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-rw-r--r--nx-X11/lib/font/Speedo/do_trns.c512
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diff --git a/nx-X11/lib/font/Speedo/do_trns.c b/nx-X11/lib/font/Speedo/do_trns.c
deleted file mode 100644
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--- a/nx-X11/lib/font/Speedo/do_trns.c
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-/* $Xorg: do_trns.c,v 1.3 2000/08/17 19:46:25 cpqbld Exp $ */
-
-/*
-
-Copyright 1989-1991, Bitstream Inc., Cambridge, MA.
-You are hereby granted permission under all Bitstream propriety rights to
-use, copy, modify, sublicense, sell, and redistribute the Bitstream Speedo
-software and the Bitstream Charter outline font for any purpose and without
-restrictions; provided, that this notice is left intact on all copies of such
-software or font and that Bitstream's trademark is acknowledged as shown below
-on all unmodified copies of such font.
-
-BITSTREAM CHARTER is a registered trademark of Bitstream Inc.
-
-
-BITSTREAM INC. DISCLAIMS ANY AND ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING
-WITHOUT LIMITATION THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
-PARTICULAR PURPOSE. BITSTREAM SHALL NOT BE LIABLE FOR ANY DIRECT OR INDIRECT
-DAMAGES, INCLUDING BUT NOT LIMITED TO LOST PROFITS, LOST DATA, OR ANY OTHER
-INCIDENTAL OR CONSEQUENTIAL DAMAGES, ARISING OUT OF OR IN ANY WAY CONNECTED
-WITH THE SPEEDO SOFTWARE OR THE BITSTREAM CHARTER OUTLINE FONT.
-
-*/
-/* $XFree86: xc/lib/font/Speedo/do_trns.c,v 1.3 2001/01/17 19:43:17 dawes Exp $ */
-
-/**************************** D O _ T R N S . C ******************************
- * *
- * This module is responsible for executing all intelligent transformation *
- * for bounding box and outline data *
- * *
- ****************************************************************************/
-
-
-#ifdef HAVE_CONFIG_H
-#include <config.h>
-#endif
-#include "spdo_prv.h" /* General definitions for Speedo */
-
-#define DEBUG 0
-
-#if DEBUG
-#include <stdio.h>
-#define SHOW(X) printf("X = %d\n", X)
-#else
-#define SHOW(X)
-#endif
-
-/***** GLOBAL VARIABLES *****/
-
-/***** GLOBAL FUNCTIONS *****/
-
-/***** EXTERNAL VARIABLES *****/
-
-/***** EXTERNAL FUNCTIONS *****/
-
-/***** STATIC VARIABLES *****/
-
-/***** STATIC FUNCTIONS *****/
-
-static void sp_split_curve(PROTO_DECL2 point_t P1,point_t P2,point_t P3,fix15 depth);
-static ufix8 FONTFAR *sp_get_args(PROTO_DECL2 ufix8 FONTFAR *pointer,ufix8 format,point_t STACKFAR *pP);
-
-
-FUNCTION ufix8 FONTFAR *read_bbox(
-GDECL
-ufix8 FONTFAR *pointer, /* Pointer to next byte in char data */
-point_t STACKFAR *pPmin, /* Lower left corner of bounding box */
-point_t STACKFAR *pPmax, /* Upper right corner of bounding box */
-boolean set_flag) /* flag to indicate whether global oru bbox should be saved */
-/*
- * Called by make_simp_char() and make_comp_char() to read the
- * bounding box data from the font.
- * Sets Pmin and Pmax to the bottom left and top right corners
- * of the bounding box after transformation into device space.
- * The units of Pmin and Pmax are sub-pixels.
- * Updates *ppointer to point to the byte following the
- * bounding box data.
