From e69e8b1d09fb579316595b4e6a850e717358a8b1 Mon Sep 17 00:00:00 2001
From: tpearson <tpearson@283d02a7-25f6-0310-bc7c-ecb5cbfe19da>
Date: Sun, 19 Jun 2011 19:03:33 +0000
Subject: TQt4 port kdegraphics This enables compilation under both Qt3 and Qt4

git-svn-id: svn://anonsvn.kde.org/home/kde/branches/trinity/kdegraphics@1237557 283d02a7-25f6-0310-bc7c-ecb5cbfe19da
---
 kdvi/TeXFont_PK.cpp | 106 ++++++++++++++++++++++++++--------------------------
 1 file changed, 53 insertions(+), 53 deletions(-)

(limited to 'kdvi/TeXFont_PK.cpp')

diff --git a/kdvi/TeXFont_PK.cpp b/kdvi/TeXFont_PK.cpp
index 7e1ce60d..562c40f9 100644
--- a/kdvi/TeXFont_PK.cpp
+++ b/kdvi/TeXFont_PK.cpp
@@ -80,18 +80,18 @@ extern void oops(TQString message);
 
 
 
-TeXFont_PK::TeXFont_PK(TeXFontDefinition *parent)
-  : TeXFont(parent)
+TeXFont_PK::TeXFont_PK(TeXFontDefinition *tqparent)
+  : TeXFont(tqparent)
 {
 #ifdef DEBUG_PK
-  kdDebug(4300) << "TeXFont_PK::TeXFont_PK( parent=" << parent << ")" << endl;
+  kdDebug(4300) << "TeXFont_PK::TeXFont_PK( tqparent=" << tqparent << ")" << endl;
 #endif
 
   for(unsigned int i=0; i<TeXFontDefinition::max_num_of_chars_in_font; i++)
     characterBitmaps[i] = 0;
-  file = fopen(TQFile::encodeName(parent->filename), "r");
+  file = fopen(TQFile::encodeName(tqparent->filename), "r");
   if (file == 0) 
-    kdError(4300) << i18n("Cannot open font file %1.").arg(parent->filename) << endl;
+    kdError(4300) << i18n("Cannot open font file %1.").tqarg(tqparent->filename) << endl;
 #ifdef DEBUG_PK
   else
     kdDebug(4300) << "TeXFont_PK::TeXFont_PK(): file opened successfully" << endl;
@@ -116,7 +116,7 @@ TeXFont_PK::~TeXFont_PK()
 }
 
 
-glyph* TeXFont_PK::getGlyph(Q_UINT16 ch, bool generateCharacterPixmap, const TQColor& color)
+glyph* TeXFont_PK::getGlyph(TQ_UINT16 ch, bool generateCharacterPixmap, const TQColor& color)
 {
 #ifdef DEBUG_PK
   kdDebug(4300) << "TeXFont_PK::getGlyph( ch=" << ch << ", generateCharacterPixmap=" << generateCharacterPixmap << " )" << endl;
@@ -136,7 +136,7 @@ glyph* TeXFont_PK::getGlyph(Q_UINT16 ch, bool generateCharacterPixmap, const TQC
     // If the character is not defined in the PK file, mark the
     // character as missing, and print an error message
     if (g->addr == 0) {
-      kdError(4300) << i18n("TexFont_PK::operator[]: Character %1 not defined in font %2").arg(ch).arg(parent->filename) << endl;
+      kdError(4300) << i18n("TexFont_PK::operator[]: Character %1 not defined in font %2").tqarg(ch).tqarg(tqparent->filename) << endl;
       g->addr = -1;
       return g;
     }
@@ -163,7 +163,7 @@ glyph* TeXFont_PK::getGlyph(Q_UINT16 ch, bool generateCharacterPixmap, const TQC
       ((g->shrunkenCharacter.isNull()) || (color != g->color)) &&
       (characterBitmaps[ch]->w != 0)) {
     g->color = color;
-    double shrinkFactor = 1200 / parent->displayResolution_in_dpi;
+    double shrinkFactor = 1200 / tqparent->displayResolution_in_dpi;
     
