sandu@cs.vt.edu
	29
	30	******************************************************************************/
	31
	32
	33	#include "gdata.h"
	34	#include "code.h"
	35	#include <unistd.h>
	36	#include <string.h>
	37
	38	/* NONE, ADD, SUB, MUL, DIV, POW, CONST, ELM, VELM, MELM, EELM */
	39	int PRI[] = { 10, 1, 1, 2, 2, 3, 10, 10, 10, 10, 10 };
	40
	41	void (WriteElm)( NODE n );
	42	void (*WriteSymbol)( int op );
	43	void (WriteAssign)( char lval, char* rval );
	44	void (WriteComment)( char fmt, ... );
	45	void (*Declare)( int v );
	46	void (*ExternDeclare)( int v );
	47	void (*GlobalDeclare)( int v );
	48	void (InitDeclare)( int var, int nv, void values );
	49	void (DeclareConstant)( int v, char val );
	50	void (FunctionStart)( int f, int vars );
	51	void (*FunctionPrototipe)( int f, ... );
	52	void (*FunctionBegin)( int f, ... );
	53	void (*FunctionEnd)( int f );
	54
	55	NODE * substList;
	56	int substENABLED = 1;
	57	int crtop = NONE;
	58	char *outBuf;
	59	char *outBuffer;
	60
	61	VARIABLE cnst = { "", CONST, REAL, 0, 0 };
	62	VARIABLE expr = { "", EELM, 0, 0, 0 };
	63	VARIABLE *varTable[ MAX_VAR ] = { &cnst, &expr };
	64
	65	int IsConst( NODE *n, float val );
	66	NODE * BinaryOp( int op, NODE n1, NODE n2 );
	67	int NodeCmp( NODE n1, NODE n2 );
	68	NODE * NodeCopy( NODE *n1 );
	69	void WriteNode( NODE *n );
	70	void WriteOp( int op );
	71	void ExpandElm( NODE * n );
	72	int ExpandNode( NODE *n, int lastop );
	73	NODE * LookUpSubst( NODE *n );
	74
	75	FILE * param_headerFile = 0;
	76	FILE * initFile = 0; /* mz_rs_20050117 */
	77	FILE * driverFile = 0;
	78	FILE * integratorFile = 0;
	79	FILE * linalgFile = 0;
	80	FILE * functionFile = 0;
	81	FILE * jacobianFile = 0;
	82	FILE * rateFile = 0;
	83	FILE * stoichiomFile = 0;
	84	FILE * utilFile = 0;
	85	FILE * sparse_dataFile = 0;
	86	FILE * sparse_jacFile = 0;
	87	FILE * sparse_hessFile = 0;
	88	FILE * sparse_stoicmFile = 0;
	89	FILE * stochasticFile = 0;
	90	FILE * global_dataFile = 0;
	91	FILE * hessianFile = 0;
	92	FILE * mapFile = 0;
	93	FILE * makeFile = 0;
	94	FILE * monitorFile = 0;
	95	FILE * mex_funFile = 0;
	96	FILE * mex_jacFile = 0;
	97	FILE * mex_hessFile = 0;
	98
	99	FILE * currentFile;
	100
	101	int ident = 0;
	102
	103	FILE * UseFile( FILE * file )
	104	{
	105	FILE *oldf;
	106	if (file == NULL) {
	107	printf("\n\nKPP Warning (internal): trying to UseFile NULL file pointer!\n");
	108	}
	109	oldf = currentFile;
	110	currentFile = file;
	111	return oldf;
	112	}
	113
	114	void OpenFile( FILE *fpp, char name, char * ext, char * identity )
	115	{
	116	char bufname[200];
	117	char buf[200];
	118	time_t t;
	119	int blength;
	120
	121	time( &t );
	122	sprintf( bufname, "%s%s", name, ext );
	123	if( fpp ) fclose( fpp );
	124	*fpp = fopen( bufname, "w" );
	125	if ( *fpp == 0 )
	126	FatalError(3,"%s: Can't create file", bufname );
	127
	128	UseFile( *fpp );
	129
	130	WriteDelim();
	131	WriteComment("");
	132	WriteComment("%s",identity);
	133	WriteComment("");
	134	WriteComment("Generated by KPP-%s symbolic chemistry Kinetics PreProcessor",
	135	KPP_VERSION );