- */
-{
-ufix8 format1;
-ufix8 format = 0;
-fix15 i;
-point_t P;
-
-sp_globals.x_int = 0;
-sp_globals.y_int = sp_globals.Y_int_org;
-sp_globals.x_orus = sp_globals.y_orus = 0;
-format1 = NEXT_BYTE(pointer);
-pointer = sp_get_args(pointer, format1, pPmin);
-#if INCL_SQUEEZING || INCL_ISW
-if (set_flag)
- {
- sp_globals.bbox_xmin_orus = sp_globals.x_orus;
- sp_globals.bbox_ymin_orus = sp_globals.y_orus;
- }
-#endif
-*pPmax = *pPmin;
-for (i = 1; i < 4; i++)
- {
- switch(i)
- {
- case 1:
- if (format1 & BIT6) /* Xmax requires X int zone 1? */
- sp_globals.x_int++;
- format = (format1 >> 4) | 0x0c;
- break;
-
- case 2:
- if (format1 & BIT7) /* Ymax requires Y int zone 1? */
- sp_globals.y_int++;
- format = NEXT_BYTE(pointer);
- break;
-
- case 3:
- sp_globals.x_int = 0;
- format >>= 4;
- break;
-
- default:
- break;
- }
-
- pointer = sp_get_args(pointer, format, &P);
-#if INCL_SQUEEZING || INCL_ISW
- if (set_flag && (i==2))
- {
- sp_globals.bbox_xmax_orus = sp_globals.x_orus;
- sp_globals.bbox_ymax_orus = sp_globals.y_orus;
- }
-#endif
- if ((i == 2) || (!sp_globals.normal))
- {
- if (P.x < pPmin->x)
- pPmin->x = P.x;
- if (P.y < pPmin->y)
- pPmin->y = P.y;
- if (P.x > pPmax->x)
- pPmax->x = P.x;
- if (P.y > pPmax->y)
- pPmax->y = P.y;
- }
- }
-
-#if DEBUG
-printf("BBOX %6.1f(Xint 0), %6.1f(Yint 0), %6.1f(Xint %d), %6.1f(Yint %d)\n",
- (real)pPmin->x / (real)sp_globals.onepix,
- (real)pPmin->y / (real)sp_globals.onepix,
- (real)pPmax->x / (real)sp_globals.onepix,
- (format1 >> 6) & 0x01,
- (real)pPmax->y / (real)sp_globals.onepix,
- (format1 >> 7) & 0x01);
-
-#endif
-return pointer;
-}
-
-FUNCTION void proc_outl_data(
-GDECL
-ufix8 FONTFAR *pointer) /* Pointer to next byte in char data */
-/*
- * Called by make_simp_char() and make_comp_char() to read the
- * outline data from the font.
- * The outline data is parsed, transformed into device coordinates
- * and passed to an output module for further processing.
- * Note that pointer is not updated to facilitate repeated
- * processing of the outline data when banding mode is in effect.
