JPH04188190A - Character drawing device, character output compensation method, and character output device - Google Patents

Abstract

PURPOSE:To make line width compensation for any desired character size even if line fonts are not provided with additional information for line width compensation by extracting outline coordinates of horizontal and vertical lines from coordinate- transformed outline coordinates, making integers of the spaces between the outline coordinates, and re-calculating the outline coordinates according to the obtained integer spaces. CONSTITUTION:A data read unit 20 decodes face information and character codes transmitted from a host computer 1, and reads specified character outline coordinate data from a font memory unit 21 into a work memory 25. A coordinate transformation unit 22 receives character size information from the host computer 1 and transforms the read out character outline coordinate data to a specified size. The transformed character outline coordinate data are compensated in a line width compensation unit 23. Namely, the line width compensation unit 23 extracts the outline coordinate values of horizontal and vertical lines automatically from the character outline coordinate data and makes integers of each space individually. Thus line width compensation can be made for any desired character size of line fonts even if they are not provided with additional information for line width compensation.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to display devices such as laser beam printers and display devices, and in particular, to a display device suitable for outputting high-quality characters using an outline font. Concerning character devices.

[Conventional technology]

Outline fonts are a storage format for character data in display devices such as laser beam printers and displays. Outline fonts represent the shape of one character,
It is stored as a coordinate string of the outline of a character. To print this outline font, first convert each outline coordinate value to the desired print size, then
The process of filling the inside of the converted contour coordinates is performed.

Outline fonts have the advantage of being able to be freely scaled, rotated, transformed, etc., but when printing small characters of 64 x 64 dots or less, the line widths of the vertical and horizontal lines of the characters may be uneven due to quantization errors. Therefore, there is a problem that the display quality of characters deteriorates.

As a conventional method for correcting this line width, the line widths of vertical lines and horizontal lines are stored in a table in advance, and when printing, one of the two contour lines forming the vertical line and horizontal line is There is a method of correcting the line width by referring to the line width stored in a table using this as a reference line, determining the coordinates of the other contour line, and realizing high-quality printing.

In addition, as related to the prior art, Japanese Patent Application Laid-Open No. 2-181
There is No. 657.

[Problem to be solved by the invention]

However, in the conventional method described above, it is necessary to store line width information in a table for each character size.

Therefore, a problem arises in that the printable character size is limited by the presence or absence of line width information.

Further, in the conventional method described above, although it is possible to correct the line widths of horizontal and vertical lines, correction of a white area surrounded by two horizontal lines or two vertical lines is not considered.

An object of the present invention is to provide a character drawing device and the like that can perform line width correction for any character size even for outline fonts that do not have additional information for line width correction.

Another object of the present invention is to provide a high-quality character drawing device that takes into account not only the correction of the line width of horizontal and vertical lines, but also the correction of a white area surrounded by two horizontal lines or two vertical lines. Our goal is to provide the following.

[Means to solve the problem]

The above purpose is to extract the contour coordinates of horizontal and vertical lines from the contour coordinates after coordinate conversion, convert the intervals between the contour coordinates to integers, and recalculate each contour coordinate based on the obtained integer intervals. , achieved.

Also, if the interval between each contour coordinate is converted to an integer, the overall length will expand or contract, but one of the black area and white area is fixed with the same width, and the other is corrected while focusing on symmetry. , is achieved by correcting the overall length.

[Effect]

An integer interval calculation unit automatically extracts the contour coordinate values of horizontal and vertical lines from the character contour coordinate data, and converts each interval into an integer individually. This allows for any font size.
Even if line width correction information is not prepared in advance, the intervals between contour coordinates that were the same before being converted into integers will remain the same after being converted into integers.

Further, since the overall length correction section performs correction with emphasis on symmetry during correction, high-quality correction with maintained symmetry is possible.

〔Example〕

An embodiment of the present invention will be described below with reference to FIGS. 1 to 9.

FIG. 1 is a block diagram of a character drawing device according to an embodiment of the present invention. When the host computer 1 transfers a print command to the character drawing device 2, the character drawing device 2 generates a character image in response to the print command and transfers it to the display device 3.
The display device 3 is a laser beam printer, a graphic display, or a liquid crystal display device, and prints or displays the character image.

Character drawing device! 2, the data reading section 20
The font information and character code sent from the host computer 1 are decoded, and specified character contour coordinate data is read from the font storage section 20 to the work memory 25. The coordinate conversion section 22 receives character size information from the host computer 1, and converts the character contour coordinate data read into the work memory 25 to a predetermined size. At this time, the character contour coordinate data is a Bezier curve, a spline curve 9
If a curve expression such as a gate arc is included, the coordinate conversion unit 22 performs linear approximation processing. The converted character contour coordinate data is corrected in the line width correction section 23.