     // All is fine? Then we rescale the bitmap in order to produce the
     // required pixmap.  Rescaling a character, however, is an art
@@ -209,10 +209,10 @@ glyph* TeXFont_PK::getGlyph(Q_UINT16 ch, bool generateCharacterPixmap, const TQC
     
     // Turn the image into 8 bit
     TQByteArray translated(characterBitmaps[ch]->w * characterBitmaps[ch]->h);
-    Q_UINT8 *data = (Q_UINT8 *)translated.data();
+    TQ_UINT8 *data = (TQ_UINT8 *)translated.data();
     for(int x=0; x<characterBitmaps[ch]->w; x++)
       for(int y=0; y<characterBitmaps[ch]->h; y++) {
-	Q_UINT8 bit = *(characterBitmaps[ch]->bits + characterBitmaps[ch]->bytes_wide*y + (x >> 3));
+	TQ_UINT8 bit = *(characterBitmaps[ch]->bits + characterBitmaps[ch]->bytes_wide*y + (x >> 3));
 	bit = bit >> (x & 7);
 	bit = bit & 1;
 	data[characterBitmaps[ch]->w*y + x] = bit;
@@ -220,7 +220,7 @@ glyph* TeXFont_PK::getGlyph(Q_UINT16 ch, bool generateCharacterPixmap, const TQC
     
     // Now shrink the image. We shrink the X-direction first
     TQByteArray xshrunk(shrunk_width*characterBitmaps[ch]->h);
-    Q_UINT8 *xdata = (Q_UINT8 *)xshrunk.data();
+    TQ_UINT8 *xdata = (TQ_UINT8 *)xshrunk.data();
     
     // Do the shrinking. The pixel (x,y) that we want to calculate
     // corresponds to the line segment from 
@@ -231,7 +231,7 @@ glyph* TeXFont_PK::getGlyph(Q_UINT16 ch, bool generateCharacterPixmap, const TQC
 
     for(int y=0; y<characterBitmaps[ch]->h; y++)
       for(int x=0; x<shrunk_width; x++) {
-	Q_UINT32 value = 0;
+	TQ_UINT32 value = 0;
 	double destStartX = shrinkFactor*x+srcXTrans;
 	double destEndX   = shrinkFactor*(x+1)+srcXTrans;
 	for(int srcX=(int)ceil(destStartX); srcX<floor(destEndX); srcX++)
@@ -239,19 +239,19 @@ glyph* TeXFont_PK::getGlyph(Q_UINT16 ch, bool generateCharacterPixmap, const TQC
 	    value += data[characterBitmaps[ch]->w*y + srcX] * 255;
 	
 	if (destStartX >= 0.0)
-	  value += (Q_UINT32) (255.0*(ceil(destStartX)-destStartX) * data[characterBitmaps[ch]->w*y + (int)floor(destStartX)]);
+	  value += (TQ_UINT32) (255.0*(ceil(destStartX)-destStartX) * data[characterBitmaps[ch]->w*y + (int)floor(destStartX)]);
 	if (floor(destEndX) < characterBitmaps[ch]->w)
-	  value += (Q_UINT32) (255.0*(destEndX-floor(destEndX)) * data[characterBitmaps[ch]->w*y + (int)floor(destEndX)]);
+	  value += (TQ_UINT32) (255.0*(destEndX-floor(destEndX)) * data[characterBitmaps[ch]->w*y + (int)floor(destEndX)]);
 	
 	xdata[shrunk_width*y + x] = (int)(value/shrinkFactor + 0.5);
       }
     
     // Now shrink the Y-direction
     TQByteArray xyshrunk(shrunk_width*shrunk_height);
-    Q_UINT8 *xydata = (Q_UINT8 *)xyshrunk.data();
+    TQ_UINT8 *xydata = (TQ_UINT8 *)xyshrunk.data();
     for(int x=0; x<shrunk_width; x++)
       for(int y=0; y<shrunk_height; y++) {
-	Q_UINT32 value = 0;
+	TQ_UINT32 value = 0;
 	double destStartY = shrinkFactor*y+srcYTrans;
 	double destEndY   = shrinkFactor*(y+1)+srcYTrans;
 	for(int srcY=(int)ceil(destStartY); srcY<floor(destEndY); srcY++)
@@ -259,31 +259,31 @@ glyph* TeXFont_PK::getGlyph(Q_UINT16 ch, bool generateCharacterPixmap, const TQC
 	    value += xdata[shrunk_width*srcY + x];
 	