- */
-{
-ufix8 format1, format2;
-point_t P0, P1, P2, P3;
-fix15 depth;
-fix15 curve_count;
-
-sp_globals.x_int = 0;
-sp_globals.y_int = sp_globals.Y_int_org;
-#if INCL_PLAID_OUT /* Plaid data monitoring included? */
-record_xint((fix15)sp_globals.x_int); /* Record xint data */
-record_yint((fix15)(sp_globals.y_int - sp_globals.Y_int_org)); /* Record yint data */
-#endif
-
-sp_globals.x_orus = sp_globals.y_orus = 0;
-curve_count = 0;
-while(TRUE)
- {
- format1 = NEXT_BYTE(pointer);
- switch(format1 >> 4)
- {
- case 0: /* LINE */
- pointer = sp_get_args(pointer, format1, &P1);
-#if DEBUG
- printf("LINE %6.1f, %6.1f\n",
- (real)P1.x / (real)sp_globals.onepix, (real)P1.y / (real)sp_globals.onepix);
-#endif
- fn_line(P1);
- sp_globals.P0 = P1;
- continue;
-
- case 1: /* Short XINT */
- sp_globals.x_int = format1 & 0x0f;
-#if DEBUG
- printf("XINT %d\n", sp_globals.x_int);
-#endif
-#if INCL_PLAID_OUT /* Plaid data monitoring included? */
-record_xint((fix15)sp_globals.x_int); /* Record xint data */
-#endif
- continue;
-
- case 2: /* Short YINT */
- sp_globals.y_int = sp_globals.Y_int_org + (format1 & 0x0f);
-#if DEBUG
- printf("YINT %d\n", sp_globals.y_int - sp_globals.Y_int_org);
-#endif
-#if INCL_PLAID_OUT /* Plaid data monitoring included? */
-record_yint((fix15)(sp_globals.y_int - sp_globals.Y_int_org)); /* Record yint data */
-#endif
- continue;
-
- case 3: /* Miscellaneous */
- switch(format1 & 0x0f)
- {
- case 0: /* END */
- if (curve_count)
- {
- fn_end_contour();
- }
- return;
-
- case 1: /* Long XINT */
- sp_globals.x_int = NEXT_BYTE(pointer);
-#if DEBUG
- printf("XINT %d\n", sp_globals.x_int);
-#endif
-#if INCL_PLAID_OUT /* Plaid data monitoring included? */
-record_xint((fix15)sp_globals.x_int); /* Record xint data */
-#endif
- continue;
-
- case 2: /* Long YINT */
- sp_globals.y_int = sp_globals.Y_int_org + NEXT_BYTE(pointer);
-#if DEBUG
- printf("YINT %d\n", sp_globals.y_int - sp_globals.Y_int_org);
-#endif
-#if INCL_PLAID_OUT /* Plaid data monitoring included? */
-record_yint((fix15)(sp_globals.y_int - sp_globals.Y_int_org)); /* Record yint data */
-#endif
- continue;
-
- default: /* Not used */
- continue;
- }
-
- case 4: /* MOVE Inside */
- case 5: /* MOVE Outside */
- if (curve_count++)
- {
- fn_end_contour();
- }
-
- pointer = sp_get_args(pointer, format1, &P0);
- sp_globals.P0 = P0;
-#if DEBUG
- printf("MOVE %6.1f, %6.1f\n",
- (real)sp_globals.P0.x / (real)sp_globals.onepix, (real)sp_globals.P0.y / (real)sp_globals.onepix);
-#endif
- fn_begin_contour(sp_globals.P0, (boolean)(format1 & BIT4));
- continue;
-
- case 6: /* Undefined */
-#if DEBUG
- printf("*** Undefined instruction (Hex %4x)\n", format1);
-#endif
- continue;
-
- case 7: /* Undefined */
-#if DEBUG
- printf("*** Undefined instruction (Hex %4x)\n", format1);
-#endif
- continue;
-
- default: /* CRVE */
- format2 = NEXT_BYTE(pointer);
- pointer = sp_get_args(pointer, format1, &P1);
- pointer = sp_get_args(pointer, format2, &P2);
- pointer = sp_get_args(pointer, (ufix8)(format2 >> 4), &P3);
- depth = (format1 >> 4) & 0x07;
-#if DEBUG
- printf("CRVE %6.1f, %6.1f, %6.1f, %6.1f, %6.1f, %6.1f, %d\n",
- (real)P1.x / (real)sp_globals.onepix, (real)P1.y / (real)sp_globals.onepix,
- (real)P2.x / (real)sp_globals.onepix, (real)P2.y / (real)sp_globals.onepix,
- (real)P3.x / (real)sp_globals.onepix, (real)P3.y / (real)sp_globals.onepix,
- depth);
-#endif
- depth += sp_globals.depth_adj;
- if (sp_globals.curves_out)
- {
- fn_curve(P1, P2, P3, depth);
- sp_globals.P0 = P3;
- continue;
- }
- if (depth <= 0)
- {
- fn_line(P3);
- sp_globals.P0 = P3;
- continue;
- }
- sp_split_curve(P1, P2, P3, depth);
- continue;
- }
- }
-}
-
-FUNCTION static void sp_split_curve(
-GDECL
-point_t P1, /* First control point of Bezier curve */
-point_t P2, /* Second control point of Bezier curve */
-point_t P3, /* End point of Bezier curve */
-fix15 depth) /* Levels of recursive subdivision required */
-/*
- * Called by proc_outl_data() to subdivide Bezier curves into an
- * appropriate number of vectors, whenever curves are not enabled
- * for output to the currently selected output module.