The filling unit 24 generates a character image by filling in the inside of one contour based on the corrected character contour coordinate data, and displays it on the display! Transfer to 3.

Inside the line width correction unit 23, the closed figure separation unit 230 first separates the character contour coordinate data converted by the coordinate conversion unit 22 into groups of coordinate data strings forming closed figures, and cuts out each group one by one. and instructs the range to the integer interval extraction unit 231. The following processing by the line width correction unit 23 is performed in order for each group divided by the closed figure separation unit 230.

FIG. 2 shows the operation of the integer interval extraction section 231.

In FIG. 2, the operation will be explained by taking as an example the processing for the X coordinate of the horizontal contour coordinate of the character "日". Below, the second
According to the figure, only the processing for the X coordinate of the horizontal line contour coordinates will be described, but the same processing will be performed for the X coordinate of the vertical line contour coordinates.

The X coordinate (yO to y6) of the horizontal line contour coordinate is extracted from the coordinate data group specified by the closed figure separation unit 230, and the above coordinate data is added to the X coordinate of the horizontal line contour coordinate.
The maximum and minimum values of the X coordinates in the group are added, sorted, and duplicate coordinate values are deleted and stored in the horizon table 1000.

Next, the difference (dyo to dy5) between adjacent coordinate values in the horizontal line table 1000 is calculated and stored in the horizontal line interval table 1001. Furthermore, each element of the horizontal line interval table 1001 is converted into an integer, and the result (idy.

~1dy5) is stored in the integer horizontal line spacing table 1002.

Also, the total of the elements of the horizontal line interval table 1001 (yt
) is calculated and stored in the overall length table 1003, and the integer overall length (iyt) obtained by converting the overall length (yt) into an integer is stored in the integer overall length table 1005. Furthermore, the integer horizontal line spacing (id) stored in the integer horizontal line spacing table 1002
yo to 1dy5) is calculated and stored in the integer horizontal line interval total table 1004.

Next, the difference (
dyt) is calculated and stored in the overall length error table 1006. The overall length error (dyt) stored in the overall length error table 1006 is used by the overall length correction unit 232.

On the other hand, when extracting the X coordinate of the horizontal line contour coordinates, it is checked whether each horizontal line contour coordinate corresponds to the upper side or the lower side of the line segment, and the result is stored in the horizontal line attribute table 1007. , the area surrounded by the lower side is determined to be a black area, and the other areas are determined to be white areas, and the results are stored in the area attribute table 100g. Area attribute table 100
The information stored in g is used by the overall length correction section 232.

In the overall length correction section 232, first, the overall length error table 10
The total length error (dyt) stored in 06 is checked, and if the total length error (dyt) is 0, a correction process is performed, and if it is 0, no process is performed, and the next coordinate point correction unit 233 is activated. be done.

When the overall length error (dyt) is not 0, the overall length correction unit 232 corrects the overall length by the following process shown in FIG. First, in step 2000, the contents of the R changeable table 1009 are initialized to be unchangeable and changeable, respectively, in correspondence with the attributes of the black area and white area in the area attribute table 100111. Next step 2001
In this step, among the elements of the integer horizontal line spacing table 1002 whose contents can be changed in the corresponding changeable table 1009, the area with the largest width is restored. This will be called the change target area.

Here, let the absolute value of the overall length error (dyt) be adyt,
Let dyt÷adyt be 5 dyt. Step 2002
In step 2003, if the number of areas to be changed is smaller than or equal to adyt, 5 dyt is added to the width of all the areas to be changed, and in step 2004, if dyt is greater than 0, step 2005
Changeable table 1 corresponding to the change target area in
Make the contents of 009 unchangeable.

On the other hand, in step 2002, if the number of regions to be changed is greater than adyt, the overall length error is distributed to the regions to be changed. At this time, in step 2006, if the adyt is an odd number, 5dyt is added to the width of the change target area starting from the center area of the change target area in step 2007, and if it is an even number, 5 dyt is added to the width of the change target area in order from both end areas in step 2008. To go.

After the above processing, in step 2009, adyt
Subtract the number of areas to be changed from, and as a result, adyt is 0.
If it is below, the overall length correction process is ended and the primary coordinate point correction unit 233 is activated. If adyt is greater than 0, the process returns to step 2002.

FIGS. 4 and 5 show changes in the pattern of character figures by the overall length correction section 232. FIG.

FIG. 4 shows the case where the area with the maximum width is less than adyt, and step 2002.2003.2004.20
05° 2009 and 2010 are repeated three times. The black area has a width of 1 and does not change, and the white area increases in width by 1 dot starting from the widest area. In FIG. 5, there are multiple regions with the maximum width, and the number of regions is larger than adyt. The width is corrected in order from the white area.

