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[/] [openrisc/] [trunk/] [rtos/] [ecos-3.0/] [packages/] [io/] [framebuf/] [current/] [src/] [linear.c] - Rev 825
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//========================================================================== // // linear.c // // Generic implementations of some of the driver functions for linear // framebuffers. // //========================================================================== // ####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 2008 Free Software Foundation, Inc. // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later // version. // // eCos is distributed in the hope that it will be useful, but WITHOUT // ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License // along with eCos; if not, write to the Free Software Foundation, Inc., // 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. // // As a special exception, if other files instantiate templates or use // macros or inline functions from this file, or you compile this file // and link it with other works to produce a work based on this file, // this file does not by itself cause the resulting work to be covered by // the GNU General Public License. However the source code for this file // must still be made available in accordance with section (3) of the GNU // General Public License v2. // // This exception does not invalidate any other reasons why a work based // on this file might be covered by the GNU General Public License. // ------------------------------------------- // ####ECOSGPLCOPYRIGHTEND#### //========================================================================== //###DESCRIPTIONBEGIN#### // // Author(s): bartv // Date: 2005-03-29 // //###DESCRIPTIONEND#### //======================================================================== #include <cyg/infra/cyg_type.h> #include <cyg/io/framebuf.h> // The real implementations for most of the functions are actually // inlines held in framebuf.inl. That allows the implementation to be // shared between the functions and the macros. #include <cyg/io/framebuf.inl> // ---------------------------------------------------------------------------- void cyg_fb_linear_write_pixel_1LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_fb_colour colour) { cyg_fb_linear_write_pixel_1LE_inl(fb->fb_base, fb->fb_stride, x, y, colour); } cyg_fb_colour cyg_fb_linear_read_pixel_1LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y) { return cyg_fb_linear_read_pixel_1LE_inl(fb->fb_base, fb->fb_stride, x, y); } void cyg_fb_linear_write_hline_1LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { } void cyg_fb_linear_write_vline_1LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { cyg_fb_linear_write_vline_1LE_inl(fb->fb_base, fb->fb_stride, x, y, len, colour); } void cyg_fb_linear_fill_block_1LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_fb_colour colour) { } void cyg_fb_linear_write_block_1LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, const void* source, cyg_ucount16 offset, cyg_ucount16 source_stride) { } void cyg_fb_linear_read_block_1LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, void* dest, cyg_ucount16 offset, cyg_ucount16 dest_stride) { } void cyg_fb_linear_move_block_1LE_impl(void* fbaddr, cyg_ucount16 stride, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { } void cyg_fb_linear_move_block_1LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { cyg_fb_linear_move_block_1LE_inl(fb->fb_base, fb->fb_stride, x, y, width, height, new_x, new_y); } // ---------------------------------------------------------------------------- void cyg_fb_linear_write_pixel_1BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_fb_colour colour) { cyg_fb_linear_write_pixel_1BE_inl(fb->fb_base, fb->fb_stride, x, y, colour); } cyg_fb_colour cyg_fb_linear_read_pixel_1BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y) { return cyg_fb_linear_read_pixel_1BE_inl(fb->fb_base, fb->fb_stride, x, y); } void cyg_fb_linear_write_hline_1BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { } void cyg_fb_linear_write_vline_1BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { