--- eplaser/gdevescv.c.orig Fri Jan 24 13:35:28 2003 +++ eplaser/gdevescv.c Tue Mar 25 18:03:39 2003 @@ -37,8 +37,6 @@ */ -#include -#include #include #include "math_.h" @@ -321,30 +319,30 @@ }; /* Vector device implementation */ -private int escv_beginpage(P1(gx_device_vector * vdev)); -private int escv_setfillcolor(P2(gx_device_vector * vdev, const gx_drawing_color * pdc)); -private int escv_setstrokecolor(P2(gx_device_vector * vdev, const gx_drawing_color * pdc)); -private int escv_setdash(P4(gx_device_vector * vdev, const float *pattern, - uint count, floatp offset)); -private int escv_setflat(P2(gx_device_vector * vdev, floatp flatness)); -private int escv_setlogop(P3(gx_device_vector * vdev, gs_logical_operation_t lop, - gs_logical_operation_t diff)); +private int escv_beginpage(gx_device_vector * vdev); +private int escv_setfillcolor(gx_device_vector * vdev, const gx_drawing_color * pdc); +private int escv_setstrokecolor(gx_device_vector * vdev, const gx_drawing_color * pdc); +private int escv_setdash(gx_device_vector * vdev, const float *pattern, + uint count, floatp offset); +private int escv_setflat(gx_device_vector * vdev, floatp flatness); +private int escv_setlogop(gx_device_vector * vdev, gs_logical_operation_t lop, + gs_logical_operation_t diff); private int escv_vector_dorect(gx_device_vector * vdev, fixed x0, fixed y0, fixed x1, fixed y1, gx_path_type_t type); private int escv_vector_dopath(gx_device_vector * vdev, const gx_path * ppath, gx_path_type_t type); -private int escv_beginpath(P2(gx_device_vector * vdev, gx_path_type_t type)); -private int escv_moveto(P6(gx_device_vector * vdev, floatp x0, floatp y0, - floatp x, floatp y, gx_path_type_t type)); -private int escv_lineto(P6(gx_device_vector * vdev, floatp x0, floatp y0, - floatp x, floatp y, gx_path_type_t type)); -private int escv_curveto(P10(gx_device_vector * vdev, floatp x0, floatp y0, +private int escv_beginpath(gx_device_vector * vdev, gx_path_type_t type); +private int escv_moveto(gx_device_vector * vdev, floatp x0, floatp y0, + floatp x, floatp y, gx_path_type_t type); +private int escv_lineto(gx_device_vector * vdev, floatp x0, floatp y0, + floatp x, floatp y, gx_path_type_t type); +private int escv_curveto(gx_device_vector * vdev, floatp x0, floatp y0, floatp x1, floatp y1, floatp x2, floatp y2, - floatp x3, floatp y3, gx_path_type_t type)); -private int escv_closepath(P6(gx_device_vector * vdev, floatp x, floatp y, - floatp x_start, floatp y_start, gx_path_type_t type)); + floatp x3, floatp y3, gx_path_type_t type); +private int escv_closepath(gx_device_vector * vdev, floatp x, floatp y, + floatp x_start, floatp y_start, gx_path_type_t type); -private int escv_endpath(P2(gx_device_vector * vdev, gx_path_type_t type)); +private int escv_endpath(gx_device_vector * vdev, gx_path_type_t type); private int escv_setlinewidth(gx_device_vector * vdev, floatp width); private int escv_setlinecap(gx_device_vector * vdev, gs_line_cap cap); private int escv_setlinejoin(gx_device_vector * vdev, gs_line_join join); @@ -1879,13 +1877,13 @@ /* Process the next piece of an image. */ private int -#if GS_VERSION_MAJOR == 6 +#if GS_VERSION_MAJOR >= 6 escv_image_plane_data(gx_image_enum_common_t *info, const gx_image_plane_t *planes, int height, int *rows_used) #else escv_image_plane_data(gx_device *dev, gx_image_enum_common_t *info, const gx_image_plane_t *planes, int height) #endif { -#if GS_VERSION_MAJOR == 6 +#if GS_VERSION_MAJOR >= 6 gx_device *dev = info->dev; #endif gx_device_vector *const vdev = (gx_device_vector *) dev; @@ -1903,7 +1901,7 @@ { -#if GS_VERSION_MAJOR == 6 +#if GS_VERSION_MAJOR >= 6 if (height == 260) height = 1; #endif @@ -2041,13 +2039,13 @@ private int -#if GS_VERSION_MAJOR == 6 +#if GS_VERSION_MAJOR >= 6 escv_image_end_image(gx_image_enum_common_t * info, bool draw_last) #else escv_image_end_image(gx_device *dev, gx_image_enum_common_t * info, bool draw_last) #endif { -#if GS_VERSION_MAJOR == 6 +#if GS_VERSION_MAJOR >= 6 gx_device *dev = info->dev; #endif gx_device_vector *const vdev = (gx_device_vector *) dev;