	136	WriteComment(" (http://www.cs.vt.edu/~asandu/Software/KPP)");
	137	WriteComment("KPP is distributed under GPL, the general public licence");
	138	WriteComment(" (http://www.gnu.org/copyleft/gpl.html)");
	139	WriteComment("(C) 1995-1997, V. Damian & A. Sandu, CGRER, Univ. Iowa" );
	140	WriteComment("(C) 1997-2005, A. Sandu, Michigan Tech, Virginia Tech" );
	141	WriteComment(" With important contributions from:" );
	142	WriteComment(" M. Damian, Villanova University, USA");
	143	WriteComment(" R. Sander, Max-Planck Institute for Chemistry, Mainz, Germany");
	144	WriteComment("");
	145	WriteComment("%-20s : %s", "File", bufname );
	146	strcpy( buf, (char*)ctime( &t ) );
	147	buf[ (int)strlen(buf) - 1 ] = 0;
	148	WriteComment("%-20s : %s", "Time", buf );
	149	WriteComment("%-20s : %s", "Working directory", getcwd(buf, 200) );
	150	WriteComment("%-20s : %s", "Equation file", eqFileName );
	151	WriteComment("%-20s : %s", "Output root filename", rootFileName );
	152	WriteComment("");
	153	WriteDelim();
	154	NewLines(1);
	155	/* Include Headers in .c Files, except Makefile */
	156	blength = strlen(bufname);
	157	if ( (bufname[blength-2]=='.')&&(bufname[blength-1]=='c') ) {
	158	C_Inline("#include <stdio.h>");
	159	C_Inline("#include <stdlib.h>");
	160	C_Inline("#include <math.h>");
	161	C_Inline("#include <string.h>");
	162	C_Inline("#include \"%s_Parameters.h\"", rootFileName);
	163	C_Inline("#include \"%s_Global.h\"", rootFileName);
	164	if( useJacSparse )
	165	C_Inline("#include \"%s_Sparse.h\"", rootFileName);
	166	}
	167	NewLines(2);
	168	}
	169
	170	void AllowBreak()
	171	{
	172	*(outBuffer-1) \|= 0x80;
	173	}
	174
	175	void bprintf( char *fmt, ... )
	176	{
	177	Va_list args;
	178
	179	if ( !fmt ) return;
	180	Va_start( args, fmt );
	181	vsprintf( outBuffer, fmt, args );
	182	va_end( args );
	183	outBuffer += strlen( outBuffer );
	184	}
	185
	186	void FlushBuf()
	187	{
	188	char *p;
	189
	190	p = outBuf;
	191	while( *p )
	192	*p++ &= ~0x80;
	193	fprintf( currentFile, outBuf );
	194	outBuffer = outBuf;
	195	*outBuffer = 0;
	196	}
	197
	198	void FlushThisBuf( char * buf )
	199	{
	200	char *p;
	201
	202	p = buf;
	203	while( *p )
	204	*p++ &= ~0x80;
	205	fprintf( currentFile, buf );
	206	}
	207
	208	void WriteDelim()
	209	{
	210	/*
	211	WriteComment("****************************************************************");
	212	*/
	213	WriteComment("~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~");
	214	}
	215
	216	void NewLines( int n )
	217	{
	218	for( ; n > 0; n-- )
	219	bprintf("\n");
	220
	221	FlushBuf();
	222	}
	223
	224	void IncludeFile( char * fname )
	225	{
	226	FILE *fp;
	227	#define MAX_LINE 200
	228	char line[ MAX_LINE ];
	229
	230
	231	fp = fopen( fname, "r" );
	232	if ( fp == 0 )
	233	FatalError(3,"%s: Can't read file", fname );
	234
	235	FlushBuf();
	236
	237	while( !feof(fp) ) {
	238	*line = '\0';
	239	fgets( line, MAX_LINE, fp );
	240	fputs( line, currentFile );
	241	}
	242
	243	fclose( fp );
	244	}
	245
	246	void IncludeCode( char* fmt, ... )
	247	{
	248	Va_list args;
	249	char buf[200];
	250	char cmd[500];
