.\" $XFree86$ '\" te '\"! tbl|eqn | mmdoc '\"macro stdmacro .ds Vn Version 1.2 .ds Dt 24 September 1999 .ds Re Release 1.2.1 .ds Dp Jan 14 18:30 .ds Dm 01 readpixel .ds Xs 11505 13 readpixels.gl .TH GLREADPIXELS 3G .SH NAME .B "glReadPixels \- read a block of pixels from the frame buffer .SH C SPECIFICATION void \f3glReadPixels\fP( GLint \fIx\fP, .nf .ta \w'\f3void \fPglReadPixels( 'u GLint \fIy\fP, GLsizei \fIwidth\fP, GLsizei \fIheight\fP, GLenum \fIformat\fP, GLenum \fItype\fP, GLvoid \fI*pixels\fP ) .fi .EQ delim $$ .EN .SH PARAMETERS .TP \w'\f2x\fP\ \f2y\fP\ \ 'u \f2x\fP, \f2y\fP Specify the window coordinates of the first pixel that is read from the frame buffer. This location is the lower left corner of a rectangular block of pixels. .TP \f2width\fP, \f2height\fP Specify the dimensions of the pixel rectangle. \f2width\fP and \f2height\fP of one correspond to a single pixel. .TP \f2format\fP Specifies the of the pixel data. The following symbolic values are accepted: \%\f3GL_COLOR_INDEX\fP, \%\f3GL_STENCIL_INDEX\fP, \%\f3GL_DEPTH_COMPONENT\fP, \%\f3GL_RED\fP, \%\f3GL_GREEN\fP, \%\f3GL_BLUE\fP, \%\f3GL_ALPHA\fP, \%\f3GL_RGB\fP, \%\f3GL_BGR\fP, \%\f3GL_RGBA\fP, \%\f3GL_BGRA\fP, \%\f3GL_LUMINANCE\fP, and \%\f3GL_LUMINANCE_ALPHA\fP. .TP \f2type\fP Specifies the data type of the pixel data. Must be one of \%\f3GL_UNSIGNED_BYTE\fP, \%\f3GL_BYTE\fP, \%\f3GL_BITMAP\fP, \%\f3GL_UNSIGNED_SHORT\fP, \%\f3GL_SHORT\fP, \%\f3GL_UNSIGNED_INT\fP, \%\f3GL_INT\fP, \%\f3GL_FLOAT\fP, \%\f3GL_UNSIGNED_BYTE_3_3_2\fP, \%\f3GL_UNSIGNED_BYTE_2_3_3_REV\fP, \%\f3GL_UNSIGNED_SHORT_5_6_5\fP, \%\f3GL_UNSIGNED_SHORT_5_6_5_REV\fP, \%\f3GL_UNSIGNED_SHORT_4_4_4_4\fP, \%\f3GL_UNSIGNED_SHORT_4_4_4_4_REV\fP, \%\f3GL_UNSIGNED_SHORT_5_5_5_1\fP, \%\f3GL_UNSIGNED_SHORT_1_5_5_5_REV\fP, \%\f3GL_UNSIGNED_INT_8_8_8_8\fP, \%\f3GL_UNSIGNED_INT_8_8_8_8_REV\fP, \%\f3GL_UNSIGNED_INT_10_10_10_2\fP, or \%\f3GL_UNSIGNED_INT_2_10_10_10_REV\fP. .TP \f2pixels\fP Returns the pixel data. .SH DESCRIPTION \%\f3glReadPixels\fP returns pixel data from the frame buffer, starting with the pixel whose lower left corner is at location (\f2x\fP, \f2y\fP), into client memory starting at location \f2pixels\fP. Several parameters control the processing of the pixel data before it is placed into client memory. These parameters are set with three commands: \%\f3glPixelStore\fP, \%\f3glPixelTransfer\fP, and \%\f3glPixelMap\fP. This reference page describes the effects on \%\f3glReadPixels\fP of most, but not all of the parameters specified by these three commands. .P When the \%\f3GL_ARB_imaging\fP extension is supported, the pixel data may be processed by additional operations including color table lookup, color matrix transformations, convolutions, histograms and minimum and maximun pixel value computations. .P \%\f3glReadPixels\fP