 	if (destStartY >= 0.0)
-	  value += (Q_UINT32) ((ceil(destStartY)-destStartY) * xdata[shrunk_width*(int)floor(destStartY) + x]);
+	  value += (TQ_UINT32) ((ceil(destStartY)-destStartY) * xdata[shrunk_width*(int)floor(destStartY) + x]);
 	if (floor(destEndY) < characterBitmaps[ch]->h)
-	  value += (Q_UINT32) ((destEndY-floor(destEndY)) * xdata[shrunk_width*(int)floor(destEndY) + x]);
+	  value += (TQ_UINT32) ((destEndY-floor(destEndY)) * xdata[shrunk_width*(int)floor(destEndY) + x]);
 	
 	xydata[shrunk_width*y + x] = (int)(value/shrinkFactor);
       }
     
     TQImage im32(shrunk_width, shrunk_height, 32);
     im32.setAlphaBuffer(true);
-    // Do QPixmaps fully support the alpha channel? If yes, we use
+    // Do TQPixmaps fully support the alpha channel? If yes, we use
     // that. Otherwise, use other routines as a fallback
-    if (parent->font_pool->QPixmapSupportsAlpha) {
+    if (tqparent->font_pool->TQPixmapSupportsAlpha) {
       // If the alpha channel is properly supported, we set the
       // character glyph to a colored rectangle, and define the
       // character outline only using the alpha channel. That ensures
       // good quality rendering for overlapping characters.
-      im32.fill(qRgb(color.red(), color.green(), color.blue()));
-      for(Q_UINT16 y=0; y<shrunk_height; y++) {
-	Q_UINT8 *destScanLine = (Q_UINT8 *)im32.scanLine(y);
-	for(Q_UINT16 col=0; col<shrunk_width; col++) 
+      im32.fill(tqRgb(color.red(), color.green(), color.blue()));
+      for(TQ_UINT16 y=0; y<shrunk_height; y++) {
+	TQ_UINT8 *destScanLine = (TQ_UINT8 *)im32.scanLine(y);
+	for(TQ_UINT16 col=0; col<shrunk_width; col++) 
 	  destScanLine[4*col+3] = xydata[shrunk_width*y + col];
       }
     } else {
       // If the alpha channel is not supported... QT seems to turn the
-      // alpha channel into a crude bitmap which is used to mask the
+      // alpha channel into a crude bitmap which is used to tqmask the
       // resulting TQPixmap. In this case, we define the character
       // outline using the image data, and use the alpha channel only
       // to store "maximally opaque" or "completely transparent"
@@ -291,18 +291,18 @@ glyph* TeXFont_PK::getGlyph(Q_UINT16 ch, bool generateCharacterPixmap, const TQC
       // are no longer correctly drawn, but quality is still
       // sufficient for most purposes. One notable exception is output
       // from the gftodvi program, which will be partially unreadable.
-      Q_UINT16 rInv = 0xFF - color.red();
-      Q_UINT16 gInv = 0xFF - color.green();
-      Q_UINT16 bInv = 0xFF - color.blue();
+      TQ_UINT16 rInv = 0xFF - color.red();
+      TQ_UINT16 gInv = 0xFF - color.green();
+      TQ_UINT16 bInv = 0xFF - color.blue();
       
