2 Copyright © 1995-2007, The AROS Development Team. All rights reserved.
5 Desc: Calculate the size a text needs in a specific rastport.
8 #include "graphics_intern.h"
9 #include <graphics/rastport.h>
11 /*****************************************************************************
14 #include <graphics/rastport.h>
15 #include <graphics/text.h>
16 #include <proto/graphics.h>
18 AROS_LH4(void, TextExtent
,
21 AROS_LHA(struct RastPort
*, rp
, A1
),
22 AROS_LHA(CONST_STRPTR
, string
, A0
),
23 AROS_LHA(ULONG
, count
, D0
),
24 AROS_LHA(struct TextExtent
*, textExtent
, A2
),
27 struct GfxBase
*, GfxBase
, 115, Graphics
)
30 This function determines the metric of the space
31 that a text string would render into.
35 string - address of string
36 count - number of characters
37 textExtent - storing place for the result
38 te_Width - same as TextLength() result: the rp_cp_x
39 advance that rendering this text would cause.
40 te_Height - same as tf_YSize. The height of the
42 te_Extent.MinX - the offset to the left side of the
43 rectangle this would render into. Often zero.
44 te_Extent.MinY - same as -tf_Baseline. The offset
45 from the baseline to the top of the rectangle
46 this would render into.
47 te_Extent.MaxX - the offset of the left side of the
48 rectangle this would render into. Often the
50 te_Extent.MaxY - same as tf_YSize-tf_Baseline-1.
51 The offset from the baseline to the bottom of
52 the rectangle this would render into.
67 29-10-95 digulla automatically created from
68 graphics_lib.fd and clib/graphics_protos.h
70 *****************************************************************************/
74 struct TextFont
*tf
= rp
->Font
;
76 textExtent
->te_Width
= TextLength(rp
, string
, count
);
77 textExtent
->te_Height
= tf
->tf_YSize
;
78 textExtent
->te_Extent
.MinY
= -tf
->tf_Baseline
;
79 textExtent
->te_Extent
.MaxY
= textExtent
->te_Height
- 1 - tf
->tf_Baseline
;
81 /* MinX/MaxX can be a bit more complicated if there are kerning/space tables */
83 if ((tf
->tf_Flags
& FPF_PROPORTIONAL
) || tf
->tf_CharKern
|| tf
->tf_CharSpace
)
86 WORD defaultidx
= NUMCHARS(tf
) - 1; /* Last glyph is the default glyph */
90 textExtent
->te_Extent
.MinX
= 0;
91 textExtent
->te_Extent
.MaxX
= 0;
100 if ( c
< tf
->tf_LoChar
|| c
> tf
->tf_HiChar
)
106 idx
= c
- tf
->tf_LoChar
;
109 #define CHECK_MINMAX(x) \
110 if ((x) < textExtent->te_Extent.MinX) textExtent->te_Extent.MinX = (x); \
111 if ((x) > textExtent->te_Extent.MaxX) textExtent->te_Extent.MaxX = (x);
113 x
+= ((WORD
*)tf
->tf_CharKern
)[idx
];
116 x2
= x
+ ( ( ((ULONG
*)tf
->tf_CharLoc
)[idx
] ) & 0xFFFF);
119 x
+= ((WORD
*)tf
->tf_CharSpace
)[idx
];
125 } /* while(count--) */
127 textExtent
->te_Extent
.MaxX
--;
131 } /* if ((tf->tf_Flags & FPF_PROPORTIONAL) || tf->tf_CharKern || tf->tf_CharSpace) */
134 /* Normal non-proportional Font */
135 textExtent
->te_Extent
.MinX
= 0;
136 textExtent
->te_Extent
.MaxX
= textExtent
->te_Width
- 1;
139 if (rp
->AlgoStyle
& FSF_BOLD
)
141 textExtent
->te_Extent
.MaxX
+= tf
->tf_BoldSmear
;
144 if (rp
->AlgoStyle
& FSF_ITALIC
)
151 **..##..##.. ..##..##..
156 textExtent
->te_Extent
.MaxX
+= tf
->tf_Baseline
/ 2;
157 textExtent
->te_Extent
.MinX
-= (tf
->tf_YSize
- tf
->tf_Baseline
) / 2;