returns values from each pixel with lower left corner at (\f2x\fP + $i$, \f2y\fP + $j$) for 0 \(<= $i$ < \f2width\fP and 0 \(<= $j$ < \f2height\fP. This pixel is said to be the $i$th pixel in the $j$th row. Pixels are returned in row order from the lowest to the highest row, left to right in each row. .P \f2format\fP specifies the for the returned pixel values; accepted values are: .TP 10 \%\f3GL_COLOR_INDEX\fP Color indices are read from the color buffer selected by \%\f3glReadBuffer\fP. Each index is converted to fixed point, shifted left or right depending on the value and sign of \%\f3GL_INDEX_SHIFT\fP, and added to \%\f3GL_INDEX_OFFSET\fP. If \%\f3GL_MAP_COLOR\fP is \%\f3GL_TRUE\fP, indices are replaced by their mappings in the table \%\f3GL_PIXEL_MAP_I_TO_I\fP. .TP \%\f3GL_STENCIL_INDEX\fP Stencil values are read from the stencil buffer. Each index is converted to fixed point, shifted left or right depending on the value and sign of \%\f3GL_INDEX_SHIFT\fP, and added to \%\f3GL_INDEX_OFFSET\fP. If \%\f3GL_MAP_STENCIL\fP is \%\f3GL_TRUE\fP, indices are replaced by their mappings in the table \%\f3GL_PIXEL_MAP_S_TO_S\fP. .TP \%\f3GL_DEPTH_COMPONENT\fP Depth values are read from the depth buffer. Each component is converted to floating point such that the minimum depth value maps to 0 and the maximum value maps to 1. Each component is then multiplied by \%\f3GL_DEPTH_SCALE\fP, added to \%\f3GL_DEPTH_BIAS\fP, and finally clamped to the range [0,1]. .TP \%\f3GL_RED\fP .TP \%\f3GL_GREEN\fP .TP \%\f3GL_BLUE\fP .TP \%\f3GL_ALPHA\fP .TP \%\f3GL_RGB\fP .TP \%\f3GL_BGR\fP .TP \%\f3GL_RGBA\fP .TP \%\f3GL_BGRA\fP .TP \%\f3GL_LUMINANCE\fP .TP \%\f3GL_LUMINANCE_ALPHA\fP Processing differs depending on whether color buffers store color indices or RGBA color components. If color indices are stored, they are read from the color buffer selected by \%\f3glReadBuffer\fP. Each index is converted to fixed point, shifted left or right depending on the value and sign of \%\f3GL_INDEX_SHIFT\fP, and added to \%\f3GL_INDEX_OFFSET\fP. Indices are then replaced by the red, green, blue, and alpha values obtained by indexing the tables \%\f3GL_PIXEL_MAP_I_TO_R\fP, \%\f3GL_PIXEL_MAP_I_TO_G\fP, \%\f3GL_PIXEL_MAP_I_TO_B\fP, and \%\f3GL_PIXEL_MAP_I_TO_A\fP. Each table must be of size $2 sup n$, but $n$ may be different for different tables. Before an index is used to look up a value in a table of size $2 sup n$, it must be masked against $2 sup n - 1$. .IP If RGBA color components are stored in the color buffers, they are read from the color buffer selected by \%\f3glReadBuffer\fP. Each color component is converted to floating point such that zero intensity maps to 0.0 and full intensity maps to 1.0. Each component is then multiplied by \%\f3GL_c_SCALE\fP and added to \%\f3GL_c_BIAS\fP, where \f2c\fP is