lyx_mirror/src/mathed/math_parinset.C

#include <config.h>

#include "math_parinset.h"
#include "math_iter.h"
#include "array.h"
#include "math_xiter.h"
#include "LColor.h"
#include "mathed/support.h"
#include "Painter.h"
#include "math_parser.h"
#include "math_rowst.h"
#include "math_parinset.h"

extern int number_of_newlines;


MathedRowSt * MathParInset::getRowSt() const
{
	return 0;
}


MathParInset::MathParInset(short st, string const & nm, short ot)
	: MathedInset(nm, ot, st)
{
	array = 0;
	ascent = 8;
	width = 4;
	descent = 0;
	flag = 1;
	if (objtype == LM_OT_SCRIPT)
		flag |= LMPF_SCRIPT;
}


MathParInset::MathParInset(MathParInset * p)
	: MathedInset(p)
{
	flag = p->flag;
	p->setArgumentIdx(0);
	MathedIter it(p->GetData());
	SetData(it.Copy());
}


MathParInset::~MathParInset()
{
	if (array) {
		MathedIter it(array);
		it.Clear();
		delete array;
	}
}


MathedInset * MathParInset::Clone()
{
	return new MathParInset(this);
}


void MathParInset::SetData(MathedArray * a)
{
	array = a;
	
	// A standard paragraph shouldn't have any tabs nor CRs.
	if (array) {
		MathedIter it(array);
		while (it.OK()) {
			char c = it.GetChar();
			if (c == LM_TC_TAB || c == LM_TC_CR) 
				it.Delete();
			else
				it.Next();
		}
	}
}


void 
MathParInset::draw(Painter & pain, int x, int y)
{
	byte cxp = 0;
	int xp = 0;
	int asc = df_asc, des = 0;
	bool limits = false;
	
	xo = x;  yo = y; 
	if (!array || array->empty()) {
		if (array) {
			MathedXIter data(this);
			data.GetPos(x, y);
		}
		pain.rectangle(x, y - df_asc, df_width, df_asc, LColor::mathline);
		return;
	}  
	MathedXIter data(this);
	data.GoBegin();
	while (data.OK()) {
		data.GetPos(x, y);
		byte cx = data.GetChar();
		if (cx >= ' ') {
			string s = data.GetString();
			drawStr(pain, data.FCode(), size, x, y, s);
			mathed_char_height(LM_TC_CONST, size, 'y', asc, des);
			limits = false;
		}
		else {
			if (cx == 0)
				break;
			if (MathIsInset(cx)) {
				int yy = y;
				MathedInset * p = data.GetInset();
				if (cx == LM_TC_UP) {
					if (limits) {
						x -= (xp>p->Width()) ? p->Width()+(xp-p->Width())/2: xp;  
						yy -= (asc + p->Descent()+4);
					}	
					else
						yy -= (p->Descent()>asc) ? p->Descent()+4: asc;
				}
				else if (cx == LM_TC_DOWN) {
					if (limits) {
						x -= (xp>p->Width()) ? p->Width()+(xp-p->Width())/2: xp;
						yy += des + p->Ascent() + 2;
					} else
						yy += des + p->Ascent()/2;
				}
				else {
					asc = p->Ascent();
					des = p->Descent();
				}
				p->draw(pain, x, yy);
				if (cx!= LM_TC_UP && cx!= LM_TC_DOWN) {
					limits = p->GetLimits();
					if (limits)
						xp = p->Width();
				}
				data.Next();
			}
			else if (cx == LM_TC_TAB) {
				if (cxp == cx || cxp == LM_TC_CR || data.IsFirst()) {
					pain.rectangle(x, y - df_asc, df_width, df_asc, LColor::mathline);
				}
				data.Next();
				limits = false;
			}
			else if (cx == LM_TC_CR) {
				if (cxp == LM_TC_TAB || cxp == LM_TC_CR || data.IsFirst()) {
					pain.rectangle(x, y - df_asc, df_width, df_asc, LColor::mathline);
				}
				data.Next();
				limits = false;
			}
			else {	 
				lyxerr << "GMathed Error: Unrecognized code[" << cx << "]" << endl;
				break;
			}
		}
		cxp = cx;
	}
	if (cxp == LM_TC_TAB || cxp == LM_TC_CR) { 
		data.GetPos(x, y);
		pain.rectangle(x, y - df_asc, df_width, df_asc, LColor::mathline);
	}
}