	251	static char tmpfile[] = "kppfile.tmp";
	252	FILE * fp;
	253
	254	Va_start( args, fmt );
	255	vsprintf( buf, fmt, args );
	256	va_end( args );
	257
	258	switch( useLang ) {
	259	case F77_LANG: sprintf( buf, "%s.f", buf );
	260	break;
	261	case F90_LANG: sprintf( buf, "%s.f90", buf );
	262	break;
	263	case C_LANG: sprintf( buf, "%s.c", buf );
	264	break;
	265	case MATLAB_LANG: sprintf( buf, "%s.m", buf );
	266	break;
	267	default: printf("\n Language '%d' not implemented!\n",useLang);
	268	exit(1);
	269	}
	270	fp = fopen( buf, "r" );
	271	if ( fp == 0 )
	272	FatalError(3,"%s: Can't read file", buf );
	273	fclose(fp);
	274
	275	strcpy( cmd, "sed " );
	276
	277	sprintf( cmd, "%s -e 's/KPP_ROOT/%s/g'", cmd, rootFileName );
	278	sprintf( cmd, "%s -e 's/KPP_NVAR/%d/g'", cmd, VarNr );
	279	sprintf( cmd, "%s -e 's/KPP_NFIX/%d/g'", cmd, FixNr );
	280	sprintf( cmd, "%s -e 's/KPP_NSPEC/%d/g'", cmd,SpcNr );
	281	sprintf( cmd, "%s -e 's/KPP_NREACT/%d/g'", cmd, EqnNr );
	282	sprintf( cmd, "%s -e 's/KPP_NONZERO/%d/g'", cmd, Jac_NZ );
	283	sprintf( cmd, "%s -e 's/KPP_LU_NONZERO/%d/g'", cmd, LU_Jac_NZ );
	284	sprintf( cmd, "%s -e 's/KPP_NHESS/%d/g'", cmd, Hess_NZ );
	285
	286	switch( useLang ) {
	287	case F77_LANG:
	288	sprintf( cmd, "%s -e 's/KPP_REAL/%s/g'", cmd, F77_types[real] );
	289	break;
	290	case F90_LANG:
	291	sprintf( cmd, "%s -e 's/KPP_REAL/%s/g'", cmd, F90_types[real] );
	292	break;
	293	case C_LANG:
	294	sprintf( cmd, "%s -e 's/KPP_REAL/%s/g'", cmd, C_types[real] );
	295	break;
	296	case MATLAB_LANG:
	297	break;
	298	default: printf("\n Language '%d' not implemented!\n",useLang);
	299	exit(1);
	300	}
	301
	302	sprintf( cmd, "%s %s > %s", cmd, buf, tmpfile );
	303
	304	system( cmd );
	305	IncludeFile( tmpfile );
	306	sprintf( cmd, "rm %s", tmpfile );
	307	system( cmd );
	308	}
	309
	310	void MapFunctionComment( int f, int *vars )
	311	{
	312	FILE *oldf;
	313
	314	oldf = UseFile( mapFile );
	315	FunctionStart( f, vars );
	316	/*NewLines(1);
	317	CommentFncBegin( f, vars );*/
	318	FlushBuf();
	319	UseFile( oldf );
	320	}
	321
	322	int DefineVariable( char * name, int t, int bt, int maxi, int maxj, char * comment )
	323	{
	324	int i;
	325	VARIABLE * var;
	326
	327	for( i = 0; i < MAX_VAR; i++ )
	328	if( varTable[ i ] == 0 ) break;
	329
	330	if( varTable[ i ] != 0 ) {
	331	printf("\nVariable Table overflow");
	332	return -1;
	333	}
	334
	335	var = (VARIABLE*) malloc( sizeof( VARIABLE ) );
	336	var->name = name;
	337	var->type = t;
	338	var->baseType = bt;
	339	var->maxi = maxi;
	340	var->maxj = maxj;
	341	var->value = -1;
	342	var->comment = comment;
	343
	344	varTable[ i ] = var;
	345	return i;
	346	}
	347
	348	void FreeVariable( int n )
	349	{
	350	if( varTable[ n ] ) {
	351	free( varTable[ n ] );
	352	varTable[ n ] = 0;
	353	}
	354	}
	355
	356	NODE * Elm( int v, ... )
	357	{
	358	Va_list args;
	359	NODE *n;
	360	ELEMENT *elm;
	361	VARIABLE *var;
	362	int i, j;
	363	float val;
	364	char *expr;
	365
	366	var = varTable[ v ];
	367	n = (NODE*) malloc( sizeof(NODE) );
	368	elm = (ELEMENT*) malloc( sizeof(ELEMENT) );
	369	n->left = 0;
	370	n->right = 0;