- * sp_split_curve() calls itself recursively to the depth specified
- * at which point it calls line() to deliver each vector resulting
- * from the spliting process.
- */
-{
-fix31 X0 = (fix31)sp_globals.P0.x;
-fix31 Y0 = (fix31)sp_globals.P0.y;
-fix31 X1 = (fix31)P1.x;
-fix31 Y1 = (fix31)P1.y;
-fix31 X2 = (fix31)P2.x;
-fix31 Y2 = (fix31)P2.y;
-fix31 X3 = (fix31)P3.x;
-fix31 Y3 = (fix31)P3.y;
-point_t Pmid;
-point_t Pctrl1;
-point_t Pctrl2;
-
-#if DEBUG
-printf("CRVE(%3.1f, %3.1f, %3.1f, %3.1f, %3.1f, %3.1f)\n",
- (real)P1.x / (real)sp_globals.onepix, (real)P1.y / (real)sp_globals.onepix,
- (real)P2.x / (real)sp_globals.onepix, (real)P2.y / (real)sp_globals.onepix,
- (real)P3.x / (real)sp_globals.onepix, (real)P3.y / (real)sp_globals.onepix);
-#endif
-
-
-Pmid.x = (X0 + (X1 + X2) * 3 + X3 + 4) >> 3;
-Pmid.y = (Y0 + (Y1 + Y2) * 3 + Y3 + 4) >> 3;
-if ((--depth) <= 0)
- {
- fn_line(Pmid);
- sp_globals.P0 = Pmid;
- fn_line(P3);
- sp_globals.P0 = P3;
- }
-else
- {
- Pctrl1.x = (X0 + X1 + 1) >> 1;
- Pctrl1.y = (Y0 + Y1 + 1) >> 1;
- Pctrl2.x = (X0 + (X1 << 1) + X2 + 2) >> 2;
- Pctrl2.y = (Y0 + (Y1 << 1) + Y2 + 2) >> 2;
- sp_split_curve(Pctrl1, Pctrl2, Pmid, depth);
- Pctrl1.x = (X1 + (X2 << 1) + X3 + 2) >> 2;
- Pctrl1.y = (Y1 + (Y2 << 1) + Y3 + 2) >> 2;
- Pctrl2.x = (X2 + X3 + 1) >> 1;
- Pctrl2.y = (Y2 + Y3 + 1) >> 1;
- sp_split_curve(Pctrl1, Pctrl2, P3, depth);
- }
-}
-
-FUNCTION static ufix8 FONTFAR *sp_get_args(
-GDECL
-ufix8 FONTFAR *pointer, /* Pointer to next byte in char data */
-ufix8 format, /* Format specifiaction of argument pair */
-point_t STACKFAR *pP) /* Resulting transformed point */
-/*
- * Called by read_bbox() and proc_outl_data() to read an X Y argument
- * pair from the font.
- * The format is specified as follows:
- * Bits 0-1: Type of X argument.
- * Bits 2-3: Type of Y argument.
- * where the 4 possible argument types are:
- * Type 0: Controlled coordinate represented by one byte
- * index into the X or Y controlled coordinate table.
- * Type 1: Interpolated coordinate represented by a two-byte
- * signed integer.
- * Type 2: Interpolated coordinate represented by a one-byte
- * signed increment/decrement relative to the
- * proceding X or Y coordinate.
