lyx_mirror/src/mathed/math_draw.C

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/*
* File: math_draw.C
* Purpose: Interaction and drawing for mathed
* Author: Alejandro Aguilar Sierra <asierra@servidor.unam.mx>
* Created: January 1996
* Description: Math drawing and interaction for a WYSIWYG math editor.
*
* Dependencies: Xlib, XForms
*
* Copyright: (c) 1996, Alejandro Aguilar Sierra
*
* Version: 0.8beta, Mathed & Lyx project.
*
* You are free to use and modify this code under the terms of
* the GNU General Public Licence version 2 or later.
*/
#include <config.h>
#include FORMS_H_LOCATION
#include "math_cursor.h"
#include "math_parser.h"
#include "debug.h"
extern void mathed_set_font(short type, int style);
extern int mathed_char_width(short type, int style, byte c);
extern int mathed_string_width(short type, int style, byte const* s, int ls);
extern int mathed_string_height(short, int, byte const*, int, int&, int&);
extern int mathed_char_height(short, int, byte, int&, int&);
GC canvasGC=0, mathGC=0, mathLineGC=0, latexGC=0, cursorGC=0, mathFrameGC=0;
long unsigned int MathedInset::pm;
void
MathSpaceInset::Draw(int x, int y)
{
// XPoint p[4] = {{++x, y-3}, {x, y}, {x+width-2, y}, {x+width-2, y-3}};
// Sadly, HP-UX CC can't handle that kind of initialization.
XPoint p[4];
p[0].x = ++x; p[0].y = y-3;
p[1].x = x; p[1].y = y;
p[2].x = x+width-2; p[2].y = y;
p[3].x = x+width-2; p[3].y = y-3;
XDrawLines(fl_display,pm,(space) ? latexGC: mathGC,p,4,CoordModeOrigin);
XFlush(fl_display);
}
void
MathParInset::Draw(int x, int y)
{
byte cx, cxp=0;
int xp=0, ls;
int asc=df_asc, des=0;
bool limits = false;
xo = x; yo = y;
if (!array || array->Empty()) {
mathed_set_font(LM_TC_VAR, 1);
if (array) {
MathedXIter data(this);
data.GetPos(x, y);
}
XDrawRectangle(fl_display,pm,mathLineGC,x,y-df_asc, df_width, df_asc);
XFlush(fl_display);
return;
}
MathedXIter data(this);
data.GoBegin();
while (data.OK()) {
data.GetPos(x, y);
cx = data.GetChar();
if (cx >= ' ') {
byte *s = data.GetString(ls);
drawStr(data.FCode(), size, x, y, s, ls);
mathed_char_height(data.FCode(), size, s[ls-1], 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(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())) { // && objtype==L
XDrawRectangle(fl_display,pm,mathLineGC,
x,y-df_asc, df_width, df_asc);
}
XFlush(fl_display);
data.Next();
limits = false;
} else
if (cx==LM_TC_CR) {
if (cxp==LM_TC_TAB || cxp==LM_TC_CR || data.IsFirst()) { // && objtype==LM_OT_MATRIX) {
XDrawRectangle(fl_display,pm,mathLineGC,x,y-df_asc, df_width, df_asc);
}
data.Next();
limits = false;
}
else {
lyxerr << "GMathed Error: Unrecognized code[" << cx
<< "]" << endl;
break;
}
}
cxp = cx;
}
if (cxp==LM_TC_TAB || cxp==LM_TC_CR) { // && objtype==LM_OT_MATRIX) {
data.GetPos(x, y);
XDrawRectangle(fl_display,pm,mathLineGC,x,y-df_asc, df_width, df_asc);
XFlush(fl_display);
}
}
void
MathParInset::Metrics()
{
byte cx, cxp=0, *s;
int ls;
int asc=df_asc, des=0;
int tb = 0, 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 >= ' ') {
s = data.GetString(ls);
mathed_string_height(data.FCode(), size, s, ls, asc, des);
if (asc > ascent) ascent = asc;
if (des > descent) descent = des;
limits = false;
} 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
MathSqrtInset::Draw(int x, int y)
{
MathParInset::Draw(x+hmax+2, y);
int h=ascent, d=descent, h2=Height()/2, w2 = (Height()>4*hmax)?hmax:hmax/2;
XPoint p[4];
p[0].x = x + hmax + wbody, p[0].y = y-h;
p[1].x = x+hmax, p[1].y = y-h;
p[2].x = x+w2, p[2].y = y+d;
p[3].x = x, p[3].y = y+d-h2;
XDrawLines(fl_display, pm, mathLineGC,p, 4, CoordModeOrigin);
XFlush(fl_display);
}
void
MathSqrtInset::Metrics()
{
MathParInset::Metrics();
ascent += 4;
descent += 2;
int a, b;
hmax = mathed_char_height(LM_TC_VAR, size, 'I',a, b);
if (hmax<10) hmax = 10;
wbody = width + 4;
width += hmax + 4;
}
void
MathFracInset::Draw(int x, int y)
{
short idxp = idx;
short sizex = size;
idx = 0;
if (size==LM_ST_DISPLAY) size++;
MathParInset::Draw(x+(width-w0)/2, y - des0);
den->Draw(x+(width-w1)/2, y + den->Ascent() + 2 - dh);
size = sizex;
if (objtype==LM_OT_FRAC)
XDrawLine(fl_display, pm, mathLineGC, x+2, y-dh, x+width-4, y - dh);
XFlush(fl_display);
idx = idxp;
}
void
MathFracInset::Metrics()
{
if (!dh) {
int a, b;
dh = mathed_char_height(LM_TC_CONST, size, 'I', a, b)/2;
}
short idxp = idx;
short sizex = size;
idx = 0;
if (size==LM_ST_DISPLAY) size++;
MathParInset::Metrics();
size = sizex;
w0 = width;
int as = Height() + 2 + dh;
des0 = Descent() + 2 + dh;
den->Metrics();
w1 = den->Width();
width = ((w0 > w1) ? w0: w1) + 12;
ascent = as;
descent = den->Height()+ 2 - dh;
idx = idxp;
}
void
MathBigopInset::Draw(int x, int y)
{
int ls;
char c;
char const *s;
short t;
if (sym<256 || sym==LM_oint) {
ls = 1;
c = (sym==LM_oint) ? LM_int: sym;
s = &c;
t = LM_TC_BSYM;
} else {
s = name;
ls = strlen(name);
t = LM_TC_TEXTRM;
}
mathed_set_font(t, size);
if (sym==LM_oint) {
XDrawArc(fl_display, pm, mathLineGC, x,y-5*width/4,width,width,0,23040);
XFlush(fl_display);
x++;
}
XDrawString(fl_display, pm, mathGC, x, y, s, ls);
XFlush(fl_display);
}
void
MathBigopInset::Metrics()
{
int ls;
char c;
char const *s;
short t;
if (sym<256 || sym==LM_oint) {
ls = 1;
c = (sym==LM_oint) ? LM_int: sym;
s = &c;
t = LM_TC_BSYM;
} else {
s = name;
ls = strlen(name);
t = LM_TC_TEXTRM;
}
mathed_set_font(t, size);
mathed_string_height(t, size, (unsigned char const *)s, ls, ascent, descent);
width = mathed_string_width(t, size, (unsigned char const *)s, ls);
if (sym==LM_oint) width += 2;
}