RED, GREEN, BLUE, or ALPHA. Finally, if \%\f3GL_MAP_COLOR\fP is \%\f3GL_TRUE\fP, each component is clamped to the range [0,\ 1], scaled to the size of its corresponding table, and is then replaced by its mapping in the table \%\f3GL_PIXEL_MAP_c_TO_c\fP, where \f2c\fP is R, G, B, or A. .IP Unneeded data is then discarded. For example, \%\f3GL_RED\fP discards the green, blue, and alpha components, while \%\f3GL_RGB\fP discards only the alpha component. \%\f3GL_LUMINANCE\fP computes a single-component value as the sum of the red, green, and blue components, and \%\f3GL_LUMINANCE_ALPHA\fP does the same, while keeping alpha as a second value. The final values are clamped to the range [0,\ 1]. .P The shift, scale, bias, and lookup factors just described are all specified by .br \%\f3glPixelTransfer\fP. The lookup table contents themselves are specified by \%\f3glPixelMap\fP. .P Finally, the indices or components are converted to the proper , as specified by \f2type\fP. If \f2format\fP is \%\f3GL_COLOR_INDEX\fP or \%\f3GL_STENCIL_INDEX\fP and \f2type\fP is not \%\f3GL_FLOAT\fP, each index is masked with the mask value given in the following table. If \f2type\fP is \%\f3GL_FLOAT\fP, then each integer index is converted to single-precision floating-point . .P If \f2format\fP is \%\f3GL_RED\fP, \%\f3GL_GREEN\fP, \%\f3GL_BLUE\fP, \%\f3GL_ALPHA\fP, \%\f3GL_RGB\fP, \%\f3GL_BGR\fP, \%\f3GL_RGBA\fP, \%\f3GL_BGRA\fP, \%\f3GL_LUMINANCE\fP, or \%\f3GL_LUMINANCE_ALPHA\fP and \f2type\fP is not \%\f3GL_FLOAT\fP, each component is multiplied by the multiplier shown in the following table. If type is \%\f3GL_FLOAT\fP, then each component is passed as is (or converted to the client's single-precision floating-point if it is different from the one used by the GL). .P .TS center tab(:); l cb cb l c c. _ \f2type\fP:index mask:component conversion _ .sp .5 \%\f3GL_UNSIGNED_BYTE\fP:$2"^"8 - 1$:$(2"^"8 - 1) c$ \%\f3GL_BYTE\fP:$2"^"7 - 1$:$[(2"^"8 - 1) c - 1] / 2$ \%\f3GL_BITMAP\fP:$1$:$1$ \%\f3GL_UNSIGNED_SHORT\fP:$2"^"16 - 1$:$(2"^"16 - 1) c$ \%\f3GL_SHORT\fP:$2"^"15 - 1$:$[(2"^"16 - 1) c - 1] / 2$ \%\f3GL_UNSIGNED_INT\fP:$2"^"32 - 1$:$(2"^"32 - 1) c$ \%\f3GL_INT\fP:$2"^"31 - 1$:$[(2"^"32 - 1) c - 1] / 2$ \%\f3GL_FLOAT\fP:none:$c$ _ .TE .P Return values are placed in memory as follows. If \f2format\fP is \%\f3GL_COLOR_INDEX\fP, \%\f3GL_STENCIL_INDEX\fP, \%\f3GL_DEPTH_COMPONENT\fP, \%\f3GL_RED\fP, \%\f3GL_GREEN\fP, \%\f3GL_BLUE\fP, \%\f3GL_ALPHA\fP, or \%\f3GL_LUMINANCE\fP, a single value is returned and the data for the $i$th pixel in the $j$th row is placed in location $(j)~"width"~+~i$. \%\f3GL_RGB\fP and \%\f3GL_BGR\fP return three values, \%\f3GL_RGBA\fP and \%\f3GL_BGRA\fP return four values, and \%\f3GL_LUMINANCE_ALPHA\fP returns two values for each pixel, with all values corresponding to a