cyg_fb_linear_write_vline_1BE_inl(fb->fb_base, fb->fb_stride, x, y, len, colour); } void cyg_fb_linear_fill_block_1BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_fb_colour colour) { } void cyg_fb_linear_write_block_1BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, const void* source, cyg_ucount16 offset, cyg_ucount16 source_stride) { } void cyg_fb_linear_read_block_1BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, void* dest, cyg_ucount16 offset, cyg_ucount16 dest_stride) { } void cyg_fb_linear_move_block_1BE_impl(void* fbaddr, cyg_ucount16 stride, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { } void cyg_fb_linear_move_block_1BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { cyg_fb_linear_move_block_1LE_inl(fb->fb_base, fb->fb_stride, x, y, width, height, new_x, new_y); } // ---------------------------------------------------------------------------- void cyg_fb_linear_write_pixel_2LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_fb_colour colour) { cyg_fb_linear_write_pixel_2LE_inl(fb->fb_base, fb->fb_stride, x, y, colour); } cyg_fb_colour cyg_fb_linear_read_pixel_2LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y) { return cyg_fb_linear_read_pixel_2LE_inl(fb->fb_base, fb->fb_stride, x, y); } void cyg_fb_linear_write_hline_2LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { } void cyg_fb_linear_write_vline_2LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { cyg_fb_linear_write_vline_2LE_inl(fb->fb_base, fb->fb_stride, x, y, len, colour); } void cyg_fb_linear_fill_block_2LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_fb_colour colour) { } void cyg_fb_linear_write_block_2LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, const void* source, cyg_ucount16 offset, cyg_ucount16 source_stride) { } void cyg_fb_linear_read_block_2LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, void* dest, cyg_ucount16 offset, cyg_ucount16 dest_stride) { } void cyg_fb_linear_move_block_2LE_impl(void* fbaddr, cyg_ucount16 stride, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { } void cyg_fb_linear_move_block_2LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { cyg_fb_linear_move_block_2LE_inl(fb->fb_base, fb->fb_stride, x, y, width, height, new_x, new_y); } // ---------------------------------------------------------------------------- void cyg_fb_linear_write_pixel_2BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_fb_colour colour) { cyg_fb_linear_write_pixel_2BE_inl(fb->fb_base, fb->fb_stride, x, y, colour); } cyg_fb_colour cyg_fb_linear_read_pixel_2BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y) { return cyg_fb_linear_read_pixel_2BE_inl(fb->fb_base, fb->fb_stride, x, y); } void cyg_fb_linear_write_hline_2BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { } void cyg_fb_linear_write_vline_2BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { cyg_fb_linear_write_vline_2BE_inl(fb->fb_base, fb->fb_stride, x, y, len, colour); } void cyg_fb_linear_fill_block_2BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_fb_colour colour) { } void cyg_fb_linear_write_block_2BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, const void* source, cyg_ucount16 offset, cyg_ucount16 source_stride) { } void cyg_fb_linear_read_block_2BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, void* dest, cyg_ucount16 offset, cyg_ucount16 dest_stride) { } void cyg_fb_linear_move_block_2BE_impl(void* fbaddr, cyg_ucount16 stride, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { } void cyg_fb_linear_move_block_2BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { cyg_fb_linear_move_block_2BE_inl(fb->fb_base, fb->fb_stride, x, y, width, height, new_x, new_y); } // ---------------------------------------------------------------------------- void cyg_fb_linear_write_pixel_4LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_fb_colour colour) { cyg_fb_linear_write_pixel_4LE_inl(fb->fb_base, fb->fb_stride, x, y, colour); } cyg_fb_colour cyg_fb_linear_read_pixel_4LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y) { return cyg_fb_linear_read_pixel_4LE_inl(fb->fb_base, fb->fb_stride, x, y); } void cyg_fb_linear_write_hline_4LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { } void cyg_fb_linear_write_vline_4LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { cyg_fb_linear_write_vline_4LE_inl(fb->fb_base, fb->fb_stride, x, y, len, colour); } void cyg_fb_linear_fill_block_4LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_fb_colour colour) { } void cyg_fb_linear_write_block_4LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, const void* source, cyg_ucount16 offset, cyg_ucount16 source_stride) { } void cyg_fb_linear_read_block_4LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, void* dest, cyg_ucount16 offset, cyg_ucount16 dest_stride) { } void cyg_fb_linear_move_block_4LE_impl(void* fbaddr, cyg_ucount16 stride, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { } void cyg_fb_linear_move_block_4LE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { cyg_fb_linear_move_block_4LE_inl(fb->fb_base, fb->fb_stride, x, y, width, height, new_x, new_y); } // ---------------------------------------------------------------------------- void cyg_fb_linear_write_pixel_4BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_fb_colour colour) { cyg_fb_linear_write_pixel_4BE_inl(fb->fb_base, fb->fb_stride, x, y, colour); } cyg_fb_colour cyg_fb_linear_read_pixel_4BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y) { return cyg_fb_linear_read_pixel_4BE_inl(fb->fb_base, fb->fb_stride, x, y); } void cyg_fb_linear_write_hline_4BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { cyg_fb_linear_write_vline_4BE_inl(fb->fb_base, fb->fb_stride, x, y, len, colour); } void cyg_fb_linear_write_vline_4BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { } void cyg_fb_linear_fill_block_4BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_fb_colour colour) { } void cyg_fb_linear_write_block_4BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, const void* source, cyg_ucount16 offset, cyg_ucount16 source_stride) { } void cyg_fb_linear_read_block_4BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, void* dest, cyg_ucount16 offset, cyg_ucount16 dest_stride) { } void cyg_fb_linear_move_block_4BE_impl(void* fbaddr, cyg_ucount16 stride, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { } void cyg_fb_linear_move_block_4BE(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { cyg_fb_linear_move_block_4BE_inl(fb->fb_base, fb->fb_stride, x, y, width, height, new_x, new_y); } // ---------------------------------------------------------------------------- void cyg_fb_linear_write_pixel_8(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_fb_colour colour) { cyg_fb_linear_write_pixel_8_inl(fb->fb_base, fb->fb_stride, x, y, colour); } cyg_fb_colour cyg_fb_linear_read_pixel_8(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y) { return cyg_fb_linear_read_pixel_8_inl(fb->fb_base, fb->fb_stride, x, y); } void cyg_fb_linear_write_hline_8(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { cyg_fb_linear_write_hline_8_inl(fb->fb_base, fb->fb_stride, x, y, len, colour); } void cyg_fb_linear_write_vline_8(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { cyg_fb_linear_write_vline_8_inl(fb->fb_base, fb->fb_stride, x, y, len, colour); } void cyg_fb_linear_fill_block_8(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_fb_colour colour) { cyg_fb_linear_fill_block_8_inl(fb->fb_base, fb->fb_stride, x, y, width, height, colour); } void cyg_fb_linear_write_block_8(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, const void* source, cyg_ucount16 offset, cyg_ucount16 source_stride) { cyg_fb_linear_write_block_8_inl(fb->fb_base, fb->fb_stride, x, y, width, height, source, offset, source_stride); } void cyg_fb_linear_read_block_8(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, void* dest, cyg_ucount16 offset, cyg_ucount16 dest_stride) { cyg_fb_linear_read_block_8_inl(fb->fb_base, fb->fb_stride, x, y, width, height, dest, offset, dest_stride); } void cyg_fb_linear_move_block_8_impl(void* fbaddr, cyg_ucount16 stride, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { cyg_uint8* source; cyg_uint8* dest; int i; source = ((cyg_uint8*)fbaddr) + ( y * stride) + x; dest = ((cyg_uint8*)fbaddr) + (new_y * stride) + new_x; if ((new_y < y) || // Possible