-      Q_UINT8 *srcScanLine = xydata;
-      for(Q_UINT16 y=0; y<shrunk_height; y++) {
+      TQ_UINT8 *srcScanLine = xydata;
+      for(TQ_UINT16 y=0; y<shrunk_height; y++) {
 	unsigned int *destScanLine = (unsigned int *)im32.scanLine(y);
-	for(Q_UINT16 col=0; col<shrunk_width; col++) {
-	  Q_UINT16 data =  *srcScanLine;
+	for(TQ_UINT16 col=0; col<shrunk_width; col++) {
+	  TQ_UINT16 data =  *srcScanLine;
 	  // The value stored in "data" now has the following meaning:
 	  // data = 0 -> white; data = 0xff -> use "color"
-	  *destScanLine = qRgba(0xFF - (rInv*data + 0x7F) / 0xFF,
+	  *destScanLine = tqRgba(0xFF - (rInv*data + 0x7F) / 0xFF,
 				0xFF - (gInv*data + 0x7F) / 0xFF,
 				0xFF - (bInv*data + 0x7F) / 0xFF,
 				(data > 0x03) ? 0xff : 0x00);
@@ -320,8 +320,8 @@ glyph* TeXFont_PK::getGlyph(Q_UINT16 ch, bool generateCharacterPixmap, const TQC
 
 
 
-#define	ADD(a, b)	((Q_UINT32 *) (((char *) a) + b))
-#define	SUB(a, b)	((Q_UINT32 *) (((char *) a) - b))
+#define	ADD(a, b)	((TQ_UINT32 *) (((char *) a) + b))
+#define	SUB(a, b)	((TQ_UINT32 *) (((char *) a) - b))
 
 
 
@@ -347,7 +347,7 @@ static const uchar bitflip[256] = {
   15, 143, 79, 207, 47, 175, 111, 239, 31, 159, 95, 223, 63, 191, 127, 255
 };                                                                              
 
-static Q_UINT32	bit_masks[33] = {
+static TQ_UINT32	bit_tqmasks[33] = {
 	0x0,		0x1,		0x3,		0x7,
 	0xf,		0x1f,		0x3f,		0x7f,
 	0xff,		0x1ff,		0x3ff,		0x7ff,
@@ -454,7 +454,7 @@ void TeXFont_PK::PK_skip_specials()
       case PK_NOOP :
 	break;
       default :
-	oops(i18n("Unexpected %1 in PK file %2").arg(PK_flag_byte).arg(parent->filename) );
+	oops(i18n("Unexpected %1 in PK file %2").tqarg(PK_flag_byte).tqarg(tqparent->filename) );
 	break;
       }
     }
@@ -477,11 +477,11 @@ void TeXFont_PK::read_PK_char(unsigned int ch)
   int	n;
   int	row_bit_pos;
   bool	paint_switch;
-  Q_UINT32	*cp;
+  TQ_UINT32	*cp;
   register struct glyph *g;
   register FILE *fp = file;
   long	fpwidth;
-  Q_UINT32	word = 0;
+  TQ_UINT32	word = 0;
   int	word_weight, bytes_wide;
   int	rows_left, h_bit, count;
   
@@ -521,7 +521,7 @@ void TeXFont_PK::read_PK_char(unsigned int ch)
     w = num(fp, n);
     h = num(fp, n);
     if (w > 0x7fff || h > 0x7fff)
-      oops(i18n("The character %1 is too large in file %2").arg(ch).arg(parent->filename));
+      oops(i18n("The character %1 is too large in file %2").tqarg(ch).tqarg(tqparent->filename));
     characterBitmaps[ch]->w = w;
     characterBitmaps[ch]->h = h;
   }
@@ -537,7 +537,7 @@ void TeXFont_PK::read_PK_char(unsigned int ch)
     characterBitmaps[ch]->bits = new char[size != 0 ? size : 1];
   }
   
-  cp = (Q_UINT32 *) characterBitmaps[ch]->bits;
+  cp = (TQ_UINT32 *) characterBitmaps[ch]->bits;
   