void 
MathParInset::Metrics()
{
	byte cx;
	byte cxp = 0;
	int ls;
	int asc = df_asc;
	int des = 0;
	int tb = 0;
	int tab = 0;
	
	bool limits = false;
	
	ascent = df_asc;//mathed_char_height(LM_TC_VAR, size, 'I', asc, des); 
	width = df_width;
	descent = 0;
	if (!array) return;
	if (array->empty()) return;
	
	ascent = 0;
	MathedXIter data(this);
	data.GoBegin();
	while (data.OK()) {
		cx = data.GetChar();      
		if (cx >= ' ') {
			string s = data.GetString();
			mathed_string_height(data.FCode(), size, s, asc, des);
			if (asc > ascent) ascent = asc;
			if (des > descent) descent = des;
			limits = false;
			mathed_char_height(LM_TC_CONST, size, 'y', asc, des);
		} else
			if (MathIsInset(cx)) {
				MathedInset * p = data.GetInset();
				p->SetStyle(size);   
				p->Metrics();
				if (cx == LM_TC_UP) {
					asc += (limits) ? p->Height() + 4: p->Ascent() + 
						((p->Descent()>asc) ? p->Descent() - asc + 4: 0);
				} else
					if (cx == LM_TC_DOWN) {
						des += ((limits) ? p->Height() + 4: p->Height() - p->Ascent() / 2);
					} else {
						asc = p->Ascent();
						des = p->Descent();
					}
				if (asc > ascent) ascent = asc;
				if (des > descent) descent = des;
				if (cx!= LM_TC_UP && cx!= LM_TC_DOWN)
					limits = p->GetLimits();
				data.Next();
			} else 
				if (cx == LM_TC_TAB) {
					int x, y;
					data.GetIncPos(x, y);
					if (data.IsFirst() || cxp == LM_TC_TAB || cxp == LM_TC_CR) {
						if (ascent<df_asc) ascent = df_asc;
						tb = x;
					}
					data.setTab(x-tb, tab);
					tb = x;
					++tab;
					limits = false;                   
					data.Next();
				} else
					if (cx == LM_TC_CR) {
						if (tb > 0) {
							int x, y;
							data.GetIncPos(x, y);
							if (data.IsFirst() || cxp == LM_TC_TAB || cxp == LM_TC_CR) {
								if (ascent<df_asc) ascent = df_asc;
								tb = x;
							} 
							data.setTab(x - tb, tab);
						} else //if (GetColumns() == 1) 
							{
								int x, y;
								data.GetIncPos(x, y);
								data.setTab(x, tab);
								if (ascent<df_asc) ascent = df_asc;
							} 
						tb = tab = 0;
						data.subMetrics(ascent, descent);
						ascent = df_asc;   
						descent = 0;
						data.Next();
					} else {
						lyxerr << "Mathed Error: Unrecognized code[" << cx
						       << "]" << endl;
						break;
					}       
		cxp = cx;
	}
	data.GetIncPos(width, ls);
	
	// No matter how simple is a matrix, it is NOT a subparagraph
	if (isMatrix()) {
		if (cxp == LM_TC_TAB) {
			if (ascent<df_asc) ascent = df_asc;
			data.setTab(0, tab);
		} else {
			data.setTab(width - tb, tab);
		}
	}
	
	data.subMetrics(ascent, descent);
}


void MathParInset::Write(ostream & os, bool fragile)
{
	if (!array) return;
	int brace = 0;
	latexkeys * l;
	MathedIter data(array);
	// hack
	MathedRowSt const * crow = getRowSt();   
	data.Reset();
	