	371	n->sign = 1;
	372	n->type = var->type;
	373	n->elm = elm;
	374	elm->var = v;
	375
	376	Va_start( args, v );
	377	switch( var->type ) {
	378	case CONST: switch( var->baseType ) {
	379	case REAL: elm->val.cnst = (float)va_arg( args, double );
	380	break;
	381	case INT: elm->val.cnst = (float)va_arg( args, int );
	382	}
	383	if( elm->val.cnst < 0 ) {
	384	elm->val.cnst = -elm->val.cnst;
	385	n->sign = -1;
	386	}
	387	break;
	388	case ELM:
	389	break;
	390	case VELM: elm->val.idx.i = va_arg( args, int );
	391	break;
	392	case MELM: elm->val.idx.i = va_arg( args, int );
	393	elm->val.idx.j = va_arg( args, int );
	394	break;
	395	case EELM: elm->val.expr = va_arg( args, char* );
	396	break;
	397	}
	398	va_end( args );
	399
	400	return n;
	401	}
	402
	403	int IsConst( NODE *n, float val )
	404	{
	405	return ( ( n ) &&
	406	( n->type == CONST ) &&
	407	( n->elm->val.cnst == val )
	408	);
	409	}
	410
	411	NODE * BinaryOp( int op, NODE n1, NODE n2 )
	412	{
	413	NODE *n;
	414
	415	n = (NODE*) malloc( sizeof(NODE) );
	416	n->left = n1;
	417	n->right = n2;
	418	n->type = op;
	419	n->sign = 1;
	420	n->elm = 0;
	421	return n;
	422	}
	423
	424	NODE * Add( NODE n1, NODE n2 )
	425	{
	426	if( n1 == 0 ) return n2;
	427	if( n2 == 0 ) return n1;
	428
	429	if( IsConst( n1, 0 ) ) {
	430	FreeNode( n1 );
	431	return n2;
	432	}
	433	if( IsConst( n2, 0 ) ) {
	434	FreeNode( n2 );
	435	return n1;
	436	}
	437	return BinaryOp( ADD, n1, n2 );
	438	}
	439
	440	NODE * Sub( NODE n1, NODE n2 )
	441	{
	442	if( n1 == 0 ) return BinaryOp( SUB, 0, n2 );
	443	if( n2 == 0 ) return n1;
	444
	445	if( IsConst( n1, 0 ) ) {
	446	FreeNode( n1 );
	447	return BinaryOp( SUB, 0, n2 );
	448	}
	449	if( IsConst( n2, 0 ) ) {
	450	FreeNode( n2 );
	451	return n1;
	452	}
	453	return BinaryOp( SUB, n1, n2 );
	454	}
	455
	456	NODE * Mul( NODE n1, NODE n2 )
	457	{
	458	if( n1 == 0 ) return n2;
	459	if( n2 == 0 ) return n1;
	460
	461	if( IsConst( n1, 1 ) ) {
	462	n2->sign *= n1->sign;
	463	FreeNode( n1 );
	464	return n2;
	465	}
	466	if( IsConst( n2, 1 ) ) {
	467	n2->sign *= n1->sign;
	468	FreeNode( n2 );
	469	return n1;
	470	}
	471	if( IsConst( n1, 0 ) ) {
	472	FreeNode( n2 );
	473	return n1;
	474	}
	475	if( IsConst( n2, 0 ) ) {
	476	FreeNode( n1 );
	477	return n2;
	478	}
	479
	480	return BinaryOp( MUL, n1, n2 );
	481	}
	482
	483	NODE * Div( NODE n1, NODE n2 )
	484	{
	485	if( n1 == 0 ) return BinaryOp( DIV, Const(1), n2 );
	486	if( n2 == 0 ) return n1;
	487
	488	if( IsConst( n2, 1 ) ) {
	489	n2->sign *= n1->sign;
	490	FreeNode( n2 );
	491	return n1;
	492	}
	493
	494	return BinaryOp( DIV, n1, n2 );
	495	}
	496
	497	NODE * Pow( NODE n1, NODE n2 )
	498	{
	499	if( n1 == 0 ) return n2;
	500	if( n2 == 0 ) return n1;
	501	return BinaryOp( POW, n1, n2 );
	502	}
	503
	504	void FreeNode( NODE * n )
	505	{
	506	if( n == 0 ) return;
	507	FreeNode( n->left );
	508	FreeNode( n->right );
	509	if( n->elm ) free( n->elm );
	510	free( n );
	511	}
	512
	513	int NodeCmp( NODE n1, NODE n2 )
	514	{
	515	ELEMENT *elm1;
	516	ELEMENT *elm2;
	517
	518	if( n1 == n2 ) return 1;
	519	if( n1 == 0 ) return 0;