   /*
    * read character data into *cp
@@ -595,12 +595,12 @@ void TeXFont_PK::read_PK_char(unsigned int ch)
 	    h_bit -= count;
 	    word_weight -= count;
 	    if (paint_switch)
-	      word |= bit_masks[count] << word_weight;
+	      word |= bit_tqmasks[count] << word_weight;
 	    count = 0;
 	  } else 
 	    if (count >= h_bit && h_bit <= word_weight) {
 	      if (paint_switch)
-		word |= bit_masks[h_bit] << (word_weight - h_bit);
+		word |= bit_tqmasks[h_bit] << (word_weight - h_bit);
 	      *cp++ = word;
 	      /* "output" row(s) */
 	      for (i = PK_repeat_count * bytes_wide / 4; i > 0; --i) {
@@ -615,7 +615,7 @@ void TeXFont_PK::read_PK_char(unsigned int ch)
 	      h_bit = characterBitmaps[ch]->w;
 	    } else {
 	      if (paint_switch)
-		word |= bit_masks[word_weight];
+		word |= bit_tqmasks[word_weight];
 	      *cp++ = word;
 	      word = 0;
 	      count -= word_weight;
@@ -625,10 +625,10 @@ void TeXFont_PK::read_PK_char(unsigned int ch)
 	}
 	paint_switch = 1 - paint_switch;
       }
-      if (cp != ((Q_UINT32 *) (characterBitmaps[ch]->bits + bytes_wide * characterBitmaps[ch]->h)))
-	oops(i18n("Wrong number of bits stored:  char. %1, font %2").arg(ch).arg(parent->filename));
+      if (cp != ((TQ_UINT32 *) (characterBitmaps[ch]->bits + bytes_wide * characterBitmaps[ch]->h)))
+	oops(i18n("Wrong number of bits stored:  char. %1, font %2").tqarg(ch).tqarg(tqparent->filename));
       if (rows_left != 0 || h_bit != characterBitmaps[ch]->w)
-	oops(i18n("Bad pk file (%1), too many bits").arg(parent->filename));
+	oops(i18n("Bad pk file (%1), too many bits").tqarg(tqparent->filename));
     }
     
     // The data in the bitmap is now in the processor's bit order,
@@ -679,14 +679,14 @@ void TeXFont_PK::read_PK_char(unsigned int ch)
 	while (count > 0) {
 	  if (count < word_weight && count < h_bit) {
 	    if (paint_switch)
-	      word |= bit_masks[count] << (32 - word_weight);
+	      word |= bit_tqmasks[count] << (32 - word_weight);
 	    h_bit -= count;
 	    word_weight -= count;
 	    count = 0;
 	  } else 
 	    if (count >= h_bit && h_bit <= word_weight) {
 	      if (paint_switch)
-		word |= bit_masks[h_bit] << (32 - word_weight);
+		word |= bit_tqmasks[h_bit] << (32 - word_weight);
 	      *cp++ = word;
 	      /* "output" row(s) */
 	      for (i = PK_repeat_count * bytes_wide / 4; i > 0; --i) {
@@ -701,7 +701,7 @@ void TeXFont_PK::read_PK_char(unsigned int ch)
 	      h_bit = characterBitmaps[ch]->w;
 	    } else {
 	      if (paint_switch)
-		word |= bit_masks[word_weight] << (32 - word_weight);
+		word |= bit_tqmasks[word_weight] << (32 - word_weight);
 	      *cp++ = word;
 	      word = 0;
 	      count -= word_weight;
@@ -711,10 +711,10 @@ void TeXFont_PK::read_PK_char(unsigned int ch)
 	}
 	paint_switch = 1 - paint_switch;
       }
-      if (cp != ((Q_UINT32 *) (characterBitmaps[ch]->bits + bytes_wide * characterBitmaps[ch]->h)))
-	oops(i18n("Wrong number of bits stored:  char. %1, font %2").arg(ch).arg(parent->filename));
+      if (cp != ((TQ_UINT32 *) (characterBitmaps[ch]->bits + bytes_wide * characterBitmaps[ch]->h)))
+	oops(i18n("Wrong number of bits stored:  char. %1, font %2").tqarg(ch).tqarg(tqparent->filename));
       if (rows_left != 0 || h_bit != characterBitmaps[ch]->w)
-	oops(i18n("Bad pk file (%1), too many bits").arg(parent->filename));
+	oops(i18n("Bad pk file (%1), too many bits").tqarg(tqparent->filename));
     }
   } // endif: big or small Endian?
 }
-- 
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