	if (!Permit(LMPF_FIXED_SIZE)) { 
		l = lm_get_key_by_id(size, LM_TK_STY);
		if (l) {
			os << '\\' << l->name << ' ';
		}
	}
	while (data.OK()) {
		byte cx = data.GetChar();
		if (cx >= ' ') {
			string str = data.GetString();
			
			if (data.FCode() >= LM_TC_RM && data.FCode() <= LM_TC_TEXTRM) {
				os << '\\' << math_font_name[data.FCode()-LM_TC_RM] << '{';
			}
			for (string::const_iterator s = str.begin();
			     s != str.end(); ++s) {
				byte c = *s;
				if (MathIsSymbol(data.FCode())) {
					l = lm_get_key_by_id(c, (data.FCode() == LM_TC_BSYM) ?
							     LM_TK_BIGSYM : LM_TK_SYM);
					if (l) {
						os << '\\' << l->name << ' ';
					} else {
#warning this does not compile on gcc 2.97
						//lyxerr << "Illegal symbol code[" << c
						//   << " " << str.end() - s << " " << data.FCode() << "]";
					}
				} else {
					// Is there a standard logical XOR?
					if ((data.FCode() == LM_TC_TEX && c != '{' && c != '}') ||
					    (data.FCode() == LM_TC_SPECIAL))
						os << '\\';
					else {
						if (c == '{') ++brace;
						if (c == '}') --brace;
					}
					if (c == '}' && data.FCode() == LM_TC_TEX && brace < 0) 
						lyxerr <<"Math warning: Unexpected closing brace."
						       << endl;
					else	       
						os << char(c);
				}
			}
			if (data.FCode()>= LM_TC_RM && data.FCode()<= LM_TC_TEXTRM)
				os << '}';
		} else     
			if (MathIsInset(cx)) {
				MathedInset * p = data.GetInset();
				if (cx == LM_TC_UP)
					os << "^{";
				if (cx == LM_TC_DOWN)
					os << "_{";
				p->Write(os, fragile);
				if (cx == LM_TC_UP || cx == LM_TC_DOWN)
					os << '}';
				data.Next();
			} else
				switch (cx) {
				case LM_TC_TAB:
				{
					os << " & ";
					data.Next();
					break;
				}
				case LM_TC_CR:
				{
					if (crow) {
						if (!crow->isNumbered()) {  
							os << "\\nonumber ";
						}
						if (!crow->getLabel().empty()) {
							os << "\\label{"
							   << crow->getLabel()
							   << "} ";
						}
						crow = crow->getNext();
					}
					if (fragile)
						os << "\\protect";
					os << "\\\\\n";
					++number_of_newlines;
					data.Next();
					break;
				}
				default:
					lyxerr << "WMath Error: unrecognized code[" << cx << "]";
					return;
				}     
	}
	
	if (crow) {
		if (!crow->isNumbered()) {
			os << "\\nonumber ";
		}
		if (!crow->getLabel().empty()) {
			os << "\\label{"
			   << crow->getLabel()
			   << "} ";
		}
	}

	if (brace > 0)
		os << string(brace, '}');
}
first go at mathed file cleanup git-svn-id: svn://svn.lyx.org/lyx/lyx-devel/trunk@1495 a592a061-630c-0410-9148-cb99ea01b6c8 2001-02-13 13:28:32 +00:00			`#include <config.h>`

			`#include "math_parinset.h"`
			`#include "math_iter.h"`
			`#include "array.h"`
			`#include "math_xiter.h"`
			`#include "LColor.h"`
			`#include "mathed/support.h"`
			`#include "Painter.h"`
			`#include "math_parser.h"`
			`#include "math_rowst.h"`
			`#include "math_parinset.h"`

			`extern int number_of_newlines;`


			`MathedRowSt * MathParInset::getRowSt() const`
			`{`
			`return 0;`
			`}`


			`MathParInset::MathParInset(short st, string const & nm, short ot)`
			`: MathedInset(nm, ot, st)`
			`{`
			`array = 0;`
			`ascent = 8;`
			`width = 4;`
			`descent = 0;`
			`flag = 1;`
			`if (objtype == LM_OT_SCRIPT)`
			`flag \|= LMPF_SCRIPT;`
			`}`