On the other hand, the right diagram shows a case where the correction amount adyt is an even number, and steps 2002, 2006, and 2008 are executed to correct the width in order from the white area at both ends.

After the process of the overall length correction unit 232 is completed as described above,
A coordinate point correction unit 233 corrects the character outline coordinate data. The coordinate point correction unit 233 first determines the contour coordinate values of the horizontal and vertical lines, and then corrects each coordinate point using the contour coordinate values of the horizontal and vertical lines as a reference.

FIG. 6 shows how the contour coordinate values of the horizontal line are determined.

By adding each element of the integer horizontal line spacing table 1002, the corrected horizontal line contour coordinates (nyo”ny6
) is generated and stored in the corrected horizon table 101O. That is, nyl is calculated by adding an integer interval of 1 dyo to the reference point coordinate nyo. Add 1dyl to nyl to find ny2. Similarly, add nyi and 1dyi to ny(
i+1) is repeated.

After all corrected horizontal lines (nyO to ny6) are found,
Correct all coordinate points. That is, the following processing is performed for each coordinate point. First, coordinate values to be corrected and horizon table 1
000 to find out which area the coordinate point belongs to. Next, as shown in Figure 7, the coordinate point y is y
Assuming that it is between i and y (i÷1), the corrected coordinate point ny is determined by the following formula.

y - yi ny - nyi The above embodiments have the effect that characters with uniform horizontal and vertical line widths can be printed or displayed without impairing the symmetry of the characters.

Another embodiment will be described with reference to FIGS. 7 and 8. In this embodiment, the contents of the changeable table 1009 are changed in step 2000 in FIG. 3 of the above embodiment.

In correspondence with the attributes of the black area and white area in the area attribute table 1008, they are initially set to be changeable or unchangeable, respectively.

FIGS. 7 and 8 show changes in the pattern of characters and figures by the overall length correction section 232.

FIG. 7 shows the case where the area with the maximum width is less than adyt, and the third step 2002.2003.2004
゜2005, 2009, and 2010 are repeated three times.

The white area has a width of 1 and does not change, and the width of the black area increases by 1 dot starting from the widest area. FIG. 9 shows a case where there are multiple regions with the maximum width and the number of regions is larger than adyt. The width is corrected in order from the black area. On the other hand, the right diagram shows the case where the correction amount adyt is an even number, and step 2002
．． 2006 and 2008, and the width is corrected in order from the black areas at both ends.

The above-described embodiments have the advantage that characters with uniform horizontal and vertical line spacing can be printed or displayed without impairing the symmetry of the characters.

〔Effect of the invention〕

According to the present invention, line width correction can be performed for any character size even for outline fonts that do not have additional information for line width correction.

In addition to correcting the line widths of horizontal and vertical lines, it is also possible to correct the white area surrounded by two horizontal lines or two vertical lines, resulting in high-quality characters.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a character drawing device according to an embodiment of the present invention, FIG. 2 is an explanatory diagram of the processing method of the integer interval extraction section, FIG. 3 is a flowchart of the processing method of the overall length correction section, and FIG. FIG. 5 is an explanatory diagram of the first processing result of the overall length correction section. FIG. 6 is an explanatory diagram of the first processing result of the coordinate point correction section. The figure is an explanatory diagram of the second processing of the coordinate point correction section, FIG. 8 is an explanatory diagram of the first processing result of the overall length correction section in the second embodiment, and FIG. 9 is an illustration of the overall length correction section in the second embodiment. It is an explanatory diagram of the second processing result. l...Host computer, 2...Character drawing device, 3...
Display device, 20... Font storage section, 21. Data reading section, 22.. Coordinate conversion section, 23.. Line width correction section, 24.. Filling section, 230.. Closed figure separation section,
231...Integer interval extraction unit, 232...Overall length correction unit, 233...Coordinate point correction unit. Agent: Tadashi Akimoto, Patent Attorney Actual Figure 4 Figure 5 When the amount of correction is an odd number Figure 7 When the amount of correction is an even number Figure 9

Claims (1)