single pixel occupying contiguous space in \f2pixels\fP. Storage parameters set by \%\f3glPixelStore\fP, such as \%\f3GL_PACK_LSB_FIRST\fP and \%\f3GL_PACK_SWAP_BYTES\fP, affect the way that data is written into memory. See \%\f3glPixelStore\fP for a description. .SH NOTES Values for pixels that lie outside the window connected to the current GL context are undefined. .P If an error is generated, no change is made to the contents of \f2pixels\fP. .SH ERRORS \%\f3GL_INVALID_ENUM\fP is generated if \f2format\fP or \f2type\fP is not an accepted value. .P \%\f3GL_INVALID_ENUM\fP is generated if \f2type\fP is \%\f3GL_BITMAP\fP and \f2format\fP is not \%\f3GL_COLOR_INDEX\fP or \%\f3GL_STENCIL_INDEX\fP. .P \%\f3GL_INVALID_VALUE\fP is generated if either \f2width\fP or \f2height\fP is negative. .P \%\f3GL_INVALID_OPERATION\fP is generated if \f2format\fP is \%\f3GL_COLOR_INDEX\fP and the color buffers store RGBA color components. .P \%\f3GL_INVALID_OPERATION\fP is generated if \f2format\fP is \%\f3GL_STENCIL_INDEX\fP and there is no stencil buffer. .P \%\f3GL_INVALID_OPERATION\fP is generated if \f2format\fP is \%\f3GL_DEPTH_COMPONENT\fP and there is no depth buffer. .P \%\f3GL_INVALID_OPERATION\fP is generated if \%\f3glReadPixels\fP is executed between the execution of \%\f3glBegin\fP and the corresponding execution of \%\f3glEnd\fP. .P \%\f3GL_INVALID_OPERATION\fP is generated if \f2type\fP is one of \%\f3GL_UNSIGNED_BYTE_3_3_2\fP, \%\f3GL_UNSIGNED_BYTE_2_3_3_REV\fP, \%\f3GL_UNSIGNED_SHORT_5_6_5\fP, or \%\f3GL_UNSIGNED_SHORT_5_6_5_REV\fP and \f2format\fP is not \%\f3GL_RGB\fP. .P \%\f3GL_INVALID_OPERATION\fP is generated if \f2type\fP is one of \%\f3GL_UNSIGNED_SHORT_4_4_4_4\fP, \%\f3GL_UNSIGNED_SHORT_4_4_4_4_REV\fP, \%\f3GL_UNSIGNED_SHORT_5_5_5_1\fP, \%\f3GL_UNSIGNED_SHORT_1_5_5_5_REV\fP, \%\f3GL_UNSIGNED_INT_8_8_8_8\fP, \%\f3GL_UNSIGNED_INT_8_8_8_8_REV\fP, \%\f3GL_UNSIGNED_INT_10_10_10_2\fP, or \%\f3GL_UNSIGNED_INT_2_10_10_10_REV\fP and \f2format\fP is neither \%\f3GL_RGBA\fP nor \%\f3GL_BGRA\fP. .P The formats \%\f3GL_BGR\fP, and \%\f3GL_BGRA\fP and types \%\f3GL_UNSIGNED_BYTE_3_3_2\fP, \%\f3GL_UNSIGNED_BYTE_2_3_3_REV\fP, \%\f3GL_UNSIGNED_SHORT_5_6_5\fP, \%\f3GL_UNSIGNED_SHORT_5_6_5_REV\fP, \%\f3GL_UNSIGNED_SHORT_4_4_4_4\fP, \%\f3GL_UNSIGNED_SHORT_4_4_4_4_REV\fP, \%\f3GL_UNSIGNED_SHORT_5_5_5_1\fP, \%\f3GL_UNSIGNED_SHORT_1_5_5_5_REV\fP, \%\f3GL_UNSIGNED_INT_8_8_8_8\fP, \%\f3GL_UNSIGNED_INT_8_8_8_8_REV\fP, \%\f3GL_UNSIGNED_INT_10_10_10_2\fP, and \%\f3GL_UNSIGNED_INT_2_10_10_10_REV\fP are available only if the GL version is 1.2 or greater. .SH ASSOCIATED GETS \%\f3glGet\fP with argument \%\f3GL_INDEX_MODE\fP .SH SEE ALSO \%\f3glCopyPixels(3G)\fP, \%\f3glDrawPixels(3G)\fP, \%\f3glPixelMap(3G)\fP, \%\f3glPixelStore(3G)\fP, \%\f3glPixelTransfer(3G)\fP, .br \%\f3glReadBuffer(3G)\fP