			`MathParInset::MathParInset(MathParInset * p)`
			`: MathedInset(p)`
			`{`
			`flag = p->flag;`
			`p->setArgumentIdx(0);`
			`MathedIter it(p->GetData());`
			`SetData(it.Copy());`
			`}`


			`MathParInset::~MathParInset()`
			`{`
			`if (array) {`
			`MathedIter it(array);`
			`it.Clear();`
			`delete array;`
			`}`
			`}`


			`MathedInset * MathParInset::Clone()`
			`{`
			`return new MathParInset(this);`
			`}`


			`void MathParInset::SetData(MathedArray * a)`
			`{`
			`array = a;`

			`// A standard paragraph shouldn't have any tabs nor CRs.`
			`if (array) {`
			`MathedIter it(array);`
			`while (it.OK()) {`
			`char c = it.GetChar();`
			`if (c == LM_TC_TAB \|\| c == LM_TC_CR)`
			`it.Delete();`
			`else`
			`it.Next();`
			`}`
			`}`
			`}`


			`void`
			`MathParInset::draw(Painter & pain, int x, int y)`
			`{`
			`byte cxp = 0;`
			`int xp = 0;`
			`int asc = df_asc, des = 0;`
			`bool limits = false;`

			`xo = x; yo = y;`
			`if (!array \|\| array->empty()) {`
			`if (array) {`
			`MathedXIter data(this);`
			`data.GetPos(x, y);`
			`}`
			`pain.rectangle(x, y - df_asc, df_width, df_asc, LColor::mathline);`
			`return;`
			`}`
			`MathedXIter data(this);`
			`data.GoBegin();`
			`while (data.OK()) {`
			`data.GetPos(x, y);`
			`byte cx = data.GetChar();`
			`if (cx >= ' ') {`
			`string s = data.GetString();`
			`drawStr(pain, data.FCode(), size, x, y, s);`
			`mathed_char_height(LM_TC_CONST, size, 'y', asc, des);`
			`limits = false;`
			`}`
			`else {`
			`if (cx == 0)`
			`break;`
			`if (MathIsInset(cx)) {`
			`int yy = y;`
			`MathedInset * p = data.GetInset();`
			`if (cx == LM_TC_UP) {`
			`if (limits) {`
			`x -= (xp>p->Width()) ? p->Width()+(xp-p->Width())/2: xp;`
			`yy -= (asc + p->Descent()+4);`
			`}`
			`else`
			`yy -= (p->Descent()>asc) ? p->Descent()+4: asc;`
			`}`
			`else if (cx == LM_TC_DOWN) {`
			`if (limits) {`
			`x -= (xp>p->Width()) ? p->Width()+(xp-p->Width())/2: xp;`
			`yy += des + p->Ascent() + 2;`
			`} else`
			`yy += des + p->Ascent()/2;`
			`}`
			`else {`
			`asc = p->Ascent();`
			`des = p->Descent();`
			`}`
			`p->draw(pain, x, yy);`
			`if (cx!= LM_TC_UP && cx!= LM_TC_DOWN) {`
			`limits = p->GetLimits();`
			`if (limits)`
			`xp = p->Width();`
			`}`
			`data.Next();`
			`}`
			`else if (cx == LM_TC_TAB) {`
			`if (cxp == cx \|\| cxp == LM_TC_CR \|\| data.IsFirst()) {`
			`pain.rectangle(x, y - df_asc, df_width, df_asc, LColor::mathline);`
			`}`
			`data.Next();`
			`limits = false;`
			`}`
			`else if (cx == LM_TC_CR) {`
			`if (cxp == LM_TC_TAB \|\| cxp == LM_TC_CR \|\| data.IsFirst()) {`
			`pain.rectangle(x, y - df_asc, df_width, df_asc, LColor::mathline);`
			`}`
			`data.Next();`
			`limits = false;`
			`}`
			`else {`
			`lyxerr << "GMathed Error: Unrecognized code[" << cx << "]" << endl;`
			`break;`
			`}`
			`}`
			`cxp = cx;`
			`}`
			`if (cxp == LM_TC_TAB \|\| cxp == LM_TC_CR) {`
			`data.GetPos(x, y);`
			`pain.rectangle(x, y - df_asc, df_width, df_asc, LColor::mathline);`
			`}`
			`}`