- * Type 3: Repeat of preceding X or Y argument value and type.
- * The units of P are sub-pixels.
- * Updates *ppointer to point to the byte following the
- * argument pair.
- */
-{
-ufix8 edge;
-
-/* Read X argument */
-switch(format & 0x03)
- {
-case 0: /* Index to controlled oru */
- edge = NEXT_BYTE(pointer);
- sp_globals.x_orus = sp_plaid.orus[edge];
-#if INCL_RULES
- sp_globals.x_pix = sp_plaid.pix[edge];
-#endif
- break;
-
-case 1: /* 2 byte interpolated oru value */
- sp_globals.x_orus = NEXT_WORD(pointer);
- goto L1;
-
-case 2: /* 1 byte signed oru increment */
- sp_globals.x_orus += (fix15)((fix7)NEXT_BYTE(pointer));
-L1:
-#if INCL_RULES
- sp_globals.x_pix = TRANS(sp_globals.x_orus, sp_plaid.mult[sp_globals.x_int], sp_plaid.offset[sp_globals.x_int], sp_globals.mpshift);
-#endif
- break;
-
-default: /* No change in X value */
- break;
- }
-
-/* Read Y argument */
-switch((format >> 2) & 0x03)
- {
-case 0: /* Index to controlled oru */
- edge = sp_globals.Y_edge_org + NEXT_BYTE(pointer);
- sp_globals.y_orus = sp_plaid.orus[edge];
-#if INCL_RULES
- sp_globals.y_pix = sp_plaid.pix[edge];
-#endif
- break;
-
-case 1: /* 2 byte interpolated oru value */
- sp_globals.y_orus = NEXT_WORD(pointer);
- goto L2;
-
-case 2: /* 1 byte signed oru increment */
- sp_globals.y_orus += (fix15)((fix7)NEXT_BYTE(pointer));
-L2:
-#if INCL_RULES
- sp_globals.y_pix = TRANS(sp_globals.y_orus, sp_plaid.mult[sp_globals.y_int], sp_plaid.offset[sp_globals.y_int], sp_globals.mpshift);
-#endif
- break;
-
-default: /* No change in X value */
- break;
- }
-
-#if INCL_RULES
-switch(sp_globals.tcb.xmode)
- {
-case 0: /* X mode 0 */
- pP->x = sp_globals.x_pix;
- break;
-
-case 1: /* X mode 1 */
- pP->x = -sp_globals.x_pix;
- break;
-
-case 2: /* X mode 2 */
- pP->x = sp_globals.y_pix;
- break;
-
-case 3: /* X mode 3 */
- pP->x = -sp_globals.y_pix;
- break;
-
-default: /* X mode 4 */
-#endif
- pP->x = (MULT16(sp_globals.x_orus, sp_globals.tcb.xxmult) +
- MULT16(sp_globals.y_orus, sp_globals.tcb.xymult) +
- sp_globals.tcb.xoffset) >> sp_globals.mpshift;
-#if INCL_RULES
- break;
- }
-
-switch(sp_globals.tcb.ymode)
- {
-case 0: /* Y mode 0 */
- pP->y = sp_globals.y_pix;
- break;
-
-case 1: /* Y mode 1 */
- pP->y = -sp_globals.y_pix;
- break;
-
-case 2: /* Y mode 2 */
- pP->y = sp_globals.x_pix;
- break;
-
-case 3: /* Y mode 3 */
- pP->y = -sp_globals.x_pix;
- break;
-
-default: /* Y mode 4 */
-#endif
- pP->y = (MULT16(sp_globals.x_orus, sp_globals.tcb.yxmult) +
- MULT16(sp_globals.y_orus, sp_globals.tcb.yymult) +
- sp_globals.tcb.yoffset) >> sp_globals.mpshift;
-#if INCL_RULES
- break;
- }
-#endif
-
-return pointer;
-}
-
-
-
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