	520	if( n2 == 0 ) return 0;
	521
	522	if( (n1->type % SUBST) != (n2->type % SUBST) ) return 0;
	523
	524	elm1 = n1->elm;
	525	elm2 = n2->elm;
	526
	527	if( elm1 == elm2 ) return 1;
	528	if( elm1 == 0 ) return 0;
	529	if( elm2 == 0 ) return 0;
	530
	531	if( elm1->var != elm2->var )return 0;
	532	switch( n1->type ) {
	533	case CONST: if( elm1->val.cnst != elm2->val.cnst ) return 0;
	534	break;
	535	case ELM: break;
	536	case VELM: if( elm1->val.idx.i != elm2->val.idx.i ) return 0;
	537	break;
	538	case MELM: if( elm1->val.idx.i != elm2->val.idx.i ) return 0;
	539	if( elm1->val.idx.j != elm2->val.idx.j ) return 0;
	540	break;
	541	case EELM: if( strcmp( elm1->val.expr, elm2->val.expr ) != 0 ) return 0;
	542	break;
	543	}
	544
	545	return 1;
	546	}
	547
	548	NODE * NodeCopy( NODE *n1 )
	549	{
	550	NODE *n;
	551	ELEMENT *elm;
	552
	553	n = (NODE*) malloc( sizeof(NODE) );
	554	elm = (ELEMENT*) malloc( sizeof(ELEMENT) );
	555	n = n1;
	556	n->elm = elm;
	557	n->elm = n1->elm;
	558	return n;
	559	}
	560
	561	void WriteNode( NODE *n )
	562	{
	563	crtop = NONE;
	564	ExpandNode( n, NONE );
	565	}
	566
	567	void WriteOp( int op )
	568	{
	569	WriteSymbol( op );
	570	crtop = NONE;
	571	}
	572
	573	void ExpandElm( NODE * n )
	574	{
	575	NODE *cn;
	576
	577	if( substENABLED == 0 ) {
	578	WriteElm( n );
	579	return;
	580	}
	581	cn = LookUpSubst( n );
	582	if( cn == 0 ) {
	583	WriteElm( n );
	584	} else {
	585	if( cn->type > SUBST ) {
	586	WriteElm( n );
	587	} else {
	588	cn->type += SUBST;
	589	WriteSymbol( O_PAREN );
	590	WriteNode( cn->right );
	591	WriteSymbol( C_PAREN );
	592	cn->type -= SUBST;
	593	}
	594	}
	595	}
	596
	597	int ExpandNode( NODE *n, int lastop )
	598	{
	599	int needParen = 0;
	600
	601	if( n == 0 ) return lastop;
	602
	603	if( ( n->left ) &&
	604	( PRI[ n->left->type ] < PRI[ n->type ] ) )
	605	needParen = 1;
	606
	607	if( needParen ) {
	608	WriteOp( crtop );
	609	WriteSymbol( O_PAREN );
	610	}
	611	lastop = ExpandNode( n->left, lastop );
	612	if( needParen ) WriteSymbol( C_PAREN );
	613
	614	switch( n->type ) {
	615	case ADD:
	616	case SUB:
	617	case MUL:
	618	case DIV:
	619	case POW: crtop = n->type;
	620	break;
	621	case NONE: printf("ERROR - null element");
	622	break;
	623	case CONST:
	624	case ELM:
	625	case VELM:
	626	case MELM:
	627	case EELM:
	628	switch( crtop ) {
	629	case MUL: case DIV: case POW:
	630	WriteOp( crtop );
	631	if ( n->sign == -1 ) {
	632	WriteSymbol( O_PAREN );
	633	WriteOp( SUB );
	634	ExpandElm( n );
	635	WriteSymbol( C_PAREN );
	636	} else {
	637	ExpandElm( n );
	638	}
	639	break;
	640	case ADD: if( n->sign == -1 )
	641	crtop = SUB;
	642	WriteOp( crtop );
	643	ExpandElm( n );
	644	break;
	645	case SUB: if( n->sign == -1 )
	646	crtop = ADD;
	647	WriteOp( crtop );
	648	ExpandElm( n );
	649	break;
	650	case NONE: if( n->sign == -1 )
	651	WriteOp( SUB );
	652	ExpandElm( n );
	653	break;
	654	}
	655	break;
	656	}
	657
	658	if( ( n->right ) &&
	659	( PRI[ n->right->type ] <= PRI[ n->type ] ) )
	660	needParen = 1;
	661
	662	if( needParen ) {
	663	WriteOp( crtop );
	664	WriteSymbol( O_PAREN );
	665	}