			`void`
			`MathParInset::Metrics()`
			`{`
			`byte cx;`
			`byte cxp = 0;`
			`int ls;`
			`int asc = df_asc;`
			`int des = 0;`
			`int tb = 0;`
			`int tab = 0;`

			`bool limits = false;`

			`ascent = df_asc;//mathed_char_height(LM_TC_VAR, size, 'I', asc, des);`
			`width = df_width;`
			`descent = 0;`
			`if (!array) return;`
			`if (array->empty()) return;`

			`ascent = 0;`
			`MathedXIter data(this);`
			`data.GoBegin();`
			`while (data.OK()) {`
			`cx = data.GetChar();`
			`if (cx >= ' ') {`
			`string s = data.GetString();`
			`mathed_string_height(data.FCode(), size, s, asc, des);`
			`if (asc > ascent) ascent = asc;`
			`if (des > descent) descent = des;`
			`limits = false;`
			`mathed_char_height(LM_TC_CONST, size, 'y', asc, des);`
			`} else`
			`if (MathIsInset(cx)) {`
			`MathedInset * p = data.GetInset();`
			`p->SetStyle(size);`
			`p->Metrics();`
			`if (cx == LM_TC_UP) {`
			`asc += (limits) ? p->Height() + 4: p->Ascent() +`
			`((p->Descent()>asc) ? p->Descent() - asc + 4: 0);`
			`} else`
			`if (cx == LM_TC_DOWN) {`
			`des += ((limits) ? p->Height() + 4: p->Height() - p->Ascent() / 2);`
			`} else {`
			`asc = p->Ascent();`
			`des = p->Descent();`
			`}`
			`if (asc > ascent) ascent = asc;`
			`if (des > descent) descent = des;`
			`if (cx!= LM_TC_UP && cx!= LM_TC_DOWN)`
			`limits = p->GetLimits();`
			`data.Next();`
			`} else`
			`if (cx == LM_TC_TAB) {`
			`int x, y;`
			`data.GetIncPos(x, y);`
			`if (data.IsFirst() \|\| cxp == LM_TC_TAB \|\| cxp == LM_TC_CR) {`
			`if (ascent<df_asc) ascent = df_asc;`
			`tb = x;`
			`}`
			`data.setTab(x-tb, tab);`
			`tb = x;`
			`++tab;`
			`limits = false;`
			`data.Next();`
			`} else`
			`if (cx == LM_TC_CR) {`
			`if (tb > 0) {`
			`int x, y;`
			`data.GetIncPos(x, y);`
			`if (data.IsFirst() \|\| cxp == LM_TC_TAB \|\| cxp == LM_TC_CR) {`
			`if (ascent<df_asc) ascent = df_asc;`
			`tb = x;`
			`}`
			`data.setTab(x - tb, tab);`
			`} else //if (GetColumns() == 1)`
			`{`
			`int x, y;`
			`data.GetIncPos(x, y);`
			`data.setTab(x, tab);`
			`if (ascent<df_asc) ascent = df_asc;`
			`}`
			`tb = tab = 0;`
			`data.subMetrics(ascent, descent);`
			`ascent = df_asc;`
			`descent = 0;`
			`data.Next();`
			`} else {`
			`lyxerr << "Mathed Error: Unrecognized code[" << cx`
			`<< "]" << endl;`
			`break;`
			`}`
			`cxp = cx;`
			`}`
			`data.GetIncPos(width, ls);`

			`// No matter how simple is a matrix, it is NOT a subparagraph`
			`if (isMatrix()) {`
			`if (cxp == LM_TC_TAB) {`
			`if (ascent<df_asc) ascent = df_asc;`
			`data.setTab(0, tab);`
			`} else {`
			`data.setTab(width - tb, tab);`
			`}`
			`}`