overlapping blocks but no conflict (new_y > (y + height)) || // No overlap ((new_x + width) < x) || // No overlap (new_x > (x + width))) { // No overlap for ( ; height; height--) { __builtin_memcpy(dest, source, width); source += stride; dest += stride; } return; } // There is an overlap. Can we do a safe bottom-to-top lot of memcpy()'s ? if (new_y > y) { source += (height * stride); dest += (height * stride); for ( ; height; height--) { source -= stride; dest -= stride; __builtin_memcpy(dest, source, width); } return; } // We must have (y == new_y) and an overlap, i.e. a short // horizontal move. We could use memmove() but the default // implementation is no better than what we can do here. if (new_x < x) { stride -= width; for ( ; height; height--) { for ( i = width; i ; i--) { *dest++ = *source++; } source += stride; dest += stride; } } else if (new_x > x) { source += width; dest += width; stride += width; for ( ; height; height--) { for ( i = width; i; i--) { *--dest = *--source; } source += stride; dest += stride; } } } void cyg_fb_linear_move_block_8(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { cyg_fb_linear_move_block_8_inl(fb->fb_base, fb->fb_stride, x, y, width, height, new_x, new_y); } // ---------------------------------------------------------------------------- void cyg_fb_linear_write_pixel_16(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_fb_colour colour) { cyg_fb_linear_write_pixel_16_inl(fb->fb_base, fb->fb_stride, x, y, colour); } cyg_fb_colour cyg_fb_linear_read_pixel_16(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y) { return cyg_fb_linear_read_pixel_16_inl(fb->fb_base, fb->fb_stride, x, y); } void cyg_fb_linear_write_hline_16(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { cyg_fb_linear_write_hline_16_inl(fb->fb_base, fb->fb_stride, x, y, len, colour); } void cyg_fb_linear_write_vline_16(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { cyg_fb_linear_write_vline_16_inl(fb->fb_base, fb->fb_stride, x, y, len, colour); } void cyg_fb_linear_fill_block_16(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_fb_colour colour) { cyg_fb_linear_fill_block_16_inl(fb->fb_base, fb->fb_stride, x, y, width, height, colour); } void cyg_fb_linear_write_block_16(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, const void* source, cyg_ucount16 offset, cyg_ucount16 source_stride) { cyg_fb_linear_write_block_16_inl(fb->fb_base, fb->fb_stride, x, y, width, height, source, offset, source_stride); } void cyg_fb_linear_read_block_16(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, void* dest, cyg_ucount16 offset, cyg_ucount16 dest_stride) { cyg_fb_linear_read_block_16_inl(fb->fb_base, fb->fb_stride, x, y, width, height, dest, offset, dest_stride); } void cyg_fb_linear_move_block_16_impl(void* fbaddr, cyg_ucount16 stride8, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { cyg_uint16* source; cyg_uint16* dest; int i; source = ((cyg_uint16*)(((cyg_uint8*)fbaddr) + ( y * stride8))) + x; dest = ((cyg_uint16*)(((cyg_uint8*)fbaddr) + (new_y * stride8))) + new_x; if ((new_y < y) || // Possible overlapping blocks but no conflict (new_y > (y + height)) || // No overlap ((new_x + width) < x) || // No overlap (new_x > (x + width))) { // No overlap width <<= 1; for ( ; height; height--) { __builtin_memcpy(dest, source, width); source = (cyg_uint16*)(((cyg_uint8*)source) + stride8); dest = (cyg_uint16*)(((cyg_uint8*)source) + stride8); } return; } // There is an overlap. Can we do a safe bottom-to-top lot of memcpy()'s ? if (new_y > y) { source = (cyg_uint16*)(((cyg_uint8*)source) + (height * stride8)); dest = (cyg_uint16*)(((cyg_uint8*)dest) + (height * stride8)); width <<= 1; for ( ; height; height--) { source = (cyg_uint16*)(((cyg_uint8*)source) - stride8); dest = (cyg_uint16*)(((cyg_uint8*)dest) - stride8); __builtin_memcpy(dest, source, width); } return; } // We must have (y == new_y) and an overlap, i.e. a short // horizontal move. We could use memmove() but the default // implementation is no better than what we can do here. if (new_x < x) { stride8 -= (width << 1); for ( ; height; height--) { for ( i = width; i ; i--) { *dest++ = *source++; } source = (cyg_uint16*)(((cyg_uint8*)source) + stride8); dest = (cyg_uint16*)(((cyg_uint8*)dest) + stride8); } } else if (new_x > x) { source += width; dest += width; stride8 += (width << 1); for ( ; height; height--) { for ( i = width; i ; i--) { *--dest = *--source; } source = (cyg_uint16*)(((cyg_uint8*)source) + stride8); dest = (cyg_uint16*)(((cyg_uint8*)dest) + stride8); } } } void cyg_fb_linear_move_block_16(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { cyg_fb_linear_move_block_16_inl(fb->fb_base, fb->fb_stride, x, y, width, height, new_x, new_y); } // ---------------------------------------------------------------------------- void cyg_fb_linear_write_pixel_32(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_fb_colour colour) { cyg_fb_linear_write_pixel_32_inl(fb->fb_base, fb->fb_stride, x, y, colour); } cyg_fb_colour cyg_fb_linear_read_pixel_32(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y) { return cyg_fb_linear_read_pixel_32_inl(fb->fb_base, fb->fb_stride, x, y); } void cyg_fb_linear_write_hline_32(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { cyg_fb_linear_write_hline_32_inl(fb->fb_base, fb->fb_stride, x, y, len, colour); } void cyg_fb_linear_write_vline_32(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 len, cyg_fb_colour colour) { cyg_fb_linear_write_vline_32_inl(fb->fb_base, fb->fb_stride, x, y, len, colour); } void cyg_fb_linear_fill_block_32(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_fb_colour colour) { cyg_fb_linear_fill_block_32_inl(fb->fb_base, fb->fb_stride, x, y, width, height, colour); } void cyg_fb_linear_write_block_32(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, const void* source, cyg_ucount16 offset, cyg_ucount16 source_stride) { cyg_fb_linear_write_block_32_inl(fb->fb_base, fb->fb_stride, x, y, width, height, source, offset, source_stride); } void cyg_fb_linear_read_block_32(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, void* dest, cyg_ucount16 offset, cyg_ucount16 dest_stride) { cyg_fb_linear_read_block_32_inl(fb->fb_base, fb->fb_stride, x, y, width, height, dest, offset, dest_stride); } void cyg_fb_linear_move_block_32_impl(void* fbaddr, cyg_ucount16 stride8, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { cyg_uint32* source; cyg_uint32* dest; int i; source = ((cyg_uint32*)(((cyg_uint8*)fbaddr) + ( y * stride8))) + x; dest = ((cyg_uint32*)(((cyg_uint8*)fbaddr) + (new_y * stride8))) + new_x; if ((new_y < y) || // Possible overlapping blocks but no conflict (new_y > (y + height)) || // No overlap ((new_x + width) < x) || // No overlap (new_x > (x + width))) { // No overlap width <<= 2; for ( ; height; height--) { __builtin_memcpy(dest, source, width); source = (cyg_uint32*)(((cyg_uint8*)source) + stride8); dest = (cyg_uint32*)(((cyg_uint8*)source) + stride8); } return; } // There is an overlap. Can we do a safe bottom-to-top lot of memcpy()'s ? if (new_y > y) { source = (cyg_uint32*)(((cyg_uint8*)source) + (height * stride8)); dest = (cyg_uint32*)(((cyg_uint8*)dest) + (height * stride8)); width <<= 2; for ( ; height; height--) { source = (cyg_uint32*)(((cyg_uint8*)source) - stride8); dest = (cyg_uint32*)(((cyg_uint8*)dest) - stride8); __builtin_memcpy(dest, source, width); } return; } // We must have (y == new_y) and an overlap, i.e. a short // horizontal move. We could use memmove() but the default // implementation is no better than what we can do here. if (new_x < x) { stride8 -= (width << 2); for ( ; height; height--) { for ( i = width; i ; i--) { *dest++ = *source++; } source = (cyg_uint32*)(((cyg_uint8*)source) + stride8); dest = (cyg_uint32*)(((cyg_uint8*)dest) + stride8); } } else if (new_x > x) { source += width; dest += width; stride8 += (width << 2); for ( ; height; height--) { for ( i = width; i ; i--) { *--dest = *--source; } source = (cyg_uint32*)(((cyg_uint8*)source) + stride8); dest = (cyg_uint32*)(((cyg_uint8*)dest) + stride8); } } } void cyg_fb_linear_move_block_32(cyg_fb* fb, cyg_ucount16 x, cyg_ucount16 y, cyg_ucount16 width, cyg_ucount16 height, cyg_ucount16 new_x, cyg_ucount16 new_y) { cyg_fb_linear_move_block_32_inl(fb->fb_base, fb->fb_stride, x, y, width, height, new_x, new_y); }
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