	666	lastop = ExpandNode( n->right, n->type );
	667	if( needParen ) WriteSymbol( C_PAREN );
	668	return lastop;
	669	}
	670
	671	void Assign( NODE lval, NODE rval )
	672	{
	673	char *ls;
	674	char *rs;
	675	char *olds;
	676
	677	ls = (char*)malloc( MAX_OUTBUF );
	678	rs = (char*)malloc( MAX_OUTBUF );
	679
	680	olds = outBuffer;
	681	outBuffer = ls;
	682	WriteNode( lval );
	683	outBuffer = rs;
	684	WriteNode( rval );
	685	outBuffer = olds;
	686
	687	WriteAssign( ls, rs );
	688
	689	free( rs );
	690	free( ls );
	691	FreeNode( lval );
	692	FreeNode( rval );
	693	}
	694
	695	NODE * LookUpSubst( NODE *n )
	696	{
	697	NODE *cn;
	698
	699	cn = substList;
	700	while( cn != 0 ) {
	701	if( NodeCmp( n, cn ) )
	702	return cn;
	703	cn = cn->left;
	704	}
	705	return 0;
	706	}
	707
	708	void MkSubst( NODE n1, NODE n2 )
	709	{
	710	NODE *n;
	711
	712	n = LookUpSubst( n1 );
	713	if( n == 0 ) {
	714	n = n1;
	715	n->left = substList;
	716	substList = n;
	717	} else {
	718	FreeNode( n->right );
	719	FreeNode( n1 );
	720	}
	721	n->right = n2;
	722	}
	723
	724	void RmSubst( NODE *n )
	725	{
	726	NODE *pn;
	727	NODE *cn;
	728
	729	pn = 0;
	730	cn = substList;
	731	while( cn != 0 ) {
	732	if( NodeCmp( n, cn ) )
	733	break;
	734	pn = cn;
	735	cn = cn->left;
	736	}
	737	if( cn == 0 ) return;
	738
	739	FreeNode( cn->right );
	740	if( pn )
	741	pn->left = cn->left;
	742	else
	743	substList = cn->left;
	744
	745	cn->right = 0;
	746	cn->left = 0;
	747	FreeNode( cn );
	748	}
	749
	750	void DisplaySubst()
	751	{
	752	NODE *n;
	753
	754	n = substList;
	755	substENABLED = 0;
	756	while( n != 0 ) {
	757	printf("Subst: ");
	758	WriteElm( n );
	759	printf( " --> " );
	760	WriteNode( n->right );
	761	printf("\n");
	762	n = n->left;
	763	}
	764	substENABLED = 1;
	765	}
	766
	767	void CommentFncBegin( int f, int *vars )
	768	{
	769	VARIABLE *var;
	770	char * name;
	771	int narg;
	772	int i;
	773
	774	name = varTable[ f ]->name;
	775	narg = varTable[ f ]->maxi;
	776	var = varTable[ f ];
	777
	778	WriteDelim();
	779	WriteComment("");
	780	WriteComment("%s - %s", var->name, var->comment );
	781	WriteComment(" Arguments :");
	782	for( i = 0; i < narg; i++ ) {
	783	var = varTable[vars[i]];
	784	WriteComment(" %-10s- %s", var->name, var->comment );
	785	}
	786	WriteComment("");
	787	WriteDelim();
	788	NewLines(1);
	789	}
	790
	791	void CommentFunctionBegin( int f, ... )
	792	{
	793	Va_list args;
	794	int i;
	795	int vars[20];
	796	char * name;
	797	int narg;
	798
	799	name = varTable[ f ]->name;
	800	narg = varTable[ f ]->maxi;
	801
	802	Va_start( args, f );
	803	for( i = 0; i < narg; i++ )
	804	vars[i] = va_arg( args, int );
	805	va_end( args );
	806
	807	CommentFncBegin( f, vars );
	808	/* MapFunctionComment( f, vars ); */
	809	}
	810
	811	void CommentFunctionEnd( int f )
	812	{
	813	WriteComment("End of %s function", varTable[ f ]->name );
	814	WriteDelim();
	815	NewLines(2);
	816	}
	817

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source: palm/trunk/UTIL/chemistry/gasphase_preproc/kpp/src/code.c @ 4843

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