			`data.subMetrics(ascent, descent);`
			`}`



			`void MathParInset::Write(ostream & os, bool fragile)`
			`{`
			`if (!array) return;`
			`int brace = 0;`
			`latexkeys * l;`
			`MathedIter data(array);`
			`// hack`
			`MathedRowSt const * crow = getRowSt();`
			`data.Reset();`

			`if (!Permit(LMPF_FIXED_SIZE)) {`
			`l = lm_get_key_by_id(size, LM_TK_STY);`
			`if (l) {`
			`os << '\\' << l->name << ' ';`
			`}`
			`}`
			`while (data.OK()) {`
			`byte cx = data.GetChar();`
			`if (cx >= ' ') {`
			`string str = data.GetString();`

			`if (data.FCode() >= LM_TC_RM && data.FCode() <= LM_TC_TEXTRM) {`
			`os << '\\' << math_font_name[data.FCode()-LM_TC_RM] << '{';`
			`}`
			`for (string::const_iterator s = str.begin();`
			`s != str.end(); ++s) {`
			`byte c = *s;`
			`if (MathIsSymbol(data.FCode())) {`
			`l = lm_get_key_by_id(c, (data.FCode() == LM_TC_BSYM) ?`
			`LM_TK_BIGSYM : LM_TK_SYM);`
			`if (l) {`
			`os << '\\' << l->name << ' ';`
			`} else {`
			`#warning this does not compile on gcc 2.97`
			`//lyxerr << "Illegal symbol code[" << c`
			`// << " " << str.end() - s << " " << data.FCode() << "]";`
			`}`
			`} else {`
			`// Is there a standard logical XOR?`
			`if ((data.FCode() == LM_TC_TEX && c != '{' && c != '}') \|\|`
			`(data.FCode() == LM_TC_SPECIAL))`
			`os << '\\';`
			`else {`
			`if (c == '{') ++brace;`
			`if (c == '}') --brace;`
			`}`
			`if (c == '}' && data.FCode() == LM_TC_TEX && brace < 0)`
			`lyxerr <<"Math warning: Unexpected closing brace."`
			`<< endl;`
			`else`
			`os << char(c);`
			`}`
			`}`
			`if (data.FCode()>= LM_TC_RM && data.FCode()<= LM_TC_TEXTRM)`
			`os << '}';`
			`} else`
			`if (MathIsInset(cx)) {`
			`MathedInset * p = data.GetInset();`
			`if (cx == LM_TC_UP)`
			`os << "^{";`
			`if (cx == LM_TC_DOWN)`
			`os << "_{";`
			`p->Write(os, fragile);`
			`if (cx == LM_TC_UP \|\| cx == LM_TC_DOWN)`
			`os << '}';`
			`data.Next();`
			`} else`
			`switch (cx) {`
			`case LM_TC_TAB:`
			`{`
			`os << " & ";`
			`data.Next();`
			`break;`
			`}`
			`case LM_TC_CR:`
			`{`
			`if (crow) {`
			`if (!crow->isNumbered()) {`
			`os << "\\nonumber ";`
			`}`
			`if (!crow->getLabel().empty()) {`
			`os << "\\label{"`
			`<< crow->getLabel()`
			`<< "} ";`
			`}`
			`crow = crow->getNext();`
			`}`
			`if (fragile)`
			`os << "\\protect";`
			`os << "\\\\\n";`
			`++number_of_newlines;`
			`data.Next();`
			`break;`
			`}`
			`default:`
			`lyxerr << "WMath Error: unrecognized code[" << cx << "]";`
			`return;`
			`}`
			`}`

			`if (crow) {`
			`if (!crow->isNumbered()) {`
			`os << "\\nonumber ";`
			`}`
			`if (!crow->getLabel().empty()) {`
			`os << "\\label{"`
			`<< crow->getLabel()`
			`<< "} ";`
			`}`
			`}`

			`if (brace > 0)`
			`os << string(brace, '}');`
			`}`