[Claims] 1. A font storage unit that stores character contour coordinate data forming an outline font, and a data readout unit that reads character contour coordinate data corresponding to a character code sent from a host computer from the font storage unit. a coordinate conversion unit that converts the character contour coordinate data to a predetermined character size by coordinate conversion, and a filling unit that fills in the inside of the converted character contour coordinate data, the character drawing device comprising: A closed figure separation unit that separates the converted character contour coordinate data into each closed figure, and y of the horizontal line contour coordinate from the character contour coordinate data separated by the closed figure separation unit.
Extract the x-coordinate of the horizontal line contour coordinate and the x-coordinate of the vertical line contour coordinate, find the interval between adjacent coordinate values for each of the extracted y-coordinate of the horizontal line contour coordinate and x-coordinate of the vertical line contour coordinate, and calculate the interval for each. An integer interval calculation unit that converts into an integer, and an area that has the integer interval if there is a difference between the total value and the overall length of the character by summing the intervals converted into integers by the integer interval calculation unit. an overall length correction unit that corrects at least one interval so that the total value matches the overall length; and y of the horizontal line contour coordinate by adding the interval corrected by the overall length correction unit. The x-coordinates of the coordinates and vertical line contour coordinates are recalculated, and the horizontal and vertical lines before recalculation are
A coordinate point correction unit that calculates the relative position to the vertical line contour coordinates and linearly maps the position to the recalculated relative position to the horizontal and vertical line contour coordinates to perform correction, and a line width correction unit that includes the following. Character drawing device. 2. The character drawing device according to claim 1, wherein the overall length correction section corrects the width dot by dot starting from the widest white area. 3. In claim 2, if there are a plurality of widest white areas, and the difference between the total value of the spacing and the overall length of the character is an odd number, the overall length correction unit is configured to: A character drawing device characterized in that when the number is even, the width is corrected one dot at a time starting from both end areas. 4. The character drawing device according to claim 1, wherein the overall length correction section corrects the width one dot at a time starting from the widest black area. 5. In claim 4, when there are a plurality of widest black areas, and the difference between the total value of the intervals and the overall length of the character is an odd number, the overall length correction unit is configured to: A character drawing device characterized in that when the number is even, correction is performed one dot at a time starting from both end areas. 6. A character drawing device according to any one of claims 1 to 5, a host computer that sends a print command to the character drawing device, and an output device that displays a character image generated by the character drawing device. A data processing device characterized by: 7. In claim 6, the output device includes a laser beam
A data processing device characterized in that it is any one of a printer, a graphic display terminal, and a liquid crystal display terminal. 8. The character drawing device according to claim 3, wherein the character contour coordinate data stored in the font storage section is such that two horizontal lines or vertical lines having the same line width have the same line width even after printing. 9. In claim 5, the character contour coordinate data stored in the font storage unit is defined as two white areas surrounded by two horizontal lines or vertical lines in one closed figure, and which have the same width. A character drawing device characterized in that a white area has the same width even after printing. 10. Find the y-coordinate value of each horizontal line contour coordinate that makes up the character from the character coordinate data of the outline font of the output target character converted to an arbitrary size, calculate the interval between adjacent y-coordinate values, and calculate the sum of each interval. A character output correction method characterized in that the difference between a value obtained by converting the value into an integer and a value that is the sum of the values obtained by converting each interval into an integer is used as a correction amount in the vertical direction when outputting the character. 11. Find the x-coordinate value of each vertical line contour coordinate that makes up the character from the character coordinate data of the outline font of the output target character converted to an arbitrary size, calculate the interval between adjacent x-coordinate values, and calculate the distance between each interval. A character output correction method characterized in that the difference between a value obtained by converting the total into an integer and a value obtained by adding up the values obtained by converting each interval into an integer is used as a correction amount in the horizontal direction when outputting the character. 12. Find the y-coordinate value of each horizontal line contour coordinate that makes up the character from the character coordinate data of the outline font of the output target character converted to an arbitrary size, calculate the interval between adjacent y-coordinate values, and calculate the sum of each interval. Find the difference between the value obtained by converting the value into an integer and the sum of the values obtained by converting each interval into an integer.
A character output correction method characterized in that the correction is performed dot by dot in a direction in which the difference becomes smaller. 13. Find the x-coordinate value of each vertical line contour coordinate that makes up the character from the character coordinate data of the outline font of the output target character converted to an arbitrary size, calculate the interval between adjacent x-coordinate values, and calculate the distance between each interval. Find the difference between the total value converted into an integer and the sum of the values converted into integers for each interval, and among the above-mentioned intervals, intervals indicating non-character areas are divided into 1 in descending order of interval.
A character output correction method characterized in that the correction is performed dot by dot in a direction in which the difference becomes smaller. 14. A character output device that outputs characters in an outline font, characterized by comprising means for outputting characters whose vertical and horizontal directions are corrected by each of the methods of claims 12 and 13. Character output device. 15. A character output device that outputs characters in an outline font, characterized by comprising means for executing the method of claims 10 and 11 and calculating the amount of correction in the vertical and horizontal directions of the characters to be output. Character output device.